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- #ifndef cmProc5_h
- #define cmProc5_h
-
- #ifdef __cplusplus
- extern "C" {
- #endif
-
-
- //=======================================================================================================================
- // Goertzel Filter
- //
-
- typedef struct
- {
- double s0;
- double s1;
- double s2;
- double coeff;
- double hz;
- } cmGoertzelCh;
-
- struct cmShiftBuf_str;
-
- typedef struct cmGoertzel_str
- {
- cmObj obj;
- cmGoertzelCh* ch;
- unsigned chCnt;
- double srate;
- struct cmShiftBuf_str* shb;
- cmSample_t* wnd;
- } cmGoertzel;
-
- cmGoertzel* cmGoertzelAlloc( cmCtx* c, cmGoertzel* p, double srate, const double* fcHzV, unsigned chCnt, unsigned procSmpCnt, unsigned hopSmpCnt, unsigned wndSmpCnt );
- cmRC_t cmGoertzelFree( cmGoertzel** pp );
- cmRC_t cmGoertzelInit( cmGoertzel* p, double srate, const double* fcHzV, unsigned chCnt, unsigned procSmpCnt, unsigned hopSmpCnt, unsigned wndSmpCnt );
- cmRC_t cmGoertzelFinal( cmGoertzel* p );
- cmRC_t cmGoertzelSetFcHz( cmGoertzel* p, unsigned chIdx, double hz );
- cmRC_t cmGoertzelExec( cmGoertzel* p, const cmSample_t* in, unsigned procSmpCnt, double* outV, unsigned chCnt );
-
-
- //=======================================================================================================================
- // Gold Code Signal Generator
- //
-
- typedef struct
- {
- unsigned chN; // count of channels (each channel has a unique id)
- double srate; // system sample rate (samples/second)
- unsigned lfsrN; // linear feedback shift register (LFSR) length used to form Gold codes
- unsigned mlsCoeff0; // LFSR coeff. 0
- unsigned mlsCoeff1; // LFSR coeff. 1
- unsigned samplesPerChip; // samples per spreading code bit
- double rcosBeta; // raised cosine impulse response beta coeff.
- unsigned rcosOSFact; // raised cosine impulse response oversample factor
- double carrierHz; // carrier frequency
- double envMs; // attack/decay envelope duration
- } cmGoldSigArg_t;
-
- typedef struct
- {
- int* pnV; // pnV[ mlsN ] spread code (aliased from pnM[:,i])
- cmSample_t* bbV; // bbV[ sigN ] baseband signal at audio rate
- cmSample_t* mdV; // mdV[ sigN ] modulated signal at audio rate
- } cmGoldSigCh_t;
-
- typedef struct
- {
- cmObj obj; //
- cmGoldSigArg_t a; // argument record
- cmGoldSigCh_t* ch; // ch[ chN ] channel array
- int* pnM; // pnM[mlsN,chN] (aliased to ch[].pnV)
- cmSample_t* rcosV; // rcosV[rcosN] raised cosine impulse response
- unsigned rcosN; // length of raised cosine impulse response
- unsigned mlsN; // length of Gold codes (Maximum length sequence length)
- unsigned sigN; // length of channel signals bbV[] and mdV[]
- cmFIR* fir;
- } cmGoldSig_t;
-
-
- cmGoldSig_t* cmGoldSigAlloc( cmCtx* ctx, cmGoldSig_t* p, const cmGoldSigArg_t* a );
- cmRC_t cmGoldSigFree( cmGoldSig_t** pp );
-
- cmRC_t cmGoldSigInit( cmGoldSig_t* p, const cmGoldSigArg_t* a );
- cmRC_t cmGoldSigFinal( cmGoldSig_t* p );
-
- cmRC_t cmGoldSigWrite( cmCtx* ctx, cmGoldSig_t* p, const char* fn );
-
- // Generate a signal consisting of underlying white noise with
- // bsiN repeated copies of the id signal associated with
- // channel 'chIdx'. Each discrete id signal copy is separated by 'dsN' samples.
