libcm is a C development framework with an emphasis on audio signal processing applications.
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cmAudioFile.c 45KB

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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 "cmAudioFile.h"
  10. #include "cmMath.h"
  11. #include "cmFileSys.h"
  12. // #define _24to32_aif( p ) ((int)( ((p[0]>127?255:0) << 24) + (((int)p[0]) << 16) + (((int)p[1]) <<8) + p[2])) // no-swap equivalent
  13. // See note in:_cmAudioFileReadAiffHeader()
  14. // Note that this code byte swaps as it converts - this is to counter the byte swap that occurs in cmAudioFileReadInt().
  15. #define _24to32_aif( p ) ((int)( ((p[0]>127?255:0) << 0) + (((int)p[2]) << 24) + (((int)p[1]) <<16) + (((int)p[0]) << 8)))
  16. #define _24to32_wav( p ) ((int)( ((p[2]>127?255:0) << 24) + (((int)p[2]) << 16) + (((int)p[1]) <<8) + p[0]))
  17. #ifdef cmBIG_ENDIAN
  18. #define _cmAfSwap16(v) (v)
  19. #define _cmAfSwap32(v) (v)
  20. #define _cmAifSwapFl (0)
  21. #define _cmWavSwapFl (1)
  22. #else
  23. #define _cmAfSwap16(v) cmSwap16(v)
  24. #define _cmAfSwap32(v) cmSwap32(v)
  25. #define _cmAifSwapFl (1)
  26. #define _cmWavSwapFl (0)
  27. #endif
  28. enum
  29. {
  30. kAiffFileId = 'FORM',
  31. kAiffChkId = 'AIFF',
  32. kAifcChkId = 'AIFC',
  33. kSowtCompId = 'sowt',
  34. kNoneCompId = 'NONE',
  35. kWavFileId = 'FFIR',
  36. kWavChkId = 'EVAW',
  37. };
  38. enum { kWriteAudioGutsFl=0x01 };
  39. typedef struct
  40. {
  41. unsigned rc;
  42. const char* msg;
  43. } cmAudioErrRecd;
  44. typedef struct
  45. {
  46. cmErr_t err;
  47. FILE* fp; // file handle
  48. cmAudioFileInfo_t info; // audio file details
  49. unsigned curFrmIdx; // current frame offset
  50. unsigned fileByteCnt; // file byte cnt
  51. unsigned smpByteOffs; // byte offset of the first sample
  52. cmAudioFileMarker_t* markArray;
  53. unsigned flags;
  54. cmChar_t* fn;
  55. } cmAudioFileGuts;
  56. cmAudioErrRecd _cmAudioFileErrArray[] =
  57. {
  58. { kOkAfRC, "No Error." },
  59. { kOpenFailAfRC, "Audio file open failed."},
  60. { kReadFailAfRC, "Audio file read failed."},
  61. { kWriteFailAfRC, "Audio file write failed."},
  62. { kSeekFailAfRC, "Audio file seek failed."},
  63. { kCloseFailAfRC, "Audio file close failed."},
  64. { kNotAiffAfRC, "Not an audio file."},
  65. { kInvalidBitWidthAfRC, "Invalid audio file bit width."},
  66. { kInvalidFileModeAfRC, "Invalid audio file mode."},
  67. { kInvalidHandleAfRC, "Invalid audio file handle."},
  68. { kUnknownErrAfRC, "Uknown audio file error."}
  69. };
  70. cmAudioFileH_t cmNullAudioFileH = { NULL };
  71. cmAudioFileGuts* _cmAudioFileGutsPtr( cmAudioFileH_t h )
  72. {
  73. cmAudioFileGuts* p = (cmAudioFileGuts*)h.h;
  74. if( p == NULL )
  75. assert(p!=NULL);
  76. return p;
  77. }
  78. cmRC_t _cmAudioFileError( cmAudioFileGuts* p, cmRC_t rc )
  79. {
  80. if( rc > kUnknownErrAfRC )
  81. rc = kUnknownErrAfRC;
  82. cmErrMsg(&p->err,rc,"%s Error:%s",cmStringNullGuard(p->fn),_cmAudioFileErrArray[rc].msg);
  83. return rc;
  84. }
  85. cmAudioFileGuts* _cmAudioFileValidate( cmAudioFileH_t h, cmRC_t* rcPtr, bool writeFl )
  86. {
  87. *rcPtr = kOkAfRC;
  88. cmAudioFileGuts* p = _cmAudioFileGutsPtr(h);
  89. if( p == NULL )
  90. *rcPtr = kInvalidHandleAfRC;
  91. else
  92. if( cmIsFlag(p->flags,kWriteAudioGutsFl) != writeFl )
  93. *rcPtr = _cmAudioFileError( p, kInvalidFileModeAfRC );
  94. return *rcPtr == kOkAfRC ? p : NULL;
  95. }
  96. cmAudioFileGuts* _cmAudioFileReadGutsPtr( cmAudioFileH_t h, cmRC_t* rcPtr )
  97. { return _cmAudioFileValidate( h, rcPtr, false ); }
  98. cmAudioFileGuts* _cmAudioFileWriteGutsPtr( cmAudioFileH_t h, cmRC_t* rcPtr )
  99. { return _cmAudioFileValidate( h, rcPtr, true ); }
  100. cmRC_t _cmAudioFileSeek( cmAudioFileGuts* p, long byteOffset, int origin )
  101. {
  102. if( fseek(p->fp,byteOffset,origin) != 0 )
  103. return _cmAudioFileError(p,kSeekFailAfRC);
  104. return kOkAfRC;
  105. }
  106. cmRC_t _cmAudioFileRead( cmAudioFileGuts* p, void* eleBuf, unsigned bytesPerEle, unsigned eleCnt )
  107. {
  108. if( fread(eleBuf,bytesPerEle,eleCnt,p->fp) != eleCnt )
  109. return _cmAudioFileError(p,kReadFailAfRC);
  110. return kOkAfRC;
  111. }
  112. cmRC_t _cmAudioFileReadUInt32( cmAudioFileGuts* p, cmUInt32_t* valuePtr )
  113. {
  114. cmRC_t rc;
  115. if(( rc = _cmAudioFileRead(p, valuePtr, sizeof(*valuePtr), 1 )) != kOkAfRC )
  116. return rc;
  117. if( cmIsFlag(p->info.flags,kSwapAfFl) )
  118. *valuePtr = _cmAfSwap32(*valuePtr);
  119. return rc;
  120. }
  121. cmRC_t _cmAudioFileReadUInt16( cmAudioFileGuts* p, cmUInt16_t* valuePtr )
  122. {
  123. cmRC_t rc;
  124. if(( rc = _cmAudioFileRead(p, valuePtr, sizeof(*valuePtr), 1 )) != kOkAfRC )
  125. return rc;
  126. if( cmIsFlag(p->info.flags,kSwapAfFl) )
  127. *valuePtr = _cmAfSwap16(*valuePtr);
  128. return rc;
  129. }
  130. cmRC_t _cmAudioFileReadPascalString( cmAudioFileGuts* p, char s[kAudioFileLabelCharCnt] )
  131. {
  132. cmRC_t rc;
  133. unsigned char n;
  134. if((rc = _cmAudioFileRead(p,&n,sizeof(n),1)) != kOkAfRC )
  135. return rc;
  136. if((rc = _cmAudioFileRead(p,s,n,1)) != kOkAfRC )
  137. return rc;
  138. s[n] = '\0';
  139. if( n % 2 == 0 )
  140. rc = _cmAudioFileSeek(p,1,SEEK_CUR);
  141. return rc;
  142. }
  143. cmRC_t _cmAudioFileReadString( cmAudioFileGuts* p, char* s, unsigned sn )
  144. {
  145. cmRC_t rc;
  146. if((rc = _cmAudioFileRead(p,s,sn,1)) != kOkAfRC )
  147. return rc;
  148. return kOkAfRC;
  149. }
  150. cmRC_t _cmAudioFileReadX80( cmAudioFileGuts* p, double* x80Ptr )
  151. {
  152. unsigned char s[10];
  153. cmRC_t rc = kOkAfRC;
  154. if((rc = _cmAudioFileRead(p,s,10,1)) != kOkAfRC )
  155. return rc;
  156. *x80Ptr = cmX80ToDouble(s);
  157. return kOkAfRC;
  158. }
  159. cmRC_t _cmAudioFileReadChunkHdr( cmAudioFileGuts* p, cmUInt32_t* chkIdPtr, unsigned* chkByteCntPtr )
  160. {
  161. cmRC_t rc = kOkAfRC;
  162. *chkIdPtr = 0;
  163. *chkByteCntPtr = 0;
  164. if((rc = _cmAudioFileReadUInt32(p,chkIdPtr)) != kOkAfRC )
  165. return rc;
