/[svn]/libgig/trunk/src/gig.cpp
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Diff of /libgig/trunk/src/gig.cpp

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revision 1264 by persson, Sun Jul 29 10:51:09 2007 UTC revision 1301 by persson, Sat Aug 25 09:59:53 2007 UTC
# Line 1542  namespace { Line 1542  namespace {
1542          VelocityTable = 0;          VelocityTable = 0;
1543      }      }
1544    
1545        /*
1546         * Constructs a DimensionRegion by copying all parameters from
1547         * another DimensionRegion
1548         */
1549        DimensionRegion::DimensionRegion(RIFF::List* _3ewl, const DimensionRegion& src) : DLS::Sampler(_3ewl) {
1550            Instances++;
1551            *this = src; // default memberwise shallow copy of all parameters
1552            pParentList = _3ewl; // restore the chunk pointer
1553    
1554            // deep copy of owned structures
1555            if (src.VelocityTable) {
1556                VelocityTable = new uint8_t[128];
1557                for (int k = 0 ; k < 128 ; k++)
1558                    VelocityTable[k] = src.VelocityTable[k];
1559            }
1560            if (src.pSampleLoops) {
1561                pSampleLoops = new DLS::sample_loop_t[src.SampleLoops];
1562                for (int k = 0 ; k < src.SampleLoops ; k++)
1563                    pSampleLoops[k] = src.pSampleLoops[k];
1564            }
1565        }
1566    
1567      /**      /**
1568       * Apply dimension region settings to the respective RIFF chunks. You       * Apply dimension region settings to the respective RIFF chunks. You
1569       * have to call File::Save() to make changes persistent.       * have to call File::Save() to make changes persistent.
# Line 1617  namespace { Line 1639  namespace {
1639          pData[44] = eg1ctl;          pData[44] = eg1ctl;
1640    
1641          const uint8_t eg1ctrloptions =          const uint8_t eg1ctrloptions =
1642              (EG1ControllerInvert) ? 0x01 : 0x00 |              (EG1ControllerInvert ? 0x01 : 0x00) |
1643              GIG_EG_CTR_ATTACK_INFLUENCE_ENCODE(EG1ControllerAttackInfluence) |              GIG_EG_CTR_ATTACK_INFLUENCE_ENCODE(EG1ControllerAttackInfluence) |
1644              GIG_EG_CTR_DECAY_INFLUENCE_ENCODE(EG1ControllerDecayInfluence) |              GIG_EG_CTR_DECAY_INFLUENCE_ENCODE(EG1ControllerDecayInfluence) |
1645              GIG_EG_CTR_RELEASE_INFLUENCE_ENCODE(EG1ControllerReleaseInfluence);              GIG_EG_CTR_RELEASE_INFLUENCE_ENCODE(EG1ControllerReleaseInfluence);
# Line 1627  namespace { Line 1649  namespace {
1649          pData[46] = eg2ctl;          pData[46] = eg2ctl;
1650    
1651          const uint8_t eg2ctrloptions =          const uint8_t eg2ctrloptions =
1652              (EG2ControllerInvert) ? 0x01 : 0x00 |              (EG2ControllerInvert ? 0x01 : 0x00) |
1653              GIG_EG_CTR_ATTACK_INFLUENCE_ENCODE(EG2ControllerAttackInfluence) |              GIG_EG_CTR_ATTACK_INFLUENCE_ENCODE(EG2ControllerAttackInfluence) |
1654              GIG_EG_CTR_DECAY_INFLUENCE_ENCODE(EG2ControllerDecayInfluence) |              GIG_EG_CTR_DECAY_INFLUENCE_ENCODE(EG2ControllerDecayInfluence) |
1655              GIG_EG_CTR_RELEASE_INFLUENCE_ENCODE(EG2ControllerReleaseInfluence);              GIG_EG_CTR_RELEASE_INFLUENCE_ENCODE(EG2ControllerReleaseInfluence);
