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libcm is a C development framework with an emphasis on audio signal processing applications.
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libcm/src/cmAudioNrtDev.c

cmAudioNrtDev.c 8.3KB
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  1. #include "cmGlobal.h"

  2. #include "cmFloatTypes.h"

  3. #include "cmRpt.h"

  4. #include "cmErr.h"

  5. #include "cmCtx.h"

  6. #include "cmMem.h"

  7. #include "cmMallocDebug.h"

  8. #include "cmTime.h"

  9. #include "cmAudioPort.h"

  10. #include "cmAudioNrtDev.h"

  11. #include "cmThread.h" 

  12. 

  13. enum

  14. {

  15.   kStartedApNrtFl = 0x01,

  16.   kInStateApNrtFl = 0x02

  17. };

  18. 

  19. typedef struct

  20. {

  21.   unsigned phase;

  22.   bool     implFl;

  23.   double   gain;

  24. } cmApNrtCh_t;

  25. 

  26. typedef struct cmApNrtDev_str

  27. {

  28.   unsigned               flags;

  29.   unsigned               devIdx;       // nrt device index

  30.   unsigned               baseApDevIdx; // global audio device index for first nrt device

  31.   cmChar_t*              label;         

  32.   unsigned               iChCnt;

  33.   unsigned               oChCnt;

  34.   double                 srate;

  35.   unsigned               fpc;   

  36.   cmThreadH_t            thH;

  37.   cmApCallbackPtr_t      cbPtr;

  38.   void*                  cbArg;

  39.   unsigned               cbPeriodMs;

  40.   struct cmApNrtDev_str* link;

  41.   unsigned               curTimeSmp;

  42.   cmApNrtCh_t*           iChArray;

  43.   cmApNrtCh_t*           oChArray;

  44. } cmApNrtDev_t;

  45. 

  46. typedef struct

  47. {

  48.   cmErr_t       err;

  49.   unsigned      devCnt;

  50.   cmApNrtDev_t* devs;

  51.   unsigned      baseApDevIdx;

  52. } cmApNrt_t;

  53. 

  54. cmApNrt_t* _cmNrt = NULL;

  55. 

  56. cmApNrtDev_t* _cmApNrtIndexToDev( unsigned idx )

  57. {

  58.   cmApNrtDev_t* dp = _cmNrt->devs;

  59.   unsigned i;

  60.   for(i=0; dp!=NULL && i<idx; ++i)

  61.     dp = dp->link;

  62. 

  63.   assert( dp != NULL );

  64.   return dp;

  65. }

  66. 

  67. void cmApNrtGenImpulseCh( cmApNrtDev_t* dp, unsigned chIdx, cmSample_t* buf, unsigned chCnt, unsigned frmCnt )

  68. {

  69.   double   periodMs  = 500;    // impulse period

  70.   double   durMs     = 50;      // impulse length

  71.   double   loDb      = -90.0;

  72.   double   hiDb      = -20.0;

  73.   double   loLin     = pow(10.0,loDb/20.0);

  74.   double   hiLin     = pow(10.0,hiDb/20.0);

  75.   unsigned periodSmp = (unsigned)(periodMs * dp->srate / 1000.0);

  76.   unsigned durSmp    = (unsigned)(   durMs * dp->srate / 1000.0);

  77.   

  78.   assert( chIdx < chCnt );

  79. 

  80.   cmApNrtCh_t* cp = dp->iChArray + chIdx;

  81.   cmSample_t*  sp = buf + chIdx;

  82. 

  83.   unsigned i;

  84.   for(i=0; i<frmCnt; ++i, sp+=chCnt )

  85.   {

  86.     unsigned limit = periodSmp;

  87.     double   gain  = loLin;

  88. 

  89.     cp->phase += 1;

  90. 

  91.     if( cp->implFl )

  92.     {

  93.       gain  = cp->gain;

  94.       limit = durSmp;

  95.     }

  96. 

  97.     *sp = (gain * 2.0 * rand()/RAND_MAX) - 1.0;

  98. 

  99.     if( cp->phase > limit )

  100.     {

  101.       cp->phase  = 0;

  102.       cp->implFl = !cp->implFl;

  103. 

  104.       if( cp->implFl )

  105.         cp->gain = loLin + (hiLin - loLin) * rand()/RAND_MAX ;

  106.       

  107.     }

  108. 

  109.   }

  110. 

  111. }

  112. 

  113. void cmApNrtGenImpulse( cmApNrtDev_t* dp, cmSample_t* buf, unsigned chCnt, unsigned frmCnt )

  114. {

  115.   unsigned i=0;

  116.   for(; i<chCnt; ++i)

  117.     cmApNrtGenImpulseCh(dp,i,buf,chCnt,frmCnt);

  118. }

  119. 

  120. void cmApNrtGenSamples( cmApNrtDev_t* dp, cmSample_t* buf, unsigned chCnt, unsigned frmCnt )

  121. {

  122.   memset(buf,0,chCnt*frmCnt*sizeof(cmSample_t));

  123. 

