/[svn]/libgig/trunk/src/DLS.cpp
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Contents of /libgig/trunk/src/DLS.cpp

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Revision 2682 - (show annotations) (download)
Mon Dec 29 16:25:51 2014 UTC (9 years, 3 months ago) by schoenebeck
File size: 80542 byte(s)
* gig: Added support for custom progress notification while saving to
  gig file.
* DLS: Added support for custom progress notification while saving to
  DLS file.
* RIFF: Added support for custom progress notification while saving to
  RIFF file.
* Bumped version (3.3.0.svn22).

1 /***************************************************************************
2 * *
3 * libgig - C++ cross-platform Gigasampler format file access library *
4 * *
5 * Copyright (C) 2003-2014 by Christian Schoenebeck *
6 * <cuse@users.sourceforge.net> *
7 * *
8 * This library is free software; you can redistribute it and/or modify *
9 * it under the terms of the GNU General Public License as published by *
10 * the Free Software Foundation; either version 2 of the License, or *
11 * (at your option) any later version. *
12 * *
13 * This library is distributed in the hope that it will be useful, *
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
16 * GNU General Public License for more details. *
17 * *
18 * You should have received a copy of the GNU General Public License *
19 * along with this library; if not, write to the Free Software *
20 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, *
21 * MA 02111-1307 USA *
22 ***************************************************************************/
23
24 #include "DLS.h"
25
26 #include <algorithm>
27 #include <time.h>
28
29 #ifdef __APPLE__
30 #include <CoreFoundation/CFUUID.h>
31 #elif defined(HAVE_UUID_UUID_H)
32 #include <uuid/uuid.h>
33 #endif
34
35 #include "helper.h"
36
37 // macros to decode connection transforms
38 #define CONN_TRANSFORM_SRC(x) ((x >> 10) & 0x000F)
39 #define CONN_TRANSFORM_CTL(x) ((x >> 4) & 0x000F)
40 #define CONN_TRANSFORM_DST(x) (x & 0x000F)
41 #define CONN_TRANSFORM_BIPOLAR_SRC(x) (x & 0x4000)
42 #define CONN_TRANSFORM_BIPOLAR_CTL(x) (x & 0x0100)
43 #define CONN_TRANSFORM_INVERT_SRC(x) (x & 0x8000)
44 #define CONN_TRANSFORM_INVERT_CTL(x) (x & 0x0200)
45
46 // macros to encode connection transforms
47 #define CONN_TRANSFORM_SRC_ENCODE(x) ((x & 0x000F) << 10)
48 #define CONN_TRANSFORM_CTL_ENCODE(x) ((x & 0x000F) << 4)
49 #define CONN_TRANSFORM_DST_ENCODE(x) (x & 0x000F)
50 #define CONN_TRANSFORM_BIPOLAR_SRC_ENCODE(x) ((x) ? 0x4000 : 0)
51 #define CONN_TRANSFORM_BIPOLAR_CTL_ENCODE(x) ((x) ? 0x0100 : 0)
52 #define CONN_TRANSFORM_INVERT_SRC_ENCODE(x) ((x) ? 0x8000 : 0)
53 #define CONN_TRANSFORM_INVERT_CTL_ENCODE(x) ((x) ? 0x0200 : 0)
54
55 #define DRUM_TYPE_MASK 0x80000000
56
57 #define F_RGN_OPTION_SELFNONEXCLUSIVE 0x0001
58
59 #define F_WAVELINK_PHASE_MASTER 0x0001
60 #define F_WAVELINK_MULTICHANNEL 0x0002
61
62 #define F_WSMP_NO_TRUNCATION 0x0001
63 #define F_WSMP_NO_COMPRESSION 0x0002
64
65 #define MIDI_BANK_COARSE(x) ((x & 0x00007F00) >> 8) // CC0
66 #define MIDI_BANK_FINE(x) (x & 0x0000007F) // CC32
67 #define MIDI_BANK_MERGE(coarse, fine) ((((uint16_t) coarse) << 7) | fine) // CC0 + CC32
68 #define MIDI_BANK_ENCODE(coarse, fine) (((coarse & 0x0000007F) << 8) | (fine & 0x0000007F))
69
70 namespace DLS {
71
72 // *************** Connection ***************
73 // *
74
75 void Connection::Init(conn_block_t* Header) {
76 Source = (conn_src_t) Header->source;
77 Control = (conn_src_t) Header->control;
78 Destination = (conn_dst_t) Header->destination;
79 Scale = Header->scale;
80 SourceTransform = (conn_trn_t) CONN_TRANSFORM_SRC(Header->transform);
81 ControlTransform = (conn_trn_t) CONN_TRANSFORM_CTL(Header->transform);
82 DestinationTransform = (conn_trn_t) CONN_TRANSFORM_DST(Header->transform);
83 SourceInvert = CONN_TRANSFORM_INVERT_SRC(Header->transform);
84 SourceBipolar = CONN_TRANSFORM_BIPOLAR_SRC(Header->transform);
85 ControlInvert = CONN_TRANSFORM_INVERT_CTL(Header->transform);
86 ControlBipolar = CONN_TRANSFORM_BIPOLAR_CTL(Header->transform);
87 }
88
89 Connection::conn_block_t Connection::ToConnBlock() {
90 conn_block_t c;
91 c.source = Source;
92 c.control = Control;
93 c.destination = Destination;
94 c.scale = Scale;
95 c.transform = CONN_TRANSFORM_SRC_ENCODE(SourceTransform) |
96 CONN_TRANSFORM_CTL_ENCODE(ControlTransform) |
97 CONN_TRANSFORM_DST_ENCODE(DestinationTransform) |
98 CONN_TRANSFORM_INVERT_SRC_ENCODE(SourceInvert) |
99 CONN_TRANSFORM_BIPOLAR_SRC_ENCODE(SourceBipolar) |
100 CONN_TRANSFORM_INVERT_CTL_ENCODE(ControlInvert) |
101 CONN_TRANSFORM_BIPOLAR_CTL_ENCODE(ControlBipolar);
102 return c;
103 }
104
105
106
107 // *************** Articulation ***************
108 // *
109
110 /** @brief Constructor.
111 *
112 * Expects an 'artl' or 'art2' chunk to be given where the articulation
113 * connections will be read from.
114 *
115 * @param artl - pointer to an 'artl' or 'art2' chunk
116 * @throws Exception if no 'artl' or 'art2' chunk was given
117 */
118 Articulation::Articulation(RIFF::Chunk* artl) {
119 pArticulationCk = artl;
120 if (artl->GetChunkID() != CHUNK_ID_ART2 &&
121 artl->GetChunkID() != CHUNK_ID_ARTL) {
122 throw DLS::Exception("<artl-ck> or <art2-ck> chunk expected");
123 }
124 HeaderSize = artl->ReadUint32();
125 Connections = artl->ReadUint32();
126 artl->SetPos(HeaderSize);
127
128 pConnections = new Connection[Connections];
129 Connection::conn_block_t connblock;
130 for (uint32_t i = 0; i < Connections; i++) {
131 artl->Read(&connblock.source, 1, 2);
132 artl->Read(&connblock.control, 1, 2);
133 artl->Read(&connblock.destination, 1, 2);
134 artl->Read(&connblock.transform, 1, 2);
135 artl->Read(&connblock.scale, 1, 4);
136 pConnections[i].Init(&connblock);
137 }
138 }
139
140 Articulation::~Articulation() {
141 if (pConnections) delete[] pConnections;
142 }
143
144 /**
145 * Apply articulation connections to the respective RIFF chunks. You
146 * have to call File::Save() to make changes persistent.
147 *
148 * @param pProgress - callback function for progress notification
149 */
150 void Articulation::UpdateChunks(progress_t* pProgress) {
151 const int iEntrySize = 12; // 12 bytes per connection block
152 pArticulationCk->Resize(HeaderSize + Connections * iEntrySize);
153 uint8_t* pData = (uint8_t*) pArticulationCk->LoadChunkData();
154 store16(&pData[0], HeaderSize);
155 store16(&pData[2], Connections);
156 for (uint32_t i = 0; i < Connections; i++) {
157 Connection::conn_block_t c = pConnections[i].ToConnBlock();
158 store16(&pData[HeaderSize + i * iEntrySize], c.source);
159 store16(&pData[HeaderSize + i * iEntrySize + 2], c.control);
160 store16(&pData[HeaderSize + i * iEntrySize + 4], c.destination);
161 store16(&pData[HeaderSize + i * iEntrySize + 6], c.transform);
162 store32(&pData[HeaderSize + i * iEntrySize + 8], c.scale);
163 }
164 }
165
166
167
168 // *************** Articulator ***************
169 // *
170
171 Articulator::Articulator(RIFF::List* ParentList) {
172 pParentList = ParentList;
173 pArticulations = NULL;
174 }
175
176 Articulation* Articulator::GetFirstArticulation() {
177 if (!pArticulations) LoadArticulations();
178 if (!pArticulations) return NULL;
179 ArticulationsIterator = pArticulations->begin();
180 return (ArticulationsIterator != pArticulations->end()) ? *ArticulationsIterator : NULL;
181 }
182
183 Articulation* Articulator::GetNextArticulation() {
184 if (!pArticulations) return NULL;
185 ArticulationsIterator++;
186 return (ArticulationsIterator != pArticulations->end()) ? *ArticulationsIterator : NULL;
187 }
188
189 void Articulator::LoadArticulations() {
190 // prefer articulation level 2
191 RIFF::List* lart = pParentList->GetSubList(LIST_TYPE_LAR2);
192 if (!lart) lart = pParentList->GetSubList(LIST_TYPE_LART);
193 if (lart) {
194 uint32_t artCkType = (lart->GetListType() == LIST_TYPE_LAR2) ? CHUNK_ID_ART2
195 : CHUNK_ID_ARTL;
196 RIFF::Chunk* art = lart->GetFirstSubChunk();
197 while (art) {
198 if (art->GetChunkID() == artCkType) {
199 if (!pArticulations) pArticulations = new ArticulationList;
200 pArticulations->push_back(new Articulation(art));
201 }
202 art = lart->GetNextSubChunk();
203 }
204 }
205 }
206
207 Articulator::~Articulator() {
208 if (pArticulations) {
209 ArticulationList::iterator iter = pArticulations->begin();
210 ArticulationList::iterator end = pArticulations->end();
211 while (iter != end) {
212 delete *iter;
213 iter++;
214 }
215 delete pArticulations;
216 }
217 }
218
219 /**
220 * Apply all articulations to the respective RIFF chunks. You have to
221 * call File::Save() to make changes persistent.
222 *
223 * @param pProgress - callback function for progress notification
224 */
225 void Articulator::UpdateChunks(progress_t* pProgress) {
226 if (pArticulations) {
227 ArticulationList::iterator iter = pArticulations->begin();
228 ArticulationList::iterator end = pArticulations->end();
229 for (; iter != end; ++iter) {
230 (*iter)->UpdateChunks(pProgress);
231 }
232 }
233 }
234
235 /**
236 * Not yet implemented in this version, since the .gig format does
237 * not need to copy DLS articulators and so far nobody used pure
238 * DLS instrument AFAIK.
