libcm is a C development framework with an emphasis on audio signal processing applications.
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cmDspKr.c 126KB

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  1. #include "cmPrefix.h"
  2. #include "cmGlobal.h"
  3. #include "cmFloatTypes.h"
  4. #include "cmComplexTypes.h"
  5. #include "cmRpt.h"
  6. #include "cmErr.h"
  7. #include "cmCtx.h"
  8. #include "cmMem.h"
  9. #include "cmMallocDebug.h"
  10. #include "cmLinkedHeap.h"
  11. #include "cmFile.h"
  12. #include "cmSymTbl.h"
  13. #include "cmJson.h"
  14. #include "cmText.h"
  15. #include "cmPrefs.h"
  16. #include "cmDspValue.h"
  17. #include "cmMsgProtocol.h"
  18. #include "cmThread.h"
  19. #include "cmUdpPort.h"
  20. #include "cmUdpNet.h"
  21. //( { file_desc:"'snap' audio effects performance analysis units." kw:[snap]}
  22. #include "cmTime.h"
  23. #include "cmAudioSys.h"
  24. #include "cmDspCtx.h"
  25. #include "cmDspClass.h"
  26. #include "cmDspStore.h"
  27. #include "cmDspUi.h"
  28. #include "cmDspSys.h"
  29. #include "cmMath.h"
  30. #include "cmAudioFile.h"
  31. #include "cmFileSys.h"
  32. #include "cmProcObj.h"
  33. #include "cmProcTemplateMain.h"
  34. #include "cmProc.h"
  35. #include "cmMidi.h"
  36. #include "cmProc2.h"
  37. #include "cmVectOpsTemplateMain.h"
  38. #include "cmAudioFile.h"
  39. #include "cmMidiFile.h"
  40. #include "cmTimeLine.h"
  41. #include "cmScore.h"
  42. #include "cmProc4.h"
  43. #include "cmProc5.h"
  44. #include "cmSyncRecd.h"
  45. #include "cmTakeSeqBldr.h"
  46. //------------------------------------------------------------------------------------------------------------
  47. //)
  48. //( { label:cmDspKr file_desc:"Spectral non-linear distortion effect." kw:[sunit] }
  49. enum
  50. {
  51. kWndSmpCntKrId,
  52. kHopFactKrId,
  53. kModeKrId,
  54. kThreshKrId,
  55. kLwrSlopeKrId,
  56. kUprSlopeKrId,
  57. kOffsetKrId,
  58. kInvertKrId,
  59. kBypassKrId,
  60. kWetKrId,
  61. kAudioInKrId,
  62. kAudioOutKrId
  63. };
  64. typedef struct
  65. {
  66. cmDspInst_t inst;
  67. cmCtx* ctx;
  68. cmSpecDist_t* sdp;
  69. } cmDspKr_t;
  70. cmDspClass_t _cmKrDC;
  71. cmDspInst_t* _cmDspKrAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  72. {
  73. cmDspVarArg_t args[] =
  74. {
  75. { "wndn", kWndSmpCntKrId, 0, 0, kInDsvFl | kUIntDsvFl | kReqArgDsvFl, "Window sample count" },
  76. { "hopf", kHopFactKrId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Hop factor" },
  77. { "mode", kModeKrId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Mode 0=bypass 1=basic 2=spec cnt 3=amp env" },
  78. { "thrh", kThreshKrId, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Threshold" },
  79. { "lwrs", kLwrSlopeKrId, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Lower Slope"},
  80. { "uprs", kUprSlopeKrId, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Upper Slope"},
  81. { "offs", kOffsetKrId, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Offset"},
  82. { "invt", kInvertKrId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Invert"},
  83. { "bypass", kBypassKrId, 0, 0, kInDsvFl | kBoolDsvFl | kOptArgDsvFl, "Bypass enable flag." },
  84. { "wet", kWetKrId, 0, 0, kInDsvFl | kSampleDsvFl, "Wet mix level."},
  85. { "in", kAudioInKrId, 0, 0, kInDsvFl | kAudioBufDsvFl, "Audio Input" },
  86. { "out", kAudioOutKrId, 0, 1, kOutDsvFl | kAudioBufDsvFl, "Audio Output" },
  87. { NULL, 0, 0, 0, 0 }
  88. };
  89. cmDspKr_t* p = cmDspInstAlloc(cmDspKr_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  90. unsigned defWndSmpCnt = cmDspDefaultUInt(&p->inst,kWndSmpCntKrId);
  91. unsigned wndSmpCnt = cmNextPowerOfTwo( defWndSmpCnt );
  92. cmDspSetDefaultUInt( ctx,&p->inst, kWndSmpCntKrId, defWndSmpCnt, wndSmpCnt );
  93. cmDspSetDefaultUInt( ctx,&p->inst, kHopFactKrId, 0, 4 );
  94. cmDspSetDefaultUInt( ctx,&p->inst, kModeKrId, 0, kBasicModeSdId );
  95. cmDspSetDefaultDouble( ctx,&p->inst, kThreshKrId, 0, 60.0 );
  96. cmDspSetDefaultDouble( ctx,&p->inst, kLwrSlopeKrId, 0, 2.0 );
  97. cmDspSetDefaultDouble( ctx,&p->inst, kUprSlopeKrId, 0, 0.0 );
  98. cmDspSetDefaultDouble( ctx,&p->inst, kOffsetKrId, 0, 30.0);
  99. cmDspSetDefaultUInt( ctx,&p->inst, kInvertKrId, 0, 0 );
  100. cmDspSetDefaultUInt( ctx,&p->inst, kBypassKrId, 0, 0 );
  101. cmDspSetDefaultSample( ctx,&p->inst, kWetKrId, 0, 1.0);
  102. //_cmDspKrCmInit(ctx,p); // initialize the cm library
  103. p->ctx = cmCtxAlloc(NULL,ctx->rpt,ctx->lhH,ctx->stH);
  104. return &p->inst;
  105. }
  106. cmDspRC_t _cmDspKrFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  107. {
  108. cmDspRC_t rc = kOkDspRC;
  109. cmDspKr_t* p = (cmDspKr_t*)inst;
  110. cmSpecDistFree(&p->sdp);
  111. cmCtxFree(&p->ctx);
  112. //_cmDspKrCmFinal(ctx,p); // finalize the cm library
  113. return rc;
  114. }
  115. cmDspRC_t _cmDspKrSetup(cmDspCtx_t* ctx, cmDspKr_t* p )
  116. {
  117. cmDspRC_t rc = kOkDspRC;
  118. unsigned wndSmpCnt = cmDspUInt(&p->inst,kWndSmpCntKrId);
  119. unsigned hopFact = cmDspUInt(&p->inst,kHopFactKrId);
  120. unsigned olaWndTypeId =kHannWndId;
  121. cmSpecDistFree(&p->sdp);
  122. p->sdp = cmSpecDistAlloc(p->ctx, NULL, cmDspSamplesPerCycle(ctx), cmDspSampleRate(ctx), wndSmpCnt, hopFact, olaWndTypeId);
  123. assert(p->sdp != NULL );
  124. if((rc = cmDspZeroAudioBuf(ctx,&p->inst,kAudioOutKrId)) != kOkDspRC )
  125. return rc;
  126. return rc;
  127. }
  128. cmDspRC_t _cmDspKrReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  129. {
  130. cmDspKr_t* p = (cmDspKr_t*)inst;
  131. cmDspRC_t rc;
  132. if((rc = cmDspApplyAllDefaults(ctx,inst)) != kOkDspRC )
  133. return rc;
  134. return _cmDspKrSetup(ctx,p);
  135. }
  136. cmDspRC_t _cmDspKrExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  137. {
  138. cmDspKr_t* p = (cmDspKr_t*)inst;
  139. cmDspRC_t rc = kOkDspRC;
  140. unsigned iChIdx = 0;
  141. const cmSample_t* ip = cmDspAudioBuf(ctx,inst,kAudioInKrId,iChIdx);
  142. unsigned iSmpCnt = cmDspVarRows(inst,kAudioInKrId);
  143. // if no connected
  144. if( iSmpCnt == 0 )
  145. return rc;
  146. unsigned oChIdx = 0;
  147. cmSample_t* op = cmDspAudioBuf(ctx,inst,kAudioOutKrId,oChIdx);
  148. unsigned oSmpCnt = cmDspVarRows(inst,kAudioOutKrId);
  149. const cmSample_t* sp;
  150. cmSample_t wet = cmDspSample(inst,kWetKrId);
  151. cmSpecDistExec(p->sdp,ip,iSmpCnt);
  152. if((sp = cmSpecDistOut(p->sdp)) != NULL )
  153. {
  154. cmVOS_MultVVS(op,oSmpCnt,sp,wet);
  155. }
  156. if( wet<1.0 )
  157. cmVOS_MultSumVVS(op,oSmpCnt,ip,1.0-wet);
  158. return rc;
  159. }
  160. cmDspRC_t _cmDspKrRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  161. {
  162. cmDspKr_t* p = (cmDspKr_t*)inst;
  163. cmDspRC_t rc = kOkDspRC;
  164. cmDspSetEvent(ctx,inst,evt);
  165. switch( evt->dstVarId )
  166. {
  167. case kWndSmpCntKrId:
  168. case kHopFactKrId:
  169. _cmDspKrSetup(ctx,p);
  170. // THIS IS A HACK
  171. // WHEN WND OR HOP CHANGE THE RESULTING CHANGES
  172. // SHOULD BE ISOLATED IN cmSpecDist() AND THE
  173. // CURRENT STATE OF THE PARAMETERS SHOULD NOT BE
  174. // LOST - IF THE CHANGES WERE ISOLATED WITHIN PVANL
  175. // AND PVSYN IT MIGHT BE POSSIBLE TO DO WITH
  176. // MINIMAL AUDIO INTERUPTION.
  177. p->sdp->mode = cmDspUInt(inst,kModeKrId);
  178. p->sdp->thresh = cmDspDouble(inst,kThreshKrId);
  179. p->sdp->uprSlope = cmDspDouble(inst,kUprSlopeKrId);
  180. p->sdp->lwrSlope = cmDspDouble(inst,kLwrSlopeKrId);
  181. p->sdp->offset = cmDspDouble(inst,kOffsetKrId);
  182. p->sdp->invertFl = cmDspUInt(inst,kInvertKrId)!=0;
  183. printf("wsn:%i hsn:%i\n",p->sdp->wndSmpCnt,p->sdp->hopSmpCnt);
  184. break;
  185. case kModeKrId:
  186. p->sdp->mode = cmDspUInt(inst,kModeKrId);
  187. printf("mode:%i\n",p->sdp->mode);
  188. break;
  189. case kThreshKrId:
  190. p->sdp->thresh = cmDspDouble(inst,kThreshKrId);
  191. //printf("thr:p:%p sdp:%p %f\n",p,p->sdp,p->sdp->thresh);
  192. break;
  193. case kUprSlopeKrId:
  194. p->sdp->uprSlope = cmDspDouble(inst,kUprSlopeKrId);
  195. //printf("upr slope:%f\n",p->sdp->uprSlope);
  196. break;
  197. case kLwrSlopeKrId:
  198. p->sdp->lwrSlope = cmDspDouble(inst,kLwrSlopeKrId);
  199. //printf("upr slope:%f\n",p->sdp->lwrSlope);
  200. break;
  201. case kOffsetKrId:
  202. p->sdp->offset = cmDspDouble(inst,kOffsetKrId);
  203. break;
  204. case kInvertKrId:
  205. p->sdp->invertFl = cmDspUInt(inst,kInvertKrId)!=0;
  206. break;
  207. case kWetKrId:
  208. break;
  209. default:
  210. { assert(0); }
  211. }
  212. return rc;
  213. }
  214. cmDspClass_t* cmKrClassCons( cmDspCtx_t* ctx )
  215. {
  216. cmDspClassSetup(&_cmKrDC,ctx,"Kr",
  217. NULL,
  218. _cmDspKrAlloc,
  219. _cmDspKrFree,
  220. _cmDspKrReset,
  221. _cmDspKrExec,
  222. _cmDspKrRecv,
  223. NULL,NULL,
  224. "Fourier based non-linear transformer.");
  225. return &_cmKrDC;
  226. }
  227. //------------------------------------------------------------------------------------------------------------
  228. //)
  229. //( { label:cmDspKr2 file_desc:"Spectral non-linear distortion effect." kw:[sunit] }
  230. enum
  231. {
  232. kWndSmpCntKr2Id,
  233. kHopFactKr2Id,
  234. kCeilKr2Id,
  235. kExpoKr2Id,
  236. kThreshKr2Id,
  237. kLwrSlopeKr2Id,
  238. kUprSlopeKr2Id,
  239. kMixKr2Id,
  240. kWetKr2Id,
  241. kAudioInKr2Id,
  242. kAudioOutKr2Id
  243. };
  244. typedef struct
  245. {
  246. cmDspInst_t inst;
  247. cmCtx* ctx;
  248. cmSpecDist2_t* sdp;
  249. } cmDspKr2_t;
  250. cmDspClass_t _cmKr2DC;
  251. cmDspInst_t* _cmDspKr2Alloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  252. {
  253. cmDspVarArg_t args[] =
  254. {
  255. { "wndn", kWndSmpCntKr2Id, 0, 0, kInDsvFl | kUIntDsvFl | kReqArgDsvFl, "Window sample count" },
  256. { "hopf", kHopFactKr2Id, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Hop factor" },
  257. { "ceil", kCeilKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Ceiling" },
  258. { "expo", kExpoKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Exponent" },
  259. { "thrh", kThreshKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Threshold" },
  260. { "lwrs", kLwrSlopeKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Lower Slope"},
  261. { "uprs", kUprSlopeKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Upper Slope"},
  262. { "mix", kMixKr2Id, 0, 0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Mix"},
  263. { "wet", kWetKr2Id, 0, 0, kInDsvFl | kSampleDsvFl, "Wet mix level."},
  264. { "in", kAudioInKr2Id, 0, 0, kInDsvFl | kAudioBufDsvFl, "Audio Input" },
  265. { "out", kAudioOutKr2Id, 0, 1, kOutDsvFl | kAudioBufDsvFl, "Audio Output" },
  266. { NULL, 0, 0, 0, 0 }
  267. };
  268. cmDspKr2_t* p = cmDspInstAlloc(cmDspKr2_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  269. unsigned defWndSmpCnt = cmDspDefaultUInt(&p->inst,kWndSmpCntKr2Id);
  270. unsigned wndSmpCnt = cmNextPowerOfTwo( defWndSmpCnt );
  271. cmDspSetDefaultUInt( ctx,&p->inst, kWndSmpCntKr2Id, defWndSmpCnt, wndSmpCnt );
  272. cmDspSetDefaultUInt( ctx,&p->inst, kHopFactKr2Id, 0, 4 );
  273. cmDspSetDefaultDouble( ctx,&p->inst, kCeilKr2Id, 0, 20.0 );
  274. cmDspSetDefaultDouble( ctx,&p->inst, kExpoKr2Id, 0, 2.0 );
  275. cmDspSetDefaultDouble( ctx,&p->inst, kThreshKr2Id, 0, 60.0 );
  276. cmDspSetDefaultDouble( ctx,&p->inst, kLwrSlopeKr2Id, 0, 2.0 );
  277. cmDspSetDefaultDouble( ctx,&p->inst, kUprSlopeKr2Id, 0, 0.0 );
  278. cmDspSetDefaultDouble( ctx,&p->inst, kMixKr2Id, 0, 0.0 );
  279. cmDspSetDefaultSample( ctx,&p->inst, kWetKr2Id, 0, 1.0);
  280. //_cmDspKr2CmInit(ctx,p); // initialize the cm library
  281. p->ctx = cmCtxAlloc(NULL,ctx->rpt,ctx->lhH,ctx->stH);
  282. return &p->inst;
  283. }
  284. cmDspRC_t _cmDspKr2Free(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  285. {
  286. cmDspRC_t rc = kOkDspRC;
  287. cmDspKr2_t* p = (cmDspKr2_t*)inst;
  288. cmSpecDist2Free(&p->sdp);
  289. cmCtxFree(&p->ctx);
  290. //_cmDspKr2CmFinal(ctx,p); // finalize the cm library
  291. return rc;
  292. }
  293. cmDspRC_t _cmDspKr2Setup(cmDspCtx_t* ctx, cmDspKr2_t* p )
  294. {
  295. cmDspRC_t rc = kOkDspRC;
  296. unsigned wndSmpCnt = cmDspUInt(&p->inst,kWndSmpCntKr2Id);
  297. unsigned hopFact = cmDspUInt(&p->inst,kHopFactKr2Id);
  298. unsigned olaWndTypeId =kHannWndId;
  299. cmSpecDist2Free(&p->sdp);
  300. p->sdp = cmSpecDist2Alloc(p->ctx, NULL, cmDspSamplesPerCycle(ctx), cmDspSampleRate(ctx), wndSmpCnt, hopFact, olaWndTypeId);
  301. assert(p->sdp != NULL );
  302. if((rc = cmDspZeroAudioBuf(ctx,&p->inst,kAudioOutKr2Id)) != kOkDspRC )
  303. return rc;
  304. return rc;
  305. }
  306. cmDspRC_t _cmDspKr2Reset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  307. {
  308. cmDspKr2_t* p = (cmDspKr2_t*)inst;
  309. cmDspRC_t rc;
  310. if((rc = cmDspApplyAllDefaults(ctx,inst)) != kOkDspRC )
  311. return rc;
  312. return _cmDspKr2Setup(ctx,p);
  313. }
  314. cmDspRC_t _cmDspKr2Exec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  315. {
  316. cmDspKr2_t* p = (cmDspKr2_t*)inst;
  317. cmDspRC_t rc = kOkDspRC;
  318. unsigned iChIdx = 0;
  319. const cmSample_t* ip = cmDspAudioBuf(ctx,inst,kAudioInKr2Id,iChIdx);
  320. unsigned iSmpCnt = cmDspVarRows(inst,kAudioInKr2Id);
  321. // if no connected
  322. if( iSmpCnt == 0 )
  323. return rc;
  324. unsigned oChIdx = 0;
  325. cmSample_t* op = cmDspAudioBuf(ctx,inst,kAudioOutKr2Id,oChIdx);
  326. unsigned oSmpCnt = cmDspVarRows(inst,kAudioOutKr2Id);
  327. const cmSample_t* sp;
  328. cmSample_t wet = cmDspSample(inst,kWetKr2Id);
  329. cmSpecDist2Exec(p->sdp,ip,iSmpCnt);
  330. if((sp = cmSpecDist2Out(p->sdp)) != NULL )
  331. {
  332. cmVOS_MultVVS(op,oSmpCnt,sp,wet);
  333. }
  334. if( wet<1.0 )
  335. cmVOS_MultSumVVS(op,oSmpCnt,ip,1.0-wet);
  336. return rc;
  337. }
  338. cmDspRC_t _cmDspKr2Recv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  339. {
  340. cmDspKr2_t* p = (cmDspKr2_t*)inst;
  341. cmDspRC_t rc = kOkDspRC;
  342. cmDspSetEvent(ctx,inst,evt);
  343. switch( evt->dstVarId )
  344. {
  345. case kWndSmpCntKr2Id:
  346. case kHopFactKr2Id:
  347. _cmDspKr2Setup(ctx,p);
  348. // THIS IS A HACK
  349. // WHEN WND OR HOP CHANGE THE RESULTING CHANGES
  350. // SHOULD BE ISOLATED IN cmSpecDist() AND THE
  351. // CURRENT STATE OF THE PARAMETERS SHOULD NOT BE
  352. // LOST - IF THE CHANGES WERE ISOLATED WITHIN PVANL
  353. // AND PVSYN IT MIGHT BE POSSIBLE TO DO WITH
  354. // MINIMAL AUDIO INTERUPTION.
