#include "cwCommon.h" #include "cwLog.h" #include "cwCommonImpl.h" #include "cwTest.h" #include "cwMem.h" #include "cwFile.h" #include "cwObject.h" #include "cwAudioFile.h" #include "cwMath.h" #include "cwFileSys.h" // #define _24to32_aif( p ) ((int)( ((p[0]>127?255:0) << 24) + (((int)p[0]) << 16) + (((int)p[1]) <<8) + p[2])) // no-swap equivalent // See note in:_cmAudioFileReadFileHdr() // Note that this code byte swaps as it converts - this is to counter the byte swap that occurs in cmAudioFileReadInt(). #define _24to32_aif( p ) ((int)( ((p[0]>127?255:0) << 0) + (((int)p[2]) << 24) + (((int)p[1]) <<16) + (((int)p[0]) << 8))) #define _24to32_wav( p ) ((int)( ((p[2]>127?255:0) << 24) + (((int)p[2]) << 16) + (((int)p[1]) <<8) + p[0])) #define _cmAfSwap16(v) cwSwap16(v) #define _cmAfSwap32(v) cwSwap32(v) #ifdef cmBIG_ENDIAN #define _cmAifSwapFl (0) #define _cmWavSwapFl (1) #else #define _cmAifSwapFl (1) #define _cmWavSwapFl (0) #endif namespace cw { namespace audiofile { enum { kAiffFileId = 'FORM', kAiffChkId = 'AIFF', kAifcChkId = 'AIFC', kSowtCompId = 'sowt', kNoneCompId = 'NONE', kWavFileId = 'FFIR', kWavChkId = 'EVAW', }; enum { kWriteAudioGutsFl = 0x01, kWriteFloatFl = 0x02 }; enum { kIntegerFmtId = 1, kFloatFmtId = 3, kBitsPerByte = 8, kMax24Bits = 0x007fffff, kMax16Bits = 0x00007fff, kMax32Bits = 0x7fffffff }; typedef struct audiofile_str { FILE* fp; info_t info; // audio file details unsigned curFrmIdx; // current frame offset unsigned fileByteCnt; // file byte cnt unsigned smpByteOffs; // byte offset of the first sample marker_t* markArray; unsigned flags; char* fn; } af_t; rc_t _writeHdr( af_t* p ); af_t* _handleToPtr( handle_t h ) { return handleToPtr(h); } rc_t _destroy( af_t* p ) { rc_t rc = kOkRC; if( p != nullptr ) { if( cwIsFlag(p->flags, kWriteAudioGutsFl ) ) if((rc = _writeHdr(p)) != kOkRC ) return rc; if( p->fp != nullptr ) { fclose(p->fp); p->fp = nullptr; } mem::release(p->fn); mem::release(p); } return rc; } rc_t _seek( af_t* p, long byteOffset, int origin ) { if( fseek(p->fp,byteOffset,origin) != 0 ) return cwLogError(kSeekFailRC,"Audio file seek failed on '%s'.",cwStringNullGuard(p->fn)); return kOkRC; } rc_t _read( af_t* p, void* eleBuf, unsigned bytesPerEle, unsigned eleCnt ) { if( fread(eleBuf,bytesPerEle,eleCnt,p->fp) != eleCnt ) return cwLogError(kReadFailRC,"Audio file read failed on '%s'.",cwStringNullGuard(p->fn)); return kOkRC; } rc_t _readUInt32( af_t* p, std::uint32_t* valuePtr ) { rc_t rc; if(( rc = _read(p, valuePtr, sizeof(*valuePtr), 1 )) != kOkRC ) return rc; if( cwIsFlag(p->info.flags,kSwapAfFl) ) *valuePtr = _cmAfSwap32(*valuePtr); return rc; } rc_t _readUInt16( af_t* p, std::uint16_t* valuePtr ) { rc_t rc; if(( rc = _read(p, valuePtr, sizeof(*valuePtr), 1 )) != kOkRC ) return rc; if( cwIsFlag(p->info.flags,kSwapAfFl) ) *valuePtr = _cmAfSwap16(*valuePtr); return rc; } rc_t _readPascalString( af_t* p, char s[kAudioFileLabelCharCnt] ) { rc_t rc; unsigned char n; if((rc = _read(p,&n,sizeof(n),1)) != kOkRC ) return rc; if((rc = _read(p,s,n,1)) != kOkRC ) return rc; s[n] = '\0'; if( n % 2 == 0 ) rc = _seek(p,1,SEEK_CUR); return rc; } rc_t _readString( af_t* p, char* s, unsigned sn ) { rc_t rc; if((rc = _read(p,s,sn,1)) != kOkRC ) return rc; return kOkRC; } rc_t _readX80( af_t* p, double* x80Ptr ) { unsigned char s[10]; rc_t rc = kOkRC; if((rc = _read(p,s,10,1)) != kOkRC ) return rc; *x80Ptr = math::x80ToDouble(s); return kOkRC; } rc_t _readChunkHdr( af_t* p, std::uint32_t* chkIdPtr, unsigned* chkByteCntPtr ) { rc_t rc = kOkRC; *chkIdPtr = 0; *chkByteCntPtr = 0; if((rc = _readUInt32(p,chkIdPtr)) != kOkRC ) return rc; if((rc = _readUInt32(p,chkByteCntPtr)) != kOkRC ) return rc; // the actual on disk chunk size is always incrmented up to the next even integer *chkByteCntPtr += (*chkByteCntPtr) % 2; return rc; } rc_t _readFileHdr( af_t* p, unsigned constFormId, unsigned constAifId, bool swapFl ) { rc_t rc = kOkRC; std::uint32_t formId = 0; std::uint32_t aifId = 0; unsigned chkByteCnt = 0; p->info.flags = 0; p->curFrmIdx = 0; p->fileByteCnt = 0; if((rc = _seek(p,0,SEEK_SET)) != kOkRC ) return rc; // set the swap flags p->info.flags = cwEnaFlag(p->info.flags,kSwapAfFl, swapFl); p->info.flags = cwEnaFlag(p->info.flags,kSwapSamplesAfFl,swapFl); if((rc = _readChunkHdr(p,&formId,&p->fileByteCnt)) != kOkRC ) return rc; // // use -Wno-multichar on GCC cmd line to disable the multi-char warning // // check the FORM/RIFF id if( formId != constFormId ) return kSyntaxErrorRC; // read the AIFF/WAVE id if((rc = _readChunkHdr(p,&aifId,&chkByteCnt)) != kOkRC ) return rc; // check for the AIFC if( formId == kAiffFileId && aifId != constAifId ) { if( aifId == kAifcChkId ) p->info.flags = cwSetFlag(p->info.flags,kAifcAfFl); else return kInvalidDataTypeRC; } // set the audio file type flag if( aifId==kAiffChkId || aifId==kAifcChkId ) p->info.flags = cwSetFlag(p->info.flags,kAiffAfFl); if( aifId==kWavChkId ) p->info.flags = cwSetFlag(p->info.flags,kWavAfFl); return rc; } rc_t _readCommChunk( af_t* p ) { rc_t rc = kOkRC; std::uint16_t ui16; std::uint32_t ui32; if((rc = _readUInt16(p,&ui16)) != kOkRC ) return rc; p->info.chCnt = ui16; if((rc = _readUInt32(p,&ui32)) != kOkRC ) return rc; p->info.frameCnt = ui32; if((rc = _readUInt16(p,&ui16)) != kOkRC ) return rc; p->info.bits = ui16; if((rc = _readX80(p,&p->info.srate)) != kOkRC ) return rc; // if this is an AIFC format file ... if( cwIsFlag(p->info.flags,kAifcAfFl) ) { if((rc = _readUInt32(p,&ui32)) != kOkRC ) return rc; switch( ui32 ) { case kNoneCompId: break; case kSowtCompId: // If the compression type is set to 'swot' // then the samples are written in little-endian (Intel) format // rather than the default big-endian format. p->info.flags = cwTogFlag(p->info.flags,kSwapSamplesAfFl); break; default: rc = cwLogError(kSyntaxErrorRC,"Unknown AIFC type id: 0x%x in '%s'.",ui32,cwStringNullGuard(p->fn) ); } } return rc; } rc_t _readSsndChunk( af_t* p ) { rc_t rc = kOkRC; std::uint32_t smpOffs=0, smpBlkSize=0; if((rc = _readUInt32(p,&smpOffs)) != kOkRC ) return rc; if((rc = _readUInt32(p,&smpBlkSize)) != kOkRC ) return rc; if((rc = _seek(p,smpOffs, SEEK_CUR)) != kOkRC ) return rc; p->smpByteOffs = ftell(p->fp); return rc; } rc_t _readMarkerChunk( af_t* p ) { rc_t rc = kOkRC; std::uint16_t ui16; std::uint32_t ui32; unsigned i; if((rc = _readUInt16(p,&ui16)) != kOkRC ) return rc; p->info.markerCnt = ui16; assert(p->markArray == NULL); marker_t* m = mem::allocZ(p->info.markerCnt); p->info.markerArray = m; for(i=0; iinfo.markerCnt; ++i) { if((rc = _readUInt16(p,&ui16)) != kOkRC ) return rc; m[i].id = ui16; if((rc = _readUInt32(p,&ui32)) != kOkRC ) return rc; m[i].frameIdx = ui32; if((rc = _readPascalString(p,m[i].label)) != kOkRC ) return rc; } return rc; } rc_t _readFmtChunk( af_t* p ) { rc_t rc = kOkRC; unsigned short fmtId, chCnt, blockAlign, bits; unsigned srate, bytesPerSec; if((rc = _readUInt16(p,&fmtId)) != kOkRC ) return rc; if((rc = _readUInt16(p,&chCnt)) != kOkRC ) return rc; if((rc = _readUInt32(p,&srate)) != kOkRC ) return rc; if((rc = _readUInt32(p,&bytesPerSec)) != kOkRC ) return rc; if((rc = _readUInt16(p,&blockAlign)) != kOkRC ) return rc; if((rc = _readUInt16(p,&bits)) != kOkRC ) return rc; p->info.chCnt = chCnt; p->info.bits = bits; p->info.srate = srate; p->flags = fmtId == kFloatFmtId ? kWriteFloatFl : 0; // if the 'data' chunk was read before the 'fmt' chunk then info.frameCnt // holds the number of bytes in the data chunk if( p->info.frameCnt != 0 ) p->info.frameCnt = p->info.frameCnt / (p->info.chCnt * (p->info.bits/kBitsPerByte)); return rc; } rc_t _readDatcmhunk( af_t* p, unsigned chkByteCnt ) { // if the 'fmt' chunk was read before the 'data' chunk then info.chCnt is non-zero if( p->info.chCnt != 0 ) p->info.frameCnt = chkByteCnt / (p->info.chCnt * (p->info.bits/kBitsPerByte)); else p->info.frameCnt = chkByteCnt; p->smpByteOffs = ftell(p->fp); return kOkRC; } rc_t _readBextChunk( af_t* p) { rc_t rc = kOkRC; if((rc = _readString(p,p->info.bextRecd.desc,kAfBextDescN)) != kOkRC ) return rc; if((rc = _readString(p,p->info.bextRecd.origin,kAfBextOriginN)) != kOkRC ) return rc; if((rc = _readString(p,p->info.bextRecd.originRef,kAfBextOriginRefN)) != kOkRC ) return rc; if((rc = _readString(p,p->info.bextRecd.originDate,kAfBextOriginDateN)) != kOkRC ) return rc; if((rc = _readString(p,p->info.bextRecd.originTime,kAfBextOriginTimeN)) != kOkRC ) return rc; if((rc = _readUInt32(p,&p->info.bextRecd.timeRefLow)) != kOkRC ) return rc; if((rc = _readUInt32(p,&p->info.bextRecd.timeRefHigh)) != kOkRC ) return rc; return rc; } rc_t _open( af_t* p, const char* fname, const char* fileModeStr ) { rc_t rc = kOkRC; char* fn = nullptr; // zero the info record memset(&p->info,0,sizeof(p->info)); // expand the path if((fn = filesys::expandPath(fname)) == nullptr ) { rc = cwLogError(kOpFailRC,"File path expansion failed on '%s'.",cwStringNullGuard(fname)); goto errLabel; } // open the file if((p->fp = fopen(fn,fileModeStr)) == NULL ) { rc = cwLogError(kOpenFailRC,"Audio file open failed on '%s'.",cwStringNullGuard(fname)); goto errLabel; } // read the file header if((rc = _readFileHdr(p,kAiffFileId,kAiffChkId,_cmAifSwapFl)) != kOkRC ) if((rc = _readFileHdr(p,kWavFileId,kWavChkId,_cmWavSwapFl)) != kOkRC ) goto errLabel; // seek past the file header if((rc = _seek(p,12,SEEK_SET)) != kOkRC ) goto errLabel; // zero chCnt and frameCnt to allow the order of the 'data' and 'fmt' chunks to be noticed p->info.chCnt = 0; p->info.frameCnt = 0; while( ftell(p->fp ) < p->fileByteCnt ) { unsigned chkId, chkByteCnt; if((rc = _readChunkHdr(p,&chkId,&chkByteCnt)) != kOkRC ) goto errLabel; unsigned offs = ftell(p->fp); if( cwIsFlag(p->info.flags,kAiffAfFl) ) switch(chkId) { case 'COMM': if((rc = _readCommChunk(p)) != kOkRC ) goto errLabel; break; case 'SSND': if((rc = _readSsndChunk(p)) != kOkRC ) goto errLabel; break; case 'MARK': if((rc = _readMarkerChunk(p)) != kOkRC ) goto errLabel; break; } else switch(chkId) { case ' tmf': if((rc = _readFmtChunk(p)) != kOkRC ) goto errLabel; break; case 'atad': if((rc = _readDatcmhunk(p,chkByteCnt)) != kOkRC ) goto errLabel; break; case 'txeb': if((rc = _readBextChunk(p)) != kOkRC ) goto errLabel; break; } // seek to the end of this chunk if((rc = _seek(p,offs+chkByteCnt,SEEK_SET)) != kOkRC ) goto errLabel; } errLabel: if( rc!