#include "cwCommon.h" #include "cwLog.h" #include "cwCommonImpl.h" #include "cwTest.h" #include "cwMem.h" #include "cwFile.h" #include "cwText.h" #include "cwObject.h" #include "cwFileSys.h" #include "cwAudioFile.h" #include "cwMath.h" #include "cwVectOps.h" #include "cwDspTypes.h" #include "cwDsp.h" #include "cwAudioTransforms.h" #include "cwWaveTableBank.h" #include "cwMidi.h" #include "cwTest.h" namespace cw { namespace wt_bank { typedef struct vel_str { unsigned vel; unsigned bsi; multi_ch_wt_seq_t mc_seq; } vel_t; typedef struct pitch_str { unsigned midi_pitch; vel_t* velA; unsigned velN; } pitch_t; typedef struct instr_str { char* label; pitch_t* pitchA; unsigned pitchN; multi_ch_wt_seq_t** pvM; // pgM[128x128] pgmM[pitch][vel] // each row holds the vel's for a given pitch struct instr_str* link; } instr_t; typedef struct wt_bank_str { unsigned allocAudioBytesN; unsigned padSmpN; unsigned instrN; instr_t** instrA; } wt_bank_t; typedef struct audio_buf_str { audiofile::handle_t afH; unsigned allocFrmN = 0; unsigned allocChN = 0; unsigned chN = 0; unsigned frmN = 0; sample_t** ch_buf = nullptr; // chBuf[chN][frmN] } audio_buf_t; wt_bank_t* _handleToPtr( handle_t h ) { return handleToPtr(h); } void _audio_buf_free( audio_buf_t& ab ) { audiofile::close(ab.afH); for(unsigned i=0; i ab.allocChN ) { ab.ch_buf = mem::resizeZ( ab.ch_buf, info.chCnt ); ab.allocChN = info.chCnt; } for(unsigned i=0; i ab.allocFrmN ) { ab.ch_buf[i] = mem::resizeZ( ab.ch_buf[i], info.frameCnt ); ab.allocFrmN = info.frameCnt; } } if((rc = audiofile::readFloat(ab.afH, info.frameCnt, 0, info.chCnt, ab.ch_buf, &actualFrmCnt )) != kOkRC ) { rc = cwLogError(rc,"The instrument audio file read failed."); goto errLabel; } assert( info.frameCnt == actualFrmCnt ); ab.chN = info.chCnt; ab.frmN = actualFrmCnt; errLabel: return rc; } void _destroy_instr( instr_t* instr ) { mem::release(instr->label); for(unsigned i=0; ipitchN; ++i) { pitch_t* pr = instr->pitchA + i; for(unsigned j=0; jvelN; ++j) { vel_t* vr = pr->velA + j; for(unsigned ch_idx=0; ch_idxmc_seq.chN; ++ch_idx) { wt_seq_t* wts = vr->mc_seq.chA + ch_idx; for(unsigned wti=0; wtiwtN; ++wti) { wt_t* wt = wts->wtA + wti; mem::release(wt->aV); } mem::release(wts->wtA); } mem::release(vr->mc_seq.chA); } mem::release(pr->velA); } mem::release(instr->pitchA); mem::release(instr->pvM); mem::release(instr); } rc_t _destroy( wt_bank_t* p ) { rc_t rc = kOkRC; for(unsigned i=0; iinstrN; ++i ) _destroy_instr(p->instrA[i]); mem::release(p); return rc; } void _alloc_wt( wt_bank_t* p, wt_t* wt, wt_tid_t tid, srate_t srate, const sample_t* aV, unsigned posn_smp_idx, unsigned aN, double hz, double rms) { wt->tid = tid; wt->aN = aN; wt->hz = hz; wt->rms = rms; wt->cyc_per_loop = 1; wt->srate = srate; wt->pad_smpN = p->padSmpN; wt->posn_smp_idx = posn_smp_idx; unsigned allocSmpCnt = p->padSmpN + wt->aN + p->padSmpN; p->allocAudioBytesN += allocSmpCnt * sizeof(sample_t); // allocate the wavetable audio buffer wt->aV = mem::allocZ( allocSmpCnt ); // fill the wavetable from the audio file vop::copy(wt->aV+p->padSmpN, aV + posn_smp_idx, wt->aN); // fill the wavetable prefix vop::copy(wt->aV, wt->aV + p->padSmpN + (wt->aN-p->padSmpN), p->padSmpN ); // fill the wavetable