  166. if((rc = _cmAudioFileReadUInt32(p,chkByteCntPtr)) != kOkAfRC )
  167. return rc;
  168. // the actual on disk chunk size is always incrmented up to the next even integer
  169. *chkByteCntPtr += (*chkByteCntPtr) % 2;
  170. return rc;
  171. }
  172. cmRC_t _cmAudioFileReadAiffHeader( cmAudioFileGuts* p, unsigned constFormId, unsigned constAifId, bool swapFl )
  173. {
  174. cmRC_t rc = kOkAfRC;
  175. cmUInt32_t formId = 0;
  176. cmUInt32_t aifId = 0;
  177. unsigned chkByteCnt = 0;
  178. p->info.flags = 0;
  179. p->curFrmIdx = 0;
  180. p->fileByteCnt = 0;
  181. if((rc = _cmAudioFileSeek(p,0,SEEK_SET)) != kOkAfRC )
  182. return rc;
  183. // set the swap flags
  184. p->info.flags = cmEnaFlag(p->info.flags,kSwapAfFl, swapFl);
  185. p->info.flags = cmEnaFlag(p->info.flags,kSwapSamplesAfFl,swapFl);
  186. if((rc = _cmAudioFileReadChunkHdr(p,&formId,&p->fileByteCnt)) != kOkAfRC )
  187. return rc;
  188. //
  189. // use -Wno-multichar on GCC cmd line to disable the multi-char warning
  190. //
  191. // check the FORM/RIFF id
  192. if( formId != constFormId )
  193. return kNotAiffAfRC;
  194. // read the AIFF/WAVE id
  195. if((rc = _cmAudioFileReadChunkHdr(p,&aifId,&chkByteCnt)) != kOkAfRC )
  196. return rc;
  197. // check for the AIFC
  198. if( formId == kAiffFileId && aifId != constAifId )
  199. {
  200. if( aifId == kAifcChkId )
  201. p->info.flags = cmSetFlag(p->info.flags,kAifcAfFl);
  202. else
  203. return kNotAiffAfRC;
  204. }
  205. // set the audio file type flag
  206. if( aifId==kAiffChkId || aifId==kAifcChkId )
  207. p->info.flags = cmSetFlag(p->info.flags,kAiffAfFl);
  208. if( aifId==kWavChkId )
  209. p->info.flags = cmSetFlag(p->info.flags,kWavAfFl);
  210. return rc;
  211. }
  212. cmRC_t _cmAudioFileReadCommChunk( cmAudioFileGuts* p )
  213. {
  214. cmRC_t rc = kOkAfRC;
  215. cmUInt16_t ui16;
  216. cmUInt32_t ui32;
  217. if((rc = _cmAudioFileReadUInt16(p,&ui16)) != kOkAfRC )
  218. return rc;
  219. p->info.chCnt = ui16;
  220. if((rc = _cmAudioFileReadUInt32(p,&ui32)) != kOkAfRC )
  221. return rc;
  222. p->info.frameCnt = ui32;
  223. if((rc = _cmAudioFileReadUInt16(p,&ui16)) != kOkAfRC )
  224. return rc;
  225. p->info.bits = ui16;
  226. if((rc = _cmAudioFileReadX80(p,&p->info.srate)) != kOkAfRC )
  227. return rc;
  228. // if this is an AIFC format file ...
  229. if( cmIsFlag(p->info.flags,kAifcAfFl) )
  230. {
  231. if((rc = _cmAudioFileReadUInt32(p,&ui32)) != kOkAfRC )
  232. return rc;
  233. switch( ui32 )
  234. {
  235. case kNoneCompId:
  236. break;
  237. case kSowtCompId:
  238. // If the compression type is set to 'swot'
  239. // then the samples are written in little-endian (Intel) format
  240. // rather than the default big-endian format.
  241. p->info.flags = cmTogFlag(p->info.flags,kSwapSamplesAfFl);
  242. break;
  243. default:
  244. rc = _cmAudioFileError(p,kNotAiffAfRC );
  245. }
  246. }
  247. return rc;
  248. }
  249. cmRC_t _cmAudioFileReadSsndChunk( cmAudioFileGuts* p )
  250. {
  251. cmRC_t rc = kOkAfRC;
  252. cmUInt32_t smpOffs=0, smpBlkSize=0;
  253. if((rc = _cmAudioFileReadUInt32(p,&smpOffs)) != kOkAfRC )
  254. return rc;
  255. if((rc = _cmAudioFileReadUInt32(p,&smpBlkSize)) != kOkAfRC )
  256. return rc;
  257. if((rc = _cmAudioFileSeek(p,smpOffs, SEEK_CUR)) != kOkAfRC )
  258. return rc;
  259. p->smpByteOffs = ftell(p->fp);
  260. return rc;
  261. }
  262. cmRC_t _cmAudioFileReadMarkerChunk( cmAudioFileGuts* p )
  263. {
  264. cmRC_t rc = kOkAfRC;
  265. cmUInt16_t ui16;
  266. cmUInt32_t ui32;
  267. unsigned i;
  268. if((rc = _cmAudioFileReadUInt16(p,&ui16)) != kOkAfRC )
  269. return rc;
  270. p->info.markerCnt = ui16;
  271. assert(p->markArray == NULL);
  272. cmAudioFileMarker_t* m = cmMemAllocZ(cmAudioFileMarker_t,p->info.markerCnt);
  273. p->info.markerArray = m;
  274. for(i=0; i<p->info.markerCnt; ++i)
  275. {
  276. if((rc = _cmAudioFileReadUInt16(p,&ui16)) != kOkAfRC )
  277. return rc;
  278. m[i].id = ui16;
  279. if((rc = _cmAudioFileReadUInt32(p,&ui32)) != kOkAfRC )
  280. return rc;
  281. m[i].frameIdx = ui32;
  282. if((rc = _cmAudioFileReadPascalString(p,m[i].label)) != kOkAfRC )
  283. return rc;
  284. }
  285. return rc;
  286. }
  287. cmRC_t _cmAudioFileReadFmtChunk( cmAudioFileGuts* p )
  288. {
  289. cmRC_t rc = kOkAfRC;
  290. unsigned short fmtId, chCnt, blockAlign, bits;
  291. unsigned srate, bytesPerSec;
  292. if((rc = _cmAudioFileReadUInt16(p,&fmtId)) != kOkAfRC )
  293. return rc;
  294. if((rc = _cmAudioFileReadUInt16(p,&chCnt)) != kOkAfRC )
  295. return rc;
  296. if((rc = _cmAudioFileReadUInt32(p,&srate)) != kOkAfRC )
  297. return rc;
  298. if((rc = _cmAudioFileReadUInt32(p,&bytesPerSec)) != kOkAfRC )
  299. return rc;
  300. if((rc = _cmAudioFileReadUInt16(p,&blockAlign)) != kOkAfRC )
  301. return rc;
  302. if((rc = _cmAudioFileReadUInt16(p,&bits)) != kOkAfRC )
  303. return rc;
  304. p->info.chCnt = chCnt;
  305. p->info.bits = bits;
  306. p->info.srate = srate;
  307. // if the 'data' chunk was read before the 'fmt' chunk then info.frameCnt
  308. // holds the number of bytes in the data chunk
  309. if( p->info.frameCnt != 0 )
  310. p->info.frameCnt = p->info.frameCnt / (p->info.chCnt * p->info.bits/8);
  311. return rc;
  312. }
  313. cmRC_t _cmAudioFileReadDatcmhunk( cmAudioFileGuts* p, unsigned chkByteCnt )
  314. {
  315. // if the 'fmt' chunk was read before the 'data' chunk then info.chCnt is non-zero
  316. if( p->info.chCnt != 0 )
  317. p->info.frameCnt = chkByteCnt / (p->info.chCnt * p->info.bits/8);
  318. else
  319. p->info.frameCnt = chkByteCnt;
  320. p->smpByteOffs = ftell(p->fp);
  321. return kOkAfRC;
  322. }
  323. cmRC_t _cmAudioFileReadBextChunk( cmAudioFileGuts* p)
  324. {
  325. cmRC_t rc = kOkAfRC;
  326. if((rc = _cmAudioFileReadString(p,p->info.bextRecd.desc,kAfBextDescN)) != kOkAfRC )
  327. return rc;
  328. if((rc = _cmAudioFileReadString(p,p->info.bextRecd.origin,kAfBextOriginN)) != kOkAfRC )
  329. return rc;
  330. if((rc = _cmAudioFileReadString(p,p->info.bextRecd.originRef,kAfBextOriginRefN)) != kOkAfRC )
  331. return rc;
  332. if((rc = _cmAudioFileReadString(p,p->info.bextRecd.originDate,kAfBextOriginDateN)) != kOkAfRC )
