libcm is a C development framework with an emphasis on audio signal processing applications.
Ви не можете вибрати більше 25 тем Теми мають розпочинатися з літери або цифри, можуть містити дефіси (-) і не повинні перевищувати 35 символів.

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  1. #include "cmPrefix.h"
  2. #include "cmGlobal.h"
  3. #include "cmFloatTypes.h"
  4. #include "cmRpt.h"
  5. #include "cmErr.h"
  6. #include "cmCtx.h"
  7. #include "cmMem.h"
  8. #include "cmMallocDebug.h"
  9. #include "cmLinkedHeap.h"
  10. #include "cmFileSys.h"
  11. #include "cmSymTbl.h"
  12. #include "cmJson.h"
  13. #include "cmPrefs.h"
  14. #include "cmDspValue.h"
  15. #include "cmMsgProtocol.h"
  16. #include "cmThread.h"
  17. #include "cmUdpPort.h"
  18. #include "cmUdpNet.h"
  19. #include "cmTime.h"
  20. #include "cmAudioSys.h"
  21. #include "cmProcObj.h"
  22. #include "cmDspCtx.h"
  23. #include "cmDspClass.h"
  24. #include "cmDspSys.h"
  25. #include "cmDspPgm.h"
  26. #include "cmDspPgmPP.h"
  27. #include "cmDspPgmKr.h"
  28. cmDspRC_t _cmDspSysPgm_SyncRecd( cmDspSysH_t h, void** userPtrPtr )
  29. {
  30. cmDspRC_t rc = kOkDspRC;
  31. unsigned audioFileBits = 24;
  32. cmDspInst_t* ai0p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, 0 );
  33. cmDspInst_t* ai1p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, 1 );
  34. cmDspInst_t* mip = cmDspSysAllocInst(h,"MidiIn", NULL, 0 );
  35. cmDspInst_t* srp = cmDspSysAllocInst(h,"SyncRecd",NULL, 3, "/home/kevin/temp/kr/sr","sr","audio",audioFileBits);
  36. cmDspInst_t* am0p = cmDspSysAllocInst(h,"AMeter", "Left", 0);
  37. cmDspInst_t* am1p = cmDspSysAllocInst(h,"AMeter", "Right",0);
  38. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, 0 );
  39. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, 1 );
  40. cmDspInst_t* chk = cmDspSysAllocInst(h,"Checkbox","recd", 5, "Recd","open","close", 1.0, 0.0);
  41. cmDspInst_t* gain0 = cmDspSysAllocInst(h,"Scalar", "In Gain-0", 5, kNumberDuiId, 0.0, 10.0,0.01, 1.0 );
  42. cmDspInst_t* gain1 = cmDspSysAllocInst(h,"Scalar", "In Gain-1", 5, kNumberDuiId, 0.0, 10.0,0.01, 1.0 );
  43. // check for allocation errors
  44. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  45. goto errLabel;
  46. cmDspSysInstallCb(h, mip, "status", srp, "status", NULL);
  47. cmDspSysInstallCb(h, mip, "d0", srp, "d0", NULL);
  48. cmDspSysInstallCb(h, mip, "d1", srp, "d1", NULL);
  49. cmDspSysInstallCb(h, mip, "sec", srp, "sec", NULL);
  50. cmDspSysInstallCb(h, mip, "nsec", srp, "nsec", NULL);
  51. cmDspSysInstallCb(h, chk, "sym", srp, "cmd", NULL);
  52. cmDspSysInstallCb(h, gain0, "val", ai0p, "gain", NULL);
  53. cmDspSysInstallCb(h, gain1, "val", ai1p, "gain", NULL);
  54. cmDspSysConnectAudio(h, ai0p, "out", srp, "ain-0");
  55. cmDspSysConnectAudio(h, ai1p, "out", srp, "ain-1");
  56. cmDspSysConnectAudio(h, ai0p, "out", am0p, "in");
  57. cmDspSysConnectAudio(h, ai1p, "out", am1p, "in");
  58. cmDspSysConnectAudio(h, ai0p, "out", ao0p, "in");
  59. cmDspSysConnectAudio(h, ai1p, "out", ao1p, "in");
  60. errLabel:
  61. return rc;
  62. }
  63. cmDspRC_t _cmDspSysPgm_Test_Midi( cmDspSysH_t h, void** userPtrPtr )
  64. {
  65. cmDspRC_t rc = kOkDspRC;
  66. const cmChar_t* deviceName = "Fastlane";
  67. const cmChar_t* portName = "Fastlane MIDI A";
  68. #ifdef OS_OSX
  69. deviceName = "MOTU - FastLane USB";
  70. portName = "Port A";
  71. //deviceName = "RME - Fireface UFX (23148636)";
  72. //portName = "Port 2";
  73. #endif
  74. cmDspInst_t* sendBtn = cmDspSysAllocInst( h,"Button", "Send", 2, kButtonDuiId, 0.0 );
  75. cmDspInst_t* status = cmDspSysAllocInst( h,"Scalar", "Status", 5, kNumberDuiId, 0.0, 127.0, 1.0, 144.0);
  76. cmDspInst_t* d0 = cmDspSysAllocInst( h,"Scalar", "D0", 5, kNumberDuiId, 0.0, 127.0, 1.0, 64.0);
  77. cmDspInst_t* d1 = cmDspSysAllocInst( h,"Scalar", "D1", 5, kNumberDuiId, 0.0, 127.0, 1.0, 64.0);
  78. cmDspInst_t* midiOut = cmDspSysAllocInst( h,"MidiOut", NULL, 2, deviceName, portName);
  79. cmDspInst_t* midiIn = cmDspSysAllocInst( h,"MidiIn", NULL, 0 );
  80. cmDspInst_t* printer = cmDspSysAllocInst( h,"Printer", NULL, 1, ">" );
  81. // check for allocation errors
  82. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  83. goto errLabel;
  84. cmDspSysInstallCb( h, sendBtn, "out", d1, "send", NULL);
  85. cmDspSysInstallCb( h, sendBtn, "out", d0, "send", NULL);
  86. cmDspSysInstallCb( h, sendBtn, "out", status, "send", NULL);
  87. cmDspSysInstallCb( h, status, "val", midiOut, "status",NULL);
  88. cmDspSysInstallCb( h, d0, "val", midiOut, "d0", NULL);
  89. cmDspSysInstallCb( h, d1, "val", midiOut, "d1", NULL);
  90. cmDspSysInstallCb( h, midiIn, "status", printer, "in", NULL);
  91. cmDspSysInstallCb( h, midiIn, "d0", printer, "in", NULL);
  92. cmDspSysInstallCb( h, midiIn, "d1", printer, "in", NULL);
  93. cmDspSysInstallCb( h, midiIn, "smpidx", printer, "in", NULL);
  94. errLabel:
  95. return rc;
  96. }
  97. cmDspRC_t _cmDspSysPgm_Stereo_Through( cmDspSysH_t h, void** userPtrPtr )
  98. {
  99. bool useBuiltInFl = true;
  100. cmDspInst_t* ignp = cmDspSysAllocInst( h,"Scalar", "In Gain", 5, kNumberDuiId, 0.0, 4.0, 0.01, 1.0);
  101. //cmDspInst_t* ognp = cmDspSysAllocInst( h,"Scalar", "Out Gain", 5, kNumberDuiId, 0.0, 4.0, 0.01, 1.0);
  102. cmDspInst_t* hzp = cmDspSysAllocInst(h,"Scalar", "Hz", 5, kNumberDuiId, 0.0, 10.0, 0.001, 1.0);
  103. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  104. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable",NULL, 2, cmDspSysSampleRate(h), 2 );
  105. cmDspInst_t* ai0p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, useBuiltInFl ? 0 : 2 );
  106. cmDspInst_t* ai1p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, useBuiltInFl ? 1 : 3 );
  107. // MOTU Traveler: Use channels 2&3 (out plugs:3&4) because 0&1 do not show up on plugs 1&2.
  108. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  109. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  110. cmDspInst_t* im0p = cmDspSysAllocInst(h,"AMeter","In 0", 0);
  111. cmDspInst_t* im1p = cmDspSysAllocInst(h,"AMeter","In 1", 0);
  112. cmDspInst_t* om0p = cmDspSysAllocInst(h,"AMeter","Out 0", 0);
  113. cmDspInst_t* om1p = cmDspSysAllocInst(h,"AMeter","Out 1",0);
  114. //cmDspSysConnectAudio(h, ai0p, "out", ao0p, "in");
  115. //cmDspSysConnectAudio(h, ai1p, "out", ao1p, "in");
  116. cmDspSysConnectAudio(h, ai0p, "out", im0p, "in"); //ain0 -> imtr0
  117. cmDspSysConnectAudio(h, ai1p, "out", im1p, "in"); //ain1 -> imtr1
  118. if(0)
  119. {
  120. cmDspSysInstallCb( h, hzp, "val", php, "mult", NULL); // hz -> phs
  121. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phs -> wt
  122. cmDspSysConnectAudio(h, wtp, "out", ao0p, "in" ); // wt -> aout0
  123. cmDspSysConnectAudio(h, wtp, "out", om0p, "in" ); // wt -> omtr0
  124. }
  125. else
  126. {
  127. cmDspSysInstallCb( h, ignp,"val", ai0p, "gain", NULL); // igain -> ain0
  128. cmDspSysConnectAudio(h, ai0p,"out", ao0p, "in" ); // ain0 -> aout0
  129. cmDspSysConnectAudio(h, ai0p,"out", om0p, "in" ); // ain0 -> omtr0
  130. }
  131. cmDspSysInstallCb( h, ignp,"val", ai1p, "gain", NULL); // igain -> ain1
  132. cmDspSysConnectAudio(h, ai1p,"out", ao1p, "in" ); // ain1 -> aout1
  133. cmDspSysConnectAudio(h, ai1p,"out", om1p, "in" ); // ain1 -> omtr1
  134. return kOkDspRC;
  135. }
  136. cmDspRC_t _cmDspSysPgm_Stereo_Fx( cmDspSysH_t h, void** userPtrPtr )
  137. {
  138. bool useBuiltInFl = true;
  139. cmDspInst_t* ignp = cmDspSysAllocInst( h,"Scalar", "In Gain", 5, kNumberDuiId, 0.0, 4.0, 0.01, 1.0);
  140. cmDspInst_t* ognp = cmDspSysAllocInst( h,"Scalar", "Out Gain", 5, kNumberDuiId, 0.0, 4.0, 0.01, 1.0);
  141. //cmDspInst_t* fb0p = cmDspSysAllocInst( h,"Scalar", "Feeback 0", 5, kNumberDuiId, 0.0, 1.0, 0.001, 0.0);
  142. //cmDspInst_t* fb1p = cmDspSysAllocInst( h,"Scalar", "Feedback 1", 5, kNumberDuiId, 0.0, 1.0, 0.001, 0.0);
  143. //cmDspInst_t* tm0p = cmDspSysAllocInst( h,"Scalar", "Time 0", 5, kNumberDuiId, 0.0, 1000.0, 0.0001, 10.0);
  144. //cmDspInst_t* tm1p = cmDspSysAllocInst( h,"Scalar", "Time 1", 5, kNumberDuiId, 0.0, 1000.0, 0.0001, 10.0);
  145. cmDspInst_t* rt0p = cmDspSysAllocInst( h,"Scalar", "Ratio 0", 5, kNumberDuiId, 0.01, 10.0, 0.01, 1.0);
  146. cmDspInst_t* rt1p = cmDspSysAllocInst( h,"Scalar", "Ratio 1", 5, kNumberDuiId, 0.01, 10.0, 0.01, 1.0);
  147. cmDspInst_t* ai0p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, useBuiltInFl ? 0 : 2 );
  148. cmDspInst_t* ai1p = cmDspSysAllocInst(h,"AudioIn", NULL, 1, useBuiltInFl ? 1 : 3 );
  149. cmDspInst_t* om0p = cmDspSysAllocInst(h,"AMeter","Out Left", 0);
  150. cmDspInst_t* om1p = cmDspSysAllocInst(h,"AMeter","Out Right",0);
  151. //cmDspInst_t* dy0p = cmDspSysAllocInst(h,"Delay", NULL, 2, 1000.0, 0.5 );
  152. //cmDspInst_t* dy1p = cmDspSysAllocInst(h,"Delay", NULL, 2, 2000.0, 0.7 );
  153. cmDspInst_t* ps0p = cmDspSysAllocInst(h,"PShift", NULL, 0 );
  154. cmDspInst_t* ps1p = cmDspSysAllocInst(h,"PShift", NULL, 0 );
  155. // MOTU Traveler: Use channels 2&3 (out plugs:3&4) because 0&1 do not show up on plugs 1&2.
  156. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  157. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  158. cmDspSysConnectAudio(h, ai0p,"out", om0p, "in" ); // input meter connection
  159. cmDspSysConnectAudio(h, ai1p,"out", om1p, "in" );
  160. //cmDspSysConnectAudio(h, ai0p,"out", dy0p, "in" ); // input -> delay
  161. //cmDspSysConnectAudio(h, ai1p,"out", dy1p, "in" );
  162. cmDspSysConnectAudio(h, ai0p,"out", ps0p, "in" ); // delay -> pshift
  163. cmDspSysConnectAudio(h, ai1p,"out", ps1p, "in" );
  164. cmDspSysConnectAudio(h, ps0p,"out", ao0p, "in" ); // pshift -> output
  165. cmDspSysConnectAudio(h, ps1p,"out", ao1p, "in" );
  166. //cmDspSysConnectAudio(h, dy0p,"out", ao0p, "in" ); // delay -> output
  167. //cmDspSysConnectAudio(h, dy1p,"out", ao1p, "in" );
  168. cmDspSysInstallCb( h, ignp,"val", ai0p, "gain", NULL); // input gain
  169. cmDspSysInstallCb( h, ignp,"val", ai1p, "gain", NULL);
  170. cmDspSysInstallCb( h, ognp, "val", ao0p, "gain", NULL); // output gain
  171. cmDspSysInstallCb( h, ognp, "val", ao1p, "gain", NULL);
  172. //cmDspSysInstallCb( h, fb0p, "val", dy0p, "fb", NULL); // feedback
  173. //cmDspSysInstallCb( h, fb1p, "val", dy1p, "fb", NULL);
  174. //cmDspSysInstallCb( h, tm0p, "val", dy0p, "time", NULL); // delay time
  175. //cmDspSysInstallCb( h, tm1p, "val", dy1p, "time", NULL);
  176. cmDspSysInstallCb( h, rt0p, "val", ps0p, "ratio", NULL); // pitch ratio
  177. cmDspSysInstallCb( h, rt1p, "val", ps1p, "ratio", NULL);
  178. return kOkDspRC;
  179. }
  180. cmDspRC_t _cmDspSysPgm_PlaySine( cmDspSysH_t h, void** userPtrPtr )
  181. {
  182. bool useBuiltInFl = true;
  183. double frqHz = 440.0;
  184. cmDspInst_t* chp = cmDspSysAllocInst( h,"Scalar", "Channel", 5, kNumberDuiId, 0.0, 100.0, 1.0, 0.0);
  185. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 2, cmDspSysSampleRate(h), frqHz );
  186. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable", NULL, 2, ((int)cmDspSysSampleRate(h)), 4);
  187. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, useBuiltInFl ? 0 : 2 );
  188. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, useBuiltInFl ? 1 : 3 );
  189. cmDspInst_t* om0p = cmDspSysAllocInst(h,"AMeter","Out", 0);
  190. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phasor -> wave table
  191. cmDspSysConnectAudio(h, wtp, "out", ao0p, "in" ); // wave table -> audio out
  192. cmDspSysConnectAudio(h, wtp, "out", ao1p, "in" ); //
  193. cmDspSysConnectAudio(h, wtp, "out", om0p, "in" );
  194. cmDspSysInstallCb( h, chp, "val", ao0p, "ch", NULL);
  195. return kOkDspRC;
  196. }
  197. cmDspRC_t _cmDspSysPgm_PlayFile( cmDspSysH_t h, void** userPtrPtr )
  198. {
  199. bool useBuiltInFl = true;
  200. const char* fn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  201. //int beg = 6900826;
  202. //int end = 13512262;
  203. const cmChar_t* fn = cmFsMakeFn(cmFsUserDir(),fn0,NULL,NULL );
  204. cmDspInst_t* ofp = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  205. cmDspInst_t* fnp = cmDspSysAllocInst(h,"Fname", NULL, 3, false,"Audio Files (*.wav,*.aiff,*.aif)\tAudio Files (*.{wav,aiff,aif})",fn);
  206. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  207. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable",NULL, 2, ((int)cmDspSysSampleRate(h)), 1 );
  208. //cmDspInst_t* afp = cmDspSysAllocInst(h,"AudioFileOut",NULL,2,"/home/kevin/temp/record0.aif",1);
  209. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  210. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  211. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phasor -> wave table
  212. cmDspSysConnectAudio(h, wtp, "out", ao0p, "in" ); // wave table -> audio out
  213. cmDspSysConnectAudio(h, wtp, "out", ao1p, "in" ); //
  214. //cmDspSysConnectAudio(h, wtp, "out", afp, "in0");
  215. cmDspSysInstallCb(h, ofp, "val", wtp, "beg", NULL );
  216. cmDspSysInstallCb(h, fnp, "out", wtp, "fn", NULL);
  217. return kOkDspRC;
  218. }
  219. cmDspRC_t _cmDspSysPgm_GateDetect( cmDspSysH_t h, void** userPtrPtr )
  220. {
  221. bool useBuiltInFl = true;
  222. //const char* fn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  223. //int beg = 6900826;
  224. //int end = 13512262;
