#include "cmGlobal.h" #include "cmFloatTypes.h" #include "cmComplexTypes.h" #include "cmRpt.h" #include "cmErr.h" #include "cmCtx.h" #include "cmMem.h" #include "cmMallocDebug.h" #include "cmLinkedHeap.h" #include "cmSymTbl.h" #include "cmAudioFile.h" #include "cmMidi.h" #include "cmFile.h" #include "cmMath.h" #include "cmProcObj.h" #include "cmProcTemplateMain.h" #include "cmProc.h" #include "cmProc2.h" #include "cmVectOps.h" #include "cmOnset.h" typedef struct { cmErr_t err; cmOnsetCfg_t cfg; cmCtx* ctxPtr; cmAudioFileRd* afRdPtr; cmPvAnl* pvocPtr; cmAudioFileH_t afH; // output audio file cmFileH_t txH; // output text file unsigned frmCnt; // spectral frame count cmReal_t* sfV; // sfV[frmCnt] spectral flux vector cmReal_t* dfV; // dfV[frmCnt] onset function vector cmAudioFileInfo_t afInfo; unsigned fftSmpCnt; unsigned hopSmpCnt; unsigned binCnt; } _cmOn_t; cmOnH_t cmOnsetNullHandle = cmSTATIC_NULL_HANDLE; _cmOn_t* _cmOnsetHandleToPtr( cmOnH_t h ) { _cmOn_t* p = (_cmOn_t*)h.h; assert(p!=NULL); return p; } cmOnRC_t _cmOnsetFinalize( _cmOn_t* p ) { cmOnRC_t rc = kOkOnRC; if( cmPvAnlFree(&p->pvocPtr) != cmOkRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC,"Phase voocoder free failed."); goto errLabel; } if( cmAudioFileRdFree(&p->afRdPtr) != cmOkRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC,"Audio file reader failed."); goto errLabel; } if( cmCtxFree(&p->ctxPtr) != cmOkRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC,"Context proc failed."); goto errLabel; } cmMemPtrFree(&p->sfV); cmMemPtrFree(&p->dfV); cmMemPtrFree(&p); errLabel: return rc; } cmOnRC_t cmOnsetInitialize( cmCtx_t* c, cmOnH_t* hp ) { cmOnRC_t rc; if((rc = cmOnsetFinalize(hp)) != kOkOnRC ) return rc; _cmOn_t* p = cmMemAllocZ(_cmOn_t,1); cmErrSetup(&p->err,&c->rpt,"Onset"); // create the proc context object if((p->ctxPtr = cmCtxAlloc(NULL,&c->rpt,cmLHeapNullHandle,cmSymTblNullHandle)) == NULL ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC, "The ctx compoenent allocation failed."); goto errLabel; } // create the audio file reader if((p->afRdPtr = cmAudioFileRdAlloc( p->ctxPtr, NULL, 0, NULL, cmInvalidIdx, 0, cmInvalidIdx )) == NULL ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC, "The audio file reader allocation failed."); goto errLabel; } // create the phase vocoder if((p->pvocPtr = cmPvAnlAlloc( p->ctxPtr, NULL, 0, 0, 0, 0, 0 )) == NULL ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC,"The phase vocoder allocation failed."); goto errLabel; } hp->h = p; errLabel: if( rc != kOkOnRC ) _cmOnsetFinalize(p); return rc; } cmOnRC_t cmOnsetFinalize( cmOnH_t* hp ) { cmOnRC_t rc = kOkOnRC; if( hp==NULL || cmOnsetIsValid(*hp)==false ) return kOkOnRC; _cmOn_t* p = _cmOnsetHandleToPtr(*hp); rc = _cmOnsetFinalize(p); return rc; } bool cmOnsetIsValid( cmOnH_t h ) { return h.h!