239 */
240 void Articulator::CopyAssign(const Articulator* orig) {
241 //TODO: implement deep copy assignment for this class
242 }
243
244
245
246 // *************** Info ***************
247 // *
248
249 /** @brief Constructor.
250 *
251 * Initializes the info strings with values provided by an INFO list chunk.
252 *
253 * @param list - pointer to a list chunk which contains an INFO list chunk
254 */
255 Info::Info(RIFF::List* list) {
256 pFixedStringLengths = NULL;
257 pResourceListChunk = list;
258 if (list) {
259 RIFF::List* lstINFO = list->GetSubList(LIST_TYPE_INFO);
260 if (lstINFO) {
261 LoadString(CHUNK_ID_INAM, lstINFO, Name);
262 LoadString(CHUNK_ID_IARL, lstINFO, ArchivalLocation);
263 LoadString(CHUNK_ID_ICRD, lstINFO, CreationDate);
264 LoadString(CHUNK_ID_ICMT, lstINFO, Comments);
265 LoadString(CHUNK_ID_IPRD, lstINFO, Product);
266 LoadString(CHUNK_ID_ICOP, lstINFO, Copyright);
267 LoadString(CHUNK_ID_IART, lstINFO, Artists);
268 LoadString(CHUNK_ID_IGNR, lstINFO, Genre);
269 LoadString(CHUNK_ID_IKEY, lstINFO, Keywords);
270 LoadString(CHUNK_ID_IENG, lstINFO, Engineer);
271 LoadString(CHUNK_ID_ITCH, lstINFO, Technician);
272 LoadString(CHUNK_ID_ISFT, lstINFO, Software);
273 LoadString(CHUNK_ID_IMED, lstINFO, Medium);
274 LoadString(CHUNK_ID_ISRC, lstINFO, Source);
275 LoadString(CHUNK_ID_ISRF, lstINFO, SourceForm);
276 LoadString(CHUNK_ID_ICMS, lstINFO, Commissioned);
277 LoadString(CHUNK_ID_ISBJ, lstINFO, Subject);
278 }
279 }
280 }
281
282 Info::~Info() {
283 }
284
285 /**
286 * Forces specific Info fields to be of a fixed length when being saved
287 * to a file. By default the respective RIFF chunk of an Info field
288 * will have a size analogue to its actual string length. With this
289 * method however this behavior can be overridden, allowing to force an
290 * arbitrary fixed size individually for each Info field.
291 *
292 * This method is used as a workaround for the gig format, not for DLS.
293 *
294 * @param lengths - NULL terminated array of string_length_t elements
295 */
296 void Info::SetFixedStringLengths(const string_length_t* lengths) {
297 pFixedStringLengths = lengths;
298 }
299
300 /** @brief Load given INFO field.
301 *
302 * Load INFO field from INFO chunk with chunk ID \a ChunkID from INFO
303 * list chunk \a lstINFO and save value to \a s.
304 */
305 void Info::LoadString(uint32_t ChunkID, RIFF::List* lstINFO, String& s) {
306 RIFF::Chunk* ck = lstINFO->GetSubChunk(ChunkID);
307 ::LoadString(ck, s); // function from helper.h
308 }
309
310 /** @brief Apply given INFO field to the respective chunk.
311 *
312 * Apply given info value to info chunk with ID \a ChunkID, which is a
313 * subchunk of INFO list chunk \a lstINFO. If the given chunk already
314 * exists, value \a s will be applied. Otherwise if it doesn't exist yet
315 * and either \a s or \a sDefault is not an empty string, such a chunk
316 * will be created and either \a s or \a sDefault will be applied
317 * (depending on which one is not an empty string, if both are not an
318 * empty string \a s will be preferred).
319 *
320 * @param ChunkID - 32 bit RIFF chunk ID of INFO subchunk
321 * @param lstINFO - parent (INFO) RIFF list chunk
322 * @param s - current value of info field
323 * @param sDefault - default value
324 */
325 void Info::SaveString(uint32_t ChunkID, RIFF::List* lstINFO, const String& s, const String& sDefault) {
326 int size = 0;
327 if (pFixedStringLengths) {
328 for (int i = 0 ; pFixedStringLengths[i].length ; i++) {
329 if (pFixedStringLengths[i].chunkId == ChunkID) {
330 size = pFixedStringLengths[i].length;
331 break;
332 }
333 }
334 }
335 RIFF::Chunk* ck = lstINFO->GetSubChunk(ChunkID);
336 ::SaveString(ChunkID, ck, lstINFO, s, sDefault, size != 0, size); // function from helper.h
337 }
338
339 /** @brief Update chunks with current info values.
340 *
341 * Apply current INFO field values to the respective INFO chunks. You
342 * have to call File::Save() to make changes persistent.
343 *
344 * @param pProgress - callback function for progress notification
345 */
346 void Info::UpdateChunks(progress_t* pProgress) {
347 if (!pResourceListChunk) return;
348
349 // make sure INFO list chunk exists
350 RIFF::List* lstINFO = pResourceListChunk->GetSubList(LIST_TYPE_INFO);
351
352 String defaultName = "";
353 String defaultCreationDate = "";
354 String defaultSoftware = "";
355 String defaultComments = "";
356
357 uint32_t resourceType = pResourceListChunk->GetListType();
358
359 if (!lstINFO) {
360 lstINFO = pResourceListChunk->AddSubList(LIST_TYPE_INFO);
361
362 // assemble default values
363 defaultName = "NONAME";
364
365 if (resourceType == RIFF_TYPE_DLS) {
366 // get current date
367 time_t now = time(NULL);
368 tm* pNowBroken = localtime(&now);
369 char buf[11];
370 strftime(buf, 11, "%F", pNowBroken);
371 defaultCreationDate = buf;
372
373 defaultComments = "Created with " + libraryName() + " " + libraryVersion();
374 }
375 if (resourceType == RIFF_TYPE_DLS || resourceType == LIST_TYPE_INS)
376 {
377 defaultSoftware = libraryName() + " " + libraryVersion();
378 }
379 }
380
381 // save values
382
383 SaveString(CHUNK_ID_IARL, lstINFO, ArchivalLocation, String(""));
384 SaveString(CHUNK_ID_IART, lstINFO, Artists, String(""));
385 SaveString(CHUNK_ID_ICMS, lstINFO, Commissioned, String(""));
386 SaveString(CHUNK_ID_ICMT, lstINFO, Comments, defaultComments);
387 SaveString(CHUNK_ID_ICOP, lstINFO, Copyright, String(""));
388 SaveString(CHUNK_ID_ICRD, lstINFO, CreationDate, defaultCreationDate);
389 SaveString(CHUNK_ID_IENG, lstINFO, Engineer, String(""));
390 SaveString(CHUNK_ID_IGNR, lstINFO, Genre, String(""));
391 SaveString(CHUNK_ID_IKEY, lstINFO, Keywords, String(""));
392 SaveString(CHUNK_ID_IMED, lstINFO, Medium, String(""));
393 SaveString(CHUNK_ID_INAM, lstINFO, Name, defaultName);
394 SaveString(CHUNK_ID_IPRD, lstINFO, Product, String(""));
395 SaveString(CHUNK_ID_ISBJ, lstINFO, Subject, String(""));
396 SaveString(CHUNK_ID_ISFT, lstINFO, Software, defaultSoftware);
397 SaveString(CHUNK_ID_ISRC, lstINFO, Source, String(""));
398 SaveString(CHUNK_ID_ISRF, lstINFO, SourceForm, String(""));
399 SaveString(CHUNK_ID_ITCH, lstINFO, Technician, String(""));
400 }
401
402 /**
403 * Make a deep copy of the Info object given by @a orig and assign it to
404 * this object.
405 *
406 * @param orig - original Info object to be copied from
407 */
408 void Info::CopyAssign(const Info* orig) {
409 Name = orig->Name;
410 ArchivalLocation = orig->ArchivalLocation;
411 CreationDate = orig->CreationDate;
412 Comments = orig->Comments;
413 Product = orig->Product;
414 Copyright = orig->Copyright;
415 Artists = orig->Artists;
416 Genre = orig->Genre;
417 Keywords = orig->Keywords;
418 Engineer = orig->Engineer;
419 Technician = orig->Technician;
420 Software = orig->Software;
421 Medium = orig->Medium;
422 Source = orig->Source;
423 SourceForm = orig->SourceForm;
424 Commissioned = orig->Commissioned;
425 Subject = orig->Subject;
426 //FIXME: hmm, is copying this pointer a good idea?
427 pFixedStringLengths = orig->pFixedStringLengths;
428 }
429
430
431
432 // *************** Resource ***************
433 // *
434
435 /** @brief Constructor.
436 *
437 * Initializes the 'Resource' object with values provided by a given
438 * INFO list chunk and a DLID chunk (the latter optional).
439 *
440 * @param Parent - pointer to parent 'Resource', NULL if this is
441 * the toplevel 'Resource' object
442 * @param lstResource - pointer to an INFO list chunk
443 */
444 Resource::Resource(Resource* Parent, RIFF::List* lstResource) {
445 pParent = Parent;
446 pResourceList = lstResource;
447
448 pInfo = new Info(lstResource);
449
450 RIFF::Chunk* ckDLSID = lstResource->GetSubChunk(CHUNK_ID_DLID);
451 if (ckDLSID) {
452 pDLSID = new dlsid_t;
453 ckDLSID->Read(&pDLSID->ulData1, 1, 4);
454 ckDLSID->Read(&pDLSID->usData2, 1, 2);
455 ckDLSID->Read(&pDLSID->usData3, 1, 2);
456 ckDLSID->Read(pDLSID->abData, 8, 1);
457 }
458 else pDLSID = NULL;
459 }
460
461 Resource::~Resource() {
462 if (pDLSID) delete pDLSID;
463 if (pInfo) delete pInfo;
464 }
465
466 /** @brief Update chunks with current Resource data.
467 *
468 * Apply Resource data persistently below the previously given resource
469 * list chunk. This will currently only include the INFO data. The DLSID
470 * will not be applied at the moment (yet).
471 *
472 * You have to call File::Save() to make changes persistent.
473 *
474 * @param pProgress - callback function for progress notification
475 */
476 void Resource::UpdateChunks(progress_t* pProgress) {
477 pInfo->UpdateChunks(pProgress);
478
479 if (pDLSID) {
480 // make sure 'dlid' chunk exists
481 RIFF::Chunk* ckDLSID = pResourceList->GetSubChunk(CHUNK_ID_DLID);
482 if (!ckDLSID) ckDLSID = pResourceList->AddSubChunk(CHUNK_ID_DLID, 16);
483 uint8_t* pData = (uint8_t*)ckDLSID->LoadChunkData();
484 // update 'dlid' chunk
485 store32(&pData[0], pDLSID->ulData1);
486 store16(&pData[4], pDLSID->usData2);
487 store16(&pData[6], pDLSID->usData3);
488 memcpy(&pData[8], pDLSID->abData, 8);
489 }
490 }
491
492 /**
493 * Generates a new DLSID for the resource.