  225. //const char* fn0 = "media/audio/McGill-3/1 Audio Track.aiff";
  226. const char* fn0 = "temp/gate_detect0.aif";
  227. int beg = 0;
  228. int end = -1;
  229. const cmChar_t* fn = cmFsMakeFn(cmFsUserDir(),fn0,NULL,NULL );
  230. const cmChar_t* tfn = "/home/kevin/temp/test0.txt";
  231. cmDspInst_t* ofp = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  232. //cmDspInst_t* fnp = cmDspSysAllocInst(h,"Fname", NULL, 3, false,"Audio Files (*.wav,*.aiff,*.aif)\tAudio Files (*.{wav,aiff,aif})",fn);
  233. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  234. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable", NULL, 6, ((int)cmDspSysSampleRate(h)), 1, fn, -1, beg, end );
  235. cmDspInst_t* gdp = cmDspSysAllocInst(h,"GateDetect",NULL, 1, 20.0);
  236. cmDspInst_t* gmp = cmDspSysAllocInst(h,"Meter", NULL, 3, 0.0, 0.0, 1.0);
  237. cmDspInst_t* rmp = cmDspSysAllocInst(h,"Meter", NULL, 3, -100.0, -100.0, 0.0);
  238. cmDspInst_t* txp = cmDspSysAllocInst(h,"TextFile", NULL, 2, 3, tfn);
  239. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  240. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  241. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phasor -> wave table
  242. cmDspSysConnectAudio(h, wtp, "out", ao0p, "in" ); // wave table -> audio out
  243. cmDspSysConnectAudio(h, wtp, "out", ao1p, "in" ); //
  244. cmDspSysConnectAudio(h, wtp, "out", gdp, "in" );
  245. cmDspSysInstallCb(h, ofp, "val", wtp, "beg", NULL );
  246. cmDspSysInstallCb(h, gdp, "gate", gmp, "in", NULL );
  247. cmDspSysInstallCb(h, gdp, "rms", rmp, "in", NULL );
  248. cmDspSysInstallCb(h, gdp, "gate", txp, "in-0", NULL);
  249. cmDspSysInstallCb(h, gdp, "rms", txp, "in-1", NULL);
  250. cmDspSysInstallCb(h, gdp, "mean", txp, "in-2", NULL);
  251. return kOkDspRC;
  252. }
  253. cmDspRC_t _cmDspSysPgm_Record(cmDspSysH_t h, void** userPtrPtr)
  254. {
  255. int chCnt = 8;
  256. cmDspInst_t* a[chCnt];
  257. int i;
  258. for(i=0; i<chCnt; ++i)
  259. a[i] = cmDspSysAllocInst( h, "AudioIn", NULL, 1, i );
  260. cmDspInst_t* mxp = cmDspSysAllocInst( h, "AMix", NULL, chCnt+1, chCnt, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 );
  261. cmDspInst_t* afp = cmDspSysAllocInst( h, "AudioFileOut", NULL, 2,"/home/kevin/temp/gate_detect.aif",1);
  262. cmDspInst_t* aop = cmDspSysAllocInst( h, "AudioOut", NULL, 1, 0 );
  263. cmDspInst_t* txp = cmDspSysAllocInst( h, "TextFile", NULL, 2, 1, "/home/kevin/temp/gate_detect.txt");
  264. cmDspInst_t* chp = cmDspSysAllocInst( h, "Scalar", "Channel", 5, kNumberDuiId, 0.0, 7.0, 1.0, 0.0);
  265. for(i=0; i<chCnt; ++i)
  266. {
  267. cmChar_t lbl[15];
  268. snprintf(lbl,15,"in-%i",i);
  269. cmDspSysConnectAudio(h,a[i], "out", mxp, lbl);
  270. }
  271. cmDspSysConnectAudio(h, mxp, "out", afp, "in0" );
  272. cmDspSysConnectAudio(h, mxp, "out", aop, "in" );
  273. cmDspSysInstallCb(h, chp, "out", txp, "in-0", NULL);
  274. return kOkDspRC;
  275. }
  276. cmDspRC_t _cmDspSysPgm_PitchShiftFile( cmDspSysH_t h, void** userPtrPtr )
  277. {
  278. bool useBuiltInFl = true;
  279. const cmChar_t* fn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  280. const cmChar_t* fn1 = "temp/record0.aif";
  281. int beg = 6900826;
  282. int end = 13512262;
  283. const cmChar_t* fn = cmFsMakeFn(cmFsUserDir(),fn0,NULL,NULL );
  284. const cmChar_t* ofn = cmFsMakeFn(cmFsUserDir(),fn1,NULL,NULL );
  285. cmDspInst_t* rt0p = cmDspSysAllocInst(h,"Scalar", "Ratio 0", 5, kNumberDuiId, 0.01, 10.0, 0.01, 1.0);
  286. cmDspInst_t* rt1p = cmDspSysAllocInst(h,"Scalar", "Ratio 1", 5, kNumberDuiId, 0.01, 10.0, 0.01, 1.0);
  287. cmDspInst_t* ofp = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  288. //cmDspInst_t* fnp = cmDspSysAllocInst(h,"Fname", NULL, 3, false,"Audio Files (*.wav,*.aiff,*.aif)\tAudio Files (*.{wav,aiff,aif})",fn);
  289. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  290. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, fn, -1, beg, end );
  291. cmDspInst_t* afp = cmDspSysAllocInst(h,"AudioFileOut",NULL,2,ofn,1);
  292. cmDspInst_t* ps0p = cmDspSysAllocInst(h,"PShift", NULL, 0 );
  293. cmDspInst_t* ps1p = cmDspSysAllocInst(h,"PShift", NULL, 0 );
  294. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  295. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  296. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phasor -> wave table
  297. cmDspSysConnectAudio(h, wtp, "out", ps0p, "in" ); // wave table -> shift
  298. cmDspSysConnectAudio(h, wtp, "out", ps1p, "in" ); //
  299. cmDspSysConnectAudio(h, ps0p, "out", ao0p, "in" ); // shift -> audio out
  300. cmDspSysConnectAudio(h, ps1p, "out", ao1p, "in" ); //
  301. cmDspSysConnectAudio(h, ps0p, "out", afp, "in0"); //
  302. cmDspSysInstallCb(h, ofp, "val", wtp, "beg", NULL );
  303. //cmDspSysInstallCb(h, fnp, "out", wtp, "fn", NULL);
  304. cmDspSysInstallCb(h, rt0p, "val", ps0p, "ratio", NULL);
  305. cmDspSysInstallCb(h, rt1p, "val", ps1p, "ratio", NULL);
  306. return kOkDspRC;
  307. }
  308. cmDspRC_t _cmDspSysPgm_LoopRecd( cmDspSysH_t h, void** userPtrPtr )
  309. {
  310. bool useBuiltInFl = true;
  311. const cmChar_t* fn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  312. const cmChar_t* fn = cmFsMakeFn(cmFsUserDir(),fn0,NULL,NULL );
  313. int beg = 6900826;
  314. int end = 13512262;
  315. cmDspInst_t* rfl = cmDspSysAllocInst(h,"Button", "Recd", 2, kCheckDuiId, 0.0 );
  316. cmDspInst_t* pfl = cmDspSysAllocInst(h,"Button", "Play", 2, kButtonDuiId, 1.0 );
  317. cmDspInst_t* rtp = cmDspSysAllocInst(h,"Scalar", "Ratio", 5, kNumberDuiId, 0.0, 10.0, 0.01, 1.0 );
  318. cmDspInst_t* ofp = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  319. //cmDspInst_t* fnp = cmDspSysAllocInst(h,"Fname", NULL, 3, false,"Audio Files (*.wav,*.aiff,*.aif)\tAudio Files (*.{wav,aiff,aif})",fn);
  320. cmDspInst_t* php = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  321. cmDspInst_t* wtp = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, fn, -1, beg, end );
  322. //cmDspInst_t* afp = cmDspSysAllocInst(h,"AudioFileOut",NULL,2,"/home/kevin/temp/record0.aif",1);
  323. cmDspInst_t* lrp = cmDspSysAllocInst(h,"LoopRecd", NULL, 0 );
  324. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  325. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  326. cmDspSysConnectAudio(h, php, "out", wtp, "phs" ); // phasor -> wave table
  327. cmDspSysConnectAudio(h, wtp, "out", lrp, "in" ); // wave table -> shift
  328. cmDspSysConnectAudio(h, lrp, "out", ao0p, "in" ); // shift -> audio out
  329. cmDspSysConnectAudio(h, wtp, "out", ao1p, "in" );
  330. cmDspSysInstallCb(h, ofp, "val", wtp, "beg", NULL );
  331. //cmDspSysInstallCb(h, fnp, "out", wtp, "fn", NULL);
  332. cmDspSysInstallCb(h, rfl, "out", lrp, "recd", NULL);
  333. cmDspSysInstallCb(h, pfl, "out", lrp, "play", NULL);
  334. cmDspSysInstallCb(h, rtp, "val", lrp, "ratio",NULL);
  335. return kOkDspRC;
  336. }
  337. cmDspRC_t _cmDspSysPgm_UiTest(cmDspSysH_t h, void** userPtrPtr )
  338. {
  339. cmDspRC_t rc = kOkDspRC;
  340. cmDspInst_t* mdp = cmDspSysAllocInst(h,"Scalar", "Mode", 5, kNumberDuiId, 0.0, 4.0, 1.0, 1.0);
  341. cmDspInst_t* wsp = cmDspSysAllocInst(h,"MsgList","wndSmpCnt", 3, "wndSmpCnt", NULL, 2);
  342. cmDspInst_t* hfp = cmDspSysAllocInst(h,"MsgList","hopFact", 3, "hopFact", NULL, 2);
  343. cmDspInst_t* thp = cmDspSysAllocInst(h,"Scalar", "threshold", 5, kNumberDuiId, 0.0, 1.0, 0.01, 0.5 );
  344. cmDspInst_t* trp = cmDspSysAllocInst(h,"Scalar", "target", 5, kNumberDuiId, 0.0, 1.0, 0.01, 0.5 );
  345. cmDspInst_t* btn = cmDspSysAllocInst(h,"Button", "btn", 2, kButtonDuiId, 12.3 );
  346. cmDspInst_t* chk = cmDspSysAllocInst(h,"Button", "check", 2, kCheckDuiId, 0 );
  347. cmDspInst_t* chb = cmDspSysAllocInst(h,"Checkbox","checkbox", 5, "Checker","up","down", 2.0, 1.0);
  348. cmDspInst_t* txt = cmDspSysAllocInst(h,"Text", "text", 1, "Hello" );
  349. cmDspInst_t* prp = cmDspSysAllocInst(h,"Printer", NULL, 1, ">" );
  350. cmDspInst_t* mtp = cmDspSysAllocInst(h,"Meter", "meter", 3, 0.0, 0.0, 4.0);
  351. cmDspInst_t* ctp = cmDspSysAllocInst(h,"Counter", NULL, 3, 0.0, 10.0, 1.0 );
  352. cmDspSysAllocInst(h,"Label", "label1", 1, "label2");
  353. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  354. return rc;
  355. cmDspSysInstallCb(h, mdp, "val", thp, "val", NULL );
  356. cmDspSysInstallCb(h, mdp, "val", prp, "in", NULL );
  357. cmDspSysInstallCb(h, wsp, "out", prp, "in", NULL );
  358. cmDspSysInstallCb(h, hfp, "out", prp, "in", NULL );
  359. cmDspSysInstallCb(h, trp, "val", prp, "in", NULL );
  360. cmDspSysInstallCb(h, btn, "out", prp, "in", NULL );
  361. cmDspSysInstallCb(h, chk, "out", prp, "in", NULL );
  362. cmDspSysInstallCb(h, ctp, "out", prp, "in", NULL );
  363. cmDspSysInstallCb(h, mdp, "val", btn, "in", NULL );
  364. cmDspSysInstallCb(h, thp, "val", mtp, "in", NULL );
  365. cmDspSysInstallCb(h, thp, "val", trp, "val", NULL );
  366. cmDspSysInstallCb(h, btn, "sym", prp, "in", NULL );
  367. cmDspSysInstallCb(h, btn, "out", ctp, "next", NULL );
  368. cmDspSysInstallCb(h, txt, "val", prp, "in", NULL );
  369. cmDspSysInstallCb(h, chb, "out", prp, "in", NULL );
  370. cmDspSysInstallCb(h, chb, "sym", prp, "in", NULL );
  371. return rc;
  372. }
  373. cmDspRC_t _cmDspSysPgm_Xfade( cmDspSysH_t h, void** userPtrPtr )
  374. {
  375. cmDspRC_t rc = kOkDspRC;
  376. unsigned leftChIdx = 0;
  377. unsigned rightChIdx = 1;
  378. unsigned chCnt = 2;
  379. double xfadeMs = 1000; // cross fade time
  380. double sgHz = 500;
  381. unsigned sgShapeId = 1;
  382. double sgGain = 0.5;
  383. cmDspInst_t* sg = cmDspSysAllocInst( h, "SigGen", NULL, 3, sgHz, sgShapeId, sgGain );
  384. cmDspInst_t* xfp = cmDspSysAllocInst(h,"Xfader", NULL, 2, chCnt, xfadeMs );
  385. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, leftChIdx );
  386. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, rightChIdx );
  387. cmDspInst_t* im0p = cmDspSysAllocInst(h,"AMeter","In 0", 0);
  388. cmDspInst_t* im1p = cmDspSysAllocInst(h,"AMeter","In 1", 0);
  389. cmDspInst_t* om0p = cmDspSysAllocInst(h,"AMeter","Out 0", 0);
  390. cmDspInst_t* om1p = cmDspSysAllocInst(h,"AMeter","Out 1", 0);
  391. cmDspInst_t* mstr = cmDspSysAllocInst(h,"Button", "Mstr", 2, kCheckDuiId, 0.0 );
  392. cmDspInst_t* btn0 = cmDspSysAllocInst(h,"Button", "Fade 0", 2, kCheckDuiId, 0.0 );
  393. cmDspInst_t* btn1 = cmDspSysAllocInst(h,"Button", "Fade 1", 2, kCheckDuiId, 1.0 );
  394. cmDspInst_t* gm0p = cmDspSysAllocInst(h,"Meter","Gain 0", 3, 0.0, 0.0, 1.0);
  395. cmDspInst_t* gm1p = cmDspSysAllocInst(h,"Meter","Gain 1", 3, 0.0, 0.0, 1.0);
  396. cmDspInst_t* pon = cmDspSysAllocInst(h,"Printer", NULL, 1, "on:" );
  397. cmDspInst_t* pof = cmDspSysAllocInst(h,"Printer", NULL, 1, "off:" );
  398. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  399. return rc;
  400. cmDspSysConnectAudio(h, sg, "out", im0p, "in"); // ain -> meter
  401. cmDspSysConnectAudio(h, sg, "out", im1p, "in"); //
  402. cmDspSysConnectAudio(h, sg, "out", xfp, "in-0"); // ain -> xfader
  403. cmDspSysConnectAudio(h, sg, "out", xfp, "in-1");
  404. cmDspSysConnectAudio(h, xfp, "out-0", om0p, "in" ); // xfade -> meter
  405. cmDspSysConnectAudio(h, xfp, "out-1", om1p, "in" ); //
  406. cmDspSysConnectAudio(h, xfp, "out-0", ao0p, "in" ); // xfade -> aout
  407. cmDspSysConnectAudio(h, xfp, "out-1", ao1p, "in" ); //
  408. cmDspSysInstallCb(h, btn0, "out", xfp, "gate-0", NULL ); // check -> xfade gate
  409. cmDspSysInstallCb(h, btn1, "out", xfp, "gate-1", NULL );
  410. cmDspSysInstallCb(h, mstr, "out", xfp, "mgate", NULL );
  411. cmDspSysInstallCb(h, xfp, "gain-0", gm0p, "in", NULL );
  412. cmDspSysInstallCb(h, xfp, "gain-1", gm1p, "in", NULL );
  413. cmDspSysInstallCb(h, xfp, "on", pon, "in", NULL );
  414. cmDspSysInstallCb(h, xfp, "off", pof, "in", NULL );
  415. return cmDspSysLastRC(h);
  416. }
  417. cmDspRC_t _cmDspSysPgm6( cmDspSysH_t h, void* audioDir )
  418. {
  419. cmDspRC_t rc = kOkDspRC;
  420. int wndSmpCnt = 2048;
  421. int hopFact = 4;
  422. //const char* afDir = "/Volumes/LaTetra0/media/audio/20110723-Kriesberg/Audio Files";
  423. //const char* afDir = "/Users/administrator/Documents/kc";
  424. const char* afDir = "/home/kevin/media/audio/20110723-Kriesberg/Audio Files";
  425. cmDspInst_t* ph0p = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  426. cmDspInst_t* wt0p = cmDspSysAllocInst(h,"WaveTable",NULL, 0 );
  427. cmDspInst_t* ro0p = cmDspSysAllocInst(h,"Reorder", NULL, 5, 3, 2, 0, 1, 2 );
  428. cmDspInst_t* kr0p = cmDspSysAllocInst(h,"Kr", NULL, 2, wndSmpCnt, hopFact );
  429. cmDspInst_t* kr1p = cmDspSysAllocInst(h,"Kr", NULL, 2, wndSmpCnt, hopFact );
  430. cmDspInst_t* prp = cmDspSysAllocInst(h,"Printer", NULL, 0 );
  431. bool useBuiltInFl = true;
  432. // MOTU Traveler: Use channels 2&3 (out plugs:3&4) because 0&1 do not show up on plugs 1&2.
  433. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  434. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  435. // BUG: If audio inputs are not connected a 'not an audio buffer' msg is generated.
  436. // This is a problem with type determination in the cmDspClass related code : see cmDspClass.c 833
  437. // for a place that this error would be thrown in the following audio outputs were not connected
  438. // to audio sources.
