diff options
Diffstat (limited to 'hge/CxImage')
58 files changed, 0 insertions, 28563 deletions
diff --git a/hge/CxImage/license.txt b/hge/CxImage/license.txt deleted file mode 100644 index 1ea1f04..0000000 --- a/hge/CxImage/license.txt +++ /dev/null @@ -1,48 +0,0 @@ -This copy of the CxImage notices is provided for your convenience. In case of
-any discrepancy between this copy and the notices in the file ximage.h that is
-included in the CxImage distribution, the latter shall prevail.
-
-If you modify CxImage you may insert additional notices immediately following
-this sentence.
-
---------------------------------------------------------------------------------
-
-COPYRIGHT NOTICE, DISCLAIMER, and LICENSE:
-
-CxImage version 7.0.0 31/Dec/2010
-
-CxImage : Copyright (C) 2001 - 2010, Davide Pizzolato
-
-Original CImage and CImageIterator implementation are:
-Copyright (C) 1995, Alejandro Aguilar Sierra (asierra(at)servidor(dot)unam(dot)mx)
-
-Covered code is provided under this license on an "as is" basis, without warranty
-of any kind, either expressed or implied, including, without limitation, warranties
-that the covered code is free of defects, merchantable, fit for a particular purpose
-or non-infringing. The entire risk as to the quality and performance of the covered
-code is with you. Should any covered code prove defective in any respect, you (not
-the initial developer or any other contributor) assume the cost of any necessary
-servicing, repair or correction. This disclaimer of warranty constitutes an essential
-part of this license. No use of any covered code is authorized hereunder except under
-this disclaimer.
-
-Permission is hereby granted to use, copy, modify, and distribute this
-source code, or portions hereof, for any purpose, including commercial applications,
-freely and without fee, subject to the following restrictions:
-
-1. The origin of this software must not be misrepresented; you must not
-claim that you wrote the original software. If you use this software
-in a product, an acknowledgment in the product documentation would be
-appreciated but is not required.
-
-2. Altered source versions must be plainly marked as such, and must not be
-misrepresented as being the original software.
-
-3. This notice may not be removed or altered from any source distribution.
-
---------------------------------------------------------------------------------
-
-Other information: about CxImage, and the latest version, can be found at the
-CxImage home page: http://www.xdp.it
-
---------------------------------------------------------------------------------
diff --git a/hge/CxImage/stdint.h b/hge/CxImage/stdint.h deleted file mode 100644 index 2e93323..0000000 --- a/hge/CxImage/stdint.h +++ /dev/null @@ -1,249 +0,0 @@ -// ISO C9x compliant stdint.h for Microsoft Visual Studio -// Based on ISO/IEC 9899:TC2 Committee draft (May 6, 2005) WG14/N1124 -// -// Copyright (c) 2006-2008 Alexander Chemeris -// -// Redistribution and use in source and binary forms, with or without -// modification, are permitted provided that the following conditions are met: -// -// 1. Redistributions of source code must retain the above copyright notice, -// this list of conditions and the following disclaimer. -// -// 2. Redistributions in binary form must reproduce the above copyright -// notice, this list of conditions and the following disclaimer in the -// documentation and/or other materials provided with the distribution. -// -// 3. The name of the author may be used to endorse or promote products -// derived from this software without specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED -// WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF -// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO -// EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, -// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; -// OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, -// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR -// OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -// ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -// -/////////////////////////////////////////////////////////////////////////////// - -#ifndef _MSC_VER // [ -#error "Use this header only with Microsoft Visual C++ compilers!" -#endif // _MSC_VER ] - -#ifndef _MSC_STDINT_H_ // [ -#define _MSC_STDINT_H_ - -#if _MSC_VER > 1000 -#pragma once -#endif - -#include <limits.h> - -// For Visual Studio 6 in C++ mode and for many Visual Studio versions when -// compiling for ARM we should wrap <wchar.h> include with 'extern "C++" {}' -// or compiler give many errors like this: -// error C2733: second C linkage of overloaded function 'wmemchr' not allowed -/*
-#ifdef __cplusplus -extern "C" { -#endif -# include <wchar.h> -#ifdef __cplusplus -} -#endif -*/
- -// Define _W64 macros to mark types changing their size, like intptr_t. -#ifndef _W64 -# if !defined(__midl) && (defined(_X86_) || defined(_M_IX86)) && _MSC_VER >= 1300 -# define _W64 __w64 -# else -# define _W64 -# endif -#endif - - -// 7.18.1 Integer types - -// 7.18.1.1 Exact-width integer types - -// Visual Studio 6 and Embedded Visual C++ 4 doesn't -// realize that, e.g. char has the same size as __int8 -// so we give up on __intX for them. -#if (_MSC_VER < 1300) - typedef signed char int8_t; - typedef signed short int16_t; - typedef signed int int32_t; - typedef unsigned char uint8_t; - typedef unsigned short uint16_t; - typedef unsigned int uint32_t; -#else - typedef signed __int8 int8_t; - typedef signed __int16 int16_t; - typedef signed __int32 int32_t; - typedef unsigned __int8 uint8_t; - typedef unsigned __int16 uint16_t; - typedef unsigned __int32 uint32_t; -#endif -typedef signed __int64 int64_t; -typedef unsigned __int64 uint64_t; - - -// 7.18.1.2 Minimum-width integer types -typedef int8_t int_least8_t; -typedef int16_t int_least16_t; -typedef int32_t int_least32_t; -typedef int64_t int_least64_t; -typedef uint8_t uint_least8_t; -typedef uint16_t uint_least16_t; -typedef uint32_t uint_least32_t; -typedef uint64_t uint_least64_t; - -// 7.18.1.3 Fastest minimum-width integer types -typedef int8_t int_fast8_t; -typedef int16_t int_fast16_t; -typedef int32_t int_fast32_t; -typedef int64_t int_fast64_t; -typedef uint8_t uint_fast8_t; -typedef uint16_t uint_fast16_t; -typedef uint32_t uint_fast32_t; -typedef uint64_t uint_fast64_t; - -// 7.18.1.4 Integer types capable of holding object pointers -#ifdef _WIN64 // [ - typedef signed __int64 intptr_t; - typedef unsigned __int64 uintptr_t; -#else // _WIN64 ][ - typedef _W64 signed int intptr_t; - typedef _W64 unsigned int uintptr_t; -#endif // _WIN64 ] - -// 7.18.1.5 Greatest-width integer types -typedef int64_t intmax_t; -typedef uint64_t uintmax_t; - - -// 7.18.2 Limits of specified-width integer types - -#if !defined(__cplusplus) || defined(__STDC_LIMIT_MACROS) // [ See footnote 220 at page 257 and footnote 221 at page 259 - -// 7.18.2.1 Limits of exact-width integer types -#define INT8_MIN ((int8_t)_I8_MIN) -#define INT8_MAX _I8_MAX -#define INT16_MIN ((int16_t)_I16_MIN) -#define INT16_MAX _I16_MAX -#define INT32_MIN ((int32_t)_I32_MIN) -#define INT32_MAX _I32_MAX -#define INT64_MIN ((int64_t)_I64_MIN) -#define INT64_MAX _I64_MAX -#define UINT8_MAX _UI8_MAX -#define UINT16_MAX _UI16_MAX -#define UINT32_MAX _UI32_MAX -#define UINT64_MAX _UI64_MAX - -// 7.18.2.2 Limits of minimum-width integer types -#define INT_LEAST8_MIN INT8_MIN -#define INT_LEAST8_MAX INT8_MAX -#define INT_LEAST16_MIN INT16_MIN -#define INT_LEAST16_MAX INT16_MAX -#define INT_LEAST32_MIN INT32_MIN -#define INT_LEAST32_MAX INT32_MAX -#define INT_LEAST64_MIN INT64_MIN -#define INT_LEAST64_MAX INT64_MAX -#define UINT_LEAST8_MAX UINT8_MAX -#define UINT_LEAST16_MAX UINT16_MAX -#define UINT_LEAST32_MAX UINT32_MAX -#define UINT_LEAST64_MAX UINT64_MAX - -// 7.18.2.3 Limits of fastest minimum-width integer types -#define INT_FAST8_MIN INT8_MIN -#define INT_FAST8_MAX INT8_MAX -#define INT_FAST16_MIN INT16_MIN -#define INT_FAST16_MAX INT16_MAX -#define INT_FAST32_MIN INT32_MIN -#define INT_FAST32_MAX INT32_MAX -#define INT_FAST64_MIN INT64_MIN -#define INT_FAST64_MAX INT64_MAX -#define UINT_FAST8_MAX UINT8_MAX -#define UINT_FAST16_MAX UINT16_MAX -#define UINT_FAST32_MAX UINT32_MAX -#define UINT_FAST64_MAX UINT64_MAX - -// 7.18.2.4 Limits of integer types capable of holding object pointers -#ifdef _WIN64 // [ -# define INTPTR_MIN INT64_MIN -# define INTPTR_MAX INT64_MAX -# define UINTPTR_MAX UINT64_MAX -#else // _WIN64 ][ -# define INTPTR_MIN INT32_MIN -# define INTPTR_MAX INT32_MAX -# define UINTPTR_MAX UINT32_MAX -#endif // _WIN64 ] - -// 7.18.2.5 Limits of greatest-width integer types -#define INTMAX_MIN INT64_MIN -#define INTMAX_MAX INT64_MAX -#define UINTMAX_MAX UINT64_MAX - -// 7.18.3 Limits of other integer types - -#ifdef _WIN64 // [ -# define PTRDIFF_MIN _I64_MIN -# define PTRDIFF_MAX _I64_MAX -#else // _WIN64 ][ -# define PTRDIFF_MIN _I32_MIN -# define PTRDIFF_MAX _I32_MAX -#endif // _WIN64 ] - -#define SIG_ATOMIC_MIN INT_MIN -#define SIG_ATOMIC_MAX INT_MAX - -#ifndef SIZE_MAX // [ -# ifdef _WIN64 // [ -# define SIZE_MAX _UI64_MAX -# else // _WIN64 ][ -# define SIZE_MAX _UI32_MAX -# endif // _WIN64 ] -#endif // SIZE_MAX ] - -// WCHAR_MIN and WCHAR_MAX are also defined in <wchar.h> -#ifndef WCHAR_MIN // [ -# define WCHAR_MIN 0 -#endif // WCHAR_MIN ] -#ifndef WCHAR_MAX // [ -# define WCHAR_MAX _UI16_MAX -#endif // WCHAR_MAX ] - -#define WINT_MIN 0 -#define WINT_MAX _UI16_MAX - -#endif // __STDC_LIMIT_MACROS ] - - -// 7.18.4 Limits of other integer types - -#if !defined(__cplusplus) || defined(__STDC_CONSTANT_MACROS) // [ See footnote 224 at page 260 - -// 7.18.4.1 Macros for minimum-width integer constants - -#define INT8_C(val) val##i8 -#define INT16_C(val) val##i16 -#define INT32_C(val) val##i32 -#define INT64_C(val) val##i64 - -#define UINT8_C(val) val##ui8 -#define UINT16_C(val) val##ui16 -#define UINT32_C(val) val##ui32 -#define UINT64_C(val) val##ui64 - -// 7.18.4.2 Macros for greatest-width integer constants -#define INTMAX_C INT64_C -#define UINTMAX_C UINT64_C - -#endif // __STDC_CONSTANT_MACROS ] - - -#endif // _MSC_STDINT_H_ ] diff --git a/hge/CxImage/tif_xfile.cpp b/hge/CxImage/tif_xfile.cpp deleted file mode 100644 index 4d1d79a..0000000 --- a/hge/CxImage/tif_xfile.cpp +++ /dev/null @@ -1,221 +0,0 @@ -/*
- * TIFF file IO, using CxFile.
- */
-
-#ifdef WIN32
- #include <windows.h>
-#endif
-#include <stdio.h>
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_TIF
-
-#include "../tiff/tiffiop.h"
-#include "../tiff/tiffvers.h"
-
-#include "xfile.h"
-
-static tsize_t
-_tiffReadProcEx(thandle_t fd, tdata_t buf, tsize_t size)
-{
- return (tsize_t)((CxFile*)fd)->Read(buf, 1, size);
-}
-
-static tsize_t
-_tiffWriteProcEx(thandle_t fd, tdata_t buf, tsize_t size)
-{
- return (tsize_t)((CxFile*)fd)->Write(buf, 1, size);
-}
-
-static toff_t
-_tiffSeekProcEx(thandle_t fd, toff_t off, int whence)
-{
- if ( off == 0xFFFFFFFF )
- return 0xFFFFFFFF;
- if (!((CxFile*)fd)->Seek(off, whence))
- return 0xFFFFFFFF;
- if (whence == SEEK_SET)
- return off;
-
- return (toff_t)((CxFile*)fd)->Tell();
-}
-
-// Return nonzero if error
-static int
-_tiffCloseProcEx(thandle_t /*fd*/)
-{
-// return !((CxFile*)fd)->Close(); // "//" needed for memory files <DP>
- return 0;
-}
-
-#include <sys/stat.h>
-
-static toff_t
-_tiffSizeProcEx(thandle_t fd)
-{
- return ((CxFile*)fd)->Size();
-}
-
-static int
-_tiffMapProcEx(thandle_t /*fd*/, tdata_t* /*pbase*/, toff_t* /*psize*/)
-{
- return (0);
-}
-
-static void
-_tiffUnmapProcEx(thandle_t /*fd*/, tdata_t /*base*/, toff_t /*size*/)
-{
-}
-
-// Open a TIFF file descriptor for read/writing.
-/*
-TIFF*
-TIFFOpen(const char* name, const char* mode)
-{
- static const char module[] = "TIFFOpen";
- FILE* stream = fopen(name, mode);
- if (stream == NULL)
- {
- TIFFError(module, "%s: Cannot open", name);
- return NULL;
- }
- return (TIFFFdOpen((int)stream, name, mode));
-}
-*/
-
-TIFF*
-_TIFFFdOpen(void* fd, const char* name, const char* mode)
-{
- TIFF* tif;
-
- tif = TIFFClientOpen(name, mode,
- (thandle_t) fd,
- _tiffReadProcEx, _tiffWriteProcEx, _tiffSeekProcEx, _tiffCloseProcEx,
- _tiffSizeProcEx, _tiffMapProcEx, _tiffUnmapProcEx);
- if (tif)
- {
- tif->tif_fd = (int)fd;
- }
- return (tif);
-}
-
-extern "C" TIFF* _TIFFOpenEx(CxFile* stream, const char* mode)
-{
- return (_TIFFFdOpen(stream, "TIFF IMAGE", mode));
-}
-
-#ifdef __GNUC__
-extern char* malloc();
-extern char* realloc();
-#else
-#include <malloc.h>
-#endif
-
-tdata_t
-_TIFFmalloc(tsize_t s)
-{
- return (malloc((size_t) s));
-}
-
-void
-_TIFFfree(tdata_t p)
-{
- free(p);
-}
-
-tdata_t
-_TIFFrealloc(tdata_t p, tsize_t s)
-{
- return (realloc(p, (size_t) s));
-}
-
-void
-_TIFFmemset(tdata_t p, int v, tsize_t c)
-{
- memset(p, v, (size_t) c);
-}
-
-void
-_TIFFmemcpy(tdata_t d, const tdata_t s, tsize_t c)
-{
- memcpy(d, s, (size_t) c);
-}
-
-int
-_TIFFmemcmp(const tdata_t p1, const tdata_t p2, tsize_t c)
-{
- return (memcmp(p1, p2, (size_t) c));
-}
-
-#ifndef UNICODE
-#define DbgPrint wvsprintf
-#define DbgPrint2 wsprintf
-#define DbgMsgBox MessageBox
-#else
-#define DbgPrint wvsprintfA
-#define DbgPrint2 wsprintfA
-#define DbgMsgBox MessageBoxA
-#endif
-
-static void
-Win32WarningHandler(const char* module, const char* fmt, va_list ap)
-{
-#ifdef _DEBUG
-#if (!defined(_CONSOLE) && !defined(_WIN32_WCE) && defined(WIN32))
- LPSTR szTitle;
- LPSTR szTmp;
- LPCSTR szTitleText = "%s Warning";
- LPCSTR szDefaultModule = "TIFFLIB";
- szTmp = (module == NULL) ? (LPSTR)szDefaultModule : (LPSTR)module;
- if ((szTitle = (LPSTR)LocalAlloc(LMEM_FIXED, (strlen(szTmp) +
- strlen(szTitleText) + strlen(fmt) + 128))) == NULL)
- return;
- DbgPrint2(szTitle, szTitleText, szTmp);
- szTmp = szTitle + (strlen(szTitle)+2);
- DbgPrint(szTmp, fmt, ap);
- DbgMsgBox(GetFocus(), szTmp, szTitle, MB_OK | MB_ICONINFORMATION);
- LocalFree(szTitle);
- return;
-#else
- if (module != NULL)
- fprintf(stderr, "%s: ", module);
- fprintf(stderr, "Warning, ");
- vfprintf(stderr, fmt, ap);
- fprintf(stderr, ".\n");
-#endif
-#endif
-}
-TIFFErrorHandler _TIFFwarningHandler = Win32WarningHandler;
-
-static void
-Win32ErrorHandler(const char* module, const char* fmt, va_list ap)
-{
-#ifdef _DEBUG
-#if (!defined(_CONSOLE) && !defined(_WIN32_WCE) && defined(WIN32))
- LPSTR szTitle;
- LPSTR szTmp;
- LPCSTR szTitleText = "%s Error";
- LPCSTR szDefaultModule = "TIFFLIB";
- szTmp = (module == NULL) ? (LPSTR)szDefaultModule : (LPSTR)module;
- if ((szTitle = (LPSTR)LocalAlloc(LMEM_FIXED, (strlen(szTmp) +
- strlen(szTitleText) + strlen(fmt) + 128))) == NULL)
- return;
- DbgPrint2(szTitle, szTitleText, szTmp);
- szTmp = szTitle + (strlen(szTitle)+2);
- DbgPrint(szTmp, fmt, ap);
- DbgMsgBox(GetFocus(), szTmp, szTitle, MB_OK | MB_ICONEXCLAMATION);
- LocalFree(szTitle);
- return;
-#else
- if (module != NULL)
- fprintf(stderr, "%s: ", module);
- vfprintf(stderr, fmt, ap);
- fprintf(stderr, ".\n");
-#endif
-#endif
-}
-TIFFErrorHandler _TIFFerrorHandler = Win32ErrorHandler;
-
-#endif
-
diff --git a/hge/CxImage/xfile.h b/hge/CxImage/xfile.h deleted file mode 100644 index 6de281c..0000000 --- a/hge/CxImage/xfile.h +++ /dev/null @@ -1,79 +0,0 @@ -/*
- * File: xfile.h
- * Purpose: General Purpose File Class
- */
-/*
- --------------------------------------------------------------------------------
-
- COPYRIGHT NOTICE, DISCLAIMER, and LICENSE:
-
- CxFile (c) 11/May/2002 Davide Pizzolato - www.xdp.it
- CxFile version 2.00 23/Aug/2002
- CxFile version 2.10 16/Dec/2007
-
- Special thanks to Chris Shearer Cooper for new features, enhancements and bugfixes
-
- Covered code is provided under this license on an "as is" basis, without warranty
- of any kind, either expressed or implied, including, without limitation, warranties
- that the covered code is free of defects, merchantable, fit for a particular purpose
- or non-infringing. The entire risk as to the quality and performance of the covered
- code is with you. Should any covered code prove defective in any respect, you (not
- the initial developer or any other contributor) assume the cost of any necessary
- servicing, repair or correction. This disclaimer of warranty constitutes an essential
- part of this license. No use of any covered code is authorized hereunder except under
- this disclaimer.
-
- Permission is hereby granted to use, copy, modify, and distribute this
- source code, or portions hereof, for any purpose, including commercial applications,
- freely and without fee, subject to the following restrictions:
-
- 1. The origin of this software must not be misrepresented; you must not
- claim that you wrote the original software. If you use this software
- in a product, an acknowledgment in the product documentation would be
- appreciated but is not required.
-
- 2. Altered source versions must be plainly marked as such, and must not be
- misrepresented as being the original software.
-
- 3. This notice may not be removed or altered from any source distribution.
- --------------------------------------------------------------------------------
- */
-#if !defined(__xfile_h)
-#define __xfile_h
-
-#if defined (WIN32) || defined (_WIN32_WCE)
- #include <windows.h>
-#endif
-
-#include <stdio.h>
-#include <stdlib.h>
-
-#include "ximadef.h"
-
-class DLL_EXP CxFile
-{
-public:
- CxFile(void) { };
- virtual ~CxFile() { };
-
- virtual bool Close() = 0;
- virtual size_t Read(void *buffer, size_t size, size_t count) = 0;
- virtual size_t Write(const void *buffer, size_t size, size_t count) = 0;
- virtual bool Seek(int32_t offset, int32_t origin) = 0;
- virtual int32_t Tell() = 0;
- virtual int32_t Size() = 0;
- virtual bool Flush() = 0;
- virtual bool Eof() = 0;
- virtual int32_t Error() = 0;
- virtual bool PutC(uint8_t c)
- {
- // Default implementation
- size_t nWrote = Write(&c, 1, 1);
- return (bool)(nWrote == 1);
- }
- virtual int32_t GetC() = 0;
- virtual char * GetS(char *string, int32_t n) = 0;
- virtual int32_t Scanf(const char *format, void* output) = 0;
-};
-
-#endif //__xfile_h
diff --git a/hge/CxImage/ximabmp.cpp b/hge/CxImage/ximabmp.cpp deleted file mode 100644 index c173c7d..0000000 --- a/hge/CxImage/ximabmp.cpp +++ /dev/null @@ -1,448 +0,0 @@ -/*
- * File: ximabmp.cpp
- * Purpose: Platform Independent BMP Image Class Loader and Writer
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximabmp.h"
-
-#if CXIMAGE_SUPPORT_BMP
-
-#include "ximaiter.h"
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageBMP::Encode(CxFile * hFile)
-{
-
- if (EncodeSafeCheck(hFile)) return false;
-
- BITMAPFILEHEADER hdr;
-
- hdr.bfType = 0x4d42; // 'BM' WINDOWS_BITMAP_SIGNATURE
- hdr.bfSize = GetSize() + 14 /*sizeof(BITMAPFILEHEADER)*/;
- hdr.bfReserved1 = hdr.bfReserved2 = 0;
- hdr.bfOffBits = 14 /*sizeof(BITMAPFILEHEADER)*/ + head.biSize + GetPaletteSize();
-
- hdr.bfType = m_ntohs(hdr.bfType);
- hdr.bfSize = m_ntohl(hdr.bfSize);
- hdr.bfOffBits = m_ntohl(hdr.bfOffBits);
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (GetNumColors()==0 && AlphaIsValid()){
-
- BITMAPINFOHEADER infohdr;
- memcpy(&infohdr,&head,sizeof(BITMAPINFOHEADER));
- infohdr.biCompression = BI_RGB;
- infohdr.biBitCount = 32;
- uint32_t dwEffWidth = ((((infohdr.biBitCount * infohdr.biWidth) + 31) / 32) * 4);
- infohdr.biSizeImage = dwEffWidth * infohdr.biHeight;
-
- hdr.bfSize = infohdr.biSize + infohdr.biSizeImage + 14 /*sizeof(BITMAPFILEHEADER)*/;
-
- hdr.bfSize = m_ntohl(hdr.bfSize);
- bihtoh(&infohdr);
-
- // Write the file header
- hFile->Write(&hdr,min(14,sizeof(BITMAPFILEHEADER)),1);
- hFile->Write(&infohdr,sizeof(BITMAPINFOHEADER),1);
- //and DIB+ALPHA interlaced
- uint8_t *srcalpha = AlphaGetPointer();
- for(int32_t y = 0; y < infohdr.biHeight; ++y){
- uint8_t *srcdib = GetBits(y);
- for(int32_t x = 0; x < infohdr.biWidth; ++x){
- hFile->Write(srcdib,3,1);
- hFile->Write(srcalpha,1,1);
- srcdib += 3;
- ++srcalpha;
- }
- }
-
- } else
-#endif //CXIMAGE_SUPPORT_ALPHA
- {
- // Write the file header
- hFile->Write(&hdr,min(14,sizeof(BITMAPFILEHEADER)),1);
- //copy attributes
- memcpy(pDib,&head,sizeof(BITMAPINFOHEADER));
- bihtoh((BITMAPINFOHEADER*)pDib);
- // Write the DIB header and the pixels
- hFile->Write(pDib,GetSize(),1);
- bihtoh((BITMAPINFOHEADER*)pDib);
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageBMP::Decode(CxFile * hFile)
-{
- if (hFile == NULL) return false;
-
- BITMAPFILEHEADER bf;
- uint32_t off = hFile->Tell(); //<CSC>
- cx_try {
- if (hFile->Read(&bf,min(14,sizeof(bf)),1)==0) cx_throw("Not a BMP");
-
- bf.bfSize = m_ntohl(bf.bfSize);
- bf.bfOffBits = m_ntohl(bf.bfOffBits);
-
- if (m_ntohs(bf.bfType) != BFT_BITMAP) { //do we have a RC HEADER?
- bf.bfOffBits = 0L;
- hFile->Seek(off,SEEK_SET);
- }
-
- BITMAPINFOHEADER bmpHeader;
- if (!DibReadBitmapInfo(hFile,&bmpHeader)); cx_throw("Error reading BMP info");
- uint32_t dwCompression=bmpHeader.biCompression;
- uint32_t dwBitCount=bmpHeader.biBitCount; //preserve for BI_BITFIELDS compression <Thomas Ernst>
- bool bIsOldBmp = bmpHeader.biSize == sizeof(BITMAPCOREHEADER);
-
- bool bTopDownDib = bmpHeader.biHeight<0; //<Flanders> check if it's a top-down bitmap
- if (bTopDownDib) bmpHeader.biHeight=-bmpHeader.biHeight;
-
- if (info.nEscape == -1) {
- // Return output dimensions only
- head.biWidth = bmpHeader.biWidth;
- head.biHeight = bmpHeader.biHeight;
- info.dwType = CXIMAGE_FORMAT_BMP;
- cx_throw("output dimensions returned");
- }
-
- if (!Create(bmpHeader.biWidth,bmpHeader.biHeight,bmpHeader.biBitCount,CXIMAGE_FORMAT_BMP))
- cx_throw("");
-
- SetXDPI((int32_t) floor(bmpHeader.biXPelsPerMeter * 254.0 / 10000.0 + 0.5));
- SetYDPI((int32_t) floor(bmpHeader.biYPelsPerMeter * 254.0 / 10000.0 + 0.5));
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- RGBQUAD *pRgb = GetPalette();
- if (pRgb){
- if (bIsOldBmp){
- // convert a old color table (3 byte entries) to a new
- // color table (4 byte entries)
- hFile->Read((void*)pRgb,DibNumColors(&bmpHeader) * sizeof(RGBTRIPLE),1);
- for (int32_t i=DibNumColors(&head)-1; i>=0; i--){
- pRgb[i].rgbRed = ((RGBTRIPLE *)pRgb)[i].rgbtRed;
- pRgb[i].rgbBlue = ((RGBTRIPLE *)pRgb)[i].rgbtBlue;
- pRgb[i].rgbGreen = ((RGBTRIPLE *)pRgb)[i].rgbtGreen;
- pRgb[i].rgbReserved = (uint8_t)0;
- }
- } else {
- hFile->Read((void*)pRgb,DibNumColors(&bmpHeader) * sizeof(RGBQUAD),1);
- //force rgbReserved=0, to avoid problems with some WinXp bitmaps
- for (uint32_t i=0; i<head.biClrUsed; i++) pRgb[i].rgbReserved=0;
- }
- }
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- switch (dwBitCount) {
- case 32 :
- uint32_t bfmask[3];
- if (dwCompression == BI_BITFIELDS)
- {
- hFile->Read(bfmask, 12, 1);
- } else {
- bfmask[0]=0x00FF0000;
- bfmask[1]=0x0000FF00;
- bfmask[2]=0x000000FF;
- }
- if (bf.bfOffBits != 0L) hFile->Seek(off + bf.bfOffBits,SEEK_SET);
- if (dwCompression == BI_BITFIELDS || dwCompression == BI_RGB){
- int32_t imagesize=4*head.biHeight*head.biWidth;
- uint8_t* buff32=(uint8_t*)malloc(imagesize);
- if (buff32){
- hFile->Read(buff32, imagesize,1); // read in the pixels
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (dwCompression == BI_RGB){
- AlphaCreate();
- if (AlphaIsValid()){
- bool bAlphaOk = false;
- uint8_t* p;
- for (int32_t y=0; y<head.biHeight; y++){
- p = buff32 + 3 + head.biWidth * 4 * y;
- for (int32_t x=0; x<head.biWidth; x++){
- if (*p) bAlphaOk = true;
- AlphaSet(x,y,*p);
- p+=4;
- }
- }
- // fix if alpha pixels are all zero
- if (!bAlphaOk) AlphaInvert();
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- Bitfield2RGB(buff32,bfmask[0],bfmask[1],bfmask[2],32);
- free(buff32);
- } else cx_throw("can't allocate memory");
- } else cx_throw("unknown compression");
- break;
- case 24 :
- if (bf.bfOffBits != 0L) hFile->Seek(off + bf.bfOffBits,SEEK_SET);
- if (dwCompression == BI_RGB){
- hFile->Read(info.pImage, head.biSizeImage,1); // read in the pixels
- } else cx_throw("unknown compression");
- break;
- case 16 :
- {
- uint32_t bfmask[3];
- if (dwCompression == BI_BITFIELDS)
- {
- hFile->Read(bfmask, 12, 1);
- } else {
- bfmask[0]=0x7C00; bfmask[1]=0x3E0; bfmask[2]=0x1F; //RGB555
- }
- // bf.bfOffBits required after the bitfield mask <Cui Ying Jie>
- if (bf.bfOffBits != 0L) hFile->Seek(off + bf.bfOffBits,SEEK_SET);
- // read in the pixels
- hFile->Read(info.pImage, head.biHeight*((head.biWidth+1)/2)*4,1);
- // transform into RGB
- Bitfield2RGB(info.pImage,bfmask[0],bfmask[1],bfmask[2],16);
- break;
- }
- case 8 :
- case 4 :
- case 1 :
- if (bf.bfOffBits != 0L) hFile->Seek(off + bf.bfOffBits,SEEK_SET);
- switch (dwCompression) {
- case BI_RGB :
- hFile->Read(info.pImage, head.biSizeImage,1); // read in the pixels
- break;
- case BI_RLE4 :
- {
- uint8_t status_byte = 0;
- uint8_t second_byte = 0;
- int32_t scanline = 0;
- int32_t bits = 0;
- BOOL low_nibble = FALSE;
- CImageIterator iter(this);
-
- for (BOOL bContinue = TRUE; bContinue && hFile->Read(&status_byte, sizeof(uint8_t), 1);) {
-
- switch (status_byte) {
- case RLE_COMMAND :
- hFile->Read(&status_byte, sizeof(uint8_t), 1);
- switch (status_byte) {
- case RLE_ENDOFLINE :
- bits = 0;
- scanline++;
- low_nibble = FALSE;
- break;
- case RLE_ENDOFBITMAP :
- bContinue=FALSE;
- break;
- case RLE_DELTA :
- {
- // read the delta values
- uint8_t delta_x;
- uint8_t delta_y;
- hFile->Read(&delta_x, sizeof(uint8_t), 1);
- hFile->Read(&delta_y, sizeof(uint8_t), 1);
- // apply them
- bits += delta_x / 2;
- scanline += delta_y;
- break;
- }
- default :
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
- uint8_t *sline = iter.GetRow(scanline);
- for (int32_t i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- if (low_nibble) {
- if (i&1)
- *(sline + bits) |= (second_byte & 0x0f);
- else
- *(sline + bits) |= (second_byte & 0xf0)>>4;
- bits++;
- } else {
- if (i&1)
- *(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
- else
- *(sline + bits) = (uint8_t)(second_byte & 0xf0);
- }
- }
-
- if ((i & 1) && (i != (status_byte - 1)))
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
-
- low_nibble = !low_nibble;
- }
- if ((((status_byte+1) >> 1) & 1 ) == 1)
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
- break;
- };
- break;
- default :
- {
- uint8_t *sline = iter.GetRow(scanline);
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
- for (unsigned i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- if (low_nibble) {
- if (i&1)
- *(sline + bits) |= (second_byte & 0x0f);
- else
- *(sline + bits) |= (second_byte & 0xf0)>>4;
- bits++;
- } else {
- if (i&1)
- *(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
- else
- *(sline + bits) = (uint8_t)(second_byte & 0xf0);
- }
- }
- low_nibble = !low_nibble;
- }
- }
- break;
- };
- }
- break;
- }
- case BI_RLE8 :
- {
- uint8_t status_byte = 0;
- uint8_t second_byte = 0;
- int32_t scanline = 0;
- int32_t bits = 0;
- CImageIterator iter(this);
-
- for (BOOL bContinue = TRUE; bContinue && hFile->Read(&status_byte, sizeof(uint8_t), 1);) {
- switch (status_byte) {
- case RLE_COMMAND :
- hFile->Read(&status_byte, sizeof(uint8_t), 1);
- switch (status_byte) {
- case RLE_ENDOFLINE :
- bits = 0;
- scanline++;
- break;
- case RLE_ENDOFBITMAP :
- bContinue=FALSE;
- break;
- case RLE_DELTA :
- {
- // read the delta values
- uint8_t delta_x;
- uint8_t delta_y;
- hFile->Read(&delta_x, sizeof(uint8_t), 1);
- hFile->Read(&delta_y, sizeof(uint8_t), 1);
- // apply them
- bits += delta_x;
- scanline += delta_y;
- break;
- }
- default :
- hFile->Read((void *)(iter.GetRow(scanline) + bits), sizeof(uint8_t) * status_byte, 1);
- // align run length to even number of bytes
- if ((status_byte & 1) == 1)
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
- bits += status_byte;
- break;
- };
- break;
- default :
- uint8_t *sline = iter.GetRow(scanline);
- hFile->Read(&second_byte, sizeof(uint8_t), 1);
- for (unsigned i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- *(sline + bits) = second_byte;
- bits++;
- } else {
- break;
- }
- }
- break;
- };
- }
- break;
- }
- default :
- cx_throw("compression type not supported");
- }
- }
-
- if (bTopDownDib) Flip(); //<Flanders>
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_BMP) return true;
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/* ReadDibBitmapInfo()
- *
- * Will read a file in DIB format and return a global HANDLE to its
- * BITMAPINFO. This function will work with both "old" and "new"
- * bitmap formats, but will always return a "new" BITMAPINFO.
- */
-bool CxImageBMP::DibReadBitmapInfo(CxFile* fh, BITMAPINFOHEADER *pdib)
-{
- if ((fh==NULL)||(pdib==NULL)) return false;
-
- if (fh->Read(pdib,sizeof(BITMAPINFOHEADER),1)==0) return false;
-
- bihtoh(pdib);
-
- switch (pdib->biSize) // what type of bitmap info is this?
- {
- case sizeof(BITMAPINFOHEADER):
- break;
-
- case 64: //sizeof(OS2_BMP_HEADER):
- fh->Seek((int32_t)(64 - sizeof(BITMAPINFOHEADER)),SEEK_CUR);
- break;
-
- case 124: //sizeof(BITMAPV5HEADER):
- fh->Seek((long)(124-sizeof(BITMAPINFOHEADER)), SEEK_CUR);
- break;
-
- case sizeof(BITMAPCOREHEADER):
- {
- BITMAPCOREHEADER bc = *(BITMAPCOREHEADER*)pdib;
- pdib->biSize = bc.bcSize;
- pdib->biWidth = (uint32_t)bc.bcWidth;
- pdib->biHeight = (uint32_t)bc.bcHeight;
- pdib->biPlanes = bc.bcPlanes;
- pdib->biBitCount = bc.bcBitCount;
- pdib->biCompression = BI_RGB;
- pdib->biSizeImage = 0;
- pdib->biXPelsPerMeter = 0;
- pdib->biYPelsPerMeter = 0;
- pdib->biClrUsed = 0;
- pdib->biClrImportant = 0;
-
- fh->Seek((int32_t)(sizeof(BITMAPCOREHEADER)-sizeof(BITMAPINFOHEADER)), SEEK_CUR);
- }
- break;
- default:
- //give a last chance
- if (pdib->biSize>(sizeof(BITMAPINFOHEADER))&&
- (pdib->biSizeImage>=(uint32_t)(pdib->biHeight*((((pdib->biBitCount*pdib->biWidth)+31)/32)*4)))&&
- (pdib->biPlanes==1)&&(pdib->biClrUsed==0))
- {
- if (pdib->biCompression==BI_RGB)
- fh->Seek((int32_t)(pdib->biSize - sizeof(BITMAPINFOHEADER)),SEEK_CUR);
- break;
- }
- return false;
- }
-
- FixBitmapInfo(pdib);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_BMP
-////////////////////////////////////////////////////////////////////////////////
diff --git a/hge/CxImage/ximabmp.h b/hge/CxImage/ximabmp.h deleted file mode 100644 index c828de5..0000000 --- a/hge/CxImage/ximabmp.h +++ /dev/null @@ -1,79 +0,0 @@ -/*
- * File: ximabmp.h
- * Purpose: BMP Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageBMP (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Troels Knakkergaard for new features, enhancements and bugfixes
- *
- * original CImageBMP and CImageIterator implementation are:
- * Copyright: (c) 1995, Alejandro Aguilar Sierra <asierra(at)servidor(dot)unam(dot)mx>
- *
- * ==========================================================
- */
-
-#if !defined(__ximaBMP_h)
-#define __ximaBMP_h
-
-#include "ximage.h"
-
-const int32_t RLE_COMMAND = 0;
-const int32_t RLE_ENDOFLINE = 0;
-const int32_t RLE_ENDOFBITMAP = 1;
-const int32_t RLE_DELTA = 2;
-
-#if !defined(BI_RLE8)
- #define BI_RLE8 1L
-#endif
-#if !defined(BI_RLE4)
- #define BI_RLE4 2L
-#endif
-
-#if CXIMAGE_SUPPORT_BMP
-
-class CxImageBMP: public CxImage
-{
-public:
- CxImageBMP(): CxImage(CXIMAGE_FORMAT_BMP) {};
-
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
-protected:
- bool DibReadBitmapInfo(CxFile* fh, BITMAPINFOHEADER *pdib);
-};
-
-#define BFT_ICON 0x4349 /* 'IC' */
-#define BFT_BITMAP 0x4d42 /* 'BM' */
-#define BFT_CURSOR 0x5450 /* 'PT' */
-
-#ifndef WIDTHBYTES
-#define WIDTHBYTES(i) ((unsigned)((i+31)&(~31))/8) /* ULONG aligned ! */
-#endif
-
-#endif
-
-#define DibWidthBytesN(lpbi, n) (uint32_t)WIDTHBYTES((uint32_t)(lpbi)->biWidth * (uint32_t)(n))
-#define DibWidthBytes(lpbi) DibWidthBytesN(lpbi, (lpbi)->biBitCount)
-
-#define DibSizeImage(lpbi) ((lpbi)->biSizeImage == 0 \
- ? ((uint32_t)(uint32_t)DibWidthBytes(lpbi) * (uint32_t)(uint32_t)(lpbi)->biHeight) \
- : (lpbi)->biSizeImage)
-
-#define DibNumColors(lpbi) ((lpbi)->biClrUsed == 0 && (lpbi)->biBitCount <= 8 \
- ? (int32_t)(1 << (int32_t)(lpbi)->biBitCount) \
- : (int32_t)(lpbi)->biClrUsed)
-
-#define FixBitmapInfo(lpbi) if ((lpbi)->biSizeImage == 0) \
- (lpbi)->biSizeImage = DibSizeImage(lpbi); \
- if ((lpbi)->biClrUsed == 0) \
- (lpbi)->biClrUsed = DibNumColors(lpbi); \
-
-#endif
diff --git a/hge/CxImage/ximacfg.h b/hge/CxImage/ximacfg.h deleted file mode 100644 index 875f517..0000000 --- a/hge/CxImage/ximacfg.h +++ /dev/null @@ -1,59 +0,0 @@ -#if !defined(__ximaCFG_h)
-#define __ximaCFG_h
-
-/////////////////////////////////////////////////////////////////////////////
-// CxImage supported features
-#define CXIMAGE_SUPPORT_ALPHA 1
-#define CXIMAGE_SUPPORT_SELECTION 0
-#define CXIMAGE_SUPPORT_TRANSFORMATION 1
-#define CXIMAGE_SUPPORT_DSP 0
-#define CXIMAGE_SUPPORT_LAYERS 0
-#define CXIMAGE_SUPPORT_INTERPOLATION 1
-
-#define CXIMAGE_SUPPORT_DECODE 1
-#define CXIMAGE_SUPPORT_ENCODE 0 //<vho><T.Peck>
-#define CXIMAGE_SUPPORT_WINDOWS 0
-#define CXIMAGE_SUPPORT_EXIF 0
-
-/////////////////////////////////////////////////////////////////////////////
-// CxImage supported formats
-#define CXIMAGE_SUPPORT_BMP 1
-#define CXIMAGE_SUPPORT_GIF 1
-#define CXIMAGE_SUPPORT_JPG 1
-#define CXIMAGE_SUPPORT_PNG 1
-#define CXIMAGE_SUPPORT_ICO 0
-#define CXIMAGE_SUPPORT_TIF 0
-#define CXIMAGE_SUPPORT_TGA 0
-#define CXIMAGE_SUPPORT_PCX 1
-#define CXIMAGE_SUPPORT_WBMP 0
-#define CXIMAGE_SUPPORT_WMF 0
-
-#define CXIMAGE_SUPPORT_JP2 0
-#define CXIMAGE_SUPPORT_JPC 0
-#define CXIMAGE_SUPPORT_PGX 0
-#define CXIMAGE_SUPPORT_PNM 0
-#define CXIMAGE_SUPPORT_RAS 0
-
-#define CXIMAGE_SUPPORT_JBG 0 // GPL'd see ../jbig/copying.txt & ../jbig/patents.htm
-
-#define CXIMAGE_SUPPORT_MNG 0
-#define CXIMAGE_SUPPORT_SKA 0
-#define CXIMAGE_SUPPORT_RAW 0
-#define CXIMAGE_SUPPORT_PSD 0
-
-/////////////////////////////////////////////////////////////////////////////
-#define CXIMAGE_MAX_MEMORY 268435456
-
-#define CXIMAGE_DEFAULT_DPI 96
-
-#define CXIMAGE_ERR_NOFILE "null file handler"
-#define CXIMAGE_ERR_NOIMAGE "null image!!!"
-
-//#define CXIMAGE_SUPPORT_EXCEPTION_HANDLING 1
-//!!Uncomment the last line when releasing
-/////////////////////////////////////////////////////////////////////////////
-//color to grey mapping <H. Muelner> <jurgene>
-//#define RGB2GRAY(r,g,b) (((b)*114 + (g)*587 + (r)*299)/1000)
-#define RGB2GRAY(r,g,b) (((b)*117 + (g)*601 + (r)*306) >> 10)
-
-#endif
diff --git a/hge/CxImage/ximadef.h b/hge/CxImage/ximadef.h deleted file mode 100644 index 372ec13..0000000 --- a/hge/CxImage/ximadef.h +++ /dev/null @@ -1,205 +0,0 @@ -#if !defined(__ximadefs_h)
-#define __ximadefs_h
-
-#include "ximacfg.h"
-
-#if /*defined(_AFXDLL)||*/defined(_USRDLL)
- #define DLL_EXP __declspec(dllexport)
-#elif defined(_MSC_VER)&&(_MSC_VER<1200)
- #define DLL_EXP __declspec(dllimport)
-#else
- #define DLL_EXP
-#endif
-
-
-#if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- #define cx_try try
- #define cx_throw(message) throw(message)
- #define cx_catch catch (const char *message)
-#else
- #define cx_try bool cx_error=false;
- #define cx_throw(message) {cx_error=true; if(strcmp(message,"")) strncpy(info.szLastError,message,255); goto cx_error_catch;}
- #define cx_catch cx_error_catch: char message[]=""; if(cx_error)
-#endif
-
-
-#if CXIMAGE_SUPPORT_JP2 || CXIMAGE_SUPPORT_JPC || CXIMAGE_SUPPORT_PGX || CXIMAGE_SUPPORT_PNM || CXIMAGE_SUPPORT_RAS
- #define CXIMAGE_SUPPORT_JASPER 1
-#else
- #define CXIMAGE_SUPPORT_JASPER 0
-#endif
-
-#if CXIMAGE_SUPPORT_DSP
-#undef CXIMAGE_SUPPORT_TRANSFORMATION
- #define CXIMAGE_SUPPORT_TRANSFORMATION 1
-#endif
-
-#if CXIMAGE_SUPPORT_TRANSFORMATION || CXIMAGE_SUPPORT_TIF || CXIMAGE_SUPPORT_TGA || CXIMAGE_SUPPORT_BMP || CXIMAGE_SUPPORT_WINDOWS
- #define CXIMAGE_SUPPORT_BASICTRANSFORMATIONS 1
-#endif
-
-#if CXIMAGE_SUPPORT_DSP || CXIMAGE_SUPPORT_TRANSFORMATION
-#undef CXIMAGE_SUPPORT_INTERPOLATION
- #define CXIMAGE_SUPPORT_INTERPOLATION 1
-#endif
-
-#if defined (_WIN32_WCE)
- #undef CXIMAGE_SUPPORT_WMF
- #define CXIMAGE_SUPPORT_WMF 0
-#endif
-
-#if !defined(WIN32) && !defined(_WIN32_WCE)
- #undef CXIMAGE_SUPPORT_WINDOWS
- #define CXIMAGE_SUPPORT_WINDOWS 0
-#endif
-
-#ifndef min
-#define min(a,b) (((a)<(b))?(a):(b))
-#endif
-#ifndef max
-#define max(a,b) (((a)>(b))?(a):(b))
-#endif
-
-#ifndef PI
- #define PI 3.141592653589793f
-#endif
-
-
-#if defined(WIN32) || defined(_WIN32_WCE)
-#include <windows.h>
-#include <tchar.h>
-#endif
-
-#include <stdio.h>
-#include <math.h>
-
-#ifdef __BORLANDC__
-
-#ifndef _COMPLEX_DEFINED
-
-typedef struct tagcomplex {
- double x,y;
-} _complex;
-
-#endif
-
-#define _cabs(c) sqrt(c.x*c.x+c.y*c.y)
-
-#endif
-
-#if defined(WIN32) || defined(_WIN32_WCE)
- #include "stdint.h"
-#endif
-
-#if !defined(WIN32) && !defined(_WIN32_WCE)
-
-#include <stdint.h>
-#include <stdlib.h>
-#include <string.h>
-#include <ctype.h>
-
-typedef uint32_t COLORREF;
-typedef void* HANDLE;
-typedef void* HRGN;
-
-#ifndef BOOL
-#define BOOL bool
-#endif
-
-#ifndef TRUE
-#define TRUE true
-#endif
-
-#ifndef FALSE
-#define FALSE false
-#endif
-
-#ifndef TCHAR
-#define TCHAR char
-#define _T
-#endif
-
-typedef struct tagRECT
-{
- int32_t left;
- int32_t top;
- int32_t right;
- int32_t bottom;
-} RECT;
-
-typedef struct tagPOINT
-{
- int32_t x;
- int32_t y;
-} POINT;
-
-typedef struct tagRGBQUAD {
- uint8_t rgbBlue;
- uint8_t rgbGreen;
- uint8_t rgbRed;
- uint8_t rgbReserved;
-} RGBQUAD;
-
-#pragma pack(1)
-
-typedef struct tagBITMAPINFOHEADER{
- uint32_t biSize;
- int32_t biWidth;
- int32_t biHeight;
- uint16_t biPlanes;
- uint16_t biBitCount;
- uint32_t biCompression;
- uint32_t biSizeImage;
- int32_t biXPelsPerMeter;
- int32_t biYPelsPerMeter;
- uint32_t biClrUsed;
- uint32_t biClrImportant;
-} BITMAPINFOHEADER;
-
-typedef struct tagBITMAPFILEHEADER {
- uint16_t bfType;
- uint32_t bfSize;
- uint16_t bfReserved1;
- uint16_t bfReserved2;
- uint32_t bfOffBits;
-} BITMAPFILEHEADER;
-
-typedef struct tagBITMAPCOREHEADER {
- uint32_t bcSize;
- uint16_t bcWidth;
- uint16_t bcHeight;
- uint16_t bcPlanes;
- uint16_t bcBitCount;
-} BITMAPCOREHEADER;
-
-typedef struct tagRGBTRIPLE {
- uint8_t rgbtBlue;
- uint8_t rgbtGreen;
- uint8_t rgbtRed;
-} RGBTRIPLE;
-
-#pragma pack()
-
-#define BI_RGB 0L
-#define BI_RLE8 1L
-#define BI_RLE4 2L
-#define BI_BITFIELDS 3L
-
-#define GetRValue(rgb) ((uint8_t)(rgb))
-#define GetGValue(rgb) ((uint8_t)(((uint16_t)(rgb)) >> 8))
-#define GetBValue(rgb) ((uint8_t)((rgb)>>16))
-#define RGB(r,g,b) ((COLORREF)(((uint8_t)(r)|((uint16_t)((uint8_t)(g))<<8))|(((uint32_t)(uint8_t)(b))<<16)))
-
-#ifndef _COMPLEX_DEFINED
-
-typedef struct tagcomplex {
- double x,y;
-} _complex;
-
-#endif
-
-#define _cabs(c) sqrt(c.x*c.x+c.y*c.y)
-
-#endif
-
-#endif //__ximadefs
diff --git a/hge/CxImage/ximadsp.cpp b/hge/CxImage/ximadsp.cpp deleted file mode 100644 index df73136..0000000 --- a/hge/CxImage/ximadsp.cpp +++ /dev/null @@ -1,3771 +0,0 @@ -// xImaDsp.cpp : DSP functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#include "ximaiter.h"
-
-#if CXIMAGE_SUPPORT_DSP
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Converts the image to B&W.
- * The OptimalThreshold() function can be used for calculating the optimal threshold.
- * \param level: the lightness threshold.
- * \return true if everything is ok
- */
-bool CxImage::Threshold(uint8_t level)
-{
- if (!pDib) return false;
- if (head.biBitCount == 1) return true;
-
- GrayScale();
-
- CxImage tmp(head.biWidth,head.biHeight,1);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- if (BlindGetPixelIndex(x,y)>level)
- tmp.BlindSetPixelIndex(x,y,1);
- else
- tmp.BlindSetPixelIndex(x,y,0);
- }
- }
- tmp.SetPaletteColor(0,0,0,0);
- tmp.SetPaletteColor(1,255,255,255);
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Converts the image to B&W, using a threshold mask
- * \param pThresholdMask: the lightness threshold mask.
- * the pThresholdMask image must be grayscale with same with and height of the current image
- * \return true if everything is ok
- */
-bool CxImage::Threshold(CxImage* pThresholdMask)
-{
- if (!pDib) return false;
- if (head.biBitCount == 1) return true;
-
- if (!pThresholdMask) return false;
-
- if (!pThresholdMask->IsValid() ||
- !pThresholdMask->IsGrayScale() ||
- pThresholdMask->GetWidth() != GetWidth() ||
- pThresholdMask->GetHeight() != GetHeight()){
- strcpy(info.szLastError,"invalid ThresholdMask");
- return false;
- }
-
- GrayScale();
-
- CxImage tmp(head.biWidth,head.biHeight,1);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- if (BlindGetPixelIndex(x,y)>pThresholdMask->BlindGetPixelIndex(x,y))
- tmp.BlindSetPixelIndex(x,y,1);
- else
- tmp.BlindSetPixelIndex(x,y,0);
- }
- }
- tmp.SetPaletteColor(0,0,0,0);
- tmp.SetPaletteColor(1,255,255,255);
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Filters only the pixels with a lightness less (or more) than the threshold level,
- * and preserves the colors for the unfiltered pixels.
- * \param level = the lightness threshold.
- * \param bDirection = false: filter dark pixels, true: filter light pixels
- * \param nBkgndColor = filtered pixels are set to nBkgndColor color
- * \param bSetAlpha = if true, sets also the alpha component for the filtered pixels, with nBkgndColor.rgbReserved
- * \return true if everything is ok
- * \author [DP], [wangsongtao]
- */
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Threshold2(uint8_t level, bool bDirection, RGBQUAD nBkgndColor, bool bSetAlpha)
-{
- if (!pDib) return false;
- if (head.biBitCount == 1) return true;
-
- CxImage tmp(*this, true, false, false);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- tmp.GrayScale();
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- uint8_t i = tmp.BlindGetPixelIndex(x,y);
- if (!bDirection && i<level) BlindSetPixelColor(x,y,nBkgndColor,bSetAlpha);
- if (bDirection && i>=level) BlindSetPixelColor(x,y,nBkgndColor,bSetAlpha);
- }
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract RGB channels from the image. Each channel is an 8 bit grayscale image.
- * \param r,g,b: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitRGB(CxImage* r,CxImage* g,CxImage* b)
-{
- if (!pDib) return false;
- if (r==NULL && g==NULL && b==NULL) return false;
-
- CxImage tmpr(head.biWidth,head.biHeight,8);
- CxImage tmpg(head.biWidth,head.biHeight,8);
- CxImage tmpb(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- color = BlindGetPixelColor(x,y);
- if (r) tmpr.BlindSetPixelIndex(x,y,color.rgbRed);
- if (g) tmpg.BlindSetPixelIndex(x,y,color.rgbGreen);
- if (b) tmpb.BlindSetPixelIndex(x,y,color.rgbBlue);
- }
- }
-
- if (r) tmpr.SetGrayPalette();
- if (g) tmpg.SetGrayPalette();
- if (b) tmpb.SetGrayPalette();
-
- /*for(int32_t j=0; j<256; j++){
- uint8_t i=(uint8_t)j;
- if (r) tmpr.SetPaletteColor(i,i,0,0);
- if (g) tmpg.SetPaletteColor(i,0,i,0);
- if (b) tmpb.SetPaletteColor(i,0,0,i);
- }*/
-
- if (r) r->Transfer(tmpr);
- if (g) g->Transfer(tmpg);
- if (b) b->Transfer(tmpb);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract CMYK channels from the image. Each channel is an 8 bit grayscale image.
- * \param c,m,y,k: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitCMYK(CxImage* c,CxImage* m,CxImage* y,CxImage* k)
-{
- if (!pDib) return false;
- if (c==NULL && m==NULL && y==NULL && k==NULL) return false;
-
- CxImage tmpc(head.biWidth,head.biHeight,8);
- CxImage tmpm(head.biWidth,head.biHeight,8);
- CxImage tmpy(head.biWidth,head.biHeight,8);
- CxImage tmpk(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t yy=0; yy<head.biHeight; yy++){
- for(int32_t xx=0; xx<head.biWidth; xx++){
- color = BlindGetPixelColor(xx,yy);
- if (c) tmpc.BlindSetPixelIndex(xx,yy,(uint8_t)(255-color.rgbRed));
- if (m) tmpm.BlindSetPixelIndex(xx,yy,(uint8_t)(255-color.rgbGreen));
- if (y) tmpy.BlindSetPixelIndex(xx,yy,(uint8_t)(255-color.rgbBlue));
- if (k) tmpk.BlindSetPixelIndex(xx,yy,(uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue));
- }
- }
-
- if (c) tmpc.SetGrayPalette();
- if (m) tmpm.SetGrayPalette();
- if (y) tmpy.SetGrayPalette();
- if (k) tmpk.SetGrayPalette();
-
- if (c) c->Transfer(tmpc);
- if (m) m->Transfer(tmpm);
- if (y) y->Transfer(tmpy);
- if (k) k->Transfer(tmpk);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract YUV channels from the image. Each channel is an 8 bit grayscale image.
- * \param y,u,v: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitYUV(CxImage* y,CxImage* u,CxImage* v)
-{
- if (!pDib) return false;
- if (y==NULL && u==NULL && v==NULL) return false;
-
- CxImage tmpy(head.biWidth,head.biHeight,8);
- CxImage tmpu(head.biWidth,head.biHeight,8);
- CxImage tmpv(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t yy=0; yy<head.biHeight; yy++){
- for(int32_t x=0; x<head.biWidth; x++){
- color = RGBtoYUV(BlindGetPixelColor(x,yy));
- if (y) tmpy.BlindSetPixelIndex(x,yy,color.rgbRed);
- if (u) tmpu.BlindSetPixelIndex(x,yy,color.rgbGreen);
- if (v) tmpv.BlindSetPixelIndex(x,yy,color.rgbBlue);
- }
- }
-
- if (y) tmpy.SetGrayPalette();
- if (u) tmpu.SetGrayPalette();
- if (v) tmpv.SetGrayPalette();
-
- if (y) y->Transfer(tmpy);
- if (u) u->Transfer(tmpu);
- if (v) v->Transfer(tmpv);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract YIQ channels from the image. Each channel is an 8 bit grayscale image.
- * \param y,i,q: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitYIQ(CxImage* y,CxImage* i,CxImage* q)
-{
- if (!pDib) return false;
- if (y==NULL && i==NULL && q==NULL) return false;
-
- CxImage tmpy(head.biWidth,head.biHeight,8);
- CxImage tmpi(head.biWidth,head.biHeight,8);
- CxImage tmpq(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t yy=0; yy<head.biHeight; yy++){
- for(int32_t x=0; x<head.biWidth; x++){
- color = RGBtoYIQ(BlindGetPixelColor(x,yy));
- if (y) tmpy.BlindSetPixelIndex(x,yy,color.rgbRed);
- if (i) tmpi.BlindSetPixelIndex(x,yy,color.rgbGreen);
- if (q) tmpq.BlindSetPixelIndex(x,yy,color.rgbBlue);
- }
- }
-
- if (y) tmpy.SetGrayPalette();
- if (i) tmpi.SetGrayPalette();
- if (q) tmpq.SetGrayPalette();
-
- if (y) y->Transfer(tmpy);
- if (i) i->Transfer(tmpi);
- if (q) q->Transfer(tmpq);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract XYZ channels from the image. Each channel is an 8 bit grayscale image.
- * \param x,y,z: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitXYZ(CxImage* x,CxImage* y,CxImage* z)
-{
- if (!pDib) return false;
- if (x==NULL && y==NULL && z==NULL) return false;
-
- CxImage tmpx(head.biWidth,head.biHeight,8);
- CxImage tmpy(head.biWidth,head.biHeight,8);
- CxImage tmpz(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t yy=0; yy<head.biHeight; yy++){
- for(int32_t xx=0; xx<head.biWidth; xx++){
- color = RGBtoXYZ(BlindGetPixelColor(xx,yy));
- if (x) tmpx.BlindSetPixelIndex(xx,yy,color.rgbRed);
- if (y) tmpy.BlindSetPixelIndex(xx,yy,color.rgbGreen);
- if (z) tmpz.BlindSetPixelIndex(xx,yy,color.rgbBlue);
- }
- }
-
- if (x) tmpx.SetGrayPalette();
- if (y) tmpy.SetGrayPalette();
- if (z) tmpz.SetGrayPalette();
-
- if (x) x->Transfer(tmpx);
- if (y) y->Transfer(tmpy);
- if (z) z->Transfer(tmpz);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Extract HSL channels from the image. Each channel is an 8 bit grayscale image.
- * \param h,s,l: pointers to CxImage objects, to store the splited channels
- * \return true if everything is ok
- */
-bool CxImage::SplitHSL(CxImage* h,CxImage* s,CxImage* l)
-{
- if (!pDib) return false;
- if (h==NULL && s==NULL && l==NULL) return false;
-
- CxImage tmph(head.biWidth,head.biHeight,8);
- CxImage tmps(head.biWidth,head.biHeight,8);
- CxImage tmpl(head.biWidth,head.biHeight,8);
-
- RGBQUAD color;
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- color = RGBtoHSL(BlindGetPixelColor(x,y));
- if (h) tmph.BlindSetPixelIndex(x,y,color.rgbRed);
- if (s) tmps.BlindSetPixelIndex(x,y,color.rgbGreen);
- if (l) tmpl.BlindSetPixelIndex(x,y,color.rgbBlue);
- }
- }
-
- if (h) tmph.SetGrayPalette();
- if (s) tmps.SetGrayPalette();
- if (l) tmpl.SetGrayPalette();
-
- /* pseudo-color generator for hue channel (visual debug)
- if (h) for(int32_t j=0; j<256; j++){
- uint8_t i=(uint8_t)j;
- RGBQUAD hsl={120,240,i,0};
- tmph.SetPaletteColor(i,HSLtoRGB(hsl));
- }*/
-
- if (h) h->Transfer(tmph);
- if (s) s->Transfer(tmps);
- if (l) l->Transfer(tmpl);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#define HSLMAX 255 /* H,L, and S vary over 0-HSLMAX */
-#define RGBMAX 255 /* R,G, and B vary over 0-RGBMAX */
- /* HSLMAX BEST IF DIVISIBLE BY 6 */
- /* RGBMAX, HSLMAX must each fit in a uint8_t. */
-/* Hue is undefined if Saturation is 0 (grey-scale) */
-/* This value determines where the Hue scrollbar is */
-/* initially set for achromatic colors */
-#define HSLUNDEFINED (HSLMAX*2/3)
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::RGBtoHSL(RGBQUAD lRGBColor)
-{
- uint8_t R,G,B; /* input RGB values */
- uint8_t H,L,S; /* output HSL values */
- uint8_t cMax,cMin; /* max and min RGB values */
- uint16_t Rdelta,Gdelta,Bdelta; /* intermediate value: % of spread from max*/
-
- R = lRGBColor.rgbRed; /* get R, G, and B out of uint32_t */
- G = lRGBColor.rgbGreen;
- B = lRGBColor.rgbBlue;
-
- cMax = max( max(R,G), B); /* calculate lightness */
- cMin = min( min(R,G), B);
- L = (uint8_t)((((cMax+cMin)*HSLMAX)+RGBMAX)/(2*RGBMAX));
-
- if (cMax==cMin){ /* r=g=b --> achromatic case */
- S = 0; /* saturation */
- H = HSLUNDEFINED; /* hue */
- } else { /* chromatic case */
- if (L <= (HSLMAX/2)) /* saturation */
- S = (uint8_t)((((cMax-cMin)*HSLMAX)+((cMax+cMin)/2))/(cMax+cMin));
- else
- S = (uint8_t)((((cMax-cMin)*HSLMAX)+((2*RGBMAX-cMax-cMin)/2))/(2*RGBMAX-cMax-cMin));
- /* hue */
- Rdelta = (uint16_t)((((cMax-R)*(HSLMAX/6)) + ((cMax-cMin)/2) ) / (cMax-cMin));
- Gdelta = (uint16_t)((((cMax-G)*(HSLMAX/6)) + ((cMax-cMin)/2) ) / (cMax-cMin));
- Bdelta = (uint16_t)((((cMax-B)*(HSLMAX/6)) + ((cMax-cMin)/2) ) / (cMax-cMin));
-
- if (R == cMax)
- H = (uint8_t)(Bdelta - Gdelta);
- else if (G == cMax)
- H = (uint8_t)((HSLMAX/3) + Rdelta - Bdelta);
- else /* B == cMax */
- H = (uint8_t)(((2*HSLMAX)/3) + Gdelta - Rdelta);
-
-// if (H < 0) H += HSLMAX; //always false
- if (H > HSLMAX) H -= HSLMAX;
- }
- RGBQUAD hsl={L,S,H,0};
- return hsl;
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::HueToRGB(float n1,float n2, float hue)
-{
- //<F. Livraghi> fixed implementation for HSL2RGB routine
- float rValue;
-
- if (hue > 360)
- hue = hue - 360;
- else if (hue < 0)
- hue = hue + 360;
-
- if (hue < 60)
- rValue = n1 + (n2-n1)*hue/60.0f;
- else if (hue < 180)
- rValue = n2;
- else if (hue < 240)
- rValue = n1+(n2-n1)*(240-hue)/60;
- else
- rValue = n1;
-
- return rValue;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::HSLtoRGB(COLORREF cHSLColor)
-{
- return HSLtoRGB(RGBtoRGBQUAD(cHSLColor));
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::HSLtoRGB(RGBQUAD lHSLColor)
-{
- //<F. Livraghi> fixed implementation for HSL2RGB routine
- float h,s,l;
- float m1,m2;
- uint8_t r,g,b;
-
- h = (float)lHSLColor.rgbRed * 360.0f/255.0f;
- s = (float)lHSLColor.rgbGreen/255.0f;
- l = (float)lHSLColor.rgbBlue/255.0f;
-
- if (l <= 0.5) m2 = l * (1+s);
- else m2 = l + s - l*s;
-
- m1 = 2 * l - m2;
-
- if (s == 0) {
- r=g=b=(uint8_t)(l*255.0f);
- } else {
- r = (uint8_t)(HueToRGB(m1,m2,h+120) * 255.0f);
- g = (uint8_t)(HueToRGB(m1,m2,h) * 255.0f);
- b = (uint8_t)(HueToRGB(m1,m2,h-120) * 255.0f);
- }
-
- RGBQUAD rgb = {b,g,r,0};
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::YUVtoRGB(RGBQUAD lYUVColor)
-{
- int32_t U,V,R,G,B;
- float Y = lYUVColor.rgbRed;
- U = lYUVColor.rgbGreen - 128;
- V = lYUVColor.rgbBlue - 128;
-
-// R = (int32_t)(1.164 * Y + 2.018 * U);
-// G = (int32_t)(1.164 * Y - 0.813 * V - 0.391 * U);
-// B = (int32_t)(1.164 * Y + 1.596 * V);
- R = (int32_t)( Y + 1.403f * V);
- G = (int32_t)( Y - 0.344f * U - 0.714f * V);
- B = (int32_t)( Y + 1.770f * U);
-
- R= min(255,max(0,R));
- G= min(255,max(0,G));
- B= min(255,max(0,B));
- RGBQUAD rgb={(uint8_t)B,(uint8_t)G,(uint8_t)R,0};
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::RGBtoYUV(RGBQUAD lRGBColor)
-{
- int32_t Y,U,V,R,G,B;
- R = lRGBColor.rgbRed;
- G = lRGBColor.rgbGreen;
- B = lRGBColor.rgbBlue;
-
-// Y = (int32_t)( 0.257 * R + 0.504 * G + 0.098 * B);
-// U = (int32_t)( 0.439 * R - 0.368 * G - 0.071 * B + 128);
-// V = (int32_t)(-0.148 * R - 0.291 * G + 0.439 * B + 128);
- Y = (int32_t)(0.299f * R + 0.587f * G + 0.114f * B);
- U = (int32_t)((B-Y) * 0.565f + 128);
- V = (int32_t)((R-Y) * 0.713f + 128);
-
- Y= min(255,max(0,Y));
- U= min(255,max(0,U));
- V= min(255,max(0,V));
- RGBQUAD yuv={(uint8_t)V,(uint8_t)U,(uint8_t)Y,0};
- return yuv;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::YIQtoRGB(RGBQUAD lYIQColor)
-{
- int32_t I,Q,R,G,B;
- float Y = lYIQColor.rgbRed;
- I = lYIQColor.rgbGreen - 128;
- Q = lYIQColor.rgbBlue - 128;
-
- R = (int32_t)( Y + 0.956f * I + 0.621f * Q);
- G = (int32_t)( Y - 0.273f * I - 0.647f * Q);
- B = (int32_t)( Y - 1.104f * I + 1.701f * Q);
-
- R= min(255,max(0,R));
- G= min(255,max(0,G));
- B= min(255,max(0,B));
- RGBQUAD rgb={(uint8_t)B,(uint8_t)G,(uint8_t)R,0};
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::RGBtoYIQ(RGBQUAD lRGBColor)
-{
- int32_t Y,I,Q,R,G,B;
- R = lRGBColor.rgbRed;
- G = lRGBColor.rgbGreen;
- B = lRGBColor.rgbBlue;
-
- Y = (int32_t)( 0.2992f * R + 0.5868f * G + 0.1140f * B);
- I = (int32_t)( 0.5960f * R - 0.2742f * G - 0.3219f * B + 128);
- Q = (int32_t)( 0.2109f * R - 0.5229f * G + 0.3120f * B + 128);
-
- Y= min(255,max(0,Y));
- I= min(255,max(0,I));
- Q= min(255,max(0,Q));
- RGBQUAD yiq={(uint8_t)Q,(uint8_t)I,(uint8_t)Y,0};
- return yiq;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::XYZtoRGB(RGBQUAD lXYZColor)
-{
- int32_t X,Y,Z,R,G,B;
- X = lXYZColor.rgbRed;
- Y = lXYZColor.rgbGreen;
- Z = lXYZColor.rgbBlue;
- double k=1.088751;
-
- R = (int32_t)( 3.240479f * X - 1.537150f * Y - 0.498535f * Z * k);
- G = (int32_t)( -0.969256f * X + 1.875992f * Y + 0.041556f * Z * k);
- B = (int32_t)( 0.055648f * X - 0.204043f * Y + 1.057311f * Z * k);
-
- R= min(255,max(0,R));
- G= min(255,max(0,G));
- B= min(255,max(0,B));
- RGBQUAD rgb={(uint8_t)B,(uint8_t)G,(uint8_t)R,0};
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::RGBtoXYZ(RGBQUAD lRGBColor)
-{
- int32_t X,Y,Z,R,G,B;
- R = lRGBColor.rgbRed;
- G = lRGBColor.rgbGreen;
- B = lRGBColor.rgbBlue;
-
- X = (int32_t)( 0.412453f * R + 0.357580f * G + 0.180423f * B);
- Y = (int32_t)( 0.212671f * R + 0.715160f * G + 0.072169f * B);
- Z = (int32_t)((0.019334f * R + 0.119193f * G + 0.950227f * B)*0.918483657f);
-
- //X= min(255,max(0,X));
- //Y= min(255,max(0,Y));
- //Z= min(255,max(0,Z));
- RGBQUAD xyz={(uint8_t)Z,(uint8_t)Y,(uint8_t)X,0};
- return xyz;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Generates a "rainbow" palette with saturated colors
- * \param correction: 1 generates a single hue spectrum. 0.75 is nice for scientific applications.
- */
-void CxImage::HuePalette(float correction)
-{
- if (head.biClrUsed==0) return;
-
- for(uint32_t j=0; j<head.biClrUsed; j++){
- uint8_t i=(uint8_t)(j*correction*(255/(head.biClrUsed-1)));
- RGBQUAD hsl={120,240,i,0};
- SetPaletteColor((uint8_t)j,HSLtoRGB(hsl));
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Replaces the original hue and saturation values.
- * \param hue: hue
- * \param sat: saturation
- * \param blend: can be from 0 (no effect) to 1 (full effect)
- * \return true if everything is ok
- */
-bool CxImage::Colorize(uint8_t hue, uint8_t sat, float blend)
-{
- if (!pDib) return false;
-
- if (blend < 0.0f) blend = 0.0f;
- if (blend > 1.0f) blend = 1.0f;
- int32_t a0 = (int32_t)(256*blend);
- int32_t a1 = 256 - a0;
-
- bool bFullBlend = false;
- if (blend > 0.999f) bFullBlend = true;
-
- RGBQUAD color,hsl;
- if (head.biClrUsed==0){
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- if (bFullBlend){
- color = RGBtoHSL(BlindGetPixelColor(x,y));
- color.rgbRed=hue;
- color.rgbGreen=sat;
- BlindSetPixelColor(x,y,HSLtoRGB(color));
- } else {
- color = BlindGetPixelColor(x,y);
- hsl.rgbRed=hue;
- hsl.rgbGreen=sat;
- hsl.rgbBlue = (uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue);
- hsl = HSLtoRGB(hsl);
- //BlendPixelColor(x,y,hsl,blend);
- //color.rgbRed = (uint8_t)(hsl.rgbRed * blend + color.rgbRed * (1.0f - blend));
- //color.rgbBlue = (uint8_t)(hsl.rgbBlue * blend + color.rgbBlue * (1.0f - blend));
- //color.rgbGreen = (uint8_t)(hsl.rgbGreen * blend + color.rgbGreen * (1.0f - blend));
- color.rgbRed = (uint8_t)((hsl.rgbRed * a0 + color.rgbRed * a1)>>8);
- color.rgbBlue = (uint8_t)((hsl.rgbBlue * a0 + color.rgbBlue * a1)>>8);
- color.rgbGreen = (uint8_t)((hsl.rgbGreen * a0 + color.rgbGreen * a1)>>8);
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- }
- } else {
- for(uint32_t j=0; j<head.biClrUsed; j++){
- if (bFullBlend){
- color = RGBtoHSL(GetPaletteColor((uint8_t)j));
- color.rgbRed=hue;
- color.rgbGreen=sat;
- SetPaletteColor((uint8_t)j,HSLtoRGB(color));
- } else {
- color = GetPaletteColor((uint8_t)j);
- hsl.rgbRed=hue;
- hsl.rgbGreen=sat;
- hsl.rgbBlue = (uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue);
- hsl = HSLtoRGB(hsl);
- color.rgbRed = (uint8_t)(hsl.rgbRed * blend + color.rgbRed * (1.0f - blend));
- color.rgbBlue = (uint8_t)(hsl.rgbBlue * blend + color.rgbBlue * (1.0f - blend));
- color.rgbGreen = (uint8_t)(hsl.rgbGreen * blend + color.rgbGreen * (1.0f - blend));
- SetPaletteColor((uint8_t)j,color);
- }
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Changes the brightness and the contrast of the image.
- * \param brightness: can be from -255 to 255, if brightness is negative, the image becomes dark.
- * \param contrast: can be from -100 to 100, the neutral value is 0.
- * \return true if everything is ok
- */
-bool CxImage::Light(int32_t brightness, int32_t contrast)
-{
- if (!pDib) return false;
- float c=(100 + contrast)/100.0f;
- brightness+=128;
-
- uint8_t cTable[256]; //<nipper>
- for (int32_t i=0;i<256;i++) {
- cTable[i] = (uint8_t)max(0,min(255,(int32_t)((i-128)*c + brightness + 0.5f)));
- }
-
- return Lut(cTable);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return mean lightness of the image. Useful with Threshold() and Light()
- */
-float CxImage::Mean()
-{
- if (!pDib) return 0;
-
- CxImage tmp(*this,true);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- tmp.GrayScale();
- float sum=0;
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
- if (xmin==xmax || ymin==ymax) return (float)0.0;
-
- uint8_t *iSrc=tmp.info.pImage;
- iSrc += tmp.info.dwEffWidth*ymin; // necessary for selections <Admir Hodzic>
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin)); //<zhanghk><Anatoly Ivasyuk>
- for(int32_t x=xmin; x<xmax; x++){
- sum+=iSrc[x];
- }
- iSrc+=tmp.info.dwEffWidth;
- }
- return sum/(xmax-xmin)/(ymax-ymin);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * 2D linear filter
- * \param kernel: convolving matrix, in row format.
- * \param Ksize: size of the kernel.
- * \param Kfactor: normalization constant.
- * \param Koffset: bias.
- * \verbatim Example: the "soften" filter uses this kernel:
- 1 1 1
- 1 8 1
- 1 1 1
- the function needs: kernel={1,1,1,1,8,1,1,1,1}; Ksize=3; Kfactor=16; Koffset=0; \endverbatim
- * \return true if everything is ok
- */
-bool CxImage::Filter(int32_t* kernel, int32_t Ksize, int32_t Kfactor, int32_t Koffset)
-{
- if (!pDib) return false;
-
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- int32_t r,g,b,i;
- int32_t ksumcur,ksumtot;
- RGBQUAD c;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- ksumtot = 0;
- for(int32_t j=-k2;j<kmax;j++){
- for(int32_t k=-k2;k<kmax;k++){
- ksumtot += kernel[(j+k2)+Ksize*(k+k2)];
- }
- }
-
- if ((head.biBitCount==8) && IsGrayScale())
- {
- uint8_t* cPtr;
- uint8_t* cPtr2;
- int32_t iCount;
- int32_t iY, iY2, iY1;
- cPtr = info.pImage;
- cPtr2 = (uint8_t *)tmp.info.pImage;
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- iY1 = y*info.dwEffWidth+xmin;
- for(int32_t x=xmin; x<xmax; x++, iY1++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- b=ksumcur=0;
- iCount = 0;
- iY2 = ((y-k2)*info.dwEffWidth);
- for(int32_t j=-k2;j<kmax;j++, iY2+=info.dwEffWidth)
- {
- if (0>(y+j) || (y+j)>=head.biHeight) continue;
- iY = iY2+x;
- for(int32_t k=-k2;k<kmax;k++, iCount++)
- {
- if (0>(x+k) || (x+k)>=head.biWidth) continue;
- i=kernel[iCount];
- b += cPtr[iY+k] * i;
- ksumcur += i;
- }
- }
- if (Kfactor==0 || ksumcur==0){
- cPtr2[iY1] = (uint8_t)min(255, max(0,(int32_t)(b + Koffset)));
- } else if (ksumtot == ksumcur) {
- cPtr2[iY1] = (uint8_t)min(255, max(0,(int32_t)(b/Kfactor + Koffset)));
- } else {
- cPtr2[iY1] = (uint8_t)min(255, max(0,(int32_t)((b*ksumtot)/(ksumcur*Kfactor) + Koffset)));
- }
- }
- }
- }
- }
- else
- {
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
- #if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
- #endif //CXIMAGE_SUPPORT_SELECTION
- {
- r=b=g=ksumcur=0;
- for(int32_t j=-k2;j<kmax;j++){
- for(int32_t k=-k2;k<kmax;k++){
- if (!IsInside(x+j,y+k)) continue;
- c = BlindGetPixelColor(x+j,y+k);
- i = kernel[(j+k2)+Ksize*(k+k2)];
- r += c.rgbRed * i;
- g += c.rgbGreen * i;
- b += c.rgbBlue * i;
- ksumcur += i;
- }
- }
- if (Kfactor==0 || ksumcur==0){
- c.rgbRed = (uint8_t)min(255, max(0,(int32_t)(r + Koffset)));
- c.rgbGreen = (uint8_t)min(255, max(0,(int32_t)(g + Koffset)));
- c.rgbBlue = (uint8_t)min(255, max(0,(int32_t)(b + Koffset)));
- } else if (ksumtot == ksumcur) {
- c.rgbRed = (uint8_t)min(255, max(0,(int32_t)(r/Kfactor + Koffset)));
- c.rgbGreen = (uint8_t)min(255, max(0,(int32_t)(g/Kfactor + Koffset)));
- c.rgbBlue = (uint8_t)min(255, max(0,(int32_t)(b/Kfactor + Koffset)));
- } else {
- c.rgbRed = (uint8_t)min(255, max(0,(int32_t)((r*ksumtot)/(ksumcur*Kfactor) + Koffset)));
- c.rgbGreen = (uint8_t)min(255, max(0,(int32_t)((g*ksumtot)/(ksumcur*Kfactor) + Koffset)));
- c.rgbBlue = (uint8_t)min(255, max(0,(int32_t)((b*ksumtot)/(ksumcur*Kfactor) + Koffset)));
- }
- tmp.BlindSetPixelColor(x,y,c);
- }
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enhance the dark areas of the image
- * \param Ksize: size of the kernel.
- * \return true if everything is ok
- */
-bool CxImage::Erode(int32_t Ksize)
-{
- if (!pDib) return false;
-
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- uint8_t r,g,b;
- RGBQUAD c;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- r=b=g=255;
- for(int32_t j=-k2;j<kmax;j++){
- for(int32_t k=-k2;k<kmax;k++){
- if (!IsInside(x+j,y+k)) continue;
- c = BlindGetPixelColor(x+j,y+k);
- if (c.rgbRed < r) r=c.rgbRed;
- if (c.rgbGreen < g) g=c.rgbGreen;
- if (c.rgbBlue < b) b=c.rgbBlue;
- }
- }
- c.rgbRed = r;
- c.rgbGreen = g;
- c.rgbBlue = b;
- tmp.BlindSetPixelColor(x,y,c);
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enhance the light areas of the image
- * \param Ksize: size of the kernel.
- * \return true if everything is ok
- */
-bool CxImage::Dilate(int32_t Ksize)
-{
- if (!pDib) return false;
-
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- uint8_t r,g,b;
- RGBQUAD c;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- r=b=g=0;
- for(int32_t j=-k2;j<kmax;j++){
- for(int32_t k=-k2;k<kmax;k++){
- if (!IsInside(x+j,y+k)) continue;
- c = BlindGetPixelColor(x+j,y+k);
- if (c.rgbRed > r) r=c.rgbRed;
- if (c.rgbGreen > g) g=c.rgbGreen;
- if (c.rgbBlue > b) b=c.rgbBlue;
- }
- }
- c.rgbRed = r;
- c.rgbGreen = g;
- c.rgbBlue = b;
- tmp.BlindSetPixelColor(x,y,c);
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enhance the variations between adjacent pixels.
- * Similar results can be achieved using Filter(),
- * but the algorithms are different both in Edge() and in Contour().
- * \param Ksize: size of the kernel.
- * \return true if everything is ok
- */
-bool CxImage::Edge(int32_t Ksize)
-{
- if (!pDib) return false;
-
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- uint8_t r,g,b,rr,gg,bb;
- RGBQUAD c;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- r=b=g=0;
- rr=bb=gg=255;
- for(int32_t j=-k2;j<kmax;j++){
- for(int32_t k=-k2;k<kmax;k++){
- if (!IsInside(x+j,y+k)) continue;
- c = BlindGetPixelColor(x+j,y+k);
- if (c.rgbRed > r) r=c.rgbRed;
- if (c.rgbGreen > g) g=c.rgbGreen;
- if (c.rgbBlue > b) b=c.rgbBlue;
-
- if (c.rgbRed < rr) rr=c.rgbRed;
- if (c.rgbGreen < gg) gg=c.rgbGreen;
- if (c.rgbBlue < bb) bb=c.rgbBlue;
- }
- }
- c.rgbRed = (uint8_t)(255-abs(r-rr));
- c.rgbGreen = (uint8_t)(255-abs(g-gg));
- c.rgbBlue = (uint8_t)(255-abs(b-bb));
- tmp.BlindSetPixelColor(x,y,c);
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Blends two images
- * \param imgsrc2: image to be mixed with this
- * \param op: blending method; see ImageOpType
- * \param lXOffset, lYOffset: image displacement
- * \param bMixAlpha: if true and imgsrc2 has a valid alpha layer, it will be mixed in the destination image.
- * \return true if everything is ok
- * \author [Mwolski],[brunom]
- */
-void CxImage::Mix(CxImage & imgsrc2, ImageOpType op, int32_t lXOffset, int32_t lYOffset, bool bMixAlpha)
-{
- int32_t lWide = min(GetWidth(),imgsrc2.GetWidth()-lXOffset);
- int32_t lHeight = min(GetHeight(),imgsrc2.GetHeight()-lYOffset);
-
- bool bEditAlpha = false;
-
-#if CXIMAGE_SUPPORT_ALPHA
- bEditAlpha = imgsrc2.AlphaIsValid() & bMixAlpha;
- if (bEditAlpha && AlphaIsValid()==false){
- AlphaCreate();
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- RGBQUAD rgbBackgrnd1 = GetTransColor();
- RGBQUAD rgb1, rgb2, rgbDest;
-
- for(int32_t lY=0;lY<lHeight;lY++)
- {
- info.nProgress = (int32_t)(100*lY/head.biHeight);
- if (info.nEscape) break;
-
- for(int32_t lX=0;lX<lWide;lX++)
- {
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsInside(lX,lY) && imgsrc2.SelectionIsInside(lX+lXOffset,lY+lYOffset))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- rgb1 = GetPixelColor(lX,lY);
- rgb2 = imgsrc2.GetPixelColor(lX+lXOffset,lY+lYOffset);
- switch(op)
- {
- case OpAvg:
- rgbDest.rgbBlue = (uint8_t)((rgb1.rgbBlue+rgb2.rgbBlue)/2);
- rgbDest.rgbGreen = (uint8_t)((rgb1.rgbGreen+rgb2.rgbGreen)/2);
- rgbDest.rgbRed = (uint8_t)((rgb1.rgbRed+rgb2.rgbRed)/2);
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)((rgb1.rgbReserved+rgb2.rgbReserved)/2);
- break;
- case OpAdd:
- rgbDest.rgbBlue = (uint8_t)max(0,min(255,rgb1.rgbBlue+rgb2.rgbBlue));
- rgbDest.rgbGreen = (uint8_t)max(0,min(255,rgb1.rgbGreen+rgb2.rgbGreen));
- rgbDest.rgbRed = (uint8_t)max(0,min(255,rgb1.rgbRed+rgb2.rgbRed));
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)max(0,min(255,rgb1.rgbReserved+rgb2.rgbReserved));
- break;
- case OpSub:
- rgbDest.rgbBlue = (uint8_t)max(0,min(255,rgb1.rgbBlue-rgb2.rgbBlue));
- rgbDest.rgbGreen = (uint8_t)max(0,min(255,rgb1.rgbGreen-rgb2.rgbGreen));
- rgbDest.rgbRed = (uint8_t)max(0,min(255,rgb1.rgbRed-rgb2.rgbRed));
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)max(0,min(255,rgb1.rgbReserved-rgb2.rgbReserved));
- break;
- case OpAnd:
- rgbDest.rgbBlue = (uint8_t)(rgb1.rgbBlue&rgb2.rgbBlue);
- rgbDest.rgbGreen = (uint8_t)(rgb1.rgbGreen&rgb2.rgbGreen);
- rgbDest.rgbRed = (uint8_t)(rgb1.rgbRed&rgb2.rgbRed);
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)(rgb1.rgbReserved&rgb2.rgbReserved);
- break;
- case OpXor:
- rgbDest.rgbBlue = (uint8_t)(rgb1.rgbBlue^rgb2.rgbBlue);
- rgbDest.rgbGreen = (uint8_t)(rgb1.rgbGreen^rgb2.rgbGreen);
- rgbDest.rgbRed = (uint8_t)(rgb1.rgbRed^rgb2.rgbRed);
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)(rgb1.rgbReserved^rgb2.rgbReserved);
- break;
- case OpOr:
- rgbDest.rgbBlue = (uint8_t)(rgb1.rgbBlue|rgb2.rgbBlue);
- rgbDest.rgbGreen = (uint8_t)(rgb1.rgbGreen|rgb2.rgbGreen);
- rgbDest.rgbRed = (uint8_t)(rgb1.rgbRed|rgb2.rgbRed);
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)(rgb1.rgbReserved|rgb2.rgbReserved);
- break;
- case OpMask:
- if(rgb2.rgbBlue==0 && rgb2.rgbGreen==0 && rgb2.rgbRed==0)
- rgbDest = rgbBackgrnd1;
- else
- rgbDest = rgb1;
- break;
- case OpSrcCopy:
- if(IsTransparent(lX,lY))
- rgbDest = rgb2;
- else // copy straight over
- rgbDest = rgb1;
- break;
- case OpDstCopy:
- if(imgsrc2.IsTransparent(lX+lXOffset,lY+lYOffset))
- rgbDest = rgb1;
- else // copy straight over
- rgbDest = rgb2;
- break;
- case OpScreen:
- {
- uint8_t a,a1;
-
- if (imgsrc2.IsTransparent(lX+lXOffset,lY+lYOffset)){
- a=0;
-#if CXIMAGE_SUPPORT_ALPHA
- } else if (imgsrc2.AlphaIsValid()){
- a=imgsrc2.AlphaGet(lX+lXOffset,lY+lYOffset);
- a =(uint8_t)((a*imgsrc2.info.nAlphaMax)/255);
-#endif //CXIMAGE_SUPPORT_ALPHA
- } else {
- a=255;
- }
-
- if (a==0){ //transparent
- rgbDest = rgb1;
- } else if (a==255){ //opaque
- rgbDest = rgb2;
- } else { //blend
- a1 = (uint8_t)~a;
- rgbDest.rgbBlue = (uint8_t)((rgb1.rgbBlue*a1+rgb2.rgbBlue*a)/255);
- rgbDest.rgbGreen = (uint8_t)((rgb1.rgbGreen*a1+rgb2.rgbGreen*a)/255);
- rgbDest.rgbRed = (uint8_t)((rgb1.rgbRed*a1+rgb2.rgbRed*a)/255);
- }
-
- if (bEditAlpha) rgbDest.rgbReserved = (uint8_t)((rgb1.rgbReserved*a)/255);
- }
- break;
- case OpSrcBlend:
- if(IsTransparent(lX,lY))
- rgbDest = rgb2;
- else
- {
- int32_t lBDiff = abs(rgb1.rgbBlue - rgbBackgrnd1.rgbBlue);
- int32_t lGDiff = abs(rgb1.rgbGreen - rgbBackgrnd1.rgbGreen);
- int32_t lRDiff = abs(rgb1.rgbRed - rgbBackgrnd1.rgbRed);
-
- double lAverage = (lBDiff+lGDiff+lRDiff)/3;
- double lThresh = 16;
- double dLarge = lAverage/lThresh;
- double dSmall = (lThresh-lAverage)/lThresh;
- double dSmallAmt = dSmall*((double)rgb2.rgbBlue);
-
- if( lAverage < lThresh+1){
- rgbDest.rgbBlue = (uint8_t)max(0,min(255,(int32_t)(dLarge*((double)rgb1.rgbBlue) +
- dSmallAmt)));
- rgbDest.rgbGreen = (uint8_t)max(0,min(255,(int32_t)(dLarge*((double)rgb1.rgbGreen) +
- dSmallAmt)));
- rgbDest.rgbRed = (uint8_t)max(0,min(255,(int32_t)(dLarge*((double)rgb1.rgbRed) +
- dSmallAmt)));
- }
- else
- rgbDest = rgb1;
- }
- break;
- case OpBlendAlpha: //[brunom]
- if(rgb2.rgbReserved != 0)
- {
- // The lower value is almost transparent, or the overlying
- // almost transparent can not directly overlying the value taken
- if( (rgb1.rgbReserved < 5) || (rgb2.rgbReserved > 250) ){
- rgbDest = rgb2;
- } else {
- // Alpha Blending with associative calculation merge
- // (http://en.wikipedia.org/wiki/Alpha_compositing)
- int32_t a0,a1,a2;
- // Transparency of the superimposed image
- a2 = rgb2.rgbReserved;
- // Calculation transparency of the underlying image
- a1 = (rgb1.rgbReserved * (255 - a2)) >> 8;
- // total transparency of the new pixel
- a0 = a2 + a1;
- // New transparency assume (a0 == 0 is the restriction s.o. (range 5-250) intercepted)
- if (bEditAlpha) rgbDest.rgbReserved = a0;
- // each color channel to calculate
- rgbDest.rgbBlue = (BYTE)((rgb2.rgbBlue * a2 + a1 * rgb1.rgbBlue )/a0);
- rgbDest.rgbGreen = (BYTE)((rgb2.rgbGreen * a2 + a1 * rgb1.rgbGreen)/a0);
- rgbDest.rgbRed = (BYTE)((rgb2.rgbRed * a2 + a1 * rgb1.rgbRed )/a0);
- }
- } else {
- rgbDest = rgb1;
- rgbDest.rgbReserved = 0;
- }
- break;
- default:
- return;
- }
- SetPixelColor(lX,lY,rgbDest,bEditAlpha);
- }
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-// thanks to Kenneth Ballard
-void CxImage::MixFrom(CxImage & imagesrc2, int32_t lXOffset, int32_t lYOffset)
-{
- int32_t width = imagesrc2.GetWidth();
- int32_t height = imagesrc2.GetHeight();
-
- int32_t x, y;
-
- if (imagesrc2.IsTransparent()) {
- for(x = 0; x < width; x++) {
- for(y = 0; y < height; y++) {
- if(!imagesrc2.IsTransparent(x,y)){
- SetPixelColor(x + lXOffset, y + lYOffset, imagesrc2.BlindGetPixelColor(x, y));
- }
- }
- }
- } else { //no transparency so just set it <Matt>
- for(x = 0; x < width; x++) {
- for(y = 0; y < height; y++) {
- SetPixelColor(x + lXOffset, y + lYOffset, imagesrc2.BlindGetPixelColor(x, y));
- }
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adjusts separately the red, green, and blue values in the image.
- * \param r, g, b: can be from -255 to +255.
- * \return true if everything is ok
- */
-bool CxImage::ShiftRGB(int32_t r, int32_t g, int32_t b)
-{
- if (!pDib) return false;
- RGBQUAD color;
- if (head.biClrUsed==0){
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- color = BlindGetPixelColor(x,y);
- color.rgbRed = (uint8_t)max(0,min(255,(int32_t)(color.rgbRed + r)));
- color.rgbGreen = (uint8_t)max(0,min(255,(int32_t)(color.rgbGreen + g)));
- color.rgbBlue = (uint8_t)max(0,min(255,(int32_t)(color.rgbBlue + b)));
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- } else {
- for(uint32_t j=0; j<head.biClrUsed; j++){
- color = GetPaletteColor((uint8_t)j);
- color.rgbRed = (uint8_t)max(0,min(255,(int32_t)(color.rgbRed + r)));
- color.rgbGreen = (uint8_t)max(0,min(255,(int32_t)(color.rgbGreen + g)));
- color.rgbBlue = (uint8_t)max(0,min(255,(int32_t)(color.rgbBlue + b)));
- SetPaletteColor((uint8_t)j,color);
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adjusts the color balance of the image
- * \param gamma can be from 0.1 to 5.
- * \return true if everything is ok
- * \sa GammaRGB
- */
-bool CxImage::Gamma(float gamma)
-{
- if (!pDib) return false;
-
- if (gamma <= 0.0f) return false;
-
- double dinvgamma = 1/gamma;
- double dMax = pow(255.0, dinvgamma) / 255.0;
-
- uint8_t cTable[256]; //<nipper>
- for (int32_t i=0;i<256;i++) {
- cTable[i] = (uint8_t)max(0,min(255,(int32_t)( pow((double)i, dinvgamma) / dMax)));
- }
-
- return Lut(cTable);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adjusts the color balance indipendent for each color channel
- * \param gammaR, gammaG, gammaB can be from 0.1 to 5.
- * \return true if everything is ok
- * \sa Gamma
- */
-bool CxImage::GammaRGB(float gammaR, float gammaG, float gammaB)
-{
- if (!pDib) return false;
-
- if (gammaR <= 0.0f) return false;
- if (gammaG <= 0.0f) return false;
- if (gammaB <= 0.0f) return false;
-
- double dinvgamma, dMax;
- int32_t i;
-
- dinvgamma = 1/gammaR;
- dMax = pow(255.0, dinvgamma) / 255.0;
- uint8_t cTableR[256];
- for (i=0;i<256;i++) {
- cTableR[i] = (uint8_t)max(0,min(255,(int32_t)( pow((double)i, dinvgamma) / dMax)));
- }
-
- dinvgamma = 1/gammaG;
- dMax = pow(255.0, dinvgamma) / 255.0;
- uint8_t cTableG[256];
- for (i=0;i<256;i++) {
- cTableG[i] = (uint8_t)max(0,min(255,(int32_t)( pow((double)i, dinvgamma) / dMax)));
- }
-
- dinvgamma = 1/gammaB;
- dMax = pow(255.0, dinvgamma) / 255.0;
- uint8_t cTableB[256];
- for (i=0;i<256;i++) {
- cTableB[i] = (uint8_t)max(0,min(255,(int32_t)( pow((double)i, dinvgamma) / dMax)));
- }
-
- return Lut(cTableR, cTableG, cTableB);
-}
-////////////////////////////////////////////////////////////////////////////////
-
-//#if !defined (_WIN32_WCE)
-/**
- * Adjusts the intensity of each pixel to the median intensity of its surrounding pixels.
- * \param Ksize: size of the kernel.
- * \return true if everything is ok
- */
-bool CxImage::Median(int32_t Ksize)
-{
- if (!pDib) return false;
-
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- int32_t i,j,k;
-
- RGBQUAD* kernel = (RGBQUAD*)malloc(Ksize*Ksize*sizeof(RGBQUAD));
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- for(j=-k2, i=0;j<kmax;j++)
- for(k=-k2;k<kmax;k++)
- if (IsInside(x+j,y+k))
- kernel[i++]=BlindGetPixelColor(x+j,y+k);
-
- qsort(kernel, i, sizeof(RGBQUAD), CompareColors);
- tmp.SetPixelColor(x,y,kernel[i/2]);
- }
- }
- }
- free(kernel);
- Transfer(tmp);
- return true;
-}
-//#endif //_WIN32_WCE
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds an uniform noise to the image
- * \param level: can be from 0 (no noise) to 255 (lot of noise).
- * \return true if everything is ok
- */
-bool CxImage::Noise(int32_t level)
-{
- if (!pDib) return false;
- RGBQUAD color;
-
- int32_t xmin,xmax,ymin,ymax,n;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin)); //<zhanghk><Anatoly Ivasyuk>
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- color = BlindGetPixelColor(x,y);
- n=(int32_t)((rand()/(float)RAND_MAX - 0.5)*level);
- color.rgbRed = (uint8_t)max(0,min(255,(int32_t)(color.rgbRed + n)));
- n=(int32_t)((rand()/(float)RAND_MAX - 0.5)*level);
- color.rgbGreen = (uint8_t)max(0,min(255,(int32_t)(color.rgbGreen + n)));
- n=(int32_t)((rand()/(float)RAND_MAX - 0.5)*level);
- color.rgbBlue = (uint8_t)max(0,min(255,(int32_t)(color.rgbBlue + n)));
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Computes the bidimensional FFT or DFT of the image.
- * - The images are processed as grayscale
- * - If the dimensions of the image are a power of, 2 the FFT is performed automatically.
- * - If dstReal and/or dstImag are NULL, the resulting images replaces the original(s).
- * - Note: with 8 bits there is a HUGE loss in the dynamics. The function tries
- * to keep an acceptable SNR, but 8bit = 48dB...
- *
- * \param srcReal, srcImag: source images: One can be NULL, but not both
- * \param dstReal, dstImag: destination images. Can be NULL.
- * \param direction: 1 = forward, -1 = inverse.
- * \param bForceFFT: if true, the images are resampled to make the dimensions a power of 2.
- * \param bMagnitude: if true, the real part returns the magnitude, the imaginary part returns the phase
- * \return true if everything is ok
- */
-bool CxImage::FFT2(CxImage* srcReal, CxImage* srcImag, CxImage* dstReal, CxImage* dstImag,
- int32_t direction, bool bForceFFT, bool bMagnitude)
-{
- //check if there is something to convert
- if (srcReal==NULL && srcImag==NULL) return false;
-
- int32_t w,h;
- //get width and height
- if (srcReal) {
- w=srcReal->GetWidth();
- h=srcReal->GetHeight();
- } else {
- w=srcImag->GetWidth();
- h=srcImag->GetHeight();
- }
-
- bool bXpow2 = IsPowerof2(w);
- bool bYpow2 = IsPowerof2(h);
- //if bForceFFT, width AND height must be powers of 2
- if (bForceFFT && !(bXpow2 && bYpow2)) {
- int32_t i;
-
- i=0;
- while((1<<i)<w) i++;
- w=1<<i;
- bXpow2=true;
-
- i=0;
- while((1<<i)<h) i++;
- h=1<<i;
- bYpow2=true;
- }
-
- // I/O images for FFT
- CxImage *tmpReal,*tmpImag;
-
- // select output
- tmpReal = (dstReal) ? dstReal : srcReal;
- tmpImag = (dstImag) ? dstImag : srcImag;
-
- // src!=dst -> copy the image
- if (srcReal && dstReal) tmpReal->Copy(*srcReal,true,false,false);
- if (srcImag && dstImag) tmpImag->Copy(*srcImag,true,false,false);
-
- // dst&&src are empty -> create new one, else turn to GrayScale
- if (srcReal==0 && dstReal==0){
- tmpReal = new CxImage(w,h,8);
- tmpReal->Clear(0);
- tmpReal->SetGrayPalette();
- } else {
- if (!tmpReal->IsGrayScale()) tmpReal->GrayScale();
- }
- if (srcImag==0 && dstImag==0){
- tmpImag = new CxImage(w,h,8);
- tmpImag->Clear(0);
- tmpImag->SetGrayPalette();
- } else {
- if (!tmpImag->IsGrayScale()) tmpImag->GrayScale();
- }
-
- if (!(tmpReal->IsValid() && tmpImag->IsValid())){
- if (srcReal==0 && dstReal==0) delete tmpReal;
- if (srcImag==0 && dstImag==0) delete tmpImag;
- return false;
- }
-
- //resample for FFT, if necessary
- tmpReal->Resample(w,h,0);
- tmpImag->Resample(w,h,0);
-
- //ok, here we have 2 (w x h), grayscale images ready for a FFT
-
- double* real;
- double* imag;
- int32_t j,k,m;
-
- _complex **grid;
- //double mean = tmpReal->Mean();
- /* Allocate memory for the grid */
- grid = (_complex **)malloc(w * sizeof(_complex));
- for (k=0;k<w;k++) {
- grid[k] = (_complex *)malloc(h * sizeof(_complex));
- }
- for (j=0;j<h;j++) {
- for (k=0;k<w;k++) {
- grid[k][j].x = tmpReal->GetPixelIndex(k,j)-128;
- grid[k][j].y = tmpImag->GetPixelIndex(k,j)-128;
- }
- }
-
- //DFT buffers
- double *real2,*imag2;
- real2 = (double*)malloc(max(w,h) * sizeof(double));
- imag2 = (double*)malloc(max(w,h) * sizeof(double));
-
- /* Transform the rows */
- real = (double *)malloc(w * sizeof(double));
- imag = (double *)malloc(w * sizeof(double));
-
- m=0;
- while((1<<m)<w) m++;
-
- for (j=0;j<h;j++) {
- for (k=0;k<w;k++) {
- real[k] = grid[k][j].x;
- imag[k] = grid[k][j].y;
- }
-
- if (bXpow2) FFT(direction,m,real,imag);
- else DFT(direction,w,real,imag,real2,imag2);
-
- for (k=0;k<w;k++) {
- grid[k][j].x = real[k];
- grid[k][j].y = imag[k];
- }
- }
- free(real);
- free(imag);
-
- /* Transform the columns */
- real = (double *)malloc(h * sizeof(double));
- imag = (double *)malloc(h * sizeof(double));
-
- m=0;
- while((1<<m)<h) m++;
-
- for (k=0;k<w;k++) {
- for (j=0;j<h;j++) {
- real[j] = grid[k][j].x;
- imag[j] = grid[k][j].y;
- }
-
- if (bYpow2) FFT(direction,m,real,imag);
- else DFT(direction,h,real,imag,real2,imag2);
-
- for (j=0;j<h;j++) {
- grid[k][j].x = real[j];
- grid[k][j].y = imag[j];
- }
- }
- free(real);
- free(imag);
-
- free(real2);
- free(imag2);
-
- /* converting from double to byte, there is a HUGE loss in the dynamics
- "nn" tries to keep an acceptable SNR, but 8bit=48dB: don't ask more */
- double nn=pow((double)2,(double)log((double)max(w,h))/(double)log((double)2)-4);
- //reversed gain for reversed transform
- if (direction==-1) nn=1/nn;
- //bMagnitude : just to see it on the screen
- if (bMagnitude) nn*=4;
-
- for (j=0;j<h;j++) {
- for (k=0;k<w;k++) {
- if (bMagnitude){
- tmpReal->SetPixelIndex(k,j,(uint8_t)max(0,min(255,(nn*(3+log(_cabs(grid[k][j])))))));
- if (grid[k][j].x==0){
- tmpImag->SetPixelIndex(k,j,(uint8_t)max(0,min(255,(128+(atan(grid[k][j].y/0.0000000001)*nn)))));
- } else {
- tmpImag->SetPixelIndex(k,j,(uint8_t)max(0,min(255,(128+(atan(grid[k][j].y/grid[k][j].x)*nn)))));
- }
- } else {
- tmpReal->SetPixelIndex(k,j,(uint8_t)max(0,min(255,(128 + grid[k][j].x*nn))));
- tmpImag->SetPixelIndex(k,j,(uint8_t)max(0,min(255,(128 + grid[k][j].y*nn))));
- }
- }
- }
-
- for (k=0;k<w;k++) free (grid[k]);
- free (grid);
-
- if (srcReal==0 && dstReal==0) delete tmpReal;
- if (srcImag==0 && dstImag==0) delete tmpImag;
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::IsPowerof2(int32_t x)
-{
- int32_t i=0;
- while ((1<<i)<x) i++;
- if (x==(1<<i)) return true;
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- This computes an in-place complex-to-complex FFT
- x and y are the real and imaginary arrays of n=2^m points.
- o(n)=n*log2(n)
- dir = 1 gives forward transform
- dir = -1 gives reverse transform
- Written by Paul Bourke, July 1998
- FFT algorithm by Cooley and Tukey, 1965
-*/
-bool CxImage::FFT(int32_t dir,int32_t m,double *x,double *y)
-{
- int32_t nn,i,i1,j,k,i2,l,l1,l2;
- double c1,c2,tx,ty,t1,t2,u1,u2,z;
-
- /* Calculate the number of points */
- nn = 1<<m;
-
- /* Do the bit reversal */
- i2 = nn >> 1;
- j = 0;
- for (i=0;i<nn-1;i++) {
- if (i < j) {
- tx = x[i];
- ty = y[i];
- x[i] = x[j];
- y[i] = y[j];
- x[j] = tx;
- y[j] = ty;
- }
- k = i2;
- while (k <= j) {
- j -= k;
- k >>= 1;
- }
- j += k;
- }
-
- /* Compute the FFT */
- c1 = -1.0;
- c2 = 0.0;
- l2 = 1;
- for (l=0;l<m;l++) {
- l1 = l2;
- l2 <<= 1;
- u1 = 1.0;
- u2 = 0.0;
- for (j=0;j<l1;j++) {
- for (i=j;i<nn;i+=l2) {
- i1 = i + l1;
- t1 = u1 * x[i1] - u2 * y[i1];
- t2 = u1 * y[i1] + u2 * x[i1];
- x[i1] = x[i] - t1;
- y[i1] = y[i] - t2;
- x[i] += t1;
- y[i] += t2;
- }
- z = u1 * c1 - u2 * c2;
- u2 = u1 * c2 + u2 * c1;
- u1 = z;
- }
- c2 = sqrt((1.0 - c1) / 2.0);
- if (dir == 1)
- c2 = -c2;
- c1 = sqrt((1.0 + c1) / 2.0);
- }
-
- /* Scaling for forward transform */
- if (dir == 1) {
- for (i=0;i<nn;i++) {
- x[i] /= (double)nn;
- y[i] /= (double)nn;
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- Direct fourier transform o(n)=n^2
- Written by Paul Bourke, July 1998
-*/
-bool CxImage::DFT(int32_t dir,int32_t m,double *x1,double *y1,double *x2,double *y2)
-{
- int32_t i,k;
- double arg;
- double cosarg,sinarg;
-
- for (i=0;i<m;i++) {
- x2[i] = 0;
- y2[i] = 0;
- arg = - dir * 2.0 * PI * i / (double)m;
- for (k=0;k<m;k++) {
- cosarg = cos(k * arg);
- sinarg = sin(k * arg);
- x2[i] += (x1[k] * cosarg - y1[k] * sinarg);
- y2[i] += (x1[k] * sinarg + y1[k] * cosarg);
- }
- }
-
- /* Copy the data back */
- if (dir == 1) {
- for (i=0;i<m;i++) {
- x1[i] = x2[i] / m;
- y1[i] = y2[i] / m;
- }
- } else {
- for (i=0;i<m;i++) {
- x1[i] = x2[i];
- y1[i] = y2[i];
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Combines different color components into a single image
- * \param r,g,b: color channels
- * \param a: alpha layer, can be NULL
- * \param colorspace: 0 = RGB, 1 = HSL, 2 = YUV, 3 = YIQ, 4 = XYZ
- * \return true if everything is ok
- */
-bool CxImage::Combine(CxImage* r,CxImage* g,CxImage* b,CxImage* a, int32_t colorspace)
-{
- if (r==0 || g==0 || b==0) return false;
-
- int32_t w = r->GetWidth();
- int32_t h = r->GetHeight();
-
- Create(w,h,24);
-
- g->Resample(w,h);
- b->Resample(w,h);
-
- if (a) {
- a->Resample(w,h);
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- RGBQUAD c;
- for (int32_t y=0;y<h;y++){
- info.nProgress = (int32_t)(100*y/h); //<Anatoly Ivasyuk>
- for (int32_t x=0;x<w;x++){
- c.rgbRed=r->GetPixelIndex(x,y);
- c.rgbGreen=g->GetPixelIndex(x,y);
- c.rgbBlue=b->GetPixelIndex(x,y);
- switch (colorspace){
- case 1:
- BlindSetPixelColor(x,y,HSLtoRGB(c));
- break;
- case 2:
- BlindSetPixelColor(x,y,YUVtoRGB(c));
- break;
- case 3:
- BlindSetPixelColor(x,y,YIQtoRGB(c));
- break;
- case 4:
- BlindSetPixelColor(x,y,XYZtoRGB(c));
- break;
- default:
- BlindSetPixelColor(x,y,c);
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (a) AlphaSet(x,y,a->GetPixelIndex(x,y));
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Smart blurring to remove small defects, dithering or artifacts.
- * \param radius: normally between 0.01 and 0.5
- * \param niterations: should be trimmed with radius, to avoid blurring should be (radius*niterations)<1
- * \param colorspace: 0 = RGB, 1 = HSL, 2 = YUV, 3 = YIQ, 4 = XYZ
- * \return true if everything is ok
- */
-bool CxImage::Repair(float radius, int32_t niterations, int32_t colorspace)
-{
- if (!IsValid()) return false;
-
- int32_t w = GetWidth();
- int32_t h = GetHeight();
-
- CxImage r,g,b;
-
- r.Create(w,h,8);
- g.Create(w,h,8);
- b.Create(w,h,8);
-
- switch (colorspace){
- case 1:
- SplitHSL(&r,&g,&b);
- break;
- case 2:
- SplitYUV(&r,&g,&b);
- break;
- case 3:
- SplitYIQ(&r,&g,&b);
- break;
- case 4:
- SplitXYZ(&r,&g,&b);
- break;
- default:
- SplitRGB(&r,&g,&b);
- }
-
- for (int32_t i=0; i<niterations; i++){
- RepairChannel(&r,radius);
- RepairChannel(&g,radius);
- RepairChannel(&b,radius);
- }
-
- CxImage* a=NULL;
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- a = new CxImage();
- AlphaSplit(a);
- }
-#endif
-
- Combine(&r,&g,&b,a,colorspace);
-
- delete a;
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::RepairChannel(CxImage *ch, float radius)
-{
- if (ch==NULL) return false;
-
- CxImage tmp(*ch);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t w = ch->GetWidth()-1;
- int32_t h = ch->GetHeight()-1;
-
- double correction,ix,iy,ixx,ixy,iyy;
- int32_t x,y,xy0,xp1,xm1,yp1,ym1;
-
- for(x=1; x<w; x++){
- for(y=1; y<h; y++){
-
- xy0 = ch->BlindGetPixelIndex(x,y);
- xm1 = ch->BlindGetPixelIndex(x-1,y);
- xp1 = ch->BlindGetPixelIndex(x+1,y);
- ym1 = ch->BlindGetPixelIndex(x,y-1);
- yp1 = ch->BlindGetPixelIndex(x,y+1);
-
- ix= (xp1-xm1)/2.0;
- iy= (yp1-ym1)/2.0;
- ixx= xp1 - 2.0 * xy0 + xm1;
- iyy= yp1 - 2.0 * xy0 + ym1;
- ixy=(ch->BlindGetPixelIndex(x+1,y+1) + ch->BlindGetPixelIndex(x-1,y-1) -
- ch->BlindGetPixelIndex(x-1,y+1) - ch->BlindGetPixelIndex(x+1,y-1))/4.0;
-
- correction = ((1.0+iy*iy)*ixx - ix*iy*ixy + (1.0+ix*ix)*iyy)/(1.0+ix*ix+iy*iy);
-
- tmp.BlindSetPixelIndex(x,y,(uint8_t)min(255,max(0,(xy0 + radius * correction + 0.5))));
- }
- }
-
- for (x=0;x<=w;x++){
- for(y=0; y<=h; y+=h){
- xy0 = ch->BlindGetPixelIndex(x,y);
- xm1 = ch->GetPixelIndex(x-1,y);
- xp1 = ch->GetPixelIndex(x+1,y);
- ym1 = ch->GetPixelIndex(x,y-1);
- yp1 = ch->GetPixelIndex(x,y+1);
-
- ix= (xp1-xm1)/2.0;
- iy= (yp1-ym1)/2.0;
- ixx= xp1 - 2.0 * xy0 + xm1;
- iyy= yp1 - 2.0 * xy0 + ym1;
- ixy=(ch->GetPixelIndex(x+1,y+1) + ch->GetPixelIndex(x-1,y-1) -
- ch->GetPixelIndex(x-1,y+1) - ch->GetPixelIndex(x+1,y-1))/4.0;
-
- correction = ((1.0+iy*iy)*ixx - ix*iy*ixy + (1.0+ix*ix)*iyy)/(1.0+ix*ix+iy*iy);
-
- tmp.BlindSetPixelIndex(x,y,(uint8_t)min(255,max(0,(xy0 + radius * correction + 0.5))));
- }
- }
- for (x=0;x<=w;x+=w){
- for (y=0;y<=h;y++){
- xy0 = ch->BlindGetPixelIndex(x,y);
- xm1 = ch->GetPixelIndex(x-1,y);
- xp1 = ch->GetPixelIndex(x+1,y);
- ym1 = ch->GetPixelIndex(x,y-1);
- yp1 = ch->GetPixelIndex(x,y+1);
-
- ix= (xp1-xm1)/2.0;
- iy= (yp1-ym1)/2.0;
- ixx= xp1 - 2.0 * xy0 + xm1;
- iyy= yp1 - 2.0 * xy0 + ym1;
- ixy=(ch->GetPixelIndex(x+1,y+1) + ch->GetPixelIndex(x-1,y-1) -
- ch->GetPixelIndex(x-1,y+1) - ch->GetPixelIndex(x+1,y-1))/4.0;
-
- correction = ((1.0+iy*iy)*ixx - ix*iy*ixy + (1.0+ix*ix)*iyy)/(1.0+ix*ix+iy*iy);
-
- tmp.BlindSetPixelIndex(x,y,(uint8_t)min(255,max(0,(xy0 + radius * correction + 0.5))));
- }
- }
-
- ch->Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enhance the variations between adjacent pixels.
- * Similar results can be achieved using Filter(),
- * but the algorithms are different both in Edge() and in Contour().
- * \return true if everything is ok
- */
-bool CxImage::Contour()
-{
- if (!pDib) return false;
-
- int32_t Ksize = 3;
- int32_t k2 = Ksize/2;
- int32_t kmax= Ksize-k2;
- int32_t i,j,k;
- uint8_t maxr,maxg,maxb;
- RGBQUAD pix1,pix2;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- pix1 = BlindGetPixelColor(x,y);
- maxr=maxg=maxb=0;
- for(j=-k2, i=0;j<kmax;j++){
- for(k=-k2;k<kmax;k++, i++){
- if (!IsInside(x+j,y+k)) continue;
- pix2 = BlindGetPixelColor(x+j,y+k);
- if ((pix2.rgbBlue-pix1.rgbBlue)>maxb) maxb = pix2.rgbBlue;
- if ((pix2.rgbGreen-pix1.rgbGreen)>maxg) maxg = pix2.rgbGreen;
- if ((pix2.rgbRed-pix1.rgbRed)>maxr) maxr = pix2.rgbRed;
- }
- }
- pix1.rgbBlue=(uint8_t)(255-maxb);
- pix1.rgbGreen=(uint8_t)(255-maxg);
- pix1.rgbRed=(uint8_t)(255-maxr);
- tmp.BlindSetPixelColor(x,y,pix1);
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds a random offset to each pixel in the image
- * \param radius: maximum pixel displacement
- * \return true if everything is ok
- */
-bool CxImage::Jitter(int32_t radius)
-{
- if (!pDib) return false;
-
- int32_t nx,ny;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- nx=x+(int32_t)((rand()/(float)RAND_MAX - 0.5)*(radius*2));
- ny=y+(int32_t)((rand()/(float)RAND_MAX - 0.5)*(radius*2));
- if (!IsInside(nx,ny)) {
- nx=x;
- ny=y;
- }
- if (head.biClrUsed==0){
- tmp.BlindSetPixelColor(x,y,BlindGetPixelColor(nx,ny));
- } else {
- tmp.BlindSetPixelIndex(x,y,BlindGetPixelIndex(nx,ny));
- }
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaSet(x,y,AlphaGet(nx,ny));
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * generates a 1-D convolution matrix to be used for each pass of
- * a two-pass gaussian blur. Returns the length of the matrix.
- * \author [nipper]
- */
-int32_t CxImage::gen_convolve_matrix (float radius, float **cmatrix_p)
-{
- int32_t matrix_length;
- int32_t matrix_midpoint;
- float* cmatrix;
- int32_t i,j;
- float std_dev;
- float sum;
-
- /* we want to generate a matrix that goes out a certain radius
- * from the center, so we have to go out ceil(rad-0.5) pixels,
- * inlcuding the center pixel. Of course, that's only in one direction,
- * so we have to go the same amount in the other direction, but not count
- * the center pixel again. So we double the previous result and subtract
- * one.
- * The radius parameter that is passed to this function is used as
- * the standard deviation, and the radius of effect is the
- * standard deviation * 2. It's a little confusing.
- * <DP> modified scaling, so that matrix_lenght = 1+2*radius parameter
- */
- radius = (float)fabs(0.5*radius) + 0.25f;
-
- std_dev = radius;
- radius = std_dev * 2;
-
- /* go out 'radius' in each direction */
- matrix_length = int32_t (2 * ceil(radius-0.5) + 1);
- if (matrix_length <= 0) matrix_length = 1;
- matrix_midpoint = matrix_length/2 + 1;
- *cmatrix_p = new float[matrix_length];
- cmatrix = *cmatrix_p;
-
- /* Now we fill the matrix by doing a numeric integration approximation
- * from -2*std_dev to 2*std_dev, sampling 50 points per pixel.
- * We do the bottom half, mirror it to the top half, then compute the
- * center point. Otherwise asymmetric quantization errors will occur.
- * The formula to integrate is e^-(x^2/2s^2).
- */
-
- /* first we do the top (right) half of matrix */
- for (i = matrix_length/2 + 1; i < matrix_length; i++)
- {
- float base_x = i - (float)floor((float)(matrix_length/2)) - 0.5f;
- sum = 0;
- for (j = 1; j <= 50; j++)
- {
- if ( base_x+0.02*j <= radius )
- sum += (float)exp (-(base_x+0.02*j)*(base_x+0.02*j) /
- (2*std_dev*std_dev));
- }
- cmatrix[i] = sum/50;
- }
-
- /* mirror the thing to the bottom half */
- for (i=0; i<=matrix_length/2; i++) {
- cmatrix[i] = cmatrix[matrix_length-1-i];
- }
-
- /* find center val -- calculate an odd number of quanta to make it symmetric,
- * even if the center point is weighted slightly higher than others. */
- sum = 0;
- for (j=0; j<=50; j++)
- {
- sum += (float)exp (-(0.5+0.02*j)*(0.5+0.02*j) /
- (2*std_dev*std_dev));
- }
- cmatrix[matrix_length/2] = sum/51;
-
- /* normalize the distribution by scaling the total sum to one */
- sum=0;
- for (i=0; i<matrix_length; i++) sum += cmatrix[i];
- for (i=0; i<matrix_length; i++) cmatrix[i] = cmatrix[i] / sum;
-
- return matrix_length;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * generates a lookup table for every possible product of 0-255 and
- * each value in the convolution matrix. The returned array is
- * indexed first by matrix position, then by input multiplicand (?)
- * value.
- * \author [nipper]
- */
-float* CxImage::gen_lookup_table (float *cmatrix, int32_t cmatrix_length)
-{
- float* lookup_table = new float[cmatrix_length * 256];
- float* lookup_table_p = lookup_table;
- float* cmatrix_p = cmatrix;
-
- for (int32_t i=0; i<cmatrix_length; i++)
- {
- for (int32_t j=0; j<256; j++)
- {
- *(lookup_table_p++) = *cmatrix_p * (float)j;
- }
- cmatrix_p++;
- }
-
- return lookup_table;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * this function is written as if it is blurring a column at a time,
- * even though it can operate on rows, too. There is no difference
- * in the processing of the lines, at least to the blur_line function.
- * \author [nipper]
- */
-void CxImage::blur_line (float *ctable, float *cmatrix, int32_t cmatrix_length, uint8_t* cur_col, uint8_t* dest_col, int32_t y, int32_t bytes)
-{
- float scale;
- float sum;
- int32_t i=0, j=0;
- int32_t row;
- int32_t cmatrix_middle = cmatrix_length/2;
-
- float *cmatrix_p;
- uint8_t *cur_col_p;
- uint8_t *cur_col_p1;
- uint8_t *dest_col_p;
- float *ctable_p;
-
- /* this first block is the same as the non-optimized version --
- * it is only used for very small pictures, so speed isn't a
- * big concern.