  355. p->sdp->ceiling = cmDspDouble(inst,kCeilKr2Id);
  356. p->sdp->expo = cmDspDouble(inst,kExpoKr2Id);
  357. p->sdp->thresh = cmDspDouble(inst,kThreshKr2Id);
  358. p->sdp->uprSlope = cmDspDouble(inst,kUprSlopeKr2Id);
  359. p->sdp->lwrSlope = cmDspDouble(inst,kLwrSlopeKr2Id);
  360. p->sdp->mix = cmDspDouble(inst,kMixKr2Id);
  361. printf("wsn:%i hsn:%i\n",p->sdp->wndSmpCnt,p->sdp->hopSmpCnt);
  362. break;
  363. case kCeilKr2Id:
  364. p->sdp->ceiling = cmDspDouble(inst,kCeilKr2Id);
  365. break;
  366. case kExpoKr2Id:
  367. p->sdp->expo = cmDspDouble(inst,kExpoKr2Id);
  368. break;
  369. case kThreshKr2Id:
  370. p->sdp->thresh = cmDspDouble(inst,kThreshKr2Id);
  371. break;
  372. case kUprSlopeKr2Id:
  373. p->sdp->uprSlope = cmDspDouble(inst,kUprSlopeKr2Id);
  374. break;
  375. case kLwrSlopeKr2Id:
  376. p->sdp->lwrSlope = cmDspDouble(inst,kLwrSlopeKr2Id);
  377. break;
  378. case kMixKr2Id:
  379. p->sdp->mix = cmDspDouble(inst,kMixKr2Id);
  380. break;
  381. case kWetKr2Id:
  382. break;
  383. default:
  384. { assert(0); }
  385. }
  386. cmSpecDist2Report(p->sdp);
  387. return rc;
  388. }
  389. cmDspClass_t* cmKr2ClassCons( cmDspCtx_t* ctx )
  390. {
  391. cmDspClassSetup(&_cmKr2DC,ctx,"Kr2",
  392. NULL,
  393. _cmDspKr2Alloc,
  394. _cmDspKr2Free,
  395. _cmDspKr2Reset,
  396. _cmDspKr2Exec,
  397. _cmDspKr2Recv,
  398. NULL,NULL,
  399. "Fourier based non-linear transformer two.");
  400. return &_cmKr2DC;
  401. }
  402. //------------------------------------------------------------------------------------------------------------
  403. //)
  404. //( { label:cmDspTimeLine file_desc:"Time line user interface unit." kw:[sunit] }
  405. enum
  406. {
  407. kTlFileTlId,
  408. kPrefixPathTlId,
  409. kSelTlId,
  410. kMeasTlId,
  411. kCursTlId,
  412. kResetTlId,
  413. kAudFnTlId,
  414. kAudLblTlId,
  415. kMidiFnTlId,
  416. kMidiLblTlId,
  417. kBegAudSmpIdxTlId,
  418. kEndAudSmpIdxTlId,
  419. kBegMidiSmpIdxTlId,
  420. kEndMidiSmpIdxTlId,
  421. };
  422. cmDspClass_t _cmTimeLineDC;
  423. typedef struct
  424. {
  425. cmDspInst_t inst;
  426. cmTlH_t tlH;
  427. unsigned afIdx;
  428. } cmDspTimeLine_t;
  429. cmDspInst_t* _cmDspTimeLineAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  430. {
  431. cmDspVarArg_t args[] =
  432. {
  433. { "tlfile", kTlFileTlId, 0, 0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Time line file." },
  434. { "path", kPrefixPathTlId, 0, 0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Time line data file prefix path" },
  435. { "sel", kSelTlId, 0, 0, kInDsvFl | kOutDsvFl | kUIntDsvFl, "Selected marker id."},
  436. { "meas", kMeasTlId, 0, 0, kInDsvFl | kUIntDsvFl, "Select a bar marker and generate a 'sel' output."},
  437. { "curs", kCursTlId, 0, 0, kInDsvFl | kUIntDsvFl, "Current audio file index."},
  438. { "reset", kResetTlId, 0, 0, kInDsvFl | kSymDsvFl, "Resend all outputs." },
  439. { "afn", kAudFnTlId, 0, 0, kOutDsvFl | kStrzDsvFl, "Selected Audio file." },
  440. { "albl", kAudLblTlId, 0, 0, kOutDsvFl | kStrzDsvFl, "Select Audio file time line label."},
  441. { "mfn", kMidiFnTlId, 0, 0, kOutDsvFl | kStrzDsvFl, "Selected MIDI file." },
  442. { "mlbl", kMidiLblTlId, 0, 0, kOutDsvFl | kStrzDsvFl, "Select MIDI file time line label."},
  443. { "absi", kBegAudSmpIdxTlId, 0, 0, kOutDsvFl | kIntDsvFl, "Begin audio sample index."},
  444. { "aesi", kEndAudSmpIdxTlId, 0, 0, kOutDsvFl | kIntDsvFl, "End audio sample index."},
  445. { "mbsi", kBegMidiSmpIdxTlId, 0, 0, kOutDsvFl | kIntDsvFl, "Begin MIDI sample index."},
  446. { "mesi", kEndMidiSmpIdxTlId, 0, 0, kOutDsvFl | kIntDsvFl, "End MIDI sample index."},
  447. { NULL, 0, 0, 0, 0 }
  448. };
  449. cmDspTimeLine_t* p = cmDspInstAlloc(cmDspTimeLine_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  450. cmDspSetDefaultUInt( ctx, &p->inst, kSelTlId, 0, cmInvalidId);
  451. cmDspSetDefaultUInt( ctx, &p->inst, kCursTlId, 0, 0);
  452. cmDspSetDefaultStrcz(ctx, &p->inst, kAudFnTlId, NULL, "");
  453. cmDspSetDefaultStrcz(ctx, &p->inst, kAudLblTlId, NULL, "");
  454. cmDspSetDefaultStrcz(ctx, &p->inst, kMidiFnTlId, NULL, "");
  455. cmDspSetDefaultStrcz(ctx, &p->inst, kMidiLblTlId, NULL, "");
  456. cmDspSetDefaultInt( ctx, &p->inst, kBegAudSmpIdxTlId, 0, cmInvalidIdx);
  457. cmDspSetDefaultInt( ctx, &p->inst, kEndAudSmpIdxTlId, 0, cmInvalidIdx);
  458. cmDspSetDefaultInt( ctx, &p->inst, kBegMidiSmpIdxTlId, 0, cmInvalidIdx);
  459. cmDspSetDefaultInt( ctx, &p->inst, kEndMidiSmpIdxTlId, 0, cmInvalidIdx);
  460. // create the UI control
  461. cmDspUiTimeLineCreate(ctx,&p->inst,kTlFileTlId,kPrefixPathTlId,kSelTlId,kMeasTlId,kCursTlId);
  462. p->tlH = cmTimeLineNullHandle;
  463. return &p->inst;
  464. }
  465. cmDspRC_t _cmDspTimeLineFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  466. {
  467. cmDspRC_t rc = kOkDspRC;
  468. cmDspTimeLine_t* p = (cmDspTimeLine_t*)inst;
  469. if( cmTimeLineFinalize(&p->tlH) != kOkTlRC )
  470. return cmErrMsg(&inst->classPtr->err, kInstFinalFailDspRC, "Time-line finalize failed.");
  471. return rc;
  472. }
  473. cmDspRC_t _cmDspTimeLineReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  474. {
  475. cmDspRC_t rc = kOkDspRC;
  476. cmDspTimeLine_t* p = (cmDspTimeLine_t*)inst;
  477. cmDspApplyAllDefaults(ctx,inst);
  478. const cmChar_t* tlFn;
  479. const cmChar_t* tlPrePath = cmDspStrcz(inst,kPrefixPathTlId);
  480. if((tlFn = cmDspStrcz(inst, kTlFileTlId )) != NULL )
  481. if( cmTimeLineInitializeFromFile(ctx->cmCtx, &p->tlH, NULL, NULL, tlFn, tlPrePath ) != kOkTlRC )
  482. rc = cmErrMsg(&inst->classPtr->err, kInstResetFailDspRC, "Time-line file open failed.");
  483. return rc;
  484. }
  485. cmDspRC_t _cmDspTimeLineRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  486. {
  487. cmDspTimeLine_t* p = (cmDspTimeLine_t*)inst;
  488. switch( evt->dstVarId )
  489. {
  490. case kPrefixPathTlId:
  491. cmDspSetEvent(ctx,inst,evt);
  492. break;
  493. case kCursTlId:
  494. cmDspSetEvent(ctx,inst,evt);
  495. break;
  496. case kResetTlId:
  497. case kSelTlId:
  498. {
  499. unsigned markerId;
  500. cmDspSetEvent(ctx,inst,evt);
  501. // get the id of the selected marker
  502. if((markerId = cmDspUInt(inst,kSelTlId)) != cmInvalidId )
  503. {
  504. // get the marker object
  505. cmTlObj_t* op;
  506. if((op = cmTimeLineIdToObj(p->tlH, cmInvalidId, markerId )) != NULL )
  507. {
  508. assert(op->typeId == kMarkerTlId || op->typeId == kMidiEvtTlId );
  509. p->afIdx = op->begSmpIdx;
  510. cmDspSetInt(ctx, inst, kBegAudSmpIdxTlId, op->begSmpIdx );
  511. cmDspSetInt(ctx, inst, kEndAudSmpIdxTlId, op->begSmpIdx + op->durSmpCnt );
  512. // locate the audio file assoc'd with the marker
  513. cmTlAudioFile_t* afp;
  514. if((afp = cmTimeLineAudioFileAtTime(p->tlH,op->seqId,op->seqSmpIdx)) != NULL)
  515. {
  516. cmDspSetStrcz(ctx, inst, kAudFnTlId, afp->fn );
  517. cmDspSetStrcz(ctx, inst, kAudLblTlId, afp->obj.name );
  518. }
  519. // locate the midi file assoc'd with the marker
  520. cmTlMidiFile_t* mfp;
  521. if((mfp = cmTimeLineMidiFileAtTime(p->tlH,op->seqId,op->seqSmpIdx)) != NULL )
  522. {
  523. cmDspSetInt(ctx, inst, kBegMidiSmpIdxTlId, op->seqSmpIdx - mfp->obj.seqSmpIdx );
  524. cmDspSetInt(ctx, inst, kEndMidiSmpIdxTlId, op->seqSmpIdx + op->durSmpCnt - mfp->obj.seqSmpIdx );
  525. cmDspSetStrcz(ctx, inst, kMidiFnTlId, mfp->fn );
  526. cmDspSetStrcz(ctx, inst, kMidiLblTlId,mfp->obj.name );
  527. }
  528. }
  529. }
  530. }
  531. break;
  532. case kMeasTlId:
  533. cmDspSetEvent(ctx,inst,evt);
  534. break;
  535. default:
  536. {assert(0);}
  537. }
  538. return kOkDspRC;
  539. }
  540. cmDspClass_t* cmTimeLineClassCons( cmDspCtx_t* ctx )
  541. {
  542. cmDspClassSetup(&_cmTimeLineDC,ctx,"TimeLine",
  543. NULL,
  544. _cmDspTimeLineAlloc,
  545. _cmDspTimeLineFree,
  546. _cmDspTimeLineReset,
  547. NULL,
  548. _cmDspTimeLineRecv,
  549. NULL,NULL,
  550. "Time Line control.");
  551. return &_cmTimeLineDC;
  552. }
  553. //------------------------------------------------------------------------------------------------------------
  554. //)
  555. //( { label:cmDspScore file_desc:"Musical score user interface unit." kw:[sunit] }
  556. enum
  557. {
  558. kFnScId,
  559. kSelScId,
  560. kSendScId,
  561. kStatusScId,
  562. kD0ScId,
  563. kD1ScId,
  564. kSmpIdxScId,
  565. kLocIdxScId,
  566. kCmdScId,
  567. kEvtIdxScId,
  568. kDynScId,
  569. kValTypeScId,
  570. kValueScId,
  571. kMeasScId,
  572. };
  573. cmDspClass_t _cmScoreDC;
  574. typedef struct
  575. {
  576. cmDspInst_t inst;
  577. cmScH_t scH;
  578. cmDspCtx_t* ctx; // temporary ctx ptr used during cmScore callback in _cmDspScoreRecv()
  579. unsigned printSymId;
  580. } cmDspScore_t;
  581. cmDspInst_t* _cmDspScoreAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  582. {
  583. cmDspVarArg_t args[] =
  584. {
  585. { "fn", kFnScId, 0, 0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Score file." },
  586. { "sel", kSelScId, 0, 0, kInDsvFl | kOutDsvFl | kUIntDsvFl, "Selected score element index input."},
  587. { "send", kSendScId, 0, 0, kInDsvFl | kTypeDsvMask, "Resend last selected score element."},
  588. { "status", kStatusScId, 0, 0, kInDsvFl | kIntDsvFl, "Performed MIDI status value output" },
  589. { "d0", kD0ScId, 0, 0, kInDsvFl | kUIntDsvFl, "Performed MIDI msg data byte 0" },
  590. { "d1", kD1ScId, 0, 0, kInDsvFl | kUIntDsvFl, "Performed MIDI msg data byte 1" },
  591. { "smpidx", kSmpIdxScId, 0, 0, kInDsvFl | kUIntDsvFl, "Performed MIDi msg time tag as a sample index." },
  592. { "loc", kLocIdxScId, 0, 0, kInDsvFl | kUIntDsvFl, "Performance score location."},
  593. { "cmd", kCmdScId, 0, 0, kInDsvFl | kSymDsvFl, "cmd: dump "},
  594. { "evtidx", kEvtIdxScId, 0, 0, kOutDsvFl | kUIntDsvFl, "Performed event index of following dynamcis level."},
  595. { "dyn", kDynScId, 0, 0, kOutDsvFl | kUIntDsvFl, "Dynamic level of previous event index."},
  596. { "type", kValTypeScId,0, 0, kOutDsvFl | kUIntDsvFl, "Output variable type."},
  597. { "value", kValueScId, 0, 0, kOutDsvFl | kDoubleDsvFl, "Output variable value."},
  598. { "meas", kMeasScId, 0, 0, kInDsvFl | kUIntDsvFl, "Trigger this measures location to emit from 'sel'."},
  599. { NULL, 0, 0, 0, 0 }
  600. };
  601. cmDspScore_t* p = cmDspInstAlloc(cmDspScore_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  602. cmDspSetDefaultUInt( ctx, &p->inst, kSelScId, 0, cmInvalidId);
  603. p->printSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"dump");
  604. // create the UI control
  605. cmDspUiScoreCreate(ctx,&p->inst,kFnScId,kSelScId,kSmpIdxScId,kD0ScId,kD1ScId,kLocIdxScId,kEvtIdxScId,kDynScId,kValTypeScId,kValueScId,kMeasScId);
  606. p->scH = cmScNullHandle;
  607. return &p->inst;
  608. }
  609. cmDspRC_t _cmDspScoreFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  610. {
  611. cmDspRC_t rc = kOkDspRC;
  612. cmDspScore_t* p = (cmDspScore_t*)inst;
  613. if( cmScoreFinalize(&p->scH) != kOkTlRC )
  614. return cmErrMsg(&inst->classPtr->err, kInstFinalFailDspRC, "Score finalize failed.");
  615. return rc;
  616. }
  617. // Callback from cmScore triggered from _cmDspScoreRecv() during call to cmScoreSetPerfEvent().
  618. void _cmDspScoreCb( void* arg, const void* data, unsigned byteCnt )
  619. {
  620. cmDspInst_t* inst = (cmDspInst_t*)arg;
  621. cmDspScore_t* p = (cmDspScore_t*)inst;
  622. cmScMsg_t m;
  623. if( cmScoreDecode(data,byteCnt,&m) == kOkScRC )
  624. {
  625. switch( m.typeId )
  626. {
  627. case kDynMsgScId:
  628. cmDspSetUInt( p->ctx,inst, kEvtIdxScId, m.u.dyn.evtIdx );
  629. cmDspSetUInt( p->ctx,inst, kDynScId, m.u.dyn.dynLvl );
  630. break;
  631. case kVarMsgScId:
  632. cmDspSetUInt( p->ctx,inst, kValTypeScId, m.u.meas.varId);
  633. cmDspSetDouble(p->ctx,inst, kValueScId, m.u.meas.value);
  634. break;
  635. default:
  636. { assert(0); }
  637. }
  638. }
  639. }
  640. cmDspRC_t _cmDspScoreReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  641. {
  642. cmDspRC_t rc = kOkDspRC;
  643. cmDspScore_t* p = (cmDspScore_t*)inst;
  644. const cmChar_t* tlFn = NULL;
  645. unsigned* dynRefArray = NULL;
  646. unsigned dynRefCnt = 0;
  647. cmDspApplyAllDefaults(ctx,inst);
  648. if( cmDspRsrcUIntArray(ctx->dspH, &dynRefCnt, &dynRefArray, "dynRef", NULL ) != kOkDspRC )
  649. {
  650. rc = cmErrMsg(&inst->classPtr->err, kRsrcNotFoundDspRC, "The dynamics reference array resource was not found.");
  651. goto errLabel;
  652. }
  653. if((tlFn = cmDspStrcz(inst, kFnScId )) != NULL )
  654. {
  655. if( cmScoreInitialize(ctx->cmCtx, &p->scH, tlFn, cmDspSampleRate(ctx), dynRefArray, dynRefCnt, _cmDspScoreCb, p, ctx->stH ) != kOkTlRC )
  656. rc = cmErrMsg(&inst->classPtr->err, kInstResetFailDspRC, "Score file open failed.");
  657. //else
  658. // cmScorePrintLoc(p->scH);
  659. }
  660. errLabel:
  661. return rc;
  662. }
  663. cmDspRC_t _cmDspScoreRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  664. {
  665. cmDspScore_t* p = (cmDspScore_t*)inst;
  666. if( evt->dstVarId == kSendScId )
  667. {
  668. unsigned selIdx;
  669. if((selIdx = cmDspUInt(inst,kSelScId)) != cmInvalidIdx )
  670. {
  671. cmDspSetUInt(ctx,inst,kSelScId, selIdx );
  672. cmScoreClearPerfInfo(p->scH);
  673. }
  674. return kOkDspRC;
  675. }
  676. cmDspSetEvent(ctx,inst,evt);
  677. switch( evt->dstVarId )
  678. {
  679. case kSelScId:
  680. cmScoreClearPerfInfo(p->scH);
  681. break;
  682. case kStatusScId:
  683. //printf("st:%x\n",cmDspUInt(inst,kStatusScId));
  684. break;
  685. case kLocIdxScId:
  686. {
  687. assert( cmDspUInt(inst,kStatusScId ) == kNoteOnMdId );
  688. p->ctx = ctx; // setup p->ctx for use in _cmDspScoreCb()
  689. // this call may result in callbacks to _cmDspScoreCb()
  690. cmScoreExecPerfEvent(p->scH, cmDspUInt(inst,kLocIdxScId), cmDspUInt(inst,kSmpIdxScId), cmDspUInt(inst,kD0ScId), cmDspUInt(inst,kD1ScId) );
  691. }
  692. break;
  693. case kCmdScId:
  694. if( cmDspSymbol(inst,kCmdScId) == p->printSymId )
  695. cmScorePrintLoc(p->scH);
  696. break;
  697. case kMeasScId:
  698. break;
  699. }
  700. return kOkDspRC;
  701. }
  702. cmDspClass_t* cmScoreClassCons( cmDspCtx_t* ctx )
  703. {
  704. cmDspClassSetup(&_cmScoreDC,ctx,"Score",
  705. NULL,
  706. _cmDspScoreAlloc,
  707. _cmDspScoreFree,
  708. _cmDspScoreReset,
  709. NULL,
  710. _cmDspScoreRecv,
  711. NULL,NULL,
  712. "Score control.");
  713. return &_cmScoreDC;
  714. }
  715. //------------------------------------------------------------------------------------------------------------
  716. //)
  717. //( { label:cmDspMidiFilePlay file_desc:"MIDI file player." kw:[sunit] }
  718. enum
  719. {
  720. kFnMfId,
  721. kSelMfId,
  722. kBsiMfId,
  723. kEsiMfId,
  724. kStatusMfId,
  725. kD0MfId,
  726. kD1MfId,
  727. kSmpIdxMfId,
  728. kIdMfId
  729. };
  730. cmDspClass_t _cmMidiFilePlayDC;
  731. typedef struct
  732. {
  733. cmDspInst_t inst;
  734. cmMidiFileH_t mfH;
  735. unsigned curMsgIdx; // current midi file msg index
  736. int csi; // current sample index
  737. int bsi; // starting sample index
  738. int esi; // ending sample index
  739. unsigned startSymId;
  740. unsigned stopSymId;
  741. unsigned contSymId;
  742. bool errFl;
  743. } cmDspMidiFilePlay_t;
  744. // 'bsi' and 'esi' give the starting and ending sample for MIDI file playback.
  745. // These indexes are relative to the start of the file.
  746. // When the player recieves a 'start' msg it sets the current sample index
  747. // 'si' to 'bsi' and begins scanning for the next note to play.
  748. // On each call to the _cmDspMidiFilePlayExec() msgs that fall in the interval
  749. // si:si+sPc-1 will be transmitted. (where sPc are the number of samples per DSP cycle).