494 */
495 void Resource::GenerateDLSID() {
496 #if defined(WIN32) || defined(__APPLE__) || defined(HAVE_UUID_GENERATE)
497
498 if (!pDLSID) pDLSID = new dlsid_t;
499
500 #ifdef WIN32
501
502 UUID uuid;
503 UuidCreate(&uuid);
504 pDLSID->ulData1 = uuid.Data1;
505 pDLSID->usData2 = uuid.Data2;
506 pDLSID->usData3 = uuid.Data3;
507 memcpy(pDLSID->abData, uuid.Data4, 8);
508
509 #elif defined(__APPLE__)
510
511 CFUUIDRef uuidRef = CFUUIDCreate(NULL);
512 CFUUIDBytes uuid = CFUUIDGetUUIDBytes(uuidRef);
513 CFRelease(uuidRef);
514 pDLSID->ulData1 = uuid.byte0 | uuid.byte1 << 8 | uuid.byte2 << 16 | uuid.byte3 << 24;
515 pDLSID->usData2 = uuid.byte4 | uuid.byte5 << 8;
516 pDLSID->usData3 = uuid.byte6 | uuid.byte7 << 8;
517 pDLSID->abData[0] = uuid.byte8;
518 pDLSID->abData[1] = uuid.byte9;
519 pDLSID->abData[2] = uuid.byte10;
520 pDLSID->abData[3] = uuid.byte11;
521 pDLSID->abData[4] = uuid.byte12;
522 pDLSID->abData[5] = uuid.byte13;
523 pDLSID->abData[6] = uuid.byte14;
524 pDLSID->abData[7] = uuid.byte15;
525 #else
526 uuid_t uuid;
527 uuid_generate(uuid);
528 pDLSID->ulData1 = uuid[0] | uuid[1] << 8 | uuid[2] << 16 | uuid[3] << 24;
529 pDLSID->usData2 = uuid[4] | uuid[5] << 8;
530 pDLSID->usData3 = uuid[6] | uuid[7] << 8;
531 memcpy(pDLSID->abData, &uuid[8], 8);
532 #endif
533 #endif
534 }
535
536 /**
537 * Make a deep copy of the Resource object given by @a orig and assign it
538 * to this object.
539 *
540 * @param orig - original Resource object to be copied from
541 */
542 void Resource::CopyAssign(const Resource* orig) {
543 pInfo->CopyAssign(orig->pInfo);
544 }
545
546
547 // *************** Sampler ***************
548 // *
549
550 Sampler::Sampler(RIFF::List* ParentList) {
551 pParentList = ParentList;
552 RIFF::Chunk* wsmp = ParentList->GetSubChunk(CHUNK_ID_WSMP);
553 if (wsmp) {
554 uiHeaderSize = wsmp->ReadUint32();
555 UnityNote = wsmp->ReadUint16();
556 FineTune = wsmp->ReadInt16();
557 Gain = wsmp->ReadInt32();
558 SamplerOptions = wsmp->ReadUint32();
559 SampleLoops = wsmp->ReadUint32();
560 } else { // 'wsmp' chunk missing
561 uiHeaderSize = 20;
562 UnityNote = 60;
563 FineTune = 0; // +- 0 cents
564 Gain = 0; // 0 dB
565 SamplerOptions = F_WSMP_NO_COMPRESSION;
566 SampleLoops = 0;
567 }
568 NoSampleDepthTruncation = SamplerOptions & F_WSMP_NO_TRUNCATION;
569 NoSampleCompression = SamplerOptions & F_WSMP_NO_COMPRESSION;
570 pSampleLoops = (SampleLoops) ? new sample_loop_t[SampleLoops] : NULL;
571 if (SampleLoops) {
572 wsmp->SetPos(uiHeaderSize);
573 for (uint32_t i = 0; i < SampleLoops; i++) {
574 wsmp->Read(pSampleLoops + i, 4, 4);
575 if (pSampleLoops[i].Size > sizeof(sample_loop_t)) { // if loop struct was extended
576 wsmp->SetPos(pSampleLoops[i].Size - sizeof(sample_loop_t), RIFF::stream_curpos);
577 }
578 }
579 }
580 }
581
582 Sampler::~Sampler() {
583 if (pSampleLoops) delete[] pSampleLoops;
584 }
585
586 void Sampler::SetGain(int32_t gain) {
587 Gain = gain;
588 }
589
590 /**
591 * Apply all sample player options to the respective RIFF chunk. You
592 * have to call File::Save() to make changes persistent.
593 *
594 * @param pProgress - callback function for progress notification
595 */
596 void Sampler::UpdateChunks(progress_t* pProgress) {
597 // make sure 'wsmp' chunk exists
598 RIFF::Chunk* wsmp = pParentList->GetSubChunk(CHUNK_ID_WSMP);
599 int wsmpSize = uiHeaderSize + SampleLoops * 16;
600 if (!wsmp) {
601 wsmp = pParentList->AddSubChunk(CHUNK_ID_WSMP, wsmpSize);
602 } else if (wsmp->GetSize() != wsmpSize) {
603 wsmp->Resize(wsmpSize);
604 }
605 uint8_t* pData = (uint8_t*) wsmp->LoadChunkData();
606 // update headers size
607 store32(&pData[0], uiHeaderSize);
608 // update respective sampler options bits
609 SamplerOptions = (NoSampleDepthTruncation) ? SamplerOptions | F_WSMP_NO_TRUNCATION
610 : SamplerOptions & (~F_WSMP_NO_TRUNCATION);
611 SamplerOptions = (NoSampleCompression) ? SamplerOptions | F_WSMP_NO_COMPRESSION
612 : SamplerOptions & (~F_WSMP_NO_COMPRESSION);
613 store16(&pData[4], UnityNote);
614 store16(&pData[6], FineTune);
615 store32(&pData[8], Gain);
616 store32(&pData[12], SamplerOptions);
617 store32(&pData[16], SampleLoops);
618 // update loop definitions
619 for (uint32_t i = 0; i < SampleLoops; i++) {
620 //FIXME: this does not handle extended loop structs correctly
621 store32(&pData[uiHeaderSize + i * 16], pSampleLoops[i].Size);
622 store32(&pData[uiHeaderSize + i * 16 + 4], pSampleLoops[i].LoopType);
623 store32(&pData[uiHeaderSize + i * 16 + 8], pSampleLoops[i].LoopStart);
624 store32(&pData[uiHeaderSize + i * 16 + 12], pSampleLoops[i].LoopLength);
625 }
626 }
627
628 /**
629 * Adds a new sample loop with the provided loop definition.
630 *
631 * @param pLoopDef - points to a loop definition that is to be copied
632 */
633 void Sampler::AddSampleLoop(sample_loop_t* pLoopDef) {
634 sample_loop_t* pNewLoops = new sample_loop_t[SampleLoops + 1];
635 // copy old loops array
636 for (int i = 0; i < SampleLoops; i++) {
637 pNewLoops[i] = pSampleLoops[i];
638 }
639 // add the new loop
640 pNewLoops[SampleLoops] = *pLoopDef;
641 // auto correct size field
642 pNewLoops[SampleLoops].Size = sizeof(DLS::sample_loop_t);
643 // free the old array and update the member variables
644 if (SampleLoops) delete[] pSampleLoops;
645 pSampleLoops = pNewLoops;
646 SampleLoops++;
647 }
648
649 /**
650 * Deletes an existing sample loop.
651 *
652 * @param pLoopDef - pointer to existing loop definition
653 * @throws Exception - if given loop definition does not exist
654 */
655 void Sampler::DeleteSampleLoop(sample_loop_t* pLoopDef) {
656 sample_loop_t* pNewLoops = new sample_loop_t[SampleLoops - 1];
657 // copy old loops array (skipping given loop)
658 for (int i = 0, o = 0; i < SampleLoops; i++) {
659 if (&pSampleLoops[i] == pLoopDef) continue;
660 if (o == SampleLoops - 1) {
661 delete[] pNewLoops;
662 throw Exception("Could not delete Sample Loop, because it does not exist");
663 }
664 pNewLoops[o] = pSampleLoops[i];
665 o++;
666 }
667 // free the old array and update the member variables
668 if (SampleLoops) delete[] pSampleLoops;
669 pSampleLoops = pNewLoops;
670 SampleLoops--;
671 }
672
673 /**
674 * Make a deep copy of the Sampler object given by @a orig and assign it
675 * to this object.
676 *
677 * @param orig - original Sampler object to be copied from
678 */
679 void Sampler::CopyAssign(const Sampler* orig) {
680 // copy trivial scalars
681 UnityNote = orig->UnityNote;
682 FineTune = orig->FineTune;
683 Gain = orig->Gain;
684 NoSampleDepthTruncation = orig->NoSampleDepthTruncation;
685 NoSampleCompression = orig->NoSampleCompression;
686 SamplerOptions = orig->SamplerOptions;
687
688 // copy sample loops
689 if (SampleLoops) delete[] pSampleLoops;
690 pSampleLoops = new sample_loop_t[orig->SampleLoops];
691 memcpy(pSampleLoops, orig->pSampleLoops, orig->SampleLoops * sizeof(sample_loop_t));
692 SampleLoops = orig->SampleLoops;
693 }
694
695
696 // *************** Sample ***************
697 // *
698
699 /** @brief Constructor.
700 *
701 * Load an existing sample or create a new one. A 'wave' list chunk must
702 * be given to this constructor. In case the given 'wave' list chunk
703 * contains a 'fmt' and 'data' chunk, the format and sample data will be
704 * loaded from there, otherwise default values will be used and those
705 * chunks will be created when File::Save() will be called later on.
706 *
707 * @param pFile - pointer to DLS::File where this sample is
708 * located (or will be located)
709 * @param waveList - pointer to 'wave' list chunk which is (or
710 * will be) associated with this sample
711 * @param WavePoolOffset - offset of this sample data from wave pool
712 * ('wvpl') list chunk
713 */
714 Sample::Sample(File* pFile, RIFF::List* waveList, unsigned long WavePoolOffset) : Resource(pFile, waveList) {
715 pWaveList = waveList;
716 ulWavePoolOffset = WavePoolOffset - LIST_HEADER_SIZE;
717 pCkFormat = waveList->GetSubChunk(CHUNK_ID_FMT);
718 pCkData = waveList->GetSubChunk(CHUNK_ID_DATA);
719 if (pCkFormat) {
720 // common fields
721 FormatTag = pCkFormat->ReadUint16();
722 Channels = pCkFormat->ReadUint16();
723 SamplesPerSecond = pCkFormat->ReadUint32();
724 AverageBytesPerSecond = pCkFormat->ReadUint32();
725 BlockAlign = pCkFormat->ReadUint16();
726 // PCM format specific
727 if (FormatTag == DLS_WAVE_FORMAT_PCM) {
728 BitDepth = pCkFormat->ReadUint16();
729 FrameSize = (BitDepth / 8) * Channels;
730 } else { // unsupported sample data format
731 BitDepth = 0;
732 FrameSize = 0;
733 }
734 } else { // 'fmt' chunk missing
735 FormatTag = DLS_WAVE_FORMAT_PCM;
736 BitDepth = 16;
737 Channels = 1;
738 SamplesPerSecond = 44100;
739 AverageBytesPerSecond = (BitDepth / 8) * SamplesPerSecond * Channels;
740 FrameSize = (BitDepth / 8) * Channels;
741 BlockAlign = FrameSize;
742 }
743 SamplesTotal = (pCkData) ? (FormatTag == DLS_WAVE_FORMAT_PCM) ? pCkData->GetSize() / FrameSize
744 : 0
745 : 0;
746 }
747
748 /** @brief Destructor.