- */
- if (cmatrix_length > y)
- {
- for (row = 0; row < y ; row++)
- {
- scale=0;
- /* find the scale factor */
- for (j = 0; j < y ; j++)
- {
- /* if the index is in bounds, add it to the scale counter */
- if ((j + cmatrix_middle - row >= 0) &&
- (j + cmatrix_middle - row < cmatrix_length))
- scale += cmatrix[j + cmatrix_middle - row];
- }
- for (i = 0; i<bytes; i++)
- {
- sum = 0;
- for (j = 0; j < y; j++)
- {
- if ((j >= row - cmatrix_middle) &&
- (j <= row + cmatrix_middle))
- sum += cur_col[j*bytes + i] * cmatrix[j];
- }
- dest_col[row*bytes + i] = (uint8_t)(0.5f + sum / scale);
- }
- }
- }
- else
- {
- /* for the edge condition, we only use available info and scale to one */
- for (row = 0; row < cmatrix_middle; row++)
- {
- /* find scale factor */
- scale=0;
- for (j = cmatrix_middle - row; j<cmatrix_length; j++)
- scale += cmatrix[j];
- for (i = 0; i<bytes; i++)
- {
- sum = 0;
- for (j = cmatrix_middle - row; j<cmatrix_length; j++)
- {
- sum += cur_col[(row + j-cmatrix_middle)*bytes + i] * cmatrix[j];
- }
- dest_col[row*bytes + i] = (uint8_t)(0.5f + sum / scale);
- }
- }
- /* go through each pixel in each col */
- dest_col_p = dest_col + row*bytes;
- for (; row < y-cmatrix_middle; row++)
- {
- cur_col_p = (row - cmatrix_middle) * bytes + cur_col;
- for (i = 0; i<bytes; i++)
- {
- sum = 0;
- cmatrix_p = cmatrix;
- cur_col_p1 = cur_col_p;
- ctable_p = ctable;
- for (j = cmatrix_length; j>0; j--)
- {
- sum += *(ctable_p + *cur_col_p1);
- cur_col_p1 += bytes;
- ctable_p += 256;
- }
- cur_col_p++;
- *(dest_col_p++) = (uint8_t)(0.5f + sum);
- }
- }
-
- /* for the edge condition , we only use available info, and scale to one */
- for (; row < y; row++)
- {
- /* find scale factor */
- scale=0;
- for (j = 0; j< y-row + cmatrix_middle; j++)
- scale += cmatrix[j];
- for (i = 0; i<bytes; i++)
- {
- sum = 0;
- for (j = 0; j<y-row + cmatrix_middle; j++)
- {
- sum += cur_col[(row + j-cmatrix_middle)*bytes + i] * cmatrix[j];
- }
- dest_col[row*bytes + i] = (uint8_t) (0.5f + sum / scale);
- }
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \author [DP]
- */
-void CxImage::blur_text (uint8_t threshold, uint8_t decay, uint8_t max_depth, CxImage* iSrc, CxImage* iDst, uint8_t bytes)
-{
- int32_t x,y,z,m;
- uint8_t *pSrc, *pSrc2, *pSrc3, *pDst;
- uint8_t step,n;
- int32_t pivot;
-
- if (max_depth<1) max_depth = 1;
-
- int32_t nmin,nmax,xmin,xmax,ymin,ymax;
- xmin = ymin = 0;
- xmax = iSrc->head.biWidth;
- ymax = iSrc->head.biHeight;
-
- if (xmin==xmax || ymin==ymax) return;
-
- nmin = xmin * bytes;
- nmax = xmax * bytes;
-
- CImageIterator itSrc(iSrc);
- CImageIterator itTmp(iDst);
-
- double dbScaler = 100.0f/(ymax-ymin)/bytes;
-
- for (n=0; n<bytes; n++){
- for (y=ymin+1;y<(ymax-1);y++)
- {
- if (info.nEscape) break;
- info.nProgress = (int32_t)((y-ymin)*dbScaler*(1+n));
-
- pSrc = itSrc.GetRow(y);
- pSrc2 = itSrc.GetRow(y+1);
- pSrc3 = itSrc.GetRow(y-1);
- pDst = itTmp.GetRow(y);
-
- //scan left to right
- for (x=n+nmin /*,i=xmin*/; x<(nmax-1); x+=bytes /*,i++*/)
- {
- z=x+bytes;
- pivot = pSrc[z]-threshold;
- //find upper corner
- if (pSrc[x]<pivot && pSrc2[z]<pivot && pSrc3[x]>=pivot){
- while (z<nmax && pSrc2[z]<pSrc[x+bytes] && pSrc[x+bytes]<=pSrc[z]){
- z+=bytes;
- }
- m = z-x;
- m = (decay>1) ? ((m/bytes)/decay+1) : m/bytes;
- if (m>max_depth) m = max_depth;
- step = (uint8_t)((pSrc[x+bytes]-pSrc[x])/(m+1));
- while (m-->1){
- pDst[x+m*bytes] = (uint8_t)(pDst[x]+(step*(m+1)));
- }
- }
- //find lower corner
- z=x+bytes;
- if (pSrc[x]<pivot && pSrc3[z]<pivot && pSrc2[x]>=pivot){
- while (z<nmax && pSrc3[z]<pSrc[x+bytes] && pSrc[x+bytes]<=pSrc[z]){
- z+=bytes;
- }
- m = z-x;
- m = (decay>1) ? ((m/bytes)/decay+1) : m/bytes;
- if (m>max_depth) m = max_depth;
- step = (uint8_t)((pSrc[x+bytes]-pSrc[x])/(m+1));
- while (m-->1){
- pDst[x+m*bytes] = (uint8_t)(pDst[x]+(step*(m+1)));
- }
- }
- }
- //scan right to left
- for (x=nmax-1-n /*,i=(xmax-1)*/; x>0; x-=bytes /*,i--*/)
- {
- z=x-bytes;
- pivot = pSrc[z]-threshold;
- //find upper corner
- if (pSrc[x]<pivot && pSrc2[z]<pivot && pSrc3[x]>=pivot){
- while (z>n && pSrc2[z]<pSrc[x-bytes] && pSrc[x-bytes]<=pSrc[z]){
- z-=bytes;
- }
- m = x-z;
- m = (decay>1) ? ((m/bytes)/decay+1) : m/bytes;
- if (m>max_depth) m = max_depth;
- step = (uint8_t)((pSrc[x-bytes]-pSrc[x])/(m+1));
- while (m-->1){
- pDst[x-m*bytes] = (uint8_t)(pDst[x]+(step*(m+1)));
- }
- }
- //find lower corner
- z=x-bytes;
- if (pSrc[x]<pivot && pSrc3[z]<pivot && pSrc2[x]>=pivot){
- while (z>n && pSrc3[z]<pSrc[x-bytes] && pSrc[x-bytes]<=pSrc[z]){
- z-=bytes;
- }
- m = x-z;
- m = (decay>1) ? ((m/bytes)/decay+1) : m/bytes;
- if (m>max_depth) m = max_depth;
- step = (uint8_t)((pSrc[x-bytes]-pSrc[x])/(m+1));
- while (m-->1){
- pDst[x-m*bytes] = (uint8_t)(pDst[x]+(step*(m+1)));
- }
- }
- }
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \author [DP]
- */
-bool CxImage::TextBlur(uint8_t threshold, uint8_t decay, uint8_t max_depth, bool bBlurHorizontal, bool bBlurVertical, CxImage* iDst)
-{
- if (!pDib) return false;
-
- RGBQUAD* pPalette=NULL;
- uint16_t bpp = GetBpp();
-
- //the routine is optimized for RGB or GrayScale images
- if (!(head.biBitCount == 24 || IsGrayScale())){
- pPalette = new RGBQUAD[head.biClrUsed];
- memcpy(pPalette, GetPalette(),GetPaletteSize());
- if (!IncreaseBpp(24))
- return false;
- }
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- if (bBlurHorizontal)
- blur_text(threshold, decay, max_depth, this, &tmp, head.biBitCount>>3);
-
- if (bBlurVertical){
- CxImage src2(*this);
- src2.RotateLeft();
- tmp.RotateLeft();
- blur_text(threshold, decay, max_depth, &src2, &tmp, head.biBitCount>>3);
- tmp.RotateRight();
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- //restore the non selected region
- if (pSelection){
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- if (!BlindSelectionIsInside(x,y)){
- tmp.BlindSetPixelColor(x,y,BlindGetPixelColor(x,y));
- }
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- //if necessary, restore the original BPP and palette
- if (pPalette){
- tmp.DecreaseBpp(bpp, true, pPalette);
- delete [] pPalette;
- }
-
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \author [nipper]; changes [DP]
- */
-bool CxImage::GaussianBlur(float radius /*= 1.0f*/, CxImage* iDst /*= 0*/)
-{
- if (!pDib) return false;
-
- RGBQUAD* pPalette=NULL;
- uint16_t bpp = GetBpp();
-
- //the routine is optimized for RGB or GrayScale images
- if (!(head.biBitCount == 24 || IsGrayScale())){
- pPalette = new RGBQUAD[head.biClrUsed];
- memcpy(pPalette, GetPalette(),GetPaletteSize());
- if (!IncreaseBpp(24))
- return false;
- }
-
- CxImage tmp_x(*this, false, true, true);
- if (!tmp_x.IsValid()){
- strcpy(info.szLastError,tmp_x.GetLastError());
- return false;
- }
-
- // generate convolution matrix and make sure it's smaller than each dimension
- float *cmatrix = NULL;
- int32_t cmatrix_length = gen_convolve_matrix(radius, &cmatrix);
- // generate lookup table
- float *ctable = gen_lookup_table(cmatrix, cmatrix_length);
-
- int32_t x,y;
- int32_t bypp = head.biBitCount>>3;
-
- CImageIterator itSrc(this);
- CImageIterator itTmp(&tmp_x);
-
- double dbScaler = 50.0f/head.biHeight;
-
- // blur the rows
- for (y=0;y<head.biHeight;y++)
- {
- if (info.nEscape) break;
- info.nProgress = (int32_t)(y*dbScaler);
-
- blur_line(ctable, cmatrix, cmatrix_length, itSrc.GetRow(y), itTmp.GetRow(y), head.biWidth, bypp);
- }
-
- CxImage tmp_y(tmp_x, false, true, true);
- if (!tmp_y.IsValid()){
- strcpy(info.szLastError,tmp_y.GetLastError());
- return false;
- }
-
- CImageIterator itDst(&tmp_y);
-
- // blur the cols
- uint8_t* cur_col = (uint8_t*)malloc(bypp*head.biHeight);
- uint8_t* dest_col = (uint8_t*)malloc(bypp*head.biHeight);
-
- dbScaler = 50.0f/head.biWidth;
-
- for (x=0;x<head.biWidth;x++)
- {
- if (info.nEscape) break;
- info.nProgress = (int32_t)(50.0f+x*dbScaler);
-
- itTmp.GetCol(cur_col, x);
- itDst.GetCol(dest_col, x);
- blur_line(ctable, cmatrix, cmatrix_length, cur_col, dest_col, head.biHeight, bypp);
- itDst.SetCol(dest_col, x);
- }
-
- free(cur_col);
- free(dest_col);
-
- delete [] cmatrix;
- delete [] ctable;
-
-#if CXIMAGE_SUPPORT_SELECTION
- //restore the non selected region
- if (pSelection){
- for(y=0; y<head.biHeight; y++){
- for(x=0; x<head.biWidth; x++){
- if (!BlindSelectionIsInside(x,y)){
- tmp_y.BlindSetPixelColor(x,y,BlindGetPixelColor(x,y));
- }
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- //if necessary, restore the original BPP and palette
- if (pPalette){
- tmp_y.DecreaseBpp(bpp, false, pPalette);
- if (iDst) DecreaseBpp(bpp, false, pPalette);
- delete [] pPalette;
- }
-
- if (iDst) iDst->Transfer(tmp_y);
- else Transfer(tmp_y);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \author [DP],[nipper]
- */
-bool CxImage::SelectiveBlur(float radius, uint8_t threshold, CxImage* iDst)
-{
- if (!pDib) return false;
-
- RGBQUAD* pPalette=NULL;
- uint16_t bpp = GetBpp();
-
- CxImage Tmp(*this, true, true, true);
- if (!Tmp.IsValid()){
- strcpy(info.szLastError,Tmp.GetLastError());
- return false;
- }
-
- //the routine is optimized for RGB or GrayScale images
- if (!(head.biBitCount == 24 || IsGrayScale())){
- pPalette = new RGBQUAD[head.biClrUsed];
- memcpy(pPalette, GetPalette(),GetPaletteSize());
- if (!Tmp.IncreaseBpp(24)){
- delete [] pPalette;
- return false;
- }
- }
-
- CxImage Dst(Tmp, true, true, true);
- if (!Dst.IsValid()){
- strcpy(info.szLastError,Dst.GetLastError());
- delete [] pPalette;
- return false;
- }
-
- //build the difference mask
- uint8_t thresh_dw = (uint8_t)max( 0 ,(int32_t)(128 - threshold));
- uint8_t thresh_up = (uint8_t)min(255,(int32_t)(128 + threshold));
- int32_t kernel[]={-100,-100,-100,-100,801,-100,-100,-100,-100};
- if (!Tmp.Filter(kernel,3,800,128)){
- strcpy(info.szLastError,Tmp.GetLastError());
- delete [] pPalette;
- return false;
- }
-
- //if the image has no selection, build a selection for the whole image
-#if CXIMAGE_SUPPORT_SELECTION
- if (!Tmp.SelectionIsValid()){
- Tmp.SelectionCreate();
- Tmp.SelectionClear(255);
- }
-
- int32_t xmin,xmax,ymin,ymax;
- xmin = Tmp.info.rSelectionBox.left;
- xmax = Tmp.info.rSelectionBox.right;
- ymin = Tmp.info.rSelectionBox.bottom;
- ymax = Tmp.info.rSelectionBox.top;
-
- //modify the selection where the difference mask is over the threshold
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
- if(Tmp.BlindSelectionIsInside(x,y)){
- RGBQUAD c = Tmp.BlindGetPixelColor(x,y);
- if ((c.rgbRed < thresh_dw || c.rgbRed > thresh_up) ||
- (c.rgbGreen < thresh_dw || c.rgbGreen > thresh_up) ||
- (c.rgbBlue < thresh_dw || c.rgbBlue > thresh_up))
- {
- Tmp.SelectionSet(x,y,0);
- }
- }
- }
- }
-
- //blur the image (only in the selected pixels)
- Dst.SelectionCopy(Tmp);
- if (!Dst.GaussianBlur(radius)){
- strcpy(info.szLastError,Dst.GetLastError());
- delete [] pPalette;
- return false;
- }
-
- //restore the original selection
- Dst.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- //if necessary, restore the original BPP and palette
- if (pPalette){
- Dst.DecreaseBpp(bpp, false, pPalette);
- delete [] pPalette;
- }
-
- if (iDst) iDst->Transfer(Dst);
- else Transfer(Dst);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * sharpen the image by subtracting a blurred copy from the original image.
- * \param radius: width in pixels of the blurring effect. Range: >0; default = 5.
- * \param amount: strength of the filter. Range: 0.0 (none) to 1.0 (max); default = 0.5
- * \param threshold: difference, between blurred and original pixel, to trigger the filter
- * Range: 0 (always triggered) to 255 (never triggered); default = 0.
- * \return true if everything is ok
- * \author [nipper]; changes [DP]
- */
-bool CxImage::UnsharpMask(float radius /*= 5.0*/, float amount /*= 0.5*/, int32_t threshold /*= 0*/)
-{
- if (!pDib) return false;
-
- RGBQUAD* pPalette=NULL;
- uint16_t bpp = GetBpp();
-
- //the routine is optimized for RGB or GrayScale images
- if (!(head.biBitCount == 24 || IsGrayScale())){
- pPalette = new RGBQUAD[head.biClrUsed];
- memcpy(pPalette, GetPalette(),GetPaletteSize());
- if (!IncreaseBpp(24))
- return false;
- }
-
- CxImage iDst;
- if (!GaussianBlur(radius,&iDst))
- return false;
-
- CImageIterator itSrc(this);
- CImageIterator itDst(&iDst);
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- double dbScaler = 100.0/(ymax-ymin);
- int32_t bypp = head.biBitCount>>3;
-
- // merge the source and destination (which currently contains
- // the blurred version) images
- for (int32_t y=ymin; y<ymax; y++)
- {
- if (info.nEscape) break;
- info.nProgress = (int32_t)((y-ymin)*dbScaler);
-
- // get source row
- uint8_t* cur_row = itSrc.GetRow(y);
- // get dest row
- uint8_t* dest_row = itDst.GetRow(y);
- // combine the two
- for (int32_t x=xmin; x<xmax; x++) {
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- for (int32_t b=0, z=x*bypp; b<bypp; b++, z++){
- int32_t diff = cur_row[z] - dest_row[z];
-
- // do tresholding
- if (abs(diff) < threshold){
- dest_row[z] = cur_row[z];
- } else {
- dest_row[z] = (uint8_t)min(255, max(0,(int32_t)(cur_row[z] + amount * diff)));
- }
- }
- }
- }
- }
-
- //if necessary, restore the original BPP and palette
- if (pPalette){
- iDst.DecreaseBpp(bpp, false, pPalette);
- delete [] pPalette;
- }
-
- Transfer(iDst);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Apply a look up table to the image.
- * \param pLut: uint8_t[256] look up table
- * \return true if everything is ok
- */
-bool CxImage::Lut(uint8_t* pLut)
-{
- if (!pDib || !pLut) return false;
- RGBQUAD color;
-
- double dbScaler;
- if (head.biClrUsed==0){
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- // faster loop for full image
- uint8_t *iSrc=info.pImage;
- for(uint32_t i=0; i < head.biSizeImage ; i++){
- *iSrc++ = pLut[*iSrc];
- }
- return true;
- }
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- dbScaler = 100.0/(ymax-ymin);
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)((y-ymin)*dbScaler); //<Anatoly Ivasyuk>
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- color = BlindGetPixelColor(x,y);
- color.rgbRed = pLut[color.rgbRed];
- color.rgbGreen = pLut[color.rgbGreen];
- color.rgbBlue = pLut[color.rgbBlue];
- BlindSetPixelColor(x,y,color);
- }
- }
- }
-#if CXIMAGE_SUPPORT_SELECTION
- } else if (pSelection && (head.biBitCount==8) && IsGrayScale()){
- int32_t xmin,xmax,ymin,ymax;
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- dbScaler = 100.0/(ymax-ymin);
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)((y-ymin)*dbScaler);
- for(int32_t x=xmin; x<xmax; x++){
- if (BlindSelectionIsInside(x,y))
- {
- BlindSetPixelIndex(x,y,pLut[BlindGetPixelIndex(x,y)]);
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
- } else {
- bool bIsGrayScale = IsGrayScale();
- for(uint32_t j=0; j<head.biClrUsed; j++){
- color = GetPaletteColor((uint8_t)j);
- color.rgbRed = pLut[color.rgbRed];
- color.rgbGreen = pLut[color.rgbGreen];
- color.rgbBlue = pLut[color.rgbBlue];
- SetPaletteColor((uint8_t)j,color);
- }
- if (bIsGrayScale) GrayScale();
- }
- return true;
-
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Apply an indipendent look up table for each channel
- * \param pLutR, pLutG, pLutB, pLutA: uint8_t[256] look up tables
- * \return true if everything is ok
- */
-bool CxImage::Lut(uint8_t* pLutR, uint8_t* pLutG, uint8_t* pLutB, uint8_t* pLutA)
-{
- if (!pDib || !pLutR || !pLutG || !pLutB) return false;
- RGBQUAD color;
-
- double dbScaler;
- if (head.biClrUsed==0){
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- dbScaler = 100.0/(ymax-ymin);
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)((y-ymin)*dbScaler);
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- color = BlindGetPixelColor(x,y);
- color.rgbRed = pLutR[color.rgbRed];
- color.rgbGreen = pLutG[color.rgbGreen];
- color.rgbBlue = pLutB[color.rgbBlue];
- if (pLutA) color.rgbReserved=pLutA[color.rgbReserved];
- BlindSetPixelColor(x,y,color,true);
- }
- }
- }
- } else {
- bool bIsGrayScale = IsGrayScale();
- for(uint32_t j=0; j<head.biClrUsed; j++){
- color = GetPaletteColor((uint8_t)j);
- color.rgbRed = pLutR[color.rgbRed];
- color.rgbGreen = pLutG[color.rgbGreen];
- color.rgbBlue = pLutB[color.rgbBlue];
- SetPaletteColor((uint8_t)j,color);
- }
- if (bIsGrayScale) GrayScale();
- }
-
- return true;
-
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Use the RedEyeRemove function to remove the red-eye effect that frequently
- * occurs in photographs of humans and animals. You must select the region
- * where the function will filter the red channel.
- * \param strength: range from 0.0f (no effect) to 1.0f (full effect). Default = 0.8
- * \return true if everything is ok
- */
-bool CxImage::RedEyeRemove(float strength)
-{
- if (!pDib) return false;
- RGBQUAD color;
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- if (strength<0.0f) strength = 0.0f;
- if (strength>1.0f) strength = 1.0f;
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- float a = 1.0f-5.0f*((float)((x-0.5f*(xmax+xmin))*(x-0.5f*(xmax+xmin))+(y-0.5f*(ymax+ymin))*(y-0.5f*(ymax+ymin))))/((float)((xmax-xmin)*(ymax-ymin)));
- if (a<0) a=0;
- color = BlindGetPixelColor(x,y);
- color.rgbRed = (uint8_t)(a*min(color.rgbGreen,color.rgbBlue)+(1.0f-a)*color.rgbRed);
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Changes the saturation of the image.
- * \param saturation: can be from -100 to 100, positive values increase the saturation.
- * \param colorspace: can be 1 (HSL) or 2 (YUV).
- * \return true if everything is ok
- */
-bool CxImage::Saturate(const int32_t saturation, const int32_t colorspace)
-{
- if (!pDib)
- return false;
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (xmin==xmax || ymin==ymax)
- return false;
-
- uint8_t cTable[256];
-
- switch(colorspace)
- {
- case 1:
- {
- for (int32_t i=0;i<256;i++) {
- cTable[i] = (uint8_t)max(0,min(255,(int32_t)(i + saturation)));
- }
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- RGBQUAD c = RGBtoHSL(BlindGetPixelColor(x,y));
- c.rgbGreen = cTable[c.rgbGreen];
- c = HSLtoRGB(c);
- BlindSetPixelColor(x,y,c);
- }
- }
- }
- }
- break;
- case 2:
- {
- for (int32_t i=0;i<256;i++) {
- cTable[i] = (uint8_t)max(0,min(255,(int32_t)((i-128)*(100 + saturation)/100.0f + 128.5f)));
- }
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- RGBQUAD c = RGBtoYUV(BlindGetPixelColor(x,y));
- c.rgbGreen = cTable[c.rgbGreen];
- c.rgbBlue = cTable[c.rgbBlue];
- c = YUVtoRGB(c);
- BlindSetPixelColor(x,y,c);
- }
- }
- }
- }
- break;
- default:
- strcpy(info.szLastError,"Saturate: wrong colorspace");
- return false;
- }
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Solarize: convert all colors above a given lightness level into their negative
- * \param level : lightness threshold. Range = 0 to 255; default = 128.
- * \param bLinkedChannels: true = compare with luminance, preserve colors (default)
- * false = compare with independent R,G,B levels
- * \return true if everything is ok
- * \author [Priyank Bolia] (priyank_bolia(at)yahoo(dot)com); changes [DP]
- */
-bool CxImage::Solarize(uint8_t level, bool bLinkedChannels)
-{
- if (!pDib) return false;
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (head.biBitCount<=8){
- if (IsGrayScale()){ //GRAYSCALE, selection
- for(int32_t y=ymin; y<ymax; y++){
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- uint8_t index = BlindGetPixelIndex(x,y);
- RGBQUAD color = GetPaletteColor(index);
- if ((uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue)>level){
- BlindSetPixelIndex(x,y,255-index);
- }
- }
- }
- }
- } else { //PALETTE, full image
- RGBQUAD* ppal=GetPalette();
- for(uint32_t i=0;i<head.biClrUsed;i++){
- RGBQUAD color = GetPaletteColor((uint8_t)i);
- if (bLinkedChannels){
- if ((uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue)>level){
- ppal[i].rgbBlue =(uint8_t)(255-ppal[i].rgbBlue);
- ppal[i].rgbGreen =(uint8_t)(255-ppal[i].rgbGreen);
- ppal[i].rgbRed =(uint8_t)(255-ppal[i].rgbRed);
- }
- } else {
- if (color.rgbBlue>level) ppal[i].rgbBlue =(uint8_t)(255-ppal[i].rgbBlue);
- if (color.rgbGreen>level) ppal[i].rgbGreen =(uint8_t)(255-ppal[i].rgbGreen);
- if (color.rgbRed>level) ppal[i].rgbRed =(uint8_t)(255-ppal[i].rgbRed);
- }
- }
- }
- } else { //RGB, selection
- for(int32_t y=ymin; y<ymax; y++){
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- RGBQUAD color = BlindGetPixelColor(x,y);
- if (bLinkedChannels){
- if ((uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue)>level){
- color.rgbRed = (uint8_t)(255-color.rgbRed);
- color.rgbGreen = (uint8_t)(255-color.rgbGreen);
- color.rgbBlue = (uint8_t)(255-color.rgbBlue);
- }
- } else {
- if (color.rgbBlue>level) color.rgbBlue =(uint8_t)(255-color.rgbBlue);
- if (color.rgbGreen>level) color.rgbGreen =(uint8_t)(255-color.rgbGreen);
- if (color.rgbRed>level) color.rgbRed =(uint8_t)(255-color.rgbRed);
- }
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- }
-
- //invert transparent color only in case of full image processing
- if (pSelection==0 || (!IsGrayScale() && IsIndexed())){
- if (bLinkedChannels){
- if ((uint8_t)RGB2GRAY(info.nBkgndColor.rgbRed,info.nBkgndColor.rgbGreen,info.nBkgndColor.rgbBlue)>level){
- info.nBkgndColor.rgbBlue = (uint8_t)(255-info.nBkgndColor.rgbBlue);
- info.nBkgndColor.rgbGreen = (uint8_t)(255-info.nBkgndColor.rgbGreen);
- info.nBkgndColor.rgbRed = (uint8_t)(255-info.nBkgndColor.rgbRed);
- }
- } else {
- if (info.nBkgndColor.rgbBlue>level) info.nBkgndColor.rgbBlue = (uint8_t)(255-info.nBkgndColor.rgbBlue);
- if (info.nBkgndColor.rgbGreen>level) info.nBkgndColor.rgbGreen = (uint8_t)(255-info.nBkgndColor.rgbGreen);
- if (info.nBkgndColor.rgbRed>level) info.nBkgndColor.rgbRed = (uint8_t)(255-info.nBkgndColor.rgbRed);
- }
- }
-
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Converts the RGB triplets to and from different colorspace
- * \param dstColorSpace: destination colorspace; 0 = RGB, 1 = HSL, 2 = YUV, 3 = YIQ, 4 = XYZ
- * \param srcColorSpace: source colorspace; 0 = RGB, 1 = HSL, 2 = YUV, 3 = YIQ, 4 = XYZ
- * \return true if everything is ok
- */
-bool CxImage::ConvertColorSpace(const int32_t dstColorSpace, const int32_t srcColorSpace)
-{
- if (!pDib)
- return false;
-
- if (dstColorSpace == srcColorSpace)
- return true;
-
- int32_t w = GetWidth();
- int32_t h = GetHeight();
-
- for (int32_t y=0;y<h;y++){
- info.nProgress = (int32_t)(100*y/h);
- if (info.nEscape) break;
- for (int32_t x=0;x<w;x++){
- RGBQUAD c = BlindGetPixelColor(x,y);
- switch (srcColorSpace){
- case 0:
- break;
- case 1:
- c = HSLtoRGB(c);
- break;
- case 2:
- c = YUVtoRGB(c);
- break;
- case 3:
- c = YIQtoRGB(c);
- break;
- case 4:
- c = XYZtoRGB(c);
- break;
- default:
- strcpy(info.szLastError,"ConvertColorSpace: unknown source colorspace");
- return false;
- }
- switch (dstColorSpace){
- case 0:
- break;
- case 1:
- c = RGBtoHSL(c);
- break;
- case 2:
- c = RGBtoYUV(c);
- break;
- case 3:
- c = RGBtoYIQ(c);
- break;
- case 4:
- c = RGBtoXYZ(c);
- break;
- default:
- strcpy(info.szLastError,"ConvertColorSpace: unknown destination colorspace");
- return false;
- }
- BlindSetPixelColor(x,y,c);
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Finds the optimal (global or local) treshold for image binarization
- * \param method: 0 = average all methods (default); 1 = Otsu; 2 = Kittler & Illingworth; 3 = max entropy; 4 = potential difference;
- * \param pBox: region from where the threshold is computed; 0 = full image (default).
- * \param pContrastMask: limit the computation only in regions with contrasted (!=0) pixels; default = 0.
- * the pContrastMask image must be grayscale with same with and height of the current image,
- * can be obtained from the current image with a filter:
- * CxImage iContrastMask(*image,true,false,false);
- * iContrastMask.GrayScale();
- * int32_t edge[]={-1,-1,-1,-1,8,-1,-1,-1,-1};
- * iContrastMask.Filter(edge,3,1,0);
- * int32_t blur[]={1,1,1,1,1,1,1,1,1};
- * iContrastMask.Filter(blur,3,9,0);
- * \return optimal threshold; -1 = error.
- * \sa AdaptiveThreshold
- */
-int32_t CxImage::OptimalThreshold(int32_t method, RECT * pBox, CxImage* pContrastMask)
-{
- if (!pDib)
- return false;
-
- if (head.biBitCount!=8){
- strcpy(info.szLastError,"OptimalThreshold works only on 8 bit images");
- return -1;
- }
-
- if (pContrastMask){
- if (!pContrastMask->IsValid() ||
- !pContrastMask->IsGrayScale() ||
- pContrastMask->GetWidth() != GetWidth() ||
- pContrastMask->GetHeight() != GetHeight()){
- strcpy(info.szLastError,"OptimalThreshold invalid ContrastMask");
- return -1;
- }
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pBox){
- xmin = max(pBox->left,0);
- xmax = min(pBox->right,head.biWidth);
- ymin = max(pBox->bottom,0);
- ymax = min(pBox->top,head.biHeight);
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- if (xmin>=xmax || ymin>=ymax)
- return -1;
-
- double p[256];
- memset(p, 0, 256*sizeof(double));
- //build histogram
- for (int32_t y = ymin; y<ymax; y++){
- uint8_t* pGray = GetBits(y) + xmin;
- uint8_t* pContr = 0;
- if (pContrastMask) pContr = pContrastMask->GetBits(y) + xmin;
- for (int32_t x = xmin; x<xmax; x++){
- uint8_t n = *pGray++;
- if (pContr){
- if (*pContr) p[n]++;
- pContr++;
- } else {
- p[n]++;
- }
- }
- }
-
- //find histogram limits
- int32_t gray_min = 0;
- while (gray_min<255 && p[gray_min]==0) gray_min++;
- int32_t gray_max = 255;
- while (gray_max>0 && p[gray_max]==0) gray_max--;
- if (gray_min > gray_max)
- return -1;
- if (gray_min == gray_max){
- if (gray_min == 0)
- return 0;
- else
- return gray_max-1;
- }
-
- //compute total moments 0th,1st,2nd order
- int32_t i,k;
- double w_tot = 0;
- double m_tot = 0;
- double q_tot = 0;
- for (i = gray_min; i <= gray_max; i++){
- w_tot += p[i];
- m_tot += i*p[i];
- q_tot += i*i*p[i];
- }
-
- double L, L1max, L2max, L3max, L4max; //objective functions
- int32_t th1,th2,th3,th4; //optimal thresholds
- L1max = L2max = L3max = L4max = 0;
- th1 = th2 = th3 = th4 = -1;
-
- double w1, w2, m1, m2, q1, q2, s1, s2;
- w1 = m1 = q1 = 0;
- for (i = gray_min; i < gray_max; i++){
- w1 += p[i];
- w2 = w_tot - w1;
- m1 += i*p[i];
- m2 = m_tot - m1;
- q1 += i*i*p[i];
- q2 = q_tot - q1;
- s1 = q1/w1-m1*m1/w1/w1; //s1 = q1/w1-pow(m1/w1,2);
- s2 = q2/w2-m2*m2/w2/w2; //s2 = q2/w2-pow(m2/w2,2);
-
- //Otsu
- L = -(s1*w1 + s2*w2); //implemented as definition
- //L = w1 * w2 * (m2/w2 - m1/w1)*(m2/w2 - m1/w1); //implementation that doesn't need s1 & s2
- if (L1max < L || th1<0){
- L1max = L;
- th1 = i;
- }
-
- //Kittler and Illingworth
- if (s1>0 && s2>0){
- L = w1*log(w1/sqrt(s1))+w2*log(w2/sqrt(s2));
- //L = w1*log(w1*w1/s1)+w2*log(w2*w2/s2);
- if (L2max < L || th2<0){
- L2max = L;
- th2 = i;
- }
- }
-
- //max entropy
- L = 0;
- for (k=gray_min;k<=i;k++) if (p[k] > 0) L -= p[k]*log(p[k]/w1)/w1;
- for (k;k<=gray_max;k++) if (p[k] > 0) L -= p[k]*log(p[k]/w2)/w2;
- if (L3max < L || th3<0){
- L3max = L;
- th3 = i;
- }
-
- //potential difference (based on Electrostatic Binarization method by J. Acharya & G. Sreechakra)
- // L=-fabs(vdiff/vsum); è molto selettivo, sembra che L=-fabs(vdiff) o L=-(vsum)
- // abbiano lo stesso valore di soglia... il che semplificherebbe molto la routine
- double vdiff = 0;
- for (k=gray_min;k<=i;k++)
- vdiff += p[k]*(i-k)*(i-k);
- double vsum = vdiff;
- for (k;k<=gray_max;k++){
- double dv = p[k]*(k-i)*(k-i);
- vdiff -= dv;
- vsum += dv;
- }
- if (vsum>0) L = -fabs(vdiff/vsum); else L = 0;
- if (L4max < L || th4<0){
- L4max = L;
- th4 = i;
- }
- }
-
- int32_t threshold;
- switch (method){
- case 1: //Otsu
- threshold = th1;
- break;
- case 2: //Kittler and Illingworth
- threshold = th2;
- break;
- case 3: //max entropy
- threshold = th3;
- break;
- case 4: //potential difference
- threshold = th4;
- break;
- default: //auto
- {
- int32_t nt = 0;
- threshold = 0;
- if (th1>=0) { threshold += th1; nt++;}
- if (th2>=0) { threshold += th2; nt++;}
- if (th3>=0) { threshold += th3; nt++;}
- if (th4>=0) { threshold += th4; nt++;}
- if (nt)
- threshold /= nt;
- else
- threshold = (gray_min+gray_max)/2;
-
- /*better(?) but really expensive alternative:
- n = 0:255;
- pth1 = c1(th1)/sqrt(2*pi*s1(th1))*exp(-((n - m1(th1)).^2)/2/s1(th1)) + c2(th1)/sqrt(2*pi*s2(th1))*exp(-((n - m2(th1)).^2)/2/s2(th1));
- pth2 = c1(th2)/sqrt(2*pi*s1(th2))*exp(-((n - m1(th2)).^2)/2/s1(th2)) + c2(th2)/sqrt(2*pi*s2(th2))*exp(-((n - m2(th2)).^2)/2/s2(th2));
- ...
- mse_th1 = sum((p-pth1).^2);
- mse_th2 = sum((p-pth2).^2);
- ...
- select th# that gives minimum mse_th#
- */
-
- }
- }
-
- if (threshold <= gray_min || threshold >= gray_max)
- threshold = (gray_min+gray_max)/2;
-
- return threshold;
-}
-///////////////////////////////////////////////////////////////////////////////
-/**
- * Converts the image to B&W, using an optimal threshold mask
- * \param method: 0 = average all methods (default); 1 = Otsu; 2 = Kittler & Illingworth; 3 = max entropy; 4 = potential difference;
- * \param nBoxSize: the image is divided into "nBoxSize x nBoxSize" blocks, from where the threshold is computed; min = 8; default = 64.
- * \param pContrastMask: limit the computation only in regions with contrasted (!=0) pixels; default = 0.
- * \param nBias: global offset added to the threshold mask; default = 0.
- * \param fGlobalLocalBalance: balance between local and global threshold. default = 0.5
- * fGlobalLocalBalance can be from 0.0 (use only local threshold) to 1.0 (use only global threshold)
- * the pContrastMask image must be grayscale with same with and height of the current image,
- * \return true if everything is ok.
- * \sa OptimalThreshold
- */
-bool CxImage::AdaptiveThreshold(int32_t method, int32_t nBoxSize, CxImage* pContrastMask, int32_t nBias, float fGlobalLocalBalance)
-{
- if (!pDib)
- return false;
-
- if (pContrastMask){
- if (!pContrastMask->IsValid() ||
- !pContrastMask->IsGrayScale() ||
- pContrastMask->GetWidth() != GetWidth() ||
- pContrastMask->GetHeight() != GetHeight()){
- strcpy(info.szLastError,"AdaptiveThreshold invalid ContrastMask");
- return false;
- }
- }
-
- if (nBoxSize<8) nBoxSize = 8;
- if (fGlobalLocalBalance<0.0f) fGlobalLocalBalance = 0.0f;
- if (fGlobalLocalBalance>1.0f) fGlobalLocalBalance = 1.0f;
-
- int32_t mw = (head.biWidth + nBoxSize - 1)/nBoxSize;
- int32_t mh = (head.biHeight + nBoxSize - 1)/nBoxSize;
-
- CxImage mask(mw,mh,8);
- if(!mask.GrayScale())
- return false;
-
- if(!GrayScale())
- return false;
-
- int32_t globalthreshold = OptimalThreshold(method, 0, pContrastMask);
- if (globalthreshold <0)
- return false;
-
- for (int32_t y=0; y<mh; y++){
- for (int32_t x=0; x<mw; x++){
- info.nProgress = (int32_t)(100*(x+y*mw)/(mw*mh));
- if (info.nEscape) break;
- RECT r;
- r.left = x*nBoxSize;
- r.right = r.left + nBoxSize;
- r.bottom = y*nBoxSize;
- r.top = r.bottom + nBoxSize;
- int32_t threshold = OptimalThreshold(method, &r, pContrastMask);
- if (threshold <0) return false;
- mask.SetPixelIndex(x,y,(uint8_t)max(0,min(255,nBias+((1.0f-fGlobalLocalBalance)*threshold + fGlobalLocalBalance*globalthreshold))));
- }
- }
-
- mask.Resample(mw*nBoxSize,mh*nBoxSize,0);
- mask.Crop(0,head.biHeight,head.biWidth,0);
-
- if(!Threshold(&mask))
- return false;
-
- return true;
-}
-///////////////////////////////////////////////////////////////////////////////
-/**
- * Finds the contour of an object with a given color
- * \param color_target: object color
- * \param color_trace: contour color
- * \return true if everything is ok.
- * \sa Edge, Contour
- */
-bool CxImage::Trace(RGBQUAD color_target, RGBQUAD color_trace)
-{
- if (!pDib) return false;
-
- RGBQUAD color;
- bool bFindStartPoint;
- int32_t nFindPoint;
- POINT StartPoint,CurrentPoint;
- int32_t Direction[8][2]={{1,0},{1,-1},{0,-1},{-1,-1},{-1,0},{-1,1}, {0,1},{1,1}};
- int32_t BeginDirect = 0;
- int32_t x,y;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth,head.biHeight,24,info.dwType);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
- tmp.Clear(255);
-
- CurrentPoint.x = StartPoint.x = CurrentPoint.y = StartPoint.y = 0;
- bFindStartPoint = false;
- for (y=head.biHeight-1;y>=0 && !bFindStartPoint;y--){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (x=0;x<head.biWidth && !bFindStartPoint;x++){
- color = BlindGetPixelColor(x,y);
- if (color.rgbRed == color_target.rgbRed &&
- color.rgbGreen == color_target.rgbGreen &&
- color.rgbBlue == color_target.rgbBlue )
- {
- bFindStartPoint = true;
- CurrentPoint.x = StartPoint.x = x;
- CurrentPoint.y = StartPoint.y = y;
- }
- }
- }
-
- while(bFindStartPoint)
- {
- nFindPoint = 8;
- while(nFindPoint)
- {
- x = CurrentPoint.x + Direction[BeginDirect][0];
- y = CurrentPoint.y + Direction[BeginDirect][1];
- color = GetPixelColor(x,y);
-
- if (IsInside(x,y) &&
- color.rgbRed == color_target.rgbRed &&
- color.rgbGreen == color_target.rgbGreen &&
- color.rgbBlue == color_target.rgbBlue )
- {
- nFindPoint = 0;
- CurrentPoint.x = x;
- CurrentPoint.y = y;
-
- if(x == StartPoint.x && y == StartPoint.y)
- bFindStartPoint = false;
-
- tmp.BlindSetPixelColor(x,y,color_trace);
-
- BeginDirect--;
- if(BeginDirect == -1) BeginDirect = 7;
- }
- else
- {
- BeginDirect++;
- if(BeginDirect == 8) BeginDirect = 0;
- nFindPoint--;
- if(nFindPoint == 0) {
- bFindStartPoint = false;
- tmp.SetPixelColor(CurrentPoint.x,CurrentPoint.y,color_trace);
- }
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-
-#ifndef __MINGW32__
-////////////////////////////////////////////////////////////////////////////////
-#include <queue>
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Flood Fill
- * \param xStart, yStart: starting point
- * \param cFillColor: filling color
- * \param nTolerance: deviation from the starting point color
- * \param nOpacity: can be from 0 (transparent) to 255 (opaque, default)
- * \param bSelectFilledArea: if true, the pixels in the region are also set in the selection layer; default = false
- * \param nSelectionLevel: if bSelectFilledArea is true, the selected pixels are set to nSelectionLevel; default = 255
- * Note: nOpacity=0 && bSelectFilledArea=true act as a "magic wand"
- * \return true if everything is ok
- */
-bool CxImage::FloodFill(const int32_t xStart, const int32_t yStart, const RGBQUAD cFillColor, const uint8_t nTolerance,
- uint8_t nOpacity, const bool bSelectFilledArea, const uint8_t nSelectionLevel)
-{
- if (!pDib)
- return false;
-
- if (!IsInside(xStart,yStart))
- return true;
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (!SelectionIsInside(xStart,yStart))
- return true;
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- RGBQUAD* pPalette=NULL;
- uint16_t bpp = GetBpp();
- //nTolerance or nOpacity implemented only for grayscale or 24bpp images
- if ((nTolerance || nOpacity != 255) && !(head.biBitCount == 24 || IsGrayScale())){
- pPalette = new RGBQUAD[head.biClrUsed];
- memcpy(pPalette, GetPalette(),GetPaletteSize());
- if (!IncreaseBpp(24))
- return false;
- }
-
- uint8_t* pFillMask = (uint8_t*)calloc(head.biWidth * head.biHeight,1);
- if (!pFillMask)
- return false;
-
-//------------------------------------- Begin of Flood Fill
- POINT offset[4] = {{-1,0},{0,-1},{1,0},{0,1}};
- std::queue<POINT> q;
- POINT point = {xStart,yStart};
- q.push(point);
-
- if (IsIndexed()){ //--- Generic indexed image, no tolerance OR Grayscale image with tolerance
- uint8_t idxRef = GetPixelIndex(xStart,yStart);
- uint8_t idxFill = GetNearestIndex(cFillColor);
- uint8_t idxMin = (uint8_t)min(255, max(0,(int32_t)(idxRef - nTolerance)));
- uint8_t idxMax = (uint8_t)min(255, max(0,(int32_t)(idxRef + nTolerance)));
-
- while(!q.empty())
- {
- point = q.front();
- q.pop();
-
- for (int32_t z=0; z<4; z++){
- int32_t x = point.x + offset[z].x;
- int32_t y = point.y + offset[z].y;
- if(IsInside(x,y)){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- uint8_t idx = BlindGetPixelIndex(x, y);
- uint8_t* pFill = pFillMask + x + y * head.biWidth;
- if (*pFill==0 && idxMin <= idx && idx <= idxMax )
- {
- if (nOpacity>0){
- if (nOpacity == 255)
- BlindSetPixelIndex(x, y, idxFill);
- else
- BlindSetPixelIndex(x, y, (uint8_t)((idxFill * nOpacity + idx * (255-nOpacity))>>8));
- }
- POINT pt = {x,y};
- q.push(pt);
- *pFill = 1;
- }
- }
- }
- }
- }
- } else { //--- RGB image
- RGBQUAD cRef = GetPixelColor(xStart,yStart);
- RGBQUAD cRefMin, cRefMax;
- cRefMin.rgbRed = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbRed - nTolerance)));
- cRefMin.rgbGreen = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbGreen - nTolerance)));
- cRefMin.rgbBlue = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbBlue - nTolerance)));
- cRefMax.rgbRed = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbRed + nTolerance)));
- cRefMax.rgbGreen = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbGreen + nTolerance)));
- cRefMax.rgbBlue = (uint8_t)min(255, max(0,(int32_t)(cRef.rgbBlue + nTolerance)));
-
- while(!q.empty())
- {
- point = q.front();
- q.pop();
-
- for (int32_t z=0; z<4; z++){
- int32_t x = point.x + offset[z].x;
- int32_t y = point.y + offset[z].y;
- if(IsInside(x,y)){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- RGBQUAD cc = BlindGetPixelColor(x, y);
- uint8_t* pFill = pFillMask + x + y * head.biWidth;
- if (*pFill==0 &&
- cRefMin.rgbRed <= cc.rgbRed && cc.rgbRed <= cRefMax.rgbRed &&
- cRefMin.rgbGreen <= cc.rgbGreen && cc.rgbGreen <= cRefMax.rgbGreen &&
- cRefMin.rgbBlue <= cc.rgbBlue && cc.rgbBlue <= cRefMax.rgbBlue )
- {
- if (nOpacity>0){
- if (nOpacity == 255)
- BlindSetPixelColor(x, y, cFillColor);
- else
- {
- cc.rgbRed = (uint8_t)((cFillColor.rgbRed * nOpacity + cc.rgbRed * (255-nOpacity))>>8);
- cc.rgbGreen = (uint8_t)((cFillColor.rgbGreen * nOpacity + cc.rgbGreen * (255-nOpacity))>>8);
- cc.rgbBlue = (uint8_t)((cFillColor.rgbBlue * nOpacity + cc.rgbBlue * (255-nOpacity))>>8);
- BlindSetPixelColor(x, y, cc);
- }
- }
- POINT pt = {x,y};
- q.push(pt);
- *pFill = 1;
- }
- }
- }
- }
- }
- }
- if (pFillMask[xStart+yStart*head.biWidth] == 0 && nOpacity>0){
- if (nOpacity == 255)
- BlindSetPixelColor(xStart, yStart, cFillColor);
- else
- {
- RGBQUAD cc = BlindGetPixelColor(xStart, yStart);
- cc.rgbRed = (uint8_t)((cFillColor.rgbRed * nOpacity + cc.rgbRed * (255-nOpacity))>>8);
- cc.rgbGreen = (uint8_t)((cFillColor.rgbGreen * nOpacity + cc.rgbGreen * (255-nOpacity))>>8);
- cc.rgbBlue = (uint8_t)((cFillColor.rgbBlue * nOpacity + cc.rgbBlue * (255-nOpacity))>>8);
- BlindSetPixelColor(xStart, yStart, cc);
- }
- }
- pFillMask[xStart+yStart*head.biWidth] = 1;
-//------------------------------------- End of Flood Fill
-
- //if necessary, restore the original BPP and palette
- if (pPalette){
- DecreaseBpp(bpp, false, pPalette);
- delete [] pPalette;
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (bSelectFilledArea){
- if (!SelectionIsValid()){
- if (!SelectionCreate()){
- return false;
- }
- SelectionClear();
- info.rSelectionBox.right = head.biWidth;
- info.rSelectionBox.top = head.biHeight;
- info.rSelectionBox.left = info.rSelectionBox.bottom = 0;
- }
- RECT r;
- SelectionGetBox(r);
- for (int32_t y = r.bottom; y < r.top; y++){
- uint8_t* pFill = pFillMask + r.left + y * head.biWidth;
- for (int32_t x = r.left; x<r.right; x++){
- if (*pFill) SelectionSet(x,y,nSelectionLevel);
- pFill++;
- }
- }
- SelectionRebuildBox();
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- free(pFillMask);
-
- return true;
-}
-#endif //__MINGW32__
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DSP
diff --git a/hge/CxImage/ximaenc.cpp b/hge/CxImage/ximaenc.cpp deleted file mode 100644 index 6064e49..0000000 --- a/hge/CxImage/ximaenc.cpp +++ /dev/null @@ -1,1159 +0,0 @@ -// xImaCodec.cpp : Encode Decode functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_JPG
-#include "ximajpg.h"
-#endif
-
-#if CXIMAGE_SUPPORT_GIF
-#include "ximagif.h"
-#endif
-
-#if CXIMAGE_SUPPORT_PNG
-#include "ximapng.h"
-#endif
-
-#if CXIMAGE_SUPPORT_MNG
-#include "ximamng.h"
-#endif
-
-#if CXIMAGE_SUPPORT_BMP
-#include "ximabmp.h"
-#endif
-
-#if CXIMAGE_SUPPORT_ICO
-#include "ximaico.h"
-#endif
-
-#if CXIMAGE_SUPPORT_TIF
-#include "ximatif.h"
-#endif
-
-#if CXIMAGE_SUPPORT_TGA
-#include "ximatga.h"
-#endif
-
-#if CXIMAGE_SUPPORT_PCX
-#include "ximapcx.h"
-#endif
-
-#if CXIMAGE_SUPPORT_WBMP
-#include "ximawbmp.h"
-#endif
-
-#if CXIMAGE_SUPPORT_WMF
-#include "ximawmf.h" // <vho> - WMF/EMF support
-#endif
-
-#if CXIMAGE_SUPPORT_JBG
-#include "ximajbg.h"
-#endif
-
-#if CXIMAGE_SUPPORT_JASPER
-#include "ximajas.h"
-#endif
-
-#if CXIMAGE_SUPPORT_SKA
-#include "ximaska.h"
-#endif
-
-#if CXIMAGE_SUPPORT_RAW
-#include "ximaraw.h"
-#endif
-
-#if CXIMAGE_SUPPORT_PSD
-#include "ximapsd.h"
-#endif
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::EncodeSafeCheck(CxFile *hFile)
-{
- if (hFile==NULL) {
- strcpy(info.szLastError,CXIMAGE_ERR_NOFILE);
- return true;
- }
-
- if (pDib==NULL){
- strcpy(info.szLastError,CXIMAGE_ERR_NOIMAGE);
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-//#ifdef WIN32
-//bool CxImage::Save(LPCWSTR filename, uint32_t imagetype)
-//{
-// FILE* hFile; //file handle to write the image
-// if ((hFile=_wfopen(filename,L"wb"))==NULL) return false;
-// bool bOK = Encode(hFile,imagetype);
-// fclose(hFile);
-// return bOK;
-//}
-//#endif //WIN32
-////////////////////////////////////////////////////////////////////////////////
-// For UNICODE support: char -> TCHAR
-/**
- * Saves to disk the image in a specific format.
- * \param filename: file name
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Save(const TCHAR * filename, uint32_t imagetype)
-{
- FILE* hFile; //file handle to write the image
-
-#ifdef WIN32
- if ((hFile=_tfopen(filename,_T("wb")))==NULL) return false; // For UNICODE support
-#else
- if ((hFile=fopen(filename,"wb"))==NULL) return false;
-#endif
-
- bool bOK = Encode(hFile,imagetype);
- fclose(hFile);
- return bOK;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Saves to disk the image in a specific format.
- * \param hFile: file handle, open and enabled for writing.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Encode(FILE *hFile, uint32_t imagetype)
-{
- CxIOFile file(hFile);
- return Encode(&file,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Saves to memory buffer the image in a specific format.
- * \param buffer: output memory buffer pointer. Must be NULL,
- * the function allocates and fill the memory,
- * the application must free the buffer, see also FreeMemory().
- * \param size: output memory buffer size.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Encode(uint8_t * &buffer, int32_t &size, uint32_t imagetype)
-{
- if (buffer!=NULL){
- strcpy(info.szLastError,"the buffer must be empty");
- return false;
- }
- CxMemFile file;
- file.Open();
- if(Encode(&file,imagetype)){
- buffer=file.GetBuffer();
- size=file.Size();
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Saves to disk the image in a specific format.
- * \param hFile: file handle (CxMemFile or CxIOFile), with write access.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- * \sa ENUM_CXIMAGE_FORMATS
- */
-bool CxImage::Encode(CxFile *hFile, uint32_t imagetype)
-{
-
-#if CXIMAGE_SUPPORT_BMP
- if (CXIMAGE_FORMAT_BMP==imagetype){
- CxImageBMP *newima = new CxImageBMP;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_ICO
- if (CXIMAGE_FORMAT_ICO==imagetype){
- CxImageICO *newima = new CxImageICO;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_TIF
- if (CXIMAGE_FORMAT_TIF==imagetype){
- CxImageTIF *newima = new CxImageTIF;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JPG
- if (CXIMAGE_FORMAT_JPG==imagetype){
- CxImageJPG *newima = new CxImageJPG;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_GIF
- if (CXIMAGE_FORMAT_GIF==imagetype){
- CxImageGIF *newima = new CxImageGIF;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_PNG
- if (CXIMAGE_FORMAT_PNG==imagetype){
- CxImagePNG *newima = new CxImagePNG;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_MNG
- if (CXIMAGE_FORMAT_MNG==imagetype){
- CxImageMNG *newima = new CxImageMNG;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_TGA
- if (CXIMAGE_FORMAT_TGA==imagetype){
- CxImageTGA *newima = new CxImageTGA;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_PCX
- if (CXIMAGE_FORMAT_PCX==imagetype){
- CxImagePCX *newima = new CxImagePCX;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- if (CXIMAGE_FORMAT_WBMP==imagetype){
- CxImageWBMP *newima = new CxImageWBMP;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_WMF && CXIMAGE_SUPPORT_WINDOWS // <vho> - WMF/EMF support
- if (CXIMAGE_FORMAT_WMF==imagetype){
- CxImageWMF *newima = new CxImageWMF;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JBG
- if (CXIMAGE_FORMAT_JBG==imagetype){
- CxImageJBG *newima = new CxImageJBG;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JASPER
- if (
- #if CXIMAGE_SUPPORT_JP2
- CXIMAGE_FORMAT_JP2==imagetype ||
- #endif
- #if CXIMAGE_SUPPORT_JPC
- CXIMAGE_FORMAT_JPC==imagetype ||
- #endif
- #if CXIMAGE_SUPPORT_PGX
- CXIMAGE_FORMAT_PGX==imagetype ||
- #endif
- #if CXIMAGE_SUPPORT_PNM
- CXIMAGE_FORMAT_PNM==imagetype ||
- #endif
- #if CXIMAGE_SUPPORT_RAS
- CXIMAGE_FORMAT_RAS==imagetype ||
- #endif
- false ){
- CxImageJAS *newima = new CxImageJAS;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile,imagetype)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-
-#if CXIMAGE_SUPPORT_SKA
- if (CXIMAGE_FORMAT_SKA==imagetype){
- CxImageSKA *newima = new CxImageSKA;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-
-#if CXIMAGE_SUPPORT_RAW
- if (CXIMAGE_FORMAT_RAW==imagetype){
- CxImageRAW *newima = new CxImageRAW;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-
-#if CXIMAGE_SUPPORT_PSD
- if (CXIMAGE_FORMAT_PSD==imagetype){
- CxImagePSD *newima = new CxImagePSD;
- if (!newima) return false;
- newima->Ghost(this);
- if (newima->Encode(hFile)){
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- delete newima;
- return false;
- }
- }
-#endif
-
- strcpy(info.szLastError,"Encode: Unknown format");
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Saves to disk or memory pagecount images, referenced by an array of CxImage pointers.
- * \param hFile: file handle.
- * \param pImages: array of CxImage pointers.
- * \param pagecount: number of images.
- * \param imagetype: can be CXIMAGE_FORMAT_TIF or CXIMAGE_FORMAT_GIF.
- * \return true if everything is ok
- */
-bool CxImage::Encode(FILE * hFile, CxImage ** pImages, int32_t pagecount, uint32_t imagetype)
-{
- CxIOFile file(hFile);
- return Encode(&file, pImages, pagecount,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Saves to disk or memory pagecount images, referenced by an array of CxImage pointers.
- * \param hFile: file handle (CxMemFile or CxIOFile), with write access.
- * \param pImages: array of CxImage pointers.
- * \param pagecount: number of images.
- * \param imagetype: can be CXIMAGE_FORMAT_TIF, CXIMAGE_FORMAT_GIF or CXIMAGE_FORMAT_ICO.
- * \return true if everything is ok
- */
-bool CxImage::Encode(CxFile * hFile, CxImage ** pImages, int32_t pagecount, uint32_t imagetype)
-{
-#if CXIMAGE_SUPPORT_TIF
- if (imagetype==CXIMAGE_FORMAT_TIF){
- CxImageTIF newima;
- newima.Ghost(this);
- if (newima.Encode(hFile,pImages,pagecount)){
- return true;
- } else {
- strcpy(info.szLastError,newima.GetLastError());
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_GIF
- if (imagetype==CXIMAGE_FORMAT_GIF){
- CxImageGIF newima;
- newima.Ghost(this);
- if (newima.Encode(hFile,pImages,pagecount)){
- return true;
- } else {
- strcpy(info.szLastError,newima.GetLastError());
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_ICO
- if (imagetype==CXIMAGE_FORMAT_ICO){
- CxImageICO newima;
- newima.Ghost(this);
- if (newima.Encode(hFile,pImages,pagecount)){
- return true;
- } else {
- strcpy(info.szLastError,newima.GetLastError());
- return false;
- }
- }
-#endif
- strcpy(info.szLastError,"Multipage Encode, Unsupported operation for this format");
- return false;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * exports the image into a RGBA buffer, Useful for OpenGL applications.
- * \param buffer: output memory buffer pointer. Must be NULL,
- * the function allocates and fill the memory,
- * the application must free the buffer, see also FreeMemory().
- * \param size: output memory buffer size.
- * \param bFlipY: direction of Y axis. default = false.
- * \return true if everything is ok
- */
-bool CxImage::Encode2RGBA(uint8_t * &buffer, int32_t &size, bool bFlipY)
-{
- if (buffer!=NULL){
- strcpy(info.szLastError,"the buffer must be empty");
- return false;
- }
- CxMemFile file;
- file.Open();
- if(Encode2RGBA(&file,bFlipY)){
- buffer=file.GetBuffer();
- size=file.Size();
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * exports the image into a RGBA buffer, Useful for OpenGL applications.
- * \param hFile: file handle (CxMemFile or CxIOFile), with write access.
- * \param bFlipY: direction of Y axis. default = false.
- * \return true if everything is ok
- */
-bool CxImage::Encode2RGBA(CxFile *hFile, bool bFlipY)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- for (int32_t y1 = 0; y1 < head.biHeight; y1++) {
- int32_t y = bFlipY ? head.biHeight - 1 - y1 : y1;
- for(int32_t x = 0; x < head.biWidth; x++) {
- RGBQUAD color = BlindGetPixelColor(x,y);
- hFile->PutC(color.rgbRed);
- hFile->PutC(color.rgbGreen);
- hFile->PutC(color.rgbBlue);
- hFile->PutC(color.rgbReserved);
- }
- }
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-// For UNICODE support: char -> TCHAR
-/**
- * Reads from disk the image in a specific format.
- * - If decoding fails using the specified image format,
- * the function will try the automatic file format recognition.
- *
- * \param filename: file name
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Load(const TCHAR * filename, uint32_t imagetype)
-//bool CxImage::Load(const char * filename, uint32_t imagetype)
-{
- /*FILE* hFile; //file handle to read the image
- if ((hFile=fopen(filename,"rb"))==NULL) return false;
- bool bOK = Decode(hFile,imagetype);
- fclose(hFile);*/
-
- /* automatic file type recognition */
- bool bOK = false;
- if ( GetTypeIndexFromId(imagetype) ){
- FILE* hFile; //file handle to read the image
-
-#ifdef WIN32
- if ((hFile=_tfopen(filename,_T("rb")))==NULL) return false; // For UNICODE support
-#else
- if ((hFile=fopen(filename,"rb"))==NULL) return false;
-#endif
-
- bOK = Decode(hFile,imagetype);
- fclose(hFile);
- if (bOK) return bOK;
- }
-
- char szError[256];
- strcpy(szError,info.szLastError); //save the first error
-
- // if failed, try automatic recognition of the file...
- FILE* hFile;
-
-#ifdef WIN32
- if ((hFile=_tfopen(filename,_T("rb")))==NULL) return false; // For UNICODE support
-#else
- if ((hFile=fopen(filename,"rb"))==NULL) return false;
-#endif
-
- bOK = Decode(hFile,CXIMAGE_FORMAT_UNKNOWN);
- fclose(hFile);
-
- if (!bOK && imagetype > 0) strcpy(info.szLastError,szError); //restore the first error
-
- return bOK;
-}
-////////////////////////////////////////////////////////////////////////////////
-#ifdef WIN32
-//bool CxImage::Load(LPCWSTR filename, uint32_t imagetype)
-//{
-// /*FILE* hFile; //file handle to read the image
-// if ((hFile=_wfopen(filename, L"rb"))==NULL) return false;
-// bool bOK = Decode(hFile,imagetype);
-// fclose(hFile);*/
-//
-// /* automatic file type recognition */
-// bool bOK = false;
-// if ( GetTypeIndexFromId(imagetype) ){
-// FILE* hFile; //file handle to read the image
-// if ((hFile=_wfopen(filename,L"rb"))==NULL) return false;
-// bOK = Decode(hFile,imagetype);
-// fclose(hFile);
-// if (bOK) return bOK;
-// }
-//
-// char szError[256];
-// strcpy(szError,info.szLastError); //save the first error
-//
-// // if failed, try automatic recognition of the file...
-// FILE* hFile; //file handle to read the image
-// if ((hFile=_wfopen(filename,L"rb"))==NULL) return false;
-// bOK = Decode(hFile,CXIMAGE_FORMAT_UNKNOWN);
-// fclose(hFile);
-//
-// if (!bOK && imagetype > 0) strcpy(info.szLastError,szError); //restore the first error
-//
-// return bOK;
-//}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Loads an image from the application resources.
- * \param hRes: the resource handle returned by FindResource().
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS.
- * \param hModule: NULL for internal resource, or external application/DLL hinstance returned by LoadLibray.
- * \return true if everything is ok
- */
-bool CxImage::LoadResource(HRSRC hRes, uint32_t imagetype, HMODULE hModule)
-{
- uint32_t rsize=SizeofResource(hModule,hRes);
- HGLOBAL hMem=::LoadResource(hModule,hRes);
- if (hMem){
- char* lpVoid=(char*)LockResource(hMem);
- if (lpVoid){
- // FILE* fTmp=tmpfile(); doesn't work with network
- /*char tmpPath[MAX_PATH] = {0};
- char tmpFile[MAX_PATH] = {0};
- GetTempPath(MAX_PATH,tmpPath);
- GetTempFileName(tmpPath,"IMG",0,tmpFile);
- FILE* fTmp=fopen(tmpFile,"w+b");
- if (fTmp){
- fwrite(lpVoid,rsize,1,fTmp);
- fseek(fTmp,0,SEEK_SET);
- bool bOK = Decode(fTmp,imagetype);
- fclose(fTmp);
- DeleteFile(tmpFile);
- return bOK;
- }*/
-
- CxMemFile fTmp((uint8_t*)lpVoid,rsize);
- return Decode(&fTmp,imagetype);
- }
- } else strcpy(info.szLastError,"Unable to load resource!");
- return false;
-}
-#endif //WIN32
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Constructor from file name, see Load()
- * \param filename: file name
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- */
-//
-// > filename: file name
-// > imagetype: specify the image format (CXIMAGE_FORMAT_BMP,...)
-// For UNICODE support: char -> TCHAR
-CxImage::CxImage(const TCHAR * filename, uint32_t imagetype)
-//CxImage::CxImage(const char * filename, uint32_t imagetype)
-{
- Startup(imagetype);
- Load(filename,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Constructor from file handle, see Decode()
- * \param stream: file handle, with read access.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- */
-CxImage::CxImage(FILE * stream, uint32_t imagetype)
-{
- Startup(imagetype);
- Decode(stream,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Constructor from CxFile object, see Decode()
- * \param stream: file handle (CxMemFile or CxIOFile), with read access.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- */
-CxImage::CxImage(CxFile * stream, uint32_t imagetype)
-{
- Startup(imagetype);
- Decode(stream,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Constructor from memory buffer, see Decode()
- * \param buffer: memory buffer
- * \param size: size of buffer
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- */
-CxImage::CxImage(uint8_t * buffer, uint32_t size, uint32_t imagetype)
-{
- Startup(imagetype);
- CxMemFile stream(buffer,size);
- Decode(&stream,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Loads an image from memory buffer
- * \param buffer: memory buffer
- * \param size: size of buffer
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Decode(uint8_t * buffer, uint32_t size, uint32_t imagetype)
-{
- CxMemFile file(buffer,size);
- return Decode(&file,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Loads an image from file handle.
- * \param hFile: file handle, with read access.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- */
-bool CxImage::Decode(FILE *hFile, uint32_t imagetype)
-{
- CxIOFile file(hFile);
- return Decode(&file,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Loads an image from CxFile object
- * \param hFile: file handle (CxMemFile or CxIOFile), with read access.
- * \param imagetype: file format, see ENUM_CXIMAGE_FORMATS
- * \return true if everything is ok
- * \sa ENUM_CXIMAGE_FORMATS
- */
-bool CxImage::Decode(CxFile *hFile, uint32_t imagetype)
-{
- if (hFile == NULL){
- strcpy(info.szLastError,CXIMAGE_ERR_NOFILE);
- return false;
- }
-
- uint32_t pos = hFile->Tell();
-
-#if CXIMAGE_SUPPORT_BMP
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_BMP==imagetype){
- CxImageBMP *newima = new CxImageBMP;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JPG
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_JPG==imagetype){
- CxImageJPG *newima = new CxImageJPG;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_ICO
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_ICO==imagetype){
- CxImageICO *newima = new CxImageICO;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- info.nNumFrames = newima->info.nNumFrames;
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_GIF
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_GIF==imagetype){
- CxImageGIF *newima = new CxImageGIF;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- info.nNumFrames = newima->info.nNumFrames;
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_PNG
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_PNG==imagetype){
- CxImagePNG *newima = new CxImagePNG;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_TIF
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_TIF==imagetype){
- CxImageTIF *newima = new CxImageTIF;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- info.nNumFrames = newima->info.nNumFrames;
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_MNG
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_MNG==imagetype){
- CxImageMNG *newima = new CxImageMNG;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- info.nNumFrames = newima->info.nNumFrames;
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_TGA
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_TGA==imagetype){
- CxImageTGA *newima = new CxImageTGA;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_PCX
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_PCX==imagetype){
- CxImagePCX *newima = new CxImagePCX;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_WBMP==imagetype){
- CxImageWBMP *newima = new CxImageWBMP;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_WMF && CXIMAGE_SUPPORT_WINDOWS
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_WMF==imagetype){
- CxImageWMF *newima = new CxImageWMF;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JBG
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_JBG==imagetype){
- CxImageJBG *newima = new CxImageJBG;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_JASPER
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype ||
-#if CXIMAGE_SUPPORT_JP2
- CXIMAGE_FORMAT_JP2==imagetype ||
-#endif
-#if CXIMAGE_SUPPORT_JPC
- CXIMAGE_FORMAT_JPC==imagetype ||
-#endif
-#if CXIMAGE_SUPPORT_PGX
- CXIMAGE_FORMAT_PGX==imagetype ||
-#endif
-#if CXIMAGE_SUPPORT_PNM
- CXIMAGE_FORMAT_PNM==imagetype ||
-#endif
-#if CXIMAGE_SUPPORT_RAS
- CXIMAGE_FORMAT_RAS==imagetype ||
-#endif
- false ){
- CxImageJAS *newima = new CxImageJAS;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_SKA
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_SKA==imagetype){
- CxImageSKA *newima = new CxImageSKA;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_RAW
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_RAW==imagetype){
- CxImageRAW *newima = new CxImageRAW;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-#if CXIMAGE_SUPPORT_PSD
- if (CXIMAGE_FORMAT_UNKNOWN==imagetype || CXIMAGE_FORMAT_PSD==imagetype){
- CxImagePSD *newima = new CxImagePSD;
- if (!newima)
- return false;
- newima->CopyInfo(*this);
- if (newima->Decode(hFile)) {
- Transfer(*newima);
- delete newima;
- return true;
- } else {
- strcpy(info.szLastError,newima->GetLastError());
- hFile->Seek(pos,SEEK_SET);
- delete newima;
- if (CXIMAGE_FORMAT_UNKNOWN!=imagetype)
- return false;
- }
- }
-#endif
-
- strcpy(info.szLastError,"Decode: Unknown or wrong format");
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Loads an image from CxFile object
- * \param hFile: file handle (CxMemFile or CxIOFile), with read access.
- * \param imagetype: file format, default = 0 (CXIMAGE_FORMAT_UNKNOWN)
- * \return : if imagetype is not 0, the function returns true when imagetype
- * matches the file image format. If imagetype is 0, the function returns true
- * when the file image format is recognized as a supported format.
- * If the returned value is true, use GetHeight(), GetWidth() or GetType()
- * to retrieve the basic image information.
- * \sa ENUM_CXIMAGE_FORMATS
- */
-bool CxImage::CheckFormat(CxFile * hFile, uint32_t imagetype)
-{
- SetType(CXIMAGE_FORMAT_UNKNOWN);
- SetEscape(-1);
-
- if (!Decode(hFile,imagetype))
- return false;
-
- if (GetType() == CXIMAGE_FORMAT_UNKNOWN ||
- ((imagetype!=CXIMAGE_FORMAT_UNKNOWN)&&(GetType() != imagetype)))
- return false;
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::CheckFormat(uint8_t * buffer, uint32_t size, uint32_t imagetype)
-{
- if (buffer==NULL || size==0){
- strcpy(info.szLastError,"invalid or empty buffer");
- return false;
- }
- CxMemFile file(buffer,size);
- return CheckFormat(&file,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_EXIF
-bool CxImage::GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type)
-{
- switch (type){
-#if CXIMAGE_SUPPORT_RAW
- case CXIMAGE_FORMAT_RAW:
- {
- CxImageRAW image;
- return image.GetExifThumbnail(filename, outname, type);
- }
-#endif //CXIMAGE_SUPPORT_RAW
-#if CXIMAGE_SUPPORT_JPG
- case CXIMAGE_FORMAT_JPG:
- {
- CxImageJPG image;
- return image.GetExifThumbnail(filename, outname, type);
- }
-#endif //CXIMAGE_SUPPORT_JPG
- default:
- return false;
- }
-}
-#endif //CXIMAGE_SUPPORT_EXIF
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
diff --git a/hge/CxImage/ximaexif.cpp b/hge/CxImage/ximaexif.cpp deleted file mode 100644 index f880d72..0000000 --- a/hge/CxImage/ximaexif.cpp +++ /dev/null @@ -1,877 +0,0 @@ -/*
- * File: ximaexif.cpp
- * Purpose: EXIF reader
- * 18/Aug/2002 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- * based on jhead-1.8 by Matthias Wandel <mwandel(at)rim(dot)net>
- */
-
-#include "ximajpg.h"
-
-#if CXIMAGEJPG_SUPPORT_EXIF
-
-////////////////////////////////////////////////////////////////////////////////
-CxImageJPG::CxExifInfo::CxExifInfo(EXIFINFO* info)
-{
- if (info) {
- m_exifinfo = info;
- freeinfo = false;
- } else {
- m_exifinfo = new EXIFINFO;
- memset(m_exifinfo,0,sizeof(EXIFINFO));
- freeinfo = true;
- }
-
- m_szLastError[0]='\0';
- ExifImageWidth = MotorolaOrder = 0;
- SectionsRead=0;
- memset(&Sections, 0, MAX_SECTIONS * sizeof(Section_t));
-}
-////////////////////////////////////////////////////////////////////////////////
-CxImageJPG::CxExifInfo::~CxExifInfo()
-{
- for(int32_t i=0;i<MAX_SECTIONS;i++) if(Sections[i].Data) free(Sections[i].Data);
- if (freeinfo) delete m_exifinfo;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJPG::CxExifInfo::DecodeExif(CxFile * hFile, int32_t nReadMode)
-{
- int32_t a;
- int32_t HaveCom = FALSE;
-
- a = hFile->GetC();
-
- if (a != 0xff || hFile->GetC() != M_SOI){
- return FALSE;
- }
-
- for(;;){
- int32_t itemlen;
- int32_t marker = 0;
- int32_t ll,lh, got;
- uint8_t * Data;
-
- if (SectionsRead >= MAX_SECTIONS){
- strcpy(m_szLastError,"Too many sections in jpg file");
- return false;
- }
-
- for (a=0;a<7;a++){
- marker = hFile->GetC();
- if (marker != 0xff) break;
-
- if (a >= 6){
- printf("too many padding bytes\n");
- return false;
- }
- }
-
- if (marker == 0xff){
- // 0xff is legal padding, but if we get that many, something's wrong.
- strcpy(m_szLastError,"too many padding bytes!");
- return false;
- }
-
- Sections[SectionsRead].Type = marker;
-
- // Read the length of the section.
- lh = hFile->GetC();
- ll = hFile->GetC();
-
- itemlen = (lh << 8) | ll;
-
- if (itemlen < 2){
- strcpy(m_szLastError,"invalid marker");
- return false;
- }
-
- Sections[SectionsRead].Size = itemlen;
-
- Data = (uint8_t *)malloc(itemlen);
- if (Data == NULL){
- strcpy(m_szLastError,"Could not allocate memory");
- return false;
- }
- Sections[SectionsRead].Data = Data;
-
- // Store first two pre-read bytes.
- Data[0] = (uint8_t)lh;
- Data[1] = (uint8_t)ll;
-
- got = hFile->Read(Data+2, 1, itemlen-2); // Read the whole section.
- if (got != itemlen-2){
- strcpy(m_szLastError,"Premature end of file?");
- return false;
- }
- SectionsRead += 1;
-
- switch(marker){
-
- case M_SOS: // stop before hitting compressed data
- // If reading entire image is requested, read the rest of the data.
- if (nReadMode & EXIF_READ_IMAGE){
- int32_t cp, ep, size;
- // Determine how much file is left.
- cp = hFile->Tell();
- hFile->Seek(0, SEEK_END);
- ep = hFile->Tell();
- hFile->Seek(cp, SEEK_SET);
-
- size = ep-cp;
- Data = (uint8_t *)malloc(size);
- if (Data == NULL){
- strcpy(m_szLastError,"could not allocate data for entire image");
- return false;
- }
-
- got = hFile->Read(Data, 1, size);
- if (got != size){
- strcpy(m_szLastError,"could not read the rest of the image");
- return false;
- }
-
- Sections[SectionsRead].Data = Data;
- Sections[SectionsRead].Size = size;
- Sections[SectionsRead].Type = PSEUDO_IMAGE_MARKER;
- SectionsRead ++;
- }
- return true;
-
- case M_EOI: // in case it's a tables-only JPEG stream
- printf("No image in jpeg!\n");
- return FALSE;
-
- case M_COM: // Comment section
- if (HaveCom || ((nReadMode & EXIF_READ_EXIF) == 0)){
- // Discard this section.
- free(Sections[--SectionsRead].Data);
- Sections[SectionsRead].Data=0;
- }else{
- process_COM(Data, itemlen);
- HaveCom = TRUE;
- }
- break;
-
- case M_JFIF:
- // Regular jpegs always have this tag, exif images have the exif
- // marker instead, althogh ACDsee will write images with both markers.
- // this program will re-create this marker on absence of exif marker.
- // hence no need to keep the copy from the file.
- free(Sections[--SectionsRead].Data);
- Sections[SectionsRead].Data=0;
- break;
-
- case M_EXIF:
- // Seen files from some 'U-lead' software with Vivitar scanner
- // that uses marker 31 for non exif stuff. Thus make sure
- // it says 'Exif' in the section before treating it as exif.
- if ((nReadMode & EXIF_READ_EXIF) && memcmp(Data+2, "Exif", 4) == 0){
- m_exifinfo->IsExif = process_EXIF((uint8_t *)Data+2, itemlen);
- }else{
- // Discard this section.
- free(Sections[--SectionsRead].Data);
- Sections[SectionsRead].Data=0;
- }
- break;
-
- case M_SOF0:
- case M_SOF1:
- case M_SOF2:
- case M_SOF3:
- case M_SOF5:
- case M_SOF6:
- case M_SOF7:
- case M_SOF9:
- case M_SOF10:
- case M_SOF11:
- case M_SOF13:
- case M_SOF14:
- case M_SOF15:
- process_SOFn(Data, marker);
- break;
- default:
- // Skip any other sections.
- //if (ShowTags) printf("Jpeg section marker 0x%02x size %d\n",marker, itemlen);
- break;
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/*--------------------------------------------------------------------------
- Process a EXIF marker
- Describes all the drivel that most digital cameras include...
---------------------------------------------------------------------------*/
-bool CxImageJPG::CxExifInfo::process_EXIF(uint8_t * CharBuf, uint32_t length)
-{
- m_exifinfo->FlashUsed = 0;
- /* If it's from a digicam, and it used flash, it says so. */
- m_exifinfo->Comments[0] = '\0'; /* Initial value - null string */
-
- ExifImageWidth = 0;
-
- { /* Check the EXIF header component */
- static const uint8_t ExifHeader[] = "Exif\0\0";
- if (memcmp(CharBuf+0, ExifHeader,6)){
- strcpy(m_szLastError,"Incorrect Exif header");
- return false;
- }
- }
-
- if (memcmp(CharBuf+6,"II",2) == 0){
- MotorolaOrder = 0;
- }else{
- if (memcmp(CharBuf+6,"MM",2) == 0){
- MotorolaOrder = 1;
- }else{
- strcpy(m_szLastError,"Invalid Exif alignment marker.");
- return false;
- }
- }
-
- /* Check the next two values for correctness. */
- if (Get16u(CharBuf+8) != 0x2a){
- strcpy(m_szLastError,"Invalid Exif start (1)");
- return false;
- }
-
- int32_t FirstOffset = Get32u(CharBuf+10);
- /* <Richard Collins>
- if (FirstOffset < 8 || FirstOffset > 16){
- // I used to ensure this was set to 8 (website I used indicated its 8)
- // but PENTAX Optio 230 has it set differently, and uses it as offset. (Sept 11 2002)
- strcpy(m_szLastError,"Suspicious offset of first IFD value");
- return false;
- }*/
-
- uint8_t * LastExifRefd = CharBuf;
-
- /* First directory starts 16 bytes in. Offsets start at 8 bytes in. */
- if (!ProcessExifDir(CharBuf+14, CharBuf+6, length-6, m_exifinfo, &LastExifRefd))
- return false;
-
- /* <Richard Collins> give a chance for a second directory */
- if (FirstOffset > 8) {
- if (!ProcessExifDir(CharBuf+14+FirstOffset-8, CharBuf+6, length-6, m_exifinfo, &LastExifRefd))
- return false;
- }
-
- /* This is how far the interesting (non thumbnail) part of the exif went. */
- // int32_t ExifSettingsLength = LastExifRefd - CharBuf;
-
- /* Compute the CCD width, in milimeters. */
- if (m_exifinfo->FocalplaneXRes != 0){
- m_exifinfo->CCDWidth = (float)(ExifImageWidth * m_exifinfo->FocalplaneUnits / m_exifinfo->FocalplaneXRes);
- }
-
- return true;
-}
-//--------------------------------------------------------------------------
-// Get 16 bits motorola order (always) for jpeg header stuff.
-//--------------------------------------------------------------------------
-int32_t CxImageJPG::CxExifInfo::Get16m(void * Short)
-{
- return (((uint8_t *)Short)[0] << 8) | ((uint8_t *)Short)[1];
-}
-////////////////////////////////////////////////////////////////////////////////
-/*--------------------------------------------------------------------------
- Convert a 16 bit unsigned value from file's native byte order
---------------------------------------------------------------------------*/
-int32_t CxImageJPG::CxExifInfo::Get16u(void * Short)
-{
- if (MotorolaOrder){
- return (((uint8_t *)Short)[0] << 8) | ((uint8_t *)Short)[1];
- }else{
- return (((uint8_t *)Short)[1] << 8) | ((uint8_t *)Short)[0];
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/*--------------------------------------------------------------------------
- Convert a 32 bit signed value from file's native byte order
---------------------------------------------------------------------------*/
-int32_t CxImageJPG::CxExifInfo::Get32s(void * Long)
-{
- if (MotorolaOrder){
- return ((( char *)Long)[0] << 24) | (((uint8_t *)Long)[1] << 16)
- | (((uint8_t *)Long)[2] << 8 ) | (((uint8_t *)Long)[3] << 0 );
- }else{
- return ((( char *)Long)[3] << 24) | (((uint8_t *)Long)[2] << 16)
- | (((uint8_t *)Long)[1] << 8 ) | (((uint8_t *)Long)[0] << 0 );
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/*--------------------------------------------------------------------------
- Convert a 32 bit unsigned value from file's native byte order
---------------------------------------------------------------------------*/
-uint32_t CxImageJPG::CxExifInfo::Get32u(void * Long)
-{
- return (uint32_t)Get32s(Long) & 0xffffffff;
-}
-////////////////////////////////////////////////////////////////////////////////
-
-/* Describes format descriptor */
-static const int32_t BytesPerFormat[] = {0,1,1,2,4,8,1,1,2,4,8,4,8};
-#define NUM_FORMATS 12
-
-#define FMT_BYTE 1
-#define FMT_STRING 2
-#define FMT_USHORT 3
-#define FMT_ULONG 4
-#define FMT_URATIONAL 5
-#define FMT_SBYTE 6
-#define FMT_UNDEFINED 7
-#define FMT_SSHORT 8
-#define FMT_SLONG 9
-#define FMT_SRATIONAL 10
-#define FMT_SINGLE 11
-#define FMT_DOUBLE 12
-
-/* Describes tag values */
-
-#define TAG_EXIF_VERSION 0x9000
-#define TAG_EXIF_OFFSET 0x8769
-#define TAG_INTEROP_OFFSET 0xa005
-
-#define TAG_MAKE 0x010F
-#define TAG_MODEL 0x0110
-
-#define TAG_ORIENTATION 0x0112
-#define TAG_XRESOLUTION 0x011A
-#define TAG_YRESOLUTION 0x011B
-#define TAG_RESOLUTIONUNIT 0x0128
-
-#define TAG_EXPOSURETIME 0x829A
-#define TAG_FNUMBER 0x829D
-
-#define TAG_SHUTTERSPEED 0x9201
-#define TAG_APERTURE 0x9202
-#define TAG_BRIGHTNESS 0x9203
-#define TAG_MAXAPERTURE 0x9205
-#define TAG_FOCALLENGTH 0x920A
-
-#define TAG_DATETIME_ORIGINAL 0x9003
-#define TAG_USERCOMMENT 0x9286
-
-#define TAG_SUBJECT_DISTANCE 0x9206
-#define TAG_FLASH 0x9209
-
-#define TAG_FOCALPLANEXRES 0xa20E
-#define TAG_FOCALPLANEYRES 0xa20F
-#define TAG_FOCALPLANEUNITS 0xa210
-#define TAG_EXIF_IMAGEWIDTH 0xA002
-#define TAG_EXIF_IMAGELENGTH 0xA003
-
-/* the following is added 05-jan-2001 vcs */
-#define TAG_EXPOSURE_BIAS 0x9204
-#define TAG_WHITEBALANCE 0x9208
-#define TAG_METERING_MODE 0x9207
-#define TAG_EXPOSURE_PROGRAM 0x8822
-#define TAG_ISO_EQUIVALENT 0x8827
-#define TAG_COMPRESSION_LEVEL 0x9102
-
-#define TAG_THUMBNAIL_OFFSET 0x0201
-#define TAG_THUMBNAIL_LENGTH 0x0202
-
-
-/*--------------------------------------------------------------------------
- Process one of the nested EXIF directories.
---------------------------------------------------------------------------*/
-bool CxImageJPG::CxExifInfo::ProcessExifDir(uint8_t * DirStart, uint8_t * OffsetBase, unsigned ExifLength,
- EXIFINFO * const m_exifinfo, uint8_t ** const LastExifRefdP, int32_t NestingLevel)
-{
- int32_t de;
- int32_t a;
- int32_t NumDirEntries;
- unsigned ThumbnailOffset = 0;
- unsigned ThumbnailSize = 0;
-
- if (NestingLevel > 4){
- strcpy(m_szLastError,"Maximum directory nesting exceeded (corrupt exif header)");
- return false;
- }
-
- NumDirEntries = Get16u(DirStart);
-
- if ((DirStart+2+NumDirEntries*12) > (OffsetBase+ExifLength)){
- strcpy(m_szLastError,"Illegally sized directory");
- return false;
- }
-
- for (de=0;de<NumDirEntries;de++){
- int32_t Tag, Format, Components;
- uint8_t * ValuePtr;
- /* This actually can point to a variety of things; it must be
- cast to other types when used. But we use it as a byte-by-byte
- cursor, so we declare it as a pointer to a generic byte here.
- */
- int32_t ByteCount;
- uint8_t * DirEntry;
- DirEntry = DirStart+2+12*de;
-
- Tag = Get16u(DirEntry);
- Format = Get16u(DirEntry+2);
- Components = Get32u(DirEntry+4);
-
- if ((Format-1) >= NUM_FORMATS) {
- /* (-1) catches illegal zero case as unsigned underflows to positive large */
- strcpy(m_szLastError,"Illegal format code in EXIF dir");
- return false;
- }
-
- ByteCount = Components * BytesPerFormat[Format];
-
- if (ByteCount > 4){
- unsigned OffsetVal;
- OffsetVal = Get32u(DirEntry+8);
- /* If its bigger than 4 bytes, the dir entry contains an offset.*/
- if (OffsetVal+ByteCount > ExifLength){
- /* Bogus pointer offset and / or bytecount value */
- strcpy(m_szLastError,"Illegal pointer offset value in EXIF.");
- return false;
- }
- ValuePtr = OffsetBase+OffsetVal;
- }else{
- /* 4 bytes or less and value is in the dir entry itself */
- ValuePtr = DirEntry+8;
- }
-
- if (*LastExifRefdP < ValuePtr+ByteCount){
- /* Keep track of last byte in the exif header that was
- actually referenced. That way, we know where the
- discardable thumbnail data begins.
- */
- *LastExifRefdP = ValuePtr+ByteCount;
- }
-
- /* Extract useful components of tag */
- switch(Tag){
-
- case TAG_MAKE:
- strncpy(m_exifinfo->CameraMake, (char*)ValuePtr, 31);
- break;
-
- case TAG_MODEL:
- strncpy(m_exifinfo->CameraModel, (char*)ValuePtr, 39);
- break;
-
- case TAG_EXIF_VERSION:
- strncpy(m_exifinfo->Version,(char*)ValuePtr, 4);
- break;
-
- case TAG_DATETIME_ORIGINAL:
- strncpy(m_exifinfo->DateTime, (char*)ValuePtr, 19);
- break;
-
- case TAG_USERCOMMENT:
- // Olympus has this padded with trailing spaces. Remove these first.
- for (a=ByteCount;;){
- a--;
- if (((char*)ValuePtr)[a] == ' '){
- ((char*)ValuePtr)[a] = '\0';
- }else{
- break;
- }
- if (a == 0) break;
- }
-
- /* Copy the comment */
- if (memcmp(ValuePtr, "ASCII",5) == 0){
- for (a=5;a<10;a++){
- char c;
- c = ((char*)ValuePtr)[a];
- if (c != '\0' && c != ' '){
- strncpy(m_exifinfo->Comments, (char*)ValuePtr+a, 199);
- break;
- }
- }
-
- }else{
- strncpy(m_exifinfo->Comments, (char*)ValuePtr, 199);
- }
- break;
-
- case TAG_FNUMBER:
- /* Simplest way of expressing aperture, so I trust it the most.
- (overwrite previously computd value if there is one)
- */
- m_exifinfo->ApertureFNumber = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_APERTURE:
- case TAG_MAXAPERTURE:
- /* More relevant info always comes earlier, so only
- use this field if we don't have appropriate aperture
- information yet.
- */
- if (m_exifinfo->ApertureFNumber == 0){
- m_exifinfo->ApertureFNumber = (float)exp(ConvertAnyFormat(ValuePtr, Format)*log(2.0f)*0.5);
- }
- break;
-
- case TAG_BRIGHTNESS:
- m_exifinfo->Brightness = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_FOCALLENGTH:
- /* Nice digital cameras actually save the focal length
- as a function of how farthey are zoomed in.
- */
-
- m_exifinfo->FocalLength = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_SUBJECT_DISTANCE:
- /* Inidcates the distacne the autofocus camera is focused to.
- Tends to be less accurate as distance increases.
- */
- m_exifinfo->Distance = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_EXPOSURETIME:
- /* Simplest way of expressing exposure time, so I
- trust it most. (overwrite previously computd value
- if there is one)
- */
- m_exifinfo->ExposureTime =
- (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_SHUTTERSPEED:
- /* More complicated way of expressing exposure time,
- so only use this value if we don't already have it
- from somewhere else.
- */
- if (m_exifinfo->ExposureTime == 0){
- m_exifinfo->ExposureTime = (float)
- (1/exp(ConvertAnyFormat(ValuePtr, Format)*log(2.0f)));
- }
- break;
-
- case TAG_FLASH:
- if ((int32_t)ConvertAnyFormat(ValuePtr, Format) & 7){
- m_exifinfo->FlashUsed = 1;
- }else{
- m_exifinfo->FlashUsed = 0;
- }
- break;
-
- case TAG_ORIENTATION:
- m_exifinfo->Orientation = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- if (m_exifinfo->Orientation < 1 || m_exifinfo->Orientation > 8){
- strcpy(m_szLastError,"Undefined rotation value");
- m_exifinfo->Orientation = 0;
- }
- break;
-
- case TAG_EXIF_IMAGELENGTH:
- case TAG_EXIF_IMAGEWIDTH:
- /* Use largest of height and width to deal with images
- that have been rotated to portrait format.
- */
- a = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- if (ExifImageWidth < a) ExifImageWidth = a;
- break;
-
- case TAG_FOCALPLANEXRES:
- m_exifinfo->FocalplaneXRes = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_FOCALPLANEYRES:
- m_exifinfo->FocalplaneYRes = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_RESOLUTIONUNIT:
- switch((int32_t)ConvertAnyFormat(ValuePtr, Format)){
- case 1: m_exifinfo->ResolutionUnit = 1.0f; break; /* 1 inch */
- case 2: m_exifinfo->ResolutionUnit = 1.0f; break;
- case 3: m_exifinfo->ResolutionUnit = 0.3937007874f; break; /* 1 centimeter*/
- case 4: m_exifinfo->ResolutionUnit = 0.03937007874f; break; /* 1 millimeter*/
- case 5: m_exifinfo->ResolutionUnit = 0.00003937007874f; /* 1 micrometer*/
- }
- break;
-
- case TAG_FOCALPLANEUNITS:
- switch((int32_t)ConvertAnyFormat(ValuePtr, Format)){
- case 1: m_exifinfo->FocalplaneUnits = 1.0f; break; /* 1 inch */
- case 2: m_exifinfo->FocalplaneUnits = 1.0f; break;
- case 3: m_exifinfo->FocalplaneUnits = 0.3937007874f; break; /* 1 centimeter*/
- case 4: m_exifinfo->FocalplaneUnits = 0.03937007874f; break; /* 1 millimeter*/
- case 5: m_exifinfo->FocalplaneUnits = 0.00003937007874f; /* 1 micrometer*/
- }
- break;
-
- // Remaining cases contributed by: Volker C. Schoech <schoech(at)gmx(dot)de>
-
- case TAG_EXPOSURE_BIAS:
- m_exifinfo->ExposureBias = (float) ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_WHITEBALANCE:
- m_exifinfo->Whitebalance = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_METERING_MODE:
- m_exifinfo->MeteringMode = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_EXPOSURE_PROGRAM:
- m_exifinfo->ExposureProgram = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_ISO_EQUIVALENT:
- m_exifinfo->ISOequivalent = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- if ( m_exifinfo->ISOequivalent < 50 ) m_exifinfo->ISOequivalent *= 200;
- break;
-
- case TAG_COMPRESSION_LEVEL:
- m_exifinfo->CompressionLevel = (int32_t)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_XRESOLUTION:
- m_exifinfo->Xresolution = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
- case TAG_YRESOLUTION:
- m_exifinfo->Yresolution = (float)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_THUMBNAIL_OFFSET:
- ThumbnailOffset = (unsigned)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- case TAG_THUMBNAIL_LENGTH:
- ThumbnailSize = (unsigned)ConvertAnyFormat(ValuePtr, Format);
- break;
-
- }
-
- if (Tag == TAG_EXIF_OFFSET || Tag == TAG_INTEROP_OFFSET){
- uint8_t * SubdirStart;
- unsigned Offset = Get32u(ValuePtr);
- if (Offset>8){
- SubdirStart = OffsetBase + Offset;
- if (SubdirStart < OffsetBase ||
- SubdirStart > OffsetBase+ExifLength){
- strcpy(m_szLastError,"Illegal subdirectory link");
- return false;
- }
- ProcessExifDir(SubdirStart, OffsetBase, ExifLength, m_exifinfo, LastExifRefdP, NestingLevel+1);
- }
- continue;
- }
- }
-
-
- {
- /* In addition to linking to subdirectories via exif tags,
- there's also a potential link to another directory at the end
- of each directory. This has got to be the result of a
- committee!
- */
- uint8_t * SubdirStart;
- unsigned Offset;
- Offset = Get16u(DirStart+2+12*NumDirEntries);
- if (Offset){
- SubdirStart = OffsetBase + Offset;
- if (SubdirStart < OffsetBase
- || SubdirStart > OffsetBase+ExifLength){
- strcpy(m_szLastError,"Illegal subdirectory link");
- return false;
- }
- ProcessExifDir(SubdirStart, OffsetBase, ExifLength, m_exifinfo, LastExifRefdP, NestingLevel+1);
- }
- }
-
-
- if (ThumbnailSize && ThumbnailOffset){
- if (ThumbnailSize + ThumbnailOffset <= ExifLength){
- /* The thumbnail pointer appears to be valid. Store it. */
- m_exifinfo->ThumbnailPointer = OffsetBase + ThumbnailOffset;
- m_exifinfo->ThumbnailSize = ThumbnailSize;
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/*--------------------------------------------------------------------------
- Evaluate number, be it int32_t, rational, or float from directory.
---------------------------------------------------------------------------*/
-double CxImageJPG::CxExifInfo::ConvertAnyFormat(void * ValuePtr, int32_t Format)
-{
- double Value;
- Value = 0;
-
- switch(Format){
- case FMT_SBYTE: Value = *(signed char *)ValuePtr; break;
- case FMT_BYTE: Value = *(uint8_t *)ValuePtr; break;
-
- case FMT_USHORT: Value = Get16u(ValuePtr); break;
- case FMT_ULONG: Value = Get32u(ValuePtr); break;
-
- case FMT_URATIONAL:
- case FMT_SRATIONAL:
- {
- int32_t Num,Den;
- Num = Get32s(ValuePtr);
- Den = Get32s(4+(char *)ValuePtr);
- if (Den == 0){
- Value = 0;
- }else{
- Value = (double)Num/Den;
- }
- break;
- }
-
- case FMT_SSHORT: Value = (int16_t)Get16u(ValuePtr); break;
- case FMT_SLONG: Value = Get32s(ValuePtr); break;
-
- /* Not sure if this is correct (never seen float used in Exif format)
- */
- case FMT_SINGLE: Value = (double)*(float *)ValuePtr; break;
- case FMT_DOUBLE: Value = *(double *)ValuePtr; break;
- }
- return Value;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageJPG::CxExifInfo::process_COM (const uint8_t * Data, int32_t length)
-{
- int32_t ch;
- char Comment[MAX_COMMENT+1];
- int32_t nch;
- int32_t a;
-
- nch = 0;
-
- if (length > MAX_COMMENT) length = MAX_COMMENT; // Truncate if it won't fit in our structure.
-
- for (a=2;a<length;a++){
- ch = Data[a];
-
- if (ch == '\r' && Data[a+1] == '\n') continue; // Remove cr followed by lf.
-
- if (isprint(ch) || ch == '\n' || ch == '\t'){
- Comment[nch++] = (char)ch;
- }else{
- Comment[nch++] = '?';
- }
- }
-
- Comment[nch] = '\0'; // Null terminate
-
- //if (ShowTags) printf("COM marker comment: %s\n",Comment);
-
- strcpy(m_exifinfo->Comments,Comment);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageJPG::CxExifInfo::process_SOFn (const uint8_t * Data, int32_t marker)
-{
- int32_t data_precision, num_components;
-
- data_precision = Data[2];
- m_exifinfo->Height = Get16m((void*)(Data+3));
- m_exifinfo->Width = Get16m((void*)(Data+5));
- num_components = Data[7];
-
- if (num_components == 3){
- m_exifinfo->IsColor = 1;
- }else{
- m_exifinfo->IsColor = 0;
- }
-
- m_exifinfo->Process = marker;
-
- //if (ShowTags) printf("JPEG image is %uw * %uh, %d color components, %d bits per sample\n",
- // ImageInfo.Width, ImageInfo.Height, num_components, data_precision);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * this will work only on a CxImageJPG object, if the image originally has valid EXIF data
- \verbatim
- CxImageJPG jpg;
- CxIOFile in,out;
- in.Open("D:\\exif_in.jpg","rb");
- out.Open("D:\\exif_out.jpg","w+b");
- jpg.Decode(&in);
- if (jpg.IsValid()){
- jpg.RotateLeft();
- jpg.Encode(&out);
- }
- \endverbatim
-*/
-bool CxImageJPG::CxExifInfo::EncodeExif(CxFile * hFile)
-{
- int32_t a;
-
- if (FindSection(M_SOS)==NULL){
- strcpy(m_szLastError,"Can't write exif : didn't read all");
- return false;
- }
-
- // Initial static jpeg marker.
- hFile->PutC(0xff);
- hFile->PutC(0xd8);
-
- if (Sections[0].Type != M_EXIF && Sections[0].Type != M_JFIF){
- // The image must start with an exif or jfif marker. If we threw those away, create one.
- static uint8_t JfifHead[18] = {
- 0xff, M_JFIF,
- 0x00, 0x10, 'J' , 'F' , 'I' , 'F' , 0x00, 0x01,
- 0x01, 0x01, 0x01, 0x2C, 0x01, 0x2C, 0x00, 0x00
- };
- hFile->Write(JfifHead, 18, 1);
- }
-
- // Write all the misc sections
- for (a=0;a<SectionsRead-1;a++){
- hFile->PutC(0xff);
- hFile->PutC((uint8_t)(Sections[a].Type));
- hFile->Write(Sections[a].Data, Sections[a].Size, 1);
- }
-
- // Write the remaining image data.
- hFile->Write(Sections[a].Data, Sections[a].Size, 1);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageJPG::CxExifInfo::DiscardAllButExif()
-{
- Section_t ExifKeeper;
- Section_t CommentKeeper;
- int32_t a;
-
- memset(&ExifKeeper, 0, sizeof(ExifKeeper));
- memset(&CommentKeeper, 0, sizeof(ExifKeeper));
-
- for (a=0;a<SectionsRead;a++){
- if (Sections[a].Type == M_EXIF && ExifKeeper.Type == 0){
- ExifKeeper = Sections[a];
- }else if (Sections[a].Type == M_COM && CommentKeeper.Type == 0){
- CommentKeeper = Sections[a];
- }else{
- free(Sections[a].Data);
- Sections[a].Data = 0;
- }
- }
- SectionsRead = 0;
- if (ExifKeeper.Type){
- Sections[SectionsRead++] = ExifKeeper;
- }
- if (CommentKeeper.Type){
- Sections[SectionsRead++] = CommentKeeper;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void* CxImageJPG::CxExifInfo::FindSection(int32_t SectionType)
-{
- int32_t a;
- for (a=0;a<SectionsRead-1;a++){
- if (Sections[a].Type == SectionType){
- return &Sections[a];
- }
- }
- // Could not be found.
- return NULL;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGEJPG_SUPPORT_EXIF
diff --git a/hge/CxImage/ximage.cpp b/hge/CxImage/ximage.cpp deleted file mode 100644 index 904b807..0000000 --- a/hge/CxImage/ximage.cpp +++ /dev/null @@ -1,537 +0,0 @@ -// ximage.cpp : main implementation file
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-////////////////////////////////////////////////////////////////////////////////
-// CxImage
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Initialize the internal structures
- */
-void CxImage::Startup(uint32_t imagetype)
-{
- //init pointers
- pDib = pSelection = pAlpha = NULL;
- ppLayers = ppFrames = NULL;
- //init structures
- memset(&head,0,sizeof(BITMAPINFOHEADER));
- memset(&info,0,sizeof(CXIMAGEINFO));
- //init default attributes
- info.dwType = imagetype;
- info.fQuality = 90.0f;
- info.nAlphaMax = 255;
- info.nBkgndIndex = -1;
- info.bEnabled = true;
- info.nJpegScale = 1;
- SetXDPI(CXIMAGE_DEFAULT_DPI);
- SetYDPI(CXIMAGE_DEFAULT_DPI);
-
- int16_t test = 1;
- info.bLittleEndianHost = (*((char *) &test) == 1);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Empty image constructor
- * \param imagetype: (optional) set the image format, see ENUM_CXIMAGE_FORMATS
- */
-CxImage::CxImage(uint32_t imagetype)
-{
- Startup(imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Call this function to destroy image pixels, alpha channel, selection and sub layers.
- * - Attributes are not erased, but IsValid returns false.
- *
- * \return true if everything is freed, false if the image is a Ghost
- */
-bool CxImage::Destroy()
-{
- //free this only if it's valid and it's not a ghost
- if (info.pGhost==NULL){
- if (ppLayers) {
- for(int32_t n=0; n<info.nNumLayers;n++){ delete ppLayers[n]; }
- delete [] ppLayers; ppLayers=0; info.nNumLayers = 0;
- }
- if (pSelection) {free(pSelection); pSelection=0;}
- if (pAlpha) {free(pAlpha); pAlpha=0;}
- if (pDib) {free(pDib); pDib=0;}
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::DestroyFrames()
-{
- if (info.pGhost==NULL) {
- if (ppFrames) {
- for (int32_t n=0; n<info.nNumFrames; n++) { delete ppFrames[n]; }
- delete [] ppFrames; ppFrames = NULL; info.nNumFrames = 0;
- }
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sized image constructor
- * \param dwWidth: width
- * \param dwHeight: height
- * \param wBpp: bit per pixel, can be 1, 4, 8, 24
- * \param imagetype: (optional) set the image format, see ENUM_CXIMAGE_FORMATS
- */
-CxImage::CxImage(uint32_t dwWidth, uint32_t dwHeight, uint32_t wBpp, uint32_t imagetype)
-{
- Startup(imagetype);
- Create(dwWidth,dwHeight,wBpp,imagetype);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * image constructor from existing source
- * \param src: source image.
- * \param copypixels: copy the pixels from the source image into the new image.
- * \param copyselection: copy the selection from source
- * \param copyalpha: copy the alpha channel from source
- * \sa Copy
- */
-CxImage::CxImage(const CxImage &src, bool copypixels, bool copyselection, bool copyalpha)
-{
- Startup(src.GetType());
- Copy(src,copypixels,copyselection,copyalpha);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Copies the image from an exsisting source
- * \param src: source image.
- * \param copypixels: copy the pixels from the source image into the new image.
- * \param copyselection: copy the selection from source
- * \param copyalpha: copy the alpha channel from source
- */
-void CxImage::Copy(const CxImage &src, bool copypixels, bool copyselection, bool copyalpha)
-{
- // if the source is a ghost, the copy is still a ghost
- if (src.info.pGhost){
- Ghost(&src);
- return;
- }
- //copy the attributes
- memcpy(&info,&src.info,sizeof(CXIMAGEINFO));
- memcpy(&head,&src.head,sizeof(BITMAPINFOHEADER)); // [andy] - fix for bitmap header DPI
- //rebuild the image
- Create(src.GetWidth(),src.GetHeight(),src.GetBpp(),src.GetType());
- //copy the pixels and the palette, or at least copy the palette only.
- if (copypixels && pDib && src.pDib) memcpy(pDib,src.pDib,GetSize());
- else SetPalette(src.GetPalette());
- int32_t nSize = head.biWidth * head.biHeight;
- //copy the selection
- if (copyselection && src.pSelection){
- if (pSelection) free(pSelection);
- pSelection = (uint8_t*)malloc(nSize);
- memcpy(pSelection,src.pSelection,nSize);
- }
- //copy the alpha channel
- if (copyalpha && src.pAlpha){
- if (pAlpha) free(pAlpha);
- pAlpha = (uint8_t*)malloc(nSize);
- memcpy(pAlpha,src.pAlpha,nSize);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Copies the image attributes from an existing image.
- * - Works only on an empty image, and the image will be still empty.
- * - <b> Use it before Create() </b>
- */
-void CxImage::CopyInfo(const CxImage &src)
-{
- if (pDib==NULL) memcpy(&info,&src.info,sizeof(CXIMAGEINFO));
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa Copy
- */
-CxImage& CxImage::operator = (const CxImage& isrc)
-{
- if (this != &isrc) Copy(isrc);
- return *this;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Initializes or rebuilds the image.
- * \param dwWidth: width
- * \param dwHeight: height
- * \param wBpp: bit per pixel, can be 1, 4, 8, 24
- * \param imagetype: (optional) set the image format, see ENUM_CXIMAGE_FORMATS
- * \return pointer to the internal pDib object; NULL if an error occurs.
- */
-void* CxImage::Create(uint32_t dwWidth, uint32_t dwHeight, uint32_t wBpp, uint32_t imagetype)
-{
- // destroy the existing image (if any)
- if (!Destroy())
- return NULL;
-
- // prevent further actions if width or height are not vaild <Balabasnia>
- if ((dwWidth == 0) || (dwHeight == 0)){
- strcpy(info.szLastError,"CxImage::Create : width and height must be greater than zero");
- return NULL;
- }
-
- // Make sure bits per pixel is valid
- if (wBpp <= 1) wBpp = 1;
- else if (wBpp <= 4) wBpp = 4;
- else if (wBpp <= 8) wBpp = 8;
- else wBpp = 24;
-
- // limit memory requirements
- if ((((float)dwWidth*(float)dwHeight*(float)wBpp)/8.0f) > (float)CXIMAGE_MAX_MEMORY)
- {
- strcpy(info.szLastError,"CXIMAGE_MAX_MEMORY exceeded");
- return NULL;
- }
-
- // set the correct bpp value
- switch (wBpp){
- case 1:
- head.biClrUsed = 2; break;
- case 4:
- head.biClrUsed = 16; break;
- case 8:
- head.biClrUsed = 256; break;
- default:
- head.biClrUsed = 0;
- }
-
- //set the common image informations
- info.dwEffWidth = ((((wBpp * dwWidth) + 31) / 32) * 4);
- info.dwType = imagetype;
-
- // initialize BITMAPINFOHEADER
- head.biSize = sizeof(BITMAPINFOHEADER); //<ralphw>
- head.biWidth = dwWidth; // fill in width from parameter
- head.biHeight = dwHeight; // fill in height from parameter
- head.biPlanes = 1; // must be 1
- head.biBitCount = (uint16_t)wBpp; // from parameter
- head.biCompression = BI_RGB;
- head.biSizeImage = info.dwEffWidth * dwHeight;
-// head.biXPelsPerMeter = 0; See SetXDPI
-// head.biYPelsPerMeter = 0; See SetYDPI
-// head.biClrImportant = 0; See SetClrImportant
-
- pDib = malloc(GetSize()); // alloc memory block to store our bitmap
- if (!pDib){
- strcpy(info.szLastError,"CxImage::Create can't allocate memory");
- return NULL;
- }
-
- //clear the palette
- RGBQUAD* pal=GetPalette();
- if (pal) memset(pal,0,GetPaletteSize());
- //Destroy the existing selection
-#if CXIMAGE_SUPPORT_SELECTION
- if (pSelection) SelectionDelete();
-#endif //CXIMAGE_SUPPORT_SELECTION
- //Destroy the existing alpha channel
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha) AlphaDelete();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- // use our bitmap info structure to fill in first part of
- // our DIB with the BITMAPINFOHEADER
- BITMAPINFOHEADER* lpbi;
- lpbi = (BITMAPINFOHEADER*)(pDib);
- *lpbi = head;
-
- info.pImage=GetBits();
-
- return pDib; //return handle to the DIB
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return pointer to the image pixels. <b> USE CAREFULLY </b>
- */
-uint8_t* CxImage::GetBits(uint32_t row)
-{
- if (pDib){
- if (row) {
- if (row<(uint32_t)head.biHeight){
- return ((uint8_t*)pDib + *(uint32_t*)pDib + GetPaletteSize() + (info.dwEffWidth * row));
- } else {
- return NULL;
- }
- } else {
- return ((uint8_t*)pDib + *(uint32_t*)pDib + GetPaletteSize());
- }
- }
- return NULL;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return the size in bytes of the internal pDib object
- */
-int32_t CxImage::GetSize()
-{
- return head.biSize + head.biSizeImage + GetPaletteSize();
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the coordinates are inside the image
- * \return true if x and y are both inside the image
- */
-bool CxImage::IsInside(int32_t x, int32_t y)
-{
- return (0<=y && y<head.biHeight && 0<=x && x<head.biWidth);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the image bits to the specified value
- * - for indexed images, the output color is set by the palette entries.
- * - for RGB images, the output color is a shade of gray.
- */
-void CxImage::Clear(uint8_t bval)
-{
- if (pDib == 0) return;
-
- if (GetBpp() == 1){
- if (bval > 0) bval = 255;
- }
- if (GetBpp() == 4){
- bval = (uint8_t)(17*(0x0F & bval));
- }
-
- memset(info.pImage,bval,head.biSizeImage);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Transfers the image from an existing source image. The source becomes empty.
- * \return true if everything is ok
- */
-bool CxImage::Transfer(CxImage &from, bool bTransferFrames /*=true*/)
-{
- if (!Destroy())
- return false;
-
- memcpy(&head,&from.head,sizeof(BITMAPINFOHEADER));
- memcpy(&info,&from.info,sizeof(CXIMAGEINFO));
-
- pDib = from.pDib;
- pSelection = from.pSelection;
- pAlpha = from.pAlpha;
- ppLayers = from.ppLayers;
-
- memset(&from.head,0,sizeof(BITMAPINFOHEADER));
- memset(&from.info,0,sizeof(CXIMAGEINFO));
- from.pDib = from.pSelection = from.pAlpha = NULL;
- from.ppLayers = NULL;
-
- if (bTransferFrames){
- DestroyFrames();
- ppFrames = from.ppFrames;
- from.ppFrames = NULL;
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * (this) points to the same pDib owned by (*from), the image remains in (*from)
- * but (this) has the access to the pixels. <b>Use carefully !!!</b>
- */
-void CxImage::Ghost(const CxImage *from)
-{
- if (from){
- memcpy(&head,&from->head,sizeof(BITMAPINFOHEADER));
- memcpy(&info,&from->info,sizeof(CXIMAGEINFO));
- pDib = from->pDib;
- pSelection = from->pSelection;
- pAlpha = from->pAlpha;
- ppLayers = from->ppLayers;
- ppFrames = from->ppFrames;
- info.pGhost=(CxImage *)from;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * turns a 16 or 32 bit bitfield image into a RGB image
- */
-void CxImage::Bitfield2RGB(uint8_t *src, uint32_t redmask, uint32_t greenmask, uint32_t bluemask, uint8_t bpp)
-{
- switch (bpp){
- case 16:
- {
- uint32_t ns[3]={0,0,0};
- // compute the number of shift for each mask
- for (int32_t i=0;i<16;i++){
- if ((redmask>>i)&0x01) ns[0]++;
- if ((greenmask>>i)&0x01) ns[1]++;
- if ((bluemask>>i)&0x01) ns[2]++;
- }
- ns[1]+=ns[0]; ns[2]+=ns[1]; ns[0]=8-ns[0]; ns[1]-=8; ns[2]-=8;
- // dword aligned width for 16 bit image
- int32_t effwidth2=(((head.biWidth + 1) / 2) * 4);
- uint16_t w;
- int32_t y2,y3,x2,x3;
- uint8_t *p=info.pImage;
- // scan the buffer in reverse direction to avoid reallocations
- for (int32_t y=head.biHeight-1; y>=0; y--){
- y2=effwidth2*y;
- y3=info.dwEffWidth*y;
- for (int32_t x=head.biWidth-1; x>=0; x--){
- x2 = 2*x+y2;
- x3 = 3*x+y3;
- w = (uint16_t)(src[x2]+256*src[1+x2]);
- p[ x3]=(uint8_t)((w & bluemask)<<ns[0]);
- p[1+x3]=(uint8_t)((w & greenmask)>>ns[1]);
- p[2+x3]=(uint8_t)((w & redmask)>>ns[2]);
- }
- }
- break;
- }
- case 32:
- {
- uint32_t ns[3]={0,0,0};
- // compute the number of shift for each mask
- for (int32_t i=8;i<32;i+=8){
- if (redmask>>i) ns[0]++;
- if (greenmask>>i) ns[1]++;
- if (bluemask>>i) ns[2]++;
- }
- // dword aligned width for 32 bit image
- int32_t effwidth4 = head.biWidth * 4;
- int32_t y4,y3,x4,x3;
- uint8_t *p=info.pImage;
- // scan the buffer in reverse direction to avoid reallocations
- for (int32_t y=head.biHeight-1; y>=0; y--){
- y4=effwidth4*y;
- y3=info.dwEffWidth*y;
- for (int32_t x=head.biWidth-1; x>=0; x--){
- x4 = 4*x+y4;
- x3 = 3*x+y3;
- p[ x3]=src[ns[2]+x4];
- p[1+x3]=src[ns[1]+x4];
- p[2+x3]=src[ns[0]+x4];
- }
- }
- }
-
- }
- return;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Creates an image from a generic buffer
- * \param pArray: source memory buffer
- * \param dwWidth: image width
- * \param dwHeight: image height
- * \param dwBitsperpixel: can be 1,4,8,24,32
- * \param dwBytesperline: line alignment, in bytes, for a single row stored in pArray
- * \param bFlipImage: tune this parameter if the image is upsidedown
- * \return true if everything is ok
- */
-bool CxImage::CreateFromArray(uint8_t* pArray,uint32_t dwWidth,uint32_t dwHeight,uint32_t dwBitsperpixel, uint32_t dwBytesperline, bool bFlipImage)
-{
- if (pArray==NULL) return false;
- if (!((dwBitsperpixel==1)||(dwBitsperpixel==4)||(dwBitsperpixel==8)||
- (dwBitsperpixel==24)||(dwBitsperpixel==32))) return false;
-
- if (!Create(dwWidth,dwHeight,dwBitsperpixel)) return false;
-
- if (dwBitsperpixel<24) SetGrayPalette();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (dwBitsperpixel==32) AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- uint8_t *dst,*src;
-
- for (uint32_t y = 0; y<dwHeight; y++) {
- dst = info.pImage + (bFlipImage?(dwHeight-1-y):y) * info.dwEffWidth;
- src = pArray + y * dwBytesperline;
- if (dwBitsperpixel==32){
- for(uint32_t x=0;x<dwWidth;x++){
- *dst++=src[0];
- *dst++=src[1];
- *dst++=src[2];
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaSet(x,(bFlipImage?(dwHeight-1-y):y),src[3]);
-#endif //CXIMAGE_SUPPORT_ALPHA
- src+=4;
- }
- } else {
- memcpy(dst,src,min(info.dwEffWidth,dwBytesperline));
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa CreateFromArray
- */
-bool CxImage::CreateFromMatrix(uint8_t** ppMatrix,uint32_t dwWidth,uint32_t dwHeight,uint32_t dwBitsperpixel, uint32_t dwBytesperline, bool bFlipImage)
-{
- if (ppMatrix==NULL) return false;
- if (!((dwBitsperpixel==1)||(dwBitsperpixel==4)||(dwBitsperpixel==8)||
- (dwBitsperpixel==24)||(dwBitsperpixel==32))) return false;
-
- if (!Create(dwWidth,dwHeight,dwBitsperpixel)) return false;
-
- if (dwBitsperpixel<24) SetGrayPalette();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (dwBitsperpixel==32) AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- uint8_t *dst,*src;
-
- for (uint32_t y = 0; y<dwHeight; y++) {
- dst = info.pImage + (bFlipImage?(dwHeight-1-y):y) * info.dwEffWidth;
- src = ppMatrix[y];
- if (src){
- if (dwBitsperpixel==32){
- for(uint32_t x=0;x<dwWidth;x++){
- *dst++=src[0];
- *dst++=src[1];
- *dst++=src[2];
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaSet(x,(bFlipImage?(dwHeight-1-y):y),src[3]);
-#endif //CXIMAGE_SUPPORT_ALPHA
- src+=4;
- }
- } else {
- memcpy(dst,src,min(info.dwEffWidth,dwBytesperline));
- }
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return lightness difference between elem1 and elem2
- */
-int32_t CxImage::CompareColors(const void *elem1, const void *elem2)
-{
- RGBQUAD* c1 = (RGBQUAD*)elem1;
- RGBQUAD* c2 = (RGBQUAD*)elem2;
-
- int32_t g1 = (int32_t)RGB2GRAY(c1->rgbRed,c1->rgbGreen,c1->rgbBlue);
- int32_t g2 = (int32_t)RGB2GRAY(c2->rgbRed,c2->rgbGreen,c2->rgbBlue);
-
- return (g1-g2);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * simply calls "if (memblock) free(memblock);".
- * Useful when calling Encode for a memory buffer,
- * from a DLL compiled with different memory management options.
- * CxImage::FreeMemory will use the same memory environment used by Encode.
- * \author [livecn]
- */
-void CxImage::FreeMemory(void* memblock)
-{
- if (memblock)
- free(memblock);
-}
-////////////////////////////////////////////////////////////////////////////////
-//EOF
diff --git a/hge/CxImage/ximage.h b/hge/CxImage/ximage.h deleted file mode 100644 index 4eed84e..0000000 --- a/hge/CxImage/ximage.h +++ /dev/null @@ -1,808 +0,0 @@ -/*
- * File: ximage.h
- * Purpose: General Purpose Image Class
- */
-/*
- --------------------------------------------------------------------------------
-
- COPYRIGHT NOTICE, DISCLAIMER, and LICENSE:
-
- CxImage version 7.0.0 31/Dec/2010
-
- CxImage : Copyright (C) 2001 - 2010, Davide Pizzolato
-
- Original CImage and CImageIterator implementation are:
- Copyright (C) 1995, Alejandro Aguilar Sierra (asierra(at)servidor(dot)unam(dot)mx)
-
- Covered code is provided under this license on an "as is" basis, without warranty
- of any kind, either expressed or implied, including, without limitation, warranties
- that the covered code is free of defects, merchantable, fit for a particular purpose
- or non-infringing. The entire risk as to the quality and performance of the covered
- code is with you. Should any covered code prove defective in any respect, you (not
- the initial developer or any other contributor) assume the cost of any necessary
- servicing, repair or correction. This disclaimer of warranty constitutes an essential
- part of this license. No use of any covered code is authorized hereunder except under
- this disclaimer.
-
- Permission is hereby granted to use, copy, modify, and distribute this
- source code, or portions hereof, for any purpose, including commercial applications,
- freely and without fee, subject to the following restrictions:
-
- 1. The origin of this software must not be misrepresented; you must not
- claim that you wrote the original software. If you use this software
- in a product, an acknowledgment in the product documentation would be
- appreciated but is not required.
-
- 2. Altered source versions must be plainly marked as such, and must not be
- misrepresented as being the original software.
-
- 3. This notice may not be removed or altered from any source distribution.