  439. cmDspInst_t* ao2p = NULL;
  440. cmDspInst_t* ao3p = NULL;
  441. if( !useBuiltInFl )
  442. {
  443. ao2p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 4 );
  444. ao3p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 5 );
  445. }
  446. cmDspInst_t* al0p = cmDspSysAllocInst(h,"MsgList","audFiles", 2, "audFiles",NULL);
  447. cmDspInst_t* fl0p = cmDspSysAllocInst(h,"MsgList","audFragsA", 2, "audFrags",NULL);
  448. cmDspInst_t* fn0p = cmDspSysAllocInst(h,"Sprintf","filename", 1, "%s/%s_%02i.wav");
  449. cmDspInst_t* md0p = cmDspSysAllocInst(h,"Scalar", "Mode", 5, kNumberDuiId, 0.0, 4.0, 1.0, 1.0);
  450. cmDspInst_t* ws0p = cmDspSysAllocInst(h,"MsgList","wndSmpCnt", 3, "wndSmpCnt", NULL, 2);
  451. cmDspInst_t* hf0p = cmDspSysAllocInst(h,"MsgList","hopFact", 3, "hopFact", NULL, 2);
  452. cmDspInst_t* th0p = cmDspSysAllocInst(h,"Scalar", "threshold", 5, kNumberDuiId, 0.0, 100.0, 1.0, 60.0 );
  453. cmDspInst_t* us0p = cmDspSysAllocInst(h,"Scalar", "upr slope", 5, kNumberDuiId, 0.0, 10.0, 0.01, 0.0 );
  454. cmDspInst_t* ls0p = cmDspSysAllocInst(h,"Scalar", "lwr slope", 5, kNumberDuiId, 0.3, 10.0, 0.01, 2.0 );
  455. cmDspInst_t* of0p = cmDspSysAllocInst(h,"Scalar", "offset", 5, kNumberDuiId, 0.0, 100.0, 0.01, 30.0 );
  456. cmDspInst_t* iv0p = cmDspSysAllocInst(h,"Scalar", "invert", 5, kNumberDuiId, 0.0, 1.0, 1.0, 0.0 );
  457. cmDspSysNewColumn(h,0);
  458. //cmDspInst_t* al1p = cmDspSysAllocInst(h,"MsgList","audFiles", 2, "audFiles",NULL);
  459. //cmDspInst_t* fl1p = cmDspSysAllocInst(h,"MsgList","audFrags1", 2, "audFrags",NULL);
  460. //cmDspInst_t* fn1p = cmDspSysAllocInst(h,"Sprintf","filename", 1, "%s/%s_%02i.wav");
  461. cmDspInst_t* md1p = cmDspSysAllocInst(h,"Scalar", "Mode", 5, kNumberDuiId, 0.0, 4.0, 1.0, 1.0);
  462. cmDspInst_t* ws1p = cmDspSysAllocInst(h,"MsgList","wndSmpCnt", 3, "wndSmpCnt", NULL, 2);
  463. cmDspInst_t* hf1p = cmDspSysAllocInst(h,"MsgList","hopFact", 3, "hopFact", NULL, 2);
  464. cmDspInst_t* th1p = cmDspSysAllocInst(h,"Scalar", "threshold", 5, kNumberDuiId, 0.0, 100.0, 1.0, 60.0 );
  465. cmDspInst_t* us1p = cmDspSysAllocInst(h,"Scalar", "upr slope", 5, kNumberDuiId, 0.0, 10.0, 0.01, 0.0 );
  466. cmDspInst_t* ls1p = cmDspSysAllocInst(h,"Scalar", "lwr slope", 5, kNumberDuiId, 0.3, 10.0, 0.01, 2.0 );
  467. cmDspInst_t* of1p = cmDspSysAllocInst(h,"Scalar", "offset", 5, kNumberDuiId, 0.0, 100.0, 0.01, 30.0 );
  468. cmDspInst_t* iv1p = cmDspSysAllocInst(h,"Scalar", "invert", 5, kNumberDuiId, 0.0, 1.0, 1.0, 0.0 );
  469. cmDspSysNewColumn(h,0);
  470. cmDspInst_t* dnp = cmDspSysAllocInst(h,"Fname", "audDir", 3, true,NULL,afDir);
  471. cmDspInst_t* mtp = cmDspSysAllocInst(h,"Meter","MyMeter", 3, 50.0, 0.0, 100.0);
  472. cmDspInst_t* atp = cmDspSysAllocInst(h,"AMeter","Audio Meter",0);
  473. if( (rc = cmDspSysLastRC(h)) != kOkDspRC )
  474. return rc;
  475. cmDspSysConnectAudio(h, ph0p, "out", wt0p, "phs"); // phasor->wt:phs
  476. cmDspSysConnectAudio(h, wt0p, "out", kr0p, "in"); // wt->kr
  477. cmDspSysConnectAudio(h, kr0p, "out", ao0p, "in"); // kr->aout- 0
  478. cmDspSysConnectAudio(h, wt0p, "out", kr1p, "in"); // wt->kr
  479. cmDspSysConnectAudio(h, kr1p, "out", ao1p, "in"); // kr->aout - 1
  480. if( ao2p != NULL )
  481. cmDspSysConnectAudio(h, wt0p,"out", ao2p, "in"); // wt->aout - 2
  482. if( ao3p != NULL )
  483. cmDspSysConnectAudio(h, wt0p,"out", ao3p, "in"); // wt->aout - 3
  484. cmDspSysConnectAudio(h, wt0p,"out", atp, "in"); // wt->meter
  485. cmDspSysInstallCb(h, ws0p, "out", kr0p, "wndn", NULL ); // wndSmpCnt->kr
  486. cmDspSysInstallCb(h, hf0p, "out", kr0p, "hopf", NULL ); // hopFact->kr
  487. cmDspSysInstallCb(h, md0p, "val", kr0p, "mode", NULL ); // mode->kr
  488. cmDspSysInstallCb(h, th0p, "val", kr0p, "thrh", NULL ); // thresh->kr
  489. cmDspSysInstallCb(h, ls0p, "val", kr0p, "lwrs", NULL ); // lwrSlope->kr
  490. cmDspSysInstallCb(h, us0p, "val", kr0p, "uprs", NULL ); // uprSlope->kr
  491. cmDspSysInstallCb(h, of0p, "val", kr0p, "offs", NULL ); // offset->kr
  492. cmDspSysInstallCb(h, iv0p, "val", kr0p, "invt", NULL ); // invert->kr
  493. cmDspSysInstallCb(h, th0p, "val", mtp, "in", NULL );
  494. cmDspSysInstallCb(h, ws1p, "out", kr1p, "wndn", NULL ); // wndSmpCnt->kr
  495. cmDspSysInstallCb(h, hf1p, "out", kr1p, "hopf", NULL ); // hopFact->kr
  496. cmDspSysInstallCb(h, md1p, "val", kr1p, "mode", NULL ); // mode->kr
  497. cmDspSysInstallCb(h, th1p, "val", kr1p, "thrh", NULL ); // thresh->kr
  498. cmDspSysInstallCb(h, ls1p, "val", kr1p, "lwrs", NULL ); // lwrSlope->kr
  499. cmDspSysInstallCb(h, us1p, "val", kr1p, "uprs", NULL ); // uprSlope->kr
  500. cmDspSysInstallCb(h, of1p, "val", kr1p, "offs", NULL ); // offset->kr
  501. cmDspSysInstallCb(h, iv1p, "val", kr1p, "invt", NULL ); // invert->kr
  502. cmDspSysInstallCb(h, dnp, "out", fn0p, "in-0", NULL); // dir->fn:0
  503. cmDspSysInstallCb(h, al0p, "out", fn0p, "in-1", NULL ); // fn->fn:1
  504. cmDspSysInstallCb(h, fl0p, "take", fn0p, "in-2", NULL ); // take->fn:2
  505. cmDspSysInstallCb(h, fn0p, "out", ro0p, "in-0", NULL); // fn->print
  506. cmDspSysInstallCb(h, fl0p, "beg", ro0p, "in-1", NULL); //
  507. cmDspSysInstallCb(h, fl0p, "end", ro0p, "in-2", NULL); //
  508. cmDspSysInstallCb(h, ro0p, "out-0", wt0p, "fn", NULL ); // fn->wt:fn
  509. cmDspSysInstallCb(h, ro0p, "out-1", wt0p, "beg", NULL ); // beg->wt:beg
  510. cmDspSysInstallCb(h, ro0p, "out-2", wt0p, "end", NULL ); // end->wt:end
  511. cmDspSysInstallCb(h, ro0p, "out-1", prp, "in", NULL ); //
  512. //cmDspSysInstallCb(h, dnp, "out", fn1p, "in-0", NULL); // dir->fn:0
  513. //cmDspSysInstallCb(h, al1p, "out", fn1p, "in-1", NULL ); // fn->fn:1
  514. //cmDspSysInstallCb(h, fl1p, "take", fn1p, "in-2", NULL ); // take->fn:2
  515. //cmDspSysInstallCb(h, fn1p, "out", ro1p, "in-0", NULL); // fn->print
  516. //cmDspSysInstallCb(h, fl1p, "beg", ro1p, "in-1", NULL); //
  517. //cmDspSysInstallCb(h, fl1p, "end", ro1p, "in-2", NULL); //
  518. //cmDspSysInstallCb(h, ro1p, "out-0", wt1p, "fn", NULL ); // fn->wt:fn
  519. //cmDspSysInstallCb(h, ro1p, "out-1", wt1p, "beg", NULL ); // beg->wt:beg
  520. //cmDspSysInstallCb(h, ro1p, "out-2", wt1p, "end", NULL ); // end->wt:end
  521. return cmDspSysLastRC(h);
  522. }
  523. cmDspRC_t _cmDspSysPgmGuitar( cmDspSysH_t h, void** userPtrPtr )
  524. {
  525. cmDspRC_t rc = kOkDspRC;
  526. int wndSmpCnt = 2048;
  527. int hopFact = 4;
  528. const char* afDir = "/Volumes/LaTetra0/media/audio/20110723-Kriesberg/Audio Files";
  529. //const char* afDir = "/Users/administrator/Documents/kc";
  530. cmDspInst_t* ph0p = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  531. cmDspInst_t* wt0p = cmDspSysAllocInst(h,"WaveTable",NULL, 0 );
  532. cmDspInst_t* ro0p = cmDspSysAllocInst(h,"Reorder", NULL, 5, 3, 2, 0, 1, 2 );
  533. cmDspInst_t* kr0p = cmDspSysAllocInst(h,"Kr", NULL, 2, wndSmpCnt, hopFact );
  534. cmDspInst_t* kr1p = cmDspSysAllocInst(h,"Kr", NULL, 2, wndSmpCnt, hopFact );
  535. cmDspInst_t* prp = cmDspSysAllocInst(h,"Printer", NULL, 0 );
  536. bool useBuiltInFl = true;
  537. // MOTU Traveler: Use channels 2&3 (out plugs:3&4) because 0&1 do not show up on plugs 1&2.
  538. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 0 : 2 );
  539. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, useBuiltInFl ? 1 : 3 );
  540. // BUG: If audio inputs are not connected a 'not an audio buffer' msg is generated.
  541. // This is a problem with type determination in the cmDspClass related code : see cmDspClass.c 833
  542. // for a place that this error would be thrown in the following audio outputs were not connected
  543. // to audio sources.
  544. cmDspInst_t* ao2p = NULL;
  545. cmDspInst_t* ao3p = NULL;
  546. if( !useBuiltInFl )
  547. {
  548. ao2p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 4 );
  549. ao3p = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 5 );
  550. }
  551. cmDspInst_t* al0p = cmDspSysAllocInst(h,"MsgList","audFiles", 2, "audFiles",NULL);
  552. cmDspInst_t* fl0p = cmDspSysAllocInst(h,"MsgList","audFragsA", 2, "audFrags",NULL);
  553. cmDspInst_t* fn0p = cmDspSysAllocInst(h,"Sprintf","filename", 1, "%s/%s_%02i.wav");
  554. cmDspInst_t* md0p = cmDspSysAllocInst(h,"Scalar", "Mode", 5, kNumberDuiId, 0.0, 4.0, 1.0, 1.0);
  555. cmDspInst_t* ws0p = cmDspSysAllocInst(h,"MsgList","wndSmpCnt", 3, "wndSmpCnt", NULL, 2);
  556. cmDspInst_t* hf0p = cmDspSysAllocInst(h,"MsgList","hopFact", 3, "hopFact", NULL, 2);
  557. cmDspInst_t* th0p = cmDspSysAllocInst(h,"Scalar", "threshold", 5, kNumberDuiId, 0.0, 100.0, 1.0, 60.0 );
  558. cmDspInst_t* us0p = cmDspSysAllocInst(h,"Scalar", "upr slope", 5, kNumberDuiId, 0.0, 10.0, 0.01, 0.0 );
  559. cmDspInst_t* ls0p = cmDspSysAllocInst(h,"Scalar", "lwr slope", 5, kNumberDuiId, 0.3, 10.0, 0.01, 2.0 );
  560. cmDspInst_t* of0p = cmDspSysAllocInst(h,"Scalar", "offset", 5, kNumberDuiId, 0.0, 100.0, 0.01, 30.0 );
  561. cmDspInst_t* iv0p = cmDspSysAllocInst(h,"Scalar", "invert", 5, kNumberDuiId, 0.0, 1.0, 1.0, 0.0 );
  562. cmDspSysNewColumn(h,0);
  563. //cmDspInst_t* al1p = cmDspSysAllocInst(h,"MsgList","audFiles", 2, "audFiles",NULL);
  564. //cmDspInst_t* fl1p = cmDspSysAllocInst(h,"MsgList","audFrags1", 2, "audFrags",NULL);
  565. //cmDspInst_t* fn1p = cmDspSysAllocInst(h,"Sprintf","filename", 1, "%s/%s_%02i.wav");
  566. cmDspInst_t* md1p = cmDspSysAllocInst(h,"Scalar", "Mode", 5, kNumberDuiId, 0.0, 4.0, 1.0, 1.0);
  567. cmDspInst_t* ws1p = cmDspSysAllocInst(h,"MsgList","wndSmpCnt", 3, "wndSmpCnt", NULL, 2);
  568. cmDspInst_t* hf1p = cmDspSysAllocInst(h,"MsgList","hopFact", 3, "hopFact", NULL, 2);
  569. cmDspInst_t* th1p = cmDspSysAllocInst(h,"Scalar", "threshold", 5, kNumberDuiId, 0.0, 100.0, 1.0, 60.0 );
  570. cmDspInst_t* us1p = cmDspSysAllocInst(h,"Scalar", "upr slope", 5, kNumberDuiId, 0.0, 10.0, 0.01, 0.0 );
  571. cmDspInst_t* ls1p = cmDspSysAllocInst(h,"Scalar", "lwr slope", 5, kNumberDuiId, 0.3, 10.0, 0.01, 2.0 );
  572. cmDspInst_t* of1p = cmDspSysAllocInst(h,"Scalar", "offset", 5, kNumberDuiId, 0.0, 100.0, 0.01, 30.0 );
  573. cmDspInst_t* iv1p = cmDspSysAllocInst(h,"Scalar", "invert", 5, kNumberDuiId, 0.0, 1.0, 1.0, 0.0 );
  574. cmDspSysNewColumn(h,0);
  575. cmDspInst_t* dnp = cmDspSysAllocInst(h,"Fname", "audDir", 3, true,NULL,afDir);
  576. cmDspInst_t* mtp = cmDspSysAllocInst(h,"Meter","MyMeter", 3, 50.0, 0.0, 100.0);
  577. cmDspInst_t* atp = cmDspSysAllocInst(h,"AMeter","Audio Meter",0);
  578. if( (rc = cmDspSysLastRC(h)) != kOkDspRC )
  579. return rc;
  580. cmDspSysConnectAudio(h, ph0p, "out", wt0p, "phs"); // phasor->wt:phs
  581. cmDspSysConnectAudio(h, wt0p, "out", kr0p, "in"); // wt->kr
  582. cmDspSysConnectAudio(h, kr0p, "out", ao0p, "in"); // kr->aout- 0
  583. cmDspSysConnectAudio(h, wt0p, "out", kr1p, "in"); // wt->kr
  584. cmDspSysConnectAudio(h, kr1p, "out", ao1p, "in"); // kr->aout - 1
  585. if( ao2p != NULL )
  586. cmDspSysConnectAudio(h, wt0p,"out", ao2p, "in"); // wt->aout - 2
  587. if( ao3p != NULL )
  588. cmDspSysConnectAudio(h, wt0p,"out", ao3p, "in"); // wt->aout - 3
  589. cmDspSysConnectAudio(h, wt0p,"out", atp, "in"); // wt->meter
  590. cmDspSysInstallCb(h, ws0p, "out", kr0p, "wndn", NULL ); // wndSmpCnt->kr
  591. cmDspSysInstallCb(h, hf0p, "out", kr0p, "hopf", NULL ); // hopFact->kr
  592. cmDspSysInstallCb(h, md0p, "val", kr0p, "mode", NULL ); // mode->kr
  593. cmDspSysInstallCb(h, th0p, "val", kr0p, "thrh", NULL ); // thresh->kr
  594. cmDspSysInstallCb(h, ls0p, "val", kr0p, "lwrs", NULL ); // lwrSlope->kr
  595. cmDspSysInstallCb(h, us0p, "val", kr0p, "uprs", NULL ); // uprSlope->kr
  596. cmDspSysInstallCb(h, of0p, "val", kr0p, "offs", NULL ); // offset->kr
  597. cmDspSysInstallCb(h, iv0p, "val", kr0p, "invt", NULL ); // invert->kr
  598. cmDspSysInstallCb(h, th0p, "val", mtp, "in", NULL );
  599. cmDspSysInstallCb(h, ws1p, "out", kr1p, "wndn", NULL ); // wndSmpCnt->kr
  600. cmDspSysInstallCb(h, hf1p, "out", kr1p, "hopf", NULL ); // hopFact->kr
  601. cmDspSysInstallCb(h, md1p, "val", kr1p, "mode", NULL ); // mode->kr
  602. cmDspSysInstallCb(h, th1p, "val", kr1p, "thrh", NULL ); // thresh->kr
  603. cmDspSysInstallCb(h, ls1p, "val", kr1p, "lwrs", NULL ); // lwrSlope->kr
  604. cmDspSysInstallCb(h, us1p, "val", kr1p, "uprs", NULL ); // uprSlope->kr
  605. cmDspSysInstallCb(h, of1p, "val", kr1p, "offs", NULL ); // offset->kr
  606. cmDspSysInstallCb(h, iv1p, "val", kr1p, "invt", NULL ); // invert->kr
  607. cmDspSysInstallCb(h, dnp, "out", fn0p, "in-0", NULL); // dir->fn:0
  608. cmDspSysInstallCb(h, al0p, "out", fn0p, "in-1", NULL ); // fn->fn:1
  609. cmDspSysInstallCb(h, fl0p, "take", fn0p, "in-2", NULL ); // take->fn:2
  610. cmDspSysInstallCb(h, fn0p, "out", ro0p, "in-0", NULL); // fn->print
  611. cmDspSysInstallCb(h, fl0p, "beg", ro0p, "in-1", NULL); //
  612. cmDspSysInstallCb(h, fl0p, "end", ro0p, "in-2", NULL); //
  613. cmDspSysInstallCb(h, ro0p, "out-0", wt0p, "fn", NULL ); // fn->wt:fn
  614. cmDspSysInstallCb(h, ro0p, "out-1", wt0p, "beg", NULL ); // beg->wt:beg
  615. cmDspSysInstallCb(h, ro0p, "out-2", wt0p, "end", NULL ); // end->wt:end
  616. cmDspSysInstallCb(h, ro0p, "out-1", prp, "in", NULL ); //
  617. //cmDspSysInstallCb(h, dnp, "out", fn1p, "in-0", NULL); // dir->fn:0
  618. //cmDspSysInstallCb(h, al1p, "out", fn1p, "in-1", NULL ); // fn->fn:1
  619. //cmDspSysInstallCb(h, fl1p, "take", fn1p, "in-2", NULL ); // take->fn:2
  620. //cmDspSysInstallCb(h, fn1p, "out", ro1p, "in-0", NULL); // fn->print
  621. //cmDspSysInstallCb(h, fl1p, "beg", ro1p, "in-1", NULL); //
  622. //cmDspSysInstallCb(h, fl1p, "end", ro1p, "in-2", NULL); //
  623. //cmDspSysInstallCb(h, ro1p, "out-0", wt1p, "fn", NULL ); // fn->wt:fn
  624. //cmDspSysInstallCb(h, ro1p, "out-1", wt1p, "beg", NULL ); // beg->wt:beg
  625. //cmDspSysInstallCb(h, ro1p, "out-2", wt1p, "end", NULL ); // end->wt:end
  626. return cmDspSysLastRC(h);
  627. }
  628. cmDspRC_t _cmDspSysPgm_Pickups0( cmDspSysH_t h, void** userPtrPtr )
  629. {
  630. unsigned i;
  631. unsigned chCnt = 8;
  632. double delayFb = 0.0;
  633. double delayMaxMs = 1000.0;
  634. cmDspInst_t* chArray[chCnt];
  635. cmDspInst_t* m_mxWet = cmDspSysAllocInst(h,"Scalar", "Mstr Wet", 5, kNumberDuiId, 0.0, 2.0, 0.01, 1.0 );
  636. cmDspInst_t* m_mxDry = cmDspSysAllocInst(h,"Scalar", "Mstr Dry", 5, kNumberDuiId, 0.0, 2.0, 0.01, 1.0 );
  637. cmDspSysNewColumn(h,0);
  638. cmDspInst_t* m_lpByp = cmDspSysAllocInst(h,"Button", "Mstr Lp Byps", 2, kCheckDuiId, 0.0 );
  639. cmDspInst_t* m_lpRcd = cmDspSysAllocInst(h,"Button", "Mstr Lp Recd", 2, kCheckDuiId, 0.0 );
  640. cmDspInst_t* m_lpRat = cmDspSysAllocInst(h,"Scalar", "Mstr Lp Ratio", 5, kNumberDuiId, 0.0, 10.0, 0.01, 1.0 );
  641. cmDspSysNewColumn(h,0);
  642. cmDspInst_t* m_dlyByp = cmDspSysAllocInst(h,"Button", "Mstr Dly Byps", 2, kCheckDuiId, 0.0 );
  643. cmDspInst_t* m_dlyMs = cmDspSysAllocInst(h,"Scalar", "Mstr Dly Time", 5, kNumberDuiId, 0.0, delayMaxMs, 1.0, 0.0 );
  644. cmDspInst_t* m_dlyFb = cmDspSysAllocInst(h,"Scalar", "Mstr Dly Fb", 5, kNumberDuiId, 0.0, 0.999, 0.01, 0.0 );
  645. cmDspSysNewColumn(h,0);
  646. cmDspInst_t* m_psByp = cmDspSysAllocInst(h,"Button", "Mstr PS Byps", 2, kCheckDuiId, 0.0 );
  647. cmDspInst_t* m_psRat = cmDspSysAllocInst(h,"Scalar", "Mstr PS Ratio", 5, kNumberDuiId, 0.0, 10.0, 0.01, 1.0 );
  648. cmDspSysNewColumn(h,0);
  649. cmDspInst_t* m_rcByp = cmDspSysAllocInst(h,"Button", "Mstr Rect Byps", 2, kCheckDuiId, 0.0 );
  650. cmDspSysInsertHorzBorder(h);
  651. for(i=0; i<chCnt; ++i)
  652. {
  653. int chIdx = i;
  654. cmDspInst_t* mxWet = cmDspSysAllocInst(h,"Scalar", "Wet", 5, kNumberDuiId, 0.0, 2.0, 0.01, 1.0 );
  655. cmDspInst_t* mxDry = cmDspSysAllocInst(h,"Scalar", "Dry", 5, kNumberDuiId, 0.0, 2.0, 0.01, 1.0 );
  656. cmDspInst_t* lpByp = cmDspSysAllocInst(h,"Button", "Lp Byps", 2, kCheckDuiId, 0.0 );
  657. cmDspInst_t* lpRcd = cmDspSysAllocInst(h,"Button", "Lp Recd", 2, kCheckDuiId, 0.0 );
  658. cmDspInst_t* lpRat = cmDspSysAllocInst(h,"Scalar", "Lp Ratio", 5, kNumberDuiId, 0.0, 10.0, 0.01, 1.0 );
  659. cmDspInst_t* dlyByp = cmDspSysAllocInst(h,"Button", "Delay Byps", 2, kCheckDuiId, 0.0 );
  660. cmDspInst_t* dlyMs = cmDspSysAllocInst(h,"Scalar", "Delay Time", 5, kNumberDuiId, 0.0, delayMaxMs, 1.0, 0.0 );
  661. cmDspInst_t* dlyFb = cmDspSysAllocInst(h,"Scalar", "Delay Fb", 5, kNumberDuiId, 0.0, 0.999, 0.01, 0.0 );
  662. cmDspInst_t* psByp = cmDspSysAllocInst(h,"Button", "PS Byps", 2, kCheckDuiId, 0.0 );
  663. cmDspInst_t* psRat = cmDspSysAllocInst(h,"Scalar", "PS Ratio", 5, kNumberDuiId, 0.0, 10.0, 0.01, 1.0 );
  664. cmDspInst_t* rcByp = cmDspSysAllocInst(h,"Button", "Rect Byps", 2, kCheckDuiId, 0.0 );
  665. cmDspInst_t* ain = cmDspSysAllocInst(h, "AudioIn", NULL, 1, chIdx );
  666. cmDspInst_t* loop = cmDspSysAllocInst(h, "LoopRecd", NULL, 0 );
  667. cmDspInst_t* dely = cmDspSysAllocInst(h, "Delay", NULL, 2, delayMaxMs, delayFb );
  668. cmDspInst_t* pshf = cmDspSysAllocInst(h, "PShift", NULL, 0 );
  669. cmDspInst_t* rect = cmDspSysAllocInst(h, "Rectify", NULL, 0 );
  670. cmDspInst_t* amix = cmDspSysAllocInst(h, "AMix", NULL, 1, 2 );
  671. //cmDspInst_t* aout = cmDspSysAllocInst(h, "AudioOut", NULL, 1, chIdx );
  672. chArray[i] = amix;
  673. cmDspSysNewColumn(h,0);
  674. cmDspSysConnectAudio(h, ain, "out", loop, "in"); // ain -> loop
  675. cmDspSysConnectAudio(h, loop, "out", dely, "in"); // loop -> delay
  676. cmDspSysConnectAudio(h, dely, "out", pshf, "in"); // delay -> pshf
  677. cmDspSysConnectAudio(h, pshf, "out", rect, "in"); // pshf -> rect
  678. cmDspSysConnectAudio(h, rect, "out", amix, "in-0"); // rect -> mix_wet
  679. cmDspSysConnectAudio(h, ain, "out", amix, "in-1"); // ain -> mix_dry
  680. //cmDspSysConnectAudio(h, amix, "out", aout, "in"); // mix -> out
  681. cmDspSysInstallCb(h, mxWet, "val", amix, "gain-0", NULL );
  682. cmDspSysInstallCb(h, mxDry, "val", amix, "gain-1", NULL );
  683. cmDspSysInstallCb(h, lpByp, "out", loop, "bypass", NULL );
  684. cmDspSysInstallCb(h, lpRcd, "out", loop, "recd", NULL );
  685. cmDspSysInstallCb(h, lpRat, "val", loop, "ratio", NULL );
  686. cmDspSysInstallCb(h, dlyByp,"val", dely, "bypass", NULL );
  687. cmDspSysInstallCb(h, dlyMs, "val", dely, "time", NULL );
  688. cmDspSysInstallCb(h, dlyFb, "out", dely, "fb", NULL );
  689. cmDspSysInstallCb(h, psByp, "out", pshf, "bypass", NULL );
  690. cmDspSysInstallCb(h, psRat, "val", pshf, "ratio", NULL );
  691. cmDspSysInstallCb(h, rcByp, "out", rect, "bypass", NULL );
  692. cmDspSysInstallCb(h, m_mxWet, "val", mxWet, "in", NULL );
  693. cmDspSysInstallCb(h, m_mxDry, "val", mxDry, "in", NULL );
  694. cmDspSysInstallCb(h, m_lpByp, "out", lpByp, "in", NULL );
  695. cmDspSysInstallCb(h, m_lpRcd, "out", lpRcd, "in", NULL );
  696. cmDspSysInstallCb(h, m_lpRat, "val", lpRat, "in", NULL );
  697. cmDspSysInstallCb(h, m_dlyByp,"out", dlyByp,"in", NULL );
  698. cmDspSysInstallCb(h, m_dlyMs, "val", dlyMs, "in", NULL );
  699. cmDspSysInstallCb(h, m_dlyFb, "val", dlyFb, "in", NULL );
  700. cmDspSysInstallCb(h, m_psByp, "out", psByp, "in", NULL );
  701. cmDspSysInstallCb(h, m_psRat, "val", psRat, "in", NULL );
  702. cmDspSysInstallCb(h, m_rcByp, "out", rcByp, "in", NULL );
  703. }
  704. double dfltGain = 0.5;
  705. cmDspInst_t* omix = cmDspSysAllocInst(h, "AMix", NULL, 9, 8, dfltGain, dfltGain, dfltGain, dfltGain, dfltGain, dfltGain, dfltGain, dfltGain );
  706. cmDspInst_t* aout0 = cmDspSysAllocInst(h, "AudioOut", NULL, 1, 0 );
  707. cmDspInst_t* aout1 = cmDspSysAllocInst(h, "AudioOut", NULL, 1, 1 );
  708. cmDspInst_t* aout2 = cmDspSysAllocInst(h, "AudioOut", NULL, 1, 2 );
  709. cmDspInst_t* aout3 = cmDspSysAllocInst(h, "AudioOut", NULL, 1, 3 );
  710. for(i=0; i<chCnt; ++i)
  711. {
  712. char label[32];
  713. snprintf(label,32,"in-%i",i);
  714. cmDspSysConnectAudio(h, chArray[i], "out", omix, label);
  715. }
  716. cmDspSysConnectAudio(h, omix, "out", aout0, "in");
  717. cmDspSysConnectAudio(h, omix, "out", aout1, "in");
  718. cmDspSysConnectAudio(h, omix, "out", aout2, "in");
  719. cmDspSysConnectAudio(h, omix, "out", aout3, "in");
  720. return kOkDspRC;
  721. }
  722. #include "cmAudioFile.h"
  723. #include "cmProcObj.h"
  724. #include "cmProc.h"
  725. #include "cmProc3.h"
  726. // Usage:
  727. // 1) Push 'start'.
