etc
/
furnace
mirror of https://github.com/tildearrow/furnace.git
0
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
furnace/src/gui/sysConf.cpp

1763 lines
51 KiB
C++
Raw Blame History

/**
* Furnace Tracker - multi-system chiptune tracker
* Copyright (C) 2021-2023 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/chipUtils.h"
#include "gui.h"
#include "misc/cpp/imgui_stdlib.h"
#include <imgui.h>
bool FurnaceGUI::drawSysConf(int chan, DivSystem type, DivConfig& flags, bool modifyOnChange) {
bool altered=false;
bool restart=settings.restartOnFlagChange && modifyOnChange;
bool supportsCustomRate=true;
switch (type) {
case DIV_SYSTEM_YM2612:
case DIV_SYSTEM_YM2612_EXT:
case DIV_SYSTEM_YM2612_DUALPCM:
case DIV_SYSTEM_YM2612_DUALPCM_EXT:
case DIV_SYSTEM_YM2612_CSM: {
int clockSel=flags.getInt("clockSel",0);
int chipType=0;
if (flags.has("chipType")) {
chipType=flags.getInt("chipType",0);
} else {
chipType=flags.getBool("ladderEffect",0)?1:0;
}
bool noExtMacros=flags.getBool("noExtMacros",false);
bool fbAllOps=flags.getBool("fbAllOps",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("NTSC (7.67MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (7.61MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("FM Towns (8MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("AtGames Genesis (6.13MHz)",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("Sega System 32 (8.05MHz)",clockSel==4)) {
clockSel=4;
altered=true;
}
ImGui::Text("Chip type:");
if (ImGui::RadioButton("YM3438 (9-bit DAC)",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("YM2612 (9-bit DAC with distortion)",chipType==1)) {
chipType=1;
altered=true;
}
if (ImGui::RadioButton("YMF276 (external DAC)",chipType==2)) {
chipType=2;
altered=true;
}
if (type==DIV_SYSTEM_YM2612_EXT || type==DIV_SYSTEM_YM2612_DUALPCM_EXT || type==DIV_SYSTEM_YM2612_CSM) {
if (ImGui::Checkbox("Disable ExtCh FM macros (compatibility)",&noExtMacros)) {
altered=true;
}
if (ImGui::Checkbox("Ins change in ExtCh operator 2-4 affects FB (compatibility)",&fbAllOps)) {
altered=true;
}
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("chipType",chipType);
flags.set("noExtMacros",noExtMacros);
flags.set("fbAllOps",fbAllOps);
});
}
break;
}
case DIV_SYSTEM_SMS: {
int clockSel=flags.getInt("clockSel",0);
int chipType=flags.getInt("chipType",0);
bool noPhaseReset=flags.getBool("noPhaseReset",false);
bool noEasyNoise=flags.getBool("noEasyNoise",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("3.58MHz (NTSC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("3.55MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("4MHz (BBC Micro)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("1.79MHz (Half NTSC)",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("3MHz (Exed Exes)",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("2MHz (Sega System 1)",clockSel==5)) {
clockSel=5;
altered=true;
}
if (ImGui::RadioButton("447KHz (TI-99/4A)",clockSel==6)) {
clockSel=6;
altered=true;
}
ImGui::Text("Chip type:");
if (ImGui::RadioButton("Sega VDP/Master System",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("TI SN76489",chipType==1)) {
chipType=1;
altered=true;
}
if (ImGui::RadioButton("TI SN76489 with Atari-like short noise",chipType==2)) {
chipType=2;
altered=true;
}
if (ImGui::RadioButton("Game Gear",chipType==3)) {
chipType=3;
altered=true;
}
if (ImGui::RadioButton("TI SN76489A",chipType==4)) {
chipType=4;
altered=true;
}
if (ImGui::RadioButton("TI SN76496",chipType==5)) {
chipType=5;
altered=true;
}