  750. cmDspInst_t* _cmDspMidiFilePlayAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  751. {
  752. cmDspVarArg_t args[] =
  753. {
  754. { "fn", kFnMfId, 0, 0, kInDsvFl | kStrzDsvFl, "File name"},
  755. { "sel", kSelMfId, 0, 0, kInDsvFl | kSymDsvFl, "start | stop | continue" },
  756. { "bsi", kBsiMfId, 0, 0, kInDsvFl | kIntDsvFl, "Starting sample." },
  757. { "esi", kEsiMfId, 0, 0, kInDsvFl | kIntDsvFl, "Ending sample."},
  758. { "status", kStatusMfId, 0, 0, kOutDsvFl | kIntDsvFl, "Status value output" },
  759. { "d0", kD0MfId, 0, 0, kOutDsvFl | kUIntDsvFl, "Data byte 0" },
  760. { "d1", kD1MfId, 0, 0, kOutDsvFl | kUIntDsvFl, "Data byte 1" },
  761. { "smpidx", kSmpIdxMfId, 0, 0, kOutDsvFl | kUIntDsvFl, "Msg time tag as a sample index." },
  762. { "id", kIdMfId, 0, 0, kOutDsvFl | kUIntDsvFl, "MIDI file msg unique id."},
  763. { NULL, 0, 0, 0, 0 }
  764. };
  765. cmDspMidiFilePlay_t* p = cmDspInstAlloc(cmDspMidiFilePlay_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  766. p->startSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"start");
  767. p->stopSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"stop");
  768. p->contSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"continue");
  769. p->mfH = cmMidiFileNullHandle;
  770. cmDspSetDefaultStrcz( ctx, &p->inst, kFnMfId, NULL, "");
  771. cmDspSetDefaultSymbol(ctx, &p->inst, kSelMfId, p->stopSymId);
  772. cmDspSetDefaultInt( ctx, &p->inst, kBsiMfId, 0, 0);
  773. cmDspSetDefaultInt( ctx, &p->inst, kEsiMfId, 0, 0);
  774. cmDspSetDefaultUInt( ctx, &p->inst, kStatusMfId, 0, 0);
  775. cmDspSetDefaultUInt( ctx, &p->inst, kD0MfId, 0, 0);
  776. cmDspSetDefaultUInt( ctx, &p->inst, kD1MfId, 0, 0);
  777. return &p->inst;
  778. }
  779. cmDspRC_t _cmDspMidiFilePlayFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  780. {
  781. cmDspMidiFilePlay_t* p = (cmDspMidiFilePlay_t*)inst;
  782. if( cmMidiFileClose(&p->mfH) )
  783. return cmErrMsg(&inst->classPtr->err, kInstFinalFailDspRC, "MIDI file close failed.");
  784. return kOkDspRC;
  785. }
  786. // return the index of the msg following smpIdx
  787. unsigned _cmDspMidiFilePlaySeekMsgIdx( cmDspCtx_t* ctx, cmDspInst_t* inst, unsigned smpIdx )
  788. {
  789. cmDspMidiFilePlay_t* p = (cmDspMidiFilePlay_t*)inst;
  790. if( cmMidiFileIsValid(p->mfH) == false )
  791. {
  792. cmErrMsg(&inst->classPtr->err, kInvalidStateDspRC,"The MIDI file player has not been given a valid MIDI file.");
  793. return cmInvalidIdx;
  794. }
  795. unsigned i;
  796. unsigned n = cmMidiFileMsgCount(p->mfH);
  797. const cmMidiTrackMsg_t** a = cmMidiFileMsgArray(p->mfH);
  798. for(i=0; i<n; ++i)
  799. if( (a[i]->amicro * cmDspSampleRate(ctx) / 1000000.0) >= smpIdx )
  800. break;
  801. return i==n ? cmInvalidIdx : i;
  802. }
  803. cmDspRC_t _cmDspMidiFilePlayOpen(cmDspCtx_t* ctx, cmDspInst_t* inst )
  804. {
  805. cmDspRC_t rc = kOkDspRC;
  806. const cmChar_t* fn = cmDspStrcz(inst,kFnMfId);
  807. cmDspMidiFilePlay_t* p = (cmDspMidiFilePlay_t*)inst;
  808. p->errFl = false;
  809. if( fn==NULL || strlen(fn)==0 )
  810. return rc;
  811. if( cmMidiFileOpen( ctx->cmCtx, &p->mfH, fn ) != kOkFileRC )
  812. rc = cmErrMsg(&inst->classPtr->err, kInstResetFailDspRC, "MIDI file open failed.");
  813. else
  814. {
  815. p->curMsgIdx = 0;
  816. p->bsi = cmDspInt(inst,kBsiMfId);
  817. p->esi = cmDspInt(inst,kEsiMfId);
  818. p->csi = 0;
  819. // force the first msg to occurr one quarter note into the file
  820. cmMidiFileSetDelay(p->mfH, cmMidiFileTicksPerQN(p->mfH) );
  821. // convert midi msg times to absolute time in samples
  822. //cmMidiFileTickToSamples(p->mfH,cmDspSampleRate(ctx),true);
  823. }
  824. return rc;
  825. }
  826. cmDspRC_t _cmDspMidiFilePlayReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  827. {
  828. cmDspApplyAllDefaults(ctx,inst);
  829. return _cmDspMidiFilePlayOpen(ctx,inst);
  830. }
  831. cmDspRC_t _cmDspMidiFilePlayExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  832. {
  833. cmDspRC_t rc = kOkDspRC;
  834. cmDspMidiFilePlay_t* p = (cmDspMidiFilePlay_t*)inst;
  835. unsigned sPc = cmDspSamplesPerCycle(ctx);
  836. if( cmDspSymbol(inst,kSelMfId) != p->stopSymId )
  837. {
  838. if( cmMidiFileIsValid(p->mfH) == false )
  839. {
  840. if( p->errFl==false )
  841. {
  842. rc = cmErrMsg(&inst->classPtr->err, kInvalidStateDspRC,"The MIDI file player has not been given a valid MIDI file.");
  843. p->errFl = true;
  844. }
  845. return rc;
  846. }
  847. const cmMidiTrackMsg_t** mpp = cmMidiFileMsgArray(p->mfH);
  848. unsigned msgN = cmMidiFileMsgCount(p->mfH);
  849. do
  850. {
  851. if( p->curMsgIdx >= msgN )
  852. break;
  853. const cmMidiTrackMsg_t* mp = mpp[p->curMsgIdx];
  854. // convert the absolute time in microseconds to samples
  855. unsigned curMsgTimeSmp = round(mp->amicro * cmDspSampleRate(ctx) / 1000000.0);
  856. // if this midi event falls inside this execution window
  857. if( p->csi > curMsgTimeSmp || curMsgTimeSmp >= (p->csi + sPc))
  858. break;
  859. switch( mp->status )
  860. {
  861. case kNoteOffMdId:
  862. case kNoteOnMdId:
  863. case kCtlMdId:
  864. cmDspSetUInt(ctx,inst, kSmpIdxMfId, curMsgTimeSmp);
  865. cmDspSetUInt(ctx,inst, kD1MfId, mp->u.chMsgPtr->d1);
  866. cmDspSetUInt(ctx,inst, kD0MfId, mp->u.chMsgPtr->d0);
  867. cmDspSetUInt(ctx,inst, kStatusMfId, mp->status);
  868. cmDspSetUInt(ctx,inst, kIdMfId, mp->uid);
  869. break;
  870. }
  871. p->curMsgIdx += 1;
  872. }while(1);
  873. }
  874. p->csi += sPc;
  875. return rc;
  876. }
  877. cmDspRC_t _cmDspMidiFilePlayRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  878. {
  879. cmDspMidiFilePlay_t* p = (cmDspMidiFilePlay_t*)inst;
  880. cmDspSetEvent(ctx,inst,evt);
  881. switch(evt->dstVarId)
  882. {
  883. case kFnMfId:
  884. _cmDspMidiFilePlayOpen(ctx, inst );
  885. break;
  886. case kSelMfId:
  887. {
  888. if( cmDspSymbol(inst,kSelMfId)==p->startSymId )
  889. {
  890. p->csi = cmDspInt(inst,kBsiMfId);
  891. p->curMsgIdx = _cmDspMidiFilePlaySeekMsgIdx(ctx, inst, p->csi );
  892. }
  893. break;
  894. }
  895. }
  896. return kOkDspRC;
  897. }
  898. cmDspClass_t* cmMidiFilePlayClassCons( cmDspCtx_t* ctx )
  899. {
  900. cmDspClassSetup(&_cmMidiFilePlayDC,ctx,"MidiFilePlay",
  901. NULL,
  902. _cmDspMidiFilePlayAlloc,
  903. _cmDspMidiFilePlayFree,
  904. _cmDspMidiFilePlayReset,
  905. _cmDspMidiFilePlayExec,
  906. _cmDspMidiFilePlayRecv,
  907. NULL,NULL,
  908. "MIDI file player.");
  909. return &_cmMidiFilePlayDC;
  910. }
  911. //------------------------------------------------------------------------------------------------------------
  912. //)
  913. //( { label:cmDspScFol file_desc:"MIDI performance score follower." kw:[sunit] }
  914. enum
  915. {
  916. kFnSfId,
  917. kBufCntSfId,
  918. kMaxWndCntSfId,
  919. kMinVelSfId,
  920. kMeasflSfId,
  921. kIndexSfId,
  922. kMuidSfId,
  923. kStatusSfId,
  924. kD0SfId,
  925. kD1SfId,
  926. kSmpIdxSfId,
  927. kCmdSfId,
  928. kOutSfId,
  929. kRecentSfId,
  930. kVlocSfId,
  931. kVtypSfId,
  932. kVvalSfId,
  933. kVcostSfId,
  934. kSymSfId
  935. };
  936. cmDspClass_t _cmScFolDC;
  937. struct cmDspScFol_str;
  938. typedef struct
  939. {
  940. cmDspCtx_t* ctx;
  941. struct cmDspScFol_str* sfp;
  942. } cmDspScFolCbArg_t;
  943. typedef struct cmDspScFol_str
  944. {
  945. cmDspInst_t inst;
  946. cmScMatcher* sfp;
  947. cmScMeas* smp;
  948. cmScH_t scH;
  949. cmDspScFolCbArg_t arg;
  950. unsigned printSymId;
  951. unsigned quietSymId;
  952. unsigned maxScLocIdx;
  953. bool liveFl;
  954. } cmDspScFol_t;
  955. cmDspInst_t* _cmDspScFolAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  956. {
  957. cmDspVarArg_t args[] =
  958. {
  959. { "fn", kFnSfId, 0, 0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Score file." },
  960. { "bufcnt",kBufCntSfId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Event buffer element count." },
  961. { "wndcnt",kMaxWndCntSfId,0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Maximum window length."},
  962. { "minvel",kMinVelSfId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Minimum velocity."},
  963. { "measfl",kMeasflSfId, 0, 0, kInDsvFl | kBoolDsvFl | kOptArgDsvFl, "Enable measurements"},
  964. { "index", kIndexSfId, 0, 0, kInDsvFl | kUIntDsvFl, "Tracking start location."},
  965. { "muid", kMuidSfId, 0, 0, kInDsvFl | kUIntDsvFl, "MIDI msg file unique id"},
  966. { "status",kStatusSfId, 0, 0, kInDsvFl | kUIntDsvFl, "MIDI status byte"},
  967. { "d0", kD0SfId, 0, 0, kInDsvFl | kUIntDsvFl, "MIDI data byte 0"},
  968. { "d1", kD1SfId, 0, 0, kInDsvFl | kUIntDsvFl, "MIDI data byte 1"},
  969. { "smpidx",kSmpIdxSfId, 0, 0, kInDsvFl | kUIntDsvFl, "MIDI time tag as a sample index"},
  970. { "cmd", kCmdSfId, 0, 0, kInDsvFl | kSymDsvFl, "Command input: print | quiet"},
  971. { "out", kOutSfId, 0, 0, kOutDsvFl| kUIntDsvFl, "Maximum score location index."},
  972. { "recent",kRecentSfId, 0, 0, kOutDsvFl| kUIntDsvFl, "Most recent score location index."},
  973. { "vloc", kVlocSfId, 0, 0, kOutDsvFl| kUIntDsvFl, "Score location at which the variable value becomes active."},
  974. { "vtyp", kVtypSfId, 0, 0, kOutDsvFl| kUIntDsvFl, "Variable type: 0=even=kEvenVarScId 1=dyn=kDynVarScId 2=tempo=kTempoVarScId."},
  975. { "vval", kVvalSfId, 0, 0, kOutDsvFl| kDoubleDsvFl, "Variable value."},
  976. { "vcost", kVcostSfId, 0, 0, kOutDsvFl| kDoubleDsvFl, "Variable match cost value."},
  977. { "sym", kSymSfId, 0, 0, kOutDsvFl| kSymDsvFl, "Symbol associated with a global variable which has changed value."},
  978. { NULL, 0, 0, 0, 0, NULL }
  979. };
  980. cmDspScFol_t* p;
  981. if((p = cmDspInstAlloc(cmDspScFol_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl)) == NULL )
  982. return NULL;
  983. p->sfp = cmScMatcherAlloc(ctx->cmProcCtx, NULL, 0, cmScNullHandle, 0, 0, NULL, NULL );
  984. p->smp = cmScMeasAlloc( ctx->cmProcCtx, NULL, cmScNullHandle, 0, NULL, 0 );
  985. p->printSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"print");
  986. p->quietSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"quiet");
  987. p->maxScLocIdx= cmInvalidIdx;
  988. cmDspSetDefaultUInt( ctx, &p->inst, kBufCntSfId, 0, 7);
  989. cmDspSetDefaultUInt( ctx, &p->inst, kMaxWndCntSfId, 0, 10);
  990. cmDspSetDefaultUInt( ctx, &p->inst, kMinVelSfId, 0, 5);
  991. cmDspSetDefaultBool( ctx, &p->inst, kMeasflSfId, 0, 0);
  992. cmDspSetDefaultUInt( ctx, &p->inst, kIndexSfId, 0, 0);
  993. cmDspSetDefaultUInt( ctx, &p->inst, kOutSfId, 0, 0);
  994. cmDspSetDefaultUInt( ctx, &p->inst, kRecentSfId, 0, 0);
  995. cmDspSetDefaultSymbol(ctx,&p->inst, kCmdSfId, p->quietSymId );
  996. return &p->inst;
  997. }
  998. cmDspRC_t _cmDspScFolFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  999. {
  1000. cmDspScFol_t* p = (cmDspScFol_t*)inst;
  1001. cmScMatcherFree(&p->sfp);
  1002. cmScMeasFree(&p->smp);
  1003. cmScoreFinalize(&p->scH);
  1004. return kOkDspRC;
  1005. }
  1006. // This is a callback function from cmScMatcherExec() which is called when
  1007. // this cmDspFol object receives a new score location index.
  1008. void _cmScFolMatcherCb( cmScMatcher* p, void* arg, cmScMatcherResult_t* rp )
  1009. {
  1010. cmDspScFolCbArg_t* ap = (cmDspScFolCbArg_t*)arg;
  1011. if( cmScMeasExec(ap->sfp->smp, rp->mni, rp->locIdx, rp->scEvtIdx, rp->flags, rp->smpIdx, rp->pitch, rp->vel ) == cmOkRC )
  1012. {
  1013. cmDspInst_t* inst = &(ap->sfp->inst);
  1014. // send 'set' values that were calculated on the previous call to cmScMeasExec()
  1015. unsigned i;
  1016. for(i=ap->sfp->smp->vsi; i<ap->sfp->smp->nsi; ++i)
  1017. if(ap->sfp->smp->set[i].value != DBL_MAX )
  1018. {
  1019. // switch( ap->sfp->smp->set[i].sp->varId )
  1020. // {
  1021. // case kEvenVarScId:
  1022. // cmDspSetDouble(ap->ctx,inst,kEvenSfId,ap->sfp->smp->set[i].value);
  1023. // break;
  1024. //
  1025. // case kDynVarScId:
  1026. // cmDspSetDouble(ap->ctx,inst,kDynSfId,ap->sfp->smp->set[i].value);
  1027. // break;
  1028. //
  1029. // case kTempoVarScId:
  1030. // cmDspSetDouble(ap->ctx,inst,kTempoSfId,ap->sfp->smp->set[i].value);
  1031. // break;
  1032. //
  1033. // default:
  1034. // { assert(0); }
  1035. // }
  1036. //
  1037. // cmDspSetDouble(ap->ctx,inst,kCostSfId,ap->sfp->smp->set[i].match_cost);
  1038. // Set the values in the global variable storage
  1039. cmDspValue_t vv,cv;
  1040. unsigned j;
  1041. cmDsvSetDouble(&vv,ap->sfp->smp->set[i].value);
  1042. cmDsvSetDouble(&cv,ap->sfp->smp->set[i].match_cost);
  1043. for(j=0; j<ap->sfp->smp->set[i].sp->sectCnt; ++j)
  1044. {
  1045. cmDspStoreSetValueViaSym(ap->ctx->dsH, ap->sfp->smp->set[i].sp->symArray[j], &vv );
  1046. cmDspStoreSetValueViaSym(ap->ctx->dsH, ap->sfp->smp->set[i].sp->costSymArray[j], &cv );
  1047. cmDspSetSymbol(ap->ctx,inst,kSymSfId,ap->sfp->smp->set[i].sp->symArray[j]);
  1048. cmDspSetSymbol(ap->ctx,inst,kSymSfId,ap->sfp->smp->set[i].sp->costSymArray[j]);
  1049. if( cmDspBool(inst,kMeasflSfId) )
  1050. {
  1051. cmDspSetUInt( ap->ctx, inst, kVlocSfId, ap->sfp->smp->set[i].sp->sectArray[j]->locPtr->index);
  1052. cmDspSetDouble( ap->ctx, inst, kVvalSfId, ap->sfp->smp->set[i].value);
  1053. cmDspSetDouble( ap->ctx, inst, kVcostSfId, ap->sfp->smp->set[i].match_cost);
  1054. cmDspSetUInt( ap->ctx, inst, kVtypSfId, ap->sfp->smp->set[i].sp->varId);
  1055. }
  1056. }
  1057. }
  1058. // // trigger 'section' starts
  1059. // for(i=ap->sfp->smp->vsli; i<ap->sfp->smp->nsli; ++i)
  1060. // {
  1061. // const cmScoreLoc_t* locPtr = cmScoreLoc(ap->sfp->smp->mp->scH,i);
  1062. // if( locPtr->begSectPtr != NULL )
  1063. // cmDspSetUInt(ap->ctx,inst,kSectIndexSfId,locPtr->begSectPtr->index);
  1064. // }
  1065. }
  1066. }
  1067. cmDspRC_t _cmDspScFolOpenScore( cmDspCtx_t* ctx, cmDspInst_t* inst )
  1068. {
  1069. cmDspRC_t rc = kOkDspRC;
  1070. cmDspScFol_t* p = (cmDspScFol_t*)inst;
  1071. const cmChar_t* fn;
  1072. if((fn = cmDspStrcz(inst,kFnSfId)) == NULL || strlen(fn)==0 )
  1073. return cmErrMsg(&inst->classPtr->err, kInvalidArgDspRC, "No score file name supplied.");
  1074. if( cmScoreInitialize(ctx->cmCtx, &p->scH, fn, cmDspSampleRate(ctx), NULL, 0, NULL, NULL, ctx->stH ) != kOkScRC )
  1075. return cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Unable to open the score '%s'.",fn);
  1076. if( cmScoreIsValid(p->scH) )
  1077. {
  1078. unsigned* dynRefArray = NULL;
  1079. unsigned dynRefCnt = 0;
  1080. // initialize the cmScMatcher
  1081. if( cmScMatcherInit(p->sfp, cmDspSampleRate(ctx), p->scH, cmDspUInt(inst,kMaxWndCntSfId), cmDspUInt(inst,kBufCntSfId), _cmScFolMatcherCb, p->smp ) != cmOkRC )
  1082. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Internal score follower allocation failed.");
  1083. // read the dynamics reference array
  1084. if( cmDspRsrcUIntArray(ctx->dspH, &dynRefCnt, &dynRefArray, "dynRef", NULL ) != kOkDspRC )
  1085. {
  1086. rc = cmErrMsg(&inst->classPtr->err, kRsrcNotFoundDspRC, "The dynamics reference array resource was not found.");
  1087. goto errLabel;
  1088. }
  1089. // initialize the cmScMeas object.
  1090. if( cmScMeasInit(p->smp, p->scH, cmDspSampleRate(ctx), dynRefArray, dynRefCnt ) != cmOkRC )
  1091. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Internal scMeas object initialization failed.");
  1092. }
  1093. errLabel:
  1094. return rc;
  1095. }
  1096. cmDspRC_t _cmDspScFolReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1097. {
  1098. cmDspRC_t rc;
  1099. if((rc = cmDspApplyAllDefaults(ctx,inst)) != kOkDspRC )
  1100. return rc;
  1101. return _cmDspScFolOpenScore(ctx,inst);
  1102. }
  1103. cmDspRC_t _cmDspScFolRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1104. {
  1105. cmDspRC_t rc = kOkDspRC;
  1106. cmDspScFol_t* p = (cmDspScFol_t*)inst;
  1107. if((rc = cmDspSetEvent(ctx,inst,evt)) == kOkDspRC && p->sfp != NULL )
  1108. {
  1109. switch( evt->dstVarId )
  1110. {
  1111. case kIndexSfId:
  1112. if( cmScoreIsValid(p->scH) )
  1113. {
  1114. p->maxScLocIdx = cmInvalidIdx;
  1115. if( cmScMeasReset( p->smp ) != cmOkRC )
  1116. cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Score measure unit reset to score index '%i' failed.");
  1117. if( cmScMatcherReset( p->sfp, cmDspUInt(inst,kIndexSfId) ) != cmOkRC )
  1118. cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Score follower reset to score index '%i' failed.");
  1119. }
  1120. break;
  1121. case kStatusSfId:
  1122. if( cmScoreIsValid(p->scH))
  1123. {
  1124. unsigned scLocIdx = cmInvalidIdx;
  1125. // setup the cmScMeas() callback arg.
  1126. p->arg.ctx = ctx;
  1127. p->arg.sfp = p;
  1128. p->sfp->cbArg = &p->arg;
  1129. // this call may result in a callback to _cmScFolMatcherCb()
  1130. if( cmScMatcherExec(p->sfp, cmDspUInt(inst,kSmpIdxSfId), cmDspUInt(inst,kMuidSfId), cmDspUInt(inst,kStatusSfId), cmDspUInt(inst,kD0SfId), cmDspUInt(inst,kD1SfId), &scLocIdx) == cmOkRC )
  1131. if( scLocIdx != cmInvalidIdx )
  1132. {
  1133. // It is possible that the internal score follower may go backwards.
  1134. // In this case it will report a given score location multiple times or out of time order.
  1135. // The 'out' port will only be updated under the circumstances that no later
  1136. // score location has been seen - so the last output from 'out' always reports
  1137. // the furthest possible progress in the score. THe 'recent' output simply reports
  1138. // the most recent output from the internal score follower which may include
  1139. // previously reported or out of order score locations.