  728. // 2) Select the first element in the Ch Cfg List UI.
  729. // 3) Play several examples of the note.
  730. // 4) Select the next element in the Ch Cfg List UI.
  731. // 5) Go to 3) until all ch's have been played.
  732. // 6) Push 'proc'. A new set of gains will be calc'd and sent to the audio input channels.
  733. // Note that if a mistake is made while playing a set of notes in 3) then
  734. // push select the same element from the list again and replay.
  735. // The order the notes are played in does not make any difference.
  736. cmDspRC_t _cmDspSysPgm_AutoGain( cmDspSysH_t h, void** userPtrPtr )
  737. {
  738. cmDspRC_t rc = kOkDspRC;
  739. unsigned i;
  740. //unsigned j;
  741. cmErr_t err;
  742. const cmChar_t* errLabelPtr = NULL;
  743. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  744. unsigned chCnt = 0;
  745. unsigned nsChCnt = 0;
  746. const cmChar_t* chCfgFn = NULL;
  747. const cmChar_t* chCfgPath = NULL;
  748. unsigned agMedCnt = 5;
  749. unsigned agAvgCnt = 9;
  750. unsigned agSuprCnt = 3;
  751. unsigned agOffCnt = 3;
  752. cmReal_t agSuprCoeff = 1.4;
  753. cmReal_t agOnThreshDb = -53.0;
  754. cmReal_t agOffThreshDb = -80.0;
  755. cmReal_t agHopMs = 25;
  756. //cmReal_t cdMaxTimeSpanMs = 50;
  757. //cmReal_t cdMinNoteCnt = 3;
  758. unsigned labelCharCnt = 31;
  759. char label0[ labelCharCnt + 1];
  760. cmErrSetup(&err,&cmCtx->rpt,"Auto-gain");
  761. // get the name of channel cfg file
  762. if( cmJsonPathValues( cmDspSysPgmRsrcHandle(h),"cfg/",NULL,&errLabelPtr,
  763. "chCfgFn", kStringTId, &chCfgFn,
  764. "agParms/hopMs", kRealTId, &agHopMs,
  765. "agParms/medCnt", kIntTId, &agMedCnt,
  766. "agParms/avgCnt", kIntTId, &agAvgCnt,
  767. "agParms/suprCnt", kIntTId, &agSuprCnt,
  768. "agParms/offCnt", kIntTId, &agOffCnt,
  769. "agParms/suprCoeff", kRealTId, &agSuprCoeff,
  770. "agParms/onThreshDb", kRealTId, &agOnThreshDb,
  771. "agParms/offThreshDb", kRealTId, &agOffThreshDb,
  772. NULL) != kOkJsRC )
  773. {
  774. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"An error occurred while reading the required auto-tune JSON parameters.");
  775. goto errLabel;
  776. }
  777. // get the count of channels from the ch. cfg. array
  778. if(( chCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  779. {
  780. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  781. goto errLabel;
  782. }
  783. // prepend the prefs directory to the ch. cfg filename
  784. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  785. if( rc == kOkDspRC )
  786. {
  787. //mDspInst_t* ain[chCnt];
  788. cmDspInst_t* ef[chCnt];
  789. cmDspInst_t* mtr[chCnt];
  790. cmDspInst_t* amtr[chCnt];
  791. cmDspInst_t* on[chCnt];
  792. cmDspInst_t* off[chCnt];
  793. cmDspInst_t* rms[chCnt];
  794. ///cmDspInst_t* fdr0[chCnt];
  795. ///cmDspInst_t* fdr1[chCnt];
  796. ///cmDspInst_t* fdr2[chCnt];
  797. // allocate the audio inputs
  798. //for(i=0; i<chCnt; ++i)
  799. // ain[i] = cmDspSysAllocAudioIn(h,i,1.0);
  800. unsigned inChCnt;
  801. cmDspInst_t** ain = cmDspSysAllocAudioInAR( h, "audioInMap", 1.0, &inChCnt );
  802. // allocate the auto-gain calibration object
  803. cmDspInst_t* ag = cmDspSysAllocInst( h, "AutoGain", NULL, 9, chCnt, agHopMs,agMedCnt,agAvgCnt,agSuprCnt,agOffCnt,agSuprCoeff,agOnThreshDb,agOffThreshDb );
  804. // allocate the command buttons
  805. cmDspInst_t* start = cmDspSysAllocButton(h, "start", 0);
  806. cmDspInst_t* proc = cmDspSysAllocButton(h, "proc", 0);
  807. cmDspInst_t* cancel = cmDspSysAllocButton(h, "cancel", 0);
  808. cmDspInst_t* write = cmDspSysAllocButton(h, "write", 0);
  809. cmDspInst_t* print = cmDspSysAllocButton(h, "print", 0);
  810. cmDspInst_t* chMenu = cmDspSysAllocMsgList(h, chCfgPath, "ch_array", 0 );
  811. cmDspInst_t* onThr = cmDspSysAllocScalar(h,"On Thresh",-100.0,0.0,0.1,-45.0);
  812. cmDspInst_t* offThr = cmDspSysAllocScalar(h,"Off Thresh",-100.0,0.0,0.1,-80.0);
  813. //cmDspInst_t* prt = cmDspSysAllocInst(h,"Printer",NULL,1,"ag>");
  814. cmDspInst_t* sub = cmDspSysAllocInst(h,"ScalarOp",NULL,6,2,"+","in-0",0.0,"in-1",-1.0);
  815. cmDspSysNewColumn(h,200);
  816. cmDspSysAllocLabel(h,"EF Gate",kLeftAlignDuiId);
  817. // allocate the envelope followers and meters
  818. for(i=0; i<chCnt; ++i )
  819. {
  820. snprintf(label0,labelCharCnt,"%2i",i);
  821. ef[i] = cmDspSysAllocInst( h, "EnvFollow", NULL, 0 );
  822. mtr[i] = cmDspSysAllocInst( h, "Meter",label0, 3, 0.0, 0.0, 1.0 );
  823. }
  824. cmDspSysNewColumn(h,200);
  825. cmDspSysAllocLabel(h,"Audio",kLeftAlignDuiId);
  826. // allocate the envelope followers and meters
  827. for(i=0; i<chCnt; ++i )
  828. {
  829. amtr[i] = cmDspSysAllocInst( h, "AMeter", NULL, 0 );
  830. }
  831. // chord detector, note selector, mix0, mix1, mix2
  832. ///cmDspInst_t* cdp = cmDspSysAllocInst(h, "ChordDetect", NULL, 1, "cdSel" );
  833. ///cmDspInst_t* nsp = cmDspSysAllocInst(h, "NoteSelect", NULL, 1, chCnt );
  834. // onset count display
  835. cmDspSysNewColumn(h,150);
  836. cmDspSysAllocLabel(h,"Onsets",kLeftAlignDuiId);
  837. for(i=0; i<chCnt; ++i)
  838. on[i] = cmDspSysAllocScalar(h,NULL,0,1,0,0);
  839. // offset count display
  840. cmDspSysNewColumn(h,150);
  841. cmDspSysAllocLabel(h,"Offsets",kLeftAlignDuiId);
  842. for(i=0; i<chCnt; ++i)
  843. off[i] = cmDspSysAllocScalar(h,NULL,0,1,0,0);
  844. // offset count display
  845. cmDspSysNewColumn(h,150);
  846. cmDspSysAllocLabel(h,"RMS",kLeftAlignDuiId);
  847. for(i=0; i<chCnt; ++i)
  848. rms[i] = cmDspSysAllocScalar(h,NULL,0,1,0,0);
  849. /*
  850. // note select gate meters
  851. for(j=0; j<3; ++j)
  852. {
  853. snprintf(label0,labelCharCnt,"Set %i",j);
  854. cmDspSysNewColumn(h,50);
  855. cmDspSysAllocLabel(h,label0,kLeftAlignDuiId );
  856. for(i=0; i<chCnt; ++i)
  857. {
  858. cmDspInst_t* m = cmDspSysAllocInst(h, "Meter", NULL, 3, 0.0, 0.0, 1.0 );
  859. switch(j)
  860. {
  861. case 0: fdr0[i] = m; break;
  862. case 1: fdr1[i] = m; break;
  863. case 2: fdr2[i] = m; break;
  864. }
  865. }
  866. }
  867. // chord detector parameters
  868. cmDspSysNewColumn(h,150);
  869. cmDspSysAllocLabel(h,"Chord Detector",kLeftAlignDuiId);
  870. cmDspInst_t* cdSpanMs = cmDspSysAllocScalar(h,"Span Ms", 10.0,1000.0,1.0,cdMaxTimeSpanMs);
  871. cmDspInst_t* cdNoteCnt = cmDspSysAllocScalar(h,"Note Cnt", 1.0, 100.0,1.0,cdMinNoteCnt );
  872. cmDspInst_t* cdCount = cmDspSysAllocScalar(h,"Ch. Count", 0,1,0,0);
  873. */
  874. // allocate an audio mixer and two audio output channels
  875. cmDspInst_t* amix = cmDspSysAllocInst( h, "AMix", NULL, 1, chCnt);
  876. cmDspInst_t* ao0 = cmDspSysAllocAudioOut(h,0,1.0);
  877. cmDspInst_t* ao1 = cmDspSysAllocAudioOut(h,1,1.0);
  878. // alloc chCfg last so that it's default outputs are applied to connected objects
  879. cmDspInst_t* chCfg = cmDspSysAllocInst( h, "ChCfg", NULL, 1, chCfgFn );
  880. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  881. goto errLabel;
  882. cmDspSysConnectAudioN11N(h,ain, "out", ag, "in", chCnt); // ain -> auto gain
  883. cmDspSysConnectAudioN11N(h,ain, "out", amix, "in", chCnt); // ain -> amix
  884. cmDspSysConnectAudioN1N1(h,ain, "out", ef, "in", chCnt); // ain -> EF
  885. cmDspSysConnectAudioN1N1(h, ain, "out", amtr, "in",chCnt);
  886. cmDspSysInstallCb1N1N(h, ag, "gain", chCfg, "gain", chCnt ); // ag -> chCfg (gain)
  887. cmDspSysInstallCb1NN1(h, chCfg, "gain", ain, "gain", chCnt ); // cgCfg -> ain (gain)
  888. cmDspSysInstallCb1NN1(h, chCfg, "ch", ain, "ch", chCnt ); // cgCfg -> ain (ch)
  889. cmDspSysInstallCbN1N1(h, ef, "gate", mtr, "in", chCnt ); // EF gate -> meter
  890. cmDspSysInstallCb11N1(h, onThr, "val", ef, "ondb", chCnt ); //
  891. cmDspSysInstallCb11N1(h, offThr, "val", ef, "offdb", chCnt ); //
  892. cmDspSysInstallCbN1N1(h, ef, "ons", on, "val", chCnt ); // EF -> onset count
  893. cmDspSysInstallCbN1N1(h, ef, "offs", off, "val", chCnt ); // EF -> offset count
  894. cmDspSysInstallCbN1N1(h, ef, "rms", rms, "val", chCnt );
  895. ///cmDspSysInstallCbN11N(h, ef, "gate", cdp, "gate", chCnt ); // EF -> CD gate
  896. ///cmDspSysInstallCbN11N(h, ef, "rms", cdp, "rms", chCnt ); // EF -> CD rms
  897. ///cmDspSysInstallCb1N1N(h, cdp, "gate", nsp, "gate", chCnt ); // CD -> NS gate
  898. ///cmDspSysInstallCb1N1N(h, cdp, "rms", nsp, "rms", chCnt ); // CD -> NS rms
  899. ///cmDspSysInstallCb1NN1(h, nsp, "gate-0",fdr0, "in", chCnt ); // NS -> Fader 0 gate
  900. ///cmDspSysInstallCb1NN1(h, nsp, "gate-1",fdr1, "in", chCnt ); // NS -> Fader 1 gate
  901. ///cmDspSysInstallCb1NN1(h, nsp, "gate-2",fdr2, "in", chCnt ); // NS -> Fader 2 gate
  902. cmDspSysConnectAudio(h, amix, "out", ao0, "in"); // amix -> aout 0
  903. cmDspSysConnectAudio(h, amix, "out", ao1, "in"); // amix -> aout 1
  904. //cmDspSysInstallCb(h, chMenu, "ch", ag, "id", NULL );
  905. cmDspSysInstallCb(h, chMenu, "sel", sub, "in-0", NULL );
  906. cmDspSysInstallCb(h, sub, "out", ag, "id", NULL );
  907. cmDspSysInstallCb(h, start, "sym", ag, "sel", NULL );
  908. cmDspSysInstallCb(h, proc, "sym", ag, "sel", NULL );
  909. cmDspSysInstallCb(h, cancel, "sym", ag, "sel", NULL );
  910. cmDspSysInstallCb(h, print, "sym", ag, "sel", NULL );
  911. cmDspSysInstallCb(h, print, "sym", chCfg, "sel", NULL );
  912. cmDspSysInstallCb(h, write, "sym", chCfg, "sel", NULL );
  913. /*
  914. cmDspSysInstallCb(h, cdSpanMs, "val", cdp, "span", NULL );
  915. cmDspSysInstallCb(h, cdNoteCnt, "val", cdp, "notes", NULL );
  916. cmDspSysInstallCb(h, cdp, "count", cdCount, "val", NULL );
  917. cmDspSysInstallCb(h, cdp, "detect", nsp, "trig", NULL );
  918. */
  919. }
  920. errLabel:
  921. cmFsFreeFn(chCfgPath);
  922. return rc;
  923. }
  924. cmDspRC_t _cmDspSysPgm_PickupFxFile( cmDspSysH_t h, void** userPtrPtr )
  925. {
  926. cmDspRC_t rc = kOkDspRC;
  927. cmErr_t err;
  928. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  929. unsigned chCnt = 0;
  930. unsigned nsChCnt = 0;
  931. const cmChar_t* chCfgPath = NULL;
  932. const cmChar_t* chCfgFn = "pick_chs8.js";
  933. double cfMinHz = 20.0;
  934. double cfAlpha = 0.9;
  935. bool cfFbFl = true;
  936. unsigned sgShapeId = 2;
  937. const cmChar_t* afn = "/home/kevin/media/audio/gate_detect/gate_detect0.aif";
  938. unsigned abeg[] = { 9.842046, 18.838291, 27.007957, 35.562079, 45.461793, 52.920218, 60.436312, 68.913543};
  939. unsigned aend[] = {11.399088, 20.645229, 28.891786, 37.311349, 47.287954, 54.131251, 62.473923, 72.142964};
  940. bool cfBypassFl = false;
  941. unsigned i;
  942. cmErrSetup(&err,&cmCtx->rpt,"Pickup Effects");
  943. // prepend the prefs directory to the ch. cfg filename
  944. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  945. // get the count of channels from the ch. cfg. array
  946. if(( chCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  947. {
  948. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  949. goto errLabel;
  950. }
  951. if( rc == kOkDspRC )
  952. {
  953. cmDspInst_t* af[chCnt];
  954. //cmDspInst_t* aout[chCnt];
  955. cmDspInst_t* ef[chCnt];
  956. cmDspInst_t* cf[chCnt];
  957. cmDspInst_t* sg[chCnt];
  958. cmDspInst_t* mtr[chCnt];
  959. cmDspInst_t* mute[chCnt];
  960. cmDspInst_t* phs = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  961. // allocate the audio inputs
  962. for(i=0; i<chCnt; ++i)
  963. {
  964. unsigned labelCharCnt = 31;
  965. cmChar_t label[labelCharCnt+1];
  966. snprintf(label,labelCharCnt,"%i",i);
  967. int sbeg = floor(abeg[i] * cmDspSysSampleRate(h));
  968. int send = floor(aend[i] * cmDspSysSampleRate(h));
  969. //ain[i] = cmDspSysAllocAudioIn( h,i,1.0);
  970. af[i] = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, afn, -1, sbeg, send );
  971. //aout[i] = cmDspSysAllocAudioOut(h,i,1.0);
  972. ef[i] = cmDspSysAllocInst(h, "EnvFollow", NULL, 0 );
  973. sg[i] = cmDspSysAllocInst(h, "SigGen", NULL, 2, 1000.0, sgShapeId );
  974. cf[i] = cmDspSysAllocInst(h, "CombFilt", NULL, 5, cfBypassFl, cfMinHz, cfFbFl, cfMinHz, cfAlpha );
  975. mtr[i] = cmDspSysAllocInst( h, "Meter",label, 3, 0.0, 0.0, 1.0 );
  976. }
  977. // allocate the ch cfg last so that it's default outputs initialize connected objects
  978. cmDspInst_t* chCfg = cmDspSysAllocInst( h, "ChCfg", NULL, 1, chCfgFn );
  979. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, chCnt );
  980. cmDspSysNewColumn(h,50);
  981. for(i=0; i<chCnt; ++i)
  982. mute[i] = cmDspSysAllocCheck(h,"",0);
  983. // checkk for allocation errors
  984. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  985. goto errLabel;
  986. //
  987. //cmDspSysConnectAudioN1N1(h, ain, "out", aout, "in", chCnt );
  988. cmDspSysConnectAudio11N1(h, phs, "out", af, "phs", chCnt );
  989. cmDspSysConnectAudioN1N1(h, af, "out", ef, "in", chCnt ); // af -> EF
  990. cmDspSysConnectAudioN1N1(h, sg, "out", cf, "in", chCnt ); // sg -> CF
  991. cmDspSysConnectAudioN11N(h, cf, "out", mix, "in", chCnt ); // CF -> mix
  992. //cmDspSysInstallCb1NN1( h, chCfg, "gain", ain, "gain", chCnt ); // chCfg -> ain gain
  993. cmDspSysInstallCb1NN1( h, chCfg, "hz", cf, "hz", chCnt ); // chCfg -> CF Hz
  994. //cmDspSysInstallCbN1N1( h, ef, "rms", aout, "gain", chCnt ); // EF -> aout gain
  995. cmDspSysInstallCbN1N1( h, ef, "rms", mtr, "in", chCnt ); // EF -> meter RMS
  996. cmDspSysInstallCbN11N( h, ef, "rms", mix, "gain", chCnt );
  997. cmDspSysInstallCbN11N( h, mute, "out", mix, "mute", chCnt ); // mute -> mix
  998. }
  999. errLabel:
  1000. cmFsFreeFn(chCfgPath);
  1001. return rc;
  1002. }
  1003. cmDspRC_t _cmDspSysPgm_NoiseTails( cmDspSysH_t h, void** userPtrPtr )
  1004. {
  1005. cmDspRC_t rc = kOkDspRC;
  1006. cmErr_t err;
  1007. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  1008. unsigned chCnt = 0;
  1009. unsigned nsChCnt = 0;
  1010. const cmChar_t* chCfgPath = NULL;
  1011. const cmChar_t* chCfgFn = "pick_chs8.js";
  1012. double cfMinHz = 20.0;
  1013. double cfHz = 500;
  1014. double cfAlpha = 0.9;
  1015. bool cfFbFl = true;
