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- #include "cmPrefix.h"
- #include "cmGlobal.h"
- #include "cmRpt.h"
- #include "cmErr.h"
- #include "cmCtx.h"
- #include "cmMem.h"
- #include "cmMallocDebug.h"
- #include "cmAudioPort.h"
- #include "cmApBuf.h" // only needed for cmApBufTest().
- #include "cmAudioPortFile.h"
- #include "cmAudioAggDev.h"
- #include "cmAudioNrtDev.h"
-
- #ifdef OS_LINUX
- #include "linux/cmAudioPortAlsa.h"
- #endif
-
- #ifdef OS_OSX
- #include "osx/cmAudioPortOsx.h"
- #endif
-
-
- typedef struct
- {
- unsigned begDevIdx;
- unsigned endDevIdx;
-
- cmApRC_t (*initialize)( cmRpt_t* rpt, unsigned baseApDevIdx );
- cmApRC_t (*finalize)();
- cmApRC_t (*deviceCount)();
- const char* (*deviceLabel)( unsigned devIdx );
- unsigned (*deviceChannelCount)( unsigned devIdx, bool inputFl );
- double (*deviceSampleRate)( unsigned devIdx );
- unsigned (*deviceFramesPerCycle)( unsigned devIdx, bool inputFl );
- cmApRC_t (*deviceSetup)( unsigned devIdx, double sr, unsigned frmPerCycle, cmApCallbackPtr_t cb, void* cbData );
- cmApRC_t (*deviceStart)( unsigned devIdx );
- cmApRC_t (*deviceStop)( unsigned devIdx );
- bool (*deviceIsStarted)( unsigned devIdx );
-
- } cmApDriver_t;
-
- typedef struct
- {
- cmErr_t err;
- cmApDriver_t* drvArray;
- unsigned drvCnt;
- unsigned devCnt;
- } cmAp_t;
-
- cmAp_t* _ap = NULL;
-
- cmApRC_t _cmApIndexToDev( unsigned devIdx, cmApDriver_t** drvPtrPtr, unsigned* devIdxPtr )
- {
- unsigned i;
- for(i=0; i<_ap->drvCnt; ++i)
- if( _ap->drvArray[i].begDevIdx != cmInvalidIdx )
- if( (_ap->drvArray[i].begDevIdx <= devIdx) && (devIdx <= _ap->drvArray[i].endDevIdx) )
- {
- *drvPtrPtr = _ap->drvArray + i;
- *devIdxPtr = devIdx - _ap->drvArray[i].begDevIdx;
- return kOkApRC;
- }
-
- return cmErrMsg(&_ap->err,kInvalidDevIdApRC,"The audio port device index %i is not valid.",devIdx);
- }
-
- cmApRC_t cmApInitialize( cmRpt_t* rpt )
- {
- cmApRC_t rc = kOkApRC;
- if((rc = cmApFinalize()) != kOkApRC )
- return rc;
-
- _ap = cmMemAllocZ(cmAp_t,1);
- cmErrSetup(&_ap->err,rpt,"Audio Port Driver");
-
- _ap->drvCnt = 4;
- _ap->drvArray = cmMemAllocZ(cmApDriver_t,_ap->drvCnt);
- cmApDriver_t* dp = _ap->drvArray;
-
- #ifdef OS_OSX
- dp->initialize = cmApOsxInitialize;
- dp->finalize = cmApOsxFinalize;
- dp->deviceCount = cmApOsxDeviceCount;
- dp->deviceLabel = cmApOsxDeviceLabel;
- dp->deviceChannelCount = cmApOsxDeviceChannelCount;
- dp->deviceSampleRate = cmApOsxDeviceSampleRate;
- dp->deviceFramesPerCycle = cmApOsxDeviceFramesPerCycle;
- dp->deviceSetup = cmApOsxDeviceSetup;
- dp->deviceStart = cmApOsxDeviceStart;
- dp->deviceStop = cmApOsxDeviceStop;
- dp->deviceIsStarted = cmApOsxDeviceIsStarted;
- #endif
-
- #ifdef OS_LINUX
- dp->initialize = cmApAlsaInitialize;
- dp->finalize = cmApAlsaFinalize;
- dp->deviceCount = cmApAlsaDeviceCount;
- dp->deviceLabel = cmApAlsaDeviceLabel;
- dp->deviceChannelCount = cmApAlsaDeviceChannelCount;
- dp->deviceSampleRate = cmApAlsaDeviceSampleRate;
- dp->deviceFramesPerCycle = cmApAlsaDeviceFramesPerCycle;
- dp->deviceSetup = cmApAlsaDeviceSetup;
- dp->deviceStart = cmApAlsaDeviceStart;
- dp->deviceStop = cmApAlsaDeviceStop;
- dp->deviceIsStarted = cmApAlsaDeviceIsStarted;
- #endif
-
- dp = _ap->drvArray + 1;
-
- dp->initialize = cmApFileInitialize;
- dp->finalize = cmApFileFinalize;