-
- --------------------------------------------------------------------------------
-
- Other information about CxImage, and the latest version, can be found at the
- CxImage home page: http://www.xdp.it/cximage/
-
- --------------------------------------------------------------------------------
- */
-#if !defined(__CXIMAGE_H)
-#define __CXIMAGE_H
-
-#if _MSC_VER > 1000
-#pragma once
-#endif
-#ifdef _LINUX
-#ifndef _XOPEN_SOURCE
- #define _XOPEN_SOURCE
-#endif
- #include <unistd.h>
- #include <arpa/inet.h>
-#endif
-
-/////////////////////////////////////////////////////////////////////////////
-#include "xfile.h"
-#include "xiofile.h"
-#include "xmemfile.h"
-#include "ximadef.h" //<vho> adjust some #define
-
-/* see "ximacfg.h" for CxImage configuration options */
-
-/////////////////////////////////////////////////////////////////////////////
-// CxImage formats enumerator
-enum ENUM_CXIMAGE_FORMATS{
-CXIMAGE_FORMAT_UNKNOWN = 0,
-#if CXIMAGE_SUPPORT_BMP
-CXIMAGE_FORMAT_BMP = 1,
-#endif
-#if CXIMAGE_SUPPORT_GIF
-CXIMAGE_FORMAT_GIF = 2,
-#endif
-#if CXIMAGE_SUPPORT_JPG
-CXIMAGE_FORMAT_JPG = 3,
-#endif
-#if CXIMAGE_SUPPORT_PNG
-CXIMAGE_FORMAT_PNG = 4,
-#endif
-#if CXIMAGE_SUPPORT_ICO
-CXIMAGE_FORMAT_ICO = 5,
-#endif
-#if CXIMAGE_SUPPORT_TIF
-CXIMAGE_FORMAT_TIF = 6,
-#endif
-#if CXIMAGE_SUPPORT_TGA
-CXIMAGE_FORMAT_TGA = 7,
-#endif
-#if CXIMAGE_SUPPORT_PCX
-CXIMAGE_FORMAT_PCX = 8,
-#endif
-#if CXIMAGE_SUPPORT_WBMP
-CXIMAGE_FORMAT_WBMP = 9,
-#endif
-#if CXIMAGE_SUPPORT_WMF
-CXIMAGE_FORMAT_WMF = 10,
-#endif
-#if CXIMAGE_SUPPORT_JP2
-CXIMAGE_FORMAT_JP2 = 11,
-#endif
-#if CXIMAGE_SUPPORT_JPC
-CXIMAGE_FORMAT_JPC = 12,
-#endif
-#if CXIMAGE_SUPPORT_PGX
-CXIMAGE_FORMAT_PGX = 13,
-#endif
-#if CXIMAGE_SUPPORT_PNM
-CXIMAGE_FORMAT_PNM = 14,
-#endif
-#if CXIMAGE_SUPPORT_RAS
-CXIMAGE_FORMAT_RAS = 15,
-#endif
-#if CXIMAGE_SUPPORT_JBG
-CXIMAGE_FORMAT_JBG = 16,
-#endif
-#if CXIMAGE_SUPPORT_MNG
-CXIMAGE_FORMAT_MNG = 17,
-#endif
-#if CXIMAGE_SUPPORT_SKA
-CXIMAGE_FORMAT_SKA = 18,
-#endif
-#if CXIMAGE_SUPPORT_RAW
-CXIMAGE_FORMAT_RAW = 19,
-#endif
-#if CXIMAGE_SUPPORT_PSD
-CXIMAGE_FORMAT_PSD = 20,
-#endif
-CMAX_IMAGE_FORMATS = CXIMAGE_SUPPORT_BMP + CXIMAGE_SUPPORT_GIF + CXIMAGE_SUPPORT_JPG +
- CXIMAGE_SUPPORT_PNG + CXIMAGE_SUPPORT_MNG + CXIMAGE_SUPPORT_ICO +
- CXIMAGE_SUPPORT_TIF + CXIMAGE_SUPPORT_TGA + CXIMAGE_SUPPORT_PCX +
- CXIMAGE_SUPPORT_WBMP+ CXIMAGE_SUPPORT_WMF +
- CXIMAGE_SUPPORT_JBG + CXIMAGE_SUPPORT_JP2 + CXIMAGE_SUPPORT_JPC +
- CXIMAGE_SUPPORT_PGX + CXIMAGE_SUPPORT_PNM + CXIMAGE_SUPPORT_RAS +
- CXIMAGE_SUPPORT_SKA + CXIMAGE_SUPPORT_RAW + CXIMAGE_SUPPORT_PSD + 1
-};
-
-#if CXIMAGE_SUPPORT_EXIF
-
-#define MAX_COMMENT 255
-#define MAX_SECTIONS 20
-
-typedef struct tag_ExifInfo {
- char Version [5];
- char CameraMake [32];
- char CameraModel [40];
- char DateTime [20];
- int32_t Height, Width;
- int32_t Orientation;
- int32_t IsColor;
- int32_t Process;
- int32_t FlashUsed;
- float FocalLength;
- float ExposureTime;
- float ApertureFNumber;
- float Distance;
- float CCDWidth;
- float ExposureBias;
- int32_t Whitebalance;
- int32_t MeteringMode;
- int32_t ExposureProgram;
- int32_t ISOequivalent;
- int32_t CompressionLevel;
- float FocalplaneXRes;
- float FocalplaneYRes;
- float FocalplaneUnits;
- float Xresolution;
- float Yresolution;
- float ResolutionUnit;
- float Brightness;
- char Comments[MAX_COMMENT+1];
-
- uint8_t * ThumbnailPointer; /* Pointer at the thumbnail */
- unsigned ThumbnailSize; /* Size of thumbnail. */
-
- bool IsExif;
-} EXIFINFO;
-
-#endif //CXIMAGE_SUPPORT_EXIF
-
-/////////////////////////////////////////////////////////////////////////////
-// CxImage class
-/////////////////////////////////////////////////////////////////////////////
-class DLL_EXP CxImage
-{
-//extensible information collector
-typedef struct tagCxImageInfo {
- uint32_t dwEffWidth; ///< uint32_t aligned scan line width
- uint8_t* pImage; ///< THE IMAGE BITS
- CxImage* pGhost; ///< if this is a ghost, pGhost points to the body
- CxImage* pParent; ///< if this is a layer, pParent points to the body
- uint32_t dwType; ///< original image format
- char szLastError[256]; ///< debugging
- int32_t nProgress; ///< monitor
- int32_t nEscape; ///< escape
- int32_t nBkgndIndex; ///< used for GIF, PNG, MNG
- RGBQUAD nBkgndColor; ///< used for RGB transparency
- float fQuality; ///< used for JPEG, JPEG2000 (0.0f ... 100.0f)
- uint8_t nJpegScale; ///< used for JPEG [ignacio]
- int32_t nFrame; ///< used for TIF, GIF, MNG : actual frame
- int32_t nNumFrames; ///< used for TIF, GIF, MNG : total number of frames
- uint32_t dwFrameDelay; ///< used for GIF, MNG
- int32_t xDPI; ///< horizontal resolution
- int32_t yDPI; ///< vertical resolution
- RECT rSelectionBox; ///< bounding rectangle
- uint8_t nAlphaMax; ///< max opacity (fade)
- bool bAlphaPaletteEnabled; ///< true if alpha values in the palette are enabled.
- bool bEnabled; ///< enables the painting functions
- int32_t xOffset;
- int32_t yOffset;
- uint32_t dwCodecOpt[CMAX_IMAGE_FORMATS]; ///< for GIF, TIF : 0=def.1=unc,2=fax3,3=fax4,4=pack,5=jpg
- RGBQUAD last_c; ///< for GetNearestIndex optimization
- uint8_t last_c_index;
- bool last_c_isvalid;
- int32_t nNumLayers;
- uint32_t dwFlags; ///< 0x??00000 = reserved, 0x00??0000 = blend mode, 0x0000???? = layer id - user flags
- uint8_t dispmeth;
- bool bGetAllFrames;
- bool bLittleEndianHost;
-
-#if CXIMAGE_SUPPORT_EXIF
- EXIFINFO ExifInfo;
-#endif
-
-} CXIMAGEINFO;
-
-public:
- //public structures
-struct rgb_color { uint8_t r,g,b; };
-
-#if CXIMAGE_SUPPORT_WINDOWS
-// <VATI> text placement data
-// members must be initialized with the InitTextInfo(&this) function.
-typedef struct tagCxTextInfo
-{
-#if defined (_WIN32_WCE)
- TCHAR text[256]; ///< text for windows CE
-#else
- TCHAR text[4096]; ///< text (char -> TCHAR for UNICODE [Cesar M])
-#endif
- LOGFONT lfont; ///< font and codepage data
- COLORREF fcolor; ///< foreground color
- int32_t align; ///< DT_CENTER, DT_RIGHT, DT_LEFT aligment for multiline text
- uint8_t smooth; ///< text smoothing option. Default is false.
- uint8_t opaque; ///< text has background or hasn't. Default is true.
- ///< data for background (ignored if .opaque==FALSE)
- COLORREF bcolor; ///< background color
- float b_opacity; ///< opacity value for background between 0.0-1.0 Default is 0. (opaque)
- uint8_t b_outline; ///< outline width for background (zero: no outline)
- uint8_t b_round; ///< rounding radius for background rectangle. % of the height, between 0-50. Default is 10.
- ///< (backgr. always has a frame: width = 3 pixel + 10% of height by default.)
-} CXTEXTINFO;
-#endif
-
-public:
-/** \addtogroup Constructors */ //@{
- CxImage(uint32_t imagetype = 0);
- CxImage(uint32_t dwWidth, uint32_t dwHeight, uint32_t wBpp, uint32_t imagetype = 0);
- CxImage(const CxImage &src, bool copypixels = true, bool copyselection = true, bool copyalpha = true);
-#if CXIMAGE_SUPPORT_DECODE
- CxImage(const TCHAR * filename, uint32_t imagetype); // For UNICODE support: char -> TCHAR
- CxImage(FILE * stream, uint32_t imagetype);
- CxImage(CxFile * stream, uint32_t imagetype);
- CxImage(uint8_t * buffer, uint32_t size, uint32_t imagetype);
-#endif
- virtual ~CxImage() { DestroyFrames(); Destroy(); };
- CxImage& operator = (const CxImage&);
-//@}
-
-/** \addtogroup Initialization */ //@{
- void* Create(uint32_t dwWidth, uint32_t dwHeight, uint32_t wBpp, uint32_t imagetype = 0);
- bool Destroy();
- bool DestroyFrames();
- void Clear(uint8_t bval=0);
- void Copy(const CxImage &src, bool copypixels = true, bool copyselection = true, bool copyalpha = true);
- bool Transfer(CxImage &from, bool bTransferFrames = true);
- bool CreateFromArray(uint8_t* pArray,uint32_t dwWidth,uint32_t dwHeight,uint32_t dwBitsperpixel, uint32_t dwBytesperline, bool bFlipImage);
- bool CreateFromMatrix(uint8_t** ppMatrix,uint32_t dwWidth,uint32_t dwHeight,uint32_t dwBitsperpixel, uint32_t dwBytesperline, bool bFlipImage);
- void FreeMemory(void* memblock);
-
- uint32_t Dump(uint8_t * dst);
- uint32_t UnDump(const uint8_t * src);
- uint32_t DumpSize();
-
-//@}
-
-/** \addtogroup Attributes */ //@{
- int32_t GetSize();
- uint8_t* GetBits(uint32_t row = 0);
- uint8_t GetColorType();
- void* GetDIB() const;
- uint32_t GetHeight() const;
- uint32_t GetWidth() const;
- uint32_t GetEffWidth() const;
- uint32_t GetNumColors() const;
- uint16_t GetBpp() const;
- uint32_t GetType() const;
- const char* GetLastError();
- static const TCHAR* GetVersion();
- static const float GetVersionNumber();
-
- uint32_t GetFrameDelay() const;
- void SetFrameDelay(uint32_t d);
-
- void GetOffset(int32_t *x,int32_t *y);
- void SetOffset(int32_t x,int32_t y);
-
- uint8_t GetJpegQuality() const;
- void SetJpegQuality(uint8_t q);
- float GetJpegQualityF() const;
- void SetJpegQualityF(float q);
-
- uint8_t GetJpegScale() const;
- void SetJpegScale(uint8_t q);
-
-#if CXIMAGE_SUPPORT_EXIF
- EXIFINFO *GetExifInfo() {return &info.ExifInfo;};
- bool GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t imageType);
- #if CXIMAGE_SUPPORT_TRANSFORMATION
- bool RotateExif(int32_t orientation = 0);
- #endif
-#endif
-
- int32_t GetXDPI() const;
- int32_t GetYDPI() const;
- void SetXDPI(int32_t dpi);
- void SetYDPI(int32_t dpi);
-
- uint32_t GetClrImportant() const;
- void SetClrImportant(uint32_t ncolors = 0);
-
- int32_t GetProgress() const;
- int32_t GetEscape() const;
- void SetProgress(int32_t p);
- void SetEscape(int32_t i);
-
- int32_t GetTransIndex() const;
- RGBQUAD GetTransColor();
- void SetTransIndex(int32_t idx);
- void SetTransColor(RGBQUAD rgb);
- bool IsTransparent() const;
-
- uint32_t GetCodecOption(uint32_t imagetype = 0);
- bool SetCodecOption(uint32_t opt, uint32_t imagetype = 0);
-
- uint32_t GetFlags() const;
- void SetFlags(uint32_t flags, bool bLockReservedFlags = true);
-
- uint8_t GetDisposalMethod() const;
- void SetDisposalMethod(uint8_t dm);
-
- bool SetType(uint32_t type);
-
- static uint32_t GetNumTypes();
- static uint32_t GetTypeIdFromName(const TCHAR* ext);
- static uint32_t GetTypeIdFromIndex(const uint32_t index);
- static uint32_t GetTypeIndexFromId(const uint32_t id);
-
- bool GetRetreiveAllFrames() const;
- void SetRetreiveAllFrames(bool flag);
- CxImage * GetFrame(int32_t nFrame) const;
-
- //void* GetUserData() const {return info.pUserData;}
- //void SetUserData(void* pUserData) {info.pUserData = pUserData;}
-//@}
-
-/** \addtogroup Palette
- * These functions have no effects on RGB images and in this case the returned value is always 0.
- * @{ */
- bool IsGrayScale();
- bool IsIndexed() const;
- bool IsSamePalette(CxImage &img, bool bCheckAlpha = true);
- uint32_t GetPaletteSize();
- RGBQUAD* GetPalette() const;
- RGBQUAD GetPaletteColor(uint8_t idx);
- bool GetPaletteColor(uint8_t i, uint8_t* r, uint8_t* g, uint8_t* b);
- uint8_t GetNearestIndex(RGBQUAD c);
- void BlendPalette(COLORREF cr,int32_t perc);
- void SetGrayPalette();
- void SetPalette(uint32_t n, uint8_t *r, uint8_t *g, uint8_t *b);
- void SetPalette(RGBQUAD* pPal,uint32_t nColors=256);
- void SetPalette(rgb_color *rgb,uint32_t nColors=256);
- void SetPaletteColor(uint8_t idx, uint8_t r, uint8_t g, uint8_t b, uint8_t alpha=0);
- void SetPaletteColor(uint8_t idx, RGBQUAD c);
- void SetPaletteColor(uint8_t idx, COLORREF cr);
- void SwapIndex(uint8_t idx1, uint8_t idx2);
- void SwapRGB2BGR();
- void SetStdPalette();
-//@}
-
-/** \addtogroup Pixel */ //@{
- bool IsInside(int32_t x, int32_t y);
- bool IsTransparent(int32_t x,int32_t y);
- bool GetTransparentMask(CxImage* iDst = 0);
- RGBQUAD GetPixelColor(int32_t x,int32_t y, bool bGetAlpha = true);
- uint8_t GetPixelIndex(int32_t x,int32_t y);
- uint8_t GetPixelGray(int32_t x, int32_t y);
- void SetPixelColor(int32_t x,int32_t y,RGBQUAD c, bool bSetAlpha = false);
- void SetPixelColor(int32_t x,int32_t y,COLORREF cr);
- void SetPixelIndex(int32_t x,int32_t y,uint8_t i);
- void DrawLine(int32_t StartX, int32_t EndX, int32_t StartY, int32_t EndY, RGBQUAD color, bool bSetAlpha=false);
- void DrawLine(int32_t StartX, int32_t EndX, int32_t StartY, int32_t EndY, COLORREF cr);
- void BlendPixelColor(int32_t x,int32_t y,RGBQUAD c, float blend, bool bSetAlpha = false);
-//@}
-
-protected:
-/** \addtogroup Protected */ //@{
- uint8_t BlindGetPixelIndex(const int32_t x,const int32_t y);
- RGBQUAD BlindGetPixelColor(const int32_t x,const int32_t y, bool bGetAlpha = true);
- void *BlindGetPixelPointer(const int32_t x,const int32_t y);
- void BlindSetPixelColor(int32_t x,int32_t y,RGBQUAD c, bool bSetAlpha = false);
- void BlindSetPixelIndex(int32_t x,int32_t y,uint8_t i);
-//@}
-
-public:
-
-#if CXIMAGE_SUPPORT_INTERPOLATION
-/** \addtogroup Interpolation */ //@{
- //overflow methods:
- enum OverflowMethod {
- OM_COLOR=1,
- OM_BACKGROUND=2,
- OM_TRANSPARENT=3,
- OM_WRAP=4,
- OM_REPEAT=5,
- OM_MIRROR=6
- };
- void OverflowCoordinates(float &x, float &y, OverflowMethod const ofMethod);
- void OverflowCoordinates(int32_t &x, int32_t &y, OverflowMethod const ofMethod);
- RGBQUAD GetPixelColorWithOverflow(int32_t x, int32_t y, OverflowMethod const ofMethod=OM_BACKGROUND, RGBQUAD* const rplColor=0);
- //interpolation methods:
- enum InterpolationMethod {
- IM_NEAREST_NEIGHBOUR=1,
- IM_BILINEAR =2,
- IM_BSPLINE =3,
- IM_BICUBIC =4,
- IM_BICUBIC2 =5,
- IM_LANCZOS =6,
- IM_BOX =7,
- IM_HERMITE =8,
- IM_HAMMING =9,
- IM_SINC =10,
- IM_BLACKMAN =11,
- IM_BESSEL =12,
- IM_GAUSSIAN =13,
- IM_QUADRATIC =14,
- IM_MITCHELL =15,
- IM_CATROM =16,
- IM_HANNING =17,
- IM_POWER =18
- };
- RGBQUAD GetPixelColorInterpolated(float x,float y, InterpolationMethod const inMethod=IM_BILINEAR, OverflowMethod const ofMethod=OM_BACKGROUND, RGBQUAD* const rplColor=0);
- RGBQUAD GetAreaColorInterpolated(float const xc, float const yc, float const w, float const h, InterpolationMethod const inMethod, OverflowMethod const ofMethod=OM_BACKGROUND, RGBQUAD* const rplColor=0);
-//@}
-
-protected:
-/** \addtogroup Protected */ //@{
- void AddAveragingCont(RGBQUAD const &color, float const surf, float &rr, float &gg, float &bb, float &aa);
-//@}
-
-/** \addtogroup Kernels */ //@{
-public:
- static float KernelBSpline(const float x);
- static float KernelLinear(const float t);
- static float KernelCubic(const float t);
- static float KernelGeneralizedCubic(const float t, const float a=-1);
- static float KernelLanczosSinc(const float t, const float r = 3);
- static float KernelBox(const float x);
- static float KernelHermite(const float x);
- static float KernelHamming(const float x);
- static float KernelSinc(const float x);
- static float KernelBlackman(const float x);
- static float KernelBessel_J1(const float x);
- static float KernelBessel_P1(const float x);
- static float KernelBessel_Q1(const float x);
- static float KernelBessel_Order1(float x);
- static float KernelBessel(const float x);
- static float KernelGaussian(const float x);
- static float KernelQuadratic(const float x);
- static float KernelMitchell(const float x);
- static float KernelCatrom(const float x);
- static float KernelHanning(const float x);
- static float KernelPower(const float x, const float a = 2);
-//@}
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
-
-/** \addtogroup Painting */ //@{
-#if CXIMAGE_SUPPORT_WINDOWS
- int32_t Blt(HDC pDC, int32_t x=0, int32_t y=0);
- HBITMAP Draw2HBITMAP(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth);
- HBITMAP MakeBitmap(HDC hdc = NULL, bool bTransparency = false);
- HICON MakeIcon(HDC hdc = NULL, bool bTransparency = false);
- HANDLE CopyToHandle();
- bool CreateFromHANDLE(HANDLE hMem); //Windows objects (clipboard)
- bool CreateFromHBITMAP(HBITMAP hbmp, HPALETTE hpal=0, bool bTransparency = false); //Windows resource
- bool CreateFromHICON(HICON hico, bool bTransparency = false);
- int32_t Draw(HDC hdc, int32_t x=0, int32_t y=0, int32_t cx = -1, int32_t cy = -1, RECT* pClipRect = 0, bool bSmooth = false, bool bFlipY = false);
- int32_t Draw(HDC hdc, const RECT& rect, RECT* pClipRect=NULL, bool bSmooth = false, bool bFlipY = false);
- int32_t Stretch(HDC hdc, int32_t xoffset, int32_t yoffset, int32_t xsize, int32_t ysize, uint32_t dwRop = SRCCOPY);
- int32_t Stretch(HDC hdc, const RECT& rect, uint32_t dwRop = SRCCOPY);
- int32_t Tile(HDC hdc, RECT *rc);
- int32_t Draw2(HDC hdc, int32_t x=0, int32_t y=0, int32_t cx = -1, int32_t cy = -1);
- int32_t Draw2(HDC hdc, const RECT& rect);
- //int32_t DrawString(HDC hdc, int32_t x, int32_t y, const char* text, RGBQUAD color, const char* font, int32_t lSize=0, int32_t lWeight=400, uint8_t bItalic=0, uint8_t bUnderline=0, bool bSetAlpha=false);
- int32_t DrawString(HDC hdc, int32_t x, int32_t y, const TCHAR* text, RGBQUAD color, const TCHAR* font, int32_t lSize=0, int32_t lWeight=400, uint8_t bItalic=0, uint8_t bUnderline=0, bool bSetAlpha=false);
- // <VATI> extensions
- int32_t DrawStringEx(HDC hdc, int32_t x, int32_t y, CXTEXTINFO *pTextType, bool bSetAlpha=false );
- void InitTextInfo( CXTEXTINFO *txt );
-protected:
- bool IsHBITMAPAlphaValid( HBITMAP hbmp );
-public:
-#endif //CXIMAGE_SUPPORT_WINDOWS
-//@}
-
- // file operations
-#if CXIMAGE_SUPPORT_DECODE
-/** \addtogroup Decode */ //@{
-#ifdef WIN32
- //bool Load(LPCWSTR filename, uint32_t imagetype=0);
- bool LoadResource(HRSRC hRes, uint32_t imagetype, HMODULE hModule=NULL);
-#endif
- // For UNICODE support: char -> TCHAR
- bool Load(const TCHAR* filename, uint32_t imagetype=0);
- //bool Load(const char * filename, uint32_t imagetype=0);
- bool Decode(FILE * hFile, uint32_t imagetype);
- bool Decode(CxFile * hFile, uint32_t imagetype);
- bool Decode(uint8_t * buffer, uint32_t size, uint32_t imagetype);
-
- bool CheckFormat(CxFile * hFile, uint32_t imagetype = 0);
- bool CheckFormat(uint8_t * buffer, uint32_t size, uint32_t imagetype = 0);
-//@}
-#endif //CXIMAGE_SUPPORT_DECODE
-
-#if CXIMAGE_SUPPORT_ENCODE
-protected:
-/** \addtogroup Protected */ //@{
- bool EncodeSafeCheck(CxFile *hFile);
-//@}
-
-public:
-/** \addtogroup Encode */ //@{
-#ifdef WIN32
- //bool Save(LPCWSTR filename, uint32_t imagetype=0);
-#endif
- // For UNICODE support: char -> TCHAR
- bool Save(const TCHAR* filename, uint32_t imagetype);
- //bool Save(const char * filename, uint32_t imagetype=0);
- bool Encode(FILE * hFile, uint32_t imagetype);
- bool Encode(CxFile * hFile, uint32_t imagetype);
- bool Encode(CxFile * hFile, CxImage ** pImages, int32_t pagecount, uint32_t imagetype);
- bool Encode(FILE *hFile, CxImage ** pImages, int32_t pagecount, uint32_t imagetype);
- bool Encode(uint8_t * &buffer, int32_t &size, uint32_t imagetype);
-
- bool Encode2RGBA(CxFile *hFile, bool bFlipY = false);
- bool Encode2RGBA(uint8_t * &buffer, int32_t &size, bool bFlipY = false);
-//@}
-#endif //CXIMAGE_SUPPORT_ENCODE
-
-/** \addtogroup Attributes */ //@{
- //misc.
- bool IsValid() const;
- bool IsEnabled() const;
- void Enable(bool enable=true);
-
- // frame operations
- int32_t GetNumFrames() const;
- int32_t GetFrame() const;
- void SetFrame(int32_t nFrame);
-//@}
-
-#if CXIMAGE_SUPPORT_BASICTRANSFORMATIONS
-/** \addtogroup BasicTransformations */ //@{
- bool GrayScale();
- bool Flip(bool bFlipSelection = false, bool bFlipAlpha = true);
- bool Mirror(bool bMirrorSelection = false, bool bMirrorAlpha = true);
- bool Negative();
- bool RotateLeft(CxImage* iDst = NULL);
- bool RotateRight(CxImage* iDst = NULL);
- bool IncreaseBpp(uint32_t nbit);
-//@}
-#endif //CXIMAGE_SUPPORT_BASICTRANSFORMATIONS
-
-#if CXIMAGE_SUPPORT_TRANSFORMATION
-/** \addtogroup Transformations */ //@{
- // image operations
- bool Rotate(float angle, CxImage* iDst = NULL);
- bool Rotate2(float angle, CxImage *iDst = NULL, InterpolationMethod inMethod=IM_BILINEAR,
- OverflowMethod ofMethod=OM_BACKGROUND, RGBQUAD *replColor=0,
- bool const optimizeRightAngles=true, bool const bKeepOriginalSize=false);
- bool Rotate180(CxImage* iDst = NULL);
- bool Resample(int32_t newx, int32_t newy, int32_t mode = 1, CxImage* iDst = NULL);
- bool Resample2(int32_t newx, int32_t newy, InterpolationMethod const inMethod=IM_BICUBIC2,
- OverflowMethod const ofMethod=OM_REPEAT, CxImage* const iDst = NULL,
- bool const disableAveraging=false);
- bool DecreaseBpp(uint32_t nbit, bool errordiffusion, RGBQUAD* ppal = 0, uint32_t clrimportant = 0);
- bool Dither(int32_t method = 0);
- bool Crop(int32_t left, int32_t top, int32_t right, int32_t bottom, CxImage* iDst = NULL);
- bool Crop(const RECT& rect, CxImage* iDst = NULL);
- bool CropRotatedRectangle( int32_t topx, int32_t topy, int32_t width, int32_t height, float angle, CxImage* iDst = NULL);
- bool Skew(float xgain, float ygain, int32_t xpivot=0, int32_t ypivot=0, bool bEnableInterpolation = false);
- bool Expand(int32_t left, int32_t top, int32_t right, int32_t bottom, RGBQUAD canvascolor, CxImage* iDst = 0);
- bool Expand(int32_t newx, int32_t newy, RGBQUAD canvascolor, CxImage* iDst = 0);
- bool Thumbnail(int32_t newx, int32_t newy, RGBQUAD canvascolor, CxImage* iDst = 0);
- bool CircleTransform(int32_t type,int32_t rmax=0,float Koeff=1.0f);
- bool QIShrink(int32_t newx, int32_t newy, CxImage* const iDst = NULL, bool bChangeBpp = false);
-
-//@}
-#endif //CXIMAGE_SUPPORT_TRANSFORMATION
-
-#if CXIMAGE_SUPPORT_DSP
-/** \addtogroup DSP */ //@{
- bool Contour();
- bool HistogramStretch(int32_t method = 0, double threshold = 0);
- bool HistogramEqualize();
- bool HistogramNormalize();
- bool HistogramRoot();
- bool HistogramLog();
- int32_t Histogram(int32_t* red, int32_t* green = 0, int32_t* blue = 0, int32_t* gray = 0, int32_t colorspace = 0);
- bool Jitter(int32_t radius=2);
- bool Repair(float radius = 0.25f, int32_t niterations = 1, int32_t colorspace = 0);
- bool Combine(CxImage* r,CxImage* g,CxImage* b,CxImage* a, int32_t colorspace = 0);
- bool FFT2(CxImage* srcReal, CxImage* srcImag, CxImage* dstReal, CxImage* dstImag, int32_t direction = 1, bool bForceFFT = true, bool bMagnitude = true);
- bool Noise(int32_t level);
- bool Median(int32_t Ksize=3);
- bool Gamma(float gamma);
- bool GammaRGB(float gammaR, float gammaG, float gammaB);
- bool ShiftRGB(int32_t r, int32_t g, int32_t b);
- bool Threshold(uint8_t level);
- bool Threshold(CxImage* pThresholdMask);
- bool Threshold2(uint8_t level, bool bDirection, RGBQUAD nBkgndColor, bool bSetAlpha = false);
- bool Colorize(uint8_t hue, uint8_t sat, float blend = 1.0f);
- bool Light(int32_t brightness, int32_t contrast = 0);
- float Mean();
- bool Filter(int32_t* kernel, int32_t Ksize, int32_t Kfactor, int32_t Koffset);
- bool Erode(int32_t Ksize=2);
- bool Dilate(int32_t Ksize=2);
- bool Edge(int32_t Ksize=2);
- void HuePalette(float correction=1);
- enum ImageOpType { OpAdd, OpAnd, OpXor, OpOr, OpMask, OpSrcCopy, OpDstCopy, OpSub, OpSrcBlend, OpScreen, OpAvg, OpBlendAlpha };
- void Mix(CxImage & imgsrc2, ImageOpType op, int32_t lXOffset = 0, int32_t lYOffset = 0, bool bMixAlpha = false);
- void MixFrom(CxImage & imagesrc2, int32_t lXOffset, int32_t lYOffset);
- bool UnsharpMask(float radius = 5.0f, float amount = 0.5f, int32_t threshold = 0);
- bool Lut(uint8_t* pLut);
- bool Lut(uint8_t* pLutR, uint8_t* pLutG, uint8_t* pLutB, uint8_t* pLutA = 0);
- bool GaussianBlur(float radius = 1.0f, CxImage* iDst = 0);
- bool TextBlur(uint8_t threshold = 100, uint8_t decay = 2, uint8_t max_depth = 5, bool bBlurHorizontal = true, bool bBlurVertical = true, CxImage* iDst = 0);
- bool SelectiveBlur(float radius = 1.0f, uint8_t threshold = 25, CxImage* iDst = 0);
- bool Solarize(uint8_t level = 128, bool bLinkedChannels = true);
- bool FloodFill(const int32_t xStart, const int32_t yStart, const RGBQUAD cFillColor, const uint8_t tolerance = 0,
- uint8_t nOpacity = 255, const bool bSelectFilledArea = false, const uint8_t nSelectionLevel = 255);
- bool Saturate(const int32_t saturation, const int32_t colorspace = 1);
- bool ConvertColorSpace(const int32_t dstColorSpace, const int32_t srcColorSpace);
- int32_t OptimalThreshold(int32_t method = 0, RECT * pBox = 0, CxImage* pContrastMask = 0);
- bool AdaptiveThreshold(int32_t method = 0, int32_t nBoxSize = 64, CxImage* pContrastMask = 0, int32_t nBias = 0, float fGlobalLocalBalance = 0.5f);
- bool RedEyeRemove(float strength = 0.8f);
- bool Trace(RGBQUAD color_target, RGBQUAD color_trace);
-
-//@}
-
-protected:
-/** \addtogroup Protected */ //@{
- bool IsPowerof2(int32_t x);
- bool FFT(int32_t dir,int32_t m,double *x,double *y);
- bool DFT(int32_t dir,int32_t m,double *x1,double *y1,double *x2,double *y2);
- bool RepairChannel(CxImage *ch, float radius);
- // <nipper>
- int32_t gen_convolve_matrix (float radius, float **cmatrix_p);
- float* gen_lookup_table (float *cmatrix, int32_t cmatrix_length);
- void blur_line (float *ctable, float *cmatrix, int32_t cmatrix_length, uint8_t* cur_col, uint8_t* dest_col, int32_t y, int32_t bytes);
- void blur_text (uint8_t threshold, uint8_t decay, uint8_t max_depth, CxImage* iSrc, CxImage* iDst, uint8_t bytes);
-//@}
-
-public:
-/** \addtogroup ColorSpace */ //@{
- bool SplitRGB(CxImage* r,CxImage* g,CxImage* b);
- bool SplitYUV(CxImage* y,CxImage* u,CxImage* v);
- bool SplitHSL(CxImage* h,CxImage* s,CxImage* l);
- bool SplitYIQ(CxImage* y,CxImage* i,CxImage* q);
- bool SplitXYZ(CxImage* x,CxImage* y,CxImage* z);
- bool SplitCMYK(CxImage* c,CxImage* m,CxImage* y,CxImage* k);
- static RGBQUAD HSLtoRGB(COLORREF cHSLColor);
- static RGBQUAD RGBtoHSL(RGBQUAD lRGBColor);
- static RGBQUAD HSLtoRGB(RGBQUAD lHSLColor);
- static RGBQUAD YUVtoRGB(RGBQUAD lYUVColor);
- static RGBQUAD RGBtoYUV(RGBQUAD lRGBColor);
- static RGBQUAD YIQtoRGB(RGBQUAD lYIQColor);
- static RGBQUAD RGBtoYIQ(RGBQUAD lRGBColor);
- static RGBQUAD XYZtoRGB(RGBQUAD lXYZColor);
- static RGBQUAD RGBtoXYZ(RGBQUAD lRGBColor);
-#endif //CXIMAGE_SUPPORT_DSP
- static RGBQUAD RGBtoRGBQUAD(COLORREF cr);
- static COLORREF RGBQUADtoRGB (RGBQUAD c);
-//@}
-
-/** \addtogroup Selection */ //@{
- bool SelectionIsValid();
-#if CXIMAGE_SUPPORT_SELECTION
- bool SelectionClear(uint8_t level = 0);
- bool SelectionCreate();
- bool SelectionDelete();
- bool SelectionInvert();
- bool SelectionMirror();
- bool SelectionFlip();
- bool SelectionAddRect(RECT r, uint8_t level = 255);
- bool SelectionAddEllipse(RECT r, uint8_t level = 255);
- bool SelectionAddPolygon(POINT *points, int32_t npoints, uint8_t level = 255);
- bool SelectionAddColor(RGBQUAD c, uint8_t level = 255);
- bool SelectionAddPixel(int32_t x, int32_t y, uint8_t level = 255);
- bool SelectionCopy(CxImage &from);
- bool SelectionIsInside(int32_t x, int32_t y);
- void SelectionGetBox(RECT& r);
- bool SelectionToHRGN(HRGN& region);
- bool SelectionSplit(CxImage *dest);
- uint8_t SelectionGet(const int32_t x,const int32_t y);
- bool SelectionSet(CxImage &from);
- void SelectionRebuildBox();
- uint8_t* SelectionGetPointer(const int32_t x = 0,const int32_t y = 0);
-//@}
-
-protected:
-/** \addtogroup Protected */ //@{
- bool BlindSelectionIsInside(int32_t x, int32_t y);
- uint8_t BlindSelectionGet(const int32_t x,const int32_t y);
- void SelectionSet(const int32_t x,const int32_t y,const uint8_t level);
-
-public:
-
-#endif //CXIMAGE_SUPPORT_SELECTION
-//@}
-
-#if CXIMAGE_SUPPORT_ALPHA
-/** \addtogroup Alpha */ //@{
- void AlphaClear();
- bool AlphaCreate();
- void AlphaDelete();
- void AlphaInvert();
- bool AlphaMirror();
- bool AlphaFlip();
- bool AlphaCopy(CxImage &from);
- bool AlphaSplit(CxImage *dest);
- void AlphaStrip();
- void AlphaSet(uint8_t level);
- bool AlphaSet(CxImage &from);
- void AlphaSet(const int32_t x,const int32_t y,const uint8_t level);
- uint8_t AlphaGet(const int32_t x,const int32_t y);
- uint8_t AlphaGetMax() const;
- void AlphaSetMax(uint8_t nAlphaMax);
- bool AlphaIsValid();
- uint8_t* AlphaGetPointer(const int32_t x = 0,const int32_t y = 0);
- bool AlphaFromTransparency();
-
- void AlphaPaletteClear();
- void AlphaPaletteEnable(bool enable=true);
- bool AlphaPaletteIsEnabled();
- bool AlphaPaletteIsValid();
- bool AlphaPaletteSplit(CxImage *dest);
-//@}
-
-protected:
-/** \addtogroup Protected */ //@{
- uint8_t BlindAlphaGet(const int32_t x,const int32_t y);
-//@}
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-public:
-#if CXIMAGE_SUPPORT_LAYERS
-/** \addtogroup Layers */ //@{
- bool LayerCreate(int32_t position = -1);
- bool LayerDelete(int32_t position = -1);
- void LayerDeleteAll();
- CxImage* GetLayer(int32_t position);
- CxImage* GetParent() const;
- int32_t GetNumLayers() const;
- int32_t LayerDrawAll(HDC hdc, int32_t x=0, int32_t y=0, int32_t cx = -1, int32_t cy = -1, RECT* pClipRect = 0, bool bSmooth = false);
- int32_t LayerDrawAll(HDC hdc, const RECT& rect, RECT* pClipRect=NULL, bool bSmooth = false);
-//@}
-#endif //CXIMAGE_SUPPORT_LAYERS
-
-protected:
-/** \addtogroup Protected */ //@{
- void Startup(uint32_t imagetype = 0);
- void CopyInfo(const CxImage &src);
- void Ghost(const CxImage *src);
- void RGBtoBGR(uint8_t *buffer, int32_t length);
- static float HueToRGB(float n1,float n2, float hue);
- void Bitfield2RGB(uint8_t *src, uint32_t redmask, uint32_t greenmask, uint32_t bluemask, uint8_t bpp);
- static int32_t CompareColors(const void *elem1, const void *elem2);
- int16_t m_ntohs(const int16_t word);
- int32_t m_ntohl(const int32_t dword);
- void bihtoh(BITMAPINFOHEADER* bih);
-
- void* pDib; //contains the header, the palette, the pixels
- BITMAPINFOHEADER head; //standard header
- CXIMAGEINFO info; //extended information
- uint8_t* pSelection; //selected region
- uint8_t* pAlpha; //alpha channel
- CxImage** ppLayers; //generic layers
- CxImage** ppFrames;
-//@}
-};
-
-////////////////////////////////////////////////////////////////////////////
-#endif // !defined(__CXIMAGE_H)
diff --git a/hge/CxImage/ximagif.cpp b/hge/CxImage/ximagif.cpp deleted file mode 100644 index 8c94b9e..0000000 --- a/hge/CxImage/ximagif.cpp +++ /dev/null @@ -1,1681 +0,0 @@ -/*
- * File: ximagif.cpp
- * Purpose: Platform Independent GIF Image Class Loader and Writer
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximagif.h"
-
-#if CXIMAGE_SUPPORT_GIF
-
-#include "ximaiter.h"
-
-#if defined (_WIN32_WCE)
- #define assert(s)
-#else
- #include <assert.h>
-#endif
-
-////////////////////////////////////////////////////////////////////////////////
-CxImageGIF::CxImageGIF(): CxImage(CXIMAGE_FORMAT_GIF)
-{
- buf = new uint8_t [GIFBUFTAM + 1];
-
- stack = new uint8_t [MAX_CODES + 1];
- suffix = new uint8_t [MAX_CODES + 1];
- prefix = new uint16_t [MAX_CODES + 1];
-
- htab = new int32_t [HSIZE];
- codetab = new uint16_t [HSIZE];
-
- byte_buff = new uint8_t [257];
- accum = new char [256];
- m_comment = new char [256];
-
- m_loops=0;
- info.dispmeth=0;
- m_comment[0]='\0';
-
-}
-////////////////////////////////////////////////////////////////////////////////
-CxImageGIF::~CxImageGIF()
-{
- delete [] buf;
-
- delete [] stack;
- delete [] suffix;
- delete [] prefix;
-
- delete [] htab;
- delete [] codetab;
-
- delete [] byte_buff;
- delete [] accum;
- delete [] m_comment;
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageGIF::Decode(CxFile *fp)
-{
- /* AD - for transparency */
- struct_dscgif dscgif;
- struct_image image;
- struct_TabCol TabCol;
-
- if (fp == NULL) return false;
-
- fp->Read(&dscgif,/*sizeof(dscgif)*/13,1);
- //if (strncmp(dscgif.header,"GIF8",3)!=0) {
- if (strncmp(dscgif.header,"GIF8",4)!=0) return FALSE;
-
- // Avoid Byte order problem with Mac <AMSN>
- dscgif.scrheight = m_ntohs(dscgif.scrheight);
- dscgif.scrwidth = m_ntohs(dscgif.scrwidth);
-
- if (info.nEscape == -1) {
- // Return output dimensions only
- head.biWidth = dscgif.scrwidth;
- head.biHeight = dscgif.scrheight;
- info.dwType = CXIMAGE_FORMAT_GIF;
- return true;
- }
-
- /* AD - for interlace */
- TabCol.sogct = (int16_t)(1 << ((dscgif.pflds & 0x07)+1));
- TabCol.colres = (int16_t)(((dscgif.pflds & 0x70) >> 4) + 1);
-
- // assume that the image is a truecolor-gif if
- // 1) no global color map found
- // 2) (image.w, image.h) of the 1st image != (dscgif.scrwidth, dscgif.scrheight)
- int32_t bTrueColor=0;
- CxImage* imaRGB=NULL;
-
- // Global colour map?
- if (dscgif.pflds & 0x80)
- fp->Read(TabCol.paleta,sizeof(struct rgb_color)*TabCol.sogct,1);
- else
- bTrueColor++; //first chance for a truecolor gif
-
- int32_t first_transparent_index = 0;
-
- int32_t iImage = 0;
- info.nNumFrames=get_num_frames(fp,&TabCol,&dscgif);
-
- if ((info.nFrame<0)||(info.nFrame>=info.nNumFrames)) return false;
-
- //it cannot be a true color GIF with only one frame
- if (info.nNumFrames == 1)
- bTrueColor=0;
-
- char ch;
- bool bPreviousWasNull = true;
- int32_t prevdispmeth = 0;
- CxImage *previousFrame = NULL;
-
- for (BOOL bContinue = TRUE; bContinue; )
- {
- if (fp->Read(&ch, sizeof(ch), 1) != 1) {break;}
-
- if (info.nEscape > 0) return false; // <vho> - cancel decoding
- if (bPreviousWasNull || ch==0)
- {
- switch (ch)
- {
- case '!': // extension
- {
- bContinue = DecodeExtension(fp);
- break;
- }
- case ',': // image
- {
- assert(sizeof(image) == 9);
- fp->Read(&image,sizeof(image),1);
- //avoid byte order problems with Solaris <candan> <AMSN>
- image.l = m_ntohs(image.l);
- image.t = m_ntohs(image.t);
- image.w = m_ntohs(image.w);
- image.h = m_ntohs(image.h);
-
- if (((image.l + image.w) > dscgif.scrwidth)||((image.t + image.h) > dscgif.scrheight))
- break;
-
- // check if it could be a truecolor gif
- if ((iImage==0) && (image.w != dscgif.scrwidth) && (image.h != dscgif.scrheight))
- bTrueColor++;
-
- rgb_color locpal[256]; //Local Palette
- rgb_color* pcurpal = TabCol.paleta; //Current Palette
- int16_t palcount = TabCol.sogct; //Current Palette color count
-
- // Local colour map?
- if (image.pf & 0x80) {
- palcount = (int16_t)(1 << ((image.pf & 0x07) +1));
- assert(3 == sizeof(struct rgb_color));
- fp->Read(locpal,sizeof(struct rgb_color)*palcount,1);
- pcurpal = locpal;
- }
-
- int32_t bpp; //<DP> select the correct bit per pixel value
- if (palcount <= 2) bpp = 1;
- else if (palcount <= 16) bpp = 4;
- else bpp = 8;
-
- CxImageGIF backimage;
- backimage.CopyInfo(*this);
- if (iImage==0){
- //first frame: build image background
- backimage.Create(dscgif.scrwidth, dscgif.scrheight, bpp, CXIMAGE_FORMAT_GIF);
- first_transparent_index = info.nBkgndIndex;
- backimage.Clear((uint8_t)gifgce.transpcolindex);
- previousFrame = new CxImage(backimage);
- previousFrame->SetRetreiveAllFrames(false);
- } else {
- //generic frame: handle disposal method from previous one
- /*Values : 0 - No disposal specified. The decoder is
- not required to take any action.
- 1 - Do not dispose. The graphic is to be left
- in place.
- 2 - Restore to background color. The area used by the
- graphic must be restored to the background color.
- 3 - Restore to previous. The decoder is required to
- restore the area overwritten by the graphic with
- what was there prior to rendering the graphic.
- */
- /* backimage.Copy(*this);
- if (prevdispmeth==2){
- backimage.Clear((uint8_t)first_transparent_index);
- }*/
- if (prevdispmeth==2){
- backimage.Copy(*this,false,false,false);
- backimage.Clear((uint8_t)first_transparent_index);
- } else if (prevdispmeth==3) {
- backimage.Copy(*this,false,false,false);
- backimage.Create(previousFrame->GetWidth(),
- previousFrame->GetHeight(),
- previousFrame->GetBpp(),CXIMAGE_FORMAT_GIF);
- memcpy(backimage.GetDIB(),previousFrame->GetDIB(),
- backimage.GetSize());
- //backimage.AlphaSet(*previousFrame);
- } else {
- backimage.Copy(*this);
- }
- }
-
- //active frame
- Create(image.w, image.h, bpp, CXIMAGE_FORMAT_GIF);
-
- if ((image.pf & 0x80) || (dscgif.pflds & 0x80)) {
- uint8_t r[256], g[256], b[256];
- int32_t i;//, has_white = 0;
-
- for (i=0; i < palcount; i++) {
- r[i] = pcurpal[i].r;
- g[i] = pcurpal[i].g;
- b[i] = pcurpal[i].b;
- //if (RGB(r[i],g[i],b[i]) == 0xFFFFFF) has_white = 1;
- }
-
- // Force transparency colour white...
- //if (0) if (info.nBkgndIndex >= 0)
- // r[info.nBkgndIndex] = g[info.nBkgndIndex] = b[info.nBkgndIndex] = 255;
- // Fill in with white // AD
- if (info.nBkgndIndex >= 0) {
- while (i < 256) {
- //has_white = 1;
- r[i] = g[i] = b[i] = 255;
- i++;
- }
- }
-
- // Force last colour to white... // AD
- //if ((info.nBkgndIndex >= 0) && !has_white) {
- // r[255] = g[255] = b[255] = 255;
- //}
-
- SetPalette((info.nBkgndIndex >= 0 ? 256 : palcount), r, g, b);
- }
-
- CImageIterator* iter = new CImageIterator(this);
- iter->Upset();
- int32_t badcode=0;
- ibf = GIFBUFTAM+1;
-
- interlaced = image.pf & 0x40;
- iheight = image.h;
- istep = 8;
- iypos = 0;
- ipass = 0;
-
- int32_t pos_start = fp->Tell();
- //if (interlaced) log << "Interlaced" << endl;
- decoder(fp, iter, image.w, badcode);
- delete iter;
-
- if (info.nEscape) return false; // <vho> - cancel decoding
-
- if (bTrueColor<2 ){ //standard GIF: mix frame with background
- backimage.IncreaseBpp(bpp);
- backimage.GifMix(*this,image);
- backimage.SetTransIndex(first_transparent_index);
- backimage.SetPalette(GetPalette());
- Transfer(backimage,false);
- } else { //it's a truecolor gif!
- //force full image decoding
- info.nFrame=info.nNumFrames-1;
- //build the RGB image
- if (imaRGB==NULL) imaRGB = new CxImage(dscgif.scrwidth,dscgif.scrheight,24,CXIMAGE_FORMAT_GIF);
- //copy the partial image into the full RGB image
- for(int32_t y=0;y<image.h;y++){
- for (int32_t x=0;x<image.w;x++){
- imaRGB->SetPixelColor(x+image.l,dscgif.scrheight-1-image.t-y,GetPixelColor(x,image.h-y-1));
- }
- }
- }
-
- prevdispmeth = (gifgce.flags >> 2) & 0x7;
-
- //restore the correct position in the file for the next image
- if (badcode){
- seek_next_image(fp,pos_start);
- } else {
- fp->Seek(-(ibfmax - ibf - 1), SEEK_CUR);
- }
-
- if (info.bGetAllFrames && imaRGB == NULL) {
- if (iImage == 0) {
- DestroyFrames();
- ppFrames = new CxImage*[info.nNumFrames];
- for(int32_t frameIdx = 0; frameIdx < info.nNumFrames; frameIdx++){
- ppFrames[frameIdx] = NULL;
- }
- }
- ppFrames[iImage] = new CxImage(*this);
- ppFrames[iImage]->SetRetreiveAllFrames(false);
- }
- if (prevdispmeth <= 1) {
- delete previousFrame;
- previousFrame = new CxImage(*this);
- previousFrame->SetRetreiveAllFrames(false);
- }
-
- if ((info.nFrame==iImage) && (info.bGetAllFrames==false)) bContinue=false; else iImage++;
-
- break;
- }
- case ';': //terminator
- bContinue=false;
- break;
- default:
- bPreviousWasNull = (ch==0);
- break;
- }
- }
- }
-
- if (bTrueColor>=2 && imaRGB){
- if (gifgce.flags & 0x1){
- imaRGB->SetTransColor(GetPaletteColor((uint8_t)info.nBkgndIndex));
- imaRGB->SetTransIndex(0);
- }
- Transfer(*imaRGB);
- }
- delete imaRGB;
-
- delete previousFrame;
-
- return true;
-
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageGIF::DecodeExtension(CxFile *fp)
-{
- bool bContinue;
- uint8_t count;
- uint8_t fc;
-
- bContinue = (1 == fp->Read(&fc, sizeof(fc), 1));
- if (bContinue) {
- /* AD - for transparency */
- if (fc == 0xF9) {
- bContinue = (1 == fp->Read(&count, sizeof(count), 1));
- if (bContinue) {
- assert(sizeof(gifgce) == 4);
- bContinue = (count == fp->Read(&gifgce, 1, sizeof(gifgce)));
- gifgce.delaytime = m_ntohs(gifgce.delaytime); // Avoid Byte order problem with Mac <AMSN>
- if (bContinue) {
- info.nBkgndIndex = (gifgce.flags & 0x1) ? gifgce.transpcolindex : -1;
- info.dwFrameDelay = gifgce.delaytime;
- SetDisposalMethod((gifgce.flags >> 2) & 0x7);
- } } }
-
- if (fc == 0xFE) { //<DP> Comment block
- bContinue = (1 == fp->Read(&count, sizeof(count), 1));
- if (bContinue) {
- bContinue = (1 == fp->Read(m_comment, count, 1));
- m_comment[count]='\0';
- } }
-
- if (fc == 0xFF) { //<DP> Application Extension block
- bContinue = (1 == fp->Read(&count, sizeof(count), 1));
- if (bContinue) {
- bContinue = (count==11);
- if (bContinue){
- char AppID[11];
- bContinue = (1 == fp->Read(AppID, count, 1));
- if (bContinue) {
- bContinue = (1 == fp->Read(&count, sizeof(count), 1));
- if (bContinue) {
- uint8_t* dati = (uint8_t*)malloc(count);
- bContinue = (dati!=NULL);
- if (bContinue){
- bContinue = (1 == fp->Read(dati, count, 1));
- if (count>2){
- m_loops = dati[1]+256*dati[2];
- }
- }
- free(dati);
- } } } } }
-
- while (bContinue && fp->Read(&count, sizeof(count), 1) && count) {
- //log << "Skipping " << count << " bytes" << endl;
- fp->Seek(count, SEEK_CUR);
- }
- }
- return bContinue;
-
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-
-// - This external (machine specific) function is expected to return
-// either the next uint8_t from the GIF file, or a negative error number.
-int32_t CxImageGIF::get_byte(CxFile* file)
-{
- if (ibf>=GIFBUFTAM){
- // FW 06/02/98 >>>
- ibfmax = (int32_t)file->Read( buf , 1 , GIFBUFTAM) ;
- if( ibfmax < GIFBUFTAM ) buf[ ibfmax ] = 255 ;
- // FW 06/02/98 <<<
- ibf = 0;
- }
- if (ibf>=ibfmax) return -1; //<DP> avoid overflows
- return buf[ibf++];
-}
-////////////////////////////////////////////////////////////////////////////////
-/* - This function takes a full line of pixels (one uint8_t per pixel) and
- * displays them (or does whatever your program wants with them...). It
- * should return zero, or negative if an error or some other event occurs
- * which would require aborting the decode process... Note that the length
- * passed will almost always be equal to the line length passed to the
- * decoder function, with the sole exception occurring when an ending code
- * occurs in an odd place in the GIF file... In any case, linelen will be
- * equal to the number of pixels passed...
-*/
-int32_t CxImageGIF::out_line(CImageIterator* iter, uint8_t *pixels, int32_t linelen)
-{
- if (iter == NULL || pixels == NULL)
- return -1;
-
- //<DP> for 1 & 4 bpp images, the pixels are compressed
- if (head.biBitCount < 8){
- for(int32_t x=0;x<head.biWidth;x++){
- uint8_t pos;
- uint8_t* iDst= pixels + (x*head.biBitCount >> 3);
- if (head.biBitCount==4){
- pos = (uint8_t)(4*(1-x%2));
- *iDst &= ~(0x0F<<pos);
- *iDst |= ((pixels[x] & 0x0F)<<pos);
- } else if (head.biBitCount==1){
- pos = (uint8_t)(7-x%8);
- *iDst &= ~(0x01<<pos);
- *iDst |= ((pixels[x] & 0x01)<<pos);
- }
- }
- }
-
- /* AD - for interlace */
- if (interlaced) {
- iter->SetY(iheight-iypos-1);
- iter->SetRow(pixels, linelen);
-
- if ((iypos += istep) >= iheight) {
- do {
- if (ipass++ > 0) istep /= 2;
- iypos = istep / 2;
- }
- while (iypos > iheight);
- }
- return 0;
- } else {
- if (iter->ItOK()) {
- iter->SetRow(pixels, linelen);
- (void)iter->PrevRow();
- return 0;
- } else {
- // puts("chafeo");
- return -1;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-// SaveFile - writes GIF87a gif file
-// Randy Spann 6/15/97
-// R.Spann@ConnRiver.net
-bool CxImageGIF::Encode(CxFile * fp)
-{
- if (EncodeSafeCheck(fp)) return false;
-
- if(head.biBitCount > 8) {
- //strcpy(info.szLastError,"GIF Images must be 8 bit or less");
- //return FALSE;
- return EncodeRGB(fp);
- }
-
- if ( GetNumFrames()>1 && ppFrames ) {
- return Encode(fp, ppFrames, GetNumFrames() );
- }
-
- EncodeHeader(fp);
-
- EncodeExtension(fp);
-
- EncodeComment(fp);
-
- EncodeBody(fp);
-
- fp->PutC(';'); // Write the GIF file terminator
-
- return true; // done!
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageGIF::Encode(CxFile * fp, CxImage ** pImages, int32_t pagecount, bool bLocalColorMap, bool bLocalDispMeth)
-{
- cx_try {
- if (fp==NULL) cx_throw("invalid file pointer");
- if (pImages==NULL || pagecount<=0 || pImages[0]==NULL) cx_throw("multipage GIF, no images!");
-
- int32_t i;
- for (i=0; i<pagecount; i++){
- if (pImages[i]==NULL)
- cx_throw("Bad image pointer");
- if (!(pImages[i]->IsValid()))
- cx_throw("Empty image");
- if (pImages[i]->GetNumColors()==0)
- cx_throw("CxImageGIF::Encode cannot create animated GIFs with a true color frame. Use DecreaseBpp before");
- }
-
- CxImageGIF ghost;
-
- //write the first image
- ghost.Ghost(pImages[0]);
- ghost.EncodeHeader(fp);
-
- if (m_loops!=1){
- ghost.SetLoops(max(0,m_loops-1));
- ghost.EncodeLoopExtension(fp);
- }
-
- if (bLocalDispMeth) {
- ghost.EncodeExtension(fp);
- } else {
- uint8_t dm = ghost.GetDisposalMethod();
- ghost.SetDisposalMethod(GetDisposalMethod());
- ghost.EncodeExtension(fp);
- ghost.SetDisposalMethod(dm);
- }
-
- EncodeComment(fp);
-
- ghost.EncodeBody(fp);
-
- for (i=1; i<pagecount; i++){
- ghost.Ghost(pImages[i]);
-
- if (bLocalDispMeth) {
- ghost.EncodeExtension(fp);
- } else {
- uint8_t dm = ghost.GetDisposalMethod();
- ghost.SetDisposalMethod(GetDisposalMethod());
- ghost.EncodeExtension(fp);
- ghost.SetDisposalMethod(dm);
- }
-
- ghost.EncodeBody(fp,bLocalColorMap);
- }
-
- fp->PutC(';'); // Write the GIF file terminator
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::EncodeHeader(CxFile *fp)
-{
- fp->Write("GIF89a",1,6); //GIF Header
-
- Putword(head.biWidth,fp); //Logical screen descriptor
- Putword(head.biHeight,fp);
-
- uint8_t Flags;
- if (head.biClrUsed==0){
- Flags=0x11;
- } else {
- Flags = 0x80;
- Flags |=(head.biBitCount - 1) << 5;
- Flags |=(head.biBitCount - 1);
- }
-
- fp->PutC(Flags); //GIF "packed fields"
- fp->PutC(0); //GIF "BackGround"
- fp->PutC(0); //GIF "pixel aspect ratio"
-
- if (head.biClrUsed!=0){
- RGBQUAD* pPal = GetPalette();
- for(uint32_t i=0; i<head.biClrUsed; ++i)
- {
- fp->PutC(pPal[i].rgbRed);
- fp->PutC(pPal[i].rgbGreen);
- fp->PutC(pPal[i].rgbBlue);
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::EncodeExtension(CxFile *fp)
-{
- // TRK BEGIN : transparency
- fp->PutC('!');
- fp->PutC(TRANSPARENCY_CODE);
-
- gifgce.flags = 0;
- gifgce.flags |= ((info.nBkgndIndex != -1) ? 1 : 0);
- gifgce.flags |= ((GetDisposalMethod() & 0x7) << 2);
- gifgce.delaytime = (uint16_t)info.dwFrameDelay;
- gifgce.transpcolindex = (uint8_t)info.nBkgndIndex;
-
- //Invert byte order in case we use a byte order arch, then set it back <AMSN>
- gifgce.delaytime = m_ntohs(gifgce.delaytime);
- fp->PutC(sizeof(gifgce));
- fp->Write(&gifgce, sizeof(gifgce), 1);
- gifgce.delaytime = m_ntohs(gifgce.delaytime);
-
- fp->PutC(0);
- // TRK END
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::EncodeLoopExtension(CxFile *fp)
-{
- fp->PutC('!'); //byte 1 : 33 (hex 0x21) GIF Extension code
- fp->PutC(255); //byte 2 : 255 (hex 0xFF) Application Extension Label
- fp->PutC(11); //byte 3 : 11 (hex (0x0B) Length of Application Block (eleven bytes of data to follow)
- fp->Write("NETSCAPE2.0",11,1);
- fp->PutC(3); //byte 15 : 3 (hex 0x03) Length of Data Sub-Block (three bytes of data to follow)
- fp->PutC(1); //byte 16 : 1 (hex 0x01)
- Putword(m_loops,fp); //bytes 17 to 18 : 0 to 65535, an unsigned integer in lo-hi byte format.
- //This indicate the number of iterations the loop should be executed.
- fp->PutC(0); //bytes 19 : 0 (hex 0x00) a Data Sub-block Terminator.
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::EncodeBody(CxFile *fp, bool bLocalColorMap)
-{
- curx = 0;
- cury = head.biHeight - 1; //because we read the image bottom to top
- CountDown = (int32_t)head.biWidth * (int32_t)head.biHeight;
-
- fp->PutC(',');
-
- Putword(info.xOffset,fp);
- Putword(info.yOffset,fp);
- Putword(head.biWidth,fp);
- Putword(head.biHeight,fp);
-
- uint8_t Flags=0x00; //non-interlaced (0x40 = interlaced) (0x80 = LocalColorMap)
- if (bLocalColorMap) { Flags|=0x80; Flags|=head.biBitCount-1; }
- fp->PutC(Flags);
-
- if (bLocalColorMap){
- Flags|=0x87;
- RGBQUAD* pPal = GetPalette();
- for(uint32_t i=0; i<head.biClrUsed; ++i)
- {
- fp->PutC(pPal[i].rgbRed);
- fp->PutC(pPal[i].rgbGreen);
- fp->PutC(pPal[i].rgbBlue);
- }
- }
-
- int32_t InitCodeSize = head.biBitCount <=1 ? 2 : head.biBitCount;
- // Write out the initial code size
- fp->PutC((uint8_t)InitCodeSize);
-
- // Go and actually compress the data
- switch (GetCodecOption(CXIMAGE_FORMAT_GIF))
- {
- case 1: //uncompressed
- compressNONE(InitCodeSize+1, fp);
- break;
- case 2: //RLE
- compressRLE(InitCodeSize+1, fp);
- break;
- default: //LZW
- compressLZW(InitCodeSize+1, fp);
- }
-
- // Write out a Zero-length packet (to end the series)
- fp->PutC(0);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::EncodeComment(CxFile *fp)
-{
- uint32_t n = (uint32_t) strlen(m_comment);
- if (n>255) n=255;
- if (n) {
- fp->PutC('!'); //extension code:
- fp->PutC(254); //comment extension
- fp->PutC((uint8_t)n); //size of comment
- fp->Write(m_comment,n,1);
- fp->PutC(0); //block terminator
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageGIF::EncodeRGB(CxFile *fp)
-{
- EncodeHeader(fp);
-
-// EncodeLoopExtension(fp);
-
- EncodeComment(fp);
-
- uint32_t w,h;
- w=h=0;
- const int32_t cellw = 17;
- const int32_t cellh = 15;
- CxImageGIF tmp;
- for (int32_t y=0;y<head.biHeight;y+=cellh){
- for (int32_t x=0;x<head.biWidth;x+=cellw){
- if ((head.biWidth -x)<cellw) w=head.biWidth -x; else w=cellw;
- if ((head.biHeight-y)<cellh) h=head.biHeight-y; else h=cellh;
-
- if (w!=tmp.GetWidth() || h!=tmp.GetHeight()) tmp.Create(w,h,8);
-
- if (IsTransparent()){
- tmp.SetTransIndex(0);
- tmp.SetPaletteColor(0,GetTransColor());
- }
-
- uint8_t i;
- for (uint32_t j=0;j<h;j++){
- for (uint32_t k=0;k<w;k++){
- i=(uint8_t)(1+k+cellw*j);
- tmp.SetPaletteColor(i,GetPixelColor(x+k,head.biHeight-y-h+j));
- tmp.SetPixelIndex(k,j,tmp.GetNearestIndex(tmp.GetPaletteColor(i)));
- }
- }
-
- tmp.SetOffset(x,y);
- tmp.EncodeExtension(fp);
- tmp.EncodeBody(fp,true);
- }
- }
-
- fp->PutC(';'); // Write the GIF file terminator
-
- return true; // done!
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-// Return the next pixel from the image
-// <DP> fix for 1 & 4 bpp images
-int32_t CxImageGIF::GifNextPixel( )
-{
- if( CountDown == 0 ) return EOF;
- --CountDown;
- int32_t r = GetPixelIndex(curx,cury);
- // Bump the current X position
- ++curx;
- if( curx == head.biWidth ){
- curx = 0;
- cury--; //bottom to top
- }
- return r;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::Putword(int32_t w, CxFile *fp )
-{
- fp->PutC((uint8_t)(w & 0xff));
- fp->PutC((uint8_t)((w >> 8) & 0xff));
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::compressNONE( int32_t init_bits, CxFile* outfile)
-{
- register int32_t c;
- register int32_t ent;
-
- // g_init_bits - initial number of bits
- // g_outfile - pointer to output file
- g_init_bits = init_bits;
- g_outfile = outfile;
-
- // Set up the necessary values
- cur_accum = cur_bits = clear_flg = 0;
- maxcode = (int16_t)MAXCODE(n_bits = g_init_bits);
- code_int maxmaxcode = (code_int)1 << MAXBITSCODES;
-
- ClearCode = (1 << (init_bits - 1));
- EOFCode = ClearCode + 1;
- free_ent = (int16_t)(ClearCode + 2);
-
- a_count=0;
- ent = GifNextPixel( );
-
- output( (code_int)ClearCode );
-
- while ( ent != EOF ) {
- c = GifNextPixel();
-
- output ( (code_int) ent );
- ent = c;
- if ( free_ent < maxmaxcode ) {
- free_ent++;
- } else {
- free_ent=(int16_t)(ClearCode+2);
- clear_flg=1;
- output((code_int)ClearCode);
- }
- }
- // Put out the final code.
- output( (code_int) EOFCode );
-}
-////////////////////////////////////////////////////////////////////////////////
-
-/***************************************************************************
- *
- * GIFCOMPR.C - LZW GIF Image compression routines
- *
- ***************************************************************************/
-
-void CxImageGIF::compressLZW( int32_t init_bits, CxFile* outfile)
-{
- register int32_t fcode;
- register int32_t c;
- register int32_t ent;
- register int32_t hshift;
- register int32_t disp;
- register int32_t i;
-
- // g_init_bits - initial number of bits
- // g_outfile - pointer to output file
- g_init_bits = init_bits;
- g_outfile = outfile;
-
- // Set up the necessary values
- cur_accum = cur_bits = clear_flg = 0;
- maxcode = (int16_t)MAXCODE(n_bits = g_init_bits);
- code_int maxmaxcode = (code_int)1 << MAXBITSCODES;
-
- ClearCode = (1 << (init_bits - 1));
- EOFCode = ClearCode + 1;
- free_ent = (int16_t)(ClearCode + 2);
-
- a_count=0;
- ent = GifNextPixel( );
-
- hshift = 0;
- for ( fcode = (int32_t) HSIZE; fcode < 65536L; fcode *= 2L ) ++hshift;
- hshift = 8 - hshift; /* set hash code range bound */
- cl_hash((int32_t)HSIZE); /* clear hash table */
- output( (code_int)ClearCode );
-
- while ( (c = GifNextPixel( )) != EOF ) {
-
- fcode = (int32_t) (((int32_t) c << MAXBITSCODES) + ent);
- i = (((code_int)c << hshift) ^ ent); /* xor hashing */
-
- if ( HashTabOf (i) == fcode ) {
- ent = CodeTabOf (i);
- continue;
- } else if ( (int32_t)HashTabOf (i) < 0 ) /* empty slot */
- goto nomatch;
- disp = HSIZE - i; /* secondary hash (after G. Knott) */
- if ( i == 0 ) disp = 1;
-probe:
- if ( (i -= disp) < 0 ) i += HSIZE;
- if ( HashTabOf (i) == fcode ) { ent = CodeTabOf (i); continue; }
- if ( (int32_t)HashTabOf (i) > 0 ) goto probe;
-nomatch:
- output ( (code_int) ent );
- ent = c;
- if ( free_ent < maxmaxcode ) {
- CodeTabOf (i) = free_ent++; /* code -> hashtable */
- HashTabOf (i) = fcode;
- } else {
- cl_hash((int32_t)HSIZE);
- free_ent=(int16_t)(ClearCode+2);
- clear_flg=1;
- output((code_int)ClearCode);
- }
- }
- // Put out the final code.
- output( (code_int)ent );
- output( (code_int) EOFCode );
-}
-////////////////////////////////////////////////////////////////////////////////
-
-static const uint32_t code_mask[] = { 0x0000, 0x0001, 0x0003, 0x0007, 0x000F,
- 0x001F, 0x003F, 0x007F, 0x00FF,
- 0x01FF, 0x03FF, 0x07FF, 0x0FFF,
- 0x1FFF, 0x3FFF, 0x7FFF, 0xFFFF };
-
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::output( code_int code)
-{
- cur_accum &= code_mask[ cur_bits ];
-
- if( cur_bits > 0 )
- cur_accum |= ((int32_t)code << cur_bits);
- else
- cur_accum = code;
-
- cur_bits += n_bits;
-
- while( cur_bits >= 8 ) {
- char_out( (uint32_t)(cur_accum & 0xff) );
- cur_accum >>= 8;
- cur_bits -= 8;
- }
-
- /*
- * If the next entry is going to be too big for the code size,
- * then increase it, if possible.
- */
-
- if ( free_ent > maxcode || clear_flg ) {
- if( clear_flg ) {
- maxcode = (int16_t)MAXCODE(n_bits = g_init_bits);
- clear_flg = 0;
- } else {
- ++n_bits;
- if ( n_bits == MAXBITSCODES )
- maxcode = (code_int)1 << MAXBITSCODES; /* should NEVER generate this code */
- else
- maxcode = (int16_t)MAXCODE(n_bits);
- }
- }
-
- if( code == EOFCode ) {
- // At EOF, write the rest of the buffer.
- while( cur_bits > 0 ) {
- char_out( (uint32_t)(cur_accum & 0xff) );
- cur_accum >>= 8;
- cur_bits -= 8;
- }
-
- flush_char();
- g_outfile->Flush();
-
- if(g_outfile->Error()) strcpy(info.szLastError,"Write Error in GIF file");
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-
-void CxImageGIF::cl_hash(int32_t hsize)
-
-{
- register int32_t *htab_p = htab+hsize;
-
- register int32_t i;
- register int32_t m1 = -1L;
-
- i = hsize - 16;
-
- do {
- *(htab_p-16)=m1;
- *(htab_p-15)=m1;
- *(htab_p-14)=m1;
- *(htab_p-13)=m1;
- *(htab_p-12)=m1;
- *(htab_p-11)=m1;
- *(htab_p-10)=m1;
- *(htab_p-9)=m1;
- *(htab_p-8)=m1;
- *(htab_p-7)=m1;
- *(htab_p-6)=m1;
- *(htab_p-5)=m1;
- *(htab_p-4)=m1;
- *(htab_p-3)=m1;
- *(htab_p-2)=m1;
- *(htab_p-1)=m1;
-
- htab_p-=16;
- } while ((i-=16) >=0);
-
- for (i+=16;i>0;--i)
- *--htab_p=m1;
-}
-
-/*******************************************************************************
-* GIF specific
-*******************************************************************************/
-
-void CxImageGIF::char_out(int32_t c)
-{
- accum[a_count++]=(char)c;
- if (a_count >=254)
- flush_char();
-}
-
-void CxImageGIF::flush_char()
-{
- if (a_count > 0) {
- g_outfile->PutC((uint8_t)a_count);
- g_outfile->Write(accum,1,a_count);
- a_count=0;
- }
-}
-
-/*******************************************************************************
-* GIF decoder
-*******************************************************************************/
-/* DECODE.C - An LZW decoder for GIF
- * Copyright (C) 1987, by Steven A. Bennett
- * Copyright (C) 1994, C++ version by Alejandro Aguilar Sierra
-*
- * Permission is given by the author to freely redistribute and include
- * this code in any program as int32_t as this credit is given where due.
- *
- * In accordance with the above, I want to credit Steve Wilhite who wrote
- * the code which this is heavily inspired by...
- *
- * GIF and 'Graphics Interchange Format' are trademarks (tm) of
- * Compuserve, Incorporated, an H&R Block Company.
- *
- * Release Notes: This file contains a decoder routine for GIF images
- * which is similar, structurally, to the original routine by Steve Wilhite.
- * It is, however, somewhat noticably faster in most cases.
- *
- */
-
-////////////////////////////////////////////////////////////////////////////////
-
-int16_t CxImageGIF::init_exp(int16_t size)
-{
- curr_size = (int16_t)(size + 1);
- top_slot = (int16_t)(1 << curr_size);
- clear = (int16_t)(1 << size);
- ending = (int16_t)(clear + 1);
- slot = newcodes = (int16_t)(ending + 1);
- navail_bytes = nbits_left = 0;
-
- memset(stack,0,MAX_CODES + 1);
- memset(prefix,0,MAX_CODES + 1);
- memset(suffix,0,MAX_CODES + 1);
- return(0);
-}
-////////////////////////////////////////////////////////////////////////////////
-
-/* get_next_code()
- * - gets the next code from the GIF file. Returns the code, or else
- * a negative number in case of file errors...
- */
-int16_t CxImageGIF::get_next_code(CxFile* file)
-{
- int16_t i, x;
- uint32_t ret;
-
- if (nbits_left == 0) {
- if (navail_bytes <= 0) {
- /* Out of bytes in current block, so read next block */
- pbytes = byte_buff;
- if ((navail_bytes = (int16_t)get_byte(file)) < 0)
- return(navail_bytes);
- else if (navail_bytes) {
- for (i = 0; i < navail_bytes; ++i) {
- if ((x = (int16_t)get_byte(file)) < 0) return(x);
- byte_buff[i] = (uint8_t)x;
- }
- }
- }
- b1 = *pbytes++;
- nbits_left = 8;
- --navail_bytes;
- }
-
- if (navail_bytes<0) return ending; // prevent deadlocks (thanks to Mike Melnikov)
-
- ret = b1 >> (8 - nbits_left);
- while (curr_size > nbits_left){
- if (navail_bytes <= 0){
- /* Out of bytes in current block, so read next block*/
- pbytes = byte_buff;
- if ((navail_bytes = (int16_t)get_byte(file)) < 0)
- return(navail_bytes);
- else if (navail_bytes){
- for (i = 0; i < navail_bytes; ++i){
- if ((x = (int16_t)get_byte(file)) < 0) return(x);
- byte_buff[i] = (uint8_t)x;
- }
- }
- }
- b1 = *pbytes++;
- ret |= b1 << nbits_left;
- nbits_left += 8;
- --navail_bytes;
- }
- nbits_left = (int16_t)(nbits_left-curr_size);
- ret &= code_mask[curr_size];
- return((int16_t)(ret));
-}
-////////////////////////////////////////////////////////////////////////////////
-
-/* int16_t decoder(linewidth)
- * int16_t linewidth; * Pixels per line of image *
- *
- * - This function decodes an LZW image, according to the method used
- * in the GIF spec. Every *linewidth* "characters" (ie. pixels) decoded
- * will generate a call to out_line(), which is a user specific function
- * to display a line of pixels. The function gets it's codes from
- * get_next_code() which is responsible for reading blocks of data and
- * seperating them into the proper size codes. Finally, get_byte() is
- * the global routine to read the next uint8_t from the GIF file.
- *
- * It is generally a good idea to have linewidth correspond to the actual
- * width of a line (as specified in the Image header) to make your own
- * code a bit simpler, but it isn't absolutely necessary.
- *
- * Returns: 0 if successful, else negative. (See ERRS.H)
- *
- */
-/* bad_code_count is incremented each time an out of range code is read.
- * When this value is non-zero after a decode, your GIF file is probably
- * corrupt in some way...
- */
-int16_t CxImageGIF::decoder(CxFile* file, CImageIterator* iter, int16_t linewidth, int32_t &bad_code_count)
-{
- register uint8_t *sp, *bufptr;
- uint8_t *buf;
- register int16_t code, fc, oc, bufcnt;
- int16_t c, size, ret;
-
- if (linewidth<=0)
- return BAD_LINE_WIDTH;
-
- /* Initialize for decoding a new image... */
- bad_code_count = 0;
- if ((size = (int16_t)get_byte(file)) < 0) return(size);
- if (size < 2 || 9 < size) return(BAD_CODE_SIZE);
- // out_line = outline;
- init_exp(size);
- //printf("L %d %x\n",linewidth,size);
-
- /* Initialize in case they forgot to put in a clear code.
- * (This shouldn't happen, but we'll try and decode it anyway...)
- */
- oc = fc = 0;
-
- /* Allocate space for the decode buffer */
- if ((buf = new uint8_t[linewidth + 1]) == NULL) return(OUT_OF_MEMORY);
-
- /* Set up the stack pointer and decode buffer pointer */
- sp = stack;
- bufptr = buf;
- bufcnt = linewidth;
-
- /* This is the main loop. For each code we get we pass through the
- * linked list of prefix codes, pushing the corresponding "character" for
- * each code onto the stack. When the list reaches a single "character"
- * we push that on the stack too, and then start unstacking each
- * character for output in the correct order. Special handling is
- * included for the clear code, and the whole thing ends when we get
- * an ending code.
- */
- while ((c = get_next_code(file)) != ending) {
- /* If we had a file error, return without completing the decode*/
- if (c < 0){
- delete [] buf;
- return(0);
- }
- /* If the code is a clear code, reinitialize all necessary items.*/
- if (c == clear){
- curr_size = (int16_t)(size + 1);
- slot = newcodes;
- top_slot = (int16_t)(1 << curr_size);
-
- /* Continue reading codes until we get a non-clear code
- * (Another unlikely, but possible case...)
- */
- while ((c = get_next_code(file)) == clear);
-
- /* If we get an ending code immediately after a clear code
- * (Yet another unlikely case), then break out of the loop.
- */
- if (c == ending) break;
-
- /* Finally, if the code is beyond the range of already set codes,
- * (This one had better NOT happen... I have no idea what will
- * result from this, but I doubt it will look good...) then set it
- * to color zero.
- */
- if (c >= slot) c = 0;
- oc = fc = c;
-
- /* And let us not forget to put the char into the buffer... And
- * if, on the off chance, we were exactly one pixel from the end
- * of the line, we have to send the buffer to the out_line()
- * routine...
- */
- *bufptr++ = (uint8_t)c;
- if (--bufcnt == 0) {
- if (iter) {
- if ((ret = (int16_t)out_line(iter, buf, linewidth)) < 0) {
- delete [] buf;
- return(ret);
- }
- }
- bufptr = buf;
- bufcnt = linewidth;
- }
- } else {
- /* In this case, it's not a clear code or an ending code, so
- * it must be a code code... So we can now decode the code into
- * a stack of character codes. (Clear as mud, right?)
- */
- code = c;
-
- /* Here we go again with one of those off chances... If, on the
- * off chance, the code we got is beyond the range of those already
- * set up (Another thing which had better NOT happen...) we trick
- * the decoder into thinking it actually got the last code read.
- * (Hmmn... I'm not sure why this works... But it does...)
- */
- if (code >= slot && sp<(stack+MAX_CODES-1)) {
- if (code > slot)
- ++bad_code_count;
- code = oc;
- *sp++ = (uint8_t)fc;
- }
-
- /* Here we scan back along the linked list of prefixes, pushing
- * helpless characters (ie. suffixes) onto the stack as we do so.
- */
- while (code >= newcodes && sp<(stack+MAX_CODES-1)) {
- *sp++ = suffix[code];
- code = prefix[code];
- }
-
- /* Push the last character on the stack, and set up the new
- * prefix and suffix, and if the required slot number is greater
- * than that allowed by the current bit size, increase the bit
- * size. (NOTE - If we are all full, we *don't* save the new
- * suffix and prefix... I'm not certain if this is correct...
- * it might be more proper to overwrite the last code...
- */
- *sp++ = (uint8_t)code;
- if (slot < top_slot){
- suffix[slot] = (uint8_t)(fc = (uint8_t)code);
- prefix[slot++] = oc;
- oc = c;
- }
- if (slot >= top_slot){
- if (curr_size < 12) {
- top_slot <<= 1;
- ++curr_size;
- }
- }
-
- /* Now that we've pushed the decoded string (in reverse order)
- * onto the stack, lets pop it off and put it into our decode
- * buffer... And when the decode buffer is full, write another
- * line...
- */
- while (sp > stack) {
- *bufptr++ = *(--sp);
- if (--bufcnt == 0) {
- if (iter) {
- if ((ret = (int16_t)out_line(iter, buf, linewidth)) < 0) {
- delete [] buf;
- return(ret);
- }
- }
- bufptr = buf;
- bufcnt = linewidth;
- }
- }
- }
- }
- ret = 0;
- if (bufcnt != linewidth && iter)
- ret = (int16_t)out_line(iter, buf, (linewidth - bufcnt));
- delete [] buf;
- return(ret);
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImageGIF::get_num_frames(CxFile *fp,struct_TabCol* TabColSrc,struct_dscgif* dscgif)
-{
- struct_image image;
-
- int32_t pos=fp->Tell();
- int32_t nframes=0;
-
- struct_TabCol TempTabCol;
- memcpy(&TempTabCol,TabColSrc,sizeof(struct_TabCol));
-
- char ch;
- bool bPreviousWasNull = true;
-
- for (BOOL bContinue = TRUE; bContinue; )
- {
- if (fp->Read(&ch, sizeof(ch), 1) != 1) {break;}
-
- if (bPreviousWasNull || ch==0)
- {
- switch (ch)
- {
- case '!': // extension
- {
- DecodeExtension(fp);
- break;
- }
- case ',': // image
- {
-
- assert(sizeof(image) == 9);
- //log << "Image header" << endl;
- fp->Read(&image,sizeof(image),1);
-
- //avoid byte order problems with Solaris <candan> <AMSN>
- image.l = m_ntohs(image.l);
- image.t = m_ntohs(image.t);
- image.w = m_ntohs(image.w);
- image.h = m_ntohs(image.h);
-
- // in case of images with empty screen descriptor, give a last chance
- if (dscgif->scrwidth==0 && dscgif->scrheight==0){
- dscgif->scrwidth = image.w;
- dscgif->scrheight = image.h;
- }
-
- if (((image.l + image.w) > dscgif->scrwidth)||((image.t + image.h) > dscgif->scrheight))
- break;
-
- nframes++;
-
- // Local colour map?
- if (image.pf & 0x80) {
- TempTabCol.sogct = (int16_t)(1 << ((image.pf & 0x07) +1));
- assert(3 == sizeof(struct rgb_color));
- fp->Read(TempTabCol.paleta,sizeof(struct rgb_color)*TempTabCol.sogct,1);
- //log << "Local colour map" << endl;
- }
-
- int32_t badcode=0;
- ibf = GIFBUFTAM+1;
-
- interlaced = image.pf & 0x40;
- iheight = image.h;
- istep = 8;
- iypos = 0;
- ipass = 0;
-
- int32_t pos_start = fp->Tell();
-
- //if (interlaced) log << "Interlaced" << endl;
- decoder(fp, 0, image.w, badcode);
-
- if (badcode){
- seek_next_image(fp,pos_start);
- } else {
- fp->Seek(-(ibfmax - ibf - 1), SEEK_CUR);
- }
-
- break;
- }
- case ';': //terminator
- bContinue=false;
- break;
- default:
- bPreviousWasNull = (ch==0);
- break;
- }
- }
- }
-
- fp->Seek(pos,SEEK_SET);
- return nframes;
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImageGIF::seek_next_image(CxFile* fp, int32_t position)
-{
- fp->Seek(position, SEEK_SET);
- char ch1,ch2;
- ch1=ch2=0;
- while(fp->Read(&ch2,sizeof(char),1)>0){
- if (ch1 == 0 && ch2 == ','){
- fp->Seek(-1,SEEK_CUR);
- return fp->Tell();
- } else {
- ch1 = ch2;
- }
- }
- return -1;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::SetLoops(int32_t loops)
-{ m_loops=loops; }
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImageGIF::GetLoops()
-{ return m_loops; }
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::SetComment(const char* sz_comment_in)
-{ if (sz_comment_in) strncpy(m_comment,sz_comment_in,255); }
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::GetComment(char* sz_comment_out)
-{ if (sz_comment_out) strncpy(sz_comment_out,m_comment,255); }
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::GifMix(CxImage & imgsrc2, struct_image & imgdesc)
-{
- int32_t ymin = max(0,(int32_t)(GetHeight()-imgdesc.t - imgdesc.h));
- int32_t ymax = GetHeight()-imgdesc.t;
- int32_t xmin = imgdesc.l;
- int32_t xmax = min(GetWidth(), (uint32_t)(imgdesc.l + imgdesc.w));
-
- int32_t ibg2= imgsrc2.GetTransIndex();
- uint8_t i2;
-
- for(int32_t y = ymin; y < ymax; y++){
- for(int32_t x = xmin; x < xmax; x++){
- i2 = imgsrc2.GetPixelIndex(x-xmin,y-ymin);
- if(i2!=ibg2) SetPixelIndex(x,y,i2);
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/*-----------------------------------------------------------------------
- *
- * miGIF Compression - mouse and ivo's GIF-compatible compression
- *
- * -run length encoding compression routines-
- *
- * Copyright (C) 1998 Hutchison Avenue Software Corporation
- * http://www.hasc.com
- * info@hasc.com
- *
- * Permission to use, copy, modify, and distribute this software and its
- * documentation for any purpose and without fee is hereby granted, provided
- * that the above copyright notice appear in all copies and that both that
- * copyright notice and this permission notice appear in supporting
- * documentation. This software is provided "AS IS." The Hutchison Avenue
- * Software Corporation disclaims all warranties, either express or implied,
- * including but not limited to implied warranties of merchantability and
- * fitness for a particular purpose, with respect to this code and accompanying
- * documentation.
- *
- * The miGIF compression routines do not, strictly speaking, generate files
- * conforming to the GIF spec, since the image data is not LZW-compressed
- * (this is the point: in order to avoid transgression of the Unisys patent
- * on the LZW algorithm.) However, miGIF generates data streams that any
- * reasonably sane LZW decompresser will decompress to what we want.
- *
- * miGIF compression uses run length encoding. It compresses horizontal runs
- * of pixels of the same color. This type of compression gives good results
- * on images with many runs, for example images with lines, text and solid
- * shapes on a solid-colored background. It gives little or no compression
- * on images with few runs, for example digital or scanned photos.
- *
- * der Mouse
- * mouse@rodents.montreal.qc.ca
- * 7D C8 61 52 5D E7 2D 39 4E F1 31 3E E8 B3 27 4B
- *
- * ivo@hasc.com
- *
- * The Graphics Interchange Format(c) is the Copyright property of
- * CompuServe Incorporated. GIF(sm) is a Service Mark property of
- * CompuServe Incorporated.
- *
- */
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_clear(struct_RLE* rle)
-{
- rle->out_bits = rle->out_bits_init;
- rle->out_bump = rle->out_bump_init;
- rle->out_clear = rle->out_clear_init;
- rle->out_count = 0;
- rle->rl_table_max = 0;
- rle->just_cleared = 1;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_flush(struct_RLE* rle)
-{
- if (rle->rl_count == 1){
- rle_output_plain(rle->rl_pixel,rle);
- rle->rl_count = 0;
- return;
- }
- if (rle->just_cleared){
- rle_flush_fromclear(rle->rl_count,rle);
- } else if ((rle->rl_table_max < 2) || (rle->rl_table_pixel != rle->rl_pixel)) {
- rle_flush_clearorrep(rle->rl_count,rle);
- } else {
- rle_flush_withtable(rle->rl_count,rle);
- }
- rle->rl_count = 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_output_plain(int32_t c,struct_RLE* rle)
-{
- rle->just_cleared = 0;
- rle_output(c,rle);
- rle->out_count++;
- if (rle->out_count >= rle->out_bump){
- rle->out_bits ++;
- rle->out_bump += 1 << (rle->out_bits - 1);
- }
- if (rle->out_count >= rle->out_clear){
- rle_output(rle->code_clear,rle);
- rle_clear(rle);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_flush_fromclear(int32_t count,struct_RLE* rle)
-{
- int32_t n;
-
- rle->out_clear = rle->max_ocodes;
- rle->rl_table_pixel = rle->rl_pixel;
- n = 1;
- while (count > 0){
- if (n == 1){
- rle->rl_table_max = 1;
- rle_output_plain(rle->rl_pixel,rle);
- count --;
- } else if (count >= n){
- rle->rl_table_max = n;
- rle_output_plain(rle->rl_basecode+n-2,rle);
- count -= n;
- } else if (count == 1){
- rle->rl_table_max ++;
- rle_output_plain(rle->rl_pixel,rle);
- count = 0;
- } else {
- rle->rl_table_max ++;
- rle_output_plain(rle->rl_basecode+count-2,rle);
- count = 0;
- }
- if (rle->out_count == 0) n = 1; else n ++;
- }
- rle_reset_out_clear(rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_reset_out_clear(struct_RLE* rle)
-{
- rle->out_clear = rle->out_clear_init;
- if (rle->out_count >= rle->out_clear){
- rle_output(rle->code_clear,rle);
- rle_clear(rle);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_flush_withtable(int32_t count, struct_RLE* rle)
-{
- int32_t repmax;
- int32_t repleft;
- int32_t leftover;
-
- repmax = count / rle->rl_table_max;
- leftover = count % rle->rl_table_max;
- repleft = (leftover ? 1 : 0);
- if (rle->out_count+repmax+repleft > rle->max_ocodes){
- repmax = rle->max_ocodes - rle->out_count;
- leftover = count - (repmax * rle->rl_table_max);
- repleft = 1 + rle_compute_triangle_count(leftover,rle->max_ocodes);
- }
- if (1+rle_compute_triangle_count(count,rle->max_ocodes) < (uint32_t)(repmax+repleft)){
- rle_output(rle->code_clear,rle);
- rle_clear(rle);
- rle_flush_fromclear(count,rle);
- return;
- }
- rle->out_clear = rle->max_ocodes;
- for (;repmax>0;repmax--) rle_output_plain(rle->rl_basecode+rle->rl_table_max-2,rle);
- if (leftover){
- if (rle->just_cleared){
- rle_flush_fromclear(leftover,rle);
- } else if (leftover == 1){
- rle_output_plain(rle->rl_pixel,rle);
- } else {
- rle_output_plain(rle->rl_basecode+leftover-2,rle);
- }
- }
- rle_reset_out_clear(rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImageGIF::rle_compute_triangle_count(uint32_t count, uint32_t nrepcodes)
-{
- uint32_t perrep;
- uint32_t cost;
-
- cost = 0;
- perrep = (nrepcodes * (nrepcodes+1)) / 2;
- while (count >= perrep){
- cost += nrepcodes;
- count -= perrep;
- }
- if (count > 0){
- uint32_t n;
- n = rle_isqrt(count);
- while ((n*(n+1)) >= 2*count) n --;
- while ((n*(n+1)) < 2*count) n ++;
- cost += n;
- }
- return(cost);
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImageGIF::rle_isqrt(uint32_t x)
-{
- uint32_t r;
- uint32_t v;
-
- if (x < 2) return(x);
- for (v=x,r=1;v;v>>=2,r<<=1) ;
- for( ;; )
- {
- v = ((x / r) + r) / 2;
- if ((v == r) || (v == r+1)) return(r);
- r = v;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_flush_clearorrep(int32_t count, struct_RLE* rle)
-{
- int32_t withclr;
- withclr = 1 + rle_compute_triangle_count(count,rle->max_ocodes);
- if (withclr < count) {
- rle_output(rle->code_clear,rle);
- rle_clear(rle);
- rle_flush_fromclear(count,rle);
- } else {
- for (;count>0;count--) rle_output_plain(rle->rl_pixel,rle);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_write_block(struct_RLE* rle)
-{
- g_outfile->PutC((uint8_t)rle->oblen);
- g_outfile->Write(rle->oblock,1,rle->oblen);
- rle->oblen = 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_block_out(uint8_t c, struct_RLE* rle)
-{
- rle->oblock[rle->oblen++] = c;
- if (rle->oblen >= 255) rle_write_block(rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_block_flush(struct_RLE* rle)
-{
- if (rle->oblen > 0) rle_write_block(rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_output(int32_t val, struct_RLE* rle)
-{
- rle->obuf |= val << rle->obits;
- rle->obits += rle->out_bits;
- while (rle->obits >= 8){
- rle_block_out((uint8_t)(rle->obuf&0xff),rle);
- rle->obuf >>= 8;
- rle->obits -= 8;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::rle_output_flush(struct_RLE* rle)
-{
- if (rle->obits > 0) rle_block_out((uint8_t)(rle->obuf),rle);
- rle_block_flush(rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageGIF::compressRLE( int32_t init_bits, CxFile* outfile)
-{
- g_init_bits = init_bits;
- g_outfile = outfile;
-
- struct_RLE rle;
- rle.code_clear = 1 << (init_bits - 1);
- rle.code_eof = rle.code_clear + 1;
- rle.rl_basecode = rle.code_eof + 1;
- rle.out_bump_init = (1 << (init_bits - 1)) - 1;
- rle.out_clear_init = (init_bits <= 3) ? 9 : (rle.out_bump_init-1);
- rle.out_bits_init = init_bits;
- rle.max_ocodes = (1 << MAXBITSCODES) - ((1 << (rle.out_bits_init - 1)) + 3);
- rle.rl_count = 0;
- rle_clear(&rle);
- rle.obuf = 0;
- rle.obits = 0;
- rle.oblen = 0;
-
- rle_output(rle.code_clear,&rle);
-
- int32_t c;
- for( ;; )
- {
- c = GifNextPixel();
- if ((rle.rl_count > 0) && (c != rle.rl_pixel)) rle_flush(&rle);
- if (c == EOF) break;
- if (rle.rl_pixel == c){
- rle.rl_count++;
- } else {
- rle.rl_pixel = c;
- rle.rl_count = 1;
- }
- }
- rle_output(rle.code_eof,&rle);
- rle_output_flush(&rle);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_GIF
diff --git a/hge/CxImage/ximagif.h b/hge/CxImage/ximagif.h deleted file mode 100644 index 4eec35e..0000000 --- a/hge/CxImage/ximagif.h +++ /dev/null @@ -1,244 +0,0 @@ -/*
- * File: ximagif.h
- * Purpose: GIF Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageGIF (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Troels Knakkergaard for new features, enhancements and bugfixes
- *
- * original CImageGIF and CImageIterator implementation are:
- * Copyright: (c) 1995, Alejandro Aguilar Sierra <asierra(at)servidor(dot)unam(dot)mx>
- *
- * 6/15/97 Randy Spann: Added GIF87a writing support
- * R.Spann@ConnRiver.net
- *
- * DECODE.C - An LZW decoder for GIF
- * Copyright (C) 1987, by Steven A. Bennett
- * Copyright (C) 1994, C++ version by Alejandro Aguilar Sierra
- *
- * In accordance with the above, I want to credit Steve Wilhite who wrote
- * the code which this is heavily inspired by...
- *
- * GIF and 'Graphics Interchange Format' are trademarks (tm) of
- * Compuserve, Incorporated, an H&R Block Company.
- *
- * Release Notes: This file contains a decoder routine for GIF images
- * which is similar, structurally, to the original routine by Steve Wilhite.
- * It is, however, somewhat noticably faster in most cases.
- *
- * ==========================================================
- */
-
-#if !defined(__ximaGIF_h)
-#define __ximaGIF_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_GIF
-
-typedef int16_t code_int;
-
-/* Various error codes used by decoder */
-#define OUT_OF_MEMORY -10
-#define BAD_CODE_SIZE -20
-#define READ_ERROR -1
-#define WRITE_ERROR -2
-#define OPEN_ERROR -3
-#define CREATE_ERROR -4
-#define BAD_LINE_WIDTH -5
-#define MAX_CODES 4095
-#define GIFBUFTAM 16383
-#define TRANSPARENCY_CODE 0xF9
-
-//LZW GIF Image compression
-#define MAXBITSCODES 12
-#define HSIZE 5003 /* 80% occupancy */
-#define MAXCODE(n_bits) (((code_int) 1 << (n_bits)) - 1)
-#define HashTabOf(i) htab[i]
-#define CodeTabOf(i) codetab[i]
-
-
-class CImageIterator;
-class DLL_EXP CxImageGIF: public CxImage
-{
-#pragma pack(1)
-
-typedef struct tag_gifgce{
- uint8_t flags; /*res:3|dispmeth:3|userinputflag:1|transpcolflag:1*/
- uint16_t delaytime;
- uint8_t transpcolindex;
-} struct_gifgce;
-
-typedef struct tag_dscgif{ /* Logic Screen Descriptor */
- char header[6]; /* Firma and version */
- uint16_t scrwidth;
- uint16_t scrheight;
- char pflds;
- char bcindx;
- char pxasrat;
-} struct_dscgif;
-
-typedef struct tag_image{ /* Image Descriptor */
- uint16_t l;
- uint16_t t;
- uint16_t w;
- uint16_t h;
- uint8_t pf;
-} struct_image;
-
-typedef struct tag_TabCol{ /* Tabla de colores */
- int16_t colres; /* color resolution */
- int16_t sogct; /* size of global color table */
- rgb_color paleta[256]; /* paleta */
-} struct_TabCol;
-
-typedef struct tag_RLE{
- int32_t rl_pixel;
- int32_t rl_basecode;
- int32_t rl_count;
- int32_t rl_table_pixel;
- int32_t rl_table_max;
- int32_t just_cleared;
- int32_t out_bits;
- int32_t out_bits_init;
- int32_t out_count;
- int32_t out_bump;
- int32_t out_bump_init;
- int32_t out_clear;
- int32_t out_clear_init;
- int32_t max_ocodes;
- int32_t code_clear;
- int32_t code_eof;
- uint32_t obuf;
- int32_t obits;
- uint8_t oblock[256];
- int32_t oblen;
-} struct_RLE;
-#pragma pack()
-
-public:
- CxImageGIF();
- ~CxImageGIF();
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_GIF);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_GIF);}
-
- bool Decode(CxFile * fp);
- bool Decode(FILE *fp) { CxIOFile file(fp); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * fp);
- bool Encode(CxFile * fp, CxImage ** pImages, int32_t pagecount, bool bLocalColorMap = false, bool bLocalDispMeth = false);
- bool Encode(FILE *fp) { CxIOFile file(fp); return Encode(&file); }
- bool Encode(FILE *fp, CxImage ** pImages, int32_t pagecount, bool bLocalColorMap = false)
- { CxIOFile file(fp); return Encode(&file, pImages, pagecount, bLocalColorMap); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
- void SetLoops(int32_t loops);
- int32_t GetLoops();
- void SetComment(const char* sz_comment_in);
- void GetComment(char* sz_comment_out);
-
-protected:
- bool DecodeExtension(CxFile *fp);
- void EncodeHeader(CxFile *fp);
- void EncodeLoopExtension(CxFile *fp);
- void EncodeExtension(CxFile *fp);
- void EncodeBody(CxFile *fp, bool bLocalColorMap = false);
- void EncodeComment(CxFile *fp);
- bool EncodeRGB(CxFile *fp);
- void GifMix(CxImage & imgsrc2, struct_image & imgdesc);
-
- struct_gifgce gifgce;
-
- int32_t curx, cury;
- int32_t CountDown;
- uint32_t cur_accum;
- int32_t cur_bits;
- int32_t interlaced, iypos, istep, iheight, ipass;
- int32_t ibf;
- int32_t ibfmax;
- uint8_t * buf;
-// Implementation
- int32_t GifNextPixel ();
- void Putword (int32_t w, CxFile* fp );
- void compressNONE (int32_t init_bits, CxFile* outfile);
- void compressLZW (int32_t init_bits, CxFile* outfile);
- void output (code_int code );
- void cl_hash (int32_t hsize);
- void char_out (int32_t c);
- void flush_char ();
- int16_t init_exp(int16_t size);
- int16_t get_next_code(CxFile*);
- int16_t decoder(CxFile*, CImageIterator* iter, int16_t linewidth, int32_t &bad_code_count);
- int32_t get_byte(CxFile*);
- int32_t out_line(CImageIterator* iter, uint8_t *pixels, int32_t linelen);
- int32_t get_num_frames(CxFile *f,struct_TabCol* TabColSrc,struct_dscgif* dscgif);
- int32_t seek_next_image(CxFile* fp, int32_t position);
-
- int16_t curr_size; /* The current code size */
- int16_t clear; /* Value for a clear code */
- int16_t ending; /* Value for a ending code */
- int16_t newcodes; /* First available code */
- int16_t top_slot; /* Highest code for current size */
- int16_t slot; /* Last read code */
-
- /* The following static variables are used
- * for seperating out codes */
- int16_t navail_bytes; /* # bytes left in block */
- int16_t nbits_left; /* # bits left in current uint8_t */
- uint8_t b1; /* Current uint8_t */
- uint8_t * byte_buff; /* Current block */
- uint8_t *pbytes; /* Pointer to next uint8_t in block */
- /* The reason we have these seperated like this instead of using
- * a structure like the original Wilhite code did, is because this
- * stuff generally produces significantly faster code when compiled...
- * This code is full of similar speedups... (For a good book on writing
- * C for speed or for space optomisation, see Efficient C by Tom Plum,
- * published by Plum-Hall Associates...)
- */
- uint8_t * stack; /* Stack for storing pixels */
- uint8_t * suffix; /* Suffix table */
- uint16_t * prefix; /* Prefix linked list */
-
-//LZW GIF Image compression routines
- int32_t * htab;
- uint16_t * codetab;
- int32_t n_bits; /* number of bits/code */
- code_int maxcode; /* maximum code, given n_bits */
- code_int free_ent; /* first unused entry */
- int32_t clear_flg;
- int32_t g_init_bits;
- CxFile* g_outfile;
- int32_t ClearCode;
- int32_t EOFCode;
-
- int32_t a_count;
- char * accum;
-
- char * m_comment;
- int32_t m_loops;
-
-//RLE compression routines
- void compressRLE( int32_t init_bits, CxFile* outfile);
- void rle_clear(struct_RLE* rle);
- void rle_flush(struct_RLE* rle);
- void rle_flush_withtable(int32_t count, struct_RLE* rle);
- void rle_flush_clearorrep(int32_t count, struct_RLE* rle);
- void rle_flush_fromclear(int32_t count,struct_RLE* rle);
- void rle_output_plain(int32_t c,struct_RLE* rle);
- void rle_reset_out_clear(struct_RLE* rle);
- uint32_t rle_compute_triangle_count(uint32_t count, uint32_t nrepcodes);
- uint32_t rle_isqrt(uint32_t x);
- void rle_write_block(struct_RLE* rle);
- void rle_block_out(uint8_t c, struct_RLE* rle);
- void rle_block_flush(struct_RLE* rle);
- void rle_output(int32_t val, struct_RLE* rle);
- void rle_output_flush(struct_RLE* rle);
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximahist.cpp b/hge/CxImage/ximahist.cpp deleted file mode 100644 index 830337f..0000000 --- a/hge/CxImage/ximahist.cpp +++ /dev/null @@ -1,627 +0,0 @@ -// xImaHist.cpp : histogram functions
-/* 28/01/2004 v1.00 - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_DSP
-
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::Histogram(int32_t* red, int32_t* green, int32_t* blue, int32_t* gray, int32_t colorspace)
-{
- if (!pDib) return 0;
- RGBQUAD color;
-
- if (red) memset(red,0,256*sizeof(int32_t));
- if (green) memset(green,0,256*sizeof(int32_t));
- if (blue) memset(blue,0,256*sizeof(int32_t));
- if (gray) memset(gray,0,256*sizeof(int32_t));
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- for(int32_t y=ymin; y<ymax; y++){
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- switch (colorspace){
- case 1:
- color = HSLtoRGB(BlindGetPixelColor(x,y));
- break;
- case 2:
- color = YUVtoRGB(BlindGetPixelColor(x,y));
- break;
- case 3:
- color = YIQtoRGB(BlindGetPixelColor(x,y));
- break;
- case 4:
- color = XYZtoRGB(BlindGetPixelColor(x,y));
- break;
- default:
- color = BlindGetPixelColor(x,y);
- }
-
- if (red) red[color.rgbRed]++;
- if (green) green[color.rgbGreen]++;
- if (blue) blue[color.rgbBlue]++;
- if (gray) gray[(uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue)]++;
- }
- }
- }
-
- int32_t n=0;
- for (int32_t i=0; i<256; i++){
- if (red && red[i]>n) n=red[i];
- if (green && green[i]>n) n=green[i];
- if (blue && blue[i]>n) n=blue[i];
- if (gray && gray[i]>n) n=gray[i];
- }
-
- return n;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * HistogramStretch
- * \param method: 0 = luminance (default), 1 = linked channels , 2 = independent channels.
- * \param threshold: minimum percentage level in the histogram to recognize it as meaningful. Range: 0.0 to 1.0; default = 0; typical = 0.005 (0.5%);
- * \return true if everything is ok
- * \author [dave] and [nipper]; changes [DP]
- */
-bool CxImage::HistogramStretch(int32_t method, double threshold)
-{
- if (!pDib) return false;
-
- double dbScaler = 50.0/head.biHeight;
- int32_t x,y;
-
- if ((head.biBitCount==8) && IsGrayScale()){
-
- double p[256];
- memset(p, 0, 256*sizeof(double));
- for (y=0; y<head.biHeight; y++)
- {
- info.nProgress = (int32_t)(y*dbScaler);
- if (info.nEscape) break;
- for (x=0; x<head.biWidth; x++) {
- p[BlindGetPixelIndex(x, y)]++;
- }
- }
-
- double maxh = 0;
- for (y=0; y<255; y++) if (maxh < p[y]) maxh = p[y];
- threshold *= maxh;
- int32_t minc = 0;
- while (minc<255 && p[minc]<=threshold) minc++;
- int32_t maxc = 255;
- while (maxc>0 && p[maxc]<=threshold) maxc--;
-
- if (minc == 0 && maxc == 255) return true;
- if (minc >= maxc) return true;
-
- // calculate LUT
- uint8_t lut[256];
- for (x = 0; x <256; x++){
- lut[x] = (uint8_t)max(0,min(255,(255 * (x - minc) / (maxc - minc))));
- }
-
- for (y=0; y<head.biHeight; y++) {
- if (info.nEscape) break;
- info.nProgress = (int32_t)(50.0+y*dbScaler);
- for (x=0; x<head.biWidth; x++)
- {
- BlindSetPixelIndex(x, y, lut[BlindGetPixelIndex(x, y)]);
- }
- }
- } else {
- switch(method){
- case 1:
- { // <nipper>
- double p[256];
- memset(p, 0, 256*sizeof(double));
- for (y=0; y<head.biHeight; y++)
- {
- info.nProgress = (int32_t)(y*dbScaler);
- if (info.nEscape) break;
- for (x=0; x<head.biWidth; x++) {
- RGBQUAD color = BlindGetPixelColor(x, y);
- p[color.rgbRed]++;
- p[color.rgbBlue]++;
- p[color.rgbGreen]++;
- }
- }
- double maxh = 0;
- for (y=0; y<255; y++) if (maxh < p[y]) maxh = p[y];
- threshold *= maxh;
- int32_t minc = 0;
- while (minc<255 && p[minc]<=threshold) minc++;
- int32_t maxc = 255;
- while (maxc>0 && p[maxc]<=threshold) maxc--;
-
- if (minc == 0 && maxc == 255) return true;
- if (minc >= maxc) return true;
-
- // calculate LUT
- uint8_t lut[256];
- for (x = 0; x <256; x++){
- lut[x] = (uint8_t)max(0,min(255,(255 * (x - minc) / (maxc - minc))));
- }
-
- // normalize image
- for (y=0; y<head.biHeight; y++) {
- if (info.nEscape) break;
- info.nProgress = (int32_t)(50.0+y*dbScaler);
-
- for (x=0; x<head.biWidth; x++)
- {
- RGBQUAD color = BlindGetPixelColor(x, y);
-
- color.rgbRed = lut[color.rgbRed];
- color.rgbBlue = lut[color.rgbBlue];
- color.rgbGreen = lut[color.rgbGreen];
-
- BlindSetPixelColor(x, y, color);
- }
- }
- }
- break;
- case 2:
- { // <nipper>
- double pR[256];
- memset(pR, 0, 256*sizeof(double));
- double pG[256];
- memset(pG, 0, 256*sizeof(double));
- double pB[256];
- memset(pB, 0, 256*sizeof(double));
- for (y=0; y<head.biHeight; y++)
- {
- info.nProgress = (int32_t)(y*dbScaler);
- if (info.nEscape) break;
- for (int32_t x=0; x<head.biWidth; x++) {
- RGBQUAD color = BlindGetPixelColor(x, y);
- pR[color.rgbRed]++;
- pB[color.rgbBlue]++;
- pG[color.rgbGreen]++;
- }
- }
-
- double maxh = 0;
- for (y=0; y<255; y++) if (maxh < pR[y]) maxh = pR[y];
- double threshold2 = threshold*maxh;
- int32_t minR = 0;
- while (minR<255 && pR[minR]<=threshold2) minR++;
- int32_t maxR = 255;
- while (maxR>0 && pR[maxR]<=threshold2) maxR--;
-
- maxh = 0;
- for (y=0; y<255; y++) if (maxh < pG[y]) maxh = pG[y];
- threshold2 = threshold*maxh;
- int32_t minG = 0;
- while (minG<255 && pG[minG]<=threshold2) minG++;
- int32_t maxG = 255;
- while (maxG>0 && pG[maxG]<=threshold2) maxG--;
-
- maxh = 0;
- for (y=0; y<255; y++) if (maxh < pB[y]) maxh = pB[y];
- threshold2 = threshold*maxh;
- int32_t minB = 0;
- while (minB<255 && pB[minB]<=threshold2) minB++;
- int32_t maxB = 255;
- while (maxB>0 && pB[maxB]<=threshold2) maxB--;
-
- if (minR == 0 && maxR == 255 && minG == 0 && maxG == 255 && minB == 0 && maxB == 255)
- return true;
-
- // calculate LUT
- uint8_t lutR[256];
- uint8_t range = maxR - minR;
- if (range != 0) {
- for (x = 0; x <256; x++){
- lutR[x] = (uint8_t)max(0,min(255,(255 * (x - minR) / range)));
- }
- } else lutR[minR] = minR;
-
- uint8_t lutG[256];
- range = maxG - minG;
- if (range != 0) {
- for (x = 0; x <256; x++){
- lutG[x] = (uint8_t)max(0,min(255,(255 * (x - minG) / range)));
- }
- } else lutG[minG] = minG;
-
- uint8_t lutB[256];
- range = maxB - minB;
- if (range != 0) {
- for (x = 0; x <256; x++){
- lutB[x] = (uint8_t)max(0,min(255,(255 * (x - minB) / range)));
- }
- } else lutB[minB] = minB;
-
- // normalize image
- for (y=0; y<head.biHeight; y++)
- {
- info.nProgress = (int32_t)(50.0+y*dbScaler);
- if (info.nEscape) break;
-
- for (x=0; x<head.biWidth; x++)
- {
- RGBQUAD color = BlindGetPixelColor(x, y);
-
- color.rgbRed = lutR[color.rgbRed];
- color.rgbBlue = lutB[color.rgbBlue];
- color.rgbGreen = lutG[color.rgbGreen];
-
- BlindSetPixelColor(x, y, color);
- }
- }
- }
- break;
- default:
- { // <dave>
- double p[256];
- memset(p, 0, 256*sizeof(double));
- for (y=0; y<head.biHeight; y++)
- {
- info.nProgress = (int32_t)(y*dbScaler);
- if (info.nEscape) break;
- for (x=0; x<head.biWidth; x++) {
- RGBQUAD color = BlindGetPixelColor(x, y);
- p[RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue)]++;
- }
- }
-
- double maxh = 0;
- for (y=0; y<255; y++) if (maxh < p[y]) maxh = p[y];
- threshold *= maxh;
- int32_t minc = 0;
- while (minc<255 && p[minc]<=threshold) minc++;
- int32_t maxc = 255;
- while (maxc>0 && p[maxc]<=threshold) maxc--;
-
- if (minc == 0 && maxc == 255) return true;
- if (minc >= maxc) return true;
-
- // calculate LUT
- uint8_t lut[256];
- for (x = 0; x <256; x++){
- lut[x] = (uint8_t)max(0,min(255,(255 * (x - minc) / (maxc - minc))));
- }
-
- for(y=0; y<head.biHeight; y++){
- info.nProgress = (int32_t)(50.0+y*dbScaler);
- if (info.nEscape) break;
- for(x=0; x<head.biWidth; x++){
-
- RGBQUAD color = BlindGetPixelColor( x, y );
- RGBQUAD yuvClr = RGBtoYUV(color);
- yuvClr.rgbRed = lut[yuvClr.rgbRed];
- color = YUVtoRGB(yuvClr);
- BlindSetPixelColor( x, y, color );
- }
- }
- }
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// HistogramEqualize function by <dave> : dave(at)posortho(dot)com
-bool CxImage::HistogramEqualize()
-{
- if (!pDib) return false;
-
- int32_t histogram[256];
- int32_t map[256];
- int32_t equalize_map[256];
- int32_t x, y, i, j;
- RGBQUAD color;
- RGBQUAD yuvClr;
- uint32_t YVal, high, low;
-
- memset( &histogram, 0, sizeof(int32_t) * 256 );
- memset( &map, 0, sizeof(int32_t) * 256 );
- memset( &equalize_map, 0, sizeof(int32_t) * 256 );
-
- // form histogram
- for(y=0; y < head.biHeight; y++){
- info.nProgress = (int32_t)(50*y/head.biHeight);
- if (info.nEscape) break;
- for(x=0; x < head.biWidth; x++){
- color = BlindGetPixelColor( x, y );
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- histogram[YVal]++;
- }
- }
-
- // integrate the histogram to get the equalization map.
- j = 0;
- for(i=0; i <= 255; i++){
- j += histogram[i];
- map[i] = j;
- }
-
- // equalize
- low = map[0];
- high = map[255];
- if (low == high) return false;
- for( i = 0; i <= 255; i++ ){
- equalize_map[i] = (uint32_t)((((double)( map[i] - low ) ) * 255) / ( high - low ) );
- }
-
- // stretch the histogram
- if(head.biClrUsed == 0){ // No Palette
- for( y = 0; y < head.biHeight; y++ ){
- info.nProgress = (int32_t)(50+50*y/head.biHeight);
- if (info.nEscape) break;
- for( x = 0; x < head.biWidth; x++ ){
-
- color = BlindGetPixelColor( x, y );
- yuvClr = RGBtoYUV(color);
-
- yuvClr.rgbRed = (uint8_t)equalize_map[yuvClr.rgbRed];
-
- color = YUVtoRGB(yuvClr);
- BlindSetPixelColor( x, y, color );
- }
- }
- } else { // Palette
- for( i = 0; i < (int32_t)head.biClrUsed; i++ ){
-
- color = GetPaletteColor((uint8_t)i);
- yuvClr = RGBtoYUV(color);
-
- yuvClr.rgbRed = (uint8_t)equalize_map[yuvClr.rgbRed];
-
- color = YUVtoRGB(yuvClr);
- SetPaletteColor( (uint8_t)i, color );
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// HistogramNormalize function by <dave> : dave(at)posortho(dot)com
-bool CxImage::HistogramNormalize()
-{
- if (!pDib) return false;
-
- int32_t histogram[256];
- int32_t threshold_intensity, intense;
- int32_t x, y, i;
- uint32_t normalize_map[256];
- uint32_t high, low, YVal;
-
- RGBQUAD color;
- RGBQUAD yuvClr;
-
- memset( &histogram, 0, sizeof( int32_t ) * 256 );
- memset( &normalize_map, 0, sizeof( uint32_t ) * 256 );
-
- // form histogram
- for(y=0; y < head.biHeight; y++){
- info.nProgress = (int32_t)(50*y/head.biHeight);
- if (info.nEscape) break;
- for(x=0; x < head.biWidth; x++){
- color = BlindGetPixelColor( x, y );
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- histogram[YVal]++;
- }
- }
-
- // find histogram boundaries by locating the 1 percent levels
- threshold_intensity = ( head.biWidth * head.biHeight) / 100;
-
- intense = 0;
- for( low = 0; low < 255; low++ ){
- intense += histogram[low];
- if( intense > threshold_intensity ) break;
- }
-
- intense = 0;
- for( high = 255; high != 0; high--){
- intense += histogram[ high ];
- if( intense > threshold_intensity ) break;
- }
-
- if ( low == high ){
- // Unreasonable contrast; use zero threshold to determine boundaries.
- threshold_intensity = 0;
- intense = 0;
- for( low = 0; low < 255; low++){
- intense += histogram[low];
- if( intense > threshold_intensity ) break;
- }
- intense = 0;
- for( high = 255; high != 0; high-- ){
- intense += histogram [high ];
- if( intense > threshold_intensity ) break;
- }
- }
- if( low == high ) return false; // zero span bound
-
- // Stretch the histogram to create the normalized image mapping.
- for(i = 0; i <= 255; i++){
- if ( i < (int32_t) low ){
- normalize_map[i] = 0;
- } else {
- if(i > (int32_t) high)
- normalize_map[i] = 255;
- else
- normalize_map[i] = ( 255 - 1) * ( i - low) / ( high - low );
- }
- }
-
- // Normalize
- if( head.biClrUsed == 0 ){
- for( y = 0; y < head.biHeight; y++ ){
- info.nProgress = (int32_t)(50+50*y/head.biHeight);
- if (info.nEscape) break;
- for( x = 0; x < head.biWidth; x++ ){
-
- color = BlindGetPixelColor( x, y );
- yuvClr = RGBtoYUV( color );
-
- yuvClr.rgbRed = (uint8_t)normalize_map[yuvClr.rgbRed];
-
- color = YUVtoRGB( yuvClr );
- BlindSetPixelColor( x, y, color );
- }
- }
- } else {
- for(i = 0; i < (int32_t)head.biClrUsed; i++){
-
- color = GetPaletteColor( (uint8_t)i );
- yuvClr = RGBtoYUV( color );
-
- yuvClr.rgbRed = (uint8_t)normalize_map[yuvClr.rgbRed];
-
- color = YUVtoRGB( yuvClr );
- SetPaletteColor( (uint8_t)i, color );
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// HistogramLog function by <dave> : dave(at)posortho(dot)com
-bool CxImage::HistogramLog()
-{
- if (!pDib) return false;
-
- //q(i,j) = 255/log(1 + |high|) * log(1 + |p(i,j)|);
- int32_t x, y, i;
- RGBQUAD color;
- RGBQUAD yuvClr;
-
- uint32_t YVal, high = 1;
-
- // Find Highest Luminance Value in the Image
- if( head.biClrUsed == 0 ){ // No Palette
- for(y=0; y < head.biHeight; y++){
- info.nProgress = (int32_t)(50*y/head.biHeight);
- if (info.nEscape) break;
- for(x=0; x < head.biWidth; x++){
- color = BlindGetPixelColor( x, y );
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- if (YVal > high ) high = YVal;
- }
- }
- } else { // Palette
- for(i = 0; i < (int32_t)head.biClrUsed; i++){
- color = GetPaletteColor((uint8_t)i);
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- if (YVal > high ) high = YVal;
- }
- }
-
- // Logarithm Operator
- double k = 255.0 / ::log( 1.0 + (double)high );
- if( head.biClrUsed == 0 ){
- for( y = 0; y < head.biHeight; y++ ){
- info.nProgress = (int32_t)(50+50*y/head.biHeight);
- if (info.nEscape) break;
- for( x = 0; x < head.biWidth; x++ ){
-
- color = BlindGetPixelColor( x, y );
- yuvClr = RGBtoYUV( color );
-
- yuvClr.rgbRed = (uint8_t)(k * ::log( 1.0 + (double)yuvClr.rgbRed ) );
-
- color = YUVtoRGB( yuvClr );
- BlindSetPixelColor( x, y, color );
- }
- }
- } else {
- for(i = 0; i < (int32_t)head.biClrUsed; i++){
-
- color = GetPaletteColor( (uint8_t)i );
- yuvClr = RGBtoYUV( color );
-
- yuvClr.rgbRed = (uint8_t)(k * ::log( 1.0 + (double)yuvClr.rgbRed ) );
-
- color = YUVtoRGB( yuvClr );
- SetPaletteColor( (uint8_t)i, color );
- }
- }
-
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// HistogramRoot function by <dave> : dave(at)posortho(dot)com
-bool CxImage::HistogramRoot()
-{
- if (!pDib) return false;
- //q(i,j) = sqrt(|p(i,j)|);
-
- int32_t x, y, i;
- RGBQUAD color;
- RGBQUAD yuvClr;
- double dtmp;
- uint32_t YVal, high = 1;
-
- // Find Highest Luminance Value in the Image
- if( head.biClrUsed == 0 ){ // No Palette
- for(y=0; y < head.biHeight; y++){
- info.nProgress = (int32_t)(50*y/head.biHeight);
- if (info.nEscape) break;
- for(x=0; x < head.biWidth; x++){
- color = BlindGetPixelColor( x, y );
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- if (YVal > high ) high = YVal;
- }
- }
- } else { // Palette
- for(i = 0; i < (int32_t)head.biClrUsed; i++){
- color = GetPaletteColor((uint8_t)i);
- YVal = (uint32_t)RGB2GRAY(color.rgbRed, color.rgbGreen, color.rgbBlue);
- if (YVal > high ) high = YVal;
- }
- }
-
- // Root Operator
- double k = 256.0 / ::sqrt( 1.0 + (double)high );
- if( head.biClrUsed == 0 ){
- for( y = 0; y < head.biHeight; y++ ){
- info.nProgress = (int32_t)(50+50*y/head.biHeight);
- if (info.nEscape) break;
- for( x = 0; x < head.biWidth; x++ ){
-
- color = BlindGetPixelColor( x, y );
- yuvClr = RGBtoYUV( color );
-
- dtmp = k * ::sqrt( (double)yuvClr.rgbRed );
- if ( dtmp > 255.0 ) dtmp = 255.0;
- if ( dtmp < 0 ) dtmp = 0;
- yuvClr.rgbRed = (uint8_t)dtmp;
-
- color = YUVtoRGB( yuvClr );
- BlindSetPixelColor( x, y, color );
- }
- }
- } else {
- for(i = 0; i < (int32_t)head.biClrUsed; i++){
-
- color = GetPaletteColor( (uint8_t)i );
- yuvClr = RGBtoYUV( color );
-
- dtmp = k * ::sqrt( (double)yuvClr.rgbRed );
- if ( dtmp > 255.0 ) dtmp = 255.0;
- if ( dtmp < 0 ) dtmp = 0;
- yuvClr.rgbRed = (uint8_t)dtmp;
-
- color = YUVtoRGB( yuvClr );
- SetPaletteColor( (uint8_t)i, color );
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif
diff --git a/hge/CxImage/ximaico.cpp b/hge/CxImage/ximaico.cpp deleted file mode 100644 index a808697..0000000 --- a/hge/CxImage/ximaico.cpp +++ /dev/null @@ -1,470 +0,0 @@ -/*
- * File: ximaico.cpp
- * Purpose: Platform Independent ICON Image Class Loader and Writer (MS version)
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximaico.h"
-
-#if CXIMAGE_SUPPORT_ICO
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageICO::Decode(CxFile *hFile)
-{
- if (hFile==NULL) return false;
-
- uint32_t off = hFile->Tell(); //<yuandi>
- int32_t page=info.nFrame; //internal icon structure indexes
-
- // read the first part of the header
- ICONHEADER icon_header;
- hFile->Read(&icon_header,sizeof(ICONHEADER),1);
-
- icon_header.idType = m_ntohs(icon_header.idType);
- icon_header.idCount = m_ntohs(icon_header.idCount);
-
- // check if it's an icon or a cursor
- if ((icon_header.idReserved == 0) && ((icon_header.idType == 1)||(icon_header.idType == 2))) {
-
- info.nNumFrames = icon_header.idCount;
-
- // load the icon descriptions
- ICONDIRENTRY *icon_list = (ICONDIRENTRY *)malloc(icon_header.idCount * sizeof(ICONDIRENTRY));
- int32_t c;
- for (c = 0; c < icon_header.idCount; c++) {
- hFile->Read(icon_list + c, sizeof(ICONDIRENTRY), 1);
-
- icon_list[c].wPlanes = m_ntohs(icon_list[c].wPlanes);
- icon_list[c].wBitCount = m_ntohs(icon_list[c].wBitCount);
- icon_list[c].dwBytesInRes = m_ntohl(icon_list[c].dwBytesInRes);
- icon_list[c].dwImageOffset = m_ntohl(icon_list[c].dwImageOffset);
- }
-
- if ((page>=0)&&(page<icon_header.idCount)){
-
- if (info.nEscape == -1) {
- // Return output dimensions only
- head.biWidth = icon_list[page].bWidth;
- head.biHeight = icon_list[page].bHeight;
-#if CXIMAGE_SUPPORT_PNG
- if (head.biWidth==0 && head.biHeight==0)
- { // Vista icon support
- hFile->Seek(off + icon_list[page].dwImageOffset, SEEK_SET);
- CxImage png;
- png.SetEscape(-1);
- if (png.Decode(hFile,CXIMAGE_FORMAT_PNG)){
- Transfer(png);
- info.nNumFrames = icon_header.idCount;
- }
- }
-#endif //CXIMAGE_SUPPORT_PNG
- free(icon_list);
- info.dwType = CXIMAGE_FORMAT_ICO;
- return true;
- }
-
- // get the bit count for the colors in the icon <CoreyRLucier>
- BITMAPINFOHEADER bih;
- hFile->Seek(off + icon_list[page].dwImageOffset, SEEK_SET);
-
- if (icon_list[page].bWidth==0 && icon_list[page].bHeight==0)
- { // Vista icon support
-#if CXIMAGE_SUPPORT_PNG
- CxImage png;
- if (png.Decode(hFile,CXIMAGE_FORMAT_PNG)){
- Transfer(png);
- info.nNumFrames = icon_header.idCount;
- }
- SetType(CXIMAGE_FORMAT_ICO);
-#endif //CXIMAGE_SUPPORT_PNG
- }
- else
- { // standard icon
- hFile->Read(&bih,sizeof(BITMAPINFOHEADER),1);
-
- bihtoh(&bih);
-
- c = bih.biBitCount;
-
- // allocate memory for one icon
- Create(icon_list[page].bWidth,icon_list[page].bHeight, c, CXIMAGE_FORMAT_ICO); //image creation
-
- // read the palette
- RGBQUAD pal[256];
- if (bih.biClrUsed)
- hFile->Read(pal,bih.biClrUsed*sizeof(RGBQUAD), 1);
- else
- hFile->Read(pal,head.biClrUsed*sizeof(RGBQUAD), 1);
-
- SetPalette(pal,head.biClrUsed); //palette assign
-
- //read the icon
- if (c<=24){
- hFile->Read(info.pImage, head.biSizeImage, 1);
- } else { // 32 bit icon
- uint8_t* buf=(uint8_t*)malloc(4*head.biHeight*head.biWidth);
- uint8_t* src = buf;
- hFile->Read(buf, 4*head.biHeight*head.biWidth, 1);
-#if CXIMAGE_SUPPORT_ALPHA
- if (!AlphaIsValid()) AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
- for (int32_t y = 0; y < head.biHeight; y++) {
- uint8_t* dst = GetBits(y);
- for(int32_t x=0;x<head.biWidth;x++){
- *dst++=src[0];
- *dst++=src[1];
- *dst++=src[2];
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaSet(x,y,src[3]);
-#endif //CXIMAGE_SUPPORT_ALPHA
- src+=4;
- }
- }
- free(buf);
- }
- // apply the AND and XOR masks
- int32_t maskwdt = ((head.biWidth+31) / 32) * 4; //line width of AND mask (always 1 Bpp)
- int32_t masksize = head.biHeight * maskwdt; //size of mask
- uint8_t *mask = (uint8_t *)malloc(masksize);
- if (hFile->Read(mask, masksize, 1)){
-
- bool bGoodMask=false;
- for (int32_t im=0;im<masksize;im++){
- if (mask[im]!=255){
- bGoodMask=true;
- break;
- }
- }
-
- if (bGoodMask){
-#if CXIMAGE_SUPPORT_ALPHA
- bool bNeedAlpha = false;
- if (!AlphaIsValid()){
- AlphaCreate();
- } else {
- bNeedAlpha=true; //32bit icon
- }
- int32_t x,y;
- for (y = 0; y < head.biHeight; y++) {
- for (x = 0; x < head.biWidth; x++) {
- if (((mask[y*maskwdt+(x>>3)]>>(7-x%8))&0x01)){
- AlphaSet(x,y,0);
- bNeedAlpha=true;
- }
- }
- }
- if (!bNeedAlpha) AlphaDelete();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- //check if there is only one transparent color
- RGBQUAD cc,ct;
- int32_t nTransColors=0;
- int32_t nTransIndex=0;
- for (y = 0; y < head.biHeight; y++){
- for (x = 0; x < head.biWidth; x++){
- if (((mask[y*maskwdt+(x>>3)] >> (7-x%8)) & 0x01)){
- cc = GetPixelColor(x,y,false);
- if (nTransColors==0){
- nTransIndex = GetPixelIndex(x,y);
- nTransColors++;
- ct = cc;
- } else {
- if (memcmp(&cc, &ct, sizeof(RGBQUAD)) != 0){
- nTransColors++;
- }
- }
- }
- }
- }
- if (nTransColors==1 && c<=8){
- SetTransColor(ct);
- SetTransIndex(nTransIndex);
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaDelete(); //because we have a unique transparent color in the image
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- // <vho> - Transparency support w/o Alpha support
- if (c <= 8){ // only for icons with less than 256 colors (XP icons need alpha).
