ref: 3e7b18472cba687a04f6cd9be66ad531ed24283c
dir: /src/modloaders/ft2_load_mod.c/
// NoiseTracker/ProTracker (or compatible) MOD loader #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" enum // supported 31-sample .MOD types { FORMAT_MK, // ProTracker or compatible FORMAT_FLT4, // StarTrekker (4ch modules) FORMAT_FLT8, // StarTrekker (8ch modules) FORMAT_FT2, // FT2 or compatible (multi-channel) FORMAT_NT, // NoiseTracker FORMAT_HMNT, // His Master's NoiseTracker (special one) FORMAT_UNKNOWN }; static uint8_t getModType(uint8_t *numChannels, const char *id); bool loadMOD(FILE *f, uint32_t filesize) { uint8_t bytes[4], modFormat, numChannels; int16_t i, j, k; uint16_t a, b, period; tonTyp *ton; sampleTyp *s; songMOD31HeaderTyp h_MOD31; tmpLinearPeriodsFlag = false; // use Amiga periods if (filesize < sizeof (h_MOD31)) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } memset(&h_MOD31, 0, sizeof (songMOD31HeaderTyp)); if (fread(&h_MOD31, 1, sizeof (h_MOD31), f) != sizeof (h_MOD31)) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } modFormat = getModType(&numChannels, h_MOD31.sig); if (modFormat == FORMAT_UNKNOWN) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } bool hasMoreThan32Chans = numChannels > 32; songTmp.antChn = hasMoreThan32Chans ? 32 : numChannels; songTmp.len = h_MOD31.len; songTmp.repS = h_MOD31.repS; songTmp.initialTempo = songTmp.tempo = 6; songTmp.speed = 125; memcpy(songTmp.songTab, h_MOD31.songTab, 128); if (modFormat == FORMAT_MK && songTmp.len == 129) songTmp.len = 127; // fixes a specific copy of beatwave.mod (FIXME: Do we want to keep this hack?) if (songTmp.repS >= songTmp.len) songTmp.repS = 0; if (songTmp.antChn == 0 || songTmp.len < 1 || songTmp.len > 128) { loaderMsgBox("Error: This file is either not a module, or is not supported."); return false; } for (a = 0; a < 31; a++) { songMODInstrHeaderTyp *smp = &h_MOD31.instr[a]; // copy over sample name if format isn't "His Master's Noisetracker" (junk sample names) if (modFormat != FORMAT_HMNT) memcpy(songTmp.instrName[1+a], smp->name, 22); } memcpy(songTmp.name, h_MOD31.name, 20); // count number of patterns b = 0; for (a = 0; a < 128; a++) { if (modFormat == FORMAT_FLT8) songTmp.songTab[a] >>= 1; if (songTmp.songTab[a] > b) b = songTmp.songTab[a]; } b++; // load pattern data if (modFormat != FORMAT_FLT8) { // normal pattern loading for (a = 0; a < b; a++) { if (!allocateTmpPatt(a, 64)) { loaderMsgBox("Not enough memory!"); return false; } for (j = 0; j < 64; j++) { for (k = 0; k < songTmp.antChn; k++) { ton = &pattTmp[a][(j * MAX_VOICES) + k]; fread(bytes, 1, 4, f); // period to note period = ((bytes[0] & 0x0F) << 8) | bytes[1]; for (i = 0; i < 8*12; i++) { if (period >= amigaPeriod[i]) { ton->ton = (uint8_t)i + 1; break; } } ton->instr = (bytes[0] & 0xF0) | (bytes[2] >> 4); ton->effTyp = bytes[2] & 0x0F; ton->eff = bytes[3]; } if (hasMoreThan32Chans) { int32_t remainingChans = numChannels-songTmp.antChn; fseek(f, remainingChans*4, SEEK_CUR); } } if (tmpPatternEmpty(a)) { if (pattTmp[a] != NULL) { free(pattTmp[a]); pattTmp[a] = NULL; } } } } else { // FLT8 pattern loading for (a = 0; a < b; a++) { if (!allocateTmpPatt(a, 64)) { loaderMsgBox("Not enough memory!"); return false; } } for (a = 0; a < b*2; a++) { int32_t pattern = a >> 1; int32_t chnOffset = (a & 1) * 4; for (j = 0; j < 64; j++) { for (k = 0; k < 4; k++) { ton = &pattTmp[pattern][(j * MAX_VOICES) + (k+chnOffset)]; fread(bytes, 1, 4, f); // period to note period = ((bytes[0] & 0x0F) << 8) | bytes[1]; for (i = 0; i < 8*12; i++) { if (period >= amigaPeriod[i]) { ton->ton = (uint8_t)i + 1; break; } } ton->instr = (bytes[0] & 0xF0) | (bytes[2] >> 4); ton->effTyp = bytes[2] & 0x0F; ton->eff = bytes[3]; } } } for (a = 0; a < b; a++) { if (tmpPatternEmpty(a)) { if (pattTmp[a] != NULL) { free(pattTmp[a]); pattTmp[a] = NULL; } } } } // pattern command conversion for (a = 0; a < b; a++) { if (pattTmp[a] == NULL) continue; for (j = 0; j < 64; j++) { for (k = 0; k < songTmp.antChn; k++) { ton = &pattTmp[a][(j * MAX_VOICES) + k]; if (ton->effTyp == 0xC) { if (ton->eff > 64) ton->eff = 64; } else if (ton->effTyp == 0x1) { if (ton->eff == 0) ton->effTyp = 0; } else if (ton->effTyp == 0x2) { if (ton->eff == 0) ton->effTyp = 0; } else if (ton->effTyp == 0x5) { if (ton->eff == 0) ton->effTyp = 0x3; } else if (ton->effTyp == 0x6) { if (ton->eff == 0) ton->effTyp = 0x4; } else if (ton->effTyp == 0xA) { if (ton->eff == 0) ton->effTyp = 0; } else if (ton->effTyp == 0xE) { // check if certain E commands are empty if (ton->eff == 0x10 || ton->eff == 0x20 || ton->eff == 0xA0 || ton->eff == 0xB0) { ton->effTyp = 0; ton->eff = 0; } } if (modFormat == FORMAT_NT || modFormat == FORMAT_HMNT) { // any Dxx == D00 in NT/HMNT if (ton->effTyp == 0xD) ton->eff = 0; // effect F with param 0x00 does nothing in NT/HMNT if (ton->effTyp == 0xF && ton->eff == 0) ton->effTyp = 0; } else if (modFormat == FORMAT_FLT4 || modFormat == FORMAT_FLT8) // Startrekker { if (ton->effTyp == 0xE) // remove unsupported "assembly macros" command { ton->effTyp = 0; ton->eff = 0; } // Startrekker is always in vblank mode, and limits speed to 0x1F if (ton->effTyp == 0xF && ton->eff > 0x1F) ton->eff = 0x1F; } } } } for (a = 0; a < 31; a++) { if (h_MOD31.instr[a].len == 0) continue; if (!allocateTmpInstr(1+a)) { loaderMsgBox("Not enough memory!"); return false; } setNoEnvelope(instrTmp[1+a]); s = &instrTmp[1+a]->samp[0]; // copy over sample name if format isn't "His Master's Noisetracker" (junk sample names) if (modFormat != FORMAT_HMNT) memcpy(s->name, songTmp.instrName[1+a], 22); if (modFormat == FORMAT_HMNT) // finetune in "His Master's NoiseTracker" is different h_MOD31.instr[a].fine = (uint8_t)((-h_MOD31.instr[a].fine & 0x1F) >> 