/** * Furnace Tracker - multi-system chiptune tracker * Copyright (C) 2021-2022 tildearrow and contributors * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "engine.h" #include "../ta-log.h" #include "../fileutils.h" #include #include enum DivInsFormats { DIV_INSFORMAT_DMP, DIV_INSFORMAT_TFI, DIV_INSFORMAT_VGI, DIV_INSFORMAT_FTI, DIV_INSFORMAT_BTI, DIV_INSFORMAT_S3I, DIV_INSFORMAT_SBI, DIV_INSFORMAT_Y12, DIV_INSFORMAT_OPLI, DIV_INSFORMAT_OPNI, DIV_INSFORMAT_BNK, DIV_INSFORMAT_GYB, DIV_INSFORMAT_OPM, DIV_INSFORMAT_WOPL, DIV_INSFORMAT_WOPN, DIV_INSFORMAT_FF, }; // Reused patch data structures // SBI and some other OPL containers struct sbi_t { uint8_t Mcharacteristics, Ccharacteristics, Mscaling_output, Cscaling_output, Meg_AD, Ceg_AD, Meg_SR, Ceg_SR, Mwave, Cwave, FeedConnect; }; // MIDI-related struct midibank_t { String name; uint8_t bankMsb, bankLsb; }; static void readSbiOpData(sbi_t& sbi, SafeReader& reader) { sbi.Mcharacteristics = reader.readC(); sbi.Ccharacteristics = reader.readC(); sbi.Mscaling_output = reader.readC(); sbi.Cscaling_output = reader.readC(); sbi.Meg_AD = reader.readC(); sbi.Ceg_AD = reader.readC(); sbi.Meg_SR = reader.readC(); sbi.Ceg_SR = reader.readC(); sbi.Mwave = reader.readC(); sbi.Cwave = reader.readC(); sbi.FeedConnect = reader.readC(); } // detune needs extra translation from register to furnace format static inline uint8_t fmDtRegisterToFurnace(uint8_t&& dtNative) { return (dtNative>=4) ? (7-dtNative) : (dtNative+3); } static bool stringNotBlank(String& str) { return str.size() > 0 && str.find_first_not_of(' ') != String::npos; } void DivEngine::loadDMP(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* ins=new DivInstrument; // this is a ridiculous mess unsigned char version=0; unsigned char sys=0; try { reader.seek(0,SEEK_SET); version=reader.readC(); logD(".dmp version %d",version); } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } if (version>11) { lastError="unknown instrument version!"; delete ins; return; } ins->name=stripPath; if (version>=11) { // 1.0 try { sys=reader.readC(); switch (sys) { case 1: // YMU759 ins->type=DIV_INS_FM; logD("instrument type is YMU759"); break; case 2: // Genesis ins->type=DIV_INS_FM; logD("instrument type is Genesis"); break; case 3: // SMS ins->type=DIV_INS_STD; logD("instrument type is SMS"); break; case 4: // Game Boy ins->type=DIV_INS_GB; logD("instrument type is Game Boy"); break; case 5: // PC Engine ins->type=DIV_INS_PCE; logD("instrument type is PC Engine"); break; case 6: // NES ins->type=DIV_INS_STD; logD("instrument type is NES"); break; case 7: case 0x17: // C64 ins->type=DIV_INS_C64; logD("instrument type is C64"); break; case 8: // Arcade ins->type=DIV_INS_OPM; logD("instrument type is Arcade"); break; case 9: // Neo Geo ins->type=DIV_INS_FM; logD("instrument type is Neo Geo"); break; default: logD("instrument type is unknown"); lastError=fmt::sprintf("unknown instrument type %d!",sys); delete ins; return; break; } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } } try { bool mode=true; if (version>1) { mode=reader.readC(); logD("instrument mode is %d",mode); if (mode==0) { if (ins->type==DIV_INS_FM) { if (sys==9) { ins->type=DIV_INS_AY; } else { ins->type=DIV_INS_STD; } } } else { if (sys==3 || sys==6) { ins->type=DIV_INS_OPLL; } else if (sys==1) { ins->type=DIV_INS_OPL; } else if (sys==8) { ins->type=DIV_INS_OPM; } else { ins->type=DIV_INS_FM; } } } else { ins->type=DIV_INS_FM; } if (mode) { // FM logD("reading FM data..."); if (version<10) { if (version>1) { // bullcrap! no way to determine the instrument type other than a vague FM/STD! if (reader.size()==51) { reader.readC(); ins->fm.ops=4; } else { ins->fm.ops=reader.readC()?4:2; } } else { // HELP if (reader.size()==49) { ins->fm.ops=4; reader.readC(); } else { ins->fm.ops=reader.readC()?2:4; } } } else { ins->fm.ops=4; } if (version>1) { // HELP! in which version of the format did we start storing FMS! ins->fm.fms=reader.readC(); } ins->fm.fb=reader.readC(); ins->fm.alg=reader.readC(); // DITTO if (sys!=1) ins->fm.ams=reader.readC(); for (int j=0; jfm.ops; j++) { logD("OP%d is at %d",j,reader.tell()); ins->fm.op[j].mult=reader.readC(); ins->fm.op[j].tl=reader.readC(); ins->fm.op[j].ar=reader.readC(); ins->fm.op[j].dr=reader.readC(); ins->fm.op[j].sl=reader.readC(); ins->fm.op[j].rr=reader.readC(); ins->fm.op[j].am=reader.readC(); // what the hell how do I tell! if (sys==1) { // YMU759 ins->fm.op[j].ws=reader.readC(); ins->fm.op[j].ksl=reader.readC(); ins->fm.op[j].vib=reader.readC(); ins->fm.op[j].egt=reader.readC(); ins->fm.op[j].sus=reader.readC(); ins->fm.op[j].ksr=reader.readC(); ins->fm.op[j].dvb=reader.readC(); ins->fm.op[j].dam=reader.readC(); } else { if (sys==3 || sys==6) { // OPLL/VRC7 ins->fm.op[j].ksr=reader.readC()?1:0; ins->fm.op[j].vib=reader.readC(); if (j==0) { ins->fm.opllPreset=ins->fm.op[j].vib>>4; } ins->fm.op[j].vib=ins->fm.op[j].vib?1:0; ins->fm.op[j].ksl=reader.readC()?1:0; ins->fm.op[j].ssgEnv=reader.readC(); } else { ins->fm.op[j].rs=reader.readC(); ins->fm.op[j].dt=reader.readC(); ins->fm.op[j].dt2=ins->fm.op[j].dt>>4; ins->fm.op[j].dt&=15; ins->fm.op[j].d2r=reader.readC(); ins->fm.op[j].ssgEnv=reader.readC(); } } } } else { // STD logD("reading STD data..."); if (ins->type!=DIV_INS_GB) { ins->std.volMacro.len=reader.readC(); if (version>5) { for (int i=0; istd.volMacro.len; i++) { ins->std.volMacro.val[i]=reader.readI(); if (ins->std.volMacro.val[i]>15 && sys==6) { // FDS ins->type=DIV_INS_FDS; } } } else { for (int i=0; istd.volMacro.len; i++) { ins->std.volMacro.val[i]=reader.readC(); } } if (version<11) for (int i=0; istd.volMacro.len; i++) { if (ins->std.volMacro.val[i]>15 && ins->type==DIV_INS_STD) ins->type=DIV_INS_PCE; } if (ins->std.volMacro.len>0) { ins->std.volMacro.open=true; ins->std.volMacro.loop=reader.readC(); } else { ins->std.volMacro.open=false; } } ins->std.arpMacro.len=reader.readC(); if (version>5) { for (int i=0; istd.arpMacro.len; i++) { ins->std.arpMacro.val[i]=reader.readI(); } } else { for (int i=0; istd.arpMacro.len; i++) { ins->std.arpMacro.val[i]=reader.readC(); } } if (ins->std.arpMacro.len>0) { ins->std.arpMacro.open=true; ins->std.arpMacro.loop=reader.readC(); } else { ins->std.arpMacro.open=false; } if (version>8) { // TODO: when? ins->std.arpMacro.mode=reader.readC(); } ins->std.dutyMacro.len=reader.readC(); if (version>5) { for (int i=0; istd.dutyMacro.len; i++) { ins->std.dutyMacro.val[i]=reader.readI(); } } else { for (int i=0; istd.dutyMacro.len; i++) { ins->std.dutyMacro.val[i]=reader.readC(); } } if (ins->std.dutyMacro.len>0) { ins->std.dutyMacro.open=true; ins->std.dutyMacro.loop=reader.readC(); } else { ins->std.dutyMacro.open=false; } ins->std.waveMacro.len=reader.readC(); if (version>5) { for (int i=0; istd.waveMacro.len; i++) { ins->std.waveMacro.val[i]=reader.readI(); } } else { for (int i=0; istd.waveMacro.len; i++) { ins->std.waveMacro.val[i]=reader.readC(); } } if (ins->std.waveMacro.len>0) { ins->std.waveMacro.open=true; ins->std.waveMacro.loop=reader.readC(); } else { ins->std.waveMacro.open=false; } if (ins->type==DIV_INS_C64) { ins->c64.triOn=reader.readC(); ins->c64.sawOn=reader.readC(); ins->c64.pulseOn=reader.readC(); ins->c64.noiseOn=reader.readC(); ins->c64.a=reader.readC(); ins->c64.d=reader.readC(); ins->c64.s=reader.readC(); ins->c64.r=reader.readC(); ins->c64.duty=(reader.readC()*4095)/100; ins->c64.ringMod=reader.readC(); ins->c64.oscSync=reader.readC(); ins->c64.toFilter=reader.readC(); if (version<0x07) { // TODO: UNSURE ins->c64.volIsCutoff=reader.readI(); } else { ins->c64.volIsCutoff=reader.readC(); } ins->c64.initFilter=reader.readC(); ins->c64.res=reader.readC(); ins->c64.cut=(reader.readC()*2047)/100; ins->c64.hp=reader.readC(); ins->c64.bp=reader.readC(); ins->c64.lp=reader.readC(); ins->c64.ch3off=reader.readC(); // weird storage if (ins->c64.volIsCutoff) { for (int j=0; jstd.volMacro.len; j++) { ins->std.volMacro.val[j]-=18; } } for (int j=0; jstd.dutyMacro.len; j++) { ins->std.dutyMacro.val[j]-=12; } } if (ins->type==DIV_INS_GB) { ins->gb.envVol=reader.readC(); ins->gb.envDir=reader.readC(); ins->gb.envLen=reader.readC(); ins->gb.soundLen=reader.readC(); } } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } ret.push_back(ins); } void DivEngine::loadTFI(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* ins=new DivInstrument; try { reader.seek(0,SEEK_SET); ins->type=DIV_INS_FM; ins->name=stripPath; ins->fm.alg=reader.readC(); ins->fm.fb=reader.readC(); for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=ins->fm.op[i]; op.mult=reader.readC(); op.dt=reader.readC(); op.tl=reader.readC(); op.rs=reader.readC(); op.ar=reader.readC(); op.dr=reader.readC(); op.d2r=reader.readC(); op.rr=reader.readC(); op.sl=reader.readC(); op.ssgEnv=reader.readC(); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } ret.push_back(ins); } void DivEngine::loadVGI(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* ins=new DivInstrument; try { reader.seek(0,SEEK_SET); ins->type=DIV_INS_FM; ins->name=stripPath; ins->fm.alg=reader.readC(); ins->fm.fb=reader.readC(); unsigned char fmsams=reader.readC(); ins->fm.fms=fmsams&7; ins->fm.ams=fmsams>>4; for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=ins->fm.op[i]; op.mult=reader.readC(); op.dt=reader.readC(); op.tl=reader.readC(); op.rs=reader.readC(); op.ar=reader.readC(); op.dr=reader.readC(); if (op.dr&0x80) { op.am=1; op.dr&=0x7f; } op.d2r=reader.readC(); op.rr=reader.readC(); op.sl=reader.readC(); op.ssgEnv=reader.readC(); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } ret.push_back(ins); } void DivEngine::loadS3I(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* ins=new DivInstrument; try { reader.seek(0, SEEK_SET); uint8_t s3i_type = reader.readC(); if (s3i_type >= 2) { ins->type = DIV_INS_OPL; if (s3i_type > 2 && s3i_type <= 7) { ins->fm.opllPreset = (uint8_t)(1<<4); // Flag as Drum preset. } // skip internal filename - we'll use the long name description reader.seek(12, SEEK_CUR); // skip reserved bytes reader.seek(3, SEEK_CUR); // 12-byte opl value - identical to SBI format sbi_t s3i; readSbiOpData(s3i, reader); DivInstrumentFM::Operator& opM = ins->fm.op[0]; DivInstrumentFM::Operator& opC = ins->fm.op[1]; ins->fm.ops = 2; opM.mult = s3i.Mcharacteristics & 0xF; opM.ksr = ((s3i.Mcharacteristics >> 4) & 0x1); opM.sus = ((s3i.Mcharacteristics >> 5) & 0x1); opM.vib = ((s3i.Mcharacteristics >> 6) & 0x1); opM.am = ((s3i.Mcharacteristics >> 7) & 0x1); opM.tl = s3i.Mscaling_output & 0x3F; opM.ksl = ((s3i.Mscaling_output >> 6) & 0x3); opM.ar = ((s3i.Meg_AD >> 4) & 0xF); opM.dr = (s3i.Meg_AD & 0xF); opM.rr = (s3i.Meg_SR & 0xF); opM.sl = ((s3i.Meg_SR >> 4) & 0xF); opM.ws = s3i.Mwave; ins->fm.alg = (s3i.FeedConnect & 0x1); ins->fm.fb = ((s3i.FeedConnect >> 1) & 0x7); opC.mult = s3i.Ccharacteristics & 0xF; opC.ksr = ((s3i.Ccharacteristics >> 4) & 0x1); opC.sus = ((s3i.Ccharacteristics >> 5) & 0x1); opC.vib = ((s3i.Ccharacteristics >> 6) & 0x1); opC.am = ((s3i.Ccharacteristics >> 7) & 0x1); opC.tl = s3i.Cscaling_output & 0x3F; opC.ksl = ((s3i.Cscaling_output >> 6) & 0x3); opC.ar = ((s3i.Ceg_AD >> 4) & 0xF); opC.dr = (s3i.Ceg_AD & 0xF); opC.rr = (s3i.Ceg_SR & 0xF); opC.sl = ((s3i.Ceg_SR >> 4) & 0xF); opC.ws = s3i.Cwave; // Skip more stuff we don't need reader.seek(21, SEEK_CUR); } else { lastError="S3I PCM samples currently not supported."; logE("S3I PCM samples currently not supported."); } String insName = reader.readString(28); ins->name = stringNotBlank(insName) ? insName : stripPath; int s3i_signature = reader.readI(); if (s3i_signature != 0x49524353) { addWarning("S3I signature invalid."); logW("S3I signature invalid."); }; } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; return; } ret.push_back(ins); } void DivEngine::loadSBI(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; // in case 2x2op DivInstrument* ins=new DivInstrument; try { reader.seek(0, SEEK_SET); ins->type = DIV_INS_OPL; int sbi_header = reader.readI(); // SBI header determines format bool is_2op = (sbi_header == 0x1A494253 || sbi_header == 0x1A504F32); // SBI\x1A or 2OP\x1A bool is_4op = (sbi_header == 0x1A504F34); // 4OP\x1A bool is_6op = (sbi_header == 0x1A504F36); // 6OP\x1A - Freq Monster 801-specific // 32-byte null terminated instrument name String insName = reader.readString(32); insName = stringNotBlank(insName) ? insName : stripPath; auto writeOp = [](sbi_t& sbi, DivInstrumentFM::Operator& opM, DivInstrumentFM::Operator& opC) { opM.mult = sbi.Mcharacteristics & 0xF; opM.ksr = ((sbi.Mcharacteristics >> 4) & 0x1); opM.sus = ((sbi.Mcharacteristics >> 5) & 0x1); opM.vib = ((sbi.Mcharacteristics >> 6) & 0x1); opM.am = ((sbi.Mcharacteristics >> 7) & 0x1); opM.tl = sbi.Mscaling_output & 0x3F; opM.ksl = ((sbi.Mscaling_output >> 6) & 0x3); opM.ar = ((sbi.Meg_AD >> 4) & 0xF); opM.dr = (sbi.Meg_AD & 0xF); opM.rr = (sbi.Meg_SR & 0xF); opM.sl = ((sbi.Meg_SR >> 4) & 0xF); opM.ws = sbi.Mwave; opC.mult = sbi.Ccharacteristics & 0xF; opC.ksr = ((sbi.Ccharacteristics >> 4) & 0x1); opC.sus = ((sbi.Ccharacteristics >> 5) & 0x1); opC.vib = ((sbi.Ccharacteristics >> 6) & 0x1); opC.am = ((sbi.Ccharacteristics >> 7) & 0x1); opC.tl = sbi.Cscaling_output & 0x3F; opC.ksl = ((sbi.Cscaling_output >> 6) & 0x3); opC.ar = ((sbi.Ceg_AD >> 4) & 0xF); opC.dr = (sbi.Ceg_AD & 0xF); opC.rr = (sbi.Ceg_SR & 0xF); opC.sl = ((sbi.Ceg_SR >> 4) & 0xF); opC.ws = sbi.Cwave; }; sbi_t sbi_op12; // 2op (+6op portion) sbi_t sbi_op34; // 4op readSbiOpData(sbi_op12, reader); if (is_2op) { DivInstrumentFM::Operator& opM = ins->fm.op[0]; DivInstrumentFM::Operator& opC = ins->fm.op[1]; ins->fm.ops = 2; ins->name = insName; writeOp(sbi_op12, opM, opC); ins->fm.alg = (sbi_op12.FeedConnect & 0x1); ins->fm.fb = ((sbi_op12.FeedConnect >> 1) & 0x7); // SBTimbre extensions uint8_t perc_voc = reader.readC(); if (perc_voc >= 6) { ins->fm.opllPreset = (uint8_t)(1 << 4); } // Ignore rest of file - rest is 'reserved padding'. reader.seek(4, SEEK_CUR); insList.push_back(ins); } else if (is_4op || is_6op) { readSbiOpData(sbi_op34, reader); // Operator placement is different so need to place in correct registers. // Note: 6op is an unofficial extension of 4op SBIs by Darron Broad (Freq Monster 801). // We'll only use the 4op portion here for pure OPL3. DivInstrumentFM::Operator& opM = ins->fm.op[0]; DivInstrumentFM::Operator& opC = ins->fm.op[2]; DivInstrumentFM::Operator& opM4 = ins->fm.op[1]; DivInstrumentFM::Operator& opC4 = ins->fm.op[3]; ins->fm.ops = 4; ins->name = insName; ins->fm.alg = (sbi_op12.FeedConnect & 0x1) | ((sbi_op34.FeedConnect & 0x1) << 1); ins->fm.fb = ((sbi_op34.FeedConnect >> 1) & 0x7); writeOp(sbi_op12, opM, opC); writeOp(sbi_op34, opM4, opC4); if (is_6op) { // Freq Monster 801 6op SBIs use a 4+2op layout // Save the 4op portion before reading the 2op part ins->name = fmt::sprintf("%s (4op)", ins->name); insList.push_back(ins); readSbiOpData(sbi_op12, reader); ins = new DivInstrument; DivInstrumentFM::Operator& opM6 = ins->fm.op[0]; DivInstrumentFM::Operator& opC6 = ins->fm.op[1]; ins->type = DIV_INS_OPL; ins->fm.ops = 2; ins->name = fmt::sprintf("%s (2op)", insName); writeOp(sbi_op12, opM6, opC6); ins->fm.alg = (sbi_op12.FeedConnect & 0x1); ins->fm.fb = ((sbi_op12.FeedConnect >> 1) & 0x7); } // Ignore rest of file once we've read in all we need. // Note: Freq Monster 801 adds a ton of other additional fields irrelevant to chip registers. // If instrument transpose is ever supported, we can read it in maybe? reader.seek(0, SEEK_END); insList.push_back(ins); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); if (ins != NULL) { delete ins; } for (DivInstrument* p : insList) { delete p; } return; } for (DivInstrument* p : insList) { ret.push_back(p); } } void DivEngine::loadOPLI(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; // in case 2x2op DivInstrument* ins = new DivInstrument; auto readOpliOp = [](SafeReader& reader, DivInstrumentFM::Operator& op) { uint8_t characteristics = reader.readC(); uint8_t keyScaleLevel = reader.readC(); uint8_t attackDecay = reader.readC(); uint8_t sustainRelease = reader.readC(); uint8_t waveSelect = reader.readC(); op.mult = characteristics & 0xF; op.ksr = ((characteristics >> 4) & 0x1); op.sus = ((characteristics >> 5) & 0x1); op.vib = ((characteristics >> 6) & 0x1); op.am = ((characteristics >> 7) & 0x1); op.tl = keyScaleLevel & 0x3F; op.ksl = ((keyScaleLevel >> 6) & 0x3); op.ar = ((attackDecay >> 4) & 0xF); op.dr = attackDecay & 0xF; op.rr = sustainRelease & 0xF; op.sl = ((sustainRelease >> 4) & 0xF); op.ws = waveSelect; }; try { reader.seek(0, SEEK_SET); String header = reader.readString(11); if (header == "WOPL3-INST") { reader.readS(); // skip version (presently no difference here) reader.readC(); // skip isPerc field ins->type = DIV_INS_OPL; String insName = reader.readString(32); insName = stringNotBlank(insName) ? insName : stripPath; ins->name = insName; // TODO adapt MIDI key offset to transpose? reader.seek(7, SEEK_CUR); // skip MIDI params uint8_t instTypeFlags = reader.readC(); // [0EEEDCBA] - see WOPL/OPLI spec bool is_4op = ((instTypeFlags & 0x1) == 1); bool is_2x2op = (((instTypeFlags>>1) & 0x1) == 1); bool is_rhythm = (((instTypeFlags>>4) & 0x7) > 0); uint8_t feedConnect = reader.readC(); uint8_t feedConnect2nd = reader.readC(); ins->fm.alg = (feedConnect & 0x1); ins->fm.fb = ((feedConnect >> 1) & 0xF); if (is_4op && !is_2x2op) { ins->fm.ops = 4; ins->fm.alg = (feedConnect & 0x1) | ((feedConnect2nd & 0x1) << 1); for (int i : {2,0,3,1}) { // omfg >_< readOpliOp(reader, ins->fm.op[i]); } } else { ins->fm.ops = 2; for (int i : {1,0}) { readOpliOp(reader, ins->fm.op[i]); } if (is_rhythm) { ins->fm.opllPreset = (uint8_t)(1<<4); } else if (is_2x2op) { // Note: Pair detuning offset not mappable. Use E5xx effect :P ins->name = fmt::sprintf("%s (1)", insName); insList.push_back(ins); ins = new DivInstrument; ins->type = DIV_INS_OPL; ins->name = fmt::sprintf("%s (2)", insName); ins->fm.alg = (feedConnect2nd & 0x1); ins->fm.fb = ((feedConnect2nd >> 1) & 0xF); for (int i : {1,0}) { readOpliOp(reader, ins->fm.op[i]); } } if (!is_2x2op) { reader.seek(10, SEEK_CUR); // skip unused operator pair } } insList.push_back(ins); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); if (ins != NULL) { delete ins; } for (DivInstrument* p : insList) { delete p; } return; } for (DivInstrument* p : insList) { ret.push_back(p); } } void DivEngine::loadOPNI(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* ins = new DivInstrument; try { reader.seek(0, SEEK_SET); String header = reader.readString(11); if (header == "WOPN2-INST" || header == "WOPN2-IN2T") { // omfg >_< uint16_t version = reader.readS(); if (!