# Line 1805  namespace { Line 1827  namespace {
1827          const uint8_t eg1hold = (EG1Hold) ? 0x80 : 0x00; // bit 7          const uint8_t eg1hold = (EG1Hold) ? 0x80 : 0x00; // bit 7
1828          pData[131] = eg1hold;          pData[131] = eg1hold;
1829    
1830          const uint8_t vcfcutoff = (VCFEnabled) ? 0x80 : 0x00 |  /* bit 7 */          const uint8_t vcfcutoff = (VCFEnabled ? 0x80 : 0x00) |  /* bit 7 */
1831                                    (VCFCutoff & 0x7f);   /* lower 7 bits */                                    (VCFCutoff & 0x7f);   /* lower 7 bits */
1832          pData[132] = vcfcutoff;          pData[132] = vcfcutoff;
1833    
1834          pData[133] = VCFCutoffController;          pData[133] = VCFCutoffController;
1835    
1836          const uint8_t vcfvelscale = (VCFCutoffControllerInvert) ? 0x80 : 0x00 | /* bit 7 */          const uint8_t vcfvelscale = (VCFCutoffControllerInvert ? 0x80 : 0x00) | /* bit 7 */
1837                                      (VCFVelocityScale & 0x7f); /* lower 7 bits */                                      (VCFVelocityScale & 0x7f); /* lower 7 bits */
1838          pData[134] = vcfvelscale;          pData[134] = vcfvelscale;
1839    
1840          // next byte unknown          // next byte unknown
1841    
1842          const uint8_t vcfresonance = (VCFResonanceDynamic) ? 0x00 : 0x80 | /* bit 7 */          const uint8_t vcfresonance = (VCFResonanceDynamic ? 0x00 : 0x80) | /* bit 7 */
1843                                       (VCFResonance & 0x7f); /* lower 7 bits */                                       (VCFResonance & 0x7f); /* lower 7 bits */
1844          pData[136] = vcfresonance;          pData[136] = vcfresonance;
1845    
1846          const uint8_t vcfbreakpoint = (VCFKeyboardTracking) ? 0x80 : 0x00 | /* bit 7 */          const uint8_t vcfbreakpoint = (VCFKeyboardTracking ? 0x80 : 0x00) | /* bit 7 */
1847                                        (VCFKeyboardTrackingBreakpoint & 0x7f); /* lower 7 bits */                                        (VCFKeyboardTrackingBreakpoint & 0x7f); /* lower 7 bits */
1848          pData[137] = vcfbreakpoint;          pData[137] = vcfbreakpoint;
1849    
# Line 2312  namespace { Line 2334  namespace {
2334          for (int i = 0; i < iMaxDimensions; i++) {          for (int i = 0; i < iMaxDimensions; i++) {
2335              pData[4 + i * 8] = (uint8_t) pDimensionDefinitions[i].dimension;              pData[4 + i * 8] = (uint8_t) pDimensionDefinitions[i].dimension;
2336              pData[5 + i * 8] = pDimensionDefinitions[i].bits;              pData[5 + i * 8] = pDimensionDefinitions[i].bits;
2337              pData[6 + i * 8] = shift;              pData[6 + i * 8] = pDimensionDefinitions[i].dimension == dimension_none ? 0 : shift;
2338              pData[7 + i * 8] = (1 << (shift + pDimensionDefinitions[i].bits)) - (1 << shift);              pData[7 + i * 8] = (1 << (shift + pDimensionDefinitions[i].bits)) - (1 << shift);
2339              pData[8 + i * 8] = pDimensionDefinitions[i].zones;              pData[8 + i * 8] = pDimensionDefinitions[i].zones;
2340              // next 3 bytes unknown, always zero?              // next 3 bytes unknown, always zero?