  333. return rc;
  334. if((rc = _cmAudioFileReadString(p,p->info.bextRecd.originTime,kAfBextOriginTimeN)) != kOkAfRC )
  335. return rc;
  336. if((rc = _cmAudioFileReadUInt32(p,&p->info.bextRecd.timeRefLow)) != kOkAfRC )
  337. return rc;
  338. if((rc = _cmAudioFileReadUInt32(p,&p->info.bextRecd.timeRefHigh)) != kOkAfRC )
  339. return rc;
  340. return rc;
  341. }
  342. cmAudioFileH_t cmAudioFileNewOpen( const cmChar_t* fn, cmAudioFileInfo_t* afInfoPtr, cmRC_t* rcPtr, cmRpt_t* rpt )
  343. {
  344. cmAudioFileH_t h;
  345. cmRC_t rc = kOkAfRC;
  346. h.h = cmMemAllocZ( cmAudioFileGuts, 1 );
  347. cmErrSetup(&((cmAudioFileGuts*)h.h)->err,rpt,"Audio File");
  348. if( fn != NULL )
  349. if((rc = cmAudioFileOpen(h,fn,afInfoPtr)) != kOkAfRC )
  350. {
  351. if( rcPtr != NULL )
  352. *rcPtr = rc;
  353. cmAudioFileDelete(&h);
  354. }
  355. if( rcPtr != NULL )
  356. *rcPtr = rc;
  357. return h;
  358. }
  359. cmAudioFileH_t cmAudioFileNewCreate( const cmChar_t* fn, double srate, unsigned bits, unsigned chCnt, cmRC_t* rcPtr, cmRpt_t* rpt )
  360. {
  361. cmAudioFileH_t h;
  362. cmRC_t rc = kOkAfRC;
  363. h.h = cmMemAllocZ(cmAudioFileGuts,1);
  364. cmErrSetup(&((cmAudioFileGuts*)h.h)->err,rpt,"Audio File");
  365. if( fn != NULL )
  366. if((rc = cmAudioFileCreate(h,fn,srate,bits,chCnt)) != kOkAfRC )
  367. {
  368. if( rcPtr != NULL )
  369. *rcPtr = rc;
  370. cmAudioFileDelete(&h);
  371. }
  372. if( rcPtr != NULL )
  373. *rcPtr = rc;
  374. return h;
  375. }
  376. cmRC_t cmAudioFileOpen( cmAudioFileH_t h, const cmChar_t* fn, cmAudioFileInfo_t* infoPtr )
  377. {
  378. cmRC_t rc = kOkAfRC;
  379. cmAudioFileGuts* p = _cmAudioFileGutsPtr(h);
  380. // verify the file is closed before opening
  381. if( cmAudioFileIsOpen(h) )
  382. if((rc = cmAudioFileClose(&h)) != kOkAfRC )
  383. return rc;
  384. // zero the info record
  385. memset(&p->info,0,sizeof(p->info));
  386. // open the file
  387. if((p->fp = fopen(fn,"rb")) == NULL )
  388. {
  389. p->fn = (cmChar_t*)fn; // set the file name so that the error msg can use it
  390. rc = _cmAudioFileError(p,kOpenFailAfRC);
  391. p->fn = NULL;
  392. goto errLabel;
  393. }
  394. // read the file header
  395. if((rc = _cmAudioFileReadAiffHeader(p,kAiffFileId,kAiffChkId,_cmAifSwapFl)) != kOkAfRC )
  396. if((rc = _cmAudioFileReadAiffHeader(p,kWavFileId,kWavChkId,_cmWavSwapFl)) != kOkAfRC )
  397. goto errLabel;
  398. // seek past the file header
  399. if((rc = _cmAudioFileSeek(p,12,SEEK_SET)) != kOkAfRC )
  400. goto errLabel;
  401. // zero chCnt and frameCnt to allow the order of the 'data' and 'fmt' chunks to be noticed
  402. p->info.chCnt = 0;
  403. p->info.frameCnt = 0;
  404. while( ftell(p->fp ) < p->fileByteCnt )
  405. {
  406. unsigned chkId, chkByteCnt;
  407. if((rc = _cmAudioFileReadChunkHdr(p,&chkId,&chkByteCnt)) != kOkAfRC )
  408. goto errLabel;
  409. unsigned offs = ftell(p->fp);
  410. if( cmIsFlag(p->info.flags,kAiffAfFl) )
  411. switch(chkId)
  412. {
  413. case 'COMM':
  414. if((rc = _cmAudioFileReadCommChunk(p)) != kOkAfRC )
  415. goto errLabel;
  416. break;
  417. case 'SSND':
  418. if((rc = _cmAudioFileReadSsndChunk(p)) != kOkAfRC )
  419. goto errLabel;
  420. break;
  421. case 'MARK':
  422. if((rc = _cmAudioFileReadMarkerChunk(p)) != kOkAfRC )
  423. goto errLabel;
  424. break;
  425. }
  426. else
  427. switch(chkId)
  428. {
  429. case ' tmf':
  430. if((rc = _cmAudioFileReadFmtChunk(p)) != kOkAfRC )
  431. goto errLabel;
  432. break;
  433. case 'atad':
  434. if((rc = _cmAudioFileReadDatcmhunk(p,chkByteCnt)) != kOkAfRC )
  435. goto errLabel;
  436. break;
  437. case 'txeb':
  438. if((rc = _cmAudioFileReadBextChunk(p)) != kOkAfRC )
  439. goto errLabel;
  440. break;
  441. }
  442. // seek to the end of this chunk
  443. if((rc = _cmAudioFileSeek(p,offs+chkByteCnt,SEEK_SET)) != kOkAfRC )
  444. goto errLabel;
  445. }
  446. // seek to the first sample offset
  447. if((rc = _cmAudioFileSeek(p,p->smpByteOffs,SEEK_SET)) != kOkAfRC )
  448. goto errLabel;
  449. p->fn = cmMemResize( char, p->fn, strlen(fn)+1 );
  450. strcpy(p->fn,fn);
  451. if( infoPtr != NULL)
  452. memcpy(infoPtr,&p->info,sizeof(*infoPtr));
  453. return rc;
  454. errLabel:
  455. cmAudioFileClose(&h);
  456. return rc;
  457. }
  458. cmRC_t _cmAudioFileWriteBytes( cmAudioFileGuts* p, const void* b, unsigned bn )
  459. {
  460. cmRC_t rc = kOkAfRC;
  461. if( fwrite( b, bn, 1, p->fp ) != 1 )
  462. return _cmAudioFileError(p,kWriteFailAfRC);
  463. return rc;
  464. }
  465. cmRC_t _cmAudioFileWriteId( cmAudioFileGuts* p, const char* s )
  466. { return _cmAudioFileWriteBytes( p, s, strlen(s)) ; }
  467. cmRC_t _cmAudioFileWriteUInt32( cmAudioFileGuts* p, unsigned v )
  468. {
  469. v = _cmAfSwap32(v);
  470. return _cmAudioFileWriteBytes( p, &v, sizeof(v)) ;
  471. }
  472. cmRC_t _cmAudioFileWriteUInt16( cmAudioFileGuts* p, unsigned short v )
  473. {
  474. v = _cmAfSwap16(v);
  475. return _cmAudioFileWriteBytes( p, &v, sizeof(v)) ;
  476. }
  477. cmRC_t _cmAudioFileWriteHdr( cmAudioFileGuts* p )
  478. {
  479. cmRC_t rc = kOkAfRC;
  480. unsigned char srateX80[10];
  481. cmDoubleToX80( p->info.srate, srateX80 );
  482. unsigned hdrByteCnt = 54;
  483. unsigned ssndByteCnt = 8 + (p->info.chCnt * p->info.frameCnt * (p->info.bits/8));
  484. unsigned formByteCnt = hdrByteCnt + ssndByteCnt - 8;
  485. unsigned commByteCnt = 18;
  486. unsigned ssndSmpOffs = 0;
  487. unsigned ssndBlkSize = 0;
  488. if( cmIsOddU( ssndByteCnt ) )
  489. {
  490. formByteCnt++;
  491. }
  492. if(( rc = _cmAudioFileSeek( p, 0, SEEK_SET )) != kOkAfRC )
  493. return rc;
  494. if(( rc = _cmAudioFileWriteId( p, "FORM")) != kOkAfRC ) return rc;
  495. if(( rc = _cmAudioFileWriteUInt32( p, formByteCnt)) != kOkAfRC ) return rc;
  496. if(( rc = _cmAudioFileWriteId( p, "AIFF")) != kOkAfRC ) return rc;
  497. if(( rc = _cmAudioFileWriteId( p, "COMM")) != kOkAfRC ) return rc;
  498. if(( rc = _cmAudioFileWriteUInt32( p, commByteCnt)) != kOkAfRC ) return rc;
  499. if(( rc = _cmAudioFileWriteUInt16( p, p->info.chCnt)) != kOkAfRC ) return rc;