  1016. bool cfBypassFl= false;
  1017. unsigned sgShapeId = 3;
  1018. double dfltDelayMs = 100;
  1019. unsigned i;
  1020. cmErrSetup(&err,&cmCtx->rpt,"Noise Tails");
  1021. // prepend the prefs directory to the ch. cfg filename
  1022. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  1023. // get the count of channels from the ch. cfg. array
  1024. if(( chCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  1025. {
  1026. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  1027. goto errLabel;
  1028. }
  1029. if( rc == kOkDspRC )
  1030. {
  1031. cmDspInst_t* ain[chCnt];
  1032. cmDspInst_t* ef[chCnt];
  1033. cmDspInst_t* cf[chCnt];
  1034. cmDspInst_t* sg[chCnt];
  1035. cmDspInst_t* mtr[chCnt];
  1036. cmDspInst_t* add[chCnt];
  1037. cmDspInst_t* mul[chCnt];
  1038. cmDspInst_t* dly[chCnt];
  1039. // allocate the audio inputs
  1040. for(i=0; i<chCnt; ++i)
  1041. {
  1042. unsigned labelCharCnt = 31;
  1043. cmChar_t label[labelCharCnt+1];
  1044. snprintf(label,labelCharCnt,"%i",i);
  1045. ain[i] = cmDspSysAllocAudioIn( h, i, 1.0);
  1046. ef[i] = cmDspSysAllocInst( h, "EnvFollow", NULL, 0 );
  1047. sg[i] = cmDspSysAllocInst( h, "SigGen", NULL, 2, 1000.0, sgShapeId );
  1048. cf[i] = cmDspSysAllocInst( h, "CombFilt", NULL, 5, cfBypassFl, cfMinHz, cfFbFl, cfHz, cfAlpha );
  1049. mtr[i] = cmDspSysAllocInst( h, "Meter",label, 3, 0.0, 0.0, 1.0 );
  1050. add[i] = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "+", "in-0", 0.0, "in-1", 0.0);
  1051. mul[i] = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "*", "in-0", 0.0, "in-1", 0.99);
  1052. dly[i] = cmDspSysAllocInst( h, "MsgDelay", NULL, 2, 1000, dfltDelayMs );
  1053. }
  1054. // allocate the ch cfg last so that it's default outputs initialize connected objects
  1055. cmDspInst_t* chCfg = cmDspSysAllocInst( h, "ChCfg", NULL, 1, chCfgFn );
  1056. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, chCnt );
  1057. cmDspInst_t* ao0 = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1058. cmDspInst_t* ao1 = cmDspSysAllocAudioOut( h, 1, 1.0 );
  1059. cmDspInst_t* alpha = cmDspSysAllocScalar( h, "alpha", -1.0, 1.0, 0.001, cfAlpha );
  1060. cmDspInst_t* decay = cmDspSysAllocScalar( h, "decay", -1.0, 1.0, 0.001, 0.5);
  1061. cmDspInst_t* delay = cmDspSysAllocScalar( h, "delay", 0.0, 1000.0, 1.0, dfltDelayMs );
  1062. cmDspInst_t* zero = cmDspSysAllocScalar( h, "zero", 0.0, 0.0, 0.0, 0.0);
  1063. // check for allocation errors
  1064. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1065. goto errLabel;
  1066. cmDspSysConnectAudioN1N1( h, ain, "out", ef, "in", chCnt ); // ain -> EF
  1067. cmDspSysConnectAudioN1N1( h, sg, "out", cf, "in", chCnt ); // sg -> CF
  1068. cmDspSysConnectAudioN11N( h, cf, "out", mix, "in", chCnt ); // cf -> mix
  1069. cmDspSysConnectAudio( h, mix, "out", ao0, "in"); // mix -> aout L
  1070. cmDspSysConnectAudio( h, mix, "out", ao1, "in"); // mix -> aout R
  1071. cmDspSysInstallCb1NN1( h, chCfg, "gain", ain, "gain", chCnt ); // chCfg -> ain gain
  1072. cmDspSysInstallCb1NN1( h, chCfg, "hz", cf, "hz", chCnt ); // chCfg -> CF Hz
  1073. cmDspSysInstallCbN1N1( h, ef, "rms", add, "in-0", chCnt ); // EF -> mul 0
  1074. cmDspSysInstallCbN1N1( h, mul, "out", add, "in-1", chCnt ); // mul -> add
  1075. cmDspSysInstallCbN1N1( h, add, "out", dly, "in", chCnt ); // add -> delay
  1076. cmDspSysInstallCbN11N( h, dly, "out", mix, "gain", chCnt ); // delay -> mix gain
  1077. cmDspSysInstallCbN1N1( h, add, "out", mul, "in-0", chCnt); // add -> mul (feedback)
  1078. cmDspSysInstallCb11N1( h, decay, "val", mul, "in-1", chCnt ); // decay ctl
  1079. cmDspSysInstallCbN1N1( h, ef, "gate", mtr, "in", chCnt ); // EF -> meter RMS
  1080. cmDspSysInstallCb11N1( h, alpha, "val", cf, "alpha",chCnt ); // CF alpha
  1081. cmDspSysInstallCb11N1( h, delay, "val", dly, "delay",chCnt ); // Delay ctl
  1082. cmDspSysInstallCb111N( h, zero, "val", mix, "in", chCnt ); //
  1083. }
  1084. errLabel:
  1085. cmFsFreeFn(chCfgPath);
  1086. return rc;
  1087. }
  1088. cmDspRC_t _cmDspSysPgm_NoiseTails2( cmDspSysH_t h, void** userPtrPtr )
  1089. {
  1090. cmDspRC_t rc = kOkDspRC;
  1091. cmErr_t err;
  1092. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  1093. unsigned chCnt = 0;
  1094. unsigned nsChCnt = 0;
  1095. const cmChar_t* chCfgPath = NULL;
  1096. const cmChar_t* chCfgFn = "pick_chs8.js";
  1097. double cfMinHz = 20.0;
  1098. double cfHz = 500;
  1099. double cfAlpha = 0.9;
  1100. bool cfFbFl = true;
  1101. bool cfBypassFl = false;
  1102. unsigned sgShapeId = 3;
  1103. double adsrMaxMs = 10000;
  1104. double adsrMinMs = 0;
  1105. double adsrIncMs = 1;
  1106. double adsrMaxLevel = 100.0;
  1107. double adsrSusLevel = 100.0;
  1108. double adsrMinLevel = 0.0;
  1109. double adsrIncLevel = 0.001;
  1110. bool eqBypassFl = false;
  1111. unsigned eqModeSymId = cmSymTblRegisterStaticSymbol(cmDspSysSymbolTable(h),"LP");
  1112. double eqF0hz = 250;
  1113. double eqQ = 1.0;
  1114. double eqFgain = 1.0;
  1115. bool mtBypassFl = false;
  1116. double mtTimeScale= 1.0;
  1117. double mtFeedback = 0.0;
  1118. unsigned i;
  1119. cmErrSetup(&err,&cmCtx->rpt,"Noise Tails");
  1120. // prepend the prefs directory to the ch. cfg filename
  1121. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  1122. // get the count of channels from the ch. cfg. array
  1123. if(( chCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  1124. {
  1125. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  1126. goto errLabel;
  1127. }
  1128. if( rc == kOkDspRC )
  1129. {
  1130. cmDspInst_t* ain[chCnt];
  1131. cmDspInst_t* ef[chCnt];
  1132. cmDspInst_t* cf[chCnt];
  1133. cmDspInst_t* sg[chCnt];
  1134. cmDspInst_t* mtr[chCnt];
  1135. cmDspInst_t* add[chCnt];
  1136. cmDspInst_t* mul[chCnt];
  1137. cmDspInst_t* env[chCnt];
  1138. cmDspInst_t* d2l[chCnt];
  1139. cmDspInst_t* eq[chCnt];
  1140. cmDspInst_t* mt[chCnt];
  1141. // allocate the audio inputs
  1142. for(i=0; i<chCnt; ++i)
  1143. {
  1144. unsigned labelCharCnt = 31;
  1145. cmChar_t label[labelCharCnt+1];
  1146. snprintf(label,labelCharCnt,"%i",i);
  1147. ain[i] = cmDspSysAllocAudioIn( h, i, 1.0);
  1148. ef[i] = cmDspSysAllocInst( h, "EnvFollow", NULL, 0 );
  1149. sg[i] = cmDspSysAllocInst( h, "SigGen", NULL, 2, 1000.0, sgShapeId );
  1150. cf[i] = cmDspSysAllocInst( h, "CombFilt", NULL, 5, cfBypassFl, cfMinHz, cfFbFl, cfHz, cfAlpha );
  1151. mtr[i] = cmDspSysAllocInst( h, "Meter",label, 3, 0.0, 0.0, 1.0 );
  1152. env[i] = cmDspSysAllocInst( h, "Adsr", NULL, 2, true, adsrMinLevel );
  1153. d2l[i] = cmDspSysAllocInst( h, "DbToLin", NULL, 0 );
  1154. add[i] = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "+", "in-0", 0.0, "in-1", 0.0);
  1155. mul[i] = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "*", "in-0", 0.0, "in-1", 0.99);
  1156. eq[i] = cmDspSysAllocInst( h, "BiQuadEq", NULL, 5, eqBypassFl, eqModeSymId, eqF0hz, eqQ, eqFgain );
  1157. mt[i] = cmDspSysAllocInst( h, "MtDelay", NULL, 9, mtBypassFl, mtTimeScale, mtFeedback, 20.0, 0.8, 15.0, 0.9, 12.0, 0.9 );
  1158. }
  1159. // allocate the ch cfg last so that it's default outputs initialize connected objects
  1160. cmDspInst_t* chCfg = cmDspSysAllocInst( h, "ChCfg", NULL, 1, chCfgFn );
  1161. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, chCnt );
  1162. cmDspInst_t* ao0 = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1163. cmDspInst_t* ao1 = cmDspSysAllocAudioOut( h, 1, 1.0 );
  1164. cmDspInst_t* alpha = cmDspSysAllocScalar( h, "alpha", -1.0, 1.0, 0.001, cfAlpha );
  1165. cmDspInst_t* decay = cmDspSysAllocScalar( h, "decay", -1.0, 1.0, 0.001, 0.5);
  1166. cmDspInst_t* zero = cmDspSysAllocScalar( h, "zero", 0.0, 0.0, 0.0, 0.0);
  1167. // cmDspInst_t* print = cmDspSysAllocButton( h, "print", 0 );
  1168. cmDspSysNewColumn(h,200);
  1169. cmDspInst_t* dly = cmDspSysAllocScalar( h, "Dly Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 0.0);
  1170. cmDspInst_t* atk = cmDspSysAllocScalar( h, "Atk Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 2000.0);
  1171. cmDspInst_t* dcy = cmDspSysAllocScalar( h, "Dcy Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 100.0);
  1172. cmDspInst_t* hold = cmDspSysAllocScalar( h, "Hold Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 100.0);
  1173. cmDspInst_t* rls = cmDspSysAllocScalar( h, "Rls Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 4000.0);
  1174. cmDspInst_t* alvl = cmDspSysAllocScalar( h, "AdsrMax", adsrMinLevel,adsrMaxLevel,adsrIncLevel, adsrMaxLevel);
  1175. cmDspInst_t* sus = cmDspSysAllocScalar( h, "Sustain", adsrMinLevel,adsrMaxLevel,adsrIncLevel, adsrSusLevel );
  1176. cmDspSysNewColumn(h,200);
  1177. cmDspInst_t* onThr = cmDspSysAllocScalar(h,"On Thresh",-100.0,0.0,0.1,-55.0);
  1178. cmDspInst_t* offThr = cmDspSysAllocScalar(h,"Off Thresh",-100.0,0.0,0.1,-80.0);
  1179. cmDspInst_t* eqbyp = cmDspSysAllocCheck( h, "Eq Byp", 0 );
  1180. cmDspInst_t* eqmode = cmDspSysAllocInst( h, "MsgList","Mode", 1, "biQuadEqMode");
  1181. cmDspInst_t* eqq = cmDspSysAllocScalar( h, "Q", -100.0, 100.0, 0.1, eqQ);
  1182. cmDspInst_t* eqfgn = cmDspSysAllocScalar( h, "Filt Gain", 0.0, 1.0, 0.1, eqFgain);
  1183. cmDspInst_t* mtfb = cmDspSysAllocScalar( h, "Mt Feedback", 0.0, 1.0, 0.01, mtFeedback);
  1184. cmDspInst_t* mtscale= cmDspSysAllocScalar( h, "Mt Time Scale", 0.01, 10.0, 0.01, mtTimeScale);
  1185. // check for allocation errors
  1186. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1187. goto errLabel;
  1188. cmDspSysConnectAudioN1N1( h, ain, "out", ef, "in", chCnt ); // ain -> EF
  1189. cmDspSysConnectAudioN1N1( h, sg, "out", cf, "in", chCnt ); // sg -> CF
  1190. cmDspSysConnectAudioN1N1( h, cf, "out", eq, "in", chCnt );
  1191. cmDspSysConnectAudioN1N1( h, eq, "out", mt, "in", chCnt );
  1192. cmDspSysConnectAudioN11N( h, mt, "out", mix, "in", chCnt ); // cf -> mix
  1193. cmDspSysConnectAudio( h, mix, "out", ao0, "in"); // mix -> aout L
  1194. cmDspSysConnectAudio( h, mix, "out", ao1, "in"); // mix -> aout R
  1195. cmDspSysInstallCb1NN1( h, chCfg, "gain", ain, "gain", chCnt ); // chCfg -> ain gain
  1196. cmDspSysInstallCb1NN1( h, chCfg, "hz", cf, "hz", chCnt ); // chCfg -> CF Hz
  1197. cmDspSysInstallCb1NN1( h, chCfg, "hz", eq, "f0", chCnt ); // chCfg -> Eq Hz
  1198. cmDspSysInstallCbN1N1( h, mul, "out", add, "in-1", chCnt ); // mul -> add
  1199. cmDspSysInstallCbN1N1( h, ef, "gate", env, "gate", chCnt ); // EF -> adsr (gate)
  1200. cmDspSysInstallCbN1N1( h, ef, "rms", env, "rms", chCnt ); // EF ->adsr (rms)
  1201. //cmDspSysInstallCb11N1( h, print, "out", env, "cmd", chCnt );
  1202. cmDspSysInstallCbN1N1( h, env, "out", d2l, "in", chCnt );
  1203. cmDspSysInstallCbN11N( h, d2l, "out", mix, "gain", chCnt );
  1204. cmDspSysInstallCbN1N1( h, add, "out", mul, "in-0", chCnt ); // add -> mul (feedback)
  1205. cmDspSysInstallCb11N1( h, decay, "val", mul, "in-1", chCnt ); // decay ctl
  1206. cmDspSysInstallCbN1N1( h, ef, "gate", mtr, "in", chCnt ); // EF -> meter RMS
  1207. cmDspSysInstallCb11N1( h, alpha, "val", cf, "alpha",chCnt ); // CF alpha
  1208. cmDspSysInstallCb111N( h, zero, "val", mix, "in", chCnt ); //
  1209. cmDspSysInstallCb11N1( h, dly, "val", env, "dly", chCnt );
  1210. cmDspSysInstallCb11N1( h, atk, "val", env, "atk", chCnt );
  1211. cmDspSysInstallCb11N1( h, dcy, "val", env, "dcy", chCnt );
  1212. cmDspSysInstallCb11N1( h, hold, "val", env, "hold", chCnt );
  1213. cmDspSysInstallCb11N1( h, rls, "val", env, "rls", chCnt );
  1214. cmDspSysInstallCb11N1( h, alvl, "val", env, "alvl", chCnt );
  1215. cmDspSysInstallCb11N1( h, sus, "val", env, "sus", chCnt );
  1216. cmDspSysInstallCb11N1( h, onThr, "val", ef, "ondb", chCnt ); //
  1217. cmDspSysInstallCb11N1( h, offThr, "val", ef, "offdb", chCnt ); //
  1218. cmDspSysInstallCb11N1( h, eqbyp, "out", eq, "bypass", chCnt );
  1219. cmDspSysInstallCb11N1( h, eqmode, "mode", eq, "mode", chCnt );
  1220. cmDspSysInstallCb11N1( h, eqq, "val", eq, "Q", chCnt );
  1221. cmDspSysInstallCb11N1( h, eqfgn, "val", eq, "gain", chCnt );
  1222. cmDspSysInstallCb11N1( h, mtfb, "val", mt, "fb", chCnt );
  1223. cmDspSysInstallCb11N1( h, mtscale, "val", mt, "scale", chCnt );
  1224. }
  1225. errLabel:
  1226. cmFsFreeFn(chCfgPath);
  1227. return rc;
  1228. }
  1229. cmDspRC_t _cmDspSysPgm_CombFilt( cmDspSysH_t h, void** userPtrPtr )
  1230. {
  1231. cmDspRC_t rc = kOkDspRC;
  1232. double cfMinHz = 20.0;
  1233. double cfAlpha = 0.9;
  1234. bool cfFbFl = true;
  1235. bool cfBypassFl= false;
  1236. unsigned sgShapeId = 2;
  1237. cmDspInst_t* ao = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1238. cmDspInst_t* sg = cmDspSysAllocInst( h, "SigGen", NULL, 2, 1000.0, sgShapeId );
  1239. cmDspInst_t* cf = cmDspSysAllocInst( h, "CombFilt", NULL, 5, cfBypassFl, cfMinHz, cfFbFl, cfMinHz, cfAlpha );
  1240. cmDspInst_t* hz = cmDspSysAllocScalar( h, "Hz", 25, 10000, 1, 1000 );
  1241. cmDspInst_t* a = cmDspSysAllocScalar( h, "Alpha", 0.0, 2.0, 0.001, cfAlpha);
  1242. // check for allocation errors
  1243. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1244. goto errLabel;
  1245. cmDspSysConnectAudio(h, sg, "out", cf, "in");
  1246. cmDspSysConnectAudio(h, cf, "out", ao, "in");
  1247. cmDspSysInstallCb( h, hz, "val", cf, "hz", NULL);
  1248. cmDspSysInstallCb( h, a, "val", cf, "alpha", NULL);
  1249. errLabel:
  1250. return rc;
  1251. }
  1252. cmDspRC_t _cmDspSysPgm_ScalarOp( cmDspSysH_t h, void** userPtrPtr )
  1253. {
  1254. cmDspRC_t rc;
  1255. cmDspInst_t* add = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "+", "in-0", 0.0, "in-1", 0.0 );
  1256. cmDspInst_t* mul0 = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "*", "in-0", 0.0, "in-1", 0.0 );
  1257. cmDspInst_t* mul1 = cmDspSysAllocInst( h, "ScalarOp", NULL, 6, 2, "*", "in-0", 0.0, "in-1", 0.0 );
  1258. cmDspInst_t* in = cmDspSysAllocScalar( h, "Input", 0.0, 10.0, 0.001, 0.0);
  1259. cmDspInst_t* in_m = cmDspSysAllocScalar( h, "Input_M", 0.0, 10.0, 0.001, 0.0);
