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- #ifndef cmProc3_h
- #define cmProc3_h
-
- #ifdef __cplusplus
- extern "C" {
- #endif
-
- typedef struct
- {
- double wi;
- double xi;
- int yn;
- cmSample_t* y;
- int yii;
- int yoi;
- int ynn;
-
- } cmPitchShiftOsc_t;
-
-
- typedef struct
- {
- cmObj obj;
- unsigned procSmpCnt;
- double srate;
-
- int outN; // procSmpCnt
- int wn; //
- int xn; //
- int bn; //
- cmSample_t* b; // b[bn]
- cmSample_t* x; // x[xn]
- cmSample_t* wnd; // wnd[wn]
- cmSample_t* outV; // outV[outN];
- int xni; //
- bool cubeFl; //
- cmPitchShiftOsc_t osc[2]; //
-
-
- } cmPitchShift;
-
- cmPitchShift* cmPitchShiftAlloc( cmCtx* c, cmPitchShift* p, unsigned procSmpCnt, cmReal_t srate );
- cmRC_t cmPitchShiftFree( cmPitchShift** pp );
- cmRC_t cmPitchShiftInit( cmPitchShift* p, unsigned procSmpCnt, cmReal_t srate );
- cmRC_t cmPitchShiftFinal(cmPitchShift* p );
- cmRC_t cmPitchShiftExec( cmPitchShift* p, const cmSample_t* x, cmSample_t* y, unsigned n, double shiftRatio, bool bypassFl );
-
- //=======================================================================================================================
-
- typedef struct
- {
- double xi; // index into xV[]
- double wi; // index into wV[]
- cmSample_t u; // cross-fade window polarity
- } cmLoopRecdOsc;
-
- typedef struct
- {
- cmLoopRecdOsc osc[2]; //
- cmSample_t* xV; // xV[ xN ]
- int xN; // maxRecdSmpCnt
- int xfN; // cross-fade sample count
- int xii; // xV[] recording input index
- cmSample_t* wV; // wV[ xN ] window function (actually contains xii values after recording)
- } cmLoopRecdBuf;
-
- typedef struct
- {
- cmObj obj;
- cmSample_t* bufMem;
- unsigned maxRecdSmpCnt;
- cmLoopRecdBuf* bufArray;
- unsigned bufArrayCnt;
- cmSample_t* outV;
- unsigned outN;
- unsigned procSmpCnt;
- unsigned xfadeSmpCnt;
- unsigned recdBufIdx;
- unsigned playBufIdx;
- bool recdFl;
- bool playFl;
-
- } cmLoopRecord;
-
- cmLoopRecord* cmLoopRecordAlloc( cmCtx* c, cmLoopRecord* p, unsigned procSmpCnt, unsigned maxRecdSmpCnt, unsigned xfadeSmpCnt );
- cmRC_t cmLoopRecordFree( cmLoopRecord** pp );
- cmRC_t cmLoopRecordInit( cmLoopRecord* p, unsigned procSmpCnt, unsigned maxRecdSmpCnt, unsigned xfadeSmpCnt );
- cmRC_t cmLoopRecordFinal( cmLoopRecord* p );
- // rgain=recorder output gain, pgain=pass through gain
- cmRC_t cmLoopRecordExec( cmLoopRecord* p, const cmSample_t* x, cmSample_t* y, unsigned xn, bool bypassFl, bool recdFl, bool playFl, double ratio, double pgain, double rgain );
-
-
- //=======================================================================================================================
- typedef struct
- {
- cmObj obj;
- unsigned rmsN;
- cmSample_t* rmsV; // rmsV[rmsN] previous rmsN values. rmsV[rmsN-1] == rms
- cmSample_t rms; // RMS of last procSmpCnt samples
- unsigned wndN;
- cmSample_t* wndV;
- cmSample_t mean;
- cmSample_t d0;
- unsigned durSmpCnt; // duration of the current gate polarity in samples
- bool gateFl;
- bool deltaFl;
- cmReal_t onThreshPct;
- cmReal_t onThreshDb;
- cmReal_t offThreshDb; //
- } cmGateDetect;
-