  1140. cmDspSetUInt(ctx,inst,kRecentSfId,scLocIdx);
  1141. if( p->maxScLocIdx==cmInvalidIdx || p->maxScLocIdx < scLocIdx )
  1142. {
  1143. p->maxScLocIdx = scLocIdx;
  1144. cmDspSetUInt(ctx,inst,kOutSfId,scLocIdx);
  1145. }
  1146. }
  1147. }
  1148. break;
  1149. case kFnSfId:
  1150. _cmDspScFolOpenScore(ctx,inst);
  1151. break;
  1152. case kCmdSfId:
  1153. if( cmDspSymbol(inst,kCmdSfId) == p->printSymId )
  1154. p->sfp->printFl = true;
  1155. else
  1156. if( cmDspSymbol(inst,kCmdSfId) == p->quietSymId )
  1157. p->sfp->printFl = false;
  1158. break;
  1159. }
  1160. }
  1161. return rc;
  1162. }
  1163. cmDspClass_t* cmScFolClassCons( cmDspCtx_t* ctx )
  1164. {
  1165. cmDspClassSetup(&_cmScFolDC,ctx,"ScFol",
  1166. NULL,
  1167. _cmDspScFolAlloc,
  1168. _cmDspScFolFree,
  1169. _cmDspScFolReset,
  1170. NULL,
  1171. _cmDspScFolRecv,
  1172. NULL,NULL,
  1173. "Score Follower");
  1174. return &_cmScFolDC;
  1175. }
  1176. //------------------------------------------------------------------------------------------------------------
  1177. //)
  1178. //( { label:cmDspScMod file_desc:"Score driven parameter automation." kw:[sunit] }
  1179. enum
  1180. {
  1181. kScLocIdxMdId,
  1182. kResetIdxMdId,
  1183. kCmdMdId,
  1184. kSelMdId,
  1185. kPostMdId
  1186. };
  1187. cmDspClass_t _cmModulatorDC;
  1188. typedef struct
  1189. {
  1190. cmDspInst_t inst;
  1191. cmScModulator* mp;
  1192. cmDspCtx_t* tmp_ctx; // used to temporarily hold the current cmDspCtx during callback
  1193. cmChar_t* fn;
  1194. cmChar_t* modLabel;
  1195. unsigned onSymId;
  1196. unsigned offSymId;
  1197. unsigned postSymId;
  1198. unsigned dumpSymId;
  1199. } cmDspScMod_t;
  1200. void _cmDspScModCb( void* arg, unsigned varSymId, double value, bool postFl )
  1201. {
  1202. cmDspScMod_t* p = (cmDspScMod_t*)arg;
  1203. cmDspVar_t* varPtr;
  1204. if((varPtr = cmDspVarSymbolToPtr( p->tmp_ctx, &p->inst, varSymId, 0 )) == NULL )
  1205. return;
  1206. cmDspSetDouble(p->tmp_ctx,&p->inst,varPtr->constId,value);
  1207. if( postFl )
  1208. cmDspSetSymbol(p->tmp_ctx,&p->inst,kPostMdId,p->postSymId);
  1209. }
  1210. cmDspInst_t* _cmDspScModAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  1211. {
  1212. va_list vl1;
  1213. va_copy(vl1,vl);
  1214. cmDspVarArg_t args[] =
  1215. {
  1216. { "index", kScLocIdxMdId, 0,0, kInDsvFl | kUIntDsvFl, "Score follower index input."},
  1217. { "reset", kResetIdxMdId, 0,0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Reset the modulator and go to the score index."},
  1218. { "cmd", kCmdMdId, 0,0, kInDsvFl | kSymDsvFl | kOptArgDsvFl, "on | off."},
  1219. { "sel", kSelMdId, 0,0, kInDsvFl | kSymDsvFl | kOptArgDsvFl, "Set the next active entry group name."},
  1220. { "post", kPostMdId, 0,0, kOutDsvFl | kSymDsvFl, "Sends 'post' symbol after a message transmission if the 'post' flag is set in scMod."},
  1221. { NULL, 0, 0, 0, 0 }
  1222. };
  1223. // validate the argument count
  1224. if( va_cnt != 2 )
  1225. {
  1226. cmDspClassErr(ctx,classPtr,kInvalidArgDspRC,"The Modulator requires at least two arguments.");
  1227. return NULL;
  1228. }
  1229. // read the modulator file and label strings
  1230. const cmChar_t* fn = va_arg(vl1,const cmChar_t*);
  1231. const cmChar_t* modLabel = va_arg(vl1,const cmChar_t*);
  1232. va_end(vl1);
  1233. // validate the file
  1234. if( fn==NULL || cmFsIsFile(fn)==false )
  1235. {
  1236. cmDspClassErr(ctx,classPtr,kInvalidArgDspRC,"The Modulator file '%s' is not valid.",cmStringNullGuard(fn));
  1237. return NULL;
  1238. }
  1239. // allocate the internal modulator object
  1240. cmScModulator* mp = cmScModulatorAlloc(ctx->cmProcCtx, NULL, ctx->cmCtx, ctx->stH, cmDspSampleRate(ctx), cmDspSamplesPerCycle(ctx), fn, modLabel, _cmDspScModCb, NULL );
  1241. if(mp == NULL )
  1242. {
  1243. cmDspClassErr(ctx,classPtr,kInvalidArgDspRC,"The internal modulator object initialization failed.");
  1244. return NULL;
  1245. }
  1246. unsigned fixArgCnt = sizeof(args)/sizeof(args[0]) - 1;
  1247. unsigned argCnt = fixArgCnt + cmScModulatorOutVarCount(mp);
  1248. cmDspVarArg_t a[ argCnt+1 ];
  1249. unsigned i;
  1250. cmDspArgCopy( a, argCnt, 0, args, fixArgCnt );
  1251. for(i=fixArgCnt; i<argCnt; ++i)
  1252. {
  1253. unsigned varIdx = i - fixArgCnt;
  1254. const cmScModVar_t* vp = cmScModulatorOutVar(mp,varIdx);
  1255. const cmChar_t* label = cmSymTblLabel( ctx->stH, vp->varSymId );
  1256. const cmChar_t* docStr = cmTsPrintfS("Variable output for %s",label);
  1257. cmDspArgSetup(ctx, a + i, label, cmInvalidId, i, 0, 0, kOutDsvFl | kDoubleDsvFl, docStr );
  1258. }
  1259. cmDspArgSetupNull(a+argCnt); // set terminating arg. flags
  1260. cmDspScMod_t* p = cmDspInstAlloc(cmDspScMod_t,ctx,classPtr,a,instSymId,id,storeSymId,va_cnt,vl);
  1261. p->fn = cmMemAllocStr(fn);
  1262. p->modLabel = cmMemAllocStr(modLabel);
  1263. p->mp = mp;
  1264. p->onSymId = cmSymTblId(ctx->stH,"on");
  1265. p->offSymId = cmSymTblId(ctx->stH,"off");
  1266. p->postSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"post");
  1267. p->dumpSymId = cmSymTblId(ctx->stH,"dump");
  1268. mp->cbArg = p; // set the modulator callback arg
  1269. cmDspSetDefaultUInt(ctx,&p->inst,kScLocIdxMdId,0,0);
  1270. cmDspSetDefaultSymbol(ctx,&p->inst,kCmdMdId,p->offSymId);
  1271. cmDspSetDefaultSymbol(ctx,&p->inst,kSelMdId,cmInvalidId);
  1272. return &p->inst;
  1273. }
  1274. cmDspRC_t _cmDspScModFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1275. {
  1276. cmDspRC_t rc = kOkDspRC;
  1277. cmDspScMod_t* p = (cmDspScMod_t*)inst;
  1278. if( cmScModulatorFree(&p->mp) != kOkTlRC )
  1279. return cmErrMsg(&inst->classPtr->err, kInstFinalFailDspRC, "Modulator release failed.");
  1280. cmMemFree(p->fn);
  1281. cmMemFree(p->modLabel);
  1282. return rc;
  1283. }
  1284. cmDspRC_t _cmDspScModReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1285. {
  1286. cmDspRC_t rc = kOkDspRC;
  1287. cmDspApplyAllDefaults(ctx,inst);
  1288. return rc;
  1289. }
  1290. cmDspRC_t _cmDspScModRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1291. {
  1292. cmDspScMod_t* p = (cmDspScMod_t*)inst;
  1293. cmDspSetEvent(ctx,inst,evt);
  1294. switch( evt->dstVarId )
  1295. {
  1296. case kResetIdxMdId:
  1297. cmDspSetUInt(ctx,inst,kScLocIdxMdId,cmDspUInt(inst,kResetIdxMdId));
  1298. break;
  1299. case kCmdMdId:
  1300. {
  1301. unsigned symId = cmDspSymbol(inst,kCmdMdId);
  1302. if( symId == p->onSymId )
  1303. cmScModulatorReset(p->mp, ctx->cmCtx, cmDspUInt(inst,kScLocIdxMdId), cmDspSymbol(inst,kSelMdId));
  1304. if( symId == p->dumpSymId )
  1305. cmScModulatorDump(p->mp);
  1306. }
  1307. break;
  1308. }
  1309. return kOkDspRC;
  1310. }
  1311. cmDspRC_t _cmDspScModExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1312. {
  1313. cmDspRC_t rc = kOkDspRC;
  1314. cmDspScMod_t* p = (cmDspScMod_t*)inst;
  1315. if( cmDspSymbol(inst,kCmdMdId) != p->offSymId )
  1316. {
  1317. p->tmp_ctx = ctx;
  1318. cmScModulatorExec(p->mp,cmDspUInt(inst,kScLocIdxMdId));
  1319. }
  1320. return rc;
  1321. }
  1322. cmDspClass_t* cmScModClassCons( cmDspCtx_t* ctx )
  1323. {
  1324. cmDspClassSetup(&_cmModulatorDC,ctx,"ScMod",
  1325. NULL,
  1326. _cmDspScModAlloc,
  1327. _cmDspScModFree,
  1328. _cmDspScModReset,
  1329. _cmDspScModExec,
  1330. _cmDspScModRecv,
  1331. NULL,NULL,
  1332. "Score Driven Variable Modulator.");
  1333. return &_cmModulatorDC;
  1334. }
  1335. //------------------------------------------------------------------------------------------------------------
  1336. //)
  1337. //( { label:cmDspGSwitch file_desc:"Route all inputs to one of a group of outputs." kw:[sunit] }
  1338. enum
  1339. {
  1340. kInChCntGsId,
  1341. kOutGroupCntGsId,
  1342. kGroupSelIdxGsId,
  1343. kBaseInFloatGsId
  1344. };
  1345. cmDspClass_t _cmGSwitchDC;
  1346. typedef struct
  1347. {
  1348. cmDspInst_t inst;
  1349. unsigned iChCnt;
  1350. unsigned oGroupCnt;
  1351. unsigned baseInFloatGsId;
  1352. unsigned baseInSymGsId;
  1353. unsigned baseInBoolGsId;
  1354. unsigned baseOutFloatGsId;
  1355. unsigned baseOutSymGsId;
  1356. unsigned baseOutBoolGsId;
  1357. } cmDspGSwitch_t;
  1358. cmDspInst_t* _cmDspGSwitchAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  1359. {
  1360. va_list vl1;
  1361. va_copy(vl1,vl);
  1362. cmDspVarArg_t args[] =
  1363. {
  1364. { "ichs", kInChCntGsId, 0,0, kUIntDsvFl | kReqArgDsvFl, "Input channel count."},
  1365. { "ochs", kOutGroupCntGsId, 0,0, kUIntDsvFl | kReqArgDsvFl, "Output group count."},
  1366. { "sel", kGroupSelIdxGsId, 0,0, kInDsvFl | kUIntDsvFl, "Group select index."},
  1367. { NULL, 0, 0, 0, 0 }
  1368. };
  1369. // validate the argument count
  1370. if( va_cnt != 2 )
  1371. {
  1372. cmDspClassErr(ctx,classPtr,kInvalidArgDspRC,"The GSwitch requires at least two arguments.");
  1373. return NULL;
  1374. }
  1375. // read the input ch and output group count
  1376. unsigned iChCnt = va_arg(vl1,unsigned);
  1377. unsigned oGroupCnt = va_arg(vl1,unsigned);
  1378. va_end(vl1);
  1379. // validate the channel counts
  1380. if( iChCnt == 0 || oGroupCnt==0 )
  1381. {
  1382. cmDspClassErr(ctx,classPtr,kInvalidArgDspRC,"The GSwitch input channel count and group count must be greater than zero.");
  1383. return NULL;
  1384. }
  1385. unsigned typeCnt = 3; // i.e. float,sym,bool
  1386. unsigned baseInFloatGsId = kBaseInFloatGsId;
  1387. unsigned baseInSymGsId = baseInFloatGsId + iChCnt;
  1388. unsigned baseInBoolGsId = baseInSymGsId + iChCnt;
  1389. unsigned baseOutFloatGsId = baseInBoolGsId + iChCnt;
  1390. unsigned baseOutSymGsId = baseOutFloatGsId + (iChCnt * oGroupCnt);
  1391. unsigned baseOutBoolGsId = baseOutSymGsId + (iChCnt * oGroupCnt);
  1392. unsigned fixArgCnt = 3;
  1393. unsigned varArgCnt = (iChCnt * typeCnt) + (iChCnt * typeCnt * oGroupCnt);
  1394. unsigned argCnt = fixArgCnt + varArgCnt;
  1395. cmDspVarArg_t a[ argCnt+1 ];
  1396. unsigned i;
  1397. cmDspArgCopy( a, argCnt, 0, args, fixArgCnt );
  1398. cmDspArgSetupN( ctx, a, argCnt, baseInFloatGsId, iChCnt, "f-in", baseInFloatGsId, 0, 0, kInDsvFl | kDoubleDsvFl, "Float input");
  1399. cmDspArgSetupN( ctx, a, argCnt, baseInSymGsId, iChCnt, "s-in", baseInSymGsId, 0, 0, kInDsvFl | kSymDsvFl, "Symbol input");
  1400. cmDspArgSetupN( ctx, a, argCnt, baseInBoolGsId, iChCnt, "b-in", baseInBoolGsId, 0, 0, kInDsvFl | kBoolDsvFl, "Bool input");
  1401. unsigned labelCharCnt = 63;
  1402. cmChar_t label[labelCharCnt+1];
  1403. label[labelCharCnt] = 0;
  1404. unsigned gsid = baseOutFloatGsId;
  1405. for(i=0; i<oGroupCnt; ++i, gsid+=iChCnt)
  1406. {
  1407. snprintf(label,labelCharCnt,"f-out-%i",i);
  1408. cmDspArgSetupN( ctx, a, argCnt, gsid, iChCnt, label, gsid, 0, 0, kInDsvFl | kDoubleDsvFl, "Float output");
  1409. }
  1410. gsid = baseOutSymGsId;
  1411. for(i=0; i<oGroupCnt; ++i, gsid+=iChCnt)
  1412. {
  1413. snprintf(label,labelCharCnt,"s-out-%i",i);
  1414. cmDspArgSetupN( ctx, a, argCnt, gsid, iChCnt, label, gsid, 0, 0, kInDsvFl | kSymDsvFl, "Symbol output");
  1415. }
  1416. gsid = baseOutBoolGsId;
  1417. for(i=0; i<oGroupCnt; ++i, gsid+=iChCnt)
  1418. {
  1419. snprintf(label,labelCharCnt,"b-out-%i",i);
  1420. cmDspArgSetupN( ctx,a, argCnt, gsid, iChCnt, label, gsid, 0, 0, kInDsvFl | kBoolDsvFl, "Bool output");
  1421. }
  1422. cmDspArgSetupNull(a+argCnt); // set terminating arg. flags
  1423. cmDspGSwitch_t* p = cmDspInstAlloc(cmDspGSwitch_t,ctx,classPtr,a,instSymId,id,storeSymId,va_cnt,vl);
  1424. p->iChCnt = iChCnt;
  1425. p->oGroupCnt = oGroupCnt;
  1426. p->baseInFloatGsId = baseInFloatGsId;
  1427. p->baseInSymGsId = baseInSymGsId;
  1428. p->baseInBoolGsId = baseInBoolGsId;
  1429. p->baseOutFloatGsId = baseOutFloatGsId;
  1430. p->baseOutSymGsId = baseOutSymGsId;
  1431. p->baseOutBoolGsId = baseOutBoolGsId;
  1432. cmDspSetDefaultUInt(ctx,&p->inst,kGroupSelIdxGsId,0,0);
  1433. return &p->inst;
  1434. }
  1435. cmDspRC_t _cmDspGSwitchReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1436. {
  1437. cmDspRC_t rc = kOkDspRC;
  1438. cmDspApplyAllDefaults(ctx,inst);
  1439. return rc;
  1440. }
  1441. cmDspRC_t _cmDspGSwitchRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1442. {
  1443. cmDspRC_t rc = kOkDspRC;
  1444. cmDspGSwitch_t* p = (cmDspGSwitch_t*)inst;
  1445. // if this is the group selector
  1446. if( evt->dstVarId == kGroupSelIdxGsId )
  1447. {
  1448. unsigned idx;
  1449. if( (idx = cmDsvGetUInt(evt->valuePtr)) > p->oGroupCnt )
  1450. cmDspInstErr(ctx,inst,kInvalidArgDspRC,"The GSwitch group select index %i is out of range %i.",idx,p->oGroupCnt);
  1451. else
  1452. cmDspSetEvent(ctx,inst,evt);
  1453. return rc;
  1454. }
  1455. // get the group selector
  1456. unsigned groupIdx = cmDspUInt(inst,kGroupSelIdxGsId);
  1457. assert( groupIdx < p->oGroupCnt);
  1458. // if this is a float input
  1459. if( p->baseInFloatGsId <= evt->dstVarId && evt->dstVarId < p->baseInFloatGsId + p->iChCnt )
  1460. {
  1461. unsigned outVarId = p->baseOutFloatGsId + (groupIdx * p->iChCnt) + (evt->dstVarId - p->baseInFloatGsId);
  1462. cmDspValueSet(ctx, inst, outVarId, evt->valuePtr, 0 );
  1463. return rc;
  1464. }
  1465. // if this is a symbol input
  1466. if( p->baseInSymGsId <= evt->dstVarId && evt->dstVarId < p->baseInSymGsId + p->iChCnt )
  1467. {
  1468. unsigned outVarId = p->baseOutSymGsId + (groupIdx * p->iChCnt) + (evt->dstVarId - p->baseInSymGsId);
  1469. cmDspValueSet(ctx, inst, outVarId, evt->valuePtr, 0 );
  1470. return rc;
  1471. }
  1472. // if this is a bool input
  1473. if( p->baseInBoolGsId <= evt->dstVarId && evt->dstVarId < p->baseInBoolGsId + p->iChCnt )
  1474. {
  1475. unsigned outVarId = p->baseOutBoolGsId + (groupIdx * p->iChCnt) + (evt->dstVarId - p->baseInBoolGsId);
  1476. cmDspValueSet(ctx, inst, outVarId, evt->valuePtr, 0 );
  1477. return rc;
  1478. }
  1479. return rc;
  1480. }
  1481. cmDspClass_t* cmGSwitchClassCons( cmDspCtx_t* ctx )
  1482. {
  1483. cmDspClassSetup(&_cmGSwitchDC,ctx,"GSwitch",
  1484. NULL,
  1485. _cmDspGSwitchAlloc,
  1486. NULL,
  1487. _cmDspGSwitchReset,
  1488. NULL,
  1489. _cmDspGSwitchRecv,
  1490. NULL,NULL,
  1491. "Ganged switch.");
  1492. return &_cmGSwitchDC;
  1493. }
  1494. //------------------------------------------------------------------------------------------------------------
  1495. //)
  1496. //( { label:cmDspScaleRange file_desc:"Offset and scale a scalar value." kw:[sunit] }
  1497. enum
  1498. {
  1499. kMinInSrId,
  1500. kMaxInSrId,
  1501. kMinOutSrId,
  1502. kMaxOutSrId,
  1503. kValInSrId,
  1504. kValOutSrId,
  1505. };
  1506. cmDspClass_t _cmScaleRangeDC;
  1507. typedef struct
  1508. {
  1509. cmDspInst_t inst;
  1510. } cmDspScaleRange_t;
  1511. cmDspInst_t* _cmDspScaleRangeAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  1512. {
  1513. va_list vl1;
  1514. va_copy(vl1,vl);
  1515. cmDspVarArg_t args[] =
  1516. {
  1517. { "min_in", kMinInSrId, 0,0, kInDsvFl | kDoubleDsvFl , "Min Input value."},
  1518. { "max_in", kMaxInSrId, 0,0, kInDsvFl | kDoubleDsvFl , "Max Input value."},
  1519. { "min_out", kMinOutSrId, 0,0, kInDsvFl | kDoubleDsvFl , "Min Output value."},
  1520. { "max_out", kMaxOutSrId, 0,0, kInDsvFl | kDoubleDsvFl , "Max Output value."},
  1521. { "val_in", kValInSrId, 0,0, kInDsvFl | kDoubleDsvFl, "Input value."},
  1522. { "val_out", kValOutSrId, 0,0, kOutDsvFl | kDoubleDsvFl, "Output value"},
  1523. { NULL, 0, 0, 0, 0 }
  1524. };
  1525. cmDspScaleRange_t* p = cmDspInstAlloc(cmDspScaleRange_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  1526. cmDspSetDefaultDouble(ctx,&p->inst,kMinInSrId,0,0);
  1527. cmDspSetDefaultDouble(ctx,&p->inst,kMaxInSrId,0,1.0);
  1528. cmDspSetDefaultDouble(ctx,&p->inst,kMinOutSrId,0,0);
  1529. cmDspSetDefaultDouble(ctx,&p->inst,kMaxOutSrId,0,1.0);
  1530. return &p->inst;
  1531. }
  1532. cmDspRC_t _cmDspScaleRangeReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1533. {
  1534. cmDspRC_t rc = kOkDspRC;
  1535. cmDspApplyAllDefaults(ctx,inst);
  1536. return rc;
  1537. }
  1538. cmDspRC_t _cmDspScaleRangeRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1539. {
  1540. cmDspRC_t rc = kOkDspRC;
  1541. //cmDspScaleRange_t* p = (cmDspScaleRange_t*)inst;
  1542. cmDspSetEvent(ctx,inst,evt);
  1543. if( evt->dstVarId == kValInSrId )
  1544. {
  1545. double val = cmDspDouble(inst,kValInSrId);
  1546. double min_in = cmDspDouble(inst,kMinInSrId);
  1547. double max_in = cmDspDouble(inst,kMaxInSrId);
  1548. double min_out = cmDspDouble(inst,kMinOutSrId);
  1549. double max_out = cmDspDouble(inst,kMaxOutSrId);
  1550. double x = cmMax(min_in,cmMin(max_in,val));
  1551. x = (x - min_in)/(max_in - min_in);
  1552. x = min_out + x * (max_out - min_out);
  1553. cmDspSetDouble(ctx,inst,kValOutSrId, x );
  1554. //printf("%f (%f %f) : (%f %f) %f\n",val,min_in,max_in,min_out,max_out,x);
  1555. }
  1556. return rc;
  1557. }
  1558. cmDspClass_t* cmScaleRangeClassCons( cmDspCtx_t* ctx )
  1559. {
  1560. cmDspClassSetup(&_cmScaleRangeDC,ctx,"ScaleRange",
  1561. NULL,
  1562. _cmDspScaleRangeAlloc,
  1563. NULL,
  1564. _cmDspScaleRangeReset,
  1565. NULL,
  1566. _cmDspScaleRangeRecv,
  1567. NULL,NULL,
  1568. "Scale a value inside an input range to a value in the output range.");
  1569. return &_cmScaleRangeDC;
  1570. }
  1571. //------------------------------------------------------------------------------------------------------------
  1572. //)
  1573. //( { label:cmDspActiveMeas file_desc:"Issue stored parameter values at specified score locations." kw:[sunit] }
  1574. enum
  1575. {
  1576. kCntAmId,
  1577. kSflocAmId,
  1578. kLocAmId,
  1579. kTypeAmId,
  1580. kValueAmId,
  1581. kCstAmId,
  1582. kCmdAmId,
  1583. kScLocAmId,
  1584. kEvenAmId,
  1585. kDynAmId,
  1586. kTempoAmId,
  1587. kCostAmId
  1588. };
  1589. cmDspClass_t _cmActiveMeasDC;
  1590. typedef struct cmDspAmRecd_str
  1591. {
  1592. unsigned loc;
  1593. unsigned type;
  1594. double value;
  1595. double cost;
  1596. struct cmDspAmRecd_str* link;
  1597. } cmDspAmRecd_t;
  1598. //int cmDspActiveMeasRecdCompare(const void * p0, const void * p1)
  1599. //{
  1600. // return ((int)((cmDspActiveMeasRecd_t*)p0)->loc) - (int)(((cmDspActiveMeasRecd_t*)p1)->loc);
  1601. //}
  1602. typedef struct
  1603. {
  1604. cmDspInst_t inst;
  1605. unsigned addSymId;
  1606. unsigned clearSymId;
  1607. unsigned printSymId;
  1608. unsigned rewindSymId;
  1609. cmDspAmRecd_t* array; // array[cnt]
  1610. unsigned cnt;
  1611. cmDspAmRecd_t* list; // first recd in list sorted on 'loc'.