  1260. cmDspInst_t* fb = cmDspSysAllocScalar( h, "Feedback", 0.0, 10.0, 0.001, 0.0);
  1261. cmDspInst_t* fb_m = cmDspSysAllocScalar( h, "Feedback_M", 0.0, 10.0, 0.001, 0.0);
  1262. cmDspInst_t* out = cmDspSysAllocScalar( h, "Out", 0.0, 10.0, 0.001, 0.0);
  1263. // check for allocation errors
  1264. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1265. goto errLabel;
  1266. cmDspSysInstallCb( h, in, "val", mul0, "in-0", NULL );
  1267. cmDspSysInstallCb( h, in_m, "val", mul0, "in-1", NULL );
  1268. cmDspSysInstallCb( h, fb, "val", mul1, "in-0", NULL );
  1269. cmDspSysInstallCb( h, fb_m, "val", mul1, "in-1", NULL );
  1270. cmDspSysInstallCb( h, mul0, "out", add, "in-0", NULL );
  1271. cmDspSysInstallCb( h, mul1, "out", add, "in-1", NULL );
  1272. cmDspSysInstallCb( h, add, "out", fb, "val", NULL );
  1273. cmDspSysInstallCb( h, add, "out", out, "val", NULL );
  1274. errLabel:
  1275. return rc;
  1276. }
  1277. cmDspRC_t _cmDspSysPgm_RingMod( cmDspSysH_t h, void** userPtrPtr )
  1278. {
  1279. cmDspRC_t rc = kOkDspRC;
  1280. cmErr_t err;
  1281. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  1282. unsigned chCnt = 0;
  1283. unsigned nsChCnt = 0;
  1284. const cmChar_t* chCfgPath = NULL;
  1285. const cmChar_t* chCfgFn = "pick_chs8.js";
  1286. unsigned groupCnt = 3;
  1287. unsigned chsPerGroup = 2;
  1288. cmReal_t fadeTimeMs = 25;
  1289. unsigned i,j,k;
  1290. cmErrSetup(&err,&cmCtx->rpt,"Pickup Effects");
  1291. // prepend the prefs directory to the ch. cfg filename
  1292. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  1293. // get the count of channels from the ch. cfg. array
  1294. if(( chCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  1295. {
  1296. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  1297. goto errLabel;
  1298. }
  1299. if( rc == kOkDspRC )
  1300. {
  1301. cmDspInst_t* ain[chCnt];
  1302. cmDspInst_t* ef[chCnt];
  1303. cmDspInst_t* mtr[chCnt];
  1304. cmDspInst_t* nom[groupCnt];
  1305. cmDspInst_t* rm[groupCnt];
  1306. cmDspInst_t* nm_mtr[groupCnt*chsPerGroup];
  1307. unsigned labelCharCnt = 31;
  1308. cmChar_t label[labelCharCnt+1];
  1309. // allocate the audio inputs and envelope followers
  1310. for(i=0; i<chCnt; ++i)
  1311. {
  1312. snprintf(label,labelCharCnt,"%i",i);
  1313. ain[i] = cmDspSysAllocAudioIn( h, i, 1.0);
  1314. ef[i] = cmDspSysAllocInst( h, "EnvFollow", NULL, 0 );
  1315. mtr[i] = cmDspSysAllocInst( h, "Meter", label, 3, 0.0, 0.0, 1.0 );
  1316. }
  1317. cmDspInst_t* gs = cmDspSysAllocInst( h, "GroupSel", NULL, 3, chCnt, groupCnt, chsPerGroup );
  1318. for(i=0; i<groupCnt; ++i)
  1319. {
  1320. nom[i] = cmDspSysAllocInst(h, "AudioNofM", NULL, 3, chCnt, chsPerGroup, fadeTimeMs );
  1321. rm[i] = cmDspSysAllocInst(h, "RingMod", NULL, 1, chsPerGroup );
  1322. }
  1323. for(i=0,k=0; i<groupCnt; ++i)
  1324. {
  1325. cmDspSysNewColumn(h,50);
  1326. snprintf(label,labelCharCnt,"%i",i);
  1327. cmDspSysAllocLabel(h,label,kLeftAlignDuiId );
  1328. for(j=0; j<chsPerGroup; ++j,++k)
  1329. {
  1330. snprintf(label,labelCharCnt,"%i",j);
  1331. nm_mtr[k] = cmDspSysAllocInst(h, "Meter", label, 3, 0.0, 0.0, 1.0 );
  1332. }
  1333. }
  1334. assert(k==groupCnt*chsPerGroup);
  1335. // allocate the ch cfg last so that it's default outputs initialize connected objects
  1336. //cmDspInst_t* chCfg = cmDspSysAllocInst( h, "ChCfg", NULL, 1, chCfgFn );
  1337. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, groupCnt );
  1338. cmDspInst_t* ao0 = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1339. cmDspInst_t* ao1 = cmDspSysAllocAudioOut( h, 1, 1.0 );
  1340. // check for allocation errors
  1341. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1342. goto errLabel;
  1343. cmDspSysConnectAudioN1N1( h, ain, "out", ef, "in", chCnt ); // ain -> EF
  1344. for(i=0; i<groupCnt; ++i)
  1345. {
  1346. cmDspSysConnectAudioN11N( h, ain, "out", nom[i], "in", chCnt );
  1347. cmDspSysConnectAudio1N1N( h, nom[i], "out", rm[i], "in", chsPerGroup);
  1348. snprintf(label,labelCharCnt,"gate-%i",i);
  1349. cmDspSysInstallCb1N1N( h, gs, label, nom[i], "gate", chCnt );
  1350. cmDspSysInstallCb1NN1( h, nom[i], "gain", nm_mtr + i * chsPerGroup, "in", chsPerGroup);
  1351. }
  1352. cmDspSysConnectAudioN11N( h, rm, "out", mix, "in", groupCnt );
  1353. cmDspSysConnectAudio( h, mix, "out", ao0, "in"); // mix -> aout L
  1354. cmDspSysConnectAudio( h, mix, "out", ao1, "in"); // mix -> aout R
  1355. cmDspSysInstallCbN11N( h, ef, "gate", gs, "gate", chCnt ); // EF -> grp_sel gate
  1356. cmDspSysInstallCbN11N( h, ef, "rms", gs, "rms", chCnt ); // EF -> grp_sel RMS
  1357. cmDspSysInstallCbN1N1( h, ef, "gate", mtr, "in", chCnt );
  1358. }
  1359. errLabel:
  1360. cmFsFreeFn(chCfgPath);
  1361. return rc;
  1362. }
  1363. cmDspRC_t _cmDspSysPgm_RingMod2( cmDspSysH_t h, void** userPtrPtr )
  1364. {
  1365. cmDspRC_t rc = kOkDspRC;
  1366. cmErr_t err;
  1367. cmCtx_t* cmCtx = cmDspSysPgmCtx(h);
  1368. unsigned iChCnt = 0;
  1369. unsigned oChCnt = 0;
  1370. unsigned nsChCnt = 0;
  1371. const cmChar_t* chCfgPath = NULL;
  1372. const cmChar_t* chCfgFn = "pick_chs8.js";
  1373. unsigned i;
  1374. cmErrSetup(&err,&cmCtx->rpt,"Pickup Effects");
  1375. // prepend the prefs directory to the ch. cfg filename
  1376. chCfgPath = cmFsMakeFn(cmFsPrefsDir(),chCfgFn,NULL,NULL);
  1377. // get the count of channels from the ch. cfg. array
  1378. if(( iChCnt = cmChCfgChannelCount(cmCtx,chCfgFn,&nsChCnt)) == 0 )
  1379. {
  1380. rc = cmErrMsg(&err,kPgmCfgFailDspRC,"Unable to obtain the channel count from '%s'.",cmStringNullGuard(chCfgFn));
  1381. goto errLabel;
  1382. }
  1383. if( rc == kOkDspRC && iChCnt > 0 )
  1384. {
  1385. if( iChCnt % 2 )
  1386. iChCnt -= 1;
  1387. oChCnt = iChCnt/2;
  1388. cmDspInst_t* ain[iChCnt];
  1389. cmDspInst_t* ef[iChCnt];
  1390. cmDspInst_t* mtr[iChCnt];
  1391. cmDspInst_t* rm[oChCnt];
  1392. unsigned labelCharCnt = 31;
  1393. cmChar_t label[labelCharCnt+1];
  1394. // allocate the audio inputs and envelope followers
  1395. for(i=0; i<iChCnt; ++i)
  1396. {
  1397. snprintf(label,labelCharCnt,"%i",i);
  1398. ain[i] = cmDspSysAllocAudioIn( h, i, 1.0);
  1399. ef[i] = cmDspSysAllocInst( h, "EnvFollow", NULL, 0 );
  1400. mtr[i] = cmDspSysAllocInst( h, "Meter", label, 3, 0.0, 0.0, 1.0 );
  1401. }
  1402. for(i=0; i<oChCnt; ++i)
  1403. {
  1404. rm[i] = cmDspSysAllocInst( h, "RingMod", NULL, 1, 2 );
  1405. }
  1406. cmDspInst_t* gain = cmDspSysAllocScalar( h, "RM Gain", 0.0, 10.0, 0.001, 1.0);
  1407. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, oChCnt );
  1408. cmDspInst_t* ao0 = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1409. cmDspInst_t* ao1 = cmDspSysAllocAudioOut( h, 1, 1.0 );
  1410. // check for allocation errors
  1411. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1412. goto errLabel;
  1413. cmDspSysConnectAudioN1N1( h, ain, "out", ef, "in", iChCnt ); // ain -> EF
  1414. cmDspSysInstallCbN1N1( h, ef, "gate", mtr, "in", iChCnt ); // EF -> mtr (gate)
  1415. for(i=0; i<oChCnt; ++i)
  1416. {
  1417. cmDspSysConnectAudio( h, ain[i*2+0], "out", rm[i], "in-0"); // ain -> rm 0
  1418. cmDspSysConnectAudio( h, ain[i*2+1], "out", rm[i], "in-1"); // ain -> rm 1
  1419. snprintf(label,labelCharCnt,"in-%i",i);
  1420. cmDspSysConnectAudio( h, rm[i], "out", mix, label); // rm -> mix
  1421. cmDspSysInstallCb(h, gain, "val", rm[i], "gain", NULL ); // gain -> rm gain
  1422. }
  1423. cmDspSysConnectAudio( h, mix, "out", ao0, "in"); // mix -> aout L
  1424. cmDspSysConnectAudio( h, mix, "out", ao1, "in"); // mix -> aout R
  1425. }
  1426. errLabel:
  1427. cmFsFreeFn(chCfgPath);
  1428. return rc;
  1429. }
  1430. cmDspRC_t _cmDspSysPgm_MsgDelay( cmDspSysH_t h, void** userPtrPtr )
  1431. {
  1432. cmDspRC_t rc = kOkDspRC;
  1433. double dfltDelayTimeMs = 100.0;
  1434. double maxDelayTimeMs = 10000.0;
  1435. cmDspInst_t* ctl = cmDspSysAllocScalar( h, "Delay", 0.0, maxDelayTimeMs, 1.0, dfltDelayTimeMs );
  1436. cmDspInst_t* dly = cmDspSysAllocInst( h, "MsgDelay", NULL, 2, 1000, dfltDelayTimeMs );
  1437. cmDspInst_t* print = cmDspSysAllocInst( h, "Printer", NULL, 1, ">");
  1438. if( (rc = cmDspSysLastRC(h)) != kOkDspRC )
  1439. return rc;
  1440. cmDspSysInstallCb( h, ctl, "val", dly, "delay", NULL );
  1441. cmDspSysInstallCb( h, ctl, "val", dly, "in", NULL );
  1442. cmDspSysInstallCb( h, dly, "out", print, "in", NULL );
  1443. return rc;
  1444. }
  1445. cmDspRC_t _cmDspSysPgm_Adsr( cmDspSysH_t h, void** userPtrPtr )
  1446. {
  1447. cmDspRC_t rc;
  1448. bool trigModeFl = true;
  1449. double adsrMaxMs = 5000;
  1450. double adsrMinMs = 0;
  1451. double adsrIncMs = 1;
  1452. double adsrMaxLevel = 100.0; //1.0;
  1453. double adsrSusLevel = 80.0; //0.8;
  1454. double adsrMinLevel = 0.0; //0.0;
  1455. double adsrIncLevel = 0.001;
  1456. const cmChar_t* fn = "/home/kevin/temp/adsr1.bin";
  1457. cmDspInst_t* adsr = cmDspSysAllocInst(h, "Adsr", NULL, 2, trigModeFl, adsrMinLevel );
  1458. cmDspInst_t* chck = cmDspSysAllocCheck(h,"Gate",0);
  1459. cmDspInst_t* mtr = cmDspSysAllocInst(h,"Meter","Out", 3, adsrMinLevel, adsrMinLevel, adsrMaxLevel );
  1460. cmDspInst_t* bmf = cmDspSysAllocInst(h,"BinMtxFile", NULL, 2, 1, fn );
  1461. cmDspInst_t* dly = cmDspSysAllocScalar( h, "Dly Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 0.0);
  1462. cmDspInst_t* atk = cmDspSysAllocScalar( h, "Atk Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 1000.0);
  1463. cmDspInst_t* dcy = cmDspSysAllocScalar( h, "Dcy Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 300.0);
  1464. cmDspInst_t* hold = cmDspSysAllocScalar( h, "Hold Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 500.0);
  1465. cmDspInst_t* rls = cmDspSysAllocScalar( h, "Rls Ms", adsrMinMs, adsrMaxMs, adsrIncMs, 1000.0);
  1466. cmDspInst_t* alvl = cmDspSysAllocScalar( h, "AdsrMax", adsrMinLevel,adsrMaxLevel,adsrIncLevel, adsrMaxLevel);
  1467. cmDspInst_t* sus = cmDspSysAllocScalar( h, "Sustain", adsrMinLevel,adsrMaxLevel,adsrIncLevel, adsrSusLevel);
  1468. // check for allocation errors
  1469. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1470. goto errLabel;
  1471. cmDspSysInstallCb( h, dly, "val", adsr, "dly", NULL );
  1472. cmDspSysInstallCb( h, atk, "val", adsr, "atk", NULL );
  1473. cmDspSysInstallCb( h, dcy, "val", adsr, "dcy", NULL );
  1474. cmDspSysInstallCb( h, hold, "val", adsr, "hold", NULL );
  1475. cmDspSysInstallCb( h, rls, "val", adsr, "rls", NULL );
  1476. cmDspSysInstallCb( h, alvl, "val", adsr, "alvl", NULL );
  1477. cmDspSysInstallCb( h, sus, "val", adsr, "sus", NULL );
  1478. cmDspSysInstallCb( h, chck, "out", adsr, "gate", NULL );
  1479. cmDspSysInstallCb( h, adsr, "out", mtr, "in", NULL );
  1480. cmDspSysInstallCb( h, adsr, "out", bmf, "in", NULL );
  1481. errLabel:
  1482. return rc;
  1483. }
  1484. cmDspRC_t _cmDspSysPgm_Compressor( cmDspSysH_t h, void** userPtrPtr )
  1485. {
  1486. cmDspRC_t rc;
  1487. const cmChar_t* ofn = "/home/kevin/temp/adsr0.bin";
  1488. const char* afn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  1489. int beg = 6900826;
  1490. int end = 13512262;
  1491. const cmChar_t* afn = cmFsMakeFn(cmFsUserDir(),afn0,NULL,NULL );
  1492. bool bypassFl = false;
  1493. double inGain = 1.0;
  1494. double threshDb = -40.0;
  1495. double ratio_num = 4.0;
  1496. double atkMs = 100.0;
  1497. double rlsMs = 100.0;
  1498. double makeup = 1.0;
  1499. double wndMaxMs = 1000.0;
  1500. double wndMs = 200.0;
  1501. cmDspInst_t* off = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  1502. cmDspInst_t* phs = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  1503. cmDspInst_t* wt = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, afn, -1, beg, end );
  1504. cmDspInst_t* cmp = cmDspSysAllocInst(h,"Compressor",NULL, 8, bypassFl, threshDb, ratio_num, atkMs, rlsMs, makeup, wndMs, wndMaxMs );
  1505. cmDspInst_t* ao0 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 0 );
  1506. cmDspInst_t* ao1 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 1 );
  1507. cmDspInst_t* bmf = cmDspSysAllocInst(h,"BinMtxFile", NULL, 2, 1, ofn );
  1508. cmDspInst_t* mtr = cmDspSysAllocInst(h,"Meter","Env", 3, 0.0, 0.0, 1.0);
  1509. cmDspInst_t* igain = cmDspSysAllocScalar( h, "In Gain", 0.0, 10.0, 0.1, inGain);
  1510. cmDspInst_t* thr = cmDspSysAllocScalar( h, "ThreshDb", -100.0, 0.0, 0.1, threshDb);
  1511. cmDspInst_t* rat = cmDspSysAllocScalar( h, "Ratio", 0.1, 100, 0.1, ratio_num);
  1512. cmDspInst_t* atk = cmDspSysAllocScalar( h, "Atk Ms", 0.0, 1000.0, 0.1, atkMs);
  1513. cmDspInst_t* rls = cmDspSysAllocScalar( h, "Rls Ms", 0.0, 1000.0, 0.1, rlsMs);
  1514. cmDspInst_t* mkup = cmDspSysAllocScalar( h, "Makeup", 0.0, 10.0, 0.01, makeup);
  1515. cmDspInst_t* wnd = cmDspSysAllocScalar( h, "Wnd Ms", 1.0, wndMaxMs, 1.0, wndMs );
  1516. // check for allocation errors
  1517. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1518. goto errLabel;
  1519. cmDspSysConnectAudio(h, phs, "out", wt, "phs" ); // phasor -> wave table
  1520. cmDspSysConnectAudio(h, wt, "out", cmp, "in" ); // wave table -> cmp in
  1521. cmDspSysConnectAudio(h, cmp, "out", ao0, "in" ); // comp -> aout
  1522. cmDspSysConnectAudio(h, cmp, "out", ao1, "in" ); //
  1523. cmDspSysInstallCb(h, off, "val", wt, "beg", NULL );
  1524. cmDspSysInstallCb(h, igain,"val", cmp, "igain", NULL );
  1525. cmDspSysInstallCb(h, thr, "val", cmp, "thr", NULL );
  1526. cmDspSysInstallCb(h, rat, "val", cmp, "ratio", NULL );
  1527. cmDspSysInstallCb(h, atk, "val", cmp, "atk", NULL );
  1528. cmDspSysInstallCb(h, rls, "val", cmp, "rls", NULL );
  1529. cmDspSysInstallCb(h, mkup, "val", cmp, "ogain", NULL );
  1530. cmDspSysInstallCb(h, wnd, "val", cmp, "wnd", NULL );
  1531. cmDspSysInstallCb(h, cmp, "env", bmf, "in", NULL );
  1532. cmDspSysInstallCb(h, cmp, "env", mtr, "in", NULL );
  1533. errLabel:
  1534. return rc;
  1535. }