=kOkRC ) _destroy(p); mem::release(fn); return rc; } rc_t _writeBytes( af_t* p, const void* b, unsigned bn ) { rc_t rc = kOkRC; if( fwrite( b, bn, 1, p->fp ) != 1 ) return cwLogError(kWriteFailRC,"Audio file write failed on '%s'.",cwStringNullGuard(p->fn)); return rc; } rc_t _writeId( af_t* p, const char* s ) { return _writeBytes( p, s, strlen(s)) ; } rc_t _writeUInt32( af_t* p, unsigned v ) { if( cwIsFlag(p->info.flags,kSwapAfFl) ) v = _cmAfSwap32(v); return _writeBytes( p, &v, sizeof(v)) ; } rc_t _writeUInt16( af_t* p, unsigned short v ) { if( cwIsFlag(p->info.flags,kSwapAfFl) ) v = _cmAfSwap16(v); return _writeBytes( p, &v, sizeof(v)) ; } rc_t _writeAiffHdr( af_t* p ) { rc_t rc = kOkRC; unsigned char srateX80[10]; math::doubleToX80( p->info.srate, srateX80 ); unsigned hdrByteCnt = 54; unsigned ssndByteCnt = 8 + (p->info.chCnt * p->info.frameCnt * (p->info.bits/kBitsPerByte)); unsigned formByteCnt = hdrByteCnt + ssndByteCnt - 8; unsigned commByteCnt = 18; unsigned ssndSmpOffs = 0; unsigned ssndBlkSize = 0; // if ssndByteCnt is odd if( ssndByteCnt % 2 == 1 ) { formByteCnt++; } if(( rc = _seek( p, 0, SEEK_SET )) != kOkRC ) return rc; if(( rc = _writeId( p, "FORM")) != kOkRC ) return rc; if(( rc = _writeUInt32( p, formByteCnt)) != kOkRC ) return rc; if(( rc = _writeId( p, "AIFF")) != kOkRC ) return rc; if(( rc = _writeId( p, "COMM")) != kOkRC ) return rc; if(( rc = _writeUInt32( p, commByteCnt)) != kOkRC ) return rc; if(( rc = _writeUInt16( p, p->info.chCnt)) != kOkRC ) return rc; if(( rc = _writeUInt32( p, p->info.frameCnt)) != kOkRC ) return rc; if(( rc = _writeUInt16( p, p->info.bits)) != kOkRC ) return rc; if(( rc = _writeBytes( p, &srateX80,10)) != kOkRC ) return rc; if(( rc = _writeId( p, "SSND")) != kOkRC ) return rc; if(( rc = _writeUInt32( p, ssndByteCnt)) != kOkRC ) return rc; if(( rc = _writeUInt32( p, ssndSmpOffs)) != kOkRC ) return rc; if(( rc = _writeUInt32( p, ssndBlkSize)) != kOkRC ) return rc; return rc; } rc_t _writeWavHdr( af_t* p ) { rc_t rc = kOkRC; short chCnt = p->info.chCnt; unsigned frmCnt = p->info.frameCnt; short bits = p->info.bits; unsigned srate = p->info.srate; short fmtId = p->flags & kWriteFloatFl ? kFloatFmtId : kIntegerFmtId; unsigned bytesPerSmp = bits/kBitsPerByte; unsigned hdrByteCnt = 36; unsigned fmtByteCnt = 16; unsigned blockAlignCnt = chCnt * bytesPerSmp; unsigned sampleCnt = chCnt * frmCnt; unsigned dataByteCnt = sampleCnt * bytesPerSmp; if(( rc = _seek( p, 0, SEEK_SET )) != kOkRC ) return rc; if((rc = _writeId( p, "RIFF")) != kOkRC ) goto errLabel; if((rc = _writeUInt32( p, hdrByteCnt + dataByteCnt)) != kOkRC ) goto errLabel; if((rc = _writeId( p, "WAVE")) != kOkRC ) goto errLabel; if((rc = _writeId( p, "fmt ")) != kOkRC ) goto errLabel; if((rc = _writeUInt32( p, fmtByteCnt)) != kOkRC ) goto errLabel; if((rc = _writeUInt16( p, fmtId)) != kOkRC ) goto errLabel; if((rc = _writeUInt16( p, chCnt)) != kOkRC ) goto errLabel; if((rc = _writeUInt32( p, srate)) != kOkRC ) goto errLabel; if((rc = _writeUInt32( p, srate * blockAlignCnt)) != kOkRC ) goto errLabel; if((rc = _writeUInt16( p, blockAlignCnt)) != kOkRC ) goto errLabel; if((rc = _writeUInt16( p, bits)) != kOkRC ) goto errLabel; if((rc = _writeId( p, "data")) != kOkRC ) goto errLabel; if((rc = _writeUInt32( p, dataByteCnt)) != kOkRC ) goto errLabel; errLabel: return rc; } rc_t _writeHdr( af_t* p ) { if( cwIsFlag(p->info.flags,kWavAfFl) ) return _writeWavHdr(p); return _writeAiffHdr(p); } rc_t _filenameToAudioFileType( const char* fn, unsigned& flagsRef ) { rc_t rc = kOkRC; filesys::pathPart_t* pp = nullptr; if((pp = filesys::pathParts(fn)) == NULL ) { rc = cwLogError(kInvalidArgRC,"The audio file name '%s' could not be parsed.",cwStringNullGuard(fn)); goto errLabel; } if(pp->extStr == nullptr ) { rc = cwLogError(kInvalidArgRC,"The audio file name '%s' does not have an extension.",cwStringNullGuard(fn)); goto errLabel; } else { // convert the extension to upper case unsigned extN = strlen(pp->extStr); char ext[ extN+1 ]; for(unsigned i=0; iextStr[i]); ext[extN] = 0; if( strcmp(ext,"WAV") == 0 ) { flagsRef = cwSetFlag(flagsRef, kWavAfFl); flagsRef = cwClrFlag(flagsRef, kAiffAfFl); } else if( strcmp(ext,"AIF")==0 || strcmp(ext,"AIFF")==0 ) { flagsRef = cwClrFlag(flagsRef, kWavAfFl); flagsRef = cwSetFlag(flagsRef, kAiffAfFl); } else { rc = cwLogError(kInvalidArgRC,"The audio file extension '%s' does not match