  124.   cmApNrtGenImpulse(dp,buf,chCnt,frmCnt);

  125. 

  126.   dp->curTimeSmp += frmCnt;

  127. } 

  128. 

  129. // return 'false' to terminate otherwise return 'true'.

  130. bool cmApNrtThreadFunc(void* param)

  131. {

  132.   cmApNrtDev_t* dp = (cmApNrtDev_t*)param;

  133. 

  134.   cmSleepUs( dp->cbPeriodMs * 1000 );

  135. 

  136. 

  137.   cmApAudioPacket_t pkt;

  138.   bool              inFl = cmIsFlag(dp->flags,kInStateApNrtFl);  

  139. 

  140.   pkt.devIdx         = dp->devIdx + dp->baseApDevIdx;

  141.   pkt.begChIdx       = 0;

  142.   pkt.audioFramesCnt = dp->fpc;

  143.   pkt.bitsPerSample  = 32;

  144.   pkt.flags          = kInterleavedApFl | kFloatApFl;

  145.   pkt.userCbPtr      = dp->cbArg;

  146. 

  147.   if( inFl )

  148.   {

  149.     unsigned   bn = dp->iChCnt * dp->fpc;

  150.     cmSample_t b[ bn ];

  151. 

  152.     pkt.chCnt         = dp->iChCnt;

  153.     pkt.audioBytesPtr = b;

  154. 

  155.     cmApNrtGenSamples(dp,b,dp->iChCnt,dp->fpc);

  156.   

  157.     dp->cbPtr(&pkt,1,NULL,0 );  // send the samples to the application

  158.   }

  159.   else

  160.   {

  161.     unsigned   bn = dp->oChCnt * dp->fpc;

  162.     cmSample_t b[ bn ];

  163. 

  164.     pkt.chCnt         = dp->oChCnt;

  165.     pkt.audioBytesPtr = b;

  166. 

  167.     dp->cbPtr(NULL,0,&pkt,1 );  // recv the samples from the application

  168.   }

  169.   

  170.   dp->flags = cmTogFlag(dp->flags,kInStateApNrtFl);

  171. 

  172.   return true;

  173. }

  174. 

  175. cmApRC_t cmApNrtAllocate( cmRpt_t* rpt )

  176. {

  177.   if( _cmNrt != NULL )

  178.     cmApNrtFree();

  179. 

  180.   _cmNrt = cmMemAllocZ(cmApNrt_t,1);

  181. 

  182.   cmErrSetup(&_cmNrt->err,rpt,"cmAudioNrtDev");

  183.   _cmNrt->devCnt       = 0;

  184.   _cmNrt->devs         = NULL;

  185.   _cmNrt->baseApDevIdx = 0;

  186.   return kOkApRC;

  187. }

  188. 

  189. cmApRC_t cmApNrtFree()

  190. {

  191.   cmApRC_t rc = kOkApRC;

  192.   cmApNrtDev_t* dp = _cmNrt->devs;

  193.   while( dp != NULL )

  194.   {

  195.     cmApNrtDev_t* np = dp->link;

  196. 

  197.     if( cmThreadIsValid(dp->thH) ) 

  198.       if( cmThreadDestroy(&dp->thH) != kOkThRC )

  199.         rc = cmErrMsg(&_cmNrt->err,kThreadFailApRC,"Thread destroy failed.");

  200. 

  201.     cmMemFree(dp->label);

  202.     cmMemFree(dp->iChArray);

  203.     cmMemFree(dp->oChArray);

  204.     cmMemFree(dp);

  205.     dp = np;

  206.   }

  207. 

  208.   if( rc == kOkApRC )

  209.   {

  210.     cmMemPtrFree(&_cmNrt);

  211.   }

  212. 

  213.   return rc;

  214. }

  215. 

  216. cmApRC_t cmApNrtCreateDevice( 

  217.   const cmChar_t* label,

  218.   double          srate,

  219.   unsigned        iChCnt,

  220.   unsigned        oChCnt,

  221.   unsigned        cbPeriodMs )

  222. {

  223.   cmApRC_t rc = kOkApRC;

  224. 

  225.   cmApNrtDev_t* dp = cmMemAllocZ(cmApNrtDev_t,1);

  226. 

  227.   dp->devIdx       = _cmNrt->devCnt;

  228.   dp->baseApDevIdx = _cmNrt->baseApDevIdx;

  229.   dp->label        = cmMemAllocStr(label);

  230.   dp->iChCnt       = iChCnt;

  231.   dp->oChCnt       = oChCnt;

  232.   dp->srate        = srate;

  233.   dp->fpc          = 0;

  234.   dp->cbPeriodMs   = cbPeriodMs;

  235.   dp->cbPtr        = NULL;

  236.   dp->cbArg        = NULL;

  237.   dp->link         = NULL;

  238.   dp->iChArray    = iChCnt==0 ? NULL : cmMemAllocZ(cmApNrtCh_t,iChCnt);

  239.   dp->oChArray    = oChCnt==0 ? NULL : cmMemAllocZ(cmApNrtCh_t,oChCnt);

  240. 