  1536. cmDspRC_t _cmDspSysPgm_BiQuadEq( cmDspSysH_t h, void** userPtrPtr )
  1537. {
  1538. cmDspRC_t rc = kOkDspRC;
  1539. const char* afn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  1540. int beg = 6900826;
  1541. int end = 13512262;
  1542. const cmChar_t* afn = cmFsMakeFn(cmFsUserDir(),afn0,NULL,NULL );
  1543. bool bypassFl = false;
  1544. unsigned modeSymId = cmSymTblRegisterStaticSymbol(cmDspSysSymbolTable(h),"LP");
  1545. double f0hz = 264.0;
  1546. double Q = 1.0;
  1547. double fgain = 1.0;
  1548. cmDspInst_t* off = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  1549. cmDspInst_t* phs = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  1550. cmDspInst_t* wt = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, afn, -1, beg, end );
  1551. cmDspInst_t* flt = cmDspSysAllocInst(h,"BiQuadEq",NULL, 5, bypassFl, modeSymId,f0hz, Q, fgain );
  1552. cmDspInst_t* ao0 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 0 );
  1553. cmDspInst_t* ao1 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 1 );
  1554. cmDspInst_t* mode = cmDspSysAllocInst( h, "MsgList","Mode", 1, "biQuadEqMode");
  1555. cmDspInst_t* fhz = cmDspSysAllocScalar( h, "Fc Hz", 0.0, 15000.0, 0.1, f0hz);
  1556. cmDspInst_t* q = cmDspSysAllocScalar( h, "Q", -100.0, 100, 0.1, Q);
  1557. cmDspInst_t* fgn = cmDspSysAllocScalar( h, "Filt Gain", 0.0, 1.0, 0.1, fgain);
  1558. // check for allocation errors
  1559. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1560. goto errLabel;
  1561. cmDspSysConnectAudio(h, phs, "out", wt, "phs" ); // phasor -> wave table
  1562. cmDspSysConnectAudio(h, wt, "out", flt, "in" ); // wave table -> cmp in
  1563. cmDspSysConnectAudio(h, flt, "out", ao0, "in" ); // filter -> aout
  1564. cmDspSysConnectAudio(h, flt, "out", ao1, "in" ); //
  1565. cmDspSysInstallCb(h, off, "val", wt, "beg", NULL );
  1566. cmDspSysInstallCb(h, mode,"mode",flt, "mode", NULL );
  1567. cmDspSysInstallCb(h, fhz, "val", flt, "f0", NULL );
  1568. cmDspSysInstallCb(h, q, "val", flt, "Q", NULL );
  1569. cmDspSysInstallCb(h, fgn, "val", flt, "gain", NULL );
  1570. errLabel:
  1571. return rc;
  1572. }
  1573. cmDspRC_t _cmDspSysPgm_DistDs( cmDspSysH_t h, void** userPtrPtr )
  1574. {
  1575. cmDspRC_t rc = kOkDspRC;
  1576. const char* afn0 = "media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  1577. int beg = 6900826;
  1578. int end = 13512262;
  1579. const cmChar_t* afn = cmFsMakeFn(cmFsUserDir(),afn0,NULL,NULL );
  1580. bool bypassFl = false;
  1581. double inGain = 1.0;
  1582. double dsrate = 44100.0;
  1583. double bits = 24.0;
  1584. bool rectifyFl = false;
  1585. bool fullRectFl = false;
  1586. double clipDb = -10.0;
  1587. cmDspInst_t* off = cmDspSysAllocInst(h,"Scalar", "Offset", 5, kNumberDuiId, 0.0, cmDspSysSampleRate(h)*600.0, 1.0, 0.0);
  1588. cmDspInst_t* phs = cmDspSysAllocInst(h,"Phasor", NULL, 0 );
  1589. cmDspInst_t* wt = cmDspSysAllocInst(h,"WaveTable",NULL, 6, ((int)cmDspSysSampleRate(h)), 1, afn, -1, beg, end );
  1590. cmDspInst_t* dst = cmDspSysAllocInst(h,"DistDs",NULL, 3, bypassFl, inGain, dsrate, bits );
  1591. cmDspInst_t* ao0 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 0 );
  1592. cmDspInst_t* ao1 = cmDspSysAllocInst(h,"AudioOut",NULL, 1, 1 );
  1593. cmDspInst_t* ign = cmDspSysAllocScalar( h, "In Gain", 0.0, 10.0, 0.01, 1.0);
  1594. cmDspInst_t* rct = cmDspSysAllocCheck( h, "Rectify", rectifyFl);
  1595. cmDspInst_t* ful = cmDspSysAllocCheck( h, "Full/Half", fullRectFl);
  1596. cmDspInst_t* dsr = cmDspSysAllocScalar( h, "Srate", 0.0, 96000, 1.0, dsrate);
  1597. cmDspInst_t* dbt = cmDspSysAllocScalar( h, "bits", 2.0, 32.0, 1.0, bits);
  1598. cmDspInst_t* clip = cmDspSysAllocScalar( h, "Clip dB", -100.0, 0.0, 0.1, clipDb);
  1599. cmDspInst_t* ogn = cmDspSysAllocScalar( h, "Out Gain", 0.0, 10.0, 0.01, 1.0);
  1600. // check for allocation errors
  1601. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1602. goto errLabel;
  1603. cmDspSysConnectAudio(h, phs, "out", wt, "phs" ); // phasor -> wave table
  1604. cmDspSysConnectAudio(h, wt, "out", dst, "in" ); // wave table -> cmp in
  1605. cmDspSysConnectAudio(h, dst, "out", ao0, "in" ); // filter -> aout
  1606. cmDspSysConnectAudio(h, dst, "out", ao1, "in" ); //
  1607. cmDspSysInstallCb(h, off, "val", wt, "beg", NULL );
  1608. cmDspSysInstallCb(h, ign, "val", dst, "igain", NULL );
  1609. cmDspSysInstallCb(h, dsr, "val", dst, "srate", NULL );
  1610. cmDspSysInstallCb(h, dbt, "val", dst, "bits", NULL );
  1611. cmDspSysInstallCb(h, rct, "out", dst, "rect", NULL );
  1612. cmDspSysInstallCb(h, ful, "out", dst, "full", NULL );
  1613. cmDspSysInstallCb(h, clip, "val", dst, "clip", NULL );
  1614. cmDspSysInstallCb(h, ogn, "val", dst, "ogain", NULL );
  1615. errLabel:
  1616. return rc;
  1617. }
  1618. cmDspRC_t _cmDspSysPgm_Seq( cmDspSysH_t h, void** userPtrPtr )
  1619. {
  1620. cmDspRC_t rc;
  1621. double min = 1.0;
  1622. double max = 10.0;
  1623. double incr = 1.0;
  1624. cmDspInst_t* btn = cmDspSysAllocButton( h, "smack", 0);
  1625. cmDspInst_t* cnt = cmDspSysAllocInst( h, "Counter", NULL, 3, min, max, incr );
  1626. cmDspInst_t* lst = cmDspSysAllocInst( h, "MsgList","Seq", 1, "seqTest");
  1627. cmDspInst_t* prt = cmDspSysAllocInst( h, "Printer", NULL, 1, ">");
  1628. cmDspSysInstallCb(h, lst, "cnt", cnt, "max", NULL );
  1629. cmDspSysInstallCb(h, btn, "out", cnt, "next", NULL );
  1630. cmDspSysInstallCb(h, cnt, "out", lst, "sel", NULL );
  1631. cmDspSysInstallCb(h, lst, "midi", prt, "in", NULL );
  1632. // check for allocation errors
  1633. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1634. goto errLabel;
  1635. errLabel:
  1636. return rc;
  1637. }
  1638. cmDspRC_t _cmDspSysPgm_ThunkNet( cmDspSysH_t h, void** userPtrPtr )
  1639. {
  1640. cmDspRC_t rc;
  1641. cmDspInst_t* add = cmDspSysAllocInst( h, "ScalarOp", "adder-0", 6, 2, "+", "in-0", 0.0, "in-1", 0.0 );
  1642. cmDspInst_t* in = cmDspSysAllocScalar( h, "Input", 0.0, 10.0, 0.001, 0.0);
  1643. cmDspInst_t* out = cmDspSysAllocScalar( h, "Out", 0.0, 10.0, 0.001, 0.0);
  1644. // check for allocation errors
  1645. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1646. goto errLabel;
  1647. cmDspSysInstallCb( h, in, "val", add, "in-1", NULL );
  1648. cmDspSysInstallCb( h, add, "out", out, "val", NULL );
  1649. errLabel:
  1650. return rc;
  1651. }
  1652. cmDspRC_t _cmDspSysPgm_WhirlNet( cmDspSysH_t h, void** userPtrPtr )
  1653. {
  1654. cmDspRC_t rc;
  1655. cmDspInst_t* in = cmDspSysAllocScalar( h, "Input", 0.0, 10.0, 0.001, 0.0);
  1656. // check for allocation errors
  1657. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1658. goto errLabel;
  1659. cmDspSysInstallNetCb( h, in, "val", "thunk", "adder-0", "in-0" );
  1660. errLabel:
  1661. return rc;
  1662. }
  1663. cmDspRC_t _cmDspSysPgm_NofM( cmDspSysH_t h, void** userPtrPtr )
  1664. {
  1665. cmDspRC_t rc;
  1666. unsigned iChCnt = 3;
  1667. unsigned oChCnt = 2;
  1668. unsigned sgShapeId = 0;
  1669. double sgGain = 0.4;
  1670. double xfadeMs = 1000;
  1671. cmDspInst_t* onBtn = cmDspSysAllocButton( h, "on", 0 );
  1672. cmDspInst_t* offBtn = cmDspSysAllocButton(h, "off", 0 );
  1673. cmDspInst_t* sg0 = cmDspSysAllocInst( h, "SigGen", NULL, 3, 500.0, sgShapeId, sgGain );
  1674. cmDspInst_t* sg1 = cmDspSysAllocInst( h, "SigGen", NULL, 3, 1000.0, sgShapeId, sgGain );
  1675. cmDspInst_t* sg2 = cmDspSysAllocInst( h, "SigGen", NULL, 3, 2000.0, sgShapeId, sgGain );
  1676. cmDspInst_t* nom = cmDspSysAllocInst( h,"NofM", NULL, 3, iChCnt, oChCnt, xfadeMs );
  1677. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL, 1, oChCnt );
  1678. cmDspInst_t* ao = cmDspSysAllocAudioOut(h, 0, 1.0 );
  1679. cmDspInst_t* btn = cmDspSysAllocButton( h, "cfg", 0);
  1680. cmDspInst_t* sel0 = cmDspSysAllocCheck(h,"Sel-0",0);
  1681. cmDspInst_t* sel1 = cmDspSysAllocCheck(h,"Sel-1",0);
  1682. cmDspInst_t* sel2 = cmDspSysAllocCheck(h,"Sel-2",0);
  1683. cmDspInst_t* in0 = cmDspSysAllocScalar( h, "In-0", 0.0, 10.0, 0.001, 0.0);
  1684. cmDspInst_t* in1 = cmDspSysAllocScalar( h, "In-1", 0.0, 10.0, 0.001, 0.0);
  1685. cmDspInst_t* in2 = cmDspSysAllocScalar( h, "In-2", 0.0, 10.0, 0.001, 0.0);
  1686. cmDspInst_t* out0 = cmDspSysAllocScalar( h, "Out-0", 0.0, 10.0, 0.001, 0.0);
  1687. cmDspInst_t* out1 = cmDspSysAllocScalar( h, "Out-1", 0.0, 10.0, 0.001, 0.0);
  1688. // check for allocation errors
  1689. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1690. goto errLabel;
  1691. cmDspSysConnectAudio( h, sg0, "out", nom, "a-in-0" );
  1692. cmDspSysConnectAudio( h, sg1, "out", nom, "a-in-1" );
  1693. cmDspSysConnectAudio( h, sg2, "out", nom, "a-in-2" );
  1694. cmDspSysConnectAudio( h, nom, "a-out-0", mix, "in-0" );
  1695. cmDspSysConnectAudio( h, nom, "a-out-1", mix, "in-1" );
  1696. cmDspSysConnectAudio( h, mix, "out", ao, "in" );
  1697. cmDspSysInstallCb( h, btn, "sym", nom, "cmd", NULL );
  1698. cmDspSysInstallCb( h, sel0, "out", nom, "sel-0", NULL );
  1699. cmDspSysInstallCb( h, sel1, "out", nom, "sel-1", NULL );
  1700. cmDspSysInstallCb( h, sel2, "out", nom, "sel-2", NULL );
  1701. cmDspSysInstallCb( h, in0, "val", nom, "f-in-0", NULL );
  1702. cmDspSysInstallCb( h, in1, "val", nom, "f-in-1", NULL );
  1703. cmDspSysInstallCb( h, in2, "val", nom, "f-in-2", NULL );
  1704. cmDspSysInstallCb( h, nom, "f-out-0", out0, "val", NULL );
  1705. cmDspSysInstallCb( h, nom, "f-out-1", out1, "val", NULL );
  1706. cmDspSysInstallCb( h, onBtn, "sym", nom, "cmd", NULL );
  1707. cmDspSysInstallCb( h, offBtn, "sym", nom, "cmd", NULL );
  1708. errLabel:
  1709. return rc;
  1710. }
  1711. cmDspRC_t _cmDspSysPgm_1ofN( cmDspSysH_t h, void** userPtrPtr )
  1712. {
  1713. cmDspRC_t rc;
  1714. unsigned inCnt = 3;
  1715. unsigned initSel = 0;
  1716. cmDspInst_t* oom = cmDspSysAllocInst(h,"1ofN", NULL, 2, inCnt, initSel );
  1717. cmDspInst_t* sel = cmDspSysAllocScalar( h, "Sel", 0, inCnt-1, 0.001, 0.0);
  1718. cmDspInst_t* in0 = cmDspSysAllocScalar( h, "In-0", 0.0, 10.0, 0.001, 0.0);
  1719. cmDspInst_t* in1 = cmDspSysAllocScalar( h, "In-1", 0.0, 10.0, 0.001, 0.0);
  1720. cmDspInst_t* in2 = cmDspSysAllocScalar( h, "In-2", 0.0, 10.0, 0.001, 0.0);
  1721. cmDspInst_t* out = cmDspSysAllocScalar( h, "Out", 0.0, 10.0, 0.001, 0.0);
  1722. // check for allocation errors
  1723. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1724. goto errLabel;
  1725. cmDspSysInstallCb( h, sel, "val", oom, "chidx", NULL );
  1726. cmDspSysInstallCb( h, in0, "val", oom, "f-in-0", NULL );
  1727. cmDspSysInstallCb( h, in1, "val", oom, "f-in-1", NULL );
  1728. cmDspSysInstallCb( h, in2, "val", oom, "f-in-2", NULL );
  1729. cmDspSysInstallCb( h, oom, "f-out", out, "val", NULL );
  1730. errLabel:
  1731. return rc;
  1732. }
  1733. cmDspRC_t _cmDspSysPgm_Router( cmDspSysH_t h, void** userPtrPtr )
  1734. {
  1735. cmDspRC_t rc;
  1736. unsigned inCnt = 3;
  1737. unsigned initSel = 0;
  1738. cmDspInst_t* rtr = cmDspSysAllocInst(h,"Router", NULL, 2, inCnt, initSel );
  1739. cmDspInst_t* sel = cmDspSysAllocScalar( h, "Sel", 0, inCnt-1, 1.0, 0.0);
  1740. cmDspInst_t* in = cmDspSysAllocScalar( h, "In", 0.0, 10.0, 0.001, 0.0);
  1741. cmDspInst_t* out0 = cmDspSysAllocScalar( h, "Out-0", 0.0, 10.0, 0.001, 0.0);
  1742. cmDspInst_t* out1 = cmDspSysAllocScalar( h, "Out-1", 0.0, 10.0, 0.001, 0.0);
  1743. cmDspInst_t* out2 = cmDspSysAllocScalar( h, "Out-2", 0.0, 10.0, 0.001, 0.0);
  1744. // check for allocation errors
  1745. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1746. goto errLabel;
  1747. cmDspSysInstallCb( h, sel, "val", rtr, "sel", NULL );
  1748. cmDspSysInstallCb( h, in, "val", rtr, "f-in", NULL );
  1749. cmDspSysInstallCb( h, rtr, "f-out-0", out0, "val", NULL );
  1750. cmDspSysInstallCb( h, rtr, "f-out-1", out1, "val", NULL );
  1751. cmDspSysInstallCb( h, rtr, "f-out-2", out2, "val", NULL );
  1752. errLabel:
  1753. return rc;
  1754. }
  1755. cmDspRC_t _cmDspSysPgm_Preset( cmDspSysH_t h, void** userPtrPtr )
  1756. {
  1757. cmDspRC_t rc;
  1758. unsigned sgShapeId = 0;
  1759. double sgHz = 500;
  1760. double sgGain = 0.02;
  1761. unsigned grpSymId = cmDspSysPresetRegisterGroup(h,"test");
  1762. const cmChar_t* prefixLabel = NULL;
  1763. cmDspInst_t* sg = cmDspSysAllocInst( h, "SigGen", NULL, 3, sgHz, sgShapeId, sgGain );
  1764. cmDspInst_t* ao = cmDspSysAllocAudioOut( h, 0, 1.0 );
  1765. cmDspInst_t* shapes = cmDspSysAllocMsgListP(h, grpSymId, prefixLabel, "Shape", NULL, "shapeList", 0 );
  1766. cmDspInst_t* gains = cmDspSysAllocMsgListP(h, grpSymId, prefixLabel, "Gains", NULL, "gainMenu", 0 );
  1767. cmDspInst_t* hz = cmDspSysAllocScalarP( h, grpSymId, prefixLabel, "Hz", 0.0, 10000.0, 0.01, sgHz);
  1768. cmDspInst_t* gain = cmDspSysAllocScalarP( h, grpSymId, prefixLabel, "Gain", 0.0, 1.0, 0.01, sgGain);
  1769. cmDspInst_t* preset = cmDspSysAllocInst( h, "Preset", NULL, 1, grpSymId );
  1770. cmDspInst_t* presetLbl = cmDspSysAllocInst( h, "Text", "Preset", 1, "" );
  1771. cmDspInst_t* storeBtn = cmDspSysAllocButton( h, "store", 0);
  1772. cmDspInst_t* recallBtn = cmDspSysAllocButton( h, "recall", 0);
  1773. // check for allocation errors
  1774. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1775. goto errLabel;
  1776. cmDspSysConnectAudio(h, sg, "out", ao, "in" );
  1777. cmDspSysInstallCb( h, shapes,"out", sg, "shape", NULL );
  1778. cmDspSysInstallCb( h, hz, "val", sg, "hz", NULL );
  1779. cmDspSysInstallCb( h, gain, "val", sg, "gain", NULL );
  1780. cmDspSysInstallCb( h, gains, "out", gain, "val", NULL );
  1781. cmDspSysInstallCb( h, presetLbl, "val", preset, "label",NULL);
  1782. cmDspSysInstallCb( h, storeBtn, "sym", preset, "cmd", NULL );
  1783. cmDspSysInstallCb( h, recallBtn, "sym", preset, "cmd", NULL );
  1784. errLabel:
  1785. return rc;
  1786. }
  1787. cmDspRC_t _cmDspSysPgm_RsrcWr( cmDspSysH_t h, void** userPtrPtr )
  1788. {
  1789. cmDspRC_t rc = kOkDspRC;
  1790. const cmChar_t* lbl1 = "rsrc1";
