From f68cc9034a576b6f91cf0db0344ece971944c973 Mon Sep 17 00:00:00 2001 From: Chris Xiong Date: Sun, 1 Nov 2015 23:32:22 +0800 Subject: Move hge to an archive. Finish the main part of smPath. This is a C++ project, add C++ tags to all source code that could be identified as C source files. --- archive/hge/CxImage/ximapsd.cpp | 1307 --------------------------------------- 1 file changed, 1307 deletions(-) delete mode 100644 archive/hge/CxImage/ximapsd.cpp (limited to 'archive/hge/CxImage/ximapsd.cpp') diff --git a/archive/hge/CxImage/ximapsd.cpp b/archive/hge/CxImage/ximapsd.cpp deleted file mode 100644 index 2d8417b..0000000 --- a/archive/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; xwidth; 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 - -- cgit v1.2.3