749 *
750 * Removes RIFF chunks associated with this Sample and frees all
751 * memory occupied by this sample.
752 */
753 Sample::~Sample() {
754 RIFF::List* pParent = pWaveList->GetParent();
755 pParent->DeleteSubChunk(pWaveList);
756 }
757
758 /**
759 * Make a deep copy of the Sample object given by @a orig (without the
760 * actual sample waveform data however) and assign it to this object.
761 *
762 * This is a special internal variant of CopyAssign() which only copies the
763 * most mandatory member variables. It will be called by gig::Sample
764 * descendent instead of CopyAssign() since gig::Sample has its own
765 * implementation to access and copy the actual sample waveform data.
766 *
767 * @param orig - original Sample object to be copied from
768 */
769 void Sample::CopyAssignCore(const Sample* orig) {
770 // handle base classes
771 Resource::CopyAssign(orig);
772 // handle actual own attributes of this class
773 FormatTag = orig->FormatTag;
774 Channels = orig->Channels;
775 SamplesPerSecond = orig->SamplesPerSecond;
776 AverageBytesPerSecond = orig->AverageBytesPerSecond;
777 BlockAlign = orig->BlockAlign;
778 BitDepth = orig->BitDepth;
779 SamplesTotal = orig->SamplesTotal;
780 FrameSize = orig->FrameSize;
781 }
782
783 /**
784 * Make a deep copy of the Sample object given by @a orig and assign it to
785 * this object.
786 *
787 * @param orig - original Sample object to be copied from
788 */
789 void Sample::CopyAssign(const Sample* orig) {
790 CopyAssignCore(orig);
791
792 // copy sample waveform data (reading directly from disc)
793 Resize(orig->GetSize());
794 char* buf = (char*) LoadSampleData();
795 Sample* pOrig = (Sample*) orig; //HACK: circumventing the constness here for now
796 const unsigned long restorePos = pOrig->pCkData->GetPos();
797 pOrig->SetPos(0);
798 for (unsigned long todo = pOrig->GetSize(), i = 0; todo; ) {
799 const int iReadAtOnce = 64*1024;
800 unsigned long n = (iReadAtOnce < todo) ? iReadAtOnce : todo;
801 n = pOrig->Read(&buf[i], n);
802 if (!n) break;
803 todo -= n;
804 i += (n * pOrig->FrameSize);
805 }
806 pOrig->pCkData->SetPos(restorePos);
807 }
808
809 /** @brief Load sample data into RAM.
810 *
811 * In case the respective 'data' chunk exists, the sample data will be
812 * loaded into RAM (if not done already) and a pointer to the data in
813 * RAM will be returned. If this is a new sample, you have to call
814 * Resize() with the desired sample size to create the mandatory RIFF
815 * chunk for the sample wave data.
816 *
817 * You can call LoadChunkData() again if you previously scheduled to
818 * enlarge the sample data RIFF chunk with a Resize() call. In that case
819 * the buffer will be enlarged to the new, scheduled size and you can
820 * already place the sample wave data to the buffer and finally call
821 * File::Save() to enlarge the sample data's chunk physically and write
822 * the new sample wave data in one rush. This approach is definitely
823 * recommended if you have to enlarge and write new sample data to a lot
824 * of samples.
825 *
826 * <b>Caution:</b> the buffer pointer will be invalidated once
827 * File::Save() was called. You have to call LoadChunkData() again to
828 * get a new, valid pointer whenever File::Save() was called.
829 *
830 * @returns pointer to sample data in RAM, NULL in case respective
831 * 'data' chunk does not exist (yet)
832 * @throws Exception if data buffer could not be enlarged
833 * @see Resize(), File::Save()
834 */
835 void* Sample::LoadSampleData() {
836 return (pCkData) ? pCkData->LoadChunkData() : NULL;
837 }
838
839 /** @brief Free sample data from RAM.
840 *
841 * In case sample data was previously successfully loaded into RAM with
842 * LoadSampleData(), this method will free the sample data from RAM.
843 */
844 void Sample::ReleaseSampleData() {
845 if (pCkData) pCkData->ReleaseChunkData();
846 }
847
848 /** @brief Returns sample size.
849 *
850 * Returns the sample wave form's data size (in sample points). This is
851 * actually the current, physical size (converted to sample points) of
852 * the RIFF chunk which encapsulates the sample's wave data. The
853 * returned value is dependant to the current FrameSize value.
854 *
855 * @returns number of sample points or 0 if FormatTag != DLS_WAVE_FORMAT_PCM
856 * @see FrameSize, FormatTag
857 */
858 unsigned long Sample::GetSize() const {
859 if (FormatTag != DLS_WAVE_FORMAT_PCM) return 0;
860 return (pCkData) ? pCkData->GetSize() / FrameSize : 0;
861 }
862
863 /** @brief Resize sample.
864 *
865 * Resizes the sample's wave form data, that is the actual size of
866 * sample wave data possible to be written for this sample. This call
867 * will return immediately and just schedule the resize operation. You
868 * should call File::Save() to actually perform the resize operation(s)
869 * "physically" to the file. As this can take a while on large files, it
870 * is recommended to call Resize() first on all samples which have to be
871 * resized and finally to call File::Save() to perform all those resize
872 * operations in one rush.
873 *
874 * The actual size (in bytes) is dependant to the current FrameSize
875 * value. You may want to set FrameSize before calling Resize().
876 *
877 * <b>Caution:</b> You cannot directly write to enlarged samples before
878 * calling File::Save() as this might exceed the current sample's
879 * boundary!
880 *
881 * Also note: only DLS_WAVE_FORMAT_PCM is currently supported, that is
882 * FormatTag must be DLS_WAVE_FORMAT_PCM. Trying to resize samples with
883 * other formats will fail!
884 *
885 * @param iNewSize - new sample wave data size in sample points (must be
886 * greater than zero)
887 * @throws Excecption if FormatTag != DLS_WAVE_FORMAT_PCM
888 * @throws Exception if \a iNewSize is less than 1
889 * @see File::Save(), FrameSize, FormatTag
890 */
891 void Sample::Resize(int iNewSize) {
892 if (FormatTag != DLS_WAVE_FORMAT_PCM) throw Exception("Sample's format is not DLS_WAVE_FORMAT_PCM");
893 if (iNewSize < 1) throw Exception("Sample size must be at least one sample point");
894 const int iSizeInBytes = iNewSize * FrameSize;
895 pCkData = pWaveList->GetSubChunk(CHUNK_ID_DATA);
896 if (pCkData) pCkData->Resize(iSizeInBytes);
897 else pCkData = pWaveList->AddSubChunk(CHUNK_ID_DATA, iSizeInBytes);
898 }
899
900 /**
901 * Sets the position within the sample (in sample points, not in
902 * bytes). Use this method and <i>Read()</i> if you don't want to load
903 * the sample into RAM, thus for disk streaming.
904 *
905 * Also note: only DLS_WAVE_FORMAT_PCM is currently supported, that is
906 * FormatTag must be DLS_WAVE_FORMAT_PCM. Trying to reposition the sample
907 * with other formats will fail!
908 *
909 * @param SampleCount number of sample points
910 * @param Whence to which relation \a SampleCount refers to
911 * @returns new position within the sample, 0 if
912 * FormatTag != DLS_WAVE_FORMAT_PCM
913 * @throws Exception if no data RIFF chunk was created for the sample yet
914 * @see FrameSize, FormatTag
915 */
916 unsigned long Sample::SetPos(unsigned long SampleCount, RIFF::stream_whence_t Whence) {
917 if (FormatTag != DLS_WAVE_FORMAT_PCM) return 0; // failed: wave data not PCM format
918 if (!pCkData) throw Exception("No data chunk created for sample yet, call Sample::Resize() to create one");
919 unsigned long orderedBytes = SampleCount * FrameSize;
920 unsigned long result = pCkData->SetPos(orderedBytes, Whence);
921 return (result == orderedBytes) ? SampleCount
922 : result / FrameSize;
923 }
924
925 /**
926 * Reads \a SampleCount number of sample points from the current
927 * position into the buffer pointed by \a pBuffer and increments the
928 * position within the sample. Use this method and <i>SetPos()</i> if you
929 * don't want to load the sample into RAM, thus for disk streaming.
930 *
931 * @param pBuffer destination buffer
932 * @param SampleCount number of sample points to read
933 */
934 unsigned long Sample::Read(void* pBuffer, unsigned long SampleCount) {
935 if (FormatTag != DLS_WAVE_FORMAT_PCM) return 0; // failed: wave data not PCM format
936 return pCkData->Read(pBuffer, SampleCount, FrameSize); // FIXME: channel inversion due to endian correction?
937 }
938
939 /** @brief Write sample wave data.
940 *
941 * Writes \a SampleCount number of sample points from the buffer pointed
942 * by \a pBuffer and increments the position within the sample. Use this
943 * method to directly write the sample data to disk, i.e. if you don't
944 * want or cannot load the whole sample data into RAM.
945 *
946 * You have to Resize() the sample to the desired size and call
947 * File::Save() <b>before</b> using Write().
948 *
949 * @param pBuffer - source buffer
950 * @param SampleCount - number of sample points to write
951 * @throws Exception if current sample size is too small
952 * @see LoadSampleData()
953 */
954 unsigned long Sample::Write(void* pBuffer, unsigned long SampleCount) {
955 if (FormatTag != DLS_WAVE_FORMAT_PCM) return 0; // failed: wave data not PCM format
956 if (GetSize() < SampleCount) throw Exception("Could not write sample data, current sample size to small");
957 return pCkData->Write(pBuffer, SampleCount, FrameSize); // FIXME: channel inversion due to endian correction?
958 }
959
960 /**
961 * Apply sample and its settings to the respective RIFF chunks. You have
962 * to call File::Save() to make changes persistent.