- dp->deviceCount = cmApFileDeviceCount;
- dp->deviceLabel = cmApFileDeviceLabel;
- dp->deviceChannelCount = cmApFileDeviceChannelCount;
- dp->deviceSampleRate = cmApFileDeviceSampleRate;
- dp->deviceFramesPerCycle = cmApFileDeviceFramesPerCycle;
- dp->deviceSetup = cmApFileDeviceSetup;
- dp->deviceStart = cmApFileDeviceStart;
- dp->deviceStop = cmApFileDeviceStop;
- dp->deviceIsStarted = cmApFileDeviceIsStarted;
-
- dp = _ap->drvArray + 2;
-
- dp->initialize = cmApAggInitialize;
- dp->finalize = cmApAggFinalize;
- dp->deviceCount = cmApAggDeviceCount;
- dp->deviceLabel = cmApAggDeviceLabel;
- dp->deviceChannelCount = cmApAggDeviceChannelCount;
- dp->deviceSampleRate = cmApAggDeviceSampleRate;
- dp->deviceFramesPerCycle = cmApAggDeviceFramesPerCycle;
- dp->deviceSetup = cmApAggDeviceSetup;
- dp->deviceStart = cmApAggDeviceStart;
- dp->deviceStop = cmApAggDeviceStop;
- dp->deviceIsStarted = cmApAggDeviceIsStarted;
-
- dp = _ap->drvArray + 3;
-
- dp->initialize = cmApNrtInitialize;
- dp->finalize = cmApNrtFinalize;
- dp->deviceCount = cmApNrtDeviceCount;
- dp->deviceLabel = cmApNrtDeviceLabel;
- dp->deviceChannelCount = cmApNrtDeviceChannelCount;
- dp->deviceSampleRate = cmApNrtDeviceSampleRate;
- dp->deviceFramesPerCycle = cmApNrtDeviceFramesPerCycle;
- dp->deviceSetup = cmApNrtDeviceSetup;
- dp->deviceStart = cmApNrtDeviceStart;
- dp->deviceStop = cmApNrtDeviceStop;
- dp->deviceIsStarted = cmApNrtDeviceIsStarted;
-
- _ap->devCnt = 0;
-
- unsigned i;
- for(i=0; i<_ap->drvCnt; ++i)
- {
- unsigned dn;
- cmApRC_t rc0;
-
- _ap->drvArray[i].begDevIdx = cmInvalidIdx;
- _ap->drvArray[i].endDevIdx = cmInvalidIdx;
-
- if((rc0 = _ap->drvArray[i].initialize(rpt,_ap->devCnt)) != kOkApRC )
- {
- rc = rc0;
- continue;
- }
-
- if((dn = _ap->drvArray[i].deviceCount()) > 0)
- {
- _ap->drvArray[i].begDevIdx = _ap->devCnt;
- _ap->drvArray[i].endDevIdx = _ap->devCnt + dn - 1;
- _ap->devCnt += dn;
- }
- }
-
- if( rc != kOkApRC )
- cmApFinalize();
-
- return rc;
- }
-
- cmApRC_t cmApFinalize()
- {
- cmApRC_t rc=kOkApRC;
- cmApRC_t rc0 = kOkApRC;
- unsigned i;
-
- if( _ap == NULL )
- return kOkApRC;
-
- for(i=0; i<_ap->drvCnt; ++i)
- {
- if((rc0 = _ap->drvArray[i].finalize()) != kOkApRC )
- rc = rc0;
- }
-
- cmMemPtrFree(&_ap->drvArray);
- cmMemPtrFree(&_ap);
- return rc;
- }
-
-
- unsigned cmApDeviceCount()
- { return _ap->devCnt; }
-
- const char* cmApDeviceLabel( unsigned devIdx )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return NULL;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return cmStringNullGuard(NULL);
-
- return dp->deviceLabel(di);
- }
-
- unsigned cmApDeviceLabelToIndex( const cmChar_t* label )
- {
- unsigned n = cmApDeviceCount();
- unsigned i;
- for(i=0; i<n; ++i)
- {
- const cmChar_t* s = cmApDeviceLabel(i);
- if( s!=NULL && strcmp(s,label)==0)
- return i;
- }
- return cmInvalidIdx;
- }
-
-
- unsigned cmApDeviceChannelCount( unsigned devIdx, bool inputFl )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return 0;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceChannelCount(di,inputFl);
- }
-
- double cmApDeviceSampleRate( unsigned devIdx )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceSampleRate(di);
- }
-
- unsigned cmApDeviceFramesPerCycle( unsigned devIdx, bool inputFl )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return 0;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceFramesPerCycle(di,inputFl);
