//CLI Midi file player based on libfluidsynth
//Midi file reading module
//Written by Chris Xiong, 2015
#include <cstdio>
#include <cstring>
#include <cstdlib>
#include <cstdint>
#include <cstdarg>
#include <algorithm>
#include "qmpmidiplay.hpp"
const char* GM1SysX="\xF0\x7E\x7F\x09\x01\xF7";
const char* GM2SysX="\xF0\x7E\x7F\x09\x03\xF7";
const char* GSSysEx="\xF0\x41\x10\x42\x12\x40\x00\x7F\x00\x41\xF7";
const char* XGSysEx="\xF0\x43\x10\x4C\x00\x00\x7E\x00\xF7";
#define assert(x) if(!(x))this->error(false,"assertion failure @ qmpmidiread.cpp:%d",__LINE__)
void CSMFReader::error(int fatal,const char* format,...)
{
va_list ap;char buf[1024],bufr[1024];
va_start(ap,format);vsnprintf(buf,1024,format,ap);va_end(ap);
snprintf(bufr,1024,"%s at %#lx",buf,ftell(f));
if(fatal)throw std::runtime_error(bufr);
else fprintf(stderr,"CSMFReader W: %s.\n",bufr);
}
uint32_t CSMFReader::readSW()
{
uint32_t ret=0;
for(int i=0;i<2;++i){ret<<=8;ret|=((uint32_t)fgetc(f))&0xFF;}
return ret;
}
uint32_t CSMFReader::readDW()
{
uint32_t ret=0;
for(int i=0;i<4;++i){ret<<=8;ret|=((uint32_t)fgetc(f))&0xFF;}
return ret;
}
uint32_t CSMFReader::readVL()
{
uint32_t ret=0,t,c=0;
do
{
t=fgetc(f);
if(++c>4)error(1,"Variable length type overflow");
ret<<=7;ret|=(t&0x7F);
}while(t&0x80);
return ret;
}
int CSMFReader::eventReader()//returns 0 if End of Track encountered
{
uint32_t delta=readVL();curt+=delta;
char type=fgetc(f);uint32_t p1,p2;
static char lasttype;eventdiscarded=0;
if(!(type&0x80)){fseek(f,-1,SEEK_CUR);type=lasttype;}
switch(type&0xF0)
{
case 0x80://Note Off
case 0x90://Note On
case 0xA0://Note Aftertouch
case 0xB0://Controller Change
case 0xE0://Pitch wheel
p1=fgetc(f);p2=fgetc(f);
curTrack->appendEvent(SEvent(curid,curt,type,p1,p2));
break;
case 0xC0://Patch Change
case 0xD0://Channel Aftertouch
p1=fgetc(f);
curTrack->appendEvent(SEvent(curid,curt,type,p1,0));
break;
case 0xF0:
if((type&0x0F)==0x0F)//Meta Event
{
char metatype=fgetc(f);
uint32_t len=readVL();char* str=NULL;
if(len<=1024&&len>0)str=new char[len+8];
if(str)fread(str,1,len,f);else fseek(f,len,SEEK_CUR);
if(str)str[len]='\0';
switch(metatype)
{
case 0x00://Sequence Number
assert(len==2||len==0);
break;
case 0x20://Channel Prefix
assert(len==1);
break;
case 0x2F://End of Track
assert(len==0);
return 0;
break;
case 0x51://Set Tempo
assert(len==3);
p1=((str[0]&0xffu)<<16u)|(str[1]&0xffu)<<8u|(str[2]&0xffu);
curTrack->appendEvent(SEvent(curid,curt,type,metatype,p1));
break;
case 0x54://SMTPE offset, not handled.