- cmGateDetect* cmGateDetectAlloc( cmCtx* c, cmGateDetect* p, unsigned procSmpCnt, cmReal_t onThreshPct, cmReal_t onThreshDb, cmReal_t offThreshDb );
- cmRC_t cmGateDetectFree( cmGateDetect** p );
- cmRC_t cmGateDetectInit( cmGateDetect* p, unsigned procSmpCnt, cmReal_t onThreshPct, cmReal_t onThreshDb, cmReal_t offThreshDb );
- cmRC_t cmGateDetectFinal(cmGateDetect* p );
- cmRC_t cmGateDetectExec( cmGateDetect* p, const cmSample_t* x, unsigned xn );
-
-
- //=======================================================================================================================
- typedef struct
- {
- unsigned medCnt; // length of the median filter
- unsigned avgCnt; // length of the (rms - med) moving avg. filter
- unsigned suprCnt; // length of the supression window
- unsigned offCnt; // length of the offset detection window
- cmReal_t suprCoeff; // supression signal shape coeff
- cmReal_t onThreshDb; // onset threshold
- cmReal_t offThreshDb; // offset threshold
- } cmGateDetectParams;
-
- typedef struct
- {
- cmObj obj;
- cmGateDetectParams args;
-
- cmSample_t* medV; // medV[medCnt]
- unsigned medIdx;
- cmSample_t* avgV; // avgV[avgCnt]
- unsigned avgIdx;
- cmSample_t* fcofV; // fcofV[medCnt]
- cmSample_t* fdlyV; // fdlyV[medCnt]
- cmSample_t* suprV; // suprV[suprCnt]
- unsigned suprIdx;
- cmSample_t* pkV; // pkV[3]
- cmSample_t* offV; // offV[offCnt]
- unsigned offIdx;
-
- unsigned pkFl; //
- bool gateFl; // set by onset, cleared by offset
- bool onFl; // set if an onset was detected
- bool offFl; // set if an offset was detected
-
- cmReal_t onThresh;
- cmReal_t offThresh;
-
- cmSample_t rms; // RMS
- cmSample_t med; // median RMS over last medCnt exec's
- cmSample_t dif; // max(0, RMS - median_RMS)
- cmSample_t avg; // avg dif's over last avgCnt exec's
- cmSample_t ons; // dif - avg
- cmSample_t flt; // filtered(ons)
- cmSample_t sup; // flt w/ suppression
- } cmGateDetect2;
-
-
- cmGateDetect2* cmGateDetectAlloc2( cmCtx* c, cmGateDetect2* p, unsigned procSmpCnt, const cmGateDetectParams* args );
- cmRC_t cmGateDetectFree2( cmGateDetect2** p );
- cmRC_t cmGateDetectInit2( cmGateDetect2* p, unsigned procSmpCnt, const cmGateDetectParams* args );
- cmRC_t cmGateDetectFinal2(cmGateDetect2* p );
- cmRC_t cmGateDetectExec2( cmGateDetect2* p, const cmSample_t* x, unsigned xn );
- void cmGateDetectSetOnThreshDb2( cmGateDetect2* p, cmReal_t db );
- void cmGateDetectSetOffThreshDb2( cmGateDetect2* p, cmReal_t db );
-
- //=======================================================================================================================
-
- //
- // Calculate a set of automatic gain adjustments for a set of audio channels.
- //
- // 1) Call cmAutoGainInit() to reset the object.
- // 2) Call cmAutoGainStartCh() and provide an id to identify the channel.
- // 3) Call cmAutoGainProcCh() with audio from the channel identified in 2)
- // 4) Repeat 2) and 3) for for all channels.
- // 5) Call cmAutoGainCalcGains() to set the value of cmAutoGainCh.gain.
- //
- // The gain coefficents are set to balance the overall gain.
- // (i.e. Loud channels are decreased and quiet channels are increased.)
