This commit is contained in:
aurora 2022-08-22 22:21:23 +03:00
commit bcc85dee20
16 changed files with 457 additions and 75 deletions

BIN
demos/rule2.fur Normal file

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@ -32,6 +32,9 @@ these fields are 0 in format versions prior to 100 (0.6pre1).
the format versions are: the format versions are:
- 111: Furnace dev111
- 110: Furnace dev110
- 109: Furnace dev109
- 108: Furnace dev108 - 108: Furnace dev108
- 107: Furnace dev107 - 107: Furnace dev107
- 106: Furnace dev106 - 106: Furnace dev106
@ -333,7 +336,8 @@ size | description
1 | E1xy and E2xy stop on same note (>=100) or reserved 1 | E1xy and E2xy stop on same note (>=100) or reserved
1 | broken initial position of porta after arp (>=101) or reserved 1 | broken initial position of porta after arp (>=101) or reserved
1 | SN periods under 8 are treated as 1 (>=108) or reserved 1 | SN periods under 8 are treated as 1 (>=108) or reserved
6 | reserved 1 | cut/delay effect policy (>=110) or reserved
5 | reserved
--- | **virtual tempo data** --- | **virtual tempo data**
2 | virtual tempo numerator of first song (>=96) or reserved 2 | virtual tempo numerator of first song (>=96) or reserved
2 | virtual tempo denominator of first song (>=96) or reserved 2 | virtual tempo denominator of first song (>=96) or reserved
@ -868,6 +872,96 @@ size | description
1 | K2 ramp 1 | K2 ramp
1 | K1 slow 1 | K1 slow
1 | K2 slow 1 | K2 slow
--- | **SNES data** (>=109)
1 | use envelope
1 | gain mode
1 | gain
1 | attack
1 | decay
1 | sustain
1 | release
--- | **macro speeds/delays** (>=111)
1 | volume macro speed
1 | arp macro speed
1 | duty macro speed
1 | wave macro speed
1 | pitch macro speed
1 | extra 1 macro speed
1 | extra 2 macro speed
1 | extra 3 macro speed
1 | alg macro speed
1 | fb macro speed
1 | fms macro speed
1 | ams macro speed
1 | left panning macro speed
1 | right panning macro speed
1 | phase reset macro speed
1 | extra 4 macro speed
1 | extra 5 macro speed
1 | extra 6 macro speed
1 | extra 7 macro speed
1 | extra 8 macro speed
1 | volume macro delay
1 | arp macro delay
1 | duty macro delay
1 | wave macro delay
1 | pitch macro delay
1 | extra 1 macro delay
1 | extra 2 macro delay
1 | extra 3 macro delay
1 | alg macro delay
1 | fb macro delay
1 | fms macro delay
1 | ams macro delay
1 | left panning macro delay
1 | right panning macro delay
1 | phase reset macro delay
1 | extra 4 macro delay
1 | extra 5 macro delay
1 | extra 6 macro delay
1 | extra 7 macro delay
1 | extra 8 macro delay
--- | **operator macro speeds/delay** × 4 (>=111)
1 | AM macro speed
1 | AR macro speed
1 | DR macro speed
1 | MULT macro speed
1 | RR macro speed
1 | SL macro speed
1 | TL macro speed
1 | DT2 macro speed
1 | RS macro speed
1 | DT macro speed
1 | D2R macro speed
1 | SSG-EG macro speed
1 | DAM macro speed
1 | DVB macro speed
1 | EGT macro speed
1 | KSL macro speed
1 | SUS macro speed
1 | VIB macro speed
1 | WS macro speed
1 | KSR macro speed
1 | AM macro delay
1 | AR macro delay
1 | DR macro delay
1 | MULT macro delay
1 | RR macro delay
1 | SL macro delay
1 | TL macro delay
1 | DT2 macro delay
1 | RS macro delay
1 | DT macro delay
1 | D2R macro delay
1 | SSG-EG macro delay
1 | DAM macro delay
1 | DVB macro delay
1 | EGT macro delay
1 | KSL macro delay
1 | SUS macro delay
1 | VIB macro delay
1 | WS macro delay
1 | KSR macro delay
``` ```
# wavetable # wavetable
@ -878,9 +972,9 @@ size | description
4 | "WAVE" block ID 4 | "WAVE" block ID
4 | size of this block 4 | size of this block
STR | wavetable name STR | wavetable name
4 | wavetable size 4 | wavetable width
4 | wavetable min 4 | reserved
4 | wavetable max 4 | wavetable height
4?? | wavetable data 4?? | wavetable data
``` ```

View file

@ -46,8 +46,8 @@
#define BUSY_BEGIN_SOFT softLocked=true; isBusy.lock(); #define BUSY_BEGIN_SOFT softLocked=true; isBusy.lock();
#define BUSY_END isBusy.unlock(); softLocked=false; #define BUSY_END isBusy.unlock(); softLocked=false;
#define DIV_VERSION "dev109" #define DIV_VERSION "dev111"
#define DIV_ENGINE_VERSION 109 #define DIV_ENGINE_VERSION 111
// for imports // for imports
#define DIV_VERSION_MOD 0xff01 #define DIV_VERSION_MOD 0xff01