-
- // find a color index, which is not used in the image
- // it is almost sure to find one, bcs. nobody uses all possible colors for an icon
-
- uint8_t colorsUsed[256];
- memset(colorsUsed, 0, sizeof(colorsUsed));
-
- for (y = 0; y < head.biHeight; y++){
- for (x = 0; x < head.biWidth; x++){
- colorsUsed[BlindGetPixelIndex(x,y)] = 1;
- }
- }
-
- int32_t iTransIdx = -1;
- for (x = (int32_t)(head.biClrUsed-1); x>=0 ; x--){
- if (colorsUsed[x] == 0){
- iTransIdx = x; // this one is not in use. we may use it as transparent color
- break;
- }
- }
-
- // Go thru image and set unused color as transparent index if needed
- if (iTransIdx >= 0){
- bool bNeedTrans = false;
- for (y = 0; y < head.biHeight; y++){
- for (x = 0; x < head.biWidth; x++){
- // AND mask (Each Byte represents 8 Pixels)
- if (((mask[y*maskwdt+(x>>3)] >> (7-x%8)) & 0x01)){
- // AND mask is set (!=0). This is a transparent part
- SetPixelIndex(x, y, (uint8_t)iTransIdx);
- bNeedTrans = true;
- }
- }
- }
- // set transparent index if needed
- if (bNeedTrans) SetTransIndex(iTransIdx);
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaDelete(); //because we have a transparent color in the palette
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- } else {
- SetTransIndex(0); //empty mask, set black as transparent color
- Negative();
- }
- }
- free(mask);
- }
- free(icon_list);
- // icon has been loaded successfully!
- return true;
- }
- free(icon_list);
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-// Thanks to <Alas>
-bool CxImageICO::Encode(CxFile * hFile, CxImage ** pImages, int32_t nPageCount)
-{
- cx_try
- {
- if (hFile==NULL) cx_throw("invalid file pointer");
- if (pImages==NULL || nPageCount<=0) cx_throw("multipage ICO, no images!");
-
- int32_t i;
- for (i=0; i<nPageCount; i++){
- if (pImages[i]==NULL)
- cx_throw("Bad image pointer");
- if (!(pImages[i]->IsValid()))
- cx_throw("Empty image");
- }
-
- CxImageICO ghost;
- for (i=0; i<nPageCount; i++){ //write headers
- ghost.Ghost(pImages[i]);
- ghost.info.nNumFrames = nPageCount;
- if (i==0) {
- if (!ghost.Encode(hFile,false,nPageCount))
- cx_throw("Error writing ICO file header");
- }
- if (!ghost.Encode(hFile,true,nPageCount))
- cx_throw("Error saving ICO image header");
- }
- for (i=0; i<nPageCount; i++){ //write bodies
- ghost.Ghost(pImages[i]);
- ghost.info.nNumFrames = nPageCount;
- if (!ghost.Encode(hFile,true,i))
- cx_throw("Error saving ICO body");
- }
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageICO::Encode(CxFile * hFile, bool bAppend, int32_t nPageCount)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
-#if CXIMAGE_SUPPORT_PNG == 0
- //check format limits
- if ((head.biWidth>255)||(head.biHeight>255)){
- strcpy(info.szLastError,"Can't save this image as icon");
- return false;
- }
-#endif
-
- //prepare the palette struct
- RGBQUAD* pal=GetPalette();
- if (head.biBitCount<=8 && pal==NULL) return false;
-
- int32_t maskwdt=((head.biWidth+31)/32)*4; //mask line width
- int32_t masksize=head.biHeight * maskwdt; //size of mask
- int32_t bitcount=head.biBitCount;
- int32_t imagesize=head.biSizeImage;
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid() && head.biClrUsed==0){
- bitcount=32;
- imagesize=4*head.biHeight*head.biWidth;
- }
-#endif
-
- //fill the icon headers
- int32_t nPages = nPageCount;
- if (nPages<1) nPages = 1;
-
- ICONHEADER icon_header={0,1,nPages};
-
- if (!bAppend)
- m_dwImageOffset = sizeof(ICONHEADER) + nPages * sizeof(ICONDIRENTRY);
-
- uint32_t dwBytesInRes = sizeof(BITMAPINFOHEADER)+head.biClrUsed*sizeof(RGBQUAD)+imagesize+masksize;
-
- ICONDIRENTRY icon_list={
- (uint8_t)head.biWidth,
- (uint8_t)head.biHeight,
- (uint8_t)head.biClrUsed,
- 0, 0,
- (uint16_t)bitcount,
- dwBytesInRes,
- m_dwImageOffset
- };
-
- BITMAPINFOHEADER bi={
- sizeof(BITMAPINFOHEADER),
- head.biWidth,
- 2*head.biHeight,
- 1,
- (uint16_t)bitcount,
- 0, imagesize,
- 0, 0, 0, 0
- };
-
-#if CXIMAGE_SUPPORT_PNG // Vista icon support
- CxImage png(*this);
- CxMemFile memfile;
- if (head.biWidth>255 || head.biHeight>255){
- icon_list.bWidth = icon_list.bHeight = 0;
- memfile.Open();
- png.Encode(&memfile,CXIMAGE_FORMAT_PNG);
- icon_list.dwBytesInRes = dwBytesInRes = memfile.Size();
- }
-#endif //CXIMAGE_SUPPORT_PNG
-
- if (!bAppend){
- icon_header.idType = m_ntohs(icon_header.idType);
- icon_header.idCount = m_ntohs(icon_header.idCount);
- hFile->Write(&icon_header,sizeof(ICONHEADER),1); //write the file header
- icon_header.idType = m_ntohs(icon_header.idType);
- icon_header.idCount = m_ntohs(icon_header.idCount);
- }
-
-
- if ((bAppend && nPageCount==info.nNumFrames) || (!bAppend && nPageCount==0)){
- icon_list.wPlanes = m_ntohs(icon_list.wPlanes);
- icon_list.wBitCount = m_ntohs(icon_list.wBitCount);
- icon_list.dwBytesInRes = m_ntohl(icon_list.dwBytesInRes);
- icon_list.dwImageOffset = m_ntohl(icon_list.dwImageOffset);
- hFile->Write(&icon_list,sizeof(ICONDIRENTRY),1); //write the image entry
- icon_list.wPlanes = m_ntohs(icon_list.wPlanes);
- icon_list.wBitCount = m_ntohs(icon_list.wBitCount);
- icon_list.dwBytesInRes = m_ntohl(icon_list.dwBytesInRes);
- icon_list.dwImageOffset = m_ntohl(icon_list.dwImageOffset);
-
- m_dwImageOffset += dwBytesInRes; //update offset for next header
- }
-
- if ((bAppend && nPageCount<info.nNumFrames) || (!bAppend && nPageCount==0))
- {
-#if CXIMAGE_SUPPORT_PNG
- if (icon_list.bWidth==0 && icon_list.bHeight==0) { // Vista icon support
- hFile->Write(memfile.GetBuffer(false),dwBytesInRes,1);
- } else
-#endif //CXIMAGE_SUPPORT_PNG
- { // standard icon
- bihtoh(&bi);
- hFile->Write(&bi,sizeof(BITMAPINFOHEADER),1); //write the image header
- bihtoh(&bi);
-
- bool bTransparent = info.nBkgndIndex >= 0;
- RGBQUAD ct = GetTransColor();
- if (pal){
- if (bTransparent) SetPaletteColor((uint8_t)info.nBkgndIndex,0,0,0,0);
- hFile->Write(pal,head.biClrUsed*sizeof(RGBQUAD),1); //write palette
- if (bTransparent) SetPaletteColor((uint8_t)info.nBkgndIndex,ct);
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid() && head.biClrUsed==0){
- uint8_t* buf=(uint8_t*)malloc(imagesize);
- uint8_t* dst = buf;
- for (int32_t y = 0; y < head.biHeight; y++) {
- uint8_t* src = GetBits(y);
- for(int32_t x=0;x<head.biWidth;x++){
- *dst++=*src++;
- *dst++=*src++;
- *dst++=*src++;
- *dst++=AlphaGet(x,y);
- }
- }
- hFile->Write(buf,imagesize, 1);
- free(buf);
- } else {
- hFile->Write(info.pImage,imagesize,1); //write image
- }
-#else
- hFile->Write(info.pImage,imagesize,1); //write image
-#endif
-
- //save transparency mask
- uint8_t* mask=(uint8_t*)calloc(masksize,1); //create empty AND/XOR masks
- if (!mask) return false;
-
- //prepare the variables to build the mask
- uint8_t* iDst;
- int32_t pos,i;
- RGBQUAD c={0,0,0,0};
- int32_t* pc = (int32_t*)&c;
- int32_t* pct= (int32_t*)&ct;
-#if CXIMAGE_SUPPORT_ALPHA
- bool bAlphaPaletteIsValid = AlphaPaletteIsValid();
- bool bAlphaIsValid = AlphaIsValid();
-#endif
- //build the mask
- for (int32_t y = 0; y < head.biHeight; y++) {
- for (int32_t x = 0; x < head.biWidth; x++) {
- i=0;
-#if CXIMAGE_SUPPORT_ALPHA
- if (bAlphaIsValid && AlphaGet(x,y)==0) i=1;
- if (bAlphaPaletteIsValid && BlindGetPixelColor(x,y).rgbReserved==0) i=1;
-#endif
- c=GetPixelColor(x,y,false);
- if (bTransparent && *pc==*pct) i=1;
- iDst = mask + y*maskwdt + (x>>3);
- pos = 7-x%8;
- *iDst &= ~(0x01<<pos);
- *iDst |= ((i & 0x01)<<pos);
- }
- }
- //write AND/XOR masks
- hFile->Write(mask,masksize,1);
- free(mask);
- }
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ICO
-
diff --git a/hge/CxImage/ximaico.h b/hge/CxImage/ximaico.h deleted file mode 100644 index 8d81b02..0000000 --- a/hge/CxImage/ximaico.h +++ /dev/null @@ -1,58 +0,0 @@ -/*
- * File: ximaico.h
- * Purpose: ICON Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageICO (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- * ==========================================================
- */
-#if !defined(__ximaICO_h)
-#define __ximaICO_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_ICO
-
-class CxImageICO: public CxImage
-{
-typedef struct tagIconDirectoryEntry {
- uint8_t bWidth;
- uint8_t bHeight;
- uint8_t bColorCount;
- uint8_t bReserved;
- uint16_t wPlanes;
- uint16_t wBitCount;
- uint32_t dwBytesInRes;
- uint32_t dwImageOffset;
-} ICONDIRENTRY;
-
-typedef struct tagIconDir {
- uint16_t idReserved;
- uint16_t idType;
- uint16_t idCount;
-} ICONHEADER;
-
-public:
- CxImageICO(): CxImage(CXIMAGE_FORMAT_ICO) {m_dwImageOffset=0;}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_ICO);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_ICO);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile, bool bAppend=false, int32_t nPageCount=0);
- bool Encode(CxFile * hFile, CxImage ** pImages, int32_t nPageCount);
- bool Encode(FILE *hFile, bool bAppend=false, int32_t nPageCount=0)
- { CxIOFile file(hFile); return Encode(&file,bAppend,nPageCount); }
- bool Encode(FILE *hFile, CxImage ** pImages, int32_t nPageCount)
- { CxIOFile file(hFile); return Encode(&file, pImages, nPageCount); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-protected:
- uint32_t m_dwImageOffset;
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximainfo.cpp b/hge/CxImage/ximainfo.cpp deleted file mode 100644 index 582d9ed..0000000 --- a/hge/CxImage/ximainfo.cpp +++ /dev/null @@ -1,958 +0,0 @@ -// ximainfo.cpp : main attributes
-/* 03/10/2004 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#if defined(_LINUX) || defined(__APPLE__)
- #define _tcsnicmp(a,b,c) strcasecmp(a,b)
-#endif
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return the color used for transparency, and/or for background color
- */
-RGBQUAD CxImage::GetTransColor()
-{
- if (head.biBitCount<24 && info.nBkgndIndex>=0) return GetPaletteColor((uint8_t)info.nBkgndIndex);
- return info.nBkgndColor;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the index used for transparency. Returns -1 for no transparancy.
- */
-int32_t CxImage::GetTransIndex() const
-{
- return info.nBkgndIndex;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the index used for transparency with 1, 4 and 8 bpp images. Set to -1 to remove the effect.
- */
-void CxImage::SetTransIndex(int32_t idx)
-{
- if (idx<(int32_t)head.biClrUsed)
- info.nBkgndIndex = idx;
- else
- info.nBkgndIndex = 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the color used for transparency with 24 bpp images.
- * You must call SetTransIndex(0) to enable the effect, SetTransIndex(-1) to disable it.
- */
-void CxImage::SetTransColor(RGBQUAD rgb)
-{
- rgb.rgbReserved=0;
- info.nBkgndColor = rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::IsTransparent() const
-{
- return info.nBkgndIndex>=0; // <vho>
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns true if the image has 256 colors or less.
- */
-bool CxImage::IsIndexed() const
-{
- return head.biClrUsed!=0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return 1 = indexed, 2 = RGB, 4 = RGBA
- */
-uint8_t CxImage::GetColorType()
-{
- uint8_t b = (uint8_t)((head.biBitCount>8) ? 2 /*COLORTYPE_COLOR*/ : 1 /*COLORTYPE_PALETTE*/);
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) b = 4 /*COLORTYPE_ALPHA*/;
-#endif //CXIMAGE_SUPPORT_ALPHA
- return b;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return Resolution for TIFF, JPEG, PNG and BMP formats.
- */
-int32_t CxImage::GetXDPI() const
-{
- return info.xDPI;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return Resolution for TIFF, JPEG, PNG and BMP formats.
- */
-int32_t CxImage::GetYDPI() const
-{
- return info.yDPI;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Set resolution for TIFF, JPEG, PNG and BMP formats.
- */
-void CxImage::SetXDPI(int32_t dpi)
-{
- if (dpi<=0) dpi = CXIMAGE_DEFAULT_DPI;
- info.xDPI = dpi;
- head.biXPelsPerMeter = (int32_t) floor(dpi * 10000.0 / 254.0 + 0.5);
- if (pDib) ((BITMAPINFOHEADER*)pDib)->biXPelsPerMeter = head.biXPelsPerMeter;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Set resolution for TIFF, JPEG, PNG and BMP formats.
- */
-void CxImage::SetYDPI(int32_t dpi)
-{
- if (dpi<=0) dpi = CXIMAGE_DEFAULT_DPI;
- info.yDPI = dpi;
- head.biYPelsPerMeter = (int32_t) floor(dpi * 10000.0 / 254.0 + 0.5);
- if (pDib) ((BITMAPINFOHEADER*)pDib)->biYPelsPerMeter = head.biYPelsPerMeter;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetFlags
- */
-uint32_t CxImage::GetFlags() const
-{
- return info.dwFlags;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Image flags, for future use
- * \param flags
- * - 0x??00000 = reserved for 16 bit, CMYK, multilayer
- * - 0x00??0000 = blend modes
- * - 0x0000???? = layer id or user flags
- *
- * \param bLockReservedFlags protects the "reserved" and "blend modes" flags
- */
-void CxImage::SetFlags(uint32_t flags, bool bLockReservedFlags)
-{
- if (bLockReservedFlags) info.dwFlags = flags & 0x0000ffff;
- else info.dwFlags = flags;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetCodecOption
- */
-uint32_t CxImage::GetCodecOption(uint32_t imagetype)
-{
- imagetype = GetTypeIndexFromId(imagetype);
- if (imagetype==0){
- imagetype = GetTypeIndexFromId(GetType());
- }
- return info.dwCodecOpt[imagetype];
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Encode option for GIF, TIF, JPG, PNG and RAW
- * - GIF : 0 = LZW (default), 1 = none, 2 = RLE.
- * - TIF : 0 = automatic (default), or a valid compression code as defined in "tiff.h" (COMPRESSION_NONE = 1, COMPRESSION_CCITTRLE = 2, ...)
- * - JPG : valid values stored in enum CODEC_OPTION ( ENCODE_BASELINE = 0x01, ENCODE_PROGRESSIVE = 0x10, ...)
- * - PNG : combination of interlace option and compression option
- * interlace option : 1 = interlace, 0 = no interlace
- * compression option : 2 = no compression, 4 = best speed, 6 = best compression, 8 = default compression
- * default is no interlace and default compression
- * example : 5 = 1+4 = interlace + best speed
- * - RAW : valid values stored in enum CODEC_OPTION ( DECODE_QUALITY_LIN = 0x00, DECODE_QUALITY_VNG = 0x01, ...)
- *
- * \return true if everything is ok
- */
-bool CxImage::SetCodecOption(uint32_t opt, uint32_t imagetype)
-{
- imagetype = GetTypeIndexFromId(imagetype);
- if (imagetype==0){
- imagetype = GetTypeIndexFromId(GetType());
- }
- info.dwCodecOpt[imagetype] = opt;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return internal hDib object..
- */
-void* CxImage::GetDIB() const
-{
- return pDib;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetHeight() const
-{
- return head.biHeight;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetWidth() const
-{
- return head.biWidth;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return uint32_t aligned width of the image.
- */
-uint32_t CxImage::GetEffWidth() const
-{
- return info.dwEffWidth;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return 2, 16, 256; 0 for RGB images.
- */
-uint32_t CxImage::GetNumColors() const
-{
- return head.biClrUsed;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return: 1, 4, 8, 24.
- */
-uint16_t CxImage::GetBpp() const
-{
- return head.biBitCount;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return original image format
- * \sa ENUM_CXIMAGE_FORMATS.
- */
-uint32_t CxImage::GetType() const
-{
- return info.dwType;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * change image format identifier
- * \sa ENUM_CXIMAGE_FORMATS.
- */
-bool CxImage::SetType(uint32_t type)
-{
- switch (type){
-#if CXIMAGE_SUPPORT_BMP
- case CXIMAGE_FORMAT_BMP:
-#endif
-#if CXIMAGE_SUPPORT_GIF
- case CXIMAGE_FORMAT_GIF:
-#endif
-#if CXIMAGE_SUPPORT_JPG
- case CXIMAGE_FORMAT_JPG:
-#endif
-#if CXIMAGE_SUPPORT_PNG
- case CXIMAGE_FORMAT_PNG:
-#endif
-#if CXIMAGE_SUPPORT_MNG
- case CXIMAGE_FORMAT_MNG:
-#endif
-#if CXIMAGE_SUPPORT_ICO
- case CXIMAGE_FORMAT_ICO:
-#endif
-#if CXIMAGE_SUPPORT_TIF
- case CXIMAGE_FORMAT_TIF:
-#endif
-#if CXIMAGE_SUPPORT_TGA
- case CXIMAGE_FORMAT_TGA:
-#endif
-#if CXIMAGE_SUPPORT_PCX
- case CXIMAGE_FORMAT_PCX:
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- case CXIMAGE_FORMAT_WBMP:
-#endif
-#if CXIMAGE_SUPPORT_WMF
- case CXIMAGE_FORMAT_WMF:
-#endif
-#if CXIMAGE_SUPPORT_JBG
- case CXIMAGE_FORMAT_JBG:
-#endif
-#if CXIMAGE_SUPPORT_JP2
- case CXIMAGE_FORMAT_JP2:
-#endif
-#if CXIMAGE_SUPPORT_JPC
- case CXIMAGE_FORMAT_JPC:
-#endif
-#if CXIMAGE_SUPPORT_PGX
- case CXIMAGE_FORMAT_PGX:
-#endif
-#if CXIMAGE_SUPPORT_PNM
- case CXIMAGE_FORMAT_PNM:
-#endif
-#if CXIMAGE_SUPPORT_RAS
- case CXIMAGE_FORMAT_RAS:
-#endif
-#if CXIMAGE_SUPPORT_SKA
- case CXIMAGE_FORMAT_SKA:
-#endif
-#if CXIMAGE_SUPPORT_RAW
- case CXIMAGE_FORMAT_RAW:
-#endif
-#if CXIMAGE_SUPPORT_PSD
- case CXIMAGE_FORMAT_PSD:
-#endif
- info.dwType = type;
- return true;
- case CXIMAGE_FORMAT_UNKNOWN:
- default:
- info.dwType = CXIMAGE_FORMAT_UNKNOWN;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetNumTypes()
-{
- return CMAX_IMAGE_FORMATS-1;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetTypeIdFromName(const TCHAR* ext)
-{
-#if CXIMAGE_SUPPORT_BMP
- if (_tcsnicmp(ext,_T("bmp"),3)==0 ) return CXIMAGE_FORMAT_BMP;
-#endif
-#if CXIMAGE_SUPPORT_JPG
- if (_tcsnicmp(ext,_T("jpg"),3)==0 ||
- _tcsnicmp(ext,_T("jpe"),3)==0 ||
- _tcsnicmp(ext,_T("jfi"),3)==0 ) return CXIMAGE_FORMAT_JPG;
-#endif
-#if CXIMAGE_SUPPORT_GIF
- if (_tcsnicmp(ext,_T("gif"),3)==0 ) return CXIMAGE_FORMAT_GIF;
-#endif
-#if CXIMAGE_SUPPORT_PNG
- if (_tcsnicmp(ext,_T("png"),3)==0 ) return CXIMAGE_FORMAT_PNG;
-#endif
-#if CXIMAGE_SUPPORT_ICO
- if (_tcsnicmp(ext,_T("ico"),3)==0 ||
- _tcsnicmp(ext,_T("cur"),3)==0 ) return CXIMAGE_FORMAT_ICO;
-#endif
-#if CXIMAGE_SUPPORT_TIF
- if (_tcsnicmp(ext,_T("tif"),3)==0 ) return CXIMAGE_FORMAT_TIF;
-#endif
-#if CXIMAGE_SUPPORT_TGA
- if (_tcsnicmp(ext,_T("tga"),3)==0 ) return CXIMAGE_FORMAT_TGA;
-#endif
-#if CXIMAGE_SUPPORT_PCX
- if (_tcsnicmp(ext,_T("pcx"),3)==0 ) return CXIMAGE_FORMAT_PCX;
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- if (_tcsnicmp(ext,_T("wbm"),3)==0 ) return CXIMAGE_FORMAT_WBMP;
-#endif
-#if CXIMAGE_SUPPORT_WMF
- if (_tcsnicmp(ext,_T("wmf"),3)==0 ||
- _tcsnicmp(ext,_T("emf"),3)==0 ) return CXIMAGE_FORMAT_WMF;
-#endif
-#if CXIMAGE_SUPPORT_JP2
- if (_tcsnicmp(ext,_T("jp2"),3)==0 ||
- _tcsnicmp(ext,_T("j2k"),3)==0 ) return CXIMAGE_FORMAT_JP2;
-#endif
-#if CXIMAGE_SUPPORT_JPC
- if (_tcsnicmp(ext,_T("jpc"),3)==0 ||
- _tcsnicmp(ext,_T("j2c"),3)==0 ) return CXIMAGE_FORMAT_JPC;
-#endif
-#if CXIMAGE_SUPPORT_PGX
- if (_tcsnicmp(ext,_T("pgx"),3)==0 ) return CXIMAGE_FORMAT_PGX;
-#endif
-#if CXIMAGE_SUPPORT_RAS
- if (_tcsnicmp(ext,_T("ras"),3)==0 ) return CXIMAGE_FORMAT_RAS;
-#endif
-#if CXIMAGE_SUPPORT_PNM
- if (_tcsnicmp(ext,_T("pnm"),3)==0 ||
- _tcsnicmp(ext,_T("pgm"),3)==0 ||
- _tcsnicmp(ext,_T("ppm"),3)==0 ) return CXIMAGE_FORMAT_PNM;
-#endif
-#if CXIMAGE_SUPPORT_JBG
- if (_tcsnicmp(ext,_T("jbg"),3)==0 ) return CXIMAGE_FORMAT_JBG;
-#endif
-#if CXIMAGE_SUPPORT_MNG
- if (_tcsnicmp(ext,_T("mng"),3)==0 ||
- _tcsnicmp(ext,_T("jng"),3)==0 ) return CXIMAGE_FORMAT_MNG;
-#endif
-#if CXIMAGE_SUPPORT_SKA
- if (_tcsnicmp(ext,_T("ska"),3)==0 ) return CXIMAGE_FORMAT_SKA;
-#endif
-#if CXIMAGE_SUPPORT_PSD
- if (_tcsnicmp(ext,_T("psd"),3)==0 ) return CXIMAGE_FORMAT_PSD;
-#endif
-#if CXIMAGE_SUPPORT_RAW
- if (_tcsnicmp(ext,_T("nef"),3)==0 ||
- _tcsnicmp(ext,_T("crw"),3)==0 ||
- _tcsnicmp(ext,_T("cr2"),3)==0 ||
- _tcsnicmp(ext,_T("dng"),3)==0 ||
- _tcsnicmp(ext,_T("arw"),3)==0 ||
- _tcsnicmp(ext,_T("erf"),3)==0 ||
- _tcsnicmp(ext,_T("3fr"),3)==0 ||
- _tcsnicmp(ext,_T("dcr"),3)==0 ||
- _tcsnicmp(ext,_T("raw"),3)==0 ||
- _tcsnicmp(ext,_T("x3f"),3)==0 ||
- _tcsnicmp(ext,_T("mef"),3)==0 ||
- _tcsnicmp(ext,_T("raf"),3)==0 ||
- _tcsnicmp(ext,_T("mrw"),3)==0 ||
- _tcsnicmp(ext,_T("pef"),3)==0 ||
- _tcsnicmp(ext,_T("sr2"),3)==0 ||
- _tcsnicmp(ext,_T("orf"),3)==0 ) return CXIMAGE_FORMAT_RAW;
-#endif
-
- return CXIMAGE_FORMAT_UNKNOWN;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetTypeIdFromIndex(const uint32_t index)
-{
- uint32_t n;
-
- n=0; if (index == n) return CXIMAGE_FORMAT_UNKNOWN;
-#if CXIMAGE_SUPPORT_BMP
- n++; if (index == n) return CXIMAGE_FORMAT_BMP;
-#endif
-#if CXIMAGE_SUPPORT_GIF
- n++; if (index == n) return CXIMAGE_FORMAT_GIF;
-#endif
-#if CXIMAGE_SUPPORT_JPG
- n++; if (index == n) return CXIMAGE_FORMAT_JPG;
-#endif
-#if CXIMAGE_SUPPORT_PNG
- n++; if (index == n) return CXIMAGE_FORMAT_PNG;
-#endif
-#if CXIMAGE_SUPPORT_ICO
- n++; if (index == n) return CXIMAGE_FORMAT_ICO;
-#endif
-#if CXIMAGE_SUPPORT_TIF
- n++; if (index == n) return CXIMAGE_FORMAT_TIF;
-#endif
-#if CXIMAGE_SUPPORT_TGA
- n++; if (index == n) return CXIMAGE_FORMAT_TGA;
-#endif
-#if CXIMAGE_SUPPORT_PCX
- n++; if (index == n) return CXIMAGE_FORMAT_PCX;
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- n++; if (index == n) return CXIMAGE_FORMAT_WBMP;
-#endif
-#if CXIMAGE_SUPPORT_WMF
- n++; if (index == n) return CXIMAGE_FORMAT_WMF;
-#endif
-#if CXIMAGE_SUPPORT_JP2
- n++; if (index == n) return CXIMAGE_FORMAT_JP2;
-#endif
-#if CXIMAGE_SUPPORT_JPC
- n++; if (index == n) return CXIMAGE_FORMAT_JPC;
-#endif
-#if CXIMAGE_SUPPORT_PGX
- n++; if (index == n) return CXIMAGE_FORMAT_PGX;
-#endif
-#if CXIMAGE_SUPPORT_PNM
- n++; if (index == n) return CXIMAGE_FORMAT_PNM;
-#endif
-#if CXIMAGE_SUPPORT_RAS
- n++; if (index == n) return CXIMAGE_FORMAT_RAS;
-#endif
-#if CXIMAGE_SUPPORT_JBG
- n++; if (index == n) return CXIMAGE_FORMAT_JBG;
-#endif
-#if CXIMAGE_SUPPORT_MNG
- n++; if (index == n) return CXIMAGE_FORMAT_MNG;
-#endif
-#if CXIMAGE_SUPPORT_SKA
- n++; if (index == n) return CXIMAGE_FORMAT_SKA;
-#endif
-#if CXIMAGE_SUPPORT_RAW
- n++; if (index == n) return CXIMAGE_FORMAT_RAW;
-#endif
-#if CXIMAGE_SUPPORT_PSD
- n++; if (index == n) return CXIMAGE_FORMAT_PSD;
-#endif
-
- return CXIMAGE_FORMAT_UNKNOWN;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::GetTypeIndexFromId(const uint32_t id)
-{
- uint32_t n;
-
- n=0; if (id == CXIMAGE_FORMAT_UNKNOWN) return n;
-#if CXIMAGE_SUPPORT_BMP
- n++; if (id == CXIMAGE_FORMAT_BMP) return n;
-#endif
-#if CXIMAGE_SUPPORT_GIF
- n++; if (id == CXIMAGE_FORMAT_GIF) return n;
-#endif
-#if CXIMAGE_SUPPORT_JPG
- n++; if (id == CXIMAGE_FORMAT_JPG) return n;
-#endif
-#if CXIMAGE_SUPPORT_PNG
- n++; if (id == CXIMAGE_FORMAT_PNG) return n;
-#endif
-#if CXIMAGE_SUPPORT_ICO
- n++; if (id == CXIMAGE_FORMAT_ICO) return n;
-#endif
-#if CXIMAGE_SUPPORT_TIF
- n++; if (id == CXIMAGE_FORMAT_TIF) return n;
-#endif
-#if CXIMAGE_SUPPORT_TGA
- n++; if (id == CXIMAGE_FORMAT_TGA) return n;
-#endif
-#if CXIMAGE_SUPPORT_PCX
- n++; if (id == CXIMAGE_FORMAT_PCX) return n;
-#endif
-#if CXIMAGE_SUPPORT_WBMP
- n++; if (id == CXIMAGE_FORMAT_WBMP) return n;
-#endif
-#if CXIMAGE_SUPPORT_WMF
- n++; if (id == CXIMAGE_FORMAT_WMF) return n;
-#endif
-#if CXIMAGE_SUPPORT_JP2
- n++; if (id == CXIMAGE_FORMAT_JP2) return n;
-#endif
-#if CXIMAGE_SUPPORT_JPC
- n++; if (id == CXIMAGE_FORMAT_JPC) return n;
-#endif
-#if CXIMAGE_SUPPORT_PGX
- n++; if (id == CXIMAGE_FORMAT_PGX) return n;
-#endif
-#if CXIMAGE_SUPPORT_PNM
- n++; if (id == CXIMAGE_FORMAT_PNM) return n;
-#endif
-#if CXIMAGE_SUPPORT_RAS
- n++; if (id == CXIMAGE_FORMAT_RAS) return n;
-#endif
-#if CXIMAGE_SUPPORT_JBG
- n++; if (id == CXIMAGE_FORMAT_JBG) return n;
-#endif
-#if CXIMAGE_SUPPORT_MNG
- n++; if (id == CXIMAGE_FORMAT_MNG) return n;
-#endif
-#if CXIMAGE_SUPPORT_SKA
- n++; if (id == CXIMAGE_FORMAT_SKA) return n;
-#endif
-#if CXIMAGE_SUPPORT_RAW
- n++; if (id == CXIMAGE_FORMAT_RAW) return n;
-#endif
-#if CXIMAGE_SUPPORT_PSD
- n++; if (id == CXIMAGE_FORMAT_PSD) return n;
-#endif
-
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return current frame delay in milliseconds. Only for GIF and MNG formats.
- */
-uint32_t CxImage::GetFrameDelay() const
-{
- return info.dwFrameDelay;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets current frame delay. Only for GIF format.
- * \param d = delay in milliseconds
- */
-void CxImage::SetFrameDelay(uint32_t d)
-{
- info.dwFrameDelay=d;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::GetOffset(int32_t *x,int32_t *y)
-{
- *x=info.xOffset;
- *y=info.yOffset;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetOffset(int32_t x,int32_t y)
-{
- info.xOffset=x;
- info.yOffset=y;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetJpegQuality, GetJpegQualityF
- * \author [DP]; changes [Stefan Schürmans]
- */
-uint8_t CxImage::GetJpegQuality() const
-{
- return (uint8_t)(info.fQuality + 0.5f);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetJpegQuality, GetJpegQuality
- * \author [Stefan Schürmans]
- */
-float CxImage::GetJpegQualityF() const
-{
- return info.fQuality;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * quality level for JPEG and JPEG2000
- * \param q: can be from 0 to 100
- * \author [DP]; changes [Stefan Schürmans]
- */
-void CxImage::SetJpegQuality(uint8_t q){
- info.fQuality = (float)q;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * quality level for JPEG and JPEG2000
- * necessary for JPEG2000 when quality is between 0.0 and 1.0
- * \param q: can be from 0.0 to 100.0
- * \author [Stefan Schürmans]
- */
-void CxImage::SetJpegQualityF(float q){
- if (q>0) info.fQuality = q;
- else info.fQuality = 0.0f;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetJpegScale
- */
-uint8_t CxImage::GetJpegScale() const
-{
- return info.nJpegScale;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * scaling down during JPEG decoding valid numbers are 1, 2, 4, 8
- * \author [ignacio]
- */
-void CxImage::SetJpegScale(uint8_t q){
- info.nJpegScale = q;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Used to monitor the slow loops.
- * \return value is from 0 to 100.
- * \sa SetProgress
- */
-int32_t CxImage::GetProgress() const
-{
- return info.nProgress;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return the escape code.
- * \sa SetEscape
- */
-int32_t CxImage::GetEscape() const
-{
- return info.nEscape;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Forces the value of the internal progress variable.
- * \param p should be from 0 to 100.
- * \sa GetProgress
- */
-void CxImage::SetProgress(int32_t p)
-{
- info.nProgress = p;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Used to quit the slow loops or the codecs.
- * - SetEscape(-1) before Decode forces the function to exit, right after
- * the image width and height are available ( for bmp, jpg, gif, tif )
- */
-void CxImage::SetEscape(int32_t i)
-{
- info.nEscape = i;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the image is correctly initializated.
- */
-bool CxImage::IsValid() const
-{
- return pDib!=0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * True if the image is enabled for painting.
- */
-bool CxImage::IsEnabled() const
-{
- return info.bEnabled;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enables/disables the image.
- */
-void CxImage::Enable(bool enable)
-{
- info.bEnabled=enable;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * This function must be used after a Decode() / Load() call.
- * Use the sequence SetFrame(-1); Load(...); GetNumFrames();
- * to get the number of images without loading the first image.
- * \return the number of images in the file.
- */
-int32_t CxImage::GetNumFrames() const
-{
- return info.nNumFrames;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return the current selected image (zero-based index).
- */
-int32_t CxImage::GetFrame() const
-{
- return info.nFrame;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the image number that the next Decode() / Load() call will load
- */
-void CxImage::SetFrame(int32_t nFrame){
- info.nFrame=nFrame;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the method for drawing the frame related to others
- * \sa GetDisposalMethod
- */
-void CxImage::SetDisposalMethod(uint8_t dm)
-{ info.dispmeth=dm; }
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the method for drawing the frame related to others
- * Values : 0 - No disposal specified. The decoder is
- * not required to take any action.
- * 1 - Do not dispose. The graphic is to be left
- * in place.
- * 2 - Restore to background color. The area used by the
- * graphic must be restored to the background color.
- * 3 - Restore to previous. The decoder is required to
- * restore the area overwritten by the graphic with
- * what was there prior to rendering the graphic.
- * 4-7 - To be defined.
- */
-uint8_t CxImage::GetDisposalMethod() const
-{ return info.dispmeth; }
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::GetRetreiveAllFrames() const
-{ return info.bGetAllFrames; }
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetRetreiveAllFrames(bool flag)
-{ info.bGetAllFrames = flag; }
-////////////////////////////////////////////////////////////////////////////////
-CxImage * CxImage::GetFrame(int32_t nFrame) const
-{
- if ( ppFrames == NULL) return NULL;
- if ( info.nNumFrames == 0) return NULL;
- if ( nFrame >= info.nNumFrames ) return NULL;
- if ( nFrame < 0) nFrame = info.nNumFrames - 1;
- return ppFrames[nFrame];
-}
-////////////////////////////////////////////////////////////////////////////////
-int16_t CxImage::m_ntohs(const int16_t word)
-{
- if (info.bLittleEndianHost) return word;
- return ( (word & 0xff) << 8 ) | ( (word >> 8) & 0xff );
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::m_ntohl(const int32_t dword)
-{
- if (info.bLittleEndianHost) return dword;
- return ((dword & 0xff) << 24 ) | ((dword & 0xff00) << 8 ) |
- ((dword >> 8) & 0xff00) | ((dword >> 24) & 0xff);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::bihtoh(BITMAPINFOHEADER* bih)
-{
- bih->biSize = m_ntohl(bih->biSize);
- bih->biWidth = m_ntohl(bih->biWidth);
- bih->biHeight = m_ntohl(bih->biHeight);
- bih->biPlanes = m_ntohs(bih->biPlanes);
- bih->biBitCount = m_ntohs(bih->biBitCount);
- bih->biCompression = m_ntohl(bih->biCompression);
- bih->biSizeImage = m_ntohl(bih->biSizeImage);
- bih->biXPelsPerMeter = m_ntohl(bih->biXPelsPerMeter);
- bih->biYPelsPerMeter = m_ntohl(bih->biYPelsPerMeter);
- bih->biClrUsed = m_ntohl(bih->biClrUsed);
- bih->biClrImportant = m_ntohl(bih->biClrImportant);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns the last reported error.
- */
-const char* CxImage::GetLastError()
-{
- return info.szLastError;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::DumpSize()
-{
- uint32_t n;
- n = sizeof(BITMAPINFOHEADER) + sizeof(CXIMAGEINFO) + GetSize();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha){
- n += 1 + head.biWidth * head.biHeight;
- } else n++;
-#endif
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (pSelection){
- n += 1 + head.biWidth * head.biHeight;
- } else n++;
-#endif
-
-#if CXIMAGE_SUPPORT_LAYERS
- if (ppLayers){
- for (int32_t m=0; m<GetNumLayers(); m++){
- if (GetLayer(m)){
- n += 1 + GetLayer(m)->DumpSize();
- }
- }
- } else n++;
-#endif
-
- if (ppFrames){
- for (int32_t m=0; m<GetNumFrames(); m++){
- if (GetFrame(m)){
- n += 1 + GetFrame(m)->DumpSize();
- }
- }
- } else n++;
-
- return n;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::Dump(uint8_t * dst)
-{
- if (!dst) return 0;
-
- memcpy(dst,&head,sizeof(BITMAPINFOHEADER));
- dst += sizeof(BITMAPINFOHEADER);
-
- memcpy(dst,&info,sizeof(CXIMAGEINFO));
- dst += sizeof(CXIMAGEINFO);
-
- memcpy(dst,pDib,GetSize());
- dst += GetSize();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha){
- memset(dst++, 1, 1);
- memcpy(dst,pAlpha,head.biWidth * head.biHeight);
- dst += head.biWidth * head.biHeight;
- } else {
- memset(dst++, 0, 1);
- }
-#endif
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (pSelection){
- memset(dst++, 1, 1);
- memcpy(dst,pSelection,head.biWidth * head.biHeight);
- dst += head.biWidth * head.biHeight;
- } else {
- memset(dst++, 0, 1);
- }
-#endif
-
-#if CXIMAGE_SUPPORT_LAYERS
- if (ppLayers){
- memset(dst++, 1, 1);
- for (int32_t m=0; m<GetNumLayers(); m++){
- if (GetLayer(m)){
- dst += GetLayer(m)->Dump(dst);
- }
- }
- } else {
- memset(dst++, 0, 1);
- }
-#endif
-
- if (ppFrames){
- memset(dst++, 1, 1);
- for (int32_t m=0; m<GetNumFrames(); m++){
- if (GetFrame(m)){
- dst += GetFrame(m)->Dump(dst);
- }
- }
- } else {
- memset(dst++, 0, 1);
- }
-
- return DumpSize();
-}
-////////////////////////////////////////////////////////////////////////////////
-uint32_t CxImage::UnDump(const uint8_t * src)
-{
- if (!src)
- return 0;
- if (!Destroy())
- return 0;
- if (!DestroyFrames())
- return 0;
-
- uint32_t n = 0;
-
- memcpy(&head,src,sizeof(BITMAPINFOHEADER));
- n += sizeof(BITMAPINFOHEADER);
-
- memcpy(&info,&src[n],sizeof(CXIMAGEINFO));
- n += sizeof(CXIMAGEINFO);
-
- if (!Create(head.biWidth, head.biHeight, head.biBitCount, info.dwType))
- return 0;
-
- memcpy(pDib,&src[n],GetSize());
- n += GetSize();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (src[n++]){
- if (AlphaCreate()){
- memcpy(pAlpha, &src[n], head.biWidth * head.biHeight);
- }
- n += head.biWidth * head.biHeight;
- }
-#endif
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (src[n++]){
- RECT box = info.rSelectionBox;
- if (SelectionCreate()){
- info.rSelectionBox = box;
- memcpy(pSelection, &src[n], head.biWidth * head.biHeight);
- }
- n += head.biWidth * head.biHeight;
- }
-#endif
-
-#if CXIMAGE_SUPPORT_LAYERS
- if (src[n++]){
- ppLayers = new CxImage*[info.nNumLayers];
- for (int32_t m=0; m<GetNumLayers(); m++){
- ppLayers[m] = new CxImage();
- n += ppLayers[m]->UnDump(&src[n]);
- }
- }
-#endif
-
- if (src[n++]){
- ppFrames = new CxImage*[info.nNumFrames];
- for (int32_t m=0; m<GetNumFrames(); m++){
- ppFrames[m] = new CxImage();
- n += ppFrames[m]->UnDump(&src[n]);
- }
- }
-
- return n;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \return A.BBCCCDDDD
- * - A = main version
- * - BB = main revision
- * - CCC = minor revision (letter)
- * - DDDD = experimental revision
- */
-const float CxImage::GetVersionNumber()
-{
- return 7.000000000f;
-}
-////////////////////////////////////////////////////////////////////////////////
-const TCHAR* CxImage::GetVersion()
-{
- static const TCHAR CxImageVersion[] = _T("CxImage 7.0.0");
- return (CxImageVersion);
-}
-////////////////////////////////////////////////////////////////////////////////
diff --git a/hge/CxImage/ximaint.cpp b/hge/CxImage/ximaint.cpp deleted file mode 100644 index 5f93038..0000000 --- a/hge/CxImage/ximaint.cpp +++ /dev/null @@ -1,1046 +0,0 @@ -// xImaInt.cpp : interpolation functions
-/* 02/2004 - Branko Brevensek
- * CxImage version 7.0.0 31/Dec/2010 - Davide Pizzolato - www.xdp.it
- */
-
-#include "ximage.h"
-#include "ximath.h"
-
-#if CXIMAGE_SUPPORT_INTERPOLATION
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Recalculates coordinates according to specified overflow method.
- * If pixel (x,y) lies within image, nothing changes.
- *
- * \param x, y - coordinates of pixel
- * \param ofMethod - overflow method
- *
- * \return x, y - new coordinates (pixel (x,y) now lies inside image)
- *
- * \author ***bd*** 2.2004
- */
-void CxImage::OverflowCoordinates(int32_t &x, int32_t &y, OverflowMethod const ofMethod)
-{
- if (IsInside(x,y)) return; //if pixel is within bounds, no change
- switch (ofMethod) {
- case OM_REPEAT:
- //clip coordinates
- x=max(x,0); x=min(x, head.biWidth-1);
- y=max(y,0); y=min(y, head.biHeight-1);
- break;
- case OM_WRAP:
- //wrap coordinates
- x = x % head.biWidth;
- y = y % head.biHeight;
- if (x<0) x = head.biWidth + x;
- if (y<0) y = head.biHeight + y;
- break;
- case OM_MIRROR:
- //mirror pixels near border
- if (x<0) x=((-x) % head.biWidth);
- else if (x>=head.biWidth) x=head.biWidth-(x % head.biWidth + 1);
- if (y<0) y=((-y) % head.biHeight);
- else if (y>=head.biHeight) y=head.biHeight-(y % head.biHeight + 1);
- break;
- default:
- return;
- }//switch
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * See OverflowCoordinates for integer version
- * \author ***bd*** 2.2004
- */
-void CxImage::OverflowCoordinates(float &x, float &y, OverflowMethod const ofMethod)
-{
- if (x>=0 && x<head.biWidth && y>=0 && y<head.biHeight) return; //if pixel is within bounds, no change
- switch (ofMethod) {
- case OM_REPEAT:
- //clip coordinates
- x=max(x,0); x=min(x, head.biWidth-1);
- y=max(y,0); y=min(y, head.biHeight-1);
- break;
- case OM_WRAP:
- //wrap coordinates
- x = (float)fmod(x, (float) head.biWidth);
- y = (float)fmod(y, (float) head.biHeight);
- if (x<0) x = head.biWidth + x;
- if (y<0) y = head.biHeight + y;
- break;
- case OM_MIRROR:
- //mirror pixels near border
- if (x<0) x=(float)fmod(-x, (float) head.biWidth);
- else if (x>=head.biWidth) x=head.biWidth-((float)fmod(x, (float) head.biWidth) + 1);
- if (y<0) y=(float)fmod(-y, (float) head.biHeight);
- else if (y>=head.biHeight) y=head.biHeight-((float)fmod(y, (float) head.biHeight) + 1);
- break;
- default:
- return;
- }//switch
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Method return pixel color. Different methods are implemented for out of bounds pixels.
- * If an image has alpha channel, alpha value is returned in .RGBReserved.
- *
- * \param x,y : pixel coordinates
- * \param ofMethod : out-of-bounds method:
- * - OF_WRAP - wrap over to pixels on other side of the image
- * - OF_REPEAT - repeat last pixel on the edge
- * - OF_COLOR - return input value of color
- * - OF_BACKGROUND - return background color (if not set, return input color)
- * - OF_TRANSPARENT - return transparent pixel
- *
- * \param rplColor : input color (returned for out-of-bound coordinates in OF_COLOR mode and if other mode is not applicable)
- *
- * \return color : color of pixel
- * \author ***bd*** 2.2004
- */
-RGBQUAD CxImage::GetPixelColorWithOverflow(int32_t x, int32_t y, OverflowMethod const ofMethod, RGBQUAD* const rplColor)
-{
- RGBQUAD color; //color to return
- if ((!IsInside(x,y)) || pDib==NULL) { //is pixel within bouns?:
- //pixel is out of bounds or no DIB
- if (rplColor!=NULL)
- color=*rplColor;
- else {
- color.rgbRed=color.rgbGreen=color.rgbBlue=255; color.rgbReserved=0; //default replacement colour: white transparent
- }//if
- if (pDib==NULL) return color;
- //pixel is out of bounds:
- switch (ofMethod) {
- case OM_TRANSPARENT:
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) {
- //alpha transparency is supported and image has alpha layer
- color.rgbReserved=0;
- } else {
-#endif //CXIMAGE_SUPPORT_ALPHA
- //no alpha transparency
- if (GetTransIndex()>=0) {
- color=GetTransColor(); //single color transparency enabled (return transparent color)
- }//if
-#if CXIMAGE_SUPPORT_ALPHA
- }//if
-#endif //CXIMAGE_SUPPORT_ALPHA
- return color;
- case OM_BACKGROUND:
- //return background color (if it exists, otherwise input value)
- if (info.nBkgndIndex >= 0) {
- if (head.biBitCount<24) color = GetPaletteColor((uint8_t)info.nBkgndIndex);
- else color = info.nBkgndColor;
- }//if
- return color;
- case OM_REPEAT:
- case OM_WRAP:
- case OM_MIRROR:
- OverflowCoordinates(x,y,ofMethod);
- break;
- default:
- //simply return replacement color (OM_COLOR and others)
- return color;
- }//switch
- }//if
- //just return specified pixel (it's within bounds)
- return BlindGetPixelColor(x,y);
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * This method reconstructs image according to chosen interpolation method and then returns pixel (x,y).
- * (x,y) can lie between actual image pixels. If (x,y) lies outside of image, method returns value
- * according to overflow method.
- * This method is very useful for geometrical image transformations, where destination pixel
- * can often assume color value lying between source pixels.
- *
- * \param (x,y) - coordinates of pixel to return
- * GPCI method recreates "analogue" image back from digital data, so x and y
- * are float values and color value of point (1.1,1) will generally not be same
- * as (1,1). Center of first pixel is at (0,0) and center of pixel right to it is (1,0).
- * (0.5,0) is half way between these two pixels.
- * \param inMethod - interpolation (reconstruction) method (kernel) to use:
- * - IM_NEAREST_NEIGHBOUR - returns colour of nearest lying pixel (causes stairy look of
- * processed images)
- * - IM_BILINEAR - interpolates colour from four neighbouring pixels (softens image a bit)
- * - IM_BICUBIC - interpolates from 16 neighbouring pixels (can produce "halo" artifacts)
- * - IM_BICUBIC2 - interpolates from 16 neighbouring pixels (perhaps a bit less halo artifacts
- than IM_BICUBIC)
- * - IM_BSPLINE - interpolates from 16 neighbouring pixels (softens image, washes colours)
- * (As far as I know, image should be prefiltered for this method to give
- * good results... some other time :) )
- * This method uses bicubic interpolation kernel from CXImage 5.99a and older
- * versions.
- * - IM_LANCZOS - interpolates from 12*12 pixels (slow, ringing artifacts)
- *
- * \param ofMethod - overflow method (see comments at GetPixelColorWithOverflow)
- * \param rplColor - pointer to color used for out of borders pixels in OM_COLOR mode
- * (and other modes if colour can't calculated in a specified way)
- *
- * \return interpolated color value (including interpolated alpha value, if image has alpha layer)
- *
- * \author ***bd*** 2.2004
- */
-RGBQUAD CxImage::GetPixelColorInterpolated(
- float x,float y,
- InterpolationMethod const inMethod,
- OverflowMethod const ofMethod,
- RGBQUAD* const rplColor)
-{
- //calculate nearest pixel
- int32_t xi=(int32_t)(x); if (x<0) xi--; //these replace (incredibly slow) floor (Visual c++ 2003, AMD Athlon)
- int32_t yi=(int32_t)(y); if (y<0) yi--;
- RGBQUAD color; //calculated colour
-
- switch (inMethod) {
- case IM_NEAREST_NEIGHBOUR:
- return GetPixelColorWithOverflow((int32_t)(x+0.5f), (int32_t)(y+0.5f), ofMethod, rplColor);
- default: {
- //IM_BILINEAR: bilinear interpolation
- if (xi<-1 || xi>=head.biWidth || yi<-1 || yi>=head.biHeight) { //all 4 points are outside bounds?:
- switch (ofMethod) {
- case OM_COLOR: case OM_TRANSPARENT: case OM_BACKGROUND:
- //we don't need to interpolate anything with all points outside in this case
- return GetPixelColorWithOverflow(-999, -999, ofMethod, rplColor);
- default:
- //recalculate coordinates and use faster method later on
- OverflowCoordinates(x,y,ofMethod);
- xi=(int32_t)(x); if (x<0) xi--; //x and/or y have changed ... recalculate xi and yi
- yi=(int32_t)(y); if (y<0) yi--;
- }//switch
- }//if
- //get four neighbouring pixels
- if ((xi+1)<head.biWidth && xi>=0 && (yi+1)<head.biHeight && yi>=0 && head.biClrUsed==0) {
- //all pixels are inside RGB24 image... optimize reading (and use fixed point arithmetic)
- uint16_t wt1=(uint16_t)((x-xi)*256.0f), wt2=(uint16_t)((y-yi)*256.0f);
- uint16_t wd=wt1*wt2>>8;
- uint16_t wb=wt1-wd;
- uint16_t wc=wt2-wd;
- uint16_t wa=256-wt1-wc;
- uint16_t wrr,wgg,wbb;
- uint8_t *pxptr=(uint8_t*)info.pImage+yi*info.dwEffWidth+xi*3;
- wbb=wa*(*pxptr++); wgg=wa*(*pxptr++); wrr=wa*(*pxptr++);
- wbb+=wb*(*pxptr++); wgg+=wb*(*pxptr++); wrr+=wb*(*pxptr);
- pxptr+=(info.dwEffWidth-5); //move to next row
- wbb+=wc*(*pxptr++); wgg+=wc*(*pxptr++); wrr+=wc*(*pxptr++);
- wbb+=wd*(*pxptr++); wgg+=wd*(*pxptr++); wrr+=wd*(*pxptr);
- color.rgbRed=(uint8_t) (wrr>>8); color.rgbGreen=(uint8_t) (wgg>>8); color.rgbBlue=(uint8_t) (wbb>>8);
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha) {
- uint16_t waa;
- //image has alpha layer... we have to do the same for alpha data
- pxptr=AlphaGetPointer(xi,yi); //pointer to first byte
- waa=wa*(*pxptr++); waa+=wb*(*pxptr); //first two pixels
- pxptr+=(head.biWidth-1); //move to next row
- waa+=wc*(*pxptr++); waa+=wd*(*pxptr); //and second row pixels
- color.rgbReserved=(uint8_t) (waa>>8);
- } else
-#endif
- { //Alpha not supported or no alpha at all
- color.rgbReserved = 0;
- }
- return color;
- } else {
- //default (slower) way to get pixels (not RGB24 or some pixels out of borders)
- float t1=x-xi, t2=y-yi;
- float d=t1*t2;
- float b=t1-d;
- float c=t2-d;
- float a=1-t1-c;
- RGBQUAD rgb11,rgb21,rgb12,rgb22;
- rgb11=GetPixelColorWithOverflow(xi, yi, ofMethod, rplColor);
- rgb21=GetPixelColorWithOverflow(xi+1, yi, ofMethod, rplColor);
- rgb12=GetPixelColorWithOverflow(xi, yi+1, ofMethod, rplColor);
- rgb22=GetPixelColorWithOverflow(xi+1, yi+1, ofMethod, rplColor);
- //calculate linear interpolation
- color.rgbRed=(uint8_t) (a*rgb11.rgbRed+b*rgb21.rgbRed+c*rgb12.rgbRed+d*rgb22.rgbRed);
- color.rgbGreen=(uint8_t) (a*rgb11.rgbGreen+b*rgb21.rgbGreen+c*rgb12.rgbGreen+d*rgb22.rgbGreen);
- color.rgbBlue=(uint8_t) (a*rgb11.rgbBlue+b*rgb21.rgbBlue+c*rgb12.rgbBlue+d*rgb22.rgbBlue);
-#if CXIMAGE_SUPPORT_ALPHA
- color.rgbReserved=(uint8_t) (a*rgb11.rgbReserved+b*rgb21.rgbReserved+c*rgb12.rgbReserved+d*rgb22.rgbReserved);
-#else
- color.rgbReserved = 0;
-#endif
- return color;
- }//if
- }//default
- case IM_BICUBIC:
- case IM_BICUBIC2:
- case IM_BSPLINE:
- case IM_BOX:
- case IM_HERMITE:
- case IM_HAMMING:
- case IM_SINC:
- case IM_BLACKMAN:
- case IM_BESSEL:
- case IM_GAUSSIAN:
- case IM_QUADRATIC:
- case IM_MITCHELL:
- case IM_CATROM:
- case IM_HANNING:
- case IM_POWER:
- //bicubic interpolation(s)
- if (((xi+2)<0) || ((xi-1)>=head.biWidth) || ((yi+2)<0) || ((yi-1)>=head.biHeight)) { //all points are outside bounds?:
- switch (ofMethod) {
- case OM_COLOR: case OM_TRANSPARENT: case OM_BACKGROUND:
- //we don't need to interpolate anything with all points outside in this case
- return GetPixelColorWithOverflow(-999, -999, ofMethod, rplColor);
- break;
- default:
- //recalculate coordinates and use faster method later on
- OverflowCoordinates(x,y,ofMethod);
- xi=(int32_t)(x); if (x<0) xi--; //x and/or y have changed ... recalculate xi and yi
- yi=(int32_t)(y); if (y<0) yi--;
- }//switch
- }//if
-
- //some variables needed from here on
- int32_t xii,yii; //x any y integer indexes for loops
- float kernel, kernelyc; //kernel cache
- float kernelx[12], kernely[4]; //precalculated kernel values
- float rr,gg,bb,aa; //accumulated color values
- //calculate multiplication factors for all pixels
- int32_t i;
- switch (inMethod) {
- case IM_BICUBIC:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelCubic((float)(xi+i-1-x));
- kernely[i]=KernelCubic((float)(yi+i-1-y));
- }//for i
- break;
- case IM_BICUBIC2:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelGeneralizedCubic((float)(xi+i-1-x), -0.5);
- kernely[i]=KernelGeneralizedCubic((float)(yi+i-1-y), -0.5);
- }//for i
- break;
- case IM_BSPLINE:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelBSpline((float)(xi+i-1-x));
- kernely[i]=KernelBSpline((float)(yi+i-1-y));
- }//for i
- break;
- case IM_BOX:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelBox((float)(xi+i-1-x));
- kernely[i]=KernelBox((float)(yi+i-1-y));
- }//for i
- break;
- case IM_HERMITE:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelHermite((float)(xi+i-1-x));
- kernely[i]=KernelHermite((float)(yi+i-1-y));
- }//for i
- break;
- case IM_HAMMING:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelHamming((float)(xi+i-1-x));
- kernely[i]=KernelHamming((float)(yi+i-1-y));
- }//for i
- break;
- case IM_SINC:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelSinc((float)(xi+i-1-x));
- kernely[i]=KernelSinc((float)(yi+i-1-y));
- }//for i
- break;
- case IM_BLACKMAN:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelBlackman((float)(xi+i-1-x));
- kernely[i]=KernelBlackman((float)(yi+i-1-y));
- }//for i
- break;
- case IM_BESSEL:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelBessel((float)(xi+i-1-x));
- kernely[i]=KernelBessel((float)(yi+i-1-y));
- }//for i
- break;
- case IM_GAUSSIAN:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelGaussian((float)(xi+i-1-x));
- kernely[i]=KernelGaussian((float)(yi+i-1-y));
- }//for i
- break;
- case IM_QUADRATIC:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelQuadratic((float)(xi+i-1-x));
- kernely[i]=KernelQuadratic((float)(yi+i-1-y));
- }//for i
- break;
- case IM_MITCHELL:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelMitchell((float)(xi+i-1-x));
- kernely[i]=KernelMitchell((float)(yi+i-1-y));
- }//for i
- break;
- case IM_CATROM:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelCatrom((float)(xi+i-1-x));
- kernely[i]=KernelCatrom((float)(yi+i-1-y));
- }//for i
- break;
- case IM_HANNING:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelHanning((float)(xi+i-1-x));
- kernely[i]=KernelHanning((float)(yi+i-1-y));
- }//for i
- break;
- case IM_POWER:
- for (i=0; i<4; i++) {
- kernelx[i]=KernelPower((float)(xi+i-1-x));
- kernely[i]=KernelPower((float)(yi+i-1-y));
- }//for i
- break; - default:break;
- }//switch
- rr=gg=bb=aa=0;
- if (((xi+2)<head.biWidth) && xi>=1 && ((yi+2)<head.biHeight) && (yi>=1) && !IsIndexed()) {
- //optimized interpolation (faster pixel reads) for RGB24 images with all pixels inside bounds
- for (yii=yi-1; yii<yi+3; yii++) {
- uint8_t *pxptr=(uint8_t *)BlindGetPixelPointer(xi-1, yii); //calculate pointer to first byte in row
- kernelyc=kernely[yii-(yi-1)];
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) {
- //alpha is supported and valid (optimized bicubic int32_t. for image with alpha)
- uint8_t *pxptra=AlphaGetPointer(xi-1, yii);
- kernel=kernelyc*kernelx[0];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++); aa+=kernel*(*pxptra++);
- kernel=kernelyc*kernelx[1];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++); aa+=kernel*(*pxptra++);
- kernel=kernelyc*kernelx[2];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++); aa+=kernel*(*pxptra++);
- kernel=kernelyc*kernelx[3];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr); aa+=kernel*(*pxptra);
- } else
-#endif
- //alpha not supported or valid (optimized bicubic int32_t. for no alpha channel)
- {
- kernel=kernelyc*kernelx[0];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++);
- kernel=kernelyc*kernelx[1];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++);
- kernel=kernelyc*kernelx[2];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++);
- kernel=kernelyc*kernelx[3];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr);
- }
- }//yii
- } else {
- //slower more flexible interpolation for border pixels and paletted images
- RGBQUAD rgbs;
- for (yii=yi-1; yii<yi+3; yii++) {
- kernelyc=kernely[yii-(yi-1)];
- for (xii=xi-1; xii<xi+3; xii++) {
- kernel=kernelyc*kernelx[xii-(xi-1)];
- rgbs=GetPixelColorWithOverflow(xii, yii, ofMethod, rplColor);
- rr+=kernel*rgbs.rgbRed;
- gg+=kernel*rgbs.rgbGreen;
- bb+=kernel*rgbs.rgbBlue;
-#if CXIMAGE_SUPPORT_ALPHA
- aa+=kernel*rgbs.rgbReserved;
-#endif
- }//xii
- }//yii
- }//if
- //for all colors, clip to 0..255 and assign to RGBQUAD
- if (rr>255) rr=255; if (rr<0) rr=0; color.rgbRed=(uint8_t) rr;
- if (gg>255) gg=255; if (gg<0) gg=0; color.rgbGreen=(uint8_t) gg;
- if (bb>255) bb=255; if (bb<0) bb=0; color.rgbBlue=(uint8_t) bb;
-#if CXIMAGE_SUPPORT_ALPHA
- if (aa>255) aa=255; if (aa<0) aa=0; color.rgbReserved=(uint8_t) aa;
-#else
- color.rgbReserved = 0;
-#endif
- return color;
- case IM_LANCZOS:
- //lanczos window (16*16) sinc interpolation
- if (((xi+6)<0) || ((xi-5)>=head.biWidth) || ((yi+6)<0) || ((yi-5)>=head.biHeight)) {
- //all points are outside bounds
- switch (ofMethod) {
- case OM_COLOR: case OM_TRANSPARENT: case OM_BACKGROUND:
- //we don't need to interpolate anything with all points outside in this case
- return GetPixelColorWithOverflow(-999, -999, ofMethod, rplColor);
- break;
- default:
- //recalculate coordinates and use faster method later on
- OverflowCoordinates(x,y,ofMethod);
- xi=(int32_t)(x); if (x<0) xi--; //x and/or y have changed ... recalculate xi and yi
- yi=(int32_t)(y); if (y<0) yi--;
- }//switch
- }//if
-
- for (xii=xi-5; xii<xi+7; xii++) kernelx[xii-(xi-5)]=KernelLanczosSinc((float)(xii-x), 6.0f);
- rr=gg=bb=aa=0;
-
- if (((xi+6)<head.biWidth) && ((xi-5)>=0) && ((yi+6)<head.biHeight) && ((yi-5)>=0) && !IsIndexed()) {
- //optimized interpolation (faster pixel reads) for RGB24 images with all pixels inside bounds
- for (yii=yi-5; yii<yi+7; yii++) {
- uint8_t *pxptr=(uint8_t *)BlindGetPixelPointer(xi-5, yii); //calculate pointer to first byte in row
- kernelyc=KernelLanczosSinc((float)(yii-y),6.0f);
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) {
- //alpha is supported and valid
- uint8_t *pxptra=AlphaGetPointer(xi-1, yii);
- for (xii=0; xii<12; xii++) {
- kernel=kernelyc*kernelx[xii];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++); aa+=kernel*(*pxptra++);
- }//for xii
- } else
-#endif
- //alpha not supported or valid
- {
- for (xii=0; xii<12; xii++) {
- kernel=kernelyc*kernelx[xii];
- bb+=kernel*(*pxptr++); gg+=kernel*(*pxptr++); rr+=kernel*(*pxptr++);
- }//for xii
- }
- }//yii
- } else {
- //slower more flexible interpolation for border pixels and paletted images
- RGBQUAD rgbs;
- for (yii=yi-5; yii<yi+7; yii++) {
- kernelyc=KernelLanczosSinc((float)(yii-y),6.0f);
- for (xii=xi-5; xii<xi+7; xii++) {
- kernel=kernelyc*kernelx[xii-(xi-5)];
- rgbs=GetPixelColorWithOverflow(xii, yii, ofMethod, rplColor);
- rr+=kernel*rgbs.rgbRed;
- gg+=kernel*rgbs.rgbGreen;
- bb+=kernel*rgbs.rgbBlue;
-#if CXIMAGE_SUPPORT_ALPHA
- aa+=kernel*rgbs.rgbReserved;
-#endif
- }//xii
- }//yii
- }//if
- //for all colors, clip to 0..255 and assign to RGBQUAD
- if (rr>255) rr=255; if (rr<0) rr=0; color.rgbRed=(uint8_t) rr;
- if (gg>255) gg=255; if (gg<0) gg=0; color.rgbGreen=(uint8_t) gg;
- if (bb>255) bb=255; if (bb<0) bb=0; color.rgbBlue=(uint8_t) bb;
-#if CXIMAGE_SUPPORT_ALPHA
- if (aa>255) aa=255; if (aa<0) aa=0; color.rgbReserved=(uint8_t) aa;
-#else
- color.rgbReserved = 0;
-#endif
- return color;
- }//switch
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Helper function for GetAreaColorInterpolated.
- * Adds 'surf' portion of image pixel with color 'color' to (rr,gg,bb,aa).
- */
-void CxImage::AddAveragingCont(RGBQUAD const &color, float const surf, float &rr, float &gg, float &bb, float &aa)
-{
- rr+=color.rgbRed*surf;
- gg+=color.rgbGreen*surf;
- bb+=color.rgbBlue*surf;
-#if CXIMAGE_SUPPORT_ALPHA
- aa+=color.rgbReserved*surf;
-#endif
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * This method is similar to GetPixelColorInterpolated, but this method also properly handles
- * subsampling.
- * If you need to sample original image with interval of more than 1 pixel (as when shrinking an image),
- * you should use this method instead of GetPixelColorInterpolated or aliasing will occur.
- * When area width and height are both less than pixel, this method gets pixel color by interpolating
- * color of frame center with selected (inMethod) interpolation by calling GetPixelColorInterpolated.
- * If width and height are more than 1, method calculates color by averaging color of pixels within area.
- * Interpolation method is not used in this case. Pixel color is interpolated by averaging instead.
- * If only one of both is more than 1, method uses combination of interpolation and averaging.
- * Chosen interpolation method is used, but since it is averaged later on, there is little difference
- * between IM_BILINEAR (perhaps best for this case) and better methods. IM_NEAREST_NEIGHBOUR again
- * leads to aliasing artifacts.
- * This method is a bit slower than GetPixelColorInterpolated and when aliasing is not a problem, you should
- * simply use the later.
- *
- * \param xc, yc - center of (rectangular) area
- * \param w, h - width and height of area
- * \param inMethod - interpolation method that is used, when interpolation is used (see above)
- * \param ofMethod - overflow method used when retrieving individual pixel colors
- * \param rplColor - replacement colour to use, in OM_COLOR
- *
- * \author ***bd*** 2.2004
- */
-RGBQUAD CxImage::GetAreaColorInterpolated(
- float const xc, float const yc, float const w, float const h,
- InterpolationMethod const inMethod,
- OverflowMethod const ofMethod,
- RGBQUAD* const rplColor)
-{
- RGBQUAD color; //calculated colour
-
- if (h<=1 && w<=1) {
- //both width and height are less than one... we will use interpolation of center point
- return GetPixelColorInterpolated(xc, yc, inMethod, ofMethod, rplColor);
- } else {
- //area is wider and/or taller than one pixel:
- CxRect2 area(xc-w/2.0f, yc-h/2.0f, xc+w/2.0f, yc+h/2.0f); //area
- int32_t xi1=(int32_t)(area.botLeft.x+0.49999999f); //low x
- int32_t yi1=(int32_t)(area.botLeft.y+0.49999999f); //low y
-
-
- int32_t xi2=(int32_t)(area.topRight.x+0.5f); //top x
- int32_t yi2=(int32_t)(area.topRight.y+0.5f); //top y (for loops)
-
- float rr,gg,bb,aa; //red, green, blue and alpha components
- rr=gg=bb=aa=0;
- int32_t x,y; //loop counters
- float s=0; //surface of all pixels
- float cps; //surface of current crosssection
- if (h>1 && w>1) {
- //width and height of area are greater than one pixel, so we can employ "ordinary" averaging
- CxRect2 intBL, intTR; //bottom left and top right intersection
- intBL=area.CrossSection(CxRect2(((float)xi1)-0.5f, ((float)yi1)-0.5f, ((float)xi1)+0.5f, ((float)yi1)+0.5f));
- intTR=area.CrossSection(CxRect2(((float)xi2)-0.5f, ((float)yi2)-0.5f, ((float)xi2)+0.5f, ((float)yi2)+0.5f));
- float wBL, wTR, hBL, hTR;
- wBL=intBL.Width(); //width of bottom left pixel-area intersection
- hBL=intBL.Height(); //height of bottom left...
- wTR=intTR.Width(); //width of top right...
- hTR=intTR.Height(); //height of top right...
-
- AddAveragingCont(GetPixelColorWithOverflow(xi1,yi1,ofMethod,rplColor), wBL*hBL, rr, gg, bb, aa); //bottom left pixel
- AddAveragingCont(GetPixelColorWithOverflow(xi2,yi1,ofMethod,rplColor), wTR*hBL, rr, gg, bb, aa); //bottom right pixel
- AddAveragingCont(GetPixelColorWithOverflow(xi1,yi2,ofMethod,rplColor), wBL*hTR, rr, gg, bb, aa); //top left pixel
- AddAveragingCont(GetPixelColorWithOverflow(xi2,yi2,ofMethod,rplColor), wTR*hTR, rr, gg, bb, aa); //top right pixel
- //bottom and top row
- for (x=xi1+1; x<xi2; x++) {
- AddAveragingCont(GetPixelColorWithOverflow(x,yi1,ofMethod,rplColor), hBL, rr, gg, bb, aa); //bottom row
- AddAveragingCont(GetPixelColorWithOverflow(x,yi2,ofMethod,rplColor), hTR, rr, gg, bb, aa); //top row
- }
- //leftmost and rightmost column
- for (y=yi1+1; y<yi2; y++) {
- AddAveragingCont(GetPixelColorWithOverflow(xi1,y,ofMethod,rplColor), wBL, rr, gg, bb, aa); //left column
- AddAveragingCont(GetPixelColorWithOverflow(xi2,y,ofMethod,rplColor), wTR, rr, gg, bb, aa); //right column
- }
- for (y=yi1+1; y<yi2; y++) {
- for (x=xi1+1; x<xi2; x++) {
- color=GetPixelColorWithOverflow(x,y,ofMethod,rplColor);
- rr+=color.rgbRed;
- gg+=color.rgbGreen;
- bb+=color.rgbBlue;
-#if CXIMAGE_SUPPORT_ALPHA
- aa+=color.rgbReserved;
-#endif
- }//for x
- }//for y
- } else {
- //width or height greater than one:
- CxRect2 intersect; //intersection with current pixel
- CxPoint2 center;
- for (y=yi1; y<=yi2; y++) {
- for (x=xi1; x<=xi2; x++) {
- intersect=area.CrossSection(CxRect2(((float)x)-0.5f, ((float)y)-0.5f, ((float)x)+0.5f, ((float)y)+0.5f));
- center=intersect.Center();
- color=GetPixelColorInterpolated(center.x, center.y, inMethod, ofMethod, rplColor);
- cps=intersect.Surface();
- rr+=color.rgbRed*cps;
- gg+=color.rgbGreen*cps;
- bb+=color.rgbBlue*cps;
-#if CXIMAGE_SUPPORT_ALPHA
- aa+=color.rgbReserved*cps;
-#endif
- }//for x
- }//for y
- }//if
-
- s=area.Surface();
- rr/=s; gg/=s; bb/=s; aa/=s;
- if (rr>255) rr=255; if (rr<0) rr=0; color.rgbRed=(uint8_t) rr;
- if (gg>255) gg=255; if (gg<0) gg=0; color.rgbGreen=(uint8_t) gg;
- if (bb>255) bb=255; if (bb<0) bb=0; color.rgbBlue=(uint8_t) bb;
-#if CXIMAGE_SUPPORT_ALPHA
- if (aa>255) aa=255; if (aa<0) aa=0; color.rgbReserved=(uint8_t) aa;
-#else
- color.rgbReserved = 0;
-#endif
- }//if
- return color;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBSpline(const float x)
-{
- if (x>2.0f) return 0.0f;
- // thanks to Kristian Kratzenstein
- float a, b, c, d;
- float xm1 = x - 1.0f; // Was calculatet anyway cause the "if((x-1.0f) < 0)"
- float xp1 = x + 1.0f;
- float xp2 = x + 2.0f;
-
- if ((xp2) <= 0.0f) a = 0.0f; else a = xp2*xp2*xp2; // Only float, not float -> double -> float
- if ((xp1) <= 0.0f) b = 0.0f; else b = xp1*xp1*xp1;
- if (x <= 0) c = 0.0f; else c = x*x*x;
- if ((xm1) <= 0.0f) d = 0.0f; else d = xm1*xm1*xm1;
-
- return (0.16666666666666666667f * (a - (4.0f * b) + (6.0f * c) - (4.0f * d)));
-
- /* equivalent <Vladimír Kloucek>
- if (x < -2.0)
- return(0.0f);
- if (x < -1.0)
- return((2.0f+x)*(2.0f+x)*(2.0f+x)*0.16666666666666666667f);
- if (x < 0.0)
- return((4.0f+x*x*(-6.0f-3.0f*x))*0.16666666666666666667f);
- if (x < 1.0)
- return((4.0f+x*x*(-6.0f+3.0f*x))*0.16666666666666666667f);
- if (x < 2.0)
- return((2.0f-x)*(2.0f-x)*(2.0f-x)*0.16666666666666666667f);
- return(0.0f);
- */
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Bilinear interpolation kernel:
- \verbatim
- /
- | 1-t , if 0 <= t <= 1
- h(t) = | t+1 , if -1 <= t < 0
- | 0 , otherwise
- \
- \endverbatim
- * ***bd*** 2.2004
- */
-float CxImage::KernelLinear(const float t)
-{
-// if (0<=t && t<=1) return 1-t;
-// if (-1<=t && t<0) return 1+t;
-// return 0;
-
- //<Vladimír Kloucek>
- if (t < -1.0f)
- return 0.0f;
- if (t < 0.0f)
- return 1.0f+t;
- if (t < 1.0f)
- return 1.0f-t;
- return 0.0f;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Bicubic interpolation kernel (a=-1):
- \verbatim
- /
- | 1-2|t|**2+|t|**3 , if |t| < 1
- h(t) = | 4-8|t|+5|t|**2-|t|**3 , if 1<=|t|<2
- | 0 , otherwise
- \
- \endverbatim
- * ***bd*** 2.2004
- */
-float CxImage::KernelCubic(const float t)
-{
- float abs_t = (float)fabs(t);
- float abs_t_sq = abs_t * abs_t;
- if (abs_t<1) return 1-2*abs_t_sq+abs_t_sq*abs_t;
- if (abs_t<2) return 4 - 8*abs_t +5*abs_t_sq - abs_t_sq*abs_t;
- return 0;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Bicubic kernel (for a=-1 it is the same as BicubicKernel):
- \verbatim
- /
- | (a+2)|t|**3 - (a+3)|t|**2 + 1 , |t| <= 1
- h(t) = | a|t|**3 - 5a|t|**2 + 8a|t| - 4a , 1 < |t| <= 2
- | 0 , otherwise
- \
- \endverbatim
- * Often used values for a are -1 and -1/2.
- */
-float CxImage::KernelGeneralizedCubic(const float t, const float a)
-{
- float abs_t = (float)fabs(t);
- float abs_t_sq = abs_t * abs_t;
- if (abs_t<1) return (a+2)*abs_t_sq*abs_t - (a+3)*abs_t_sq + 1;
- if (abs_t<2) return a*abs_t_sq*abs_t - 5*a*abs_t_sq + 8*a*abs_t - 4*a;
- return 0;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Lanczos windowed sinc interpolation kernel with radius r.
- \verbatim
- /
- h(t) = | sinc(t)*sinc(t/r) , if |t|<r
- | 0 , otherwise
- \
- \endverbatim
- * ***bd*** 2.2004
- */
-float CxImage::KernelLanczosSinc(const float t, const float r)
-{
- if (fabs(t) > r) return 0;
- if (t==0) return 1;
- float pit=PI*t;
- float pitd=pit/r;
- return (float)((sin(pit)/pit) * (sin(pitd)/pitd));
-}
-
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBox(const float x)
-{
- if (x < -0.5f)
- return 0.0f;
- if (x < 0.5f)
- return 1.0f;
- return 0.0f;
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelHermite(const float x)
-{
- if (x < -1.0f)
- return 0.0f;
- if (x < 0.0f)
- return (-2.0f*x-3.0f)*x*x+1.0f;
- if (x < 1.0f)
- return (2.0f*x-3.0f)*x*x+1.0f;
- return 0.0f;
-// if (fabs(x)>1) return 0.0f;
-// return(0.5f+0.5f*(float)cos(PI*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelHanning(const float x)
-{
- if (fabs(x)>1) return 0.0f;
- return (0.5f+0.5f*(float)cos(PI*x))*((float)sin(PI*x)/(PI*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelHamming(const float x)
-{
- if (x < -1.0f)
- return 0.0f;
- if (x < 0.0f)
- return 0.92f*(-2.0f*x-3.0f)*x*x+1.0f;
- if (x < 1.0f)
- return 0.92f*(2.0f*x-3.0f)*x*x+1.0f;
- return 0.0f;
-// if (fabs(x)>1) return 0.0f;
-// return(0.54f+0.46f*(float)cos(PI*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelSinc(const float x)
-{
- if (x == 0.0)
- return(1.0);
- return((float)sin(PI*x)/(PI*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBlackman(const float x)
-{
- //if (fabs(x)>1) return 0.0f;
- return (0.42f+0.5f*(float)cos(PI*x)+0.08f*(float)cos(2.0f*PI*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBessel_J1(const float x)
-{
- double p, q;
-
- register int32_t i;
-
- static const double
- Pone[] =
- {
- 0.581199354001606143928050809e+21,
- -0.6672106568924916298020941484e+20,
- 0.2316433580634002297931815435e+19,
- -0.3588817569910106050743641413e+17,
- 0.2908795263834775409737601689e+15,
- -0.1322983480332126453125473247e+13,
- 0.3413234182301700539091292655e+10,
- -0.4695753530642995859767162166e+7,
- 0.270112271089232341485679099e+4
- },
- Qone[] =
- {
- 0.11623987080032122878585294e+22,
- 0.1185770712190320999837113348e+20,
- 0.6092061398917521746105196863e+17,
- 0.2081661221307607351240184229e+15,
- 0.5243710262167649715406728642e+12,
- 0.1013863514358673989967045588e+10,
- 0.1501793594998585505921097578e+7,
- 0.1606931573481487801970916749e+4,
- 0.1e+1
- };
-
- p = Pone[8];
- q = Qone[8];
- for (i=7; i >= 0; i--)
- {
- p = p*x*x+Pone[i];
- q = q*x*x+Qone[i];
- }
- return (float)(p/q);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBessel_P1(const float x)
-{
- double p, q;
-
- register int32_t i;
-
- static const double
- Pone[] =
- {
- 0.352246649133679798341724373e+5,
- 0.62758845247161281269005675e+5,
- 0.313539631109159574238669888e+5,
- 0.49854832060594338434500455e+4,
- 0.2111529182853962382105718e+3,
- 0.12571716929145341558495e+1
- },
- Qone[] =
- {
- 0.352246649133679798068390431e+5,
- 0.626943469593560511888833731e+5,
- 0.312404063819041039923015703e+5,
- 0.4930396490181088979386097e+4,
- 0.2030775189134759322293574e+3,
- 0.1e+1
- };
-
- p = Pone[5];
- q = Qone[5];
- for (i=4; i >= 0; i--)
- {
- p = p*(8.0/x)*(8.0/x)+Pone[i];
- q = q*(8.0/x)*(8.0/x)+Qone[i];
- }
- return (float)(p/q);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBessel_Q1(const float x)
-{
- double p, q;
-
- register int32_t i;
-
- static const double
- Pone[] =
- {
- 0.3511751914303552822533318e+3,
- 0.7210391804904475039280863e+3,
- 0.4259873011654442389886993e+3,
- 0.831898957673850827325226e+2,
- 0.45681716295512267064405e+1,
- 0.3532840052740123642735e-1
- },
- Qone[] =
- {
- 0.74917374171809127714519505e+4,
- 0.154141773392650970499848051e+5,
- 0.91522317015169922705904727e+4,
- 0.18111867005523513506724158e+4,
- 0.1038187585462133728776636e+3,
- 0.1e+1
- };
-
- p = Pone[5];
- q = Qone[5];
- for (i=4; i >= 0; i--)
- {
- p = p*(8.0/x)*(8.0/x)+Pone[i];
- q = q*(8.0/x)*(8.0/x)+Qone[i];
- }
- return (float)(p/q);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBessel_Order1(float x)
-{
- float p, q;
-
- if (x == 0.0)
- return (0.0f);
- p = x;
- if (x < 0.0)
- x=(-x);
- if (x < 8.0)
- return(p*KernelBessel_J1(x));
- q = (float)sqrt(2.0f/(PI*x))*(float)(KernelBessel_P1(x)*(1.0f/sqrt(2.0f)*(sin(x)-cos(x)))-8.0f/x*KernelBessel_Q1(x)*
- (-1.0f/sqrt(2.0f)*(sin(x)+cos(x))));
- if (p < 0.0f)
- q = (-q);
- return (q);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelBessel(const float x)
-{
- if (x == 0.0f)
- return(PI/4.0f);
- return(KernelBessel_Order1(PI*x)/(2.0f*x));
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelGaussian(const float x)
-{
- return (float)(exp(-2.0f*x*x)*0.79788456080287f/*sqrt(2.0f/PI)*/);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelQuadratic(const float x)
-{
- if (x < -1.5f)
- return(0.0f);
- if (x < -0.5f)
- return(0.5f*(x+1.5f)*(x+1.5f));
- if (x < 0.5f)
- return(0.75f-x*x);
- if (x < 1.5f)
- return(0.5f*(x-1.5f)*(x-1.5f));
- return(0.0f);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelMitchell(const float x)
-{
-#define KM_B (1.0f/3.0f)
-#define KM_C (1.0f/3.0f)
-#define KM_P0 (( 6.0f - 2.0f * KM_B ) / 6.0f)
-#define KM_P2 ((-18.0f + 12.0f * KM_B + 6.0f * KM_C) / 6.0f)
-#define KM_P3 (( 12.0f - 9.0f * KM_B - 6.0f * KM_C) / 6.0f)
-#define KM_Q0 (( 8.0f * KM_B + 24.0f * KM_C) / 6.0f)
-#define KM_Q1 ((-12.0f * KM_B - 48.0f * KM_C) / 6.0f)
-#define KM_Q2 (( 6.0f * KM_B + 30.0f * KM_C) / 6.0f)
-#define KM_Q3 (( -1.0f * KM_B - 6.0f * KM_C) / 6.0f)
-
- if (x < -2.0)
- return(0.0f);
- if (x < -1.0)
- return(KM_Q0-x*(KM_Q1-x*(KM_Q2-x*KM_Q3)));
- if (x < 0.0f)
- return(KM_P0+x*x*(KM_P2-x*KM_P3));
- if (x < 1.0f)
- return(KM_P0+x*x*(KM_P2+x*KM_P3));
- if (x < 2.0f)
- return(KM_Q0+x*(KM_Q1+x*(KM_Q2+x*KM_Q3)));
- return(0.0f);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelCatrom(const float x)
-{
- if (x < -2.0)
- return(0.0f);
- if (x < -1.0)
- return(0.5f*(4.0f+x*(8.0f+x*(5.0f+x))));
- if (x < 0.0)
- return(0.5f*(2.0f+x*x*(-5.0f-3.0f*x)));
- if (x < 1.0)
- return(0.5f*(2.0f+x*x*(-5.0f+3.0f*x)));
- if (x < 2.0)
- return(0.5f*(4.0f+x*(-8.0f+x*(5.0f-x))));
- return(0.0f);
-}
-////////////////////////////////////////////////////////////////////////////////
-float CxImage::KernelPower(const float x, const float a)
-{
- if (fabs(x)>1) return 0.0f;
- return (1.0f - (float)fabs(pow(x,a)));
-}
-////////////////////////////////////////////////////////////////////////////////
-
-#endif
diff --git a/hge/CxImage/ximaiter.h b/hge/CxImage/ximaiter.h deleted file mode 100644 index 2371d28..0000000 --- a/hge/CxImage/ximaiter.h +++ /dev/null @@ -1,253 +0,0 @@ -/*
- * File: ImaIter.h
- * Purpose: Declaration of the Platform Independent Image Base Class
- * Author: Alejandro Aguilar Sierra
- * Created: 1995
- * Copyright: (c) 1995, Alejandro Aguilar Sierra <asierra(at)servidor(dot)unam(dot)mx>
- *
- * 07/08/2001 Davide Pizzolato - www.xdp.it
- * - removed slow loops
- * - added safe checks
- *
- * Permission is given by the author to freely redistribute and include
- * this code in any program as int32_t as this credit is given where due.
- *
- * COVERED CODE IS PROVIDED UNDER THIS LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTY
- * OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, WARRANTIES
- * THAT THE COVERED CODE IS FREE OF DEFECTS, MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE
- * OR NON-INFRINGING. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE COVERED
- * CODE IS WITH YOU. SHOULD ANY COVERED CODE PROVE DEFECTIVE IN ANY RESPECT, YOU (NOT
- * THE INITIAL DEVELOPER OR ANY OTHER CONTRIBUTOR) ASSUME THE COST OF ANY NECESSARY
- * SERVICING, REPAIR OR CORRECTION. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL
- * PART OF THIS LICENSE. NO USE OF ANY COVERED CODE IS AUTHORIZED HEREUNDER EXCEPT UNDER
- * THIS DISCLAIMER.
- *
- * Use at your own risk!
- * ==========================================================
- */
-
-#if !defined(__ImaIter_h)
-#define __ImaIter_h
-
-#include "ximage.h"
-#include "ximadef.h"
-
-class CImageIterator
-{
-friend class CxImage;
-protected:
- int32_t Itx, Ity; // Counters
- int32_t Stepx, Stepy;
- uint8_t* IterImage; // Image pointer
- CxImage *ima;
-public:
- // Constructors
- CImageIterator ( void );
- CImageIterator ( CxImage *image );
- operator CxImage* ();
-
- // Iterators
- BOOL ItOK ();
- void Reset ();
- void Upset ();
- void SetRow(uint8_t *buf, int32_t n);
- void GetRow(uint8_t *buf, int32_t n);
- uint8_t GetByte( ) { return IterImage[Itx]; }
- void SetByte(uint8_t b) { IterImage[Itx] = b; }
- uint8_t* GetRow(void);
- uint8_t* GetRow(int32_t n);
- BOOL NextRow();
- BOOL PrevRow();
- BOOL NextByte();
- BOOL PrevByte();
-
- void SetSteps(int32_t x, int32_t y=0) { Stepx = x; Stepy = y; }
- void GetSteps(int32_t *x, int32_t *y) { *x = Stepx; *y = Stepy; }
- BOOL NextStep();
- BOOL PrevStep();
-
- void SetY(int32_t y); /* AD - for interlace */
- int32_t GetY() {return Ity;}
- BOOL GetCol(uint8_t* pCol, uint32_t x);
- BOOL SetCol(uint8_t* pCol, uint32_t x);
-};
-
-/////////////////////////////////////////////////////////////////////
-inline
-CImageIterator::CImageIterator(void)
-{
- ima = 0;
- IterImage = 0;
- Itx = Ity = 0;
- Stepx = Stepy = 0;
-}
-/////////////////////////////////////////////////////////////////////
-inline
-CImageIterator::CImageIterator(CxImage *imageImpl): ima(imageImpl)
-{
- if (ima) IterImage = ima->GetBits();
- Itx = Ity = 0;
- Stepx = Stepy = 0;
-}
-/////////////////////////////////////////////////////////////////////
-inline
-CImageIterator::operator CxImage* ()
-{
- return ima;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::ItOK ()
-{
- if (ima) return ima->IsInside(Itx, Ity);
- else return FALSE;
-}
-/////////////////////////////////////////////////////////////////////
-inline void CImageIterator::Reset()
-{
- if (ima) IterImage = ima->GetBits();
- else IterImage=0;
- Itx = Ity = 0;
-}
-/////////////////////////////////////////////////////////////////////
-inline void CImageIterator::Upset()
-{
- Itx = 0;
- Ity = ima->GetHeight()-1;
- IterImage = ima->GetBits() + ima->GetEffWidth()*(ima->GetHeight()-1);
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::NextRow()
-{
- if (++Ity >= (int32_t)ima->GetHeight()) return 0;
- IterImage += ima->GetEffWidth();
- return 1;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::PrevRow()
-{
- if (--Ity < 0) return 0;
- IterImage -= ima->GetEffWidth();
- return 1;
-}
-/* AD - for interlace */
-inline void CImageIterator::SetY(int32_t y)
-{
- if ((y < 0) || (y > (int32_t)ima->GetHeight())) return;
- Ity = y;
- IterImage = ima->GetBits() + ima->GetEffWidth()*y;
-}
-/////////////////////////////////////////////////////////////////////
-inline void CImageIterator::SetRow(uint8_t *buf, int32_t n)
-{
- if (n<0) n = (int32_t)ima->GetEffWidth();
- else n = min(n,(int32_t)ima->GetEffWidth());
-
- if ((IterImage!=NULL)&&(buf!=NULL)&&(n>0)) memcpy(IterImage,buf,n);
-}
-/////////////////////////////////////////////////////////////////////
-inline void CImageIterator::GetRow(uint8_t *buf, int32_t n)
-{
- if ((IterImage!=NULL)&&(buf!=NULL)&&(n>0))
- memcpy(buf,IterImage,min(n,(int32_t)ima->GetEffWidth()));
-}
-/////////////////////////////////////////////////////////////////////
-inline uint8_t* CImageIterator::GetRow()
-{
- return IterImage;
-}
-/////////////////////////////////////////////////////////////////////
-inline uint8_t* CImageIterator::GetRow(int32_t n)
-{
- SetY(n);
- return IterImage;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::NextByte()
-{
- if (++Itx < (int32_t)ima->GetEffWidth()) return 1;
- else
- if (++Ity < (int32_t)ima->GetHeight()){
- IterImage += ima->GetEffWidth();
- Itx = 0;
- return 1;
- } else
- return 0;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::PrevByte()
-{
- if (--Itx >= 0) return 1;
- else
- if (--Ity >= 0){
- IterImage -= ima->GetEffWidth();
- Itx = 0;
- return 1;
- } else
- return 0;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::NextStep()
-{
- Itx += Stepx;
- if (Itx < (int32_t)ima->GetEffWidth()) return 1;
- else {
- Ity += Stepy;
- if (Ity < (int32_t)ima->GetHeight()){
- IterImage += ima->GetEffWidth();
- Itx = 0;
- return 1;
- } else
- return 0;
- }
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::PrevStep()
-{
- Itx -= Stepx;
- if (Itx >= 0) return 1;
- else {
- Ity -= Stepy;
- if (Ity >= 0 && Ity < (int32_t)ima->GetHeight()) {
- IterImage -= ima->GetEffWidth();
- Itx = 0;
- return 1;
- } else
- return 0;
- }
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::GetCol(uint8_t* pCol, uint32_t x)
-{
- if ((pCol==0)||(ima->GetBpp()<8)||(x>=ima->GetWidth()))
- return 0;
- uint32_t h = ima->GetHeight();
- //uint32_t line = ima->GetEffWidth();
- uint8_t bytes = (uint8_t)(ima->GetBpp()>>3);
- uint8_t* pSrc;
- for (uint32_t y=0;y<h;y++){
- pSrc = ima->GetBits(y) + x*bytes;
- for (uint8_t w=0;w<bytes;w++){
- *pCol++=*pSrc++;
- }
- }
- return 1;
-}
-/////////////////////////////////////////////////////////////////////
-inline BOOL CImageIterator::SetCol(uint8_t* pCol, uint32_t x)
-{
- if ((pCol==0)||(ima->GetBpp()<8)||(x>=ima->GetWidth()))
- return 0;
- uint32_t h = ima->GetHeight();
- //uint32_t line = ima->GetEffWidth();
- uint8_t bytes = (uint8_t)(ima->GetBpp()>>3);
- uint8_t* pSrc;
- for (uint32_t y=0;y<h;y++){
- pSrc = ima->GetBits(y) + x*bytes;
- for (uint8_t w=0;w<bytes;w++){
- *pSrc++=*pCol++;
- }
- }
- return 1;
-}
-/////////////////////////////////////////////////////////////////////
-#endif
diff --git a/hge/CxImage/ximajas.cpp b/hge/CxImage/ximajas.cpp deleted file mode 100644 index 788e204..0000000 --- a/hge/CxImage/ximajas.cpp +++ /dev/null @@ -1,325 +0,0 @@ -/*
- * File: ximajas.cpp
- * Purpose: Platform Independent JasPer Image Class Loader and Writer
- * 12/Apr/2003 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximajas.h"
-
-#if CXIMAGE_SUPPORT_JASPER
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJAS::Decode(CxFile *hFile, uint32_t imagetype)
-{
- if (hFile == NULL) return false;
-
- jas_image_t *image=0;
- jas_stream_t *in=0;
- jas_matrix_t **bufs=0;
- int32_t i,error=0;
- int32_t fmt;
- //jas_setdbglevel(0);
-
- cx_try
- {
- if (jas_init())
- cx_throw("cannot initialize jasper");
-
- in = jas_stream_fdopen(0, "rb");
- if (!in)
- cx_throw("error: cannot open standard input");
-
- CxFileJas src(hFile,in);
-
- fmt = jas_image_getfmt(in);
- if (fmt<0)
- cx_throw("error: unknowm format");
-
- image = jas_image_decode(in, fmt, 0);
- if (!image){
- fmt = -1;
- cx_throw("error: cannot load image data");
- }
-
- char szfmt[4];
- *szfmt = '\0';
- strncpy(szfmt,jas_image_fmttostr(fmt),3);
- szfmt[3] = '\0';
-
- fmt = -1;
-#if CXIMAGE_SUPPORT_JP2
- if (strcmp(szfmt,"jp2")==0) fmt = CXIMAGE_FORMAT_JP2;
-#endif
-#if CXIMAGE_SUPPORT_JPC
- if (strcmp(szfmt,"jpc")==0) fmt = CXIMAGE_FORMAT_JPC;
-#endif
-#if CXIMAGE_SUPPORT_RAS
- if (strcmp(szfmt,"ras")==0) fmt = CXIMAGE_FORMAT_RAS;
-#endif
-#if CXIMAGE_SUPPORT_PNM
- if (strcmp(szfmt,"pnm")==0) fmt = CXIMAGE_FORMAT_PNM;
-#endif
-#if CXIMAGE_SUPPORT_PGX
- if (strcmp(szfmt,"pgx")==0) fmt = CXIMAGE_FORMAT_PGX;
-#endif
-
- //if (fmt<0)
- // cx_throw("error: unknowm format");
-
- int32_t x,y,w,h,depth,cmptno;
-
- w = jas_image_cmptwidth(image,0);
- h = jas_image_cmptheight(image,0);
- depth = jas_image_cmptprec(image,0);
-
- if (info.nEscape == -1){
- head.biWidth = w;
- head.biHeight= h;
- info.dwType = fmt<0 ? 0 : fmt;
- cx_throw("output dimensions returned");
- }
-
- if (image->numcmpts_ > 64 || image->numcmpts_ < 0)
- cx_throw("error: too many components");
-
- // <LD> 01/Jan/2005: Always force conversion to sRGB. Seems to be required for many types of JPEG2000 file.
- // if (depth!=1 && depth!=4 && depth!=8)
- if (image->numcmpts_>=3 && depth <=8)
- {
- jas_image_t *newimage;
- jas_cmprof_t *outprof;
- //jas_eprintf("forcing conversion to sRGB\n");
- outprof = jas_cmprof_createfromclrspc(JAS_CLRSPC_SRGB);
- if (!outprof) {
- cx_throw("cannot create sRGB profile");
- }
- newimage = jas_image_chclrspc(image, outprof, JAS_CMXFORM_INTENT_PER);
- if (!newimage) {
- jas_cmprof_destroy(outprof); // <LD> 01/Jan/2005: Destroy color profile on error.
- cx_throw("cannot convert to sRGB");
- }
- jas_image_destroy(image);
- jas_cmprof_destroy(outprof);
- image = newimage;
- }
-
- bufs = (jas_matrix_t **)calloc(image->numcmpts_, sizeof(jas_matrix_t**));
- for (i = 0; i < image->numcmpts_; ++i) {
- bufs[i] = jas_matrix_create(1, w);
- if (!bufs[i]) {
- cx_throw("error: cannot allocate memory");
- }
- }
-
- int32_t nshift = (depth>8) ? (depth-8) : 0;
-
- if (image->numcmpts_==3 &&
- image->cmpts_[0]->width_ == image->cmpts_[1]->width_ &&
- image->cmpts_[1]->width_ == image->cmpts_[2]->width_ &&
- image->cmpts_[0]->height_ == image->cmpts_[1]->height_ &&
- image->cmpts_[1]->height_ == image->cmpts_[2]->height_ &&
- image->cmpts_[0]->prec_ == image->cmpts_[1]->prec_ &&
- image->cmpts_[1]->prec_ == image->cmpts_[2]->prec_ )
- {
-
- if(!Create(w,h,24,fmt))
- cx_throw("");
-
- RGBQUAD c;
- for (y=0; y<h; y++) {
- for (cmptno = 0; cmptno < image->numcmpts_; ++cmptno) {
- jas_image_readcmpt(image, cmptno, 0, y, w, 1, bufs[cmptno]);
- }
-
- for (x=0; x<w; x++){
- c.rgbRed = (uint8_t)((jas_matrix_getv(bufs[0], x)>>nshift));
- c.rgbGreen = (uint8_t)((jas_matrix_getv(bufs[1], x)>>nshift));
- c.rgbBlue = (uint8_t)((jas_matrix_getv(bufs[2], x)>>nshift));
- SetPixelColor(x,h-1-y,c);
- }
- }
- } else {
- info.nNumFrames = image->numcmpts_;
- if ((info.nFrame<0)||(info.nFrame>=info.nNumFrames)){
- cx_throw("wrong frame!");
- }
- for (cmptno=0; cmptno<=info.nFrame; cmptno++) {
- w = jas_image_cmptwidth(image,cmptno);
- h = jas_image_cmptheight(image,cmptno);
- depth = jas_image_cmptprec(image,cmptno);
- if (depth>8) depth=8;
- if(!Create(w,h,depth,imagetype))
- cx_throw("");
- SetGrayPalette();
- for (y=0; y<h; y++) {
- jas_image_readcmpt(image, cmptno, 0, y, w, 1, bufs[0]);
- for (x=0; x<w; x++){
- SetPixelIndex(x,h-1-y,(uint8_t)((jas_matrix_getv(bufs[0], x)>>nshift)));
- }
- }
- }
- }
-
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && fmt>0){
- error = 0;
- } else {
- error = 1;
- }
- }
-
- if (bufs) {
- for (i = 0; i < image->numcmpts_; ++i){ if (bufs[i]) jas_matrix_destroy(bufs[i]);}
- free(bufs);
- }
- jas_cleanup();
- if (image) jas_image_destroy(image);
- if (in) jas_stream_close(in);
- return (error==0);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJAS::Encode(CxFile * hFile, uint32_t imagetype)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- if (head.biClrUsed!=0 && !IsGrayScale()){
- strcpy(info.szLastError,"JasPer can save only RGB or GrayScale images");
- return false;
- }
-
- jas_image_t *image=0;
- jas_stream_t *out=0;
- jas_matrix_t *cmpts[3];
- int32_t x,y,yflip,error=0;
- uint_fast16_t cmptno, numcmpts=0;
- jas_image_cmptparm_t cmptparms[3], *cmptparm;
-
- cx_try {
-
- if (jas_init())
- cx_throw("cannot initialize jasper");
-
- out = jas_stream_fdopen(0, "wb");
- if (!out)
- cx_throw("error: cannot open standard output");
-
- CxFileJas src(hFile,out);
-
- numcmpts = head.biClrUsed==0 ? 3 : 1;
-
- for (cmptno = 0, cmptparm = cmptparms; cmptno < numcmpts; ++cmptno, ++cmptparm) {
- cmptparm->tlx = 0;
- cmptparm->tly = 0;
- cmptparm->hstep = 1;
- cmptparm->vstep = 1;
- cmptparm->width = head.biWidth;
- cmptparm->height = head.biHeight;
- cmptparm->prec = 8;
- cmptparm->sgnd = false;
- }
-
- /* Create image object. */
- image = jas_image_create(numcmpts, cmptparms, JAS_CLRSPC_UNKNOWN);
- if (!image)
- cx_throw("error : jas_image_create");
-
- if (numcmpts == 3) {
- jas_image_setclrspc(image, JAS_CLRSPC_SRGB);
- jas_image_setcmpttype(image, 0,
- JAS_IMAGE_CT_COLOR(JAS_CLRSPC_CHANIND_RGB_R));
- jas_image_setcmpttype(image, 1,
- JAS_IMAGE_CT_COLOR(JAS_CLRSPC_CHANIND_RGB_G));
- jas_image_setcmpttype(image, 2,
- JAS_IMAGE_CT_COLOR(JAS_CLRSPC_CHANIND_RGB_B));
- } else {
- jas_image_setclrspc(image, JAS_CLRSPC_SGRAY);
- jas_image_setcmpttype(image, 0,
- JAS_IMAGE_CT_COLOR(JAS_CLRSPC_CHANIND_GRAY_Y));
- }
-
-
- for (x = 0; x < numcmpts; ++x) { cmpts[x] = 0; }
- /* Create temporary matrices to hold component data. */
- for (x = 0; x < numcmpts; ++x) {
- cmpts[x] = jas_matrix_create(1, head.biWidth);
- if (!cmpts[x]) {
- cx_throw("error : can't allocate memory");
- }
- }
-
- RGBQUAD c;
- for (y = 0; y < head.biHeight; ++y) {
- for (x = 0; x < head.biWidth; ++x) {
- if (head.biClrUsed==0){
- c = GetPixelColor(x,y);
- jas_matrix_setv(cmpts[0], x, c.rgbRed);
- jas_matrix_setv(cmpts[1], x, c.rgbGreen);
- jas_matrix_setv(cmpts[2], x, c.rgbBlue);
- } else {
- jas_matrix_setv(cmpts[0], x, GetPixelIndex(x,y));
- }
- }
- yflip = head.biHeight - 1 - y;
- for (cmptno = 0; cmptno < numcmpts; ++cmptno) {
- if (jas_image_writecmpt(image, cmptno, 0, yflip, head.biWidth, 1, cmpts[cmptno])) {
- cx_throw("error : jas_image_writecmpt");
- }
- }
- }
-
- char szfmt[4];
- *szfmt = '\0';
-#if CXIMAGE_SUPPORT_JP2
- if (imagetype == CXIMAGE_FORMAT_JP2) strcpy(szfmt,"jp2");
-#endif
-#if CXIMAGE_SUPPORT_JPC
- if (imagetype == CXIMAGE_FORMAT_JPC) strcpy(szfmt,"jpc");
-#endif
-#if CXIMAGE_SUPPORT_RAS
- if (imagetype == CXIMAGE_FORMAT_RAS) strcpy(szfmt,"ras");
-#endif
-#if CXIMAGE_SUPPORT_PNM
- if (imagetype == CXIMAGE_FORMAT_PNM) strcpy(szfmt,"pnm");
-#endif
-#if CXIMAGE_SUPPORT_PGX
- if (imagetype == CXIMAGE_FORMAT_PGX){
- strcpy(szfmt,"pgx");
- if (head.biClrUsed==0) cx_throw("PGX can save only GrayScale images");
- }
-#endif
- int32_t outfmt = jas_image_strtofmt(szfmt);
-
- char szoutopts[32];
- sprintf(szoutopts,"rate=%.3f", info.fQuality/100.0f);
-
- if (jas_image_encode(image, out, outfmt, szoutopts)) {
- cx_throw("error: cannot encode image");
- }
- jas_stream_flush(out);
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- error = 1;
- }
-
- for (x = 0; x < numcmpts; ++x) { if (cmpts[x]) { jas_matrix_destroy(cmpts[x]); } }
- jas_cleanup();
- if (image) jas_image_destroy(image);
- if (out) jas_stream_close(out);
-
- return (error==0);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_JASPER
-
diff --git a/hge/CxImage/ximajas.h b/hge/CxImage/ximajas.h deleted file mode 100644 index da76dfc..0000000 --- a/hge/CxImage/ximajas.h +++ /dev/null @@ -1,88 +0,0 @@ -/*
- * File: ximajas.h
- * Purpose: Jasper Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageJAS (c) 12/Apr/2003 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * based on JasPer Copyright (c) 2001-2003 Michael David Adams - All rights reserved.
- * ==========================================================
- */
-#if !defined(__ximaJAS_h)
-#define __ximaJAS_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_JASPER
-
-#ifdef _LINUX
- #include <jasper/jasper.h>
-#else
- #include "../jasper/include/jasper/jasper.h"
-#endif
-
-class CxImageJAS: public CxImage
-{
-public:
- CxImageJAS(): CxImage((uint32_t)0) {} // <vho> cast to uint32_t
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,0);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,0);}
- bool Decode(CxFile * hFile, uint32_t imagetype = 0);
- bool Decode(FILE *hFile, uint32_t imagetype = 0) { CxIOFile file(hFile); return Decode(&file,imagetype); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile, uint32_t imagetype = 0);
- bool Encode(FILE *hFile, uint32_t imagetype = 0) { CxIOFile file(hFile); return Encode(&file,imagetype); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-protected:
-
- class CxFileJas
- {
- public:
- CxFileJas(CxFile* pFile,jas_stream_t *stream)
- {
- if (stream->obj_) jas_free(stream->obj_);
- stream->obj_ = pFile;
-
- // <vho> - cannot set the stream->ops_->functions here,
- // because this overwrites a static structure in the Jasper library.
- // This structure is used by Jasper for internal operations too, e.g. tempfile.
- // However the ops_ pointer in the stream can be overwritten.
-
- //stream->ops_->close_ = JasClose;
- //stream->ops_->read_ = JasRead;
- //stream->ops_->seek_ = JasSeek;
- //stream->ops_->write_ = JasWrite;
-
- jas_stream_CxFile.close_ = JasClose;
- jas_stream_CxFile.read_ = JasRead;
- jas_stream_CxFile.seek_ = JasSeek;
- jas_stream_CxFile.write_ = JasWrite;
-
- stream->ops_ = &jas_stream_CxFile;
-
- // <vho> - end
- }
- static int32_t JasRead(jas_stream_obj_t *obj, char *buf, int32_t cnt)
- { return ((CxFile*)obj)->Read(buf,1,cnt); }
- static int32_t JasWrite(jas_stream_obj_t *obj, char *buf, int32_t cnt)
- { return ((CxFile*)obj)->Write(buf,1,cnt); }
- static long JasSeek(jas_stream_obj_t *obj, long offset, int32_t origin)
- { return ((CxFile*)obj)->Seek(offset,origin); }
- static int32_t JasClose(jas_stream_obj_t * /*obj*/)
- { return 1; }
-
- // <vho>
-private:
- jas_stream_ops_t jas_stream_CxFile;
- // <vho> - end
-
- };
-
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximajbg.cpp b/hge/CxImage/ximajbg.cpp deleted file mode 100644 index ee7bc10..0000000 --- a/hge/CxImage/ximajbg.cpp +++ /dev/null @@ -1,174 +0,0 @@ -/*
- * File: ximajbg.cpp
- * Purpose: Platform Independent JBG Image Class Loader and Writer
- * 18/Aug/2002 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximajbg.h"
-
-#if CXIMAGE_SUPPORT_JBG
-
-#include "ximaiter.h"
-
-#define JBIG_BUFSIZE 8192
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJBG::Decode(CxFile *hFile)
-{
- if (hFile == NULL) return false;
-
- struct jbg_dec_state jbig_state;
- uint32_t xmax = 4294967295UL, ymax = 4294967295UL;
- uint32_t len, cnt;
- uint8_t *buffer=0,*p;
- int32_t result;
-
- cx_try
- {
- jbg_dec_init(&jbig_state);
- jbg_dec_maxsize(&jbig_state, xmax, ymax);
-
- buffer = (uint8_t*)malloc(JBIG_BUFSIZE);
- if (!buffer) cx_throw("Sorry, not enough memory available!");
-
- result = JBG_EAGAIN;
- do {
- len = hFile->Read(buffer, 1, JBIG_BUFSIZE);
- if (!len) break;
- cnt = 0;
- p = buffer;
- while (len > 0 && (result == JBG_EAGAIN || result == JBG_EOK)) {
- result = jbg_dec_in(&jbig_state, p, len, &cnt);
- p += cnt;
- len -= cnt;
- }
- } while (result == JBG_EAGAIN || result == JBG_EOK);
-
- if (hFile->Error())
- cx_throw("Problem while reading input file");
- if (result != JBG_EOK && result != JBG_EOK_INTR)
- cx_throw("Problem with input file");
-
- int32_t w, h, bpp, planes, ew;
-
- w = jbg_dec_getwidth(&jbig_state);
- h = jbg_dec_getheight(&jbig_state);
- planes = jbg_dec_getplanes(&jbig_state);
- bpp = (planes+7)>>3;
- ew = (w + 7)>>3;
-
- if (info.nEscape == -1){
- head.biWidth = w;
- head.biHeight= h;
- info.dwType = CXIMAGE_FORMAT_JBG;
- cx_throw("output dimensions returned");
- }
-
- switch (planes){
- case 1:
- {
- uint8_t* binary_image = jbg_dec_getimage(&jbig_state, 0);
-
- if (!Create(w,h,1,CXIMAGE_FORMAT_JBG))
- cx_throw("");
-
- SetPaletteColor(0,255,255,255);
- SetPaletteColor(1,0,0,0);
-
- CImageIterator iter(this);
- iter.Upset();
- for (int32_t i=0;i<h;i++){
- iter.SetRow(binary_image+i*ew,ew);
- iter.PrevRow();
- }
-
- break;
- }
- default:
- cx_throw("cannot decode images with more than 1 plane");
- }
-
- jbg_dec_free(&jbig_state);
- free(buffer);
-
- } cx_catch {
- jbg_dec_free(&jbig_state);
- if (buffer) free(buffer);
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_JBG) return true;
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJBG::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- if (head.biBitCount != 1){
- strcpy(info.szLastError,"JBG can save only 1-bpp images");
- return false;
- }
-
- int32_t w, h, bpp, planes, ew, i, j, x, y;
-
- w = head.biWidth;
- h = head.biHeight;
- planes = 1;
- bpp = (planes+7)>>3;
- ew = (w + 7)>>3;
-
- uint8_t mask;
- RGBQUAD *rgb = GetPalette();
- if (CompareColors(&rgb[0],&rgb[1])<0) mask=255; else mask=0;
-
- uint8_t *buffer = (uint8_t*)malloc(ew*h*2);
- if (!buffer) {
- strcpy(info.szLastError,"Sorry, not enough memory available!");
- return false;
- }
-
- for (y=0; y<h; y++){
- i= y*ew;
- j= (h-y-1)*info.dwEffWidth;
- for (x=0; x<ew; x++){
- buffer[i + x]=info.pImage[j + x]^mask;
- }
- }
-
- struct jbg_enc_state jbig_state;
- jbg_enc_init(&jbig_state, w, h, planes, &buffer, jbig_data_out, hFile);
-
- //jbg_enc_layers(&jbig_state, 2);
- //jbg_enc_lrlmax(&jbig_state, 800, 600);
-
- // Specify a few other options (each is ignored if negative)
- int32_t dl = -1, dh = -1, d = -1, l0 = -1, mx = -1;
- int32_t options = JBG_TPDON | JBG_TPBON | JBG_DPON;
- int32_t order = JBG_ILEAVE | JBG_SMID;
- jbg_enc_lrange(&jbig_state, dl, dh);
- jbg_enc_options(&jbig_state, order, options, l0, mx, -1);
-
- // now encode everything and send it to data_out()
- jbg_enc_out(&jbig_state);
-
- // give encoder a chance to free its temporary data structures
- jbg_enc_free(&jbig_state);
-
- free(buffer);
-
- if (hFile->Error()){
- strcpy(info.szLastError,"Problem while writing JBG file");
- return false;
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_JBG
-
diff --git a/hge/CxImage/ximajbg.h b/hge/CxImage/ximajbg.h deleted file mode 100644 index 1cf4965..0000000 --- a/hge/CxImage/ximajbg.h +++ /dev/null @@ -1,44 +0,0 @@ -/*
- * File: ximajbg.h
- * Purpose: JBG Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageJBG (c) 18/Aug/2002 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * based on LIBJBG Copyright (c) 2002, Markus Kuhn - All rights reserved.
- * ==========================================================
- */
-#if !defined(__ximaJBG_h)
-#define __ximaJBG_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_JBG
-
-extern "C" {
-#include "../jbig/jbig.h"
-};
-
-class CxImageJBG: public CxImage
-{
-public:
- CxImageJBG(): CxImage(CXIMAGE_FORMAT_JBG) {}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_JBG);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_JBG);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-protected:
- static void jbig_data_out(uint8_t *buffer, uint32_t len, void *file)
- {((CxFile*)file)->Write(buffer,len,1);}
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximajpg.cpp b/hge/CxImage/ximajpg.cpp deleted file mode 100644 index b66bf97..0000000 --- a/hge/CxImage/ximajpg.cpp +++ /dev/null @@ -1,538 +0,0 @@ -/*
- * File: ximajpg.cpp
- * Purpose: Platform Independent JPEG Image Class Loader and Writer
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximajpg.h"
-
-#if CXIMAGE_SUPPORT_JPG
-
-#ifdef _LINUX
- #include <jmorecfg.h>
-#else
- #include "../jpeg/jmorecfg.h"
-#endif
-
-#include "ximaiter.h"
-
-#include <setjmp.h>
-
-struct jpg_error_mgr {
- struct jpeg_error_mgr pub; /* "public" fields */
- jmp_buf setjmp_buffer; /* for return to caller */
- char* buffer; /* error message <CSC>*/
-};
-typedef jpg_error_mgr *jpg_error_ptr;
-
-////////////////////////////////////////////////////////////////////////////////
-// Here's the routine that will replace the standard error_exit method:
-////////////////////////////////////////////////////////////////////////////////
-static void
-ima_jpeg_error_exit (j_common_ptr cinfo)
-{
- /* cinfo->err really points to a my_error_mgr struct, so coerce pointer */
- jpg_error_ptr myerr = (jpg_error_ptr) cinfo->err;
- /* Create the message */
- myerr->pub.format_message (cinfo, myerr->buffer);
- /* Send it to stderr, adding a newline */
- /* Return control to the setjmp point */
- longjmp(myerr->setjmp_buffer, 1);
-}
-////////////////////////////////////////////////////////////////////////////////
-CxImageJPG::CxImageJPG(): CxImage(CXIMAGE_FORMAT_JPG)
-{
-#if CXIMAGEJPG_SUPPORT_EXIF
- m_exif = NULL;
- memset(&info.ExifInfo, 0, sizeof(EXIFINFO));
-#endif
-}
-////////////////////////////////////////////////////////////////////////////////
-CxImageJPG::~CxImageJPG()
-{
-#if CXIMAGEJPG_SUPPORT_EXIF
- if (m_exif) delete m_exif;
-#endif
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGEJPG_SUPPORT_EXIF
-bool CxImageJPG::DecodeExif(CxFile * hFile)
-{
- m_exif = new CxExifInfo(&info.ExifInfo);
- if (m_exif){
- int32_t pos=hFile->Tell();
- m_exif->DecodeExif(hFile);
- hFile->Seek(pos,SEEK_SET);
- return m_exif->m_exifinfo->IsExif;
- } else {
- return false;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJPG::GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type)
-{
- CxIOFile file;
- if (!file.Open(filename, _T("rb"))) return false;
- CxExifInfo exif(&info.ExifInfo);
- exif.DecodeExif(&file);
- if (info.ExifInfo.IsExif && info.ExifInfo.ThumbnailPointer && info.ExifInfo.ThumbnailSize > 0)
- { // have a thumbnail - check whether it needs rotating or resizing
- // TODO: Write a fast routine to read the jpeg header to get the width and height
- CxImage image(info.ExifInfo.ThumbnailPointer, info.ExifInfo.ThumbnailSize, CXIMAGE_FORMAT_JPG);
- if (image.IsValid())
- {
- if (image.GetWidth() > 256 || image.GetHeight() > 256)
- { // resize the image
-// float amount = 256.0f / max(image.GetWidth(), image.GetHeight());
-// image.Resample((int32_t)(image.GetWidth() * amount), (int32_t)(image.GetHeight() * amount), 0);
- }
- if (info.ExifInfo.Orientation != 1)
- image.RotateExif(info.ExifInfo.Orientation);
- return image.Save(outname, CXIMAGE_FORMAT_JPG);
- }
- // nice and fast, but we can't resize :(
- /*
- FILE *hFileWrite;
- if ((hFileWrite=fopen(outname, "wb")) != NULL)
- {
- fwrite(m_exifinfo.ThumbnailPointer, m_exifinfo.ThumbnailSize, 1, hFileWrite);
- fclose(hFileWrite);
- return true;
- }*/
- }
- return false;
-}
-#endif //CXIMAGEJPG_SUPPORT_EXIF
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJPG::Decode(CxFile * hFile)
-{
-
- bool is_exif = false;
-#if CXIMAGEJPG_SUPPORT_EXIF
- is_exif = DecodeExif(hFile);
-#endif
-
- CImageIterator iter(this);
- /* This struct contains the JPEG decompression parameters and pointers to
- * working space (which is allocated as needed by the JPEG library).
