ref: a7a7176819903bea8a253134151480c54bf48d43
dir: /src/ft2_sample_loader.c/
// for finding memory leaks in debug mode with Visual Studio #if defined _DEBUG && defined _MSC_VER #include <crtdbg.h> #endif #include <stdio.h> #include <stdint.h> #include <stdbool.h> #include <math.h> #include "ft2_header.h" #include "ft2_gui.h" #include "ft2_unicode.h" #include "ft2_audio.h" #include "ft2_sample_ed.h" #include "ft2_mouse.h" #include "ft2_diskop.h" #include "ft2_structs.h" /* All of these routines were written from scratch and were not present ** in original FT2. */ enum { STEREO_SAMPLE_READ_LEFT = 1, STEREO_SAMPLE_READ_RIGHT = 2, STEREO_SAMPLE_CONVERT = 3, WAV_FORMAT_PCM = 0x0001, WAV_FORMAT_IEEE_FLOAT = 0x0003 }; static volatile bool sampleIsLoading; static bool loadAsInstrFlag; static uint8_t sampleSlot; static int16_t stereoSampleLoadMode; static SDL_Thread *thread; static void normalize32bitSigned(int32_t *sampleData, uint32_t sampleLength); static void normalize16bitFloatSigned(float *fSampleData, uint32_t sampleLength); static void normalize64bitDoubleSigned(double *dSampleData, uint32_t sampleLength); void freeTmpSample(sampleTyp *s) { if (s->origPek != NULL) { free(s->origPek); s->origPek = NULL; s->pek = NULL; } memset(s, 0, sizeof (sampleTyp)); } void removeSampleIsLoadingFlag(void) { sampleIsLoading = false; } static int32_t getAIFFRate(uint8_t *in) { int32_t exp = (int32_t)(((in[0] & 0x7F) << 8) | in[1]); uint32_t lo = (in[2] << 24) | (in[3] << 16) | (in[4] << 8) | in[5]; uint32_t hi = (in[6] << 24) | (in[7] << 16) | (in[8] << 8) | in[9]; if (exp == 0 && lo == 0 && hi == 0) return 0; exp -= 16383; double dOut = ldexp(lo, -31 + exp) + ldexp(hi, -63 + exp); return (int32_t)(dOut + 0.5); // rounded } static bool aiffIsStereo(FILE *f) // only ran on files that are confirmed to be AIFFs { uint16_t numChannels; uint32_t chunkID, chunkSize; uint32_t oldPos = ftell(f); fseek(f, 0, SEEK_END); int32_t filesize = ftell(f); if (filesize < 12) { fseek(f, oldPos, SEEK_SET); return false; } fseek(f, 12, SEEK_SET); uint32_t commPtr = 0; uint32_t commLen = 0; int32_t bytesRead = 0; while (!feof(f) && bytesRead < filesize-12) { fread(&chunkID, 4, 1, f); chunkID = SWAP32(chunkID); if (feof(f)) break; fread(&chunkSize, 4, 1, f); chunkSize = SWAP32(chunkSize); if (feof(f)) break; int32_t endOfChunk = (ftell(f) + chunkSize) + (chunkSize & 1); switch (chunkID) { case 0x434F4D4D: // "COMM" { commPtr = ftell(f); commLen = chunkSize; } break; default: break; } bytesRead += (chunkSize + (chunkSize & 1)); fseek(f, endOfChunk, SEEK_SET); } if (commPtr == 0 || commLen < 2) { fseek(f, oldPos, SEEK_SET); return false; } fseek(f, commPtr, SEEK_SET); fread(&numChannels, 2, 1, f); numChannels = SWAP16(numChannels); fseek(f, oldPos, SEEK_SET); return (numChannels == 2); } static bool wavIsStereo(FILE *f) // only ran on files that are confirmed to be WAVs { uint16_t numChannels; uint32_t chunkID, chunkSize; uint32_t oldPos = ftell(f); fseek(f, 0, SEEK_END); int32_t filesize = ftell(f); if (filesize < 12) { fseek(f, oldPos, SEEK_SET); return false; } fseek(f, 12, SEEK_SET); uint32_t fmtPtr = 0; uint32_t fmtLen = 0; int32_t bytesRead = 0; while (!feof(f) && bytesRead < filesize-12) { fread(&chunkID, 4, 1, f); if (feof(f)) break; fread(&chunkSize, 4, 1, f); if (feof(f)) break; int32_t endOfChunk = (ftell(f) + chunkSize) + (chunkSize & 1); switch (chunkID) { case 0x20746D66: // "fmt " { fmtPtr = ftell(f); fmtLen = chunkSize; } break; default: break; } bytesRead += (chunkSize + (chunkSize & 1)); fseek(f, endOfChunk, SEEK_SET); } if (fmtPtr == 0 || fmtLen < 4) { fseek(f, oldPos, SEEK_SET); return false; } fseek(f, fmtPtr + 2, SEEK_SET); fread(&numChannels, 2, 1, f); fseek(f, oldPos, SEEK_SET); return (numChannels == 2); } static int32_t SDLCALL loadAIFFSample(void *ptr) { char compType[4]; int8_t *audioDataS8; uint8_t sampleRateBytes[10], *audioDataU8; int16_t *audioDataS16, *audioDataS16_2, smp16; uint16_t numChannels, bitDepth; int32_t j, smp32, *audioDataS32; uint32_t i, blockName, blockSize; uint32_t offset, len32; int64_t smp64; sampleTyp tmpSmp; // this is important for the "goto" on load error FILE *f = NULL; memset(&tmpSmp, 0, sizeof (tmpSmp)); if (editor.tmpFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } UNICHAR *filename = editor.tmpFilenameU; f = UNICHAR_FOPEN(filename, "rb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } fseek(f, 0, SEEK_END); int32_t filesize = ftell(f); if (filesize < 12) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto aiffLoadError; } // handle chunks uint32_t commPtr = 0; uint32_t commLen = 0; uint32_t ssndPtr = 0; uint32_t ssndLen = 0; fseek(f, 12, SEEK_SET); while (!feof(f) && ftell(f) < filesize-12) { fread(&blockName, 4, 1, f); if (feof(f)) break; fread(&blockSize, 4, 1, f); if (feof(f)) break; blockName = SWAP32(blockName); blockSize = SWAP32(blockSize); switch (blockName) { case 0x434F4D4D: // "COMM" { commPtr = ftell(f); commLen = blockSize; } break; case 0x53534E44: // "SSND" { ssndPtr = ftell(f); ssndLen = blockSize; } break; default: break; } fseek(f, blockSize + (blockSize & 1), SEEK_CUR); } if (commPtr == 0 || commLen < 18 || ssndPtr == 0) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto aiffLoadError; } // kludge for some really strange AIFFs if (ssndLen == 0) ssndLen = filesize - ssndPtr; if (ssndPtr+ssndLen > (uint32_t)filesize) ssndLen = filesize - ssndPtr; fseek(f, commPtr, SEEK_SET); fread(&numChannels, 2, 1, f); numChannels = SWAP16(numChannels); fseek(f, 4, SEEK_CUR); fread(&bitDepth, 2, 1, f); bitDepth = SWAP16(bitDepth); fread(sampleRateBytes, 1, 10, f); if (numChannels != 1 && numChannels != 2) { okBoxThreadSafe(0, "System message", "Error loading sample: Unsupported amounts of channels!"); goto aiffLoadError; } if (bitDepth != 8 && bitDepth != 16 && bitDepth != 24 && bitDepth != 32) { okBoxThreadSafe(0, "System message", "Error loading sample: Unsupported bitdepth!"); goto aiffLoadError; } // read compression type (if present) if (commLen > 18) { fread(&compType, 1, 4, f); if (memcmp(compType, "NONE", 4)) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto aiffLoadError; } } uint32_t sampleRate = getAIFFRate(sampleRateBytes); // sample data chunk fseek(f, ssndPtr, SEEK_SET); fread(&offset, 4, 1, f); if (offset > 0) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto aiffLoadError; } fseek(f, 4, SEEK_CUR); ssndLen -= 8; // don't include offset and blockSize datas uint32_t sampleLength = ssndLen; if (sampleLength > MAX_SAMPLE_LEN) sampleLength = MAX_SAMPLE_LEN; freeTmpSample(&tmpSmp); // read sample data if (bitDepth == 8) { // 8-BIT SIGNED PCM tmpSmp.origPek = (int8_t *)malloc(sampleLength + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto aiffLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 1, f) != 1) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } audioDataS8 = (int8_t *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { for (i = 1; i < sampleLength; i++) audioDataS8[i] = audioDataS8[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS8[i] = audioDataS8[(i * 2) + 1]; audioDataS8[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp16 = (audioDataS8[(i * 2) + 0] + audioDataS8[(i * 2) + 1]) >> 1; audioDataS8[i] = (int8_t)smp16; } audioDataS8[i] = 0; } break; } } } else if (bitDepth == 16) { // 16-BIT SIGNED PCM sampleLength /= 2; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 2) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto aiffLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 2, f) != 2) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } // fix endianness audioDataS16 = (int16_t *)tmpSmp.pek; for (i = 0; i < sampleLength; i++) audioDataS16[i] = SWAP16(audioDataS16[i]); // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { for (i = 1; i < sampleLength; i++) audioDataS16[i] = audioDataS16[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS16[i] = audioDataS16[(i * 2) + 1]; audioDataS16[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp32 = (audioDataS16[(i * 2) + 0] + audioDataS16[(i * 2) + 1]) >> 1; audioDataS16[i] = (int16_t)smp32; } audioDataS16[i] = 0; } break; } } sampleLength *= 2; tmpSmp.typ |= 16; } else if (bitDepth == 24) { // 24-BIT SIGNED PCM sampleLength /= 3; tmpSmp.origPek = (int8_t *)malloc(((sampleLength * 4) * 2) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto aiffLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(&tmpSmp.pek[sampleLength], sampleLength, 3, f) != 3) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } audioDataS32 = (int32_t *)tmpSmp.pek; // convert to 32-bit audioDataU8 = (uint8_t *)tmpSmp.pek + sampleLength; for (i = 0; i < sampleLength; i++) { audioDataS32[i] = (audioDataU8[0] << 24) | (audioDataU8[1] << 16) | (audioDataU8[2] << 8); audioDataU8 += 3; } // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { for (i = 1; i < sampleLength; i++) audioDataS32[i] = audioDataS32[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS32[i] = audioDataS32[(i * 2) + 1]; audioDataS32[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp64 = audioDataS32[(i * 2) + 0]; smp64 += audioDataS32[(i * 2) + 1]; smp64 >>= 1; audioDataS32[i] = (int32_t)smp64; } audioDataS32[i] = 0; } break; } } normalize32bitSigned(audioDataS32, sampleLength); // downscale to 16-bit (ultra fast method!) audioDataS16 = (int16_t *)tmpSmp.pek; audioDataS16_2 = (int16_t *)tmpSmp.pek + 1; for (i = 0; i < sampleLength; i++) { audioDataS16[i] = audioDataS16_2[i]; audioDataS16_2++; } sampleLength *= 2; tmpSmp.typ |= 16; } else if (bitDepth == 32) { // 32-BIT SIGNED PCM sampleLength /= 4; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 4) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto aiffLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 4, f) != 4) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto aiffLoadError; } // fix endianness audioDataS32 = (int32_t *)tmpSmp.pek; for (i = 0; i < sampleLength; i++) audioDataS32[i] = SWAP32(audioDataS32[i]); // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { for (i = 1; i < sampleLength; i++) audioDataS32[i] = audioDataS32[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS32[i] = audioDataS32[(i * 2) + 1]; audioDataS32[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp64 = audioDataS32[(i * 2) + 0]; smp64 += audioDataS32[(i * 2) + 1]; smp64 >>= 1; audioDataS32[i] = (int32_t)smp64; } audioDataS32[i] = 0; } break; } } normalize32bitSigned(audioDataS32, sampleLength); // downscale to 16-bit (ultra fast method!) audioDataS16 = (int16_t *)tmpSmp.pek; audioDataS16_2 = (int16_t *)tmpSmp.pek + 1; for (i = 0; i < sampleLength; i++) { audioDataS16[i] = audioDataS16_2[i]; audioDataS16_2++; } sampleLength *= 2; tmpSmp.typ |= 16; } // adjust memory needed int8_t *newPtr = (int8_t *)realloc(tmpSmp.origPek, sampleLength + LOOP_FIX_LEN); if (newPtr != NULL) { tmpSmp.origPek = newPtr; tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; } // set sample attributes tmpSmp.len = sampleLength; tmpSmp.vol = 64; tmpSmp.pan = 128; tuneSample(&tmpSmp, sampleRate); // set sample name char *tmpFilename = unicharToCp437(filename, true); if (tmpFilename != NULL) { j = (int32_t)strlen(tmpFilename); while (j--) { if (tmpFilename[j] == DIR_DELIMITER) break; } char *tmpPtr = tmpFilename; if (j > 0) tmpPtr += j + 1; sanitizeFilename(tmpPtr); uint32_t filenameLen = (uint32_t)strlen(tmpPtr); for (i = 0; i < 22; i++) { if (i < filenameLen) tmpSmp.name[i] = tmpPtr[i]; else tmpSmp.name[i] = '\0'; } free(tmpFilename); } fclose(f); lockMixerCallback(); if (loadAsInstrFlag) // if loaded in instrument mode { freeInstr(editor.curInstr); memset(song.instrName[editor.curInstr], 0, 23); } if (instr[editor.curInstr] == NULL) allocateInstr(editor.curInstr); if (instr[editor.curInstr] != NULL) { sampleTyp *s = &instr[editor.curInstr]->samp[sampleSlot]; freeSample(editor.curInstr, sampleSlot); memcpy(s, &tmpSmp, sizeof (sampleTyp)); fixSample(s); } else { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto aiffLoadError; } unlockMixerCallback(); fixSampleName(editor.curInstr); setSongModifiedFlag(); stereoSampleLoadMode = -1; // also sets mouse busy to false when done editor.updateCurSmp = true; return true; aiffLoadError: if (f != NULL) fclose(f); if (tmpSmp.origPek != NULL) free(tmpSmp.origPek); stereoSampleLoadMode = -1; sampleIsLoading = false; return false; (void)ptr; } static int32_t SDLCALL loadIFFSample(void *ptr) { char hdr[4+1]; uint8_t i; int32_t j; uint32_t blockName, blockSize; sampleTyp tmpSmp; // this is important for the "goto" on load error FILE *f = NULL; memset(&tmpSmp, 0, sizeof (tmpSmp)); if (editor.tmpFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto iffLoadError; } UNICHAR *filename = editor.tmpFilenameU; f = UNICHAR_FOPEN(filename, "rb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto iffLoadError; } fseek(f, 0, SEEK_END); int32_t filesize = ftell(f); if (filesize < 12) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto iffLoadError; } fseek(f, 8, SEEK_SET); fread(hdr, 1, 4, f); hdr[4] = '\0'; bool is16Bit = !strncmp(hdr, "16SV", 4); uint32_t sampleLength = 0; uint32_t sampleVol = 64; uint32_t sampleLoopStart = 0; uint32_t sampleLoopLength = 0; uint16_t sampleRate = 16726; uint32_t vhdrPtr = 0; uint32_t vhdrLen = 0; uint32_t bodyPtr = 0; uint32_t bodyLen = 0; uint32_t namePtr = 0; uint32_t nameLen = 0; fseek(f, 12, SEEK_SET); while (!feof(f) && ftell(f) < filesize-12) { fread(&blockName, 4, 1, f); if (feof(f)) break; fread(&blockSize, 4, 1, f); if (feof(f)) break; blockName = SWAP32(blockName); blockSize = SWAP32(blockSize); switch (blockName) { case 0x56484452: // VHDR { vhdrPtr = ftell(f); vhdrLen = blockSize; } break; case 0x4E414D45: // NAME { namePtr = ftell(f); nameLen = blockSize; } break; case 0x424F4459: // BODY { bodyPtr = ftell(f); bodyLen = blockSize; } break; default: break; } fseek(f, blockSize + (blockSize & 1), SEEK_CUR); } if (vhdrPtr == 0 || vhdrLen < 20 || bodyPtr == 0) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto iffLoadError; } // kludge for some really strange IFFs if (bodyLen == 0) bodyLen = filesize - bodyPtr; if (bodyPtr+bodyLen > (uint32_t)filesize) bodyLen = filesize - bodyPtr; fseek(f, vhdrPtr, SEEK_SET); fread(&sampleLoopStart, 4, 1, f); sampleLoopStart = SWAP32(sampleLoopStart); fread(&sampleLoopLength, 4, 1, f); sampleLoopLength = SWAP32(sampleLoopLength); fseek(f, 4, SEEK_CUR); fread(&sampleRate, 2, 1, f); sampleRate = SWAP16(sampleRate); fseek(f, 1, SEEK_CUR); if (fgetc(f) != 0) // sample type { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported!"); goto