-
- typedef struct
- {
- unsigned id; // channel id
- cmReal_t gain; // gain adjustment coefficient
- unsigned onCnt; // count of onsets detected
- unsigned offCnt; // count of offsets detected
- cmReal_t gateMaxAvg; // average of the max values for each detected event
- } cmAutoGainCh;
-
- typedef struct
- {
- cmObj obj;
- cmShiftBuf* sbp;
- cmGateDetect2* gdp;
- cmAutoGainCh* chArray; //
- unsigned chCnt;
-
-
- cmAutoGainCh* chp;
- unsigned gateCnt;
- cmReal_t gateSum;
- cmReal_t gateMax;
- cmReal_t minRms;
-
- } cmAutoGain;
-
- cmAutoGain* cmAutoGainAlloc( cmCtx* c, cmAutoGain* p, unsigned procSmpCnt, cmReal_t srate, cmReal_t hopMs, unsigned chCnt, const cmGateDetectParams* gd_args );
- cmRC_t cmAutoGainFree( cmAutoGain** p );
- cmRC_t cmAutoGainInit( cmAutoGain* p, unsigned procSmpCnt, cmReal_t srate, cmReal_t hopMs, unsigned chCnt, const cmGateDetectParams* gd_args );
- cmRC_t cmAutoGainFinal( cmAutoGain* p );
-
- // Notify the object that the following calls to cmAutoGainProcCh()
- // should be associed with the channel 'id'.
- cmRC_t cmAutoGainStartCh( cmAutoGain* p, unsigned id );
-
- // Examine the signal arriving from the channel specified in the previous
- // call to cmAutoGainProcCh() and determine the max RMS value for each
- // event contained in the signal.
- cmRC_t cmAutoGainProcCh( cmAutoGain* p, const cmSample_t* x, unsigned xn );
-
- // Calculate the cmAutoGainCh.gain coefficient for each channel.
- cmRC_t cmAutoGainCalcGains( cmAutoGain* p );
-
- void cmAutoGainPrint( cmAutoGain* p, cmRpt_t* rpt );
-
- //=======================================================================================================================
- typedef struct
- {
- unsigned ch;
- unsigned ssi;
- const cmChar_t* pitchStr;
- unsigned midi;
- cmReal_t gain;
- bool nsFl; // noise shaper channel
- bool cdFl; // chord detector channel
- } cmChCfgCh;
-
- typedef struct
- {
- cmObj obj;
- cmChCfgCh* chArray;
- unsigned chCnt;
- unsigned nsChCnt; // count of noise-shaper channels
- const cmChar_t* fn;
- cmJsonH_t jsH;
- cmJsonNode_t* cap;
- } cmChCfg;
-
- cmChCfg* cmChCfgAlloc( cmCtx* c, cmChCfg* p, cmCtx_t* ctx, const cmChar_t* fn );
- cmRC_t cmChCfgFree( cmChCfg** pp );
- cmRC_t cmChCfgInit( cmChCfg* p, cmCtx_t* ctx, const cmChar_t* fn );
- cmRC_t cmChCfgFinal( cmChCfg* p );
- cmRC_t cmChCfgWrite( cmChCfg* p );
- void cmChCfgPrint( cmChCfg* p, cmRpt_t* rpt );
- unsigned cmChCfgChannelCount( cmCtx_t* ctx, const cmChar_t* fn, unsigned* nsChCntPtr );
- unsigned cmChCfgChannelIndex( cmCtx_t* ctx, const cmChar_t* fn, unsigned chIdx );
-
- //=======================================================================================================================
-
- typedef struct
- {
- bool readyFl; // This channel has received an offset since it was last a candidate.
- bool candFl; // This channel is a chord candidate
- unsigned candSmpTime; // Time that this channel became a candidate
- cmReal_t candRMS; // RMS when this channel became a candidate
- bool chordFl; // This channel is part of the current chord
- bool gateFl; // Previous gate state
- } cmChordDetectCh;
-
- typedef struct
- {
- cmObj obj;
- unsigned maxTimeSpanSmpCnt; // maximum time between onsets of first and last note of chord
- unsigned minNotesPerChord; // the min. number of notes required to form a chord
- unsigned chCnt; // count of channels
- cmChordDetectCh* chArray; // channel state array
- bool detectFl; // true when a new chord has been detected
- unsigned timeSmp; // current time
- cmReal_t srate;
- } cmChordDetect;
-
- cmChordDetect* cmChordDetectAlloc( cmCtx*c, cmChordDetect* p, cmReal_t srate, unsigned chCnt, cmReal_t maxTimeSpanMs, unsigned minNotesPerChord );
- cmRC_t cmChordDetectFree( cmChordDetect** pp );
- cmRC_t cmChordDetectInit( cmChordDetect* p, cmReal_t srate, unsigned chCnt, cmReal_t maxTimeSpanMs, unsigned minNotesPerChord );
- cmRC_t cmChordDetectFinal( cmChordDetect* p );
- cmRC_t cmChordDetectExec( cmChordDetect* p, unsigned procSmpCnt, const bool* gateV, const cmReal_t* rmsV, unsigned chCnt );
- cmRC_t cmChordDetectSetSpanMs( cmChordDetect* p, cmReal_t maxTimeSpanMs );
-
- //=======================================================================================================================
- // This object is not really a cross-fader. It is really just a multichannel
- // fader - which just calculates the fade gain but does not actually apply it
- // to the audio signal - unless you use cmXfaderExecAudio()
- typedef struct
- {
- cmReal_t gain;
- bool gateFl; // true if channel is on
- bool onFl; // true if gateFl transitioned to true on this cycle
- bool offFl; // true if gateFl transitioned to false on this cycle
- } cmXfaderCh;
-
- typedef struct
- {
- cmObj obj;
- unsigned chCnt;
- cmXfaderCh* chArray;
- unsigned fadeSmpCnt;
- cmReal_t srate;
- bool gateFl; // true if any channels are on
- bool onFl; // true on cycle where gate transitions to 'on'.