View file

@ -176,6 +176,7 @@ bool DivEngine::loadDMF(unsigned char* file, size_t len) {
ds.e1e2StopOnSameNote=true; ds.e1e2StopOnSameNote=true;
ds.brokenPortaArp=false; ds.brokenPortaArp=false;
ds.snNoLowPeriods=true; ds.snNoLowPeriods=true;
ds.delayBehavior=0;
// 1.1 compat flags // 1.1 compat flags
if (ds.version>24) { if (ds.version>24) {
@ -1067,6 +1068,9 @@ bool DivEngine::loadFur(unsigned char* file, size_t len) {
if (ds.version<108) { if (ds.version<108) {
ds.snNoLowPeriods=true; ds.snNoLowPeriods=true;
} }
if (ds.version<110) {
ds.delayBehavior=1;
}
ds.isDMF=false; ds.isDMF=false;
reader.readS(); // reserved reader.readS(); // reserved
@ -1484,7 +1488,12 @@ bool DivEngine::loadFur(unsigned char* file, size_t len) {
} else { } else {
reader.readC(); reader.readC();
} }
for (int i=0; i<6; i++) { if (ds.version>=110) {
ds.delayBehavior=reader.readC();
} else {
reader.readC();
}
for (int i=0; i<5; i++) {
reader.readC(); reader.readC();
} }
} }
@ -1917,6 +1926,7 @@ bool DivEngine::loadMod(unsigned char* file, size_t len) {
ds.noSlidesOnFirstTick=true; ds.noSlidesOnFirstTick=true;
ds.rowResetsArpPos=true; ds.rowResetsArpPos=true;
ds.ignoreJumpAtEnd=false; ds.ignoreJumpAtEnd=false;
ds.delayBehavior=0;
int insCount=31; int insCount=31;
bool bypassLimits=false; bool bypassLimits=false;
@ -2833,9 +2843,9 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
// TODO: <= or <? // TODO: <= or <?
for (int k=0; k<=susTime; k++) { for (int k=0; k<=susTime; k++) {
ins->std.volMacro.val[ins->std.volMacro.len]=lastVal; ins->std.volMacro.val[ins->std.volMacro.len]=lastVal;
if (++ins->std.volMacro.len>=128) break; if (++ins->std.volMacro.len>=255) break;
} }
if (ins->std.volMacro.len>=128) break; if (ins->std.volMacro.len>=255) break;
} else if (m.val[j]==0xe9 || m.val[j]==0xea) { // volume slide } else if (m.val[j]==0xe9 || m.val[j]==0xea) { // volume slide
if (++j>=64) break; if (++j>=64) break;
signed char slideStep=m.val[j]; signed char slideStep=m.val[j];
@ -2854,16 +2864,16 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
} }
} }
ins->std.volMacro.val[ins->std.volMacro.len]=lastVal; ins->std.volMacro.val[ins->std.volMacro.len]=lastVal;
if (++ins->std.volMacro.len>=128) break; if (++ins->std.volMacro.len>=255) break;
} }
} else { } else {
// TODO: replace with upcoming macro speed // TODO: replace with upcoming macro speed
for (int k=0; k<MAX(1,seqSpeed); k++) { for (int k=0; k<MAX(1,seqSpeed); k++) {
ins->std.volMacro.val[ins->std.volMacro.len]=m.val[j]; ins->std.volMacro.val[ins->std.volMacro.len]=m.val[j];
lastVal=m.val[j]; lastVal=m.val[j];
if (++ins->std.volMacro.len>=128) break; if (++ins->std.volMacro.len>=255) break;
} }
if (ins->std.volMacro.len>=128) break; if (ins->std.volMacro.len>=255) break;
} }
} }
@ -2892,7 +2902,7 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
ins->std.waveMacro.val[ins->std.waveMacro.len]=wave-10; ins->std.waveMacro.val[ins->std.waveMacro.len]=wave-10;
ins->std.waveMacro.open=true; ins->std.waveMacro.open=true;
lastVal=wave; lastVal=wave;
//if (++ins->std.arpMacro.len>=128) break; //if (++ins->std.arpMacro.len>=255) break;
} }
} else if (fm.val[j]==0xe0) { } else if (fm.val[j]==0xe0) {
if (++j>=64) break; if (++j>=64) break;
@ -2922,8 +2932,8 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
ins->std.waveMacro.val[ins->std.waveMacro.len]=lastVal-10; ins->std.waveMacro.val[ins->std.waveMacro.len]=lastVal-10;
} }
ins->std.arpMacro.open=true; ins->std.arpMacro.open=true;
if (++ins->std.arpMacro.len>=128) break; if (++ins->std.arpMacro.len>=255) break;
if (++ins->std.waveMacro.len>=128) break; if (++ins->std.waveMacro.len>=255) break;
} }
} }
} }
@ -2936,7 +2946,7 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
// vibrato // vibrato
for (int j=0; j<=vibDelay; j++) { for (int j=0; j<=vibDelay; j++) {
ins->std.pitchMacro.val[ins->std.pitchMacro.len]=0; ins->std.pitchMacro.val[ins->std.pitchMacro.len]=0;
if (++ins->std.pitchMacro.len>=128) break; if (++ins->std.pitchMacro.len>=255) break;
} }
int vibPos=0; int vibPos=0;
ins->std.pitchMacro.loop=ins->std.pitchMacro.len; ins->std.pitchMacro.loop=ins->std.pitchMacro.len;
@ -2944,19 +2954,19 @@ bool DivEngine::loadFC(unsigned char* file, size_t len) {
vibPos+=vibSpeed; vibPos+=vibSpeed;
if (vibPos>vibDepth) vibPos=vibDepth; if (vibPos>vibDepth) vibPos=vibDepth;
ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32; ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32;
if (++ins->std.pitchMacro.len>=128) break; if (++ins->std.pitchMacro.len>=255) break;
} while (vibPos<vibDepth); } while (vibPos<vibDepth);
do { do {
vibPos-=vibSpeed; vibPos-=vibSpeed;
if (vibPos<-vibDepth) vibPos=-vibDepth; if (vibPos<-vibDepth) vibPos=-vibDepth;
ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32; ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32;
if (++ins->std.pitchMacro.len>=128) break; if (++ins->std.pitchMacro.len>=255) break;
} while (vibPos>-vibDepth); } while (vibPos>-vibDepth);
do { do {
vibPos+=vibSpeed; vibPos+=vibSpeed;
if (vibPos>0) vibPos=0; if (vibPos>0) vibPos=0;
ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32; ins->std.pitchMacro.val[ins->std.pitchMacro.len]=vibPos*32;
if (++ins->std.pitchMacro.len>=128) break; if (++ins->std.pitchMacro.len>=255) break;
} while (vibPos<0); } while (vibPos<0);
ds.ins.push_back(ins); ds.ins.push_back(ins);
@ -3729,7 +3739,8 @@ SafeWriter* DivEngine::saveFur(bool notPrimary) {
w->writeC(song.e1e2StopOnSameNote); w->writeC(song.e1e2StopOnSameNote);
w->writeC(song.brokenPortaArp); w->writeC(song.brokenPortaArp);
w->writeC(song.snNoLowPeriods); w->writeC(song.snNoLowPeriods);
for (int i=0; i<6; i++) { w->writeC(song.delayBehavior);
for (int i=0; i<5; i++) {
w->writeC(0); w->writeC(0);
} }