(version >= 2) || version > 0xF) { // version 1 doesn't have a version field........ reader.seek(-2, SEEK_CUR); version = 1; } reader.readC(); // skip isPerc ins->type = DIV_INS_FM; ins->fm.ops = 4; String insName = reader.readString(32); ins->name = stringNotBlank(insName) ? insName : stripPath; // TODO adapt MIDI key offset to transpose? if (!reader.seek(3, SEEK_CUR)) { // skip MIDI params throw EndOfFileException(&reader, reader.tell() + 3); } uint8_t feedAlgo = reader.readC(); ins->fm.alg = (feedAlgo & 0x7); ins->fm.fb = ((feedAlgo>>3) & 0x7); reader.readC(); // Skip global bank flags - see WOPN/OPNI spec auto readOpniOp = [](SafeReader& reader, DivInstrumentFM::Operator& op) { uint8_t dtMul = reader.readC(); uint8_t totalLevel = reader.readC(); uint8_t arRateScale = reader.readC(); uint8_t drAmpEnable = reader.readC(); uint8_t d2r = reader.readC(); uint8_t susRelease = reader.readC(); uint8_t ssgEg = reader.readC(); op.mult = dtMul & 0xF; op.dt = ((dtMul >> 4) & 0x7); op.tl = totalLevel & 0x7F; op.rs = ((arRateScale >> 6) & 0x3); op.ar = arRateScale & 0x1F; op.dr = drAmpEnable & 0x1F; op.am = ((drAmpEnable >> 7) & 0x1); op.d2r = d2r & 0x1F; op.rr = susRelease & 0xF; op.sl = ((susRelease >> 4) & 0xF); op.ssgEnv = ssgEg; }; for (int i = 0; i < 4; ++i) { readOpniOp(reader, ins->fm.op[i]); } ret.push_back(ins); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); if (ins != NULL) { delete ins; } } } void DivEngine::loadY12(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument *ins = new DivInstrument; try { reader.seek(0, SEEK_SET); ins->type = DIV_INS_FM; ins->fm.ops = 4; ins->name = stripPath; for (int i = 0; i < 4; ++i) { DivInstrumentFM::Operator& insOp = ins->fm.op[i]; uint8_t tmp = reader.readC(); insOp.mult = tmp & 0xF; // ??? insOp.dt = ((3 + (tmp >> 4)) & 0x7); insOp.tl = (reader.readC() & 0x7F); tmp = reader.readC(); insOp.rs = ((tmp >> 6) & 0x3); insOp.ar = tmp & 0x1F; tmp = reader.readC(); insOp.dr = tmp & 0x1F; insOp.am = ((tmp >> 7) & 0x1); insOp.d2r = (reader.readC() & 0x1F); tmp = reader.readC(); insOp.rr = tmp & 0xF; insOp.sl = ((tmp >> 4) & 0xF); insOp.ssgEnv = reader.readC(); if (!reader.seek(9, SEEK_CUR)) { throw EndOfFileException(&reader, reader.tell() + 9); } } ins->fm.alg = reader.readC(); ins->fm.fb = reader.readC(); if (!reader.seek(62, SEEK_CUR)) { throw EndOfFileException(&reader, reader.tell() + 62); } ret.push_back(ins); } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); if (ins != NULL) { delete ins; } } } void DivEngine::loadBNK(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; std::vector instNames; reader.seek(0, SEEK_SET); // First distinguish between GEMS BNK and Adlib BNK uint64_t header = reader.readL(); bool is_adlib = ((header>>8) == 0x2d42494c444100L); bool is_failed = false; int readCount = 0; int insCount = 0; if (is_adlib) { try { reader.seek(0x0c, SEEK_SET); uint32_t name_offset = reader.readI(); reader.seek(0x10, SEEK_SET); uint32_t data_offset = reader.readI(); // Seek to BNK patch names reader.seek(name_offset, SEEK_SET); while (reader.tell() < data_offset) { reader.seek(3, SEEK_CUR); instNames.push_back(new String(reader.readString(9))); ++insCount; } // Seek to BNK data if (!reader.seek(data_offset, SEEK_SET)) { throw EndOfFileException(&reader, data_offset); }; // Read until all patches have been accounted for. for (int i = 0; i < insCount; ++i) { DivInstrument *ins = new DivInstrument; ins->type = DIV_INS_OPL; ins->fm.ops = 2; uint8_t timbreMode = reader.readC(); reader.readC(); // skip timbre perc voice if (timbreMode == 1) { ins->fm.opllPreset = (uint8_t)(1<<4); } for (int i = 0; i < 2; ++i) { ins->fm.op[i].ksl = reader.readC(); ins->fm.op[i].mult = reader.readC(); uint8_t fb = reader.readC(); if (i==0) { ins->fm.fb = fb; } ins->fm.op[i].ar = reader.readC(); ins->fm.op[i].sl = reader.readC(); ins->fm.op[i].sus = (reader.readC() != 0) ? 1 : 0; ins->fm.op[i].dr = reader.readC(); ins->fm.op[i].rr = reader.readC(); ins->fm.op[i].tl = reader.readC(); ins->fm.op[i].am = reader.readC(); ins->fm.op[i].vib = reader.readC(); ins->fm.op[i].ksr = reader.readC(); uint8_t alg = (reader.readC() == 0) ? 1 : 0; if (i==0) { ins->fm.alg = alg; } } ins->fm.op[0].ws = reader.readC(); ins->fm.op[1].ws = reader.readC(); ins->name = stringNotBlank(*instNames[i]) ? (*instNames[i]) : fmt::sprintf("%s[%d]", stripPath, i); insList.push_back(ins); ++readCount; } // All data read, don't care about the rest. reader.seek(0, SEEK_END); } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); for (int i = 0; i < readCount; ++i) { delete insList[i]; } is_failed = true; } } else { // assume GEMS BNK for now. lastError="GEMS BNK currently not supported."; logE("GEMS BNK currently not supported."); } if (!is_failed) { for (int i = 0; i < readCount; ++i) { ret.push_back(insList[i]); } } for (String* name : instNames) { delete name; } } void DivEngine::loadFF(SafeReader& reader, std::vector& ret, String& stripPath) { DivInstrument* insList[256]; memset(insList,0,256*sizeof(void*)); int readCount = 0; size_t insCount = reader.size(); insCount = (insCount >> 5) + (((insCount % 0x20) > 0) ? 1 : 0); if (insCount > 256) insCount = 256; uint8_t buf; try { reader.seek(0, SEEK_SET); for (unsigned int i = 0; i < insCount; ++i) { insList[i] = new DivInstrument; DivInstrument* ins = insList[i]; ins->type = DIV_INS_FM; DivInstrumentFM::Operator op; for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].mult = buf & 0xf; ins->fm.op[j].dt = fmDtRegisterToFurnace((buf >> 4) & 0x7); ins->fm.op[j].ssgEnv = (buf >> 4) & 0x8; } for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].tl = buf & 0x7f; ins->fm.op[j].ssgEnv |= (buf >> 5) & 0x4; } for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].ar = buf & 0x1f; ins->fm.op[j].rs = buf >> 6; } for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].dr = buf & 0x1f; ins->fm.op[j].ssgEnv |= (buf >> 5) & 0x3; ins->fm.op[j].am = buf >> 7; } for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].d2r = buf & 0x1f; } for (unsigned int j = 0; j < 4; j++) { buf = reader.readC(); ins->fm.op[j].rr = buf & 0xf; ins->fm.op[j].sl = buf >> 4; } buf = reader.readC(); ins->fm.alg = buf & 0x7; ins->fm.fb = (buf >> 3) & 0x7; // FIXME This is encoded in Shift-JIS ins->name = reader.readString(7); ++readCount; } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); // Include incomplete entry in deletion. for (int i = readCount; i >= 0; --i) { delete insList[i]; } return; } for (unsigned int i = 0; i < insCount; ++i) { ret.push_back(insList[i]); } } void DivEngine::loadGYB(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; int readCount = 0; bool is_failed = false; auto readInstrument = [&](SafeReader& reader, bool readRegB4) -> DivInstrument* { const int opOrder[] = { 0,1,2,3 }; DivInstrument* ins = new DivInstrument; ins->type = DIV_INS_FM; ins->fm.ops = 4; // see https://plutiedev.com/ym2612-registers // and https://github.com/Wohlstand/OPN2BankEditor/blob/master/Specifications/GYB-file-specification.txt try { uint8_t reg; for (int i : opOrder) { reg = reader.readC(); // MUL/DT ins->fm.op[i].mult = reg & 0xF; ins->fm.op[i].dt = fmDtRegisterToFurnace((reg >> 4) & 0x7); } for (int i : opOrder) { reg = reader.readC(); // TL ins->fm.op[i].tl = reg & 0x7F; } for (int i : opOrder) { reg = reader.readC(); // AR/RS ins->fm.op[i].ar = reg & 0x1F; ins->fm.op[i].rs = ((reg >> 6) & 0x3); } for (int i : opOrder) { reg = reader.readC(); // DR/AM-ENA ins->fm.op[i].dr = reg & 0x1F; ins->fm.op[i].am = ((reg >> 7) & 0x1); } for (int i : opOrder) { reg = reader.readC(); // SR (D2R) ins->fm.op[i].d2r = reg & 0x1F; } for (int i : opOrder) { reg = reader.readC(); // RR/SL ins->fm.op[i].rr = reg & 0xF; ins->fm.op[i].sl = ((reg >> 4) & 0xF); } for (int i : opOrder) { reg = reader.readC(); // SSG-EG ins->fm.op[i].ssgEnv = reg & 0xF; } // ALG/FB reg = reader.readC(); ins->fm.alg = reg & 0x7; ins->fm.fb = ((reg >> 3) & 0x7); if (readRegB4) { // PAN / PMS / AMS reg = reader.readC(); ins->fm.fms = reg & 0x7; ins->fm.ams = ((reg >> 4) & 0x3); } insList.push_back(ins); ++readCount; return ins; } catch (...) { // Deallocate and rethrow to outer handler delete ins; throw; } }; auto readInstrumentName = [&](SafeReader& reader, DivInstrument* ins) { uint8_t nameLen = reader.readC(); String insName = (nameLen>0) ? reader.readString(nameLen) : ""; ins->name = stringNotBlank(insName) ? insName : fmt::sprintf("%s [%d]", stripPath, readCount - 1); }; try { reader.seek(0, SEEK_SET); uint16_t header = reader.readS(); uint8_t insMelodyCount, insDrumCount; if (header == 0x0C1A) { // 26 12 in decimal bytes uint8_t version = reader.readC(); if ((version ^ 3) > 0) { // GYBv1/2 insMelodyCount = reader.readC(); insDrumCount = reader.readC(); if (insMelodyCount > 128 || insDrumCount > 128) { throw std::invalid_argument("GYBv1/2 patch count is out of bounds."); } if (!reader.seek(0x100, SEEK_CUR)) { // skip MIDI instrument mapping throw EndOfFileException(&reader, reader.tell() + 0x100); } if (version == 2) { reader.readC(); // skip LFO speed (chip-global) } // Instrument data for (int i = 0; i < (insMelodyCount+insDrumCount); ++i) { readInstrument(reader, (version == 2)); // Additional data reader.readC(); // skip transpose if (version == 2) { reader.readC(); // skip padding } } // Instrument name for (int i = 0; i < (insMelodyCount+insDrumCount); ++i) { readInstrumentName(reader, insList[i]); } // Map to note assignment currently not supported. } else { // GYBv3+ reader.readC(); // skip LFO speed (chip-global) uint32_t fileSize = reader.readI(); uint32_t bankOffset = reader.readI(); uint32_t mapOffset = reader.readI(); if (bankOffset > fileSize || mapOffset > fileSize) { lastError = "GYBv3 file appears to have invalid data offsets."; logE("GYBv3 file appears to have invalid data offsets."); } if (!reader.seek(bankOffset, SEEK_SET)) { throw EndOfFileException(&reader, bankOffset); } uint16_t insCount = reader.readS(); size_t patchPosOffset = reader.tell(); for (int i = 0; i < insCount; ++i) { uint16_t patchSize = reader.readS(); readInstrument(reader, true); // Additional data reader.readC(); // skip transpose uint8_t additionalDataFlags = reader.readC() & 0x1; // skip additional data bitfield // if chord notes attached, skip this if ((additionalDataFlags&1) > 0) { uint8_t notes = reader.readC(); for (int j = 0; j < notes; ++j) { reader.readC(); } } // Instrument Name readInstrumentName(reader, insList[i]); // Retrieve next patch if (!reader.seek(patchPosOffset + patchSize, SEEK_SET)) { throw EndOfFileException(&reader, patchPosOffset + patchSize); } patchPosOffset = reader.tell(); } } reader.seek(0, SEEK_END); } } catch (EndOfFileException& e) { lastError = "premature end of file"; logE("premature end of file"); is_failed = true; } catch (std::invalid_argument& e) { lastError = fmt::sprintf("Invalid value found in patch file. %s", e.what()); logE("Invalid value found in patch file."); logE(e.what()); is_failed = true; } if (!is_failed) { for (int i = 0; i < readCount; ++i) { if (insList[i] != NULL) { ret.push_back(insList[i]); } } } else { for (int i = 0; i < readCount; ++i) { delete insList[i]; } } } void DivEngine::loadOPM(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; int readCount = 0; bool is_failed = false; bool patchNameRead = false, lfoRead = false, characteristicRead = false, m1Read = false, c1Read = false, m2Read = false, c2Read = false; DivInstrument* newPatch = NULL; auto completePatchRead = [&]() -> bool { return patchNameRead && lfoRead && characteristicRead && m1Read && c1Read && m2Read && c2Read; }; auto resetPatchRead = [&]() { patchNameRead = lfoRead = characteristicRead = m1Read = c1Read = m2Read = c2Read = false; newPatch = NULL; }; auto readIntStrWithinRange = [](String&& input, int limitLow = INT_MIN, int limitHigh = INT_MAX) -> int { int x = std::stoi(input.c_str()); if (x > limitHigh || x < limitLow) { throw std::invalid_argument(fmt::sprintf("%s is out of bounds of range [%d..