- bool offFl; // true on cycle where gate transitions to 'off'.
- } cmXfader;
-
- cmXfader* cmXfaderAlloc( cmCtx*c, cmXfader* p, cmReal_t srate, unsigned chCnt, cmReal_t fadeTimeMs );
- cmRC_t cmXfaderFree( cmXfader** pp );
- cmRC_t cmXfaderInit( cmXfader* p, cmReal_t srate, unsigned chCnt, cmReal_t fadeTimeMs );
- cmRC_t cmXfaderFinal( cmXfader* p );
- cmRC_t cmXfaderExec( cmXfader* p, unsigned procSmpCnt, const bool* gateV, unsigned chCnt );
- cmRC_t cmXfaderExecAudio( cmXfader* p, unsigned procSmpCnt, const bool* gateV, unsigned chCnt, const cmSample_t* x[], cmSample_t* y );
- void cmXfaderSetXfadeTime( cmXfader* p, cmReal_t fadeTimeMs );
- // Set all gates to false except chIdx.
- void cmXfaderSelectOne( cmXfader* p, unsigned chIdx );
- void cmXfaderAllOff( cmXfader* p );
-
- //=======================================================================================================================
- // This fader object accepts a gate signal. When the gate is high it increments
- // the gain until it reaches 1.0. When the gate is low it decrements the gain
- // until it reaches 0.0. The fade time is the lenght of time the gain will take
- // to transition from 0.0 to 1.0 or 1.0 to 0.0.
- typedef struct
- {
- cmObj obj;
- unsigned fadeSmpCnt; // time to fade from 0->1 or 1->0
- cmReal_t srate;
- cmReal_t gain;
- } cmFader;
-
- cmFader* cmFaderAlloc( cmCtx*c, cmFader* p, cmReal_t srate, cmReal_t fadeTimeMs );
- cmRC_t cmFaderFree( cmFader** pp );
- cmRC_t cmFaderInit( cmFader* p, cmReal_t srate, cmReal_t fadeTimeMs );
- cmRC_t cmFaderFinal( cmFader* p );
- cmRC_t cmFaderExec( cmFader* p, unsigned procSmpCnt, bool gateFl, bool mixFl, const cmSample_t* x, cmSample_t* y );
- void cmFaderSetFadeTime( cmFader* p, cmReal_t fadeTimeMs );
-
- //=======================================================================================================================
- struct cmIDelay_str;
- typedef struct
- {
- cmObj obj;
- cmReal_t srate; // system sample rate
- bool feedbackFl; // set if this is a feedback comb filter
- cmReal_t minHz; // lowest comb frequency this comb filter can support
- cmReal_t hz; // location of first comb
- cmReal_t alpha; // filter coeff.
