ref: d9f3b8e36558b0825787c14c6512d975afa4cf5b
dir: /src/modloaders/ft2_load_digi.c/
/* DIGI Booster (non-Pro) module loader ** ** Note: Data sanitation is done in the last stage ** of module loading, so you don't need to do that here. */ #include <stdio.h> #include <stdint.h> #include <stdbool.h> #include "../ft2_header.h" #include "../ft2_module_loader.h" #include "../ft2_sample_ed.h" #include "../ft2_tables.h" #include "../ft2_sysreqs.h" #ifdef _MSC_VER // please don't mess with this struct! #pragma pack(push) #pragma pack(1) #endif typedef struct digiHdr_t { char ID[20]; char verStr[4]; uint8_t version; uint8_t numChannels; uint8_t packedPatternsFlag; char reserved[19]; uint8_t numPatterns; uint8_t numOrders; uint8_t orders[128]; uint32_t smpLength[31]; uint32_t smpLoopStart[31]; uint32_t smpLoopLength[31]; uint8_t smpVolume[31]; uint8_t smpFinetune[31]; char name[32]; char smpName[31][30]; } #ifdef __GNUC__ __attribute__ ((packed)) #endif digiHdr_t; #ifdef _MSC_VER #pragma pack(pop) #endif static void readPatternNote(FILE *f, note_t *p); bool loadDIGI(FILE *f, uint32_t filesize) { int16_t i, j, k; sample_t *s; digiHdr_t hdr; tmpLinearPeriodsFlag = false; // use Amiga periods if (filesize < sizeof (hdr)) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } memset(&hdr, 0, sizeof (hdr)); if (fread(&hdr, 1, sizeof (hdr), f) != sizeof (hdr)) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } if (hdr.numChannels < 1 || hdr.numChannels > 8) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } hdr.numOrders++; hdr.numPatterns++; if (hdr.numOrders < 1 || hdr.numOrders > 128) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } memcpy(songTmp.orders, hdr.orders, 128); memcpy(songTmp.name, hdr.name, 20); songTmp.numChannels = hdr.numChannels; songTmp.songLength = hdr.numOrders; songTmp.BPM = 125; songTmp.speed = 6; // load pattern data for (i = 0; i < hdr.numPatterns; i++) { if (!allocateTmpPatt(i, 64)) { loaderMsgBox("Not enough memory!"); return false; } if (hdr.packedPatternsFlag) { uint16_t pattSize; uint8_t bitMasks[64]; fread(&pattSize, 2, 1, f); pattSize = SWAP16(pattSize); fread(bitMasks, 1, 64, f); for (j = 0; j < 64; j++) { uint8_t bit = 128; for (k = 0; k < songTmp.numChannels; k++, bit >>= 1) { note_t *p = &patternTmp[i][(j * MAX_CHANNELS) + k]; if (bitMasks[j] & bit) readPatternNote(f, p); } } } else { for (j = 0; j < songTmp.numChannels; j++) { for (k = 0; k < 64; k++) readPatternNote(f, &patternTmp[i][(k * MAX_CHANNELS) + j]); } } if (tmpPatternEmpty(i)) { if (patternTmp[i] != NULL) { free(patternTmp[i]); patternTmp[i] = NULL; } } } // pattern command handling for (i = 0; i < hdr.numPatterns; i++) { if (patternTmp[i] == NULL) continue; for (j = 0; j < 64; j++) { for (k = 0; k < songTmp.numChannels; k++) { note_t *p = &patternTmp[i][(j * MAX_CHANNELS) + k]; if (p->efx == 0x8) // Robot effect (not supported) { p->efx = 0; p->efxData = 0; } else if (p->efx == 0xE) { switch (p->efxData >> 4) { case 0x3: p->efx = p->efxData = 0; break; // backwards play (not supported) case 0x4: p->efxData = 0xC0; break; // stop sample (convert to EC0) case 0x8: p->efx = p->efxData = 0; break; // high sample offset (not supported) case 0x9: p->efx = p->efxData = 0; break; // retrace (not supported) default: break; } } } } } // load sample data for (i = 0; i < 31; i++) { memcpy(songTmp.instrName[1+i], hdr.smpName[i], 22); if (hdr.smpLength[i] == 0) continue; if (!allocateTmpInstr(1+i)) { loaderMsgBox("Not enough memory!"); return false; } setNoEnvelope(instrTmp[1+i]); s = &instrTmp[1+i]->smp[0]; memcpy(s->name, hdr.smpName[i], 22); s->length = SWAP32(hdr.smpLength[i]); s->finetune = FINETUNE_MOD2XM(hdr.smpFinetune[i]); s->volume = hdr.smpVolume[i]; s->loopStart = SWAP32(hdr.smpLoopStart[i]); s->loopLength = SWAP32(hdr.smpLoopLength[i]); if (s->loopLength < 2) s->loopLength = 2; // fix overflown loop if (s->loopStart+s->loopLength > s->length) { if (s->loopStart >= s->length) { s->loopStart = 0; s->loopLength = 0; } else { s->loopLength = s->length - s->loopStart; } } if (s->loopStart+s->loopLength > 2) { s->flags |= LOOP_FWD; // enable loop } else { s->loopStart = 0; s->loopLength = 0; } if (!allocateSmpData(s, s->length, false)) { loaderMsgBox("Not enough memory!"); return false; } int32_t bytesRead = (int32_t)fread(s->dataPtr, 1, s->length, f); if (bytesRead < s->length) { int32_t bytesToClear = s->length - bytesRead; memset(&s->dataPtr[bytesRead], 0, bytesToClear); } } return true; } static void readPatternNote(FILE *f, note_t *p) { uint8_t bytes[4]; fread(bytes, 1, 4, f); // period to note uint16_t period = ((bytes[0] & 0x0F) << 8) | bytes[1]; for (uint8_t i = 0; i < 3*12; i++) { if (period >= ptPeriods[i]) { p->note = 1 + (3*12) + i; break; } } p->instr = (bytes[0] & 0xF0) | (bytes[2] >> 4); p->efx = bytes[2] & 0x0F; p->efxData = bytes[3]; }