- */
- struct jpeg_decompress_struct cinfo;
- /* We use our private extension JPEG error handler. <CSC> */
- struct jpg_error_mgr jerr;
- jerr.buffer=info.szLastError;
- /* More stuff */
- JSAMPARRAY buffer; /* Output row buffer */
- int32_t row_stride; /* physical row width in output buffer */
-
- /* In this example we want to open the input file before doing anything else,
- * so that the setjmp() error recovery below can assume the file is open.
- * VERY IMPORTANT: use "b" option to fopen() if you are on a machine that
- * requires it in order to read binary files.
- */
-
- /* Step 1: allocate and initialize JPEG decompression object */
- /* We set up the normal JPEG error routines, then override error_exit. */
- cinfo.err = jpeg_std_error(&jerr.pub);
- jerr.pub.error_exit = ima_jpeg_error_exit;
-
- CxFileJpg src(hFile);
-
- /* Establish the setjmp return context for my_error_exit to use. */
- if (setjmp(jerr.setjmp_buffer)) {
- /* If we get here, the JPEG code has signaled an error.
- * We need to clean up the JPEG object, close the input file, and return.
- */
- jpeg_destroy_decompress(&cinfo);
- return 0;
- }
- /* Now we can initialize the JPEG decompression object. */
- jpeg_create_decompress(&cinfo);
-
- /* Step 2: specify data source (eg, a file) */
- //jpeg_stdio_src(&cinfo, infile);
- cinfo.src = &src;
-
- /* Step 3: read file parameters with jpeg_read_header() */
- (void) jpeg_read_header(&cinfo, TRUE);
-
- /* Step 4 <chupeev> handle decoder options*/
- uint32_t dwCodecOptions = GetCodecOption(CXIMAGE_FORMAT_JPG); //[nm_114]
- if ((dwCodecOptions & DECODE_GRAYSCALE) != 0)
- cinfo.out_color_space = JCS_GRAYSCALE;
- if ((dwCodecOptions & DECODE_QUANTIZE) != 0) {
- cinfo.quantize_colors = TRUE;
- cinfo.desired_number_of_colors = GetJpegQuality();
- }
- if ((dwCodecOptions & DECODE_DITHER) != 0)
- cinfo.dither_mode = m_nDither;
- if ((dwCodecOptions & DECODE_ONEPASS) != 0)
- cinfo.two_pass_quantize = FALSE;
- if ((dwCodecOptions & DECODE_NOSMOOTH) != 0)
- cinfo.do_fancy_upsampling = FALSE;
-
-//<DP>: Load true color images as RGB (no quantize)
-/* Step 4: set parameters for decompression */
-/* if (cinfo.jpeg_color_space!=JCS_GRAYSCALE) {
- * cinfo.quantize_colors = TRUE;
- * cinfo.desired_number_of_colors = 128;
- *}
- */ //</DP>
-
- cinfo.scale_num = 1;
- // Set the scale <ignacio>
- cinfo.scale_denom = GetJpegScale();
-
- // Borrowed the idea from GIF implementation <ignacio>
- if (info.nEscape == -1) {
- // Return output dimensions only
- jpeg_calc_output_dimensions(&cinfo);
- head.biWidth = cinfo.output_width;
- head.biHeight = cinfo.output_height;
- info.dwType = CXIMAGE_FORMAT_JPG;
- jpeg_destroy_decompress(&cinfo);
- return true;
- }
-
- /* Step 5: Start decompressor */
- jpeg_start_decompress(&cinfo);
-
- /* We may need to do some setup of our own at this point before reading
- * the data. After jpeg_start_decompress() we have the correct scaled
- * output image dimensions available, as well as the output colormap
- * if we asked for color quantization.
- */
- //Create the image using output dimensions <ignacio>
- //Create(cinfo.image_width, cinfo.image_height, 8*cinfo.output_components, CXIMAGE_FORMAT_JPG);
- Create(cinfo.output_width, cinfo.output_height, 8*cinfo.output_components, CXIMAGE_FORMAT_JPG);
-
- if (!pDib) longjmp(jerr.setjmp_buffer, 1); //<DP> check if the image has been created
-
- if (is_exif){
-#if CXIMAGEJPG_SUPPORT_EXIF
- if ((info.ExifInfo.Xresolution != 0.0) && (info.ExifInfo.ResolutionUnit != 0))
- SetXDPI((int32_t)(info.ExifInfo.Xresolution/info.ExifInfo.ResolutionUnit));
- if ((info.ExifInfo.Yresolution != 0.0) && (info.ExifInfo.ResolutionUnit != 0))
- SetYDPI((int32_t)(info.ExifInfo.Yresolution/info.ExifInfo.ResolutionUnit));
-#endif
- } else {
- switch (cinfo.density_unit) {
- case 0: // [andy] fix for aspect ratio...
- if((cinfo.Y_density > 0) && (cinfo.X_density > 0)){
- SetYDPI((int32_t)(GetXDPI()*(float(cinfo.Y_density)/float(cinfo.X_density))));
- }
- break;
- case 2: // [andy] fix: cinfo.X/Y_density is pixels per centimeter
- SetXDPI((int32_t)floor(cinfo.X_density * 2.54 + 0.5));
- SetYDPI((int32_t)floor(cinfo.Y_density * 2.54 + 0.5));
- break;
- default:
- SetXDPI(cinfo.X_density);
- SetYDPI(cinfo.Y_density);
- }
- }
-
- if (cinfo.out_color_space==JCS_GRAYSCALE){
- SetGrayPalette();
- head.biClrUsed =256;
- } else {
- if (cinfo.quantize_colors){
- SetPalette(cinfo.actual_number_of_colors, cinfo.colormap[0], cinfo.colormap[1], cinfo.colormap[2]);
- head.biClrUsed=cinfo.actual_number_of_colors;
- } else {
- head.biClrUsed=0;
- }
- }
-
- /* JSAMPLEs per row in output buffer */
- row_stride = cinfo.output_width * cinfo.output_components;
-
- /* Make a one-row-high sample array that will go away when done with image */
- buffer = (*cinfo.mem->alloc_sarray)
- ((j_common_ptr) &cinfo, JPOOL_IMAGE, row_stride, 1);
-
- /* Step 6: while (scan lines remain to be read) */
- /* jpeg_read_scanlines(...); */
- /* Here we use the library's state variable cinfo.output_scanline as the
- * loop counter, so that we don't have to keep track ourselves.
- */
- iter.Upset();
- while (cinfo.output_scanline < cinfo.output_height) {
-
- if (info.nEscape) longjmp(jerr.setjmp_buffer, 1); // <vho> - cancel decoding
-
- (void) jpeg_read_scanlines(&cinfo, buffer, 1);
- // info.nProgress = (int32_t)(100*cinfo.output_scanline/cinfo.output_height);
- //<DP> Step 6a: CMYK->RGB */
- if ((cinfo.num_components==4)&&(cinfo.quantize_colors==FALSE)){
- uint8_t k,*dst,*src;
- dst=iter.GetRow();
- src=buffer[0];
- for(int32_t x3=0,x4=0; x3<(int32_t)info.dwEffWidth && x4<row_stride; x3+=3, x4+=4){
- k=src[x4+3];
- dst[x3] =(uint8_t)((k * src[x4+2])/255);
- dst[x3+1]=(uint8_t)((k * src[x4+1])/255);
- dst[x3+2]=(uint8_t)((k * src[x4+0])/255);
- }
- } else {
- /* Assume put_scanline_someplace wants a pointer and sample count. */
- iter.SetRow(buffer[0], row_stride);
- }
- iter.PrevRow();
- }
-
- /* Step 7: Finish decompression */
- (void) jpeg_finish_decompress(&cinfo);
- /* We can ignore the return value since suspension is not possible
- * with the stdio data source.
- */
-
- //<DP> Step 7A: Swap red and blue components
- // not necessary if swapped red and blue definition in jmorecfg.h;ln322 <W. Morrison>
- if ((cinfo.num_components==3)&&(cinfo.quantize_colors==FALSE)){
- uint8_t* r0=GetBits();
- for(int32_t y=0;y<head.biHeight;y++){
- if (info.nEscape) longjmp(jerr.setjmp_buffer, 1); // <vho> - cancel decoding
- RGBtoBGR(r0,3*head.biWidth);
- r0+=info.dwEffWidth;
- }
- }
-
- /* Step 8: Release JPEG decompression object */
- /* This is an important step since it will release a good deal of memory. */
- jpeg_destroy_decompress(&cinfo);
-
- /* At this point you may want to check to see whether any corrupt-data
- * warnings occurred (test whether jerr.pub.num_warnings is nonzero).
- */
-
- /* And we're done! */
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageJPG::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- if (head.biClrUsed!=0 && !IsGrayScale()){
- strcpy(info.szLastError,"JPEG can save only RGB or GreyScale images");
- return false;
- }
-
- // necessary for EXIF, and for roll backs
- int32_t pos=hFile->Tell();
-
- /* This struct contains the JPEG compression parameters and pointers to
- * working space (which is allocated as needed by the JPEG library).
- * It is possible to have several such structures, representing multiple
- * compression/decompression processes, in existence at once. We refer
- * to any one struct (and its associated working data) as a "JPEG object".
- */
- struct jpeg_compress_struct cinfo;
- /* This struct represents a JPEG error handler. It is declared separately
- * because applications often want to supply a specialized error handler
- * (see the second half of this file for an example). But here we just
- * take the easy way out and use the standard error handler, which will
- * print a message on stderr and call exit() if compression fails.
- * Note that this struct must live as int32_t as the main JPEG parameter
- * struct, to avoid dangling-pointer problems.
- */
- //struct jpeg_error_mgr jerr;
- /* We use our private extension JPEG error handler. <CSC> */
- struct jpg_error_mgr jerr;
- jerr.buffer=info.szLastError;
- /* More stuff */
- int32_t row_stride; /* physical row width in image buffer */
- JSAMPARRAY buffer; /* Output row buffer */
-
- /* Step 1: allocate and initialize JPEG compression object */
- /* We have to set up the error handler first, in case the initialization
- * step fails. (Unlikely, but it could happen if you are out of memory.)
- * This routine fills in the contents of struct jerr, and returns jerr's
- * address which we place into the link field in cinfo.
- */
- //cinfo.err = jpeg_std_error(&jerr); <CSC>
- /* We set up the normal JPEG error routines, then override error_exit. */
- cinfo.err = jpeg_std_error(&jerr.pub);
- jerr.pub.error_exit = ima_jpeg_error_exit;
-
- /* Establish the setjmp return context for my_error_exit to use. */
- if (setjmp(jerr.setjmp_buffer)) {
- /* If we get here, the JPEG code has signaled an error.
- * We need to clean up the JPEG object, close the input file, and return.
- */
- strcpy(info.szLastError, jerr.buffer); //<CSC>
- jpeg_destroy_compress(&cinfo);
- return 0;
- }
-
- /* Now we can initialize the JPEG compression object. */
- jpeg_create_compress(&cinfo);
- /* Step 2: specify data destination (eg, a file) */
- /* Note: steps 2 and 3 can be done in either order. */
- /* Here we use the library-supplied code to send compressed data to a
- * stdio stream. You can also write your own code to do something else.
- * VERY IMPORTANT: use "b" option to fopen() if you are on a machine that
- * requires it in order to write binary files.
- */
-
- //jpeg_stdio_dest(&cinfo, outfile);
- CxFileJpg dest(hFile);
- cinfo.dest = &dest;
-
- /* Step 3: set parameters for compression */
- /* First we supply a description of the input image.
- * Four fields of the cinfo struct must be filled in:
- */
- cinfo.image_width = GetWidth(); // image width and height, in pixels
- cinfo.image_height = GetHeight();
-
- if (IsGrayScale()){
- cinfo.input_components = 1; // # of color components per pixel
- cinfo.in_color_space = JCS_GRAYSCALE; /* colorspace of input image */
- } else {
- cinfo.input_components = 3; // # of color components per pixel
- cinfo.in_color_space = JCS_RGB; /* colorspace of input image */
- }
-
- /* Now use the library's routine to set default compression parameters.
- * (You must set at least cinfo.in_color_space before calling this,
- * since the defaults depend on the source color space.)
- */
- jpeg_set_defaults(&cinfo);
- /* Now you can set any non-default parameters you wish to.
- * Here we just illustrate the use of quality (quantization table) scaling:
- */
-
- uint32_t dwCodecOptions = GetCodecOption(CXIMAGE_FORMAT_JPG); //[nm_114]
-//#ifdef C_ARITH_CODING_SUPPORTED
- if ((dwCodecOptions & ENCODE_ARITHMETIC) != 0)
- cinfo.arith_code = TRUE;
-//#endif
-
-//#ifdef ENTROPY_OPT_SUPPORTED
- if ((dwCodecOptions & ENCODE_OPTIMIZE) != 0)
- cinfo.optimize_coding = TRUE;
-//#endif
-
- if ((dwCodecOptions & ENCODE_GRAYSCALE) != 0)
- jpeg_set_colorspace(&cinfo, JCS_GRAYSCALE);
-
- if ((dwCodecOptions & ENCODE_SMOOTHING) != 0)
- cinfo.smoothing_factor = m_nSmoothing;
-
- jpeg_set_quality(&cinfo, GetJpegQuality(), (dwCodecOptions & ENCODE_BASELINE) != 0);
-
-//#ifdef C_PROGRESSIVE_SUPPORTED
- if ((dwCodecOptions & ENCODE_PROGRESSIVE) != 0)
- jpeg_simple_progression(&cinfo);
-//#endif
-
-#ifdef C_LOSSLESS_SUPPORTED
- if ((dwCodecOptions & ENCODE_LOSSLESS) != 0)
- jpeg_simple_lossless(&cinfo, m_nPredictor, m_nPointTransform);
-#endif
-
- //SetCodecOption(ENCODE_SUBSAMPLE_444 | GetCodecOption(CXIMAGE_FORMAT_JPG),CXIMAGE_FORMAT_JPG);
-
- // 2x2, 1x1, 1x1 (4:1:1) : High (default sub sampling)
- cinfo.comp_info[0].h_samp_factor = 2;
- cinfo.comp_info[0].v_samp_factor = 2;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
-
- if ((dwCodecOptions & ENCODE_SUBSAMPLE_422) != 0){
- // 2x1, 1x1, 1x1 (4:2:2) : Medium
- cinfo.comp_info[0].h_samp_factor = 2;
- cinfo.comp_info[0].v_samp_factor = 1;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
- }
-
- if ((dwCodecOptions & ENCODE_SUBSAMPLE_444) != 0){
- // 1x1 1x1 1x1 (4:4:4) : None
- cinfo.comp_info[0].h_samp_factor = 1;
- cinfo.comp_info[0].v_samp_factor = 1;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
- }
-
- cinfo.density_unit=1;
- cinfo.X_density=(uint16_t)GetXDPI();
- cinfo.Y_density=(uint16_t)GetYDPI();
-
- /* Step 4: Start compressor */
- /* TRUE ensures that we will write a complete interchange-JPEG file.
- * Pass TRUE unless you are very sure of what you're doing.
- */
- jpeg_start_compress(&cinfo, TRUE);
-
- /* Step 5: while (scan lines remain to be written) */
- /* jpeg_write_scanlines(...); */
- /* Here we use the library's state variable cinfo.next_scanline as the
- * loop counter, so that we don't have to keep track ourselves.
- * To keep things simple, we pass one scanline per call; you can pass
- * more if you wish, though.
- */
- row_stride = info.dwEffWidth; /* JSAMPLEs per row in image_buffer */
-
- //<DP> "8+row_stride" fix heap deallocation problem during debug???
- buffer = (*cinfo.mem->alloc_sarray)
- ((j_common_ptr) &cinfo, JPOOL_IMAGE, 8+row_stride, 1);
-
- CImageIterator iter(this);
-
- iter.Upset();
- while (cinfo.next_scanline < cinfo.image_height) {
- // info.nProgress = (int32_t)(100*cinfo.next_scanline/cinfo.image_height);
- iter.GetRow(buffer[0], row_stride);
- // not necessary if swapped red and blue definition in jmorecfg.h;ln322 <W. Morrison>
- if (head.biClrUsed==0){ // swap R & B for RGB images
- RGBtoBGR(buffer[0], row_stride); // Lance : 1998/09/01 : Bug ID: EXP-2.1.1-9
- }
- iter.PrevRow();
- (void) jpeg_write_scanlines(&cinfo, buffer, 1);
- }
-
- /* Step 6: Finish compression */
- jpeg_finish_compress(&cinfo);
-
- /* Step 7: release JPEG compression object */
- /* This is an important step since it will release a good deal of memory. */
- jpeg_destroy_compress(&cinfo);
-
-
-#if CXIMAGEJPG_SUPPORT_EXIF
- if (m_exif && m_exif->m_exifinfo->IsExif){
- // discard useless sections (if any) read from original image
- m_exif->DiscardAllButExif();
- // read new created image, to split the sections
- hFile->Seek(pos,SEEK_SET);
- m_exif->DecodeExif(hFile,EXIF_READ_IMAGE);
- // save back the image, adding EXIF section
- hFile->Seek(pos,SEEK_SET);
- m_exif->EncodeExif(hFile);
- }
-#endif
-
-
- /* And we're done! */
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_JPG
-
diff --git a/hge/CxImage/ximajpg.h b/hge/CxImage/ximajpg.h deleted file mode 100644 index da21643..0000000 --- a/hge/CxImage/ximajpg.h +++ /dev/null @@ -1,283 +0,0 @@ -/*
- * File: ximajpg.h
- * Purpose: JPG Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageJPG (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Troels Knakkergaard for new features, enhancements and bugfixes
- *
- * Special thanks to Chris Shearer Cooper for CxFileJpg tips & code
- *
- * EXIF support based on jhead-1.8 by Matthias Wandel <mwandel(at)rim(dot)net>
- *
- * original CImageJPG and CImageIterator implementation are:
- * Copyright: (c) 1995, Alejandro Aguilar Sierra <asierra(at)servidor(dot)unam(dot)mx>
- *
- * This software is based in part on the work of the Independent JPEG Group.
- * Copyright (C) 1991-1998, Thomas G. Lane.
- * ==========================================================
- */
-#if !defined(__ximaJPEG_h)
-#define __ximaJPEG_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_JPG
-
-#define CXIMAGEJPG_SUPPORT_EXIF CXIMAGE_SUPPORT_EXIF
-
-extern "C" {
-#ifdef _LINUX
- #include <jpeglib.h>
- #include <jerror.h>
-#else
- #include "../jpeg/jpeglib.h"
- #include "../jpeg/jerror.h"
-#endif
-}
-
-class DLL_EXP CxImageJPG: public CxImage
-{
-public:
- CxImageJPG();
- ~CxImageJPG();
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_JPG);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_JPG);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
-/*
- * EXIF support based on jhead-1.8 by Matthias Wandel <mwandel(at)rim(dot)net>
- */
-
-#if CXIMAGEJPG_SUPPORT_EXIF
-
-//--------------------------------------------------------------------------
-// JPEG markers consist of one or more 0xFF bytes, followed by a marker
-// code byte (which is not an FF). Here are the marker codes of interest
-// in this program. (See jdmarker.c for a more complete list.)
-//--------------------------------------------------------------------------
-
-#define M_SOF0 0xC0 // Start Of Frame N
-#define M_SOF1 0xC1 // N indicates which compression process
-#define M_SOF2 0xC2 // Only SOF0-SOF2 are now in common use
-#define M_SOF3 0xC3
-#define M_SOF5 0xC5 // NB: codes C4 and CC are NOT SOF markers
-#define M_SOF6 0xC6
-#define M_SOF7 0xC7
-#define M_SOF9 0xC9
-#define M_SOF10 0xCA
-#define M_SOF11 0xCB
-#define M_SOF13 0xCD
-#define M_SOF14 0xCE
-#define M_SOF15 0xCF
-#define M_SOI 0xD8 // Start Of Image (beginning of datastream)
-#define M_EOI 0xD9 // End Of Image (end of datastream)
-#define M_SOS 0xDA // Start Of Scan (begins compressed data)
-#define M_JFIF 0xE0 // Jfif marker
-#define M_EXIF 0xE1 // Exif marker
-#define M_COM 0xFE // COMment
-
-#define PSEUDO_IMAGE_MARKER 0x123; // Extra value.
-
-#define EXIF_READ_EXIF 0x01
-#define EXIF_READ_IMAGE 0x02
-#define EXIF_READ_ALL 0x03
-
-class DLL_EXP CxExifInfo
-{
-
-typedef struct tag_Section_t{
- uint8_t* Data;
- int32_t Type;
- unsigned Size;
-} Section_t;
-
-public:
- EXIFINFO* m_exifinfo;
- char m_szLastError[256];
- CxExifInfo(EXIFINFO* info = NULL);
- ~CxExifInfo();
- bool DecodeExif(CxFile * hFile, int32_t nReadMode = EXIF_READ_EXIF);
- bool EncodeExif(CxFile * hFile);
- void DiscardAllButExif();
-protected:
- bool process_EXIF(uint8_t * CharBuf, uint32_t length);
- void process_COM (const uint8_t * Data, int32_t length);
- void process_SOFn (const uint8_t * Data, int32_t marker);
- int32_t Get16u(void * Short);
- int32_t Get16m(void * Short);
- int32_t Get32s(void * Long);
- uint32_t Get32u(void * Long);
- double ConvertAnyFormat(void * ValuePtr, int32_t Format);
- void* FindSection(int32_t SectionType);
- bool ProcessExifDir(uint8_t * DirStart, uint8_t * OffsetBase, unsigned ExifLength,
- EXIFINFO * const pInfo, uint8_t ** const LastExifRefdP, int32_t NestingLevel=0);
- int32_t ExifImageWidth;
- int32_t MotorolaOrder;
- Section_t Sections[MAX_SECTIONS];
- int32_t SectionsRead;
- bool freeinfo;
-};
-
- CxExifInfo* m_exif;
- bool DecodeExif(CxFile * hFile);
- bool DecodeExif(FILE * hFile) { CxIOFile file(hFile); return DecodeExif(&file); }
- bool GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type);
-
-#endif //CXIMAGEJPG_SUPPORT_EXIF
-
-////////////////////////////////////////////////////////////////////////////////////////
-////////////////////// C x F i l e J p g ////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////////////
-
-// thanks to Chris Shearer Cooper <cscooper(at)frii(dot)com>
-class CxFileJpg : public jpeg_destination_mgr, public jpeg_source_mgr
- {
-public:
- enum { eBufSize = 4096 };
-
- CxFileJpg(CxFile* pFile)
- {
- m_pFile = pFile;
-
- init_destination = InitDestination;
- empty_output_buffer = EmptyOutputBuffer;
- term_destination = TermDestination;
-
- init_source = InitSource;
- fill_input_buffer = FillInputBuffer;
- skip_input_data = SkipInputData;
- resync_to_restart = jpeg_resync_to_restart; // use default method
- term_source = TermSource;
- next_input_byte = NULL; //* => next byte to read from buffer
- bytes_in_buffer = 0; //* # of bytes remaining in buffer
-
- m_pBuffer = new uint8_t[eBufSize];
- }
- ~CxFileJpg()
- {
- delete [] m_pBuffer;
- }
-
- static void InitDestination(j_compress_ptr cinfo)
- {
- CxFileJpg* pDest = (CxFileJpg*)cinfo->dest;
- pDest->next_output_byte = pDest->m_pBuffer;
- pDest->free_in_buffer = eBufSize;
- }
-
- static boolean EmptyOutputBuffer(j_compress_ptr cinfo)
- {
- CxFileJpg* pDest = (CxFileJpg*)cinfo->dest;
- if (pDest->m_pFile->Write(pDest->m_pBuffer,1,eBufSize)!=(size_t)eBufSize)
- ERREXIT(cinfo, JERR_FILE_WRITE);
- pDest->next_output_byte = pDest->m_pBuffer;
- pDest->free_in_buffer = eBufSize;
- return TRUE;
- }
-
- static void TermDestination(j_compress_ptr cinfo)
- {
- CxFileJpg* pDest = (CxFileJpg*)cinfo->dest;
- size_t datacount = eBufSize - pDest->free_in_buffer;
- /* Write any data remaining in the buffer */
- if (datacount > 0) {
- if (!pDest->m_pFile->Write(pDest->m_pBuffer,1,datacount))
- ERREXIT(cinfo, JERR_FILE_WRITE);
- }
- pDest->m_pFile->Flush();
- /* Make sure we wrote the output file OK */
- if (pDest->m_pFile->Error()) ERREXIT(cinfo, JERR_FILE_WRITE);
- return;
- }
-
- static void InitSource(j_decompress_ptr cinfo)
- {
- CxFileJpg* pSource = (CxFileJpg*)cinfo->src;
- pSource->m_bStartOfFile = TRUE;
- }
-
- static boolean FillInputBuffer(j_decompress_ptr cinfo)
- {
- size_t nbytes;
- CxFileJpg* pSource = (CxFileJpg*)cinfo->src;
- nbytes = pSource->m_pFile->Read(pSource->m_pBuffer,1,eBufSize);
- if (nbytes <= 0){
- if (pSource->m_bStartOfFile) //* Treat empty input file as fatal error
- ERREXIT(cinfo, JERR_INPUT_EMPTY);
- WARNMS(cinfo, JWRN_JPEG_EOF);
- // Insert a fake EOI marker
- pSource->m_pBuffer[0] = (JOCTET) 0xFF;
- pSource->m_pBuffer[1] = (JOCTET) JPEG_EOI;
- nbytes = 2;
- }
- pSource->next_input_byte = pSource->m_pBuffer;
- pSource->bytes_in_buffer = nbytes;
- pSource->m_bStartOfFile = FALSE;
- return TRUE;
- }
-
- static void SkipInputData(j_decompress_ptr cinfo, long num_bytes)
- {
- CxFileJpg* pSource = (CxFileJpg*)cinfo->src;
- if (num_bytes > 0){
- while (num_bytes > (int32_t)pSource->bytes_in_buffer){
- num_bytes -= (int32_t)pSource->bytes_in_buffer;
- FillInputBuffer(cinfo);
- // note we assume that fill_input_buffer will never return FALSE,
- // so suspension need not be handled.
- }
- pSource->next_input_byte += (size_t) num_bytes;
- pSource->bytes_in_buffer -= (size_t) num_bytes;
- }
- }
-
- static void TermSource(j_decompress_ptr /*cinfo*/)
- {
- return;
- }
-protected:
- CxFile *m_pFile;
- uint8_t *m_pBuffer;
- bool m_bStartOfFile;
-};
-
-public:
- enum CODEC_OPTION
- {
- ENCODE_BASELINE = 0x1,
- ENCODE_ARITHMETIC = 0x2,
- ENCODE_GRAYSCALE = 0x4,
- ENCODE_OPTIMIZE = 0x8,
- ENCODE_PROGRESSIVE = 0x10,
- ENCODE_LOSSLESS = 0x20,
- ENCODE_SMOOTHING = 0x40,
- DECODE_GRAYSCALE = 0x80,
- DECODE_QUANTIZE = 0x100,
- DECODE_DITHER = 0x200,
- DECODE_ONEPASS = 0x400,
- DECODE_NOSMOOTH = 0x800,
- ENCODE_SUBSAMPLE_422 = 0x1000,
- ENCODE_SUBSAMPLE_444 = 0x2000
- };
-
- int32_t m_nPredictor;
- int32_t m_nPointTransform;
- int32_t m_nSmoothing;
- int32_t m_nQuantize;
- J_DITHER_MODE m_nDither;
-
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximalpha.cpp b/hge/CxImage/ximalpha.cpp deleted file mode 100644 index 2932068..0000000 --- a/hge/CxImage/ximalpha.cpp +++ /dev/null @@ -1,367 +0,0 @@ -// xImalpha.cpp : Alpha channel functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_ALPHA
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa AlphaSetMax
- */
-uint8_t CxImage::AlphaGetMax() const
-{
- return info.nAlphaMax;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets global Alpha (opacity) value applied to the whole image,
- * valid only for painting functions.
- * \param nAlphaMax: can be from 0 to 255
- */
-void CxImage::AlphaSetMax(uint8_t nAlphaMax)
-{
- info.nAlphaMax=nAlphaMax;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the image has a valid alpha channel.
- */
-bool CxImage::AlphaIsValid()
-{
- return pAlpha!=0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Enables the alpha palette, so the Draw() function changes its behavior.
- */
-void CxImage::AlphaPaletteEnable(bool enable)
-{
- info.bAlphaPaletteEnabled=enable;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * True if the alpha palette is enabled for painting.
- */
-bool CxImage::AlphaPaletteIsEnabled()
-{
- return info.bAlphaPaletteEnabled;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the alpha channel to full transparent. AlphaSet(0) has the same effect
- */
-void CxImage::AlphaClear()
-{
- if (pAlpha) memset(pAlpha,0,head.biWidth * head.biHeight);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the alpha level for the whole image.
- * \param level : from 0 (transparent) to 255 (opaque)
- */
-void CxImage::AlphaSet(uint8_t level)
-{
- if (pAlpha) memset(pAlpha,level,head.biWidth * head.biHeight);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Allocates an empty (opaque) alpha channel.
- */
-bool CxImage::AlphaCreate()
-{
- if (pAlpha==NULL) {
- pAlpha = (uint8_t*)malloc(head.biWidth * head.biHeight);
- if (pAlpha) memset(pAlpha,255,head.biWidth * head.biHeight);
- }
- return (pAlpha!=0);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::AlphaDelete()
-{
- if (pAlpha) { free(pAlpha); pAlpha=0; }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::AlphaInvert()
-{
- if (pAlpha) {
- uint8_t *iSrc=pAlpha;
- int32_t n=head.biHeight*head.biWidth;
- for(int32_t i=0; i < n; i++){
- *iSrc=(uint8_t)~(*(iSrc));
- iSrc++;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Imports an existing alpa channel from another image with the same width and height.
- */
-bool CxImage::AlphaCopy(CxImage &from)
-{
- if (from.pAlpha == NULL || head.biWidth != from.head.biWidth || head.biHeight != from.head.biHeight) return false;
- if (pAlpha==NULL) pAlpha = (uint8_t*)malloc(head.biWidth * head.biHeight);
- if (pAlpha==NULL) return false;
- memcpy(pAlpha,from.pAlpha,head.biWidth * head.biHeight);
- info.nAlphaMax=from.info.nAlphaMax;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Creates the alpha channel from a gray scale image.
- */
-bool CxImage::AlphaSet(CxImage &from)
-{
- if (!from.IsGrayScale() || head.biWidth != from.head.biWidth || head.biHeight != from.head.biHeight) return false;
- if (pAlpha==NULL) pAlpha = (uint8_t*)malloc(head.biWidth * head.biHeight);
- uint8_t* src = from.info.pImage;
- uint8_t* dst = pAlpha;
- if (src==NULL || dst==NULL) return false;
- for (int32_t y=0; y<head.biHeight; y++){
- memcpy(dst,src,head.biWidth);
- dst += head.biWidth;
- src += from.info.dwEffWidth;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the alpha level for a single pixel
- */
-void CxImage::AlphaSet(const int32_t x,const int32_t y,const uint8_t level)
-{
- if (pAlpha && IsInside(x,y)) pAlpha[x+y*head.biWidth]=level;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the alpha level for a single pixel
- */
-uint8_t CxImage::AlphaGet(const int32_t x,const int32_t y)
-{
- if (pAlpha && IsInside(x,y)) return pAlpha[x+y*head.biWidth];
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns pointer to alpha data for pixel (x,y).
- *
- * \author ***bd*** 2.2004
- */
-uint8_t* CxImage::AlphaGetPointer(const int32_t x,const int32_t y)
-{
- if (pAlpha && IsInside(x,y)) return pAlpha+x+y*head.biWidth;
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Get alpha value without boundscheck (a bit faster). Pixel must be inside the image.
- *
- * \author ***bd*** 2.2004
- */
-uint8_t CxImage::BlindAlphaGet(const int32_t x,const int32_t y)
-{
-#ifdef _DEBUG
- if (!IsInside(x,y) || (pAlpha==0))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return 0;
- #endif
-#endif
- return pAlpha[x+y*head.biWidth];
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Resets the alpha palette
- */
-void CxImage::AlphaPaletteClear()
-{
- RGBQUAD c;
- for(uint16_t ip=0; ip<head.biClrUsed;ip++){
- c=GetPaletteColor((uint8_t)ip);
- c.rgbReserved=0;
- SetPaletteColor((uint8_t)ip,c);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the image has a valid alpha palette.
- */
-bool CxImage::AlphaPaletteIsValid()
-{
- RGBQUAD c;
- for(uint16_t ip=0; ip<head.biClrUsed;ip++){
- c=GetPaletteColor((uint8_t)ip);
- if (c.rgbReserved != 0) return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Blends the alpha channel and the alpha palette with the pixels. The result is a 24 bit image.
- * The background color can be selected using SetTransColor().
- */
-void CxImage::AlphaStrip()
-{
- bool bAlphaPaletteIsValid = AlphaPaletteIsValid();
- bool bAlphaIsValid = AlphaIsValid();
- if (!(bAlphaIsValid || bAlphaPaletteIsValid)) return;
- RGBQUAD c;
- int32_t a, a1;
- if (head.biBitCount==24){
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- c = BlindGetPixelColor(x,y);
- if (bAlphaIsValid) a=(BlindAlphaGet(x,y)*info.nAlphaMax)/255; else a=info.nAlphaMax;
- a1 = 256-a;
- c.rgbBlue = (uint8_t)((c.rgbBlue * a + a1 * info.nBkgndColor.rgbBlue)>>8);
- c.rgbGreen = (uint8_t)((c.rgbGreen * a + a1 * info.nBkgndColor.rgbGreen)>>8);
- c.rgbRed = (uint8_t)((c.rgbRed * a + a1 * info.nBkgndColor.rgbRed)>>8);
- BlindSetPixelColor(x,y,c);
- }
- }
- AlphaDelete();
- } else {
- CxImage tmp(head.biWidth,head.biHeight,24);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return;
- }
-
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- c = BlindGetPixelColor(x,y);
- if (bAlphaIsValid) a=(BlindAlphaGet(x,y)*info.nAlphaMax)/255; else a=info.nAlphaMax;
- if (bAlphaPaletteIsValid) a=(c.rgbReserved*a)/255;
- a1 = 256-a;
- c.rgbBlue = (uint8_t)((c.rgbBlue * a + a1 * info.nBkgndColor.rgbBlue)>>8);
- c.rgbGreen = (uint8_t)((c.rgbGreen * a + a1 * info.nBkgndColor.rgbGreen)>>8);
- c.rgbRed = (uint8_t)((c.rgbRed * a + a1 * info.nBkgndColor.rgbRed)>>8);
- tmp.BlindSetPixelColor(x,y,c);
- }
- }
- Transfer(tmp);
- }
- return;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::AlphaFlip()
-{
- if (!pAlpha) return false;
-
- uint8_t *buff = (uint8_t*)malloc(head.biWidth);
- if (!buff) return false;
-
- uint8_t *iSrc,*iDst;
- iSrc = pAlpha + (head.biHeight-1)*head.biWidth;
- iDst = pAlpha;
- for (int32_t i=0; i<(head.biHeight/2); ++i)
- {
- memcpy(buff, iSrc, head.biWidth);
- memcpy(iSrc, iDst, head.biWidth);
- memcpy(iDst, buff, head.biWidth);
- iSrc-=head.biWidth;
- iDst+=head.biWidth;
- }
-
- free(buff);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::AlphaMirror()
-{
- if (!pAlpha) return false;
- uint8_t* pAlpha2 = (uint8_t*)malloc(head.biWidth * head.biHeight);
- if (!pAlpha2) return false;
- uint8_t *iSrc,*iDst;
- int32_t wdt=head.biWidth-1;
- iSrc=pAlpha + wdt;
- iDst=pAlpha2;
- for(int32_t y=0; y < head.biHeight; y++){
- for(int32_t x=0; x <= wdt; x++)
- *(iDst+x)=*(iSrc-x);
- iSrc+=head.biWidth;
- iDst+=head.biWidth;
- }
- free(pAlpha);
- pAlpha=pAlpha2;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Exports the alpha channel in a 8bpp grayscale image.
- */
-bool CxImage::AlphaSplit(CxImage *dest)
-{
- if (!pAlpha || !dest) return false;
-
- CxImage tmp(head.biWidth,head.biHeight,8);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- uint8_t* src = pAlpha;
- uint8_t* dst = tmp.info.pImage;
- for (int32_t y=0; y<head.biHeight; y++){
- memcpy(dst,src,head.biWidth);
- dst += tmp.info.dwEffWidth;
- src += head.biWidth;
- }
-
- tmp.SetGrayPalette();
- dest->Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Exports the alpha palette channel in a 8bpp grayscale image.
- */
-bool CxImage::AlphaPaletteSplit(CxImage *dest)
-{
- if (!AlphaPaletteIsValid() || !dest) return false;
-
- CxImage tmp(head.biWidth,head.biHeight,8);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- tmp.BlindSetPixelIndex(x,y,BlindGetPixelColor(x,y).rgbReserved);
- }
- }
-
- tmp.SetGrayPalette();
- dest->Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Merge in the alpha layer the transparent color mask
- * (previously set with SetTransColor or SetTransIndex)
- */
-bool CxImage::AlphaFromTransparency()
-{
- if (!IsValid() || !IsTransparent())
- return false;
-
- AlphaCreate();
-
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- if (IsTransparent(x,y)){
- AlphaSet(x,y,0);
- }
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_ALPHA
diff --git a/hge/CxImage/ximalyr.cpp b/hge/CxImage/ximalyr.cpp deleted file mode 100644 index 23dc226..0000000 --- a/hge/CxImage/ximalyr.cpp +++ /dev/null @@ -1,116 +0,0 @@ -// xImaLyr.cpp : Layers functions
-/* 21/04/2003 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_LAYERS
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * If the object is an internal layer, GetParent return its parent in the hierarchy.
- */
-CxImage* CxImage::GetParent() const
-{
- return info.pParent;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Number of layers allocated directly by the object.
- */
-int32_t CxImage::GetNumLayers() const
-{
- return info.nNumLayers;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Creates an empty layer. If position is less than 0, the new layer will be placed in the last position
- */
-bool CxImage::LayerCreate(int32_t position)
-{
- if ( position < 0 || position > info.nNumLayers ) position = info.nNumLayers;
-
- CxImage** ptmp = new CxImage*[info.nNumLayers + 1];
- if (ptmp==0) return false;
-
- int32_t i=0;
- for (int32_t n=0; n<info.nNumLayers; n++){
- if (position == n){
- ptmp[n] = new CxImage();
- i=1;
- }
- ptmp[n+i]=ppLayers[n];
- }
- if (i==0) ptmp[info.nNumLayers] = new CxImage();
-
- if (ptmp[position]){
- ptmp[position]->info.pParent = this;
- } else {
- free(ptmp);
- return false;
- }
-
- info.nNumLayers++;
- delete [] ppLayers;
- ppLayers = ptmp;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Deletes a layer. If position is less than 0, the last layer will be deleted
- */
-bool CxImage::LayerDelete(int32_t position)
-{
- if ( position >= info.nNumLayers ) return false;
- if ( position < 0) position = info.nNumLayers - 1;
- if ( position < 0) return false;
-
- if (info.nNumLayers>1){
-
- CxImage** ptmp = new CxImage*[info.nNumLayers - 1];
- if (ptmp==0) return false;
-
- int32_t i=0;
- for (int32_t n=0; n<info.nNumLayers; n++){
- if (position == n){
- delete ppLayers[n];
- i=1;
- }
- ptmp[n]=ppLayers[n+i];
- }
-
- info.nNumLayers--;
- delete [] ppLayers;
- ppLayers = ptmp;
-
- } else {
- delete ppLayers[0];
- delete [] ppLayers;
- ppLayers = 0;
- info.nNumLayers = 0;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::LayerDeleteAll()
-{
- if (ppLayers) {
- for(int32_t n=0; n<info.nNumLayers;n++){ delete ppLayers[n]; }
- delete [] ppLayers; ppLayers=0; info.nNumLayers = 0;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns a pointer to a layer. If position is less than 0, the last layer will be returned
- */
-CxImage* CxImage::GetLayer(int32_t position)
-{
- if ( ppLayers == NULL) return NULL;
- if ( info.nNumLayers == 0) return NULL;
- if ( position >= info.nNumLayers ) return NULL;
- if ( position < 0) position = info.nNumLayers - 1;
- return ppLayers[position];
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_LAYERS
diff --git a/hge/CxImage/ximamng.cpp b/hge/CxImage/ximamng.cpp deleted file mode 100644 index d5ea82e..0000000 --- a/hge/CxImage/ximamng.cpp +++ /dev/null @@ -1,430 +0,0 @@ -/*
- * File: ximamng.cpp
- * Purpose: Platform Independent MNG Image Class Loader and Writer
- * Author: 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximamng.h"
-
-#if CXIMAGE_SUPPORT_MNG
-
-////////////////////////////////////////////////////////////////////////////////
-// callbacks for the mng decoder:
-////////////////////////////////////////////////////////////////////////////////
-
-////////////////////////////////////////////////////////////////////////////////
-// memory allocation; data must be zeroed
-static mng_ptr
-mymngalloc( mng_size_t size )
-{
- return (mng_ptr)calloc(1, size);
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// memory deallocation
-static void mymngfree(mng_ptr p, mng_size_t size)
-{
- free(p);
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// Stream open/close:
-// since the user is responsible for opening and closing the file,
-// we leave the default implementation open
-static mng_bool mymngopenstream(mng_handle mng) { return MNG_TRUE; }
-static mng_bool mymngopenstreamwrite(mng_handle mng) { return MNG_TRUE; }
-static mng_bool mymngclosestream(mng_handle mng) { return MNG_TRUE; }
-
-////////////////////////////////////////////////////////////////////////////////
-// feed data to the decoder
-static mng_bool mymngreadstream(mng_handle mng, mng_ptr buffer, mng_uint32 size, mng_uint32 *bytesread)
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- // read the requested amount of data from the file
- *bytesread = mymng->file->Read( buffer, sizeof(uint8_t), size);
- return MNG_TRUE;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-static mng_bool mymngwritestream (mng_handle mng, mng_ptr pBuf, mng_uint32 iSize, mng_uint32 *iWritten)
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- // write it
- *iWritten = mymng->file->Write (pBuf, 1, iSize);
- return MNG_TRUE;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// the header's been read. set up the display stuff
-static mng_bool mymngprocessheader( mng_handle mng, mng_uint32 width, mng_uint32 height )
-{
- // normally the image buffer is allocated here,
- // but in this module we don't know nothing about
- // the final environment.
-
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
-
- mymng->width = width;
- mymng->height = height;
- mymng->bpp = 24;
- mymng->effwdt = ((((width * mymng->bpp) + 31) >> 5) << 2);
-
- if (mng->bUseBKGD){
- mymng->nBkgndIndex = 0;
- mymng->nBkgndColor.rgbRed = mng->iBGred >> 8;
- mymng->nBkgndColor.rgbGreen =mng->iBGgreen >> 8;
- mymng->nBkgndColor.rgbBlue = mng->iBGblue >> 8;
- }
-
- mymng->image = (uint8_t*)malloc(height * mymng->effwdt);
-
- // tell the mng decoder about our bit-depth choice
-#if CXIMAGE_SUPPORT_ALPHA
- mng_set_canvasstyle( mng, MNG_CANVAS_RGB8_A8 );
- mymng->alpha = (uint8_t*)malloc(height * width);
-#else
- mng_set_canvasstyle( mng, MNG_CANVAS_BGR8);
- mymng->alpha = NULL;
-#endif
- return MNG_TRUE;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// return a row pointer for the decoder to fill
-static mng_ptr mymnggetcanvasline( mng_handle mng, mng_uint32 line )
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- return (mng_ptr)(mymng->image + (mymng->effwdt * (mymng->height - 1 - line)));
-}
-////////////////////////////////////////////////////////////////////////////////
-// return a row pointer for the decoder to fill for alpha channel
-static mng_ptr mymnggetalphaline( mng_handle mng, mng_uint32 line )
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- return (mng_ptr)(mymng->alpha + (mymng->width * (mymng->height - 1 - line)));
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// timer
-static mng_uint32 mymnggetticks(mng_handle mng)
-{
-#ifdef WIN32
- return (mng_uint32)GetTickCount();
-#else
- return 0;
-#endif
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// Refresh: actual frame need to be updated (Invalidate)
-static mng_bool mymngrefresh(mng_handle mng, mng_uint32 x, mng_uint32 y, mng_uint32 w, mng_uint32 h)
-{
-// mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- return MNG_TRUE;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// interframe delay callback
-static mng_bool mymngsettimer(mng_handle mng, mng_uint32 msecs)
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(mng);
- mymng->delay = msecs; // set the timer for when the decoder wants to be woken
- return MNG_TRUE;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-static mng_bool mymngerror(mng_handle mng, mng_int32 code, mng_int8 severity, mng_chunkid chunktype, mng_uint32 chunkseq, mng_int32 extra1, mng_int32 extra2, mng_pchar text)
-{
- return mng_cleanup(&mng); //<Arkadiy Olovyannikov>
-}
-
-////////////////////////////////////////////////////////////////////////////////
-// CxImage members
-////////////////////////////////////////////////////////////////////////////////
-CxImageMNG::CxImageMNG(): CxImage(CXIMAGE_FORMAT_MNG)
-{
- hmng = NULL;
- memset(&mnginfo,0,sizeof(mngstuff));
- mnginfo.nBkgndIndex = -1;
- mnginfo.speed = 1.0f;
-}
-////////////////////////////////////////////////////////////////////////////////
-CxImageMNG::~CxImageMNG()
-{
- // cleanup and return
- if (mnginfo.thread){ //close the animation thread
- mnginfo.animation_enabled=0;
- ResumeThread(mnginfo.thread);
- WaitForSingleObject(mnginfo.thread,500);
- CloseHandle(mnginfo.thread);
- }
- // free objects
- if (mnginfo.image) free(mnginfo.image);
- if (mnginfo.alpha) free(mnginfo.alpha);
- if (hmng) mng_cleanup(&hmng); //be sure it's not needed any more. (active timers ?)
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageMNG::SetCallbacks(mng_handle mng)
-{
- // set the callbacks
- mng_setcb_errorproc(mng, mymngerror);
- mng_setcb_openstream(mng, mymngopenstream);
- mng_setcb_closestream(mng, mymngclosestream);
- mng_setcb_readdata(mng, mymngreadstream);
- mng_setcb_processheader(mng, mymngprocessheader);
- mng_setcb_getcanvasline(mng, mymnggetcanvasline);
- mng_setcb_refresh(mng, mymngrefresh);
- mng_setcb_gettickcount(mng, mymnggetticks);
- mng_setcb_settimer(mng, mymngsettimer);
- mng_setcb_refresh(mng, mymngrefresh);
- mng_setcb_getalphaline(mng, mymnggetalphaline);
-}
-////////////////////////////////////////////////////////////////////////////////
-// can't use the CxImage implementation because it looses mnginfo
-bool CxImageMNG::Load(const TCHAR * imageFileName){
- FILE* hFile; //file handle to read the image
-#ifdef WIN32
- if ((hFile=_tfopen(imageFileName,_T("rb")))==NULL) return false; // For UNICODE support
-#else
- if ((hFile=fopen(imageFileName,"rb"))==NULL) return false;
-#endif
- bool bOK = Decode(hFile);
- fclose(hFile);
- return bOK;
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageMNG::Decode(CxFile *hFile)
-{
- if (hFile == NULL) return false;
-
- cx_try
- {
- // set up the mng decoder for our stream
- hmng = mng_initialize(&mnginfo, (mng_memalloc)mymngalloc, (mng_memfree)mymngfree, MNG_NULL);
- if (hmng == NULL) cx_throw("could not initialize libmng");
-
- // set the file we want to play
- mnginfo.file = hFile;
-
- // Set the colorprofile, lcms uses this:
- mng_set_srgb(hmng, MNG_TRUE );
- // Set white as background color:
- uint16_t Red,Green,Blue;
- Red = Green = Blue = (255 << 8) + 255;
- mng_set_bgcolor(hmng, Red, Green, Blue );
- // If PNG Background is available, use it:
- mng_set_usebkgd(hmng, MNG_TRUE );
-
- // No need to store chunks:
- mng_set_storechunks(hmng, MNG_FALSE);
- // No need to wait: straight reading
- mng_set_suspensionmode(hmng, MNG_FALSE);
-
- SetCallbacks(hmng);
-
- mng_datap pData = (mng_datap)hmng;
-
- // read in the image
- info.nNumFrames=0;
- int32_t retval=MNG_NOERROR;
-
- retval = mng_readdisplay(hmng);
-
- if (retval != MNG_NOERROR && retval != MNG_NEEDTIMERWAIT){
- mng_store_error(hmng,retval,0,0);
- if (hmng->zErrortext){
- cx_throw(hmng->zErrortext);
- } else {
- cx_throw("Error in MNG file");
- }
- }
-
- if (info.nEscape == -1) {
- // Return output dimensions only
- head.biWidth = hmng->iWidth;
- head.biHeight = hmng->iHeight;
- info.dwType = CXIMAGE_FORMAT_MNG;
- return true;
- }
-
- // read all
- while(pData->bReading){
- retval = mng_display_resume(hmng);
- info.nNumFrames++;
- }
-
- // single frame check:
- if (retval != MNG_NEEDTIMERWAIT){
- info.nNumFrames--;
- } else {
- mnginfo.animation=1;
- }
-
- if (info.nNumFrames<=0) info.nNumFrames=1;
-
- if (mnginfo.animation_enabled==0){
- // select the frame
- if (info.nFrame>=0 && info.nFrame<info.nNumFrames){
- for (int32_t n=0;n<info.nFrame;n++) mng_display_resume(hmng);
- } else cx_throw("Error: frame not present in MNG file");
- }
-
- if (mnginfo.nBkgndIndex >= 0){
- info.nBkgndIndex = mnginfo.nBkgndIndex;
- info.nBkgndColor.rgbRed = mnginfo.nBkgndColor.rgbRed;
- info.nBkgndColor.rgbGreen = mnginfo.nBkgndColor.rgbGreen;
- info.nBkgndColor.rgbBlue = mnginfo.nBkgndColor.rgbBlue;
- }
-
- //store the newly created image
- if (Create(mnginfo.width,mnginfo.height,mnginfo.bpp, CXIMAGE_FORMAT_MNG)){
- memcpy(GetBits(), mnginfo.image, info.dwEffWidth * head.biHeight);
-#if CXIMAGE_SUPPORT_ALPHA
- SwapRGB2BGR();
- AlphaCreate();
- if(AlphaIsValid() && mnginfo.alpha){
- memcpy(AlphaGetPointer(),mnginfo.alpha,mnginfo.width * mnginfo.height);
- }
-#endif
- } else cx_throw("CxImageMNG::Decode cannot create image");
-
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageMNG::Encode(CxFile *hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- cx_try
- {
- if (head.biClrUsed != 0) cx_throw("MNG encoder can save only RGB images");
- // set the file we want to play
- mnginfo.file = hFile;
- mnginfo.bpp = head.biBitCount;
- mnginfo.effwdt = info.dwEffWidth;
- mnginfo.height = head.biHeight;
- mnginfo.width = head.biWidth;
-
- mnginfo.image = (uint8_t*)malloc(head.biSizeImage);
- if (mnginfo.image == NULL) cx_throw("could not allocate memory for MNG");
- memcpy(mnginfo.image,info.pImage, head.biSizeImage);
-
- // set up the mng decoder for our stream
- hmng = mng_initialize(&mnginfo, (mng_memalloc)mymngalloc, (mng_memfree)mymngfree, MNG_NULL);
- if (hmng == NULL) cx_throw("could not initialize libmng");
-
- mng_setcb_openstream(hmng, mymngopenstreamwrite );
- mng_setcb_closestream(hmng, mymngclosestream);
- mng_setcb_writedata(hmng, mymngwritestream);
-
- // Write File:
- mng_create(hmng);
- // Just a single Frame (save a normal PNG):
- WritePNG(hmng, 0, 1 );
- // Now write file:
- mng_write(hmng);
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// Writes a single PNG datastream
-void CxImageMNG::WritePNG( mng_handle hMNG, int32_t Frame, int32_t FrameCount )
-{
- mngstuff *mymng = (mngstuff *)mng_get_userdata(hMNG);
-
- int32_t OffsetX=0,OffsetY=0,OffsetW=mymng->width,OffsetH=mymng->height;
-
- uint8_t *tmpbuffer = new uint8_t[ (mymng->effwdt+1) * mymng->height];
- if( tmpbuffer == 0 ) return;
-
- // Write DEFI chunk.
- mng_putchunk_defi( hMNG, 0, 0, 0, MNG_TRUE, OffsetX, OffsetY, MNG_FALSE, 0, 0, 0, 0 );
-
- // Write Header:
- mng_putchunk_ihdr(
- hMNG,
- OffsetW, OffsetH,
- MNG_BITDEPTH_8,
- MNG_COLORTYPE_RGB,
- MNG_COMPRESSION_DEFLATE,
- MNG_FILTER_ADAPTIVE,
- MNG_INTERLACE_NONE
- );
-
- // transfer data, add Filterbyte:
- for( int32_t Row=0; Row<OffsetH; Row++ ){
- // First Byte in each Scanline is Filterbyte: Currently 0 -> No Filter.
- tmpbuffer[Row*(mymng->effwdt+1)]=0;
- // Copy the scanline: (reverse order)
- memcpy(tmpbuffer+Row*(mymng->effwdt+1)+1,
- mymng->image+((OffsetH-1-(OffsetY+Row))*(mymng->effwdt))+OffsetX,mymng->effwdt);
- // swap red and blue components
- RGBtoBGR(tmpbuffer+Row*(mymng->effwdt+1)+1,mymng->effwdt);
- }
-
- // Compress data with ZLib (Deflate):
- uint8_t *dstbuffer = new uint8_t[(mymng->effwdt+1)*OffsetH];
- if( dstbuffer == 0 ) return;
- uint32_t dstbufferSize=(mymng->effwdt+1)*OffsetH;
-
- // Compress data:
- if(Z_OK != compress2((Bytef *)dstbuffer,(ULONG *)&dstbufferSize,(const Bytef*)tmpbuffer,
- (ULONG) (mymng->effwdt+1)*OffsetH,9 )) return;
-
- // Write Data into MNG File:
- mng_putchunk_idat( hMNG, dstbufferSize, (mng_ptr*)dstbuffer);
- mng_putchunk_iend(hMNG);
-
- // Free the stuff:
- delete [] tmpbuffer;
- delete [] dstbuffer;
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImageMNG::Resume()
-{
- if (MNG_NEEDTIMERWAIT == mng_display_resume(hmng)){
- if (info.pImage==NULL){
- Create(mnginfo.width,mnginfo.height,mnginfo.bpp, CXIMAGE_FORMAT_MNG);
- }
- if (IsValid()){
- memcpy(GetBits(), mnginfo.image, info.dwEffWidth * head.biHeight);
-#if CXIMAGE_SUPPORT_ALPHA
- SwapRGB2BGR();
- AlphaCreate();
- if(AlphaIsValid() && mnginfo.alpha){
- memcpy(AlphaGetPointer(),mnginfo.alpha,mnginfo.width * mnginfo.height);
- }
-#endif
- }
- } else {
- mnginfo.animation_enabled = 0;
- }
- return mnginfo.animation_enabled;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageMNG::SetSpeed(float speed)
-{
- if (speed>10.0) mnginfo.speed = 10.0f;
- else if (speed<0.1) mnginfo.speed = 0.1f;
- else mnginfo.speed=speed;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_MNG
diff --git a/hge/CxImage/ximamng.h b/hge/CxImage/ximamng.h deleted file mode 100644 index 9466fc2..0000000 --- a/hge/CxImage/ximamng.h +++ /dev/null @@ -1,88 +0,0 @@ -/*
- * File: ximamng.h
- * Purpose: Declaration of the MNG Image Class
- * Author: Davide Pizzolato - www.xdp.it
- * Created: 2001
- */
-/* ==========================================================
- * CxImageMNG (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Frank Haug <f.haug(at)jdm(dot)de> for suggestions and code.
- *
- * original mng.cpp code created by Nikolaus Brennig, November 14th, 2000. <virtualnik(at)nol(dot)at>
- *
- * LIBMNG Copyright (c) 2000,2001 Gerard Juyn (gerard@libmng.com)
- * ==========================================================
- */
-
-#if !defined(__ximaMNG_h)
-#define __ximaMNG_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_MNG
-
-//#define MNG_NO_CMS
-#define MNG_SUPPORT_DISPLAY
-#define MNG_SUPPORT_READ
-#define MNG_SUPPORT_WRITE
-#define MNG_ACCESS_CHUNKS
-#define MNG_STORE_CHUNKS
-
-extern "C" {
-#include "../mng/libmng.h"
-#include "../mng/libmng_data.h"
-#include "../mng/libmng_error.h"
-}
-
-//uint32_t _stdcall RunMNGThread(void *lpParam);
-
-typedef struct tagmngstuff
-{
- CxFile *file;
- uint8_t *image;
- uint8_t *alpha;
- HANDLE thread;
- mng_uint32 delay;
- mng_uint32 width;
- mng_uint32 height;
- mng_uint32 effwdt;
- mng_int16 bpp;
- mng_bool animation;
- mng_bool animation_enabled;
- float speed;
- int32_t nBkgndIndex;
- RGBQUAD nBkgndColor;
-} mngstuff;
-
-class CxImageMNG: public CxImage
-{
-public:
- CxImageMNG();
- ~CxImageMNG();
-
- bool Load(const TCHAR * imageFileName);
-
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
- bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_MNG);}
-#endif // CXIMAGE_SUPPORT_ENCODE
-
- int32_t Resume();
- void SetSpeed(float speed);
-
- mng_handle hmng;
- mngstuff mnginfo;
-protected:
- void WritePNG(mng_handle hMNG, int32_t Frame, int32_t FrameCount );
- void SetCallbacks(mng_handle mng);
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximapal.cpp b/hge/CxImage/ximapal.cpp deleted file mode 100644 index fe0615b..0000000 --- a/hge/CxImage/ximapal.cpp +++ /dev/null @@ -1,834 +0,0 @@ -// xImaPal.cpp : Palette and Pixel functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * returns the palette dimension in byte
- */
-uint32_t CxImage::GetPaletteSize()
-{
- return (head.biClrUsed * sizeof(RGBQUAD));
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPaletteColor(uint8_t idx, uint8_t r, uint8_t g, uint8_t b, uint8_t alpha)
-{
- if ((pDib)&&(head.biClrUsed)){
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- if (idx<head.biClrUsed){
- int32_t ldx=idx*sizeof(RGBQUAD);
- iDst[ldx++] = (uint8_t) b;
- iDst[ldx++] = (uint8_t) g;
- iDst[ldx++] = (uint8_t) r;
- iDst[ldx] = (uint8_t) alpha;
- info.last_c_isvalid = false;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPaletteColor(uint8_t idx, RGBQUAD c)
-{
- if ((pDib)&&(head.biClrUsed)){
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- if (idx<head.biClrUsed){
- int32_t ldx=idx*sizeof(RGBQUAD);
- iDst[ldx++] = (uint8_t) c.rgbBlue;
- iDst[ldx++] = (uint8_t) c.rgbGreen;
- iDst[ldx++] = (uint8_t) c.rgbRed;
- iDst[ldx] = (uint8_t) c.rgbReserved;
- info.last_c_isvalid = false;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPaletteColor(uint8_t idx, COLORREF cr)
-{
- if ((pDib)&&(head.biClrUsed)){
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- if (idx<head.biClrUsed){
- int32_t ldx=idx*sizeof(RGBQUAD);
- iDst[ldx++] = (uint8_t) GetBValue(cr);
- iDst[ldx++] = (uint8_t) GetGValue(cr);
- iDst[ldx++] = (uint8_t) GetRValue(cr);
- iDst[ldx] = (uint8_t) 0;
- info.last_c_isvalid = false;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * returns the pointer to the first palette index
- */
-RGBQUAD* CxImage::GetPalette() const
-{
- if ((pDib)&&(head.biClrUsed))
- return (RGBQUAD*)((uint8_t*)pDib + sizeof(BITMAPINFOHEADER));
- return NULL;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns the color of the specified index.
- */
-RGBQUAD CxImage::GetPaletteColor(uint8_t idx)
-{
- RGBQUAD rgb = {0,0,0,0};
- if ((pDib)&&(head.biClrUsed)){
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- if (idx<head.biClrUsed){
- int32_t ldx=idx*sizeof(RGBQUAD);
- rgb.rgbBlue = iDst[ldx++];
- rgb.rgbGreen=iDst[ldx++];
- rgb.rgbRed =iDst[ldx++];
- rgb.rgbReserved = iDst[ldx];
- }
- }
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns the palette index of the specified pixel.
- */
-uint8_t CxImage::GetPixelIndex(int32_t x,int32_t y)
-{
- if ((pDib==NULL)||(head.biClrUsed==0)) return 0;
-
- if ((x<0)||(y<0)||(x>=head.biWidth)||(y>=head.biHeight)) {
- if (info.nBkgndIndex >= 0) return (uint8_t)info.nBkgndIndex;
- else return *info.pImage;
- }
- if (head.biBitCount==8){
- return info.pImage[y*info.dwEffWidth + x];
- } else {
- uint8_t pos;
- uint8_t iDst= info.pImage[y*info.dwEffWidth + (x*head.biBitCount >> 3)];
- if (head.biBitCount==4){
- pos = (uint8_t)(4*(1-x%2));
- iDst &= (0x0F<<pos);
- return (uint8_t)(iDst >> pos);
- } else if (head.biBitCount==1){
- pos = (uint8_t)(7-x%8);
- iDst &= (0x01<<pos);
- return (uint8_t)(iDst >> pos);
- }
- }
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint8_t CxImage::BlindGetPixelIndex(const int32_t x,const int32_t y)
-{
-#ifdef _DEBUG
- if ((pDib==NULL) || (head.biClrUsed==0) || !IsInside(x,y))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return 0;
- #endif
-#endif
-
- if (head.biBitCount==8){
- return info.pImage[y*info.dwEffWidth + x];
- } else {
- uint8_t pos;
- uint8_t iDst= info.pImage[y*info.dwEffWidth + (x*head.biBitCount >> 3)];
- if (head.biBitCount==4){
- pos = (uint8_t)(4*(1-x%2));
- iDst &= (0x0F<<pos);
- return (uint8_t)(iDst >> pos);
- } else if (head.biBitCount==1){
- pos = (uint8_t)(7-x%8);
- iDst &= (0x01<<pos);
- return (uint8_t)(iDst >> pos);
- }
- }
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::GetPixelColor(int32_t x,int32_t y, bool bGetAlpha)
-{
-// RGBQUAD rgb={0,0,0,0};
- RGBQUAD rgb=info.nBkgndColor; //<mpwolski>
- if ((pDib==NULL)||(x<0)||(y<0)||
- (x>=head.biWidth)||(y>=head.biHeight)){
- if (info.nBkgndIndex >= 0){
- if (head.biBitCount<24) return GetPaletteColor((uint8_t)info.nBkgndIndex);
- else return info.nBkgndColor;
- } else if (pDib) return GetPixelColor(0,0);
- return rgb;
- }
-
- if (head.biClrUsed){
- rgb = GetPaletteColor(BlindGetPixelIndex(x,y));
- } else {
- uint8_t* iDst = info.pImage + y*info.dwEffWidth + x*3;
- rgb.rgbBlue = *iDst++;
- rgb.rgbGreen= *iDst++;
- rgb.rgbRed = *iDst;
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha && bGetAlpha) rgb.rgbReserved = BlindAlphaGet(x,y);
-#else
- rgb.rgbReserved = 0;
-#endif //CXIMAGE_SUPPORT_ALPHA
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * This is (a bit) faster version of GetPixelColor.
- * It tests bounds only in debug mode (_DEBUG defined).
- *
- * It is an error to request out-of-borders pixel with this method.
- * In DEBUG mode an exception will be thrown, and data will be violated in non-DEBUG mode.
- * \author ***bd*** 2.2004
- */
-RGBQUAD CxImage::BlindGetPixelColor(const int32_t x,const int32_t y, bool bGetAlpha)
-{
- RGBQUAD rgb;
-#ifdef _DEBUG
- if ((pDib==NULL) || !IsInside(x,y))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- {rgb.rgbReserved = 0; return rgb;}
- #endif
-#endif
-
- if (head.biClrUsed){
- rgb = GetPaletteColor(BlindGetPixelIndex(x,y));
- } else {
- uint8_t* iDst = info.pImage + y*info.dwEffWidth + x*3;
- rgb.rgbBlue = *iDst++;
- rgb.rgbGreen= *iDst++;
- rgb.rgbRed = *iDst;
- rgb.rgbReserved = 0; //needed for images without alpha layer
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha && bGetAlpha) rgb.rgbReserved = BlindAlphaGet(x,y);
-#else
- rgb.rgbReserved = 0;
-#endif //CXIMAGE_SUPPORT_ALPHA
- return rgb;
-}
-////////////////////////////////////////////////////////////////////////////////
-uint8_t CxImage::GetPixelGray(int32_t x, int32_t y)
-{
- RGBQUAD color = GetPixelColor(x,y);
- return (uint8_t)RGB2GRAY(color.rgbRed,color.rgbGreen,color.rgbBlue);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::BlindSetPixelIndex(int32_t x,int32_t y,uint8_t i)
-{
-#ifdef _DEBUG
- if ((pDib==NULL)||(head.biClrUsed==0)||
- (x<0)||(y<0)||(x>=head.biWidth)||(y>=head.biHeight))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return;
- #endif
-#endif
-
- if (head.biBitCount==8){
- info.pImage[y*info.dwEffWidth + x]=i;
- return;
- } else {
- uint8_t pos;
- uint8_t* iDst= info.pImage + y*info.dwEffWidth + (x*head.biBitCount >> 3);
- if (head.biBitCount==4){
- pos = (uint8_t)(4*(1-x%2));
- *iDst &= ~(0x0F<<pos);
- *iDst |= ((i & 0x0F)<<pos);
- return;
- } else if (head.biBitCount==1){
- pos = (uint8_t)(7-x%8);
- *iDst &= ~(0x01<<pos);
- *iDst |= ((i & 0x01)<<pos);
- return;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPixelIndex(int32_t x,int32_t y,uint8_t i)
-{
- if ((pDib==NULL)||(head.biClrUsed==0)||
- (x<0)||(y<0)||(x>=head.biWidth)||(y>=head.biHeight)) return ;
-
- if (head.biBitCount==8){
- info.pImage[y*info.dwEffWidth + x]=i;
- return;
- } else {
- uint8_t pos;
- uint8_t* iDst= info.pImage + y*info.dwEffWidth + (x*head.biBitCount >> 3);
- if (head.biBitCount==4){
- pos = (uint8_t)(4*(1-x%2));
- *iDst &= ~(0x0F<<pos);
- *iDst |= ((i & 0x0F)<<pos);
- return;
- } else if (head.biBitCount==1){
- pos = (uint8_t)(7-x%8);
- *iDst &= ~(0x01<<pos);
- *iDst |= ((i & 0x01)<<pos);
- return;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPixelColor(int32_t x,int32_t y,COLORREF cr)
-{
- SetPixelColor(x,y,RGBtoRGBQUAD(cr));
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::BlindSetPixelColor(int32_t x,int32_t y,RGBQUAD c, bool bSetAlpha)
-{
-#ifdef _DEBUG
- if ((pDib==NULL)||(x<0)||(y<0)||
- (x>=head.biWidth)||(y>=head.biHeight))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return;
- #endif
-#endif
- if (head.biClrUsed)
- BlindSetPixelIndex(x,y,GetNearestIndex(c));
- else {
- uint8_t* iDst = info.pImage + y*info.dwEffWidth + x*3;
- *iDst++ = c.rgbBlue;
- *iDst++ = c.rgbGreen;
- *iDst = c.rgbRed;
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (bSetAlpha) AlphaSet(x,y,c.rgbReserved);
-#endif //CXIMAGE_SUPPORT_ALPHA
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPixelColor(int32_t x,int32_t y,RGBQUAD c, bool bSetAlpha)
-{
- if ((pDib==NULL)||(x<0)||(y<0)||
- (x>=head.biWidth)||(y>=head.biHeight)) return;
- if (head.biClrUsed)
- BlindSetPixelIndex(x,y,GetNearestIndex(c));
- else {
- uint8_t* iDst = info.pImage + y*info.dwEffWidth + x*3;
- *iDst++ = c.rgbBlue;
- *iDst++ = c.rgbGreen;
- *iDst = c.rgbRed;
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (bSetAlpha) AlphaSet(x,y,c.rgbReserved);
-#endif //CXIMAGE_SUPPORT_ALPHA
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Blends the current pixel color with a new color.
- * \param x,y = pixel
- * \param c = new color
- * \param blend = can be from 0 (no effect) to 1 (full effect).
- * \param bSetAlpha = if true, blends also the alpha component stored in c.rgbReserved
- */
-void CxImage::BlendPixelColor(int32_t x,int32_t y,RGBQUAD c, float blend, bool bSetAlpha)
-{
- if ((pDib==NULL)||(x<0)||(y<0)||
- (x>=head.biWidth)||(y>=head.biHeight)) return;
-
- int32_t a0 = (int32_t)(256*blend);
- int32_t a1 = 256 - a0;
-
- RGBQUAD c0 = BlindGetPixelColor(x,y);
- c.rgbRed = (uint8_t)((c.rgbRed * a0 + c0.rgbRed * a1)>>8);
- c.rgbBlue = (uint8_t)((c.rgbBlue * a0 + c0.rgbBlue * a1)>>8);
- c.rgbGreen = (uint8_t)((c.rgbGreen * a0 + c0.rgbGreen * a1)>>8);
-
- if (head.biClrUsed)
- BlindSetPixelIndex(x,y,GetNearestIndex(c));
- else {
- uint8_t* iDst = info.pImage + y*info.dwEffWidth + x*3;
- *iDst++ = c.rgbBlue;
- *iDst++ = c.rgbGreen;
- *iDst = c.rgbRed;
-#if CXIMAGE_SUPPORT_ALPHA
- if (bSetAlpha) AlphaSet(x,y,c.rgbReserved);
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns the best palette index that matches a specified color.
- */
-uint8_t CxImage::GetNearestIndex(RGBQUAD c)
-{
- if ((pDib==NULL)||(head.biClrUsed==0)) return 0;
-
- // <RJ> check matching with the previous result
- if (info.last_c_isvalid && (*(int32_t*)&info.last_c == *(int32_t*)&c)) return info.last_c_index;
- info.last_c = c;
- info.last_c_isvalid = true;
-
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- int32_t distance=200000;
- int32_t i,j = 0;
- int32_t k,l;
- int32_t m = (int32_t)(head.biClrImportant==0 ? head.biClrUsed : head.biClrImportant);
- for(i=0,l=0;i<m;i++,l+=sizeof(RGBQUAD)){
- k = (iDst[l]-c.rgbBlue)*(iDst[l]-c.rgbBlue)+
- (iDst[l+1]-c.rgbGreen)*(iDst[l+1]-c.rgbGreen)+
- (iDst[l+2]-c.rgbRed)*(iDst[l+2]-c.rgbRed);
-// k = abs(iDst[l]-c.rgbBlue)+abs(iDst[l+1]-c.rgbGreen)+abs(iDst[l+2]-c.rgbRed);
- if (k==0){
- j=i;
- break;
- }
- if (k<distance){
- distance=k;
- j=i;
- }
- }
- info.last_c_index = (uint8_t)j;
- return (uint8_t)j;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * swaps the blue and red components (for RGB images)
- * \param buffer : pointer to the pixels
- * \param length : number of bytes to swap. lenght may not exceed the scan line.
- */
-void CxImage::RGBtoBGR(uint8_t *buffer, int32_t length)
-{
- if (buffer && (head.biClrUsed==0)){
- uint8_t temp;
- length = min(length,(int32_t)info.dwEffWidth);
- length = min(length,(int32_t)(3*head.biWidth));
- for (int32_t i=0;i<length;i+=3){
- temp = buffer[i]; buffer[i] = buffer[i+2]; buffer[i+2] = temp;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-RGBQUAD CxImage::RGBtoRGBQUAD(COLORREF cr)
-{
- RGBQUAD c;
- c.rgbRed = GetRValue(cr); /* get R, G, and B out of uint32_t */
- c.rgbGreen = GetGValue(cr);
- c.rgbBlue = GetBValue(cr);
- c.rgbReserved=0;
- return c;
-}
-////////////////////////////////////////////////////////////////////////////////
-COLORREF CxImage::RGBQUADtoRGB (RGBQUAD c)
-{
- return RGB(c.rgbRed,c.rgbGreen,c.rgbBlue);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns the color of the specified index.
- * \param i = palette index
- * \param r, g, b = output color channels
- */
-bool CxImage::GetPaletteColor(uint8_t i, uint8_t* r, uint8_t* g, uint8_t* b)
-{
- RGBQUAD* ppal=GetPalette();
- if (ppal) {
- *r = ppal[i].rgbRed;
- *g = ppal[i].rgbGreen;
- *b = ppal[i].rgbBlue;
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPalette(uint32_t n, uint8_t *r, uint8_t *g, uint8_t *b)
-{
- if ((!r)||(pDib==NULL)||(head.biClrUsed==0)) return;
- if (!g) g = r;
- if (!b) b = g;
- RGBQUAD* ppal=GetPalette();
- uint32_t m=min(n,head.biClrUsed);
- for (uint32_t i=0; i<m;i++){
- ppal[i].rgbRed=r[i];
- ppal[i].rgbGreen=g[i];
- ppal[i].rgbBlue=b[i];
- }
- info.last_c_isvalid = false;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPalette(rgb_color *rgb,uint32_t nColors)
-{
- if ((!rgb)||(pDib==NULL)||(head.biClrUsed==0)) return;
- RGBQUAD* ppal=GetPalette();
- uint32_t m=min(nColors,head.biClrUsed);
- for (uint32_t i=0; i<m;i++){
- ppal[i].rgbRed=rgb[i].r;
- ppal[i].rgbGreen=rgb[i].g;
- ppal[i].rgbBlue=rgb[i].b;
- }
- info.last_c_isvalid = false;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::SetPalette(RGBQUAD* pPal,uint32_t nColors)
-{
- if ((pPal==NULL)||(pDib==NULL)||(head.biClrUsed==0)) return;
- memcpy(GetPalette(),pPal,min(GetPaletteSize(),nColors*sizeof(RGBQUAD)));
- info.last_c_isvalid = false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets (or replaces) the palette to gray scale palette.
- * The function doesn't change the pixels; for standard
- * gray scale conversion use GrayScale().
- */
-void CxImage::SetGrayPalette()
-{
- if ((pDib==NULL)||(head.biClrUsed==0)) return;
- RGBQUAD* pal=GetPalette();
- for (uint32_t ni=0;ni<head.biClrUsed;ni++)
- pal[ni].rgbBlue=pal[ni].rgbGreen = pal[ni].rgbRed = (uint8_t)(ni*(255/(head.biClrUsed-1)));
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Colorize the palette.
- * \sa Colorize
- */
-void CxImage::BlendPalette(COLORREF cr,int32_t perc)
-{
- if ((pDib==NULL)||(head.biClrUsed==0)) return;
- uint8_t* iDst = (uint8_t*)(pDib) + sizeof(BITMAPINFOHEADER);
- uint32_t i,r,g,b;
- RGBQUAD* pPal=(RGBQUAD*)iDst;
- r = GetRValue(cr);
- g = GetGValue(cr);
- b = GetBValue(cr);
- if (perc>100) perc=100;
- for(i=0;i<head.biClrUsed;i++){
- pPal[i].rgbBlue=(uint8_t)((pPal[i].rgbBlue*(100-perc)+b*perc)/100);
- pPal[i].rgbGreen =(uint8_t)((pPal[i].rgbGreen*(100-perc)+g*perc)/100);
- pPal[i].rgbRed =(uint8_t)((pPal[i].rgbRed*(100-perc)+r*perc)/100);
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns true if the image has 256 colors and a linear grey scale palette.
- */
-bool CxImage::IsGrayScale()
-{
- RGBQUAD* ppal=GetPalette();
- if(!(pDib && ppal && head.biClrUsed)) return false;
- for(uint32_t i=0;i<head.biClrUsed;i++){
- if (ppal[i].rgbBlue!=i || ppal[i].rgbGreen!=i || ppal[i].rgbRed!=i) return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * swap two indexes in the image and their colors in the palette
- */
-void CxImage::SwapIndex(uint8_t idx1, uint8_t idx2)
-{
- RGBQUAD* ppal=GetPalette();
- if(!(pDib && ppal)) return;
- //swap the colors
- RGBQUAD tempRGB=GetPaletteColor(idx1);
- SetPaletteColor(idx1,GetPaletteColor(idx2));
- SetPaletteColor(idx2,tempRGB);
- //swap the pixels
- uint8_t idx;
- for(int32_t y=0; y < head.biHeight; y++){
- for(int32_t x=0; x < head.biWidth; x++){
- idx=BlindGetPixelIndex(x,y);
- if (idx==idx1) BlindSetPixelIndex(x,y,idx2);
- if (idx==idx2) BlindSetPixelIndex(x,y,idx1);
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * swap Red and Blue colors
- */
-void CxImage::SwapRGB2BGR()
-{
- if (!pDib) return;
-
- if (head.biClrUsed){
- RGBQUAD* ppal=GetPalette();
- uint8_t b;
- if(!ppal) return;
- for(uint16_t a=0;a<head.biClrUsed;a++){
- b=ppal[a].rgbBlue; ppal[a].rgbBlue=ppal[a].rgbRed; ppal[a].rgbRed=b;
- }
- } else {
- for(int32_t y=0;y<head.biHeight;y++){
- RGBtoBGR(GetBits(y),3*head.biWidth);
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::IsTransparent(int32_t x, int32_t y)
-{
- if (!pDib) return false;
-
- if (info.nBkgndIndex>=0){
- if (head.biClrUsed){
- if (GetPixelIndex(x,y) == info.nBkgndIndex) return true;
- } else {
- RGBQUAD ct = info.nBkgndColor;
- RGBQUAD c = GetPixelColor(x,y,false);
- if (*(int32_t*)&c==*(int32_t*)&ct) return true;
- }
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha) return AlphaGet(x,y)==0;
-#endif
-
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::GetTransparentMask(CxImage* iDst)
-{
- if (!pDib) return false;
-
- CxImage tmp;
- tmp.Create(head.biWidth, head.biHeight, 1, GetType());
- tmp.SetStdPalette();
- tmp.Clear(0);
-
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- if (IsTransparent(x,y)){
- tmp.BlindSetPixelIndex(x,y,1);
- }
- }
- }
-
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if image has the same palette, if any.
- * \param img = image to compare.
- * \param bCheckAlpha = check also the rgbReserved field.
- */
-bool CxImage::IsSamePalette(CxImage &img, bool bCheckAlpha)
-{
- if (head.biClrUsed != img.head.biClrUsed)
- return false;
- if (head.biClrUsed == 0)
- return false;
-
- RGBQUAD c1,c2;
- for (uint32_t n=0; n<head.biClrUsed; n++){
- c1 = GetPaletteColor((uint8_t)n);
- c2 = img.GetPaletteColor((uint8_t)n);
- if (c1.rgbRed != c2.rgbRed) return false;
- if (c1.rgbBlue != c2.rgbBlue) return false;
- if (c1.rgbGreen != c2.rgbGreen) return false;
- if (bCheckAlpha && (c1.rgbReserved != c2.rgbReserved)) return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa SetClrImportant
- */
-uint32_t CxImage::GetClrImportant() const
-{
- return head.biClrImportant;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * sets the maximum number of colors that some functions like
- * DecreaseBpp() or GetNearestIndex() will use on indexed images
- * \param ncolors should be less than 2^bpp,
- * or 0 if all the colors are important.
- */
-void CxImage::SetClrImportant(uint32_t ncolors)
-{
- if (ncolors==0 || ncolors>256) {
- head.biClrImportant = 0;
- return;
- }
-
- switch(head.biBitCount){
- case 1:
- head.biClrImportant = min(ncolors,2);
- break;
- case 4:
- head.biClrImportant = min(ncolors,16);
- break;
- case 8:
- head.biClrImportant = ncolors;
- break;
- }
- return;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns pointer to pixel. Currently implemented only for truecolor images.
- *
- * \param x,y - coordinates
- *
- * \return pointer to first byte of pixel data
- *
- * \author ***bd*** 2.2004
- */
-void* CxImage::BlindGetPixelPointer(const int32_t x, const int32_t y)
-{
-#ifdef _DEBUG
- if ((pDib==NULL) || !IsInside(x,y))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return 0;
- #endif
-#endif
- if (!IsIndexed())
- return info.pImage + y*info.dwEffWidth + x*3;
- else
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::DrawLine(int32_t StartX, int32_t EndX, int32_t StartY, int32_t EndY, COLORREF cr)
-{
- DrawLine(StartX, EndX, StartY, EndY, RGBtoRGBQUAD(cr));
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImage::DrawLine(int32_t StartX, int32_t EndX, int32_t StartY, int32_t EndY, RGBQUAD color, bool bSetAlpha)
-{
- if (!pDib) return;
- //////////////////////////////////////////////////////
- // Draws a line using the Bresenham line algorithm
- // Thanks to Jordan DeLozier <JDL>
- //////////////////////////////////////////////////////
- int32_t x1 = StartX;
- int32_t y1 = StartY;
- int32_t x = x1; // Start x off at the first pixel
- int32_t y = y1; // Start y off at the first pixel
- int32_t x2 = EndX;
- int32_t y2 = EndY;
-
- int32_t xinc1,xinc2,yinc1,yinc2; // Increasing values
- int32_t den, num, numadd,numpixels;
- int32_t deltax = abs(x2 - x1); // The difference between the x's
- int32_t deltay = abs(y2 - y1); // The difference between the y's
-
- // Get Increasing Values
- if (x2 >= x1) { // The x-values are increasing
- xinc1 = 1;
- xinc2 = 1;
- } else { // The x-values are decreasing
- xinc1 = -1;
- xinc2 = -1;
- }
-
- if (y2 >= y1) { // The y-values are increasing
- yinc1 = 1;
- yinc2 = 1;
- } else { // The y-values are decreasing
- yinc1 = -1;
- yinc2 = -1;
- }
-
- // Actually draw the line
- if (deltax >= deltay) // There is at least one x-value for every y-value
- {
- xinc1 = 0; // Don't change the x when numerator >= denominator
- yinc2 = 0; // Don't change the y for every iteration
- den = deltax;
- num = deltax / 2;
- numadd = deltay;
- numpixels = deltax; // There are more x-values than y-values
- }
- else // There is at least one y-value for every x-value
- {
- xinc2 = 0; // Don't change the x for every iteration
- yinc1 = 0; // Don't change the y when numerator >= denominator
- den = deltay;
- num = deltay / 2;
- numadd = deltax;
- numpixels = deltay; // There are more y-values than x-values
- }
-
- for (int32_t curpixel = 0; curpixel <= numpixels; curpixel++)
- {
- // Draw the current pixel
- SetPixelColor(x,y,color,bSetAlpha);
-
- num += numadd; // Increase the numerator by the top of the fraction
- if (num >= den) // Check if numerator >= denominator
- {
- num -= den; // Calculate the new numerator value
- x += xinc1; // Change the x as appropriate
- y += yinc1; // Change the y as appropriate
- }
- x += xinc2; // Change the x as appropriate
- y += yinc2; // Change the y as appropriate
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets a palette with standard colors for 1, 4 and 8 bpp images.
- */
-void CxImage::SetStdPalette()
-{
- if (!pDib) return;
- switch (head.biBitCount){
- case 8:
- {
- const uint8_t pal256[1024] = {0,0,0,0,0,0,128,0,0,128,0,0,0,128,128,0,128,0,0,0,128,0,128,0,128,128,0,0,192,192,192,0,
- 192,220,192,0,240,202,166,0,212,240,255,0,177,226,255,0,142,212,255,0,107,198,255,0,
- 72,184,255,0,37,170,255,0,0,170,255,0,0,146,220,0,0,122,185,0,0,98,150,0,0,74,115,0,0,
- 50,80,0,212,227,255,0,177,199,255,0,142,171,255,0,107,143,255,0,72,115,255,0,37,87,255,0,0,
- 85,255,0,0,73,220,0,0,61,185,0,0,49,150,0,0,37,115,0,0,25,80,0,212,212,255,0,177,177,255,0,
- 142,142,255,0,107,107,255,0,72,72,255,0,37,37,255,0,0,0,254,0,0,0,220,0,0,0,185,0,0,0,150,0,
- 0,0,115,0,0,0,80,0,227,212,255,0,199,177,255,0,171,142,255,0,143,107,255,0,115,72,255,0,
- 87,37,255,0,85,0,255,0,73,0,220,0,61,0,185,0,49,0,150,0,37,0,115,0,25,0,80,0,240,212,255,0,
- 226,177,255,0,212,142,255,0,198,107,255,0,184,72,255,0,170,37,255,0,170,0,255,0,146,0,220,0,
- 122,0,185,0,98,0,150,0,74,0,115,0,50,0,80,0,255,212,255,0,255,177,255,0,255,142,255,0,255,107,255,0,
- 255,72,255,0,255,37,255,0,254,0,254,0,220,0,220,0,185,0,185,0,150,0,150,0,115,0,115,0,80,0,80,0,
- 255,212,240,0,255,177,226,0,255,142,212,0,255,107,198,0,255,72,184,0,255,37,170,0,255,0,170,0,
- 220,0,146,0,185,0,122,0,150,0,98,0,115,0,74,0,80,0,50,0,255,212,227,0,255,177,199,0,255,142,171,0,
- 255,107,143,0,255,72,115,0,255,37,87,0,255,0,85,0,220,0,73,0,185,0,61,0,150,0,49,0,115,0,37,0,
- 80,0,25,0,255,212,212,0,255,177,177,0,255,142,142,0,255,107,107,0,255,72,72,0,255,37,37,0,254,0,
- 0,0,220,0,0,0,185,0,0,0,150,0,0,0,115,0,0,0,80,0,0,0,255,227,212,0,255,199,177,0,255,171,142,0,
- 255,143,107,0,255,115,72,0,255,87,37,0,255,85,0,0,220,73,0,0,185,61,0,0,150,49,0,0,115,37,0,
- 0,80,25,0,0,255,240,212,0,255,226,177,0,255,212,142,0,255,198,107,0,255,184,72,0,255,170,37,0,
- 255,170,0,0,220,146,0,0,185,122,0,0,150,98,0,0,115,74,0,0,80,50,0,0,255,255,212,0,255,255,177,0,
- 255,255,142,0,255,255,107,0,255,255,72,0,255,255,37,0,254,254,0,0,220,220,0,0,185,185,0,0,150,150,0,
- 0,115,115,0,0,80,80,0,0,240,255,212,0,226,255,177,0,212,255,142,0,198,255,107,0,184,255,72,0,
- 170,255,37,0,170,255,0,0,146,220,0,0,122,185,0,0,98,150,0,0,74,115,0,0,50,80,0,0,227,255,212,0,
- 199,255,177,0,171,255,142,0,143,255,107,0,115,255,72,0,87,255,37,0,85,255,0,0,73,220,0,0,61,185,0,
- 0,49,150,0,0,37,115,0,0,25,80,0,0,212,255,212,0,177,255,177,0,142,255,142,0,107,255,107,0,72,255,72,0,
- 37,255,37,0,0,254,0,0,0,220,0,0,0,185,0,0,0,150,0,0,0,115,0,0,0,80,0,0,212,255,227,0,177,255,199,0,
- 142,255,171,0,107,255,143,0,72,255,115,0,37,255,87,0,0,255,85,0,0,220,73,0,0,185,61,0,0,150,49,0,0,
- 115,37,0,0,80,25,0,212,255,240,0,177,255,226,0,142,255,212,0,107,255,198,0,72,255,184,0,37,255,170,0,
- 0,255,170,0,0,220,146,0,0,185,122,0,0,150,98,0,0,115,74,0,0,80,50,0,212,255,255,0,177,255,255,0,
- 142,255,255,0,107,255,255,0,72,255,255,0,37,255,255,0,0,254,254,0,0,220,220,0,0,185,185,0,0,
- 150,150,0,0,115,115,0,0,80,80,0,242,242,242,0,230,230,230,0,218,218,218,0,206,206,206,0,194,194,194,0,
- 182,182,182,0,170,170,170,0,158,158,158,0,146,146,146,0,134,134,134,0,122,122,122,0,110,110,110,0,
- 98,98,98,0,86,86,86,0,74,74,74,0,62,62,62,0,50,50,50,0,38,38,38,0,26,26,26,0,14,14,14,0,240,251,255,0,
- 164,160,160,0,128,128,128,0,0,0,255,0,0,255,0,0,0,255,255,0,255,0,0,0,255,0,255,0,255,255,0,0,255,255,255,0};
- memcpy(GetPalette(),pal256,1024);
- break;
- }
- case 4:
- {
- const uint8_t pal16[64]={0,0,0,0,0,0,128,0,0,128,0,0,0,128,128,0,128,0,0,0,128,0,128,0,128,128,0,0,192,192,192,0,
- 128,128,128,0,0,0,255,0,0,255,0,0,0,255,255,0,255,0,0,0,255,0,255,0,255,255,0,0,255,255,255,0};
- memcpy(GetPalette(),pal16,64);
- break;
- }
- case 1:
- {
- const uint8_t pal2[8]={0,0,0,0,255,255,255,0};
- memcpy(GetPalette(),pal2,8);
- break;
- }
- }
- info.last_c_isvalid = false;
- return;
-}
-////////////////////////////////////////////////////////////////////////////////
diff --git a/hge/CxImage/ximapcx.cpp b/hge/CxImage/ximapcx.cpp deleted file mode 100644 index 2fa2f5d..0000000 --- a/hge/CxImage/ximapcx.cpp +++ /dev/null @@ -1,479 +0,0 @@ -/*
- * File: ximapcx.cpp
- * Purpose: Platform Independent PCX Image Class Loader and Writer
- * 05/Jan/2002 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- *
- * based on ppmtopcx.c - convert a portable pixmap to PCX
- * Copyright (C) 1994 by Ingo Wilken (Ingo.Wilken@informatik.uni-oldenburg.de)
- * based on ppmtopcx.c by Michael Davidson
- */
-
-#include "ximapcx.h"
-
-#if CXIMAGE_SUPPORT_PCX
-
-#include "xmemfile.h"
-
-#define PCX_MAGIC 0X0A // PCX magic number
-#define PCX_256_COLORS 0X0C // magic number for 256 colors
-#define PCX_HDR_SIZE 128 // size of PCX header
-#define PCX_MAXCOLORS 256
-#define PCX_MAXPLANES 4
-#define PCX_MAXVAL 255
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePCX::Decode(CxFile *hFile)
-{
- if (hFile == NULL) return false;
-
- PCXHEADER pcxHeader;
- int32_t i, x, y, y2, nbytes, count, Height, Width;
- uint8_t c, ColorMap[PCX_MAXCOLORS][3];
- uint8_t *pcximage = NULL, *lpHead1 = NULL, *lpHead2 = NULL;
- uint8_t *pcxplanes, *pcxpixels;
-
- cx_try
- {
- if (hFile->Read(&pcxHeader,sizeof(PCXHEADER),1)==0) cx_throw("Can't read PCX image");
-
- PCX_toh(&pcxHeader);
-
- if (pcxHeader.Manufacturer != PCX_MAGIC) cx_throw("Error: Not a PCX file");
- // Check for PCX run length encoding
- if (pcxHeader.Encoding != 1) cx_throw("PCX file has unknown encoding scheme");
-
- Width = (pcxHeader.Xmax - pcxHeader.Xmin) + 1;
- Height = (pcxHeader.Ymax - pcxHeader.Ymin) + 1;
- info.xDPI = pcxHeader.Hres;
- info.yDPI = pcxHeader.Vres;
-
- if (info.nEscape == -1){
- head.biWidth = Width;
- head.biHeight= Height;
- info.dwType = CXIMAGE_FORMAT_PCX;
- return true;
- }
-
- // Check that we can handle this image format
- if (pcxHeader.ColorPlanes > 4)
- cx_throw("Can't handle image with more than 4 planes");
-
- // Create the image
- if (pcxHeader.ColorPlanes >= 3 && pcxHeader.BitsPerPixel == 8){
- Create (Width, Height, 24, CXIMAGE_FORMAT_PCX);
-#if CXIMAGE_SUPPORT_ALPHA
- if (pcxHeader.ColorPlanes==4) AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
- } else if (pcxHeader.ColorPlanes == 4 && pcxHeader.BitsPerPixel == 1)
- Create (Width, Height, 4, CXIMAGE_FORMAT_PCX);
- else
- Create (Width, Height, pcxHeader.BitsPerPixel, CXIMAGE_FORMAT_PCX);
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- //Read the image and check if it's ok
- nbytes = pcxHeader.BytesPerLine * pcxHeader.ColorPlanes * Height;
- lpHead1 = pcximage = (uint8_t*)malloc(nbytes);
- while (nbytes > 0){
- if (hFile == NULL || hFile->Eof()) cx_throw("corrupted PCX");
-
- hFile->Read(&c,1,1);
- if ((c & 0XC0) != 0XC0){ // Repeated group
- *pcximage++ = c;
- --nbytes;
- continue;
- }
- count = c & 0X3F; // extract count
- hFile->Read(&c,1,1);
- if (count > nbytes) cx_throw("repeat count spans end of image");
-
- nbytes -= count;
- while (--count >=0) *pcximage++ = c;
- }
- pcximage = lpHead1;
-
- //store the palette
- for (i = 0; i < 16; i++){
- ColorMap[i][0] = pcxHeader.ColorMap[i][0];
- ColorMap[i][1] = pcxHeader.ColorMap[i][1];
- ColorMap[i][2] = pcxHeader.ColorMap[i][2];
- }
- if (pcxHeader.BitsPerPixel == 8 && pcxHeader.ColorPlanes == 1){
- hFile->Read(&c,1,1);
- if (c != PCX_256_COLORS) cx_throw("bad color map signature");
-
- for (i = 0; i < PCX_MAXCOLORS; i++){
- hFile->Read(&ColorMap[i][0],1,1);
- hFile->Read(&ColorMap[i][1],1,1);
- hFile->Read(&ColorMap[i][2],1,1);
- }
- }
- if (pcxHeader.BitsPerPixel == 1 && pcxHeader.ColorPlanes == 1){
- ColorMap[0][0] = ColorMap[0][1] = ColorMap[0][2] = 0;
- ColorMap[1][0] = ColorMap[1][1] = ColorMap[1][2] = 255;
- }
-
- for (uint32_t idx=0; idx<head.biClrUsed; idx++) SetPaletteColor((uint8_t)idx,ColorMap[idx][0],ColorMap[idx][1],ColorMap[idx][2]);
-
- lpHead2 = pcxpixels = (uint8_t *)malloc(Width + pcxHeader.BytesPerLine * 8);
- // Convert the image
- for (y = 0; y < Height; y++){
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- y2=Height-1-y;
- pcxpixels = lpHead2;
- pcxplanes = pcximage + (y * pcxHeader.BytesPerLine * pcxHeader.ColorPlanes);
-
- if (pcxHeader.ColorPlanes == 3 && pcxHeader.BitsPerPixel == 8){
- // Deal with 24 bit color image
- for (x = 0; x < Width; x++){
- SetPixelColor(x,y2,RGB(pcxplanes[x],pcxplanes[pcxHeader.BytesPerLine + x],pcxplanes[2*pcxHeader.BytesPerLine + x]));
- }
- continue;
-#if CXIMAGE_SUPPORT_ALPHA
- } else if (pcxHeader.ColorPlanes == 4 && pcxHeader.BitsPerPixel == 8){
- for (x = 0; x < Width; x++){
- SetPixelColor(x,y2,RGB(pcxplanes[x],pcxplanes[pcxHeader.BytesPerLine + x],pcxplanes[2*pcxHeader.BytesPerLine + x]));
- AlphaSet(x,y2,pcxplanes[3*pcxHeader.BytesPerLine + x]);
- }
- continue;
-#endif //CXIMAGE_SUPPORT_ALPHA
- } else if (pcxHeader.ColorPlanes == 1) {
- if (!PCX_UnpackPixels(pcxpixels, pcxplanes, pcxHeader.BytesPerLine, pcxHeader.ColorPlanes, pcxHeader.BitsPerPixel)){
- cx_throw("PCX_UnpackPixels: Can't handle packed pixels with more than 1 plane");
- }
- } else {
- if (!PCX_PlanesToPixels(pcxpixels, pcxplanes, pcxHeader.BytesPerLine, pcxHeader.ColorPlanes, pcxHeader.BitsPerPixel)){
- cx_throw("PCX_PlanesToPixels: more than 4 planes or more than 1 bit per pixel");
- }
- }
- for (x = 0; x < Width; x++) SetPixelIndex(x,y2,pcxpixels[x]);
- }
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (lpHead1){ free(lpHead1); lpHead1 = NULL; }
- if (lpHead2){ free(lpHead2); lpHead2 = NULL; }
- return false;
- }
- if (lpHead1){ free(lpHead1); lpHead1 = NULL; }
- if (lpHead2){ free(lpHead2); lpHead2 = NULL; }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePCX::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- cx_try
- {
- PCXHEADER pcxHeader;
- memset(&pcxHeader,0,sizeof(pcxHeader));
- pcxHeader.Manufacturer = PCX_MAGIC;
- pcxHeader.Version = 5;
- pcxHeader.Encoding = 1;
- pcxHeader.Xmin = 0;
- pcxHeader.Ymin = 0;
- pcxHeader.Xmax = (uint16_t)head.biWidth-1;
- pcxHeader.Ymax = (uint16_t)head.biHeight-1;
- pcxHeader.Hres = (uint16_t)info.xDPI;
- pcxHeader.Vres = (uint16_t)info.yDPI;
- pcxHeader.Reserved = 0;
- pcxHeader.PaletteType = head.biClrUsed==0;
-
- switch(head.biBitCount){
- case 24:
- case 8:
- {
- pcxHeader.BitsPerPixel = 8;
- pcxHeader.ColorPlanes = head.biClrUsed==0 ? 3 : 1;
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid() && head.biClrUsed==0) pcxHeader.ColorPlanes =4;
-#endif //CXIMAGE_SUPPORT_ALPHA
- pcxHeader.BytesPerLine = (uint16_t)head.biWidth;
- break;
- }
- default: //(4 1)
- pcxHeader.BitsPerPixel = 1;
- pcxHeader.ColorPlanes = head.biClrUsed==16 ? 4 : 1;
- pcxHeader.BytesPerLine = (uint16_t)((head.biWidth * pcxHeader.BitsPerPixel + 7)>>3);
- }
-
- if (pcxHeader.BitsPerPixel == 1 && pcxHeader.ColorPlanes == 1){
- pcxHeader.ColorMap[0][0] = pcxHeader.ColorMap[0][1] = pcxHeader.ColorMap[0][2] = 0;
- pcxHeader.ColorMap[1][0] = pcxHeader.ColorMap[1][1] = pcxHeader.ColorMap[1][2] = 255;
- }
- if (pcxHeader.BitsPerPixel == 1 && pcxHeader.ColorPlanes == 4){
- RGBQUAD c;
- for (int32_t i = 0; i < 16; i++){
- c=GetPaletteColor(i);
- pcxHeader.ColorMap[i][0] = c.rgbRed;
- pcxHeader.ColorMap[i][1] = c.rgbGreen;
- pcxHeader.ColorMap[i][2] = c.rgbBlue;
- }
- }
-
- pcxHeader.BytesPerLine = (pcxHeader.BytesPerLine + 1)&(~1);
-
- PCX_toh(&pcxHeader);
- if (hFile->Write(&pcxHeader, sizeof(pcxHeader), 1) == 0 )
- cx_throw("cannot write PCX header");
- PCX_toh(&pcxHeader);
-
- CxMemFile buffer;
- buffer.Open();
-
- uint8_t c,n;
- int32_t x,y;
- if (head.biClrUsed==0){
- for (y = head.biHeight-1; y >=0 ; y--){
- for (int32_t p=0; p<pcxHeader.ColorPlanes; p++){
- c=n=0;
- for (x = 0; x<head.biWidth; x++){
- if (p==0)
- PCX_PackPixels(BlindGetPixelColor(x,y).rgbRed,c,n,buffer);
- else if (p==1)
- PCX_PackPixels(BlindGetPixelColor(x,y).rgbGreen,c,n,buffer);
- else if (p==2)
- PCX_PackPixels(BlindGetPixelColor(x,y).rgbBlue,c,n,buffer);
-#if CXIMAGE_SUPPORT_ALPHA
- else if (p==3)
- PCX_PackPixels(BlindAlphaGet(x,y),c,n,buffer);
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- PCX_PackPixels(-1-(head.biWidth&0x1),c,n,buffer);
- }
- }
-
- hFile->Write(buffer.GetBuffer(false),buffer.Tell(),1);
-
- } else if (head.biBitCount==8) {
-
- for (y = head.biHeight-1; y >=0 ; y--){
- c=n=0;
- for (x = 0; x<head.biWidth; x++){
- PCX_PackPixels(GetPixelIndex(x,y),c,n,buffer);
- }
- PCX_PackPixels(-1-(head.biWidth&0x1),c,n,buffer);
- }
-
- hFile->Write(buffer.GetBuffer(false),buffer.Tell(),1);
-
- if (head.biBitCount == 8){
- hFile->PutC(0x0C);
- uint8_t* pal = (uint8_t*)malloc(768);
- RGBQUAD c;
- for (int32_t i=0;i<256;i++){
- c=GetPaletteColor(i);
- pal[3*i+0] = c.rgbRed;
- pal[3*i+1] = c.rgbGreen;
- pal[3*i+2] = c.rgbBlue;
- }
- hFile->Write(pal,768,1);
- free(pal);
- }
- } else { //(head.biBitCount==4) || (head.biBitCount==1)
-
- RGBQUAD *rgb = GetPalette();
- bool binvert = false;
- if (CompareColors(&rgb[0],&rgb[1])>0) binvert=(head.biBitCount==1);
-
- uint8_t* plane = (uint8_t*)malloc(pcxHeader.BytesPerLine);
- uint8_t* raw = (uint8_t*)malloc(head.biWidth);
-
- for(y = head.biHeight-1; y >=0 ; y--) {
-
- for( x = 0; x < head.biWidth; x++) raw[x] = (uint8_t)GetPixelIndex(x,y);
-
- if (binvert) for( x = 0; x < head.biWidth; x++) raw[x] = 1-raw[x];
-
- for( x = 0; x < pcxHeader.ColorPlanes; x++ ) {
- PCX_PixelsToPlanes(raw, head.biWidth, plane, x);
- PCX_PackPlanes(plane, pcxHeader.BytesPerLine, buffer);
- }
- }
-
- free(plane);
- free(raw);
-
- hFile->Write(buffer.GetBuffer(false),buffer.Tell(),1);
-
- }
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-// Convert multi-plane format into 1 pixel per byte
-// from unpacked file data bitplanes[] into pixel row pixels[]
-// image Height rows, with each row having planes image planes each
-// bytesperline bytes
-bool CxImagePCX::PCX_PlanesToPixels(uint8_t * pixels, uint8_t * bitplanes, int16_t bytesperline, int16_t planes, int16_t bitsperpixel)
-{
- int32_t i, j, npixels;
- uint8_t * p;
- if (planes > 4) return false;
- if (bitsperpixel != 1) return false;
-
- // Clear the pixel buffer
- npixels = (bytesperline * 8) / bitsperpixel;
- p = pixels;
- while (--npixels >= 0) *p++ = 0;
-
- // Do the format conversion
- for (i = 0; i < planes; i++){
- int32_t pixbit, bits, mask;
- p = pixels;
- pixbit = (1 << i); // pixel bit for this plane
- for (j = 0; j < bytesperline; j++){
- bits = *bitplanes++;
- for (mask = 0X80; mask != 0; mask >>= 1, p++)
- if (bits & mask) *p |= pixbit;
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// convert packed pixel format into 1 pixel per byte
-// from unpacked file data bitplanes[] into pixel row pixels[]
-// image Height rows, with each row having planes image planes each
-// bytesperline bytes
-bool CxImagePCX::PCX_UnpackPixels(uint8_t * pixels, uint8_t * bitplanes, int16_t bytesperline, int16_t planes, int16_t bitsperpixel)
-{
- register int32_t bits;
- if (planes != 1) return false;
-
- if (bitsperpixel == 8){ // 8 bits/pixels, no unpacking needed
- while (bytesperline-- > 0) *pixels++ = *bitplanes++;
- } else if (bitsperpixel == 4){ // 4 bits/pixel, two pixels per byte
- while (bytesperline-- > 0){
- bits = *bitplanes++;
- *pixels++ = (uint8_t)((bits >> 4) & 0X0F);
- *pixels++ = (uint8_t)((bits) & 0X0F);
- }
- } else if (bitsperpixel == 2){ // 2 bits/pixel, four pixels per byte
- while (bytesperline-- > 0){
- bits = *bitplanes++;
- *pixels++ = (uint8_t)((bits >> 6) & 0X03);
- *pixels++ = (uint8_t)((bits >> 4) & 0X03);
- *pixels++ = (uint8_t)((bits >> 2) & 0X03);
- *pixels++ = (uint8_t)((bits) & 0X03);
- }
- } else if (bitsperpixel == 1){ // 1 bits/pixel, 8 pixels per byte
- while (bytesperline-- > 0){
- bits = *bitplanes++;
- *pixels++ = ((bits & 0X80) != 0);
- *pixels++ = ((bits & 0X40) != 0);
- *pixels++ = ((bits & 0X20) != 0);
- *pixels++ = ((bits & 0X10) != 0);
- *pixels++ = ((bits & 0X08) != 0);
- *pixels++ = ((bits & 0X04) != 0);
- *pixels++ = ((bits & 0X02) != 0);
- *pixels++ = ((bits & 0X01) != 0);
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/* PCX_PackPixels(const int32_t p,uint8_t &c, uint8_t &n, int32_t &l, CxFile &f)
- * p = current pixel (-1 ends the line -2 ends odd line)
- * c = previous pixel
- * n = number of consecutive pixels
- */
-void CxImagePCX::PCX_PackPixels(const int32_t p,uint8_t &c, uint8_t &n, CxFile &f)
-{
- if (p!=c && n){
- if (n==1 && c<0xC0){
- f.PutC(c);
- } else {
- f.PutC(0xC0|n);
- f.PutC(c);
- }
- n=0;
- }
- if (n==0x3F) {
- f.PutC(0xFF);
- f.PutC(c);
- n=0;
- }
- if (p==-2) f.PutC(0);
- c=(uint8_t)p;
- n++;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImagePCX::PCX_PackPlanes(uint8_t* buff, const int32_t size, CxFile &f)
-{
- uint8_t *start,*end;
- uint8_t c, previous, count;
-
- start = buff;
- end = buff + size;
- previous = *start++;
- count = 1;
-
- while (start < end) {
- c = *start++;
- if (c == previous && count < 63) {
- ++count;
- continue;
- }
-
- if (count > 1 || (previous & 0xc0) == 0xc0) {
- f.PutC( count | 0xc0 );
- }
- f.PutC(previous);
- previous = c;
- count = 1;
- }
-
- if (count > 1 || (previous & 0xc0) == 0xc0) {
- count |= 0xc0;
- f.PutC(count);
- }
- f.PutC(previous);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImagePCX::PCX_PixelsToPlanes(uint8_t* raw, int32_t width, uint8_t* buf, int32_t plane)
-{
- int32_t cbit, x, mask;
- uint8_t *cp = buf-1;
-
- mask = 1 << plane;
- cbit = -1;
- for( x = 0; x < width; x++ ) {
- if( cbit < 0 ) {
- cbit = 7;
- *++cp = 0;
- }
- if( raw[x] & mask )
- *cp |= (1<<cbit);
- --cbit;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImagePCX::PCX_toh(PCXHEADER* p)
-{
- p->Xmin = m_ntohs(p->Xmin);
- p->Ymin = m_ntohs(p->Ymin);
- p->Xmax = m_ntohs(p->Xmax);
- p->Ymax = m_ntohs(p->Ymax);
- p->Hres = m_ntohs(p->Hres);
- p->Vres = m_ntohs(p->Vres);
- p->BytesPerLine = m_ntohs(p->BytesPerLine);
- p->PaletteType = m_ntohs(p->PaletteType);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_PCX
diff --git a/hge/CxImage/ximapcx.h b/hge/CxImage/ximapcx.h deleted file mode 100644 index 05c5ad0..0000000 --- a/hge/CxImage/ximapcx.h +++ /dev/null @@ -1,64 +0,0 @@ -/*
- * File: ximapcx.h
- * Purpose: PCX Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImagePCX (c) 05/Jan/2002 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Parts of the code come from Paintlib: Copyright (c) 1996-1998 Ulrich von Zadow
- * ==========================================================
- */
-#if !defined(__ximaPCX_h)
-#define __ximaPCX_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_PCX
-
-class CxImagePCX: public CxImage
-{
-// PCX Image File
-#pragma pack(1)
-typedef struct tagPCXHEADER
-{
- char Manufacturer; // always 0X0A
- char Version; // version number
- char Encoding; // always 1
- char BitsPerPixel; // color bits
- uint16_t Xmin, Ymin; // image origin
- uint16_t Xmax, Ymax; // image dimensions
- uint16_t Hres, Vres; // resolution values
- uint8_t ColorMap[16][3]; // color palette
- char Reserved;
- char ColorPlanes; // color planes
- uint16_t BytesPerLine; // line buffer size
- uint16_t PaletteType; // grey or color palette
- char Filter[58];
-} PCXHEADER;
-#pragma pack()
-
-public:
- CxImagePCX(): CxImage(CXIMAGE_FORMAT_PCX) {}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_PCX);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_PCX);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-protected:
- bool PCX_PlanesToPixels(uint8_t * pixels, uint8_t * bitplanes, int16_t bytesperline, int16_t planes, int16_t bitsperpixel);
- bool PCX_UnpackPixels(uint8_t * pixels, uint8_t * bitplanes, int16_t bytesperline, int16_t planes, int16_t bitsperpixel);
- void PCX_PackPixels(const int32_t p,uint8_t &c, uint8_t &n, CxFile &f);
- void PCX_PackPlanes(uint8_t* buff, const int32_t size, CxFile &f);
- void PCX_PixelsToPlanes(uint8_t* raw, int32_t width, uint8_t* buf, int32_t plane);
- void PCX_toh(PCXHEADER* p);
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximapng.cpp b/hge/CxImage/ximapng.cpp deleted file mode 100644 index db2f636..0000000 --- a/hge/CxImage/ximapng.cpp +++ /dev/null @@ -1,644 +0,0 @@ -/*
- * File: ximapng.cpp
- * Purpose: Platform Independent PNG Image Class Loader and Writer
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximapng.h"
-
-#if CXIMAGE_SUPPORT_PNG
-
-#include "ximaiter.h"
-
-////////////////////////////////////////////////////////////////////////////////
-void CxImagePNG::ima_png_error(png_struct *png_ptr, char *message)
-{
- strcpy(info.szLastError,message);
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-void CxImagePNG::expand2to4bpp(uint8_t* prow)
-{
- uint8_t *psrc,*pdst;
- uint8_t pos,idx;
- for(int32_t x=head.biWidth-1;x>=0;x--){
- psrc = prow + ((2*x)>>3);
- pdst = prow + ((4*x)>>3);
- pos = (uint8_t)(2*(3-x%4));
- idx = (uint8_t)((*psrc & (0x03<<pos))>>pos);
- pos = (uint8_t)(4*(1-x%2));
- *pdst &= ~(0x0F<<pos);
- *pdst |= (idx & 0x0F)<<pos;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePNG::Decode(CxFile *hFile)
-{
- png_struct *png_ptr;
- png_info *info_ptr;
- uint8_t *row_pointers=NULL;
- CImageIterator iter(this);
-
- cx_try
- {
- /* Create and initialize the png_struct with the desired error handler
- * functions. If you want to use the default stderr and longjump method,
- * you can supply NULL for the last three parameters. We also supply the
- * the compiler header file version, so that we know if the application
- * was compiled with a compatible version of the library. REQUIRED */
- png_ptr = png_create_read_struct(PNG_LIBPNG_VER_STRING,(void *)NULL,NULL,NULL);
- if (png_ptr == NULL) cx_throw("Failed to create PNG structure");
-
- /* Allocate/initialize the memory for image information. REQUIRED. */
- info_ptr = png_create_info_struct(png_ptr);
- if (info_ptr == NULL) {
- png_destroy_read_struct(&png_ptr, (png_infopp)NULL, (png_infopp)NULL);
- cx_throw("Failed to initialize PNG info structure");
- }
-
- /* Set error handling if you are using the setjmp/longjmp method (this is
- * the normal method of doing things with libpng). REQUIRED unless you
- * set up your own error handlers in the png_create_read_struct() earlier. */
-#if PNG_LIBPNG_VER > 10399
- if (setjmp(png_jmpbuf(png_ptr))) {
-#else
- if (setjmp(png_ptr->jmpbuf)) {
-#endif
- /* Free all of the memory associated with the png_ptr and info_ptr */
- delete [] row_pointers;
- png_destroy_read_struct(&png_ptr, &info_ptr, (png_infopp)NULL);
- cx_throw("");
- }
-
- // use custom I/O functions
- png_set_read_fn(png_ptr, hFile, /*(png_rw_ptr)*/user_read_data);
- png_set_error_fn(png_ptr,info.szLastError,/*(png_error_ptr)*/user_error_fn,NULL);
-
- /* read the file information */
- png_read_info(png_ptr, info_ptr);
-
- png_uint_32 _width,_height;
- int _bit_depth,_color_type,_interlace_type,_compression_type,_filter_type;
-#if PNG_LIBPNG_VER > 10399
- png_get_IHDR(png_ptr,info_ptr,&_width,&_height,&_bit_depth,&_color_type,
- &_interlace_type,&_compression_type,&_filter_type);
-#else
- _width=info_ptr->width;
- _height=info_ptr->height;
- _bit_depth=info_ptr->bit_depth;
- _color_type=info_ptr->color_type;
- _interlace_type=info_ptr->interlace_type;
- //_compression_type=info_ptr->compression_type;
- //_filter_type=info_ptr->filter_type;
-#endif
-
- if (info.nEscape == -1){
- head.biWidth = _width;
- head.biHeight= _height;
- info.dwType = CXIMAGE_FORMAT_PNG;
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
- }
-
- /* calculate new number of channels */
- int32_t channels=0;
- switch(_color_type){
- case PNG_COLOR_TYPE_GRAY:
- case PNG_COLOR_TYPE_PALETTE:
- channels = 1;
- break;
- case PNG_COLOR_TYPE_GRAY_ALPHA:
- channels = 2;
- break;
- case PNG_COLOR_TYPE_RGB:
- channels = 3;
- break;
- case PNG_COLOR_TYPE_RGB_ALPHA:
- channels = 4;
- break;
- default:
- strcpy(info.szLastError,"unknown PNG color type");
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
- }
-
- //find the right pixel depth used for cximage
-#if PNG_LIBPNG_VER > 10399
- int pixel_depth = _bit_depth * png_get_channels(png_ptr,info_ptr);
-#else
- int pixel_depth = info_ptr->pixel_depth;
-#endif
- if (channels == 1 && pixel_depth>8) pixel_depth=8;
- if (channels == 2) pixel_depth=8;
- if (channels >= 3) pixel_depth=24;
-
- if (!Create(_width, _height, pixel_depth, CXIMAGE_FORMAT_PNG)){
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
- }
-
- /* get metrics */
- png_uint_32 _x_pixels_per_unit,_y_pixels_per_unit;
- int _phys_unit_type;
-#if PNG_LIBPNG_VER > 10399
- png_get_pHYs(png_ptr,info_ptr,&_x_pixels_per_unit,&_y_pixels_per_unit,&_phys_unit_type);
-#else
- _x_pixels_per_unit=info_ptr->x_pixels_per_unit;
- _y_pixels_per_unit=info_ptr->y_pixels_per_unit;
- _phys_unit_type=info_ptr->phys_unit_type;
-#endif
- switch (_phys_unit_type)
- {
- case PNG_RESOLUTION_UNKNOWN:
- SetXDPI(_x_pixels_per_unit);
- SetYDPI(_y_pixels_per_unit);
- break;
- case PNG_RESOLUTION_METER:
- SetXDPI((long)floor(_x_pixels_per_unit * 254.0 / 10000.0 + 0.5));
- SetYDPI((long)floor(_y_pixels_per_unit * 254.0 / 10000.0 + 0.5));
- break;
- }
-
- int _num_palette;
- png_colorp _palette;
-#if PNG_LIBPNG_VER > 10399
- png_get_PLTE(png_ptr,info_ptr,&_palette,&_num_palette);
-#else
- _num_palette=info_ptr->num_palette;
- _palette=info_ptr->palette;
-#endif
- if (_num_palette>0){
- SetPalette((rgb_color*)_palette,_num_palette);
- SetClrImportant(_num_palette);
- } else if (_bit_depth ==2) { //<DP> needed for 2 bpp grayscale PNGs
- SetPaletteColor(0,0,0,0);
- SetPaletteColor(1,85,85,85);
- SetPaletteColor(2,170,170,170);
- SetPaletteColor(3,255,255,255);
- } else SetGrayPalette(); //<DP> needed for grayscale PNGs
-
- int nshift = max(0,(_bit_depth>>3)-1)<<3;
-
- png_bytep _trans_alpha;
- int _num_trans;
- png_color_16p _trans_color;
-#if PNG_LIBPNG_VER > 10399
- png_get_tRNS(png_ptr,info_ptr,&_trans_alpha,&_num_trans,&_trans_color);
-#else
- _num_trans=info_ptr->num_trans;
-#endif
- if (_num_trans!=0){ //palette transparency
- if (_num_trans==1){
- if (_color_type == PNG_COLOR_TYPE_PALETTE){
- info.nBkgndIndex = _trans_color->index;
- } else{
- info.nBkgndIndex = _trans_color->gray>>nshift;
- }
- }
- if (_num_trans>1){
- RGBQUAD* pal=GetPalette();
- if (pal){
- uint32_t ip;
- if(_trans_alpha != 0) {
- for (ip=0;ip<min(head.biClrUsed,(unsigned long)_num_trans);ip++)
- pal[ip].rgbReserved=_trans_alpha[ip];
- }
- for (ip=_num_trans;ip<head.biClrUsed;ip++){
- pal[ip].rgbReserved=255;
- }
- info.bAlphaPaletteEnabled=true;
- }
- }
- }
-
- if (channels == 3){ //check RGB binary transparency
- /* seems unnecessary to call again, but the conditional must be important so... */
- if (png_get_tRNS(png_ptr,info_ptr,&_trans_alpha,&_num_trans,&_trans_color)){
- info.nBkgndColor.rgbRed = (uint8_t)(_trans_color->red>>nshift);
- info.nBkgndColor.rgbGreen = (uint8_t)(_trans_color->green>>nshift);
- info.nBkgndColor.rgbBlue = (uint8_t)(_trans_color->blue>>nshift);
- info.nBkgndColor.rgbReserved = 0;
- info.nBkgndIndex = 0;
- }
- }
-
- int32_t alpha_present = (channels - 1) % 2;
- if (alpha_present){
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- AlphaCreate();
-#else
- png_set_strip_alpha(png_ptr);
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- // <vho> - flip the RGB pixels to BGR (or RGBA to BGRA)
- if (_color_type & PNG_COLOR_MASK_COLOR){
- png_set_bgr(png_ptr);
- }
-
- // <vho> - handle cancel
- if (info.nEscape)
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
-
- // row_bytes is the width x number of channels x (bit-depth / 8)
-#if PNG_LIBPNG_VER > 10399
- row_pointers = new uint8_t[png_get_rowbytes(png_ptr,info_ptr) + 8];
-#else
- row_pointers = new uint8_t[info_ptr->rowbytes + 8];
-#endif
-
-
- // turn on interlace handling
- int32_t number_passes = png_set_interlace_handling(png_ptr);
-
- if (number_passes>1){
- SetCodecOption( (ENCODE_INTERLACE) | GetCodecOption(CXIMAGE_FORMAT_PNG));
- } else {
- SetCodecOption(~(ENCODE_INTERLACE) & GetCodecOption(CXIMAGE_FORMAT_PNG));
- }
-
- int chan_offset = _bit_depth >> 3;
-#if PNG_LIBPNG_VER > 10399
- int pixel_offset = (_bit_depth * png_get_channels(png_ptr,info_ptr)) >> 3;
-#else
- int pixel_offset = info_ptr->pixel_depth >> 3;
-#endif
-
- for (int32_t pass=0; pass < number_passes; pass++) {
- iter.Upset();
- int32_t y=0;
- do {
-
- // <vho> - handle cancel
- if (info.nEscape)
-#if PNG_LIBPNG_VER > 10399
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- longjmp(png_ptr->jmpbuf, 1);
-#endif
-
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- if (AlphaIsValid()) {
-
- //compute the correct position of the line
- int32_t ax,ay;
- ay = head.biHeight-1-y;
- uint8_t* prow= iter.GetRow(ay);
-
- //recover data from previous scan
- if (_interlace_type && pass>0 && pass!=7){
- for(ax=0;ax<head.biWidth;ax++){
- int32_t px = ax * pixel_offset;
- if (channels == 2){
- row_pointers[px] = prow[ax];
- row_pointers[px+chan_offset]=AlphaGet(ax,ay);
- } else {
- int32_t qx = ax * 3;
- row_pointers[px] =prow[qx];
- row_pointers[px+chan_offset] =prow[qx+1];
- row_pointers[px+chan_offset*2]=prow[qx+2];
- row_pointers[px+chan_offset*3]=AlphaGet(ax,ay);
- }
- }
- }
-
- //read next row
- png_read_row(png_ptr, row_pointers, NULL);
-
- //RGBA -> RGB + A
- for(ax=0;ax<head.biWidth;ax++){
- int32_t px = ax * pixel_offset;
- if (channels == 2){
- prow[ax] = row_pointers[px];
- AlphaSet(ax,ay,row_pointers[px+chan_offset]);
- } else {
- int32_t qx = ax * 3;
- prow[qx] =row_pointers[px];
- prow[qx+1]=row_pointers[px+chan_offset];
- prow[qx+2]=row_pointers[px+chan_offset*2];
- AlphaSet(ax,ay,row_pointers[px+chan_offset*3]);
- }
- }
- } else
-#endif // CXIMAGE_SUPPORT_ALPHA // vho
- {
- //recover data from previous scan
- if (_interlace_type && pass>0){
-#if PNG_LIBPNG_VER > 10399
- iter.GetRow(row_pointers, png_get_rowbytes(png_ptr,info_ptr));
-#else
- iter.GetRow(row_pointers, info_ptr->rowbytes);
-#endif
- //re-expand buffer for images with bit depth > 8
- if (_bit_depth > 8){
- for(int32_t ax=(head.biWidth*channels-1);ax>=0;ax--)
- row_pointers[ax*chan_offset] = row_pointers[ax];
- }
- }
-
- //read next row
- png_read_row(png_ptr, row_pointers, NULL);
-
- //shrink 16 bit depth images down to 8 bits
- if (_bit_depth > 8){
- for(int32_t ax=0;ax<(head.biWidth*channels);ax++)
- row_pointers[ax] = row_pointers[ax*chan_offset];
- }
-
- //copy the pixels
-#if PNG_LIBPNG_VER > 10399
- iter.SetRow(row_pointers, png_get_rowbytes(png_ptr,info_ptr));
-#else
- iter.SetRow(row_pointers, info_ptr->rowbytes);
-#endif
- //<DP> expand 2 bpp images only in the last pass
- if (_bit_depth==2 && pass==(number_passes-1))
- expand2to4bpp(iter.GetRow());
-
- //go on
- iter.PrevRow();
- }
-
- y++;
- } while(y<head.biHeight);
- }
-
- delete [] row_pointers;
- row_pointers = NULL;
-
- /* read the rest of the file, getting any additional chunks in info_ptr - REQUIRED */
- png_read_end(png_ptr, info_ptr);
-
- /* clean up after the read, and free any memory allocated - REQUIRED */
- png_destroy_read_struct(&png_ptr, &info_ptr, (png_infopp)NULL);
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_PNG) return true;
- return false;
- }
- /* that's it */
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePNG::Encode(CxFile *hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- CImageIterator iter(this);
- uint8_t trans[256]; //for transparency (don't move)
- png_struct *png_ptr;
- png_info *info_ptr;
-
- cx_try
- {
- /* Create and initialize the png_struct with the desired error handler
- * functions. If you want to use the default stderr and longjump method,
- * you can supply NULL for the last three parameters. We also check that
- * the library version is compatible with the one used at compile time,
- * in case we are using dynamically linked libraries. REQUIRED.