  1612. cmDspAmRecd_t* avail; // next empty recd
  1613. cmDspAmRecd_t* sent; // last recd sent
  1614. } cmDspActiveMeas_t;
  1615. void _cmDspAmAllocList( cmDspActiveMeas_t* p, unsigned cnt )
  1616. {
  1617. assert(p->array == NULL );
  1618. cmDspAmRecd_t* r = cmMemAllocZ(cmDspAmRecd_t,cnt);
  1619. p->cnt = cnt;
  1620. p->array = r;
  1621. p->list = NULL;
  1622. p->avail = r;
  1623. p->sent = NULL;
  1624. }
  1625. cmDspRC_t _cmDspActiveMeasAdd( cmDspCtx_t* ctx, cmDspActiveMeas_t* p, unsigned loc, unsigned type, double value, double cost)
  1626. {
  1627. assert( type != kInvalidVarScId );
  1628. cmDspAmRecd_t* rp = p->list;
  1629. cmDspAmRecd_t* pp = NULL;
  1630. // search for the location to add the new record
  1631. for(; rp!=NULL; rp=rp->link)
  1632. {
  1633. // if this loc and type already exists then replace the value and cost fields
  1634. if( rp->loc==loc && rp->type==type )
  1635. goto foundLabel;
  1636. // if this loc should be inserted before rp
  1637. if( loc < rp->loc )
  1638. break;
  1639. pp = rp;
  1640. }
  1641. // if the pre-allocated list is full
  1642. if( p->avail >= p->array+p->cnt )
  1643. return cmDspInstErr(ctx,&p->inst,kInvalidArgDspRC,"Unable to store new measurement record. All preallocated active measurement slots are in use.");
  1644. // if prepending to the list
  1645. if( pp == NULL )
  1646. {
  1647. rp = p->avail;
  1648. rp->link = p->list;
  1649. p->list = rp;
  1650. }
  1651. else
  1652. {
  1653. // if appending to the list after pp
  1654. if( rp == NULL )
  1655. {
  1656. // nothing to do
  1657. }
  1658. else // if inserting between pp and rp
  1659. {
  1660. p->avail->link = rp;
  1661. }
  1662. rp = p->avail;
  1663. pp->link = rp;
  1664. }
  1665. p->avail += 1;
  1666. foundLabel:
  1667. rp->loc = loc;
  1668. rp->type = type;
  1669. rp->value = value;
  1670. rp->cost = cost;
  1671. return kOkDspRC;
  1672. }
  1673. cmDspInst_t* _cmDspActiveMeasAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  1674. {
  1675. cmDspVarArg_t args[] =
  1676. {
  1677. { "cnt", kCntAmId, 0,0, kInDsvFl | kUIntDsvFl, "Maximum count of active measurements."},
  1678. { "sfloc", kSflocAmId, 0,0, kInDsvFl | kUIntDsvFl, "Score follower location input." },
  1679. { "loc", kLocAmId, 0,0, kInDsvFl | kUIntDsvFl, "Meas. location." },
  1680. { "type", kTypeAmId, 0,0, kInDsvFl | kUIntDsvFl, "Meas. Type. (even,dyn,...)" },
  1681. { "val", kValueAmId, 0,0, kInDsvFl | kDoubleDsvFl, "Meas. Value."},
  1682. { "cst", kCstAmId, 0,0, kInDsvFl | kDoubleDsvFl, "Meas. Cost."},
  1683. { "cmd", kCmdAmId, 0,0, kInDsvFl | kSymDsvFl, "Commands:add | clear | dump | rewind"},
  1684. { "scloc", kScLocAmId, 0,0, kOutDsvFl | kUIntDsvFl, "Score location"},
  1685. { "even", kEvenAmId, 0,0, kOutDsvFl | kDoubleDsvFl, "Even out"},
  1686. { "dyn", kDynAmId, 0,0, kOutDsvFl | kDoubleDsvFl, "Dyn out"},
  1687. { "tempo", kTempoAmId, 0,0, kOutDsvFl | kDoubleDsvFl, "Tempo out"},
  1688. { "cost", kCostAmId, 0,0, kOutDsvFl | kDoubleDsvFl, "Cost out"},
  1689. { NULL, 0, 0, 0, 0 }
  1690. };
  1691. cmDspActiveMeas_t* p = cmDspInstAlloc(cmDspActiveMeas_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  1692. p->addSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"add");
  1693. p->clearSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"clear");
  1694. p->printSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"dump");
  1695. p->rewindSymId= cmSymTblRegisterStaticSymbol(ctx->stH,"rewind");
  1696. cmDspSetDefaultUInt( ctx,&p->inst,kCntAmId, 0,256);
  1697. cmDspSetDefaultUInt( ctx,&p->inst,kScLocAmId,0,0);
  1698. cmDspSetDefaultDouble(ctx,&p->inst,kEvenAmId, 0,0);
  1699. cmDspSetDefaultDouble(ctx,&p->inst,kDynAmId, 0,0);
  1700. cmDspSetDefaultDouble(ctx,&p->inst,kTempoAmId,0,0);
  1701. cmDspSetDefaultDouble(ctx,&p->inst,kTempoAmId,0,0);
  1702. return &p->inst;
  1703. }
  1704. cmDspRC_t _cmDspActiveMeasPrint(cmDspCtx_t* ctx, cmDspActiveMeas_t* p )
  1705. {
  1706. cmDspAmRecd_t* rp = p->list;
  1707. for(; rp!=NULL; rp=rp->link)
  1708. {
  1709. const cmChar_t* label = "<null>";
  1710. switch( rp->type )
  1711. {
  1712. case kEvenVarScId: label="even "; break;
  1713. case kDynVarScId: label="dyn "; break;
  1714. case kTempoVarScId: label="tempo"; break;
  1715. default:
  1716. { assert(0); }
  1717. }
  1718. cmRptPrintf(ctx->rpt,"loc:%i %s %f %f\n",rp->loc,label,rp->value,rp->cost);
  1719. }
  1720. return kOkDspRC;
  1721. }
  1722. cmDspRC_t _cmDspActiveMeasClear(cmDspCtx_t* ctx, cmDspActiveMeas_t* p )
  1723. {
  1724. memset(p->array,0,sizeof(p->array[0])*p->cnt);
  1725. p->avail = p->array;
  1726. p->list = NULL;
  1727. p->avail = p->array;
  1728. return kOkDspRC;
  1729. }
  1730. cmDspRC_t _cmDspActiveMeasFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1731. {
  1732. cmDspActiveMeas_t* p = (cmDspActiveMeas_t*)inst;
  1733. cmMemPtrFree(&p->array);
  1734. return kOkDspRC;
  1735. }
  1736. cmDspRC_t _cmDspActiveMeasReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1737. {
  1738. cmDspRC_t rc = kOkDspRC;
  1739. cmDspActiveMeas_t* p = (cmDspActiveMeas_t*)inst;
  1740. cmDspApplyAllDefaults(ctx,inst);
  1741. unsigned cnt = cmMax(100,cmDspUInt(inst,kCntAmId));
  1742. _cmDspActiveMeasFree(ctx,inst,evt);
  1743. _cmDspAmAllocList(p,cnt);
  1744. return rc;
  1745. }
  1746. cmDspRC_t _cmDspActiveMeasRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1747. {
  1748. cmDspRC_t rc = kOkDspRC;
  1749. cmDspActiveMeas_t* p = (cmDspActiveMeas_t*)inst;
  1750. cmDspSetEvent(ctx,inst,evt);
  1751. switch( evt->dstVarId )
  1752. {
  1753. case kSflocAmId:
  1754. {
  1755. unsigned sfloc = cmDspUInt(inst,kSflocAmId); // get the recv'd score location
  1756. cmDspAmRecd_t* rp = p->sent==NULL ? p->list : p->sent->link; // get the next recd to send
  1757. bool fl = false;
  1758. for(; rp!=NULL; rp=rp->link)
  1759. if( rp->loc <= sfloc )
  1760. {
  1761. // deterimine the records type
  1762. unsigned varId = cmInvalidId;
  1763. switch( rp->type )
  1764. {
  1765. case kEvenVarScId: varId = kEvenAmId; break;
  1766. case kDynVarScId: varId = kDynAmId; break;
  1767. case kTempoVarScId: varId = kTempoAmId; break;
  1768. default:
  1769. { assert(0); }
  1770. }
  1771. // Sending the location triggers the avail-ch to switch - so the location should only
  1772. // be sent once.
  1773. if( !fl )
  1774. {
  1775. cmDspSetUInt(ctx,inst,kScLocAmId,rp->loc);
  1776. fl = true;
  1777. }
  1778. // transmit the records value and cost
  1779. cmDspSetDouble(ctx,inst,varId,rp->value);
  1780. cmDspSetDouble(ctx,inst,kCostAmId,rp->cost);
  1781. p->sent = rp;
  1782. }
  1783. }
  1784. break;
  1785. case kCmdAmId:
  1786. {
  1787. unsigned cmdSymId = cmDspSymbol(inst,kCmdAmId);
  1788. if( cmdSymId == p->addSymId )
  1789. rc = _cmDspActiveMeasAdd(ctx,p,cmDspUInt(inst,kLocAmId),cmDspUInt(inst,kTypeAmId),cmDspDouble(inst,kValueAmId),cmDspDouble(inst,kCstAmId));
  1790. else
  1791. if( cmdSymId == p->clearSymId )
  1792. rc = _cmDspActiveMeasClear(ctx,p);
  1793. else
  1794. if( cmdSymId == p->printSymId )
  1795. rc = _cmDspActiveMeasPrint(ctx,p);
  1796. else
  1797. if(cmdSymId == p->rewindSymId )
  1798. p->sent = NULL;
  1799. }
  1800. break;
  1801. }
  1802. // switch( evt->dstVarId )
  1803. // {
  1804. // case kSflocAmId:
  1805. // if( p->nextFullIdx != cmInvalidIdx )
  1806. // {
  1807. // // get the recv'd score location
  1808. // unsigned sflocIdx = cmDspUInt(inst,kSflocAmId);
  1809. //
  1810. // unsigned prvLoc = cmInvalidIdx;
  1811. //
  1812. // // for each remaining avail record
  1813. // for(; p->nextFullIdx < p->nextEmptyIdx; p->nextFullIdx++)
  1814. // {
  1815. // cmDspActiveMeasRecd_t* r = p->array + p->nextFullIdx;
  1816. //
  1817. // // if this records score location is after the recv'd score loc then we're done
  1818. // if( r->loc > sflocIdx )
  1819. // break;
  1820. //
  1821. // // deterimine the records type
  1822. // unsigned varId = cmInvalidId;
  1823. // switch( r->type )
  1824. // {
  1825. // case kEvenVarScId: varId = kEvenAmId; break;
  1826. // case kDynVarScId: varId = kDynAmId; break;
  1827. // case kTempoVarScId: varId = kTempoAmId; break;
  1828. // default:
  1829. // { assert(0); }
  1830. // }
  1831. //
  1832. // // if this score location has not yet been sent then send it now
  1833. // if( prvLoc != r->loc )
  1834. // cmDspSetUInt(ctx,inst,kScLocAmId,r->loc);
  1835. //
  1836. // // transmit the records value and cost
  1837. // cmDspSetDouble(ctx,inst,varId,r->value);
  1838. // cmDspSetDouble(ctx,inst,kCostAmId,r->cost);
  1839. //
  1840. // prvLoc = r->loc;
  1841. // }
  1842. //
  1843. //
  1844. // }
  1845. // break;
  1846. //
  1847. // case kCmdAmId:
  1848. // {
  1849. // unsigned cmdSymId = cmDspSymbol(inst,kCmdAmId);
  1850. //
  1851. // if( cmdSymId == p->addSymId )
  1852. // {
  1853. // if( p->nextEmptyIdx >= p->cnt )
  1854. // cmDspInstErr(ctx,inst,kProcFailDspRC,"The active measurement list is full cnt=%i.",p->cnt);
  1855. // else
  1856. // {
  1857. // cmDspActiveMeasRecd_t* r = p->array + p->nextEmptyIdx;
  1858. // r->loc = cmDspUInt( inst,kLocAmId);
  1859. // r->type = cmDspUInt( inst,kTypeAmId);
  1860. // r->value = cmDspDouble(inst,kValueAmId);
  1861. // r->cost = cmDspDouble(inst,kCstAmId);
  1862. // p->nextEmptyIdx += 1;
  1863. //
  1864. // qsort(p->array,p->nextEmptyIdx,sizeof(p->array[0]),cmDspActiveMeasRecdCompare);
  1865. //
  1866. // if( p->nextEmptyIdx == 1 && p->nextFullIdx == cmInvalidIdx )
  1867. // p->nextFullIdx = 0;
  1868. //
  1869. // }
  1870. // }
  1871. //
  1872. // if( cmdSymId == p->clearSymId )
  1873. // rc = _cmDspActiveMeasClear(ctx,p);
  1874. // else
  1875. // if( cmdSymId == p->printSymId )
  1876. // rc = _cmDspActiveMeasPrint(ctx,p);
  1877. // else
  1878. // if(cmdSymId == p->rewindSymId )
  1879. // p->nextFullIdx = 0;
  1880. // }
  1881. // break;
  1882. //
  1883. // }
  1884. return rc;
  1885. }
  1886. cmDspClass_t* cmActiveMeasClassCons( cmDspCtx_t* ctx )
  1887. {
  1888. cmDspClassSetup(&_cmActiveMeasDC,ctx,"ActiveMeas",
  1889. NULL,
  1890. _cmDspActiveMeasAlloc,
  1891. _cmDspActiveMeasFree,
  1892. _cmDspActiveMeasReset,
  1893. NULL,
  1894. _cmDspActiveMeasRecv,
  1895. NULL,NULL,
  1896. "Scale a value inside an input range to a value in the output range.");
  1897. return &_cmActiveMeasDC;
  1898. }
  1899. //------------------------------------------------------------------------------------------------------------
  1900. //)
  1901. //( { label:cmDspAmSync file_desc:"Calculate MIDI to Audio latency offsets." kw:[sunit] }
  1902. //
  1903. //
  1904. // Usage:
  1905. // 1) In the program resource file setup a list of sync points.
  1906. // 'asmp' refers to a sample offset into the audio file 'af'
  1907. // which should match to the midi event index 'mid' in the
  1908. // midi file 'mf'.
  1909. //
  1910. // amSync :
  1911. // [
  1912. // { af:"af-16" asmp:34735276 mf:"mf-10" mid:350 }
  1913. // { af:"af-16" asmp:71802194 mf:"mf-10" mid:787 }
  1914. // ]
  1915. //
  1916. // 2) Feed the 'fidx' output from a wave table loaded with 'af' into the 'asmp' input port of this amSync object.
  1917. // Feed the 'id' output from the MIDI file player loaded with 'mf' into the 'mid' input port of this amSync object.
  1918. //
  1919. // 3) Run the players.
  1920. // 4) When the run is complete send any message to the 'sel' port of this amSync object.
  1921. // The 'frm:' field of the printed output gives the difference in samples between
  1922. // MIDI and audio sync points.
  1923. //
  1924. // If the value is positive then the MIDI point is after the Audio point.
  1925. // If the value is negative then the MIDI point is before the audio point.
  1926. //
  1927. enum
  1928. {
  1929. kSelAmId,
  1930. kAFnAmId,
  1931. kASmpAmId,
  1932. kMFnAmId,
  1933. kMIdAmId,
  1934. };
  1935. enum
  1936. {
  1937. kAfnAmFl = 0x01,
  1938. kMfnAmFl = 0x02,
  1939. kAsmpAmFl = 0x04,
  1940. kMidAmFl = 0x08,
  1941. };
  1942. cmDspClass_t _cmAmSyncDC;
  1943. typedef struct cmDspAmSyncEntry_str
  1944. {
  1945. const cmChar_t* afn; // audio file name
  1946. const cmChar_t* mfn; // midi file name
  1947. unsigned asmp; // Audio sample index to sync to MIDI event
  1948. unsigned mid; // MIDI event unique id (cmMidiTrackMsg_t.uid)
  1949. int afi; // closest DSP system cycle index to the reference audio sample index (asmp).
  1950. int mfi; // DSP system cycle on which the reference MIDI event (mid) arrived.
  1951. unsigned state; // as incoming msg match this record the state is updated with kXXXAmFl flags
  1952. } cmDspAmSyncEntry_t;
  1953. typedef struct
  1954. {
  1955. cmDspInst_t inst;
  1956. cmDspAmSyncEntry_t* array;
  1957. unsigned arrayCnt;
  1958. cmDspAmSyncEntry_t* acur;
  1959. cmDspAmSyncEntry_t* mcur;
  1960. } cmDspAmSync_t;
  1961. cmDspInst_t* _cmDspAmSyncAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  1962. {
  1963. cmDspVarArg_t args[] =
  1964. {
  1965. { "sel", kSelAmId, 0, 0, kInDsvFl | kTypeDsvMask, "Print and reset" },
  1966. { "afn", kAFnAmId, 0, 0, kInDsvFl | kStrzDsvFl, "Audio File name"},
  1967. { "asmp", kASmpAmId, 0, 0, kInDsvFl | kIntDsvFl, "Audio sample index"},
  1968. { "mfn", kMFnAmId, 0, 0, kInDsvFl | kStrzDsvFl, "MIDI File name"},
  1969. { "mid", kMIdAmId, 0, 0, kInDsvFl | kIntDsvFl, "MIDI Event Unique Id"},
  1970. { NULL, 0, 0, 0, 0 }
  1971. };
  1972. cmDspAmSync_t* p = cmDspInstAlloc(cmDspAmSync_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  1973. return &p->inst;
  1974. }
  1975. cmDspRC_t _cmDspAmSyncFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1976. {
  1977. cmDspAmSync_t* p = (cmDspAmSync_t*)inst;
  1978. cmMemFree(p->array);
  1979. return kOkDspRC;
  1980. }
  1981. cmDspRC_t _cmDspAmSyncReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  1982. {
  1983. cmDspRC_t rc = kOkDspRC;
  1984. cmDspAmSync_t* p = (cmDspAmSync_t*)inst;
  1985. cmDspApplyAllDefaults(ctx,inst);
  1986. cmJsonH_t jsH = cmDspSysPgmRsrcHandle(ctx->dspH);
  1987. cmJsonNode_t* np;
  1988. const cmChar_t* errLabelPtr;
  1989. unsigned i;
  1990. cmJsRC_t jsRC;
  1991. if((np = cmJsonFindValue(jsH, "amSync", NULL, kArrayTId)) == NULL )
  1992. {
  1993. rc = cmDspInstErr(ctx,inst,kRsrcNotFoundDspRC,"The AUDIO MIDI Sync cfg. record was not found.");
  1994. goto errLabel;
  1995. }
  1996. p->arrayCnt = cmJsonChildCount(np);
  1997. p->array = cmMemResizeZ(cmDspAmSyncEntry_t,p->array,p->arrayCnt);
  1998. for(i=0; i<p->arrayCnt; ++i)
  1999. {
  2000. cmJsonNode_t* anp = cmJsonArrayElement(np,i);
  2001. cmDspAmSyncEntry_t* r = p->array + i;
  2002. if( (jsRC = cmJsonMemberValues(anp,&errLabelPtr,
  2003. "af", kStringTId,&r->afn,
  2004. "asmp",kIntTId, &r->asmp,
  2005. "mf", kStringTId,&r->mfn,
  2006. "mid", kIntTId, &r->mid,
  2007. NULL)) != kOkJsRC )
  2008. {
  2009. if( jsRC == kNodeNotFoundJsRC )
  2010. rc = cmDspInstErr(ctx,inst,kRsrcNotFoundDspRC,"The Audio-MIDI Sync cfg. field '%s' was missing in the cfg. record at index %i.",errLabelPtr,i);
  2011. else
  2012. rc = cmDspInstErr(ctx,inst,kInvalidArgDspRC,"The AUDIO MIDI Sync cfg. parse failed on the record at index %i.",i);
  2013. break;
  2014. }
  2015. r->afi = cmInvalidIdx;
  2016. r->mfi = cmInvalidIdx;
  2017. r->state = 0;
  2018. }
  2019. errLabel:
  2020. return rc;
  2021. }
  2022. cmDspRC_t _cmDspAmSyncRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2023. {
  2024. cmDspAmSync_t* p = (cmDspAmSync_t*)inst;
  2025. unsigned i;
  2026. if( evt->dstVarId != kSelAmId )
  2027. cmDspSetEvent(ctx,inst,evt);
  2028. switch(evt->dstVarId)
  2029. {
  2030. case kSelAmId:
  2031. {
  2032. double srate = cmDspSysSampleRate(ctx->dspH);
  2033. int fpc = cmDspSamplesPerCycle(ctx);
  2034. for(i=0; i<p->arrayCnt; ++i)
  2035. {
  2036. cmDspAmSyncEntry_t* r = p->array + i;
  2037. int dframes = r->mfi-r->afi;
  2038. cmRptPrintf(ctx->rpt,"0x%x : %s %i %i - %s %i %i : frm:%i smp:%i sec:%f\n",
  2039. r->state,
  2040. r->afn,
  2041. r->asmp,
  2042. r->afi,
  2043. r->mfn,
  2044. r->mid,
  2045. r->mfi,
  2046. dframes,
  2047. dframes*fpc,dframes*fpc/srate);
  2048. r->afi = cmInvalidIdx;
  2049. r->mfi = cmInvalidIdx;
  2050. r->state = 0;
  2051. }
  2052. p->acur = NULL;
  2053. p->mcur = NULL;
  2054. }
  2055. break;
  2056. case kAFnAmId:
  2057. {
  2058. // an audio file name just arrived - set p->acur to point to it
  2059. const cmChar_t* fn = cmDspStrcz(inst, kAFnAmId );
  2060. for(i=0; i<p->arrayCnt; ++i)
  2061. if( strcmp(fn,p->array[i].afn) == 0 )
  2062. {
  2063. p->array[i].state = cmSetFlag(p->array[i].state,kAfnAmFl);
  2064. p->acur = p->array + i;
  2065. }
  2066. }
  2067. break;
  2068. case kMFnAmId:
  2069. {
  2070. // a midi file name just arrived - set p->mcur to point to it
  2071. const cmChar_t* fn = cmDspStrcz(inst, kMFnAmId );
  2072. for(i=0; i<p->arrayCnt; ++i)
  2073. if( strcmp(fn,p->array[i].mfn) == 0 )
  2074. {
  2075. p->array[i].state = cmSetFlag(p->array[i].state,kMfnAmFl);
  2076. p->mcur = p->array + i;
  2077. }
  2078. }
  2079. break;
  2080. case kASmpAmId:
  2081. {
  2082. // a audio file sample index has just arrived
  2083. int v = cmDspInt(inst,kASmpAmId);
  2084. // if a valid audio file has been set
  2085. if( p->acur != NULL )
  2086. for(i=0; i<p->arrayCnt; ++i)
  2087. {
  2088. // if the audio sync point is before or on the new audio file sample index then
  2089. // this is the closest audio file index to the audio sync point - record the
  2090. // associated cycleCnt
  2091. cmDspAmSyncEntry_t* r = p->array + i;
  2092. if( cmIsNotFlag(r->state,kAsmpAmFl) && r->asmp <= v && strcmp(p->acur->afn,r->afn)==0 )
  2093. {
  2094. r->afi = ctx->cycleCnt;
  2095. r->state = cmSetFlag(r->state,kAsmpAmFl);
  2096. break;
  2097. }
  2098. }
  2099. }
  2100. break;
  2101. case kMIdAmId:
  2102. {
  2103. // a new MIDI event was received
  2104. int v = cmDspInt(inst,kMIdAmId);
  2105. if( p->mcur != NULL )
  2106. for(i=0; i<p->arrayCnt; ++i)
  2107. {
  2108. // if the new MIDI event matched the MIDI sync point then record the
  2109. // current cycleCnt.