if (ImGui::RadioButton("NCR 8496",chipType==6)) {
chipType=6;
altered=true;
}
if (ImGui::RadioButton("Tandy PSSJ 3-voice sound",chipType==7)) {
chipType=7;
altered=true;
}
if (ImGui::RadioButton("TI SN94624",chipType==8)) {
chipType=8;
altered=true;
}
if (ImGui::RadioButton("TI SN76494",chipType==9)) {
chipType=9;
altered=true;
}
if (ImGui::Checkbox("Disable noise period change phase reset",&noPhaseReset)) {
altered=true;
}
if (ImGui::Checkbox("Disable easy period to note mapping on upper octaves",&noEasyNoise)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("chipType",chipType);
flags.set("noPhaseReset",noPhaseReset);
flags.set("noEasyNoise",noEasyNoise);
});
}
break;
}
case DIV_SYSTEM_PCE: {
bool clockSel=flags.getInt("clockSel",0);
int chipType=flags.getInt("chipType",0);
bool noAntiClick=flags.getBool("noAntiClick",false);
if (ImGui::Checkbox("Pseudo-PAL",&clockSel)) {
altered=true;
}
if (ImGui::Checkbox("Disable anti-click",&noAntiClick)) {
altered=true;
}
ImGui::Text("Chip revision:");
if (ImGui::RadioButton("HuC6280 (original)",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("HuC6280A (SuperGrafx)",chipType==1)) {
chipType=1;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",(int)clockSel);
flags.set("chipType",chipType);
flags.set("noAntiClick",noAntiClick);
});
}
break;
}
case DIV_SYSTEM_SOUND_UNIT: {
int clockSel=flags.getInt("clockSel",0);
bool echo=flags.getBool("echo",false);
bool swapEcho=flags.getBool("swapEcho",false);
int sampleMemSize=flags.getInt("sampleMemSize",0);
bool pdm=flags.getBool("pdm",false);
int echoDelay=flags.getInt("echoDelay",0);
int echoFeedback=flags.getInt("echoFeedback",0);
int echoResolution=flags.getInt("echoResolution",0);
int echoVol=(signed char)flags.getInt("echoVol",0);
ImGui::Text("CPU rate:");
if (ImGui::RadioButton("6.18MHz (NTSC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("5.95MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
ImGui::Text("Sample memory:");
if (ImGui::RadioButton("8K (rev A/B/E)",sampleMemSize==0)) {
sampleMemSize=0;
altered=true;
}
if (ImGui::RadioButton("64K (rev D/F)",sampleMemSize==1)) {
sampleMemSize=1;
altered=true;
}
ImGui::Text("DAC resolution:");
if (ImGui::RadioButton("16-bit (rev A/B/D/F)",pdm==0)) {
pdm=false;
altered=true;
}
if (ImGui::RadioButton("8-bit + TDM (rev C/E)",pdm==1)) {
pdm=true;
altered=true;
}
if (ImGui::Checkbox("Enable echo",&echo)) {
altered=true;
}
if (ImGui::Checkbox("Swap echo channels",&swapEcho)) {
altered=true;
}
ImGui::Text("Echo delay:");
if (CWSliderInt("##EchoBufSize",&echoDelay,0,63)) {
if (echoDelay<0) echoDelay=0;
if (echoDelay>63) echoDelay=63;
altered=true;
} rightClickable
ImGui::Text("Echo resolution:");
if (CWSliderInt("##EchoResolution",&echoResolution,0,15)) {
if (echoResolution<0) echoResolution=0;
if (echoResolution>15) echoResolution=15;
altered=true;
} rightClickable
ImGui::Text("Echo feedback:");
if (CWSliderInt("##EchoFeedback",&echoFeedback,0,15)) {
if (echoFeedback<0) echoFeedback=0;
if (echoFeedback>15) echoFeedback=15;
altered=true;
} rightClickable
ImGui::Text("Echo volume:");
if (CWSliderInt("##EchoVolume",&echoVol,-128,127)) {
if (echoVol<-128) echoVol=-128;
if (echoVol>127) echoVol=127;
altered=true;
} rightClickable
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("echo",echo);
flags.set("swapEcho",swapEcho);
flags.set("sampleMemSize",sampleMemSize);
flags.set("pdm",pdm);
flags.set("echoDelay",echoDelay);
flags.set("echoFeedback",echoFeedback);
flags.set("echoResolution",echoResolution);