WAV,AIFF,or AIF.", ext ); } } errLabel: mem::release(pp); return rc; } rc_t _readInt( handle_t h, unsigned totalFrmCnt, unsigned chIdx, unsigned chCnt, int* buf[], unsigned* actualFrmCntPtr, bool sumFl ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); //if( p->flags & kWriteFloatFl ) // return cwLogError(kOpFailRC,"Conversion from floating point samples to integer output is not implemented."); if( chIdx+chCnt > p->info.chCnt ) return cwLogError(kInvalidArgRC,"Invalid channel index on read. %i > %i",chIdx+chCnt,chCnt); if( actualFrmCntPtr != NULL ) *actualFrmCntPtr = 0; unsigned bps = p->info.bits / kBitsPerByte; // bytes per sample unsigned bpf = bps * p->info.chCnt; // bytes per file frame unsigned bufFrmCnt = std::min(totalFrmCnt,(unsigned)cwAudioFile_MAX_FRAME_READ_CNT); unsigned bytesPerBuf = bufFrmCnt * bpf; unsigned char fbuf[ bytesPerBuf ]; // raw bytes buffer unsigned ci; unsigned frmCnt = 0; unsigned totalReadFrmCnt; int* ptrBuf[ chCnt ]; for(ci=0; ciinfo.frameCnt - p->curFrmIdx, std::min( totalFrmCnt-totalReadFrmCnt, bufFrmCnt )); // read the file frmCnt sample if((rc = _read(p,fbuf,frmCnt*bpf,1)) != kOkRC ) return rc; if( actualFrmCntPtr != NULL ) *actualFrmCntPtr += frmCnt; assert( chIdx+chCnt <= p->info.chCnt ); for(ci=0; ciinfo.bits == 8 ) { if( cwIsFlag(p->info.flags,kAiffAfFl) ) { for(; dpinfo.flags,kSwapSamplesAfFl) ) { switch( p->info.bits ) { case 8: break; case 16: for(; dpinfo.flags,kAiffAfFl) ) { for(; dpinfo.bits) { case 8: break; case 16: for(; dpinfo.flags,kAiffAfFl) ) { for(; dpcurFrmIdx += frmCnt; } if( totalReadFrmCnt < totalFrmCnt ) { for(ci=0; ciinfo.flags,kSwapAfFl)); return rc; } rc_t _readRealSamples( handle_t h, unsigned totalFrmCnt, unsigned chIdx, unsigned chCnt, float** fbuf, double** dbuf, unsigned* actualFrmCntPtr, bool sumFl ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); if( actualFrmCntPtr != NULL ) *actualFrmCntPtr = 0; unsigned totalReadCnt = 0; unsigned bufFrmCnt = std::min( totalFrmCnt, (unsigned)cwAudioFile_MAX_FRAME_READ_CNT ); unsigned bufSmpCnt = bufFrmCnt * chCnt; float fltMaxSmpVal = 0; int buf[ bufSmpCnt ]; int* ptrBuf[ chCnt ]; float* fPtrBuf[ chCnt ]; double* dPtrBuf[ chCnt ]; unsigned i; unsigned frmCnt = 0; switch( p->info.bits ) { case 8: fltMaxSmpVal = 0x80; break; case 16: fltMaxSmpVal = 0x8000; break; case 24: fltMaxSmpVal = 0x800000; break; case 32: fltMaxSmpVal = 0x80000000; break; default: return cwLogError(kInvalidArgRC,"Audio file invalid sample word size:%i bits.",p->info.bits); } double dblMaxSmpVal = fltMaxSmpVal; // initialize the audio ptr buffers for(i=0; icurFrmIdx < p->info.frameCnt; totalReadCnt+=frmCnt) { unsigned actualReadFrmCnt = 0; frmCnt = std::min( p->info.frameCnt - p->curFrmIdx, std::min( totalFrmCnt-totalReadCnt, bufFrmCnt ) ); // Fill the integer audio buffer from the file. // Note that the input format may be float but this is ok since there size is the same and _readInt() does not processes the values. if((rc = _readInt( h, frmCnt, chIdx, chCnt, ptrBuf, &actualReadFrmCnt, false )) != kOkRC ) return rc; if( actualFrmCntPtr != NULL ) *actualFrmCntPtr += actualReadFrmCnt; // Convert the integer buffer to floating point for(i=0; iflags & kWriteFloatFl ) { float* sp = (float*)ptrBuf[i]; // if output is in float (not double) format if( fbuf != NULL ) { float* dp = fPtrBuf[i]; float* ep = dp + frmCnt; if( sumFl ) { for(; dp 0 ) rc = seek( h, begFrmIdx ); return rc; } rc_t _getInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr, bool sumFl ) { rc_t rc; handle_t h; if((rc = _get(h,fn,begFrmIdx,afInfoPtr)) == kOkRC ) rc = _readInt(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl ); close(h); return rc; } rc_t _getFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr, bool sumFl ) { rc_t rc; handle_t h; if((rc = _get(h,fn,begFrmIdx,afInfoPtr)) == kOkRC ) rc = _readFloat(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl ); close(h); return rc; } rc_t _getDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr, bool sumFl ) { rc_t rc; handle_t h; if((rc = _get(h,fn,begFrmIdx,afInfoPtr)) == kOkRC ) rc = _readDouble(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl ); close(h); return rc; } rc_t _write_samples_to_file( af_t* p, unsigned bytesPerSmp, unsigned bufSmpCnt, const void* buf ) { rc_t rc = kOkRC; if( fwrite( (void*)buf, bufSmpCnt*bytesPerSmp, 1, p->fp ) != 1) rc = cwLogError(kWriteFailRC,"Audio file write failed on '%s'.",cwStringNullGuard(p->fn)); return rc; } // // Write 8 bit samples // // sample writer: int->uint8_t rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const int* sbuf, int8_t* dbuf ) { for(unsigned i=0; iuint8_t rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const float* sbuf, int8_t* dbuf ) { for(unsigned i=0; iuint8_t rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const double* sbuf, int8_t* dbuf ) { for(unsigned i=0; ishort rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const int* sbuf, short* dbuf ) { for(unsigned i=0; ishort rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const float* sbuf, short* dbuf ) { for(unsigned i=0; ishort rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const double* sbuf, short* dbuf ) { for(unsigned i=0; iint24 rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const int* sbuf, uint32_t* dbuf ) { uint8_t* dbp = (uint8_t*)dbuf; for(unsigned i=0; iint24 rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const float* sbuf, uint32_t* dbuf ) { uint8_t* dbp = (uint8_t*)dbuf; for(unsigned i=0; iint24 rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const double* sbuf, uint32_t* dbuf ) { uint8_t* dbp = (uint8_t*)dbuf; for(unsigned i=0; iint rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const int* sbuf, int* dbuf ) { return _write_samples_to_file(p,sizeof(dbuf[0]),bufSmpCnt,dbuf); } // float->int rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const float* sbuf, int* dbuf ) { for(unsigned i=0; iint rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const double* sbuf, int* dbuf ) { for(unsigned i=0; ifloat rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const int* sbuf, float* dbuf ) { for(unsigned i=0; ifloat rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const float* sbuf, float* dbuf ) { //memcpy(dbuf,sbuf,bufSmpCnt*sizeof(float)); //return _write_samples_to_file(p,sizeof(dbuf[0]),bufSmpCnt,dbuf); return _write_samples_to_file(p,sizeof(sbuf[0]),bufSmpCnt,sbuf); } // double->float rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const double* sbuf, float* dbuf ) { for(unsigned i=0; i rc_t _write_samples( af_t* p, unsigned bufSmpCnt, const S* sbuf, D* dbuf) { return cwLogError(kInvalidDataTypeRC,"The source and desintation sample types are not supported by the audio file writer."); } template< typename S, typename D > rc_t _write_audio( af_t* p, unsigned srcBufFrmCnt, unsigned chCnt, const S* const * srcPtrPtr ) { rc_t rc = kOkRC; // Determine the size of the temporary buffer used for interleaving, type conversion and file writing unsigned bufFrmCnt = std::min(srcBufFrmCnt,4096u); unsigned bufSmpCnt = bufFrmCnt*chCnt; // allocate the temp. buffers S sbuf[ bufSmpCnt ]; D dbuf[ bufSmpCnt ]; // for each frame in the source for(unsigned sfi=0; sfiinfo.frameCnt += copyFrmN; sfi += copyFrmN; } return rc; } /* rc_t _writeRealSamples( handle_t h, unsigned frmCnt, unsigned chCnt, const void* srcPtrPtr, unsigned realSmpByteCnt ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); unsigned bufFrmCnt = 1024; unsigned wrFrmCnt = 0; unsigned i = 0; int maxSmpVal = 0; int buf[ chCnt * bufFrmCnt ]; int* srcCh[ chCnt ]; for(i=0; iinfo.bits ) { case 8: maxSmpVal = 0x7f; break; case 16: maxSmpVal = 0x7fff; break; case 24: maxSmpVal = 0x7fffff; break; case 32: maxSmpVal = 0x7fffffb0; break; // Note: the full range is not used for 32 bit numbers default: // because it was found to cause difficult to detect overflows { assert(0); } // when the signal approached full scale. } // duplicate the audio buffer ptr array - this will allow the buffer ptr's to be changed // during the float to int conversion without changing the ptrs passed in from the client const void* ptrArray[ chCnt ]; memcpy(ptrArray,srcPtrPtr,sizeof(ptrArray)); const float** sfpp = (const float**)ptrArray; const double** sdpp = (const double**)ptrArray; while( wrFrmCnt < frmCnt ) { unsigned n = std::min( frmCnt - wrFrmCnt, bufFrmCnt ); for(i=0; igetv("fn",fn,"begIdx",begIdx,"frmCnt",frmN)) != kOkRC ) return cwLogError(kSyntaxErrorRC,"Invalid parameter to audio file report test."); char* afn = filesys::expandPath(fn); rc = reportFn(afn,log::globalHandle(),begIdx,frmN); mem::release(afn); return rc; } } } cw::rc_t cw::audiofile::open( handle_t& h, const char* fn, info_t* info ) { rc_t rc; if((rc = close(h)) != kOkRC ) return rc; af_t* p = mem::allocZ(1); // read the file header if((rc = _open(p, fn, "rb" )) != kOkRC ) goto errLabel; // seek to the first sample offset if((rc = _seek(p,p->smpByteOffs,SEEK_SET)) != kOkRC ) goto errLabel; p->fn = mem::duplStr( fn ); if( info != NULL) memcpy(info,&p->info,sizeof(info_t)); h.set(p); errLabel: return rc; } cw::rc_t cw::audiofile::create( handle_t& h, const char* fname, double srate, unsigned bits, unsigned chCnt ) { rc_t rc = kOkRC; af_t* p = nullptr; char* fn = nullptr; if((rc = close(h)) != kOkRC ) return rc; if( fname == NULL || strlen(fname)==0 ) return cwLogError(kInvalidArgRC,"Audio file create failed. The file name is blank."); if((fn = filesys::expandPath(fname)) == nullptr ) { rc = cwLogError(kOpFailRC,"File path expansion failed on '%s'.",cwStringNullGuard(fname)); goto errLabel; } p = mem::allocZ(1); if((rc = _filenameToAudioFileType(fn, p->info.flags )) != kOkRC ) goto errLabel; // open the file for writing if((p->fp = fopen(fn,"wb")) == NULL ) { rc = cwLogError(kOpenFailRC,"Audio