  2110. cmDspAmSyncEntry_t* r = p->array + i;
  2111. if( cmIsNotFlag(r->state,kMidAmFl) && r->mid == v && strcmp(p->mcur->mfn,r->mfn)==0 )
  2112. {
  2113. r->mfi = ctx->cycleCnt;
  2114. r->state = cmSetFlag(r->state,kMidAmFl);
  2115. break;
  2116. }
  2117. }
  2118. }
  2119. break;
  2120. }
  2121. return kOkDspRC;
  2122. }
  2123. cmDspClass_t* cmAmSyncClassCons( cmDspCtx_t* ctx )
  2124. {
  2125. cmDspClassSetup(&_cmAmSyncDC,ctx,"AmSync",
  2126. NULL,
  2127. _cmDspAmSyncAlloc,
  2128. _cmDspAmSyncFree,
  2129. _cmDspAmSyncReset,
  2130. NULL,
  2131. _cmDspAmSyncRecv,
  2132. NULL,NULL,
  2133. "Audio - MIDI Sync Object.");
  2134. return &_cmAmSyncDC;
  2135. }
  2136. //------------------------------------------------------------------------------------------------------------
  2137. //)
  2138. //( { label:cmDspNanoMap file_desc:"Control a MIDI synth." kw:[sunit] }
  2139. enum
  2140. {
  2141. kPgmNmId,
  2142. kStatusNmId,
  2143. kD0NmId,
  2144. kD1NmId,
  2145. kThruNmId
  2146. };
  2147. cmDspClass_t _cmNanoMapDC;
  2148. typedef struct
  2149. {
  2150. cmDspInst_t inst;
  2151. } cmDspNanoMap_t;
  2152. cmDspRC_t _cmDspNanoMapSend( cmDspCtx_t* ctx, cmDspInst_t* inst, unsigned st, unsigned d0, unsigned d1 )
  2153. {
  2154. cmDspSetUInt(ctx,inst,kD1NmId,d1);
  2155. cmDspSetUInt(ctx,inst,kD0NmId,d0);
  2156. cmDspSetUInt(ctx,inst,kStatusNmId,st);
  2157. return kOkDspRC;
  2158. }
  2159. void _cmDspNanoMapPgm( cmDspCtx_t* ctx, cmDspInst_t* inst, unsigned pgm )
  2160. {
  2161. //cmDspNanoMap_t* p = (cmDspNanoMap_t*)inst;
  2162. unsigned i;
  2163. for(i=0; i<kMidiChCnt; ++i)
  2164. {
  2165. _cmDspNanoMapSend(ctx,inst,kCtlMdId+i,121,0); // reset all controllers
  2166. _cmDspNanoMapSend(ctx,inst,kCtlMdId+i,123,0); // turn all notes off
  2167. _cmDspNanoMapSend(ctx,inst,kCtlMdId+i,0,0); // switch to bank 0
  2168. _cmDspNanoMapSend(ctx,inst,kPgmMdId+i,pgm,0); // send pgm change
  2169. cmSleepMs(15);
  2170. }
  2171. }
  2172. cmDspInst_t* _cmDspNanoMapAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2173. {
  2174. cmDspVarArg_t args[] =
  2175. {
  2176. { "pgm", kPgmNmId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Reprogram all channels to this pgm." },
  2177. { "status", kStatusNmId, 0, 0, kOutDsvFl | kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "MIDI status" },
  2178. { "d0", kD0NmId, 0, 0, kOutDsvFl | kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "MIDI channel message d0" },
  2179. { "d1", kD1NmId, 0, 0, kOutDsvFl | kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "MIDI channel message d1" },
  2180. { "thru", kThruNmId, 0, 0, kInDsvFl | kBoolDsvFl | kOptArgDsvFl, "Enable pass through."},
  2181. { NULL, 0, 0, 0, 0 }
  2182. };
  2183. cmDspNanoMap_t* p = cmDspInstAlloc(cmDspNanoMap_t,ctx,classPtr,args,instSymId,id,storeSymId,va_cnt,vl);
  2184. cmDspSetDefaultUInt(ctx,&p->inst, kPgmNmId, 0, 0 );
  2185. return &p->inst;
  2186. }
  2187. cmDspRC_t _cmDspNanoMapReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2188. {
  2189. cmDspRC_t rc = kOkDspRC;
  2190. cmDspApplyAllDefaults(ctx,inst);
  2191. _cmDspNanoMapPgm(ctx,inst,cmDspUInt(inst,kPgmNmId));
  2192. return rc;
  2193. }
  2194. cmDspRC_t _cmDspNanoMapRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2195. {
  2196. //cmDspNanoMap_t* p = (cmDspNanoMap_t*)inst;
  2197. switch( evt->dstVarId )
  2198. {
  2199. case kPgmNmId:
  2200. cmDspSetEvent(ctx,inst,evt);
  2201. _cmDspNanoMapPgm(ctx,inst,cmDspUInt(inst,kPgmNmId));
  2202. break;
  2203. case kStatusNmId:
  2204. {
  2205. unsigned status = cmDsvGetUInt(evt->valuePtr);
  2206. unsigned stat_no_ch = status & 0xf0;
  2207. if( stat_no_ch == kNoteOnMdId || stat_no_ch == kNoteOffMdId || stat_no_ch == kCtlMdId )
  2208. {
  2209. //unsigned d0 = cmDspUInt(inst,kD0NmId);
  2210. unsigned ch = 0; //d0 % 8;
  2211. status = (status & 0xf0) + ch;
  2212. cmDspSetUInt(ctx,inst,kStatusNmId,status);
  2213. }
  2214. }
  2215. break;
  2216. default:
  2217. cmDspSetEvent(ctx,inst,evt);
  2218. break;
  2219. }
  2220. return kOkDspRC;
  2221. }
  2222. cmDspClass_t* cmNanoMapClassCons( cmDspCtx_t* ctx )
  2223. {
  2224. cmDspClassSetup(&_cmNanoMapDC,ctx,"NanoMap",
  2225. NULL,
  2226. _cmDspNanoMapAlloc,
  2227. NULL,
  2228. _cmDspNanoMapReset,
  2229. NULL,
  2230. _cmDspNanoMapRecv,
  2231. NULL,
  2232. NULL,
  2233. "Nanosynth Mapper");
  2234. return &_cmNanoMapDC;
  2235. }
  2236. //------------------------------------------------------------------------------------------------------------
  2237. //)
  2238. //( { label:cmDspRecdPlay file_desc:"Record audio segments from a live perfromance and play them back at a later time" kw:[sunit] }
  2239. enum
  2240. {
  2241. kChCntPrId,
  2242. kFnPrId,
  2243. kSecsPrId,
  2244. kMaxLaSecsPrId,
  2245. kCurLaSecsPrId,
  2246. kFadeRatePrId,
  2247. kScInitLocIdxPrId,
  2248. kScLocIdxPrId,
  2249. kCmdPrId,
  2250. kInAudioBasePrId
  2251. };
  2252. cmDspClass_t _cmRecdPlayDC;
  2253. typedef struct
  2254. {
  2255. cmDspInst_t inst;
  2256. cmRecdPlay* rcdply;
  2257. cmScH_t scH;
  2258. unsigned onSymId;
  2259. unsigned offSymId;
  2260. unsigned audioOutBaseId;
  2261. unsigned chCnt;
  2262. //unsigned scLocIdx;
  2263. } cmDspRecdPlay_t;
  2264. cmDspRC_t _cmDspRecdPlayParseRsrc( cmDspCtx_t* ctx, cmDspInst_t* inst, cmRecdPlay* rcdply )
  2265. {
  2266. cmDspRC_t rc = kOkDspRC;
  2267. const cmChar_t* path = NULL;
  2268. // read the 'recdplay' audio file path
  2269. if( cmDspRsrcString( ctx->dspH, &path, "recdPlayPath", NULL ) != kOkDspRC )
  2270. {
  2271. cmDspInstErr(ctx,inst,kRsrcNotFoundDspRC,"The 'recdPlayPath' resource string was not found.");
  2272. }
  2273. if( path == NULL )
  2274. path = "";
  2275. cmJsonH_t jsH = cmDspSysPgmRsrcHandle(ctx->dspH);
  2276. cmJsonNode_t* jnp = cmJsonFindValue(jsH,"recdPlay",NULL, kArrayTId);
  2277. if( jnp == NULL || cmJsonIsArray(jnp)==false )
  2278. {
  2279. // this is really a warning - the object does not require preloaded segments.
  2280. cmDspInstErr(ctx,inst,kRsrcNotFoundDspRC,"Warning: The 'recdPlay' resource used to define pre-loaded segments was not found.");
  2281. return kOkDspRC;
  2282. }
  2283. unsigned n = cmJsonChildCount(jnp);
  2284. unsigned i;
  2285. // for each 'recdplay' segment record
  2286. for(i=0; i<n && rc==kOkDspRC; ++i)
  2287. {
  2288. cmJsonNode_t* cnp = cmJsonArrayElement(jnp,i);
  2289. const cmChar_t* label = NULL;
  2290. unsigned segSymId = cmInvalidId;
  2291. const cmChar_t* errLabel = NULL;
  2292. const cmChar_t* fn = NULL;
  2293. // read the ith segment record
  2294. if( cmJsonMemberValues(cnp,&errLabel,
  2295. "label", kStringTId, &label,
  2296. "file", kStringTId, &fn,
  2297. NULL) != kOkJsRC )
  2298. {
  2299. rc = cmDspInstErr(ctx,inst,kRsrcNotFoundDspRC,"The record at index %i in the 'recdPlay' pre-loaded segment list could not be parsed.",i);
  2300. goto errLabel;
  2301. }
  2302. // find or generate the symbol id for the segment label symbol
  2303. if((segSymId = cmSymTblRegisterSymbol(ctx->stH,label)) == cmInvalidId )
  2304. {
  2305. rc = cmDspInstErr(ctx,inst,kSymNotFoundDspRC,"The 'recdPlay' pre-load segment symbol '%s' could not be found or registered.",cmStringNullGuard(label));
  2306. goto errLabel;
  2307. }
  2308. // create the full path name for the segment audio file
  2309. if((fn = cmFsMakeFn( path, fn, NULL, NULL )) == NULL )
  2310. {
  2311. rc = cmDspInstErr(ctx,inst,kFileSysFailDspRC,"The 'recdPlay' file name '%s/%s' could not be generated.",cmStringNullGuard(path),cmStringNullGuard(fn));
  2312. goto errLabel;
  2313. }
  2314. // pre-load the segment
  2315. if( cmRecdPlayInsertRecord(rcdply,segSymId,fn) != cmOkRC )
  2316. rc = cmDspInstErr(ctx,inst,kSubSysFailDspRC,"The 'recdPlay' segment label:'%s' file:'%s' could not be loaded.",cmStringNullGuard(label),cmStringNullGuard(fn));
  2317. cmFsFreeFn(fn);
  2318. }
  2319. errLabel:
  2320. return rc;
  2321. }
  2322. cmDspRC_t _cmDspRecdPlayOpenScore( cmDspCtx_t* ctx, cmDspInst_t* inst )
  2323. {
  2324. cmDspRC_t rc =kOkDspRC;
  2325. const cmChar_t* fn;
  2326. cmDspRecdPlay_t* p = (cmDspRecdPlay_t*)inst;
  2327. //p->scLocIdx = 0;
  2328. if((fn = cmDspStrcz(inst,kFnPrId)) == NULL || strlen(fn)==0 )
  2329. return cmDspInstErr(ctx,inst, kInvalidArgDspRC, "No score file name supplied.");
  2330. if( cmScoreInitialize(ctx->cmCtx, &p->scH, fn, cmDspSampleRate(ctx), NULL, 0, NULL, NULL, ctx->stH ) != kOkScRC )
  2331. return cmDspInstErr(ctx,inst, kSubSysFailDspRC, "Unable to open the score '%s'.",fn);
  2332. if( cmScoreIsValid(p->scH) )
  2333. {
  2334. unsigned i;
  2335. unsigned markerCnt = cmScoreMarkerLabelCount(p->scH);
  2336. double initFragSecs = cmDspDouble(inst,kSecsPrId);
  2337. double maxLaSecs = cmDspDouble(inst,kMaxLaSecsPrId);
  2338. double curLaSecs = cmDspDouble(inst,kCurLaSecsPrId);
  2339. printf("2 max la secs:%f\n",cmDspDouble(inst,kMaxLaSecsPrId));
  2340. if((p->rcdply = cmRecdPlayAlloc(ctx->cmProcCtx, NULL, cmDspSampleRate(ctx), markerCnt, p->chCnt, initFragSecs, maxLaSecs, curLaSecs)) == NULL)
  2341. return cmErrMsg(&inst->classPtr->err,kSubSysFailDspRC,"Unable to create the internal recorder-player object.");
  2342. for(i=0; i<markerCnt; ++i)
  2343. cmRecdPlayRegisterFrag(p->rcdply,i, cmScoreMarkerLabelSymbolId(p->scH,i ));
  2344. if((rc = _cmDspRecdPlayParseRsrc(ctx,inst,p->rcdply)) != kOkDspRC )
  2345. rc = cmDspInstErr(ctx,inst,kInstResetFailDspRC,"The 'recdplay' segment pre-load failed.");
  2346. //p->scLocIdx = cmDspUInt(inst,kScInitLocIdxPrId);
  2347. }
  2348. return rc;
  2349. }
  2350. cmDspInst_t* _cmDspRecdPlayAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2351. {
  2352. if( va_cnt < 1 )
  2353. {
  2354. cmDspClassErr(ctx,classPtr,kVarArgParseFailDspRC,"The 'RecdPlay' constructor must have a count of input ports.");
  2355. return NULL;
  2356. }
  2357. va_list vl1;
  2358. va_copy(vl1,vl);
  2359. int chCnt = va_arg(vl,int);
  2360. unsigned audioOutBase = kInAudioBasePrId + chCnt;
  2361. cmDspRecdPlay_t* p = cmDspInstAllocV(cmDspRecdPlay_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl1,
  2362. 1, "chs", kChCntPrId, 0,0, kUIntDsvFl | kReqArgDsvFl, "channel count.",
  2363. 1, "fn", kFnPrId, 0,0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Score file." ,
  2364. 1, "secs", kSecsPrId, 0,0, kInDsvFl | kDoubleDsvFl | kReqArgDsvFl, "Initial fragment allocation in seconds.",
  2365. 1, "maxla", kMaxLaSecsPrId, 0,0, kInDsvFl | kDoubleDsvFl | kReqArgDsvFl, "Maximum look-ahead buffer in seconds.",
  2366. 1, "curla", kCurLaSecsPrId, 0,0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Current look-head buffer in seconds.",
  2367. 1, "frate", kFadeRatePrId, 0,0, kInDsvFl | kDoubleDsvFl | kOptArgDsvFl, "Fade rate in dB per second.",
  2368. 1, "initIdx",kScInitLocIdxPrId,0,0,kInDsvFl | kUIntDsvFl, "Score search start location.",
  2369. 1, "index", kScLocIdxPrId, 0,0, kInDsvFl | kUIntDsvFl, "Score follower location index.",
  2370. 1, "cmd", kCmdPrId, 0,0, kInDsvFl | kSymDsvFl, "on=reset off=stop.",
  2371. chCnt, "in", kInAudioBasePrId,0,1, kInDsvFl | kAudioBufDsvFl, "Audio input",
  2372. chCnt, "out", audioOutBase, 0,1, kOutDsvFl | kAudioBufDsvFl, "Audio output",
  2373. 0 );
  2374. va_end(vl1);
  2375. p->onSymId = cmSymTblId(ctx->stH,"on");
  2376. p->offSymId = cmSymTblId(ctx->stH,"off");
  2377. p->audioOutBaseId = audioOutBase;
  2378. p->chCnt = chCnt;
  2379. //p->scLocIdx = 0;
  2380. printf("0 max la secs:%f\n",cmDspDouble(&p->inst,kMaxLaSecsPrId));
  2381. cmDspSetDefaultDouble(ctx,&p->inst, kSecsPrId, 0.0, 10.0 );
  2382. cmDspSetDefaultDouble(ctx,&p->inst, kMaxLaSecsPrId,0.0, 2.0);
  2383. cmDspSetDefaultDouble(ctx,&p->inst, kCurLaSecsPrId,0.0, 0.1);
  2384. cmDspSetDefaultDouble(ctx,&p->inst, kFadeRatePrId, 0.0, 1.0);
  2385. cmDspSetDefaultUInt( ctx,&p->inst, kScInitLocIdxPrId,0,0);
  2386. printf("1 max la secs:%f\n",cmDspDouble(&p->inst,kMaxLaSecsPrId));
  2387. return &p->inst;
  2388. }
  2389. cmDspRC_t _cmDspRecdPlayFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2390. {
  2391. cmDspRC_t rc = kOkDspRC;
  2392. cmDspRecdPlay_t* p = (cmDspRecdPlay_t*)inst;
  2393. cmRecdPlayFree(&p->rcdply);
  2394. cmScoreFinalize(&p->scH);
  2395. return rc;
  2396. }
  2397. cmDspRC_t _cmDspRecdPlayReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2398. {
  2399. cmDspRC_t rc;
  2400. if((rc = _cmDspRecdPlayOpenScore(ctx,inst)) == kOkDspRC )
  2401. cmDspApplyAllDefaults(ctx,inst);
  2402. return rc;
  2403. }
  2404. cmDspRC_t _cmDspRecdPlayExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2405. {
  2406. cmDspRC_t rc = kOkDspRC;
  2407. cmDspRecdPlay_t* p = (cmDspRecdPlay_t*)inst;
  2408. const cmSample_t* x[ p->chCnt ];
  2409. cmSample_t* y[ p->chCnt ];
  2410. unsigned n = 0;
  2411. unsigned i;
  2412. unsigned actChCnt = 0;
  2413. for(i=0; i<p->chCnt; ++i)
  2414. {
  2415. if( cmDspIsAudioInputConnected(ctx,inst,kInAudioBasePrId+i) == false )
  2416. {
  2417. x[i] = NULL;
  2418. y[i] = NULL;
  2419. }
  2420. else
  2421. {
  2422. if( i==0 )
  2423. n = cmDspAudioBufSmpCount(ctx,inst,kInAudioBasePrId+i,0);
  2424. else
  2425. {
  2426. assert( n == cmDspAudioBufSmpCount(ctx,inst,kInAudioBasePrId+i,0));
  2427. }
  2428. x[i] = cmDspAudioBuf(ctx,inst,kInAudioBasePrId+i,0);
  2429. if( x[i] != NULL )
  2430. {
  2431. y[i] = cmDspAudioBuf(ctx,inst,p->audioOutBaseId+i,0);
  2432. if( y[i] != NULL )
  2433. {
  2434. assert( n == cmDspAudioBufSmpCount(ctx,inst,p->audioOutBaseId+i,0));
  2435. cmVOS_Zero(y[i],n);
  2436. actChCnt += 1;
  2437. }
  2438. }
  2439. }
  2440. }
  2441. cmRecdPlayExec(p->rcdply,x,y,actChCnt,n);
  2442. return rc;
  2443. }
  2444. cmDspRC_t _cmDspRecdPlayRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2445. {
  2446. cmDspRecdPlay_t* p = (cmDspRecdPlay_t*)inst;
  2447. if( p->rcdply == NULL )
  2448. return kOkDspRC;
  2449. cmDspSetEvent(ctx,inst,evt);
  2450. switch( evt->dstVarId )
  2451. {
  2452. case kCmdPrId:
  2453. if( cmDspSymbol(inst,kCmdPrId) == p->onSymId )
  2454. {
  2455. printf("rewind\n");
  2456. cmRecdPlayRewind(p->rcdply);
  2457. //p->scLocIdx = cmDspUInt(inst,kScInitLocIdxPrId);
  2458. }
  2459. else
  2460. if( cmDspSymbol(inst,kCmdPrId) == p->offSymId )
  2461. {
  2462. }
  2463. break;
  2464. case kCurLaSecsPrId:
  2465. cmRecdPlaySetLaSecs(p->rcdply, cmDspDouble(inst,kCurLaSecsPrId));
  2466. break;
  2467. case kScInitLocIdxPrId:
  2468. printf("init-idx:%i\n",cmDspUInt(inst,kScInitLocIdxPrId));
  2469. break;
  2470. case kScLocIdxPrId:
  2471. {
  2472. unsigned endScLocIdx = cmDspUInt(inst,kScLocIdxPrId);
  2473. if( endScLocIdx < cmDspUInt(inst,kScInitLocIdxPrId) )
  2474. break;
  2475. cmScoreLoc_t* loc = cmScoreLoc(p->scH, endScLocIdx );
  2476. if( loc == NULL )
  2477. break;
  2478. cmScoreMarker_t* mp = loc->markList;
  2479. for(; mp!=NULL; mp=mp->link)
  2480. switch( mp->markTypeId )
  2481. {
  2482. case kRecdBegScMId:
  2483. printf("recd-beg %s\n",cmSymTblLabel(ctx->stH,mp->labelSymId));
  2484. cmRecdPlayBeginRecord(p->rcdply, mp->labelSymId );
  2485. break;
  2486. case kRecdEndScMId:
  2487. printf("recd-end %s\n",cmSymTblLabel(ctx->stH,mp->labelSymId));
  2488. cmRecdPlayEndRecord(p->rcdply, mp->labelSymId );
  2489. break;
  2490. case kPlayBegScMId:
  2491. printf("play-beg\n");
  2492. cmRecdPlayBeginPlay(p->rcdply, mp->labelSymId );
  2493. break;
  2494. case kPlayEndScMId:
  2495. printf("play-end\n");
  2496. cmRecdPlayEndPlay(p->rcdply, mp->labelSymId );
  2497. break;
  2498. case kFadeScMId:
  2499. printf("fade-beg\n");
  2500. cmRecdPlayBeginFade(p->rcdply, mp->labelSymId, cmDspDouble(inst,kFadeRatePrId) );
  2501. break;
  2502. default:
  2503. break;
  2504. }
  2505. //p->scLocIdx = endScLocIdx+1;
  2506. }
  2507. break;
  2508. }
  2509. return kOkDspRC;
  2510. }
  2511. cmDspClass_t* cmRecdPlayClassCons( cmDspCtx_t* ctx )
  2512. {
  2513. cmDspClassSetup(&_cmRecdPlayDC,ctx,"RecdPlay",
  2514. NULL,
  2515. _cmDspRecdPlayAlloc,
  2516. _cmDspRecdPlayFree,
  2517. _cmDspRecdPlayReset,
  2518. _cmDspRecdPlayExec,
  2519. _cmDspRecdPlayRecv,
  2520. NULL,
  2521. NULL,
  2522. "Score controlled live recorder/player");
  2523. return &_cmRecdPlayDC;
  2524. }
  2525. //------------------------------------------------------------------------------------------------------------
  2526. //)
  2527. //( { label:cmDspGoertzel file_desc:"Goertzel tone detection filter" kw:[sunit] }
  2528. enum
  2529. {
  2530. kHopFactGrId,
  2531. kInGrId,
  2532. kHzBaseGrId,
  2533. };
  2534. cmDspClass_t _cmGoertzelDC;
  2535. typedef struct
  2536. {
  2537. cmDspInst_t inst;
  2538. cmGoertzel* g;
  2539. double outPhs;
  2540. unsigned outBaseGrId;
  2541. unsigned chCnt;
  2542. } cmDspGoertzel_t;
  2543. cmDspInst_t* _cmDspGoertzelAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2544. {
  2545. if( va_cnt !=3 )
  2546. {
  2547. cmDspClassErr(ctx,classPtr,kVarArgParseFailDspRC,"The 'Goertzel' constructor must have two arguments: a channel count and frequency array.");
  2548. return NULL;
  2549. }
  2550. va_list vl1;
  2551. va_copy(vl1,vl);
  2552. unsigned hopFact = va_arg(vl,unsigned);
  2553. int chCnt = va_arg(vl,int);
  2554. double* hzV = va_arg(vl,double*);
  2555. unsigned outBaseGrId = kHzBaseGrId + chCnt;
  2556. unsigned i;
  2557. cmDspGoertzel_t* p = cmDspInstAllocV(cmDspGoertzel_t,ctx,classPtr,instSymId,id,storeSymId,1,vl1,
  2558. 1, "hop", kHopFactGrId, 0,0, kInDsvFl | kDoubleDsvFl, "Hop factor",
  2559. 1, "in", kInGrId, 0,1, kInDsvFl | kAudioBufDsvFl, "Audio input",
  2560. chCnt, "hz", kHzBaseGrId, 0,0, kInDsvFl | kDoubleDsvFl, "Hz input.",
  2561. chCnt, "out", outBaseGrId, 0,1, kOutDsvFl | kDoubleDsvFl, "Detector output",