flags.set("echoVol",(unsigned char)echoVol);
});
}
break;
}
case DIV_SYSTEM_GB: {
int chipType=flags.getInt("chipType",0);
bool noAntiClick=flags.getBool("noAntiClick",false);
bool enoughAlready=flags.getBool("enoughAlready",false);
if (ImGui::Checkbox("Disable anti-click",&noAntiClick)) {
altered=true;
}
ImGui::Text("Chip revision:");
if (ImGui::RadioButton("Original (DMG)",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("Game Boy Color (rev C)",chipType==1)) {
chipType=1;
altered=true;
}
if (ImGui::RadioButton("Game Boy Color (rev E)",chipType==2)) {
chipType=2;
altered=true;
}
if (ImGui::RadioButton("Game Boy Advance",chipType==3)) {
chipType=3;
altered=true;
}
if (ImGui::Checkbox("Pretty please one more compat flag when I use arpeggio and my sound length",&enoughAlready)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("chipType",chipType);
flags.set("noAntiClick",noAntiClick);
flags.set("enoughAlready",enoughAlready);
});
}
break;
}
case DIV_SYSTEM_OPLL:
case DIV_SYSTEM_OPLL_DRUMS:
case DIV_SYSTEM_VRC7: {
int clockSel=flags.getInt("clockSel",0);
int patchSet=flags.getInt("patchSet",0);
bool noTopHatFreq=flags.getBool("noTopHatFreq",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("NTSC (3.58MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (3.55MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("Arcade (4MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("Half NTSC (1.79MHz)",clockSel==3)) {
clockSel=3;
altered=true;
}
if (type!=DIV_SYSTEM_VRC7) {
ImGui::Text("Patch set:");
if (ImGui::RadioButton("Yamaha YM2413",patchSet==0)) {
patchSet=0;
altered=true;
}
if (ImGui::RadioButton("Yamaha YMF281",patchSet==1)) {
patchSet=1;
altered=true;
}
if (ImGui::RadioButton("Yamaha YM2423",patchSet==2)) {
patchSet=2;
altered=true;
}
if (ImGui::RadioButton("Konami VRC7",patchSet==3)) {
patchSet=3;
altered=true;
}
}
if (type==DIV_SYSTEM_OPLL_DRUMS) {
if (ImGui::Checkbox("Ignore top/hi-hat frequency changes",&noTopHatFreq)) {
altered=true;
}
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
if (type!=DIV_SYSTEM_VRC7) {
flags.set("patchSet",patchSet);
}
flags.set("noTopHatFreq",noTopHatFreq);
});
}
break;
}
case DIV_SYSTEM_YM2151: {
int clockSel=flags.getInt("clockSel",0);
if (ImGui::RadioButton("NTSC/X16 (3.58MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (3.55MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("X1/X68000 (4MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_NES:
case DIV_SYSTEM_VRC6:
case DIV_SYSTEM_FDS:
case DIV_SYSTEM_MMC5: {
int clockSel=flags.getInt("clockSel",0);
if (ImGui::RadioButton("NTSC (1.79MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (1.67MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("Dendy (1.77MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_C64_8580:
case DIV_SYSTEM_C64_6581: {
int clockSel=flags.getInt("clockSel",0);
if (ImGui::RadioButton("NTSC (1.02MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (0.99MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("SSI 2001 (0.89MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_YM2610:
case DIV_SYSTEM_YM2610_EXT:
case DIV_SYSTEM_YM2610_CSM:
case DIV_SYSTEM_YM2610_FULL:
case DIV_SYSTEM_YM2610_FULL_EXT:
case DIV_SYSTEM_YM2610B:
case DIV_SYSTEM_YM2610B_EXT:
case DIV_SYSTEM_YM2610B_CSM: {
int clockSel=flags.getInt("clockSel",0);
bool noExtMacros=flags.getBool("noExtMacros",false);
bool fbAllOps=flags.getBool("fbAllOps",false);
int ssgVol=flags.getInt("ssgVol",128);
int fmVol=flags.getInt("fmVol",256);