  500. if(( rc = _cmAudioFileWriteUInt32( p, p->info.frameCnt)) != kOkAfRC ) return rc;
  501. if(( rc = _cmAudioFileWriteUInt16( p, p->info.bits)) != kOkAfRC ) return rc;
  502. if(( rc = _cmAudioFileWriteBytes( p, &srateX80,10)) != kOkAfRC ) return rc;
  503. if(( rc = _cmAudioFileWriteId( p, "SSND")) != kOkAfRC ) return rc;
  504. if(( rc = _cmAudioFileWriteUInt32( p, ssndByteCnt)) != kOkAfRC ) return rc;
  505. if(( rc = _cmAudioFileWriteUInt32( p, ssndSmpOffs)) != kOkAfRC ) return rc;
  506. if(( rc = _cmAudioFileWriteUInt32( p, ssndBlkSize)) != kOkAfRC ) return rc;
  507. return rc;
  508. }
  509. cmRC_t cmAudioFileCreate( cmAudioFileH_t h, const cmChar_t* fn, double srate, unsigned bits, unsigned chCnt )
  510. {
  511. cmRC_t rc = kOkAfRC;
  512. cmAudioFileGuts* p = _cmAudioFileGutsPtr(h);
  513. cmFileSysPathPart_t* pp = NULL;
  514. // verify the file is closed before opening
  515. if( cmAudioFileIsOpen(h) )
  516. if((rc = cmAudioFileClose(&h)) != kOkAfRC )
  517. return rc;
  518. // all audio files are written as AIF's - if the file name is given some other extension then issue a warning
  519. if( strlen(fn) && ((pp = cmFsPathParts(fn)) != NULL) )
  520. {
  521. unsigned i;
  522. unsigned n = strlen(pp->extStr);
  523. cmChar_t ext[n+1];
  524. strcpy(ext,pp->extStr);
  525. // convert the extension to upper case
  526. for(i=0; i<n; ++i)
  527. ext[i] = toupper(ext[i]);
  528. if( strcmp(ext,"AIF") && strcmp(ext,"AIFF") )
  529. cmRptPrintf(p->err.rpt,"The AIF audio file '%s' is being written with a file extension other than 'AIF' or 'AIFF'.");
  530. cmFsFreePathParts(pp);
  531. }
  532. // open the file
  533. if((p->fp = fopen(fn,"wb")) == NULL )
  534. {
  535. p->fn = (cmChar_t*)fn; // set the file name so that the error msg can use it
  536. rc = _cmAudioFileError(p,kOpenFailAfRC);
  537. p->fn = NULL;
  538. goto errLabel;
  539. }
  540. p->fn = cmMemResize( char, p->fn, strlen(fn)+1 );
  541. p->info.srate = srate;
  542. p->info.bits = bits;
  543. p->info.chCnt = chCnt;
  544. p->info.frameCnt = 0;
  545. p->flags = kWriteAudioGutsFl;
  546. strcpy(p->fn,fn);
  547. if((rc = _cmAudioFileWriteHdr( p )) != kOkAfRC )
  548. goto errLabel;
  549. return rc;
  550. errLabel:
  551. cmAudioFileClose(&h);
  552. return rc;
  553. }
  554. cmRC_t cmAudioFileClose( cmAudioFileH_t* h )
  555. {
  556. assert( h != NULL);
  557. cmAudioFileGuts* p = _cmAudioFileGutsPtr(*h);
  558. cmRC_t rc = kOkAfRC;
  559. if( p->fp == NULL )
  560. return kOkAfRC;
  561. if( cmIsFlag( p->flags, kWriteAudioGutsFl ) )
  562. if((rc = _cmAudioFileWriteHdr(p)) != kOkAfRC )
  563. return rc;
  564. if( fclose(p->fp) != 0 )
  565. rc = _cmAudioFileError(p,kCloseFailAfRC);
  566. else
  567. {
  568. p->fp = NULL;
  569. cmMemPtrFree( &(p->info.markerArray));
  570. memset(&p->info,0,sizeof(p->info));
  571. }
  572. return rc;
  573. }
  574. cmRC_t cmAudioFileDelete( cmAudioFileH_t* h)
  575. {
  576. assert(h!=NULL);
  577. cmRC_t rc = kOkAfRC;
  578. // prevent double deletes
  579. if( h->h == NULL )
  580. return kOkAfRC;
  581. cmAudioFileGuts* p = _cmAudioFileGutsPtr(*h);
  582. if( p->fp != NULL )
  583. rc = cmAudioFileClose(h);
  584. cmMemPtrFree(&p->fn);
  585. cmMemPtrFree(&(h->h));
  586. return rc;
  587. }
  588. bool cmAudioFileIsValid( cmAudioFileH_t h )
  589. { return h.h != NULL; }
  590. bool cmAudioFileIsOpen( cmAudioFileH_t h )
  591. {
  592. if( !cmAudioFileIsValid(h) )
  593. return false;
  594. return _cmAudioFileGutsPtr(h)->fp != NULL;
  595. }
  596. bool cmAudioFileIsEOF( cmAudioFileH_t h )
  597. {
  598. cmRC_t rc = kOkAfRC;
  599. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  600. return (rc != kOkAfRC) || (p==NULL) || (p->curFrmIdx >= p->info.frameCnt) || (p->fp==NULL) || feof(p->fp) ? true : false;
  601. }
  602. unsigned cmAudioFileTell( cmAudioFileH_t h )
  603. {
  604. cmRC_t rc = kOkAfRC;
  605. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  606. return (rc==kOkAfRC && p!=NULL) ? p->curFrmIdx : cmInvalidIdx;
  607. }
  608. cmRC_t cmAudioFileSeek( cmAudioFileH_t h, unsigned frmIdx )
  609. {
  610. cmRC_t rc = kOkAfRC;
  611. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  612. if( rc != kOkAfRC )
  613. return rc;
  614. if((rc = _cmAudioFileSeek(p,p->smpByteOffs + (frmIdx * p->info.chCnt * (p->info.bits/8)), SEEK_SET)) != kOkAfRC )
  615. return rc;
  616. p->curFrmIdx = frmIdx;
  617. return rc;
  618. }
  619. cmRC_t _cmAudioFileReadInt( cmAudioFileH_t h, unsigned totalFrmCnt, unsigned chIdx, unsigned chCnt, int* buf[], unsigned* actualFrmCntPtr, bool sumFl )
  620. {
  621. cmRC_t rc = kOkAfRC;
  622. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  623. if( rc != kOkAfRC )
  624. return rc;
  625. if( actualFrmCntPtr != NULL )
  626. *actualFrmCntPtr = 0;
  627. unsigned bps = p->info.bits / 8; // bytes per sample
  628. unsigned bpf = bps * p->info.chCnt; // bytes per file frame
  629. unsigned bufFrmCnt = cmMin(totalFrmCnt,cmAudioFile_MAX_FRAME_READ_CNT);
  630. unsigned bytesPerBuf = bufFrmCnt * bpf;
  631. unsigned char fbuf[ bytesPerBuf ]; // raw bytes buffer
  632. unsigned ci;
  633. unsigned frmCnt = 0;
  634. unsigned totalReadFrmCnt;
  635. int* ptrBuf[ chCnt ];
  636. for(ci=0; ci<chCnt; ++ci)
  637. ptrBuf[ci] = buf[ci];
  638. for(totalReadFrmCnt=0; totalReadFrmCnt<totalFrmCnt; totalReadFrmCnt+=frmCnt )
  639. {
  640. // don't read past the end of the file or past the end of the buffer
  641. frmCnt = cmMin( p->info.frameCnt - p->curFrmIdx, cmMin( totalFrmCnt-totalReadFrmCnt, bufFrmCnt ));
  642. // read the file frmCnt sample
  643. if((rc = _cmAudioFileRead(p,fbuf,frmCnt*bpf,1)) != kOkAfRC )
  644. return rc;
  645. if( actualFrmCntPtr != NULL )
  646. *actualFrmCntPtr += frmCnt;
  647. assert( chIdx+chCnt <= p->info.chCnt );
  648. for(ci=0; ci<chCnt; ++ci)
  649. {
  650. unsigned char* sp = fbuf + (ci+chIdx)*bps;
  651. int* dp = ptrBuf[ci];
  652. int* ep = dp + frmCnt;
  653. if( !sumFl )
  654. memset(dp,0,frmCnt*sizeof(int));
  655. // 8 bit AIF files use 'signed char' and WAV files use 'unsigned char' for the sample data type.