- */
- png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING,(void *)NULL,NULL,NULL);
- if (png_ptr == NULL) cx_throw("Failed to create PNG structure");
-
- /* Allocate/initialize the image information data. REQUIRED */
- info_ptr = png_create_info_struct(png_ptr);
- if (info_ptr == NULL){
- png_destroy_write_struct(&png_ptr, (png_infopp)NULL);
- cx_throw("Failed to initialize PNG info structure");
- }
-
- /* Set error handling. REQUIRED if you aren't supplying your own
- * error hadnling functions in the png_create_write_struct() call.
- */
- if (setjmp(png_ptr->jmpbuf)){
- /* If we get here, we had a problem reading the file */
- if (info_ptr->palette) free(info_ptr->palette);
- png_destroy_write_struct(&png_ptr, (png_infopp)&info_ptr);
- cx_throw("Error saving PNG file");
- }
-
- /* set up the output control */
- //png_init_io(png_ptr, hFile);
-
- // use custom I/O functions
- png_set_write_fn(png_ptr,hFile,/*(png_rw_ptr)*/user_write_data,/*(png_flush_ptr)*/user_flush_data);
-
- /* set the file information here */
- info_ptr->width = GetWidth();
- info_ptr->height = GetHeight();
- info_ptr->pixel_depth = (uint8_t)GetBpp();
- info_ptr->channels = (GetBpp()>8) ? (uint8_t)3: (uint8_t)1;
- info_ptr->bit_depth = (uint8_t)(GetBpp()/info_ptr->channels);
- info_ptr->compression_type = info_ptr->filter_type = 0;
- info_ptr->valid = 0;
-
- // set interlace type
- DWORD codec_opt = GetCodecOption(CXIMAGE_FORMAT_PNG);
- if (codec_opt & CxImagePNG::ENCODE_INTERLACE)
- info_ptr->interlace_type = PNG_INTERLACE_ADAM7;
- else
- info_ptr->interlace_type = PNG_INTERLACE_NONE;
-
- /* set compression level */
- int32_t compress_level;
- switch (codec_opt & CxImagePNG::ENCODE_COMPRESSION_MASK)
- {
- case ENCODE_NO_COMPRESSION:
- compress_level = Z_NO_COMPRESSION;
- break;
- case ENCODE_BEST_SPEED:
- compress_level = Z_BEST_SPEED;
- break;
- case ENCODE_BEST_COMPRESSION:
- compress_level = Z_BEST_COMPRESSION;
- break;
- default:
- compress_level = Z_DEFAULT_COMPRESSION;
- break;
- }
- png_set_compression_level(png_ptr, compress_level);
-
- bool bGrayScale = IsGrayScale();
-
- if (GetNumColors()){
- if (bGrayScale){
- info_ptr->color_type = PNG_COLOR_TYPE_GRAY;
- } else {
- info_ptr->color_type = PNG_COLOR_TYPE_PALETTE;
- }
- } else {
- info_ptr->color_type = PNG_COLOR_TYPE_RGB;
- }
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- info_ptr->color_type |= PNG_COLOR_MASK_ALPHA;
- info_ptr->channels++;
- info_ptr->bit_depth = 8;
- info_ptr->pixel_depth += 8;
- }
-#endif
-
- /* set background */
- png_color_16 image_background={ 0, 255, 255, 255, 0 };
- RGBQUAD tc = GetTransColor();
- if (info.nBkgndIndex>=0) {
- image_background.blue = tc.rgbBlue;
- image_background.green = tc.rgbGreen;
- image_background.red = tc.rgbRed;
- }
- png_set_bKGD(png_ptr, info_ptr, &image_background);
-
- /* set metrics */
- png_set_pHYs(png_ptr, info_ptr, head.biXPelsPerMeter, head.biYPelsPerMeter, PNG_RESOLUTION_METER);
-
- png_set_IHDR(png_ptr, info_ptr, info_ptr->width, info_ptr->height, info_ptr->bit_depth,
- info_ptr->color_type, info_ptr->interlace_type,
- PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_BASE);
-
- //<DP> simple transparency
- if (info.nBkgndIndex >= 0){
- info_ptr->num_trans = 1;
- info_ptr->valid |= PNG_INFO_tRNS;
- info_ptr->trans_alpha = trans;
- info_ptr->trans_color.index = (uint8_t)info.nBkgndIndex;
- info_ptr->trans_color.red = tc.rgbRed;
- info_ptr->trans_color.green = tc.rgbGreen;
- info_ptr->trans_color.blue = tc.rgbBlue;
- info_ptr->trans_color.gray = info_ptr->trans_color.index;
-
- // the transparency indexes start from 0 for non grayscale palette
- if (!bGrayScale && head.biClrUsed && info.nBkgndIndex)
- SwapIndex(0,(uint8_t)info.nBkgndIndex);
- }
-
- /* set the palette if there is one */
- if (GetPalette()){
- if (!bGrayScale){
- info_ptr->valid |= PNG_INFO_PLTE;
- }
-
- int32_t nc = GetClrImportant();
- if (nc==0) nc = GetNumColors();
-
- if (info.bAlphaPaletteEnabled){
- for(uint16_t ip=0; ip<nc;ip++)
- trans[ip]=GetPaletteColor((uint8_t)ip).rgbReserved;
- info_ptr->num_trans = (uint16_t)nc;
- info_ptr->valid |= PNG_INFO_tRNS;
- info_ptr->trans_alpha = trans;
- }
-
- // copy the palette colors
- info_ptr->palette = new png_color[nc];
- info_ptr->num_palette = (png_uint_16) nc;
- for (int32_t i=0; i<nc; i++)
- GetPaletteColor(i, &info_ptr->palette[i].red, &info_ptr->palette[i].green, &info_ptr->palette[i].blue);
- }
-
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- //Merge the transparent color with the alpha channel
- if (AlphaIsValid() && head.biBitCount==24 && info.nBkgndIndex>=0){
- for(int32_t y=0; y < head.biHeight; y++){
- for(int32_t x=0; x < head.biWidth ; x++){
- RGBQUAD c=GetPixelColor(x,y,false);
- if (*(int32_t*)&c==*(int32_t*)&tc)
- AlphaSet(x,y,0);
- } } }
-#endif // CXIMAGE_SUPPORT_ALPHA // <vho>
-
- int32_t row_size = max(info.dwEffWidth, info_ptr->width*info_ptr->channels*(info_ptr->bit_depth/8));
- info_ptr->rowbytes = row_size;
- uint8_t *row_pointers = new uint8_t[row_size];
-
- /* write the file information */
- png_write_info(png_ptr, info_ptr);
-
- //interlace handling
- int32_t num_pass = png_set_interlace_handling(png_ptr);
- for (int32_t pass = 0; pass < num_pass; pass++){
- //write image
- iter.Upset();
- int32_t ay=head.biHeight-1;
- RGBQUAD c;
- do {
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- if (AlphaIsValid()){
- for (int32_t ax=head.biWidth-1; ax>=0;ax--){
- c = BlindGetPixelColor(ax,ay);
- int32_t px = ax * info_ptr->channels;
- if (!bGrayScale){
- row_pointers[px++]=c.rgbRed;
- row_pointers[px++]=c.rgbGreen;
- }
- row_pointers[px++]=c.rgbBlue;
- row_pointers[px] = AlphaGet(ax,ay);
- }
- png_write_row(png_ptr, row_pointers);
- ay--;
- }
- else
-#endif //CXIMAGE_SUPPORT_ALPHA // <vho>
- {
- iter.GetRow(row_pointers, row_size);
- if (info_ptr->color_type == PNG_COLOR_TYPE_RGB) //HACK BY OP
- RGBtoBGR(row_pointers, row_size);
- png_write_row(png_ptr, row_pointers);
- }
- } while(iter.PrevRow());
- }
-
- delete [] row_pointers;
- row_pointers = NULL;
-
- //if necessary, restore the original palette
- if (!bGrayScale && head.biClrUsed && info.nBkgndIndex>0)
- SwapIndex((uint8_t)info.nBkgndIndex,0);
-
- /* It is REQUIRED to call this to finish writing the rest of the file */
- png_write_end(png_ptr, info_ptr);
-
- /* if you malloced the palette, free it here */
- if (info_ptr->palette){
- delete [] (info_ptr->palette);
- info_ptr->palette = NULL;
- }
-
- /* clean up after the write, and free any memory allocated */
- png_destroy_write_struct(&png_ptr, (png_infopp)&info_ptr);
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return FALSE;
- }
- /* that's it */
- return TRUE;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_PNG
diff --git a/hge/CxImage/ximapng.h b/hge/CxImage/ximapng.h deleted file mode 100644 index 262ea02..0000000 --- a/hge/CxImage/ximapng.h +++ /dev/null @@ -1,95 +0,0 @@ -/*
- * File: ximapng.h
- * Purpose: PNG Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImagePNG (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Troels Knakkergaard for new features, enhancements and bugfixes
- *
- * original CImagePNG and CImageIterator implementation are:
- * Copyright: (c) 1995, Alejandro Aguilar Sierra <asierra(at)servidor(dot)unam(dot)mx>
- *
- * libpng Copyright (c) 1998-2003 Glenn Randers-Pehrson
- * ==========================================================
- */
-#if !defined(__ximaPNG_h)
-#define __ximaPNG_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_PNG
-
-extern "C" {
-#ifdef _LINUX
- #undef _DLL
- #include <png.h>
-#else
- #include "../png/png.h"
-#endif
-}
-
-class CxImagePNG: public CxImage
-{
-public:
- CxImagePNG(): CxImage(CXIMAGE_FORMAT_PNG) {}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_PNG);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_PNG);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
- enum CODEC_OPTION
- {
- ENCODE_INTERLACE = 0x01,
- // Exclusive compression types : 3 bit wide field
- ENCODE_COMPRESSION_MASK = 0x0E,
- ENCODE_NO_COMPRESSION = 1 << 1,
- ENCODE_BEST_SPEED = 2 << 1,
- ENCODE_BEST_COMPRESSION = 3 << 1,
- ENCODE_DEFAULT_COMPRESSION = 4 << 1
- };
-
-protected:
- void ima_png_error(png_struct *png_ptr, char *message);
- void expand2to4bpp(uint8_t* prow);
-
- static void PNGAPI user_read_data(png_structp png_ptr, png_bytep data, png_size_t length)
- {
- CxFile* hFile = (CxFile*)png_get_io_ptr(png_ptr);
- if (hFile == NULL || hFile->Read(data,1,length) != length) png_error(png_ptr, "Read Error");
- }
-
- static void PNGAPI user_write_data(png_structp png_ptr, png_bytep data, png_size_t length)
- {
- CxFile* hFile = (CxFile*)png_get_io_ptr(png_ptr);
- if (hFile == NULL || hFile->Write(data,1,length) != length) png_error(png_ptr, "Write Error");
- }
-
- static void PNGAPI user_flush_data(png_structp png_ptr)
- {
- CxFile* hFile = (CxFile*)png_get_io_ptr(png_ptr);
- if (hFile == NULL || !hFile->Flush()) png_error(png_ptr, "Flush Error");
- }
-
- static void PNGAPI user_error_fn(png_structp png_ptr,png_const_charp error_msg)
- {
-#if PNG_LIBPNG_VER > 10399
- strncpy((char*)png_get_error_ptr(png_ptr),error_msg,255);
- longjmp(png_jmpbuf(png_ptr), 1);
-#else
- strncpy((char*)png_ptr->error_ptr,error_msg,255);
- longjmp(png_ptr->jmpbuf, 1);
-#endif
- }
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximapsd.cpp b/hge/CxImage/ximapsd.cpp deleted file mode 100644 index 2d8417b..0000000 --- a/hge/CxImage/ximapsd.cpp +++ /dev/null @@ -1,1307 +0,0 @@ -/*
- * File: ximapsd.cpp
- * Purpose: Platform Independent PSD Image Class Loader
- * Dec/2010 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- *
- * libpsd (c) 2004-2007 Graphest Software
- *
- * Based on MyPSD class by Iosif Hamlatzis
- * Details: http://www.codeproject.com/KB/graphics/MyPSD.aspx
- * Cleaned up a bit and ported to CxImage by Vitaly Ovchinnikov
- * Send feedback to vitaly(dot)ovchinnikov(at)gmail.com
- */
-
-#include "ximapsd.h"
-
-#if CXIMAGE_SUPPORT_PSD
-
-enum {
- PSD_FILE_HEADER,
- PSD_COLOR_MODE_DATA,
- PSD_IMAGE_RESOURCE,
- PSD_LAYER_AND_MASK_INFORMATION,
- PSD_IMAGE_DATA,
- PSD_DONE
-};
-
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_USE_LIBPSD == 0
-// MyPSD.h /////////////////////////////////////////////////////////////////////
-
-#ifndef __MyPSD_H__
-#define __MyPSD_H__
-
-namespace MyPSD
-{
-
- class CPSD
- {
- struct HEADER_INFO
- {
- //Table 2-12: HeaderInfo Color spaces
- // Color-ID Name Description
- //-------------------------------------------
- // 0 Bitmap // Probably means black & white
- // 1 Grayscale The first value in the color data is the gray value, from 0...10000.
- // 2 Indexed
- // 3 RGB The first three values in the color data are red, green, and blue.
- // They are full unsigned 16–bit values as in Apple’s RGBColor data
- // structure. Pure red=65535,0,0.
- // 4 CMYK The four values in the color data are cyan, magenta, yellow, and
- // black. They are full unsigned 16–bit values. 0=100% ink. Pure
- // cyan=0,65535,65535,65535.
- // 7 Multichannel // Have no idea
- // 8 Duotone
- // 9 Lab The first three values in the color data are lightness, a chrominance,
- // and b chrominance.
- // Lightness is a 16–bit value from 0...100. The chromanance components
- // are each 16–bit values from –128...127. Gray values
- // are represented by chrominance components of 0. Pure
- // white=100,0,0.
- short nChannels;
- int nHeight;
- int nWidth;
- short nBitsPerPixel;
- short nColourMode;
- HEADER_INFO();
- };
-
- struct COLOUR_MODE_DATA
- {
- int nLength;
- unsigned char* ColourData;
- COLOUR_MODE_DATA();
- };
-
-
- struct IMAGE_RESOURCE
- {
- // Table 2–1: Image resource block
- // Type Name Description
- //-------------------------------------------
- // OSType Type Photoshop always uses its signature, 8BIM
- // int16 ID Unique identifier
- // PString Name A pascal string, padded to make size even (a null name consists of two bytes of 0)
- // Pascal style string where the first byte gives the length of the
- // string and the content bytes follow.
- // int32 Size Actual size of resource data. This does not include the
- // Type, ID, Name, or Size fields.
- // Variable Data Resource data, padded to make size even
- int nLength;
- char OSType[4];
- short nID;
- unsigned char* Name;
- int nSize;
- IMAGE_RESOURCE();
- void Reset();
- };
-
- struct RESOLUTION_INFO
- {
- // Table A-6: ResolutionInfo structure
- // Type Name Description
- //-------------------------------------------
- // Fixed hRes Horizontal resolution in pixels per inch.
- // int hResUnit 1=display horizontal resolution in pixels per inch;
- // 2=display horizontal resolution in pixels per cm.
- // short widthUnit Display width as 1=inches; 2=cm; 3=points; 4=picas; 5=columns.
- // Fixed vRes Vertical resolution in pixels per inch.
- // int vResUnit 1=display vertical resolution in pixels per inch;
- // 2=display vertical resolution in pixels per cm.
- // short heightUnit Display height as 1=inches; 2=cm; 3=points; 4=picas; 5=columns.
- short hRes;
- int hResUnit;
- short widthUnit;
-
- short vRes;
- int vResUnit;
- short heightUnit;
- RESOLUTION_INFO();
- };
-
- struct RESOLUTION_INFO_v2 // Obsolete - Photoshop 2.0
- {
- short nChannels;
- short nRows;
- short nColumns;
- short nDepth;
- short nMode;
- RESOLUTION_INFO_v2();
- };
-
- struct DISPLAY_INFO
- {
- // This structure contains display information about each channel.
- //Table A-7: DisplayInfo Color spaces
- // Color-ID Name Description
- //-------------------------------------------
- // 0 RGB The first three values in the color data are red, green, and blue.
- // They are full unsigned 16–bit values as in Apple’s RGBColor data
- // structure. Pure red=65535,0,0.
- // 1 HSB The first three values in the color data are hue, saturation, and
- // brightness. They are full unsigned 16–bit values as in Apple’s
- // HSVColor data structure. Pure red=0,65535, 65535.
- // 2 CMYK The four values in the color data are cyan, magenta, yellow, and
- // black. They are full unsigned 16–bit values. 0=100% ink. Pure
- // cyan=0,65535,65535,65535.
- // 7 Lab The first three values in the color data are lightness, a chrominance,
- // and b chrominance.
- // Lightness is a 16–bit value from 0...10000. The chromanance components
- // are each 16–bit values from –12800...12700. Gray values
- // are represented by chrominance components of 0. Pure
- // white=10000,0,0.
- // 8 grayscale The first value in the color data is the gray value, from 0...10000.
- short ColourSpace;
- short Colour[4];
- short Opacity; // 0..100
- bool kind; // selected = 0, protected = 1
- unsigned char padding; // should be zero
- DISPLAY_INFO();
- };
- struct THUMBNAIL
- {
- // Adobe Photoshop 5.0 and later stores thumbnail information for preview
- // display in an image resource block. These resource blocks consist of an
- // 28 byte header, followed by a JFIF thumbnail in RGB (red, green, blue)
- // for both Macintosh and Windows. Adobe Photoshop 4.0 stored the
- // thumbnail information in the same format except the data section is
- // (blue, green, red). The Adobe Photoshop 4.0 format is at resource ID
- // and the Adobe Photoshop 5.0 format is at resource ID 1036.
- // Table 2–5: Thumnail resource header
- // Type Name Description
- //-------------------------------------------
- // 4 bytes format = 1 (kJpegRGB). Also supports kRawRGB (0).
- // 4 bytes width Width of thumbnail in pixels.
- // 4 bytes height Height of thumbnail in pixels.
- // 4 bytes widthbytes Padded row bytes as (width * bitspixel + 31) / 32 * 4.
- // 4 bytes size Total size as widthbytes * height * planes
- // 4 bytes compressedsize Size after compression. Used for consistentcy check.
- // 2 bytes bitspixel = 24. Bits per pixel.
- // 2 bytes planes = 1. Number of planes.
- // Variable Data JFIF data in RGB format.
- // Note: For resource ID 1033 the data is in BGR format.
- int nFormat;
- int nWidth;
- int nHeight;
- int nWidthBytes;
- int nSize;
- int nCompressedSize;
- short nBitPerPixel;
- short nPlanes;
- unsigned char* Data;
- THUMBNAIL();
- };
-
-
- CxImage &m_image;
-
- HEADER_INFO header_info;
-
- COLOUR_MODE_DATA colour_mode_data;
- short mnColourCount;
- short mnTransparentIndex;
-
- IMAGE_RESOURCE image_resource;
-
- int mnGlobalAngle;
-
- RESOLUTION_INFO resolution_info;
- bool mbResolutionInfoFilled;
-
- RESOLUTION_INFO_v2 resolution_info_v2;
- bool mbResolutionInfoFilled_v2;
-
- DISPLAY_INFO display_info;
- bool mbDisplayInfoFilled;
-
- THUMBNAIL thumbnail;
- bool mbThumbNailFilled;
-
- bool mbCopyright;
-
- int Calculate(unsigned char* c, int nDigits);
- void XYZToRGB(const double X, const double Y, const double Z, int &R, int &G, int &B);
- void LabToRGB(const int L, const int a, const int b, int &R, int &G, int &B );
- void CMYKToRGB(const double C, const double M, const double Y, const double K, int &R, int &G, int &B);
-
- bool ReadHeader(CxFile &f, HEADER_INFO& header_info);
- bool ReadColourModeData(CxFile &f, COLOUR_MODE_DATA& colour_mode_data);
- bool ReadImageResource(CxFile &f, IMAGE_RESOURCE& image_resource);
- bool ReadLayerAndMaskInfoSection(CxFile &f); // Actually ignore it
- int ReadImageData(CxFile &f);
-
- int DecodeRawData(CxFile &pFile);
- int DecodeRLEData(CxFile &pFile);
-
- void ProccessBuffer(unsigned char* pData = 0);
-
- public:
- CPSD(CxImage &image);
- ~CPSD();
-
- int Load(LPCTSTR szPathName);
- int Load(CxFile &file);
-
- bool ThumbNailIncluded() const { return mbThumbNailFilled; }
- void DPI(int &x, int &y) const { x = resolution_info.hRes; y = resolution_info.vRes; }
- void Dimensions(int &cx, int &cy) const { cx = header_info.nWidth; cy = header_info.nHeight; }
- int BitsPerPixel() const { return header_info.nBitsPerPixel; }
- int GlobalAngle() const { return mnGlobalAngle; }
- bool IsCopyright() const { return mbCopyright; }
- HBITMAP Detach();
- };
-}
-
-#endif // __MyPSD_H__
-
-// MyPSD.cpp ///////////////////////////////////////////////////////////////////
-
-
-inline int dti(double value) { return (int)floor(value+.5f); }
-
-#define assert(a)
-
-#define mypsd_fread(a, b, c, d) d.Read(a, b, c)
-#define mypsd_fseek(a, b, c) a.Seek(b, c)
-#define mypsd_feof(a) a.Eof()
-
-namespace MyPSD
-{
- CPSD::CPSD(CxImage &image) : m_image(image)
- {
- mbThumbNailFilled = false;
- mbDisplayInfoFilled = false;
- mbResolutionInfoFilled = false;
- mbResolutionInfoFilled_v2 = false;
- mnGlobalAngle = 30;
- mbCopyright = false;
- mnColourCount = -1;
- mnTransparentIndex = -1;
- }
- CPSD::~CPSD()
- {
- // free memory
- if ( 0 < colour_mode_data.nLength )
- delete[] colour_mode_data.ColourData;
- colour_mode_data.ColourData = 0;
-
- if ( image_resource.Name )
- delete[] image_resource.Name;
- image_resource.Name = 0;
- }
-
- int CPSD::Calculate(unsigned char* c, int nDigits)
- {
- int nValue = 0;
-
- for(int n = 0; n < nDigits; ++n)
- nValue = ( nValue << 8 ) | *(c+n);
-
- return nValue;
- };
-
- void CPSD::XYZToRGB(const double X, const double Y, const double Z, int &R, int &G, int &B)
- {
- // Standards used Observer = 2, Illuminant = D65
- // ref_X = 95.047, ref_Y = 100.000, ref_Z = 108.883
- const double ref_X = 95.047;
- const double ref_Y = 100.000;
- const double ref_Z = 108.883;
-
- double var_X = X / 100.0;
- double var_Y = Y / 100.0;
- double var_Z = Z / 100.0;
-
- double var_R = var_X * 3.2406 + var_Y * (-1.5372) + var_Z * (-0.4986);
- double var_G = var_X * (-0.9689) + var_Y * 1.8758 + var_Z * 0.0415;
- double var_B = var_X * 0.0557 + var_Y * (-0.2040) + var_Z * 1.0570;
-
- if ( var_R > 0.0031308 )
- var_R = 1.055 * ( pow(var_R, 1/2.4) ) - 0.055;
- else
- var_R = 12.92 * var_R;
-
- if ( var_G > 0.0031308 )
- var_G = 1.055 * ( pow(var_G, 1/2.4) ) - 0.055;
- else
- var_G = 12.92 * var_G;
-
- if ( var_B > 0.0031308 )
- var_B = 1.055 * ( pow(var_B, 1/2.4) )- 0.055;
- else
- var_B = 12.92 * var_B;
-
- R = (int)(var_R * 256.0);
- G = (int)(var_G * 256.0);
- B = (int)(var_B * 256.0);
- };
-
- void CPSD::LabToRGB(const int L, const int a, const int b, int &R, int &G, int &B )
- {
- // For the conversion we first convert values to XYZ and then to RGB
- // Standards used Observer = 2, Illuminant = D65
- // ref_X = 95.047, ref_Y = 100.000, ref_Z = 108.883
- const double ref_X = 95.047;
- const double ref_Y = 100.000;
- const double ref_Z = 108.883;
-
- double var_Y = ( (double)L + 16.0 ) / 116.0;
- double var_X = (double)a / 500.0 + var_Y;
- double var_Z = var_Y - (double)b / 200.0;
-
- if ( pow(var_Y, 3) > 0.008856 )
- var_Y = pow(var_Y, 3);
- else
- var_Y = ( var_Y - 16 / 116 ) / 7.787;
-
- if ( pow(var_X, 3) > 0.008856 )
- var_X = pow(var_X, 3);
- else
- var_X = ( var_X - 16 / 116 ) / 7.787;
-
- if ( pow(var_Z, 3) > 0.008856 )
- var_Z = pow(var_Z, 3);
- else
- var_Z = ( var_Z - 16 / 116 ) / 7.787;
-
- double X = ref_X * var_X;
- double Y = ref_Y * var_Y;
- double Z = ref_Z * var_Z;
-
- XYZToRGB(X, Y, Z, R, G, B);
- };
-
- void CPSD::CMYKToRGB(const double C, const double M, const double Y, const double K, int &R, int &G, int &B )
- {
- R = dti( ( 1.0f - ( C *( 1.0f - K ) + K ) ) * 255.0f );
- G = dti( ( 1.0f - ( M *( 1.0f - K ) + K ) ) * 255.0f );
- B = dti( ( 1.0f - ( Y *( 1.0f - K ) + K ) ) * 255.0f );
- };
-
- bool CPSD::ReadLayerAndMaskInfoSection(CxFile &pFile) // Actually ignore it
- {
- bool bSuccess = false;
-
- unsigned char DataLength[4];
- int nBytesRead = 0;
- int nItemsRead = (int)(int)mypsd_fread(&DataLength, sizeof(DataLength), 1, pFile);
-
- int nTotalBytes = Calculate( DataLength, sizeof(DataLength) );
-
- unsigned char data[1];
- while( !mypsd_feof( pFile ) && ( nBytesRead < nTotalBytes ) )
- {
- data[0] = '\0';
- nItemsRead = (int)(int)mypsd_fread(&data, sizeof(data), 1, pFile);
- nBytesRead += nItemsRead * sizeof(data);
- }
-
- assert ( nBytesRead == nTotalBytes );
- if ( nBytesRead == nTotalBytes )
- bSuccess = true;
-
- return bSuccess;
- }
- bool CPSD::ReadImageResource(CxFile &pFile, IMAGE_RESOURCE& image_resource)
- {
- bool bSuccess = false;
-
- unsigned char Length[4];
- int nItemsRead = (int)(int)mypsd_fread(&Length, sizeof(Length), 1, pFile);
-
- image_resource.nLength = Calculate( Length, sizeof(image_resource.nLength) );
-
- int nBytesRead = 0;
- int nTotalBytes = image_resource.nLength;
-
- while( !mypsd_feof( pFile ) && ( nBytesRead < nTotalBytes ) )
- {
- nItemsRead = 0;
- image_resource.Reset();
-
- nItemsRead = (int)(int)mypsd_fread(&image_resource.OSType, sizeof(image_resource.OSType), 1, pFile);
- nBytesRead += nItemsRead * sizeof(image_resource.OSType);
-
- assert ( 0 == (nBytesRead % 2) );
- if (::memcmp(image_resource.OSType, "8BIM", 4) == 0)
- {
- unsigned char ID[2];
- nItemsRead = (int)(int)mypsd_fread(&ID, sizeof(ID), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ID);
-
- image_resource.nID = (short)Calculate( ID, sizeof(ID) );
-
- unsigned char SizeOfName;
- nItemsRead = (int)(int)mypsd_fread(&SizeOfName, sizeof(SizeOfName), 1, pFile);
- nBytesRead += nItemsRead * sizeof(SizeOfName);
-
- int nSizeOfName = Calculate( &SizeOfName, sizeof(SizeOfName) );
- if ( 0 < nSizeOfName )
- {
- image_resource.Name = new unsigned char[nSizeOfName];
- nItemsRead = (int)(int)mypsd_fread(image_resource.Name, nSizeOfName, 1, pFile);
- nBytesRead += nItemsRead * nSizeOfName;
- }
-
- if ( 0 == (nSizeOfName % 2) )
- {
- nItemsRead = (int)(int)mypsd_fread(&SizeOfName, sizeof(SizeOfName), 1, pFile);
- nBytesRead += nItemsRead * sizeof(SizeOfName);
- }
-
- unsigned char Size[4];
- nItemsRead = (int)(int)mypsd_fread(&Size, sizeof(Size), 1, pFile);
- nBytesRead += nItemsRead * sizeof(Size);
-
- image_resource.nSize = Calculate( Size, sizeof(image_resource.nSize) );
-
- if ( 0 != (image_resource.nSize % 2) ) // resource data must be even
- image_resource.nSize++;
- if ( 0 < image_resource.nSize )
- {
- unsigned char IntValue[4];
- unsigned char ShortValue[2];
-
- switch( image_resource.nID )
- {
- case 1000:
- {
- // Obsolete - Photoshop 2.0
- mbResolutionInfoFilled_v2 = true;
-
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info_v2.nChannels = (short)Calculate(ShortValue, sizeof(resolution_info_v2.nChannels) );
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info_v2.nRows = (short)Calculate(ShortValue, sizeof(resolution_info_v2.nRows) );
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info_v2.nColumns = (short)Calculate(ShortValue, sizeof(resolution_info_v2.nColumns) );
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info_v2.nDepth = (short)Calculate(ShortValue, sizeof(resolution_info_v2.nDepth) );
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info_v2.nMode = (short)Calculate(ShortValue, sizeof(resolution_info_v2.nMode) );
- }
- break;
- case 1005:
- {
- mbResolutionInfoFilled = true;
-
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info.hRes = (short)Calculate(ShortValue, sizeof(resolution_info.hRes) );
- nItemsRead = (int)(int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- resolution_info.hResUnit = Calculate(IntValue, sizeof(resolution_info.hResUnit) );
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info.widthUnit = (short)Calculate(ShortValue, sizeof(resolution_info.widthUnit) );
-
- nItemsRead = (int)(int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info.vRes = (short)Calculate(ShortValue, sizeof(resolution_info.vRes) );
- nItemsRead = (int)(int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- resolution_info.vResUnit = Calculate(IntValue, sizeof(resolution_info.vResUnit) );
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- resolution_info.heightUnit = (short)Calculate(ShortValue, sizeof(resolution_info.heightUnit) );
- }
- break;
- case 1007:
- {
- mbDisplayInfoFilled = true;
-
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- display_info.ColourSpace = (short)Calculate(ShortValue, sizeof(display_info.ColourSpace) );
-
- for ( unsigned int n = 0; n < 4; ++n )
- {
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- display_info.Colour[n] = (short)Calculate(ShortValue, sizeof(display_info.Colour[n]) );
- }
-
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- display_info.Opacity = (short)Calculate(ShortValue, sizeof(display_info.Opacity) );
- assert ( 0 <= display_info.Opacity );
- assert ( 100 >= display_info.Opacity );
-
- unsigned char c[1];
- nItemsRead = (int)mypsd_fread(&c, sizeof(c), 1, pFile);
- nBytesRead += nItemsRead * sizeof(c);
- ( 1 == Calculate(c, sizeof(c) ) ) ? display_info.kind = true : display_info.kind = false;
-
- nItemsRead = (int)mypsd_fread(&c, sizeof(c), 1, pFile);
- nBytesRead += nItemsRead * sizeof(c);
- display_info.padding = (unsigned int)Calculate(c, sizeof(c) );
- assert ( 0 == display_info.padding );
- }
- break;
- case 1034:
- {
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- ( 1 == Calculate(ShortValue, sizeof(ShortValue) ) ) ? mbCopyright = true : mbCopyright = false;
- }
- break;
- case 1033:
- case 1036:
- {
- mbThumbNailFilled = true;
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nFormat = Calculate(IntValue, sizeof(thumbnail.nFormat) );
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nWidth = Calculate(IntValue, sizeof(thumbnail.nWidth) );
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nHeight = Calculate(IntValue, sizeof(thumbnail.nHeight) );
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nWidthBytes = Calculate(IntValue, sizeof(thumbnail.nWidthBytes) );
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nSize = Calculate(IntValue, sizeof(thumbnail.nSize) );
-
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- thumbnail.nCompressedSize = Calculate(IntValue, sizeof(thumbnail.nCompressedSize) );
-
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- thumbnail.nBitPerPixel = (short)Calculate(ShortValue, sizeof(thumbnail.nBitPerPixel) );
-
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- thumbnail.nPlanes = (short)Calculate(ShortValue, sizeof(thumbnail.nPlanes) );
-
- int nTotalData = image_resource.nSize - 28; // header
- unsigned char* buffer = new unsigned char[nTotalData];
- unsigned char c[1];
- if ( 1033 == image_resource.nID )
- {
- // In BGR format
- for (int n = 0; n < nTotalData; n = n +3 )
- {
- nItemsRead = (int)mypsd_fread(&c, sizeof(unsigned char), 1, pFile);
- nBytesRead += nItemsRead * sizeof(unsigned char);
- buffer[n+2] = (unsigned char)Calculate(c, sizeof(unsigned char) );
- nItemsRead = (int)mypsd_fread(&c, sizeof(unsigned char), 1, pFile);
- nBytesRead += nItemsRead * sizeof(unsigned char);
- buffer[n+1] = (unsigned char)Calculate(c, sizeof(BYTE) );
- nItemsRead = (int)mypsd_fread(&c, sizeof(unsigned char), 1, pFile);
- nBytesRead += nItemsRead * sizeof(unsigned char);
- buffer[n] = (unsigned char)Calculate(c, sizeof(unsigned char) );
- }
- }
- else if ( 1036 == image_resource.nID )
- {
- // In RGB format
- for (int n = 0; n < nTotalData; ++n )
- {
- nItemsRead = (int)mypsd_fread(&c, sizeof(BYTE), 1, pFile);
- nBytesRead += nItemsRead * sizeof(BYTE);
- buffer[n] = (BYTE)Calculate(c, sizeof(BYTE) );
- }
- }
-
- delete[] buffer;
- buffer = 0;
- }
- break;
- case 1037:
- {
- nItemsRead = (int)mypsd_fread(&IntValue, sizeof(IntValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(IntValue);
- mnGlobalAngle = Calculate(IntValue, sizeof(mnGlobalAngle) );
- }
- break;
- case 1046:
- {
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- mnColourCount = (short)Calculate(ShortValue, sizeof(ShortValue) );
- }
- break;
- case 1047:
- {
- nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- nBytesRead += nItemsRead * sizeof(ShortValue);
- mnTransparentIndex = (short)Calculate(ShortValue, sizeof(ShortValue) );
- }
- break;
-
- default:
- pFile.Seek(image_resource.nSize, SEEK_CUR);
- nBytesRead += image_resource.nSize;
- break;
- }
- }
- }
- }
-
- assert ( nBytesRead == nTotalBytes );
- if ( nBytesRead == nTotalBytes )
- bSuccess = true;
-
- return bSuccess;
- }
- bool CPSD::ReadColourModeData(CxFile &pFile, COLOUR_MODE_DATA& colour_mode_data)
- {
- // Only indexed colour and duotone have colour mode data,
- // for all other modes this section is 4 bytes length, the length field is set to zero
-
- // For indexed color images, the length will be equal to 768, and the color
- // will contain the color table for the image, in non–interleaved order.
-
- // For duotone images, the color data will contain the duotone specification,
- // the format of which is not documented. Other applications that read
- // Photoshop files can treat a duotone image as a grayscale image, and just
- // preserve the contents of the duotone information when reading and writing
- // the file.
-
- // free memory
- if ( 0 < colour_mode_data.nLength )
- delete[] colour_mode_data.ColourData;
- colour_mode_data.ColourData = 0;
-
- unsigned char Length[4];
- int nItemsRead = (int)mypsd_fread(&Length, sizeof(Length), 1, pFile);
-
- colour_mode_data.nLength = Calculate( Length, sizeof(colour_mode_data.nLength) );
- if ( 0 < colour_mode_data.nLength )
- {
- colour_mode_data.ColourData = new unsigned char[colour_mode_data.nLength];
- nItemsRead = 0;
- memset(colour_mode_data.ColourData, 254, colour_mode_data.nLength);
-
- nItemsRead += (int)mypsd_fread( colour_mode_data.ColourData, colour_mode_data.nLength, 1, pFile);
-
- }
-
- return true;
- }
-
- bool CPSD::ReadHeader(CxFile &pFile, HEADER_INFO& header_info)
- {
- bool bSuccess = false;
-
- struct HEADER
- {
- char Signature[4]; // always equal 8BPS, do not read file if not
- unsigned char Version[2]; // always equal 1, do not read file if not
- char Reserved[6]; // must be zero
- unsigned char Channels[2]; // numer of channels including any alpha channels, supported range 1 to 24
- unsigned char Rows[4]; // height in PIXELS, supported range 1 to 30000
- unsigned char Columns[4]; // width in PIXELS, supported range 1 to 30000
- unsigned char Depth[2]; // number of bpp
- unsigned char Mode[2]; // colour mode of the file,
- // Btmap=0, Grayscale=1, Indexed=2, RGB=3,
- // CMYK=4, Multichannel=7, Duotone=8, Lab=9
- };
-
- HEADER header;
- int nItemsRead = (int)mypsd_fread(&header, sizeof(HEADER), 1, pFile);
- if ( nItemsRead )
- {
- if ( 0 == ::memcmp(header.Signature, "8BPS", 4))
- {
- int nVersion = Calculate( header.Version, sizeof(header.Version) );
-
- if ( 1 == nVersion )
- {
- unsigned int n = 0;
- bool bOK = true;
- while ( (n < 6) && bOK )
- {
- if ( '\0' != header.Reserved[n] )
- bOK = false;
- n++;
- }
- bSuccess = bOK;
-
- if ( bSuccess )
- {
- header_info.nChannels = (short)Calculate( header.Channels, sizeof(header.Channels) );
- header_info.nHeight = Calculate( header.Rows, sizeof(header.Rows) );
- header_info.nWidth = Calculate( header.Columns, sizeof(header.Columns) );
- header_info.nBitsPerPixel = (short)Calculate( header.Depth, sizeof(header.Depth) );
- header_info.nColourMode = (short)Calculate( header.Mode, sizeof(header.Mode) );
- }
- }
- }
- }
-
- return bSuccess;
- }
-
-
- void CPSD::ProccessBuffer(unsigned char* pData )
- {
- if (!pData) return;
-
- switch ( header_info.nColourMode )
- {
- case 1: // Grayscale
- case 8: // Duotone
- {
- bool bAlpha = header_info.nChannels > 1;
-
- int nPixels = header_info.nWidth * header_info.nHeight;
- byte *pRGBA = new byte[nPixels * (bAlpha ? 4 : 3)];
- byte *pSrc = pData, *pDst = pRGBA;
- for (int i = 0; i < nPixels; i++, pSrc += header_info.nChannels, pDst += bAlpha ? 4 : 3)
- {
- pDst[0] = pDst[1] = pDst[2] = pSrc[0];
- if (bAlpha) pDst[3] = pSrc[1];
- }
-
- m_image.CreateFromArray(pRGBA, header_info.nWidth, header_info.nHeight, bAlpha ? 32 : 24, header_info.nWidth * (bAlpha ? 4 : 3), true);
-
- delete [] pRGBA;
- }
- break;
- case 2: // Indexed
- {
- if (!colour_mode_data.ColourData) break;
- if (colour_mode_data.nLength != 768) break;
- if (mnColourCount == 0) break;
-
- int nPixels = header_info.nWidth * header_info.nHeight;
- byte *pRGB = new byte[nPixels * 3];
- ::memset(pRGB, 0, nPixels * 3);
- byte *pSrc = pData, *pDst = pRGB;
- for (int i = 0; i < nPixels; i++, pSrc += header_info.nChannels, pDst += 3)
- {
- int nIndex = *pSrc;
- pDst[2] = colour_mode_data.ColourData[nIndex + 0 * 256];
- pDst[1] = colour_mode_data.ColourData[nIndex + 1 * 256];
- pDst[0] = colour_mode_data.ColourData[nIndex + 2 * 256];
- }
-
- m_image.CreateFromArray(pRGB, header_info.nWidth, header_info.nHeight, 24, header_info.nWidth * 3, true);
- delete [] pRGB;
- }
- break;
- case 3: // RGB
- {
- m_image.CreateFromArray(pData, header_info.nWidth, header_info.nHeight, header_info.nChannels == 3 ? 24 : 32, header_info.nWidth * header_info.nChannels, true);
- m_image.SwapRGB2BGR();
- }
- break;
- case 4: // CMYK
- {
- bool bAlpha = header_info.nChannels > 4;
-
- int nPixels = header_info.nWidth * header_info.nHeight;
- byte *pRGBA = new byte[nPixels * (bAlpha ? 4 : 3)];
- byte *pSrc = pData, *pDst = pRGBA;
- double C, M, Y, K;
- int nRed, nGreen, nBlue;
- for (int i = 0; i < nPixels; i++, pSrc += header_info.nChannels, pDst += bAlpha ? 4 : 3)
- {
- C = (1.0 - (double)pSrc[0] / 256);
- M = (1.0 - (double)pSrc[1] / 256);
- Y = (1.0 - (double)pSrc[2] / 256);
- K = (1.0 - (double)pSrc[3] / 256);
-
- CMYKToRGB(C, M, Y, K, nRed, nGreen, nBlue);
-
- if (0 > nRed) nRed = 0; else if (255 < nRed) nRed = 255;
- if (0 > nGreen) nGreen = 0; else if (255 < nGreen) nGreen = 255;
- if (0 > nBlue) nBlue = 0; else if (255 < nBlue) nBlue = 255;
-
- pDst[0] = nBlue; pDst[1] = nGreen; pDst[2] = nRed;
- if (bAlpha) pDst[3] = pSrc[4];
- }
-
- m_image.CreateFromArray(pRGBA, header_info.nWidth, header_info.nHeight, bAlpha ? 32 : 24, header_info.nWidth * (bAlpha ? 4 : 3), true);
-
- delete [] pRGBA;
- }
- break;
- case 7: // Multichannel
- {
- if (header_info.nChannels == 0 || header_info.nChannels > 4) break; // ???
-
- int nPixels = header_info.nWidth * header_info.nHeight;
- byte *pRGB = new byte[nPixels * 3];
- byte *pSrc = pData, *pDst = pRGB;
- double C, M, Y, K;
- int nRed, nGreen, nBlue;
- for (int i = 0; i < nPixels; i++, pSrc += header_info.nChannels, pDst += 3)
- {
- C = M = Y = K = 0;
- C = (1.0 - (double)pSrc[0] / 256);
- if (header_info.nChannels > 1) M = (1.0 - (double)pSrc[1] / 256);
- if (header_info.nChannels > 2) Y = (1.0 - (double)pSrc[2] / 256);
- if (header_info.nChannels > 3) K = (1.0 - (double)pSrc[3] / 256);
-
- CMYKToRGB(C, M, Y, K, nRed, nGreen, nBlue);
-
- if (0 > nRed) nRed = 0; else if (255 < nRed) nRed = 255;
- if (0 > nGreen) nGreen = 0; else if (255 < nGreen) nGreen = 255;
- if (0 > nBlue) nBlue = 0; else if (255 < nBlue) nBlue = 255;
-
- pDst[0] = nBlue; pDst[1] = nGreen; pDst[2] = nRed;
- }
-
- m_image.CreateFromArray(pRGB, header_info.nWidth, header_info.nHeight, 24, header_info.nWidth * 3, true);
-
- delete [] pRGB;
- }
- break;
- case 9: // Lab
- {
- bool bAlpha = header_info.nChannels > 3;
-
- int nPixels = header_info.nWidth * header_info.nHeight;
- byte *pRGBA = new byte[nPixels * (bAlpha ? 4 : 3)];
- byte *pSrc = pData, *pDst = pRGBA;
-
- double L_coef = 256.f / 100.f, a_coef = 256.f / 256.f, b_coef = 256.f / 256.f;
- int L, a, b;
- int nRed, nGreen, nBlue;
- for (int i = 0; i < nPixels; i++, pSrc += header_info.nChannels, pDst += bAlpha ? 4 : 3)
- {
- L = (int)((float)pSrc[0] / L_coef);
- a = (int)((float)pSrc[1] / a_coef - 128.0);
- b = (int)((float)pSrc[2] / b_coef - 128.0);
-
- LabToRGB(L, a, b, nRed, nGreen, nBlue );
-
- if (0 > nRed) nRed = 0; else if (255 < nRed) nRed = 255;
- if (0 > nGreen) nGreen = 0; else if (255 < nGreen) nGreen = 255;
- if (0 > nBlue) nBlue = 0; else if (255 < nBlue) nBlue = 255;
-
- pDst[0] = nBlue; pDst[1] = nGreen; pDst[2] = nRed;
- if (bAlpha) pDst[3] = pSrc[3];
- }
-
- m_image.CreateFromArray(pRGBA, header_info.nWidth, header_info.nHeight, bAlpha ? 32 : 24, header_info.nWidth * (bAlpha ? 4 : 3), true);
-
- delete [] pRGBA;
- }
- break;
- }
- }
-
- int CPSD::Load(LPCTSTR szPathName)
- {
- CxIOFile f;
- if (!f.Open(szPathName, _T("rb"))) return -1;
- return Load(f);
- }
-
- int CPSD::Load(CxFile &f)
- {
- if (!ReadHeader(f, header_info)) return -2; // Error in header
- if (!ReadColourModeData(f, colour_mode_data)) return -3; // Error in ColourMode Data
- if (!ReadImageResource(f, image_resource)) return -4; // Error in Image Resource
- if (!ReadLayerAndMaskInfoSection(f)) return -5; // Error in Mask Info
- if (ReadImageData(f) != 0) return -6; // Error in Image Data
- return 0; // all right
- }
-
- int CPSD::DecodeRawData( CxFile &pFile)
- {
- if (header_info.nBitsPerPixel != 8 && header_info.nBitsPerPixel != 16) return -7; // can't read this
-
- int nWidth = header_info.nWidth;
- int nHeight = header_info.nHeight;
- int bytesPerPixelPerChannel = header_info.nBitsPerPixel / 8;
-
- int nPixels = nWidth * nHeight;
- int nTotalBytes = 0;
-
- byte* pData = NULL;
-
- switch ( header_info.nColourMode )
- {
- case 1: // Grayscale
- case 2: // Indexed
- case 3: // RGB
- case 4: // CMYK
- case 8: // Duotone
- case 9: // Lab
- {
- // read RRRRRRRGGGGGGGBBBBBBAAAAAA data
- int nAllDataSize = nPixels * bytesPerPixelPerChannel * header_info.nChannels;
- byte *pFileData = new byte[nAllDataSize];
- ::memset(pFileData, 0, nAllDataSize);
- if (pFile.Read(pFileData, nAllDataSize, 1) != 1)
- {
- delete [] pFileData;
- return -1; // bad data
- }
-
- // and convert them to RGBARGBARGBA data (depends on number of channels)
- nTotalBytes = nPixels * header_info.nChannels;
- pData = new byte[nTotalBytes];
- byte *pSource = pFileData;
- for (int nChannel = 0; nChannel < header_info.nChannels; nChannel++)
- {
- byte *pDest = pData + nChannel;
- for (int pos = 0; pos < nPixels; pos++, pDest += header_info.nChannels, pSource += bytesPerPixelPerChannel) *pDest = *pSource;
- }
- delete [] pFileData;
- }
- break;
- default:
- return -1; // unsupported format
- }
-
- ProccessBuffer(pData);
- delete [] pData;
-
- // dpi related things
- int ppm_x = 3780; // 96 dpi
- int ppm_y = 3780; // 96 dpi
- if (mbResolutionInfoFilled)
- {
- int nHorResolution = (int)resolution_info.hRes;
- int nVertResolution = (int)resolution_info.vRes;
- ppm_x = (nHorResolution * 10000) / 254;
- ppm_y = (nVertResolution * 10000) / 254;
- }
- m_image.SetXDPI(ppm_x);
- m_image.SetYDPI(ppm_y);
-
- return 0;
- }
-
-
- int CPSD::DecodeRLEData(CxFile & pFile)
- {
- if (header_info.nBitsPerPixel != 8) return -7; // can't read this
-
- int nWidth = header_info.nWidth;
- int nHeight = header_info.nHeight;
- int nPixels = nWidth * nHeight;
-
- // The RLE-compressed data is preceeded by a 2-byte data count for each row in the data
- // read them and compute size of RLE data
- int nLengthDataSize = nHeight * header_info.nChannels * 2;
- byte *pLengthData = new byte[nLengthDataSize];
- if (pFile.Read(pLengthData, nLengthDataSize, 1) != 1)
- {
- delete [] pLengthData;
- return -1; // error while reading
- }
- int nRLEDataSize = 0;
- for (int i = 0; i < nHeight * header_info.nChannels * 2; i += 2)
- nRLEDataSize += Calculate(pLengthData + i, 2);
- delete [] pLengthData;
-
- // now read RLE data to the buffer for fast access
- byte *pRLEData = new byte[nRLEDataSize];
- if (pFile.Read(pRLEData, nRLEDataSize, 1) != 1)
- {
- delete [] pRLEData;
- return -1;
- }
-
- // allocate buffer for raw data (RRRRRRR...RRRGGGGG...GGGGGGBBBBB...BBBBBAAAAA....AAAAA) it has the same size as the final buffer
- // and the perform RLE-decoding
- int nTotalBytes = nPixels * header_info.nChannels;
- byte* pRawData = new byte[nTotalBytes];
- byte *pRLESource = pRLEData, *pRLEDest = pRawData;
- for (int channel = 0; channel < header_info.nChannels; channel++)
- {
- int nCount = 0;
- while (nCount < nPixels)
- {
- int len = *pRLESource++;
- if ( 128 > len )
- { // copy next (len + 1) bytes as is
- len++;
- nCount += len;
- ::memcpy(pRLEDest, pRLESource, len);
- pRLEDest += len; pRLESource += len;
- }
- else if ( 128 < len )
- {
- // Next -len+1 bytes in the dest are replicated from next source byte.
- // (Interpret len as a negative 8-bit int.)
- len ^= 0x0FF;
- len += 2;
- nCount += len;
- ::memset(pRLEDest, *pRLESource++, len);
- pRLEDest += len;
- }
- else if ( 128 == len ) { /* Do nothing */ }
- }
- }
- delete [] pRLEData;
-
- // transform raw data to the good one (RGBARGBARGBA...RGBA)
- byte *pRawSource = pRawData;
- byte *pData = new byte[nTotalBytes];
- int nPixelCounter = 0;
- for( int nColour = 0; nColour < header_info.nChannels; ++nColour )
- {
- nPixelCounter = nColour;
- for (int nPos = 0; nPos < nPixels; nPos++, pRawSource++)
- {
- pData[nPixelCounter] = *pRawSource;
- nPixelCounter += header_info.nChannels;
- }
- }
- delete[] pRawData;
-
- // create image
- ProccessBuffer(pData);
- delete [] pData;
-
- // dpi related things
- int ppm_x = 3780; // 96 dpi
- int ppm_y = 3780; // 96 dpi
- if (mbResolutionInfoFilled)
- {
- int nHorResolution = (int)resolution_info.hRes;
- int nVertResolution = (int)resolution_info.vRes;
- ppm_x = (nHorResolution * 10000) / 254;
- ppm_y = (nVertResolution * 10000) / 254;
- }
- m_image.SetXDPI(ppm_x);
- m_image.SetYDPI(ppm_y);
-
- return 0;
- }
-
- int CPSD::ReadImageData(CxFile &pFile)
- {
- int nErrorCode = 0; // No Errors
-
- if ( !mypsd_feof(pFile) )
- {
- unsigned char ShortValue[2];
- int nBytesRead = 0;
- int nItemsRead = (int)mypsd_fread(&ShortValue, sizeof(ShortValue), 1, pFile);
- short nCompression = (short)Calculate( ShortValue, sizeof(ShortValue) );
-
- switch ( nCompression )
- {
- case 0: // raw data
- nErrorCode = DecodeRawData(pFile);
- break;
- case 1: // RLE compression
- nErrorCode = DecodeRLEData(pFile);
- break;
- case 2: // ZIP without prediction
- nErrorCode = -10; // ZIP without prediction, no specification
- break;
- case 3: // ZIP with prediction
- nErrorCode = -11; // ZIP with prediction, no specification
- break;
- default:
- nErrorCode = -12; // Unknown format
- }
- }
- return nErrorCode;
- }
-
- //////////////////////////////////////////////////////////////////////////
- //////////////////////////////////////////////////////////////////////////
- CPSD::HEADER_INFO::HEADER_INFO()
- {
- nChannels = -1;
- nHeight = -1;
- nWidth = -1;
- nBitsPerPixel = -1;
- nColourMode = -1;
- }
-
- CPSD::COLOUR_MODE_DATA::COLOUR_MODE_DATA()
- {
- nLength = -1;
- ColourData = 0;
- }
-
- CPSD::IMAGE_RESOURCE::IMAGE_RESOURCE()
- {
- Name = 0;
- Reset();
- }
-
- void CPSD::IMAGE_RESOURCE::Reset()
- {
- nLength = -1;
- memset( OSType, '\0', sizeof(OSType) );
- nID = -1;
- if ( Name )
- delete[] Name;
- Name = 0;
- nSize = -1;
- }
-
- CPSD::RESOLUTION_INFO::RESOLUTION_INFO()
- {
- hRes = -1;
- hResUnit = -1;
- widthUnit = -1;
- vRes = -1;
- vResUnit = -1;
- heightUnit = -1;
- }
-
- CPSD::RESOLUTION_INFO_v2::RESOLUTION_INFO_v2()
- {
- nChannels = -1;
- nRows = -1;
- nColumns = -1;
- nDepth = -1;
- nMode = -1;
- }
-
- CPSD::DISPLAY_INFO::DISPLAY_INFO()
- {
- ColourSpace = -1;
- for ( unsigned int n = 0; n < 4; ++n)
- Colour[n] = 0;
- Opacity = -1;
- kind = false;
- padding = '0';
- }
-
- CPSD::THUMBNAIL::THUMBNAIL()
- {
- nFormat = -1;
- nWidth = -1;
- nHeight = -1;
- nWidthBytes = -1;
- nSize = -1;
- nCompressedSize = -1;
- nBitPerPixel = -1;
- nPlanes = -1;
- Data = 0;
- }
-} // MyPSD
-
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_USE_LIBPSD
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePSD::Decode(CxFile *hFile)
-{
- if (hFile==NULL)
- return false;
-
-#if CXIMAGE_USE_LIBPSD
- psd_context* context = NULL;
-#endif
-
- cx_try
- {
-#if CXIMAGE_USE_LIBPSD
-
- psd_status status;
-
- context = (psd_context *)malloc(sizeof(psd_context));
- if(context == NULL){
- cx_throw("CxImagePSD: psd_status_malloc_failed");
- }
- memset(context, 0, sizeof(psd_context));
-
- // install file manager
- CxFilePsd src(hFile,context);
-
- context->state = PSD_FILE_HEADER;
- context->stream.file_length = hFile->Size();
- context->load_tag = psd_load_tag_all;
- status = psd_main_loop(context);
-
- if(status != psd_status_done){
- cx_throw("CxImagePSD: psd_main_loop failed");
- }
-
- Create(context->width,context->height,24,CXIMAGE_FORMAT_PSD);
-
- uint8_t* rgba = (uint8_t*)context->merged_image_data;
- uint8_t* alpha = NULL;
- if (context->alpha_channel_info)
- alpha = (uint8_t*)context->alpha_channel_info->channel_data;
- if (alpha)
- AlphaCreate();
-
- int32_t x,y;
- RGBQUAD c;
- c.rgbReserved = 0;
- if (rgba){
- for(y =context->height-1; y--;){
- for (x=0; x<context->width; x++){
- c.rgbBlue = *rgba++;
- c.rgbGreen = *rgba++;
- c.rgbRed = *rgba++;
- rgba++;
- SetPixelColor(x,y,c);
-#if CXIMAGE_SUPPORT_ALPHA
- if (alpha) AlphaSet(x,y,*alpha++);
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- }
-
- psd_image_free(context);
- free(context);
-
-#else //CXIMAGE_USE_LIBPSD == 0
-
- MyPSD::CPSD psd(*this);
- int nErrorCode = psd.Load(*hFile);
- if (nErrorCode != 0) cx_throw("error loading PSD file");
-
-#endif //CXIMAGE_USE_LIBPSD
-
- } cx_catch {
-
-#if CXIMAGE_USE_LIBPSD
- psd_image_free(context);
- if (context) free(context);
-#endif //CXIMAGE_USE_LIBPSD
-
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_PSD) return true;
- return false;
- }
- /* that's it */
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImagePSD::Encode(CxFile * hFile)
-{
- if (hFile == NULL) return false;
- strcpy(info.szLastError, "Save PSD not supported");
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_PSD
-
diff --git a/hge/CxImage/ximapsd.h b/hge/CxImage/ximapsd.h deleted file mode 100644 index 92be8f1..0000000 --- a/hge/CxImage/ximapsd.h +++ /dev/null @@ -1,110 +0,0 @@ -/*
- * File: ximapsd.h
- * Purpose: PSD Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImagePSD (c) Dec/2010
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * libpsd (c) 2004-2007 Graphest Software
- *
- * ==========================================================
- */
-#if !defined(__ximaPSD_h)
-#define __ximaPSD_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_PSD
-
-#define CXIMAGE_USE_LIBPSD 1
-
-#if CXIMAGE_USE_LIBPSD
- extern "C" {
- #include "../libpsd/libpsd.h"
- }
-#endif
-
-class CxImagePSD: public CxImage
-{
-
-public:
- CxImagePSD(): CxImage(CXIMAGE_FORMAT_PSD) {}
-
-// bool Load(const char * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_PSD);}
-// bool Save(const char * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_PSD);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-//#if CXIMAGE_SUPPORT_EXIF
-// bool GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type);
-//#endif //CXIMAGE_SUPPORT_EXIF
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
-#if CXIMAGE_USE_LIBPSD
-protected:
- class CxFilePsd
- {
- public:
- CxFilePsd(CxFile* pFile,psd_context *context)
- {
- context->file = pFile;
-
- psd_CxFile_ops.size_ = psd_file_size;
- psd_CxFile_ops.seek_ = psd_file_seek;
- psd_CxFile_ops.read_ = psd_file_read;
-// psd_CxFile_ops.write_ = psd_file_write;
-// psd_CxFile_ops.close_ = psd_file_close;
-// psd_CxFile_ops.gets_ = psd_file_gets;
-// psd_CxFile_ops.eof_ = psd_file_eof;
-// psd_CxFile_ops.tell_ = psd_file_tell;
-// psd_CxFile_ops.getc_ = psd_file_getc;
-// psd_CxFile_ops.scanf_ = psd_file_scanf;
-
- context->ops_ = &psd_CxFile_ops;
-
- }
-
- static int32_t psd_file_size(psd_file_obj *obj)
- { return ((CxFile*)obj)->Size(); }
-
- static int32_t psd_file_seek(psd_file_obj *obj, int32_t offset, int32_t origin)
- { return ((CxFile*)obj)->Seek(offset,origin); }
-
- static int32_t psd_file_read(psd_file_obj *obj, void *buf, int32_t size, int32_t cnt)
- { return ((CxFile*)obj)->Read(buf,size,cnt); }
-
-// static int32_t psd_file_write(psd_file_obj *obj, void *buf, int32_t size, int32_t cnt)
-// { return ((CxFile*)obj)->Write(buf,size,cnt); }
-
-// static int32_t psd_file_close(psd_file_obj *obj)
-// { return 1; /*((CxFile*)obj)->Close();*/ }
-
-// static char* psd_file_gets(psd_file_obj *obj, char *string, int32_t n)
-// { return ((CxFile*)obj)->GetS(string,n); }
-
-// static int32_t psd_file_eof(psd_file_obj *obj)
-// { return ((CxFile*)obj)->Eof(); }
-
-// static long psd_file_tell(psd_file_obj *obj)
-// { return ((CxFile*)obj)->Tell(); }
-
-// static int32_t psd_file_getc(psd_file_obj *obj)
-// { return ((CxFile*)obj)->GetC(); }
-
-// static int32_t psd_file_scanf(psd_file_obj *obj,const char *format, void* output)
-// { return ((CxFile*)obj)->Scanf(format, output); }
-
- private:
- psd_file_ops psd_CxFile_ops;
- };
-#endif //CXIMAGE_USE_LIBPSD
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximaraw.cpp b/hge/CxImage/ximaraw.cpp deleted file mode 100644 index aedc50a..0000000 --- a/hge/CxImage/ximaraw.cpp +++ /dev/null @@ -1,331 +0,0 @@ -/*
- * File: ximaraw.cpp
- * Purpose: Platform Independent RAW Image Class Loader
- * 16/Dec/2007 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- *
- * CxImageRAW (c) May/2006 pdw63
- *
- * based on dcraw.c -- Dave Coffin's raw photo decoder
- * Copyright 1997-2007 by Dave Coffin, dcoffin a cybercom o net
- */
-
-#include "ximaraw.h"
-
-#if CXIMAGE_SUPPORT_RAW
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageRAW::Decode(CxFile *hFile)
-{
- if (hFile==NULL)
- return false;
-
- DCRAW dcr;
-
- cx_try
- {
- // initialization
- dcr_init_dcraw(&dcr);
-
- dcr.opt.user_qual = GetCodecOption(CXIMAGE_FORMAT_RAW) & 0x03;
-
- // setup variables for debugging
- char szClass[] = "CxImageRAW";
- dcr.ifname = szClass;
- dcr.sz_error = info.szLastError;
-
- // setup library options, see dcr_print_manual for the available switches
- // call dcr_parse_command_line_options(&dcr,0,0,0) to set default options
- // if (dcr_parse_command_line_options(&dcr,argc,argv,&arg))
- if (dcr_parse_command_line_options(&dcr,0,0,0)){
- cx_throw("CxImageRAW: unknown option");
- }
-
- // set return point for error handling
- if (setjmp (dcr.failure)) {
- cx_throw("");
- }
-
- // install file manager
- CxFileRaw src(hFile,&dcr);
-
- // check file header
- dcr_identify(&dcr);
-
- if(!dcr.is_raw){
- cx_throw("CxImageRAW: not a raw image");
- }
-
- if (dcr.load_raw == NULL) {
- cx_throw("CxImageRAW: missing raw decoder");
- }
-
- // verify special case
- if (dcr.load_raw == dcr_kodak_ycbcr_load_raw) {
- dcr.height += dcr.height & 1;
- dcr.width += dcr.width & 1;
- }
-
- if (info.nEscape == -1){
- head.biWidth = dcr.width;
- head.biHeight= dcr.height;
- info.dwType = CXIMAGE_FORMAT_RAW;
- cx_throw("output dimensions returned");
- }
-
- // shrinked decoding available and requested?
- dcr.shrink = dcr.filters && (dcr.opt.half_size || dcr.opt.threshold || dcr.opt.aber[0] != 1 || dcr.opt.aber[2] != 1);
- dcr.iheight = (dcr.height + dcr.shrink) >> dcr.shrink;
- dcr.iwidth = (dcr.width + dcr.shrink) >> dcr.shrink;
-
- // install custom camera matrix
- if (dcr.opt.use_camera_matrix && dcr.cmatrix[0][0] > 0.25) {
- memcpy (dcr.rgb_cam, dcr.cmatrix, sizeof dcr.cmatrix);
- dcr.raw_color = 0;
- } else {
- dcr.opt.use_camera_wb = 1;
- }
-
- // allocate memory for the image
- dcr.image = (ushort (*)[4]) calloc (dcr.iheight*dcr.iwidth, sizeof *dcr.image);
- dcr_merror (&dcr, dcr.image, szClass);
-
- if (dcr.meta_length) {
- dcr.meta_data = (char *) malloc (dcr.meta_length);
- dcr_merror (&dcr, dcr.meta_data, szClass);
- }
-
- // start image decoder
- hFile->Seek(dcr.data_offset, SEEK_SET);
- (*dcr.load_raw)(&dcr);
-
- // post processing
- if (dcr.zero_is_bad) dcr_remove_zeroes(&dcr);
-
- dcr_bad_pixels(&dcr,dcr.opt.bpfile);
-
- if (dcr.opt.dark_frame) dcr_subtract (&dcr,dcr.opt.dark_frame);
-
- dcr.quality = 2 + !dcr.fuji_width;
-
- if (dcr.opt.user_qual >= 0) dcr.quality = dcr.opt.user_qual;
-
- if (dcr.opt.user_black >= 0) dcr.black = dcr.opt.user_black;
-
- if (dcr.opt.user_sat >= 0) dcr.maximum = dcr.opt.user_sat;
-
-#ifdef COLORCHECK
- dcr_colorcheck(&dcr);
-#endif
-
-#if RESTRICTED
- if (dcr.is_foveon && !dcr.opt.document_mode) dcr_foveon_interpolate(&dcr);
-#endif
-
- if (!dcr.is_foveon && dcr.opt.document_mode < 2) dcr_scale_colors(&dcr);
-
- // pixel interpolation and filters
- dcr_pre_interpolate(&dcr);
-
- if (dcr.filters && !dcr.opt.document_mode) {
- if (dcr.quality == 0)
- dcr_lin_interpolate(&dcr);
- else if (dcr.quality == 1 || dcr.colors > 3)
- dcr_vng_interpolate(&dcr);
- else if (dcr.quality == 2)
- dcr_ppg_interpolate(&dcr);
- else
- dcr_ahd_interpolate(&dcr);
- }
-
- if (dcr.mix_green) {
- int32_t i;
- for (dcr.colors=3, i=0; i < dcr.height*dcr.width; i++) {
- dcr.image[i][1] = (dcr.image[i][1] + dcr.image[i][3]) >> 1;
- }
- }
-
- if (!dcr.is_foveon && dcr.colors == 3) dcr_median_filter(&dcr);
-
- if (!dcr.is_foveon && dcr.opt.highlight == 2) dcr_blend_highlights(&dcr);
-
- if (!dcr.is_foveon && dcr.opt.highlight > 2) dcr_recover_highlights(&dcr);
-
- if (dcr.opt.use_fuji_rotate) dcr_fuji_rotate(&dcr);
-
-#ifndef NO_LCMS
- if (dcr.opt.cam_profile) dcr_apply_profile (dcr.opt.cam_profile, dcr.opt.out_profile);
-#endif
-
- // final conversion
- dcr_convert_to_rgb(&dcr);
-
- if (dcr.opt.use_fuji_rotate) dcr_stretch(&dcr);
-
- dcr.iheight = dcr.height;
- dcr.iwidth = dcr.width;
- if (dcr.flip & 4) SWAP(dcr.height,dcr.width);
-
- // ready to transfer data from dcr.image
- if (!Create(dcr.width,dcr.height,24,CXIMAGE_FORMAT_RAW)){
- cx_throw("");
- }
-
- uchar *ppm = (uchar *) calloc (dcr.width, dcr.colors*dcr.opt.output_bps/8);
- ushort *ppm2 = (ushort *) ppm;
- dcr_merror (&dcr, ppm, szClass);
-
- uchar lut[0x10000];
- if (dcr.opt.output_bps == 8) dcr_gamma_lut (&dcr, lut);
-
- int32_t c, row, col, soff, rstep, cstep;
- soff = dcr_flip_index (&dcr, 0, 0);
- cstep = dcr_flip_index (&dcr, 0, 1) - soff;
- rstep = dcr_flip_index (&dcr, 1, 0) - dcr_flip_index (&dcr, 0, dcr.width);
- for (row=0; row < dcr.height; row++, soff += rstep) {
- for (col=0; col < dcr.width; col++, soff += cstep) {
- if (dcr.opt.output_bps == 8)
- for (c=0; c < dcr.colors; c++) ppm [col*dcr.colors+c] = lut[dcr.image[soff][c]];
- else
- for (c=0; c < dcr.colors; c++) ppm2[col*dcr.colors+c] = dcr.image[soff][c];
- }
- if (dcr.opt.output_bps == 16 && !dcr.opt.output_tiff && htons(0x55aa) != 0x55aa)
-#if defined(_LINUX) || defined(__APPLE__)
- swab ((char*)ppm2, (char*)ppm2, dcr.width*dcr.colors*2);
-#else
- _swab ((char*)ppm2, (char*)ppm2, dcr.width*dcr.colors*2);
-#endif
-
- uint32_t size = dcr.width * (dcr.colors*dcr.opt.output_bps/8);
- RGBtoBGR(ppm,size);
- memcpy(GetBits(dcr.height - 1 - row), ppm, min(size,GetEffWidth()));
- }
- free (ppm);
-
-
- dcr_cleanup_dcraw(&dcr);
-
- } cx_catch {
-
- dcr_cleanup_dcraw(&dcr);
-
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_RAW) return true;
- return false;
- }
- /* that's it */
- return true;
-}
-
-#if CXIMAGE_SUPPORT_EXIF
-bool CxImageRAW::GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type)
-{
- DCRAW dcr;
-
- CxIOFile file;
- if (!file.Open(filename, _T("rb")))
- return false;
-
- cx_try
- {
- // initialization
- dcr_init_dcraw(&dcr);
-
- dcr.opt.user_qual = GetCodecOption(CXIMAGE_FORMAT_RAW) & 0x03;
-
- // setup variables for debugging
- char szClass[] = "CxImageRAW";
- dcr.ifname = szClass;
- dcr.sz_error = info.szLastError;
-
- // setup library options, see dcr_print_manual for the available switches
- // call dcr_parse_command_line_options(&dcr,0,0,0) to set default options
- // if (dcr_parse_command_line_options(&dcr,argc,argv,&arg))
- if (dcr_parse_command_line_options(&dcr,0,0,0)){
- cx_throw("CxImageRAW: unknown option");
- }
-
- // set return point for error handling
- if (setjmp (dcr.failure)) {
- cx_throw("");
- }
-
- // install file manager
- CxFileRaw src(&file,&dcr);
-
- // check file header
- dcr_identify(&dcr);
-
- if(!dcr.is_raw){
- cx_throw("CxImageRAW: not a raw image");
- }
-
- if (dcr.load_raw == NULL) {
- cx_throw("CxImageRAW: missing raw decoder");
- }
-
- // THUMB.
- if (dcr.thumb_offset != 0)
- {
- FILE* file = _tfopen(outname, _T("wb"));
- DCRAW* p = &dcr;
- dcr_fseek(dcr.obj_, dcr.thumb_offset, SEEK_SET);
- dcr.write_thumb(&dcr, file);
- fclose(file);
-
- // Read in the thumbnail to resize and rotate.
- CxImage image(outname, CXIMAGE_FORMAT_UNKNOWN);
- if (image.IsValid())
- {
- // Resizing.
- if (image.GetWidth() > 256 || image.GetHeight() > 256)
- {
- float amount = 256.0f / max(image.GetWidth(), image.GetHeight());
- image.Resample((int32_t)(image.GetWidth() * amount), (int32_t)(image.GetHeight() * amount), 0);
- }
-
- // Rotation.
- if (p->flip != 0)
- image.RotateExif(p->flip);
-
- return image.Save(outname, CXIMAGE_FORMAT_JPG);
- }
- }
- else
- {
- cx_throw("No thumbnail!");
- }
-
- dcr_cleanup_dcraw(&dcr);
-
- } cx_catch {
-
- dcr_cleanup_dcraw(&dcr);
-
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_RAW) return true;
- return false;
- }
- /* that's it */
- return true;
-}
-#endif //CXIMAGE_SUPPORT_EXIF
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageRAW::Encode(CxFile * hFile)
-{
- if (hFile == NULL) return false;
- strcpy(info.szLastError, "Save RAW not supported");
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_RAW
-
diff --git a/hge/CxImage/ximaraw.h b/hge/CxImage/ximaraw.h deleted file mode 100644 index 2fe4961..0000000 --- a/hge/CxImage/ximaraw.h +++ /dev/null @@ -1,112 +0,0 @@ -/*
- * File: ximaraw.h
- * Purpose: RAW Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageRAW (c) May/2006 pdw63
- * For conditions of distribution and use, see copyright notice in ximage.h
- * Special thanks to David Coffin for dcraw without which this class would not exist
- *
- * libdcr (c) Dec/2007 Davide Pizzolato - www.xdp.it
- *
- * based on dcraw.c -- Dave Coffin's raw photo decoder
- * Copyright 1997-2007 by Dave Coffin, dcoffin a cybercom o net
- * ==========================================================
- */
-#if !defined(__ximaRAW_h)
-#define __ximaRAW_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_RAW
-
-extern "C" {
- #include "../raw/libdcr.h"
-}
-
-class CxImageRAW: public CxImage
-{
-
-public:
- CxImageRAW(): CxImage(CXIMAGE_FORMAT_RAW) {}
-
-// bool Load(const char * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_ICO);}
-// bool Save(const char * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_ICO);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_EXIF
- bool GetExifThumbnail(const TCHAR *filename, const TCHAR *outname, int32_t type);
-#endif //CXIMAGE_SUPPORT_EXIF
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
- enum CODEC_OPTION
- {
- DECODE_QUALITY_LIN = 0x00,
- DECODE_QUALITY_VNG = 0x01,
- DECODE_QUALITY_PPG = 0x02,
- DECODE_QUALITY_AHD = 0x03,
- };
-
-protected:
-
- class CxFileRaw
- {
- public:
- CxFileRaw(CxFile* pFile,DCRAW *stream)
- {
- stream->obj_ = pFile;
-
- ras_stream_CxFile.read_ = raw_sfile_read;
- ras_stream_CxFile.write_ = raw_sfile_write;
- ras_stream_CxFile.seek_ = raw_sfile_seek;
- ras_stream_CxFile.close_ = raw_sfile_close;
- ras_stream_CxFile.gets_ = raw_sfile_gets;
- ras_stream_CxFile.eof_ = raw_sfile_eof;
- ras_stream_CxFile.tell_ = raw_sfile_tell;
- ras_stream_CxFile.getc_ = raw_sfile_getc;
- ras_stream_CxFile.scanf_ = raw_sfile_scanf;
-
- stream->ops_ = &ras_stream_CxFile;
-
- }
-
- static int32_t raw_sfile_read(dcr_stream_obj *obj, void *buf, int32_t size, int32_t cnt)
- { return ((CxFile*)obj)->Read(buf,size,cnt); }
-
- static int32_t raw_sfile_write(dcr_stream_obj *obj, void *buf, int32_t size, int32_t cnt)
- { return ((CxFile*)obj)->Write(buf,size,cnt); }
-
- static long raw_sfile_seek(dcr_stream_obj *obj, long offset, int32_t origin)
- { return ((CxFile*)obj)->Seek(offset,origin); }
-
- static int32_t raw_sfile_close(dcr_stream_obj *obj)
- { return 1; /*((CxFile*)obj)->Close();*/ }
-
- static char* raw_sfile_gets(dcr_stream_obj *obj, char *string, int32_t n)
- { return ((CxFile*)obj)->GetS(string,n); }
-
- static int32_t raw_sfile_eof(dcr_stream_obj *obj)
- { return ((CxFile*)obj)->Eof(); }
-
- static long raw_sfile_tell(dcr_stream_obj *obj)
- { return ((CxFile*)obj)->Tell(); }
-
- static int32_t raw_sfile_getc(dcr_stream_obj *obj)
- { return ((CxFile*)obj)->GetC(); }
-
- static int32_t raw_sfile_scanf(dcr_stream_obj *obj,const char *format, void* output)
- { return ((CxFile*)obj)->Scanf(format, output); }
-
- private:
- dcr_stream_ops ras_stream_CxFile;
- };
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximasel.cpp b/hge/CxImage/ximasel.cpp deleted file mode 100644 index c50ff99..0000000 --- a/hge/CxImage/ximasel.cpp +++ /dev/null @@ -1,698 +0,0 @@ -// xImaSel.cpp : Selection functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the image has a valid selection.
- */
-bool CxImage::SelectionIsValid()
-{
- return pSelection!=0;
-}
-
-#if CXIMAGE_SUPPORT_SELECTION
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the smallest rectangle that contains the selection
- */
-void CxImage::SelectionGetBox(RECT& r)
-{
- memcpy(&r,&info.rSelectionBox,sizeof(RECT));
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Empties the selection.
- */
-bool CxImage::SelectionClear(uint8_t level)
-{
- if (pSelection){
- if (level==0){
- memset(pSelection,0,head.biWidth * head.biHeight);
- info.rSelectionBox.left = head.biWidth;
- info.rSelectionBox.bottom = head.biHeight;
- info.rSelectionBox.right = info.rSelectionBox.top = 0;
- } else {
- memset(pSelection,level,head.biWidth * head.biHeight);
- info.rSelectionBox.right = head.biWidth;
- info.rSelectionBox.top = head.biHeight;
- info.rSelectionBox.left = info.rSelectionBox.bottom = 0;
- }
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Allocates an empty selection.
- */
-bool CxImage::SelectionCreate()
-{
- SelectionDelete();
- pSelection = (uint8_t*)calloc(head.biWidth * head.biHeight, 1);
- return (pSelection!=0);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Deallocates the selction.
- */
-bool CxImage::SelectionDelete()
-{
- if (pSelection){
- free(pSelection);
- pSelection=NULL;
- }
- info.rSelectionBox.left = head.biWidth;
- info.rSelectionBox.bottom = head.biHeight;
- info.rSelectionBox.right = info.rSelectionBox.top = 0;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the coordinates are inside the selection.
- */
-bool CxImage::SelectionIsInside(int32_t x, int32_t y)
-{
- if (IsInside(x,y)){
- if (pSelection==NULL) return true;
- return pSelection[x+y*head.biWidth]!=0;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Checks if the coordinates are inside the selection.
- * "blind" version assumes that (x,y) is inside to the image.
- */
-bool CxImage::BlindSelectionIsInside(int32_t x, int32_t y)
-{
-#ifdef _DEBUG
- if (!IsInside(x,y))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return 0;
- #endif
-#endif
- if (pSelection==NULL) return true;
- return pSelection[x+y*head.biWidth]!=0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds a rectangle to the existing selection.
- */
-bool CxImage::SelectionAddRect(RECT r, uint8_t level)
-{
- if (pSelection==NULL) SelectionCreate();
- if (pSelection==NULL) return false;
-
- RECT r2;
- if (r.left<r.right) {r2.left=r.left; r2.right=r.right; } else {r2.left=r.right ; r2.right=r.left; }
- if (r.bottom<r.top) {r2.bottom=r.bottom; r2.top=r.top; } else {r2.bottom=r.top ; r2.top=r.bottom; }
-
- if (info.rSelectionBox.top <= r2.top) info.rSelectionBox.top = max(0L,min(head.biHeight,r2.top+1));
- if (info.rSelectionBox.left > r2.left) info.rSelectionBox.left = max(0L,min(head.biWidth,r2.left));
- if (info.rSelectionBox.right <= r2.right) info.rSelectionBox.right = max(0L,min(head.biWidth,r2.right+1));
- if (info.rSelectionBox.bottom > r2.bottom) info.rSelectionBox.bottom = max(0L,min(head.biHeight,r2.bottom));
-
- int32_t ymin = max(0L,min(head.biHeight,r2.bottom));
- int32_t ymax = max(0L,min(head.biHeight,r2.top+1));
- int32_t xmin = max(0L,min(head.biWidth,r2.left));
- int32_t xmax = max(0L,min(head.biWidth,r2.right+1));
-
- for (int32_t y=ymin; y<ymax; y++)
- memset(pSelection + xmin + y * head.biWidth, level, xmax-xmin);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds an ellipse to the existing selection.
- */
-bool CxImage::SelectionAddEllipse(RECT r, uint8_t level)
-{
- if (pSelection==NULL) SelectionCreate();
- if (pSelection==NULL) return false;
-
- int32_t xradius = abs(r.right - r.left)/2;
- int32_t yradius = abs(r.top - r.bottom)/2;
- if (xradius==0 || yradius==0) return false;
-
- int32_t xcenter = (r.right + r.left)/2;
- int32_t ycenter = (r.top + r.bottom)/2;
-
- if (info.rSelectionBox.left > (xcenter - xradius)) info.rSelectionBox.left = max(0L,min(head.biWidth,(xcenter - xradius)));
- if (info.rSelectionBox.right <= (xcenter + xradius)) info.rSelectionBox.right = max(0L,min(head.biWidth,(xcenter + xradius + 1)));
- if (info.rSelectionBox.bottom > (ycenter - yradius)) info.rSelectionBox.bottom = max(0L,min(head.biHeight,(ycenter - yradius)));
- if (info.rSelectionBox.top <= (ycenter + yradius)) info.rSelectionBox.top = max(0L,min(head.biHeight,(ycenter + yradius + 1)));
-
- int32_t xmin = max(0L,min(head.biWidth,xcenter - xradius));
- int32_t xmax = max(0L,min(head.biWidth,xcenter + xradius + 1));
- int32_t ymin = max(0L,min(head.biHeight,ycenter - yradius));
- int32_t ymax = max(0L,min(head.biHeight,ycenter + yradius + 1));
-
- int32_t y,yo;
- for (y=ymin; y<min(ycenter,ymax); y++){
- for (int32_t x=xmin; x<xmax; x++){
- yo = (int32_t)(ycenter - yradius * sqrt(1-pow((float)(x - xcenter)/(float)xradius,2)));
- if (yo<y) pSelection[x + y * head.biWidth] = level;
- }
- }
- for (y=ycenter; y<ymax; y++){
- for (int32_t x=xmin; x<xmax; x++){
- yo = (int32_t)(ycenter + yradius * sqrt(1-pow((float)(x - xcenter)/(float)xradius,2)));
- if (yo>y) pSelection[x + y * head.biWidth] = level;
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Inverts the selection.
- * Note: the SelectionBox is set to "full image", call SelectionGetBox before (if necessary)
- */
-bool CxImage::SelectionInvert()
-{
- if (pSelection) {
- uint8_t *iSrc=pSelection;
- int32_t n=head.biHeight*head.biWidth;
- for(int32_t i=0; i < n; i++){
- *iSrc=(uint8_t)~(*(iSrc));
- iSrc++;
- }
-
- SelectionRebuildBox();
-
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Imports an existing region from another image with the same width and height.
- */
-bool CxImage::SelectionCopy(CxImage &from)
-{
- if (from.pSelection == NULL || head.biWidth != from.head.biWidth || head.biHeight != from.head.biHeight) return false;
- if (pSelection==NULL) pSelection = (uint8_t*)malloc(head.biWidth * head.biHeight);
- if (pSelection==NULL) return false;
- memcpy(pSelection,from.pSelection,head.biWidth * head.biHeight);
- memcpy(&info.rSelectionBox,&from.info.rSelectionBox,sizeof(RECT));
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds a polygonal region to the existing selection. points points to an array of POINT structures.
- * Each structure specifies the x-coordinate and y-coordinate of one vertex of the polygon.
- * npoints specifies the number of POINT structures in the array pointed to by points.
- */
-bool CxImage::SelectionAddPolygon(POINT *points, int32_t npoints, uint8_t level)
-{
- if (points==NULL || npoints<3) return false;
-
- if (pSelection==NULL) SelectionCreate();
- if (pSelection==NULL) return false;
-
- uint8_t* plocal = (uint8_t*)calloc(head.biWidth*head.biHeight, 1);
- RECT localbox = {head.biWidth,0,0,head.biHeight};
-
- int32_t x,y,i=0;
- POINT *current;
- POINT *next = NULL;
- POINT *start = NULL;
- //trace contour
- while (i < npoints){
- current = &points[i];
- if (current->x!=-1){
- if (i==0 || (i>0 && points[i-1].x==-1)) start = &points[i];
-
- if ((i+1)==npoints || points[i+1].x==-1)
- next = start;
- else
- next = &points[i+1];
-
- float beta;
- if (current->x != next->x){
- beta = (float)(next->y - current->y)/(float)(next->x - current->x);
- if (current->x < next->x){
- for (x=current->x; x<=next->x; x++){
- y = (int32_t)(current->y + (x - current->x) * beta);
- if (IsInside(x,y)) plocal[x + y * head.biWidth] = 255;
- }
- } else {
- for (x=current->x; x>=next->x; x--){
- y = (int32_t)(current->y + (x - current->x) * beta);
- if (IsInside(x,y)) plocal[x + y * head.biWidth] = 255;
- }
- }
- }
- if (current->y != next->y){
- beta = (float)(next->x - current->x)/(float)(next->y - current->y);
- if (current->y < next->y){
- for (y=current->y; y<=next->y; y++){
- x = (int32_t)(current->x + (y - current->y) * beta);
- if (IsInside(x,y)) plocal[x + y * head.biWidth] = 255;
- }
- } else {
- for (y=current->y; y>=next->y; y--){
- x = (int32_t)(current->x + (y - current->y) * beta);
- if (IsInside(x,y)) plocal[x + y * head.biWidth] = 255;
- }
- }
- }
- }
-
- RECT r2;
- if (current->x < next->x) {r2.left=current->x; r2.right=next->x; } else {r2.left=next->x ; r2.right=current->x; }
- if (current->y < next->y) {r2.bottom=current->y; r2.top=next->y; } else {r2.bottom=next->y ; r2.top=current->y; }
- if (localbox.top < r2.top) localbox.top = max(0L,min(head.biHeight-1,r2.top+1));
- if (localbox.left > r2.left) localbox.left = max(0L,min(head.biWidth-1,r2.left-1));
- if (localbox.right < r2.right) localbox.right = max(0L,min(head.biWidth-1,r2.right+1));
- if (localbox.bottom > r2.bottom) localbox.bottom = max(0L,min(head.biHeight-1,r2.bottom-1));
-
- i++;
- }
-
- //fill the outer region
- int32_t npix=(localbox.right - localbox.left)*(localbox.top - localbox.bottom);
- POINT* pix = (POINT*)calloc(npix,sizeof(POINT));
- uint8_t back=0, mark=1;
- int32_t fx, fy, fxx, fyy, first, last;
- int32_t xmin = 0;
- int32_t xmax = 0;
- int32_t ymin = 0;
- int32_t ymax = 0;
-
- for (int32_t side=0; side<4; side++){
- switch(side){
- case 0:
- xmin=localbox.left; xmax=localbox.right+1; ymin=localbox.bottom; ymax=localbox.bottom+1;
- break;
- case 1:
- xmin=localbox.right; xmax=localbox.right+1; ymin=localbox.bottom; ymax=localbox.top+1;
- break;
- case 2:
- xmin=localbox.left; xmax=localbox.right+1; ymin=localbox.top; ymax=localbox.top+1;
- break;
- case 3:
- xmin=localbox.left; xmax=localbox.left+1; ymin=localbox.bottom; ymax=localbox.top+1;
- break;
- }
- //fill from the border points
- for(y=ymin;y<ymax;y++){
- for(x=xmin;x<xmax;x++){
- if (plocal[x+y*head.biWidth]==0){
- // Subject: FLOOD FILL ROUTINE Date: 12-23-97 (00:57)
- // Author: Petter Holmberg Code: QB, QBasic, PDS
- // Origin: petter.holmberg@usa.net Packet: GRAPHICS.ABC
- first=0;
- last=1;
- while(first!=last){
- fx = pix[first].x;
- fy = pix[first].y;
- fxx = fx + x;
- fyy = fy + y;
- for(;;)
- {
- if ((plocal[fxx + fyy*head.biWidth] == back) &&
- fxx>=localbox.left && fxx<=localbox.right && fyy>=localbox.bottom && fyy<=localbox.top )
- {
- plocal[fxx + fyy*head.biWidth] = mark;
- if (fyy > 0 && plocal[fxx + (fyy - 1)*head.biWidth] == back){
- pix[last].x = fx;
- pix[last].y = fy - 1;
- last++;
- if (last == npix) last = 0;
- }
- if ((fyy + 1)<head.biHeight && plocal[fxx + (fyy + 1)*head.biWidth] == back){
- pix[last].x = fx;
- pix[last].y = fy + 1;
- last++;
- if (last == npix) last = 0;
- }
- } else {
- break;
- }
- fx++;
- fxx++;
- };
-
- fx = pix[first].x - 1;
- fy = pix[first].y;
- fxx = fx + x;
- fyy = fy + y;
-
- for( ;; )
- {
- if ((plocal[fxx + fyy*head.biWidth] == back) &&
- fxx>=localbox.left && fxx<=localbox.right && fyy>=localbox.bottom && fyy<=localbox.top )
- {
- plocal[fxx + (y + fy)*head.biWidth] = mark;
- if (fyy > 0 && plocal[fxx + (fyy - 1)*head.biWidth] == back){
- pix[last].x = fx;
- pix[last].y = fy - 1;
- last++;
- if (last == npix) last = 0;
- }
- if ((fyy + 1)<head.biHeight && plocal[fxx + (fyy + 1)*head.biWidth] == back){
- pix[last].x = fx;
- pix[last].y = fy + 1;
- last++;
- if (last == npix) last = 0;
- }
- } else {
- break;
- }
- fx--;
- fxx--;
- }
-
- first++;
- if (first == npix) first = 0;
- }
- }
- }
- }
- }
-
- //transfer the region
- int32_t yoffset;
- for (y=localbox.bottom; y<=localbox.top; y++){
- yoffset = y * head.biWidth;
- for (x=localbox.left; x<=localbox.right; x++)
- if (plocal[x + yoffset]!=1) pSelection[x + yoffset]=level;
- }
- if (info.rSelectionBox.top <= localbox.top) info.rSelectionBox.top = min(head.biHeight,localbox.top + 1);
- if (info.rSelectionBox.left > localbox.left) info.rSelectionBox.left = min(head.biWidth,localbox.left);
- if (info.rSelectionBox.right <= localbox.right) info.rSelectionBox.right = min(head.biWidth,localbox.right + 1);
- if (info.rSelectionBox.bottom > localbox.bottom) info.rSelectionBox.bottom = min(head.biHeight,localbox.bottom);
-
- free(plocal);
- free(pix);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds to the selection all the pixels matching the specified color.
- */
-bool CxImage::SelectionAddColor(RGBQUAD c, uint8_t level)
-{
- if (pSelection==NULL) SelectionCreate();
- if (pSelection==NULL) return false;
-
- RECT localbox = {head.biWidth,0,0,head.biHeight};
-
- for (int32_t y = 0; y < head.biHeight; y++){
- for (int32_t x = 0; x < head.biWidth; x++){
- RGBQUAD color = BlindGetPixelColor(x, y);
- if (color.rgbRed == c.rgbRed &&
- color.rgbGreen == c.rgbGreen &&
- color.rgbBlue == c.rgbBlue)
- {
- pSelection[x + y * head.biWidth] = level;
-
- if (localbox.top < y) localbox.top = y;
- if (localbox.left > x) localbox.left = x;
- if (localbox.right < x) localbox.right = x;
- if (localbox.bottom > y) localbox.bottom = y;
- }
- }
- }
-
- if (info.rSelectionBox.top <= localbox.top) info.rSelectionBox.top = localbox.top + 1;
- if (info.rSelectionBox.left > localbox.left) info.rSelectionBox.left = localbox.left;
- if (info.rSelectionBox.right <= localbox.right) info.rSelectionBox.right = localbox.right + 1;
- if (info.rSelectionBox.bottom > localbox.bottom) info.rSelectionBox.bottom = localbox.bottom;
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Adds a single pixel to the existing selection.
- */
-bool CxImage::SelectionAddPixel(int32_t x, int32_t y, uint8_t level)
-{
- if (pSelection==NULL) SelectionCreate();
- if (pSelection==NULL) return false;
-
- if (IsInside(x,y)) {
- pSelection[x + y * head.biWidth] = level; // set the correct mask bit
-
- if (info.rSelectionBox.top <= y) info.rSelectionBox.top = y+1;
- if (info.rSelectionBox.left > x) info.rSelectionBox.left = x;
- if (info.rSelectionBox.right <= x) info.rSelectionBox.right = x+1;
- if (info.rSelectionBox.bottom > y) info.rSelectionBox.bottom = y;
-
- return true;
- }
-
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Exports the selection channel in a 8bpp grayscale image.
- */
-bool CxImage::SelectionSplit(CxImage *dest)
-{
- if (!pSelection || !dest) return false;
-
- CxImage tmp(head.biWidth,head.biHeight,8);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- for(int32_t y=0; y<head.biHeight; y++){
- for(int32_t x=0; x<head.biWidth; x++){
- tmp.BlindSetPixelIndex(x,y,pSelection[x+y*head.biWidth]);
- }
- }
-
- tmp.SetGrayPalette();
- dest->Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Creates the selection channel from a gray scale image.
- * black = unselected
- */
-bool CxImage::SelectionSet(CxImage &from)
-{
- if (!from.IsGrayScale() || head.biWidth != from.head.biWidth || head.biHeight != from.head.biHeight){
- strcpy(info.szLastError,"CxImage::SelectionSet: wrong width or height, or image is not gray scale");
- return false;
- }
-
- if (pSelection==NULL) pSelection = (uint8_t*)malloc(head.biWidth * head.biHeight);
-
- uint8_t* src = from.info.pImage;
- uint8_t* dst = pSelection;
- if (src==NULL || dst==NULL){
- strcpy(info.szLastError,"CxImage::SelectionSet: null pointer");
- return false;
- }
-
- for (int32_t y=0; y<head.biHeight; y++){
- memcpy(dst,src,head.biWidth);
- dst += head.biWidth;
- src += from.info.dwEffWidth;
- }
-
- SelectionRebuildBox();
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Sets the Selection level for a single pixel
- * internal use only: doesn't set SelectionBox. Use SelectionAddPixel
- */
-void CxImage::SelectionSet(const int32_t x,const int32_t y,const uint8_t level)
-{
- if (pSelection && IsInside(x,y)) pSelection[x+y*head.biWidth]=level;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the Selection level for a single pixel
- */
-uint8_t CxImage::SelectionGet(const int32_t x,const int32_t y)
-{
- if (pSelection && IsInside(x,y)) return pSelection[x+y*head.biWidth];
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Rebuilds the SelectionBox
- */
-void CxImage::SelectionRebuildBox()
-{
- info.rSelectionBox.left = head.biWidth;
- info.rSelectionBox.bottom = head.biHeight;
- info.rSelectionBox.right = info.rSelectionBox.top = 0;
-
- if (!pSelection)
- return;
-
- int32_t x,y;
-
- for (y=0; y<head.biHeight; y++){
- for (x=0; x<info.rSelectionBox.left; x++){
- if (pSelection[x+y*head.biWidth]){
- info.rSelectionBox.left = x;
- continue;
- }
- }
- }
-
- for (y=0; y<head.biHeight; y++){
- for (x=head.biWidth-1; x>=info.rSelectionBox.right; x--){
- if (pSelection[x+y*head.biWidth]){
- info.rSelectionBox.right = x+1;
- continue;
- }
- }
- }
-
- for (x=0; x<head.biWidth; x++){
- for (y=0; y<info.rSelectionBox.bottom; y++){
- if (pSelection[x+y*head.biWidth]){
- info.rSelectionBox.bottom = y;
- continue;
- }
- }
- }
-
- for (x=0; x<head.biWidth; x++){
- for (y=head.biHeight-1; y>=info.rSelectionBox.top; y--){
- if (pSelection[x+y*head.biWidth]){
- info.rSelectionBox.top = y+1;
- continue;
- }
- }
- }
-
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Gets the Selection level for a single pixel
- * "blind" version assumes that (x,y) is inside to the image.
- */
-uint8_t CxImage::BlindSelectionGet(const int32_t x,const int32_t y)
-{
-#ifdef _DEBUG
- if (!IsInside(x,y) || (pSelection==0))
- #if CXIMAGE_SUPPORT_EXCEPTION_HANDLING
- throw 0;
- #else
- return 0;
- #endif
-#endif
- return pSelection[x+y*head.biWidth];
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Returns pointer to selection data for pixel (x,y).
- */
-uint8_t* CxImage::SelectionGetPointer(const int32_t x,const int32_t y)
-{
- if (pSelection && IsInside(x,y)) return pSelection+x+y*head.biWidth;
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::SelectionFlip()
-{
- if (!pSelection) return false;
-
- uint8_t *buff = (uint8_t*)malloc(head.biWidth);
- if (!buff) return false;
-
- uint8_t *iSrc,*iDst;
- iSrc = pSelection + (head.biHeight-1)*head.biWidth;
- iDst = pSelection;
- for (int32_t i=0; i<(head.biHeight/2); ++i)
- {
- memcpy(buff, iSrc, head.biWidth);
- memcpy(iSrc, iDst, head.biWidth);
- memcpy(iDst, buff, head.biWidth);
- iSrc-=head.biWidth;
- iDst+=head.biWidth;
- }
-
- free(buff);
-
- int32_t top = info.rSelectionBox.top;
- info.rSelectionBox.top = head.biHeight - info.rSelectionBox.bottom;
- info.rSelectionBox.bottom = head.biHeight - top;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::SelectionMirror()
-{
- if (!pSelection) return false;
- uint8_t* pSelection2 = (uint8_t*)malloc(head.biWidth * head.biHeight);
- if (!pSelection2) return false;
-
- uint8_t *iSrc,*iDst;
- int32_t wdt=head.biWidth-1;
- iSrc=pSelection + wdt;
- iDst=pSelection2;
- for(int32_t y=0; y < head.biHeight; y++){
- for(int32_t x=0; x <= wdt; x++)
- *(iDst+x)=*(iSrc-x);
- iSrc+=head.biWidth;
- iDst+=head.biWidth;
- }
- free(pSelection);
- pSelection=pSelection2;
-
- int32_t left = info.rSelectionBox.left;
- info.rSelectionBox.left = head.biWidth - info.rSelectionBox.right;
- info.rSelectionBox.right = head.biWidth - left;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_WINDOWS
-/**
- * Converts the selection in a HRGN object.
- */
-bool CxImage::SelectionToHRGN(HRGN& region)
-{
- if (pSelection && region){
- for(int32_t y = 0; y < head.biHeight; y++){
- HRGN hTemp = NULL;
- int32_t iStart = -1;
- int32_t x = 0;
- for(; x < head.biWidth; x++){
- if (pSelection[x + y * head.biWidth] != 0){
- if (iStart == -1) iStart = x;
- continue;
- }else{
- if (iStart >= 0){
- hTemp = CreateRectRgn(iStart, y, x, y + 1);
- CombineRgn(region, hTemp, region, RGN_OR);
- DeleteObject(hTemp);
- iStart = -1;
- }
- }
- }
- if (iStart >= 0){
- hTemp = CreateRectRgn(iStart, y, x, y + 1);
- CombineRgn(region, hTemp, region, RGN_OR);
- DeleteObject(hTemp);
- iStart = -1;
- }
- }
- return true;
- }
- return false;
-}
-#endif //CXIMAGE_SUPPORT_WINDOWS
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_SELECTION
diff --git a/hge/CxImage/ximaska.cpp b/hge/CxImage/ximaska.cpp deleted file mode 100644 index 6f1b1c2..0000000 --- a/hge/CxImage/ximaska.cpp +++ /dev/null @@ -1,126 +0,0 @@ -/*
- * File: ximaska.cpp
- * Purpose: Platform Independent SKA Image Class Loader and Writer
- * 25/Sep/2007 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximaska.h"
-
-#if CXIMAGE_SUPPORT_SKA
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageSKA::Decode(CxFile *hFile)
-{
- if (hFile==NULL)
- return false;
-
- // read the header
- SKAHEADER ska_header;
- hFile->Read(&ska_header,sizeof(SKAHEADER),1);
-
- ska_header.Width = m_ntohs(ska_header.Width);
- ska_header.Height = m_ntohs(ska_header.Height);
- ska_header.dwUnknown = m_ntohl(ska_header.dwUnknown);
-
- // check header
- if (ska_header.dwUnknown != 0x01000000 ||
- ska_header.Width > 0x7FFF || ska_header.Height > 0x7FFF ||
- ska_header.BppExp != 3)
- return false;
-
- if (info.nEscape == -1){
- head.biWidth = ska_header.Width ;
- head.biHeight= ska_header.Height;
- info.dwType = CXIMAGE_FORMAT_SKA;
- return true;
- }
-
- int32_t bpp = 1<<ska_header.BppExp;
-
- Create(ska_header.Width,ska_header.Height,bpp,CXIMAGE_FORMAT_SKA);
- if (!IsValid())
- return false;
-
- // read the palette
- int32_t nColors = 1<<bpp;
- rgb_color* ppal = (rgb_color*)malloc(nColors*sizeof(rgb_color));
- if (!ppal) return false;
- hFile->Read(ppal,nColors*sizeof(rgb_color),1);
- SetPalette(ppal,nColors);
- free(ppal);
-
- //read the image
- hFile->Read(GetBits(),ska_header.Width*ska_header.Height,1);
-
- //reorder rows
- if (GetEffWidth() != ska_header.Width){
- uint8_t *src,*dst;
- src = GetBits() + ska_header.Width*(ska_header.Height-1);
- dst = GetBits(ska_header.Height-1);
- for(int32_t y=0;y<ska_header.Height;y++){
- memcpy(dst,src,ska_header.Width);
- src -= ska_header.Width;
- dst -= GetEffWidth();
- }
- }
-
- Flip();
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageSKA::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- if(head.biBitCount > 8) {
- strcpy(info.szLastError,"SKA Images must be 8 bit or less");
- return false;
- }
-
- SKAHEADER ska_header;
-
- ska_header.Width = (uint16_t)GetWidth();
- ska_header.Height = (uint16_t)GetHeight();
- ska_header.BppExp = 3;
- ska_header.dwUnknown = 0x01000000;
-
- ska_header.Width = m_ntohs(ska_header.Width);
- ska_header.Height = m_ntohs(ska_header.Height);
- ska_header.dwUnknown = m_ntohl(ska_header.dwUnknown);
-
- hFile->Write(&ska_header,sizeof(SKAHEADER),1);
-
- ska_header.Width = m_ntohs(ska_header.Width);
- ska_header.Height = m_ntohs(ska_header.Height);
- ska_header.dwUnknown = m_ntohl(ska_header.dwUnknown);
-
- if (head.biBitCount<8) IncreaseBpp(8);
-
- rgb_color pal[256];
- for(int32_t idx=0; idx<256; idx++){
- GetPaletteColor(idx,&(pal[idx].r),&(pal[idx].g),&(pal[idx].b));
- }
-
- hFile->Write(pal,256*sizeof(rgb_color),1);
-
- uint8_t* src = GetBits(ska_header.Height-1);
- for(int32_t y=0;y<ska_header.Height;y++){
- hFile->Write(src,ska_header.Width,1);
- src -= GetEffWidth();
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_SKA
-
diff --git a/hge/CxImage/ximaska.h b/hge/CxImage/ximaska.h deleted file mode 100644 index ad3f598..0000000 --- a/hge/CxImage/ximaska.h +++ /dev/null @@ -1,44 +0,0 @@ -/*
- * File: ximaska.h
- * Purpose: SKA Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageSKA (c) 25/Sep/2007 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- * ==========================================================
- */
-#if !defined(__ximaSKA_h)
-#define __ximaSKA_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_SKA
-
-class CxImageSKA: public CxImage
-{
-#pragma pack(1)
- typedef struct tagSkaHeader {
- uint16_t Width;
- uint16_t Height;
- uint8_t BppExp;
- uint32_t dwUnknown;
-} SKAHEADER;
-#pragma pack()
-
-public:
- CxImageSKA(): CxImage(CXIMAGE_FORMAT_SKA) {}
-
-// bool Load(const char * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_ICO);}
-// bool Save(const char * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_ICO);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximatga.cpp b/hge/CxImage/ximatga.cpp deleted file mode 100644 index f1a762a..0000000 --- a/hge/CxImage/ximatga.cpp +++ /dev/null @@ -1,320 +0,0 @@ -/*
- * File: ximatga.cpp
- * Purpose: Platform Independent TGA Image Class Loader and Writer
- * 05/Jan/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximatga.h"
-
-#if CXIMAGE_SUPPORT_TGA
-
-#include "ximaiter.h"
-
-// Definitions for image types.
-#define TGA_Null 0
-#define TGA_Map 1
-#define TGA_RGB 2
-#define TGA_Mono 3
-#define TGA_RLEMap 9
-#define TGA_RLERGB 10
-#define TGA_RLEMono 11
-#define TGA_CompMap 32
-#define TGA_CompMap4 33
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageTGA::Decode(CxFile *hFile)
-{
- if (hFile == NULL) return false;
-
- TGAHEADER tgaHead;
-
- cx_try
- {
- if (hFile->Read(&tgaHead,sizeof(tgaHead),1)==0)
- cx_throw("Not a TGA");
-
- tga_toh(&tgaHead);
-
- bool bCompressed;
- switch (tgaHead.ImageType){
- case TGA_Map:
- case TGA_RGB:
- case TGA_Mono:
- bCompressed = false;
- break;
- case TGA_RLEMap:
- case TGA_RLERGB:
- case TGA_RLEMono:
- bCompressed = true;
- break;
- default:
- cx_throw("Unknown TGA image type");
- }
-
- if (tgaHead.ImageWidth==0 || tgaHead.ImageHeight==0 || tgaHead.PixelDepth==0 || tgaHead.CmapLength>256)
- cx_throw("bad TGA header");
-
- if (tgaHead.PixelDepth!=8 && tgaHead.PixelDepth!=15 && tgaHead.PixelDepth!=16 && tgaHead.PixelDepth!=24 && tgaHead.PixelDepth!=32)
- cx_throw("bad TGA header");
-
- if (info.nEscape == -1){
- head.biWidth = tgaHead.ImageWidth ;
- head.biHeight= tgaHead.ImageHeight;
- info.dwType = CXIMAGE_FORMAT_TGA;
- return true;
- }
-
- if (tgaHead.IdLength>0) hFile->Seek(tgaHead.IdLength,SEEK_CUR); //skip descriptor
-
- Create(tgaHead.ImageWidth, tgaHead.ImageHeight, tgaHead.PixelDepth, CXIMAGE_FORMAT_TGA);
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- if (tgaHead.PixelDepth==32) AlphaCreate(); // Image has alpha channel
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- if (!IsValid()) cx_throw("TGA Create failed");
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- if (tgaHead.CmapType != 0){ // read the palette
- rgb_color pal[256];
- hFile->Read(pal,tgaHead.CmapLength*sizeof(rgb_color), 1);
- for (int32_t i=0;i<tgaHead.CmapLength; i++) SetPaletteColor((uint8_t)i,pal[i].b,pal[i].g,pal[i].r);
- }
-
- if (tgaHead.ImageType == TGA_Mono || tgaHead.ImageType == TGA_RLEMono)
- SetGrayPalette();
-
- // Bits 4 & 5 of the Image Descriptor byte control the ordering of the pixels.
- bool bXReversed = ((tgaHead.ImagDesc & 16) == 16);
- bool bYReversed = ((tgaHead.ImagDesc & 32) == 32);
-
- CImageIterator iter(this);
- uint8_t rleLeftover = 255; //for images with illegal packet boundary
- uint8_t* pDest;
- for (int32_t y=0; y < tgaHead.ImageHeight; y++){
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- if (hFile == NULL || hFile->Eof()) cx_throw("corrupted TGA");
-
- if (bYReversed) pDest = iter.GetRow(tgaHead.ImageHeight-y-1);
- else pDest = iter.GetRow(y);
-
- if (bCompressed) rleLeftover = ExpandCompressedLine(pDest,&tgaHead,hFile,tgaHead.ImageWidth,y,rleLeftover);
- else ExpandUncompressedLine (pDest,&tgaHead,hFile,tgaHead.ImageWidth,y,0);
- }
-
- if (bXReversed) Mirror();
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (bYReversed && tgaHead.PixelDepth==32) AlphaFlip(); //<lioucr>
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageTGA::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- if (head.biBitCount<8){
- strcpy(info.szLastError,"Bit depth must be 8 or 24");
- return false;
- }
-
- TGAHEADER tgaHead;
-
- tgaHead.IdLength = 0; // Image ID Field Length
- tgaHead.CmapType = GetPalette()!=0; // Color Map Type
- tgaHead.ImageType = (head.biBitCount == 8) ? (uint8_t)TGA_Map : (uint8_t)TGA_RGB; // Image Type
-
- tgaHead.CmapIndex=0; // First Entry Index
- tgaHead.CmapLength=(head.biBitCount == 8) ? 256 : 0; // Color Map Length
- tgaHead.CmapEntrySize=(head.biBitCount == 8) ? (uint8_t)24 : (uint8_t)0; // Color Map Entry Size
-
- tgaHead.X_Origin=0; // X-origin of Image
- tgaHead.Y_Origin=0; // Y-origin of Image
- tgaHead.ImageWidth=(uint16_t)head.biWidth; // Image Width
- tgaHead.ImageHeight=(uint16_t)head.biHeight; // Image Height
- tgaHead.PixelDepth=(uint8_t)head.biBitCount; // Pixel Depth
- tgaHead.ImagDesc=0; // Image Descriptor
-
- if (pAlpha && head.biBitCount==24) tgaHead.PixelDepth=32;
-
- tga_toh(&tgaHead);
- hFile->Write(&tgaHead,sizeof(TGAHEADER),1);
- tga_toh(&tgaHead);
-
- if (head.biBitCount==8){
- rgb_color pal[256];
- RGBQUAD* ppal = GetPalette();
- for (int32_t i=0;i<256; i++){
- pal[i].r = ppal[i].rgbBlue;
- pal[i].g = ppal[i].rgbGreen;
- pal[i].b = ppal[i].rgbRed;
- }
- hFile->Write(&pal,256*sizeof(rgb_color),1);
- }
-
- CImageIterator iter(this);
- uint8_t* pDest;
- if (pAlpha==0 || head.biBitCount==8){
- for (int32_t y=0; y < tgaHead.ImageHeight; y++){
- pDest = iter.GetRow(y);
- hFile->Write(pDest,tgaHead.ImageWidth * (head.biBitCount >> 3),1);
- }
- } else {
- pDest = (uint8_t*)malloc(4*tgaHead.ImageWidth);
- RGBQUAD c;
- for (int32_t y=0; y < tgaHead.ImageHeight; y++){
- for(int32_t x=0, x4=0;x<tgaHead.ImageWidth;x++, x4+=4){
- c = BlindGetPixelColor(x,y);
- pDest[x4+0]=c.rgbBlue;
- pDest[x4+1]=c.rgbGreen;
- pDest[x4+2]=c.rgbRed;
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- pDest[x4+3]=AlphaGet(x,y);
-#else
- pDest[x4+3]=0;
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- hFile->Write(pDest,4*tgaHead.ImageWidth,1);
- }
- free(pDest);
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-uint8_t CxImageTGA::ExpandCompressedLine(uint8_t* pDest,TGAHEADER* ptgaHead,CxFile *hFile,int32_t width, int32_t y, uint8_t rleLeftover)
-{
- uint8_t rle;
- int32_t filePos=0;
- for (int32_t x=0; x<width; ){
- if (rleLeftover != 255){
- rle = rleLeftover;
- rleLeftover = 255;
- } else {
- hFile->Read(&rle,1,1);
- }
- if (rle & 128) { // RLE-Encoded packet
- rle -= 127; // Calculate real repeat count.
- if ((x+rle)>width){
- rleLeftover = (uint8_t)(128 + (rle - (width - x) - 1));
- filePos = hFile->Tell();
- rle = (uint8_t)(width - x);
- }
- switch (ptgaHead->PixelDepth)
- {
- case 32: {
- RGBQUAD color;
- hFile->Read(&color,4,1);
- for (int32_t ix = 0; ix < rle; ix++){
- memcpy(&pDest[3*ix],&color,3);
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- AlphaSet(ix+x,y,color.rgbReserved);
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- break;
- }
- case 24: {
- rgb_color triple;
- hFile->Read(&triple,3,1);
- for (int32_t ix = 0; ix < rle; ix++) memcpy(&pDest[3*ix],&triple,3);
- break;
- }
- case 15:
- case 16: {
- uint16_t pixel;
- hFile->Read(&pixel,2,1);
- rgb_color triple;
- triple.r = (uint8_t)(( pixel & 0x1F ) * 8); // red
- triple.g = (uint8_t)(( pixel >> 2 ) & 0x0F8); // green
- triple.b = (uint8_t)(( pixel >> 7 ) & 0x0F8); // blue
- for (int32_t ix = 0; ix < rle; ix++){
- memcpy(&pDest[3*ix],&triple,3);
- }
- break;
- }
- case 8: {
- uint8_t pixel;
- hFile->Read(&pixel,1,1);
- for (int32_t ix = 0; ix < rle; ix++) pDest[ix] = pixel;
- }
- }
- if (rleLeftover!=255) hFile->Seek(filePos, SEEK_SET);
- } else { // Raw packet
- rle += 1; // Calculate real repeat count.
- if ((x+rle)>width){
- rleLeftover = (uint8_t)(rle - (width - x) - 1);
- rle = (uint8_t)(width - x);
- }
- ExpandUncompressedLine(pDest,ptgaHead,hFile,rle,y,x);
- }
- if (head.biBitCount == 24) pDest += rle*3; else pDest += rle;
- x += rle;
- }
- return rleLeftover;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTGA::ExpandUncompressedLine(uint8_t* pDest,TGAHEADER* ptgaHead,CxFile *hFile,int32_t width, int32_t y, int32_t xoffset)
-{
- switch (ptgaHead->PixelDepth){
- case 8:
- hFile->Read(pDest,width,1);
- break;
- case 15:
- case 16:{
- uint8_t* dst=pDest;
- uint16_t pixel;
- for (int32_t x=0; x<width; x++){
- hFile->Read(&pixel,2,1);
- *dst++ = (uint8_t)(( pixel & 0x1F ) * 8); // blue
- *dst++ = (uint8_t)(( pixel >> 2 ) & 0x0F8); // green
- *dst++ = (uint8_t)(( pixel >> 7 ) & 0x0F8); // red
- }
- break;
- }
- case 24:
- hFile->Read(pDest,3*width,1);
- break;
- case 32:{
- uint8_t* dst=pDest;
- for (int32_t x=0; x<width; x++){
- RGBQUAD pixel;
- hFile->Read(&pixel,4,1);
- *dst++ = pixel.rgbBlue;
- *dst++ = pixel.rgbGreen;
- *dst++ = pixel.rgbRed;
-#if CXIMAGE_SUPPORT_ALPHA // <vho>
- AlphaSet(x+xoffset,y,pixel.rgbReserved); //alpha
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- break;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTGA::tga_toh(TGAHEADER* p)
-{
- p->CmapIndex = m_ntohs(p->CmapIndex);
- p->CmapLength = m_ntohs(p->CmapLength);
- p->X_Origin = m_ntohs(p->X_Origin);
- p->Y_Origin = m_ntohs(p->Y_Origin);
- p->ImageWidth = m_ntohs(p->ImageWidth);
- p->ImageHeight = m_ntohs(p->ImageHeight);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_TGA
diff --git a/hge/CxImage/ximatga.h b/hge/CxImage/ximatga.h deleted file mode 100644 index 3cbc36a..0000000 --- a/hge/CxImage/ximatga.h +++ /dev/null @@ -1,61 +0,0 @@ -/*
- * File: ximatga.h
- * Purpose: TARGA Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageTGA (c) 05/Jan/2002 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Parts of the code come from Paintlib : Copyright (c) 1996-1998 Ulrich von Zadow
- * ==========================================================
- */
-#if !defined(__ximaTGA_h)
-#define __ximaTGA_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_TGA
-
-class CxImageTGA: public CxImage
-{
-#pragma pack(1)
-typedef struct tagTgaHeader
-{
- uint8_t IdLength; // Image ID Field Length
- uint8_t CmapType; // Color Map Type
- uint8_t ImageType; // Image Type
-
- uint16_t CmapIndex; // First Entry Index
- uint16_t CmapLength; // Color Map Length
- uint8_t CmapEntrySize; // Color Map Entry Size
-
- uint16_t X_Origin; // X-origin of Image
- uint16_t Y_Origin; // Y-origin of Image
- uint16_t ImageWidth; // Image Width
- uint16_t ImageHeight; // Image Height
- uint8_t PixelDepth; // Pixel Depth
- uint8_t ImagDesc; // Image Descriptor
-} TGAHEADER;
-#pragma pack()
-
-public:
- CxImageTGA(): CxImage(CXIMAGE_FORMAT_TGA) {}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_TGA);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_TGA);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-protected:
- uint8_t ExpandCompressedLine(uint8_t* pDest,TGAHEADER* ptgaHead,CxFile *hFile,int32_t width, int32_t y, uint8_t rleLeftover);
- void ExpandUncompressedLine(uint8_t* pDest,TGAHEADER* ptgaHead,CxFile *hFile,int32_t width, int32_t y, int32_t xoffset);
- void tga_toh(TGAHEADER* p);
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximath.cpp b/hge/CxImage/ximath.cpp deleted file mode 100644 index 0175184..0000000 --- a/hge/CxImage/ximath.cpp +++ /dev/null @@ -1,97 +0,0 @@ -#include "ximage.h"
-#include "ximath.h"
-#include <math.h>
-
-//this module should contain some classes for geometrical transformations
-//usable with selections, etc... once it's done, that is. :)
-
-CxPoint2::CxPoint2()
-{
- x=y=0.0f;
-}
-
-CxPoint2::CxPoint2(float const x_, float const y_)
-{
- x=x_;
- y=y_;
-}
-
-CxPoint2::CxPoint2(CxPoint2 const &p)
-{
- x=p.x;
- y=p.y;
-}
-
-float CxPoint2::Distance(CxPoint2 const p2)
-{
- return (float)sqrt((x-p2.x)*(x-p2.x)+(y-p2.y)*(y-p2.y));
-}
-
-float CxPoint2::Distance(float const x_, float const y_)
-{
- return (float)sqrt((x-x_)*(x-x_)+(y-y_)*(y-y_));
-}
-
-CxRect2::CxRect2()
-{
-}
-
-CxRect2::CxRect2(float const x1_, float const y1_, float const x2_, float const y2_)
-{
- botLeft.x=x1_;
- botLeft.y=y1_;
- topRight.x=x2_;
- topRight.y=y2_;
-}
-
-CxRect2::CxRect2(CxRect2 const &p)
-{
- botLeft=p.botLeft;
- topRight=p.topRight;
-}
-
-float CxRect2::Surface() const
-/*
- * Returns the surface of rectangle.