View file

@ -564,6 +564,96 @@ void DivInstrument::putInsData(SafeWriter* w) {
w->writeC(snes.s); w->writeC(snes.s);
w->writeC(snes.r); w->writeC(snes.r);
// macro speed/delay
w->writeC(std.volMacro.speed);
w->writeC(std.arpMacro.speed);
w->writeC(std.dutyMacro.speed);
w->writeC(std.waveMacro.speed);
w->writeC(std.pitchMacro.speed);
w->writeC(std.ex1Macro.speed);
w->writeC(std.ex2Macro.speed);
w->writeC(std.ex3Macro.speed);
w->writeC(std.algMacro.speed);
w->writeC(std.fbMacro.speed);
w->writeC(std.fmsMacro.speed);
w->writeC(std.amsMacro.speed);
w->writeC(std.panLMacro.speed);
w->writeC(std.panRMacro.speed);
w->writeC(std.phaseResetMacro.speed);
w->writeC(std.ex4Macro.speed);
w->writeC(std.ex5Macro.speed);
w->writeC(std.ex6Macro.speed);
w->writeC(std.ex7Macro.speed);
w->writeC(std.ex8Macro.speed);
w->writeC(std.volMacro.delay);
w->writeC(std.arpMacro.delay);
w->writeC(std.dutyMacro.delay);
w->writeC(std.waveMacro.delay);
w->writeC(std.pitchMacro.delay);
w->writeC(std.ex1Macro.delay);
w->writeC(std.ex2Macro.delay);
w->writeC(std.ex3Macro.delay);
w->writeC(std.algMacro.delay);
w->writeC(std.fbMacro.delay);
w->writeC(std.fmsMacro.delay);
w->writeC(std.amsMacro.delay);
w->writeC(std.panLMacro.delay);
w->writeC(std.panRMacro.delay);
w->writeC(std.phaseResetMacro.delay);
w->writeC(std.ex4Macro.delay);
w->writeC(std.ex5Macro.delay);
w->writeC(std.ex6Macro.delay);
w->writeC(std.ex7Macro.delay);
w->writeC(std.ex8Macro.delay);
// op macro speed/delay
for (int i=0; i<4; i++) {
DivInstrumentSTD::OpMacro& op=std.opMacros[i];
w->writeC(op.amMacro.speed);
w->writeC(op.arMacro.speed);
w->writeC(op.drMacro.speed);
w->writeC(op.multMacro.speed);
w->writeC(op.rrMacro.speed);
w->writeC(op.slMacro.speed);
w->writeC(op.tlMacro.speed);
w->writeC(op.dt2Macro.speed);
w->writeC(op.rsMacro.speed);
w->writeC(op.dtMacro.speed);
w->writeC(op.d2rMacro.speed);
w->writeC(op.ssgMacro.speed);
w->writeC(op.damMacro.speed);
w->writeC(op.dvbMacro.speed);
w->writeC(op.egtMacro.speed);
w->writeC(op.kslMacro.speed);
w->writeC(op.susMacro.speed);
w->writeC(op.vibMacro.speed);
w->writeC(op.wsMacro.speed);
w->writeC(op.ksrMacro.speed);
w->writeC(op.amMacro.delay);
w->writeC(op.arMacro.delay);
w->writeC(op.drMacro.delay);
w->writeC(op.multMacro.delay);
w->writeC(op.rrMacro.delay);
w->writeC(op.slMacro.delay);
w->writeC(op.tlMacro.delay);
w->writeC(op.dt2Macro.delay);
w->writeC(op.rsMacro.delay);
w->writeC(op.dtMacro.delay);
w->writeC(op.d2rMacro.delay);
w->writeC(op.ssgMacro.delay);
w->writeC(op.damMacro.delay);
w->writeC(op.dvbMacro.delay);
w->writeC(op.egtMacro.delay);
w->writeC(op.kslMacro.delay);
w->writeC(op.susMacro.delay);
w->writeC(op.vibMacro.delay);
w->writeC(op.wsMacro.delay);
w->writeC(op.ksrMacro.delay);
}
blockEndSeek=w->tell(); blockEndSeek=w->tell();
w->seek(blockStartSeek,SEEK_SET); w->seek(blockStartSeek,SEEK_SET);
w->writeI(blockEndSeek-blockStartSeek-4); w->writeI(blockEndSeek-blockStartSeek-4);
@ -960,15 +1050,15 @@ DivDataErrors DivInstrument::readInsData(SafeReader& reader, short version) {
// clear noise macro if PCE instrument and version<63 // clear noise macro if PCE instrument and version<63
if (version<63 && type==DIV_INS_PCE) { if (version<63 && type==DIV_INS_PCE) {
std.dutyMacro.len=0; std.dutyMacro.len=0;
std.dutyMacro.loop=-1; std.dutyMacro.loop=255;
std.dutyMacro.rel=-1; std.dutyMacro.rel=255;
} }
// clear wave macro if OPLL instrument and version<70 // clear wave macro if OPLL instrument and version<70