suffix vop::copy(wt->aV + p->padSmpN + wt->aN, wt->aV + p->padSmpN, p->padSmpN ); } rc_t _create_instr_pv_map( instr_t* instr ) { rc_t rc = kOkRC; // each row contains the velocities for a given pitch instr->pvM = mem::allocZ(midi::kMidiNoteCnt * midi::kMidiVelCnt ); for(unsigned i=0; ipitchN; ++i) { unsigned vel0 = 0; for(unsigned j=0; jpitchA[i].velN; ++j) { unsigned pitch = instr->pitchA[i].midi_pitch; unsigned vel = instr->pitchA[i].velA[j].vel; if( pitch >= midi::kMidiNoteCnt ) rc = cwLogError(kInvalidArgRC,"An invalid pitch value (%i) was encounted.",pitch); if( vel >= midi::kMidiVelCnt ) rc = cwLogError(kInvalidArgRC,"An invalid velocity value (%i) was encountered.",vel); multi_ch_wt_seq_t* mcs = &instr->pitchA[i].velA[j].mc_seq; // if there is a gap between vel0 and vel if( vel0 > 0 ) { // find the center of the gap unsigned vel_c = vel0 + (vel-vel0)/2; // vel0:vel_c = mcs0 for(unsigned v=vel0+1; v<=vel_c; ++v) { instr->pvM[(v*midi::kMidiNoteCnt) + pitch ] = instr->pvM[(vel0*midi::kMidiNoteCnt) + pitch ]; } // vel_c+1:vel-1 = mcs for(unsigned v=vel_c+1; vpvM[(v*midi::kMidiNoteCnt) + pitch ] = mcs; } } instr->pvM[(vel*midi::kMidiNoteCnt) + pitch ] = mcs; vel0 = vel; } } if( rc != kOkRC ) rc = cwLogError(rc,"Pitch-velocy map creation failed on instrument:'%s'.",cwStringNullGuard(instr->label)); return rc; } } } cw::rc_t cw::wt_bank::create( handle_t& hRef, unsigned padSmpN, const char* instr_json_fname ) { rc_t rc = kOkRC; if(destroy(hRef) != kOkRC ) return rc; wt_bank_t* p = mem::allocZ(); p->padSmpN = padSmpN; hRef.set(p); if( instr_json_fname != nullptr ) if((rc = load(hRef,instr_json_fname)) != kOkRC ) { hRef.clear(); } if(rc != kOkRC ) { rc = cwLogError(rc,"WT Bank create failed."); _destroy(p); } return rc; } cw::rc_t cw::wt_bank::destroy( handle_t& hRef ) { rc_t rc = kOkRC; wt_bank_t* p =nullptr; if( !hRef.isValid() ) return rc; p = _handleToPtr(hRef); if((rc = _destroy(p)) != kOkRC ) return rc; hRef.clear(); return rc; } cw::rc_t cw::wt_bank::load( handle_t h, const char* instr_json_fname ) { rc_t rc = kOkRC; wt_bank_t* p = _handleToPtr(h); object_t* f = nullptr; const object_t* pitchL = nullptr; const char* instr_label = nullptr; instr_t* instr = nullptr; audio_buf_t abuf{}; if((rc = objectFromFile(instr_json_fname,f)) != kOkRC ) goto errLabel; if( f == nullptr || !f->is_dict() ) { rc = cwLogError(kSyntaxErrorRC,"The instrument file header is not valid."); goto errLabel; } if((rc = f->getv("instr",instr_label, "pitchL",pitchL)) != kOkRC ) { rc = cwLogError(rc,"Instrument file syntax error while reading file header."); goto errLabel; } instr = mem::allocZ(); instr->label = mem::duplStr(instr_label); instr->pitchN = pitchL->child_count(); instr->pitchA = mem::allocZ(instr->pitchN); for(unsigned i=0; ipitchN; ++i) { double hz = 0; srate_t srate = 0; const char* audio_fname = nullptr; const object_t* velL = nullptr; const object_t* pitchR = pitchL->child_ele(i); pitch_t* pitch = instr->pitchA + i; if(pitchR == nullptr || !pitchR->is_dict() ) { rc = cwLogError(kSyntaxErrorRC,"The pitch record at index %i is not valid.",i); goto errLabel; } if((rc = pitchR->getv("midi_pitch",pitch->midi_pitch, "srate",srate, "est_hz_mean",hz, "audio_fname",audio_fname, "velL",velL)) != kOkRC ) { rc = cwLogError(rc,"Instrument file syntax error while reading pitch record at index %i.",i); goto errLabel; } cwLogInfo("pitch:%i %i %s",pitch->midi_pitch,p->allocAudioBytesN/(1024*1024),audio_fname); // read the audio file into abuf if((rc = _audio_buf_alloc(abuf, audio_fname )) != kOkRC ) goto errLabel; pitch->velN = velL->child_count(); pitch->velA = mem::allocZ( pitch->velN ); for(unsigned j=0; jpitchA[i].velN; ++j) { const object_t* chL = nullptr; const object_t* velR = velL->child_ele(j); vel_t* vel = pitch->velA + j; if( velR==nullptr || !velR->is_dict() ) { rc = cwLogError(rc,"The velocity record at index %i on MIDI pitch %i is invalid.",j,pitch->midi_pitch); goto errLabel; } if((rc = velR->getv("vel",vel->vel, "bsi",vel->bsi, "chL",chL)) != kOkRC ) { rc = cwLogError(rc,"Instrument file syntax error while reading the velocity record at index %i from the pitch record for MIDI pitch:%i.",j,pitch->midi_pitch); goto errLabel; } vel->mc_seq.chN = chL->child_count(); vel->mc_seq.chA = mem::allocZ( vel->mc_seq.chN ); for(unsigned ch_idx=0; ch_idxpitchA[i].velA[j].mc_seq.chN; ++ch_idx) { const object_t* wtL = chL->child_ele(ch_idx); wt_seq_t* wts = vel->mc_seq.chA + ch_idx; wts->wtN = wtL->child_count() + 1; wts->wtA = mem::allocZ( wts->wtN ); for(unsigned wti=0; wtiwtN-1; ++wti) { const object_t* wtR = wtL->child_ele(wti); wt_t* wt = wts->wtA + wti + 1; unsigned wtbi = kInvalidIdx; unsigned wtei = kInvalidIdx; double rms = 0; if((rc = wtR->getv("wtbi",wtbi, "wtei",wtei, "rms",rms, "est_hz",wt->hz)) != kOkRC ) { rc = cwLogError(rc,"Instrument file syntax error in wavetable record at index %i, channel index:%i, velocity index:%i midi pitch:%i.",wti,ch_idx,j,pitch->midi_pitch); goto errLabel; } // if this is the first looping wave table then insert the attack wave table before it if( wti==0 ) { _alloc_wt(p,wts->wtA,dsp::wt_osc::kOneShotWtTId,srate,abuf.ch_buf[ch_idx], vel->bsi, wtbi-vel->bsi,hz,0); } _alloc_wt(p,wt,dsp::wt_osc::kLoopWtTId,srate,abuf.ch_buf[ch_idx],wtbi,wtei-wtbi,hz,rms); } } } } if((rc = _create_instr_pv_map( instr )) != kOkRC ) goto errLabel; p->instrA = mem::resizeZ( p->instrA, p->instrN+1 ); p->instrA[ p->instrN++ ] = instr; errLabel: if(rc != kOkRC ) { if( instr != nullptr ) _destroy_instr(instr); rc = cwLogError(rc,"Wave table bank load failed on '%s'.",cwStringNullGuard(instr_json_fname)); } _audio_buf_free(abuf); if( f != nullptr ) f->free(); return rc; } void cw::wt_bank::report( handle_t h ) { wt_bank_t* p = _handleToPtr(h); for(unsigned instr_idx=0; instr_idxinstrN; ++instr_idx) { instr_t* instr = p->instrA[instr_idx]; cwLogPrint("%s \n",instr->label); for(unsigned i=0; ipitchN; ++i) { const pitch_t* pitch = instr->pitchA + i; cwLogPrint(" pitch:%i\n",pitch->midi_pitch); for(unsigned j=0; jvelN; ++j) { vel_t* vel = pitch->velA + j; bool fl = true; cwLogPrint(" vel:%i\n",vel->vel); for(unsigned wti=0; fl; ++wti) { fl = false; const char* indent = " "; for(unsigned ch_idx=0; ch_idxmc_seq.chN; ++ch_idx) if( wti < vel->mc_seq.chA[ch_idx].wtN ) { wt_t* wt=vel->mc_seq.chA[ch_idx].wtA + wti; cwLogPrint("%s(%i %f %f) ",indent,wt->aN,wt->rms,wt->hz); indent=""; fl = true; } if( fl ) { cwLogPrint("\n"); } } } } } } unsigned