1); // one more bit of precision, + inverted s->len = 2 * SWAP16(h_MOD31.instr[a].len); s->fine = 8 * ((2 * ((h_MOD31.instr[a].fine & 0xF) ^ 8)) - 16); s->vol = h_MOD31.instr[a].vol; s->repS = 2 * SWAP16(h_MOD31.instr[a].repS); s->repL = 2 * SWAP16(h_MOD31.instr[a].repL); if (s->vol > 64) s->vol = 64; if (s->repL < 2) s->repL = 2; // fix for poorly converted STK (< v2.5) -> PT/NT modules (FIXME: Worth keeping or not?) if (s->repL > 2 && s->repS+s->repL > s->len) { if ((s->repS>>1)+s->repL <= s->len) s->repS >>= 1; } // fix overflown loop if (s->repS+s->repL > s->len) { if (s->repS >= s->len) { s->repS = 0; s->repL = 0; } else { s->repL = s->len - s->repS; } } if (s->repS+s->repL > 2) s->typ = 1; // enable loop if (!allocateTmpSmpData(s, s->len)) { loaderMsgBox("Not enough memory!"); return false; } int32_t bytesRead = (int32_t)fread(s->pek, 1, s->len, f); if (bytesRead < s->len) { int32_t bytesToClear = s->len - bytesRead; memset(&s->pek[bytesRead], 0, bytesToClear); } if (s->typ == 0) // clear repL and repS on non-looping samples... { s->repL = 0; s->repS = 0; } } if (hasMoreThan32Chans) loaderMsgBox("Warning: Module contains >32 channels. The extra channels will be discarded!"); return true; } static uint8_t getModType(uint8_t *numChannels, const char *id) { #define IS_ID(s, b) !strncmp(s, b, 4) uint8_t modFormat = FORMAT_UNKNOWN; *numChannels = 4; if (IS_ID("M.K.", id) || IS_ID("M!K!", id) || IS_ID("NSMS", id) || IS_ID("LARD", id) || IS_ID("PATT", id)) { modFormat = FORMAT_MK; // ProTracker or compatible } else if (isdigit(id[0]) && id[1] == 'C' && id[2] == 'H' && id[3] == 'N') // xCHN { modFormat = FORMAT_FT2; *numChannels = id[0] - '0'; } else if (isdigit(id[0]) && isdigit(id[1]) && id[2] == 'C' && id[3] == 'H') // xxCH { modFormat = FORMAT_FT2; *numChannels = ((id[0] - '0') * 10) + (id[1] - '0'); } else if (isdigit(id[0]) && isdigit(id[1]) && id[2] == 'C' && id[3] == 'N') // xxCN (load as xxCH) { modFormat = FORMAT_FT2; *numChannels = ((id[0] - '0') * 10) + (id[1] - '0'); } else if (IS_ID("CD61", id) || IS_ID("CD81", id)) // Octalyser (Atari) { modFormat = FORMAT_FT2; *numChannels = id[2] - '0'; } else if (id[0] == 'F' && id[1] == 'A' && id[2] == '0' && id[3] >= '4' && id[3] <= '8') // FA0x (Digital Tracker, Atari) { modFormat = FORMAT_FT2; *numChannels = id[3] - '0'; } else if (IS_ID("OKTA", id) || IS_ID("OCTA", id)) // Oktalyzer (as .MOD format) { modFormat = FORMAT_FT2; *numChannels = 8; } else if (IS_ID("FLT4", id) || IS_ID("EXO4", id)) // StarTrekker 4ch { modFormat = FORMAT_FLT4; } else if (IS_ID("FLT8", id) || IS_ID("EXO8", id)) // StarTrekker 8ch { modFormat = FORMAT_FLT8; *numChannels = 8; } else if (IS_ID("N.T.", id)) { modFormat = FORMAT_NT; // NoiseTracker } else if (IS_ID("M&K!", id) || IS_ID("FEST", id)) { modFormat = FORMAT_HMNT; // His Master's NoiseTracker (special one) } return modFormat; }