if (version<70 && type==DIV_INS_OPLL) { if (version<70 && type==DIV_INS_OPLL) {
std.waveMacro.len=0; std.waveMacro.len=0;
std.waveMacro.loop=-1; std.waveMacro.loop=255;
std.waveMacro.rel=-1; std.waveMacro.rel=255;
} }
// sample map // sample map
@ -1160,6 +1250,98 @@ DivDataErrors DivInstrument::readInsData(SafeReader& reader, short version) {
snes.r=reader.readC(); snes.r=reader.readC();
} }
// macro speed/delay
if (version>=111) {
std.volMacro.speed=reader.readC();
std.arpMacro.speed=reader.readC();
std.dutyMacro.speed=reader.readC();
std.waveMacro.speed=reader.readC();
std.pitchMacro.speed=reader.readC();
std.ex1Macro.speed=reader.readC();
std.ex2Macro.speed=reader.readC();
std.ex3Macro.speed=reader.readC();
std.algMacro.speed=reader.readC();
std.fbMacro.speed=reader.readC();
std.fmsMacro.speed=reader.readC();
std.amsMacro.speed=reader.readC();
std.panLMacro.speed=reader.readC();
std.panRMacro.speed=reader.readC();
std.phaseResetMacro.speed=reader.readC();
std.ex4Macro.speed=reader.readC();
std.ex5Macro.speed=reader.readC();
std.ex6Macro.speed=reader.readC();
std.ex7Macro.speed=reader.readC();
std.ex8Macro.speed=reader.readC();
std.volMacro.delay=reader.readC();
std.arpMacro.delay=reader.readC();
std.dutyMacro.delay=reader.readC();
std.waveMacro.delay=reader.readC();
std.pitchMacro.delay=reader.readC();
std.ex1Macro.delay=reader.readC();
std.ex2Macro.delay=reader.readC();
std.ex3Macro.delay=reader.readC();
std.algMacro.delay=reader.readC();
std.fbMacro.delay=reader.readC();
std.fmsMacro.delay=reader.readC();
std.amsMacro.delay=reader.readC();
std.panLMacro.delay=reader.readC();
std.panRMacro.delay=reader.readC();
std.phaseResetMacro.delay=reader.readC();
std.ex4Macro.delay=reader.readC();
std.ex5Macro.delay=reader.readC();
std.ex6Macro.delay=reader.readC();
std.ex7Macro.delay=reader.readC();
std.ex8Macro.delay=reader.readC();
// op macro speed/delay
for (int i=0; i<4; i++) {
DivInstrumentSTD::OpMacro& op=std.opMacros[i];
op.amMacro.speed=reader.readC();
op.arMacro.speed=reader.readC();
op.drMacro.speed=reader.readC();
op.multMacro.speed=reader.readC();
op.rrMacro.speed=reader.readC();
op.slMacro.speed=reader.readC();
op.tlMacro.speed=reader.readC();
op.dt2Macro.speed=reader.readC();
op.rsMacro.speed=reader.readC();
op.dtMacro.speed=reader.readC();
op.d2rMacro.speed=reader.readC();
op.ssgMacro.speed=reader.readC();
op.damMacro.speed=reader.readC();
op.dvbMacro.speed=reader.readC();
op.egtMacro.speed=reader.readC();
op.kslMacro.speed=reader.readC();
op.susMacro.speed=reader.readC();
op.vibMacro.speed=reader.readC();
op.wsMacro.speed=reader.readC();
op.ksrMacro.speed=reader.readC();
op.amMacro.delay=reader.readC();
op.arMacro.delay=reader.readC();
op.drMacro.delay=reader.readC();
op.multMacro.delay=reader.readC();
op.rrMacro.delay=reader.readC();
op.slMacro.delay=reader.readC();
op.tlMacro.delay=reader.readC();
op.dt2Macro.delay=reader.readC();
op.rsMacro.delay=reader.readC();
op.dtMacro.delay=reader.readC();
op.d2rMacro.delay=reader.readC();
op.ssgMacro.delay=reader.readC();
op.damMacro.delay=reader.readC();
op.dvbMacro.delay=reader.readC();
op.egtMacro.delay=reader.readC();
op.kslMacro.delay=reader.readC();
op.susMacro.delay=reader.readC();
op.vibMacro.delay=reader.readC();
op.wsMacro.delay=reader.readC();
op.ksrMacro.delay=reader.readC();
}
}
return DIV_DATA_SUCCESS; return DIV_DATA_SUCCESS;
} }