cw::wt_bank::instr_count( handle_t h ) { wt_bank_t* p = _handleToPtr(h); return p->instrN; } unsigned cw::wt_bank::instr_index( handle_t h, const char* instr_label ) { wt_bank_t* p = _handleToPtr(h); for(unsigned i=0; iinstrN; ++i) if( textIsEqual(p->instrA[i]->label,instr_label) ) return i; return kInvalidIdx; } cw::rc_t cw::wt_bank::instr_pitch_velocities( handle_t h, unsigned instr_idx, unsigned pitch, unsigned* velA, unsigned velCnt, unsigned& velCnt_Ref ) { rc_t rc = kOkRC; wt_bank_t* p = _handleToPtr(h); velCnt_Ref = 0; if( instr_idx > p->instrN || pitch >= midi::kMidiNoteCnt ) { rc = cwLogError(kInvalidArgRC,"Invalid wave table request : instr:%i (instrN:%i) pitch:%i.",instr_idx,p->instrN,pitch); goto errLabel; } for(unsigned i=0; iinstrA[instr_idx]->pitchN; ++i) if( p->instrA[instr_idx]->pitchA[i].midi_pitch == pitch ) { if( p->instrA[instr_idx]->pitchA[i].velN > velCnt ) { rc = cwLogError(kBufTooSmallRC,"The velocity buffer is too small (%i>%i) for instr:%i pitch:%i.",p->instrA[instr_idx]->pitchA[i].velN,velCnt,instr_idx,pitch); goto errLabel; } for(unsigned j=0; jinstrA[instr_idx]->pitchA[i].velN; ++j) velA[j] = p->instrA[instr_idx]->pitchA[i].velA[j].vel; velCnt_Ref = p->instrA[instr_idx]->pitchA[i].velN; break; } if( velCnt_Ref==0) { rc = cwLogError(kInvalidArgRC,"No sampled wave tables exist for instr:%i pitch:%i.",instr_idx,pitch); goto errLabel; } errLabel: return rc; } cw::rc_t cw::wt_bank::get_wave_table( handle_t h, unsigned instr_idx, unsigned pitch, unsigned vel, cw::wt_bank::multi_ch_wt_seq_t const * & mcs_Ref ) { rc_t rc = kOkRC; wt_bank_t* p = _handleToPtr(h); mcs_Ref = nullptr; if( instr_idx > p->instrN || pitch >= midi::kMidiNoteCnt || vel >= midi::kMidiVelCnt ) { rc = cwLogError(kInvalidArgRC,"Invalid wave table request : instr:%i (instrN:%i) pitch:%i vel:%i.",instr_idx,p->instrN,pitch,vel); goto errLabel; } mcs_Ref = p->instrA[instr_idx]->pvM[(vel*midi::kMidiNoteCnt) + pitch ]; if( mcs_Ref == nullptr ) { rc = cwLogError(kInvalidStateRC,"The wave table request : instr:%i (instrN:%i) pitch:%i vel:%i is not populated.",instr_idx,p->instrN,pitch,vel); goto errLabel; } errLabel: return rc; } cw::rc_t cw::wt_bank::test( const test::test_args_t& args ) { rc_t rc0 = kOkRC; rc_t rc1 = kOkRC; unsigned padN = 2; const char* cfg_fname; handle_t h; //unsigned instr_idx = 0; //unsigned pitchA[] = { 21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21,21, 21, 21, 21, 21, 21, 21 }; //unsigned pitchA[] = { 60,60,60,60,60,60,60,60,60,60,60,60,60,60,60,60,60,60,60, 60, 60, 60, 60, 60, 60 }; //unsigned velA[] = { 1, 5,10,16,21,26,32,37,42,48,53,58,64,69,74,80,85,90,96,101,106,112,117,122,127 }; //unsigned velA[] = { 117, 122 }; //double note_dur_sec = 2.5; if((rc0 = args.test_args->getv("wtb_cfg_fname",cfg_fname)) != kOkRC ) goto errLabel; if((rc0 = create(h,padN)) != kOkRC ) goto errLabel; if((rc0 = load(h,cfg_fname)) != kOkRC ) goto errLabel; //assert( sizeof(pitchA)/sizeof(pitchA[0]) == sizeof(velA)/sizeof(velA[0]) ); //gen_notes(h,instr_idx,pitchA,velA,sizeof(pitchA)/sizeof(pitchA[0]),note_dur_sec,"~/temp/temp.wav"); report(h); errLabel: if((rc1 = destroy(h)) != kOkRC ) { rc1 = cwLogError(rc1,"Wave table bank destroy failed."); } return rcSelect(rc0,rc1); }