# Line 2334  namespace { Line 2356  namespace {
2356                          break;                          break;
2357                      }                      }
2358                  }                  }
                 if (iWaveIndex < 0) throw gig::Exception("Could not update gig::Region, could not find DimensionRegion's sample");  
2359              }              }
2360              store32(&pData[iWavePoolOffset + i * 4], iWaveIndex);              store32(&pData[iWavePoolOffset + i * 4], iWaveIndex);
2361          }          }
# Line 2461  namespace { Line 2482  namespace {
2482              if (pDimensionDefinitions[i].dimension == pDimDef->dimension)              if (pDimensionDefinitions[i].dimension == pDimDef->dimension)
2483                  throw gig::Exception("Could not add new dimension, there is already a dimension of the same type");                  throw gig::Exception("Could not add new dimension, there is already a dimension of the same type");
2484    
2485            // pos is where the new dimension should be placed, normally
2486            // last in list, except for the samplechannel dimension which
2487            // has to be first in list
2488            int pos = pDimDef->dimension == dimension_samplechannel ? 0 : Dimensions;
2489            int bitpos = 0;
2490            for (int i = 0 ; i < pos ; i++)
2491                bitpos += pDimensionDefinitions[i].bits;
2492    
2493            // make room for the new dimension
2494            for (int i = Dimensions ; i > pos ; i--) pDimensionDefinitions[i] = pDimensionDefinitions[i - 1];
2495            for (int i = 0 ; i < (1 << iCurrentBits) ; i++) {
2496                for (int j = Dimensions ; j > pos ; j--) {
2497                    pDimensionRegions[i]->DimensionUpperLimits[j] =
2498                        pDimensionRegions[i]->DimensionUpperLimits[j - 1];
2499                }
2500            }
2501    
2502          // assign definition of new dimension          // assign definition of new dimension
2503          pDimensionDefinitions[Dimensions] = *pDimDef;          pDimensionDefinitions[pos] = *pDimDef;
2504    
2505          // auto correct certain dimension definition fields (where possible)          // auto correct certain dimension definition fields (where possible)
2506          pDimensionDefinitions[Dimensions].split_type  =          pDimensionDefinitions[pos].split_type  =
2507              __resolveSplitType(pDimensionDefinitions[Dimensions].dimension);              __resolveSplitType(pDimensionDefinitions[pos].dimension);
2508          pDimensionDefinitions[Dimensions].zone_size =          pDimensionDefinitions[pos].zone_size =
2509              __resolveZoneSize(pDimensionDefinitions[Dimensions]);              __resolveZoneSize(pDimensionDefinitions[pos]);
2510    
2511          // create new dimension region(s) for this new dimension          // create new dimension region(s) for this new dimension, and make
2512          for (int i = 1 << iCurrentBits; i < 1 << iNewBits; i++) {          // sure that the dimension regions are placed correctly in both the
2513              //TODO: maybe we should copy existing dimension regions if possible instead of simply creating new ones with default values          // RIFF list and the pDimensionRegions array
2514              RIFF::List* _3prg = pCkRegion->GetSubList(LIST_TYPE_3PRG);          RIFF::Chunk* moveTo = NULL;
2515              RIFF::List* pNewDimRgnListChunk = _3prg->AddSubList(LIST_TYPE_3EWL);          RIFF::List* _3prg = pCkRegion->GetSubList(LIST_TYPE_3PRG);
2516              pDimensionRegions[i] = new DimensionRegion(pNewDimRgnListChunk);          for (int i = (1 << iCurrentBits) - (1 << bitpos) ; i >= 0 ; i -= (1 << bitpos)) {
2517                for (int k = 0 ; k < (1 << bitpos) ; k++) {
2518              // copy the upper limits for the other dimensions                  pDimensionRegions[(i << pDimDef->bits) + k] = pDimensionRegions[i + k];
2519              memcpy(pDimensionRegions[i]->DimensionUpperLimits,              }