View file

@ -165,21 +165,20 @@ struct DivInstrumentMacro {
int val[256]; int val[256];
unsigned int mode; unsigned int mode;
bool open; bool open;
unsigned char len; unsigned char len, delay, speed, loop, rel;
signed char loop;
signed char rel;
// the following variables are used by the GUI and not saved in the file // the following variables are used by the GUI and not saved in the file
int vScroll, vZoom; int vScroll, vZoom;
explicit DivInstrumentMacro(const String& n, bool initOpen=false): explicit DivInstrumentMacro(const String& n, bool initOpen=false):
name(n), name(n),
mode(0), mode(0),
open(initOpen), open(initOpen),
len(0), len(0),
loop(-1), delay(0),
rel(-1), speed(1),
loop(255),
rel(255),
vScroll(0), vScroll(0),
vZoom(-1) { vZoom(-1) {
memset(val,0,256*sizeof(int)); memset(val,0,256*sizeof(int));

View file

@ -32,6 +32,18 @@ void DivMacroStruct::doMacro(DivInstrumentMacro& source, bool released, bool tic
had=false; had=false;
return; return;
} }
if (delay>0) {
delay--;
return;
}
if (began && source.delay>0) {
delay=source.delay;
} else {
delay=source.speed-1;
}
if (began) {
began=false;
}
if (finished) { if (finished) {
finished=false; finished=false;
} }
@ -43,15 +55,15 @@ void DivMacroStruct::doMacro(DivInstrumentMacro& source, bool released, bool tic
if (has) { if (has) {
lastPos=pos; lastPos=pos;
val=source.val[pos++]; val=source.val[pos++];
if (source.rel>=0 && pos>source.rel && !released) { if (pos>source.rel && !released) {
if (source.loop<source.len && source.loop>=0 && source.loop<source.rel) { if (source.loop<source.len && source.loop<source.rel) {
pos=source.loop; pos=source.loop;
} else { } else {
pos--; pos--;
} }
} }
if (pos>=source.len) { if (pos>=source.len) {
if (source.loop<source.len && source.loop>=0 && (source.loop>=source.rel || source.rel>=source.len)) { if (source.loop<source.len && (source.loop>=source.rel || source.rel>=source.len)) {
pos=source.loop; pos=source.loop;
} else if (linger) { } else if (linger) {
pos--; pos--;
@ -240,7 +252,7 @@ void DivMacroInt::init(DivInstrument* which) {
for (size_t i=0; i<macroListLen; i++) { for (size_t i=0; i<macroListLen; i++) {
if (macroSource[i]!=NULL) { if (macroSource[i]!=NULL) {
macroList[i]->prepare(*macroSource[i],e); macroList[i]->prepare(*macroSource[i],e);
hasRelease=(macroSource[i]->rel>=0 && macroSource[i]->rel<macroSource[i]->len); hasRelease=(macroSource[i]->rel<macroSource[i]->len);
} else { } else {
hasRelease=false; hasRelease=false;
} }

View file

@ -25,21 +25,24 @@
class DivEngine; class DivEngine;
struct DivMacroStruct { struct DivMacroStruct {
int pos, lastPos; int pos, lastPos, delay;
int val; int val;
bool has, had, actualHad, finished, will, linger; bool has, had, actualHad, finished, will, linger, began;
unsigned int mode; unsigned int mode;
void doMacro(DivInstrumentMacro& source, bool released, bool tick); void doMacro(DivInstrumentMacro& source, bool released, bool tick);
void init() { void init() {
pos=lastPos=mode=0; pos=lastPos=mode=delay=0;
has=had=actualHad=will=false; has=had=actualHad=will=false;
linger=false; linger=false;
began=true;
// TODO: test whether this breaks anything? // TODO: test whether this breaks anything?
val=0; val=0;
} }
void prepare(DivInstrumentMacro& source, DivEngine* e); void prepare(DivInstrumentMacro& source, DivEngine* e);
DivMacroStruct(): DivMacroStruct():
pos(0), pos(0),
lastPos(0),
delay(0),
val(0), val(0),
has(false), has(false),
had(false), had(false),
@ -47,6 +50,7 @@ struct DivMacroStruct {
finished(false), finished(false),
will(false), will(false),
linger(false), linger(false),
began(false),
mode(0) {} mode(0) {}
}; };

View file

@ -263,6 +263,23 @@ void DivPlatformGenesis::tick(bool sysTick) {
} }
} }
if (i>=5 && chan[i].furnaceDac) {
if (chan[i].std.arp.had) {
if (!chan[i].inPorta) {
if (chan[i].std.arp.mode) {
chan[i].baseFreq=parent->calcBaseFreq(1,1,chan[i].std.arp.val,false);
} else {
chan[i].baseFreq=parent->calcBaseFreq(1,1,chan[i].note+(signed char)chan[i].std.arp.val,false);
}
}
chan[i].freqChanged=true;
} else {
if (chan[i].std.arp.mode && chan[i].std.arp.finished) {
chan[i].baseFreq=parent->calcBaseFreq(1,1,chan[i].note,false);
chan[i].freqChanged=true;
}
}
} else {
if (chan[i].std.arp.had) { if (chan[i].std.arp.had) {
if (!chan[i].inPorta) { if (!chan[i].inPorta) {
if (chan[i].std.arp.mode) { if (chan[i].std.arp.mode) {
@ -278,6 +295,7 @@ void DivPlatformGenesis::tick(bool sysTick) {
chan[i].freqChanged=true; chan[i].freqChanged=true;
} }
} }
}
if (i>=5 && chan[i].furnaceDac) { if (i>=5 && chan[i].furnaceDac) {
if (chan[i].std.panL.had) { if (chan[i].std.panL.had) {