file create failed on '%s'.",cwStringNullGuard(fn)); goto errLabel; } else { p->fn = mem::duplStr( fn ); p->info.srate = srate; p->info.bits = bits==0 ? sizeof(float)*kBitsPerByte : bits; p->info.chCnt = chCnt; p->info.frameCnt = 0; p->flags = kWriteAudioGutsFl + (bits==0 ? kWriteFloatFl : 0); // set the swap flags bool swapFl = cwIsFlag(p->info.flags,kWavAfFl) ? _cmWavSwapFl : _cmAifSwapFl; p->info.flags = cwEnaFlag( p->info.flags, kSwapAfFl, swapFl); p->info.flags = cwEnaFlag( p->info.flags, kSwapSamplesAfFl, swapFl); if((rc = _writeHdr(p)) != kOkRC ) goto errLabel; h.set(p); } errLabel: mem::release(fn); if( rc != kOkRC ) _destroy(p); return rc; } cw::rc_t cw::audiofile::close( handle_t& h ) { rc_t rc = kOkRC; if( !h.isValid() ) return rc; af_t* p = _handleToPtr(h); if((rc = _destroy(p)) != kOkRC ) return rc; h.clear(); return rc; } bool cw::audiofile::isOpen( handle_t h ) { if( !h.isValid() ) return false; return _handleToPtr(h)->fp != NULL; } bool cw::audiofile::isEOF( handle_t h ) { af_t* p = _handleToPtr(h); return (p->curFrmIdx >= p->info.frameCnt) || (p->fp==NULL) || feof(p->fp) ? true : false; } unsigned cw::audiofile::tell( handle_t h ) { af_t* p = _handleToPtr(h); return p->curFrmIdx; } cw::rc_t cw::audiofile::seek( handle_t h, unsigned frmIdx ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); if((rc = _seek(p,p->smpByteOffs + (frmIdx * p->info.chCnt * (p->info.bits/kBitsPerByte)), SEEK_SET)) != kOkRC ) return rc; p->curFrmIdx = frmIdx; return rc; } cw::rc_t cw::audiofile::readInt( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr ) { return _readInt( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); } cw::rc_t cw::audiofile::readFloat( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr ) { return _readFloat( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); } cw::rc_t cw::audiofile::readDouble( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr ) { return _readDouble( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); } cw::rc_t cw::audiofile::readSumInt( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr ) { return _readInt( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); } cw::rc_t cw::audiofile::readSumFloat( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr ) { return _readFloat( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); } cw::rc_t cw::audiofile::readSumDouble( handle_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr ) { return _readDouble( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); } cw::rc_t cw::audiofile::getInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getInt( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false ); } cw::rc_t cw::audiofile::getFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getFloat( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false ); } cw::rc_t cw::audiofile::getDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getDouble( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false); } cw::rc_t cw::audiofile::getSumInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getInt( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true ); } cw::rc_t cw::audiofile::getSumFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getFloat( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true ); } cw::rc_t cw::audiofile::getSumDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, info_t* afInfoPtr ) { return _getDouble( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true ); } cw::rc_t cw::audiofile::allocFloatBuf( const char* fn, float**& chBufRef, unsigned& chCntRef, unsigned& frmCntRef, info_t& afInfo, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt ) { rc_t rc; unsigned actualFrmCnt = 0; frmCntRef = 0; chCntRef = 0; if((rc = getInfo(fn, &afInfo )) != kOkRC ) goto errLabel; if( chCnt == 0 ) chCnt = afInfo.chCnt; else { if( chIdx + chCnt > afInfo.chCnt ) { cwLogError(kInvalidArgRC,"Requested channel indexes %i to %i exceeds available channel count %i.",chIdx,chIdx+chCnt-1,afInfo,chCnt); goto errLabel; } } if( frmCnt == 0 ) frmCnt = afInfo.frameCnt; if( begFrmIdx + frmCnt > afInfo.frameCnt ) { cwLogError(kInvalidArgRC,"Requested frames %i to %i exceeds available frame count %i.",begFrmIdx,begFrmIdx+frmCnt,afInfo.frameCnt); goto errLabel; } chBufRef = mem::allocZ< float* >(chCnt); for(unsigned i=0; i(frmCnt); if((rc = getFloat(fn, begFrmIdx, frmCnt, chIdx, chCnt, chBufRef, &actualFrmCnt, nullptr)) != kOkRC ) goto errLabel; frmCntRef = actualFrmCnt; chCntRef = chCnt; errLabel: if( rc != kOkRC ) cwLogError(rc,"Audio file allocFloat() failed."); return rc; } cw::rc_t cw::audiofile::freeFloatBuf( float** floatBuf, unsigned chCnt ) { for(unsigned i=0; iinfo.bits / kBitsPerByte; unsigned bufFrmCnt = 1024; unsigned bufByteCnt = bufFrmCnt * bytesPerSmp; unsigned ci; unsigned wrFrmCnt = 0; char buf[ bufByteCnt * chCnt ]; while( wrFrmCnt < frmCnt ) { unsigned