- cmReal_t dN; // max length of the the cf delay line
- unsigned dn; // current length of cf delay line
- cmReal_t* d; // d[dn] filter delay line
- cmReal_t* b; // b[dn] feedforward coeff's
- cmReal_t* a; // a[dn] feedback coeff's
- cmReal_t b0; // feedforward coeff 0
- bool bypassFl; // bypass enable flag
- struct cmIDelay_str* idp;
-
- } cmCombFilt;
-
- cmCombFilt* cmCombFiltAlloc( cmCtx* c, cmCombFilt* p, cmReal_t srate, bool feedbackFl, cmReal_t minHz, cmReal_t alpha, cmReal_t hz, bool bypassFl );
- cmRC_t cmCombFiltFree( cmCombFilt** pp);
- cmRC_t cmCombFiltInit( cmCombFilt* p, cmReal_t srate, bool feedbackFl, cmReal_t minHz, cmReal_t alpha, cmReal_t hz, bool bypassFl );
- cmRC_t cmCombFiltFinal( cmCombFilt* p );
- cmRC_t cmCombFiltExec( cmCombFilt* p, const cmSample_t* x, cmSample_t* y, unsigned n );
- void cmCombFiltSetAlpha( cmCombFilt* p, cmReal_t alpha );
- cmRC_t cmCombFiltSetHz( cmCombFilt* p, cmReal_t hz );
-
- //=======================================================================================================================
-
- typedef struct
- {
- cmObj obj;
- cmReal_t d[2]; //
- cmReal_t b[1]; //
- cmReal_t a[1]; // a[dn] feedback coeff's
- cmReal_t b0; // feedforward coeff 0
- bool bypassFl;
- } cmDcFilt;
-
- cmDcFilt* cmDcFiltAlloc( cmCtx* c, cmDcFilt* p, bool bypassFl );
- cmRC_t cmDcFiltFree( cmDcFilt** pp);
- cmRC_t cmDcFiltInit( cmDcFilt* p, bool bypassFl );
- cmRC_t cmDcFiltFinal( cmDcFilt* p );
- cmRC_t cmDcFiltExec( cmDcFilt* p, const cmSample_t* x, cmSample_t* y, unsigned n );
-
- //=======================================================================================================================
-
- // interpolating delay - used by the comb filter
-
- typedef struct cmIDelay_str
- {
- cmObj obj;
- cmSample_t* d; // d[dn] delay line
- int dn; // sizeo of delay
- cmSample_t* m; // memory buffer
- int mn; // size of memory bufer (dn+3)
- int ii; // input index
- unsigned tn; // count of taps
- cmReal_t* ti; // ti[tn] tap locations (fractional delay from t->ii)
- cmReal_t* tff; // tg[tn] tap out gain
- cmReal_t* tfb;// tfb[tn] tap feedback gain
- cmReal_t srate;
- } cmIDelay;
-
- cmIDelay* cmIDelayAlloc( cmCtx* c, cmIDelay* p, cmReal_t srate, cmReal_t maxDelayMs, const cmReal_t* tapMs, const cmReal_t* tapFfGain, const cmReal_t* tapFbGain, unsigned tapCnt );
- cmRC_t cmIDelayFree( cmIDelay** pp );
- cmRC_t cmIDelayInit( cmIDelay* p, cmReal_t srate, cmReal_t maxDelayMs, const cmReal_t* tapMs, const cmReal_t* tapFfGain, const cmReal_t* tapFbGain, unsigned tapCnt );
- cmRC_t cmIDelayFinal(cmIDelay* p );
- cmRC_t cmIDelayExec( cmIDelay* p, const cmSample_t* x, cmSample_t* y, unsigned n );
- cmRC_t cmIDelaySetTapMs( cmIDelay* p, unsigned tapIdx, cmReal_t tapMs );
-
-
- //=======================================================================================================================
-
- // This object sequentially assigns channels to groups when their gates go high.
- // 'chsPerGroup' channels will be assigned to each group. No channel will be
- // assigned to any group unless there are at least 'chsPerGroup' available
- // (unassigned) channels.
- // Channels are released from groups when one of the member channels gates goes low.