iffLoadError; } fread(&sampleVol, 4, 1, f); sampleVol = SWAP32(sampleVol); if (sampleVol > 65535) sampleVol = 65535; sampleVol = (int32_t)((sampleVol / 1024.0) + 0.5); if (sampleVol > 64) sampleVol = 64; sampleLength = bodyLen; if (sampleLength > MAX_SAMPLE_LEN) sampleLength = MAX_SAMPLE_LEN; if (sampleLoopStart >= MAX_SAMPLE_LEN || sampleLoopLength > MAX_SAMPLE_LEN) { sampleLoopStart = 0; sampleLoopLength = 0; } if (sampleLoopStart+sampleLoopLength > sampleLength) { sampleLoopStart = 0; sampleLoopLength = 0; } if (sampleLoopStart > sampleLength-2) { sampleLoopStart = 0; sampleLoopLength = 0; } tmpSmp.pan = 128; tmpSmp.vol = 64; tmpSmp.origPek = (int8_t *)malloc(sampleLength + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto iffLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; fseek(f, bodyPtr, SEEK_SET); if (fread(tmpSmp.pek, sampleLength, 1, f) != 1) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto iffLoadError; } // set sample attributes tmpSmp.len = sampleLength; if (sampleLoopLength > 2) { tmpSmp.repS = sampleLoopStart; tmpSmp.repL = sampleLoopLength; tmpSmp.typ |= 1; } if (is16Bit) { tmpSmp.len &= 0xFFFFFFFE; tmpSmp.repS &= 0xFFFFFFFE; tmpSmp.repL &= 0xFFFFFFFE; tmpSmp.typ |= 16; } tmpSmp.vol = (uint8_t)sampleVol; tmpSmp.pan = 128; tuneSample(&tmpSmp, sampleRate); // set name if (namePtr != 0 && nameLen > 0) { fseek(f, namePtr, SEEK_SET); if (nameLen > 21) { tmpSmp.name[21] = '\0'; fread(tmpSmp.name, 1, 21, f); } else { memset(tmpSmp.name, 0, 22); fread(tmpSmp.name, 1, nameLen, f); } } else { // set sample name from filename if we didn't load name from .wav char *tmpFilename = unicharToCp437(filename, true); if (tmpFilename != NULL) { j = (int32_t)strlen(tmpFilename); while (j--) { if (tmpFilename[j] == DIR_DELIMITER) break; } char *tmpPtr = tmpFilename; if (j > 0) tmpPtr += j + 1; sanitizeFilename(tmpPtr); uint32_t filenameLen = (uint32_t)strlen(tmpPtr); for (i = 0; i < 22; i++) { if (i < filenameLen) tmpSmp.name[i] = tmpPtr[i]; else tmpSmp.name[i] = '\0'; } free(tmpFilename); } } fclose(f); lockMixerCallback(); if (loadAsInstrFlag) // if loaded in instrument mode { freeInstr(editor.curInstr); memset(song.instrName[editor.curInstr], 0, 23); } if (instr[editor.curInstr] == NULL) allocateInstr(editor.curInstr); if (instr[editor.curInstr] != NULL) { sampleTyp *s = &instr[editor.curInstr]->samp[sampleSlot]; freeSample(editor.curInstr, sampleSlot); memcpy(s, &tmpSmp, sizeof (sampleTyp)); fixSample(s); } else { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto iffLoadError; } unlockMixerCallback(); fixSampleName(editor.curInstr); setSongModifiedFlag(); stereoSampleLoadMode = -1; // also sets mouse busy to false when done editor.updateCurSmp = true; return true; iffLoadError: if (f != NULL) fclose(f); if (tmpSmp.origPek != NULL) free(tmpSmp.origPek); stereoSampleLoadMode = -1; sampleIsLoading = false; return false; (void)ptr; } static int32_t SDLCALL loadRawSample(void *ptr) { int32_t j; uint32_t i; sampleTyp tmpSmp; // this is important for the "goto" on load error FILE *f = NULL; memset(&tmpSmp, 0, sizeof (tmpSmp)); if (editor.tmpFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto rawLoadError; } UNICHAR *filename = editor.tmpFilenameU; f = UNICHAR_FOPEN(filename, "rb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto rawLoadError; } fseek(f, 0, SEEK_END); uint32_t filesize = ftell(f); rewind(f); if (filesize > MAX_SAMPLE_LEN) filesize = MAX_SAMPLE_LEN; if (filesize == 0) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto rawLoadError; } tmpSmp.pan = 128; tmpSmp.vol = 64; tmpSmp.origPek = (int8_t *)malloc(filesize + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto rawLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, filesize, 1, f) != 1) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto rawLoadError; } fclose(f); char *tmpFilename = unicharToCp437(filename, true); if (tmpFilename != NULL) { j = (int32_t)strlen(tmpFilename); while (j--) { if (tmpFilename[j] == DIR_DELIMITER) break; } char *tmpPtr = tmpFilename; if (j > 0) tmpPtr += j + 1; sanitizeFilename(tmpPtr); uint32_t filenameLen = (uint32_t)strlen(tmpPtr); for (i = 0; i < 22; i++) { if (i < filenameLen) tmpSmp.name[i] = tmpPtr[i]; else tmpSmp.name[i] = '\0'; } free(tmpFilename); } tmpSmp.len = filesize; tmpSmp.vol = 64; tmpSmp.pan = 128; lockMixerCallback(); if (loadAsInstrFlag) // if loaded in instrument mode { freeInstr(editor.curInstr); memset(song.instrName[editor.curInstr], 0, 23); } if (instr[editor.curInstr] == NULL) allocateInstr(editor.curInstr); if (instr[editor.curInstr] != NULL) { sampleTyp *s = &instr[editor.curInstr]->samp[sampleSlot]; freeSample(editor.curInstr, sampleSlot); memcpy(s, &tmpSmp, sizeof (sampleTyp)); fixSample(s); } else { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto rawLoadError; } unlockMixerCallback(); fixSampleName(editor.curInstr); setSongModifiedFlag(); stereoSampleLoadMode = -1; // also sets mouse busy to false when done editor.updateCurSmp = true; return true; rawLoadError: if (f != NULL) fclose(f); if (tmpSmp.origPek != NULL) free(tmpSmp.origPek); stereoSampleLoadMode = -1; sampleIsLoading = false; return false; (void)ptr; } static int32_t SDLCALL loadWAVSample(void *ptr) { char chr, *tmpFilename, *tmpPtr; int8_t *newPtr; uint8_t *audioDataU8; int16_t *audioDataS16, *audioDataS16_2, *ptr16; uint16_t audioFormat, numChannels, bitsPerSample, tempPan, tempVol; int32_t j, *audioDataS32, smp32; uint32_t filenameLen, i, sampleRate, chunkID, chunkSize, sampleLength, filesize; uint32_t numLoops, loopType, loopStart, loopEnd, bytesRead, endOfChunk, dataPtr, dataLen, fmtPtr; uint32_t fmtLen, inamPtr, inamLen, smplPtr, smplLen, xtraPtr, xtraLen, xtraFlags, len32; int64_t smp64; float *fAudioDataFloat; double *dAudioDataDouble; sampleTyp tmpSmp, *s; // this is important for the "goto" on load error FILE *f = NULL; memset(&tmpSmp, 0, sizeof (tmpSmp)); // zero out chunk pointers and lengths fmtPtr = 0; fmtLen = 0; dataPtr = 0; dataLen = 0; inamPtr = 0; inamLen = 0; xtraPtr = 0; xtraLen = 0; smplPtr = 0; smplLen = 0; if (editor.tmpFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } UNICHAR *filename = editor.tmpFilenameU; f = UNICHAR_FOPEN(filename, "rb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } // get and check filesize fseek(f, 0, SEEK_END); filesize = ftell(f); if (filesize < 12) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto wavLoadError; } // look for wanted chunks and set up pointers + lengths fseek(f, 12, SEEK_SET); bytesRead = 0; while (!feof(f) && bytesRead < filesize-12) { fread(&chunkID, 4, 1, f); if (feof(f)) break; fread(&chunkSize, 4, 1, f); if (feof(f)) break; endOfChunk = (ftell(f) + chunkSize) + (chunkSize & 1); switch (chunkID) { case 0x20746D66: // "fmt " { fmtPtr = ftell(f); fmtLen = chunkSize; } break; case 0x61746164: // "data" { dataPtr = ftell(f); dataLen = chunkSize; } break; case 0x5453494C: // "LIST" { if (chunkSize >= 4) { fread(&chunkID, 4, 1, f); if (chunkID == 0x4F464E49) // "INFO" { bytesRead = 0; while (!feof(f) && bytesRead < chunkSize) { fread(&chunkID, 4, 1, f); fread(&chunkSize, 4, 1, f); switch (chunkID) { case 0x4D414E49: // "INAM" { inamPtr = ftell(f); inamLen = chunkSize; } break; default: break; } bytesRead += (chunkSize + (chunkSize & 1)); } } } } break; case 0x61727478: // "xtra" { xtraPtr = ftell(f); xtraLen = chunkSize; } break; case 0x6C706D73: // "smpl" { smplPtr = ftell(f); smplLen = chunkSize; } break; default: break; } bytesRead += (chunkSize + (chunkSize & 1)); fseek(f, endOfChunk, SEEK_SET); } // we need at least "fmt " and "data" - check if we found them sanely if ((fmtPtr == 0 || fmtLen < 16) || (dataPtr == 0 || dataLen == 0)) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto wavLoadError; } // ---- READ "fmt " CHUNK ---- fseek(f, fmtPtr, SEEK_SET); fread(&audioFormat, 2, 1, f); fread(&numChannels, 2, 1, f); fread(&sampleRate, 4, 1, f); fseek(f, 6, SEEK_CUR); // unneeded fread(&bitsPerSample, 2, 1, f); sampleLength = dataLen; // --------------------------- // test if the WAV is compatible with our loader if (sampleRate == 0 || sampleLength == 0 || sampleLength >= filesize) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported or is invalid!"); goto wavLoadError; } if (audioFormat != WAV_FORMAT_PCM && audioFormat != WAV_FORMAT_IEEE_FLOAT) { okBoxThreadSafe(0, "System message", "Error loading sample: The sample is not supported!"); goto wavLoadError; } if (numChannels == 0 || numChannels > 2) { okBoxThreadSafe(0, "System message", "Error loading sample: Unsupported number of channels!"); goto wavLoadError; } if (audioFormat == WAV_FORMAT_IEEE_FLOAT && bitsPerSample != 32 && bitsPerSample != 64) { okBoxThreadSafe(0, "System message", "Error loading sample: Unsupported bitdepth!"); goto wavLoadError; } if (bitsPerSample != 8 && bitsPerSample != 16 && bitsPerSample != 24 && bitsPerSample != 32 && bitsPerSample != 64) { okBoxThreadSafe(0, "System message", "Error loading sample: Unsupported bitdepth!"); goto wavLoadError; } // ---- READ SAMPLE DATA ---- fseek(f, dataPtr, SEEK_SET); s = &instr[editor.curInstr]->samp[editor.curSmp]; tmpSmp.pan = 128; tmpSmp.vol = 64; if (sampleLength > MAX_SAMPLE_LEN) sampleLength = MAX_SAMPLE_LEN; if (bitsPerSample == 8) // 8-BIT INTEGER SAMPLE { tmpSmp.origPek = (int8_t *)malloc(sampleLength + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 1, f) != 1) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } audioDataU8 = (uint8_t *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) audioDataU8[i] = audioDataU8[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataU8[i] = audioDataU8[(i * 2) + 1]; audioDataU8[i] = 128; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataU8[i] = (audioDataU8[(i * 2) + 0] + audioDataU8[(i * 2) + 1]) >> 1; audioDataU8[i] = 128; } break; } } // convert from unsigned to signed for (i = 0; i < sampleLength; i++) tmpSmp.pek[i] ^= 0x80; tmpSmp.typ &= ~16; // 8-bit } else if (bitsPerSample == 16) // 16-BIT INTEGER SAMPLE { sampleLength /= 2; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 2) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 2, f) != 2) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } audioDataS16 = (int16_t *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) audioDataS16[i] = audioDataS16[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS16[i] = audioDataS16[(i * 2) + 1]; audioDataS16[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp32 = audioDataS16[(i * 2) + 0] + audioDataS16[(i * 2) + 1]; audioDataS16[i] = (int16_t)(smp32 >> 1); } audioDataS16[i] = 0; } break; } } sampleLength *= 2; tmpSmp.typ |= 16; // 16-bit } else if (bitsPerSample == 24) // 24-BIT INTEGER SAMPLE { sampleLength /= 3; tmpSmp.origPek = (int8_t *)malloc(((sampleLength * 4) * 2) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(&tmpSmp.pek[sampleLength], sampleLength, 3, f) != 3) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } audioDataS32 = (int32_t *)tmpSmp.pek; // convert to 32-bit audioDataU8 = (uint8_t *)tmpSmp.pek + sampleLength; for (i = 0; i < sampleLength; i++) { audioDataS32[i] = (audioDataU8[2] << 24) | (audioDataU8[1] << 16) | (audioDataU8[0] << 8); audioDataU8 += 3; } // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) audioDataS32[i] = audioDataS32[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS32[i] = audioDataS32[(i * 2) + 1]; audioDataS32[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp64 = audioDataS32[(i * 2) + 0]; smp64 += audioDataS32[(i * 2) + 1]; smp64 >>= 1; audioDataS32[i] = (int32_t)smp64; } audioDataS32[i] = 0; } break; } } normalize32bitSigned(audioDataS32, sampleLength); // downscale to 16-bit (ultra fast method!) audioDataS16 = (int16_t *)tmpSmp.pek; audioDataS16_2 = (int16_t *)tmpSmp.pek + 1; for (i = 0; i < sampleLength; i++) { audioDataS16[i] = audioDataS16_2[i]; audioDataS16_2++; } sampleLength *= 2; tmpSmp.typ |= 16; // 16-bit } else if (audioFormat == WAV_FORMAT_PCM && bitsPerSample == 32) // 32-BIT INTEGER SAMPLE { sampleLength /= 4; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 4) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 4, f) != 4) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } audioDataS32 = (int32_t *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) audioDataS32[i] = audioDataS32[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) audioDataS32[i] = audioDataS32[(i * 2) + 1]; audioDataS32[i] = 0; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) { smp64 = audioDataS32[(i * 2) + 0]; smp64 += audioDataS32[(i * 2) + 1]; smp64 >>= 1; audioDataS32[i] = (int32_t)smp64; } audioDataS32[i] = 0; } break; } } normalize32bitSigned(audioDataS32, sampleLength); // downscale to 16-bit (ultra fast method!) audioDataS16 = (int16_t *)tmpSmp.pek; audioDataS16_2 = (int16_t *)tmpSmp.pek + 1; for (i = 0; i < sampleLength; i++) { audioDataS16[i] = audioDataS16_2[i]; audioDataS16_2++; } sampleLength *= 2; tmpSmp.typ |= 16; // 16-bit } else if (audioFormat == WAV_FORMAT_IEEE_FLOAT && bitsPerSample == 32) // 32-BIT FLOATING POINT SAMPLE { sampleLength /= 4; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 4) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 4, f) != 4) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } fAudioDataFloat = (float *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) fAudioDataFloat[i] = fAudioDataFloat[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) fAudioDataFloat[i] = fAudioDataFloat[(i * 2) + 1]; fAudioDataFloat[i] = 0.0f; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) fAudioDataFloat[i] = (fAudioDataFloat[(i * 2) + 0] + fAudioDataFloat[(i * 2) + 1]) * 0.5f; fAudioDataFloat[i] = 0.0f; } break; } } normalize16bitFloatSigned(fAudioDataFloat, sampleLength); ptr16 = (int16_t *)tmpSmp.pek; for (i = 0; i < sampleLength; i++) ptr16[i] = (int16_t)fAudioDataFloat[i]; // should use SIMD if available sampleLength *= 2; tmpSmp.typ |= 16; // 16-bit } else if (audioFormat == WAV_FORMAT_IEEE_FLOAT && bitsPerSample == 64) // 64-BIT FLOATING POINT SAMPLE { sampleLength /= 8; tmpSmp.origPek = (int8_t *)malloc((sampleLength * 8) + LOOP_FIX_LEN); if (tmpSmp.origPek == NULL) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; if (fread(tmpSmp.pek, sampleLength, 8, f) != 8) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto wavLoadError; } dAudioDataDouble = (double *)tmpSmp.pek; // stereo conversion if (numChannels == 2) { sampleLength /= 2; switch (stereoSampleLoadMode) { case STEREO_SAMPLE_READ_LEFT: { // remove