%d]", input, limitLow, limitHigh)); } return x; }; auto readOpmOperator = [&](SafeReader& reader, DivInstrumentFM::Operator& op) { op.ar = readIntStrWithinRange(reader.readStringToken(), 0, 31); op.dr = readIntStrWithinRange(reader.readStringToken(), 0, 31); op.d2r = readIntStrWithinRange(reader.readStringToken(), 0, 31); op.rr = readIntStrWithinRange(reader.readStringToken(), 0, 31); op.sl = readIntStrWithinRange(reader.readStringToken(), 0, 15); op.tl = readIntStrWithinRange(reader.readStringToken(), 0, 127); op.rs = readIntStrWithinRange(reader.readStringToken(), 0, 3);; op.mult = readIntStrWithinRange(reader.readStringToken(), 0, 15); op.dt = fmDtRegisterToFurnace(readIntStrWithinRange(reader.readStringToken(), 0, 7)); op.dt2 = readIntStrWithinRange(reader.readStringToken(), 0, 3); op.am = readIntStrWithinRange(reader.readStringToken(), 0) > 0 ? 1 : 0; }; auto seekGroupValStart = [](SafeReader& reader, int pos) { // Seek to position then move to next ':' character if (!reader.seek(pos, SEEK_SET)) { throw EndOfFileException(&reader, pos); } reader.readStringToken(':', false); }; try { reader.seek(0, SEEK_SET); while (!reader.isEOF()) { // Checking line prefixes since they sometimes may not have a space after the ':' size_t linePos = reader.tell(); String token = reader.readStringToken(); if (token.size() == 0) { continue; } if (token.compare(0,2,"//") == 0) { if (!reader.isEOF()) { reader.readStringLine(); } continue; } // At this point we know any other line would be associated with patch params if (newPatch == NULL) { newPatch = new DivInstrument; newPatch->type = DIV_INS_OPM; newPatch->fm.ops = 4; } // Read each line for their respective params. They may not be written in the same LINE order but they // must absolutely be properly grouped per patch! See inline comments indicating line structure examples. if (token.size() >= 2) { if (token[0] == '@') { // @:123 Name of patch seekGroupValStart(reader, linePos); // Note: Fallback to bank filename and current patch number specified by @n String opmPatchNum = reader.readStringToken(); String insName = reader.readStringLine(); newPatch->name = stringNotBlank(insName) ? insName : fmt::sprintf("%s @%s", stripPath, opmPatchNum); patchNameRead = true; } else if (token.compare(0,3,"CH:") == 0) { // CH: PAN FL CON AMS PMS SLOT NE seekGroupValStart(reader, linePos); reader.readStringToken(); // skip PAN newPatch->fm.fb = readIntStrWithinRange(reader.readStringToken(), 0, 7); newPatch->fm.alg = readIntStrWithinRange(reader.readStringToken(), 0, 7); newPatch->fm.ams = readIntStrWithinRange(reader.readStringToken(), 0, 4); newPatch->fm.fms = readIntStrWithinRange(reader.readStringToken(), 0, 7); reader.readStringToken(); // skip SLOT (no furnace equivalent...yet?) reader.readStringToken(); // skip NE (^^^) characteristicRead = true; } else if (token.compare(0,3,"C1:") == 0) { // C1: AR D1R D2R RR D1L TL KS MUL DT1 DT2 AMS-EN seekGroupValStart(reader, linePos); readOpmOperator(reader, newPatch->fm.op[2]); c1Read = true; } else if (token.compare(0,3,"C2:") == 0) { // C2: AR D1R D2R RR D1L TL KS MUL DT1 DT2 AMS-EN seekGroupValStart(reader, linePos); readOpmOperator(reader, newPatch->fm.op[3]); c2Read = true; } else if (token.compare(0,3,"M1:") == 0) { // M1: AR D1R D2R RR D1L TL KS MUL DT1 DT2 AMS-EN seekGroupValStart(reader, linePos); readOpmOperator(reader, newPatch->fm.op[0]); m1Read = true; } else if (token.compare(0,3,"M2:") == 0) { // M2: AR D1R D2R RR D1L TL KS MUL DT1 DT2 AMS-EN seekGroupValStart(reader, linePos); readOpmOperator(reader, newPatch->fm.op[1]); m2Read = true; } else if (token.compare(0,4,"LFO:") == 0) { // LFO:LFRQ AMD PMD WF NFRQ seekGroupValStart(reader, linePos); // Furnace patches do not store these as they are chip-global. reader.readStringLine(); lfoRead = true; } else { // other unsupported lines ignored. reader.readStringLine(); } } if (completePatchRead()) { insList.push_back(newPatch); resetPatchRead(); ++readCount; } } if (newPatch != NULL) { addWarning("Last OPM patch read was incomplete and therefore not imported."); logW("Last OPM patch read was incomplete and therefore not imported."); delete newPatch; newPatch = NULL; } for (int i = 0; i < readCount; ++i) { ret.push_back(insList[i]); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); is_failed = true; } catch (std::invalid_argument& e) { lastError=fmt::sprintf("Invalid value found in patch file. %s", e.what()); logE("Invalid value found in patch file."); logE(e.what()); is_failed = true; } if (is_failed) { for (int i = readCount - 1; i >= 0; --i) { delete insList[i]; } if (newPatch != NULL) { delete newPatch; } } } void DivEngine::loadWOPL(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; bool is_failed = false; uint16_t version; uint16_t meloBankCount; uint16_t percBankCount; std::vector meloMetadata; std::vector percMetadata; auto readWoplOp = [](SafeReader& reader, DivInstrumentFM::Operator& op) { uint8_t characteristics = reader.readC(); uint8_t keyScaleLevel = reader.readC(); uint8_t attackDecay = reader.readC(); uint8_t sustainRelease = reader.readC(); uint8_t waveSelect = reader.readC(); int total = 0; total += (op.mult = characteristics & 0xF); total += (op.ksr = ((characteristics >> 4) & 0x1)); total += (op.sus = ((characteristics >> 5) & 0x1)); total += (op.vib = ((characteristics >> 6) & 0x1)); total += (op.am = ((characteristics >> 7) & 0x1)); total += (op.tl = keyScaleLevel & 0x3F); total += (op.ksl = ((keyScaleLevel >> 6) & 0x3)); total += (op.ar = ((attackDecay >> 4) & 0xF)); total += (op.dr = attackDecay & 0xF); total += (op.rr = sustainRelease & 0xF); total += (op.sl = ((sustainRelease >> 4) & 0xF)); total += (op.ws = waveSelect); return total; }; auto doParseWoplInstrument = [&](bool isPerc, midibank_t*& metadata, int patchNum) { DivInstrument* ins = new DivInstrument; try { long patchSum = 0; ins->type = DIV_INS_OPL; // Establish if it is a blank instrument. String insName = reader.readString(32); patchSum += insName.size(); // TODO adapt MIDI key offset to transpose? reader.seek(7, SEEK_CUR); // skip MIDI params uint8_t instTypeFlags = reader.readC(); // [0EEEDCBA] - see WOPL/OPLI spec bool is_4op = ((instTypeFlags & 0x1) == 1); bool is_2x2op = (((instTypeFlags>>1) & 0x1) == 1); bool is_rhythm = (((instTypeFlags>>4) & 0x7) > 0); uint8_t feedConnect = reader.readC(); uint8_t feedConnect2nd = reader.readC(); ins->fm.alg = (feedConnect & 0x1); ins->fm.fb = ((feedConnect>>1) & 0xF); if (is_4op && !is_2x2op) { ins->fm.ops = 4; ins->fm.alg = (feedConnect & 