- */
-{
- return (topRight.x-botLeft.x)*(topRight.y-botLeft.y);
-}
-
-CxRect2 CxRect2::CrossSection(CxRect2 const &r2) const
-/*
- * Returns crossection with another rectangle.
- */
-{
- CxRect2 cs;
- cs.botLeft.x=max(botLeft.x, r2.botLeft.x);
- cs.botLeft.y=max(botLeft.y, r2.botLeft.y);
- cs.topRight.x=min(topRight.x, r2.topRight.x);
- cs.topRight.y=min(topRight.y, r2.topRight.y);
- if (cs.botLeft.x<=cs.topRight.x && cs.botLeft.y<=cs.topRight.y) {
- return cs;
- } else {
- return CxRect2(0,0,0,0);
- }//if
-}
-
-CxPoint2 CxRect2::Center() const
-/*
- * Returns the center point of rectangle.
- */
-{
- return CxPoint2((topRight.x+botLeft.x)/2.0f, (topRight.y+botLeft.y)/2.0f);
-}
-
-float CxRect2::Width() const
-//returns rectangle width
-{
- return topRight.x-botLeft.x;
-}
-
-float CxRect2::Height() const
-//returns rectangle height
-{
- return topRight.y-botLeft.y;
-}
-
diff --git a/hge/CxImage/ximath.h b/hge/CxImage/ximath.h deleted file mode 100644 index 014c14b..0000000 --- a/hge/CxImage/ximath.h +++ /dev/null @@ -1,39 +0,0 @@ -#if !defined(__ximath_h)
-#define __ximath_h
-
-#include "ximadef.h"
-
-//***bd*** simple floating point point
-class DLL_EXP CxPoint2
-{
-public:
- CxPoint2();
- CxPoint2(float const x_, float const y_);
- CxPoint2(CxPoint2 const &p);
-
- float Distance(CxPoint2 const p2);
- float Distance(float const x_, float const y_);
-
- float x,y;
-};
-
-//and simple rectangle
-class DLL_EXP CxRect2
-{
-public:
- CxRect2();
- CxRect2(float const x1_, float const y1_, float const x2_, float const y2_);
- CxRect2(CxPoint2 const &bl, CxPoint2 const &tr);
- CxRect2(CxRect2 const &p);
-
- float Surface() const;
- CxRect2 CrossSection(CxRect2 const &r2) const;
- CxPoint2 Center() const;
- float Width() const;
- float Height() const;
-
- CxPoint2 botLeft;
- CxPoint2 topRight;
-};
-
-#endif
diff --git a/hge/CxImage/ximatif.cpp b/hge/CxImage/ximatif.cpp deleted file mode 100644 index 7675361..0000000 --- a/hge/CxImage/ximatif.cpp +++ /dev/null @@ -1,982 +0,0 @@ -/*
- * File: ximatif.cpp
- * Purpose: Platform Independent TIFF Image Class Loader and Writer
- * 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximatif.h"
-
-#if CXIMAGE_SUPPORT_TIF
-
-#define FIX_16BPP_DARKIMG // + VK: if uncomment, dark 16bpp images are fixed
-
-#include "../tiff/tiffio.h"
-
-#define CVT(x) (((x) * 255L) / ((1L<<16)-1))
-#define SCALE(x) (((x)*((1L<<16)-1))/255)
-#define CalculateLine(width,bitdepth) (((width * bitdepth) + 7) / 8)
-#define CalculatePitch(line) (line + 3 & ~3)
-
-extern "C" TIFF* _TIFFOpenEx(CxFile* stream, const char* mode);
-
-////////////////////////////////////////////////////////////////////////////////
-CxImageTIF::~CxImageTIF()
-{
- if (m_tif2) TIFFClose(m_tif2);
-}
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageTIF::Decode(CxFile * hFile)
-{
- //Comment this line if you need more information on errors
- // TIFFSetErrorHandler(NULL); //<Patrick Hoffmann>
-
- //Open file and fill the TIFF structure
- // m_tif = TIFFOpen(imageFileName,"rb");
- TIFF* m_tif = _TIFFOpenEx(hFile, "rb");
-
- uint32 height=0;
- uint32 width=0;
- uint16 bitspersample=1;
- uint16 samplesperpixel=1;
- uint32 rowsperstrip=(uint32_t)-1;
- uint16 photometric=0;
- uint16 compression=1;
- uint16 orientation=ORIENTATION_TOPLEFT; //<vho>
- uint16 res_unit; //<Trifon>
- uint32 x, y;
- float resolution, offset;
- BOOL isRGB;
- uint8_t *bits; //pointer to source data
- uint8_t *bits2; //pointer to destination data
-
- cx_try
- {
- //check if it's a tiff file
- if (!m_tif)
- cx_throw("Error encountered while opening TIFF file");
-
- // <Robert Abram> - 12/2002 : get NumFrames directly, instead of looping
- // info.nNumFrames=0;
- // while(TIFFSetDirectory(m_tif,(uint16)info.nNumFrames)) info.nNumFrames++;
- info.nNumFrames = TIFFNumberOfDirectories(m_tif);
-
- if (!TIFFSetDirectory(m_tif, (uint16)info.nFrame))
- cx_throw("Error: page not present in TIFF file");
-
- //get image info
- TIFFGetField(m_tif, TIFFTAG_IMAGEWIDTH, &width);
- TIFFGetField(m_tif, TIFFTAG_IMAGELENGTH, &height);
- TIFFGetField(m_tif, TIFFTAG_SAMPLESPERPIXEL, &samplesperpixel);
- TIFFGetField(m_tif, TIFFTAG_BITSPERSAMPLE, &bitspersample);
- TIFFGetField(m_tif, TIFFTAG_ROWSPERSTRIP, &rowsperstrip);
- TIFFGetField(m_tif, TIFFTAG_PHOTOMETRIC, &photometric);
- TIFFGetField(m_tif, TIFFTAG_ORIENTATION, &orientation);
-
- if (info.nEscape == -1) {
- // Return output dimensions only
- head.biWidth = width;
- head.biHeight = height;
- info.dwType = CXIMAGE_FORMAT_TIF;
- cx_throw("output dimensions returned");
- }
-
- TIFFGetFieldDefaulted(m_tif, TIFFTAG_RESOLUTIONUNIT, &res_unit);
- if (TIFFGetField(m_tif, TIFFTAG_XRESOLUTION, &resolution))
- {
- if (res_unit == RESUNIT_CENTIMETER) resolution = (float)(resolution*2.54f + 0.5f);
- SetXDPI((int32_t)resolution);
- }
- if (TIFFGetField(m_tif, TIFFTAG_YRESOLUTION, &resolution))
- {
- if (res_unit == RESUNIT_CENTIMETER) resolution = (float)(resolution*2.54f + 0.5f);
- SetYDPI((int32_t)resolution);
- }
-
- if (TIFFGetField(m_tif, TIFFTAG_XPOSITION, &offset)) info.xOffset = (int32_t)offset;
- if (TIFFGetField(m_tif, TIFFTAG_YPOSITION, &offset)) info.yOffset = (int32_t)offset;
-
- head.biClrUsed=0;
- info.nBkgndIndex =-1;
-
- if (rowsperstrip>height){
- rowsperstrip=height;
- TIFFSetField(m_tif, TIFFTAG_ROWSPERSTRIP, rowsperstrip);
- }
-
- isRGB = /*(bitspersample >= 8) && (VK: it is possible so for RGB to have < 8 bpp!)*/
- (photometric == PHOTOMETRIC_RGB) ||
- (photometric == PHOTOMETRIC_YCBCR) ||
- (photometric == PHOTOMETRIC_SEPARATED) ||
- (photometric == PHOTOMETRIC_LOGL) ||
- (photometric == PHOTOMETRIC_LOGLUV);
-
- if (isRGB){
- head.biBitCount=24;
- }else{
- if ((photometric==PHOTOMETRIC_MINISBLACK)||(photometric==PHOTOMETRIC_MINISWHITE)||(photometric==PHOTOMETRIC_PALETTE)){
- if (bitspersample == 1){
- head.biBitCount=1; //B&W image
- head.biClrUsed =2;
- } else if (bitspersample == 4) {
- head.biBitCount=4; //16 colors gray scale
- head.biClrUsed =16;
- } else {
- head.biBitCount=8; //gray scale
- head.biClrUsed =256;
- }
- } else if (bitspersample == 4) {
- head.biBitCount=4; // 16 colors
- head.biClrUsed=16;
- } else {
- head.biBitCount=8; //256 colors
- head.biClrUsed=256;
- }
-
- if ((bitspersample > 8) && (photometric==PHOTOMETRIC_PALETTE)) // + VK + (BIG palette! => convert to RGB)
- { head.biBitCount=24;
- head.biClrUsed =0;
- }
- }
-
- if (info.nEscape) cx_throw("Cancelled"); // <vho> - cancel decoding
-
- Create(width,height,head.biBitCount,CXIMAGE_FORMAT_TIF); //image creation
- if (!pDib) cx_throw("CxImageTIF can't create image");
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (samplesperpixel==4) AlphaCreate(); //add alpha support for 32bpp tiffs
- if (samplesperpixel==2 && bitspersample==8) AlphaCreate(); //add alpha support for 8bpp + alpha
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- TIFFGetField(m_tif, TIFFTAG_COMPRESSION, &compression);
- SetCodecOption(compression); // <DPR> save original compression type
-
- if (isRGB) {
- // Read the whole image into one big RGBA buffer using
- // the traditional TIFFReadRGBAImage() API that we trust.
- uint32* raster; // retrieve RGBA image
- uint32 *row;
-
- raster = (uint32*)_TIFFmalloc(width * height * sizeof (uint32));
- if (raster == NULL) cx_throw("No space for raster buffer");
-
- // Read the image in one chunk into an RGBA array
- if(!TIFFReadRGBAImage(m_tif, width, height, raster, 1)) {
- _TIFFfree(raster);
- cx_throw("Corrupted TIFF file!");
- }
-
- // read the raster lines and save them in the DIB
- // with RGB mode, we have to change the order of the 3 samples RGB
- row = &raster[0];
- bits2 = info.pImage;
- for (y = 0; y < height; y++) {
-
- if (info.nEscape){ // <vho> - cancel decoding
- _TIFFfree(raster);
- cx_throw("Cancelled");
- }
-
- bits = bits2;
- for (x = 0; x < width; x++) {
- *bits++ = (uint8_t)TIFFGetB(row[x]);
- *bits++ = (uint8_t)TIFFGetG(row[x]);
- *bits++ = (uint8_t)TIFFGetR(row[x]);
-#if CXIMAGE_SUPPORT_ALPHA
- if (samplesperpixel==4) AlphaSet(x,y,(uint8_t)TIFFGetA(row[x]));
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- row += width;
- bits2 += info.dwEffWidth;
- }
- _TIFFfree(raster);
- } else {
- int32_t BIG_palette = (bitspersample > 8) && // + VK
- (photometric==PHOTOMETRIC_PALETTE);
- if (BIG_palette && (bitspersample > 24)) // + VK
- cx_throw("Too big palette to handle"); // + VK
-
- RGBQUAD *pal;
- pal=(RGBQUAD*)calloc(BIG_palette ? 1<<bitspersample : 256,sizeof(RGBQUAD));
- // ! VK: it coasts nothing but more correct to use 256 as temp palette storage
- // ! VK: but for case of BIG palette it just copied
- if (pal==NULL) cx_throw("Unable to allocate TIFF palette");
-
- int32_t bpp = bitspersample <= 8 ? bitspersample : 8; // + VK (to use instead of bitspersample for case of > 8)
-
- // set up the colormap based on photometric
- switch(photometric) {
- case PHOTOMETRIC_MINISBLACK: // bitmap and greyscale image types
- case PHOTOMETRIC_MINISWHITE:
- if (bitspersample == 1) { // Monochrome image
- if (photometric == PHOTOMETRIC_MINISBLACK) {
- pal[1].rgbRed = pal[1].rgbGreen = pal[1].rgbBlue = 255;
- } else {
- pal[0].rgbRed = pal[0].rgbGreen = pal[0].rgbBlue = 255;
- }
- } else { // need to build the scale for greyscale images
- if (photometric == PHOTOMETRIC_MINISBLACK) {
- for (int32_t i=0; i<(1<<bpp); i++){
- pal[i].rgbRed = pal[i].rgbGreen = pal[i].rgbBlue = (uint8_t)(i*(255/((1<<bpp)-1)));
- }
- } else {
- for (int32_t i=0; i<(1<<bpp); i++){
- pal[i].rgbRed = pal[i].rgbGreen = pal[i].rgbBlue = (uint8_t)(255-i*(255/((1<<bpp)-1)));
- }
- }
- }
- break;
- case PHOTOMETRIC_PALETTE: // color map indexed
- uint16 *red;
- uint16 *green;
- uint16 *blue;
- TIFFGetField(m_tif, TIFFTAG_COLORMAP, &red, &green, &blue);
-
- // Is the palette 16 or 8 bits ?
- BOOL Palette16Bits = /*FALSE*/ BIG_palette;
- if (!BIG_palette) {
- int32_t n= 1<<bpp;
- while (n-- > 0) {
- if (red[n] >= 256 || green[n] >= 256 || blue[n] >= 256) {
- Palette16Bits=TRUE;
- break;
- }
- }
- }
-
- // load the palette in the DIB
- for (int32_t i = (1 << ( BIG_palette ? bitspersample : bpp )) - 1; i >= 0; i--) {
- if (Palette16Bits) {
- pal[i].rgbRed =(uint8_t) CVT(red[i]);
- pal[i].rgbGreen = (uint8_t) CVT(green[i]);
- pal[i].rgbBlue = (uint8_t) CVT(blue[i]);
- } else {
- pal[i].rgbRed = (uint8_t) red[i];
- pal[i].rgbGreen = (uint8_t) green[i];
- pal[i].rgbBlue = (uint8_t) blue[i];
- }
- }
- break;
- }
- if (!BIG_palette) { // + VK (BIG palette is stored until image is ready)
- SetPalette(pal,/*head.biClrUsed*/ 1<<bpp); //palette assign // * VK
- free(pal);
- pal = NULL;
- }
-
- // read the tiff lines and save them in the DIB
- uint32 nrow;
- uint32 ys;
- int32_t line = CalculateLine(width, bitspersample * samplesperpixel);
-
- int32_t bitsize = TIFFStripSize(m_tif);
- //verify bitsize: could be wrong if StripByteCounts is missing.
- if (bitsize>(int32_t)(head.biSizeImage*samplesperpixel))
- bitsize = head.biSizeImage*samplesperpixel;
- if (bitsize<(int32_t)(info.dwEffWidth*rowsperstrip))
- bitsize = info.dwEffWidth*rowsperstrip;
-
- if ((bitspersample > 8) && (bitspersample != 16)) // + VK (for bitspersample == 9..15,17..32..64
- bitsize *= (bitspersample + 7)/8;
-
- int32_t tiled_image = TIFFIsTiled(m_tif);
- uint32 tw=0, tl=0;
- uint8_t* tilebuf=NULL;
- if (tiled_image){
- TIFFGetField(m_tif, TIFFTAG_TILEWIDTH, &tw);
- TIFFGetField(m_tif, TIFFTAG_TILELENGTH, &tl);
- rowsperstrip = tl;
- bitsize = TIFFTileSize(m_tif) * (int32_t)(1+width/tw);
- tilebuf = (uint8_t*)malloc(TIFFTileSize(m_tif));
- }
-
- bits = (uint8_t*)malloc(bitspersample==16? bitsize*2 : bitsize); // * VK
- uint8_t * bits16 = NULL; // + VK
- int32_t line16 = 0; // + VK
-
- if (!tiled_image && bitspersample==16) { // + VK +
- line16 = line;
- line = CalculateLine(width, 8 * samplesperpixel);
- bits16 = bits;
- bits = (uint8_t*)malloc(bitsize);
- }
-
- if (bits==NULL){
- if (bits16) free(bits16); // + VK
- if (pal) free(pal); // + VK
- if (tilebuf)free(tilebuf); // + VK
- cx_throw("CxImageTIF can't allocate memory");
- }
-
-#ifdef FIX_16BPP_DARKIMG // + VK: for each line, store shift count bits used to fix it
- uint8_t* row_shifts = NULL;
- if (bits16) row_shifts = (uint8_t*)malloc(height);
-#endif
-
- for (ys = 0; ys < height; ys += rowsperstrip) {
-
- if (info.nEscape){ // <vho> - cancel decoding
- free(bits);
- cx_throw("Cancelled");
- }
-
- nrow = (ys + rowsperstrip > height ? height - ys : rowsperstrip);
-
- if (tiled_image){
- uint32 imagew = TIFFScanlineSize(m_tif);
- uint32 tilew = TIFFTileRowSize(m_tif);
- int32_t iskew = imagew - tilew;
- uint8* bufp = (uint8*) bits;
-
- uint32 colb = 0;
- for (uint32 col = 0; col < width; col += tw) {
- if (TIFFReadTile(m_tif, tilebuf, col, ys, 0, 0) < 0){
- free(tilebuf);
- free(bits);
- cx_throw("Corrupted tiled TIFF file!");
- }
-
- if (colb + tw > imagew) {
- uint32 owidth = imagew - colb;
- uint32 oskew = tilew - owidth;
- TileToStrip(bufp + colb, tilebuf, nrow, owidth, oskew + iskew, oskew );
- } else {
- TileToStrip(bufp + colb, tilebuf, nrow, tilew, iskew, 0);
- }
- colb += tilew;
- }
-
- } else {
- if (TIFFReadEncodedStrip(m_tif, TIFFComputeStrip(m_tif, ys, 0),
- (bits16? bits16 : bits), nrow * (bits16 ? line16 : line)) == -1) { // * VK
-
-#ifdef NOT_IGNORE_CORRUPTED
- free(bits);
- if (bits16) free(bits16); // + VK
- cx_throw("Corrupted TIFF file!");
-#else
- break;
-#endif
- }
- }
-
- for (y = 0; y < nrow; y++) {
- int32_t offset=(nrow-y-1)*line;
- if ((bitspersample==16) && !BIG_palette) { // * VK
- int32_t offset16 = (nrow-y-1)*line16; // + VK
- if (bits16) { // + VK +
-#ifdef FIX_16BPP_DARKIMG
- int32_t the_shift;
- uint8_t hi_byte, hi_max=0;
- uint32_t xi;
- for (xi=0;xi<(uint32)line;xi++) {
- hi_byte = bits16[xi*2+offset16+1];
- if(hi_byte>hi_max)
- hi_max = hi_byte;
- }
- the_shift = (hi_max == 0) ? 8 : 0;
- if (!the_shift)
- while( ! (hi_max & 0x80) ) {
- the_shift++;
- hi_max <<= 1;
- }
- row_shifts[height-ys-nrow+y] = the_shift;
- the_shift = 8 - the_shift;
- for (xi=0;xi<(uint32)line;xi++)
- bits[xi+offset]= ((bits16[xi*2+offset16+1]<<8) | bits16[xi*2+offset16]) >> the_shift;
-#else
- for (uint32_t xi=0;xi<(uint32)line;xi++)
- bits[xi+offset]=bits16[xi*2+offset16+1];
-#endif
- } else {
- for (uint32_t xi=0;xi<width;xi++)
- bits[xi+offset]=bits[xi*2+offset+1];
- }
- }
- if (samplesperpixel==1) {
- if (BIG_palette)
- if (bits16) {
- int32_t offset16 = (nrow-y-1)*line16; // + VK
- MoveBitsPal( info.pImage + info.dwEffWidth * (height-ys-nrow+y),
- bits16 + offset16, width, bitspersample, pal );
- } else
- MoveBitsPal( info.pImage + info.dwEffWidth * (height-ys-nrow+y),
- bits + offset, width, bitspersample, pal );
- else if ((bitspersample == head.biBitCount) ||
- (bitspersample == 16)) //simple 8bpp, 4bpp image or 16bpp
- memcpy(info.pImage+info.dwEffWidth*(height-ys-nrow+y),bits+offset,min((unsigned)line, info.dwEffWidth));
- else
- MoveBits( info.pImage + info.dwEffWidth * (height-ys-nrow+y),
- bits + offset, width, bitspersample );
- } else if (samplesperpixel==2) { //8bpp image with alpha layer
- int32_t xi=0;
- int32_t ii=0;
- int32_t yi=height-ys-nrow+y;
-#if CXIMAGE_SUPPORT_ALPHA
- if (!pAlpha) AlphaCreate(); // + VK
-#endif //CXIMAGE_SUPPORT_ALPHA
- while (ii<line){
- SetPixelIndex(xi,yi,bits[ii+offset]);
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaSet(xi,yi,bits[ii+offset+1]);
-#endif //CXIMAGE_SUPPORT_ALPHA
- ii+=2;
- xi++;
- if (xi>=(int32_t)width){
- yi--;
- xi=0;
- }
- }
- } else { //photometric==PHOTOMETRIC_CIELAB
- if (head.biBitCount!=24){ //fix image
- Create(width,height,24,CXIMAGE_FORMAT_TIF);
-#if CXIMAGE_SUPPORT_ALPHA
- if (samplesperpixel==4) AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- int32_t xi=0;
- uint32 ii=0;
- int32_t yi=height-ys-nrow+y;
- RGBQUAD c;
- int32_t l,a,b,bitsoffset;
- double p,cx,cy,cz,cr,cg,cb;
- while (ii</*line*/width){ // * VK
- bitsoffset = ii*samplesperpixel+offset;
- l=bits[bitsoffset];
- a=bits[bitsoffset+1];
- b=bits[bitsoffset+2];
- if (a>127) a-=256;
- if (b>127) b-=256;
- // lab to xyz
- p = (l/2.55 + 16) / 116.0;
- cx = pow( p + a * 0.002, 3);
- cy = pow( p, 3);
- cz = pow( p - b * 0.005, 3);
- // white point
- cx*=0.95047;
- //cy*=1.000;
- cz*=1.0883;
- // xyz to rgb
- cr = 3.240479 * cx - 1.537150 * cy - 0.498535 * cz;
- cg = -0.969256 * cx + 1.875992 * cy + 0.041556 * cz;
- cb = 0.055648 * cx - 0.204043 * cy + 1.057311 * cz;
-
- if ( cr > 0.00304 ) cr = 1.055 * pow(cr,0.41667) - 0.055;
- else cr = 12.92 * cr;
- if ( cg > 0.00304 ) cg = 1.055 * pow(cg,0.41667) - 0.055;
- else cg = 12.92 * cg;
- if ( cb > 0.00304 ) cb = 1.055 * pow(cb,0.41667) - 0.055;
- else cb = 12.92 * cb;
-
- c.rgbRed =(uint8_t)max(0,min(255,(int32_t)(cr*255)));
- c.rgbGreen=(uint8_t)max(0,min(255,(int32_t)(cg*255)));
- c.rgbBlue =(uint8_t)max(0,min(255,(int32_t)(cb*255)));
-
- SetPixelColor(xi,yi,c);
-#if CXIMAGE_SUPPORT_ALPHA
- if (samplesperpixel==4) AlphaSet(xi,yi,bits[bitsoffset+3]);
-#endif //CXIMAGE_SUPPORT_ALPHA
- ii++;
- xi++;
- if (xi>=(int32_t)width){
- yi--;
- xi=0;
- }
- }
- }
- }
- }
- free(bits);
- if (bits16) free(bits16);
-
-#ifdef FIX_16BPP_DARKIMG
- if (row_shifts && (samplesperpixel == 1) && (bitspersample==16) && !BIG_palette) {
- // 1. calculate maximum necessary shift
- int32_t min_row_shift = 8;
- for( y=0; y<height; y++ ) {
- if (min_row_shift > row_shifts[y]) min_row_shift = row_shifts[y];
- }
- // 2. for rows having less shift value, correct such rows:
- for( y=0; y<height; y++ ) {
- if (min_row_shift < row_shifts[y]) {
- int32_t need_shift = row_shifts[y] - min_row_shift;
- uint8_t* data = info.pImage + info.dwEffWidth * y;
- for( x=0; x<width; x++, data++ )
- *data >>= need_shift;
- }
- }
- }
- if (row_shifts) free( row_shifts );
-#endif
-
- if (tiled_image) free(tilebuf);
- if (pal) free(pal);
-
- switch(orientation){
- case ORIENTATION_TOPRIGHT: /* row 0 top, col 0 rhs */
- Mirror();
- break;
- case ORIENTATION_BOTRIGHT: /* row 0 bottom, col 0 rhs */
- Flip();
- Mirror();
- break;
- case ORIENTATION_BOTLEFT: /* row 0 bottom, col 0 lhs */
- Flip();
- break;
- case ORIENTATION_LEFTTOP: /* row 0 lhs, col 0 top */
- RotateRight();
- Mirror();
- break;
- case ORIENTATION_RIGHTTOP: /* row 0 rhs, col 0 top */
- RotateLeft();
- break;
- case ORIENTATION_RIGHTBOT: /* row 0 rhs, col 0 bottom */
- RotateLeft();
- Mirror();
- break;
- case ORIENTATION_LEFTBOT: /* row 0 lhs, col 0 bottom */
- RotateRight();
- break;
- }
-
- }
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (m_tif) TIFFClose(m_tif);
- if (info.nEscape == -1 && info.dwType == CXIMAGE_FORMAT_TIF) return true;
- return false;
- }
- TIFFClose(m_tif);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageTIF::Encode(CxFile * hFile, bool bAppend)
-{
- cx_try
- {
- if (hFile==NULL) cx_throw(CXIMAGE_ERR_NOFILE);
- if (pDib==NULL) cx_throw(CXIMAGE_ERR_NOIMAGE);
-
- // <RJ> replaced "w+b" with "a", to append an image directly on an existing file
- if (m_tif2==NULL) m_tif2=_TIFFOpenEx(hFile, "a");
- if (m_tif2==NULL) cx_throw("initialization fail");
-
- if (bAppend || m_pages) m_multipage=true;
- m_pages++;
-
- if (!EncodeBody(m_tif2,m_multipage,m_pages,m_pages)) cx_throw("Error saving TIFF file");
- if (bAppend) {
- if (!TIFFWriteDirectory(m_tif2)) cx_throw("Error saving TIFF directory");
- }
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- if (m_tif2){
- TIFFClose(m_tif2);
- m_tif2=NULL;
- m_multipage=false;
- m_pages=0;
- }
- return false;
- }
- if (!bAppend){
- TIFFClose(m_tif2);
- m_tif2=NULL;
- m_multipage=false;
- m_pages=0;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-// Thanks to Abe <God(dot)bless(at)marihuana(dot)com>
-bool CxImageTIF::Encode(CxFile * hFile, CxImage ** pImages, int32_t pagecount)
-{
- cx_try
- {
- if (hFile==NULL) cx_throw("invalid file pointer");
- if (pImages==NULL || pagecount<=0) cx_throw("multipage TIFF, no images!");
-
- int32_t i;
- for (i=0; i<pagecount; i++){
- if (pImages[i]==NULL)
- cx_throw("Bad image pointer");
- if (!(pImages[i]->IsValid()))
- cx_throw("Empty image");
- }
-
- CxImageTIF ghost;
- for (i=0; i<pagecount; i++){
- ghost.Ghost(pImages[i]);
- if (!ghost.Encode(hFile,true)) cx_throw("Error saving TIFF file");
- }
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return false;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageTIF::EncodeBody(TIFF *m_tif, bool multipage, int32_t page, int32_t pagecount)
-{
- uint32 height=head.biHeight;
- uint32 width=head.biWidth;
- uint16 bitcount=head.biBitCount;
- uint16 bitspersample;
- uint16 samplesperpixel;
- uint16 photometric=0;
- uint16 compression;
-// uint16 pitch;
-// int32_t line;
- uint32 x, y;
-
- samplesperpixel = ((bitcount == 24) || (bitcount == 32)) ? (uint8_t)3 : (uint8_t)1;
-#if CXIMAGE_SUPPORT_ALPHA
- if (bitcount==24 && AlphaIsValid()) { bitcount=32; samplesperpixel=4; }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- bitspersample = bitcount / samplesperpixel;
-
- //set the PHOTOMETRIC tag
- RGBQUAD *rgb = GetPalette();
- switch (bitcount) {
- case 1:
- if (CompareColors(&rgb[0],&rgb[1])<0) {
- /* <abe> some viewers do not handle PHOTOMETRIC_MINISBLACK:
- * let's transform the image in PHOTOMETRIC_MINISWHITE
- */
- //invert the colors
- RGBQUAD tempRGB=GetPaletteColor(0);
- SetPaletteColor(0,GetPaletteColor(1));
- SetPaletteColor(1,tempRGB);
- //invert the pixels
- uint8_t *iSrc=info.pImage;
- for (uint32_t i=0;i<head.biSizeImage;i++){
- *iSrc=(uint8_t)~(*(iSrc));
- iSrc++;
- }
- photometric = PHOTOMETRIC_MINISWHITE;
- //photometric = PHOTOMETRIC_MINISBLACK;
- } else {
- photometric = PHOTOMETRIC_MINISWHITE;
- }
- break;
- case 4: // Check if the DIB has a color or a greyscale palette
- case 8:
- photometric = PHOTOMETRIC_MINISBLACK; //default to gray scale
- for (x = 0; x < head.biClrUsed; x++) {
- if ((rgb->rgbRed != x)||(rgb->rgbRed != rgb->rgbGreen)||(rgb->rgbRed != rgb->rgbBlue)){
- photometric = PHOTOMETRIC_PALETTE;
- break;
- }
- rgb++;
- }
- break;
- case 24:
- case 32:
- photometric = PHOTOMETRIC_RGB;
- break;
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid() && bitcount==8) samplesperpixel=2; //8bpp + alpha layer
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-// line = CalculateLine(width, bitspersample * samplesperpixel);
-// pitch = (uint16)CalculatePitch(line);
-
- //prepare the palette struct
- RGBQUAD pal[256];
- if (GetPalette()){
- uint8_t b;
- memcpy(pal,GetPalette(),GetPaletteSize());
- for(uint16_t a=0;a<head.biClrUsed;a++){ //swap blue and red components
- b=pal[a].rgbBlue; pal[a].rgbBlue=pal[a].rgbRed; pal[a].rgbRed=b;
- }
- }
-
- // handle standard width/height/bpp stuff
- TIFFSetField(m_tif, TIFFTAG_IMAGEWIDTH, width);
- TIFFSetField(m_tif, TIFFTAG_IMAGELENGTH, height);
- TIFFSetField(m_tif, TIFFTAG_SAMPLESPERPIXEL, samplesperpixel);
- TIFFSetField(m_tif, TIFFTAG_BITSPERSAMPLE, bitspersample);
- TIFFSetField(m_tif, TIFFTAG_PHOTOMETRIC, photometric);
- TIFFSetField(m_tif, TIFFTAG_PLANARCONFIG, PLANARCONFIG_CONTIG); // single image plane
- TIFFSetField(m_tif, TIFFTAG_ORIENTATION, ORIENTATION_TOPLEFT);
-
- uint32 rowsperstrip = TIFFDefaultStripSize(m_tif, (uint32) -1); //<REC> gives better compression
- TIFFSetField(m_tif, TIFFTAG_ROWSPERSTRIP, rowsperstrip);
-
- // handle metrics
- TIFFSetField(m_tif, TIFFTAG_RESOLUTIONUNIT, RESUNIT_INCH);
- TIFFSetField(m_tif, TIFFTAG_XRESOLUTION, (float)info.xDPI);
- TIFFSetField(m_tif, TIFFTAG_YRESOLUTION, (float)info.yDPI);
-// TIFFSetField(m_tif, TIFFTAG_XPOSITION, (float)info.xOffset);
-// TIFFSetField(m_tif, TIFFTAG_YPOSITION, (float)info.yOffset);
-
- // multi-paging - Thanks to Abe <God(dot)bless(at)marihuana(dot)com>
- if (multipage)
- {
- char page_number[20];
- sprintf(page_number, "Page %d", page);
-
- TIFFSetField(m_tif, TIFFTAG_SUBFILETYPE, FILETYPE_PAGE);
- TIFFSetField(m_tif, TIFFTAG_PAGENUMBER, page,pagecount);
- TIFFSetField(m_tif, TIFFTAG_PAGENAME, page_number);
- } else {
- TIFFSetField(m_tif, TIFFTAG_SUBFILETYPE, 0);
- }
-
- // palettes (image colormaps are automatically scaled to 16-bits)
- if (photometric == PHOTOMETRIC_PALETTE) {
- uint16 *r, *g, *b;
- r = (uint16 *) _TIFFmalloc(sizeof(uint16) * 3 * 256);
- g = r + 256;
- b = g + 256;
-
- for (int32_t i = 255; i >= 0; i--) {
- b[i] = (uint16)SCALE((uint16)pal[i].rgbRed);
- g[i] = (uint16)SCALE((uint16)pal[i].rgbGreen);
- r[i] = (uint16)SCALE((uint16)pal[i].rgbBlue);
- }
-
- TIFFSetField(m_tif, TIFFTAG_COLORMAP, r, g, b);
- _TIFFfree(r);
- }
-
- // compression
- if (GetCodecOption(CXIMAGE_FORMAT_TIF)) {
- compression = (uint16_t)GetCodecOption(CXIMAGE_FORMAT_TIF);
- } else {
- switch (bitcount) {
- case 1 :
- compression = COMPRESSION_CCITTFAX4;
- break;
- case 4 :
- case 8 :
- compression = COMPRESSION_LZW;
- break;
- case 24 :
- case 32 :
- compression = COMPRESSION_JPEG;
- break;
- default :
- compression = COMPRESSION_NONE;
- break;
- }
- }
- TIFFSetField(m_tif, TIFFTAG_COMPRESSION, compression);
-
- switch (compression) {
- case COMPRESSION_JPEG:
- TIFFSetField(m_tif, TIFFTAG_JPEGQUALITY, GetJpegQuality());
- TIFFSetField(m_tif, TIFFTAG_ROWSPERSTRIP, ((7+rowsperstrip)>>3)<<3);
- break;
- case COMPRESSION_LZW:
- if (bitcount>=8) TIFFSetField(m_tif, TIFFTAG_PREDICTOR, 2);
- break;
- }
-
- // read the DIB lines from bottom to top and save them in the TIF
-
- uint8_t *bits;
- switch(bitcount) {
- case 1 :
- case 4 :
- case 8 :
- {
- if (samplesperpixel==1){
- bits = (uint8_t*)malloc(info.dwEffWidth);
- if (!bits) return false;
- for (y = 0; y < height; y++) {
- memcpy(bits,info.pImage + (height - y - 1)*info.dwEffWidth,info.dwEffWidth);
- if (TIFFWriteScanline(m_tif,bits, y, 0)==-1){
- free(bits);
- return false;
- }
- }
- free(bits);
- }
-#if CXIMAGE_SUPPORT_ALPHA
- else { //8bpp + alpha layer
- bits = (uint8_t*)malloc(2*width);
- if (!bits) return false;
- for (y = 0; y < height; y++) {
- for (x=0;x<width;x++){
- bits[2*x]=BlindGetPixelIndex(x,height - y - 1);
- bits[2*x+1]=AlphaGet(x,height - y - 1);
- }
- if (TIFFWriteScanline(m_tif,bits, y, 0)==-1) {
- free(bits);
- return false;
- }
- }
- free(bits);
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
- break;
- }
- case 24:
- {
- uint8_t *buffer = (uint8_t *)malloc(info.dwEffWidth);
- if (!buffer) return false;
- for (y = 0; y < height; y++) {
- // get a pointer to the scanline
- memcpy(buffer, info.pImage + (height - y - 1)*info.dwEffWidth, info.dwEffWidth);
- // TIFFs store color data RGB instead of BGR
- uint8_t *pBuf = buffer;
- for (x = 0; x < width; x++) {
- uint8_t tmp = pBuf[0];
- pBuf[0] = pBuf[2];
- pBuf[2] = tmp;
- pBuf += 3;
- }
- // write the scanline to disc
- if (TIFFWriteScanline(m_tif, buffer, y, 0)==-1){
- free(buffer);
- return false;
- }
- }
- free(buffer);
- break;
- }
- case 32 :
- {
-#if CXIMAGE_SUPPORT_ALPHA
- uint8_t *buffer = (uint8_t *)malloc((info.dwEffWidth*4)/3);
- if (!buffer) return false;
- for (y = 0; y < height; y++) {
- // get a pointer to the scanline
- memcpy(buffer, info.pImage + (height - y - 1)*info.dwEffWidth, info.dwEffWidth);
- // TIFFs store color data RGB instead of BGR
- uint8_t *pSrc = buffer + 3 * width;
- uint8_t *pDst = buffer + 4 * width;
- for (x = 0; x < width; x++) {
- pDst-=4;
- pSrc-=3;
- pDst[3] = AlphaGet(width-x-1,height-y-1);
- pDst[2] = pSrc[0];
- pDst[1] = pSrc[1];
- pDst[0] = pSrc[2];
- }
- // write the scanline to disc
- if (TIFFWriteScanline(m_tif, buffer, y, 0)==-1){
- free(buffer);
- return false;
- }
- }
- free(buffer);
-#endif //CXIMAGE_SUPPORT_ALPHA
- break;
- }
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTIF::TileToStrip(uint8* out, uint8* in, uint32 rows, uint32 cols, int32_t outskew, int32_t inskew)
-{
- while (rows-- > 0) {
- uint32 j = cols;
- while (j-- > 0)
- *out++ = *in++;
- out += outskew;
- in += inskew;
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-TIFF* CxImageTIF::TIFFOpenEx(CxFile * hFile)
-{
- if (hFile) return _TIFFOpenEx(hFile, "rb");
- return NULL;
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTIF::TIFFCloseEx(TIFF* tif)
-{
- if (tif) TIFFClose(tif);
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTIF::MoveBits( uint8_t* dest, uint8_t* from, int32_t count, int32_t bpp )
-{ int32_t offbits = 0;
- uint16 w;
- uint32 d;
- if (bpp <= 8) {
- while (count-- > 0) {
- if (offbits + bpp <= 8)
- w = *from >> (8 - offbits - bpp);
- else {
- w = *from++ << (offbits + bpp - 8);
- w |= *from >> (16 - offbits - bpp);
- }
- offbits += bpp;
- if (offbits >= 8) {
- offbits -= 8;
- if (offbits == 0) from++;
- }
- *dest++ = (uint8_t)w & ((1 << bpp)-1);
- }
- } else if (bpp < 16) {
- while (count-- > 0) {
- d = (*from << 24) | (from[1]<<16) | (from[2]<<8) | from[3];
- d >>= (24 - offbits);
- *dest++ = (uint8_t) ( d );
- offbits += bpp;
- while (offbits >= 8) {
- from++;
- offbits -= 8;
- }
- }
- } else if (bpp < 32) {
- while (count-- > 0) {
- d = (*from << 24) | (from[1]<<16) | (from[2]<<8) | from[3];
- //d = *(uint32*)from;
- *dest++ = (uint8_t) ( d >> (offbits + bpp - 8) );
- offbits += bpp;
- while (offbits >= 8) {
- from++;
- offbits -= 8;
- }
- }
- } else {
- while (count-- > 0) {
- d = *(uint32*)from;
- *dest++ = (uint8_t) (d >> 24);
- from += 4;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-void CxImageTIF::MoveBitsPal( uint8_t* dest, uint8_t*from, int32_t count, int32_t bpp, RGBQUAD* pal )
-{ int32_t offbits = 0;
- uint32 d;
- uint16 palidx;
- while (count-- > 0) {
- d = (*from << 24) | ( *( from + 1 ) << 16 )
- | ( *( from + 2 ) << 8 )
- | ( *( from + 3 ) );
- palidx = (uint16) (d >> (32 - offbits - bpp));
- if (bpp < 16) {
- palidx <<= 16-bpp;
- palidx = (palidx >> 8) | (palidx <<8);
- palidx >>= 16-bpp;
- } else palidx = (palidx >> 8) | (palidx << 8);
- *dest++ = pal[palidx].rgbBlue;
- *dest++ = pal[palidx].rgbGreen;
- *dest++ = pal[palidx].rgbRed;
- offbits += bpp;
- while (offbits >= 8) {
- from++;
- offbits -= 8;
- }
- }
-}
-////////////////////////////////////////////////////////////////////////////////
-
-#endif // CXIMAGE_SUPPORT_TIF
diff --git a/hge/CxImage/ximatif.h b/hge/CxImage/ximatif.h deleted file mode 100644 index 5ea31f0..0000000 --- a/hge/CxImage/ximatif.h +++ /dev/null @@ -1,62 +0,0 @@ -/*
- * File: ximatif.h
- * Purpose: TIFF Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageTIF (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- *
- * Special thanks to Troels Knakkergaard for new features, enhancements and bugfixes
- *
- * Special thanks to Abe <God(dot)bless(at)marihuana(dot)com> for MultiPageTIFF code.
- *
- * LibTIFF is:
- * Copyright (c) 1988-1997 Sam Leffler
- * Copyright (c) 1991-1997 Silicon Graphics, Inc.
- * ==========================================================
- */
-
-#if !defined(__ximatif_h)
-#define __ximatif_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_TIF
-
-#include "../tiff/tiffio.h"
-
-class DLL_EXP CxImageTIF: public CxImage
-{
-public:
- CxImageTIF(): CxImage(CXIMAGE_FORMAT_TIF) {m_tif2=NULL; m_multipage=false; m_pages=0;}
- ~CxImageTIF();
-
- TIFF* TIFFOpenEx(CxFile * hFile);
- void TIFFCloseEx(TIFF* tif);
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_TIF);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_TIF);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile, bool bAppend=false);
- bool Encode(CxFile * hFile, CxImage ** pImages, int32_t pagecount);
- bool Encode(FILE *hFile, bool bAppend=false) { CxIOFile file(hFile); return Encode(&file,bAppend); }
- bool Encode(FILE *hFile, CxImage ** pImages, int32_t pagecount)
- { CxIOFile file(hFile); return Encode(&file, pImages, pagecount); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
-protected:
- void TileToStrip(uint8* out, uint8* in, uint32 rows, uint32 cols, int32_t outskew, int32_t inskew);
- bool EncodeBody(TIFF *m_tif, bool multipage=false, int32_t page=0, int32_t pagecount=0);
- TIFF *m_tif2;
- bool m_multipage;
- int32_t m_pages;
- void MoveBits( uint8_t* dest, uint8_t* from, int32_t count, int32_t bpp );
- void MoveBitsPal( uint8_t* dest, uint8_t*from, int32_t count, int32_t bpp, RGBQUAD* pal );
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximatran.cpp b/hge/CxImage/ximatran.cpp deleted file mode 100644 index decac18..0000000 --- a/hge/CxImage/ximatran.cpp +++ /dev/null @@ -1,2728 +0,0 @@ -// xImaTran.cpp : Transformation functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-#include "ximath.h"
-
-#if CXIMAGE_SUPPORT_BASICTRANSFORMATIONS
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Increases the number of bits per pixel of the image.
- * \param nbit: 4, 8, 24
- */
-bool CxImage::IncreaseBpp(uint32_t nbit)
-{
- if (!pDib) return false;
- switch (nbit){
- case 4:
- {
- if (head.biBitCount==4) return true;
- if (head.biBitCount>4) return false;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth,head.biHeight,4,info.dwType);
- tmp.SetPalette(GetPalette(),GetNumColors());
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
-
-#if CXIMAGE_SUPPORT_SELECTION
- tmp.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- for (int32_t y=0;y<head.biHeight;y++){
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- tmp.BlindSetPixelIndex(x,y,BlindGetPixelIndex(x,y));
- }
- }
- Transfer(tmp);
- return true;
- }
- case 8:
- {
- if (head.biBitCount==8) return true;
- if (head.biBitCount>8) return false;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth,head.biHeight,8,info.dwType);
- tmp.SetPalette(GetPalette(),GetNumColors());
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- tmp.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- for (int32_t y=0;y<head.biHeight;y++){
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- tmp.BlindSetPixelIndex(x,y,BlindGetPixelIndex(x,y));
- }
- }
- Transfer(tmp);
- return true;
- }
- case 24:
- {
- if (head.biBitCount==24) return true;
- if (head.biBitCount>24) return false;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth,head.biHeight,24,info.dwType);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- if (info.nBkgndIndex>=0) //translate transparency
- tmp.info.nBkgndColor=GetPaletteColor((uint8_t)info.nBkgndIndex);
-
-#if CXIMAGE_SUPPORT_SELECTION
- tmp.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaCopy(*this);
- if (AlphaPaletteIsValid() && !AlphaIsValid()) tmp.AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- for (int32_t y=0;y<head.biHeight;y++){
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- tmp.BlindSetPixelColor(x,y,BlindGetPixelColor(x,y),true);
- }
- }
- Transfer(tmp);
- return true;
- }
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::GrayScale()
-{
- if (!pDib) return false;
- if (head.biBitCount<=8){
- RGBQUAD* ppal=GetPalette();
- int32_t gray;
- //converts the colors to gray, use the blue channel only
- for(uint32_t i=0;i<head.biClrUsed;i++){
- gray=(int32_t)RGB2GRAY(ppal[i].rgbRed,ppal[i].rgbGreen,ppal[i].rgbBlue);
- ppal[i].rgbBlue = (uint8_t)gray;
- }
- // preserve transparency
- if (info.nBkgndIndex >= 0) info.nBkgndIndex = ppal[info.nBkgndIndex].rgbBlue;
- //create a "real" 8 bit gray scale image
- if (head.biBitCount==8){
- uint8_t *img=info.pImage;
- for(uint32_t i=0;i<head.biSizeImage;i++) img[i]=ppal[img[i]].rgbBlue;
- SetGrayPalette();
- }
- //transform to 8 bit gray scale
- if (head.biBitCount==4 || head.biBitCount==1){
- CxImage ima;
- ima.CopyInfo(*this);
- if (!ima.Create(head.biWidth,head.biHeight,8,info.dwType)) return false;
- ima.SetGrayPalette();
-#if CXIMAGE_SUPPORT_SELECTION
- ima.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-#if CXIMAGE_SUPPORT_ALPHA
- ima.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
- for (int32_t y=0;y<head.biHeight;y++){
- uint8_t *iDst = ima.GetBits(y);
- uint8_t *iSrc = GetBits(y);
- for (int32_t x=0;x<head.biWidth; x++){
- //iDst[x]=ppal[BlindGetPixelIndex(x,y)].rgbBlue;
- if (head.biBitCount==4){
- uint8_t pos = (uint8_t)(4*(1-x%2));
- iDst[x]= ppal[(uint8_t)((iSrc[x >> 1]&((uint8_t)0x0F<<pos)) >> pos)].rgbBlue;
- } else {
- uint8_t pos = (uint8_t)(7-x%8);
- iDst[x]= ppal[(uint8_t)((iSrc[x >> 3]&((uint8_t)0x01<<pos)) >> pos)].rgbBlue;
- }
- }
- }
- Transfer(ima);
- }
- } else { //from RGB to 8 bit gray scale
- uint8_t *iSrc=info.pImage;
- CxImage ima;
- ima.CopyInfo(*this);
- if (!ima.Create(head.biWidth,head.biHeight,8,info.dwType)) return false;
- ima.SetGrayPalette();
- if (GetTransIndex()>=0){
- RGBQUAD c = GetTransColor();
- ima.SetTransIndex((uint8_t)RGB2GRAY(c.rgbRed,c.rgbGreen,c.rgbBlue));
- }
-#if CXIMAGE_SUPPORT_SELECTION
- ima.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-#if CXIMAGE_SUPPORT_ALPHA
- ima.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
- uint8_t *img=ima.GetBits();
- int32_t l8=ima.GetEffWidth();
- int32_t l=head.biWidth * 3;
- for(int32_t y=0; y < head.biHeight; y++) {
- for(int32_t x=0,x8=0; x < l; x+=3,x8++) {
- img[x8+y*l8]=(uint8_t)RGB2GRAY(*(iSrc+x+2),*(iSrc+x+1),*(iSrc+x+0));
- }
- iSrc+=info.dwEffWidth;
- }
- Transfer(ima);
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa Mirror
- * \author [qhbo]
- */
-bool CxImage::Flip(bool bFlipSelection, bool bFlipAlpha)
-{
- if (!pDib) return false;
-
- uint8_t *buff = (uint8_t*)malloc(info.dwEffWidth);
- if (!buff) return false;
-
- uint8_t *iSrc,*iDst;
- iSrc = GetBits(head.biHeight-1);
- iDst = GetBits(0);
- for (int32_t i=0; i<(head.biHeight/2); ++i)
- {
- memcpy(buff, iSrc, info.dwEffWidth);
- memcpy(iSrc, iDst, info.dwEffWidth);
- memcpy(iDst, buff, info.dwEffWidth);
- iSrc-=info.dwEffWidth;
- iDst+=info.dwEffWidth;
- }
-
- free(buff);
-
- if (bFlipSelection){
-#if CXIMAGE_SUPPORT_SELECTION
- SelectionFlip();
-#endif //CXIMAGE_SUPPORT_SELECTION
- }
-
- if (bFlipAlpha){
-#if CXIMAGE_SUPPORT_ALPHA
- AlphaFlip();
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \sa Flip
- */
-bool CxImage::Mirror(bool bMirrorSelection, bool bMirrorAlpha)
-{
- if (!pDib) return false;
-
- CxImage* imatmp = new CxImage(*this,false,true,true);
- if (!imatmp) return false;
- if (!imatmp->IsValid()){
- delete imatmp;
- return false;
- }
-
- uint8_t *iSrc,*iDst;
- int32_t wdt=(head.biWidth-1) * (head.biBitCount==24 ? 3:1);
- iSrc=info.pImage + wdt;
- iDst=imatmp->info.pImage;
- int32_t x,y;
- switch (head.biBitCount){
- case 24:
- for(y=0; y < head.biHeight; y++){
- for(x=0; x <= wdt; x+=3){
- *(iDst+x)=*(iSrc-x);
- *(iDst+x+1)=*(iSrc-x+1);
- *(iDst+x+2)=*(iSrc-x+2);
- }
- iSrc+=info.dwEffWidth;
- iDst+=info.dwEffWidth;
- }
- break;
- case 8:
- for(y=0; y < head.biHeight; y++){
- for(x=0; x <= wdt; x++)
- *(iDst+x)=*(iSrc-x);
- iSrc+=info.dwEffWidth;
- iDst+=info.dwEffWidth;
- }
- break;
- default:
- for(y=0; y < head.biHeight; y++){
- for(x=0; x <= wdt; x++)
- imatmp->SetPixelIndex(x,y,GetPixelIndex(wdt-x,y));
- }
- }
-
- if (bMirrorSelection){
-#if CXIMAGE_SUPPORT_SELECTION
- imatmp->SelectionMirror();
-#endif //CXIMAGE_SUPPORT_SELECTION
- }
-
- if (bMirrorAlpha){
-#if CXIMAGE_SUPPORT_ALPHA
- imatmp->AlphaMirror();
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
-
- Transfer(*imatmp);
- delete imatmp;
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-#define RBLOCK 64
-
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::RotateLeft(CxImage* iDst)
-{
- if (!pDib) return false;
-
- int32_t newWidth = GetHeight();
- int32_t newHeight = GetWidth();
-
- CxImage imgDest;
- imgDest.CopyInfo(*this);
- imgDest.Create(newWidth,newHeight,GetBpp(),GetType());
- imgDest.SetPalette(GetPalette());
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) imgDest.AlphaCreate();
-#endif
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()) imgDest.SelectionCreate();
-#endif
-
- int32_t x,x2,y,dlineup;
-
- // Speedy rotate for BW images <Robert Abram>
- if (head.biBitCount == 1) {
-
- uint8_t *sbits, *dbits, *dbitsmax, bitpos, *nrow,*srcdisp;
- ldiv_t div_r;
-
- uint8_t *bsrc = GetBits(), *bdest = imgDest.GetBits();
- dbitsmax = bdest + imgDest.head.biSizeImage - 1;
- dlineup = 8 * imgDest.info.dwEffWidth - imgDest.head.biWidth;
-
- imgDest.Clear(0);
- for (y = 0; y < head.biHeight; y++) {
- // Figure out the Column we are going to be copying to
- div_r = ldiv(y + dlineup, (int32_t)8);
- // set bit pos of src column byte
- bitpos = (uint8_t)(1 << div_r.rem);
- srcdisp = bsrc + y * info.dwEffWidth;
- for (x = 0; x < (int32_t)info.dwEffWidth; x++) {
- // Get Source Bits
- sbits = srcdisp + x;
- // Get destination column
- nrow = bdest + (x * 8) * imgDest.info.dwEffWidth + imgDest.info.dwEffWidth - 1 - div_r.quot;
- for (int32_t z = 0; z < 8; z++) {
- // Get Destination Byte
- dbits = nrow + z * imgDest.info.dwEffWidth;
- if ((dbits < bdest) || (dbits > dbitsmax)) break;
- if (*sbits & (128 >> z)) *dbits |= bitpos;
- }
- }
- }//for y
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) {
- for (x = 0; x < newWidth; x++){
- x2=newWidth-x-1;
- for (y = 0; y < newHeight; y++){
- imgDest.AlphaSet(x,y,BlindAlphaGet(y, x2));
- }//for y
- }//for x
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()) {
- imgDest.info.rSelectionBox.left = newWidth-info.rSelectionBox.top;
- imgDest.info.rSelectionBox.right = newWidth-info.rSelectionBox.bottom;
- imgDest.info.rSelectionBox.bottom = info.rSelectionBox.left;
- imgDest.info.rSelectionBox.top = info.rSelectionBox.right;
- for (x = 0; x < newWidth; x++){
- x2=newWidth-x-1;
- for (y = 0; y < newHeight; y++){
- imgDest.SelectionSet(x,y,BlindSelectionGet(y, x2));
- }//for y
- }//for x
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- } else {
- //anything other than BW:
- //bd, 10. 2004: This optimized version of rotation rotates image by smaller blocks. It is quite
- //a bit faster than obvious algorithm, because it produces much less CPU cache misses.
- //This optimization can be tuned by changing block size (RBLOCK). 96 is good value for current
- //CPUs (tested on Athlon XP and Celeron D). Larger value (if CPU has enough cache) will increase
- //speed somehow, but once you drop out of CPU's cache, things will slow down drastically.
- //For older CPUs with less cache, lower value would yield better results.
-
- uint8_t *srcPtr, *dstPtr; //source and destionation for 24-bit version
- int32_t xs, ys; //x-segment and y-segment
- for (xs = 0; xs < newWidth; xs+=RBLOCK) { //for all image blocks of RBLOCK*RBLOCK pixels
- for (ys = 0; ys < newHeight; ys+=RBLOCK) {
- if (head.biBitCount==24) {
- //RGB24 optimized pixel access:
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){ //do rotation
- info.nProgress = (int32_t)(100*x/newWidth);
- x2=newWidth-x-1;
- dstPtr = (uint8_t*) imgDest.BlindGetPixelPointer(x,ys);
- srcPtr = (uint8_t*) BlindGetPixelPointer(ys, x2);
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- //imgDest.SetPixelColor(x, y, GetPixelColor(y, x2));
- *(dstPtr) = *(srcPtr);
- *(dstPtr+1) = *(srcPtr+1);
- *(dstPtr+2) = *(srcPtr+2);
- srcPtr += 3;
- dstPtr += imgDest.info.dwEffWidth;
- }//for y
- }//for x
- } else {
- //anything else than 24bpp (and 1bpp): palette
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- info.nProgress = (int32_t)(100*x/newWidth); //<Anatoly Ivasyuk>
- x2=newWidth-x-1;
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- imgDest.SetPixelIndex(x, y, BlindGetPixelIndex(y, x2));
- }//for y
- }//for x
- }//if (version selection)
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) {
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- x2=newWidth-x-1;
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- imgDest.AlphaSet(x,y,BlindAlphaGet(y, x2));
- }//for y
- }//for x
- }//if (alpha channel)
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()) {
- imgDest.info.rSelectionBox.left = newWidth-info.rSelectionBox.top;
- imgDest.info.rSelectionBox.right = newWidth-info.rSelectionBox.bottom;
- imgDest.info.rSelectionBox.bottom = info.rSelectionBox.left;
- imgDest.info.rSelectionBox.top = info.rSelectionBox.right;
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- x2=newWidth-x-1;
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- imgDest.SelectionSet(x,y,BlindSelectionGet(y, x2));
- }//for y
- }//for x
- }//if (selection)
-#endif //CXIMAGE_SUPPORT_SELECTION
- }//for ys
- }//for xs
- }//if
-
- //select the destination
- if (iDst) iDst->Transfer(imgDest);
- else Transfer(imgDest);
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::RotateRight(CxImage* iDst)
-{
- if (!pDib) return false;
-
- int32_t newWidth = GetHeight();
- int32_t newHeight = GetWidth();
-
- CxImage imgDest;
- imgDest.CopyInfo(*this);
- imgDest.Create(newWidth,newHeight,GetBpp(),GetType());
- imgDest.SetPalette(GetPalette());
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) imgDest.AlphaCreate();
-#endif
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()) imgDest.SelectionCreate();
-#endif
-
- int32_t x,y,y2;
- // Speedy rotate for BW images <Robert Abram>
- if (head.biBitCount == 1) {
-
- uint8_t *sbits, *dbits, *dbitsmax, bitpos, *nrow,*srcdisp;
- ldiv_t div_r;
-
- uint8_t *bsrc = GetBits(), *bdest = imgDest.GetBits();
- dbitsmax = bdest + imgDest.head.biSizeImage - 1;
-
- imgDest.Clear(0);
- for (y = 0; y < head.biHeight; y++) {
- // Figure out the Column we are going to be copying to
- div_r = ldiv(y, (int32_t)8);
- // set bit pos of src column byte
- bitpos = (uint8_t)(128 >> div_r.rem);
- srcdisp = bsrc + y * info.dwEffWidth;
- for (x = 0; x < (int32_t)info.dwEffWidth; x++) {
- // Get Source Bits
- sbits = srcdisp + x;
- // Get destination column
- nrow = bdest + (imgDest.head.biHeight-1-(x*8)) * imgDest.info.dwEffWidth + div_r.quot;
- for (int32_t z = 0; z < 8; z++) {
- // Get Destination Byte
- dbits = nrow - z * imgDest.info.dwEffWidth;
- if ((dbits < bdest) || (dbits > dbitsmax)) break;
- if (*sbits & (128 >> z)) *dbits |= bitpos;
- }
- }
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- for (y = 0; y < newHeight; y++){
- y2=newHeight-y-1;
- for (x = 0; x < newWidth; x++){
- imgDest.AlphaSet(x,y,BlindAlphaGet(y2, x));
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()){
- imgDest.info.rSelectionBox.left = info.rSelectionBox.bottom;
- imgDest.info.rSelectionBox.right = info.rSelectionBox.top;
- imgDest.info.rSelectionBox.bottom = newHeight-info.rSelectionBox.right;
- imgDest.info.rSelectionBox.top = newHeight-info.rSelectionBox.left;
- for (y = 0; y < newHeight; y++){
- y2=newHeight-y-1;
- for (x = 0; x < newWidth; x++){
- imgDest.SelectionSet(x,y,BlindSelectionGet(y2, x));
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
- } else {
- //anything else but BW
- uint8_t *srcPtr, *dstPtr; //source and destionation for 24-bit version
- int32_t xs, ys; //x-segment and y-segment
- for (xs = 0; xs < newWidth; xs+=RBLOCK) {
- for (ys = 0; ys < newHeight; ys+=RBLOCK) {
- if (head.biBitCount==24) {
- //RGB24 optimized pixel access:
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- info.nProgress = (int32_t)(100*y/newHeight); //<Anatoly Ivasyuk>
- y2=newHeight-y-1;
- dstPtr = (uint8_t*) imgDest.BlindGetPixelPointer(xs,y);
- srcPtr = (uint8_t*) BlindGetPixelPointer(y2, xs);
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- //imgDest.SetPixelColor(x, y, GetPixelColor(y2, x));
- *(dstPtr) = *(srcPtr);
- *(dstPtr+1) = *(srcPtr+1);
- *(dstPtr+2) = *(srcPtr+2);
- dstPtr += 3;
- srcPtr += info.dwEffWidth;
- }//for x
- }//for y
- } else {
- //anything else than BW & RGB24: palette
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- info.nProgress = (int32_t)(100*y/newHeight); //<Anatoly Ivasyuk>
- y2=newHeight-y-1;
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- imgDest.SetPixelIndex(x, y, BlindGetPixelIndex(y2, x));
- }//for x
- }//for y
- }//if
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- y2=newHeight-y-1;
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- imgDest.AlphaSet(x,y,BlindAlphaGet(y2, x));
- }//for x
- }//for y
- }//if (has alpha)
-#endif //CXIMAGE_SUPPORT_ALPHA
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()){
- imgDest.info.rSelectionBox.left = info.rSelectionBox.bottom;
- imgDest.info.rSelectionBox.right = info.rSelectionBox.top;
- imgDest.info.rSelectionBox.bottom = newHeight-info.rSelectionBox.right;
- imgDest.info.rSelectionBox.top = newHeight-info.rSelectionBox.left;
- for (y = ys; y < min(newHeight, ys+RBLOCK); y++){
- y2=newHeight-y-1;
- for (x = xs; x < min(newWidth, xs+RBLOCK); x++){
- imgDest.SelectionSet(x,y,BlindSelectionGet(y2, x));
- }//for x
- }//for y
- }//if (has alpha)
-#endif //CXIMAGE_SUPPORT_SELECTION
- }//for ys
- }//for xs
- }//if
-
- //select the destination
- if (iDst) iDst->Transfer(imgDest);
- else Transfer(imgDest);
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Negative()
-{
- if (!pDib) return false;
-
- if (head.biBitCount<=8){
- if (IsGrayScale()){ //GRAYSCALE, selection
- if (pSelection){
- for(int32_t y=info.rSelectionBox.bottom; y<info.rSelectionBox.top; y++){
- for(int32_t x=info.rSelectionBox.left; x<info.rSelectionBox.right; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- BlindSetPixelIndex(x,y,(uint8_t)(255-BlindGetPixelIndex(x,y)));
- }
- }
- }
- } else {
- uint8_t *iSrc=info.pImage;
- for(uint32_t i=0; i < head.biSizeImage; i++){
- *iSrc=(uint8_t)~(*(iSrc));
- iSrc++;
- }
- }
- } else { //PALETTE, full image
- RGBQUAD* ppal=GetPalette();
- for(uint32_t i=0;i<head.biClrUsed;i++){
- ppal[i].rgbBlue =(uint8_t)(255-ppal[i].rgbBlue);
- ppal[i].rgbGreen =(uint8_t)(255-ppal[i].rgbGreen);
- ppal[i].rgbRed =(uint8_t)(255-ppal[i].rgbRed);
- }
- }
- } else {
- if (pSelection==NULL){ //RGB, full image
- uint8_t *iSrc=info.pImage;
- for(uint32_t i=0; i < head.biSizeImage; i++){
- *iSrc=(uint8_t)~(*(iSrc));
- iSrc++;
- }
- } else { // RGB with selection
- RGBQUAD color;
- for(int32_t y=info.rSelectionBox.bottom; y<info.rSelectionBox.top; y++){
- for(int32_t x=info.rSelectionBox.left; x<info.rSelectionBox.right; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- color = BlindGetPixelColor(x,y);
- color.rgbRed = (uint8_t)(255-color.rgbRed);
- color.rgbGreen = (uint8_t)(255-color.rgbGreen);
- color.rgbBlue = (uint8_t)(255-color.rgbBlue);
- BlindSetPixelColor(x,y,color);
- }
- }
- }
- }
- //<DP> invert transparent color too
- info.nBkgndColor.rgbBlue = (uint8_t)(255-info.nBkgndColor.rgbBlue);
- info.nBkgndColor.rgbGreen = (uint8_t)(255-info.nBkgndColor.rgbGreen);
- info.nBkgndColor.rgbRed = (uint8_t)(255-info.nBkgndColor.rgbRed);
- }
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_BASICTRANSFORMATIONS
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_TRANSFORMATION
-////////////////////////////////////////////////////////////////////////////////
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_EXIF
-bool CxImage::RotateExif(int32_t orientation /* = 0 */)
-{
- bool ret = true;
- if (orientation <= 0)
- orientation = info.ExifInfo.Orientation;
- if (orientation == 3)
- ret = Rotate180();
- else if (orientation == 6)
- ret = RotateRight();
- else if (orientation == 8)
- ret = RotateLeft();
- else if (orientation == 5)
- ret = RotateLeft();
-
- info.ExifInfo.Orientation = 1;
- return ret;
-}
-#endif //CXIMAGE_SUPPORT_EXIF
-
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Rotate(float angle, CxImage* iDst)
-{
- if (!pDib) return false;
-
- if (fmod(angle,180.0f)==0.0f && fmod(angle,360.0f)!=0.0f)
- return Rotate180(iDst);
-
- // Copyright (c) 1996-1998 Ulrich von Zadow
-
- // Negative the angle, because the y-axis is negative.
- double ang = -angle*acos((float)0)/90;
- int32_t newWidth, newHeight;
- int32_t nWidth = GetWidth();
- int32_t nHeight= GetHeight();
- double cos_angle = cos(ang);
- double sin_angle = sin(ang);
-
- // Calculate the size of the new bitmap
- POINT p1={0,0};
- POINT p2={nWidth,0};
- POINT p3={0,nHeight};
- POINT p4={nWidth,nHeight};
- CxPoint2 newP1,newP2,newP3,newP4, leftTop, rightTop, leftBottom, rightBottom;
-
- newP1.x = (float)p1.x;
- newP1.y = (float)p1.y;
- newP2.x = (float)(p2.x*cos_angle - p2.y*sin_angle);
- newP2.y = (float)(p2.x*sin_angle + p2.y*cos_angle);
- newP3.x = (float)(p3.x*cos_angle - p3.y*sin_angle);
- newP3.y = (float)(p3.x*sin_angle + p3.y*cos_angle);
- newP4.x = (float)(p4.x*cos_angle - p4.y*sin_angle);
- newP4.y = (float)(p4.x*sin_angle + p4.y*cos_angle);
-
- leftTop.x = min(min(newP1.x,newP2.x),min(newP3.x,newP4.x));
- leftTop.y = min(min(newP1.y,newP2.y),min(newP3.y,newP4.y));
- rightBottom.x = max(max(newP1.x,newP2.x),max(newP3.x,newP4.x));
- rightBottom.y = max(max(newP1.y,newP2.y),max(newP3.y,newP4.y));
- leftBottom.x = leftTop.x;
- leftBottom.y = rightBottom.y;
- rightTop.x = rightBottom.x;
- rightTop.y = leftTop.y;
-
- newWidth = (int32_t) floor(0.5f + rightTop.x - leftTop.x);
- newHeight= (int32_t) floor(0.5f + leftBottom.y - leftTop.y);
- CxImage imgDest;
- imgDest.CopyInfo(*this);
- imgDest.Create(newWidth,newHeight,GetBpp(),GetType());
- imgDest.SetPalette(GetPalette());
-
-#if CXIMAGE_SUPPORT_ALPHA
- if(AlphaIsValid()) //MTA: Fix for rotation problem when the image has an alpha channel
- {
- imgDest.AlphaCreate();
- imgDest.AlphaClear();
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- int32_t x,y,newX,newY,oldX,oldY;
-
- if (head.biClrUsed==0){ //RGB
- for (y = (int32_t)leftTop.y, newY = 0; y<=(int32_t)leftBottom.y; y++,newY++){
- info.nProgress = (int32_t)(100*newY/newHeight);
- if (info.nEscape) break;
- for (x = (int32_t)leftTop.x, newX = 0; x<=(int32_t)rightTop.x; x++,newX++){
- oldX = (int32_t)(x*cos_angle + y*sin_angle + 0.5);
- oldY = (int32_t)(y*cos_angle - x*sin_angle + 0.5);
- imgDest.SetPixelColor(newX,newY,GetPixelColor(oldX,oldY));
-#if CXIMAGE_SUPPORT_ALPHA
- imgDest.AlphaSet(newX,newY,AlphaGet(oldX,oldY)); //MTA: copy the alpha value
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- } else { //PALETTE
- for (y = (int32_t)leftTop.y, newY = 0; y<=(int32_t)leftBottom.y; y++,newY++){
- info.nProgress = (int32_t)(100*newY/newHeight);
- if (info.nEscape) break;
- for (x = (int32_t)leftTop.x, newX = 0; x<=(int32_t)rightTop.x; x++,newX++){
- oldX = (int32_t)(x*cos_angle + y*sin_angle + 0.5);
- oldY = (int32_t)(y*cos_angle - x*sin_angle + 0.5);
- imgDest.SetPixelIndex(newX,newY,GetPixelIndex(oldX,oldY));
-#if CXIMAGE_SUPPORT_ALPHA
- imgDest.AlphaSet(newX,newY,AlphaGet(oldX,oldY)); //MTA: copy the alpha value
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- }
- //select the destination
- if (iDst) iDst->Transfer(imgDest);
- else Transfer(imgDest);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Rotates image around it's center.
- * Method can use interpolation with paletted images, but does not change pallete, so results vary.
- * (If you have only four colours in a palette, there's not much room for interpolation.)
- *
- * \param angle - angle in degrees (positive values rotate clockwise)
- * \param *iDst - destination image (if null, this image is changed)
- * \param inMethod - interpolation method used
- * (IM_NEAREST_NEIGHBOUR produces aliasing (fast), IM_BILINEAR softens picture a bit (slower)
- * IM_SHARPBICUBIC is slower and produces some halos...)
- * \param ofMethod - overflow method (how to choose colour of pixels that have no source)
- * \param replColor - replacement colour to use (OM_COLOR, OM_BACKGROUND with no background colour...)
- * \param optimizeRightAngles - call faster methods for 90, 180, and 270 degree rotations. Faster methods
- * are called for angles, where error (in location of corner pixels) is less
- * than 0.25 pixels.
- * \param bKeepOriginalSize - rotates the image without resizing.
- *
- * \author ***bd*** 2.2004
- */
-bool CxImage::Rotate2(float angle,
- CxImage *iDst,
- InterpolationMethod inMethod,
- OverflowMethod ofMethod,
- RGBQUAD *replColor,
- bool const optimizeRightAngles,
- bool const bKeepOriginalSize)
-{
- if (!pDib) return false; //no dib no go
-
- if (fmod(angle,180.0f)==0.0f && fmod(angle,360.0f)!=0.0f)
- return Rotate180(iDst);
-
- double ang = -angle*acos(0.0f)/90.0f; //convert angle to radians and invert (positive angle performs clockwise rotation)
- float cos_angle = (float) cos(ang); //these two are needed later (to rotate)
- float sin_angle = (float) sin(ang);
-
- //Calculate the size of the new bitmap (rotate corners of image)
- CxPoint2 p[4]; //original corners of the image
- p[0]=CxPoint2(-0.5f,-0.5f);
- p[1]=CxPoint2(GetWidth()-0.5f,-0.5f);
- p[2]=CxPoint2(-0.5f,GetHeight()-0.5f);
- p[3]=CxPoint2(GetWidth()-0.5f,GetHeight()-0.5f);
- CxPoint2 newp[4]; //rotated positions of corners
- //(rotate corners)
- if (bKeepOriginalSize){
- for (int32_t i=0; i<4; i++) {
- newp[i].x = p[i].x;
- newp[i].y = p[i].y;
- }//for
- } else {
- for (int32_t i=0; i<4; i++) {
- newp[i].x = (p[i].x*cos_angle - p[i].y*sin_angle);
- newp[i].y = (p[i].x*sin_angle + p[i].y*cos_angle);
- }//for i
-
- if (optimizeRightAngles) {
- //For rotations of 90, -90 or 180 or 0 degrees, call faster routines
- if (newp[3].Distance(CxPoint2(GetHeight()-0.5f, 0.5f-GetWidth())) < 0.25)
- //rotation right for circa 90 degrees (diagonal pixels less than 0.25 pixel away from 90 degree rotation destination)
- return RotateRight(iDst);
- if (newp[3].Distance(CxPoint2(0.5f-GetHeight(), -0.5f+GetWidth())) < 0.25)
- //rotation left for ~90 degrees
- return RotateLeft(iDst);
- if (newp[3].Distance(CxPoint2(0.5f-GetWidth(), 0.5f-GetHeight())) < 0.25)
- //rotation left for ~180 degrees
- return Rotate180(iDst);
- if (newp[3].Distance(p[3]) < 0.25) {
- //rotation not significant
- if (iDst) iDst->Copy(*this); //copy image to iDst, if required
- return true; //and we're done
- }//if
- }//if
- }//if
-
- //(read new dimensions from location of corners)
- float minx = (float) min(min(newp[0].x,newp[1].x),min(newp[2].x,newp[3].x));
- float miny = (float) min(min(newp[0].y,newp[1].y),min(newp[2].y,newp[3].y));
- float maxx = (float) max(max(newp[0].x,newp[1].x),max(newp[2].x,newp[3].x));
- float maxy = (float) max(max(newp[0].y,newp[1].y),max(newp[2].y,newp[3].y));
- int32_t newWidth = (int32_t) floor(maxx-minx+0.5f);
- int32_t newHeight= (int32_t) floor(maxy-miny+0.5f);
- float ssx=((maxx+minx)- ((float) newWidth-1))/2.0f; //start for x
- float ssy=((maxy+miny)- ((float) newHeight-1))/2.0f; //start for y
-
- float newxcenteroffset = 0.5f * newWidth;
- float newycenteroffset = 0.5f * newHeight;
- if (bKeepOriginalSize){
- ssx -= 0.5f * GetWidth();
- ssy -= 0.5f * GetHeight();
- }
-
- //create destination image
- CxImage imgDest;
- imgDest.CopyInfo(*this);
- imgDest.Create(newWidth,newHeight,GetBpp(),GetType());
- imgDest.SetPalette(GetPalette());
-#if CXIMAGE_SUPPORT_ALPHA
- if(AlphaIsValid()) imgDest.AlphaCreate(); //MTA: Fix for rotation problem when the image has an alpha channel
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- RGBQUAD rgb; //pixel colour
- RGBQUAD rc;
- if (replColor!=0)
- rc=*replColor;
- else {
- rc.rgbRed=255; rc.rgbGreen=255; rc.rgbBlue=255; rc.rgbReserved=0;
- }//if
- float x,y; //destination location (float, with proper offset)
- float origx, origy; //origin location
- int32_t destx, desty; //destination location
-
- y=ssy; //initialize y
- if (!IsIndexed()){ //RGB24
- //optimized RGB24 implementation (direct write to destination):
- uint8_t *pxptr;
-#if CXIMAGE_SUPPORT_ALPHA
- uint8_t *pxptra=0;
-#endif //CXIMAGE_SUPPORT_ALPHA
- for (desty=0; desty<newHeight; desty++) {
- info.nProgress = (int32_t)(100*desty/newHeight);
- if (info.nEscape) break;
- //initialize x
- x=ssx;
- //calculate pointer to first byte in row
- pxptr=(uint8_t *)imgDest.BlindGetPixelPointer(0, desty);
-#if CXIMAGE_SUPPORT_ALPHA
- //calculate pointer to first byte in row
- if (AlphaIsValid()) pxptra=imgDest.AlphaGetPointer(0, desty);
-#endif //CXIMAGE_SUPPORT_ALPHA
- for (destx=0; destx<newWidth; destx++) {
- //get source pixel coordinate for current destination point
- //origx = (cos_angle*(x-head.biWidth/2)+sin_angle*(y-head.biHeight/2))+newWidth/2;
- //origy = (cos_angle*(y-head.biHeight/2)-sin_angle*(x-head.biWidth/2))+newHeight/2;
- origx = cos_angle*x+sin_angle*y;
- origy = cos_angle*y-sin_angle*x;
- if (bKeepOriginalSize){
- origx += newxcenteroffset;
- origy += newycenteroffset;
- }
- rgb = GetPixelColorInterpolated(origx, origy, inMethod, ofMethod, &rc); //get interpolated colour value
- //copy alpha and colour value to destination
-#if CXIMAGE_SUPPORT_ALPHA
- if (pxptra) *pxptra++ = rgb.rgbReserved;
-#endif //CXIMAGE_SUPPORT_ALPHA
- *pxptr++ = rgb.rgbBlue;
- *pxptr++ = rgb.rgbGreen;
- *pxptr++ = rgb.rgbRed;
- x++;
- }//for destx
- y++;
- }//for desty
- } else {
- //non-optimized implementation for paletted images
- for (desty=0; desty<newHeight; desty++) {
- info.nProgress = (int32_t)(100*desty/newHeight);
- if (info.nEscape) break;
- x=ssx;
- for (destx=0; destx<newWidth; destx++) {
- //get source pixel coordinate for current destination point
- origx=(cos_angle*x+sin_angle*y);
- origy=(cos_angle*y-sin_angle*x);
- if (bKeepOriginalSize){
- origx += newxcenteroffset;
- origy += newycenteroffset;
- }
- rgb = GetPixelColorInterpolated(origx, origy, inMethod, ofMethod, &rc);
- //***!*** SetPixelColor is slow for palleted images
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid())
- imgDest.SetPixelColor(destx,desty,rgb,true);
- else
-#endif //CXIMAGE_SUPPORT_ALPHA
- imgDest.SetPixelColor(destx,desty,rgb,false);
- x++;
- }//for destx
- y++;
- }//for desty
- }
- //select the destination
-
- if (iDst) iDst->Transfer(imgDest);
- else Transfer(imgDest);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Rotate180(CxImage* iDst)
-{
- if (!pDib) return false;
-
- int32_t wid = GetWidth();
- int32_t ht = GetHeight();
-
- CxImage imgDest;
- imgDest.CopyInfo(*this);
- imgDest.Create(wid,ht,GetBpp(),GetType());
- imgDest.SetPalette(GetPalette());
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) imgDest.AlphaCreate();
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- int32_t x,y,y2;
- for (y = 0; y < ht; y++){
- info.nProgress = (int32_t)(100*y/ht); //<Anatoly Ivasyuk>
- y2=ht-y-1;
- for (x = 0; x < wid; x++){
- if(head.biClrUsed==0)//RGB
- imgDest.SetPixelColor(wid-x-1, y2, BlindGetPixelColor(x, y));
- else //PALETTE
- imgDest.SetPixelIndex(wid-x-1, y2, BlindGetPixelIndex(x, y));
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) imgDest.AlphaSet(wid-x-1, y2,BlindAlphaGet(x, y));
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- }
- }
-
- //select the destination
- if (iDst) iDst->Transfer(imgDest);
- else Transfer(imgDest);
- return true;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Resizes the image. mode can be 0 for slow (bilinear) method ,
- * 1 for fast (nearest pixel) method, or 2 for accurate (bicubic spline interpolation) method.
- * The function is faster with 24 and 1 bpp images, slow for 4 bpp images and slowest for 8 bpp images.
- */
-bool CxImage::Resample(int32_t newx, int32_t newy, int32_t mode, CxImage* iDst)
-{
- if (newx==0 || newy==0) return false;
-
- if (head.biWidth==newx && head.biHeight==newy){
- if (iDst) iDst->Copy(*this);
- return true;
- }
-
- float xScale, yScale, fX, fY;
- xScale = (float)head.biWidth / (float)newx;
- yScale = (float)head.biHeight / (float)newy;
-
- CxImage newImage;
- newImage.CopyInfo(*this);
- newImage.Create(newx,newy,head.biBitCount,GetType());
- newImage.SetPalette(GetPalette());
- if (!newImage.IsValid()){
- strcpy(info.szLastError,newImage.GetLastError());
- return false;
- }
-
- switch (mode) {
- case 1: // nearest pixel
- {
- for(int32_t y=0; y<newy; y++){
- info.nProgress = (int32_t)(100*y/newy);
- if (info.nEscape) break;
- fY = y * yScale;
- for(int32_t x=0; x<newx; x++){
- fX = x * xScale;
- newImage.SetPixelColor(x,y,GetPixelColor((int32_t)fX,(int32_t)fY));
- }
- }
- break;
- }
- case 2: // bicubic interpolation by Blake L. Carlson <blake-carlson(at)uiowa(dot)edu
- {
- float f_x, f_y, a, b, rr, gg, bb, r1, r2;
- int32_t i_x, i_y, xx, yy;
- RGBQUAD rgb;
- uint8_t* iDst;
- for(int32_t y=0; y<newy; y++){
- info.nProgress = (int32_t)(100*y/newy);
- if (info.nEscape) break;
- f_y = (float) y * yScale - 0.5f;
- i_y = (int32_t) floor(f_y);
- a = f_y - (float)floor(f_y);
- for(int32_t x=0; x<newx; x++){
- f_x = (float) x * xScale - 0.5f;
- i_x = (int32_t) floor(f_x);
- b = f_x - (float)floor(f_x);
-
- rr = gg = bb = 0.0f;
- for(int32_t m=-1; m<3; m++) {
- r1 = KernelBSpline((float) m - a);
- yy = i_y+m;
- if (yy<0) yy=0;
- if (yy>=head.biHeight) yy = head.biHeight-1;
- for(int32_t n=-1; n<3; n++) {
- r2 = r1 * KernelBSpline(b - (float)n);
- xx = i_x+n;
- if (xx<0) xx=0;
- if (xx>=head.biWidth) xx=head.biWidth-1;
-
- if (head.biClrUsed){
- rgb = GetPixelColor(xx,yy);
- } else {
- iDst = info.pImage + yy*info.dwEffWidth + xx*3;
- rgb.rgbBlue = *iDst++;
- rgb.rgbGreen= *iDst++;
- rgb.rgbRed = *iDst;
- }
-
- rr += rgb.rgbRed * r2;
- gg += rgb.rgbGreen * r2;
- bb += rgb.rgbBlue * r2;
- }
- }
-
- if (head.biClrUsed)
- newImage.SetPixelColor(x,y,RGB(rr,gg,bb));
- else {
- iDst = newImage.info.pImage + y*newImage.info.dwEffWidth + x*3;
- *iDst++ = (uint8_t)bb;
- *iDst++ = (uint8_t)gg;
- *iDst = (uint8_t)rr;
- }
-
- }
- }
- break;
- }
- default: // bilinear interpolation
- if (!(head.biWidth>newx && head.biHeight>newy && head.biBitCount==24)) {
- // (c) 1999 Steve McMahon (steve@dogma.demon.co.uk)
- int32_t ifX, ifY, ifX1, ifY1, xmax, ymax;
- float ir1, ir2, ig1, ig2, ib1, ib2, dx, dy;
- uint8_t r,g,b;
- RGBQUAD rgb1, rgb2, rgb3, rgb4;
- xmax = head.biWidth-1;
- ymax = head.biHeight-1;
- for(int32_t y=0; y<newy; y++){
- info.nProgress = (int32_t)(100*y/newy);
- if (info.nEscape) break;
- fY = y * yScale;
- ifY = (int32_t)fY;
- ifY1 = min(ymax, ifY+1);
- dy = fY - ifY;
- for(int32_t x=0; x<newx; x++){
- fX = x * xScale;
- ifX = (int32_t)fX;
- ifX1 = min(xmax, ifX+1);
- dx = fX - ifX;
- // Interpolate using the four nearest pixels in the source
- if (head.biClrUsed){
- rgb1=GetPaletteColor(GetPixelIndex(ifX,ifY));
- rgb2=GetPaletteColor(GetPixelIndex(ifX1,ifY));
- rgb3=GetPaletteColor(GetPixelIndex(ifX,ifY1));
- rgb4=GetPaletteColor(GetPixelIndex(ifX1,ifY1));
- }
- else {
- uint8_t* iDst;
- iDst = info.pImage + ifY*info.dwEffWidth + ifX*3;
- rgb1.rgbBlue = *iDst++; rgb1.rgbGreen= *iDst++; rgb1.rgbRed =*iDst;
- iDst = info.pImage + ifY*info.dwEffWidth + ifX1*3;
- rgb2.rgbBlue = *iDst++; rgb2.rgbGreen= *iDst++; rgb2.rgbRed =*iDst;
- iDst = info.pImage + ifY1*info.dwEffWidth + ifX*3;
- rgb3.rgbBlue = *iDst++; rgb3.rgbGreen= *iDst++; rgb3.rgbRed =*iDst;
- iDst = info.pImage + ifY1*info.dwEffWidth + ifX1*3;
- rgb4.rgbBlue = *iDst++; rgb4.rgbGreen= *iDst++; rgb4.rgbRed =*iDst;
- }
- // Interplate in x direction:
- ir1 = rgb1.rgbRed + (rgb3.rgbRed - rgb1.rgbRed) * dy;
- ig1 = rgb1.rgbGreen + (rgb3.rgbGreen - rgb1.rgbGreen) * dy;
- ib1 = rgb1.rgbBlue + (rgb3.rgbBlue - rgb1.rgbBlue) * dy;
- ir2 = rgb2.rgbRed + (rgb4.rgbRed - rgb2.rgbRed) * dy;
- ig2 = rgb2.rgbGreen + (rgb4.rgbGreen - rgb2.rgbGreen) * dy;
- ib2 = rgb2.rgbBlue + (rgb4.rgbBlue - rgb2.rgbBlue) * dy;
- // Interpolate in y:
- r = (uint8_t)(ir1 + (ir2-ir1) * dx);
- g = (uint8_t)(ig1 + (ig2-ig1) * dx);
- b = (uint8_t)(ib1 + (ib2-ib1) * dx);
- // Set output
- newImage.SetPixelColor(x,y,RGB(r,g,b));
- }
- }
- } else {
- //high resolution shrink, thanks to Henrik Stellmann <henrik.stellmann@volleynet.de>
- const int32_t ACCURACY = 1000;
- int32_t i,j; // index for faValue
- int32_t x,y; // coordinates in source image
- uint8_t* pSource;
- uint8_t* pDest = newImage.info.pImage;
- int32_t* naAccu = new int32_t[3 * newx + 3];
- int32_t* naCarry = new int32_t[3 * newx + 3];
- int32_t* naTemp;
- int32_t nWeightX,nWeightY;
- float fEndX;
- int32_t nScale = (int32_t)(ACCURACY * xScale * yScale);
-
- memset(naAccu, 0, sizeof(int32_t) * 3 * newx);
- memset(naCarry, 0, sizeof(int32_t) * 3 * newx);
-
- int32_t u, v = 0; // coordinates in dest image
- float fEndY = yScale - 1.0f;
- for (y = 0; y < head.biHeight; y++){
- info.nProgress = (int32_t)(100*y/head.biHeight); //<Anatoly Ivasyuk>
- if (info.nEscape) break;
- pSource = info.pImage + y * info.dwEffWidth;
- u = i = 0;
- fEndX = xScale - 1.0f;
- if ((float)y < fEndY) { // complete source row goes into dest row
- for (x = 0; x < head.biWidth; x++){
- if ((float)x < fEndX){ // complete source pixel goes into dest pixel
- for (j = 0; j < 3; j++) naAccu[i + j] += (*pSource++) * ACCURACY;
- } else { // source pixel is splitted for 2 dest pixels
- nWeightX = (int32_t)(((float)x - fEndX) * ACCURACY);
- for (j = 0; j < 3; j++){
- naAccu[i] += (ACCURACY - nWeightX) * (*pSource);
- naAccu[3 + i++] += nWeightX * (*pSource++);
- }
- fEndX += xScale;
- u++;
- }
- }
- } else { // source row is splitted for 2 dest rows
- nWeightY = (int32_t)(((float)y - fEndY) * ACCURACY);
- for (x = 0; x < head.biWidth; x++){
- if ((float)x < fEndX){ // complete source pixel goes into 2 pixel
- for (j = 0; j < 3; j++){
- naAccu[i + j] += ((ACCURACY - nWeightY) * (*pSource));
- naCarry[i + j] += nWeightY * (*pSource++);
- }
- } else { // source pixel is splitted for 4 dest pixels
- nWeightX = (int32_t)(((float)x - fEndX) * ACCURACY);
- for (j = 0; j < 3; j++) {
- naAccu[i] += ((ACCURACY - nWeightY) * (ACCURACY - nWeightX)) * (*pSource) / ACCURACY;
- *pDest++ = (uint8_t)(naAccu[i] / nScale);
- naCarry[i] += (nWeightY * (ACCURACY - nWeightX) * (*pSource)) / ACCURACY;
- naAccu[i + 3] += ((ACCURACY - nWeightY) * nWeightX * (*pSource)) / ACCURACY;
- naCarry[i + 3] = (nWeightY * nWeightX * (*pSource)) / ACCURACY;
- i++;
- pSource++;
- }
- fEndX += xScale;
- u++;
- }
- }
- if (u < newx){ // possibly not completed due to rounding errors
- for (j = 0; j < 3; j++) *pDest++ = (uint8_t)(naAccu[i++] / nScale);
- }
- naTemp = naCarry;
- naCarry = naAccu;
- naAccu = naTemp;
- memset(naCarry, 0, sizeof(int32_t) * 3); // need only to set first pixel zero
- pDest = newImage.info.pImage + (++v * newImage.info.dwEffWidth);
- fEndY += yScale;
- }
- }
- if (v < newy){ // possibly not completed due to rounding errors
- for (i = 0; i < 3 * newx; i++) *pDest++ = (uint8_t)(naAccu[i] / nScale);
- }
- delete [] naAccu;
- delete [] naCarry;
- }
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- if (1 == mode){
- newImage.AlphaCreate();
- for(int32_t y=0; y<newy; y++){
- fY = y * yScale;
- for(int32_t x=0; x<newx; x++){
- fX = x * xScale;
- newImage.AlphaSet(x,y,AlphaGet((int32_t)fX,(int32_t)fY));
- }
- }
- } else {
- CxImage newAlpha;
- AlphaSplit(&newAlpha);
- newAlpha.Resample(newx, newy, mode);
- newImage.AlphaSet(newAlpha);
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- //select the destination
- if (iDst) iDst->Transfer(newImage);
- else Transfer(newImage);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * New simpler resample. Adds new interpolation methods and simplifies code (using GetPixelColorInterpolated
- * and GetAreaColorInterpolated). It also (unlike old method) interpolates alpha layer.
- *
- * \param newx, newy - size of resampled image
- * \param inMethod - interpolation method to use (see comments at GetPixelColorInterpolated)
- * If image size is being reduced, averaging is used instead (or simultaneously with) inMethod.
- * \param ofMethod - what to replace outside pixels by (only significant for bordering pixels of enlarged image)
- * \param iDst - pointer to destination CxImage or NULL.
- * \param disableAveraging - force no averaging when shrinking images (Produces aliasing.
- * You probably just want to leave this off...)
- *
- * \author ***bd*** 2.2004
- */
-bool CxImage::Resample2(
- int32_t newx, int32_t newy,
- InterpolationMethod const inMethod,
- OverflowMethod const ofMethod,
- CxImage* const iDst,
- bool const disableAveraging)
-{
- if (newx<=0 || newy<=0 || !pDib) return false;
-
- if (head.biWidth==newx && head.biHeight==newy) {
- //image already correct size (just copy and return)
- if (iDst) iDst->Copy(*this);
- return true;
- }//if
-
- //calculate scale of new image (less than 1 for enlarge)
- float xScale, yScale;
- xScale = (float)head.biWidth / (float)newx;
- yScale = (float)head.biHeight / (float)newy;
-
- //create temporary destination image
- CxImage newImage;
- newImage.CopyInfo(*this);
- newImage.Create(newx,newy,head.biBitCount,GetType());
- newImage.SetPalette(GetPalette());
- if (!newImage.IsValid()){
- strcpy(info.szLastError,newImage.GetLastError());
- return false;
- }
-
- //and alpha channel if required
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) newImage.AlphaCreate();
- uint8_t *pxptra = 0; // destination alpha data
-#endif
-
- float sX, sY; //source location
- int32_t dX,dY; //destination pixel (int32_t value)
- if ((xScale<=1 && yScale<=1) || disableAveraging) {
- //image is being enlarged (or interpolation on demand)
- if (!IsIndexed()) {
- //RGB24 image (optimized version with direct writes)
- RGBQUAD q; //pixel colour
- uint8_t *pxptr; //pointer to destination pixel
- for(dY=0; dY<newy; dY++){
- info.nProgress = (int32_t)(100*dY/newy);
- if (info.nEscape) break;
- sY = (dY + 0.5f) * yScale - 0.5f;
- pxptr=(uint8_t*)(newImage.BlindGetPixelPointer(0,dY));
-#if CXIMAGE_SUPPORT_ALPHA
- pxptra=newImage.AlphaGetPointer(0,dY);
-#endif
- for(dX=0; dX<newx; dX++){
- sX = (dX + 0.5f) * xScale - 0.5f;
- q=GetPixelColorInterpolated(sX,sY,inMethod,ofMethod,0);
- *pxptr++=q.rgbBlue;
- *pxptr++=q.rgbGreen;
- *pxptr++=q.rgbRed;
-#if CXIMAGE_SUPPORT_ALPHA
- if (pxptra) *pxptra++=q.rgbReserved;
-#endif
- }//for dX
- }//for dY
- } else {
- //enlarge paletted image. Slower method.
- for(dY=0; dY<newy; dY++){
- info.nProgress = (int32_t)(100*dY/newy);
- if (info.nEscape) break;
- sY = (dY + 0.5f) * yScale - 0.5f;
- for(dX=0; dX<newx; dX++){
- sX = (dX + 0.5f) * xScale - 0.5f;
- newImage.SetPixelColor(dX,dY,GetPixelColorInterpolated(sX,sY,inMethod,ofMethod,0),true);
- }//for x
- }//for y
- }//if
- } else {
- //image size is being reduced (averaging enabled)
- for(dY=0; dY<newy; dY++){
- info.nProgress = (int32_t)(100*dY/newy); if (info.nEscape) break;
- sY = (dY+0.5f) * yScale - 0.5f;
- for(dX=0; dX<newx; dX++){
- sX = (dX+0.5f) * xScale - 0.5f;
- newImage.SetPixelColor(dX,dY,GetAreaColorInterpolated(sX, sY, xScale, yScale, inMethod, ofMethod,0),true);
- }//for x
- }//for y
- }//if
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid() && pxptra == 0){
- for(int32_t y=0; y<newy; y++){
- dY = (int32_t)(y * yScale);
- for(int32_t x=0; x<newx; x++){
- dX = (int32_t)(x * xScale);
- newImage.AlphaSet(x,y,AlphaGet(dX,dY));
- }
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- //copy new image to the destination
- if (iDst)
- iDst->Transfer(newImage);
- else
- Transfer(newImage);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Reduces the number of bits per pixel to nbit (1, 4 or 8).
- * ppal points to a valid palette for the final image; if not supplied the function will use a standard palette.
- * ppal is not necessary for reduction to 1 bpp.
- */
-bool CxImage::DecreaseBpp(uint32_t nbit, bool errordiffusion, RGBQUAD* ppal, uint32_t clrimportant)
-{
- if (!pDib) return false;
- if (head.biBitCount < nbit){
- strcpy(info.szLastError,"DecreaseBpp: target BPP greater than source BPP");
- return false;
- }
- if (head.biBitCount == nbit){
- if (clrimportant==0) return true;
- if (head.biClrImportant && (head.biClrImportant<clrimportant)) return true;
- }
-
- int32_t er,eg,eb;
- RGBQUAD c,ce;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth,head.biHeight,(uint16_t)nbit,info.dwType);
- if (clrimportant) tmp.SetClrImportant(clrimportant);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- tmp.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- if (ppal) {
- if (clrimportant) {
- tmp.SetPalette(ppal,clrimportant);
- } else {
- tmp.SetPalette(ppal,1<<tmp.head.biBitCount);
- }
- } else {
- tmp.SetStdPalette();
- }
-
- for (int32_t y=0;y<head.biHeight;y++){
- if (info.nEscape) break;
- info.nProgress = (int32_t)(100*y/head.biHeight);
- for (int32_t x=0;x<head.biWidth;x++){
- if (!errordiffusion){
- tmp.BlindSetPixelColor(x,y,BlindGetPixelColor(x,y));
- } else {
- c = BlindGetPixelColor(x,y);
- tmp.BlindSetPixelColor(x,y,c);
-
- ce = tmp.BlindGetPixelColor(x,y);
- er=(int32_t)c.rgbRed - (int32_t)ce.rgbRed;
- eg=(int32_t)c.rgbGreen - (int32_t)ce.rgbGreen;
- eb=(int32_t)c.rgbBlue - (int32_t)ce.rgbBlue;
-
- c = GetPixelColor(x+1,y);
- c.rgbRed = (uint8_t)min(255L,max(0L,(int32_t)c.rgbRed + ((er*7)/16)));
- c.rgbGreen = (uint8_t)min(255L,max(0L,(int32_t)c.rgbGreen + ((eg*7)/16)));
- c.rgbBlue = (uint8_t)min(255L,max(0L,(int32_t)c.rgbBlue + ((eb*7)/16)));
- SetPixelColor(x+1,y,c);
- int32_t coeff=1;
- for(int32_t i=-1; i<2; i++){
- switch(i){
- case -1:
- coeff=2; break;
- case 0:
- coeff=4; break;
- case 1:
- coeff=1; break;
- }
- c = GetPixelColor(x+i,y+1);
- c.rgbRed = (uint8_t)min(255L,max(0L,(int32_t)c.rgbRed + ((er * coeff)/16)));
- c.rgbGreen = (uint8_t)min(255L,max(0L,(int32_t)c.rgbGreen + ((eg * coeff)/16)));
- c.rgbBlue = (uint8_t)min(255L,max(0L,(int32_t)c.rgbBlue + ((eb * coeff)/16)));
- SetPixelColor(x+i,y+1,c);
- }
- }
- }
- }
-
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Converts the image to B&W using the desired method :
- * - 0 = Floyd-Steinberg
- * - 1 = Ordered-Dithering (4x4)
- * - 2 = Burkes
- * - 3 = Stucki
- * - 4 = Jarvis-Judice-Ninke
- * - 5 = Sierra
- * - 6 = Stevenson-Arce
- * - 7 = Bayer (4x4 ordered dithering)
- * - 8 = Bayer (8x8 ordered dithering)
- * - 9 = Bayer (16x16 ordered dithering)
- */
-bool CxImage::Dither(int32_t method)
-{
- if (!pDib) return false;
- if (head.biBitCount == 1) return true;
-
- GrayScale();
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(head.biWidth, head.biHeight, 1, info.dwType);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- tmp.SelectionCopy(*this);
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaCopy(*this);
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- switch (method){
- case 1:
- {
- // Multi-Level Ordered-Dithering by Kenny Hoff (Oct. 12, 1995)
- #define dth_NumRows 4
- #define dth_NumCols 4
- #define dth_NumIntensityLevels 2
- #define dth_NumRowsLessOne (dth_NumRows-1)
- #define dth_NumColsLessOne (dth_NumCols-1)
- #define dth_RowsXCols (dth_NumRows*dth_NumCols)
- #define dth_MaxIntensityVal 255
- #define dth_MaxDitherIntensityVal (dth_NumRows*dth_NumCols*(dth_NumIntensityLevels-1))
-
- int32_t DitherMatrix[dth_NumRows][dth_NumCols] = {{0,8,2,10}, {12,4,14,6}, {3,11,1,9}, {15,7,13,5} };
-
- uint8_t Intensity[dth_NumIntensityLevels] = { 0,1 }; // 2 LEVELS B/W
- //uint8_t Intensity[NumIntensityLevels] = { 0,255 }; // 2 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,127,255 }; // 3 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,85,170,255 }; // 4 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,63,127,191,255 }; // 5 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,51,102,153,204,255 }; // 6 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,42,85,127,170,213,255 }; // 7 LEVELS
- //uint8_t Intensity[NumIntensityLevels] = { 0,36,73,109,145,182,219,255 }; // 8 LEVELS
- int32_t DitherIntensity, DitherMatrixIntensity, Offset, DeviceIntensity;
- uint8_t DitherValue;
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
-
- DeviceIntensity = BlindGetPixelIndex(x,y);
- DitherIntensity = DeviceIntensity*dth_MaxDitherIntensityVal/dth_MaxIntensityVal;
- DitherMatrixIntensity = DitherIntensity % dth_RowsXCols;
- Offset = DitherIntensity / dth_RowsXCols;
- if (DitherMatrix[y&dth_NumRowsLessOne][x&dth_NumColsLessOne] < DitherMatrixIntensity)
- DitherValue = Intensity[1+Offset];
- else
- DitherValue = Intensity[0+Offset];
-
- tmp.BlindSetPixelIndex(x,y,DitherValue);
- }
- }
- break;
- }
- case 2:
- {
- //Burkes error diffusion (Thanks to Franco Gerevini)
- int32_t TotalCoeffSum = 32;
- int32_t error, nlevel, coeff=1;
- uint8_t level;
-
- for (int32_t y = 0; y < head.biHeight; y++) {
- info.nProgress = (int32_t)(100 * y / head.biHeight);
- if (info.nEscape)
- break;
- for (int32_t x = 0; x < head.biWidth; x++) {
- level = BlindGetPixelIndex(x, y);
- if (level > 128) {
- tmp.SetPixelIndex(x, y, 1);
- error = level - 255;
- } else {
- tmp.SetPixelIndex(x, y, 0);
- error = level;
- }
-
- nlevel = GetPixelIndex(x + 1, y) + (error * 8) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 1, y, level);
- nlevel = GetPixelIndex(x + 2, y) + (error * 4) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 2, y, level);
- int32_t i;
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 2;
- break;
- case -1:
- coeff = 4;
- break;
- case 0:
- coeff = 8;
- break;
- case 1:
- coeff = 4;
- break;
- case 2:
- coeff = 2;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 1) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 1, level);
- }
- }
- }
- break;
- }
- case 3:
- {
- //Stucki error diffusion (Thanks to Franco Gerevini)
- int32_t TotalCoeffSum = 42;
- int32_t error, nlevel, coeff=1;
- uint8_t level;
-
- for (int32_t y = 0; y < head.biHeight; y++) {
- info.nProgress = (int32_t)(100 * y / head.biHeight);
- if (info.nEscape)
- break;
- for (int32_t x = 0; x < head.biWidth; x++) {
- level = BlindGetPixelIndex(x, y);
- if (level > 128) {
- tmp.SetPixelIndex(x, y, 1);
- error = level - 255;
- } else {
- tmp.SetPixelIndex(x, y, 0);
- error = level;
- }
-
- nlevel = GetPixelIndex(x + 1, y) + (error * 8) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 1, y, level);
- nlevel = GetPixelIndex(x + 2, y) + (error * 4) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 2, y, level);
- int32_t i;
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 2;
- break;
- case -1:
- coeff = 4;
- break;
- case 0:
- coeff = 8;
- break;
- case 1:
- coeff = 4;
- break;
- case 2:
- coeff = 2;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 1) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 1, level);
- }
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 1;
- break;
- case -1:
- coeff = 2;
- break;
- case 0:
- coeff = 4;
- break;
- case 1:
- coeff = 2;
- break;
- case 2:
- coeff = 1;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 2) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 2, level);
- }
- }
- }
- break;
- }
- case 4:
- {
- //Jarvis, Judice and Ninke error diffusion (Thanks to Franco Gerevini)
- int32_t TotalCoeffSum = 48;
- int32_t error, nlevel, coeff=1;
- uint8_t level;
-
- for (int32_t y = 0; y < head.biHeight; y++) {
- info.nProgress = (int32_t)(100 * y / head.biHeight);
- if (info.nEscape)
- break;
- for (int32_t x = 0; x < head.biWidth; x++) {
- level = BlindGetPixelIndex(x, y);
- if (level > 128) {
- tmp.SetPixelIndex(x, y, 1);
- error = level - 255;
- } else {
- tmp.SetPixelIndex(x, y, 0);
- error = level;
- }
-
- nlevel = GetPixelIndex(x + 1, y) + (error * 7) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 1, y, level);
- nlevel = GetPixelIndex(x + 2, y) + (error * 5) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 2, y, level);
- int32_t i;
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 3;
- break;
- case -1:
- coeff = 5;
- break;
- case 0:
- coeff = 7;
- break;
- case 1:
- coeff = 5;
- break;
- case 2:
- coeff = 3;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 1) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 1, level);
- }
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 1;
- break;
- case -1:
- coeff = 3;
- break;
- case 0:
- coeff = 5;
- break;
- case 1:
- coeff = 3;
- break;
- case 2:
- coeff = 1;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 2) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 2, level);
- }
- }
- }
- break;
- }
- case 5:
- {
- //Sierra error diffusion (Thanks to Franco Gerevini)
- int32_t TotalCoeffSum = 32;
- int32_t error, nlevel, coeff=1;
- uint8_t level;
-
- for (int32_t y = 0; y < head.biHeight; y++) {
- info.nProgress = (int32_t)(100 * y / head.biHeight);
- if (info.nEscape)
- break;
- for (int32_t x = 0; x < head.biWidth; x++) {
- level = BlindGetPixelIndex(x, y);
- if (level > 128) {
- tmp.SetPixelIndex(x, y, 1);
- error = level - 255;
- } else {
- tmp.SetPixelIndex(x, y, 0);
- error = level;
- }
-
- nlevel = GetPixelIndex(x + 1, y) + (error * 5) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 1, y, level);
- nlevel = GetPixelIndex(x + 2, y) + (error * 3) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + 2, y, level);
- int32_t i;
- for (i = -2; i < 3; i++) {
- switch (i) {
- case -2:
- coeff = 2;
- break;
- case -1:
- coeff = 4;
- break;
- case 0:
- coeff = 5;
- break;
- case 1:
- coeff = 4;
- break;
- case 2:
- coeff = 2;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 1) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 1, level);
- }
- for (i = -1; i < 2; i++) {
- switch (i) {
- case -1:
- coeff = 2;
- break;
- case 0:
- coeff = 3;
- break;
- case 1:
- coeff = 2;
- break;
- }
- nlevel = GetPixelIndex(x + i, y + 2) + (error * coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(x + i, y + 2, level);
- }
- }
- }
- break;
- }
- case 6:
- {
- //Stevenson and Arce error diffusion (Thanks to Franco Gerevini)
- int32_t TotalCoeffSum = 200;
- int32_t error, nlevel;
- uint8_t level;
-
- for (int32_t y = 0; y < head.biHeight; y++) {
- info.nProgress = (int32_t)(100 * y / head.biHeight);
- if (info.nEscape)
- break;
- for (int32_t x = 0; x < head.biWidth; x++) {
- level = BlindGetPixelIndex(x, y);
- if (level > 128) {
- tmp.SetPixelIndex(x, y, 1);
- error = level - 255;
- } else {
- tmp.SetPixelIndex(x, y, 0);
- error = level;
- }
-
- int32_t tmp_index_x = x + 2;
- int32_t tmp_index_y = y;
- int32_t tmp_coeff = 32;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x - 3;
- tmp_index_y = y + 1;
- tmp_coeff = 12;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x - 1;
- tmp_coeff = 26;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x + 1;
- tmp_coeff = 30;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x + 3;
- tmp_coeff = 16;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x - 2;
- tmp_index_y = y + 2;
- tmp_coeff = 12;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x;
- tmp_coeff = 26;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x + 2;
- tmp_coeff = 12;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x - 3;
- tmp_index_y = y + 3;
- tmp_coeff = 5;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x - 1;
- tmp_coeff = 12;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x + 1;
- tmp_coeff = 12;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
-
- tmp_index_x = x + 3;
- tmp_coeff = 5;
- nlevel = GetPixelIndex(tmp_index_x, tmp_index_y) + (error * tmp_coeff) / TotalCoeffSum;
- level = (uint8_t)min(255, max(0, (int32_t)nlevel));
- SetPixelIndex(tmp_index_x, tmp_index_y, level);
- }
- }
- break;
- }
- case 7:
- {
- // Bayer ordered dither
- int32_t order = 4;
- //create Bayer matrix
- if (order>4) order = 4;
- int32_t size = (1 << (2*order));
- uint8_t* Bmatrix = (uint8_t*) malloc(size * sizeof(uint8_t));
- for(int32_t i = 0; i < size; i++) {
- int32_t n = order;
- int32_t x = i / n;
- int32_t y = i % n;
- int32_t dither = 0;
- while (n-- > 0){
- dither = (((dither<<1)|((x&1) ^ (y&1)))<<1) | (y&1);
- x >>= 1;
- y >>= 1;
- }
- Bmatrix[i] = (uint8_t)(dither);
- }
-
- int32_t scale = max(0,(8-2*order));
- int32_t level;
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- level = BlindGetPixelIndex(x,y) >> scale;
- if(level > Bmatrix[ (x % order) + order * (y % order) ]){
- tmp.SetPixelIndex(x,y,1);
- } else {
- tmp.SetPixelIndex(x,y,0);
- }
- }
- }
-
- free(Bmatrix);
-
- break;
- }
- case 8:
- {
- // 8x8 Bayer ordered dither
- int32_t const pattern8x8[8][8] = {
- { 0, 32, 8, 40, 2, 34, 10, 42}, /* 8x8 Bayer ordered dithering */
- {48, 16, 56, 24, 50, 18, 58, 26}, /* pattern. Each input pixel */
- {12, 44, 4, 36, 14, 46, 6, 38}, /* is scaled to the 0..63 range */
- {60, 28, 52, 20, 62, 30, 54, 22}, /* before looking in this table */
- { 3, 35, 11, 43, 1, 33, 9, 41}, /* to determine the action. */
- {51, 19, 59, 27, 49, 17, 57, 25},
- {15, 47, 7, 39, 13, 45, 5, 37},
- {63, 31, 55, 23, 61, 29, 53, 21} };
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- int32_t level = BlindGetPixelIndex(x,y) >> 2;
- if(level && level >= pattern8x8[x & 7][y & 7]){
- tmp.SetPixelIndex(x,y,1);
- } else {
- tmp.SetPixelIndex(x,y,0);
- }
- }
- }
- break;
- }
- case 9:
- {
- // 16x16 Bayer ordered dither
- int32_t const pattern16x16[16][16] = {
- { 1,235, 59,219, 15,231, 55,215, 2,232, 56,216, 12,228, 52,212},
- { 129, 65,187,123,143, 79,183,119,130, 66,184,120,140, 76,180,116},
- { 33,193, 17,251, 47,207, 31,247, 34,194, 18,248, 44,204, 28,244},
- { 161, 97,145, 81,175,111,159, 95,162, 98,146, 82,172,108,156, 92},
- { 9,225, 49,209, 5,239, 63,223, 10,226, 50,210, 6,236, 60,220},
- { 137, 73,177,113,133, 69,191,127,138, 74,178,114,134, 70,188,124},
- { 41,201, 25,241, 37,197, 21,255, 42,202, 26,242, 38,198, 22,252},
- { 169,105,153, 89,165,101,149, 85,170,106,154, 90,166,102,150, 86},
- { 3,233, 57,217, 13,229, 53,213, 0,234, 58,218, 14,230, 54,214},
- { 131, 67,185,121,141, 77,181,117,128, 64,186,122,142, 78,182,118},
- { 35,195, 19,249, 45,205, 29,245, 32,192, 16,250, 46,206, 30,246},
- { 163, 99,147, 83,173,109,157, 93,160, 96,144, 80,174,110,158, 94},
- { 11,227, 51,211, 7,237, 61,221, 8,224, 48,208, 4,238, 62,222},
- { 139, 75,179,115,135, 71,189,125,136, 72,176,112,132, 68,190,126},
- { 43,203, 27,243, 39,199, 23,253, 40,200, 24,240, 36,196, 20,254},
- { 171,107,155, 91,167,103,151, 87,168,104,152, 88,164,100,148, 84}
- };
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
- if (BlindGetPixelIndex(x,y) > pattern16x16[x & 15][y & 15]){
- tmp.SetPixelIndex(x,y,1);
- } else {
- tmp.SetPixelIndex(x,y,0);
- }
- }
- }
- break;
- }
- default:
- {
- // Floyd-Steinberg error diffusion (Thanks to Steve McMahon)
- int32_t error,nlevel,coeff=1;
- uint8_t level;
-
- for (int32_t y=0;y<head.biHeight;y++){
- info.nProgress = (int32_t)(100*y/head.biHeight);
- if (info.nEscape) break;
- for (int32_t x=0;x<head.biWidth;x++){
-
- level = BlindGetPixelIndex(x,y);
- if (level > 128){
- tmp.SetPixelIndex(x,y,1);
- error = level-255;
- } else {
- tmp.SetPixelIndex(x,y,0);
- error = level;
- }
-
- nlevel = GetPixelIndex(x+1,y) + (error * 7)/16;
- level = (uint8_t)min(255,max(0,(int32_t)nlevel));
- SetPixelIndex(x+1,y,level);
- for(int32_t i=-1; i<2; i++){
- switch(i){
- case -1:
- coeff=3; break;
- case 0:
- coeff=5; break;
- case 1:
- coeff=1; break;
- }
- nlevel = GetPixelIndex(x+i,y+1) + (error * coeff)/16;
- level = (uint8_t)min(255,max(0,(int32_t)nlevel));
- SetPixelIndex(x+i,y+1,level);
- }
- }
- }
- }
- }
-
- tmp.SetPaletteColor(0,0,0,0);
- tmp.SetPaletteColor(1,255,255,255);
- Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * CropRotatedRectangle
- * \param topx,topy : topmost and leftmost point of the rectangle
- (topmost, and if there are 2 topmost points, the left one)
- * \param width : size of the right hand side of rect, from (topx,topy) roundwalking clockwise
- * \param height : size of the left hand side of rect, from (topx,topy) roundwalking clockwise
- * \param angle : angle of the right hand side of rect, from (topx,topy)
- * \param iDst : pointer to destination image (if 0, this image is modified)
- * \author [VATI]
- */
-bool CxImage::CropRotatedRectangle( int32_t topx, int32_t topy, int32_t width, int32_t height, float angle, CxImage* iDst)
-{
- if (!pDib) return false;
-
-
- int32_t startx,starty,endx,endy;
- double cos_angle = cos(angle/*/57.295779513082320877*/);
- double sin_angle = sin(angle/*/57.295779513082320877*/);
-
- // if there is nothing special, call the original Crop():
- if ( fabs(angle)<0.0002 )
- return Crop( topx, topy, topx+width, topy+height, iDst);
-
- startx = min(topx, topx - (int32_t)(sin_angle*(double)height));
- endx = topx + (int32_t)(cos_angle*(double)width);
- endy = topy + (int32_t)(cos_angle*(double)height + sin_angle*(double)width);
- // check: corners of the rectangle must be inside
- if ( IsInside( startx, topy )==false ||
- IsInside( endx, endy ) == false )
- return false;
-
- // first crop to bounding rectangle
- CxImage tmp(*this, true, false, true);
- // tmp.Copy(*this, true, false, true);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
- if (!tmp.Crop( startx, topy, endx, endy)){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- // the midpoint of the image now became the same as the midpoint of the rectangle
- // rotate new image with minus angle amount
- if ( false == tmp.Rotate( (float)(-angle*57.295779513082320877) ) ) // Rotate expects angle in degrees
- return false;
-
- // crop rotated image to the original selection rectangle
- endx = (tmp.head.biWidth+width)/2;
- startx = (tmp.head.biWidth-width)/2;
- starty = (tmp.head.biHeight+height)/2;
- endy = (tmp.head.biHeight-height)/2;
- if ( false == tmp.Crop( startx, starty, endx, endy ) )
- return false;
-
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Crop(const RECT& rect, CxImage* iDst)
-{
- return Crop(rect.left, rect.top, rect.right, rect.bottom, iDst);
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Crop(int32_t left, int32_t top, int32_t right, int32_t bottom, CxImage* iDst)
-{
- if (!pDib) return false;
-
- int32_t startx = max(0L,min(left,head.biWidth));
- int32_t endx = max(0L,min(right,head.biWidth));
- int32_t starty = head.biHeight - max(0L,min(top,head.biHeight));
- int32_t endy = head.biHeight - max(0L,min(bottom,head.biHeight));
-
- if (startx==endx || starty==endy) return false;
-
- if (startx>endx) {int32_t tmp=startx; startx=endx; endx=tmp;}
- if (starty>endy) {int32_t tmp=starty; starty=endy; endy=tmp;}
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- tmp.Create(endx-startx,endy-starty,head.biBitCount,info.dwType);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- tmp.SetPalette(GetPalette(),head.biClrUsed);
- tmp.info.nBkgndIndex = info.nBkgndIndex;
- tmp.info.nBkgndColor = info.nBkgndColor;
-
- switch (head.biBitCount) {
- case 1:
- case 4:
- {
- for(int32_t y=starty, yd=0; y<endy; y++, yd++){
- info.nProgress = (int32_t)(100*(y-starty)/(endy-starty)); //<Anatoly Ivasyuk>
- for(int32_t x=startx, xd=0; x<endx; x++, xd++){
- tmp.SetPixelIndex(xd,yd,GetPixelIndex(x,y));
- }
- }
- break;
- }
- case 8:
- case 24:
- {
- int32_t linelen = tmp.head.biWidth * tmp.head.biBitCount >> 3;
- uint8_t* pDest = tmp.info.pImage;
- uint8_t* pSrc = info.pImage + starty * info.dwEffWidth + (startx*head.biBitCount >> 3);
- for(int32_t y=starty; y<endy; y++){
- info.nProgress = (int32_t)(100*(y-starty)/(endy-starty)); //<Anatoly Ivasyuk>
- memcpy(pDest,pSrc,linelen);
- pDest+=tmp.info.dwEffWidth;
- pSrc+=info.dwEffWidth;
- }
- }
- }
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){ //<oboolo>
- tmp.AlphaCreate();
- if (!tmp.AlphaIsValid()) return false;
- uint8_t* pDest = tmp.pAlpha;
- uint8_t* pSrc = pAlpha + startx + starty*head.biWidth;
- for (int32_t y=starty; y<endy; y++){
- memcpy(pDest,pSrc,endx-startx);
- pDest+=tmp.head.biWidth;
- pSrc+=head.biWidth;
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- //select the destination
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * \param xgain, ygain : can be from 0 to 1.
- * \param xpivot, ypivot : is the center of the transformation.
- * \param bEnableInterpolation : if true, enables bilinear interpolation.
- * \return true if everything is ok
- */
-bool CxImage::Skew(float xgain, float ygain, int32_t xpivot, int32_t ypivot, bool bEnableInterpolation)
-{
- if (!pDib) return false;
- float nx,ny;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- nx = x + (xgain*(y - ypivot));
- ny = y + (ygain*(x - xpivot));
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bEnableInterpolation){
- tmp.SetPixelColor(x,y,GetPixelColorInterpolated(nx, ny, CxImage::IM_BILINEAR, CxImage::OM_BACKGROUND),true);
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- if (head.biClrUsed==0){
- tmp.SetPixelColor(x,y,GetPixelColor((int32_t)nx,(int32_t)ny));
- } else {
- tmp.SetPixelIndex(x,y,GetPixelIndex((int32_t)nx,(int32_t)ny));
- }
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaSet(x,y,AlphaGet((int32_t)nx,(int32_t)ny));
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Expands the borders.
- * \param left, top, right, bottom = additional dimensions, should be greater than 0.
- * \param canvascolor = border color. canvascolor.rgbReserved will set the alpha channel (if any) in the border.