right channel data for (i = 1; i < sampleLength; i++) dAudioDataDouble[i] = dAudioDataDouble[(i * 2) + 0]; } break; case STEREO_SAMPLE_READ_RIGHT: { // remove left channel data len32 = sampleLength - 1; for (i = 0; i < len32; i++) dAudioDataDouble[i] = dAudioDataDouble[(i * 2) + 1]; dAudioDataDouble[i] = 0.0; } break; default: case STEREO_SAMPLE_CONVERT: { // mix stereo to mono len32 = sampleLength - 1; for (i = 0; i < len32; i++) dAudioDataDouble[i] = (dAudioDataDouble[(i * 2) + 0] + dAudioDataDouble[(i * 2) + 1]) * 0.5; dAudioDataDouble[i] = 0.0; } break; } } normalize64bitDoubleSigned(dAudioDataDouble, sampleLength); ptr16 = (int16_t *)tmpSmp.pek; for (i = 0; i < sampleLength; i++) ptr16[i] = (int16_t)dAudioDataDouble[i]; // should use SIMD if available sampleLength *= 2; tmpSmp.typ |= 16; // 16-bit } // adjust memory needed newPtr = (int8_t *)realloc(tmpSmp.origPek, sampleLength + LOOP_FIX_LEN); if (newPtr != NULL) { tmpSmp.origPek = newPtr; tmpSmp.pek = tmpSmp.origPek + SMP_DAT_OFFSET; } tuneSample(&tmpSmp, sampleRate); tmpSmp.vol = 64; tmpSmp.pan = 128; tmpSmp.len = sampleLength; // ---- READ "smpl" chunk ---- if (smplPtr != 0 && smplLen > 52) { fseek(f, smplPtr + 28, SEEK_SET); // seek to first wanted byte fread(&numLoops, 4, 1, f); if (numLoops == 1) { fseek(f, 4 + 4, SEEK_CUR); // skip "samplerData" and "identifier" fread(&loopType, 4, 1, f); fread(&loopStart, 4, 1, f); fread(&loopEnd, 4, 1, f); loopEnd++; if (tmpSmp.typ & 16) { loopStart *= 2; loopEnd *= 2; } if (loopEnd <= sampleLength) { tmpSmp.repS = loopStart; tmpSmp.repL = loopEnd - loopStart; tmpSmp.typ |= ((loopType == 0) ? 1 : 2); } } } // --------------------------- // ---- READ "xtra" chunk ---- if (xtraPtr != 0 && xtraLen >= 8) { fseek(f, xtraPtr, SEEK_SET); fread(&xtraFlags, 4, 1, f); // flags // panning (0..256) if (xtraFlags & 0x20) // set panning flag { fread(&tempPan, 2, 1, f); if (tempPan > 255) tempPan = 255; tmpSmp.pan = (uint8_t)tempPan; } else { // don't read panning, skip it fseek(f, 2, SEEK_CUR); } // volume (0..256) fread(&tempVol, 2, 1, f); if (tempVol > 256) tempVol = 256; tmpSmp.vol = (uint8_t)(tempVol / 4); // 0..256 -> 0..64 } // --------------------------- // ---- READ "INAM" chunk ---- if (inamPtr != 0 && inamLen > 0) { fseek(f, inamPtr, SEEK_SET); memset(tmpSmp.name, 0, sizeof (tmpSmp.name)); for (i = 0; i < 22; i++) { if (i < inamLen) { chr = (char)fgetc(f); if (chr == '\0') break; tmpSmp.name[i] = chr; } } } else { // set sample name from filename if we didn't load name from .wav tmpFilename = unicharToCp437(filename, true); if (tmpFilename != NULL) { j = (int32_t)strlen(tmpFilename); while (j--) { if (tmpFilename[j] == DIR_DELIMITER) break; } tmpPtr = tmpFilename; if (j > 0) tmpPtr += j + 1; sanitizeFilename(tmpPtr); filenameLen = (uint32_t)strlen(tmpPtr); for (i = 0; i < 22; i++) { if (i < filenameLen) tmpSmp.name[i] = tmpPtr[i]; else tmpSmp.name[i] = '\0'; } free(tmpFilename); } } fclose(f); lockMixerCallback(); if (loadAsInstrFlag) // if loaded in instrument mode { freeInstr(editor.curInstr); memset(song.instrName[editor.curInstr], 0, 23); } if (instr[editor.curInstr] == NULL) allocateInstr(editor.curInstr); if (instr[editor.curInstr] != NULL) { s = &instr[editor.curInstr]->samp[sampleSlot]; freeSample(editor.curInstr, sampleSlot); memcpy(s, &tmpSmp, sizeof (sampleTyp)); fixSample(s); } else { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto wavLoadError; } unlockMixerCallback(); fixSampleName(editor.curInstr); setSongModifiedFlag(); stereoSampleLoadMode = -1; // also sets mouse busy to false when done editor.updateCurSmp = true; return true; wavLoadError: if (f != NULL) fclose(f); if (tmpSmp.origPek != NULL) free(tmpSmp.origPek); stereoSampleLoadMode = -1; sampleIsLoading = false; return false; (void)ptr; } bool loadSample(UNICHAR *filenameU, uint8_t smpNr, bool instrFlag) { char tmpBuffer[16+1]; if (sampleIsLoading) return false; stereoSampleLoadMode = 0; sampleSlot = smpNr; loadAsInstrFlag = instrFlag; if (editor.curInstr == 0) { okBox(0, "System message", "The zero-instrument cannot hold intrument data."); return false; } FILE *f = UNICHAR_FOPEN(filenameU, "rb"); if (f == NULL) { okBox(0, "System message", "General I/O error during loading! Is the file in use?"); return false; } memset(tmpBuffer, 0, sizeof (tmpBuffer)); if (fread(tmpBuffer, sizeof (tmpBuffer) - 1, 1, f) == 1) { tmpBuffer[sizeof (tmpBuffer) - 1] = '\0'; // detect what sample format this is... // WAV if (!strncmp("RIFF", tmpBuffer, 4) && !strncmp("WAVE", tmpBuffer + 8, 4)) { // let the user pick what to do with stereo samples... if (wavIsStereo(f)) stereoSampleLoadMode = okBox(5, "System request", "This is a stereo sample..."); sampleIsLoading = true; fclose(f); UNICHAR_STRCPY(editor.tmpFilenameU, filenameU); mouseAnimOn(); thread = SDL_CreateThread(loadWAVSample, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); sampleIsLoading = false; return false; } SDL_DetachThread(thread); return true; } // AIFF or IFF if (!strncmp("FORM", tmpBuffer, 4)) { if (!strncmp("AIFC", tmpBuffer + 8, 4)) { // AIFC (not supported) fclose(f); okBox(0, "System message", "Error loading sample: This AIFF type (AIFC) is not supported!"); return true; } else if (!strncmp("AIFF", tmpBuffer + 8, 4)) { // AIFF // let the user pick what to do with stereo samples... if (aiffIsStereo(f)) stereoSampleLoadMode = okBox(5, "System request", "This is a stereo sample..."); sampleIsLoading = true; fclose(f); UNICHAR_STRCPY(editor.tmpFilenameU, filenameU); mouseAnimOn(); thread = SDL_CreateThread(loadAIFFSample, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); sampleIsLoading = false; return false; } SDL_DetachThread(thread); return true; } else if (!strncmp("8SVX", tmpBuffer + 8, 4) || !strncmp("16SV", tmpBuffer + 8, 4)) { // IFF sampleIsLoading = true; fclose(f); UNICHAR_STRCPY(editor.tmpFilenameU, filenameU); mouseAnimOn(); thread = SDL_CreateThread(loadIFFSample, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); sampleIsLoading = false; return false; } SDL_DetachThread(thread); return true; } } } // load as RAW sample sampleIsLoading = true; fclose(f); UNICHAR_STRCPY(editor.tmpFilenameU, filenameU); mouseAnimOn(); thread = SDL_CreateThread(loadRawSample, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); sampleIsLoading = false; return false; } SDL_DetachThread(thread); return true; } static void normalize32bitSigned(int32_t *sampleData, uint32_t sampleLength) { uint32_t i; uint32_t sampleVolPeak = 0; for (i = 0; i < sampleLength; i++) { const uint32_t sample = ABS(sampleData[i]); if (sampleVolPeak < sample) sampleVolPeak = sample; } if (sampleVolPeak <= 0) return; const double dGain = (double)INT32_MAX / sampleVolPeak; for (i = 0; i < sampleLength; i++) sampleData[i] = (int32_t)(sampleData[i] * dGain); } static void normalize16bitFloatSigned(float *fSampleData, uint32_t sampleLength) { uint32_t i; float fSampleVolPeak = 0.0f; for (i = 0; i < sampleLength; i++) { const float fSample = fabsf(fSampleData[i]); if (fSampleVolPeak < fSample) fSampleVolPeak = fSample; } if (fSampleVolPeak <= 0.0f) return; const float fGain = (float)INT16_MAX / fSampleVolPeak; for (i = 0; i < sampleLength; i++) fSampleData[i] *= fGain; } static void normalize64bitDoubleSigned(double *dSampleData, uint32_t sampleLength) { uint32_t i; double dSampleVolPeak = 0.0; for (i = 0; i < sampleLength; i++) { const double dSample = fabs(dSampleData[i]); if (dSampleVolPeak < dSample) dSampleVolPeak = dSample; } if (dSampleVolPeak <= 0.0) return; const double dGain = (double)INT16_MAX / dSampleVolPeak; for (i = 0; i < sampleLength; i++) dSampleData[i] *= dGain; } bool fileIsInstrument(char *fullPath) { int32_t i, len; // this assumes that fullPath is not empty len = (int32_t)strlen(fullPath); // get filename from path i = len; while (i--) { if (fullPath[i] == DIR_DELIMITER) break; } char *filename = fullPath; if (i > 0) filename += i + 1; // -------------------------- len = (int32_t)strlen(filename); if (len < 4) return true; // can't be an instrument if (!_strnicmp("xi.", filename, 3) || (len >= 4 && !_strnicmp("pat.", filename, 4))) return true; int32_t extOffset = getExtOffset(filename, len); if (extOffset != -1) { if ((extOffset <= len-4) && !_strnicmp(".pat", &filename[extOffset], 4)) return true; if ((extOffset <= len-3) && !_strnicmp(".xi", &filename[extOffset], 3)) return true; } return false; } bool fileIsSample(char *fullPath) { int32_t i, len; // this assumes that fullPath is not empty len = (int32_t)strlen(fullPath); // get filename from path i = len; while (i--) { if (fullPath[i] == DIR_DELIMITER) break; } char *filename = fullPath; if (i > 0) filename += i + 1; // -------------------------- len = (int32_t)strlen(filename); if (len < 4) return true; // can't be a module if (!_strnicmp("xm.", filename, 3) || !_strnicmp("ft.", filename, 3) || !_strnicmp("mod.", filename, 4) || !_strnicmp("nst.", filename, 4) || !_strnicmp("s3m.", filename, 4) || !_strnicmp("stm.", filename, 4) || !_strnicmp("fst.", filename, 4) || !_strnicmp("it.", filename, 3)) { return false; // definitely a module } int32_t extOffset = getExtOffset(filename, len); if (extOffset != -1) { if (extOffset <= len-4) { filename = &filename[extOffset]; if (!_strnicmp(".mod", filename, 4) || !_strnicmp(".nst", filename, 4) || !_strnicmp(".s3m", filename, 4) || !_strnicmp(".stm", filename, 4) || !_strnicmp(".fst", filename, 4)) { return false; // definitely a module } } else if (extOffset <= len-3) { filename = &filename[extOffset]; if (!_strnicmp(".xm", filename, 3) || !_strnicmp(".ft", filename, 3) || !_strnicmp(".it", filename, 3)) return false; // definitely a module } } return true; // let's assume it's a sample }