- }
-
- cmApRC_t cmApDeviceSetup(
- unsigned devIdx,
- double srate,
- unsigned framesPerCycle,
- cmApCallbackPtr_t callbackPtr,
- void* userCbPtr )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return kOkApRC;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceSetup(di,srate,framesPerCycle,callbackPtr,userCbPtr);
- }
-
- cmApRC_t cmApDeviceStart( unsigned devIdx )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return kOkApRC;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceStart(di);
- }
-
- cmApRC_t cmApDeviceStop( unsigned devIdx )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return kOkApRC;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceStop(di);
- }
-
- bool cmApDeviceIsStarted( unsigned devIdx )
- {
- cmApDriver_t* dp;
- unsigned di;
- cmApRC_t rc;
-
- if( devIdx == cmInvalidIdx )
- return false;
-
- if((rc = _cmApIndexToDev(devIdx,&dp,&di)) != kOkApRC )
- return rc;
-
- return dp->deviceIsStarted(di);
- }
-
-
-
- void cmApReport( cmRpt_t* rpt )
- {
- unsigned i,j,k;
- for(j=0,k=0; j<_ap->drvCnt; ++j)
- {
- cmApDriver_t* drvPtr = _ap->drvArray + j;
- unsigned n = drvPtr->deviceCount();
-
- for(i=0; i<n; ++i,++k)
- {
- cmRptPrintf(rpt, "%i %f in:%i (%i) out:%i (%i) %s\n",
- k, drvPtr->deviceSampleRate(i),
- drvPtr->deviceChannelCount(i,true), drvPtr->deviceFramesPerCycle(i,true),
- drvPtr->deviceChannelCount(i,false), drvPtr->deviceFramesPerCycle(i,false),
- drvPtr->deviceLabel(i));
-
- }
- }
- }
-
- /// [cmAudioPortExample]
-
- // See cmApPortTest() below for the main point of entry.
-
- // Data structure used to hold the parameters for cpApPortTest()
- // and the user defined data record passed to the host from the
- // audio port callback functions.
- typedef struct
- {
- unsigned bufCnt; // 2=double buffering 3=triple buffering
- unsigned chIdx; // first test channel
- unsigned chCnt; // count of channels to test
- unsigned framesPerCycle; // DSP frames per cycle
- unsigned bufFrmCnt; // count of DSP frames used by the audio buffer (bufCnt * framesPerCycle)
- unsigned bufSmpCnt; // count of samples used by the audio buffer (chCnt * bufFrmCnt)
- unsigned inDevIdx; // input device index
- unsigned outDevIdx; // output device index
- double srate; // audio sample rate
- unsigned meterMs; // audio meter buffer length
-
- // param's and state for cmApSynthSine()
- unsigned phase; // sine synth phase
- double frqHz; // sine synth frequency in Hz
-
- // buffer and state for cmApCopyIn/Out()
- cmApSample_t* buf; // buf[bufSmpCnt] - circular interleaved audio buffer
- unsigned bufInIdx; // next input buffer index
- unsigned bufOutIdx; // next output buffer index
- unsigned bufFullCnt; // count of full samples
-
- // debugging log data arrays
- unsigned logCnt; // count of elements in log[] and ilong[]
- char* log; // log[logCnt]
- unsigned* ilog; // ilog[logCnt]
- unsigned logIdx; // current log index
-
- unsigned cbCnt; // count the callback
- } cmApPortTestRecd;
-
-
- #ifdef NOT_DEF
- // The application can request any block of channels from the device. The packets are provided with the starting
- // device channel and channel count. This function converts device channels and channel counts to buffer
- // channel indexes and counts.