963 *
964 * @param pProgress - callback function for progress notification
965 * @throws Exception if FormatTag != DLS_WAVE_FORMAT_PCM or no sample data
966 * was provided yet
967 */
968 void Sample::UpdateChunks(progress_t* pProgress) {
969 if (FormatTag != DLS_WAVE_FORMAT_PCM)
970 throw Exception("Could not save sample, only PCM format is supported");
971 // we refuse to do anything if not sample wave form was provided yet
972 if (!pCkData)
973 throw Exception("Could not save sample, there is no sample data to save");
974 // update chunks of base class as well
975 Resource::UpdateChunks(pProgress);
976 // make sure 'fmt' chunk exists
977 RIFF::Chunk* pCkFormat = pWaveList->GetSubChunk(CHUNK_ID_FMT);
978 if (!pCkFormat) pCkFormat = pWaveList->AddSubChunk(CHUNK_ID_FMT, 16); // assumes PCM format
979 uint8_t* pData = (uint8_t*) pCkFormat->LoadChunkData();
980 // update 'fmt' chunk
981 store16(&pData[0], FormatTag);
982 store16(&pData[2], Channels);
983 store32(&pData[4], SamplesPerSecond);
984 store32(&pData[8], AverageBytesPerSecond);
985 store16(&pData[12], BlockAlign);
986 store16(&pData[14], BitDepth); // assuming PCM format
987 }
988
989
990
991 // *************** Region ***************
992 // *
993
994 Region::Region(Instrument* pInstrument, RIFF::List* rgnList) : Resource(pInstrument, rgnList), Articulator(rgnList), Sampler(rgnList) {
995 pCkRegion = rgnList;
996
997 // articulation informations
998 RIFF::Chunk* rgnh = rgnList->GetSubChunk(CHUNK_ID_RGNH);
999 if (rgnh) {
1000 rgnh->Read(&KeyRange, 2, 2);
1001 rgnh->Read(&VelocityRange, 2, 2);
1002 FormatOptionFlags = rgnh->ReadUint16();
1003 KeyGroup = rgnh->ReadUint16();
1004 // Layer is optional
1005 if (rgnh->RemainingBytes() >= sizeof(uint16_t)) {
1006 rgnh->Read(&Layer, 1, sizeof(uint16_t));
1007 } else Layer = 0;
1008 } else { // 'rgnh' chunk is missing
1009 KeyRange.low = 0;
1010 KeyRange.high = 127;
1011 VelocityRange.low = 0;
1012 VelocityRange.high = 127;
1013 FormatOptionFlags = F_RGN_OPTION_SELFNONEXCLUSIVE;
1014 KeyGroup = 0;
1015 Layer = 0;
1016 }
1017 SelfNonExclusive = FormatOptionFlags & F_RGN_OPTION_SELFNONEXCLUSIVE;
1018
1019 // sample informations
1020 RIFF::Chunk* wlnk = rgnList->GetSubChunk(CHUNK_ID_WLNK);
1021 if (wlnk) {
1022 WaveLinkOptionFlags = wlnk->ReadUint16();
1023 PhaseGroup = wlnk->ReadUint16();
1024 Channel = wlnk->ReadUint32();
1025 WavePoolTableIndex = wlnk->ReadUint32();
1026 } else { // 'wlnk' chunk is missing
1027 WaveLinkOptionFlags = 0;
1028 PhaseGroup = 0;
1029 Channel = 0; // mono
1030 WavePoolTableIndex = 0; // first entry in wave pool table
1031 }
1032 PhaseMaster = WaveLinkOptionFlags & F_WAVELINK_PHASE_MASTER;
1033 MultiChannel = WaveLinkOptionFlags & F_WAVELINK_MULTICHANNEL;
1034
1035 pSample = NULL;
1036 }
1037
1038 /** @brief Destructor.
1039 *
1040 * Removes RIFF chunks associated with this Region.
1041 */
1042 Region::~Region() {
1043 RIFF::List* pParent = pCkRegion->GetParent();
1044 pParent->DeleteSubChunk(pCkRegion);
1045 }
1046
1047 Sample* Region::GetSample() {
1048 if (pSample) return pSample;
1049 File* file = (File*) GetParent()->GetParent();
1050 unsigned long soughtoffset = file->pWavePoolTable[WavePoolTableIndex];
1051 Sample* sample = file->GetFirstSample();
1052 while (sample) {
1053 if (sample->ulWavePoolOffset == soughtoffset) return (pSample = sample);
1054 sample = file->GetNextSample();
1055 }
1056 return NULL;
1057 }
1058
1059 /**
1060 * Assign another sample to this Region.
1061 *
1062 * @param pSample - sample to be assigned
1063 */
1064 void Region::SetSample(Sample* pSample) {
1065 this->pSample = pSample;
1066 WavePoolTableIndex = 0; // we update this offset when we Save()
1067 }
1068
1069 /**
1070 * Modifies the key range of this Region and makes sure the respective
1071 * chunks are in correct order.
1072 *
1073 * @param Low - lower end of key range
1074 * @param High - upper end of key range
1075 */
1076 void Region::SetKeyRange(uint16_t Low, uint16_t High) {
1077 KeyRange.low = Low;
1078 KeyRange.high = High;
1079
1080 // make sure regions are already loaded
1081 Instrument* pInstrument = (Instrument*) GetParent();
1082 if (!pInstrument->pRegions) pInstrument->LoadRegions();
1083 if (!pInstrument->pRegions) return;
1084
1085 // find the r which is the first one to the right of this region
1086 // at its new position
1087 Region* r = NULL;
1088 Region* prev_region = NULL;
1089 for (
1090 Instrument::RegionList::iterator iter = pInstrument->pRegions->begin();
1091 iter != pInstrument->pRegions->end(); iter++
1092 ) {
1093 if ((*iter)->KeyRange.low > this->KeyRange.low) {
1094 r = *iter;
1095 break;
1096 }
1097 prev_region = *iter;
1098 }
1099
1100 // place this region before r if it's not already there
1101 if (prev_region != this) pInstrument->MoveRegion(this, r);
1102 }
1103
1104 /**
1105 * Apply Region settings to the respective RIFF chunks. You have to
1106 * call File::Save() to make changes persistent.
1107 *
1108 * @param pProgress - callback function for progress notification
1109 * @throws Exception - if the Region's sample could not be found
1110 */
1111 void Region::UpdateChunks(progress_t* pProgress) {
1112 // make sure 'rgnh' chunk exists
1113 RIFF::Chunk* rgnh = pCkRegion->GetSubChunk(CHUNK_ID_RGNH);
1114 if (!rgnh) rgnh = pCkRegion->AddSubChunk(CHUNK_ID_RGNH, Layer ? 14 : 12);
1115 uint8_t* pData = (uint8_t*) rgnh->LoadChunkData();
1116 FormatOptionFlags = (SelfNonExclusive)
1117 ? FormatOptionFlags | F_RGN_OPTION_SELFNONEXCLUSIVE
1118 : FormatOptionFlags & (~F_RGN_OPTION_SELFNONEXCLUSIVE);
1119 // update 'rgnh' chunk
1120 store16(&pData[0], KeyRange.low);
1121 store16(&pData[2], KeyRange.high);
1122 store16(&pData[4], VelocityRange.low);
1123 store16(&pData[6], VelocityRange.high);
1124 store16(&pData[8], FormatOptionFlags);
1125 store16(&pData[10], KeyGroup);
1126 if (rgnh->GetSize() >= 14) store16(&pData[12], Layer);
1127
1128 // update chunks of base classes as well (but skip Resource,
1129 // as a rgn doesn't seem to have dlid and INFO chunks)
1130 Articulator::UpdateChunks(pProgress);
1131 Sampler::UpdateChunks(pProgress);
1132
1133 // make sure 'wlnk' chunk exists
1134 RIFF::Chunk* wlnk = pCkRegion->GetSubChunk(CHUNK_ID_WLNK);
1135 if (!wlnk) wlnk = pCkRegion->AddSubChunk(CHUNK_ID_WLNK, 12);
1136 pData = (uint8_t*) wlnk->LoadChunkData();
1137 WaveLinkOptionFlags = (PhaseMaster)
1138 ? WaveLinkOptionFlags | F_WAVELINK_PHASE_MASTER
1139 : WaveLinkOptionFlags & (~F_WAVELINK_PHASE_MASTER);
1140 WaveLinkOptionFlags = (MultiChannel)
1141 ? WaveLinkOptionFlags | F_WAVELINK_MULTICHANNEL
1142 : WaveLinkOptionFlags & (~F_WAVELINK_MULTICHANNEL);
1143 // get sample's wave pool table index
1144 int index = -1;
1145 File* pFile = (File*) GetParent()->GetParent();
1146 if (pFile->pSamples) {
1147 File::SampleList::iterator iter = pFile->pSamples->begin();
1148 File::SampleList::iterator end = pFile->pSamples->end();
1149 for (int i = 0; iter != end; ++iter, i++) {
1150 if (*iter == pSample) {
1151 index = i;
1152 break;
1153 }
1154 }
1155 }
1156 WavePoolTableIndex = index;
1157 // update 'wlnk' chunk
1158 store16(&pData[0], WaveLinkOptionFlags);
1159 store16(&pData[2], PhaseGroup);
1160 store32(&pData[4], Channel);
1161 store32(&pData[8], WavePoolTableIndex);
1162 }
1163
1164 /**
1165 * Make a (semi) deep copy of the Region object given by @a orig and assign
1166 * it to this object.
1167 *
1168 * Note that the sample pointer referenced by @a orig is simply copied as
1169 * memory address. Thus the respective sample is shared, not duplicated!
1170 *
1171 * @param orig - original Region object to be copied from
1172 */
1173 void Region::CopyAssign(const Region* orig) {
1174 // handle base classes
1175 Resource::CopyAssign(orig);
1176 Articulator::CopyAssign(orig);
1177 Sampler::CopyAssign(orig);
1178 // handle actual own attributes of this class
1179 // (the trivial ones)
1180 VelocityRange = orig->VelocityRange;
1181 KeyGroup = orig->KeyGroup;
1182 Layer = orig->Layer;
1183 SelfNonExclusive = orig->SelfNonExclusive;
1184 PhaseMaster = orig->PhaseMaster;
1185 PhaseGroup = orig->PhaseGroup;
1186 MultiChannel = orig->MultiChannel;
1187 Channel = orig->Channel;
1188 // only take the raw sample reference if the two Region objects are
1189 // part of the same file
1190 if (GetParent()->GetParent() == orig->GetParent()->GetParent()) {
1191 WavePoolTableIndex = orig->WavePoolTableIndex;
1192 pSample = orig->pSample;
1193 } else {
1194 WavePoolTableIndex = -1;
1195 pSample = NULL;
1196 }
1197 FormatOptionFlags = orig->FormatOptionFlags;
1198 WaveLinkOptionFlags = orig->WaveLinkOptionFlags;
1199 // handle the last, a bit sensible attribute
1200 SetKeyRange(orig->KeyRange.low, orig->KeyRange.high);
1201 }
1202
1203
1204 // *************** Instrument ***************
1205 // *
1206
1207 /** @brief Constructor.
1208 *
1209 * Load an existing instrument definition or create a new one. An 'ins'
1210 * list chunk must be given to this constructor. In case this 'ins' list
1211 * chunk contains a 'insh' chunk, the instrument data fields will be
1212 * loaded from there, otherwise default values will be used and the
1213 * 'insh' chunk will be created once File::Save() was called.