2520                     pDimensionRegions[i & ((1 << iCurrentBits) - 1)]->DimensionUpperLimits, 8);              for (int j = 1 ; j < (1 << pDimDef->bits) ; j++) {
2521                    for (int k = 0 ; k < (1 << bitpos) ; k++) {
2522                        RIFF::List* pNewDimRgnListChunk = _3prg->AddSubList(LIST_TYPE_3EWL);
2523                        if (moveTo) _3prg->MoveSubChunk(pNewDimRgnListChunk, moveTo);
2524                        // create a new dimension region and copy all parameter values from
2525                        // an existing dimension region
2526                        pDimensionRegions[(i << pDimDef->bits) + (j << bitpos) + k] =
2527                            new DimensionRegion(pNewDimRgnListChunk, *pDimensionRegions[i + k]);
2528    
2529              DimensionRegions++;                      DimensionRegions++;
2530                    }
2531                }
2532                moveTo = pDimensionRegions[i]->pParentList;
2533          }          }
2534    
2535          // initialize the upper limits for this dimension          // initialize the upper limits for this dimension
2536          for (int z = 0, j = 0 ; z < pDimDef->zones ; z++, j += 1 << iCurrentBits) {          int mask = (1 << bitpos) - 1;
2537            for (int z = 0 ; z < pDimDef->zones ; z++) {
2538              uint8_t upperLimit = uint8_t((z + 1) * 128.0 / pDimDef->zones - 1);              uint8_t upperLimit = uint8_t((z + 1) * 128.0 / pDimDef->zones - 1);
2539              for (int i = 0 ; i < 1 << iCurrentBits ; i++) {              for (int i = 0 ; i < 1 << iCurrentBits ; i++) {
2540                  pDimensionRegions[j + i]->DimensionUpperLimits[Dimensions] = upperLimit;                  pDimensionRegions[((i & ~mask) << pDimDef->bits) |
2541                                      (z << bitpos) |
2542                                      (i & mask)]->DimensionUpperLimits[pos] = upperLimit;
2543              }              }
2544          }          }
2545    
# Line 2818  namespace { Line 2869  namespace {
2869          store32(&pData[2], Attenuation);          store32(&pData[2], Attenuation);
2870          store16(&pData[6], FineTune);          store16(&pData[6], FineTune);
2871          store16(&pData[8], PitchbendRange);          store16(&pData[8], PitchbendRange);
2872          const uint8_t dimkeystart = (PianoReleaseMode) ? 0x01 : 0x00 |          const uint8_t dimkeystart = (PianoReleaseMode ? 0x01 : 0x00) |
2873                                      DimensionKeyRange.low << 1;                                      DimensionKeyRange.low << 1;
2874          pData[10] = dimkeystart;          pData[10] = dimkeystart;
2875          pData[11] = DimensionKeyRange.high;          pData[11] = DimensionKeyRange.high;
# Line 2929  namespace { Line 2980  namespace {
2980          }          }
2981          RIFF::List* _3gnl = _3gri->GetSubList(LIST_TYPE_3GNL);          RIFF::List* _3gnl = _3gri->GetSubList(LIST_TYPE_3GNL);
2982          if (!_3gnl) _3gnl = _3gri->AddSubList(LIST_TYPE_3GNL);          if (!_3gnl) _3gnl = _3gri->AddSubList(LIST_TYPE_3GNL);
2983    
2984            if (!pNameChunk && pFile->pVersion && pFile->pVersion->major == 3) {
2985                // v3 has a fixed list of 128 strings, find a free one
2986                for (RIFF::Chunk* ck = _3gnl->GetFirstSubChunk() ; ck ; ck = _3gnl->GetNextSubChunk()) {
2987                    if (strcmp(static_cast<char*>(ck->LoadChunkData()), "") == 0) {
2988                        pNameChunk = ck;
2989                        break;
2990                    }
2991                }
2992            }
2993    
2994          // now store the name of this group as <3gnm> chunk as subchunk of the <3gnl> list chunk          // now store the name of this group as <3gnm> chunk as subchunk of the <3gnl> list chunk
2995          ::SaveString(CHUNK_ID_3GNM, pNameChunk, _3gnl, Name, String("Unnamed Group"), true, 64);          ::SaveString(CHUNK_ID_3GNM, pNameChunk, _3gnl, Name, String("Unnamed Group"), true, 64);
2996      }      }
# Line 3105  namespace { Line 3167  namespace {
3167    
3168      /** @brief Delete a sample.      /** @brief Delete a sample.