n = std::min( frmCnt-wrFrmCnt, bufFrmCnt ); // interleave each channel into buf[] for(ci=0; ciinfo.bits == 8 ) { char* dbp = buf + ci; for(; sbp < sep; dbp+=chCnt ) *dbp = (char)*sbp++; } else { // if the samples do need to be byte swapped if( cwIsFlag(p->info.flags,kSwapSamplesAfFl) ) { switch( p->info.bits ) { case 16: { short* dbp = (short*)buf; for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp ) *dbp = _cmAfSwap16((short)*sbp); } break; case 24: { unsigned char* dbp = (unsigned char*)buf; for( dbp+=(ci*3); sbp < sep; dbp+=(3*chCnt), ++sbp) { unsigned char* s = (unsigned char*)sbp; dbp[0] = s[2]; dbp[1] = s[1]; dbp[2] = s[0]; } } break; case 32: { int* dbp = (int*)buf; for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp ) *dbp = _cmAfSwap32(*sbp); } break; default: { assert(0);} } } else // interleave without byte swapping { switch( p->info.bits ) { case 16: { short* dbp = (short*)buf; for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp ) *dbp = (short)*sbp; } break; case 24: { unsigned char* dbp = (unsigned char*)buf; for( dbp+=(ci*3); sbp < sep; dbp+=(3*chCnt), ++sbp) { unsigned char* s = (unsigned char*)sbp; dbp[0] = s[0]; dbp[1] = s[1]; dbp[2] = s[2]; } } break; case 32: { int* dbp = (int*)buf; for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp ) *dbp = *sbp; } break; default: { assert(0);} } // switch } // don't swap } // 8 bits } // ch // advance the source pointer index wrFrmCnt+=n; if( fwrite( buf, n*bytesPerSmp*chCnt, 1, p->fp ) != 1) { rc = cwLogError(kWriteFailRC,"Audio file write failed on '%s'.",cwStringNullGuard(p->fn)); break; } } // while p->info.frameCnt += wrFrmCnt; return rc; } cw::rc_t cw::audiofile::writeFloat( handle_t h, unsigned frmCnt, unsigned chCnt, const float* const* srcPtrPtr ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); if( p->flags & kWriteFloatFl ) rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); else { switch(p->info.bits) { case 8: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; case 16: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; case 24: assert(0); break; case 32: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; default: cwLogError(kInvalidArgRC,"Invalid bit depth:%i",p->info.bits); } } return rc; //return _writeRealSamples(h,frmCnt,chCnt,bufPtrPtr,sizeof(float)); } cw::rc_t cw::audiofile::writeDouble( handle_t h, unsigned frmCnt, unsigned chCnt, const double* const* srcPtrPtr ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); if( p->flags & kWriteFloatFl ) rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); else { switch(p->info.bits) { case 8: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; case 16: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; case 24: break; case 32: rc = _write_audio( p, frmCnt, chCnt, srcPtrPtr ); break; default: cwLogError(kInvalidArgRC,"Invalid bit depth:%i",p->info.bits); } } return rc; //return _writeRealSamples(h,frmCnt,chCnt,bufPtrPtr,sizeof(double)); } cw::rc_t cw::audiofile::writeFloatInterleaved( handle_t h, unsigned frmCnt, unsigned chCnt, const float* bufPtr ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); if((rc = _write_samples_to_file(p,sizeof(float),frmCnt*chCnt,bufPtr)) == kOkRC ) { p->info.frameCnt += frmCnt; } return rc; } cw::rc_t cw::audiofile::minMaxMean( handle_t h, unsigned chIdx, float* minPtr, float* maxPtr, float* meanPtr ) { assert( minPtr != NULL && maxPtr != NULL && meanPtr != NULL ); *minPtr = -FLT_MAX; *maxPtr = FLT_MAX; *meanPtr = 0; rc_t rc = kOkRC; af_t* p = _handleToPtr(h); unsigned orgFrmIdx = p->curFrmIdx; if((rc = seek(h,0)) != kOkRC ) return rc; *minPtr = FLT_MAX; *maxPtr = -FLT_MAX; unsigned bufN = 1024; float buf[ bufN ]; unsigned frmCnt = 0; unsigned actualFrmCnt; float* bufPtr[1] = { &buf[0] }; for(; frmCntinfo.frameCnt; frmCnt+=actualFrmCnt) { actualFrmCnt = 0; unsigned n = std::min( p->info.frameCnt-frmCnt, bufN ); if((rc = readFloat(h, n, chIdx, 1, bufPtr, &actualFrmCnt)) != kOkRC ) return rc; const float* sbp = buf; const float* sep = buf + actualFrmCnt; for(; sbp < sep; ++sbp ) { *meanPtr += *sbp; if( *minPtr > *sbp ) *minPtr = *sbp; if( *maxPtr < *sbp ) *maxPtr = *sbp; } } if( frmCnt > 0 ) *meanPtr /= frmCnt; else *minPtr = *maxPtr = 0; return seek( h, orgFrmIdx ); } cw::rc_t cw::audiofile::writeFileInt( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, const int* const* bufPtrPtr ) { rc_t rc; handle_t h; if(( rc = create(h,fn,srate,bits,chCnt)) != kOkRC ) { rc = writeInt( h, frmCnt, chCnt, bufPtrPtr ); close(h); } return rc; } cw::rc_t cw::audiofile::writeFileFloat( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, const float* const* bufPtrPtr ) { rc_t rc; handle_t h; if(( rc = create(h,fn,srate,bits,chCnt)) == kOkRC ) { rc = writeFloat( h, frmCnt, chCnt, bufPtrPtr ); close(h); } return rc; } cw::rc_t cw::audiofile::writeFileDouble( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, const