if (ImGui::RadioButton("8MHz (Neo Geo MVS)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("8.06MHz (Neo Geo AES)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (type==DIV_SYSTEM_YM2610_EXT || type==DIV_SYSTEM_YM2610_FULL_EXT || type==DIV_SYSTEM_YM2610B_EXT || type==DIV_SYSTEM_YM2610_CSM || type==DIV_SYSTEM_YM2610B_CSM) {
if (ImGui::Checkbox("Disable ExtCh FM macros (compatibility)",&noExtMacros)) {
altered=true;
}
if (ImGui::Checkbox("Ins change in ExtCh operator 2-4 affects FB (compatibility)",&fbAllOps)) {
altered=true;
}
}
if (CWSliderInt("SSG Volume",&ssgVol,0,256)) {
if (ssgVol<0) ssgVol=0;
if (ssgVol>256) ssgVol=256;
altered=true;
} rightClickable
if (CWSliderInt("FM/ADPCM Volume",&fmVol,0,256)) {
if (fmVol<0) fmVol=0;
if (fmVol>256) fmVol=256;
altered=true;
} rightClickable
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("noExtMacros",noExtMacros);
flags.set("fbAllOps",fbAllOps);
flags.set("ssgVol",ssgVol);
flags.set("fmVol",fmVol);
});
}
break;
}
case DIV_SYSTEM_AY8910:
case DIV_SYSTEM_AY8930: {
int clockSel=flags.getInt("clockSel",0);
int chipType=flags.getInt("chipType",0);
bool halfClock=flags.getBool("halfClock",false);
bool stereo=flags.getBool("stereo",false);
int stereoSep=flags.getInt("stereoSep",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("1.79MHz (ZX Spectrum NTSC/MSX)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("1.77MHz (ZX Spectrum)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("1.75MHz (ZX Spectrum)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("2MHz (Atari ST/Sharp X1)",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("1.5MHz (Vectrex)",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("1MHz (Amstrad CPC)",clockSel==5)) {
clockSel=5;
altered=true;
}
if (ImGui::RadioButton("0.89MHz (Pre-divided Sunsoft 5B)",clockSel==6)) {
clockSel=6;
altered=true;
}
if (ImGui::RadioButton("1.67MHz (?)",clockSel==7)) {
clockSel=7;
altered=true;
}
if (ImGui::RadioButton("0.83MHz (Pre-divided Sunsoft 5B on PAL)",clockSel==8)) {
clockSel=8;
altered=true;
}
if (ImGui::RadioButton("1.10MHz (Gamate/VIC-20 PAL)",clockSel==9)) {
clockSel=9;
altered=true;
}
if (ImGui::RadioButton("2^21Hz (Game Boy)",clockSel==10)) {
clockSel=10;
altered=true;
}
if (ImGui::RadioButton("3.58MHz (Darky)",clockSel==11)) {
clockSel=11;
altered=true;
}
if (ImGui::RadioButton("3.6MHz (Darky)",clockSel==12)) {
clockSel=12;
altered=true;
}
if (ImGui::RadioButton("1.25MHz (Mag Max)",clockSel==13)) {
clockSel=13;
altered=true;
}
if (ImGui::RadioButton("1.536MHz (Kyugo)",clockSel==14)) {
clockSel=14;
altered=true;
}
if (type==DIV_SYSTEM_AY8910) {
ImGui::Text("Chip type:");
if (ImGui::RadioButton("AY-3-8910",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("YM2149(F)",chipType==1)) {
chipType=1;
altered=true;
}
if (ImGui::RadioButton("Sunsoft 5B",chipType==2)) {
chipType=2;
altered=true;
}
if (ImGui::RadioButton("AY-3-8914",chipType==3)) {
chipType=3;
altered=true;
}
}
ImGui::BeginDisabled(type==DIV_SYSTEM_AY8910 && chipType==2);
if (ImGui::Checkbox("Stereo##_AY_STEREO",&stereo)) {
altered=true;
}
if (stereo) {
int sep=256-(stereoSep&255);
if (CWSliderInt("Separation",&sep,1,256)) {
if (sep<1) sep=1;
if (sep>256) sep=256;
stereoSep=256-sep;
altered=true;
}
}
ImGui::EndDisabled();
ImGui::BeginDisabled(type==DIV_SYSTEM_AY8910 && chipType!=1);
if (ImGui::Checkbox("Half Clock divider##_AY_CLKSEL",&halfClock)) {
altered=true;
}
ImGui::EndDisabled();
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
if (type==DIV_SYSTEM_AY8910) {
flags.set("chipType",chipType);
}