=NULL; } cmOnRC_t _cmOnsetExec( _cmOn_t* p, unsigned chCnt ) { cmOnRC_t rc = kOkOnRC; int fi = 0; unsigned binCnt = p->binCnt; //p->pvocPtr->binCnt; cmReal_t mag0V[ binCnt ]; cmSample_t out0V[ p->hopSmpCnt ]; cmSample_t out1V[ p->hopSmpCnt ]; cmSample_t* aoutV[chCnt]; double prog = 0.1; cmReal_t b0 = 1; cmReal_t b[] = {1 }; cmReal_t a[] = {p->cfg.filtCoeff}; cmReal_t d[] = {0}; cmReal_t maxVal = 0; if( chCnt > 0 ) aoutV[0] = out0V; if( chCnt > 1 ) aoutV[1] = out1V; cmVOR_Zero(mag0V,binCnt); // for each frame - read the next block of audio for(; fifrmCnt && cmAudioFileRdRead(p->afRdPtr) != cmEofRC; ++fi ) { // calc the spectrum while( cmPvAnlExec(p->pvocPtr, p->afRdPtr->outV, p->afRdPtr->outN ) ) { unsigned i; // calc the spectral flux into sfV[fi]. cmReal_t sf = 0; for(i=0; ipvocPtr->magV[i] * 2.0; if( m1 > maxVal ) maxVal = m1; cmReal_t dif = m1 - mag0V[i]; // calc. spectral flux if( dif > 0 ) sf += dif; // accum. flux mag0V[i] = m1; // store magn. for next frame } p->sfV[fi] = sf; // filter the spectral flux cmVOR_Filter( p->sfV + fi, 1, &sf, 1, b0, b, a, d, 1 ); if( fi >= prog*p->frmCnt ) { cmRptPrintf(p->err.rpt,"%i ",lround(prog*10)); prog += 0.1; } } } p->frmCnt = fi; // normalize the spectral flux vector cmReal_t mean = cmVOR_Mean(p->sfV,p->frmCnt); cmReal_t stdDev = sqrt(cmVOR_Variance(p->sfV, p->frmCnt, &mean )); cmVOR_SubVS(p->sfV,p->frmCnt,mean); cmVOR_DivVS(p->sfV,p->frmCnt,stdDev); cmReal_t maxSf = cmVOR_Max(p->sfV,p->frmCnt,1); prog = 0.1; printf("max:%f ",maxVal); printf("mean:%f max:%f sd:%f\n",mean,maxSf,stdDev); // Pick peaks from the onset detection function using a subset // of the rules from Dixon, 2006, Onset Detection Revisited. // locate the onsets and store them in dfV[] for(fi=0; fifrmCnt; ++fi) { int bi = cmMax(0, fi - p->cfg.wndFrmCnt); // begin wnd index int ei = cmMin(p->frmCnt, fi + p->cfg.wndFrmCnt); // end wnd index int nn = ei - bi; // wnd frm cnt int wi = fi < p->cfg.wndFrmCnt ? fi : p->cfg.wndFrmCnt; // cur wnd index // initialize the out cmVOS_Fill(out1V,p->hopSmpCnt,p->sfV[fi]/maxSf); cmVOS_Zero(out0V,p->hopSmpCnt); p->dfV[fi] = 0; // if cur index is a peak in the window if( cmVOR_MaxIndex(p->sfV + bi, nn, 1 ) == wi ) { // calc an extended window going backwards in time bi = cmMax(0, fi - p->cfg.wndFrmCnt * p->cfg.preWndMult ); nn = ei - bi; // if the cur value is greater than the mean of the extended window plus a threshold if( p->sfV[fi] > cmVOR_Mean(p->sfV + bi, nn ) + p->cfg.threshold ) { p->dfV[fi] = p->sfV[fi]; out0V[ p->hopSmpCnt/2 ] = p->sfV[fi]/maxSf; unsigned smpIdx = fi * p->hopSmpCnt + p->hopSmpCnt/2; // write the output text file if( cmFilePrintf(p->txH, "[ %i, %f ]\n", smpIdx, p->sfV[fi] ) != kOkFileRC ) { rc = cmErrMsg(&p->err,kDspTextFileFailOnRC,"Text output write to '%s' failed.", cmFileName(p->txH)); goto errLabel; } } } // write the output audio file if( cmAudioFileWriteFloat(p->afH, p->hopSmpCnt, chCnt, aoutV ) != kOkAfRC ) { rc = cmErrMsg(&p->err,kDspAudioFileFailOnRC,"Audio file write to '%s' failed.",cmAudioFileName(p->afH)); goto errLabel; } if( fi >= prog*p->frmCnt ) { cmRptPrintf(p->err.rpt,"%i ",lround(prog*10)); prog += 0.1; } } errLabel: return rc; } cmOnRC_t cmOnsetExec( cmOnH_t h, const