View file

@ -561,6 +561,11 @@ void DivPlatformGenesisExt::forceIns() {
opChan[i].freqChanged=true; opChan[i].freqChanged=true;
} }
} }
if (extMode && softPCM && chan[7].active) { // CSM
chan[7].insChanged=true;
chan[7].freqChanged=true;
chan[7].keyOn=true;
}
} }
void* DivPlatformGenesisExt::getChanState(int ch) { void* DivPlatformGenesisExt::getChanState(int ch) {

View file

@ -361,7 +361,9 @@ void DivEngine::processRow(int i, bool afterDelay) {
break; break;
case 0xed: // delay case 0xed: // delay
if (effectVal!=0) { if (effectVal!=0) {
if (effectVal<=nextSpeed) { bool comparison=(song.delayBehavior==1)?(effectVal<=nextSpeed):(effectVal<nextSpeed);
if (song.delayBehavior==2) comparison=true;
if (comparison) {
chan[i].rowDelay=effectVal+1; chan[i].rowDelay=effectVal+1;
chan[i].delayOrder=whatOrder; chan[i].delayOrder=whatOrder;
chan[i].delayRow=whatRow; chan[i].delayRow=whatRow;
@ -372,6 +374,7 @@ void DivEngine::processRow(int i, bool afterDelay) {
} }
returnAfterPre=true; returnAfterPre=true;
} else { } else {
logV("higher than nextSpeed! %d>%d",effectVal,nextSpeed);
chan[i].delayLocked=false; chan[i].delayLocked=false;
} }
} }
@ -379,6 +382,8 @@ void DivEngine::processRow(int i, bool afterDelay) {
} }
} }
if (returnAfterPre) return; if (returnAfterPre) return;
} else {
logV("honoring delay at position %d",whatRow);
} }
if (chan[i].delayLocked) return; if (chan[i].delayLocked) return;
@ -704,7 +709,7 @@ void DivEngine::processRow(int i, bool afterDelay) {
dispatchCmd(DivCommand(DIV_CMD_SAMPLE_BANK,i,effectVal)); dispatchCmd(DivCommand(DIV_CMD_SAMPLE_BANK,i,effectVal));
break; break;
case 0xec: // delayed note cut case 0xec: // delayed note cut
if (effectVal>0 && effectVal<nextSpeed) { if (effectVal>0 && (song.delayBehavior==2 || effectVal<nextSpeed)) {
chan[i].cut=effectVal+1; chan[i].cut=effectVal+1;
} }
break; break;
@ -900,7 +905,9 @@ void DivEngine::nextRow() {
prevRow=curRow; prevRow=curRow;
for (int i=0; i<chans; i++) { for (int i=0; i<chans; i++) {
if (song.delayBehavior!=2) {
chan[i].rowDelay=0; chan[i].rowDelay=0;
}
processRow(i,false); processRow(i,false);
} }

View file

@ -463,6 +463,11 @@ struct DivSong {
// 1: fake reset on loop // 1: fake reset on loop
// 2: don't do anything on loop // 2: don't do anything on loop
unsigned char loopModality; unsigned char loopModality;
// cut/delay effect behavior
// 0: strict (don't allow value higher than or equal to speed)
// 1: broken (don't allow value higher than speed)
// 2: lax (allow value higher than speed)
unsigned char delayBehavior;
bool properNoiseLayout; bool properNoiseLayout;
bool waveDutyIsVol; bool waveDutyIsVol;
bool resetMacroOnPorta; bool resetMacroOnPorta;
@ -565,6 +570,7 @@ struct DivSong {
linearPitch(2), linearPitch(2),
pitchSlideSpeed(4), pitchSlideSpeed(4),
loopModality(0), loopModality(0),
delayBehavior(2),
properNoiseLayout(true), properNoiseLayout(true),
waveDutyIsVol(false), waveDutyIsVol(false),
resetMacroOnPorta(false), resetMacroOnPorta(false),

View file

@ -193,6 +193,26 @@ void FurnaceGUI::drawCompatFlags() {
ImGui::SetTooltip("select to not reset channels on loop."); ImGui::SetTooltip("select to not reset channels on loop.");
} }
ImGui::Text("Cut/delay effect policy:");
if (ImGui::RadioButton("Strict",e->song.delayBehavior==0)) {
e->song.delayBehavior=0;
}
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip("only when time is less than speed (like DefleMask/ProTracker)");
}
if (ImGui::RadioButton("Strict (old)",e->song.delayBehavior==1)) {
e->song.delayBehavior=1;
}
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip("only when time is less than or equal to speed (original buggy behavior)");
}
if (ImGui::RadioButton("Lax",e->song.delayBehavior==2)) {
e->song.delayBehavior=2;
}
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip("no checks (like FamiTracker)");
}
ImGui::Separator(); ImGui::Separator();
ImGui::TextWrapped("the following flags are for compatibility with older Furnace versions."); ImGui::TextWrapped("the following flags are for compatibility with older Furnace versions.");