1214 *
1215 * @param pFile - pointer to DLS::File where this instrument is
1216 * located (or will be located)
1217 * @param insList - pointer to 'ins' list chunk which is (or will be)
1218 * associated with this instrument
1219 */
1220 Instrument::Instrument(File* pFile, RIFF::List* insList) : Resource(pFile, insList), Articulator(insList) {
1221 pCkInstrument = insList;
1222
1223 midi_locale_t locale;
1224 RIFF::Chunk* insh = pCkInstrument->GetSubChunk(CHUNK_ID_INSH);
1225 if (insh) {
1226 Regions = insh->ReadUint32();
1227 insh->Read(&locale, 2, 4);
1228 } else { // 'insh' chunk missing
1229 Regions = 0;
1230 locale.bank = 0;
1231 locale.instrument = 0;
1232 }
1233
1234 MIDIProgram = locale.instrument;
1235 IsDrum = locale.bank & DRUM_TYPE_MASK;
1236 MIDIBankCoarse = (uint8_t) MIDI_BANK_COARSE(locale.bank);
1237 MIDIBankFine = (uint8_t) MIDI_BANK_FINE(locale.bank);
1238 MIDIBank = MIDI_BANK_MERGE(MIDIBankCoarse, MIDIBankFine);
1239
1240 pRegions = NULL;
1241 }
1242
1243 Region* Instrument::GetFirstRegion() {
1244 if (!pRegions) LoadRegions();
1245 if (!pRegions) return NULL;
1246 RegionsIterator = pRegions->begin();
1247 return (RegionsIterator != pRegions->end()) ? *RegionsIterator : NULL;
1248 }
1249
1250 Region* Instrument::GetNextRegion() {
1251 if (!pRegions) return NULL;
1252 RegionsIterator++;
1253 return (RegionsIterator != pRegions->end()) ? *RegionsIterator : NULL;
1254 }
1255
1256 void Instrument::LoadRegions() {
1257 if (!pRegions) pRegions = new RegionList;
1258 RIFF::List* lrgn = pCkInstrument->GetSubList(LIST_TYPE_LRGN);
1259 if (lrgn) {
1260 uint32_t regionCkType = (lrgn->GetSubList(LIST_TYPE_RGN2)) ? LIST_TYPE_RGN2 : LIST_TYPE_RGN; // prefer regions level 2
1261 RIFF::List* rgn = lrgn->GetFirstSubList();
1262 while (rgn) {
1263 if (rgn->GetListType() == regionCkType) {
1264 pRegions->push_back(new Region(this, rgn));
1265 }
1266 rgn = lrgn->GetNextSubList();
1267 }
1268 }
1269 }
1270
1271 Region* Instrument::AddRegion() {
1272 if (!pRegions) LoadRegions();
1273 RIFF::List* lrgn = pCkInstrument->GetSubList(LIST_TYPE_LRGN);
1274 if (!lrgn) lrgn = pCkInstrument->AddSubList(LIST_TYPE_LRGN);
1275 RIFF::List* rgn = lrgn->AddSubList(LIST_TYPE_RGN);
1276 Region* pNewRegion = new Region(this, rgn);
1277 pRegions->push_back(pNewRegion);
1278 Regions = pRegions->size();
1279 return pNewRegion;
1280 }
1281
1282 void Instrument::MoveRegion(Region* pSrc, Region* pDst) {
1283 RIFF::List* lrgn = pCkInstrument->GetSubList(LIST_TYPE_LRGN);
1284 lrgn->MoveSubChunk(pSrc->pCkRegion, pDst ? pDst->pCkRegion : 0);
1285
1286 pRegions->remove(pSrc);
1287 RegionList::iterator iter = find(pRegions->begin(), pRegions->end(), pDst);
1288 pRegions->insert(iter, pSrc);
1289 }
1290
1291 void Instrument::DeleteRegion(Region* pRegion) {
1292 if (!pRegions) return;
1293 RegionList::iterator iter = find(pRegions->begin(), pRegions->end(), pRegion);
1294 if (iter == pRegions->end()) return;
1295 pRegions->erase(iter);
1296 Regions = pRegions->size();
1297 delete pRegion;
1298 }
1299
1300 /**
1301 * Apply Instrument with all its Regions to the respective RIFF chunks.
1302 * You have to call File::Save() to make changes persistent.
1303 *
1304 * @param pProgress - callback function for progress notification
1305 * @throws Exception - on errors
1306 */
1307 void Instrument::UpdateChunks(progress_t* pProgress) {
1308 // first update base classes' chunks
1309 Resource::UpdateChunks(pProgress);
1310 Articulator::UpdateChunks(pProgress);
1311 // make sure 'insh' chunk exists
1312 RIFF::Chunk* insh = pCkInstrument->GetSubChunk(CHUNK_ID_INSH);
1313 if (!insh) insh = pCkInstrument->AddSubChunk(CHUNK_ID_INSH, 12);
1314 uint8_t* pData = (uint8_t*) insh->LoadChunkData();
1315 // update 'insh' chunk
1316 Regions = (pRegions) ? pRegions->size() : 0;
1317 midi_locale_t locale;
1318 locale.instrument = MIDIProgram;
1319 locale.bank = MIDI_BANK_ENCODE(MIDIBankCoarse, MIDIBankFine);
1320 locale.bank = (IsDrum) ? locale.bank | DRUM_TYPE_MASK : locale.bank & (~DRUM_TYPE_MASK);
1321 MIDIBank = MIDI_BANK_MERGE(MIDIBankCoarse, MIDIBankFine); // just a sync, when we're at it
1322 store32(&pData[0], Regions);
1323 store32(&pData[4], locale.bank);
1324 store32(&pData[8], locale.instrument);
1325 // update Region's chunks
1326 if (!pRegions) return;
1327 RegionList::iterator iter = pRegions->begin();
1328 RegionList::iterator end = pRegions->end();
1329 for (int i = 0; iter != end; ++iter, ++i) {
1330 // divide local progress into subprogress
1331 progress_t subprogress;
1332 __divide_progress(pProgress, &subprogress, pRegions->size(), i);
1333 // do the actual work
1334 (*iter)->UpdateChunks(&subprogress);
1335 }
1336 __notify_progress(pProgress, 1.0); // notify done
1337 }
1338
1339 /** @brief Destructor.
1340 *
1341 * Removes RIFF chunks associated with this Instrument and frees all
1342 * memory occupied by this instrument.
1343 */
1344 Instrument::~Instrument() {
1345 if (pRegions) {
1346 RegionList::iterator iter = pRegions->begin();
1347 RegionList::iterator end = pRegions->end();
1348 while (iter != end) {
1349 delete *iter;
1350 iter++;
1351 }
1352 delete pRegions;
1353 }
1354 // remove instrument's chunks
1355 RIFF::List* pParent = pCkInstrument->GetParent();
1356 pParent->DeleteSubChunk(pCkInstrument);
1357 }
1358
1359 void Instrument::CopyAssignCore(const Instrument* orig) {
1360 // handle base classes
1361 Resource::CopyAssign(orig);
1362 Articulator::CopyAssign(orig);
1363 // handle actual own attributes of this class
1364 // (the trivial ones)
1365 IsDrum = orig->IsDrum;
1366 MIDIBank = orig->MIDIBank;
1367 MIDIBankCoarse = orig->MIDIBankCoarse;
1368 MIDIBankFine = orig->MIDIBankFine;
1369 MIDIProgram = orig->MIDIProgram;
1370 }
1371
1372 /**
1373 * Make a (semi) deep copy of the Instrument object given by @a orig and assign
1374 * it to this object.
1375 *
1376 * Note that all sample pointers referenced by @a orig are simply copied as
1377 * memory address. Thus the respective samples are shared, not duplicated!
1378 *
1379 * @param orig - original Instrument object to be copied from
1380 */
1381 void Instrument::CopyAssign(const Instrument* orig) {
1382 CopyAssignCore(orig);
1383 // delete all regions first
1384 while (Regions) DeleteRegion(GetFirstRegion());
1385 // now recreate and copy regions
1386 {
1387 RegionList::const_iterator it = orig->pRegions->begin();
1388 for (int i = 0; i < orig->Regions; ++i, ++it) {
1389 Region* dstRgn = AddRegion();
1390 //NOTE: Region does semi-deep copy !
1391 dstRgn->CopyAssign(*it);
1392 }
1393 }
1394 }
1395
1396
1397 // *************** File ***************
1398 // *
1399
1400 /** @brief Constructor.
1401 *
1402 * Default constructor, use this to create an empty DLS file. You have
1403 * to add samples, instruments and finally call Save() to actually write
1404 * a DLS file.
1405 */
1406 File::File() : Resource(NULL, pRIFF = new RIFF::File(RIFF_TYPE_DLS)) {
1407 pRIFF->SetByteOrder(RIFF::endian_little);
1408 pVersion = new version_t;
1409 pVersion->major = 0;
1410 pVersion->minor = 0;
1411 pVersion->release = 0;
1412 pVersion->build = 0;
1413
1414 Instruments = 0;
1415 WavePoolCount = 0;
1416 pWavePoolTable = NULL;
1417 pWavePoolTableHi = NULL;
1418 WavePoolHeaderSize = 8;
1419
1420 pSamples = NULL;
1421 pInstruments = NULL;
1422
1423 b64BitWavePoolOffsets = false;
1424 }
1425
1426 /** @brief Constructor.
1427 *
1428 * Load an existing DLS file.