- //
-
- typedef struct
- {
- cmReal_t rms; // current rms of this input channel
- bool gateFl; // current gate state of this input channel
- bool readyFl; // this channel is available to be assigned to a group
- bool offsetFl; // the gate went low during this cycle (cleared on exec)
- unsigned groupIdx; // group this channel is assigned to or cmInvalidIdx if it is not assigned to any group
- } cmGroupSelCh;
-
- typedef struct
- {
- unsigned* chIdxArray; // chIdxArray[p->chCnt] array of indexes to channels assigned to this group
- unsigned chIdxCnt; // count indexes in chIdxArray[] or 0 if the channel is not in use
- bool releaseFl; // true during the cycle that this group was released on
- bool createFl; // true during the cycle that this group was created on
- } cmGroupSelGrp;
-
- typedef struct
- {
- cmObj obj;
-
-
- cmGroupSelCh* chArray; // chArray[chCnt]
- unsigned chCnt; // count of channels
- cmGroupSelGrp* groupArray; // groupArray[groupCnt]
- unsigned groupCnt; // count of groups - must be <= chCnt - can be changed at any time
- unsigned chsPerGroup; // channels per group
- bool updateFl; // set during exec if channels were assigned or released
-
- } cmGroupSel;
-
- cmGroupSel* cmGroupSelAlloc( cmCtx* c, cmGroupSel* p, unsigned chCnt, unsigned groupCnt, unsigned chsPerGroup );
- cmRC_t cmGroupSelFree( cmGroupSel** pp );
- cmRC_t cmGroupSelInit( cmGroupSel* p, unsigned chCnt, unsigned groupCnt, unsigned chsPerGroup );
- cmRC_t cmGroupSelFinal( cmGroupSel* p );
- cmRC_t cmGroupSetChannelGate( cmGroupSel* p, unsigned chIdx, bool gateFl );
- cmRC_t cmGroupSetChannelRMS( cmGroupSel* p, unsigned chIdx, cmReal_t rms );
-
- // After exec if the p->updateFl is set then iterate through
- // p->groupArray[]. Groups that have been created will have their 'createFl' set
- // and groups that will be removed on the next cycle have their 'releaseFl' set.
- cmRC_t cmGroupSelExec( cmGroupSel* p );
-
- //=======================================================================================================================
-
- // Route N of M input channels to N output channels.
- // The N channels are selected from the first N gates to go high.
-
- typedef struct cmAudioNofM_In_str
- {
- bool gateFl;
- bool onsetFl;
- bool offsetFl;
- unsigned outChIdx;
- cmFader* fader;
- struct cmAudioNofM_In_str* link;
- } cmAudioNofM_In;
-
- typedef struct
- {
- struct cmAudioNofM_In_str* list;
- } cmAudioNofM_Out;
-
- typedef struct
- {
- cmObj obj;
- unsigned iChCnt; // (M) input channel count
- cmAudioNofM_In* inArray; // chArray[ M ] - input channel array
- unsigned oChCnt; // (N) output channel count
- cmAudioNofM_Out* outArray; // outArray[N] - output channel array
- unsigned nxtOutChIdx; // ch assoc;d with the next onset gate will be assined to this output channel
- } cmAudioNofM;
-
- cmAudioNofM* cmAudioNofMAlloc( cmCtx* c, cmAudioNofM* p, cmReal_t srate, unsigned iChCnt, unsigned oChCnt, cmReal_t fadeTimeMs );
- cmRC_t cmAudioNofMFree( cmAudioNofM** pp );
- cmRC_t cmAudioNofMInit( cmAudioNofM* p, cmReal_t srate, unsigned iChCnt, unsigned oChCnt, cmReal_t fadeTimeMs );
- cmRC_t cmAudioNofMFinal( cmAudioNofM* p );
- cmRC_t cmAudioNofMSetChannelGate( cmAudioNofM* p, unsigned inChIdx, bool gateFl );
-
- // Sum the audio contained in x[inChCnt][n] into y[outChCnt][n] according
- // to the state of the object.
- // Notes
- // 1) y[n] should be zeroed by the caller as the output is summed into this buffer.