  656. if( p->info.bits == 8 )
  657. {
  658. if( cmIsFlag(p->info.flags,kAiffAfFl) )
  659. {
  660. for(; dp<ep; sp+=bpf,++dp)
  661. *dp += *(char*)sp;
  662. }
  663. else
  664. {
  665. for(; dp<ep; sp+=bpf,++dp)
  666. {
  667. int v = *(unsigned char*)sp;
  668. *dp += v -= 128;
  669. }
  670. }
  671. }
  672. // handle non-8 bit files here
  673. if( cmIsFlag(p->info.flags,kSwapSamplesAfFl) )
  674. {
  675. switch( p->info.bits )
  676. {
  677. case 8:
  678. break;
  679. case 16:
  680. for(; dp<ep; sp+=bpf,++dp)
  681. *dp += (short)_cmAfSwap16(*(short*)sp);
  682. break;
  683. case 24:
  684. if( cmIsFlag(p->info.flags,kAiffAfFl) )
  685. {
  686. for(; dp<ep; sp+=bpf,++dp)
  687. *dp += (int)(_cmAfSwap32(_24to32_aif(sp)));
  688. }
  689. else
  690. {
  691. for(; dp<ep; sp+=bpf,++dp)
  692. *dp += (int)(_cmAfSwap32(_24to32_wav(sp)));
  693. }
  694. break;
  695. case 32:
  696. for(; dp<ep; sp+=bpf,++dp)
  697. *dp += (int)_cmAfSwap32(*(int*)sp );
  698. break;
  699. }
  700. }
  701. else
  702. {
  703. switch(p->info.bits)
  704. {
  705. case 8:
  706. break;
  707. case 16:
  708. for(; dp<ep; sp+=bpf,++dp)
  709. *dp += *(short*)sp;
  710. break;
  711. case 24:
  712. if( cmIsFlag(p->info.flags,kAiffAfFl) )
  713. {
  714. for(; dp<ep; sp+=bpf,++dp)
  715. *dp += _24to32_aif(sp);
  716. }
  717. else
  718. {
  719. for(; dp<ep; sp+=bpf,++dp)
  720. *dp += _24to32_wav(sp);
  721. }
  722. break;
  723. case 32:
  724. for(; dp<ep; sp+=bpf,++dp)
  725. *dp += *(int*)sp;
  726. break;
  727. }
  728. ptrBuf[ci] = dp;
  729. assert( dp <= buf[ci] + totalFrmCnt );
  730. }
  731. /*
  732. dp = ptrBuf[ci];
  733. ep = dp + frmCnt;
  734. while(dp<ep)
  735. sum += (double)*dp++;
  736. */
  737. }
  738. p->curFrmIdx += frmCnt;
  739. }
  740. if( totalReadFrmCnt < totalFrmCnt )
  741. {
  742. for(ci=0; ci<chCnt; ++ci)
  743. memset(buf[ci] + frmCnt,0,(totalFrmCnt-totalReadFrmCnt)*sizeof(int));
  744. }
  745. //if( actualFrmCntPtr != NULL )
  746. // *actualFrmCntPtr = totalReadFrmCnt;
  747. //printf("SUM: %f %f swap:%i\n", sum, sum/(totalFrmCnt*chCnt), cmIsFlag(p->info.flags,kSwapAfFl));
  748. return rc;
  749. }
  750. cmRC_t _cmAudioFileReadRealSamples( cmAudioFileH_t h, unsigned totalFrmCnt, unsigned chIdx, unsigned chCnt, float** fbuf, double** dbuf, unsigned* actualFrmCntPtr, bool sumFl )
  751. {
  752. cmRC_t rc = kOkAfRC;
  753. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  754. if( rc != kOkAfRC )
  755. return rc;
  756. if( actualFrmCntPtr != NULL )
  757. *actualFrmCntPtr = 0;
  758. unsigned totalReadCnt = 0;
  759. unsigned bufFrmCnt = cmMin( totalFrmCnt, cmAudioFile_MAX_FRAME_READ_CNT );
  760. unsigned bufSmpCnt = bufFrmCnt * chCnt;
  761. float fltMaxSmpVal = 0;
  762. int buf[ bufSmpCnt ];
  763. int* ptrBuf[ chCnt ];
  764. float* fPtrBuf[ chCnt ];
  765. double* dPtrBuf[ chCnt ];
  766. unsigned i;
  767. unsigned frmCnt = 0;
  768. switch( p->info.bits )
  769. {
  770. case 8: fltMaxSmpVal = 0x80; break;
  771. case 16: fltMaxSmpVal = 0x8000; break;
  772. case 24: fltMaxSmpVal = 0x800000; break;
  773. case 32: fltMaxSmpVal = 0x80000000; break;
  774. default:
  775. return _cmAudioFileError(p,kInvalidBitWidthAfRC);
  776. }
  777. double dblMaxSmpVal = fltMaxSmpVal;
  778. // initialize the audio ptr buffers
  779. for(i=0; i<chCnt; ++i)
  780. {
  781. ptrBuf[i] = buf + (i*bufFrmCnt);
  782. if( dbuf != NULL )
  783. dPtrBuf[i] = dbuf[i];
  784. if( fbuf != NULL )
  785. fPtrBuf[i] = fbuf[i];
  786. }
  787. //
  788. for(totalReadCnt=0; totalReadCnt<totalFrmCnt && p->curFrmIdx < p->info.frameCnt; totalReadCnt+=frmCnt)
  789. {
  790. unsigned actualReadFrmCnt = 0;
  791. frmCnt = cmMin( p->info.frameCnt - p->curFrmIdx, cmMin( totalFrmCnt-totalReadCnt, bufFrmCnt ) );
  792. // fill the integer audio buffer from the file
  793. if((rc = _cmAudioFileReadInt( h, frmCnt, chIdx, chCnt, ptrBuf, &actualReadFrmCnt, false )) != kOkAfRC )
  794. return rc;
  795. if( actualFrmCntPtr != NULL )
  796. *actualFrmCntPtr += actualReadFrmCnt;
  797. // convert the integer buffer to floating point
  798. for(i=0; i<chCnt; ++i)
  799. {
  800. int* sp = ptrBuf[i];
  801. if( fbuf != NULL )
  802. {
  803. float* dp = fPtrBuf[i];
  804. float* ep = dp + frmCnt;
  805. if( sumFl )
  806. {
  807. for(; dp<ep; ++dp,++sp)
  808. *dp += ((float)*sp) / fltMaxSmpVal;
  809. }
  810. else
  811. {
  812. for(; dp<ep; ++dp,++sp)
  813. *dp = ((float)*sp) / fltMaxSmpVal;
  814. }
  815. assert( dp <= fbuf[i] + totalFrmCnt );
  816. fPtrBuf[i] = dp;
  817. }
  818. else
  819. {
  820. double* dp = dPtrBuf[i];
  821. double* ep = dp + frmCnt;
  822. if( sumFl )
  823. {
  824. for(; dp<ep; ++dp,++sp)
  825. *dp += ((double)*sp) / dblMaxSmpVal;
  826. }
  827. else
  828. {
  829. for(; dp<ep; ++dp,++sp)
  830. *dp = ((double)*sp) / dblMaxSmpVal;
  831. }
  832. assert( dp <= dbuf[i] + totalFrmCnt );
  833. dPtrBuf[i] = dp;
  834. }
  835. }
  836. }
  837. return rc;
  838. }
  839. cmRC_t _cmAudioFileReadFloat( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, bool sumFl )
  840. {
  841. return _cmAudioFileReadRealSamples(h,frmCnt,chIdx,chCnt,buf, NULL, actualFrmCntPtr, sumFl );
  842. }
  843. cmRC_t _cmAudioFileReadDouble( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, bool sumFl )
  844. {
  845. return _cmAudioFileReadRealSamples(h,frmCnt,chIdx,chCnt,NULL, buf, actualFrmCntPtr, sumFl );
  846. }
  847. cmRC_t cmAudioFileReadInt( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr )
  848. { return _cmAudioFileReadInt( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); }
  849. cmRC_t cmAudioFileReadFloat( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr )
  850. { return _cmAudioFileReadFloat( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); }
  851. cmRC_t cmAudioFileReadDouble( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr )
  852. { return _cmAudioFileReadDouble( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, false ); }
  853. cmRC_t cmAudioFileReadSumInt( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr )
  854. { return _cmAudioFileReadInt( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); }
  855. cmRC_t cmAudioFileReadSumFloat( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr )
  856. { return _cmAudioFileReadFloat( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); }
  857. cmRC_t cmAudioFileReadSumDouble( cmAudioFileH_t h, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr )
  858. { return _cmAudioFileReadDouble( h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, true ); }
  859. cmRC_t _cmAudioFileGet( const char* fn, unsigned begFrmIdx, cmAudioFileH_t* hp, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  860. {
  861. cmRC_t rc = kOkAfRC;
  862. *hp = cmAudioFileNewOpen( fn, afInfoPtr, &rc, rpt );
  863. if( (cmAudioFileIsValid(*hp)==false) || (rc!=kOkAfRC) )
  864. return rc;
  865. if( begFrmIdx > 0 )
  866. if((rc = cmAudioFileSeek( *hp, begFrmIdx )) != kOkAfRC )
  867. cmAudioFileDelete(hp);
  868. return rc;
  869. }
  870. cmRC_t _cmAudioFileGetInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, bool sumFl, cmRpt_t* rpt )
  871. {
  872. cmRC_t rc0,rc1;
  873. cmAudioFileH_t h;
  874. if((rc0 = _cmAudioFileGet(fn,begFrmIdx,&h,afInfoPtr,rpt)) != kOkAfRC )
  875. return rc0;
  876. rc0 = _cmAudioFileReadInt(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl );
  877. if((rc1=cmAudioFileDelete(&h)) != kOkAfRC && rc0==kOkAfRC )
  878. rc0 = rc1;
  879. return rc0;
  880. }
  881. cmRC_t _cmAudioFileGetFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, bool sumFl, cmRpt_t* rpt )
  882. {
  883. cmRC_t rc0,rc1;
  884. cmAudioFileH_t h;
  885. if((rc0 = _cmAudioFileGet(fn,begFrmIdx,&h,afInfoPtr,rpt)) != kOkAfRC )
  886. return rc0;
  887. rc0 = _cmAudioFileReadFloat(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl );
  888. if((rc1=cmAudioFileDelete(&h)) != kOkAfRC && rc0==kOkAfRC )
  889. rc0 = rc1;
  890. return rc0;
  891. }
  892. cmRC_t _cmAudioFileGetDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, bool sumFl, cmRpt_t* rpt )
  893. {
  894. cmRC_t rc0,rc1;
  895. cmAudioFileH_t h;
  896. if((rc0 = _cmAudioFileGet(fn,begFrmIdx,&h,afInfoPtr,rpt)) != kOkAfRC )
  897. return rc0;
  898. rc0 = _cmAudioFileReadDouble(h, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, sumFl );
  899. if((rc1=cmAudioFileDelete(&h)) != kOkAfRC && rc0==kOkAfRC )
  900. rc0 = rc1;
  901. return rc0;
  902. }
  903. cmRC_t cmAudioFileGetInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  904. { return _cmAudioFileGetInt( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false, rpt ); }
  905. cmRC_t cmAudioFileGetFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  906. { return _cmAudioFileGetFloat( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false, rpt ); }
  907. cmRC_t cmAudioFileGetDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  908. { return _cmAudioFileGetDouble( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, false, rpt); }
  909. cmRC_t cmAudioFileGetSumInt( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, int** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  910. { return _cmAudioFileGetInt( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true, rpt ); }
  911. cmRC_t cmAudioFileGetSumFloat( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, float** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  912. { return _cmAudioFileGetFloat( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true, rpt ); }
  913. cmRC_t cmAudioFileGetSumDouble( const char* fn, unsigned begFrmIdx, unsigned frmCnt, unsigned chIdx, unsigned chCnt, double** buf, unsigned* actualFrmCntPtr, cmAudioFileInfo_t* afInfoPtr, cmRpt_t* rpt )
  914. { return _cmAudioFileGetDouble( fn, begFrmIdx, frmCnt, chIdx, chCnt, buf, actualFrmCntPtr, afInfoPtr, true, rpt); }
  915. cmRC_t cmAudioFileWriteInt( cmAudioFileH_t h, unsigned frmCnt, unsigned chCnt, int** srcPtrPtr )
  916. {
  917. cmRC_t rc = kOkAfRC;
  918. cmAudioFileGuts* p = _cmAudioFileWriteGutsPtr(h,&rc );
  919. if( rc != kOkAfRC )
  920. return rc;
  921. unsigned bytesPerSmp = p->info.bits / 8;
  922. unsigned bufFrmCnt = 1024;
  923. unsigned bufByteCnt = bufFrmCnt * bytesPerSmp;
  924. unsigned ci;
  925. unsigned wrFrmCnt = 0;
  926. char buf[ bufByteCnt * chCnt ];
  927. while( wrFrmCnt < frmCnt )
  928. {
  929. unsigned n = cmMin( frmCnt-wrFrmCnt, bufFrmCnt );
  930. for(ci=0; ci<chCnt; ++ci)
  931. {
  932. const int* sbp = srcPtrPtr[ci] + wrFrmCnt;
  933. const int* sep = sbp + n;
  934. switch( p->info.bits )
  935. {
  936. case 8:
  937. {
  938. char* dbp = buf + ci;
  939. for(; sbp < sep; dbp+=chCnt )
  940. *dbp = (char)*sbp++;
  941. }
  942. break;
  943. case 16:
  944. {
  945. short* dbp = (short*)buf;
  946. for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp )
  947. *dbp = _cmAfSwap16((short)*sbp);
  948. }
  949. break;
  950. case 24:
  951. {
  952. unsigned char* dbp = (unsigned char*)buf;
  953. for( dbp+=(ci*3); sbp < sep; dbp+=(3*chCnt), ++sbp)
  954. {
  955. unsigned char* s = (unsigned char*)sbp;
  956. dbp[0] = s[2];
  957. dbp[1] = s[1];
  958. dbp[2] = s[0];
  959. }
  960. }
  961. break;
  962. case 32:
  963. {
  964. int* dbp = (int*)buf;
  965. for(dbp+=ci; sbp < sep; dbp+=chCnt, ++sbp )
  966. *dbp = _cmAfSwap32(*sbp);
  967. }
  968. break;
  969. default:
  970. { assert(0);}
  971. }
  972. }
  973. wrFrmCnt+=n;
  974. if( fwrite( buf, n*bytesPerSmp*chCnt, 1, p->fp ) != 1)
  975. {
  976. rc = _cmAudioFileError(p,kWriteFailAfRC);
  977. break;
  978. }
  979. }
  980. p->info.frameCnt += wrFrmCnt;
  981. return rc;
  982. }
  983. cmRC_t _cmAudioFileWriteRealSamples( cmAudioFileH_t h, unsigned frmCnt, unsigned chCnt, const void* srcPtrPtr, unsigned realSmpByteCnt )
  984. {
  985. cmRC_t rc = kOkAfRC;
  986. cmAudioFileGuts* p = _cmAudioFileWriteGutsPtr(h,&rc );
  987. if( rc != kOkAfRC )
  988. return rc;
  989. unsigned bufFrmCnt = 1024;
  990. unsigned wrFrmCnt = 0;
  991. unsigned i = 0;
  992. int maxSmpVal = 0;
  993. int buf[ chCnt * bufFrmCnt ];
  994. int* srcCh[ chCnt ];
  995. for(i=0; i<chCnt; ++i)
  996. srcCh[i] = buf + (i*bufFrmCnt);
  997. switch( p->info.bits )
  998. {
  999. case 8: maxSmpVal = 0x7f; break;
  1000. case 16: maxSmpVal = 0x7fff; break;
  1001. case 24: maxSmpVal = 0x7fffff; break;
  1002. case 32: maxSmpVal = 0x7fffffb0; break; // Note: the full range is not used for 32 bit numbers
  1003. default: // because it was found to cause difficult to detect overflows
  1004. { assert(0); } // when the signal approached full scale.