assert(len==5);
break;
case 0x58://Time signature
assert(len==4);
p1=((str[0]&0xffu)<<24u)|(str[1]&0xffu)<<16u|(str[2]&0xffu)<<8u|(str[3]&0xffu);
curTrack->appendEvent(SEvent(curid,curt,type,metatype,p1));
break;
case 0x59://Key signature
assert(len==2);
p1=(str[0]&0xffu)<<8u|(str[1]&0xffu);
curTrack->appendEvent(SEvent(curid,curt,type,metatype,p1));
break;
case 0x01:case 0x02:case 0x03:
case 0x04:case 0x05:case 0x06:
case 0x07:case 0x7F:default://text-like meta
{
curTrack->appendEvent(SEvent(curid,curt,type,metatype,0,str));
if(str&&metatype==0x03&&!ret->title)
{
ret->title=new char[len+8];
strcpy(ret->title,str);
}
if(str&&metatype==0x02&&!ret->copyright)
{
ret->copyright=new char[len+8];
strcpy(ret->copyright,str);
}
}
}
if(str)delete[] str;
}
else if((type&0x0F)==0x00||(type&0x0F)==0x07)//SysEx
{
uint32_t len=readVL(),c;char* str=NULL;
str=new char[len+8];
if((type&0x0F)==0x00)
{
str[0]=0xF0;++len;
for(c=1;c<len;++c){str[c]=fgetc(f);}
}
else for(c=0;c<len;++c){str[c]=fgetc(f);}
curTrack->appendEvent(SEvent(curid,curt,type,len,0,str));
if(!strcmp(str,GM1SysX))ret->std=1;
if(!strcmp(str,GM2SysX))ret->std=2;
if(!strcmp(str,GSSysEx))ret->std=3;
if(!strcmp(str,XGSysEx))ret->std=4;
delete[] str;
}
else error(0,"Unknown event type %#x",type);
break;
default:
error(0,"Unknown event type %#x",type);
}
lasttype=type;++curid;
if(curTrack->eventList.size())
{
SEvent& le=curTrack->eventList.back();
SEventCallBackData cbd(le.type,le.p1,le.p2,le.time);
CMidiPlayer::getInstance()->callEventReaderCB(cbd);
}
return 1;
}
void CSMFReader::trackChunkReader()
{
ret->tracks.push_back(CMidiTrack());
curTrack=&ret->tracks.back();
int chnklen=readDW();byteread=ftell(f);curt=0;curid=0;
while(eventReader());
byteread=ftell(f)-byteread;
if(byteread<chnklen)
{
error(0,"Extra bytes after EOT event");
for(;byteread<chnklen;++byteread)fgetc(f);
}
if(byteread>chnklen)
error(1,"Read past end of track");
}
void CSMFReader::headerChunkReader()
{
int chnklen=readDW();byteread=ftell(f);
if(chnklen<6)error(1,"Header chunk too short");
if(chnklen>6)error(0,"Header chunk length longer than expected. Ignoring extra bytes");
fmt=readSW();trk=readSW();ret->divs=readSW();
if(ret->divs&0x8000)error(1,"SMTPE format is not supported");
for(byteread=ftell(f)-byteread;byteread<chnklen;++byteread){fgetc(f);}
}
int CSMFReader::chunkReader(int hdrXp)
{
char hdr[6];
fread(hdr,1,4,f);
if(feof(f))error(1,"Unexpected EOF");
if(hdrXp)
{
if(!strncmp(hdr,"RIFF",4))
{
fseek(f,4,SEEK_CUR);
fread(hdr,1,4,f);
if(strncmp(hdr,"RMID",4)){error(1,"Wrong file type in RIFF container");}
fseek(f,8,SEEK_CUR);
fread(hdr,1,4,f);
}
if(strncmp(hdr,"MThd",4)){error(1,"Wrong MIDI header.");}
else return headerChunkReader(),0;
}
else
if(strncmp(hdr,"MTrk",4))
{
error(0,"Wrong track chunk header. Ignoring the whole chunk");
uint32_t chnklen=readDW();fseek(f,chnklen,SEEK_CUR);return 0;
}
else return trackChunkReader(),1;
return 0;
}
CSMFReader::CSMFReader()
{
f=NULL;
}
CMidiFile* CSMFReader::readFile(const char* fn)
{
ret=new CMidiFile;
ret->title=ret->copyright=NULL;ret->std=0;ret->valid=1;
try
{
if(!(f=fopen(fn,"rb")))
throw std::runtime_error("File doesn't exist");
chunkReader(1);
for(uint32_t i=0;i<trk;i+=chunkReader(0));
fclose(f);f=NULL;
}
catch(std::runtime_error& e)
{
fprintf(stderr,"CSMFReader E: %s is not a supported file. Cause: %s.\n",fn,e.what());
ret->valid=0;if(f)fclose(f);f=NULL;
}
return ret;
}
CSMFReader::~CSMFReader()
{
}
void CSMFReader::discardCurrentEvent()
{
if(eventdiscarded)return;eventdiscarded=1;
curTrack->eventList.pop_back();
}
void CSMFReader::commitEventChange(SEventCallBackData d)
{
curTrack->eventList.back().time=d.time;
curTrack->eventList.back().type=d.type;
curTrack->eventList.back().p1=d.p1;
curTrack->eventList.back().p2=d.p2;
}
CMidiFileReaderCollection::CMidiFileReaderCollection()
{
readers.clear();currentReader=NULL;
registerReader(new CSMFReader(),"Default SMF Reader");
}
CMidiFileReaderCollection::~CMidiFileReaderCollection()
{
delete readers[0].first;
}
void CMidiFileReaderCollection::registerReader(qmpFileReader* reader,std::string name)
{
for(unsigned i=0;i<readers.size();++i)
if(readers[i].second==name)return;
readers.push_back(std::make_pair(reader,name));
}
void CMidiFileReaderCollection::unregisterReader(std::string name)
{
for(auto i=readers.begin();i!=readers.end();++i)
if(i->second==name)
{
readers.erase(i);
return;
}
}
CMidiFile* CMidiFileReaderCollection::readFile(const char* fn)
{
CMidiFile *file=NULL;
for(unsigned i=0;i<readers.size();++i)
{
currentReader=readers[i].first;
CMidiPlayer::getInstance()->notes=0;
CMidiFile* t=readers[i].first->readFile(fn);
if(t->valid){file=t;break;}
else delete t;
}
currentReader=NULL;
return file;
}
qmpFileReader* CMidiFileReaderCollection::getCurrentReader()
{return currentReader;}