- // The signal will be prefixed with 'prefixN' samples of silence (noise).
- // On return sets 'yVRef' to point to the generated signal and 'yNRef'
- // to the count of samples in 'yVRef'.
- // On error sets yVRef to NULL and yNRef to zero.
- // The vector returned in 'yVRef' should be freed via atMemFree().
- // On return sets bsiV[bsiN] to the onset sample index of each id signal copy.
- // The background noise signal is limited to the range -noiseGain to noiseGain.
- cmRC_t cmGoldSigGen(
- cmGoldSig_t* p,
- unsigned chIdx,
- unsigned prefixN,
- unsigned dsN,
- unsigned *bsiV,
- unsigned bsiN,
- double noiseGain,
- cmSample_t** yVRef,
- unsigned* yNRef );
-
- cmRC_t cmGoldSigTest( cmCtx* ctx );
-
-
- //=======================================================================================================================
- // Phase aligned transform generalized cross correlator
- //
-
- // Flags for use with the 'flags' argument to cmPhatAlloc()
- enum
- {
- kNoFlagsAtPhatFl= 0x00,
- kDebugAtPhatFl = 0x01, // generate debugging file
- kHannAtPhatFl = 0x02 // apply a hann window function to the id/audio signals prior to correlation.
- };
-
- typedef struct
- {
- cmObj obj;
- cmFftSR fft;
- cmIFftRS ifft;
-
- float alpha;
- unsigned flags;
-
- cmComplexR_t* fhM; // fhM[fhN,chN] FT of each id signal stored in complex form
- float* mhM; // mhM[binN,chN] magnitude of each fhM column
- unsigned chN; // count of id signals
- unsigned fhN; // length of each FT id signal (fft->xN)
- unsigned binN; // length of each mhM column (fft->xN/2);
- unsigned hN; // length of each time domain id signal (hN<=fhN/2)
-
- unsigned absIdx; // abs. sample index of p->di
-
- cmSample_t* dV; // dV[fhN] delay line
- unsigned di; // next input into delay line
-
- cmSample_t* xV; // xV[fhN] linear delay buffer
- cmComplexR_t* t0V; // t0V[fhN]
- cmComplexR_t* t1V; // t1V[fhN]
-
- cmSample_t* wndV;
-
- cmVectArray_t* ftVa;
-
- } cmPhat_t;
-
-
- // Allocate a PHAT based multi-channel correlator.
- // 'chN' is the maximum count of id signals to be set via cmPhatSetId().
- // 'hN' is the the length of the id signal in samples.
- // 'alpha' weight used to emphasize the frequencies where the id signal contains energy.
- // 'mult' * 'hN' is the correlation length (fhN)
- // 'flags' See kDebugAtPhatFl and kWndAtPhatFl.
- cmPhat_t* cmPhatAlloc( cmCtx* ctx, cmPhat_t* p, unsigned chN, unsigned hN, float alpha, unsigned mult, unsigned flags );
- cmRC_t cmPhatFree( cmPhat_t** pp );
-
- cmRC_t cmPhatInit( cmPhat_t* p, unsigned chN, unsigned hN, float alpha, unsigned mult, unsigned flags );
- cmRC_t cmPhatFinal( cmPhat_t* p );
-
- // Zero the audio delay line and reset the current input sample (di)
- // and absolute time index (absIdx) to 0.
- cmRC_t cmPhatReset( cmPhat_t* p );
-
- // Register an id signal with the correlator.
- cmRC_t cmPhatSetId( cmPhat_t* p, unsigned chIdx, const cmSample_t* hV, unsigned hN );
-
- // Update the correlators internal delay buffer.
- cmRC_t cmPhatExec( cmPhat_t* p, const cmSample_t* xV, unsigned xN );
-
- // Set p->xV[0:fhN-1] to the correlation function based on
- // correlation between the current audio delay line d[] and
- // the id signal in fhM[:,chIdx].