  2562. 0 );
  2563. va_end(vl1);
  2564. p->outBaseGrId = outBaseGrId;
  2565. p->chCnt = chCnt;
  2566. p->g = cmGoertzelAlloc(ctx->cmProcCtx, NULL, 0, NULL, 0,0,0,0 );
  2567. cmDspSetDefaultUInt(ctx,&p->inst, kHopFactGrId, 0, cmMax(hopFact,1));
  2568. for(i=0; i<chCnt; ++i)
  2569. cmDspSetDefaultDouble(ctx,&p->inst, kHzBaseGrId+i, 0.0, hzV[i] );
  2570. return &p->inst;
  2571. }
  2572. cmDspRC_t _cmDspGoertzelSetup( cmDspCtx_t* ctx, cmDspInst_t* inst )
  2573. {
  2574. cmDspRC_t rc = kOkDspRC;
  2575. cmDspGoertzel_t* p = (cmDspGoertzel_t*)inst;
  2576. unsigned hopFact = cmDspUInt(inst,kHopFactGrId);
  2577. unsigned procSmpCnt = cmDspAudioBufSmpCount(ctx,inst,kInGrId,0);
  2578. unsigned wndSmpCnt = procSmpCnt * hopFact;
  2579. double fcHzV[ p->chCnt ];
  2580. unsigned i;
  2581. for(i=0; i<p->chCnt; ++i)
  2582. {
  2583. double hz;
  2584. if( p->g->ch == NULL || p->g->ch[i].hz == 0 )
  2585. hz = cmDspDouble(inst,kHzBaseGrId);
  2586. else
  2587. hz = p->g->ch[i].hz;
  2588. fcHzV[i] = hz;
  2589. }
  2590. if( cmGoertzelInit(p->g,cmDspSysSampleRate(ctx->dspH),fcHzV,p->chCnt,procSmpCnt,procSmpCnt,wndSmpCnt) != cmOkRC )
  2591. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Unable to initialize the internal Goertzel detector.");
  2592. return rc;
  2593. }
  2594. cmDspRC_t _cmDspGoertzelFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2595. {
  2596. cmDspRC_t rc = kOkDspRC;
  2597. cmDspGoertzel_t* p = (cmDspGoertzel_t*)inst;
  2598. cmGoertzelFree(&p->g);
  2599. return rc;
  2600. }
  2601. cmDspRC_t _cmDspGoertzelReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2602. {
  2603. cmDspGoertzel_t* p = (cmDspGoertzel_t*)inst;
  2604. cmDspApplyAllDefaults(ctx,inst);
  2605. p->outPhs = 0;
  2606. return _cmDspGoertzelSetup(ctx, inst );
  2607. }
  2608. cmDspRC_t _cmDspGoertzelExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2609. {
  2610. cmDspRC_t rc = kOkDspRC;
  2611. cmDspGoertzel_t* p = (cmDspGoertzel_t*)inst;
  2612. const cmSample_t* x = cmDspAudioBuf(ctx,inst,kInGrId,0);
  2613. unsigned n = cmDspAudioBufSmpCount(ctx,inst,kInGrId,0);
  2614. double outMs = 50.0;
  2615. double outPhsMax = outMs * cmDspSysSampleRate(ctx->dspH) / 1000.0;
  2616. double outV[ p->chCnt ];
  2617. unsigned i;
  2618. if( x != NULL )
  2619. {
  2620. cmGoertzelExec(p->g,x,n,outV,p->chCnt);
  2621. p->outPhs += n;
  2622. if( p->outPhs > outPhsMax )
  2623. {
  2624. while( p->outPhs > outPhsMax )
  2625. p->outPhs -= outPhsMax;
  2626. for(i=0; i<p->chCnt; ++i)
  2627. {
  2628. cmDspSetDouble(ctx,inst,p->outBaseGrId+i,outV[i]);
  2629. //printf("%f ",outV[i]);
  2630. }
  2631. //printf("\n");
  2632. }
  2633. }
  2634. return rc;
  2635. }
  2636. cmDspRC_t _cmDspGoertzelRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2637. {
  2638. cmDspGoertzel_t* p = (cmDspGoertzel_t*)inst;
  2639. cmDspSetEvent(ctx,inst,evt);
  2640. if( kHzBaseGrId <= evt->dstVarId && evt->dstVarId < kHzBaseGrId+p->chCnt )
  2641. cmGoertzelSetFcHz(p->g, evt->dstVarId - kHzBaseGrId, cmDspDouble(inst,evt->dstVarId));
  2642. else
  2643. {
  2644. if( evt->dstVarId==kHopFactGrId )
  2645. {
  2646. _cmDspGoertzelSetup(ctx,inst);
  2647. }
  2648. }
  2649. return kOkDspRC;
  2650. }
  2651. cmDspClass_t* cmGoertzelClassCons( cmDspCtx_t* ctx )
  2652. {
  2653. cmDspClassSetup(&_cmGoertzelDC,ctx,"Goertzel",
  2654. NULL,
  2655. _cmDspGoertzelAlloc,
  2656. _cmDspGoertzelFree,
  2657. _cmDspGoertzelReset,
  2658. _cmDspGoertzelExec,
  2659. _cmDspGoertzelRecv,
  2660. NULL,
  2661. NULL,
  2662. "Goertzel Tone Detector Filter");
  2663. return &_cmGoertzelDC;
  2664. }
  2665. //------------------------------------------------------------------------------------------------------------
  2666. //)
  2667. //( { label:cmDspSyncRecd file_desc:"Time align a MIDI and associated audio recording" kw:[sunit] }
  2668. enum
  2669. {
  2670. kRecdDirSrId,
  2671. kSrFnSrId,
  2672. kAfSrId,
  2673. kBitsSrId,
  2674. kCmdSrId,
  2675. kStatusSrId,
  2676. kD0SrId,
  2677. kD1SrId,
  2678. kSecSrId,
  2679. kNSecSrId,
  2680. kAinBaseSrId
  2681. };
  2682. cmDspClass_t _cmSyncRecdDC;
  2683. typedef struct
  2684. {
  2685. cmDspInst_t inst;
  2686. unsigned chCnt;
  2687. cmTimeSpec_t ats;
  2688. cmSyncRecdH_t srH;
  2689. unsigned openSymId;
  2690. unsigned closeSymId;
  2691. const cmChar_t* aFn;
  2692. const cmChar_t* srFn;
  2693. unsigned smpIdx;
  2694. } cmDspSyncRecd_t;
  2695. cmDspRC_t _cmDspSyncRecdCreateFile( cmDspCtx_t* ctx, cmDspInst_t* inst )
  2696. {
  2697. cmDspSyncRecd_t* p = (cmDspSyncRecd_t*)inst;
  2698. const cmChar_t* aFn = cmDspStrcz(inst,kAfSrId);
  2699. const cmChar_t* srFn = cmDspStrcz(inst,kSrFnSrId);
  2700. const cmChar_t* dir = cmDspStrcz(inst,kRecdDirSrId);
  2701. if( !cmFsIsDir(dir) )
  2702. return cmDspInstErr(ctx,&p->inst,kInvalidArgDspRC,"'%s' is not a valid directory.",cmStringNullGuard(dir));
  2703. cmMemPtrFree(&p->aFn);
  2704. if( cmFsGenFn(dir,aFn,"aiff",&p->aFn) != kOkFsRC )
  2705. return cmDspInstErr(ctx,&p->inst,kFileSysFailDspRC,"Audio file name generation failed for dir='%s' and prefix='%s'.",cmStringNullGuard(dir),cmStringNullGuard(aFn));
  2706. cmMemPtrFree(&p->srFn);
  2707. if( cmFsGenFn(dir,srFn,"sr",&p->srFn) != kOkFsRC )
  2708. return cmDspInstErr(ctx,&p->inst,kFileSysFailDspRC,"Sync-recd file name generation failed for dir='%s' and prefix='%s'.",cmStringNullGuard(dir),cmStringNullGuard(srFn));
  2709. unsigned bits = cmDspUInt(inst,kBitsSrId);
  2710. if( cmSyncRecdCreate( ctx->cmCtx, &p->srH, p->srFn, p->aFn, cmDspSampleRate(ctx), p->chCnt, bits ) != kOkSyRC )
  2711. return cmDspInstErr(ctx,&p->inst,kSubSysFailDspRC,"Sync-recd file create failed for '%s'.",p->srFn);
  2712. p->smpIdx = 0;
  2713. return kOkDspRC;
  2714. }
  2715. cmDspInst_t* _cmDspSyncRecdAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2716. {
  2717. cmDspSyncRecd_t* p = cmDspInstAllocV(cmDspSyncRecd_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl,
  2718. 1, "dir", kRecdDirSrId, 0,0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Recording directory.",
  2719. 1, "srfn", kSrFnSrId, 0,0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "SyncRecd file prefix.",
  2720. 1, "afn", kAfSrId, 0,0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Audio file prefix.",
  2721. 1, "bits", kBitsSrId, 0,0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Audio file bits per sample.",
  2722. 1, "cmd", kCmdSrId, 0,0, kInDsvFl | kSymDsvFl, "Command: open | close",
  2723. 1, "status", kStatusSrId, 0,0, kInDsvFl | kUIntDsvFl, "MIDI status",
  2724. 1, "d0", kD0SrId, 0,0, kInDsvFl | kUIntDsvFl, "MIDI d0",
  2725. 1, "d1", kD1SrId, 0,0, kInDsvFl | kUIntDsvFl, "MIDI d1",
  2726. 1, "sec", kSecSrId, 0,0, kInDsvFl | kUIntDsvFl, "MIDI Timestamp Seconds",
  2727. 1, "nsec", kNSecSrId, 0,0, kInDsvFl | kUIntDsvFl, "MIDI Timestamp Nanoseconds",
  2728. 2, "ain", kAinBaseSrId, 0,1, kInDsvFl | kAudioBufDsvFl, "Audio Input",
  2729. 0 );
  2730. p->chCnt = 2;
  2731. p->openSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"open");
  2732. p->closeSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"close");
  2733. cmDspSetDefaultUInt(ctx,&p->inst,kBitsSrId,0,16);
  2734. return &p->inst;
  2735. }
  2736. cmDspRC_t _cmDspSyncRecdFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2737. {
  2738. cmDspRC_t rc = kOkDspRC;
  2739. cmDspSyncRecd_t* p = (cmDspSyncRecd_t*)inst;
  2740. cmMemPtrFree(&p->aFn);
  2741. cmMemPtrFree(&p->srFn);
  2742. cmSyncRecdFinal(&p->srH);
  2743. return rc;
  2744. }
  2745. cmDspRC_t _cmDspSyncRecdReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2746. {
  2747. cmDspRC_t rc = kOkDspRC;
  2748. cmDspApplyAllDefaults(ctx,inst);
  2749. return rc;
  2750. }
  2751. cmDspRC_t _cmDspSyncRecdExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2752. {
  2753. cmDspRC_t rc = kOkDspRC;
  2754. cmDspSyncRecd_t* p = (cmDspSyncRecd_t*)inst;
  2755. const cmSample_t* x[ p->chCnt ];
  2756. unsigned n = 0;
  2757. unsigned i;
  2758. //const cmTimeSpec_t* ts = &ctx->ctx->oTimeStamp;
  2759. //printf("SR: %ld %ld\n",ts->tv_sec,ts->tv_nsec);
  2760. p->ats = ctx->ctx->iTimeStamp;
  2761. for(i=0; i<p->chCnt; ++i)
  2762. {
  2763. if( i==0 )
  2764. n = cmDspAudioBufSmpCount(ctx,inst,kAinBaseSrId+i,0);
  2765. else
  2766. { assert( n == cmDspAudioBufSmpCount(ctx,inst,kAinBaseSrId+i,0)); }
  2767. x[i] = cmDspAudioBuf(ctx,inst,kAinBaseSrId+i,0);
  2768. }
  2769. if( n>0 && cmSyncRecdIsValid(p->srH ) )
  2770. if( cmSyncRecdAudioWrite( p->srH, &ctx->ctx->iTimeStamp, p->smpIdx, x, p->chCnt, n ) != kOkSyRC )
  2771. return cmDspInstErr(ctx,&p->inst,kSubSysFailDspRC,"Sync-recd audio update failed.");
  2772. p->smpIdx += n;
  2773. return rc;
  2774. }
  2775. cmDspRC_t _cmDspSyncRecdRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2776. {
  2777. cmDspRC_t rc = kOkDspRC;
  2778. cmDspSyncRecd_t* p = (cmDspSyncRecd_t*)inst;
  2779. cmDspSetEvent(ctx,inst,evt);
  2780. switch( evt->dstVarId )
  2781. {
  2782. case kStatusSrId:
  2783. if(cmMidiIsChStatus( cmDspUInt(inst,kStatusSrId) ) )
  2784. {
  2785. cmTimeSpec_t ts;
  2786. ts.tv_sec = cmDspUInt(inst,kSecSrId);
  2787. ts.tv_nsec = cmDspUInt(inst,kNSecSrId);
  2788. //printf("%i %i\n",cmDspUInt(inst,kD1SrId),cmTimeElapsedMicros(&ts,&p->ats));
  2789. if( cmSyncRecdIsValid(p->srH ) )
  2790. if( cmSyncRecdMidiWrite(p->srH, &ts, cmDspUInt(inst,kStatusSrId), cmDspUInt(inst,kD0SrId), cmDspUInt(inst,kD1SrId) ) != kOkSyRC )
  2791. return cmDspInstErr(ctx,&p->inst,kSubSysFailDspRC,"Sync-recd MIDI update failed.");
  2792. }
  2793. break;
  2794. case kCmdSrId:
  2795. {
  2796. unsigned cmdId = cmDspSymbol(inst,kCmdSrId);
  2797. if( cmdId == p->openSymId )
  2798. rc = _cmDspSyncRecdCreateFile(ctx,inst);
  2799. else
  2800. if( cmdId == p->closeSymId && cmSyncRecdIsValid(p->srH))
  2801. {
  2802. cmSyncRecdFinal(&p->srH);
  2803. //cmSyncRecdTest(ctx->cmCtx);
  2804. }
  2805. }
  2806. break;
  2807. }
  2808. return rc;
  2809. }
  2810. cmDspClass_t* cmSyncRecdClassCons( cmDspCtx_t* ctx )
  2811. {
  2812. cmDspClassSetup(&_cmSyncRecdDC,ctx,"SyncRecd",
  2813. NULL,
  2814. _cmDspSyncRecdAlloc,
  2815. _cmDspSyncRecdFree,
  2816. _cmDspSyncRecdReset,
  2817. _cmDspSyncRecdExec,
  2818. _cmDspSyncRecdRecv,
  2819. NULL,
  2820. NULL,
  2821. "Synchronized Audio and MIDI recorder.");
  2822. return &_cmSyncRecdDC;
  2823. }
  2824. //------------------------------------------------------------------------------------------------------------
  2825. //)
  2826. //( { label:cmDspTakeSeqBldr file_desc:"User interface unit for creating a single sequence from multiple, score aligned, MIDI fragments." kw:[sunit] }
  2827. enum
  2828. {
  2829. kFnTsbId,
  2830. kBldrTsbId,
  2831. kSelTsbId,
  2832. kRefreshTsbId,
  2833. kSendTsbId
  2834. };
  2835. cmDspClass_t _cmTakeSeqBldrDC;
  2836. typedef struct
  2837. {
  2838. cmDspInst_t inst;
  2839. cmTakeSeqBldrH_t h;
  2840. bool errFl;
  2841. } cmDspTakeSeqBldr_t;
  2842. cmDspInst_t* _cmDspTakeSeqBldrAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2843. {
  2844. cmDspTakeSeqBldr_t* p = cmDspInstAllocV(cmDspTakeSeqBldr_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl,
  2845. 1, "fn", kFnTsbId, 0, 0, kInDsvFl | kStrzDsvFl | kReqArgDsvFl, "Score Tracking file.",
  2846. 1, "bldr", kBldrTsbId, 0, 0, kOutDsvFl | kPtrDsvFl, "Bldr Ref",
  2847. 1, "sel", kSelTsbId, 0, 0, kOutDsvFl | kUIntDsvFl, "Selected score element location index.",
  2848. 1, "refresh",kRefreshTsbId, 0, 0, kOutDsvFl | kUIntDsvFl, "Refresh",
  2849. 1, "send", kSendTsbId, 0, 0, kInDsvFl | kTypeDsvMask, "Resend last selected score element location.",
  2850. 0 );
  2851. p->errFl = false;
  2852. cmDspSetDefaultInt( ctx, &p->inst, kRefreshTsbId, 0, 0);
  2853. if( cmTakeSeqBldrAlloc(ctx->cmCtx, &p->h ) != kOkTsbRC )
  2854. cmErrMsg(&p->inst.classPtr->err, kSubSysFailDspRC, "Allocate TaskSeqBldr object.");
  2855. else
  2856. {
  2857. cmDspUiTakeSeqBldrCreate(ctx,&p->inst,kFnTsbId,kBldrTsbId,kSelTsbId,kRefreshTsbId);
  2858. }
  2859. return &p->inst;
  2860. }
  2861. cmDspRC_t _cmDspTakeSeqBldrSetup( cmDspCtx_t* ctx, cmDspInst_t* inst )
  2862. {
  2863. cmDspRC_t rc = kOkDspRC;
  2864. cmDspTakeSeqBldr_t* p = (cmDspTakeSeqBldr_t*)inst;
  2865. if( cmTakeSeqBldrInitialize(p->h, cmDspStrcz(inst,kFnTsbId) ) != kOkTsbRC )
  2866. {
  2867. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Unable to initialize the internal TakeSeqBldr object with %s.",cmStringNullGuard(cmDspStrcz(inst,kFnTsbId)));
  2868. }
  2869. else
  2870. {
  2871. cmDspSetPtr(ctx,inst,kBldrTsbId,p->h.h);
  2872. p->errFl = false;
  2873. }
  2874. return rc;
  2875. }
  2876. cmDspRC_t _cmDspTakeSeqBldrFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2877. {
  2878. cmDspRC_t rc = kOkDspRC;
  2879. cmDspTakeSeqBldr_t* p = (cmDspTakeSeqBldr_t*)inst;
  2880. cmTakeSeqBldrFree(&p->h);
  2881. return rc;
  2882. }
  2883. cmDspRC_t _cmDspTakeSeqBldrReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2884. {
  2885. //cmDspTakeSeqBldr_t* p = (cmDspTakeSeqBldr_t*)inst;
  2886. cmDspApplyAllDefaults(ctx,inst);
  2887. return _cmDspTakeSeqBldrSetup(ctx, inst );
  2888. }
  2889. cmDspRC_t _cmDspTakeSeqBldrExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2890. {
  2891. cmDspRC_t rc = kOkDspRC;
  2892. return rc;
  2893. }
  2894. cmDspRC_t _cmDspTakeSeqBldrRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2895. {
  2896. // not matter what arrives at the 'send' input ....
  2897. if( evt->dstVarId == kSendTsbId )
  2898. {
  2899. // send the last score loc
  2900. unsigned selIdx;
  2901. if((selIdx = cmDspUInt(inst,kSelTsbId)) != cmInvalidIdx )
  2902. cmDspSetUInt(ctx,inst,kSelTsbId, selIdx );
  2903. return kOkDspRC;
  2904. }
  2905. cmDspSetEvent(ctx,inst,evt);
  2906. switch(evt->dstVarId)
  2907. {
  2908. case kFnTsbId:
  2909. _cmDspMidiFilePlayOpen(ctx, inst );
  2910. break;
  2911. }
  2912. return kOkDspRC;
  2913. }
  2914. cmDspClass_t* cmTakeSeqBldrClassCons( cmDspCtx_t* ctx )
  2915. {
  2916. cmDspClassSetup(&_cmTakeSeqBldrDC,ctx,"TakeSeqBldr",
  2917. NULL,
  2918. _cmDspTakeSeqBldrAlloc,
  2919. _cmDspTakeSeqBldrFree,
  2920. _cmDspTakeSeqBldrReset,
  2921. _cmDspTakeSeqBldrExec,
  2922. _cmDspTakeSeqBldrRecv,
  2923. NULL,
  2924. NULL,
  2925. "TakeSeqBldr");
  2926. return &_cmTakeSeqBldrDC;
  2927. }
  2928. //------------------------------------------------------------------------------------------------------------
  2929. //)
  2930. //( { label:cmDspTakeSeqRend file_desc:"User interface unit for graphically rendering the MIDI sequences created by cmDspTakeSeqBldr." kw:[sunit] }
  2931. enum
  2932. {
  2933. kBldrTsrId,
  2934. kRefreshTsrId,
  2935. kCmdTsrId,
  2936. kSelTsrId,
  2937. kStatusTsrId,
  2938. kD0TsrId,
  2939. kD1TsrId,
  2940. kSmpIdxTsrId
  2941. };
  2942. cmDspClass_t _cmTakeSeqRendDC;
  2943. typedef struct
  2944. {
  2945. cmDspInst_t inst;
  2946. cmTakeSeqBldrH_t h;
  2947. unsigned startSymId;
  2948. unsigned stopSymId;
  2949. unsigned contSymId;
  2950. unsigned onSymId;
  2951. unsigned offSymId;
  2952. bool errFl;
  2953. } cmDspTakeSeqRend_t;
  2954. cmDspInst_t* _cmDspTakeSeqRendAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  2955. {
  2956. cmDspTakeSeqRend_t* p = cmDspInstAllocV(cmDspTakeSeqRend_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl,
  2957. 1, "bldr", kBldrTsrId, 0, 0, kInDsvFl | kPtrDsvFl | kOptArgDsvFl, "Take Sequene Builder Ref",
  2958. 1, "refresh",kRefreshTsrId, 0, 0, kInDsvFl | kUIntDsvFl | kOptArgDsvFl, "Refresh",
  2959. 1, "cmd", kCmdTsrId, 0, 0, kInDsvFl | kSymDsvFl, "start | stop | continue" ,
  2960. 1, "sel", kSelTsrId, 0, 0, kInDsvFl | kUIntDsvFl, "Selected score element location index input.",
  2961. 1, "status", kStatusTsrId, 0, 0, kOutDsvFl | kIntDsvFl, "Status value output",
  2962. 1, "d0", kD0TsrId, 0, 0, kOutDsvFl | kUIntDsvFl, "Data byte 0" ,
  2963. 1, "d1", kD1TsrId, 0, 0, kOutDsvFl | kUIntDsvFl, "Data byte 1",
  2964. 1, "smpidx", kSmpIdxTsrId, 0, 0, kOutDsvFl | kUIntDsvFl, "Msg time tag as a sample index.",
  2965. 0 );
  2966. p->startSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"start");
  2967. p->stopSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"stop");
  2968. p->contSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"continue");
  2969. p->onSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"on");
  2970. p->offSymId = cmSymTblRegisterStaticSymbol(ctx->stH,"off");
  2971. p->errFl = false;
  2972. cmDspSetDefaultInt( ctx, &p->inst, kRefreshTsrId, 0, 0);
  2973. cmDspSetDefaultSymbol(ctx, &p->inst, kCmdTsrId, p->stopSymId);
  2974. cmDspSetDefaultInt( ctx, &p->inst, kSmpIdxTsrId, 0, 0);
  2975. cmDspSetDefaultUInt( ctx, &p->inst, kStatusTsrId, 0, 0);
  2976. cmDspSetDefaultUInt( ctx, &p->inst, kD0TsrId, 0, 0);
  2977. cmDspSetDefaultUInt( ctx, &p->inst, kD1TsrId, 0, 0);
  2978. cmDspUiTakeSeqRendCreate(ctx,&p->inst,kBldrTsrId,kRefreshTsrId,kSelTsrId);
  2979. return &p->inst;
  2980. }
  2981. cmDspRC_t _cmDspTakeSeqRendFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2982. {
  2983. cmDspRC_t rc = kOkDspRC;
  2984. return rc;
  2985. }
  2986. cmDspRC_t _cmDspTakeSeqRendReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  2987. {
  2988. //cmDspTakeSeqRend_t* p = (cmDspTakeSeqRend_t*)inst;
  2989. cmDspApplyAllDefaults(ctx,inst);
  2990. return kOkDspRC;
  2991. }
  2992. typedef struct
  2993. {
  2994. cmDspCtx_t* ctx;
  2995. cmDspInst_t* inst;
  2996. } _cmDspTakeSeqRendCbArg_t;
  2997. // Called from cmDspTakeSeqRendExec() -> cmTakeSeqRendPlayExec() to
  2998. // deliver MIDI messages which need to be transmitted.