flags.set("halfClock",halfClock);
flags.set("stereo",stereo);
flags.set("stereoSep",stereoSep);
});
}
break;
}
case DIV_SYSTEM_SAA1099: {
int clockSel=flags.getInt("clockSel",0);
if (ImGui::RadioButton("SAM Coupé (8MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("NTSC (7.15MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("PAL (7.09MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_AMIGA: {
bool clockSel=flags.getInt("clockSel",0);
int chipType=flags.getInt("chipType",0);
int stereoSep=flags.getInt("stereoSep",0);
bool bypassLimits=flags.getBool("bypassLimits",false);
ImGui::Text("Stereo separation:");
if (CWSliderInt("##StereoSep",&stereoSep,0,127)) {
if (stereoSep<0) stereoSep=0;
if (stereoSep>127) stereoSep=127;
altered=true;
} rightClickable
if (ImGui::RadioButton("Amiga 500 (OCS)",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("Amiga 1200 (AGA)",chipType==1)) {
chipType=1;
altered=true;
}
if (ImGui::Checkbox("PAL",&clockSel)) {
altered=true;
}
if (ImGui::Checkbox("Bypass frequency limits",&bypassLimits)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",(int)clockSel);
flags.set("chipType",chipType);
flags.set("stereoSep",stereoSep);
flags.set("bypassLimits",bypassLimits);
});
}
break;
}
case DIV_SYSTEM_TIA: {
bool clockSel=flags.getInt("clockSel",0);
int mixingType=flags.getInt("mixingType",0);
ImGui::Text("Mixing mode:");
if (ImGui::RadioButton("Mono",mixingType==0)) {
mixingType=0;
altered=true;
}
if (ImGui::RadioButton("Mono (no distortion)",mixingType==1)) {
mixingType=1;
altered=true;
}
if (ImGui::RadioButton("Stereo",mixingType==2)) {
mixingType=2;
altered=true;
}
if (ImGui::Checkbox("PAL",&clockSel)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",(int)clockSel);
flags.set("mixingType",mixingType);
});
}
break;
}
case DIV_SYSTEM_PCSPKR: {
int clockSel=flags.getInt("clockSel",0);
int speakerType=flags.getInt("speakerType",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("1.19MHz (PC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("1.99MHz (PC-98)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("2.46MHz (PC-98)",clockSel==2)) {
clockSel=2;
altered=true;
}
ImGui::Text("Speaker type:");
if (ImGui::RadioButton("Unfiltered",speakerType==0)) {
speakerType=0;
altered=true;
}
if (ImGui::RadioButton("Cone",speakerType==1)) {
speakerType=1;
altered=true;
}
if (ImGui::RadioButton("Piezo",speakerType==2)) {
speakerType=2;
altered=true;
}
if (ImGui::RadioButton("Use system beeper (Linux only!)",speakerType==3)) {
speakerType=3;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("speakerType",speakerType);
});
}
break;
}
case DIV_SYSTEM_QSOUND: {
int echoDelay=flags.getInt("echoDelay",0);
int echoFeedback=flags.getInt("echoFeedback",0)&255;
ImGui::Text("Echo delay:");
int echoBufSize1=2725-echoDelay;
if (CWSliderInt("##EchoBufSize",&echoBufSize1,0,2725)) {
if (echoBufSize1<0) echoBufSize1=0;
if (echoBufSize1>2725) echoBufSize1=2725;
echoDelay=2725-echoBufSize1;
altered=true;;
} rightClickable
ImGui::Text("Echo feedback:");
if (CWSliderInt("##EchoFeedback",&echoFeedback,0,255)) {
if (echoFeedback<0) echoFeedback=0;
if (echoFeedback>255) echoFeedback=255;
altered=true;
} rightClickable
if (altered) {
e->lockSave([&]() {
flags.set("echoDelay",echoDelay);
flags.set("echoFeedback",echoFeedback);
});
}
supportsCustomRate=false;
break;
}
case DIV_SYSTEM_X1_010: {
int clockSel=flags.getInt("clockSel",0);