- //
- // Example:
- // input output
- // i,n i n
- // App: 0,4 0 1 2 3 -> 2 2
- // Pkt 2,8 2 3 4 5 6 7 8 -> 0 2
- //
- // The return value is the count of application requested channels located in this packet.
- //
- // input: *appChIdxPtr and appChCnt describe a block of device channels requested by the application.
- // *pktChIdxPtr and pktChCnt describe a block of device channels provided to the application
- //
- // output:*appChIdxPtr and <return value> describe a block of app buffer channels which will send/recv samples.
- // *pktChIdxPtr and <return value> describe a block of pkt buffer channels which will send/recv samples
- //
- unsigned _cmApDeviceToBuffer( unsigned* appChIdxPtr, unsigned appChCnt, unsigned* pktChIdxPtr, unsigned pktChCnt )
- {
- unsigned abi = *appChIdxPtr;
- unsigned aei = abi+appChCnt-1;
-
- unsigned pbi = *pktChIdxPtr;
- unsigned pei = pbi+pktChCnt-1;
-
- // if the ch's rqstd by the app do not overlap with this packet - return false.
- if( aei < pbi || abi > pei )
- return 0;
-
- // if the ch's rqstd by the app overlap with the beginning of the pkt channel block
- if( abi < pbi )
- {
- appChCnt -= pbi - abi;
- *appChIdxPtr = pbi - abi;
- *pktChIdxPtr = 0;
- }
- else
- {
- // the rqstd ch's begin inside the pkt channel block
- pktChCnt -= abi - pbi;
- *pktChIdxPtr = abi - pbi;
- *appChIdxPtr = 0;
- }
-
- // if the pkt channels extend beyond the rqstd ch block
- if( aei < pei )
- pktChCnt -= pei - aei;
- else
- appChCnt -= aei - pei; // the rqstd ch's extend beyond or coincide with the pkt block
-
- // the returned channel count must always be the same for both the rqstd and pkt
- return cmMin(appChCnt,pktChCnt);
-
- }
-
-
- // synthesize a sine signal into an interleaved audio buffer
- unsigned _cmApSynthSine( cmApPortTestRecd* r, float* p, unsigned chIdx, unsigned chCnt, unsigned frmCnt, unsigned phs, double hz )
- {
- long ph = 0;
- unsigned i;
- unsigned bufIdx = r->chIdx;
- unsigned bufChCnt;
-
- if( (bufChCnt = _cmApDeviceToBuffer( &bufIdx, r->chCnt, &chIdx, chCnt )) == 0)
- return phs;
-
-
- //if( r->cbCnt < 50 )
- // printf("ch:%i cnt:%i ch:%i cnt:%i bi:%i bcn:%i\n",r->chIdx,r->chCnt,chIdx,chCnt,bufIdx,bufChCnt);
-
-
- for(i=bufIdx; i<bufIdx+bufChCnt; ++i)
- {
- unsigned j;
- float* op = p + i;
-
- ph = phs;
- for(j=0; j<frmCnt; j++, op+=chCnt, ph++)
- {
- *op = (float)(0.9 * sin( 2.0 * M_PI * hz * ph / r->srate ));
- }
- }
-
- return ph;
- }
-
- // Copy the audio samples in the interleaved audio buffer sp[srcChCnt*srcFrameCnt]
- // to the internal record buffer.
- void _cmApCopyIn( cmApPortTestRecd* r, const cmApSample_t* sp, unsigned srcChIdx, unsigned srcChCnt, unsigned srcFrameCnt )
- {
- unsigned i,j;
-
- unsigned chCnt = cmMin(r->chCnt,srcChCnt);
-
- for(i=0; i<srcFrameCnt; ++i)
- {
- for(j=0; j<chCnt; ++j)
- r->buf[ r->bufInIdx + j ] = sp[ (i*srcChCnt) + j ];
-
- for(; j<r->chCnt; ++j)
- r->buf[ r->bufInIdx + j ] = 0;
-
- r->bufInIdx = (r->bufInIdx+r->chCnt) % r->bufFrmCnt;
- }
-
- //r->bufFullCnt = (r->bufFullCnt + srcFrameCnt) % r->bufFrmCnt;
- r->bufFullCnt += srcFrameCnt;
- }
-
- // Copy audio samples out of the internal record buffer into dp[dstChCnt*dstFrameCnt].