0x1) | ((feedConnect2nd & 0x1) << 1); for (int i : {2,0,3,1}) { // omfg >_< patchSum += readWoplOp(reader, ins->fm.op[i]); } } else { ins->fm.ops = 2; for (int i : {1,0}) { patchSum += readWoplOp(reader, ins->fm.op[i]); } if (is_rhythm) { ins->fm.opllPreset = (uint8_t)(1<<4); } else if (is_2x2op) { // Note: Pair detuning offset not mappable. Use E5xx effect :P ins->name = stringNotBlank(insName) ? fmt::sprintf("%s (1)", insName) : fmt::sprintf("%s[%s] %s Patch %d (1)", stripPath, metadata->name, (isPerc) ? "Drum" : "Melodic", patchNum); insList.push_back(ins); patchSum = 0; ins = new DivInstrument; ins->type = DIV_INS_OPL; ins->name = fmt::sprintf("%s (2)", insName); ins->fm.alg = (feedConnect2nd & 0x1); ins->fm.fb = ((feedConnect2nd >> 1) & 0xF); for (int i : {1,0}) { patchSum += readWoplOp(reader, ins->fm.op[i]); } } if (!is_2x2op) { reader.seek(10, SEEK_CUR); // skip unused operator pair } } if (version >= 3) { reader.readS_BE(); // skip keyon delay reader.readS_BE(); // skip keyoff delay } if (patchSum > 0) { // Write instrument // TODO: OPL3BankEditor hardcodes GM1 Melodic patch names which are not included in the bank file...... if (is_2x2op) { ins->name = stringNotBlank(insName) ? fmt::sprintf("%s (2)", insName) : fmt::sprintf("%s[%s] %s Patch %d (2)", stripPath, metadata->name, (isPerc) ? "Drum" : "Melodic", patchNum); } else { ins->name = stringNotBlank(insName) ? insName : fmt::sprintf("%s[%s] %s Patch %d", stripPath, metadata->name, (isPerc) ? "Drum" : "Melodic", patchNum); } insList.push_back(ins); } else { // Empty instrument delete ins; } } catch (...) { // Deallocate and allow outer handler to do the rest. delete ins; throw; } }; try { reader.seek(0, SEEK_SET); String header = reader.readString(11); if (header == "WOPL3-BANK") { version = reader.readS(); meloBankCount = reader.readS_BE(); percBankCount = reader.readS_BE(); reader.readC(); // skip chip-global LFO reader.readC(); // skip additional flags if (version >= 2) { for (int i = 0; i < meloBankCount; ++i) { meloMetadata.push_back(new midibank_t); String bankName = reader.readString(32); meloMetadata[i]->bankLsb = reader.readC(); meloMetadata[i]->bankMsb = reader.readC(); meloMetadata[i]->name = stringNotBlank(bankName) ? bankName : fmt::sprintf("%d/%d", meloMetadata[i]->bankMsb, meloMetadata[i]->bankLsb); } for (int i = 0; i < percBankCount; ++i) { percMetadata.push_back(new midibank_t); String bankName = reader.readString(32); percMetadata[i]->bankLsb = reader.readC(); percMetadata[i]->bankMsb = reader.readC(); percMetadata[i]->name = stringNotBlank(bankName) ? bankName : fmt::sprintf("%d/%d", percMetadata[i]->bankMsb, percMetadata[i]->bankLsb); } } else { // TODO do version 1 multibank sets even exist? meloMetadata.push_back(new midibank_t); meloMetadata[0]->bankLsb = 0; meloMetadata[0]->bankMsb = 0; meloMetadata[0]->name = "0/0"; percMetadata.push_back(new midibank_t); percMetadata[0]->bankLsb = 0; percMetadata[0]->bankMsb = 0; percMetadata[0]->name = "0/0"; } for (int i = 0; i < meloBankCount; ++i) { for (int j = 0; j < 128; ++j) { doParseWoplInstrument(false, meloMetadata[i], j); } } for (int i = 0; i < percBankCount; ++i) { for (int j = 0; j < 128; ++j) { doParseWoplInstrument(true, percMetadata[i], j); } } } } catch (EndOfFileException& e) { lastError = "premature end of file"; logE("premature end of file"); is_failed = true; } for (midibank_t* m : meloMetadata) { delete m; } for (midibank_t* m : percMetadata) { delete m; } if (is_failed) { for (DivInstrument* p : insList) { delete p; } } else { for (DivInstrument* p : insList) { ret.push_back(p); } } } void DivEngine::loadWOPN(SafeReader& reader, std::vector& ret, String& stripPath) { std::vector insList; bool is_failed = false; uint16_t version; uint16_t meloBankCount; uint16_t percBankCount; std::vector meloMetadata; std::vector percMetadata; auto readWopnOp = [](SafeReader& reader, DivInstrumentFM::Operator& op) { uint8_t dtMul = reader.readC(); uint8_t totalLevel = reader.readC(); uint8_t arRateScale = reader.readC(); uint8_t drAmpEnable = reader.readC(); uint8_t d2r = reader.readC(); uint8_t susRelease = reader.readC(); uint8_t ssgEg = reader.readC(); int total = 0; total += (op.mult = dtMul & 0xF); total += (op.dt = ((dtMul >> 4) & 0x7)); total += (op.tl = totalLevel & 0x7F); total += (op.rs = ((arRateScale >> 6) & 0x3)); total += (op.ar = arRateScale & 0x1F); total += (op.dr = drAmpEnable & 0x1F); total += (op.am = ((drAmpEnable >> 7) & 0x1)); total += (op.d2r = d2r & 0x1F); total += (op.rr = susRelease & 0xF); total += (op.sl = ((susRelease >> 4) & 0xF)); total += (op.ssgEnv = ssgEg); return total; }; auto doParseWopnInstrument = [&](bool isPerc, midibank_t*& metadata, int patchNum) { DivInstrument* ins = new DivInstrument; try { long patchSum = 0; ins->type = DIV_INS_FM; ins->fm.ops = 4; // Establish if it is a blank instrument. String insName = reader.readString(32); patchSum += insName.size(); // TODO adapt MIDI key offset to transpose? if (!reader.seek(3, SEEK_CUR)) { // skip MIDI params throw EndOfFileException(&reader, reader.tell() + 3); } uint8_t feedAlgo = reader.readC(); patchSum += feedAlgo; ins->fm.alg = (feedAlgo & 0x7); ins->fm.fb = ((feedAlgo >> 3) & 0x7); patchSum += reader.readC(); // Skip global bank flags - see WOPN/OPNI spec for (int i = 0; i < 4; ++i) { patchSum += readWopnOp(reader, ins->fm.op[i]); } if (version >= 2) { reader.readS_BE(); // skip keyon delay reader.readS_BE(); // skip keyoff delay } if (patchSum > 0) { // Write instrument // TODO: OPN2BankEditor hardcodes GM1 Melodic patch names which are not included in the bank file...... ins->name = stringNotBlank(insName) ? insName : fmt::sprintf("%s[%s] %s Patch %d", stripPath, metadata->name, (isPerc) ? "Drum" : "Melodic", patchNum); insList.push_back(ins); } else { // Empty instrument delete ins; } } catch (...) { // Deallocate and allow outer handler to do the rest. delete ins; throw; } }; try { reader.seek(0, SEEK_SET); String header = reader.readString(11); if (header == "WOPN2-BANK" || header == "WOPN2-B2NK") { // omfg >_< version = reader.readS(); if (!(version >= 2) || version > 0xF) { // version 1 doesn't have a version field........ reader.seek(-2, SEEK_CUR); version = 1; } meloBankCount = reader.readS_BE(); percBankCount = reader.readS_BE(); reader.readC(); // skip chip-global LFO if (version >= 2) { for (int i = 0; i < meloBankCount; ++i) { meloMetadata.push_back(new midibank_t); String bankName = reader.readString(32); meloMetadata[i]->bankLsb = reader.readC(); meloMetadata[i]->bankMsb = reader.readC(); meloMetadata[i]->name = stringNotBlank(bankName) ? bankName : fmt::sprintf("%d/%d", meloMetadata[i]->bankMsb, meloMetadata[i]->bankLsb); } for (int i = 0; i < percBankCount; ++i) { percMetadata.push_back(new midibank_t); String bankName = reader.readString(32); percMetadata[i]->bankLsb = reader.readC(); percMetadata[i]->bankMsb = reader.readC(); percMetadata[i]->name = stringNotBlank(bankName) ? bankName : fmt::sprintf("%d/%d", percMetadata[i]->bankMsb, percMetadata[i]->bankLsb); } } else { // TODO do version 1 multibank sets even exist? meloMetadata.push_back(new midibank_t); meloMetadata[0]->bankLsb = 0; meloMetadata[0]->bankMsb = 0; meloMetadata[0]->name = "0/0"; percMetadata.push_back(new midibank_t); percMetadata[0]->bankLsb = 0; percMetadata[0]->bankMsb = 0; percMetadata[0]->name = "0/0"; } for (int i = 0; i < meloBankCount; ++i) { for (int j = 0; j < 128; ++j) { doParseWopnInstrument(false, meloMetadata[i], j); } } for (int i = 0; i < percBankCount; ++i) { for (int j = 0; j < 128; ++j) { doParseWopnInstrument(true, percMetadata[i], j); } } } } catch (EndOfFileException& e) { lastError = "premature end of file"; logE("premature end of file"); is_failed = true; } for (midibank_t* m : meloMetadata) { delete m; } for (midibank_t* m : percMetadata) { delete m; } if (is_failed) { for (DivInstrument* p : insList) { delete p; } } else { for (DivInstrument* p : insList) { ret.push_back(p); } } } std::vector DivEngine::instrumentFromFile(const char* path, bool loadAssets) { std::vector ret; warnings=""; const char* pathRedux=strrchr(path,DIR_SEPARATOR); if (pathRedux==NULL) { pathRedux=path; } else { pathRedux++; } String stripPath; const char* pathReduxEnd=strrchr(pathRedux,'.'); if (pathReduxEnd==NULL) { stripPath=pathRedux; } else { for (const char* i=pathRedux; i!=pathReduxEnd && (*i); i++) { stripPath+=*i; } } FILE* f=ps_fopen(path,"rb"); if (f==NULL) { lastError=strerror(errno); return ret; } unsigned char* buf; ssize_t len; if (fseek(f,0,SEEK_END)!=0) { lastError=strerror(errno); fclose(f); return ret; } len=ftell(f); if (len<0) { lastError=strerror(errno); fclose(f); return ret; } if (len==(SIZE_MAX>>1)) { lastError=strerror(errno); fclose(f); return ret; } if (len==0) { lastError=strerror(errno); fclose(f); return ret; } if (fseek(f,0,SEEK_SET)!=0) { lastError=strerror(errno); fclose(f); return ret; } buf=new unsigned char[len]; if (fread(buf,1,len,f)!=(size_t)len) { logW("did not read entire instrument file buffer!"); lastError="did not read entire instrument file!"; delete[] buf; return ret; } fclose(f); SafeReader reader=SafeReader(buf,len); unsigned char magic[16]; bool isFurnaceInstr=false; bool isOldFurnaceIns=false; try { reader.read(magic,4); if (memcmp("FINS",magic,4)==0) { isFurnaceInstr=true; logV("found a new Furnace ins"); } else { reader.read(&magic[4],12); if (memcmp("-Furnace instr.-",magic,16)==0) { logV("found an old Furnace ins"); isFurnaceInstr=true; isOldFurnaceIns=true; } } } catch (EndOfFileException& e) { reader.seek(0,SEEK_SET); } if (isFurnaceInstr) { DivInstrument* ins=new DivInstrument; try { short version=0; if (isOldFurnaceIns) { version=reader.readS(); reader.readS(); // reserved } else { version=reader.readS(); reader.seek(0,SEEK_SET); } if (version>DIV_ENGINE_VERSION) { warnings="this instrument is made with a more recent version of Furnace!"; } if (isOldFurnaceIns) { unsigned int dataPtr=reader.readI(); reader.seek(dataPtr,SEEK_SET); } if (ins->readInsData(reader,version,loadAssets?(&song):NULL)!=DIV_DATA_SUCCESS) { lastError="invalid instrument header/data!"; delete ins; delete[] buf; return ret; } else { ret.push_back(ins); } } catch (EndOfFileException& e) { lastError="premature end of file"; logE("premature end of file"); delete ins; delete[] buf; return ret; } } else { // read as a different format const char* ext=strrchr(path,'.'); DivInsFormats format=DIV_INSFORMAT_DMP; if (ext!=NULL) { String extS; for (; *ext; ext++) { char i=*ext; if (i>='A' && i<='Z') { i+='a'-'A'; } extS+=i; } if (extS==".dmp") { format=DIV_INSFORMAT_DMP; } else if (extS==".tfi") { format=DIV_INSFORMAT_TFI; } else if (extS==".vgi") { format=DIV_INSFORMAT_VGI; } else if (extS==".fti") { format=DIV_INSFORMAT_FTI; } else if (extS==".bti") { format=DIV_INSFORMAT_BTI; } else if (extS==".s3i") { format=DIV_INSFORMAT_S3I; } else if (extS==".sbi") { format=DIV_INSFORMAT_SBI; } else if (extS==".opli") { format=DIV_INSFORMAT_OPLI; } else if (extS==".opni") { format=DIV_INSFORMAT_OPNI; } else if (extS==".y12") { format=DIV_INSFORMAT_Y12; } else if (extS==".bnk") { format=DIV_INSFORMAT_BNK; } else if (extS==".gyb") { format=DIV_INSFORMAT_GYB; } else if (extS==".opm") { format=DIV_INSFORMAT_OPM; } else if (extS==".ff") { format=DIV_INSFORMAT_FF; } else if (extS==".wopl") { format=DIV_INSFORMAT_WOPL; } else if (extS==".wopn") { format=DIV_INSFORMAT_WOPN; } } switch (format) { case DIV_INSFORMAT_DMP: loadDMP(reader,ret,stripPath); break; case DIV_INSFORMAT_TFI: loadTFI(reader,ret,stripPath); break; case DIV_INSFORMAT_VGI: loadVGI(reader,ret,stripPath); break; case DIV_INSFORMAT_FTI: // TODO break; case DIV_INSFORMAT_BTI: // TODO break; case DIV_INSFORMAT_S3I: loadS3I(reader,ret,stripPath); break; case DIV_INSFORMAT_SBI: loadSBI(reader,ret,stripPath); break; case DIV_INSFORMAT_OPLI: loadOPLI(reader,ret,stripPath); break; case DIV_INSFORMAT_OPNI: loadOPNI(reader,ret,stripPath); break; case DIV_INSFORMAT_Y12: loadY12(reader,ret,stripPath); break; case DIV_INSFORMAT_BNK: loadBNK(reader,ret,stripPath); break; case DIV_INSFORMAT_FF: loadFF(reader,ret,stripPath); break; case DIV_INSFORMAT_GYB: loadGYB(reader,ret,stripPath); break; case DIV_INSFORMAT_OPM: loadOPM(reader,ret,stripPath); break; case DIV_INSFORMAT_WOPL: loadWOPL(reader,ret,stripPath); break; case DIV_INSFORMAT_WOPN: loadWOPN(reader,ret,stripPath); break; } if (reader.tell()