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d1b77e9f7e
libcm/app/cmOnset.c

493 行
13 KiB
C
原始文件 Blame 歷史記錄

#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 "cmTime.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
cmReal_t maxSf;
cmAudioFileInfo_t afInfo;
unsigned fftSmpCnt;
unsigned hopSmpCnt;
unsigned binCnt;
unsigned medFiltFrmCnt;
unsigned preDelaySmpCnt;
} _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 )
{
cmOnRC_t rc = kOkOnRC;
int fi = 0;
unsigned binCnt = p->binCnt; //p->pvocPtr->binCnt;
cmReal_t mag0V[ binCnt ];
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;
cmVOR_Zero(mag0V,binCnt);
// for each frame - read the next block of audio
for(; fi<p->frmCnt && cmAudioFileRdRead(p->afRdPtr) != cmEofRC; ++fi )
{
// calc the spectrum
if( 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; i<binCnt; ++i)
{
cmReal_t m1 = p->pvocPtr->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
switch( p->cfg.filterId)
{
case kNoneFiltId:
break;
case kSmoothFiltId:
cmVOR_Filter( p->sfV + fi, 1, &sf, 1, b0, b, a, d, 1 );
break;
case kMedianFiltId:
{
cmReal_t* mfb = p->sfV + cmMax(0,fi-17);
if( mfb < p->sfV-3 )
p->sfV[fi] = cmVOR_Median(mfb,p->sfV-mfb);
}
break;
default:
{ assert(0); }
}
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 ));
unsigned detectCnt = 0;
cmVOR_SubVS(p->sfV,p->frmCnt,mean);
cmVOR_DivVS(p->sfV,p->frmCnt,stdDev);
p->maxSf = cmVOR_Max(p->sfV,p->frmCnt,1);
prog = 0.1;
cmRptPrintf(p->err.rpt,"magn. max:%f flux mean:%f max:%f sd:%f\n",maxVal,mean,p->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; fi<p->frmCnt; ++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
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];
++detectCnt;
}
}
if( fi >= prog*p->frmCnt )
{
cmRptPrintf(p->err.rpt,"%i ",lround(prog*10));
prog += 0.1;
}
}
cmRptPrintf(p->err.rpt,"Detect Count:%i\n",detectCnt);
return rc;
}
cmOnRC_t cmOnsetProc( cmOnH_t h, const cmOnsetCfg_t* cfg, const cmChar_t* inAudioFn )
{
cmOnRC_t rc = kOkOnRC;
_cmOn_t* p = _cmOnsetHandleToPtr(h);
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);
p->medFiltFrmCnt = cmMax(3,floor(cfg->medFiltWndMs * p->afInfo.srate / (1000.0 * p->hopSmpCnt)));
p->preDelaySmpCnt= floor(cfg->preDelayMs * p->afInfo.srate / 1000.0);
cmRptPrintf(p->err.rpt,"wndFrmCnt:%i preWndMult:%f thresh:%f maxHz:%f filtCoeff:%f filterId:%i preDelayMs:%f\n",cfg->wndFrmCnt,cfg->preWndMult,cfg->threshold,cfg->maxFrqHz,cfg->filtCoeff,cfg->medFiltWndMs,cfg->filterId,cfg->preDelayMs );
cmRptPrintf(p->err.rpt,"Analysis Hop Duration: %8.2f ms %i smp\n",(double)p->hopSmpCnt*1000/p->afInfo.srate,p->hopSmpCnt);
cmRptPrintf(p->err.rpt,"Median Filter Window: %8.2f ms %i frames\n",cfg->medFiltWndMs,p->medFiltFrmCnt);
cmRptPrintf(p->err.rpt,"Detection Pre-delay: %8.2f ms %i smp\n",cfg->preDelayMs, p->preDelaySmpCnt);
// initialize the audio file reader