bool stereo=flags.getBool("stereo",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("16MHz (Seta 1)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("16.67MHz (Seta 2)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::Checkbox("Stereo",&stereo)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("stereo",stereo);
});
}
break;
}
case DIV_SYSTEM_N163: {
int clockSel=flags.getInt("clockSel",0);
int channels=flags.getInt("channels",0)+1;
bool multiplex=flags.getBool("multiplex",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("NTSC (1.79MHz)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("PAL (1.67MHz)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("Dendy (1.77MHz)",clockSel==2)) {
clockSel=2;
altered=true;
}
ImGui::Text("Initial channel limit:");
if (CWSliderInt("##N163_InitialChannelLimit",&channels,1,8)) {
if (channels<1) channels=1;
if (channels>8) channels=8;
altered=true;
} rightClickable
if (ImGui::Checkbox("Disable hissing",&multiplex)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("channels",channels-1);
flags.set("multiplex",multiplex);
});
}
break;
}
case DIV_SYSTEM_ES5506: {
int channels=flags.getInt("channels",0x1f)+1;
ImGui::Text("Initial channel limit:");
if (CWSliderInt("##OTTO_InitialChannelLimit",&channels,5,32)) {
if (channels<5) channels=5;
if (channels>32) channels=32;
altered=true;
} rightClickable
if (altered) {
e->lockSave([&]() {
flags.set("channels",channels-1);
});
}
break;
}
case DIV_SYSTEM_YM2203:
case DIV_SYSTEM_YM2203_EXT:
case DIV_SYSTEM_YM2203_CSM: {
int clockSel=flags.getInt("clockSel",0);
int prescale=flags.getInt("prescale",0);
bool noExtMacros=flags.getBool("noExtMacros",false);
bool fbAllOps=flags.getBool("fbAllOps",false);
int ssgVol=flags.getInt("ssgVol",128);
int fmVol=flags.getInt("fmVol",256);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("3.58MHz (NTSC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("3.54MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("4MHz",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("3MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("3.9936MHz (PC-88/PC-98)",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("1.5MHz",clockSel==5)) {
clockSel=5;
altered=true;
}
ImGui::Text("Output rate:");
if (ImGui::RadioButton("FM: clock / 72, SSG: clock / 16",prescale==0)) {
prescale=0;
altered=true;
}
if (ImGui::RadioButton("FM: clock / 36, SSG: clock / 8",prescale==1)) {
prescale=1;
altered=true;
}
if (ImGui::RadioButton("FM: clock / 24, SSG: clock / 4",prescale==2)) {
prescale=2;
altered=true;
}
if (CWSliderInt("SSG Volume",&ssgVol,0,256)) {
if (ssgVol<0) ssgVol=0;
if (ssgVol>256) ssgVol=256;
altered=true;
} rightClickable
if (CWSliderInt("FM Volume",&fmVol,0,256)) {
if (fmVol<0) fmVol=0;
if (fmVol>256) fmVol=256;
altered=true;
} rightClickable
if (type==DIV_SYSTEM_YM2203_EXT || type==DIV_SYSTEM_YM2203_CSM) {
if (ImGui::Checkbox("Disable ExtCh FM macros (compatibility)",&noExtMacros)) {
altered=true;
}
if (ImGui::Checkbox("Ins change in ExtCh operator 2-4 affects FB (compatibility)",&fbAllOps)) {
altered=true;
}
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("prescale",prescale);
flags.set("noExtMacros",noExtMacros);
flags.set("fbAllOps",fbAllOps);
flags.set("ssgVol",ssgVol);
flags.set("fmVol",fmVol);
});
}
break;
}
case DIV_SYSTEM_YM2608:
case DIV_SYSTEM_YM2608_EXT:
case DIV_SYSTEM_YM2608_CSM: {
int clockSel=flags.getInt("clockSel",0);
int prescale=flags.getInt("prescale",0);
bool noExtMacros=flags.getBool("noExtMacros",false);
bool fbAllOps=flags.getBool("fbAllOps",false);
int ssgVol=flags.getInt("ssgVol",128);