  2999. void _cmDspTakeSeqRendMidiCb( void* arg, const cmTksbEvent_t* e )
  3000. {
  3001. _cmDspTakeSeqRendCbArg_t* a = (_cmDspTakeSeqRendCbArg_t*)arg;
  3002. switch( e->status )
  3003. {
  3004. case kNoteOffMdId:
  3005. case kNoteOnMdId:
  3006. case kCtlMdId:
  3007. //if( !cmMidiIsPedal(e->status,e->d0))
  3008. {
  3009. cmDspSetUInt(a->ctx,a->inst, kSmpIdxTsrId, e->smpIdx);
  3010. cmDspSetUInt(a->ctx,a->inst, kD1TsrId, e->d1);
  3011. cmDspSetUInt(a->ctx,a->inst, kD0TsrId, e->d0);
  3012. cmDspSetUInt(a->ctx,a->inst, kStatusTsrId, e->status);
  3013. }
  3014. break;
  3015. }
  3016. }
  3017. void _cmDspTakeSeqRendPedalsUp( cmDspCtx_t* ctx, cmDspInst_t* inst )
  3018. {
  3019. _cmDspTakeSeqRendCbArg_t a;
  3020. a.ctx = ctx;
  3021. a.inst = inst;
  3022. cmTksbEvent_t e[] =
  3023. {
  3024. { 0, kCtlMdId, kSustainCtlMdId, 0 },
  3025. { 0, kCtlMdId, kPortamentoCtlMdId,0 },
  3026. { 0, kCtlMdId, kSostenutoCtlMdId, 0 },
  3027. { 0, kCtlMdId, kSoftPedalCtlMdId, 0 },
  3028. { 0, kCtlMdId, kLegatoCtlMdId, 0 }
  3029. };
  3030. unsigned n = sizeof(e)/sizeof(e[0]);
  3031. unsigned i;
  3032. for(i=0; i<n; ++i)
  3033. _cmDspTakeSeqRendMidiCb(&a,e+i);
  3034. }
  3035. cmDspRC_t _cmDspTakeSeqRendExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3036. {
  3037. cmDspRC_t rc = kOkDspRC;
  3038. cmDspTakeSeqRend_t* p = (cmDspTakeSeqRend_t*)inst;
  3039. if( cmDspSymbol(inst,kCmdTsrId) != p->stopSymId )
  3040. {
  3041. if( cmTakeSeqBldrIsValid(p->h) == false )
  3042. {
  3043. if( p->errFl==false )
  3044. {
  3045. rc = cmErrMsg(&inst->classPtr->err, kInvalidStateDspRC,"The Take Sequence Builder not been given a valid file.");
  3046. p->errFl = true;
  3047. }
  3048. return rc;
  3049. }
  3050. unsigned sPc = cmDspSamplesPerCycle(ctx);
  3051. _cmDspTakeSeqRendCbArg_t arg;
  3052. arg.inst = inst;
  3053. arg.ctx = ctx;
  3054. // This call may result in multiple callbacks
  3055. // to _cmDspTakeSeqRendMidiCb() from within the function.
  3056. cmTakeSeqBldrPlayExec(p->h,sPc,_cmDspTakeSeqRendMidiCb, &arg );
  3057. }
  3058. return rc;
  3059. }
  3060. cmDspRC_t _cmDspTakeSeqRendRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3061. {
  3062. cmDspTakeSeqRend_t* p = (cmDspTakeSeqRend_t*)inst;
  3063. printf("Recv:%s\n",cmStringNullGuard(cmDspVarLabel(ctx, inst, evt->dstVarId)) );
  3064. cmDspSetEvent(ctx,inst,evt);
  3065. switch(evt->dstVarId)
  3066. {
  3067. case kBldrTsrId:
  3068. p->h.h = cmDspPtr(inst,kBldrTsrId);
  3069. break;
  3070. case kCmdTsrId:
  3071. {
  3072. unsigned symId = cmDspSymbol(inst,kCmdTsrId);
  3073. if( symId == p->onSymId )
  3074. cmDspSetSymbol( ctx, inst, kCmdTsrId, p->startSymId );
  3075. else
  3076. if( symId == p->offSymId )
  3077. cmDspSetSymbol( ctx, inst, kCmdTsrId, p->stopSymId );
  3078. if( cmTakeSeqBldrIsValid(p->h) && cmDspSymbol(inst,kCmdTsrId)==p->startSymId )
  3079. {
  3080. _cmDspTakeSeqRendPedalsUp( ctx, inst );
  3081. cmTakeSeqBldrPlaySeekLoc(p->h, cmInvalidId );
  3082. }
  3083. }
  3084. break;
  3085. case kSelTsrId:
  3086. {
  3087. // seek the playback position to the scLocIdx.
  3088. unsigned scLocIdx = cmDspUInt(inst,kSelTsrId);
  3089. if( cmTakeSeqBldrIsValid(p->h) && cmTakeSeqBldrPlaySeekLoc(p->h, scLocIdx ) != kOkTsbRC )
  3090. return cmDspInstErr(ctx,&p->inst,kSubSysFailDspRC,"Take Sequence Bldr Seek failed on score location index %i.", scLocIdx);
  3091. }
  3092. break;
  3093. }
  3094. return kOkDspRC;
  3095. }
  3096. cmDspClass_t* cmTakeSeqRendClassCons( cmDspCtx_t* ctx )
  3097. {
  3098. cmDspClassSetup(&_cmTakeSeqRendDC,ctx,"TakeSeqRend",
  3099. NULL,
  3100. _cmDspTakeSeqRendAlloc,
  3101. _cmDspTakeSeqRendFree,
  3102. _cmDspTakeSeqRendReset,
  3103. _cmDspTakeSeqRendExec,
  3104. _cmDspTakeSeqRendRecv,
  3105. NULL,
  3106. NULL,
  3107. "TakeSeqRend");
  3108. return &_cmTakeSeqRendDC;
  3109. }
  3110. //------------------------------------------------------------------------------------------------------------
  3111. //)
  3112. //( { label:cmDspReflectCalc file_desc:"Estimate the time-of-flight of from an acoustic signal from a speaker to a microphone." kw:[sunit] }
  3113. enum
  3114. {
  3115. kLfsrN_RcId,
  3116. kMlsCoeff0RcId,
  3117. kMlsCoeff1RcId,
  3118. kSmpPerChipRcId,
  3119. kRcosBetaRcId,
  3120. kRcosOS_RcId,
  3121. kCarrierHzRcId,
  3122. kAtkDcyMsRcId,
  3123. kPhatAlphaRcId,
  3124. kPhatMultRcId,
  3125. kInRcId,
  3126. kOutRcId,
  3127. };
  3128. cmDspClass_t _cmReflectCalcDC;
  3129. typedef struct
  3130. {
  3131. cmDspInst_t inst;
  3132. cmReflectCalc_t* r;
  3133. } cmDspReflectCalc_t;
  3134. cmDspInst_t* _cmDspReflectCalcAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  3135. {
  3136. // if( va_cnt !=3 )
  3137. // {
  3138. // cmDspClassErr(ctx,classPtr,kVarArgParseFailDspRC,"The 'ReflectCalc' constructor must have two arguments: a channel count and frequency array.");
  3139. // return NULL;
  3140. // }
  3141. cmDspReflectCalc_t* p = cmDspInstAllocV(cmDspReflectCalc_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl,
  3142. 1, "lfsrN", kLfsrN_RcId, 0,0, kInDsvFl | kUIntDsvFl, "Gold code generator LFSR length",
  3143. 1, "mlsc0", kMlsCoeff0RcId, 0,0, kInDsvFl | kUIntDsvFl, "LFSR coefficient 0",
  3144. 1, "mlsc1", kMlsCoeff1RcId, 0,0, kInDsvFl | kUIntDsvFl, "LFSR coefficient 0",
  3145. 1, "spchip",kSmpPerChipRcId,0,0, kInDsvFl | kUIntDsvFl, "Samples per spreading code bit.",
  3146. 1, "rcosb", kRcosBetaRcId, 0,0, kInDsvFl | kDoubleDsvFl, "Raised cosine beta",
  3147. 1, "rcosos",kRcosOS_RcId, 0,0, kInDsvFl | kUIntDsvFl, "Raised cosine oversample factor.",
  3148. 1, "carhz", kCarrierHzRcId, 0,0, kInDsvFl | kDoubleDsvFl, "Carrier frequency in Hertz.",
  3149. 1, "envms", kAtkDcyMsRcId, 0,0, kInDsvFl | kDoubleDsvFl, "Signal Attack/Decay milliseconds.",
  3150. 1, "alpha", kPhatAlphaRcId, 0,0, kInDsvFl | kDoubleDsvFl, "PHAT alpha coefficient.",
  3151. 1, "mult", kPhatMultRcId, 0,0, kInDsvFl | kUIntDsvFl, "PHAT multiplier coefficient.",
  3152. 1, "in", kInRcId, 0,1, kInDsvFl | kAudioBufDsvFl,"Audio input",
  3153. 1, "out", kOutRcId, 0,1, kOutDsvFl | kAudioBufDsvFl,"Audio output",
  3154. 0 );
  3155. p->r = cmReflectCalcAlloc(ctx->cmProcCtx, NULL, NULL, 0, 0 );
  3156. cmDspSetDefaultUInt( ctx, &p->inst, kLfsrN_RcId, 0, 8);
  3157. cmDspSetDefaultUInt( ctx, &p->inst, kMlsCoeff0RcId, 0, 0x8e);
  3158. cmDspSetDefaultUInt( ctx, &p->inst, kMlsCoeff1RcId, 0, 0x96);
  3159. cmDspSetDefaultUInt( ctx, &p->inst, kSmpPerChipRcId, 0, 64);
  3160. cmDspSetDefaultDouble( ctx, &p->inst, kRcosBetaRcId, 0, 0.5);
  3161. cmDspSetDefaultUInt( ctx, &p->inst, kRcosOS_RcId, 0, 4);
  3162. cmDspSetDefaultDouble( ctx, &p->inst, kCarrierHzRcId, 0, 2500.0);
  3163. cmDspSetDefaultDouble( ctx, &p->inst, kAtkDcyMsRcId, 0, 50.0);
  3164. cmDspSetDefaultDouble( ctx, &p->inst, kPhatAlphaRcId, 0, 0.5);
  3165. cmDspSetDefaultUInt( ctx, &p->inst, kPhatMultRcId, 0, 1);
  3166. return &p->inst;
  3167. }
  3168. cmDspRC_t _cmDspReflectCalcSetup( cmDspCtx_t* ctx, cmDspInst_t* inst )
  3169. {
  3170. cmDspRC_t rc = kOkDspRC;
  3171. cmDspReflectCalc_t* p = (cmDspReflectCalc_t*)inst;
  3172. cmGoldSigArg_t gsa;
  3173. gsa.chN = 1;
  3174. gsa.srate = cmDspSampleRate(ctx);
  3175. gsa.lfsrN = cmDspUInt(inst,kLfsrN_RcId);
  3176. gsa.mlsCoeff0 = cmDspUInt(inst,kMlsCoeff0RcId);
  3177. gsa.mlsCoeff1 = cmDspUInt(inst,kMlsCoeff1RcId);
  3178. gsa.samplesPerChip = cmDspUInt(inst,kSmpPerChipRcId);
  3179. gsa.rcosBeta = cmDspDouble(inst,kRcosBetaRcId);
  3180. gsa.rcosOSFact = cmDspUInt(inst,kRcosOS_RcId);
  3181. gsa.carrierHz = cmDspDouble(inst,kCarrierHzRcId);
  3182. gsa.envMs = cmDspDouble(inst,kAtkDcyMsRcId);
  3183. double phatAlpha = cmDspDouble(inst,kPhatAlphaRcId);
  3184. unsigned phatMult = cmDspUInt(inst,kPhatMultRcId);
  3185. if( cmReflectCalcInit(p->r,&gsa,phatAlpha,phatMult) != cmOkRC )
  3186. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Unable to initialize the internal ReflectCalc detector.");
  3187. return rc;
  3188. }
  3189. cmDspRC_t _cmDspReflectCalcFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3190. {
  3191. cmDspRC_t rc = kOkDspRC;
  3192. cmDspReflectCalc_t* p = (cmDspReflectCalc_t*)inst;
  3193. cmReflectCalcFree(&p->r);
  3194. return rc;
  3195. }
  3196. cmDspRC_t _cmDspReflectCalcReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3197. {
  3198. //cmDspReflectCalc_t* p = (cmDspReflectCalc_t*)inst;
  3199. cmDspApplyAllDefaults(ctx,inst);
  3200. return _cmDspReflectCalcSetup(ctx, inst );
  3201. }
  3202. cmDspRC_t _cmDspReflectCalcExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3203. {
  3204. cmDspRC_t rc = kOkDspRC;
  3205. cmDspReflectCalc_t* p = (cmDspReflectCalc_t*)inst;
  3206. const cmSample_t* xV = cmDspAudioBuf(ctx,inst,kInRcId,0);
  3207. unsigned xN = cmDspAudioBufSmpCount(ctx,inst,kInRcId,0);
  3208. cmSample_t* yV = cmDspAudioBuf(ctx,inst,kOutRcId,0);
  3209. unsigned yN = cmDspAudioBufSmpCount(ctx,inst,kOutRcId,0);
  3210. if( xV != NULL && yV != NULL )
  3211. {
  3212. assert( xN == yN );
  3213. cmReflectCalcExec(p->r,xV,yV,xN);
  3214. }
  3215. return rc;
  3216. }
  3217. cmDspRC_t _cmDspReflectCalcRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3218. {
  3219. //cmDspReflectCalc_t* p = (cmDspReflectCalc_t*)inst;
  3220. cmDspSetEvent(ctx,inst,evt);
  3221. return kOkDspRC;
  3222. }
  3223. cmDspClass_t* cmReflectCalcClassCons( cmDspCtx_t* ctx )
  3224. {
  3225. cmDspClassSetup(&_cmReflectCalcDC,ctx,"ReflectCalc",
  3226. NULL,
  3227. _cmDspReflectCalcAlloc,
  3228. _cmDspReflectCalcFree,
  3229. _cmDspReflectCalcReset,
  3230. _cmDspReflectCalcExec,
  3231. _cmDspReflectCalcRecv,
  3232. NULL,
  3233. NULL,
  3234. "Reflecttion time calculator");
  3235. return &_cmReflectCalcDC;
  3236. }
  3237. //------------------------------------------------------------------------------------------------------------
  3238. //)
  3239. //( { label:cmDspEchoCancel file_desc:"Normalized least mean squares echo canceller." kw:[sunit] }
  3240. enum
  3241. {
  3242. kMuEcId,
  3243. kImpRespN_EcId,
  3244. kDelayN_EcId,
  3245. kBypassEcId,
  3246. kUnfiltInEcId,
  3247. kFiltInEcId,
  3248. kOutEcId
  3249. };
  3250. cmDspClass_t _cmEchoCancelDC;
  3251. typedef struct
  3252. {
  3253. cmDspInst_t inst;
  3254. cmNlmsEc_t* r;
  3255. } cmDspEchoCancel_t;
  3256. cmDspInst_t* _cmDspEchoCancelAlloc(cmDspCtx_t* ctx, cmDspClass_t* classPtr, unsigned storeSymId, unsigned instSymId, unsigned id, unsigned va_cnt, va_list vl )
  3257. {
  3258. // if( va_cnt !=3 )
  3259. // {
  3260. // cmDspClassErr(ctx,classPtr,kVarArgParseFailDspRC,"The 'EchoCancel' constructor must have two arguments: a channel count and frequency array.");
  3261. // return NULL;
  3262. // }
  3263. cmDspEchoCancel_t* p = cmDspInstAllocV(cmDspEchoCancel_t,ctx,classPtr,instSymId,id,storeSymId,va_cnt,vl,
  3264. 1, "mu", kMuEcId, 0,0, kInDsvFl | kDoubleDsvFl, "NLSM mu coefficient.",
  3265. 1, "irN", kImpRespN_EcId, 0,0, kInDsvFl | kUIntDsvFl, "Filter impulse response length in samples.",
  3266. 1, "delayN", kDelayN_EcId, 0,0, kInDsvFl | kUIntDsvFl, "Fixed feedback delay in samples.",
  3267. 1, "bypass", kBypassEcId, 0,0, kInDsvFl | kBoolDsvFl, "Bypass enable flag.",
  3268. 1, "uf_in", kUnfiltInEcId, 0,1, kInDsvFl | kAudioBufDsvFl, "Unfiltered audio input",
  3269. 1, "f_in", kFiltInEcId, 0,1, kInDsvFl | kAudioBufDsvFl, "Filtered audio input",
  3270. 1, "out", kOutEcId, 0,1, kOutDsvFl | kAudioBufDsvFl, "Audio output",
  3271. 0 );
  3272. p->r = cmNlmsEcAlloc(ctx->cmProcCtx, NULL, 0, 0,0,0 );
  3273. cmDspSetDefaultDouble( ctx, &p->inst, kMuEcId, 0, 0.1);
  3274. cmDspSetDefaultUInt( ctx, &p->inst, kImpRespN_EcId, 0, 2048);
  3275. cmDspSetDefaultUInt( ctx, &p->inst, kDelayN_EcId, 0, 1765);
  3276. cmDspSetDefaultBool( ctx, &p->inst, kBypassEcId, 0, false);
  3277. return &p->inst;
  3278. }
  3279. cmDspRC_t _cmDspEchoCancelSetup( cmDspCtx_t* ctx, cmDspInst_t* inst )
  3280. {
  3281. cmDspRC_t rc = kOkDspRC;
  3282. cmDspEchoCancel_t* p = (cmDspEchoCancel_t*)inst;
  3283. double mu = cmDspDouble(inst,kMuEcId);
  3284. unsigned hN = cmDspUInt(inst,kImpRespN_EcId);
  3285. unsigned delayN = cmDspUInt(inst,kDelayN_EcId);
  3286. if( cmNlmsEcInit(p->r,cmDspSampleRate(ctx),mu,hN,delayN) != cmOkRC )
  3287. rc = cmErrMsg(&inst->classPtr->err, kSubSysFailDspRC, "Unable to initialize the internal echo canceller.");
  3288. return rc;
  3289. }
  3290. cmDspRC_t _cmDspEchoCancelFree(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3291. {
  3292. cmDspRC_t rc = kOkDspRC;
  3293. cmDspEchoCancel_t* p = (cmDspEchoCancel_t*)inst;
  3294. cmNlmsEcWrite(p->r, "/Users/kevin/temp/kc");
  3295. cmNlmsEcFree(&p->r);
  3296. return rc;
  3297. }
  3298. cmDspRC_t _cmDspEchoCancelReset(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3299. {
  3300. //cmDspEchoCancel_t* p = (cmDspEchoCancel_t*)inst;
  3301. cmDspApplyAllDefaults(ctx,inst);
  3302. return _cmDspEchoCancelSetup(ctx, inst );
  3303. }
  3304. cmDspRC_t _cmDspEchoCancelExec(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3305. {
  3306. cmDspRC_t rc = kOkDspRC;
  3307. cmDspEchoCancel_t* p = (cmDspEchoCancel_t*)inst;
  3308. bool bypassFl = true; //cmDspBool(inst,kBypassEcId);
  3309. const cmSample_t* fV = cmDspAudioBuf(ctx,inst,kFiltInEcId,0);
  3310. unsigned fN = cmDspAudioBufSmpCount(ctx,inst,kFiltInEcId,0);
  3311. const cmSample_t* uV = cmDspAudioBuf(ctx,inst,kUnfiltInEcId,0);
  3312. unsigned uN = cmDspAudioBufSmpCount(ctx,inst,kUnfiltInEcId,0);
  3313. cmSample_t* yV = cmDspAudioBuf(ctx,inst,kOutEcId,0);
  3314. unsigned yN = cmDspAudioBufSmpCount(ctx,inst,kOutEcId,0);
  3315. assert( fN==uN && fN==yN );
  3316. if( bypassFl )
  3317. {
  3318. cmVOS_Copy(yV,yN,uV);
  3319. }
  3320. else
  3321. {
  3322. if( fV !=NULL && uV != NULL && yV != NULL )
  3323. {
  3324. assert( uN == yN && fN == yN );
  3325. cmNlmsEcExec(p->r,uV,fV,yV,yN);
  3326. }
  3327. }
  3328. return rc;
  3329. }
  3330. cmDspRC_t _cmDspEchoCancelRecv(cmDspCtx_t* ctx, cmDspInst_t* inst, const cmDspEvt_t* evt )
  3331. {
  3332. cmDspEchoCancel_t* p = (cmDspEchoCancel_t*)inst;
  3333. cmDspSetEvent(ctx,inst,evt);
  3334. if( p->r != NULL )
  3335. {
  3336. switch(evt->dstVarId)
  3337. {
  3338. case kMuEcId:
  3339. cmNlmsEcSetMu( p->r, cmDspReal(inst,kMuEcId));
  3340. break;
  3341. case kImpRespN_EcId:
  3342. cmNlmsEcSetIrN( p->r, cmDspUInt(inst,kImpRespN_EcId));
  3343. break;
  3344. case kDelayN_EcId:
  3345. cmNlmsEcSetDelayN( p->r, cmDspUInt(inst,kDelayN_EcId));
  3346. break;
  3347. case kBypassEcId:
  3348. printf("EC bypass:%i\n",cmDspBool(inst,kBypassEcId));
  3349. break;
  3350. }
  3351. }
  3352. printf("mu:%f dN:%i hN:%i\n",p->r->mu,p->r->delayN,p->r->hN);
  3353. return kOkDspRC;
  3354. }
  3355. cmDspClass_t* cmEchoCancelClassCons( cmDspCtx_t* ctx )
  3356. {
  3357. cmDspClassSetup(&_cmEchoCancelDC,ctx,"EchoCancel",
  3358. NULL,
  3359. _cmDspEchoCancelAlloc,
  3360. _cmDspEchoCancelFree,
  3361. _cmDspEchoCancelReset,
  3362. _cmDspEchoCancelExec,
  3363. _cmDspEchoCancelRecv,
  3364. NULL,
  3365. NULL,
  3366. "Echo canceller");
  3367. return &_cmEchoCancelDC;
  3368. }
  3369. //)