- // 'sessionId' and 'roleId' are only used to label the
- // data stored in the debug file and may be set to any
- // arbitrary value if the debug files are not being generated.
- void cmPhatChExec(
- cmPhat_t* p,
- unsigned chIdx,
- unsigned sessionId,
- unsigned roleId);
-
-
- cmRC_t cmPhatWrite( cmPhat_t* p, const char* dirStr );
-
-
- //=======================================================================================================================
- //
- //
-
-
- typedef struct
- {
- cmObj obj;
-
- cmGoldSig_t* gs;
- cmPhat_t* phat;
-
- unsigned xi; // index into xV[] of the next sample to output
-
- unsigned t;
- unsigned* t0V; // t0V[tN] - last tN signal start times
- unsigned* t1V; // t1V[tN] - last tN signal detection times
- unsigned tN;
- unsigned ti;
-
- cmVectArray_t* phVa;
- cmVectArray_t* xVa;
- cmVectArray_t* yVa;
- } cmReflectCalc_t;
-
-
- cmReflectCalc_t* cmReflectCalcAlloc( cmCtx* ctx, cmReflectCalc_t* p, const cmGoldSigArg_t* gsa, float phat_alpha, unsigned phat_mult );
- cmRC_t cmReflectCalcFree( cmReflectCalc_t** pp );
- cmRC_t cmReflectCalcInit( cmReflectCalc_t* p, const cmGoldSigArg_t* gsa, float phat_alpha, unsigned phat_mult );
- cmRC_t cmReflectCalcFinal( cmReflectCalc_t* p );
- cmRC_t cmReflectCalcExec( cmReflectCalc_t* p, const cmSample_t* xV, cmSample_t* yV, unsigned xyN );
- cmRC_t cmReflectCalcWrite( cmReflectCalc_t* p, const char* dirStr );
-
- //=======================================================================================================================
- //
- //
- typedef struct
- {
- cmObj obj;
- float mu; // LMS step rate
- unsigned hN; // filter length
- unsigned delayN; // fixed delay to apply to align xV with fV.
- unsigned dN; // max length of the fixed delay
- cmSample_t* delayV; // delayV[ dN ] fixed delay buffer[]
- unsigned di; // delay index
- double* wV; // wV[hN] filter weights
- double* hV; // hV[hN] filter delay line
- unsigned w0i; // The index into hV[] of the start of the delay line.
-
- cmVectArray_t* uVa;
- cmVectArray_t* fVa;
- cmVectArray_t* eVa;
- } cmNlmsEc_t;
-
- cmNlmsEc_t* cmNlmsEcAlloc( cmCtx* ctx, cmNlmsEc_t* p, double srate, float mu, unsigned hN, unsigned delayN );
- cmRC_t cmNlmsEcFree( cmNlmsEc_t** pp );
- cmRC_t cmNlmsEcInit( cmNlmsEc_t* p, double srate, float mu, unsigned hN, unsigned delayN );
- cmRC_t cmNlmsEcFinal( cmNlmsEc_t* p );
-
- // xV[] unfiltered reference signal (direct from xform output)
- // fV[] filtered reference signal (from mic)
- // yV[] echo-canelled signal
- cmRC_t cmNlmsEcExec( cmNlmsEc_t* p, const cmSample_t* xV, const cmSample_t* fV, cmSample_t* yV, unsigned xyN );
- cmRC_t cmNlmsEcWrite( cmNlmsEc_t* p, const cmChar_t* dir );
-
- void cmNlmsEcSetMu( cmNlmsEc_t* p, float mu );
- void cmNlmsEcSetDelayN( cmNlmsEc_t* p, unsigned delayN );
- void cmNlmsEcSetIrN( cmNlmsEc_t* p, unsigned irN );
-
-
- #ifdef __cplusplus
- }
- #endif
-
- #endif
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