- * \param iDst = pointer to destination image (if it's 0, this image is modified)
- * \return true if everything is ok
- * \author [Colin Urquhart]; changes [DP]
- */
-bool CxImage::Expand(int32_t left, int32_t top, int32_t right, int32_t bottom, RGBQUAD canvascolor, CxImage* iDst)
-{
- if (!pDib) return false;
-
- if ((left < 0) || (right < 0) || (bottom < 0) || (top < 0)) return false;
-
- int32_t newWidth = head.biWidth + left + right;
- int32_t newHeight = head.biHeight + top + bottom;
-
- right = left + head.biWidth - 1;
- top = bottom + head.biHeight - 1;
-
- CxImage tmp;
- tmp.CopyInfo(*this);
- if (!tmp.Create(newWidth, newHeight, head.biBitCount, info.dwType)){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- tmp.SetPalette(GetPalette(),head.biClrUsed);
-
- switch (head.biBitCount) {
- case 1:
- case 4:
- {
- uint8_t pixel = tmp.GetNearestIndex(canvascolor);
- for(int32_t y=0; y < newHeight; y++){
- info.nProgress = (int32_t)(100*y/newHeight);
- for(int32_t x=0; x < newWidth; x++){
- if ((y < bottom) || (y > top) || (x < left) || (x > right)) {
- tmp.SetPixelIndex(x,y, pixel);
- } else {
- tmp.SetPixelIndex(x,y,GetPixelIndex(x-left,y-bottom));
- }
- }
- }
- break;
- }
- case 8:
- case 24:
- {
- if (head.biBitCount == 8) {
- uint8_t pixel = tmp.GetNearestIndex( canvascolor);
- memset(tmp.info.pImage, pixel, + (tmp.info.dwEffWidth * newHeight));
- } else {
- for (int32_t y = 0; y < newHeight; ++y) {
- uint8_t *pDest = tmp.info.pImage + (y * tmp.info.dwEffWidth);
- for (int32_t x = 0; x < newWidth; ++x) {
- *pDest++ = canvascolor.rgbBlue;
- *pDest++ = canvascolor.rgbGreen;
- *pDest++ = canvascolor.rgbRed;
- }
- }
- }
-
- uint8_t* pDest = tmp.info.pImage + (tmp.info.dwEffWidth * bottom) + (left*(head.biBitCount >> 3));
- uint8_t* pSrc = info.pImage;
- for(int32_t y=bottom; y <= top; y++){
- info.nProgress = (int32_t)(100*y/(1 + top - bottom));
- memcpy(pDest,pSrc,(head.biBitCount >> 3) * (right - left + 1));
- pDest+=tmp.info.dwEffWidth;
- pSrc+=info.dwEffWidth;
- }
- }
- }
-
-#if CXIMAGE_SUPPORT_SELECTION
- if (SelectionIsValid()){
- if (!tmp.SelectionCreate())
- return false;
- uint8_t* pSrc = SelectionGetPointer();
- uint8_t* pDst = tmp.SelectionGetPointer(left,bottom);
- for(int32_t y=bottom; y <= top; y++){
- memcpy(pDst,pSrc, (right - left + 1));
- pSrc+=head.biWidth;
- pDst+=tmp.head.biWidth;
- }
- tmp.info.rSelectionBox.left = info.rSelectionBox.left + left;
- tmp.info.rSelectionBox.right = info.rSelectionBox.right + left;
- tmp.info.rSelectionBox.top = info.rSelectionBox.top + bottom;
- tmp.info.rSelectionBox.bottom = info.rSelectionBox.bottom + bottom;
- }
-#endif //CXIMAGE_SUPPORT_SELECTION
-
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()){
- if (!tmp.AlphaCreate())
- return false;
- tmp.AlphaSet(canvascolor.rgbReserved);
- uint8_t* pSrc = AlphaGetPointer();
- uint8_t* pDst = tmp.AlphaGetPointer(left,bottom);
- for(int32_t y=bottom; y <= top; y++){
- memcpy(pDst,pSrc, (right - left + 1));
- pSrc+=head.biWidth;
- pDst+=tmp.head.biWidth;
- }
- }
-#endif //CXIMAGE_SUPPORT_ALPHA
-
- //select the destination
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
-
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImage::Expand(int32_t newx, int32_t newy, RGBQUAD canvascolor, CxImage* iDst)
-{
- //thanks to <Colin Urquhart>
-
- if (!pDib) return false;
-
- if ((newx < head.biWidth) || (newy < head.biHeight)) return false;
-
- int32_t nAddLeft = (newx - head.biWidth) / 2;
- int32_t nAddTop = (newy - head.biHeight) / 2;
-
- return Expand(nAddLeft, nAddTop, newx - (head.biWidth + nAddLeft), newy - (head.biHeight + nAddTop), canvascolor, iDst);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Resamples the image with the correct aspect ratio, and fills the borders.
- * \param newx, newy = thumbnail size.
- * \param canvascolor = border color.
- * \param iDst = pointer to destination image (if it's 0, this image is modified).
- * \return true if everything is ok.
- * \author [Colin Urquhart]
- */
-bool CxImage::Thumbnail(int32_t newx, int32_t newy, RGBQUAD canvascolor, CxImage* iDst)
-{
- if (!pDib) return false;
-
- if ((newx <= 0) || (newy <= 0)) return false;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- // determine whether we need to shrink the image
- if ((head.biWidth > newx) || (head.biHeight > newy)) {
- float fScale;
- float fAspect = (float) newx / (float) newy;
- if (fAspect * head.biHeight > head.biWidth) {
- fScale = (float) newy / head.biHeight;
- } else {
- fScale = (float) newx / head.biWidth;
- }
- tmp.Resample((int32_t) (fScale * head.biWidth), (int32_t) (fScale * head.biHeight), 0);
- }
-
- // expand the frame
- tmp.Expand(newx, newy, canvascolor);
-
- //select the destination
- if (iDst) iDst->Transfer(tmp);
- else Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Perform circle_based transformations.
- * \param type - for different transformations
- * - 0 for normal (proturberant) FishEye
- * - 1 for reverse (concave) FishEye
- * - 2 for Swirle
- * - 3 for Cilinder mirror
- * - 4 for bathroom
- *
- * \param rmax - effect radius. If 0, the whole image is processed
- * \param Koeff - only for swirle
- * \author Arkadiy Olovyannikov ark(at)msun(dot)ru
- */
-bool CxImage::CircleTransform(int32_t type,int32_t rmax,float Koeff)
-{
- if (!pDib) return false;
-
- int32_t nx,ny;
- double angle,radius,rnew;
-
- CxImage tmp(*this);
- if (!tmp.IsValid()){
- strcpy(info.szLastError,tmp.GetLastError());
- return false;
- }
-
- int32_t xmin,xmax,ymin,ymax,xmid,ymid;
- if (pSelection){
- xmin = info.rSelectionBox.left; xmax = info.rSelectionBox.right;
- ymin = info.rSelectionBox.bottom; ymax = info.rSelectionBox.top;
- } else {
- xmin = ymin = 0;
- xmax = head.biWidth; ymax=head.biHeight;
- }
-
- xmid = (int32_t) (tmp.GetWidth()/2);
- ymid = (int32_t) (tmp.GetHeight()/2);
-
- if (!rmax) rmax=(int32_t)sqrt((float)((xmid-xmin)*(xmid-xmin)+(ymid-ymin)*(ymid-ymin)));
- if (Koeff==0.0f) Koeff=1.0f;
-
- for(int32_t y=ymin; y<ymax; y++){
- info.nProgress = (int32_t)(100*(y-ymin)/(ymax-ymin));
- if (info.nEscape) break;
- for(int32_t x=xmin; x<xmax; x++){
-#if CXIMAGE_SUPPORT_SELECTION
- if (BlindSelectionIsInside(x,y))
-#endif //CXIMAGE_SUPPORT_SELECTION
- {
- nx=xmid-x;
- ny=ymid-y;
- radius=sqrt((float)(nx*nx+ny*ny));
- if (radius<rmax) {
- angle=atan2((double)ny,(double)nx);
- if (type==0) rnew=radius*radius/rmax;
- else if (type==1) rnew=sqrt(radius*rmax);
- else if (type==2) {rnew=radius;angle += radius / Koeff;}
- else rnew = 1; // potentially uninitialized
- if (type<3){
- nx = xmid + (int32_t)(rnew * cos(angle));
- ny = ymid - (int32_t)(rnew * sin(angle));
- }
- else if (type==3){
- nx = (int32_t)fabs((angle*xmax/6.2831852));
- ny = (int32_t)fabs((radius*ymax/rmax));
- }
- else {
- nx=x+(x%32)-16;
- ny=y;
- }
-// nx=max(xmin,min(nx,xmax));
-// ny=max(ymin,min(ny,ymax));
- }
- else { nx=-1;ny=-1;}
- if (head.biClrUsed==0){
- tmp.SetPixelColor(x,y,GetPixelColor(nx,ny));
- } else {
- tmp.SetPixelIndex(x,y,GetPixelIndex(nx,ny));
- }
-#if CXIMAGE_SUPPORT_ALPHA
- tmp.AlphaSet(x,y,AlphaGet(nx,ny));
-#endif //CXIMAGE_SUPPORT_ALPHA
- }
- }
- }
- Transfer(tmp);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Faster way to almost properly shrink image. Algorithm produces results comparable with "high resoultion shrink"
- * when resulting image is much smaller (that would be 3 times or more) than original. When
- * resulting image is only slightly smaller, results are closer to nearest pixel.
- * This algorithm works by averaging, but it does not calculate fractions of pixels. It adds whole
- * source pixels to the best destionation. It is not geometrically "correct".
- * It's main advantage over "high" resulution shrink is speed, so it's useful, when speed is most
- * important (preview thumbnails, "map" view, ...).
- * Method is optimized for RGB24 images.
- *
- * \param newx, newy - size of destination image (must be smaller than original!)
- * \param iDst - pointer to destination image (if it's 0, this image is modified)
- * \param bChangeBpp - flag points to change result image bpp (if it's true, this result image bpp = 24 (useful for B/W image thumbnails))
- *
- * \return true if everything is ok
- * \author [bd], 9.2004; changes [Artiom Mirolubov], 1.2005
- */
-bool CxImage::QIShrink(int32_t newx, int32_t newy, CxImage* const iDst, bool bChangeBpp)
-{
- if (!pDib) return false;
-
- if (newx>head.biWidth || newy>head.biHeight) {
- //let me repeat... this method can't enlarge image
- strcpy(info.szLastError,"QIShrink can't enlarge image");
- return false;
- }
-
- if (newx==head.biWidth && newy==head.biHeight) {
- //image already correct size (just copy and return)
- if (iDst) iDst->Copy(*this);
- return true;
- }//if
-
- //create temporary destination image
- CxImage newImage;
- newImage.CopyInfo(*this);
- newImage.Create(newx,newy,(bChangeBpp)?24:head.biBitCount,GetType());
- newImage.SetPalette(GetPalette());
- if (!newImage.IsValid()){
- strcpy(info.szLastError,newImage.GetLastError());
- return false;
- }
-
- //and alpha channel if required
-#if CXIMAGE_SUPPORT_ALPHA
- if (AlphaIsValid()) newImage.AlphaCreate();
-#endif
-
- const int32_t oldx = head.biWidth;
- const int32_t oldy = head.biHeight;
-
- int32_t accuCellSize = 4;
-#if CXIMAGE_SUPPORT_ALPHA
- uint8_t *alphaPtr;
- if (AlphaIsValid()) accuCellSize=5;
-#endif
-
- uint32_t *accu = new uint32_t[newx*accuCellSize]; //array for suming pixels... one pixel for every destination column
- uint32_t *accuPtr; //pointer for walking through accu
- //each cell consists of blue, red, green component and count of pixels summed in this cell
- memset(accu, 0, newx * accuCellSize * sizeof(uint32_t)); //clear accu
-
- if (!IsIndexed()) {
- //RGB24 version with pointers
- uint8_t *destPtr, *srcPtr, *destPtrS, *srcPtrS; //destination and source pixel, and beginnings of current row
- srcPtrS=(uint8_t*)BlindGetPixelPointer(0,0);
- destPtrS=(uint8_t*)newImage.BlindGetPixelPointer(0,0);
- int32_t ex=0, ey=0; //ex and ey replace division...
- int32_t dy=0;
- //(we just add pixels, until by adding newx or newy we get a number greater than old size... then
- // it's time to move to next pixel)
-
- for(int32_t y=0; y<oldy; y++){ //for all source rows
- info.nProgress = (int32_t)(100*y/oldy); if (info.nEscape) break;
- ey += newy;
- ex = 0; //restart with ex = 0
- accuPtr=accu; //restart from beginning of accu
- srcPtr=srcPtrS; //and from new source line
-#if CXIMAGE_SUPPORT_ALPHA
- alphaPtr = AlphaGetPointer(0, y);
-#endif
-
- for(int32_t x=0; x<oldx; x++){ //for all source columns
- ex += newx;
- *accuPtr += *(srcPtr++); //add current pixel to current accu slot
- *(accuPtr+1) += *(srcPtr++);
- *(accuPtr+2) += *(srcPtr++);
- (*(accuPtr+3)) ++;
-#if CXIMAGE_SUPPORT_ALPHA
- if (alphaPtr) *(accuPtr+4) += *(alphaPtr++);
-#endif
- if (ex>oldx) { //when we reach oldx, it's time to move to new slot
- accuPtr += accuCellSize;
- ex -= oldx; //(substract oldx from ex and resume from there on)
- }//if (ex overflow)
- }//for x
-
- if (ey>=oldy) { //now when this happens
- ey -= oldy; //it's time to move to new destination row
- destPtr = destPtrS; //reset pointers to proper initial values
- accuPtr = accu;
-#if CXIMAGE_SUPPORT_ALPHA
- alphaPtr = newImage.AlphaGetPointer(0, dy++);
-#endif
- for (int32_t k=0; k<newx; k++) { //copy accu to destination row (divided by number of pixels in each slot)
- *(destPtr++) = (uint8_t)(*(accuPtr) / *(accuPtr+3));
- *(destPtr++) = (uint8_t)(*(accuPtr+1) / *(accuPtr+3));
- *(destPtr++) = (uint8_t)(*(accuPtr+2) / *(accuPtr+3));
-#if CXIMAGE_SUPPORT_ALPHA
- if (alphaPtr) *(alphaPtr++) = (uint8_t)(*(accuPtr+4) / *(accuPtr+3));
-#endif
- accuPtr += accuCellSize;
- }//for k
- memset(accu, 0, newx * accuCellSize * sizeof(uint32_t)); //clear accu
- destPtrS += newImage.info.dwEffWidth;
- }//if (ey overflow)
-
- srcPtrS += info.dwEffWidth; //next round we start from new source row
- }//for y
- } else {
- //standard version with GetPixelColor...
- int32_t ex=0, ey=0; //ex and ey replace division...
- int32_t dy=0;
- //(we just add pixels, until by adding newx or newy we get a number greater than old size... then
- // it's time to move to next pixel)
- RGBQUAD rgb;
-
- for(int32_t y=0; y<oldy; y++){ //for all source rows
- info.nProgress = (int32_t)(100*y/oldy); if (info.nEscape) break;
- ey += newy;
- ex = 0; //restart with ex = 0
- accuPtr=accu; //restart from beginning of accu
- for(int32_t x=0; x<oldx; x++){ //for all source columns
- ex += newx;
- rgb = GetPixelColor(x, y, true);
- *accuPtr += rgb.rgbBlue; //add current pixel to current accu slot
- *(accuPtr+1) += rgb.rgbRed;
- *(accuPtr+2) += rgb.rgbGreen;
- (*(accuPtr+3)) ++;
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha) *(accuPtr+4) += rgb.rgbReserved;
-#endif
- if (ex>oldx) { //when we reach oldx, it's time to move to new slot
- accuPtr += accuCellSize;
- ex -= oldx; //(substract oldx from ex and resume from there on)
- }//if (ex overflow)
- }//for x
-
- if (ey>=oldy) { //now when this happens
- ey -= oldy; //it's time to move to new destination row
- accuPtr = accu;
- for (int32_t dx=0; dx<newx; dx++) { //copy accu to destination row (divided by number of pixels in each slot)
- rgb.rgbBlue = (uint8_t)(*(accuPtr) / *(accuPtr+3));
- rgb.rgbRed = (uint8_t)(*(accuPtr+1) / *(accuPtr+3));
- rgb.rgbGreen= (uint8_t)(*(accuPtr+2) / *(accuPtr+3));
-#if CXIMAGE_SUPPORT_ALPHA
- if (pAlpha) rgb.rgbReserved = (uint8_t)(*(accuPtr+4) / *(accuPtr+3));
-#endif
- newImage.SetPixelColor(dx, dy, rgb, pAlpha!=0);
- accuPtr += accuCellSize;
- }//for dx
- memset(accu, 0, newx * accuCellSize * sizeof(uint32_t)); //clear accu
- dy++;
- }//if (ey overflow)
- }//for y
- }//if
-
- delete [] accu; //delete helper array
-
- //copy new image to the destination
- if (iDst)
- iDst->Transfer(newImage);
- else
- Transfer(newImage);
- return true;
-
-}
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_TRANSFORMATION
diff --git a/hge/CxImage/ximawbmp.cpp b/hge/CxImage/ximawbmp.cpp deleted file mode 100644 index 7ba5d00..0000000 --- a/hge/CxImage/ximawbmp.cpp +++ /dev/null @@ -1,134 +0,0 @@ -/*
- * File: ximawbmp.cpp
- * Purpose: Platform Independent WBMP Image Class Loader and Writer
- * 12/Jul/2002 Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximawbmp.h"
-
-#if CXIMAGE_SUPPORT_WBMP
-
-#include "ximaiter.h"
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageWBMP::Decode(CxFile *hFile)
-{
- if (hFile == NULL) return false;
-
- WBMPHEADER wbmpHead;
-
- cx_try
- {
- ReadOctet(hFile, &wbmpHead.Type);
-
- uint32_t dat;
- ReadOctet(hFile, &dat);
- wbmpHead.FixHeader = (uint8_t)dat;
-
- ReadOctet(hFile, &wbmpHead.ImageWidth);
- ReadOctet(hFile, &wbmpHead.ImageHeight);
-
- if (hFile->Eof())
- cx_throw("Not a WBMP");
-
- if (wbmpHead.Type != 0)
- cx_throw("Unsupported WBMP type");
-
- head.biWidth = wbmpHead.ImageWidth;
- head.biHeight= wbmpHead.ImageHeight;
-
- if (head.biWidth<=0 || head.biHeight<=0)
- cx_throw("Corrupted WBMP");
-
- if (info.nEscape == -1){
- info.dwType = CXIMAGE_FORMAT_WBMP;
- return true;
- }
-
- Create(head.biWidth, head.biHeight, 1, CXIMAGE_FORMAT_WBMP);
- if (!IsValid()) cx_throw("WBMP Create failed");
- SetGrayPalette();
-
- int32_t linewidth=(head.biWidth+7)/8;
- CImageIterator iter(this);
- iter.Upset();
- for (int32_t y=0; y < head.biHeight; y++){
- hFile->Read(iter.GetRow(),linewidth,1);
- iter.PrevRow();
- }
-
- } cx_catch {
- if (strcmp(message,"")) strncpy(info.szLastError,message,255);
- return FALSE;
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageWBMP::ReadOctet(CxFile * hFile, uint32_t *data)
-{
- uint8_t c;
- *data = 0;
- do {
- if (hFile->Eof()) return false;
- c = (uint8_t)hFile->GetC();
- *data <<= 7;
- *data |= (c & 0x7F);
- } while ((c&0x80)!=0);
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageWBMP::Encode(CxFile * hFile)
-{
- if (EncodeSafeCheck(hFile)) return false;
-
- //check format limits
- if (head.biBitCount!=1){
- strcpy(info.szLastError,"Can't save this image as WBMP");
- return false;
- }
-
- WBMPHEADER wbmpHead;
- wbmpHead.Type=0;
- wbmpHead.FixHeader=0;
- wbmpHead.ImageWidth=head.biWidth;
- wbmpHead.ImageHeight=head.biHeight;
-
- // Write the file header
- hFile->PutC('\0');
- hFile->PutC('\0');
- WriteOctet(hFile,wbmpHead.ImageWidth);
- WriteOctet(hFile,wbmpHead.ImageHeight);
- // Write the pixels
- int32_t linewidth=(wbmpHead.ImageWidth+7)/8;
- CImageIterator iter(this);
- iter.Upset();
- for (uint32_t y=0; y < wbmpHead.ImageHeight; y++){
- hFile->Write(iter.GetRow(),linewidth,1);
- iter.PrevRow();
- }
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageWBMP::WriteOctet(CxFile * hFile, const uint32_t data)
-{
- int32_t ns = 0;
- while (data>>(ns+7)) ns+=7;
- while (ns>0){
- if (!hFile->PutC(0x80 | (uint8_t)(data>>ns))) return false;
- ns-=7;
- }
- if (!(hFile->PutC((uint8_t)(0x7F & data)))) return false;
- return true;
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_ENCODE
-////////////////////////////////////////////////////////////////////////////////
-#endif // CXIMAGE_SUPPORT_WBMP
-
diff --git a/hge/CxImage/ximawbmp.h b/hge/CxImage/ximawbmp.h deleted file mode 100644 index 9a7837e..0000000 --- a/hge/CxImage/ximawbmp.h +++ /dev/null @@ -1,49 +0,0 @@ -/*
- * File: ximawbmp.h
- * Purpose: WBMP Image Class Loader and Writer
- */
-/* ==========================================================
- * CxImageWBMP (c) 12/Jul/2002 Davide Pizzolato - www.xdp.it
- * For conditions of distribution and use, see copyright notice in ximage.h
- * ==========================================================
- */
-#if !defined(__ximaWBMP_h)
-#define __ximaWBMP_h
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_WBMP
-
-class CxImageWBMP: public CxImage
-{
-#pragma pack(1)
-typedef struct tagWbmpHeader
-{
- uint32_t Type; // 0
- uint8_t FixHeader; // 0
- uint32_t ImageWidth; // Image Width
- uint32_t ImageHeight; // Image Height
-} WBMPHEADER;
-#pragma pack()
-public:
- CxImageWBMP(): CxImage(CXIMAGE_FORMAT_WBMP) {}
-
-// bool Load(const TCHAR * imageFileName){ return CxImage::Load(imageFileName,CXIMAGE_FORMAT_WBMP);}
-// bool Save(const TCHAR * imageFileName){ return CxImage::Save(imageFileName,CXIMAGE_FORMAT_WBMP);}
- bool Decode(CxFile * hFile);
- bool Decode(FILE *hFile) { CxIOFile file(hFile); return Decode(&file); }
-protected:
- bool ReadOctet(CxFile * hFile, uint32_t *data);
-
-public:
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-protected:
- bool WriteOctet(CxFile * hFile, const uint32_t data);
-#endif // CXIMAGE_SUPPORT_ENCODE
-};
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximawmf.cpp b/hge/CxImage/ximawmf.cpp deleted file mode 100644 index a1057f5..0000000 --- a/hge/CxImage/ximawmf.cpp +++ /dev/null @@ -1,483 +0,0 @@ -/*
-*********************************************************************
- * File: ximawmf.cpp
- * Purpose: Windows Metafile Class Loader and Writer
- * Author: Volker Horch - vhorch@gmx.de
- * created: 13-Jun-2002
- *
- * Note: If the code below works, i wrote it.
- * If it doesn't work, i don't know who wrote it.
-*********************************************************************
- */
-
-/*
-*********************************************************************
- Note by Author:
-*********************************************************************
-
- Metafile Formats:
- =================
-
- There are 2 kinds of Windows Metafiles:
- - Standard Windows Metafile
- - Placeable Windows Metafile
-
- A StandardWindows Metafile looks like:
- - Metafile Header (MEATAHEADER)
- - Metafile Records
-
- A Placeable Metafile looks like:
- - Aldus Header (METAFILEHEADER)
- - Metafile Header (METAHEADER)
- - Metafile Records
-
- The "Metafile Header" and the "Metafile Records" are the same
- for both formats. However, the Standard Metafile does not contain any
- information about the original dimensions or x/y ratio of the Metafile.
-
- I decided, to allow only placeable Metafiles here. If you also want to
- enable Standard Metafiles, you will have to guess the dimensions of
- the image.
-
-*********************************************************************
- Limitations: see ximawmf.h
- you may configure some stuff there
-*********************************************************************
-*/
-
-#include "ximawmf.h"
-
-#if CXIMAGE_SUPPORT_WMF && CXIMAGE_SUPPORT_WINDOWS
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-bool CxImageWMF::Decode(CxFile *hFile, int32_t nForceWidth, int32_t nForceHeight)
-{
- if (hFile == NULL) return false;
-
- HENHMETAFILE hMeta;
- HDC hDC;
- int32_t cx,cy;
-
- //save the current position of the file
- int32_t pos = hFile->Tell();
-
- // Read the Metafile and convert to an Enhanced Metafile
- METAFILEHEADER mfh;
- hMeta = ConvertWmfFiletoEmf(hFile, &mfh);
- if (hMeta) { // ok, it's a WMF
-
-/////////////////////////////////////////////////////////////////////
-// We use the original WMF size information, because conversion to
-// EMF adjusts the Metafile to Full Screen or does not set rclBounds at all
-// ENHMETAHEADER emh;
-// uint32_t uRet;
-// uRet = GetEnhMetaFileHeader(hMeta, // handle of enhanced metafile
-// sizeof(ENHMETAHEADER), // size of buffer, in bytes
-// &emh); // address of buffer to receive data
-// if (!uRet){
-// DeleteEnhMetaFile(hMeta);
-// return false;
-// }
-// // calculate size
-// cx = emh.rclBounds.right - emh.rclBounds.left;
-// cy = emh.rclBounds.bottom - emh.rclBounds.top;
-/////////////////////////////////////////////////////////////////////
-
- // calculate size
- // scale the metafile (pixels/inch of metafile => pixels/inch of display)
- // mfh.inch already checked to be <> 0
-
- hDC = ::GetDC(0);
- int32_t cx1 = ::GetDeviceCaps(hDC, LOGPIXELSX);
- int32_t cy1 = ::GetDeviceCaps(hDC, LOGPIXELSY);
- ::ReleaseDC(0, hDC);
-
- cx = (mfh.inch/2 + (mfh.bbox.right - mfh.bbox.left) * cx1) / mfh.inch;
- cy = (mfh.inch/2 + (mfh.bbox.bottom - mfh.bbox.top) * cy1) / mfh.inch;
-
- } else { // maybe it's an EMF...
-
- hFile->Seek(pos,SEEK_SET);
-
- ENHMETAHEADER emh;
- hMeta = ConvertEmfFiletoEmf(hFile, &emh);
-
- if (!hMeta){
- strcpy(info.szLastError,"corrupted WMF");
- return false; // definitively give up
- }
-
- // ok, it's an EMF; calculate canvas size
- cx = emh.rclBounds.right - emh.rclBounds.left;
- cy = emh.rclBounds.bottom - emh.rclBounds.top;
-
- // alternative methods, sometime not so reliable... [DP]
- //cx = emh.szlDevice.cx;
- //cy = emh.szlDevice.cy;
- //
- //hDC = ::GetDC(0);
- //float hscale = (float)GetDeviceCaps(hDC, HORZRES)/(100.0f * GetDeviceCaps(hDC, HORZSIZE));
- //float vscale = (float)GetDeviceCaps(hDC, VERTRES)/(100.0f * GetDeviceCaps(hDC, VERTSIZE));
- //::ReleaseDC(0, hDC);
- //cx = (int32_t)((emh.rclFrame.right - emh.rclFrame.left) * hscale);
- //cy = (int32_t)((emh.rclFrame.bottom - emh.rclFrame.top) * vscale);
- }
-
- if (info.nEscape == -1) { // Check if cancelled
- head.biWidth = cx;
- head.biHeight= cy;
- info.dwType = CXIMAGE_FORMAT_WMF;
- DeleteEnhMetaFile(hMeta);
- strcpy(info.szLastError,"output dimensions returned");
- return true;
- }
-
- if (!cx || !cy) {
- DeleteEnhMetaFile(hMeta);
- strcpy(info.szLastError,"empty WMF");
- return false;
- }
-
- if (nForceWidth) cx=nForceWidth;
- if (nForceHeight) cy=nForceHeight;
- ShrinkMetafile(cx, cy); // !! Otherwise Bitmap may have bombastic size
-
- HDC hDC0 = ::GetDC(0); // DC of screen
- HBITMAP hBitmap = CreateCompatibleBitmap(hDC0, cx, cy); // has # colors of display
- hDC = CreateCompatibleDC(hDC0); // memory dc compatible with screen
- ::ReleaseDC(0, hDC0); // don't need anymore. get rid of it.
-
- if (hDC){
- if (hBitmap){
- RECT rc = {0,0,cx,cy};
- int32_t bpp = ::GetDeviceCaps(hDC, BITSPIXEL);
-
- HBITMAP hBitmapOld = (HBITMAP)SelectObject(hDC, hBitmap);
-
- // clear out the entire bitmap with windows background
- // because the MetaFile may not contain background information
- uint32_t dwBack = XMF_COLOR_BACK;
-#if XMF_SUPPORT_TRANSPARENCY
- if (bpp == 24) dwBack = XMF_COLOR_TRANSPARENT;
-#endif
- uint32_t OldColor = SetBkColor(hDC, dwBack);
- ExtTextOut(hDC, 0, 0, ETO_OPAQUE, &rc, NULL, 0, NULL);
- SetBkColor(hDC, OldColor);
-
- //retrieves optional palette entries from the specified enhanced metafile
- PLOGPALETTE plogPal;
- PBYTE pjTmp;
- HPALETTE hPal;
- int32_t iEntries = GetEnhMetaFilePaletteEntries(hMeta, 0, NULL);
- if (iEntries) {
- if ((plogPal = (PLOGPALETTE)GlobalAlloc(GMEM_FIXED | GMEM_ZEROINIT,
- sizeof(uint32_t) + sizeof(PALETTEENTRY)*iEntries )) == NULL) {
- DeleteObject(hBitmap);
- DeleteDC(hDC);
- DeleteEnhMetaFile(hMeta);
- strcpy(info.szLastError,"Cancelled");
- return false;
- }
-
- plogPal->palVersion = 0x300;
- plogPal->palNumEntries = (uint16_t) iEntries;
- pjTmp = (PBYTE) plogPal;
- pjTmp += 4;
-
- GetEnhMetaFilePaletteEntries(hMeta, iEntries, (PPALETTEENTRY)pjTmp);
- hPal = CreatePalette(plogPal);
- GlobalFree(plogPal);
-
- SelectPalette(hDC, hPal, FALSE);
- RealizePalette(hDC);
- }
-
- // Play the Metafile into Memory DC
- BOOL bRet = PlayEnhMetaFile(hDC, // handle to a device context
- hMeta, // handle to an enhanced metafile
- &rc); // pointer to bounding rectangle
-
- SelectObject(hDC, hBitmapOld);
- DeleteEnhMetaFile(hMeta); // we are done with this one
-
- if (info.nEscape) { // Check if cancelled
- DeleteObject(hBitmap);
- DeleteDC(hDC);
- strcpy(info.szLastError,"Cancelled");
- return false;
- }
-
- // the Bitmap now has the image.
- // Create our DIB and convert the DDB into DIB
- if (!Create(cx, cy, bpp, CXIMAGE_FORMAT_WMF)) {
- DeleteObject(hBitmap);
- DeleteDC(hDC);
- return false;
- }
-
-#if XMF_SUPPORT_TRANSPARENCY
- if (bpp == 24) {
- RGBQUAD rgbTrans = { XMF_RGBQUAD_TRANSPARENT };
- SetTransColor(rgbTrans);
- }
-#endif
- // We're finally ready to get the DIB. Call the driver and let
- // it party on our bitmap. It will fill in the color table,
- // and bitmap bits of our global memory block.
- bRet = GetDIBits(hDC, hBitmap, 0,
- (uint32_t)cy, GetBits(), (LPBITMAPINFO)pDib, DIB_RGB_COLORS);
-
- DeleteObject(hBitmap);
- DeleteDC(hDC);
-
- return (bRet!=0);
- } else {
- DeleteDC(hDC);
- }
- } else {
- if (hBitmap) DeleteObject(hBitmap);
- }
-
- DeleteEnhMetaFile(hMeta);
-
- return false;
-}
-
-/**********************************************************************
- Function: CheckMetafileHeader
- Purpose: Check if the Metafileheader of a file is valid
-**********************************************************************/
-BOOL CxImageWMF::CheckMetafileHeader(METAFILEHEADER *metafileheader)
-{
- uint16_t *pw;
- uint16_t cs;
- int32_t i;
-
- // check magic #
- if (metafileheader->key != 0x9ac6cdd7L) return false;
-
- // test checksum of header
- pw = (uint16_t *)metafileheader;
- cs = *pw;
- pw++;
- for (i = 0; i < 9; i++) {
- cs ^= *pw;
- pw++;
- }
-
- if (cs != metafileheader->checksum) return false;
-
- // check resolution
- if ((metafileheader->inch <= 0) || (metafileheader->inch > 2540)) return false;
-
- return true;
-}
-
-/**********************************************************************
- Function: ConvertWmfFiletoEmf
- Purpose: Converts a Windows Metafile into an Enhanced Metafile
-**********************************************************************/
-HENHMETAFILE CxImageWMF::ConvertWmfFiletoEmf(CxFile *fp, METAFILEHEADER *metafileheader)
-{
- HENHMETAFILE hMeta;
- uint32_t lenFile;
- uint32_t len;
- uint8_t *p;
- METAHEADER mfHeader;
- uint32_t seekpos;
-
- hMeta = 0;
-
- // get length of the file
- lenFile = fp->Size();
-
- // a placeable metafile starts with a METAFILEHEADER
- // read it and check metafileheader
- len = fp->Read(metafileheader, 1, sizeof(METAFILEHEADER));
- if (len < sizeof(METAFILEHEADER)) return (hMeta);
-
- if (CheckMetafileHeader(metafileheader)) {
- // This is a placeable metafile
- // Convert the placeable format into something that can
- // be used with GDI metafile functions
- seekpos = sizeof(METAFILEHEADER);
- } else {
- // Not a placeable wmf. A windows metafile?
- // at least not scaleable.
- // we could try to convert, but would loose ratio. don't allow this
- return (hMeta);
-
- //metafileheader->bbox.right = ?;
- //metafileheader->bbox.left = ?;
- //metafileheader->bbox.bottom = ?;
- //metafileheader->bbox.top = ?;
- //metafileheader->inch = ?;
- //
- //seekpos = 0;
- // fp->Seek(0, SEEK_SET); // rewind
- }
-
- // At this point we have a metaheader regardless of whether
- // the metafile was a windows metafile or a placeable metafile
- // so check to see if it is valid. There is really no good
- // way to do this so just make sure that the mtType is either
- // 1 or 2 (memory or disk file)
- // in addition we compare the length of the METAHEADER against
- // the length of the file. if filelength < len => no Metafile
-
- len = fp->Read(&mfHeader, 1, sizeof(METAHEADER));
- if (len < sizeof(METAHEADER)) return (hMeta);
-
- if ((mfHeader.mtType != 1) && (mfHeader.mtType != 2)) return (hMeta);
-
- // Length in Bytes from METAHEADER
- len = mfHeader.mtSize * 2;
- if (len > lenFile) return (hMeta);
-
- // Allocate memory for the metafile bits
- p = (uint8_t *)malloc(len);
- if (!p) return (hMeta);
-
- // seek back to METAHEADER and read all the stuff at once
- fp->Seek(seekpos, SEEK_SET);
- lenFile = fp->Read(p, 1, len);
- if (lenFile != len) {
- free(p);
- return (hMeta);
- }
-
- // the following (commented code) works, but adjusts rclBound of the
- // Enhanced Metafile to full screen.
- // the METAFILEHEADER from above is needed to scale the image
-
-// hMeta = SetWinMetaFileBits(len, p, NULL, NULL);
-
- // scale the metafile (pixels/inch of metafile => pixels/inch of display)
-
- METAFILEPICT mfp;
- int32_t cx1, cy1;
- HDC hDC;
-
- hDC = ::GetDC(0);
- cx1 = ::GetDeviceCaps(hDC, LOGPIXELSX);
- cy1 = ::GetDeviceCaps(hDC, LOGPIXELSY);
-
- memset(&mfp, 0, sizeof(mfp));
-
- mfp.mm = MM_ANISOTROPIC;
- mfp.xExt = 10000; //(metafileheader->bbox.right - metafileheader->bbox.left) * cx1 / metafileheader->inch;
- mfp.yExt = 10000; //(metafileheader->bbox.bottom - metafileheader->bbox.top) * cy1 / metafileheader->inch;
- mfp.hMF = 0;
-
- // in MM_ANISOTROPIC mode xExt and yExt are in MM_HIENGLISH
- // MM_HIENGLISH means: Each logical unit is converted to 0.001 inch
- //mfp.xExt *= 1000;
- //mfp.yExt *= 1000;
- // ????
- //int32_t k = 332800 / ::GetSystemMetrics(SM_CXSCREEN);
- //mfp.xExt *= k; mfp.yExt *= k;
-
- // fix for Win9x
- while ((mfp.xExt < 6554) && (mfp.yExt < 6554))
- {
- mfp.xExt *= 10;
- mfp.yExt *= 10;
- }
-
- hMeta = SetWinMetaFileBits(len, p, hDC, &mfp);
-
- if (!hMeta){ //try 2nd conversion using a different mapping
- mfp.mm = MM_TEXT;
- hMeta = SetWinMetaFileBits(len, p, hDC, &mfp);
- }
-
- ::ReleaseDC(0, hDC);
-
- // Free Memory
- free(p);
-
- return (hMeta);
-}
-/////////////////////////////////////////////////////////////////////
-HENHMETAFILE CxImageWMF::ConvertEmfFiletoEmf(CxFile *pFile, ENHMETAHEADER *pemfh)
-{
- HENHMETAFILE hMeta;
- int32_t iLen = pFile->Size();
-
- // Check the header first: <km>
- int32_t pos = pFile->Tell();
- int32_t iLenRead = pFile->Read(pemfh, 1, sizeof(ENHMETAHEADER));
- if (iLenRead < sizeof(ENHMETAHEADER)) return NULL;
- if (pemfh->iType != EMR_HEADER) return NULL;
- if (pemfh->dSignature != ENHMETA_SIGNATURE) return NULL;
- //if (pemfh->nBytes != (uint32_t)iLen) return NULL;
- pFile->Seek(pos,SEEK_SET);
-
- uint8_t* pBuff = (uint8_t *)malloc(iLen);
- if (!pBuff) return (FALSE);
-
- // Read the Enhanced Metafile
- iLenRead = pFile->Read(pBuff, 1, iLen);
- if (iLenRead != iLen) {
- free(pBuff);
- return NULL;
- }
-
- // Make it a Memory Metafile
- hMeta = SetEnhMetaFileBits(iLen, pBuff);
-
- free(pBuff); // finished with this one
-
- if (!hMeta) return NULL; // oops.
-
- // Get the Enhanced Metafile Header
- uint32_t uRet = GetEnhMetaFileHeader(hMeta, // handle of enhanced metafile
- sizeof(ENHMETAHEADER), // size of buffer, in bytes
- pemfh); // address of buffer to receive data
-
- if (!uRet) {
- DeleteEnhMetaFile(hMeta);
- return NULL;
- }
-
- return (hMeta);
-}
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_DECODE
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_ENCODE
-/////////////////////////////////////////////////////////////////////
-bool CxImageWMF::Encode(CxFile * hFile)
-{
- if (hFile == NULL) return false;
- strcpy(info.szLastError, "Save WMF not supported");
- return false;
-}
-#endif // CXIMAGE_SUPPORT_ENCODE
-/////////////////////////////////////////////////////////////////////
-
-/**********************************************************************
-Function: ShrinkMetafile
-Purpose: Shrink the size of a metafile to be not larger than
- the definition
-**********************************************************************/
-void CxImageWMF::ShrinkMetafile(int32_t &cx, int32_t &cy)
-{
- int32_t xScreen = XMF_MAXSIZE_CX;
- int32_t yScreen = XMF_MAXSIZE_CY;
-
- if (cx > xScreen){
- cy = cy * xScreen / cx;
- cx = xScreen;
- }
-
- if (cy > yScreen){
- cx = cx * yScreen / cy;
- cy = yScreen;
- }
-}
-
-#endif // CIMAGE_SUPPORT_WMF
-
diff --git a/hge/CxImage/ximawmf.h b/hge/CxImage/ximawmf.h deleted file mode 100644 index 94fb168..0000000 --- a/hge/CxImage/ximawmf.h +++ /dev/null @@ -1,154 +0,0 @@ -/*
-*********************************************************************
- * File: ximawmf.h
- * Purpose: Windows Metafile Class Loader and Writer
- * Author: Volker Horch - vhorch@gmx.de
- * created: 13-Jun-2002
-*********************************************************************
- */
-
-/*
-*********************************************************************
- Notes by Author:
-*********************************************************************
-
- Limitations:
- ============
-
- a) Transparency:
-
- A Metafile is vector graphics, which has transparency by design.
- This class always converts into a Bitmap format. Transparency is
- supported, but there is no good way to find out, which parts
- of the Metafile are transparent. There are two ways how we can
- handle this:
-
- - Clear the Background of the Bitmap with the background color
- you like (i have used COLOR_WINDOW) and don't support transparency.
-
- below #define XMF_SUPPORT_TRANSPARENCY 0
- #define XMF_COLOR_BACK RGB(Background color you like)
-
- - Clear the Background of the Bitmap with a very unusual color
- (which one ?) and use this color as the transparent color
-
- below #define XMF_SUPPORT_TRANSPARENCY 1
- #define XMF_COLOR_TRANSPARENT_R ...
- #define XMF_COLOR_TRANSPARENT_G ...
- #define XMF_COLOR_TRANSPARENT_B ...
-
- b) Resolution
-
- Once we have converted the Metafile into a Bitmap and we zoom in
- or out, the image may not look very good. If we still had the
- original Metafile, zooming would produce good results always.
-
- c) Size
-
- Although the filesize of a Metafile may be very small, it might
- produce a Bitmap with a bombastic size. Assume you have a Metafile
- with an image size of 6000*4000, which contains just one Metafile
- record ((e.g. a line from (0,0) to (6000, 4000)). The filesize
- of this Metafile would be let's say 100kB. If we convert it to
- a 6000*4000 Bitmap with 24 Bits/Pixes, the Bitmap would consume
- about 68MB of memory.
-
- I have choosen, to limit the size of the Bitmap to max.
- screensize, to avoid memory problems.
-
- If you want something else,
- modify #define XMF_MAXSIZE_CX / XMF_MAXSIZE_CY below
-
-*********************************************************************
-*/
-
-#ifndef _XIMAWMF_H
-#define _XIMAWMF_H
-
-#include "ximage.h"
-
-#if CXIMAGE_SUPPORT_WMF && CXIMAGE_SUPPORT_WINDOWS
-
-class CxImageWMF: public CxImage
-{
-
-#pragma pack(1)
-
-typedef struct tagRECT16
-{
- int16_t left;
- int16_t top;
- int16_t right;
- int16_t bottom;
-} RECT16;
-
-// taken from Windos 3.11 SDK Documentation (Programmer's Reference Volume 4: Resources)
-typedef struct tagMETAFILEHEADER
-{
- uint32_t key; // always 0x9ac6cdd7
- uint16_t reserved1; // reserved = 0
- RECT16 bbox; // bounding rectangle in metafile units as defined in "inch"
- uint16_t inch; // number of metafile units per inch (should be < 1440)
- uint32_t reserved2; // reserved = 0
- uint16_t checksum; // sum of the first 10 WORDS (using XOR operator)
-} METAFILEHEADER;
-
-#pragma pack()
-
-public:
- CxImageWMF(): CxImage(CXIMAGE_FORMAT_WMF) { }
-
- bool Decode(CxFile * hFile, int32_t nForceWidth=0, int32_t nForceHeight=0);
- bool Decode(FILE *hFile, int32_t nForceWidth=0, int32_t nForceHeight=0)
- { CxIOFile file(hFile); return Decode(&file,nForceWidth,nForceHeight); }
-
-#if CXIMAGE_SUPPORT_ENCODE
- bool Encode(CxFile * hFile);
- bool Encode(FILE *hFile) { CxIOFile file(hFile); return Encode(&file); }
-#endif // CXIMAGE_SUPPORT_ENCODE
-
-protected:
- void ShrinkMetafile(int32_t &cx, int32_t &cy);
- BOOL CheckMetafileHeader(METAFILEHEADER *pmetafileheader);
- HENHMETAFILE ConvertWmfFiletoEmf(CxFile *pFile, METAFILEHEADER *pmetafileheader);
- HENHMETAFILE ConvertEmfFiletoEmf(CxFile *pFile, ENHMETAHEADER *pemfh);
-
-};
-
-#define METAFILEKEY 0x9ac6cdd7L
-
-// Background color definition (if no transparency). see Notes above
-#define XMF_COLOR_BACK GetSysColor(COLOR_WINDOW)
-// alternatives
-//#define XMF_COLOR_BACK RGB(192, 192, 192) // lite gray
-//#define XMF_COLOR_BACK RGB( 0, 0, 0) // black
-//#define XMF_COLOR_BACK RGB(255, 255, 255) // white
-
-
-// transparency support. see Notes above
-#define XMF_SUPPORT_TRANSPARENCY 0
-#define XMF_COLOR_TRANSPARENT_R 211
-#define XMF_COLOR_TRANSPARENT_G 121
-#define XMF_COLOR_TRANSPARENT_B 112
-// don't change
-#define XMF_COLOR_TRANSPARENT RGB (XMF_COLOR_TRANSPARENT_R, \
- XMF_COLOR_TRANSPARENT_G, \
- XMF_COLOR_TRANSPARENT_B)
-// don't change
-#define XMF_RGBQUAD_TRANSPARENT XMF_COLOR_TRANSPARENT_B, \
- XMF_COLOR_TRANSPARENT_G, \
- XMF_COLOR_TRANSPARENT_R, \
- 0
-// max. size. see Notes above
-// alternatives
-//#define XMF_MAXSIZE_CX (GetSystemMetrics(SM_CXSCREEN)-10)
-//#define XMF_MAXSIZE_CY (GetSystemMetrics(SM_CYSCREEN)-50)
-//#define XMF_MAXSIZE_CX (2*GetSystemMetrics(SM_CXSCREEN)/3)
-//#define XMF_MAXSIZE_CY (2*GetSystemMetrics(SM_CYSCREEN)/3)
-#define XMF_MAXSIZE_CX 4000
-#define XMF_MAXSIZE_CY 4000
-
-
-#endif
-
-#endif
diff --git a/hge/CxImage/ximawnd.cpp b/hge/CxImage/ximawnd.cpp deleted file mode 100644 index 7f23f8f..0000000 --- a/hge/CxImage/ximawnd.cpp +++ /dev/null @@ -1,1900 +0,0 @@ -// xImaWnd.cpp : Windows functions
-/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
- * CxImage version 7.0.0 31/Dec/2010
- */
-
-#include "ximage.h"
-
-#include "ximaiter.h"
-#include "ximabmp.h"
-
-////////////////////////////////////////////////////////////////////////////////
-#if defined (_WIN32_WCE)
-
-#ifndef DEFAULT_GUI_FONT
-#define DEFAULT_GUI_FONT 17
-#endif
-
-#ifndef PROOF_QUALITY
-#define PROOF_QUALITY 2
-#endif
-
-struct DIBINFO : public BITMAPINFO
-{
- RGBQUAD arColors[255]; // Color table info - adds an extra 255 entries to palette
- operator LPBITMAPINFO() { return (LPBITMAPINFO) this; }
- operator LPBITMAPINFOHEADER() { return &bmiHeader; }
- RGBQUAD* ColorTable() { return bmiColors; }
-};
-
-int32_t BytesPerLine(int32_t nWidth, int32_t nBitsPerPixel)
-{
- return ( (nWidth * nBitsPerPixel + 31) & (~31) ) / 8;
-}
-
-int32_t NumColorEntries(int32_t nBitsPerPixel, int32_t nCompression, uint32_t biClrUsed)
-{
- int32_t nColors = 0;
- switch (nBitsPerPixel)
- {
- case 1:
- nColors = 2; break;
- case 2:
- nColors = 4; break; // winCE only
- case 4:
- nColors = 16; break;
- case 8:
- nColors =256; break;
- case 24:
- nColors = 0; break;
- case 16:
- case 32:
- nColors = 3; break; // I've found that PocketPCs need this regardless of BI_RGB or BI_BITFIELDS
- default:
- ASSERT(FALSE);
- }
- // If biClrUsed is provided, and it is a legal value, use it
- if (biClrUsed > 0 && biClrUsed <= (uint32_t)nColors)
- return biClrUsed;
-
- return nColors;
-}
-
-int32_t GetDIBits(
- HDC hdc, // handle to DC
- HBITMAP hbmp, // handle to bitmap
- uint32_t uStartScan, // first scan line to set
- uint32_t cScanLines, // number of scan lines to copy
- LPVOID lpvBits, // array for bitmap bits
- LPBITMAPINFO lpbi, // bitmap data buffer
- uint32_t uUsage // RGB or palette index
-)
-{
- uint32_t iColorTableSize = 0;
-
- if (!hbmp)
- return 0;
-
- // Get dimensions of bitmap
- BITMAP bm;
- if (!::GetObject(hbmp, sizeof(bm),(LPVOID)&bm))
- return 0;
-
- //3. Creating new bitmap and receive pointer to it's bits.
- HBITMAP hTargetBitmap;
- void *pBuffer;
-
- //3.1 Initilize DIBINFO structure
- DIBINFO dibInfo;
- dibInfo.bmiHeader.biBitCount = 24;
- dibInfo.bmiHeader.biClrImportant = 0;
- dibInfo.bmiHeader.biClrUsed = 0;
- dibInfo.bmiHeader.biCompression = 0;
- dibInfo.bmiHeader.biHeight = bm.bmHeight;
- dibInfo.bmiHeader.biPlanes = 1;
- dibInfo.bmiHeader.biSize = 40;
- dibInfo.bmiHeader.biSizeImage = bm.bmHeight*BytesPerLine(bm.bmWidth,24);
- dibInfo.bmiHeader.biWidth = bm.bmWidth;
- dibInfo.bmiHeader.biXPelsPerMeter = 3780;
- dibInfo.bmiHeader.biYPelsPerMeter = 3780;
- dibInfo.bmiColors[0].rgbBlue = 0;
- dibInfo.bmiColors[0].rgbGreen = 0;
- dibInfo.bmiColors[0].rgbRed = 0;
- dibInfo.bmiColors[0].rgbReserved = 0;
-
- //3.2 Create bitmap and receive pointer to points into pBuffer
- HDC hDC = ::GetDC(NULL);
- ASSERT(hDC);
- hTargetBitmap = CreateDIBSection(
- hDC,
- (const BITMAPINFO*)dibInfo,
- DIB_RGB_COLORS,
- (void**)&pBuffer,
- NULL,
- 0);
-
- ::ReleaseDC(NULL, hDC);
-
- //4. Copy source bitmap into the target bitmap.
-
- //4.1 Create 2 device contexts
- HDC memDc = CreateCompatibleDC(NULL);
- if (!memDc) {
- ASSERT(FALSE);
- }
-
- HDC targetDc = CreateCompatibleDC(NULL);
- if (!targetDc) {
- ASSERT(FALSE);
- }
-
- //4.2 Select source bitmap into one DC, target into another
- HBITMAP hOldBitmap1 = (HBITMAP)::SelectObject(memDc, hbmp);
- HBITMAP hOldBitmap2 = (HBITMAP)::SelectObject(targetDc, hTargetBitmap);
-
- //4.3 Copy source bitmap into the target one
- BitBlt(targetDc, 0, 0, bm.bmWidth, bm.bmHeight, memDc, 0, 0, SRCCOPY);
-
- //4.4 Restore device contexts
- ::SelectObject(memDc, hOldBitmap1);
- ::SelectObject(targetDc, hOldBitmap2);
- DeleteDC(memDc);
- DeleteDC(targetDc);
-
- //Here we can bitmap bits: pBuffer. Note:
- // 1. pBuffer contains 3 bytes per point
- // 2. Lines ane from the bottom to the top!
- // 3. Points in the line are from the left to the right
- // 4. Bytes in one point are BGR (blue, green, red) not RGB
- // 5. Don't delete pBuffer, it will be automatically deleted
- // when delete hTargetBitmap
- lpvBits = pBuffer;
-
- DeleteObject(hbmp);
- //DeleteObject(hTargetBitmap);
-
- return 1;
-}
-#endif
-
-////////////////////////////////////////////////////////////////////////////////
-#if CXIMAGE_SUPPORT_WINDOWS
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::Blt(HDC pDC, int32_t x, int32_t y)
-{
- if((pDib==0)||(pDC==0)||(!info.bEnabled)) return 0;
-
- HBRUSH brImage = CreateDIBPatternBrushPt(pDib, DIB_RGB_COLORS);
- POINT pt;
- SetBrushOrgEx(pDC,x,y,&pt); //<RT>
- HBRUSH brOld = (HBRUSH) SelectObject(pDC, brImage);
- PatBlt(pDC, x, y, head.biWidth, head.biHeight, PATCOPY);
- SelectObject(pDC, brOld);
- SetBrushOrgEx(pDC,pt.x,pt.y,NULL);
- DeleteObject(brImage);
- return 1;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Transfer the image in a global bitmap handle (clipboard copy)
- */
-HANDLE CxImage::CopyToHandle()
-{
- HANDLE hMem=NULL;
- if (pDib){
- hMem= GlobalAlloc(GHND, GetSize());
- if (hMem){
- uint8_t* pDst=(uint8_t*)GlobalLock(hMem);
- if (pDst){
- memcpy(pDst,pDib,GetSize());
- }
- GlobalUnlock(hMem);
- }
- }
- return hMem;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Global object (clipboard paste) constructor
- * \param hMem: source bitmap object, the clipboard format must be CF_DIB
- * \return true if everything is ok
- */
-bool CxImage::CreateFromHANDLE(HANDLE hMem)
-{
- if (!Destroy())
- return false;
-
- uint32_t dwSize = GlobalSize(hMem);
- if (!dwSize) return false;
-
- uint8_t *lpVoid; //pointer to the bitmap
- lpVoid = (uint8_t *)GlobalLock(hMem);
- BITMAPINFOHEADER *pHead; //pointer to the bitmap header
- pHead = (BITMAPINFOHEADER *)lpVoid;
- if (lpVoid){
-
- //CxMemFile hFile(lpVoid,dwSize);
-
- //copy the bitmap header
- memcpy(&head,pHead,sizeof(BITMAPINFOHEADER));
- //check if it's a top-down bitmap
- bool bTopDownDib = head.biHeight<0;
- if (bTopDownDib) head.biHeight=-head.biHeight;
- //create the image
- if(!Create(head.biWidth,head.biHeight,head.biBitCount)){
- GlobalUnlock(hMem);
- return false;
- }
- //preserve DPI
- SetXDPI((int32_t)floor(head.biXPelsPerMeter * 254.0 / 10000.0 + 0.5));
- SetYDPI((int32_t)floor(head.biYPelsPerMeter * 254.0 / 10000.0 + 0.5));
-
- /*//copy the pixels (old way)
- if((pHead->biCompression != BI_RGB) || (pHead->biBitCount == 32)){ //<Jörgen Alfredsson>
- // BITFIELD case
- // set the internal header in the dib
- memcpy(pDib,&head,sizeof(head));
- // get the bitfield masks
- uint32_t bf[3];
- memcpy(bf,lpVoid+pHead->biSize,12);
- // transform into RGB
- Bitfield2RGB(lpVoid+pHead->biSize+12,bf[0],bf[1],bf[2],(uint8_t)pHead->biBitCount);
- } else { //normal bitmap
- memcpy(pDib,lpVoid,GetSize());
- }*/
-
- // <Michael Gandyra>
- // fill in color map
- bool bIsOldBmp = (head.biSize == sizeof(BITMAPCOREHEADER));
- RGBQUAD *pRgb = GetPalette();
- if (pRgb) {
- // number of colors to fill in
- int32_t nColors = DibNumColors(pHead);
- if (bIsOldBmp) {
- /* get pointer to BITMAPCOREINFO (old style 1.x) */
- LPBITMAPCOREINFO lpbmc = (LPBITMAPCOREINFO)lpVoid;
- for (int32_t i = nColors - 1; i >= 0; i--) {
- pRgb[i].rgbRed = lpbmc->bmciColors[i].rgbtRed;
- pRgb[i].rgbGreen = lpbmc->bmciColors[i].rgbtGreen;
- pRgb[i].rgbBlue = lpbmc->bmciColors[i].rgbtBlue;
- pRgb[i].rgbReserved = (uint8_t)0;
- }
- } else {
- /* get pointer to BITMAPINFO (new style 3.x) */
- LPBITMAPINFO lpbmi = (LPBITMAPINFO)lpVoid;
- for (int32_t i = nColors - 1; i >= 0; i--) {
- pRgb[i].rgbRed = lpbmi->bmiColors[i].rgbRed;
- pRgb[i].rgbGreen = lpbmi->bmiColors[i].rgbGreen;
- pRgb[i].rgbBlue = lpbmi->bmiColors[i].rgbBlue;
- pRgb[i].rgbReserved = (uint8_t)0;
- }
- }
- }
-
- // <Michael Gandyra>
- uint32_t dwCompression = pHead->biCompression;
- // compressed bitmap ?
- if(dwCompression!=BI_RGB || pHead->biBitCount==32 || pHead->biBitCount ==16) {
- // get the bitmap bits
- LPSTR lpDIBBits = (LPSTR)((uint8_t*)pHead + *(uint32_t*)pHead + (uint16_t)(GetNumColors() * sizeof(RGBQUAD)));
- // decode and copy them to our image
- switch (pHead->biBitCount) {
- case 32 :
- {
- // BITFIELD case
- if (dwCompression == BI_BITFIELDS || dwCompression == BI_RGB) {
- // get the bitfield masks
- uint32_t bf[3];
- memcpy(bf,lpVoid+pHead->biSize,12);
- // transform into RGB
- Bitfield2RGB(lpVoid+pHead->biSize+12,bf[0],bf[1],bf[2],(uint8_t)pHead->biBitCount);
- } else {
- // "unknown compression";
- GlobalUnlock(hMem);
- return false;
- }
- }
- break;
- case 16 :
- {
- // get the bitfield masks
- int32_t offset=0;
- uint32_t bf[3];
- if (dwCompression == BI_BITFIELDS) {
- memcpy(bf,lpVoid+pHead->biSize,12);
- offset= 12;
- } else {
- bf[0] = 0x7C00;
- bf[1] = 0x3E0;
- bf[2] = 0x1F; // RGB555
- }
- // copy the pixels
- memcpy(info.pImage, lpDIBBits + offset, head.biHeight*((head.biWidth+1)/2)*4);
- // transform into RGB
- Bitfield2RGB(info.pImage, bf[0], bf[1], bf[2], 16);
- }
- break;
- case 8 :
- case 4 :
- case 1 :
- {
- switch (dwCompression) {
- case BI_RLE4:
- {
- uint8_t status_byte = 0;
- uint8_t second_byte = 0;
- int32_t scanline = 0;
- int32_t bits = 0;
- BOOL low_nibble = FALSE;
- CImageIterator iter(this);
-
- for (BOOL bContinue = TRUE; bContinue; ) {
- status_byte = *(lpDIBBits++);
- switch (status_byte) {
- case RLE_COMMAND :
- status_byte = *(lpDIBBits++);
- switch (status_byte) {
- case RLE_ENDOFLINE :
- bits = 0;
- scanline++;
- low_nibble = FALSE;
- break;
- case RLE_ENDOFBITMAP :
- bContinue = FALSE;
- break;
- case RLE_DELTA :
- {
- // read the delta values
- uint8_t delta_x;
- uint8_t delta_y;
- delta_x = *(lpDIBBits++);
- delta_y = *(lpDIBBits++);
- // apply them
- bits += delta_x / 2;
- scanline += delta_y;
- break;
- }
- default :
- second_byte = *(lpDIBBits++);
- uint8_t* sline = iter.GetRow(scanline);
- for (int32_t i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- if (low_nibble) {
- if (i&1)
- *(sline + bits) |= (second_byte & 0x0f);
- else
- *(sline + bits) |= (second_byte & 0xf0)>>4;
- bits++;
- } else {
- if (i&1)
- *(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
- else
- *(sline + bits) = (uint8_t)(second_byte & 0xf0);
- }
- }
-
- if ((i & 1) && (i != (status_byte - 1)))
- second_byte = *(lpDIBBits++);
-
- low_nibble = !low_nibble;
- }
- if ((((status_byte+1) >> 1) & 1 ) == 1)
- second_byte = *(lpDIBBits++);
- break;
- };
- break;
- default :
- {
- uint8_t* sline = iter.GetRow(scanline);
- second_byte = *(lpDIBBits++);
- for (unsigned i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- if (low_nibble) {
- if (i&1)
- *(sline + bits) |= (second_byte & 0x0f);
- else
- *(sline + bits) |= (second_byte & 0xf0)>>4;
- bits++;
- } else {
- if (i&1)
- *(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
- else
- *(sline + bits) = (uint8_t)(second_byte & 0xf0);
- }
- }
- low_nibble = !low_nibble;
- }
- }
- break;
- };
- }
- }
- break;
- case BI_RLE8 :
- {
- uint8_t status_byte = 0;
- uint8_t second_byte = 0;
- int32_t scanline = 0;
- int32_t bits = 0;
- CImageIterator iter(this);
-
- for (BOOL bContinue = TRUE; bContinue; ) {
- status_byte = *(lpDIBBits++);
- if (status_byte==RLE_COMMAND) {
- status_byte = *(lpDIBBits++);
- switch (status_byte) {
- case RLE_ENDOFLINE :
- bits = 0;
- scanline++;
- break;
- case RLE_ENDOFBITMAP :
- bContinue = FALSE;
- break;
- case RLE_DELTA :
- {
- // read the delta values
- uint8_t delta_x;
- uint8_t delta_y;
- delta_x = *(lpDIBBits++);
- delta_y = *(lpDIBBits++);
- // apply them
- bits += delta_x;
- scanline += delta_y;
- }
- break;
- default :
- int32_t nNumBytes = sizeof(uint8_t) * status_byte;
- memcpy((void *)(iter.GetRow(scanline) + bits), lpDIBBits, nNumBytes);
- lpDIBBits += nNumBytes;
- // align run length to even number of bytes
- if ((status_byte & 1) == 1)
- second_byte = *(lpDIBBits++);
- bits += status_byte;
- break;
- };
- } else {
- uint8_t *sline = iter.GetRow(scanline);
- second_byte = *(lpDIBBits++);
- for (unsigned i = 0; i < status_byte; i++) {
- if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
- *(sline + bits) = second_byte;
- bits++;
- } else {
- bContinue = FALSE; //don't delete: we are in memory, it is not as with files
- break;
- }
- }
- }
- }
- }
- break;
- default :
- {
- // "compression type not supported";
- GlobalUnlock(hMem);
- return false;
- }
- }
- }
- }
- } else {
- //normal bitmap (not compressed)
- memcpy(pDib,lpVoid,GetSize());
- }
-
- GlobalUnlock(hMem);
-
- if (bTopDownDib) Flip();
-
- return true;
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Transfer the image in a icon handle, with transparency.
- * \param hdc: target device context (the screen, usually)
- * \param bTransparency : (optional) exports trancparency
- * \return icon handle, or NULL if an error occurs.
- * \sa MakeBitmap
- * \author [brunom]
- */
-HICON CxImage::MakeIcon(HDC hdc, bool bTransparency)
-{
- HICON hDestIcon = 0;
-
- ICONINFO csDest;
-
- csDest.fIcon = TRUE;
- csDest.xHotspot = 0;
- csDest.yHotspot = 0;
-
- // Assign HBITMAP with Transparency to ICON Info structure
- csDest.hbmColor = MakeBitmap( hdc, bTransparency );
-
- // Create Mask just in case we need a Mask for the Icons
- CxImage a_Mask;
- GetTransparentMask(&a_Mask);
-
- // Assign Mask
- csDest.hbmMask = a_Mask.MakeBitmap();
-
- // Create Icon
- hDestIcon = ::CreateIconIndirect(&csDest);
-
- return hDestIcon;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Transfer the image in a bitmap handle
- * \param hdc: target device context (the screen, usually)
- * \param bTransparency : (optional) exports trancparency
- * \return bitmap handle, or NULL if an error occurs.
- * \sa Draw2HBITMAP, MakeIcon
- * \author []; changes [brunom]
- */
-HBITMAP CxImage::MakeBitmap(HDC hdc, bool bTransparency)
-{
- if (!pDib)
- return NULL;
-
- // Create HBITMAP with Trancparency
- if( (pAlpha!=0) && bTransparency )
- {
- HDC hMemDC;
- if (hdc)
- hMemDC = hdc;
- else
- hMemDC = CreateCompatibleDC(NULL);
-
- BITMAPINFO bi;
-
- // Fill in the BITMAPINFOHEADER
- bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
- bi.bmiHeader.biWidth = GetWidth();
- bi.bmiHeader.biHeight = GetHeight();
- bi.bmiHeader.biPlanes = 1;
- bi.bmiHeader.biBitCount = 32;
- bi.bmiHeader.biCompression = BI_RGB;
- bi.bmiHeader.biSizeImage = 4 * GetWidth() * GetHeight();
- bi.bmiHeader.biXPelsPerMeter = 0;
- bi.bmiHeader.biYPelsPerMeter = 0;
- bi.bmiHeader.biClrUsed = 0;
- bi.bmiHeader.biClrImportant = 0;
-
- COLORREF* pCrBits = NULL;
- HBITMAP hbmp = CreateDIBSection (
- hMemDC, &bi, DIB_RGB_COLORS, (void **)&pCrBits,
- NULL, NULL);
-
- if (!hdc)
- DeleteDC(hMemDC);
-
- DIBSECTION ds;
- if (::GetObject (hbmp, sizeof (DIBSECTION), &ds) == 0)
- {
- return 0;
- }
-
- // transfer Pixels from CxImage to Bitmap
- RGBQUAD* pBit = (RGBQUAD*) ds.dsBm.bmBits;
- int32_t lPx,lPy;
- for( lPy=0 ; lPy < bi.bmiHeader.biHeight ; ++lPy )
- {
- for( lPx=0 ; lPx < bi.bmiHeader.biWidth ; ++lPx )
- {
- RGBQUAD lPixel = GetPixelColor(lPx,lPy,true);
- *pBit = lPixel;
- pBit++;
- }
- }
-
- return hbmp;
- }
-
- // Create HBITMAP without Trancparency
- if (!hdc){
- // this call to CreateBitmap doesn't create a DIB <jaslet>
- // // Create a device-independent bitmap <CSC>
- // return CreateBitmap(head.biWidth,head.biHeight, 1, head.biBitCount, GetBits());
- // use instead this code
- HDC hMemDC = CreateCompatibleDC(NULL);
- LPVOID pBit32;
- HBITMAP bmp = CreateDIBSection(hMemDC,(LPBITMAPINFO)pDib,DIB_RGB_COLORS, &pBit32, NULL, 0);
- if (pBit32) memcpy(pBit32, GetBits(), head.biSizeImage);
- DeleteDC(hMemDC);
- return bmp;
- }
-
- // this single line seems to work very well
- //HBITMAP bmp = CreateDIBitmap(hdc, (LPBITMAPINFOHEADER)pDib, CBM_INIT,
- // GetBits(), (LPBITMAPINFO)pDib, DIB_RGB_COLORS);
- // this alternative works also with _WIN32_WCE
- LPVOID pBit32;
- HBITMAP bmp = CreateDIBSection(hdc, (LPBITMAPINFO)pDib, DIB_RGB_COLORS, &pBit32, NULL, 0);
- if (pBit32) memcpy(pBit32, GetBits(), head.biSizeImage);
-
- return bmp;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * check if the bitmap contains transparency data
- * \param hbmp : bitmap resource handle
- * \return true the bitmap has transparency
- * \author [brunom]
- */
-bool CxImage::IsHBITMAPAlphaValid( HBITMAP hbmp )
-{
- bool lbAlphaValid = false;
- if (hbmp)
- {
- BITMAP bm;
- // get informations about the bitmap
- GetObject(hbmp, sizeof(BITMAP), (LPSTR) &bm);
-
- // for alpha there must bee 32 Bit's per Pixel ??
- if( bm.bmBitsPixel == 32 )
- {
- BITMAPINFO l_BitmapInfo;
- l_BitmapInfo.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
- l_BitmapInfo.bmiHeader.biWidth = bm.bmWidth;
- l_BitmapInfo.bmiHeader.biHeight = bm.bmHeight;
- l_BitmapInfo.bmiHeader.biPlanes = bm.bmPlanes;
- l_BitmapInfo.bmiHeader.biBitCount = bm.bmBitsPixel;
- l_BitmapInfo.bmiHeader.biCompression = BI_RGB;
-
- // create Buffer for Image
- RGBQUAD * l_pRawBytes = new RGBQUAD[bm.bmWidth * bm.bmHeight];
-
- HDC dc = ::GetDC(NULL);
-
- if(dc)
- {
- // Get Pixel Data from Image
- if(GetDIBits(dc, hbmp, 0, bm.bmHeight, l_pRawBytes, &l_BitmapInfo, DIB_RGB_COLORS))
- {
- RGBQUAD * lpArray = l_pRawBytes;
- RGBQUAD * lpArrayEnd = l_pRawBytes + (bm.bmWidth * bm.bmHeight);
-
- // check if Alpha Channel is realy valid (anny value not zero)
- for( ;lpArray != lpArrayEnd ; ++lpArray )
- {
- // any alpha value not zero
- if( lpArray->rgbReserved != 0 )
- {
- // must be vaid alph channel
- lbAlphaValid = true;
- break;
- }
- }
- }
- ::ReleaseDC(NULL, dc);
- }
- // free temporary Memory
- delete [] l_pRawBytes;
- }
- }
-
- return lbAlphaValid;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Bitmap resource constructor
- * \param hbmp : bitmap resource handle
- * \param hpal : (optional) palette, useful for 8bpp DC
- * \param bTransparency : (optional) for 32bpp images only, imports trancparency
- * \return true if everything is ok
- * \author []; changes [brunom]
- */
-bool CxImage::CreateFromHBITMAP(HBITMAP hbmp, HPALETTE hpal, bool bTransparency)
-{
- if (!Destroy())
- return false;
-
- if (hbmp) {
- BITMAP bm;
- // get informations about the bitmap
- GetObject(hbmp, sizeof(BITMAP), (LPSTR) &bm);
-
- // Transparency in HBITMAP
- if(bTransparency && IsHBITMAPAlphaValid(hbmp))
- {
- bool l_bResult = true;
-
- BITMAPINFO l_BitmapInfo;
- l_BitmapInfo.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
- l_BitmapInfo.bmiHeader.biWidth = bm.bmWidth;
- l_BitmapInfo.bmiHeader.biHeight = bm.bmHeight;
- l_BitmapInfo.bmiHeader.biPlanes = bm.bmPlanes;
- l_BitmapInfo.bmiHeader.biBitCount = bm.bmBitsPixel;
- l_BitmapInfo.bmiHeader.biCompression = BI_RGB;
-
- RGBQUAD *l_pRawBytes = new RGBQUAD[bm.bmWidth * bm.bmHeight];
-
- HDC dc = ::GetDC(NULL);
-
- if(dc)
- {
- if(GetDIBits(dc, hbmp, 0, bm.bmHeight, l_pRawBytes, &l_BitmapInfo, DIB_RGB_COLORS))
- l_bResult = CreateFromArray((uint8_t*)l_pRawBytes, bm.bmWidth, bm.bmHeight, bm.bmBitsPixel, bm.bmWidthBytes, false);
- else
- l_bResult = false;
-
- ::ReleaseDC(NULL, dc);
- }
- else
- l_bResult = false;
-
- delete [] l_pRawBytes;
-
- return l_bResult;
- }
- else
- {
- // create the image
- if (!Create(bm.bmWidth, bm.bmHeight, bm.bmBitsPixel, 0))
- return false;
- // create a device context for the bitmap
- HDC dc = ::GetDC(NULL);
- if (!dc)
- return false;
-
- if (hpal){
- SelectObject(dc,hpal); //the palette you should get from the user or have a stock one
- RealizePalette(dc);
- }
-
- // copy the pixels
- if (GetDIBits(dc, hbmp, 0, head.biHeight, info.pImage,
- (LPBITMAPINFO)pDib, DIB_RGB_COLORS) == 0){ //replace &head with pDib <Wil Stark>
- strcpy(info.szLastError,"GetDIBits failed");
- ::ReleaseDC(NULL, dc);
- return false;
- }
- ::ReleaseDC(NULL, dc);
- return true;
- }
- }
- return false;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * icon resource constructor
- * \param hico : icon resource handle
- * \param bTransparency : (optional) for 32bpp images only, imports trancparency
- * \return true if everything is ok
- * \author []; changes [Arlen Albert Keshabian], [brunom]
- */
-#if !defined (_WIN32_WCE)
-bool CxImage::CreateFromHICON(HICON hico, bool bTransparency)
-{
- if (!Destroy() || !hico)
- return false;
-
- bool l_bResult = true;
-
- ICONINFO iinfo;
- GetIconInfo(hico,&iinfo);
-
- //BITMAP l_Bitmap;
- //GetObject(iinfo.hbmColor, sizeof(BITMAP), &l_Bitmap);
-
- l_bResult = CreateFromHBITMAP( iinfo.hbmColor, NULL, bTransparency );
-
-#if CXIMAGE_SUPPORT_ALPHA
- if(l_bResult && ((!IsHBITMAPAlphaValid(iinfo.hbmColor)) || (!bTransparency)) )
- {
- CxImage mask;
- mask.CreateFromHBITMAP(iinfo.hbmMask);
- mask.GrayScale();
- mask.Negative();
- AlphaSet(mask);
- }
-#endif
-
- DeleteObject(iinfo.hbmColor); //<Sims>
- DeleteObject(iinfo.hbmMask); //<Sims>
-
- return l_bResult;
-}
-#endif //_WIN32_WCE
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::Draw(HDC hdc, const RECT& rect, RECT* pClipRect, bool bSmooth, bool bFlipY)
-{
- return Draw(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, pClipRect,bSmooth, bFlipY);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Draws the image in the specified device context, with support for alpha channel, alpha palette, transparency, opacity.
- * \param hdc : destination device context
- * \param x,y : (optional) offset
- * \param cx,cy : (optional) size.
- * - If cx or cy are not specified (or less than 0), the normal width or height will be used
- * - If cx or cy are different than width or height, the image will be stretched
- *
- * \param pClipRect : limit the drawing operations inside a given rectangle in the output device context.
- * \param bSmooth : activates a bilinear filter that will enhance the appearence for zommed pictures.
- * Quite slow. Needs CXIMAGE_SUPPORT_INTERPOLATION.
- * \param bFlipY : draws a mirror image along the y-axis
- * \return true if everything is ok
- */
-int32_t CxImage::Draw(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth, bool bFlipY)
-{
- if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;
-
- if (cx < 0) cx = head.biWidth;
- if (cy < 0) cy = head.biHeight;
- bool bTransparent = info.nBkgndIndex >= 0;
- bool bAlpha = pAlpha != 0;
-
- //required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
- int32_t hdc_Restore = ::SaveDC(hdc);
- if (!hdc_Restore)
- return 0;
-
-#if !defined (_WIN32_WCE)
- RECT mainbox; // (experimental)
- if (pClipRect){
- GetClipBox(hdc,&mainbox);
- HRGN rgn = CreateRectRgnIndirect(pClipRect);
- ExtSelectClipRgn(hdc,rgn,RGN_AND);
- DeleteObject(rgn);
- }
-#endif
-
- //find the smallest area to paint
- RECT clipbox,paintbox;
- GetClipBox(hdc,&clipbox);
-
- paintbox.top = min(clipbox.bottom,max(clipbox.top,y));
- paintbox.left = min(clipbox.right,max(clipbox.left,x));
- paintbox.right = max(clipbox.left,min(clipbox.right,x+cx));
- paintbox.bottom = max(clipbox.top,min(clipbox.bottom,y+cy));
-
- int32_t destw = paintbox.right - paintbox.left;
- int32_t desth = paintbox.bottom - paintbox.top;
-
- if (!(bTransparent || bAlpha || info.bAlphaPaletteEnabled)){
- if (cx==head.biWidth && cy==head.biHeight){ //NORMAL
-#if !defined (_WIN32_WCE)
- SetStretchBltMode(hdc,COLORONCOLOR);
-#endif
- if (bFlipY){
- StretchDIBits(hdc, x, y+cy-1,
- cx, -cy, 0, 0, cx, cy,
- info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,SRCCOPY);
- } else {
- SetDIBitsToDevice(hdc, x, y, cx, cy, 0, 0, 0, cy,
- info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS);
- }
- } else { //STRETCH
- //pixel informations
- RGBQUAD c={0,0,0,0};
- //Preparing Bitmap Info
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=destw;
- bmInfo.bmiHeader.biHeight=desth;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
- uint8_t *pbase; //points to the final dib
- uint8_t *pdst; //current pixel from pbase
- uint8_t *ppix; //current pixel from image
- //get the background
- HDC TmpDC=CreateCompatibleDC(hdc);
- HBITMAP TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
-
- if (pbase){
- int32_t xx,yy;
- int32_t sx,sy;
- float dx,dy;
- uint8_t *psrc;
-
- int32_t ew = ((((24 * destw) + 31) / 32) * 4);
- int32_t ymax = paintbox.bottom;
- int32_t xmin = paintbox.left;
- float fx=(float)head.biWidth/(float)cx;
- float fy=(float)head.biHeight/(float)cy;
-
- for(yy=0;yy<desth;yy++){
- dy = head.biHeight-(ymax-yy-y)*fy;
- sy = max(0L,(int32_t)floor(dy));
- psrc = info.pImage+sy*info.dwEffWidth;
- if (bFlipY){
- pdst = pbase+(desth-1-yy)*ew;
- } else {
- pdst = pbase+yy*ew;
- }
- for(xx=0;xx<destw;xx++){
- dx = (xx+xmin-x)*fx;
- sx = max(0L,(int32_t)floor(dx));
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- if (head.biClrUsed){
- c=GetPaletteColor(GetPixelIndex(sx,sy));
- } else {
- ppix = psrc + sx*3;
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix;
- }
- }
- *pdst++=c.rgbBlue;
- *pdst++=c.rgbGreen;
- *pdst++=c.rgbRed;
- }
- }
- }
- //paint the image & cleanup
- SetDIBitsToDevice(hdc,paintbox.left,paintbox.top,destw,desth,0,0,0,desth,pbase,&bmInfo,0);
- DeleteObject(SelectObject(TmpDC,TmpObj));
- DeleteDC(TmpDC);
- }
- } else { // draw image with transparent/alpha blending
- //////////////////////////////////////////////////////////////////
- //Alpha blend - Thanks to Florian Egel
-
- //pixel informations
- RGBQUAD c={0,0,0,0};
- RGBQUAD ct = GetTransColor();
- int32_t* pc = (int32_t*)&c;
- int32_t* pct= (int32_t*)&ct;
- int32_t cit = GetTransIndex();
- int32_t ci = 0;
-
- //Preparing Bitmap Info
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=destw;
- bmInfo.bmiHeader.biHeight=desth;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
-
- uint8_t *pbase; //points to the final dib
- uint8_t *pdst; //current pixel from pbase
- uint8_t *ppix; //current pixel from image
-
- //get the background
- HDC TmpDC=CreateCompatibleDC(hdc);
- HBITMAP TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
- BitBlt(TmpDC,0,0,destw,desth,hdc,paintbox.left,paintbox.top,SRCCOPY);
-
- if (pbase){
- int32_t xx,yy,alphaoffset,ix,iy;
- uint8_t a,a1,*psrc;
- int32_t ew = ((((24 * destw) + 31) / 32) * 4);
- int32_t ymax = paintbox.bottom;
- int32_t xmin = paintbox.left;
-
- if (cx!=head.biWidth || cy!=head.biHeight){
- //STRETCH
- float fx=(float)head.biWidth/(float)cx;
- float fy=(float)head.biHeight/(float)cy;
- float dx,dy;
- int32_t sx,sy;
-
- for(yy=0;yy<desth;yy++){
- dy = head.biHeight-(ymax-yy-y)*fy;
- sy = max(0L,(int32_t)floor(dy));
-
- alphaoffset = sy*head.biWidth;
- if (bFlipY){
- pdst = pbase+(desth-1-yy)*ew;
- } else {
- pdst = pbase + yy*ew;
- }
- psrc = info.pImage + sy*info.dwEffWidth;
-
- for(xx=0;xx<destw;xx++){
- dx = (xx+xmin-x)*fx;
- sx = max(0L,(int32_t)floor(dx));
-
- if (bAlpha) a=pAlpha[alphaoffset+sx]; else a=255;
- a =(uint8_t)((a*(1+info.nAlphaMax))>>8);
-
- if (head.biClrUsed){
- ci = GetPixelIndex(sx,sy);
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- c = GetPaletteColor(GetPixelIndex(sx,sy));
- }
- if (info.bAlphaPaletteEnabled){
- a = (uint8_t)((a*(1+c.rgbReserved))>>8);
- }
- } else {
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- ppix = psrc + sx*3;
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix;
- }
- }
- //if (*pc!=*pct || !bTransparent){
- //if ((head.biClrUsed && ci!=cit) || ((!head.biClrUsed||bSmooth) && *pc!=*pct) || !bTransparent){
- if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
- // DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
- if (a == 0) { // Transparent, retain dest
- pdst+=3;
- } else if (a == 255) { // opaque, ignore dest
- *pdst++= c.rgbBlue;
- *pdst++= c.rgbGreen;
- *pdst++= c.rgbRed;
- } else { // semi transparent
- a1=(uint8_t)~a;
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8);
- }
- } else {
- pdst+=3;
- }
- }
- }
- } else {
- //NORMAL
- iy=head.biHeight-ymax+y;
- for(yy=0;yy<desth;yy++,iy++){
- alphaoffset=iy*head.biWidth;
- ix=xmin-x;
- if (bFlipY){
- pdst = pbase+(desth-1-yy)*ew;
- } else {
- pdst = pbase+yy*ew;
- }
- ppix=info.pImage+iy*info.dwEffWidth+ix*3;
- for(xx=0;xx<destw;xx++,ix++){
-
- if (bAlpha) a=pAlpha[alphaoffset+ix]; else a=255;
- a = (uint8_t)((a*(1+info.nAlphaMax))>>8);
-
- if (head.biClrUsed){
- ci = GetPixelIndex(ix,iy);
- c = GetPaletteColor((uint8_t)ci);
- if (info.bAlphaPaletteEnabled){
- a = (uint8_t)((a*(1+c.rgbReserved))>>8);
- }
- } else {
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix++;
- }
-
- //if (*pc!=*pct || !bTransparent){
- if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
- // DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
- if (a == 0) { // Transparent, retain dest
- pdst+=3;
- } else if (a == 255) { // opaque, ignore dest
- *pdst++= c.rgbBlue;
- *pdst++= c.rgbGreen;
- *pdst++= c.rgbRed;
- } else { // semi transparent
- a1=(uint8_t)~a;
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8);
- }
- } else {
- pdst+=3;
- }
- }
- }
- }
- }
- //paint the image & cleanup
- SetDIBitsToDevice(hdc,paintbox.left,paintbox.top,destw,desth,0,0,0,desth,pbase,&bmInfo,0);
- DeleteObject(SelectObject(TmpDC,TmpObj));
- DeleteDC(TmpDC);
- }
-
-#if !defined (_WIN32_WCE)
- if (pClipRect){ // (experimental)
- HRGN rgn = CreateRectRgnIndirect(&mainbox);
- ExtSelectClipRgn(hdc,rgn,RGN_OR);
- DeleteObject(rgn);
- }
-#endif
-
- ::RestoreDC(hdc,hdc_Restore);
- return 1;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-/**
- * renders the image into a HBITMAP handle
- * \param hdc : destination device context
- * \param x,y : (optional) offset
- * \param cx,cy : (optional) size.
- * - If cx or cy are not specified (or less than 0), the normal width or height will be used
- * - If cx or cy are different than width or height, the image will be stretched
- * \param pClipRect : limit the drawing operations inside a given rectangle in the output device context.
- * \param bSmooth : activates a bilinear filter that will enhance the appearence for zommed pictures.
- * Quite slow. Needs CXIMAGE_SUPPORT_INTERPOLATION.
- * \return HBITMAP handle, NULL in case of error
- * \sa MakeBitmap
- */
-HBITMAP CxImage::Draw2HBITMAP(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth)
-{
- if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;
-
- if (cx < 0) cx = head.biWidth;
- if (cy < 0) cy = head.biHeight;
- bool bTransparent = info.nBkgndIndex >= 0;
- bool bAlpha = pAlpha != 0;
-
- //required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
- int32_t hdc_Restore = ::SaveDC(hdc);
- if (!hdc_Restore)
- return 0;
-
-#if !defined (_WIN32_WCE)
- RECT mainbox; // (experimental)
- if (pClipRect){
- GetClipBox(hdc,&mainbox);
- HRGN rgn = CreateRectRgnIndirect(pClipRect);
- ExtSelectClipRgn(hdc,rgn,RGN_AND);
- DeleteObject(rgn);
- }
-#endif
-
- HBITMAP TmpBmp;
-
- //find the smallest area to paint
- RECT clipbox,paintbox;
- GetClipBox(hdc,&clipbox);
-
- paintbox.top = min(clipbox.bottom,max(clipbox.top,y));
- paintbox.left = min(clipbox.right,max(clipbox.left,x));
- paintbox.right = max(clipbox.left,min(clipbox.right,x+cx));
- paintbox.bottom = max(clipbox.top,min(clipbox.bottom,y+cy));
-
- int32_t destw = paintbox.right - paintbox.left;
- int32_t desth = paintbox.bottom - paintbox.top;
-
- if (!(bTransparent || bAlpha || info.bAlphaPaletteEnabled)){
- if (cx==head.biWidth && cy==head.biHeight){ //NORMAL
-#if !defined (_WIN32_WCE)
- SetStretchBltMode(hdc,COLORONCOLOR);
-#endif
- SetDIBitsToDevice(hdc, x, y, cx, cy, 0, 0, 0, cy,
- info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS);
- } else { //STRETCH
- //pixel informations
- RGBQUAD c={0,0,0,0};
- //Preparing Bitmap Info
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=destw;
- bmInfo.bmiHeader.biHeight=desth;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
- uint8_t *pbase; //points to the final dib
- uint8_t *pdst; //current pixel from pbase
- uint8_t *ppix; //current pixel from image
- //get the background
- HDC TmpDC=CreateCompatibleDC(hdc);
- TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
-
- if (pbase){
- int32_t xx,yy;
- int32_t sx,sy;
- float dx,dy;
- uint8_t *psrc;
-
- int32_t ew = ((((24 * destw) + 31) / 32) * 4);
- int32_t ymax = paintbox.bottom;
- int32_t xmin = paintbox.left;
- float fx=(float)head.biWidth/(float)cx;
- float fy=(float)head.biHeight/(float)cy;
-
- for(yy=0;yy<desth;yy++){
- dy = head.biHeight-(ymax-yy-y)*fy;
- sy = max(0L,(int32_t)floor(dy));
- psrc = info.pImage+sy*info.dwEffWidth;
- pdst = pbase+yy*ew;
- for(xx=0;xx<destw;xx++){
- dx = (xx+xmin-x)*fx;
- sx = max(0L,(int32_t)floor(dx));
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- if (head.biClrUsed){
- c=GetPaletteColor(GetPixelIndex(sx,sy));
- } else {
- ppix = psrc + sx*3;
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix;
- }
- }
- *pdst++=c.rgbBlue;
- *pdst++=c.rgbGreen;
- *pdst++=c.rgbRed;
- }
- }
- }
- //cleanup
- SelectObject(TmpDC,TmpObj);
- DeleteDC(TmpDC);
- }
- } else { // draw image with transparent/alpha blending
- //////////////////////////////////////////////////////////////////
- //Alpha blend - Thanks to Florian Egel
-
- //pixel informations
- RGBQUAD c={0,0,0,0};
- RGBQUAD ct = GetTransColor();
- int32_t* pc = (int32_t*)&c;
- int32_t* pct= (int32_t*)&ct;
- int32_t cit = GetTransIndex();
- int32_t ci = 0;
-
- //Preparing Bitmap Info
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=destw;
- bmInfo.bmiHeader.biHeight=desth;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
-
- uint8_t *pbase; //points to the final dib
- uint8_t *pdst; //current pixel from pbase
- uint8_t *ppix; //current pixel from image
-
- //get the background
- HDC TmpDC=CreateCompatibleDC(hdc);
- TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
- BitBlt(TmpDC,0,0,destw,desth,hdc,paintbox.left,paintbox.top,SRCCOPY);
-
- if (pbase){
- int32_t xx,yy,alphaoffset,ix,iy;
- uint8_t a,a1,*psrc;
- int32_t ew = ((((24 * destw) + 31) / 32) * 4);
- int32_t ymax = paintbox.bottom;
- int32_t xmin = paintbox.left;
-
- if (cx!=head.biWidth || cy!=head.biHeight){
- //STRETCH
- float fx=(float)head.biWidth/(float)cx;
- float fy=(float)head.biHeight/(float)cy;
- float dx,dy;
- int32_t sx,sy;
-
- for(yy=0;yy<desth;yy++){
- dy = head.biHeight-(ymax-yy-y)*fy;
- sy = max(0L,(int32_t)floor(dy));
-
- alphaoffset = sy*head.biWidth;
- pdst = pbase + yy*ew;
- psrc = info.pImage + sy*info.dwEffWidth;
-
- for(xx=0;xx<destw;xx++){
- dx = (xx+xmin-x)*fx;
- sx = max(0L,(int32_t)floor(dx));
-
- if (bAlpha) a=pAlpha[alphaoffset+sx]; else a=255;
- a =(uint8_t)((a*(1+info.nAlphaMax))>>8);
-
- if (head.biClrUsed){
- ci = GetPixelIndex(sx,sy);
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- c = GetPaletteColor(GetPixelIndex(sx,sy));
- }
- if (info.bAlphaPaletteEnabled){
- a = (uint8_t)((a*(1+c.rgbReserved))>>8);
- }
- } else {
-#if CXIMAGE_SUPPORT_INTERPOLATION
- if (bSmooth){
- if (fx > 1 && fy > 1) {
- c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- } else {
- c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT);
- }
- } else
-#endif //CXIMAGE_SUPPORT_INTERPOLATION
- {
- ppix = psrc + sx*3;
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix;
- }
- }
- //if (*pc!=*pct || !bTransparent){
- //if ((head.biClrUsed && ci!=cit) || ((!head.biClrUsed||bSmooth) && *pc!=*pct) || !bTransparent){
- if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
- // DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
- if (a == 0) { // Transparent, retain dest
- pdst+=3;
- } else if (a == 255) { // opaque, ignore dest
- *pdst++= c.rgbBlue;
- *pdst++= c.rgbGreen;
- *pdst++= c.rgbRed;
- } else { // semi transparent
- a1=(uint8_t)~a;
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8);
- }
- } else {
- pdst+=3;
- }
- }
- }
- } else {
- //NORMAL
- iy=head.biHeight-ymax+y;
- for(yy=0;yy<desth;yy++,iy++){
- alphaoffset=iy*head.biWidth;
- ix=xmin-x;
- pdst=pbase+yy*ew;
- ppix=info.pImage+iy*info.dwEffWidth+ix*3;
- for(xx=0;xx<destw;xx++,ix++){
-
- if (bAlpha) a=pAlpha[alphaoffset+ix]; else a=255;
- a = (uint8_t)((a*(1+info.nAlphaMax))>>8);
-
- if (head.biClrUsed){
- ci = GetPixelIndex(ix,iy);
- c = GetPaletteColor((uint8_t)ci);
- if (info.bAlphaPaletteEnabled){
- a = (uint8_t)((a*(1+c.rgbReserved))>>8);
- }
- } else {
- c.rgbBlue = *ppix++;
- c.rgbGreen= *ppix++;
- c.rgbRed = *ppix++;
- }
-
- //if (*pc!=*pct || !bTransparent){
- if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
- // DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
- if (a == 0) { // Transparent, retain dest
- pdst+=3;
- } else if (a == 255) { // opaque, ignore dest
- *pdst++= c.rgbBlue;
- *pdst++= c.rgbGreen;
- *pdst++= c.rgbRed;
- } else { // semi transparent
- a1=(uint8_t)~a;
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8);
- *pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8);
- }
- } else {
- pdst+=3;
- }
- }
- }
- }
- }
- //cleanup
- SelectObject(TmpDC,TmpObj);
- DeleteDC(TmpDC);
- }
-
-#if !defined (_WIN32_WCE)
- if (pClipRect){ // (experimental)
- HRGN rgn = CreateRectRgnIndirect(&mainbox);
- ExtSelectClipRgn(hdc,rgn,RGN_OR);
- DeleteObject(rgn);
- }
-#endif
-
- ::RestoreDC(hdc,hdc_Restore);
- return TmpBmp;
-}
-
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::Draw2(HDC hdc, const RECT& rect)
-{
- return Draw2(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Draws (stretch) the image with single transparency support
- * \param hdc : destination device context
- * \param x,y : (optional) offset
- * \param cx,cy : (optional) size.
- * - If cx or cy are not specified (or less than 0), the normal width or height will be used
- * - If cx or cy are different than width or height, the image will be stretched
- *
- * \return true if everything is ok
- */
-int32_t CxImage::Draw2(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy)
-{
- if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;
- if (cx < 0) cx = head.biWidth;
- if (cy < 0) cy = head.biHeight;
- bool bTransparent = (info.nBkgndIndex >= 0);
-
- //required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
- int32_t hdc_Restore = ::SaveDC(hdc);
- if (!hdc_Restore)
- return 0;
-
- if (!bTransparent){
-#if !defined (_WIN32_WCE)
- SetStretchBltMode(hdc,COLORONCOLOR);
-#endif
- StretchDIBits(hdc, x, y, cx, cy, 0, 0, head.biWidth, head.biHeight,
- info.pImage,(BITMAPINFO*)pDib, DIB_RGB_COLORS,SRCCOPY);
- } else {
- // draw image with transparent background
- const int32_t safe = 0; // or else GDI fails in the following - sometimes
- RECT rcDst = {x+safe, y+safe, x+cx, y+cy};
- if (RectVisible(hdc, &rcDst)){
- /////////////////////////////////////////////////////////////////
- // True Mask Method - Thanks to Paul Reynolds and Ron Gery
- int32_t nWidth = head.biWidth;
- int32_t nHeight = head.biHeight;
- // Create two memory dcs for the image and the mask
- HDC dcImage=CreateCompatibleDC(hdc);
- HDC dcTrans=CreateCompatibleDC(hdc);
- // Select the image into the appropriate dc
- HBITMAP bm = CreateCompatibleBitmap(hdc, nWidth, nHeight);
- HBITMAP pOldBitmapImage = (HBITMAP)SelectObject(dcImage,bm);
-#if !defined (_WIN32_WCE)
- SetStretchBltMode(dcImage,COLORONCOLOR);
-#endif
- StretchDIBits(dcImage, 0, 0, nWidth, nHeight, 0, 0, nWidth, nHeight,
- info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,SRCCOPY);
-
- // Create the mask bitmap
- HBITMAP bitmapTrans = CreateBitmap(nWidth, nHeight, 1, 1, NULL);
- // Select the mask bitmap into the appropriate dc
- HBITMAP pOldBitmapTrans = (HBITMAP)SelectObject(dcTrans, bitmapTrans);
- // Build mask based on transparent colour
- RGBQUAD rgbBG;
- if (head.biBitCount<24) rgbBG = GetPaletteColor((uint8_t)info.nBkgndIndex);
- else rgbBG = info.nBkgndColor;
- COLORREF crColour = RGB(rgbBG.rgbRed, rgbBG.rgbGreen, rgbBG.rgbBlue);
- COLORREF crOldBack = SetBkColor(dcImage,crColour);
- BitBlt(dcTrans,0, 0, nWidth, nHeight, dcImage, 0, 0, SRCCOPY);
-
- // Do the work - True Mask method - cool if not actual display
- StretchBlt(hdc,x, y,cx,cy, dcImage, 0, 0, nWidth, nHeight, SRCINVERT);
- StretchBlt(hdc,x, y,cx,cy, dcTrans, 0, 0, nWidth, nHeight, SRCAND);
- StretchBlt(hdc,x, y,cx,cy, dcImage, 0, 0, nWidth, nHeight, SRCINVERT);
-
- // Restore settings
- SelectObject(dcImage,pOldBitmapImage);
- SelectObject(dcTrans,pOldBitmapTrans);
- SetBkColor(hdc,crOldBack);
- DeleteObject( bitmapTrans ); // RG 29/01/2002
- DeleteDC(dcImage);
- DeleteDC(dcTrans);
- DeleteObject(bm);
- }
- }
- ::RestoreDC(hdc,hdc_Restore);
- return 1;
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::Stretch(HDC hdc, const RECT& rect, uint32_t dwRop)
-{
- return Stretch(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, dwRop);
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Stretch the image. Obsolete: use Draw() or Draw2()
- * \param hdc : destination device context
- * \param xoffset,yoffset : (optional) offset
- * \param xsize,ysize : size.
- * \param dwRop : raster operation code (see BitBlt documentation)
- * \return true if everything is ok
- */
-int32_t CxImage::Stretch(HDC hdc, int32_t xoffset, int32_t yoffset, int32_t xsize, int32_t ysize, uint32_t dwRop)
-{
- if((pDib)&&(hdc)) {
- //palette must be correctly filled
-#if !defined (_WIN32_WCE)
- SetStretchBltMode(hdc,COLORONCOLOR);
-#endif
- StretchDIBits(hdc, xoffset, yoffset,
- xsize, ysize, 0, 0, head.biWidth, head.biHeight,
- info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,dwRop);
- return 1;
- }
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-/**
- * Tiles the device context in the specified rectangle with the image.
- * \param hdc : destination device context
- * \param rc : tiled rectangle in the output device context
- * \return true if everything is ok
- */
-int32_t CxImage::Tile(HDC hdc, RECT *rc)
-{
- if((pDib)&&(hdc)&&(rc)) {
- int32_t w = rc->right - rc->left;
- int32_t h = rc->bottom - rc->top;
- int32_t x,y,z;
- int32_t bx=head.biWidth;
- int32_t by=head.biHeight;
- for (y = 0 ; y < h ; y += by){
- if ((y+by)>h) by=h-y;
- z=bx;
- for (x = 0 ; x < w ; x += z){
- if ((x+z)>w) z=w-x;
- RECT r = {rc->left + x,rc->top + y,rc->left + x + z,rc->top + y + by};
- Draw(hdc,rc->left + x, rc->top + y,-1,-1,&r);
- }
- }
- return 1;
- }
- return 0;
-}
-////////////////////////////////////////////////////////////////////////////////
-// For UNICODE support: char -> TCHAR
-int32_t CxImage::DrawString(HDC hdc, int32_t x, int32_t y, const TCHAR* text, RGBQUAD color, const TCHAR* font, int32_t lSize, int32_t lWeight, uint8_t bItalic, uint8_t bUnderline, bool bSetAlpha)
-//int32_t CxImage::DrawString(HDC hdc, int32_t x, int32_t y, const char* text, RGBQUAD color, const char* font, int32_t lSize, int32_t lWeight, uint8_t bItalic, uint8_t bUnderline, bool bSetAlpha)
-{
- if (IsValid()){
- //get the background
- HDC pDC;
- if (hdc) pDC=hdc; else pDC = ::GetDC(0);
- if (pDC==NULL) return 0;
- HDC TmpDC=CreateCompatibleDC(pDC);
- if (hdc==NULL) ::ReleaseDC(0, pDC);
- if (TmpDC==NULL) return 0;
- //choose the font
- HFONT m_Font;
- LOGFONT* m_pLF;
- m_pLF=(LOGFONT*)calloc(1,sizeof(LOGFONT));
- _tcsncpy(m_pLF->lfFaceName,font,31); // For UNICODE support
- //strncpy(m_pLF->lfFaceName,font,31);
- m_pLF->lfHeight=lSize;
- m_pLF->lfWeight=lWeight;
- m_pLF->lfItalic=bItalic;
- m_pLF->lfUnderline=bUnderline;
- m_Font=CreateFontIndirect(m_pLF);
- //select the font in the dc
- HFONT pOldFont=NULL;
- if (m_Font)
- pOldFont = (HFONT)SelectObject(TmpDC,m_Font);
- else
- pOldFont = (HFONT)SelectObject(TmpDC,GetStockObject(DEFAULT_GUI_FONT));
-
- //Set text color
- SetTextColor(TmpDC,RGB(255,255,255));
- SetBkColor(TmpDC,RGB(0,0,0));
- //draw the text
- SetBkMode(TmpDC,OPAQUE);
- //Set text position;
- RECT pos = {0,0,0,0};
- //int32_t len = (int32_t)strlen(text);
- int32_t len = (int32_t)_tcslen(text); // For UNICODE support
- ::DrawText(TmpDC,text,len,&pos,DT_CALCRECT);
- pos.right+=pos.bottom; //for italics
-
- //Preparing Bitmap Info
- int32_t width=pos.right;
- int32_t height=pos.bottom;
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=width;
- bmInfo.bmiHeader.biHeight=height;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
- uint8_t *pbase; //points to the final dib
-
- HBITMAP TmpBmp=CreateDIBSection(TmpDC,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
- memset(pbase,0,height*((((24 * width) + 31) / 32) * 4));
-
- ::DrawText(TmpDC,text,len,&pos,0);
-
- CxImage itext;
- itext.CreateFromHBITMAP(TmpBmp);
-
- y=head.biHeight-y-1;
- for (int32_t ix=0;ix<width;ix++){
- for (int32_t iy=0;iy<height;iy++){
- if (itext.GetPixelColor(ix,iy).rgbBlue) SetPixelColor(x+ix,y+iy,color,bSetAlpha);
- }
- }
-
- //cleanup
- if (pOldFont) SelectObject(TmpDC,pOldFont);
- DeleteObject(m_Font);
- free(m_pLF);
- DeleteObject(SelectObject(TmpDC,TmpObj));
- DeleteDC(TmpDC);
- }
-
- return 1;
-}
-////////////////////////////////////////////////////////////////////////////////
-// <VATI>
-int32_t CxImage::DrawStringEx(HDC hdc, int32_t x, int32_t y, CXTEXTINFO *pTextType, bool bSetAlpha )
-{
- if (!IsValid())
- return -1;
-
- //get the background
- HDC pDC;
- if (hdc) pDC=hdc; else pDC = ::GetDC(0);
- if (pDC==NULL) return 0;
- HDC TmpDC=CreateCompatibleDC(pDC);
- if (hdc==NULL) ::ReleaseDC(0, pDC);
- if (TmpDC==NULL) return 0;
-
- //choose the font
- HFONT m_Font;
- m_Font=CreateFontIndirect( &pTextType->lfont );
-
- // get colors in RGBQUAD
- RGBQUAD p_forecolor = RGBtoRGBQUAD(pTextType->fcolor);
- RGBQUAD p_backcolor = RGBtoRGBQUAD(pTextType->bcolor);
-
- // check alignment and re-set default if necessary
- if ( pTextType->align != DT_CENTER &&
- pTextType->align != DT_LEFT &&
- pTextType->align != DT_RIGHT )
- pTextType->align = DT_CENTER;
-
- // check rounding radius and re-set default if necessary
- if ( pTextType->b_round > 50 )
- pTextType->b_round = 10;
-
- // check opacity and re-set default if necessary
- if ( pTextType->b_opacity > 1. || pTextType->b_opacity < .0 )
- pTextType->b_opacity = 0.;
-
- //select the font in the dc
- HFONT pOldFont=NULL;
- if (m_Font)
- pOldFont = (HFONT)SelectObject(TmpDC,m_Font);
- else
- pOldFont = (HFONT)SelectObject(TmpDC,GetStockObject(DEFAULT_GUI_FONT));
-
- //Set text color
- SetTextColor(TmpDC,RGB(255,255,255));
- SetBkColor(TmpDC,RGB(0,0,0));
- SetBkMode(TmpDC,OPAQUE);
- //Set text position;
- RECT pos = {0,0,0,0};
-
- // get text length and number of lines
- int32_t i=0, numlines=1, len=(int32_t)_tcsclen(pTextType->text);
- while (i<len)
- {
- if ( pTextType->text[i++]==13 )
- numlines++;
- }
-
- ::DrawText(TmpDC, pTextType->text, len, &pos, /*DT_EDITCONTROL|DT_EXTERNALLEADING|*/DT_NOPREFIX | DT_CALCRECT );
-
- // increase only if it's really italics, and only one line height
- if ( pTextType->lfont.lfItalic )
- pos.right += pos.bottom/2/numlines;
-
- // background frame and rounding radius
- int32_t frame = 0, roundR = 0;
- if ( pTextType->opaque )
- {
- roundR= (int32_t)(pos.bottom/numlines * pTextType->b_round / 100 ) ;
- frame = (int32_t)(/*3.5 + */0.29289*roundR ) ;
- pos.right += pos.bottom/numlines/3 ; // JUST FOR BEAUTY
- }
-
- //Preparing Bitmap Info
- int32_t width=pos.right +frame*2;
- int32_t height=pos.bottom +frame*2;
- BITMAPINFO bmInfo;
- memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
- bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
- bmInfo.bmiHeader.biWidth=width;
- bmInfo.bmiHeader.biHeight=height;
- bmInfo.bmiHeader.biPlanes=1;
- bmInfo.bmiHeader.biBitCount=24;
- uint8_t *pbase; //points to the final dib
-
- HBITMAP TmpBmp=CreateDIBSection(TmpDC,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
- HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
- memset(pbase,0,height*((((24 * width) + 31) / 32) * 4));
-
- ::DrawText(TmpDC,pTextType->text,len, &pos, /*DT_EDITCONTROL|DT_EXTERNALLEADING|*/DT_NOPREFIX| pTextType->align );
-
- CxImage itext;
- itext.CreateFromHBITMAP(TmpBmp);
- y=head.biHeight-y-1;
-
- itext.Negative();
-
-#if CXIMAGE_SUPPORT_DSP
- if (pTextType->smooth==FALSE){
- itext.Threshold(128);
- } else {
- //itext.TextBlur();
- }
-#endif
-
- //move the insertion point according to alignment type
- // DT_CENTER: cursor points to the center of text rectangle
- // DT_RIGHT: cursor points to right side end of text rectangle
- // DT_LEFT: cursor points to left end of text rectangle
- if ( pTextType->align == DT_CENTER )
- x -= width/2;
- else if ( pTextType->align == DT_RIGHT )
- x -= width;
- if (x<0) x=0;
-
- //draw the background first, if it exists
- int32_t ix,iy;
- if ( pTextType->opaque )
- {
- int32_t ixf=0;
- for (ix=0;ix<width;ix++)
- {
- if ( ix<=roundR )
- ixf = (int32_t)(.5+roundR-sqrt((float)(roundR*roundR-(ix-roundR)*(ix-roundR))));
- else if ( ix>=width-roundR-1 )
- ixf = (int32_t)(.5+roundR-sqrt((float)(roundR*roundR-(width-1-ix-roundR)*(width-1-ix-roundR))));
- else
- ixf=0;
-
- for (iy=0;iy<height;iy++)
- {
- if ( (ix<=roundR && ( iy > height-ixf-1 || iy < ixf )) ||
- (ix>=width-roundR-1 && ( iy > height-ixf-1 || iy < ixf )) )
- continue;
- else
- if ( pTextType->b_opacity > 0.0 && pTextType->b_opacity < 1.0 )
- {
- RGBQUAD bcolor, pcolor;
- // calculate a transition color from original image to background color:
- pcolor = GetPixelColor(x+ix,y+iy);
- bcolor.rgbBlue = (uint8_t)(pTextType->b_opacity * pcolor.rgbBlue + (1.0-pTextType->b_opacity) * p_backcolor.rgbBlue );
- bcolor.rgbRed = (uint8_t)(pTextType->b_opacity * pcolor.rgbRed + (1.0-pTextType->b_opacity) * p_backcolor.rgbRed ) ;
- bcolor.rgbGreen = (uint8_t)(pTextType->b_opacity * pcolor.rgbGreen + (1.0-pTextType->b_opacity) * p_backcolor.rgbGreen ) ;
- bcolor.rgbReserved = 0;
- SetPixelColor(x+ix,y+iy,bcolor,bSetAlpha);
- }
- else
- SetPixelColor(x+ix,y+iy,p_backcolor,bSetAlpha);
- }
- }
- }
-
- // draw the text itself
- for (ix=0;ix<width;ix++)
- {
- for (iy=0;iy<height;iy++)
- {
- RGBQUAD pcolor = GetPixelColor(x+ix,y+iy);
- RGBQUAD tcolor = itext.GetPixelColor(ix,iy);
- if (tcolor.rgbBlue!=255){
- float a = tcolor.rgbBlue/255.0f;
- pcolor.rgbBlue = (uint8_t)(a * (pcolor.rgbBlue - p_forecolor.rgbBlue) + p_forecolor.rgbBlue );
- pcolor.rgbRed = (uint8_t)(a * (pcolor.rgbRed - p_forecolor.rgbRed) + p_forecolor.rgbRed ) ;
- pcolor.rgbGreen = (uint8_t)(a * (pcolor.rgbGreen - p_forecolor.rgbGreen) + p_forecolor.rgbGreen );
- pcolor.rgbReserved = 0;
- SetPixelColor(x+ix+frame,y+iy-frame,pcolor,bSetAlpha);
- //SetPixelColor(x+ix+frame,y+iy-frame,p_forecolor,bSetAlpha);
- }
- }
- }
-
- //cleanup
- if (pOldFont) SelectObject(TmpDC,pOldFont);
- DeleteObject(m_Font);
- DeleteObject(SelectObject(TmpDC,TmpObj));
- DeleteDC(TmpDC);
- return 1;
-}
-
-//////////////////////////////////////////////////////////////////////////////
-void CxImage::InitTextInfo( CXTEXTINFO *txt )
-{
-
- memset( txt, 0, sizeof(CXTEXTINFO));
-
- // LOGFONT defaults
- txt->lfont.lfHeight = -36;
- txt->lfont.lfCharSet = EASTEUROPE_CHARSET; // just for Central-European users
- txt->lfont.lfWeight = FW_NORMAL;
- txt->lfont.lfWidth = 0;
- txt->lfont.lfEscapement = 0;
- txt->lfont.lfOrientation = 0;
- txt->lfont.lfItalic = FALSE;
- txt->lfont.lfUnderline = FALSE;
- txt->lfont.lfStrikeOut = FALSE;
- txt->lfont.lfOutPrecision = OUT_DEFAULT_PRECIS;
- txt->lfont.lfClipPrecision = CLIP_DEFAULT_PRECIS;
- txt->lfont.lfQuality = PROOF_QUALITY;
- txt->lfont.lfPitchAndFamily= DEFAULT_PITCH | FF_DONTCARE ;
- _stprintf( txt->lfont.lfFaceName, _T("Arial")); //use TCHAR mappings <Cesar M>
-
- // initial colors
- txt->fcolor = RGB( 255,255,160 ); // default foreground: light goldyellow
- txt->bcolor = RGB( 0, 80,160 ); // default background: light blue
-
- // background
- txt->opaque = TRUE; // text has a non-transparent background;
- txt->smooth = TRUE;
- txt->b_opacity = 0.0; // default: opaque background
- txt->b_outline = 0; // default: no outline (OUTLINE NOT IMPLEMENTED AT THIS TIME)
- txt->b_round = 20; // default: rounding radius is 20% of the rectangle height
- // the text
- _stprintf( txt->text, _T("Sample Text 01234õû")); // text use TCHAR mappings <Cesar M>
- txt->align = DT_CENTER;
- return;
-}
-
-#if CXIMAGE_SUPPORT_LAYERS
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::LayerDrawAll(HDC hdc, const RECT& rect, RECT* pClipRect, bool bSmooth)
-{
- return LayerDrawAll(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, pClipRect,bSmooth);
-}
-////////////////////////////////////////////////////////////////////////////////
-int32_t CxImage::LayerDrawAll(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth)
-{
- int32_t n=0;
- CxImage* pLayer;
- while(pLayer=GetLayer(n++)){
- if (pLayer->Draw(hdc,x+pLayer->info.xOffset,y+pLayer->info.yOffset,cx,cy,pClipRect,bSmooth)==0)
- return 0;
- if (pLayer->LayerDrawAll(hdc,x+pLayer->info.xOffset,y+pLayer->info.yOffset,cx,cy,pClipRect,bSmooth)==0)
- return 0;
- }
- return 1;
-}
-#endif //CXIMAGE_SUPPORT_LAYERS
-
-////////////////////////////////////////////////////////////////////////////////
-#endif //CXIMAGE_SUPPORT_WINDOWS
-////////////////////////////////////////////////////////////////////////////////
diff --git a/hge/CxImage/xiofile.h b/hge/CxImage/xiofile.h deleted file mode 100644 index e05811e..0000000 --- a/hge/CxImage/xiofile.h +++ /dev/null @@ -1,125 +0,0 @@ -#if !defined(__xiofile_h)
-#define __xiofile_h
-
-#include "xfile.h"
-//#include <TCHAR.h>
-
-class DLL_EXP CxIOFile : public CxFile
- {
-public:
- CxIOFile(FILE* fp = NULL)
- {
- m_fp = fp;
- m_bCloseFile = (bool)(fp==0);
- }
-
- ~CxIOFile()
- {
- Close();
- }
-//////////////////////////////////////////////////////////
- bool Open(const TCHAR * filename, const TCHAR * mode)
- {
- if (m_fp) return false; // Can't re-open without closing first
-
- m_fp = fopen(filename, mode);
- if (!m_fp) return false;
-
- m_bCloseFile = true;
-
- return true;
- }
-//////////////////////////////////////////////////////////
- virtual bool Close()
- {
- int32_t iErr = 0;
- if ( (m_fp) && (m_bCloseFile) ){
- iErr = fclose(m_fp);
- m_fp = NULL;
- }
- return (bool)(iErr==0);
- }
-//////////////////////////////////////////////////////////
- virtual size_t Read(void *buffer, size_t size, size_t count)
- {
- if (!m_fp) return 0;
- return fread(buffer, size, count, m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual size_t Write(const void *buffer, size_t size, size_t count)
- {
- if (!m_fp) return 0;
- return fwrite(buffer, size, count, m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual bool Seek(int32_t offset, int32_t origin)
- {
- if (!m_fp) return false;
- return (bool)(fseek(m_fp, offset, origin) == 0);
- }
-//////////////////////////////////////////////////////////
- virtual int32_t Tell()
- {
- if (!m_fp) return 0;
- return ftell(m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual int32_t Size()
- {
- if (!m_fp) return -1;
- int32_t pos,size;
- pos = ftell(m_fp);
- fseek(m_fp, 0, SEEK_END);
- size = ftell(m_fp);
- fseek(m_fp, pos,SEEK_SET);
- return size;
- }
-//////////////////////////////////////////////////////////
- virtual bool Flush()
- {
- if (!m_fp) return false;
- return (bool)(fflush(m_fp) == 0);
- }
-//////////////////////////////////////////////////////////
- virtual bool Eof()
- {
- if (!m_fp) return true;
- return (bool)(feof(m_fp) != 0);
- }
-//////////////////////////////////////////////////////////
- virtual int32_t Error()
- {
- if (!m_fp) return -1;
- return ferror(m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual bool PutC(uint8_t c)
- {
- if (!m_fp) return false;
- return (bool)(fputc(c, m_fp) == c);
- }
-//////////////////////////////////////////////////////////
- virtual int32_t GetC()
- {
- if (!m_fp) return EOF;
- return getc(m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual char * GetS(char *string, int32_t n)
- {
- if (!m_fp) return NULL;
- return fgets(string,n,m_fp);
- }
-//////////////////////////////////////////////////////////
- virtual int32_t Scanf(const char *format, void* output)
- {
- if (!m_fp) return EOF;
- return fscanf(m_fp, format, output);
- }
-//////////////////////////////////////////////////////////
-protected:
- FILE *m_fp;
- bool m_bCloseFile;
- };
-
-#endif
diff --git a/hge/CxImage/xmemfile.cpp b/hge/CxImage/xmemfile.cpp deleted file mode 100644 index f235899..0000000 --- a/hge/CxImage/xmemfile.cpp +++ /dev/null @@ -1,213 +0,0 @@ -#include "xmemfile.h"
-
-//////////////////////////////////////////////////////////
-CxMemFile::CxMemFile(uint8_t* pBuffer, uint32_t size)
-{
- m_pBuffer = pBuffer;
- m_Position = 0;
- m_Size = m_Edge = size;
- m_bFreeOnClose = (bool)(pBuffer==0);
- m_bEOF = false;
-}
-//////////////////////////////////////////////////////////
-CxMemFile::~CxMemFile()
-{
- Close();
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Close()
-{
- if ( (m_pBuffer) && (m_bFreeOnClose) ){
- free(m_pBuffer);
- m_pBuffer = NULL;
- m_Size = 0;
- }
- return true;
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Open()
-{
- if (m_pBuffer) return false; // Can't re-open without closing first
-
- m_Position = m_Size = m_Edge = 0;
- m_pBuffer=(uint8_t*)malloc(1);
- m_bFreeOnClose = true;
-
- return (m_pBuffer!=0);
-}
-//////////////////////////////////////////////////////////
-uint8_t* CxMemFile::GetBuffer(bool bDetachBuffer)
-{
- //can only detach, avoid inadvertantly attaching to
- // memory that may not be ours [Jason De Arte]
- if( bDetachBuffer )
- m_bFreeOnClose = false;
- return m_pBuffer;
-}
-//////////////////////////////////////////////////////////
-size_t CxMemFile::Read(void *buffer, size_t size, size_t count)
-{
- if (buffer==NULL) return 0;
-
- if (m_pBuffer==NULL) return 0;
- if (m_Position >= (int32_t)m_Size){
- m_bEOF = true;
- return 0;
- }
-
- int32_t nCount = (int32_t)(count*size);
- if (nCount == 0) return 0;
-
- int32_t nRead;
- if (m_Position + nCount > (int32_t)m_Size){
- m_bEOF = true;
- nRead = (m_Size - m_Position);
- } else
- nRead = nCount;
-
- memcpy(buffer, m_pBuffer + m_Position, nRead);
- m_Position += nRead;
-
- return (size_t)(nRead/size);
-}
-//////////////////////////////////////////////////////////
-size_t CxMemFile::Write(const void *buffer, size_t size, size_t count)
-{
- m_bEOF = false;
- if (m_pBuffer==NULL) return 0;
- if (buffer==NULL) return 0;
-
- int32_t nCount = (int32_t)(count*size);
- if (nCount == 0) return 0;
-
- if (m_Position + nCount > m_Edge){
- if (!Alloc(m_Position + nCount)){
- return false;
- }
- }
-
- memcpy(m_pBuffer + m_Position, buffer, nCount);
-
- m_Position += nCount;
-
- if (m_Position > (int32_t)m_Size) m_Size = m_Position;
-
- return count;
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Seek(int32_t offset, int32_t origin)
-{
- m_bEOF = false;
- if (m_pBuffer==NULL) return false;
- int32_t lNewPos = m_Position;
-
- if (origin == SEEK_SET) lNewPos = offset;
- else if (origin == SEEK_CUR) lNewPos += offset;
- else if (origin == SEEK_END) lNewPos = m_Size + offset;
- else return false;
-
- if (lNewPos < 0) lNewPos = 0;
-
- m_Position = lNewPos;
- return true;
-}
-//////////////////////////////////////////////////////////
-int32_t CxMemFile::Tell()
-{
- if (m_pBuffer==NULL) return -1;
- return m_Position;
-}
-//////////////////////////////////////////////////////////
-int32_t CxMemFile::Size()
-{
- if (m_pBuffer==NULL) return -1;
- return m_Size;
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Flush()
-{
- if (m_pBuffer==NULL) return false;
- return true;
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Eof()
-{
- if (m_pBuffer==NULL) return true;
- return m_bEOF;
-}
-//////////////////////////////////////////////////////////
-int32_t CxMemFile::Error()
-{
- if (m_pBuffer==NULL) return -1;
- return (m_Position > (int32_t)m_Size);
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::PutC(uint8_t c)
-{
- m_bEOF = false;
- if (m_pBuffer==NULL) return false;
-
- if (m_Position >= m_Edge){
- if (!Alloc(m_Position + 1)){
- return false;
- }
- }
-
- m_pBuffer[m_Position++] = c;
-
- if (m_Position > (int32_t)m_Size) m_Size = m_Position;
-
- return true;
-}
-//////////////////////////////////////////////////////////
-int32_t CxMemFile::GetC()
-{
- if (m_pBuffer==NULL || m_Position >= (int32_t)m_Size){
- m_bEOF = true;
- return EOF;
- }
- return *(uint8_t*)((uint8_t*)m_pBuffer + m_Position++);
-}
-//////////////////////////////////////////////////////////
-char * CxMemFile::GetS(char *string, int32_t n)
-{
- n--;
- int32_t c,i=0;
- while (i<n){
- c = GetC();
- if (c == EOF) return 0;
- string[i++] = (char)c;
- if (c == '\n') break;
- }
- string[i] = 0;
- return string;
-}
-//////////////////////////////////////////////////////////
-int32_t CxMemFile::Scanf(const char *format, void* output)
-{
- return 0;
-}
-//////////////////////////////////////////////////////////
-bool CxMemFile::Alloc(uint32_t dwNewLen)
-{
- if (dwNewLen > (uint32_t)m_Edge)
- {
- // find new buffer size
- uint32_t dwNewBufferSize = (uint32_t)(((dwNewLen>>16)+1)<<16);
-
- // allocate new buffer
- if (m_pBuffer == NULL) m_pBuffer = (uint8_t*)malloc(dwNewBufferSize);
- else m_pBuffer = (uint8_t*)realloc(m_pBuffer, dwNewBufferSize);
- // I own this buffer now (caller knows nothing about it)
- m_bFreeOnClose = true;
-
- m_Edge = dwNewBufferSize;
- }
- return (m_pBuffer!=0);
-}
-//////////////////////////////////////////////////////////
-void CxMemFile::Free()
-{
- Close();
-}
-//////////////////////////////////////////////////////////
diff --git a/hge/CxImage/xmemfile.h b/hge/CxImage/xmemfile.h deleted file mode 100644 index e132db3..0000000 --- a/hge/CxImage/xmemfile.h +++ /dev/null @@ -1,42 +0,0 @@ -#if !defined(__xmemfile_h)
-#define __xmemfile_h
-
-#include "xfile.h"
-
-//////////////////////////////////////////////////////////
-class DLL_EXP CxMemFile : public CxFile
-{
-public:
- CxMemFile(uint8_t* pBuffer = NULL, uint32_t size = 0);
- ~CxMemFile();
-
- bool Open();
- uint8_t* GetBuffer(bool bDetachBuffer = true);
-
- virtual bool Close();
- virtual size_t Read(void *buffer, size_t size, size_t count);
- virtual size_t Write(const void *buffer, size_t size, size_t count);
- virtual bool Seek(int32_t offset, int32_t origin);
- virtual int32_t Tell();
- virtual int32_t Size();
- virtual bool Flush();
- virtual bool Eof();
- virtual int32_t Error();
- virtual bool PutC(uint8_t c);
- virtual int32_t GetC();
- virtual char * GetS(char *string, int32_t n);
- virtual int32_t Scanf(const char *format, void* output);
-
-protected:
- bool Alloc(uint32_t nBytes);
- void Free();
-
- uint8_t* m_pBuffer;
- uint32_t m_Size;
- bool m_bFreeOnClose;
- int32_t m_Position; //current position
- int32_t m_Edge; //buffer size
- bool m_bEOF;
-};
-
-#endif
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