1429 *
1430 * @param pRIFF - pointer to a RIFF file which is actually the DLS file
1431 * to load
1432 * @throws Exception if given file is not a DLS file, expected chunks
1433 * are missing
1434 */
1435 File::File(RIFF::File* pRIFF) : Resource(NULL, pRIFF) {
1436 if (!pRIFF) throw DLS::Exception("NULL pointer reference to RIFF::File object.");
1437 this->pRIFF = pRIFF;
1438
1439 RIFF::Chunk* ckVersion = pRIFF->GetSubChunk(CHUNK_ID_VERS);
1440 if (ckVersion) {
1441 pVersion = new version_t;
1442 ckVersion->Read(pVersion, 4, 2);
1443 }
1444 else pVersion = NULL;
1445
1446 RIFF::Chunk* colh = pRIFF->GetSubChunk(CHUNK_ID_COLH);
1447 if (!colh) throw DLS::Exception("Mandatory chunks in RIFF list chunk not found.");
1448 Instruments = colh->ReadUint32();
1449
1450 RIFF::Chunk* ptbl = pRIFF->GetSubChunk(CHUNK_ID_PTBL);
1451 if (!ptbl) { // pool table is missing - this is probably an ".art" file
1452 WavePoolCount = 0;
1453 pWavePoolTable = NULL;
1454 pWavePoolTableHi = NULL;
1455 WavePoolHeaderSize = 8;
1456 b64BitWavePoolOffsets = false;
1457 } else {
1458 WavePoolHeaderSize = ptbl->ReadUint32();
1459 WavePoolCount = ptbl->ReadUint32();
1460 pWavePoolTable = new uint32_t[WavePoolCount];
1461 pWavePoolTableHi = new uint32_t[WavePoolCount];
1462 ptbl->SetPos(WavePoolHeaderSize);
1463
1464 // Check for 64 bit offsets (used in gig v3 files)
1465 b64BitWavePoolOffsets = (ptbl->GetSize() - WavePoolHeaderSize == WavePoolCount * 8);
1466 if (b64BitWavePoolOffsets) {
1467 for (int i = 0 ; i < WavePoolCount ; i++) {
1468 pWavePoolTableHi[i] = ptbl->ReadUint32();
1469 pWavePoolTable[i] = ptbl->ReadUint32();
1470 if (pWavePoolTable[i] & 0x80000000)
1471 throw DLS::Exception("Files larger than 2 GB not yet supported");
1472 }
1473 } else { // conventional 32 bit offsets
1474 ptbl->Read(pWavePoolTable, WavePoolCount, sizeof(uint32_t));
1475 for (int i = 0 ; i < WavePoolCount ; i++) pWavePoolTableHi[i] = 0;
1476 }
1477 }
1478
1479 pSamples = NULL;
1480 pInstruments = NULL;
1481 }
1482
1483 File::~File() {
1484 if (pInstruments) {
1485 InstrumentList::iterator iter = pInstruments->begin();
1486 InstrumentList::iterator end = pInstruments->end();
1487 while (iter != end) {
1488 delete *iter;
1489 iter++;
1490 }
1491 delete pInstruments;
1492 }
1493
1494 if (pSamples) {
1495 SampleList::iterator iter = pSamples->begin();
1496 SampleList::iterator end = pSamples->end();
1497 while (iter != end) {
1498 delete *iter;
1499 iter++;
1500 }
1501 delete pSamples;
1502 }
1503
1504 if (pWavePoolTable) delete[] pWavePoolTable;
1505 if (pWavePoolTableHi) delete[] pWavePoolTableHi;
1506 if (pVersion) delete pVersion;
1507 for (std::list<RIFF::File*>::iterator i = ExtensionFiles.begin() ; i != ExtensionFiles.end() ; i++)
1508 delete *i;
1509 }
1510
1511 Sample* File::GetFirstSample() {
1512 if (!pSamples) LoadSamples();
1513 if (!pSamples) return NULL;
1514 SamplesIterator = pSamples->begin();
1515 return (SamplesIterator != pSamples->end()) ? *SamplesIterator : NULL;
1516 }
1517
1518 Sample* File::GetNextSample() {
1519 if (!pSamples) return NULL;
1520 SamplesIterator++;
1521 return (SamplesIterator != pSamples->end()) ? *SamplesIterator : NULL;
1522 }
1523
1524 void File::LoadSamples() {
1525 if (!pSamples) pSamples = new SampleList;
1526 RIFF::List* wvpl = pRIFF->GetSubList(LIST_TYPE_WVPL);
1527 if (wvpl) {
1528 unsigned long wvplFileOffset = wvpl->GetFilePos();
1529 RIFF::List* wave = wvpl->GetFirstSubList();
1530 while (wave) {
1531 if (wave->GetListType() == LIST_TYPE_WAVE) {
1532 unsigned long waveFileOffset = wave->GetFilePos();
1533 pSamples->push_back(new Sample(this, wave, waveFileOffset - wvplFileOffset));
1534 }
1535 wave = wvpl->GetNextSubList();
1536 }
1537 }
1538 else { // Seen a dwpl list chunk instead of a wvpl list chunk in some file (officially not DLS compliant)
1539 RIFF::List* dwpl = pRIFF->GetSubList(LIST_TYPE_DWPL);
1540 if (dwpl) {
1541 unsigned long dwplFileOffset = dwpl->GetFilePos();
1542 RIFF::List* wave = dwpl->GetFirstSubList();
1543 while (wave) {
1544 if (wave->GetListType() == LIST_TYPE_WAVE) {
1545 unsigned long waveFileOffset = wave->GetFilePos();
1546 pSamples->push_back(new Sample(this, wave, waveFileOffset - dwplFileOffset));
1547 }
1548 wave = dwpl->GetNextSubList();
1549 }
1550 }
1551 }
1552 }
1553
1554 /** @brief Add a new sample.
1555 *
1556 * This will create a new Sample object for the DLS file. You have to
1557 * call Save() to make this persistent to the file.
1558 *
1559 * @returns pointer to new Sample object
1560 */
1561 Sample* File::AddSample() {
1562 if (!pSamples) LoadSamples();
1563 __ensureMandatoryChunksExist();
1564 RIFF::List* wvpl = pRIFF->GetSubList(LIST_TYPE_WVPL);
1565 // create new Sample object and its respective 'wave' list chunk
1566 RIFF::List* wave = wvpl->AddSubList(LIST_TYPE_WAVE);
1567 Sample* pSample = new Sample(this, wave, 0 /*arbitrary value, we update offsets when we save*/);
1568 pSamples->push_back(pSample);
1569 return pSample;
1570 }
1571
1572 /** @brief Delete a sample.
1573 *
1574 * This will delete the given Sample object from the DLS file. You have
1575 * to call Save() to make this persistent to the file.
1576 *
1577 * @param pSample - sample to delete
1578 */
1579 void File::DeleteSample(Sample* pSample) {
1580 if (!pSamples) return;
1581 SampleList::iterator iter = find(pSamples->begin(), pSamples->end(), pSample);
1582 if (iter == pSamples->end()) return;
1583 pSamples->erase(iter);
1584 delete pSample;
1585 }
1586
1587 Instrument* File::GetFirstInstrument() {
1588 if (!pInstruments) LoadInstruments();
1589 if (!pInstruments) return NULL;
1590 InstrumentsIterator = pInstruments->begin();
1591 return (InstrumentsIterator != pInstruments->end()) ? *InstrumentsIterator : NULL;
1592 }
1593
1594 Instrument* File::GetNextInstrument() {
1595 if (!pInstruments) return NULL;
1596 InstrumentsIterator++;
1597 return (InstrumentsIterator != pInstruments->end()) ? *InstrumentsIterator : NULL;
1598 }
1599
1600 void File::LoadInstruments() {
1601 if (!pInstruments) pInstruments = new InstrumentList;
1602 RIFF::List* lstInstruments = pRIFF->GetSubList(LIST_TYPE_LINS);
1603 if (lstInstruments) {
1604 RIFF::List* lstInstr = lstInstruments->GetFirstSubList();
1605 while (lstInstr) {
1606 if (lstInstr->GetListType() == LIST_TYPE_INS) {
1607 pInstruments->push_back(new Instrument(this, lstInstr));
1608 }
1609 lstInstr = lstInstruments->GetNextSubList();
1610 }
1611 }
1612 }
1613
1614 /** @brief Add a new instrument definition.
1615 *
1616 * This will create a new Instrument object for the DLS file. You have
1617 * to call Save() to make this persistent to the file.
1618 *
1619 * @returns pointer to new Instrument object
1620 */
1621 Instrument* File::AddInstrument() {
1622 if (!pInstruments) LoadInstruments();
1623 __ensureMandatoryChunksExist();
1624 RIFF::List* lstInstruments = pRIFF->GetSubList(LIST_TYPE_LINS);
1625 RIFF::List* lstInstr = lstInstruments->AddSubList(LIST_TYPE_INS);
1626 Instrument* pInstrument = new Instrument(this, lstInstr);
1627 pInstruments->push_back(pInstrument);
1628 return pInstrument;
1629 }
1630
1631 /** @brief Delete an instrument.
1632 *
1633 * This will delete the given Instrument object from the DLS file. You
1634 * have to call Save() to make this persistent to the file.
1635 *
1636 * @param pInstrument - instrument to delete
1637 */
1638 void File::DeleteInstrument(Instrument* pInstrument) {
1639 if (!pInstruments) return;
1640 InstrumentList::iterator iter = find(pInstruments->begin(), pInstruments->end(), pInstrument);
1641 if (iter == pInstruments->end()) return;
1642 pInstruments->erase(iter);
1643 delete pInstrument;
1644 }
1645
1646 /**
1647 * Returns extension file of given index. Extension files are used
1648 * sometimes to circumvent the 2 GB file size limit of the RIFF format and
1649 * of certain operating systems in general. In this case, instead of just
1650 * using one file, the content is spread among several files with similar
1651 * file name scheme. This is especially used by some GigaStudio sound
1652 * libraries.
1653 *
1654 * @param index - index of extension file
1655 * @returns sought extension file, NULL if index out of bounds
1656 * @see GetFileName()
1657 */
1658 RIFF::File* File::GetExtensionFile(int index) {
1659 if (index < 0 || index >= ExtensionFiles.size()) return NULL;
1660 std::list<RIFF::File*>::iterator iter = ExtensionFiles.begin();
1661 for (int i = 0; iter != ExtensionFiles.end(); ++iter, ++i)
1662 if (i == index) return *iter;
1663 return NULL;
1664 }
1665
1666 /** @brief File name of this DLS file.
1667 *
1668 * This method returns the file name as it was provided when loading
1669 * the respective DLS file. However in case the File object associates
1670 * an empty, that is new DLS file, which was not yet saved to disk,
1671 * this method will return an empty string.
1672 *
1673 * @see GetExtensionFile()
1674 */
1675 String File::GetFileName() {
1676 return pRIFF->GetFileName();
1677 }
1678
1679 /**
1680 * You may call this method store a future file name, so you don't have to
1681 * to pass it to the Save() call later on.
1682 */
1683 void File::SetFileName(const String& name) {
1684 pRIFF->SetFileName(name);
1685 }
1686
1687 /**
1688 * Apply all the DLS file's current instruments, samples and settings to
1689 * the respective RIFF chunks. You have to call Save() to make changes
1690 * persistent.
1691 *
1692 * @param pProgress - callback function for progress notification
1693 * @throws Exception - on errors
1694 */
1695 void File::UpdateChunks(progress_t* pProgress) {
1696 // first update base class's chunks
1697 Resource::UpdateChunks(pProgress);
1698
1699 // if version struct exists, update 'vers' chunk
1700 if (pVersion) {
1701 RIFF::Chunk* ckVersion = pRIFF->GetSubChunk(CHUNK_ID_VERS);
1702 if (!ckVersion) ckVersion = pRIFF->AddSubChunk(CHUNK_ID_VERS, 8);
1703 uint8_t* pData = (uint8_t*) ckVersion->LoadChunkData();
1704 store16(&pData[0], pVersion->minor);
1705 store16(&pData[2], pVersion->major);
1706 store16(&pData[4], pVersion->build);
1707 store16(&pData[6], pVersion->release);
1708 }
1709
1710 // update 'colh' chunk
1711 Instruments = (pInstruments) ? pInstruments->size() : 0;
1712 RIFF::Chunk* colh = pRIFF->GetSubChunk(CHUNK_ID_COLH);
1713 if (!colh) colh = pRIFF->AddSubChunk(CHUNK_ID_COLH, 4);
1714 uint8_t* pData = (uint8_t*) colh->LoadChunkData();
1715 store32(pData, Instruments);
1716
1717 // update instrument's chunks
1718 if (pInstruments) {
1719 // divide local progress into subprogress
1720 progress_t subprogress;
1721 __divide_progress(pProgress, &subprogress, 20.f, 0.f); // arbitrarily subdivided into 5% of total progress
1722
1723 // do the actual work
1724 InstrumentList::iterator iter = pInstruments->begin();
1725 InstrumentList::iterator end = pInstruments->end();
1726 for (int i = 0; iter != end; ++iter, ++i) {
1727 // divide subprogress into sub-subprogress
1728 progress_t subsubprogress;
1729 __divide_progress(&subprogress, &subsubprogress, pInstruments->size(), i);
1730 // do the actual work
1731 (*iter)->UpdateChunks(&subsubprogress);
1732 }
1733
1734 __notify_progress(&subprogress, 1.0); // notify subprogress done
1735 }
1736
1737 // update 'ptbl' chunk
1738 const int iSamples = (pSamples) ? pSamples->size() : 0;
1739 const int iPtblOffsetSize = (b64BitWavePoolOffsets) ? 8 : 4;
1740 RIFF::Chunk* ptbl = pRIFF->GetSubChunk(CHUNK_ID_PTBL);
1741 if (!ptbl) ptbl = pRIFF->AddSubChunk(CHUNK_ID_PTBL, 1 /*anything, we'll resize*/);
1742 const int iPtblSize = WavePoolHeaderSize + iPtblOffsetSize * iSamples;
1743 ptbl->Resize(iPtblSize);
1744 pData = (uint8_t*) ptbl->LoadChunkData();
1745 WavePoolCount = iSamples;
1746 store32(&pData[4], WavePoolCount);
1747 // we actually update the sample offsets in the pool table when we Save()
1748 memset(&pData[WavePoolHeaderSize], 0, iPtblSize - WavePoolHeaderSize);
1749
1750 // update sample's chunks
1751 if (pSamples) {
1752 // divide local progress into subprogress
1753 progress_t subprogress;
1754 __divide_progress(pProgress, &subprogress, 20.f, 1.f); // arbitrarily subdivided into 95% of total progress
1755
1756 // do the actual work
1757 SampleList::iterator iter = pSamples->begin();
1758 SampleList::iterator end = pSamples->end();
1759 for (int i = 0; iter != end; ++iter, ++i) {
1760 // divide subprogress into sub-subprogress
1761 progress_t subsubprogress;
1762 __divide_progress(&subprogress, &subsubprogress, pSamples->size(), i);
1763 // do the actual work
1764 (*iter)->UpdateChunks(&subsubprogress);
1765 }
1766
1767 __notify_progress(&subprogress, 1.0); // notify subprogress done
1768 }
1769
1770 __notify_progress(pProgress, 1.0); // notify done
1771 }
1772
1773 /** @brief Save changes to another file.