3169       *       *
3170       * This will delete the given Sample object from the gig file. You have       * This will delete the given Sample object from the gig file. Any
3171       * to call Save() to make this persistent to the file.       * references to this sample from Regions and DimensionRegions will be
3172         * removed. You have to call Save() to make this persistent to the file.
3173       *       *
3174       * @param pSample - sample to delete       * @param pSample - sample to delete
3175       * @throws gig::Exception if given sample could not be found       * @throws gig::Exception if given sample could not be found
# Line 3118  namespace { Line 3181  namespace {
3181          if (SamplesIterator != pSamples->end() && *SamplesIterator == pSample) ++SamplesIterator; // avoid iterator invalidation          if (SamplesIterator != pSamples->end() && *SamplesIterator == pSample) ++SamplesIterator; // avoid iterator invalidation
3182          pSamples->erase(iter);          pSamples->erase(iter);
3183          delete pSample;          delete pSample;
3184    
3185            // remove all references to the sample
3186            for (Instrument* instrument = GetFirstInstrument() ; instrument ;
3187                 instrument = GetNextInstrument()) {
3188                for (Region* region = instrument->GetFirstRegion() ; region ;
3189                     region = instrument->GetNextRegion()) {
3190    
3191                    if (region->GetSample() == pSample) region->SetSample(NULL);
3192    
3193                    for (int i = 0 ; i < region->DimensionRegions ; i++) {
3194                        gig::DimensionRegion *d = region->pDimensionRegions[i];
3195                        if (d->pSample == pSample) d->pSample = NULL;
3196                    }
3197                }
3198            }
3199      }      }
3200    
3201      void File::LoadSamples() {      void File::LoadSamples() {
# Line 3422  namespace { Line 3500  namespace {
3500                  RIFF::Chunk* ck = lst3gnl->GetFirstSubChunk();                  RIFF::Chunk* ck = lst3gnl->GetFirstSubChunk();
3501                  while (ck) {                  while (ck) {
3502                      if (ck->GetChunkID() == CHUNK_ID_3GNM) {                      if (ck->GetChunkID() == CHUNK_ID_3GNM) {
3503                            if (pVersion && pVersion->major == 3 &&
3504                                strcmp(static_cast<char*>(ck->LoadChunkData()), "") == 0) break;
3505    
3506                          pGroups->push_back(new Group(this, ck));                          pGroups->push_back(new Group(this, ck));
3507                      }                      }
3508                      ck = lst3gnl->GetNextSubChunk();                      ck = lst3gnl->GetNextSubChunk();
# Line 3471  namespace { Line 3552  namespace {
3552              for (; iter != end; ++iter) {              for (; iter != end; ++iter) {
3553                  (*iter)->UpdateChunks();                  (*iter)->UpdateChunks();
3554              }              }
3555    
3556                // v3: make sure the file has 128 3gnm chunks
3557                if (pVersion && pVersion->major == 3) {
3558                    RIFF::List* _3gnl = pRIFF->GetSubList(LIST_TYPE_3GRI)->GetSubList(LIST_TYPE_3GNL);
3559                    RIFF::Chunk* _3gnm = _3gnl->GetFirstSubChunk();
3560                    for (int i = 0 ; i < 128 ; i++) {
3561                        if (i >= pGroups->size()) ::SaveString(CHUNK_ID_3GNM, _3gnm, _3gnl, "", "", true, 64);
3562                        if (_3gnm) _3gnm = _3gnl->GetNextSubChunk();
3563                    }
3564                }
3565          }          }
3566    
3567          // update einf chunk          // update einf chunk

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