double* const* bufPtrPtr ) { rc_t rc; handle_t h; if(( rc = create(h,fn,srate,bits,chCnt)) == kOkRC ) { rc = writeDouble( h, frmCnt, chCnt, bufPtrPtr ); close(h); } return rc; } cw::rc_t cw::audiofile::minMaxMeanFn( const char* fn, unsigned chIdx, float* minPtr, float* maxPtr, float* meanPtr ) { rc_t rc = kOkRC; handle_t h; if((rc = open(h,fn,nullptr)) == kOkRC ) { rc = minMaxMean( h, chIdx, minPtr, maxPtr, meanPtr ); close(h); } return rc; } const char* cw::audiofile::name( handle_t h ) { af_t* p = _handleToPtr(h); return p->fn; } unsigned cw::audiofile::channelCount( handle_t h ) { af_t* p = _handleToPtr(h); return p->info.chCnt; } double cw::audiofile::sampleRate( handle_t h ) { af_t* p = _handleToPtr(h); return p->info.srate; } cw::rc_t cw::audiofile::getInfo( const char* fn, info_t* infoPtr ) { rc_t rc = kOkRC; handle_t h; if((rc = open(h,fn,infoPtr)) == kOkRC ) close(h); return rc; } void cw::audiofile::printInfo( const info_t* infoPtr, log::handle_t logH ) { const char* typeStr = "AIFF"; const char* swapStr = ""; const char* aifcStr = ""; unsigned i; if( cwIsFlag(infoPtr->flags,kWavAfFl) ) typeStr = "WAV"; if( cwIsFlag(infoPtr->flags,kSwapAfFl) ) swapStr = "Swap:On"; if( cwIsFlag(infoPtr->flags,kAifcAfFl)) aifcStr = "AIFC"; cwLogPrintH(logH,"bits:%i chs:%i srate:%f frames:%i type:%s %s %s\n", infoPtr->bits, infoPtr->chCnt, infoPtr->srate, infoPtr->frameCnt, typeStr, swapStr, aifcStr ); for(i=0; imarkerCnt; ++i) cwLogPrintH(logH,"%i %i %s\n", infoPtr->markerArray[i].id, infoPtr->markerArray[i].frameIdx, infoPtr->markerArray[i].label); if( strlen(infoPtr->bextRecd.desc) ) cwLogPrintH(logH,"Bext Desc:%s\n",infoPtr->bextRecd.desc ); if( strlen(infoPtr->bextRecd.origin) ) cwLogPrintH(logH,"Bext Origin:%s\n",infoPtr->bextRecd.origin ); if( strlen(infoPtr->bextRecd.originRef) ) cwLogPrintH(logH,"Bext Origin Ref:%s\n",infoPtr->bextRecd.originRef ); if( strlen(infoPtr->bextRecd.originDate) ) cwLogPrintH(logH,"Bext Origin Date:%s\n",infoPtr->bextRecd.originDate ); if( strlen(infoPtr->bextRecd.originTime ) ) cwLogPrintH(logH,"Bext Origin Time:%s\n",infoPtr->bextRecd.originTime ); cwLogPrintH(logH,"Bext time high:%i low:%i 0x%x%x\n",infoPtr->bextRecd.timeRefHigh,infoPtr->bextRecd.timeRefLow, infoPtr->bextRecd.timeRefHigh,infoPtr->bextRecd.timeRefLow); } cw::rc_t cw::audiofile::reportInfo( const char* audioFn ) { rc_t rc; info_t info; if((rc = getInfo(audioFn,&info)) != kOkRC ) return rc; printInfo(&info,log::globalHandle()); return rc; } cw::rc_t cw::audiofile::report( handle_t h, log::handle_t logH, unsigned frmIdx, unsigned frmCnt ) { rc_t rc = kOkRC; af_t* p = _handleToPtr(h); cwLogPrintH(logH,"function cm_audio_file_test()\n"); cwLogPrintH(logH,"#{\n"); printInfo(&p->info,logH); cwLogPrintH(logH,"#}\n"); if( frmCnt == kInvalidCnt ) frmCnt = p->info.frameCnt; float buf[ p->info.chCnt * frmCnt ]; float* bufPtr[p->info.chCnt]; unsigned i,j,cmtFrmCnt=0; for(i=0; iinfo.chCnt; ++i) bufPtr[i] = buf + (i*frmCnt); if((rc = seek(h,frmIdx)) != kOkRC ) return rc; if((rc= readFloat(h,frmCnt,0,p->info.chCnt,bufPtr,&cmtFrmCnt )) != kOkRC) return rc; cwLogPrintH(logH,"m = [\n"); for(i=0; iinfo.chCnt; ++j) cwLogPrintH(logH,"%f ", bufPtr[j][i] ); cwLogPrintH(logH,"\n"); } cwLogPrintH(logH,"];\nplot(m)\nendfunction\n"); return rc; } cw::rc_t cw::audiofile::reportFn( const char* fn, log::handle_t logH, unsigned frmIdx, unsigned frmCnt ) { rc_t rc; handle_t h; if((rc = open(h,fn,nullptr)) == kOkRC ) { rc = report(h,logH,frmIdx,frmCnt); close(h); } return rc; } cw::rc_t cw::audiofile::setSrate( const char* fn, unsigned srate ) { rc_t rc = kOkRC; af_t af; af_t* p = ⁡ memset(&af,0,sizeof(af)); if((rc = _open(p, fn, "r+b")) != kOkRC ) goto errLabel; if( p->info.srate != srate ) { // change the sample rate p->info.srate = srate; // write the file header if((rc = _writeHdr(p)) != kOkRC ) goto errLabel; } errLabel: if( p->fp != NULL ) fclose(p->fp); return rc; } /// [example] cw::rc_t cw::audiofile::test( const object_t* cfg ) { rc_t rc = kOkRC; const object_t* o; if((o = cfg->find("rpt")) != nullptr ) rc = _testReport(o); if((o = cfg->find("mix")) != nullptr ) rc = _testReport(o); /* switch( argc ) { case 3: //_test(argv[2],&ctx->rpt); reportFn(argv[2],0,0,&ctx->rpt); break; case 4: { errno = 0; long srate = strtol(argv[3], NULL, 10); if( srate == 0 && errno != 0 ) rc = cwLogError(kInvalidArgRC,"Invalid sample rate argument to test()."); else setSrate(argv[2],srate); } break; case 8: { errno = 0; double srate = strtod(argv[3],NULL); unsigned bits = strtol(argv[4],NULL,10); double hz = strtod(argv[5],NULL); double gain = strtod(argv[6],NULL); double secs = strtod(argv[7],NULL); if( errno != 0 ) rc = cwLogError(kInvalidArgRC,"Invalid arg. to test()."); sine( ctx, argv[2], srate, bits, hz, gain, secs ); } break; default: rc = cwLogError(kInvalidArgRC,"Invalid argument count to test()."); break; } */ return rc; } /// [example]