  1005. }
  1006. // duplicate the audio buffer ptr array - this will allow the buffer ptr's to be changed
  1007. // during the float to int conversion without changing the ptrs passed in from the client
  1008. const void* ptrArray[ chCnt ];
  1009. memcpy(ptrArray,srcPtrPtr,sizeof(ptrArray));
  1010. const float** sfpp = (const float**)ptrArray;
  1011. const double** sdpp = (const double**)ptrArray;
  1012. while( wrFrmCnt < frmCnt )
  1013. {
  1014. unsigned n = cmMin( frmCnt - wrFrmCnt, bufFrmCnt );
  1015. for(i=0; i<chCnt; ++i)
  1016. {
  1017. int* obp = srcCh[i];
  1018. switch( realSmpByteCnt )
  1019. {
  1020. case 4:
  1021. {
  1022. const float* sbp = sfpp[i];
  1023. const float* sep = sbp + n;
  1024. for(;sbp<sep; ++sbp)
  1025. {
  1026. *obp++ = (int)fmaxf(-maxSmpVal,fminf(maxSmpVal, *sbp * maxSmpVal));
  1027. }
  1028. sfpp[i] = sbp;
  1029. }
  1030. break;
  1031. case 8:
  1032. {
  1033. const double* sbp = sdpp[i];
  1034. const double* sep = sbp + n;
  1035. for(; sbp<sep; ++sbp)
  1036. {
  1037. *obp++ = (int)fmax(-maxSmpVal,fmin(maxSmpVal,*sbp * maxSmpVal));
  1038. }
  1039. sdpp[i] = sbp;
  1040. }
  1041. break;
  1042. default:
  1043. { assert(0); }
  1044. }
  1045. }
  1046. if((rc = cmAudioFileWriteInt( h, n, chCnt, srcCh )) != kOkAfRC )
  1047. break;
  1048. wrFrmCnt += n;
  1049. }
  1050. return rc;
  1051. }
  1052. cmRC_t cmAudioFileWriteFloat( cmAudioFileH_t h, unsigned frmCnt, unsigned chCnt, float** bufPtrPtr )
  1053. { return _cmAudioFileWriteRealSamples(h,frmCnt,chCnt,bufPtrPtr,sizeof(float)); }
  1054. cmRC_t cmAudioFileWriteDouble( cmAudioFileH_t h, unsigned frmCnt, unsigned chCnt, double** bufPtrPtr )
  1055. { return _cmAudioFileWriteRealSamples(h,frmCnt,chCnt,bufPtrPtr,sizeof(double)); }
  1056. cmRC_t cmAudioFileMinMaxMean( cmAudioFileH_t h, unsigned chIdx, cmSample_t* minPtr, cmSample_t* maxPtr, cmSample_t* meanPtr )
  1057. {
  1058. assert( minPtr != NULL && maxPtr != NULL && meanPtr != NULL );
  1059. *minPtr = -cmSample_MAX;
  1060. *maxPtr = cmSample_MAX;
  1061. *meanPtr = 0;
  1062. cmRC_t rc = kOkAfRC;
  1063. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc );
  1064. if( rc != kOkAfRC )
  1065. return rc;
  1066. unsigned orgFrmIdx = p->curFrmIdx;
  1067. if((rc = cmAudioFileSeek(h,0)) != kOkAfRC )
  1068. return rc;
  1069. *minPtr = cmSample_MAX;
  1070. *maxPtr = -cmSample_MAX;
  1071. unsigned bufN = 1024;
  1072. cmSample_t buf[ bufN ];
  1073. unsigned frmCnt = 0;
  1074. unsigned actualFrmCnt;
  1075. cmSample_t* bufPtr[1] = { &buf[0] };
  1076. for(; frmCnt<p->info.frameCnt; frmCnt+=actualFrmCnt)
  1077. {
  1078. actualFrmCnt = 0;
  1079. unsigned n = cmMin( p->info.frameCnt-frmCnt, bufN );
  1080. if((rc = cmAudioFileReadSample(h, n, chIdx, 1, bufPtr, &actualFrmCnt)) != kOkAfRC )
  1081. return rc;
  1082. const cmSample_t* sbp = buf;
  1083. const cmSample_t* sep = buf + actualFrmCnt;
  1084. for(; sbp < sep; ++sbp )
  1085. {
  1086. *meanPtr += *sbp;
  1087. if( *minPtr > *sbp )
  1088. *minPtr = *sbp;
  1089. if( *maxPtr < *sbp )
  1090. *maxPtr = *sbp;
  1091. }
  1092. }
  1093. if( frmCnt > 0 )
  1094. *meanPtr /= frmCnt;
  1095. else
  1096. *minPtr = *maxPtr = 0;
  1097. return cmAudioFileSeek( h, orgFrmIdx );
  1098. }
  1099. cmRC_t cmAudioFileWriteFileInt( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, int** bufPtrPtr, cmRpt_t* rpt )
  1100. {
  1101. cmRC_t rc0, rc1;
  1102. cmAudioFileH_t h = cmAudioFileNewCreate(fn, srate, bits, chCnt, &rc0, rpt );
  1103. if( (cmAudioFileIsValid(h)==false) || (rc0!=kOkAfRC))
  1104. return rc0;
  1105. rc0 = cmAudioFileWriteInt( h, frmCnt, chCnt, bufPtrPtr );
  1106. if(((rc1 = cmAudioFileDelete(&h))!=kOkAfRC) && (rc0!=kOkAfRC))
  1107. rc0 = rc1;
  1108. return rc0;
  1109. }
  1110. cmRC_t cmAudioFileWriteFileFloat( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, float** bufPtrPtr, cmRpt_t* rpt )
  1111. {
  1112. cmRC_t rc0, rc1;
  1113. cmAudioFileH_t h = cmAudioFileNewCreate(fn, srate, bits, chCnt, &rc0, rpt );
  1114. if( (cmAudioFileIsValid(h)==false) || (rc0!=kOkAfRC))
  1115. return rc0;
  1116. rc0 = cmAudioFileWriteFloat( h, frmCnt, chCnt, bufPtrPtr );
  1117. if(((rc1 = cmAudioFileDelete(&h))!=kOkAfRC) && (rc0!=kOkAfRC))
  1118. rc0 = rc1;
  1119. return rc0;
  1120. }
  1121. cmRC_t cmAudioFileWriteFileDouble( const char* fn, double srate, unsigned bits, unsigned frmCnt, unsigned chCnt, double** bufPtrPtr, cmRpt_t* rpt )
  1122. {
  1123. cmRC_t rc0, rc1;
  1124. cmAudioFileH_t h = cmAudioFileNewCreate(fn, srate, bits, chCnt, &rc0, rpt );
  1125. if( (cmAudioFileIsValid(h)==false) || (rc0!=kOkAfRC))
  1126. return rc0;
  1127. rc0 = cmAudioFileWriteDouble( h, frmCnt, chCnt, bufPtrPtr );
  1128. if(((rc1 = cmAudioFileDelete(&h))!=kOkAfRC) && (rc0!=kOkAfRC))
  1129. rc0 = rc1;
  1130. return rc0;
  1131. }
  1132. cmRC_t cmAudioFileMinMaxMeanFn( const cmChar_t* fn, unsigned chIdx, cmSample_t* minPtr, cmSample_t* maxPtr, cmSample_t* meanPtr, cmRpt_t* rpt )