- // 2) inChCnt should equal p->iChCnt and outChCnt should equal p->oChCnt
- cmRC_t cmAudioNofMExec( cmAudioNofM* p, const cmSample_t* x[], unsigned inChCnt, cmSample_t* y[], unsigned outChCnt, unsigned n );
- cmRC_t cmAudioNofMSetFadeMs( cmAudioNofM* p, cmReal_t fadeTimeMs );
-
-
- //=======================================================================================================================
-
- enum { kDlyAdsrId, kAtkAdsrId, kDcyAdsrId, kSusAdsrId, kRlsAdsrId, kDoneAdsrId };
-
- typedef struct
- {
- cmObj obj;
- cmReal_t srate;
- bool trigModeFl; // gate on triggers start, gate-off ignored
- cmReal_t levelMin;
- cmReal_t scaleDur; //
-
- int dlySmp;
- int atkSmp;
- cmReal_t atkLevel;
- int dcySmp;
- int susSmp; // only used in trigger mode
- cmReal_t susLevel;
- int rlsSmp;
-
-
-
-
- unsigned state; // current state
- int durSmp; // time in current state
- cmReal_t level; // current level
- bool gateFl; // last gate state
-
- cmReal_t atkBegLevel; // attack starting level
- cmReal_t atkDurSmp; // attack duration
-
- cmReal_t rlsLevel; // release starting level
- cmReal_t rlsDurSmp; // release duration
-
- cmReal_t actAtkLevel;
- cmReal_t actSusLevel;
-
-
- } cmAdsr;
-
- cmAdsr* cmAdsrAlloc( cmCtx* c, cmAdsr* p, cmReal_t srate, bool trigFl, cmReal_t minL, cmReal_t dlyMs, cmReal_t atkMs, cmReal_t atkL, cmReal_t dcyMs, cmReal_t susMs, cmReal_t susL, cmReal_t rlsMs );
- cmRC_t cmAdsrFree( cmAdsr** pp );
- cmRC_t cmAdsrInit( cmAdsr* p, cmReal_t srate, bool trigFl, cmReal_t minL, cmReal_t dlyMs, cmReal_t atkMs, cmReal_t atkL, cmReal_t dcyMs, cmReal_t susMs, cmReal_t susL, cmReal_t rlsMs );
- cmRC_t cmAdsrFinal( cmAdsr* p );
- cmReal_t cmAdsrExec( cmAdsr* p, unsigned procSmpCnt, bool gateFl, cmReal_t tscale, cmReal_t ascale );
- void cmAdsrSetTime( cmAdsr* p, cmReal_t ms, unsigned id );
- void cmAdsrSetLevel( cmAdsr* p, cmReal_t level, unsigned id );
- void cmAdsrReport( cmAdsr* p, cmRpt_t* rpt );
-
- //=======================================================================================================================
- enum { kAtkCompId, kRlsCompId };
-
- typedef struct
- {
- cmObj obj;
- cmReal_t srate; // system sample rate
- unsigned procSmpCnt; // samples per exec cycle
- cmReal_t inGain; // input gain
- cmReal_t threshDb; // threshold in dB (max:100 min:0)
- cmReal_t ratio_num; // numerator of the ratio
- unsigned atkSmp; // time to reduce the signal by 10.0 db
- unsigned rlsSmp; // time to increase the signal by 10.0 db
- cmReal_t outGain; // makeup gain
- bool bypassFl; // bypass enable
-
- cmSample_t* rmsWnd; // rmsWnd[rmsWndAllocCnt]
- unsigned rmsWndAllocCnt; //
- unsigned rmsWndCnt; // current RMS window size (rmsWndCnt must be <= rmsWndAllocCnt)
- unsigned rmsWndIdx; // next RMS window input index
-
- unsigned state; // env. state
- cmReal_t rmsDb; // current incoming signal RMS (max:100 min:0)
- cmReal_t gain; // current compressor gain
-
- cmReal_t timeConstDb; // the atk/rls will incr/decr by 'timeConstDb' per atkMs/rlsMs.
- cmReal_t pkDb; //
- cmReal_t accumDb; //
-
- } cmCompressor;
-
- cmCompressor* cmCompressorAlloc( cmCtx* c, cmCompressor* p, cmReal_t srate, unsigned procSmpCnt, cmReal_t inGain, cmReal_t rmsWndMaxMs, cmReal_t rmsWndMs, cmReal_t threshDb, cmReal_t ratio, cmReal_t atkMs, cmReal_t rlsMs, cmReal_t outGain, bool bypassFl );
- cmRC_t cmCompressorFree( cmCompressor** pp );
- cmRC_t cmCompressorInit( cmCompressor* p, cmReal_t srate, unsigned procSmpCnt, cmReal_t inGain, cmReal_t rmsWndMaxMs, cmReal_t rmsWndMs, cmReal_t threshDb, cmReal_t ratio, cmReal_t atkMs, cmReal_t rlsMs, cmReal_t outGain, bool bypassFl );
- cmRC_t cmCompressorFinal( cmCompressor* p );
- cmRC_t cmCompressorExec( cmCompressor* p, const cmSample_t* x, cmSample_t* y, unsigned n );
- void cmCompressorSetAttackMs( cmCompressor* p, cmReal_t ms );
- void cmCompressorSetReleaseMs( cmCompressor* p, cmReal_t ms );
- void cmCompressorSetThreshDb( cmCompressor* p, cmReal_t thresh );
- void cmCompressorSetRmsWndMs( cmCompressor* p, cmReal_t ms );
-
- //=======================================================================================================================
-
- // BiQuad Audio Eq's based on Robert Bristow-Johnson's recipes.