  241.   // attach the new recd to the end of the list

  242.   cmApNrtDev_t* np = _cmNrt->devs;

  243.   while( np != NULL && np->link != NULL )

  244.     np = np->link;

  245. 

  246.   if( np == NULL )

  247.     _cmNrt->devs = dp;

  248.   else

  249.     np->link = dp;

  250. 

  251.   if( cmThreadCreate( &dp->thH, cmApNrtThreadFunc, dp, _cmNrt->err.rpt ) != kOkThRC )

  252.     rc = cmErrMsg(&_cmNrt->err,kThreadFailApRC,"Thread create failed.");

  253. 

  254.   ++_cmNrt->devCnt;

  255.   return rc;

  256. }  

  257. 

  258. cmApRC_t      cmApNrtInitialize( cmRpt_t* rpt, unsigned baseApDevIdx )

  259. {

  260.   // set the baseApDevIdx for each device 

  261.   cmApNrtDev_t* dp = _cmNrt->devs;

  262.   for(; dp!=NULL; dp=dp->link)

  263.     dp->baseApDevIdx = baseApDevIdx;

  264. 

  265.   // store the baseApDevIdx for any devices that may be created after initialization

  266.   _cmNrt->baseApDevIdx = baseApDevIdx;

  267. 

  268.   return kOkApRC;

  269. }

  270. 

  271. cmApRC_t      cmApNrtFinalize()

  272. {

  273.   return kOkApRC;

  274. }

  275. 

  276. unsigned      cmApNrtDeviceCount()

  277. { return _cmNrt==NULL ? 0 : _cmNrt->devCnt; }

  278. 

  279. const char*   cmApNrtDeviceLabel(          unsigned devIdx )

  280. {

  281.   assert( devIdx < _cmNrt->devCnt );

  282.   const cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  283.   return dp->label;

  284. }

  285. 

  286. unsigned      cmApNrtDeviceChannelCount(   unsigned devIdx, bool inputFl )

  287. {

  288.   assert( devIdx < _cmNrt->devCnt );

  289.   const cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  290.   return inputFl ? dp->iChCnt : dp->oChCnt;

  291. }

  292. 

  293. double        cmApNrtDeviceSampleRate(     unsigned devIdx )

  294. {

  295.   assert( devIdx < _cmNrt->devCnt );

  296.   const cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  297.   return dp->srate;

  298. }

  299. 

  300. unsigned      cmApNrtDeviceFramesPerCycle( unsigned devIdx, bool inputFl )

  301. {

  302.   assert( devIdx < _cmNrt->devCnt );

  303.   const cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  304.   return dp->fpc;

  305. }

  306. 

  307. cmApRC_t      cmApNrtDeviceSetup(          

  308.   unsigned          devIdx, 

  309.   double            srate, 

  310.   unsigned          framesPerCycle, 

  311.   cmApCallbackPtr_t callbackPtr,

  312.   void*             userCbPtr )

  313. {

  314.   assert( devIdx < _cmNrt->devCnt );

  315.   cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  316.   dp->srate        = srate;

  317.   dp->fpc          = framesPerCycle;

  318.   dp->cbPtr        = callbackPtr;

  319.   dp->cbArg        = userCbPtr;

  320.   return kOkApRC;

  321. }

  322. 

  323. cmApRC_t      cmApNrtDeviceStart( unsigned devIdx )

  324. {

  325.   assert( devIdx < _cmNrt->devCnt );

  326.   cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  327. 

  328.   dp->curTimeSmp = 0;

  329. 

  330.   if( cmThreadPause( dp->thH, 0 ) != kOkThRC )

  331.     return cmErrMsg(&_cmNrt->err,kThreadFailApRC,"Thread start failed.");

  332.   

  333.   dp->flags = cmSetFlag(dp->flags,kStartedApNrtFl);

  334.   

  335.   return kOkApRC;

  336. }

  337. 

  338. cmApRC_t      cmApNrtDeviceStop(  unsigned devIdx )

  339. {

  340.   assert( devIdx < _cmNrt->devCnt );

  341.   cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  342. 

  343.   if( cmThreadPause( dp->thH, kPauseThFl ) != kOkThRC )

  344.     return cmErrMsg(&_cmNrt->err,kThreadFailApRC,"Thread pause failed.");

  345. 

  346.   dp->flags = cmClrFlag(dp->flags,kStartedApNrtFl);

  347. 

  348.   return kOkApRC;

  349. }

  350. 

  351. bool          cmApNrtDeviceIsStarted( unsigned devIdx )

  352. { 

  353.   assert( devIdx < _cmNrt->devCnt );

  354.   const cmApNrtDev_t* dp = _cmApNrtIndexToDev(devIdx);

  355.   return cmIsFlag(dp->flags,kStartedApNrtFl); 

  356. }