  1133. {
  1134. cmRC_t rc0 = kOkAfRC;
  1135. cmRC_t rc1;
  1136. cmAudioFileH_t afH = cmAudioFileNewOpen( fn, NULL, &rc0, rpt );
  1137. if( rc0 != kOkAfRC )
  1138. return rc0;
  1139. rc0 = cmAudioFileMinMaxMean( afH, chIdx, minPtr, maxPtr, meanPtr );
  1140. rc1 = cmAudioFileDelete(&afH);
  1141. return rc0 != kOkAfRC ? rc0 : rc1;
  1142. }
  1143. const cmChar_t* cmAudioFileName( cmAudioFileH_t h )
  1144. {
  1145. cmRC_t rc;
  1146. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc );
  1147. if( rc != kOkAfRC )
  1148. return NULL;
  1149. return p->fn;
  1150. }
  1151. const char* cmAudioFileErrorMsg( unsigned rc )
  1152. {
  1153. unsigned i;
  1154. for(i=0; _cmAudioFileErrArray[i].rc != kUnknownErrAfRC; ++i )
  1155. if( _cmAudioFileErrArray[i].rc == rc )
  1156. break;
  1157. return _cmAudioFileErrArray[i].msg;
  1158. }
  1159. cmRC_t cmAudioFileGetInfo( const cmChar_t* fn, cmAudioFileInfo_t* infoPtr, cmRpt_t* rpt )
  1160. {
  1161. cmRC_t rc = kOkAfRC;
  1162. cmAudioFileH_t afH = cmAudioFileNewOpen( fn, infoPtr, &rc, rpt );
  1163. if( rc != kOkAfRC )
  1164. return rc;
  1165. return cmAudioFileDelete(&afH);
  1166. }
  1167. void cmAudioFilePrintInfo( const cmAudioFileInfo_t* infoPtr, cmRpt_t* rpt )
  1168. {
  1169. char* typeStr = "AIFF";
  1170. char* swapStr = "";
  1171. char* aifcStr = "";
  1172. unsigned i;
  1173. if( cmIsFlag(infoPtr->flags,kWavAfFl) )
  1174. typeStr = "WAV";
  1175. if( cmIsFlag(infoPtr->flags,kSwapAfFl) )
  1176. swapStr = "Swap:On";
  1177. if( cmIsFlag(infoPtr->flags,kAifcAfFl))
  1178. aifcStr = "AIFC";
  1179. cmRptPrintf(rpt,"bits:%i chs:%i srate:%f frames:%i type:%s %s %s\n", infoPtr->bits, infoPtr->chCnt, infoPtr->srate, infoPtr->frameCnt, typeStr, swapStr, aifcStr );
  1180. for(i=0; i<infoPtr->markerCnt; ++i)
  1181. cmRptPrintf(rpt,"%i %i %s\n", infoPtr->markerArray[i].id, infoPtr->markerArray[i].frameIdx, infoPtr->markerArray[i].label);
  1182. if( strlen(infoPtr->bextRecd.desc) )
  1183. cmRptPrintf(rpt,"Bext Desc:%s\n",infoPtr->bextRecd.desc );
  1184. if( strlen(infoPtr->bextRecd.origin) )
  1185. cmRptPrintf(rpt,"Bext Origin:%s\n",infoPtr->bextRecd.origin );
  1186. if( strlen(infoPtr->bextRecd.originRef) )
  1187. cmRptPrintf(rpt,"Bext Origin Ref:%s\n",infoPtr->bextRecd.originRef );
  1188. if( strlen(infoPtr->bextRecd.originDate) )
  1189. cmRptPrintf(rpt,"Bext Origin Date:%s\n",infoPtr->bextRecd.originDate );
  1190. if( strlen(infoPtr->bextRecd.originTime ) )
  1191. cmRptPrintf(rpt,"Bext Origin Time:%s\n",infoPtr->bextRecd.originTime );
  1192. cmRptPrintf(rpt,"Bext time high:%i low:%i 0x%x%x\n",infoPtr->bextRecd.timeRefHigh,infoPtr->bextRecd.timeRefLow, infoPtr->bextRecd.timeRefHigh,infoPtr->bextRecd.timeRefLow);
  1193. }
  1194. cmRC_t cmAudioFileReport( cmAudioFileH_t h, cmRpt_t* rpt, unsigned frmIdx, unsigned frmCnt )
  1195. {
  1196. cmRC_t rc = kOkAfRC;
  1197. cmAudioFileGuts* p = _cmAudioFileReadGutsPtr(h,&rc);
  1198. if( rc != kOkAfRC )
  1199. return rc;
  1200. cmRptPrintf(rpt,"function cm_audio_file_test()\n");
  1201. cmRptPrintf(rpt,"#{\n");
  1202. cmAudioFilePrintInfo(&p->info,rpt);
  1203. cmRptPrintf(rpt,"#}\n");
  1204. float buf[ p->info.chCnt * frmCnt ];
  1205. float* bufPtr[p->info.chCnt];
  1206. unsigned i,j,cmtFrmCnt=0;
  1207. for(i=0; i<p->info.chCnt; ++i)
  1208. bufPtr[i] = buf + (i*frmCnt);
  1209. if((rc = cmAudioFileSeek(h,frmIdx)) != kOkAfRC )
  1210. return rc;
  1211. if((rc= cmAudioFileReadFloat(h,frmCnt,0,p->info.chCnt,bufPtr,&cmtFrmCnt )) != kOkAfRC)
  1212. return rc;
  1213. cmRptPrintf(rpt,"m = [\n");
  1214. for(i=0; i<frmCnt; i++)
  1215. {
  1216. for(j=0; j<p->info.chCnt; ++j)
  1217. cmRptPrintf(rpt,"%f ", bufPtr[j][i] );
  1218. cmRptPrintf(rpt,"\n");
  1219. }
  1220. cmRptPrintf(rpt,"];\nplot(m)\nendfunction\n");
  1221. return rc;
  1222. }
  1223. cmRC_t cmAudioFileReportFn( const cmChar_t* fn, unsigned frmIdx, unsigned frmCnt, cmRpt_t* rpt )
  1224. {
  1225. cmAudioFileInfo_t info;
  1226. cmRC_t rc;
  1227. cmAudioFileH_t h = cmAudioFileNewOpen( fn, &info, &rc, rpt );
  1228. if(rc == kOkAfRC )
  1229. {
  1230. cmAudioFileReport(h,rpt,frmIdx,frmCnt);
  1231. }
  1232. return cmAudioFileDelete(&h);
  1233. }
  1234. /// [cmAudioFileExample]
  1235. void cmAudioFileTest( const cmChar_t* audioFn, const cmChar_t* outFn, cmRpt_t* rpt )
  1236. {
  1237. cmAudioFileInfo_t afInfo;
  1238. cmRC_t cmRC;
  1239. // open an audio file
  1240. cmAudioFileH_t afH = cmAudioFileNewOpen( audioFn, &afInfo, &cmRC, rpt );
  1241. if( cmRC != kOkAfRC || cmAudioFileIsValid(afH)==false )
  1242. {
  1243. cmRptPrintf(rpt,"Unable to open the audio file:%s\n",audioFn);
  1244. return;
  1245. }
  1246. // print the header information and one seconds worth of samples
  1247. //cmAudioFileReport( afH, rpt, 66000, (unsigned)afInfo.srate);
  1248. cmAudioFileReport( afH, rpt, 0, 0);
  1249. // close and delete the audio file handle
  1250. cmAudioFileDelete(&afH);
  1251. }
  1252. /// [cmAudioFileExample]