View file

@ -276,13 +276,13 @@ void FurnaceGUI::decodeMMLStrW(String& source, int* macro, int& macroLen, int ma
} }
} }
void FurnaceGUI::decodeMMLStr(String& source, int* macro, unsigned char& macroLen, signed char& macroLoop, int macroMin, int macroMax, signed char& macroRel) { void FurnaceGUI::decodeMMLStr(String& source, int* macro, unsigned char& macroLen, unsigned char& macroLoop, int macroMin, int macroMax, unsigned char& macroRel) {
int buf=0; int buf=0;
bool negaBuf=false; bool negaBuf=false;
bool hasVal=false; bool hasVal=false;
macroLen=0; macroLen=0;
macroLoop=-1; macroLoop=255;
macroRel=-1; macroRel=255;
for (char& i: source) { for (char& i: source) {
switch (i) { switch (i) {
case '0': case '1': case '2': case '3': case '4': case '0': case '1': case '2': case '3': case '4':
@ -318,7 +318,7 @@ void FurnaceGUI::decodeMMLStr(String& source, int* macro, unsigned char& macroLe
macroLen++; macroLen++;
buf=0; buf=0;
} }
if (macroLoop==-1) { if (macroLoop==255) {
macroLoop=macroLen; macroLoop=macroLen;
} }
break; break;
@ -332,14 +332,14 @@ void FurnaceGUI::decodeMMLStr(String& source, int* macro, unsigned char& macroLe
macroLen++; macroLen++;
buf=0; buf=0;
} }
if (macroRel==-1) { if (macroRel==255) {
macroRel=macroLen; macroRel=macroLen;
} }
break; break;
} }
if (macroLen>=128) break; if (macroLen>=255) break;
} }
if (hasVal && macroLen<128) { if (hasVal && macroLen<255) {
hasVal=false; hasVal=false;
macro[macroLen]=negaBuf?-buf:buf; macro[macroLen]=negaBuf?-buf:buf;
negaBuf=false; negaBuf=false;

View file

@ -1409,7 +1409,7 @@ class FurnaceGUI {
ImVec2 macroLoopDragStart; ImVec2 macroLoopDragStart;
ImVec2 macroLoopDragAreaSize; ImVec2 macroLoopDragAreaSize;
signed char* macroLoopDragTarget; unsigned char* macroLoopDragTarget;
int macroLoopDragLen; int macroLoopDragLen;
bool macroLoopDragActive; bool macroLoopDragActive;
@ -1690,7 +1690,7 @@ class FurnaceGUI {
void initSystemPresets(); void initSystemPresets();
void encodeMMLStr(String& target, int* macro, int macroLen, int macroLoop, int macroRel, bool hex=false); void encodeMMLStr(String& target, int* macro, int macroLen, int macroLoop, int macroRel, bool hex=false);
void decodeMMLStr(String& source, int* macro, unsigned char& macroLen, signed char& macroLoop, int macroMin, int macroMax, signed char& macroRel); void decodeMMLStr(String& source, int* macro, unsigned char& macroLen, unsigned char& macroLoop, int macroMin, int macroMax, unsigned char& macroRel);
void decodeMMLStrW(String& source, int* macro, int& macroLen, int macroMax, bool hex=false); void decodeMMLStrW(String& source, int* macro, int& macroLen, int macroMax, bool hex=false);
String encodeKeyMap(std::map<int,int>& map); String encodeKeyMap(std::map<int,int>& map);