  1791. const cmChar_t* lbl2 = "rsrc2";
  1792. const cmChar_t* str1 = NULL;
  1793. const cmChar_t* str2 = NULL;
  1794. if( cmDspRsrcString(h,&str1, lbl1, NULL ) != kOkDspRC )
  1795. str1 = "1";
  1796. if( cmDspRsrcString(h,&str2, lbl2, NULL ) != kOkDspRC )
  1797. str2 = "2";
  1798. cmDspInst_t* rsrcWr = cmDspSysAllocInst( h, "RsrcWr", NULL, 2, lbl1, lbl2 );
  1799. cmDspInst_t* textUi0 = cmDspSysAllocInst( h, "Text", "Value1", 1, str1 );
  1800. cmDspInst_t* textUi1 = cmDspSysAllocInst( h, "Text", "Value2", 1, str2 );
  1801. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1802. goto errLabel;
  1803. cmDspSysInstallCb( h, textUi0, "val", rsrcWr, "rsrc1", NULL );
  1804. cmDspSysInstallCb( h, textUi1, "val", rsrcWr, "rsrc2", NULL );
  1805. errLabel:
  1806. return rc;
  1807. }
  1808. cmDspRC_t _cmDspSysPgm_1Up( cmDspSysH_t h, void** userPtrPtr )
  1809. {
  1810. cmDspRC_t rc;
  1811. unsigned chCnt = 3;
  1812. double maxIdx = chCnt - 1;
  1813. unsigned initIdx = 2;
  1814. cmDspInst_t* sel = cmDspSysAllocScalar( h, "Chan", 0.0, maxIdx, 1.0, 0.0 );
  1815. cmDspInst_t* up = cmDspSysAllocInst( h, "1Up", NULL, 2, chCnt, initIdx );
  1816. cmDspInst_t* pr0 = cmDspSysAllocInst( h, "Printer", NULL, 1, "0:" );
  1817. cmDspInst_t* pr1 = cmDspSysAllocInst( h, "Printer", NULL, 1, "1:" );
  1818. cmDspInst_t* pr2 = cmDspSysAllocInst( h, "Printer", NULL, 1, "2:" );
  1819. // check for allocation errors
  1820. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1821. goto errLabel;
  1822. cmDspSysInstallCb( h, sel, "val", up, "sel",NULL);
  1823. cmDspSysInstallCb( h, up, "out-0", pr0, "in", NULL );
  1824. cmDspSysInstallCb( h, up, "out-1", pr1, "in", NULL );
  1825. cmDspSysInstallCb( h, up, "out-2", pr2, "in", NULL );
  1826. errLabel:
  1827. return rc;
  1828. }
  1829. cmDspRC_t _cmDspSysPgm_PortToSym( cmDspSysH_t h, void** userPtrPtr )
  1830. {
  1831. cmDspRC_t rc = kOkDspRC;
  1832. cmDspInst_t* btn0 = cmDspSysAllocButton( h, "Btn0", 0.0 );
  1833. cmDspInst_t* btn1 = cmDspSysAllocButton( h, "Btn1", 0.0 );
  1834. cmDspInst_t* btn2 = cmDspSysAllocButton( h, "Btn2", 0.0 );
  1835. cmDspInst_t* pts = cmDspSysAllocInst( h, "PortToSym", NULL, 3, "one", "two", "three");
  1836. cmDspInst_t* pr0 = cmDspSysAllocInst( h, "Printer", NULL, 1, "0:" );
  1837. cmDspInst_t* pr1 = cmDspSysAllocInst( h, "Printer", NULL, 1, "1:" );
  1838. // check for allocation errors
  1839. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1840. goto errLabel;
  1841. cmDspSysInstallCb( h, btn0, "out", pts, "one",NULL);
  1842. cmDspSysInstallCb( h, btn1, "out", pts, "two",NULL);
  1843. cmDspSysInstallCb( h, btn2, "out", pts, "three",NULL);
  1844. cmDspSysInstallCb( h, btn0, "out", pr1, "in",NULL);
  1845. cmDspSysInstallCb( h, btn1, "out", pr1, "in",NULL);
  1846. cmDspSysInstallCb( h, btn2, "out", pr1, "in",NULL);
  1847. cmDspSysInstallCb( h, pts, "one", pr0, "in", NULL );
  1848. cmDspSysInstallCb( h, pts, "two", pr0, "in", NULL );
  1849. cmDspSysInstallCb( h, pts, "three", pr0, "in", NULL );
  1850. errLabel:
  1851. return rc;
  1852. }
  1853. cmDspRC_t _cmDspSysPgm_Line( cmDspSysH_t h, void** userPtrPtr )
  1854. {
  1855. cmDspRC_t rc = kOkDspRC;
  1856. cmDspInst_t* beg = cmDspSysAllocScalar( h, "beg", -10.0, 10.0, 1.0, 0.0 );
  1857. cmDspInst_t* end = cmDspSysAllocScalar( h, "end", -10.0, 10.0, 1.0, 1.0 );
  1858. cmDspInst_t* dur = cmDspSysAllocScalar( h, "dur", 0.0, 10000.0, 1.0, 0.0 );
  1859. cmDspInst_t* reset = cmDspSysAllocButton(h, "reset", 0.0 );
  1860. cmDspInst_t* line = cmDspSysAllocInst( h, "Line", NULL, 3, 0.0, 10.0, 1000.0 );
  1861. cmDspInst_t* mtr = cmDspSysAllocInst( h, "Meter", NULL, 3, -10.0, 10.0, 0.0 );
  1862. cmDspInst_t* pr1 = cmDspSysAllocInst( h, "Printer", NULL, 1, ">" );
  1863. // check for allocation errors
  1864. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1865. goto errLabel;
  1866. cmDspSysInstallCb( h, beg, "val", line, "beg",NULL);
  1867. cmDspSysInstallCb( h, end, "val", line, "end",NULL);
  1868. cmDspSysInstallCb( h, dur, "val", line, "dur",NULL);
  1869. cmDspSysInstallCb( h, line, "out", mtr, "in", NULL );
  1870. cmDspSysInstallCb( h, reset, "sym", line, "cmd", NULL );
  1871. cmDspSysInstallCb( h, line, "out", pr1, "in", NULL );
  1872. errLabel:
  1873. return rc;
  1874. }
  1875. cmDspRC_t _cmDspSysPgm_Array( cmDspSysH_t h, void** userPtrPtr )
  1876. {
  1877. cmDspRC_t rc = kOkDspRC;
  1878. unsigned cnt = 0;
  1879. const cmChar_t* rsrcLabelStr = "test";
  1880. if( cmDspRsrcArrayCount( h, &cnt, rsrcLabelStr, NULL ) != kOkDspRC )
  1881. return cmErrMsg(&cmDspSysPgmCtx(h)->err,kPgmCfgFailDspRC,"The resource '%s' could not be read.",rsrcLabelStr);
  1882. cmDspInst_t* printBtn = cmDspSysAllocButton( h, "print", 0.0 );
  1883. cmDspInst_t* sendBtn = cmDspSysAllocButton( h, "send", 0.0 );
  1884. cmDspInst_t* cntBtn = cmDspSysAllocButton( h, "count", 0.0 );
  1885. cmDspInst_t* offsCtl = cmDspSysAllocScalar( h, "offset",0.0, 128.0, 1.0, 60.0 );
  1886. cmDspInst_t* array = cmDspSysAllocInst( h, "Array", NULL, 1, rsrcLabelStr );
  1887. cmDspInst_t** pcvt = cmDspSysAllocInstArray( h, cnt, "PitchCvt", NULL, NULL, 0 );
  1888. cmDspInst_t* printer = cmDspSysAllocInst( h, "Printer", NULL, 1, ">" );
  1889. cmDspSysInstallCb( h, printBtn, "sym", array, "cmd", NULL );
  1890. cmDspSysInstallCb( h, sendBtn, "sym", array, "cmd", NULL );
  1891. cmDspSysInstallCb( h, cntBtn, "sym", array, "cmd", NULL );
  1892. cmDspSysInstallCb11N1( h, offsCtl, "val", pcvt, "offs", cnt );
  1893. cmDspSysInstallCb1NN1( h, array, "out", pcvt, "midi", cnt );
  1894. cmDspSysInstallCbN111( h, pcvt, "midi", printer, "in", cnt );
  1895. cmDspSysInstallCb( h, array, "cnt", printer, "in", NULL );
  1896. return rc;
  1897. }
  1898. cmDspRC_t _cmDspSysPgm_SegLine( cmDspSysH_t h, void** userPtrPtr )
  1899. {
  1900. cmDspRC_t rc = kOkDspRC;
  1901. cmDspInst_t* btn = cmDspSysAllocButton( h, "Trig", 0.0 );
  1902. cmDspInst_t* sline = cmDspSysAllocInst( h, "SegLine", NULL, 1, "array" );
  1903. cmDspInst_t* printer = cmDspSysAllocInst( h, "Printer", NULL, 1, ">" );
  1904. // check for allocation errors
  1905. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1906. goto errLabel;
  1907. cmDspSysInstallCb( h, btn, "sym", sline, "trig", NULL );
  1908. cmDspSysInstallCb( h, sline, "out", printer, "in", NULL );
  1909. errLabel:
  1910. return rc;
  1911. }
  1912. cmDspRC_t _cmDspSysPgm_AvailCh( cmDspSysH_t h, void** userPtrPtr )
  1913. {
  1914. double frqHz = 440.0;
  1915. unsigned xfadeChCnt = 2;
  1916. double xfadeMs = 250.0;
  1917. bool xfadeInitFl = false;
  1918. const char* fn = "/home/kevin/media/audio/20110723-Kriesberg/Audio Files/Piano 3_01.wav";
  1919. cmDspInst_t* chk0 = cmDspSysAllocInst(h,"Button", "0", 2, kButtonDuiId, 0.0 );
  1920. //cmDspInst_t* chk1 = cmDspSysAllocInst(h,"Button", "1", 2, kCheckDuiId, 0.0 );
  1921. cmDspInst_t* achp = cmDspSysAllocInst( h, "AvailCh", NULL, 1, xfadeChCnt );
  1922. cmDspInst_t* sphp = cmDspSysAllocInst( h, "Phasor", NULL, 2, cmDspSysSampleRate(h), frqHz );
  1923. cmDspInst_t* swtp = cmDspSysAllocInst( h, "WaveTable", NULL, 2, ((int)cmDspSysSampleRate(h)), 4);
  1924. cmDspInst_t* fphp = cmDspSysAllocInst( h, "Phasor", NULL, 1, cmDspSysSampleRate(h) );
  1925. cmDspInst_t* fwtp = cmDspSysAllocInst( h, "WaveTable", NULL, 5, ((int)cmDspSysSampleRate(h)), 1, fn, -1, 7000000 );
  1926. cmDspInst_t* fad0 = cmDspSysAllocInst( h, "Xfader", NULL, 3, xfadeChCnt, xfadeMs, xfadeInitFl );
  1927. //cmDspInst_t* prp = cmDspSysAllocInst( h, "Printer", NULL, 1, ">" );
  1928. cmDspInst_t* ao0p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, 0 );
  1929. cmDspInst_t* ao1p = cmDspSysAllocInst(h,"AudioOut", NULL, 1, 1 );
  1930. // phasor->sine->fad-0->aout
  1931. cmDspSysConnectAudio(h, sphp, "out", swtp, "phs" );
  1932. cmDspSysConnectAudio(h, swtp, "out", fad0, "in-0" );
  1933. cmDspSysConnectAudio(h, fad0, "out-0", ao0p, "in" );
  1934. // phasor->file->fad-1->aout
  1935. cmDspSysConnectAudio(h, fphp, "out", fwtp, "phs" );
  1936. cmDspSysConnectAudio(h, fwtp, "out", fad0, "in-1" );
  1937. cmDspSysConnectAudio(h, fad0, "out-1", ao1p, "in" );
  1938. //cmDspSysInstallCb(h, chk0, "out", fad0, "gate-0", NULL);
  1939. //cmDspSysInstallCb(h, chk1, "out", fad0, "gate-1", NULL);
  1940. cmDspSysInstallCb(h, chk0, "sym", achp, "trig", NULL);
  1941. cmDspSysInstallCb(h, achp, "gate-0", fad0, "gate-0", NULL );
  1942. cmDspSysInstallCb(h, fad0, "state-0", achp, "dis-0", NULL );
  1943. cmDspSysInstallCb(h, achp, "gate-1", fad0, "gate-1", NULL );
  1944. cmDspSysInstallCb(h, fad0, "state-1", achp, "dis-1", NULL );
  1945. return kOkDspRC;
  1946. }
  1947. cmDspRC_t _cmDspSysPgm_Goertzel( cmDspSysH_t h, void** userPtrPtr )
  1948. {
  1949. cmDspRC_t rc;
  1950. const unsigned chCnt = 8;
  1951. unsigned hopFact = 2;
  1952. double dfltHz = 18000.0;
  1953. unsigned sigGenMode = 2; // sine
  1954. double sigGenGain = 0.9;
  1955. double dfltMixGain = 1.0/chCnt;
  1956. double fcHzV[chCnt];
  1957. unsigned i;
  1958. for(i=0; i<chCnt; ++i)
  1959. fcHzV[i] = 18000.0 + (20000.0-18000.0) * i /chCnt;
  1960. cmDspInst_t* ain = cmDspSysAllocAudioIn( h, 0, 1.0);
  1961. cmDspInst_t* amtr = cmDspSysAllocInst( h, "AMeter", "In", 0 );
  1962. cmDspInst_t* goer = cmDspSysAllocInst( h, "Goertzel", NULL, 3, hopFact, chCnt, fcHzV );
  1963. cmDspSysNewColumn(h,0);
  1964. cmDspInst_t** mtrV = cmDspSysAllocInstArray(h, chCnt, "Meter", "Mtr", NULL, 3, 0.0, 0.0, 1.0 );
  1965. cmDspInst_t** sgV = cmDspSysAllocInstArray(h, chCnt, "SigGen", "SG", NULL, 2, dfltHz, sigGenMode, sigGenGain, 0 );
  1966. cmDspInst_t* mix = cmDspSysAllocInst( h, "AMix", NULL,1, chCnt );
  1967. cmDspInst_t* ao0 = cmDspSysAllocAudioOut( h, 0, 1.0);
  1968. cmDspInst_t* ao1 = cmDspSysAllocAudioOut( h, 0, 1.0);
  1969. cmDspSysNewColumn(h,0);
  1970. cmDspInst_t** hzV = cmDspSysAllocInstArray( h, chCnt, "Scalar", "Hz", NULL, 5, kNumberDuiId, 0.0, 22000.0, 100.0, dfltHz );
  1971. cmDspSysNewColumn(h,0);
  1972. cmDspInst_t** gnV = cmDspSysAllocInstArray( h, chCnt, "Scalar", "Gain", NULL, 5, kNumberDuiId, 0.0, 1.0, 0.01, dfltMixGain );
  1973. cmDspInst_t* igain = cmDspSysAllocScalar( h, "igain", 0.0, 3.0, 0.01, 1.0 );
  1974. cmDspInst_t* hop = cmDspSysAllocScalar( h, "hop", 0.0, 16.0, 1.0, 4.0 );
  1975. //cmDspInst_t* prnt = cmDspSysAllocInst( h,"Printer", NULL, 1, ">" );
  1976. // check for allocation errors
  1977. if((rc = cmDspSysLastRC(h)) != kOkDspRC )
  1978. goto errLabel;
  1979. cmDspSysConnectAudio(h,ain,"out", goer, "in" );
  1980. cmDspSysConnectAudio(h,ain,"out", amtr, "in" );
  1981. cmDspSysConnectAudioN11N(h,sgV, "out", mix, "in", chCnt );
  1982. cmDspSysConnectAudio(h,mix,"out", ao0, "in" );
  1983. cmDspSysConnectAudio(h,mix,"out", ao1, "in" );
  1984. cmDspSysInstallCb( h, igain, "val", ain, "gain", NULL);
  1985. cmDspSysInstallCbN1N1( h, hzV, "val", sgV, "hz", chCnt);
  1986. cmDspSysInstallCbN11N( h, hzV, "val", goer, "hz", chCnt );
  1987. cmDspSysInstallCbN11N( h, gnV, "val", mix, "gain", chCnt);
  1988. cmDspSysInstallCb1NN1( h, goer, "out", mtrV, "in", chCnt );
  1989. cmDspSysInstallCb( h, hop, "val", goer, "hop", NULL );
  1990. errLabel:
  1991. return rc;
  1992. }
  1993. _cmDspSysPgm_t _cmDspSysPgmArray[] =
  1994. {
  1995. { "time_line", _cmDspSysPgm_TimeLine, NULL, NULL },
  1996. { "goertzel", _cmDspSysPgm_Goertzel, NULL, NULL },
  1997. { "kr_live", _cmDspSysPgm_KrLive, NULL, NULL },
  1998. { "main", _cmDspSysPgm_Main, NULL, NULL },
  1999. { "array", _cmDspSysPgm_Array, NULL, NULL },
  2000. { "line", _cmDspSysPgm_Line, NULL, NULL },
  2001. { "1Up", _cmDspSysPgm_1Up, NULL, NULL },
  2002. { "PortToSym", _cmDspSysPgm_PortToSym, NULL, NULL },
  2003. { "preset", _cmDspSysPgm_Preset, NULL, NULL },
  2004. { "rsrcWr", _cmDspSysPgm_RsrcWr, NULL, NULL },
  2005. { "router", _cmDspSysPgm_Router, NULL, NULL },
  2006. { "1ofN", _cmDspSysPgm_1ofN, NULL, NULL },
  2007. { "NofM", _cmDspSysPgm_NofM, NULL, NULL },
  2008. { "whirl_net", _cmDspSysPgm_WhirlNet, NULL, NULL },
  2009. { "thunk_net", _cmDspSysPgm_ThunkNet, NULL, NULL },
  2010. { "seq", _cmDspSysPgm_Seq, NULL, NULL },
  2011. { "dist_ds", _cmDspSysPgm_DistDs, NULL, NULL },
  2012. { "bi_quad_eq", _cmDspSysPgm_BiQuadEq, NULL, NULL },
  2013. { "compressor", _cmDspSysPgm_Compressor, NULL, NULL },
  2014. { "adsr", _cmDspSysPgm_Adsr, NULL, NULL },
  2015. { "msg delay", _cmDspSysPgm_MsgDelay, NULL, NULL },
  2016. { "pickup rmod2", _cmDspSysPgm_RingMod2, NULL, NULL },
  2017. { "pickup rmod", _cmDspSysPgm_RingMod, NULL, NULL },
  2018. { "pickup tails", _cmDspSysPgm_NoiseTails, NULL, NULL },
  2019. { "tails_2", _cmDspSysPgm_NoiseTails2, NULL, NULL },
  2020. { "pickups", _cmDspSysPgm_Pickups0, NULL, NULL },
  2021. { "sync_recd", _cmDspSysPgm_SyncRecd, NULL, NULL },
  2022. { "midi_test", _cmDspSysPgm_Test_Midi, NULL, NULL },
  2023. { "2_thru", _cmDspSysPgm_Stereo_Through, NULL, NULL },
  2024. { "guitar", _cmDspSysPgmGuitar, NULL, NULL },
  2025. { "2_fx", _cmDspSysPgm_Stereo_Fx, NULL, NULL },
  2026. { "sine", _cmDspSysPgm_PlaySine, NULL, NULL },
  2027. { "file", _cmDspSysPgm_PlayFile, NULL, NULL },
  2028. { "gate_detect", _cmDspSysPgm_GateDetect, NULL, NULL },
  2029. { "record", _cmDspSysPgm_Record, NULL, NULL },
  2030. { "pitch_shift", _cmDspSysPgm_PitchShiftFile, NULL, NULL },
  2031. { "loop_recd", _cmDspSysPgm_LoopRecd, NULL, NULL },
  2032. { "ui_test", _cmDspSysPgm_UiTest, NULL, NULL },
  2033. { "xfade_test", _cmDspSysPgm_Xfade, NULL, NULL },
  2034. { "auto_gain", _cmDspSysPgm_AutoGain, NULL, NULL },
  2035. { "comb filt", _cmDspSysPgm_CombFilt, NULL, NULL },
  2036. { "scalar op", _cmDspSysPgm_ScalarOp, NULL, NULL },
  2037. { "seg_line", _cmDspSysPgm_SegLine, NULL, NULL },
  2038. { "avail_ch", _cmDspSysPgm_AvailCh, NULL, NULL },
  2039. { NULL , NULL, NULL, NULL }
  2040. };
  2041. _cmDspSysPgm_t* _cmDspSysPgmArrayBase()
  2042. {
  2043. return _cmDspSysPgmArray;
  2044. }