- void _cmApCopyOut( cmApPortTestRecd* r, cmApSample_t* dp, unsigned dstChIdx, unsigned dstChCnt, unsigned dstFrameCnt )
- {
- // if there are not enough samples available to fill the destination buffer then zero the dst buf.
- if( r->bufFullCnt < dstFrameCnt )
- {
- printf("Empty Output Buffer\n");
- memset( dp, 0, dstFrameCnt*dstChCnt*sizeof(cmApSample_t) );
- }
- else
- {
- unsigned i,j;
- unsigned chCnt = cmMin(dstChCnt, r->chCnt);
-
- // for each output frame
- for(i=0; i<dstFrameCnt; ++i)
- {
- // copy the first chCnt samples from the internal buf to the output buf
- for(j=0; j<chCnt; ++j)
- dp[ (i*dstChCnt) + j ] = r->buf[ r->bufOutIdx + j ];
-
- // zero any output ch's for which there is no internal buf channel
- for(; j<dstChCnt; ++j)
- dp[ (i*dstChCnt) + j ] = 0;
-
- // advance the internal buffer
- r->bufOutIdx = (r->bufOutIdx + r->chCnt) % r->bufFrmCnt;
- }
-
- r->bufFullCnt -= dstFrameCnt;
- }
- }
-
- // Audio port callback function called from the audio device thread.
- void _cmApPortCb( cmApAudioPacket_t* inPktArray, unsigned inPktCnt, cmApAudioPacket_t* outPktArray, unsigned outPktCnt )
- {
- unsigned i;
-
- // for each incoming audio packet
- for(i=0; i<inPktCnt; ++i)
- {
- cmApPortTestRecd* r = (cmApPortTestRecd*)inPktArray[i].userCbPtr;
-
- if( inPktArray[i].devIdx == r->inDevIdx )
- {
- // copy the incoming audio into an internal buffer where it can be picked up by _cpApCopyOut().
- _cmApCopyIn( r, (cmApSample_t*)inPktArray[i].audioBytesPtr, inPktArray[i].begChIdx, inPktArray[i].chCnt, inPktArray[i].audioFramesCnt );
- }
- ++r->cbCnt;
-
- //printf("i %4i in:%4i out:%4i\n",r->bufFullCnt,r->bufInIdx,r->bufOutIdx);
- }
-
- unsigned hold_phase = 0;
-
- // for each outgoing audio packet
- for(i=0; i<outPktCnt; ++i)
- {
- cmApPortTestRecd* r = (cmApPortTestRecd*)outPktArray[i].userCbPtr;
-
- if( outPktArray[i].devIdx == r->outDevIdx )
- {
- // zero the output buffer
- memset(outPktArray[i].audioBytesPtr,0,outPktArray[i].chCnt * outPktArray[i].audioFramesCnt * sizeof(cmApSample_t) );
-
- // if the synth is enabled
- if( r->synthFl )
- {
- unsigned tmp_phase = _cmApSynthSine( r, outPktArray[i].audioBytesPtr, outPktArray[i].begChIdx, outPktArray[i].chCnt, outPktArray[i].audioFramesCnt, r->phase, r->frqHz );
-
- // the phase will only change on packets that are actually used
- if( tmp_phase != r->phase )
- hold_phase = tmp_phase;
- }
- else
- {
- // copy the any audio in the internal record buffer to the playback device
- _cmApCopyOut( r, (cmApSample_t*)outPktArray[i].audioBytesPtr, outPktArray[i].begChIdx, outPktArray[i].chCnt, outPktArray[i].audioFramesCnt );
- }
- }
-
- r->phase = hold_phase;
-
- //printf("o %4i in:%4i out:%4i\n",r->bufFullCnt,r->bufInIdx,r->bufOutIdx);
- // count callbacks
- ++r->cbCnt;
- }
- }
- #endif
-
- // print the usage message for cmAudioPortTest.c
- void _cmApPrintUsage( cmRpt_t* rpt )
- {
- char msg[] =
- "cmApPortTest() command switches\n"
- "-r <srate> -c <chcnt> -b <bufcnt> -f <frmcnt> -i <idevidx> -o <odevidx> -t -p -h \n"
- "\n"
- "-r <srate> = sample rate\n"
- "-a <chidx> = first channel\n"
- "-c <chcnt> = audio channels\n"
- "-b <bufcnt> = count of buffers\n"
- "-f <frmcnt> = count of samples per buffer\n"
- "-i <idevidx> = input device index\n"
- "-o <odevidx> = output device index\n"
- "-p = print report but do not start audio devices\n"
- "-h = print this usage message\n";
-
- cmRptPrintf(rpt,msg);
- }
-
- // Get a command line option.