View file

@ -1215,14 +1215,14 @@ void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros) {
} }
ImGui::TableNextColumn(); ImGui::TableNextColumn();
float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace; float availableWidth=ImGui::GetContentRegionAvail().x-reservedSpace;
int totalFit=MIN(128,availableWidth/MAX(1,macroPointSize*dpiScale)); int totalFit=MIN(255,availableWidth/MAX(1,macroPointSize*dpiScale));
if (macroDragScroll>128-totalFit) { if (macroDragScroll>255-totalFit) {
macroDragScroll=128-totalFit; macroDragScroll=255-totalFit;
} }
ImGui::SetNextItemWidth(availableWidth); ImGui::SetNextItemWidth(availableWidth);
if (CWSliderInt("##MacroScroll",&macroDragScroll,0,128-totalFit,"")) { if (CWSliderInt("##MacroScroll",&macroDragScroll,0,255-totalFit,"")) {
if (macroDragScroll<0) macroDragScroll=0; if (macroDragScroll<0) macroDragScroll=0;
if (macroDragScroll>128-totalFit) macroDragScroll=128-totalFit; if (macroDragScroll>255-totalFit) macroDragScroll=255-totalFit;
} }
// draw macros // draw macros
@ -1239,8 +1239,32 @@ void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros) {
} }
if (i.macro->open) { if (i.macro->open) {
ImGui::SetNextItemWidth(lenAvail); ImGui::SetNextItemWidth(lenAvail);
if (ImGui::InputScalar("##IMacroLen",ImGuiDataType_U8,&i.macro->len,&_ONE,&_THREE)) { MARK_MODIFIED int macroLen=i.macro->len;
if (i.macro->len>128) i.macro->len=128; if (ImGui::InputScalar("##IMacroLen",ImGuiDataType_U8,&macroLen,&_ONE,&_THREE)) { MARK_MODIFIED
if (macroLen<0) macroLen=0;
if (macroLen>255) macroLen=255;
i.macro->len=macroLen;
}
if (ImGui::Button(ICON_FA_BAR_CHART "##IMacroType")) {
}
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip("Coming soon!");
}
ImGui::SameLine();
ImGui::Button(ICON_FA_ELLIPSIS_H "##IMacroSet");
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip("Delay/Step Length");
}
if (ImGui::BeginPopupContextItem("IMacroSetP",ImGuiPopupFlags_MouseButtonLeft)) {
if (ImGui::InputScalar("Step Length (ticks)##IMacroSpeed",ImGuiDataType_U8,&i.macro->speed,&_ONE,&_THREE)) {
if (i.macro->speed<1) i.macro->speed=1;
MARK_MODIFIED;
}
if (ImGui::InputScalar("Delay##IMacroDelay",ImGuiDataType_U8,&i.macro->delay,&_ONE,&_THREE)) {
MARK_MODIFIED;
}
ImGui::EndPopup();
} }
// do not change this! // do not change this!
// anything other than a checkbox will look ugly! // anything other than a checkbox will look ugly!
@ -1267,7 +1291,7 @@ void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros) {
if (j+macroDragScroll>=i.macro->len || (j+macroDragScroll>i.macro->rel && i.macro->loop<i.macro->rel)) { if (j+macroDragScroll>=i.macro->len || (j+macroDragScroll>i.macro->rel && i.macro->loop<i.macro->rel)) {
loopIndicator[j]=0; loopIndicator[j]=0;
} else { } else {
loopIndicator[j]=((i.macro->loop!=-1 && (j+macroDragScroll)>=i.macro->loop))|((i.macro->rel!=-1 && (j+macroDragScroll)==i.macro->rel)<<1); loopIndicator[j]=((i.macro->loop!=255 && (j+macroDragScroll)>=i.macro->loop))|((i.macro->rel!=255 && (j+macroDragScroll)==i.macro->rel)<<1);
} }
} }
ImGui::PushStyleVar(ImGuiStyleVar_FramePadding,ImVec2(0.0f,0.0f)); ImGui::PushStyleVar(ImGuiStyleVar_FramePadding,ImVec2(0.0f,0.0f));
@ -1414,9 +1438,9 @@ void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros) {
} }
if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) { if (ImGui::IsItemClicked(ImGuiMouseButton_Right)) {
if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) { if (ImGui::IsKeyDown(ImGuiKey_LeftShift) || ImGui::IsKeyDown(ImGuiKey_RightShift)) {
i.macro->rel=-1; i.macro->rel=255;
} else { } else {
i.macro->loop=-1; i.macro->loop=255;
} }
} }
ImGui::SetNextItemWidth(availableWidth); ImGui::SetNextItemWidth(availableWidth);
@ -1437,9 +1461,9 @@ void FurnaceGUI::drawMacros(std::vector<FurnaceGUIMacroDesc>& macros) {
ImGui::TableNextColumn(); ImGui::TableNextColumn();
ImGui::TableNextColumn(); ImGui::TableNextColumn();
ImGui::SetNextItemWidth(availableWidth); ImGui::SetNextItemWidth(availableWidth);
if (CWSliderInt("##MacroScroll",&macroDragScroll,0,128-totalFit,"")) { if (CWSliderInt("##MacroScroll",&macroDragScroll,0,255-totalFit,"")) {
if (macroDragScroll<0) macroDragScroll=0; if (macroDragScroll<0) macroDragScroll=0;
if (macroDragScroll>128-totalFit) macroDragScroll=128-totalFit; if (macroDragScroll>255-totalFit) macroDragScroll=255-totalFit;
} }
ImGui::EndTable(); ImGui::EndTable();
} }
@ -4311,8 +4335,8 @@ void FurnaceGUI::drawInsEdit() {
ImGui::Separator(); ImGui::Separator();
if (ImGui::MenuItem("clear")) { if (ImGui::MenuItem("clear")) {
lastMacroDesc.macro->len=0; lastMacroDesc.macro->len=0;
lastMacroDesc.macro->loop=-1; lastMacroDesc.macro->loop=255;
lastMacroDesc.macro->rel=-1; lastMacroDesc.macro->rel=255;
for (int i=0; i<256; i++) { for (int i=0; i<256; i++) {
lastMacroDesc.macro->val[i]=0; lastMacroDesc.macro->val[i]=0;
} }
@ -4341,15 +4365,15 @@ void FurnaceGUI::drawInsEdit() {
lastMacroDesc.macro->val[i]=val; lastMacroDesc.macro->val[i]=val;
} }
if (lastMacroDesc.macro->loop>=0 && lastMacroDesc.macro->loop<lastMacroDesc.macro->len) { if (lastMacroDesc.macro->loop<lastMacroDesc.macro->len) {
lastMacroDesc.macro->loop+=macroOffX; lastMacroDesc.macro->loop+=macroOffX;
} else { } else {
lastMacroDesc.macro->loop=-1; lastMacroDesc.macro->loop=255;
} }
if ((lastMacroDesc.macro->rel+macroOffX)>=0 && (lastMacroDesc.macro->rel+macroOffX)<lastMacroDesc.macro->len) { if ((lastMacroDesc.macro->rel+macroOffX)>=0 && (lastMacroDesc.macro->rel+macroOffX)<lastMacroDesc.macro->len) {
lastMacroDesc.macro->rel+=macroOffX; lastMacroDesc.macro->rel+=macroOffX;
} else { } else {
lastMacroDesc.macro->rel=-1; lastMacroDesc.macro->rel=255;
} }
ImGui::CloseCurrentPopup(); ImGui::CloseCurrentPopup();