cmOnsetCfg_t* cfg, const cmChar_t* inAudioFn, const cmChar_t* outAudioFn, const cmChar_t* outTextFn ) { cmOnRC_t rc = kOkOnRC; _cmOn_t* p = _cmOnsetHandleToPtr(h); unsigned audioOutChCnt = 2; p->cfg = *cfg; // get the audio file header information if( cmAudioFileGetInfo(inAudioFn, &p->afInfo, p->err.rpt ) != kOkAfRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC,"The audio file open failed on '%s'.",cmStringNullGuard(inAudioFn)); goto errLabel; } p->fftSmpCnt = cmNearPowerOfTwo( (unsigned)floor( p->cfg.wndMs * p->afInfo.srate / 1000.0 ) ); p->hopSmpCnt = p->fftSmpCnt / p->cfg.hopFact; p->binCnt = cmMin(p->fftSmpCnt/2 + 1, floor(p->cfg.maxFrqHz / (p->afInfo.srate / p->fftSmpCnt))); p->frmCnt = (p->afInfo.frameCnt - p->fftSmpCnt) / p->hopSmpCnt; p->sfV = cmMemResizeZ(cmReal_t,p->sfV,p->frmCnt); p->dfV = cmMemResizeZ(cmReal_t,p->dfV,p->frmCnt); // initialize the audio file reader if( cmAudioFileRdOpen( p->afRdPtr, p->hopSmpCnt, inAudioFn, p->cfg.audioChIdx, 0, cmInvalidIdx ) != cmOkRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC, "The audio file reader open failed."); goto errLabel; } // initialize the phase vocoder if( cmPvAnlInit( p->pvocPtr, p->hopSmpCnt, p->afInfo.srate, p->fftSmpCnt, p->hopSmpCnt, kNoCalcHzPvaFl ) != cmOkRC ) { rc = cmErrMsg(&p->err,kDspProcFailOnRC," The phase vocoder initialization failed."); goto errLabel; } // initalize the audio output file if( outAudioFn != NULL ) if( cmAudioFileIsValid( p->afH = cmAudioFileNewCreate( outAudioFn, p->afInfo.srate, p->afInfo.bits, audioOutChCnt, NULL, p->err.rpt)) == false ) { rc = cmErrMsg(&p->err,kDspAudioFileFailOnRC, "The audio output file '%s' could not be opened.", outAudioFn); goto errLabel; } // open the text output file if( outTextFn != NULL ) { if( cmFileOpen( &p->txH, outTextFn, kWriteFileFl, p->err.rpt ) != kOkFileRC ) { rc = cmErrMsg(&p->err,kDspTextFileFailOnRC, "The text output file '%s' could not be opened.",outTextFn); goto errLabel; } cmFilePrint(p->txH,"{\n onsetArray : \n[\n"); } rc = _cmOnsetExec(p,audioOutChCnt); errLabel: // close the output audio file if( cmAudioFileDelete(&p->afH) != kOkAfRC ) rc = cmErrMsg(&p->err,kDspAudioFileFailOnRC,"The audio file close failed."); // close the text file if( cmFileIsValid(p->txH) ) { cmFilePrint(p->txH,"]\n}\n"); if( cmFileClose(&p->txH) != kOkFileRC ) rc = cmErrMsg(&p->err,kDspTextFileFailOnRC,"The text file close failed."); } return rc; } cmOnRC_t cmOnsetTest( cmCtx_t* c ) { cmOnsetCfg_t cfg; cmOnH_t h = cmOnsetNullHandle; cmOnRC_t rc = kOkOnRC; const cmChar_t* inAudioFn = "/home/kevin/temp/onset0.wav"; const cmChar_t* outAudioFn = "/home/kevin/temp/mas/mas0.aif"; const cmChar_t* outTextFn = "/home/kevin/temp/mas/mas0.txt"; cfg.wndMs = 42; cfg.hopFact = 4; cfg.audioChIdx = 0; cfg.wndFrmCnt = 3; cfg.preWndMult = 3; cfg.threshold = 0.6; cfg.maxFrqHz = 24000; cfg.filtCoeff = -0.7; if((rc = cmOnsetInitialize(c,&h)) != kOkOnRC ) goto errLabel; rc = cmOnsetExec(h,&cfg,inAudioFn,outAudioFn,outTextFn); errLabel: cmOnsetFinalize(&h); return rc; }