- int _cmApGetOpt( int argc, const char* argv[], const char* label, int defaultVal, bool boolFl )
- {
- int i = 0;
- for(; i<argc; ++i)
- if( strcmp(label,argv[i]) == 0 )
- {
- if(boolFl)
- return 1;
-
- if( i == (argc-1) )
- return defaultVal;
-
- return atoi(argv[i+1]);
- }
-
- return defaultVal;
- }
-
- unsigned _cmGlobalInDevIdx = 0;
- unsigned _cmGlobalOutDevIdx = 0;
-
- void _cmApPortCb2( cmApAudioPacket_t* inPktArray, unsigned inPktCnt, cmApAudioPacket_t* outPktArray, unsigned outPktCnt )
- {
- cmApBufInputToOutput( _cmGlobalInDevIdx, _cmGlobalOutDevIdx );
-
- cmApBufUpdate( inPktArray, inPktCnt, outPktArray, outPktCnt );
- }
-
- // Audio Port testing function
- int cmApPortTest( bool runFl, cmRpt_t* rpt, int argc, const char* argv[] )
- {
- cmApPortTestRecd r;
- unsigned i;
- int result = 0;
-
- if( _cmApGetOpt(argc,argv,"-h",0,true) )
- _cmApPrintUsage(rpt);
-
-
- runFl = _cmApGetOpt(argc,argv,"-p",!runFl,true)?false:true;
- r.chIdx = _cmApGetOpt(argc,argv,"-a",0,false);
- r.chCnt = _cmApGetOpt(argc,argv,"-c",2,false);
- r.bufCnt = _cmApGetOpt(argc,argv,"-b",3,false);
- r.framesPerCycle = _cmApGetOpt(argc,argv,"-f",512,false);
- r.bufFrmCnt = (r.bufCnt*r.framesPerCycle);
- r.bufSmpCnt = (r.chCnt * r.bufFrmCnt);
- r.logCnt = 100;
- r.meterMs = 50;
-
- cmApSample_t buf[r.bufSmpCnt];
- char log[r.logCnt];
- unsigned ilog[r.logCnt];
-
- r.inDevIdx = _cmGlobalInDevIdx = _cmApGetOpt(argc,argv,"-i",0,false);
- r.outDevIdx = _cmGlobalOutDevIdx = _cmApGetOpt(argc,argv,"-o",2,false);
- r.phase = 0;
- r.frqHz = 2000;
- r.srate = 44100;
- r.bufInIdx = 0;
- r.bufOutIdx = 0;
- r.bufFullCnt = 0;
- r.logIdx = 0;
-
- r.buf = buf;
- r.log = log;
- r.ilog = ilog;
- r.cbCnt = 0;
-
- cmRptPrintf(rpt,"%s in:%i out:%i chidx:%i chs:%i bufs=%i frm=%i rate=%f\n",runFl?"exec":"rpt",r.inDevIdx,r.outDevIdx,r.chIdx,r.chCnt,r.bufCnt,r.framesPerCycle,r.srate);
-
- // allocate the non-real-time port
- if( cmApNrtAllocate(rpt) != kOkApRC )
- {
- cmRptPrintf(rpt,"Non-real-time system allocation failed.");
- result = 1;
- goto errLabel;
- }
-
- // initialize the audio device interface
- if( cmApInitialize(rpt) != kOkApRC )
- {
- cmRptPrintf(rpt,"Initialize failed.\n");
- result = 1;
- goto errLabel;
- }
-
- // report the current audio device configuration
- for(i=0; i<cmApDeviceCount(); ++i)
- {
- cmRptPrintf(rpt,"%i [in: chs=%i frames=%i] [out: chs=%i frames=%i] srate:%f %s\n",i,cmApDeviceChannelCount(i,true),cmApDeviceFramesPerCycle(i,true),cmApDeviceChannelCount(i,false),cmApDeviceFramesPerCycle(i,false),cmApDeviceSampleRate(i),cmApDeviceLabel(i));
- }
- // report the current audio devices using the audio port interface function