1774 *
1775 * Make all changes persistent by writing them to another file.
1776 * <b>Caution:</b> this method is optimized for writing to
1777 * <b>another</b> file, do not use it to save the changes to the same
1778 * file! Use Save() (without path argument) in that case instead!
1779 * Ignoring this might result in a corrupted file!
1780 *
1781 * After calling this method, this File object will be associated with
1782 * the new file (given by \a Path) afterwards.
1783 *
1784 * @param Path - path and file name where everything should be written to
1785 * @param pProgress - optional: callback function for progress notification
1786 */
1787 void File::Save(const String& Path, progress_t* pProgress) {
1788 {
1789 // divide local progress into subprogress
1790 progress_t subprogress;
1791 __divide_progress(pProgress, &subprogress, 2.f, 0.f); // arbitrarily subdivided into 50% of total progress
1792 // do the actual work
1793 UpdateChunks(&subprogress);
1794
1795 }
1796 {
1797 // divide local progress into subprogress
1798 progress_t subprogress;
1799 __divide_progress(pProgress, &subprogress, 2.f, 1.f); // arbitrarily subdivided into 50% of total progress
1800 // do the actual work
1801 pRIFF->Save(Path, &subprogress);
1802 }
1803 UpdateFileOffsets();
1804 __notify_progress(pProgress, 1.0); // notify done
1805 }
1806
1807 /** @brief Save changes to same file.
1808 *
1809 * Make all changes persistent by writing them to the actual (same)
1810 * file. The file might temporarily grow to a higher size than it will
1811 * have at the end of the saving process.
1812 *
1813 * @param pProgress - optional: callback function for progress notification
1814 * @throws RIFF::Exception if any kind of IO error occured
1815 * @throws DLS::Exception if any kind of DLS specific error occured
1816 */
1817 void File::Save(progress_t* pProgress) {
1818 {
1819 // divide local progress into subprogress
1820 progress_t subprogress;
1821 __divide_progress(pProgress, &subprogress, 2.f, 0.f); // arbitrarily subdivided into 50% of total progress
1822 // do the actual work
1823 UpdateChunks(&subprogress);
1824 }
1825 {
1826 // divide local progress into subprogress
1827 progress_t subprogress;
1828 __divide_progress(pProgress, &subprogress, 2.f, 1.f); // arbitrarily subdivided into 50% of total progress
1829 // do the actual work
1830 pRIFF->Save(&subprogress);
1831 }
1832 UpdateFileOffsets();
1833 __notify_progress(pProgress, 1.0); // notify done
1834 }
1835
1836 /** @brief Updates all file offsets stored all over the file.
1837 *
1838 * This virtual method is called whenever the overall file layout has been
1839 * changed (i.e. file or individual RIFF chunks have been resized). It is
1840 * then the responsibility of this method to update all file offsets stored
1841 * in the file format. For example samples are referenced by instruments by
1842 * file offsets. The gig format also stores references to instrument
1843 * scripts as file offsets, and thus it overrides this method to update
1844 * those file offsets as well.
1845 */
1846 void File::UpdateFileOffsets() {
1847 __UpdateWavePoolTableChunk();
1848 }
1849
1850 /**
1851 * Checks if all (for DLS) mandatory chunks exist, if not they will be
1852 * created. Note that those chunks will not be made persistent until
1853 * Save() was called.
1854 */
1855 void File::__ensureMandatoryChunksExist() {
1856 // enusre 'lins' list chunk exists (mandatory for instrument definitions)
1857 RIFF::List* lstInstruments = pRIFF->GetSubList(LIST_TYPE_LINS);
1858 if (!lstInstruments) pRIFF->AddSubList(LIST_TYPE_LINS);
1859 // ensure 'ptbl' chunk exists (mandatory for samples)
1860 RIFF::Chunk* ptbl = pRIFF->GetSubChunk(CHUNK_ID_PTBL);
1861 if (!ptbl) {
1862 const int iOffsetSize = (b64BitWavePoolOffsets) ? 8 : 4;
1863 ptbl = pRIFF->AddSubChunk(CHUNK_ID_PTBL, WavePoolHeaderSize + iOffsetSize);
1864 }
1865 // enusre 'wvpl' list chunk exists (mandatory for samples)
1866 RIFF::List* wvpl = pRIFF->GetSubList(LIST_TYPE_WVPL);
1867 if (!wvpl) pRIFF->AddSubList(LIST_TYPE_WVPL);
1868 }
1869
1870 /**
1871 * Updates (persistently) the wave pool table with offsets to all
1872 * currently available samples. <b>Caution:</b> this method assumes the
1873 * 'ptbl' chunk to be already of the correct size and the file to be
1874 * writable, so usually this method is only called after a Save() call.
1875 *
1876 * @throws Exception - if 'ptbl' chunk is too small (should only occur
1877 * if there's a bug)
1878 */
1879 void File::__UpdateWavePoolTableChunk() {
1880 __UpdateWavePoolTable();
1881 RIFF::Chunk* ptbl = pRIFF->GetSubChunk(CHUNK_ID_PTBL);
1882 const int iOffsetSize = (b64BitWavePoolOffsets) ? 8 : 4;
1883 // check if 'ptbl' chunk is large enough
1884 WavePoolCount = (pSamples) ? pSamples->size() : 0;
1885 const unsigned long ulRequiredSize = WavePoolHeaderSize + iOffsetSize * WavePoolCount;
1886 if (ptbl->GetSize() < ulRequiredSize) throw Exception("Fatal error, 'ptbl' chunk too small");
1887 // save the 'ptbl' chunk's current read/write position
1888 unsigned long ulOriginalPos = ptbl->GetPos();
1889 // update headers
1890 ptbl->SetPos(0);
1891 uint32_t tmp = WavePoolHeaderSize;
1892 ptbl->WriteUint32(&tmp);
1893 tmp = WavePoolCount;
1894 ptbl->WriteUint32(&tmp);
1895 // update offsets
1896 ptbl->SetPos(WavePoolHeaderSize);
1897 if (b64BitWavePoolOffsets) {
1898 for (int i = 0 ; i < WavePoolCount ; i++) {
1899 tmp = pWavePoolTableHi[i];
1900 ptbl->WriteUint32(&tmp);
1901 tmp = pWavePoolTable[i];
1902 ptbl->WriteUint32(&tmp);
1903 }
1904 } else { // conventional 32 bit offsets
1905 for (int i = 0 ; i < WavePoolCount ; i++) {
1906 tmp = pWavePoolTable[i];
1907 ptbl->WriteUint32(&tmp);
1908 }
1909 }
1910 // restore 'ptbl' chunk's original read/write position
1911 ptbl->SetPos(ulOriginalPos);
1912 }
1913
1914 /**
1915 * Updates the wave pool table with offsets to all currently available
1916 * samples. <b>Caution:</b> this method assumes the 'wvpl' list chunk
1917 * exists already.
1918 */
1919 void File::__UpdateWavePoolTable() {
1920 WavePoolCount = (pSamples) ? pSamples->size() : 0;
1921 // resize wave pool table arrays
1922 if (pWavePoolTable) delete[] pWavePoolTable;
1923 if (pWavePoolTableHi) delete[] pWavePoolTableHi;
1924 pWavePoolTable = new uint32_t[WavePoolCount];
1925 pWavePoolTableHi = new uint32_t[WavePoolCount];
1926 if (!pSamples) return;
1927 // update offsets int wave pool table
1928 RIFF::List* wvpl = pRIFF->GetSubList(LIST_TYPE_WVPL);
1929 uint64_t wvplFileOffset = wvpl->GetFilePos();
1930 if (b64BitWavePoolOffsets) {
1931 SampleList::iterator iter = pSamples->begin();
1932 SampleList::iterator end = pSamples->end();
1933 for (int i = 0 ; iter != end ; ++iter, i++) {
1934 uint64_t _64BitOffset = (*iter)->pWaveList->GetFilePos() - wvplFileOffset - LIST_HEADER_SIZE;
1935 (*iter)->ulWavePoolOffset = _64BitOffset;
1936 pWavePoolTableHi[i] = (uint32_t) (_64BitOffset >> 32);
1937 pWavePoolTable[i] = (uint32_t) _64BitOffset;
1938 }
1939 } else { // conventional 32 bit offsets
1940 SampleList::iterator iter = pSamples->begin();
1941 SampleList::iterator end = pSamples->end();
1942 for (int i = 0 ; iter != end ; ++iter, i++) {
1943 uint64_t _64BitOffset = (*iter)->pWaveList->GetFilePos() - wvplFileOffset - LIST_HEADER_SIZE;
1944 (*iter)->ulWavePoolOffset = _64BitOffset;
1945 pWavePoolTable[i] = (uint32_t) _64BitOffset;
1946 }
1947 }
1948 }
1949
1950
1951
1952 // *************** Exception ***************
1953 // *
1954
1955 Exception::Exception(String Message) : RIFF::Exception(Message) {
1956 }
1957
1958 void Exception::PrintMessage() {
1959 std::cout << "DLS::Exception: " << Message << std::endl;
1960 }
1961
1962
1963 // *************** functions ***************
1964 // *
1965
1966 /**
1967 * Returns the name of this C++ library. This is usually "libgig" of
1968 * course. This call is equivalent to RIFF::libraryName() and
1969 * gig::libraryName().
1970 */
1971 String libraryName() {
1972 return PACKAGE;
1973 }
1974
1975 /**
1976 * Returns version of this C++ library. This call is equivalent to
1977 * RIFF::libraryVersion() and gig::libraryVersion().
1978 */
1979 String libraryVersion() {
1980 return VERSION;
1981 }
1982
1983 } // namespace DLS

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