if( cmAudioFileRdOpen( p->afRdPtr, p->hopSmpCnt, inAudioFn, p->cfg.audioChIdx, 0, 0 ) != 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;
}
rc = _cmOnsetExec(p);
errLabel:
return rc;
}
unsigned cmOnsetCount( cmOnH_t h )
{
_cmOn_t* p = _cmOnsetHandleToPtr(h);
unsigned i;
unsigned n = 0;
for(i=0; i<p->frmCnt; ++i)
if( p->dfV[i] > 0 )
++n;
return n;
}
unsigned cmOnsetSampleIndex( cmOnH_t h, unsigned idx )
{
_cmOn_t* p = _cmOnsetHandleToPtr(h);
unsigned i;
unsigned n = 0;
for(i=0; i<p->frmCnt; ++i)
if( p->dfV[i] > 0 )
{
if( n == idx )
{
unsigned r = i * p->hopSmpCnt;
if( r > p->preDelaySmpCnt )
return r-p->preDelaySmpCnt;
return 0;
}
++n;
}
return cmInvalidIdx;
}
unsigned cmOnsetHopSampleCount( cmOnH_t h )
{
_cmOn_t* p = _cmOnsetHandleToPtr(h);
return p->hopSmpCnt;
}
cmOnRC_t cmOnsetWrite( cmOnH_t h, const cmChar_t* outAudioFn, const cmChar_t* outTextFn)
{
enum { kChCnt = 2 };
cmOnRC_t rc = kOkOnRC;
_cmOn_t* p = _cmOnsetHandleToPtr(h);
cmSample_t out0V[ p->hopSmpCnt ];
cmSample_t out1V[ p->hopSmpCnt ];
cmSample_t* aoutV[kChCnt];
unsigned pdn = 0;
aoutV[0] = out0V;
aoutV[1] = out1V;
// initalize the audio output file
if( outAudioFn != NULL )
if( cmAudioFileIsValid( p->afH = cmAudioFileNewCreate( outAudioFn, p->afInfo.srate, p->afInfo.bits, kChCnt, 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");
}
unsigned fi;
for(fi=0; fi<p->frmCnt; ++fi)
{
// count of samples to write to the audio output file
unsigned osn = p->hopSmpCnt;
// audio channel 1 is filled with the spectral flux
// initialize the out
cmVOS_Fill(out1V,p->hopSmpCnt,p->sfV[fi]/p->maxSf);
cmVOS_Zero(out0V,p->hopSmpCnt);
if( p->dfV[fi] > 0 )
{
// audio channel 0 is set with the detection indicators
unsigned smpIdx = fi * p->hopSmpCnt + p->hopSmpCnt/2;
out0V[ p->hopSmpCnt/2 ] = p->sfV[fi]/p->maxSf;
// if the pre-delay is still active
if( pdn < p->preDelaySmpCnt )
{
osn = 0;
pdn += p->hopSmpCnt;
if( pdn > p->preDelaySmpCnt )
osn = pdn - p->preDelaySmpCnt;
}
// write the output text file
if( cmFileIsValid(p->txH) )
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( osn > 0 && cmAudioFileIsValid(p->afH) )
{
if( cmAudioFileWriteFloat(p->afH, osn, kChCnt, aoutV ) != kOkAfRC )
{
rc = cmErrMsg(&p->err,kDspAudioFileFailOnRC,"Audio file write to '%s' failed.",cmAudioFileName(p->afH));
goto 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.");
}
errLabel:
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/media/audio/20110723-Kriesberg/Audio Files/Piano 3_15.wav";
const cmChar_t* outAudioFn = "/home/kevin/temp/ons/ons0.aif";
const cmChar_t* outTextFn = "/home/kevin/temp/ons/ons0.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;
cfg.medFiltWndMs = 50;
cfg.filterId = kMedianFiltId;
cfg.preDelayMs = 20;
if((rc = cmOnsetInitialize(c,&h)) != kOkOnRC )
goto errLabel;
if((rc = cmOnsetProc(h,&cfg,inAudioFn)) == kOkOnRC )
cmOnsetWrite(h,outAudioFn,outTextFn);
errLabel:
cmOnsetFinalize(&h);
return rc;
}
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