- cmApReport(rpt);
-
- if( runFl )
- {
- // initialize the audio bufer
- cmApBufInitialize( cmApDeviceCount(), r.meterMs );
-
- // setup the buffer for the output device
- cmApBufSetup( r.outDevIdx, r.srate, r.framesPerCycle, r.bufCnt, cmApDeviceChannelCount(r.outDevIdx,true), r.framesPerCycle, cmApDeviceChannelCount(r.outDevIdx,false), r.framesPerCycle );
-
- // setup the buffer for the input device
- if( r.inDevIdx != r.outDevIdx )
- cmApBufSetup( r.inDevIdx, r.srate, r.framesPerCycle, r.bufCnt, cmApDeviceChannelCount(r.inDevIdx,true), r.framesPerCycle, cmApDeviceChannelCount(r.inDevIdx,false), r.framesPerCycle );
-
- // setup an output device
- if(cmApDeviceSetup(r.outDevIdx,r.srate,r.framesPerCycle,_cmApPortCb2,&r) != kOkApRC )
- cmRptPrintf(rpt,"Out device setup failed.\n");
- else
- // setup an input device
- if( cmApDeviceSetup(r.inDevIdx,r.srate,r.framesPerCycle,_cmApPortCb2,&r) != kOkApRC )
- cmRptPrintf(rpt,"In device setup failed.\n");
- else
- // start the input device
- if( cmApDeviceStart(r.inDevIdx) != kOkApRC )
- cmRptPrintf(rpt,"In device start failed.\n");
- else
- // start the output device
- if( cmApDeviceStart(r.outDevIdx) != kOkApRC )
- cmRptPrintf(rpt,"Out Device start failed.\n");
-
-
- cmRptPrintf(rpt,"q=quit O/o output tone, I/i input tone P/p pass\n");
- char c;
- while((c=getchar()) != 'q')
- {
- //cmApAlsaDeviceRtReport(rpt,r.outDevIdx);
-
- switch(c)
- {
- case 'i':
- case 'I':
- cmApBufEnableTone(r.inDevIdx,-1,kInApFl | (c=='I'?kEnableApFl:0));
- break;
-
- case 'o':
- case 'O':
- cmApBufEnableTone(r.outDevIdx,-1,kOutApFl | (c=='O'?kEnableApFl:0));
- break;
-
- case 'p':
- case 'P':
- cmApBufEnablePass(r.outDevIdx,-1,kOutApFl | (c=='P'?kEnableApFl:0));
- break;
-
- case 's':
- cmApBufReport(rpt);
- break;
- }
-
- }
-
- // stop the input device
- if( cmApDeviceIsStarted(r.inDevIdx) )
- if( cmApDeviceStop(r.inDevIdx) != kOkApRC )
- cmRptPrintf(rpt,"In device stop failed.\n");
-
- // stop the output device
- if( cmApDeviceIsStarted(r.outDevIdx) )
- if( cmApDeviceStop(r.outDevIdx) != kOkApRC )
- cmRptPrintf(rpt,"Out device stop failed.\n");
- }
-
- errLabel:
-
- // release any resources held by the audio port interface
- if( cmApFinalize() != kOkApRC )
- cmRptPrintf(rpt,"Finalize failed.\n");
-
- cmApBufFinalize();
-
- cmApNrtFree();
-
- // report the count of audio buffer callbacks
- cmRptPrintf(rpt,"cb count:%i\n", r.cbCnt );
- //for(i=0; i<_logCnt; ++i)
- // cmRptPrintf(rpt,"%c(%i)",_log[i],_ilog[i]);
- //cmRptPrintf(rpt,"\n");
-
-
- return result;
- }
-
- /// [cmAudioPortExample]
-
-
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