- // http://www.musicdsp.org/files/Audio-EQ-Cookbook.txt
- // See filter_rbj.m for equivalent octave code.
-
- enum
- {
- kLpfBqId,
- kHpFBqId,
- kBpfBqId,
- kNotchBqId,
- kAllpassBqId,
- kPeakBqId,
- kLowShelfBqId,
- kHighShelfBqId
- };
-
- typedef struct
- {
- cmObj obj;
-
- cmReal_t srate;
- unsigned mode;
- cmReal_t f0Hz;
- cmReal_t Q;
- cmReal_t gainDb;
-
- cmReal_t d[4];
- cmReal_t b[3];
- cmReal_t a[3];
-
- bool bypassFl;
-
- } cmBiQuadEq;
-
- cmBiQuadEq* cmBiQuadEqAlloc( cmCtx* c, cmBiQuadEq* p, cmReal_t srate, unsigned mode, cmReal_t f0Hz, cmReal_t Q, cmReal_t gainDb, bool bypassFl );
- cmRC_t cmBiQuadEqFree( cmBiQuadEq** pp );
- cmRC_t cmBiQuadEqInit( cmBiQuadEq* p, cmReal_t srate, unsigned mode, cmReal_t f0Hz, cmReal_t Q, cmReal_t gainDb, bool bypassFl );
- cmRC_t cmBiQuadEqFinal( cmBiQuadEq* p );
- cmRC_t cmBiQuadEqExec( cmBiQuadEq* p, const cmSample_t* x, cmSample_t* y, unsigned n );
- void cmBiQuadEqSet( cmBiQuadEq* p, unsigned mode, cmReal_t f0Hz, cmReal_t Q, cmReal_t gainDb );
-
-
- //=======================================================================================================================
- typedef struct
- {
- cmObj obj;
- cmReal_t srate;
- cmReal_t downSrate;
- cmReal_t bits;
- bool rectFl;
- bool fullFl;
- cmReal_t clipDb;
- cmReal_t inGain;
- cmReal_t outGain;
- bool bypassFl;
-
- double fracIdx;
- cmSample_t lastVal;
-
- cmSample_t lastY;
- cmSample_t lastX;
- } cmDistDs;
-
- cmDistDs* cmDistDsAlloc( cmCtx* c, cmDistDs* p, cmReal_t srate, cmReal_t inGain, cmReal_t downSrate, cmReal_t bits, bool rectFl, bool fullFl, cmReal_t clipDb, cmReal_t outGain, bool bypassFl );
- cmRC_t cmDistDsFree( cmDistDs** p );
- cmRC_t cmDistDsInit( cmDistDs* p, cmReal_t srate, cmReal_t inGain, cmReal_t downSrate, cmReal_t bits, bool rectFl, bool fullFl, cmReal_t clipDb, cmReal_t outGain, bool bypassFl );
- cmRC_t cmDistDsFinal( cmDistDs* p );
- cmRC_t cmDistDsExec( cmDistDs* p, const cmSample_t* x, cmSample_t* y, unsigned n );
-
- //=======================================================================================================================
- /*
- typedef struct
- {
- cmObj obj;
- } cmUnitDelay;
-
- cmUnitDelay* cmUnitDelayAlloc( cmCtx* c, cmUnitDelay* p, cmReal_t srate, unsigned smpCnt, unsigned inCnt, unsigned outCnt, const cmReal_t delayMsV, unsigned delayCnt );
- cmRC_t cmUnitDelayFree( cmUnitDelay* p );
- cmRC_t cmUnitDelayInit( cmUnitDelay* p, cmReal_t srate, unsigned smpCnt, braunsigned inCnt, unsigned outCnt, const cmReal_t delayMsV, unsigned delayCnt );
- cmRC_t cmUnitDelayFinal( cmUnitDelay* p );
- cmRC_t cmUnitDelayExec( cmUnitDelay* p, const cmSample_t** x, unsigned inChCnt, cmSample_t** y, unsigned outChCnt, unsigned smpCnt );
- */
-
- #ifdef __cplusplus
- }
- #endif
-
-
- #endif
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