int fmVol=flags.getInt("fmVol",256);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("8MHz (Arcade)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("7.987MHz (PC-88/PC-98)",clockSel==1)) {
clockSel=1;
altered=true;
}
ImGui::Text("Output rate:");
if (ImGui::RadioButton("FM: clock / 144, SSG: clock / 32",prescale==0)) {
prescale=0;
altered=true;
}
if (ImGui::RadioButton("FM: clock / 72, SSG: clock / 16",prescale==1)) {
prescale=1;
altered=true;
}
if (ImGui::RadioButton("FM: clock / 48, SSG: clock / 8",prescale==2)) {
prescale=2;
altered=true;
}
if (CWSliderInt("SSG Volume",&ssgVol,0,256)) {
if (ssgVol<0) ssgVol=0;
if (ssgVol>256) ssgVol=256;
altered=true;
} rightClickable
if (CWSliderInt("FM/ADPCM Volume",&fmVol,0,256)) {
if (fmVol<0) fmVol=0;
if (fmVol>256) fmVol=256;
altered=true;
} rightClickable
if (type==DIV_SYSTEM_YM2608_EXT || type==DIV_SYSTEM_YM2608_CSM) {
if (ImGui::Checkbox("Disable ExtCh FM macros (compatibility)",&noExtMacros)) {
altered=true;
}
if (ImGui::Checkbox("Ins change in ExtCh operator 2-4 affects FB (compatibility)",&fbAllOps)) {
altered=true;
}
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("prescale",prescale);
flags.set("noExtMacros",noExtMacros);
flags.set("fbAllOps",fbAllOps);
flags.set("ssgVol",ssgVol);
flags.set("fmVol",fmVol);
});
}
break;
}
case DIV_SYSTEM_RF5C68: {
int clockSel=flags.getInt("clockSel",0);
int chipType=flags.getInt("chipType",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("8MHz (FM Towns)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("10MHz (Sega System 18)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("12.5MHz (Sega CD/System 32)",clockSel==2)) {
clockSel=2;
altered=true;
}
ImGui::Text("Chip type:");
if (ImGui::RadioButton("RF5C68 (10-bit output)",chipType==0)) {
chipType=0;
altered=true;
}
if (ImGui::RadioButton("RF5C164 (16-bit output)",chipType==1)) {
chipType=1;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("chipType",chipType);
});
}
break;
}
case DIV_SYSTEM_MSM6258: {
int clockSel=flags.getInt("clockSel",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("4MHz",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("4.096MHz",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("8MHz (X68000)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("8.192MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_MSM6295: {
int clockSel=flags.getInt("clockSel",0);
bool rateSel=flags.getBool("rateSel",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("1MHz",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("1.056MHz",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("4MHz",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("4.224MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("3.58MHz",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("1.79MHz",clockSel==5)) {
clockSel=5;
altered=true;
}
if (ImGui::RadioButton("1.02MHz",clockSel==6)) {
clockSel=6;
altered=true;
}
if (ImGui::RadioButton("0.89MHz",clockSel==7)) {
clockSel=7;
altered=true;
}
if (ImGui::RadioButton("2MHz",clockSel==8)) {
clockSel=8;
altered=true;
}
if (ImGui::RadioButton("2.112MHz",clockSel==9)) {
clockSel=9;
altered=true;
}
if (ImGui::RadioButton("0.875MHz",clockSel==10)) {
clockSel=10;
altered=true;
}
if (ImGui::RadioButton("0.9375MHz",clockSel==11)) {
clockSel=11;
altered=true;
}
if (ImGui::RadioButton("1.5MHz",clockSel==12)) {
clockSel=12;
altered=true;
}
if (ImGui::RadioButton("3MHz",clockSel==13)) {
clockSel=13;
altered=true;
}
if (ImGui::RadioButton("1.193MHz (Atari)",clockSel==14)) {
clockSel=14;
altered=true;
}
ImGui::Text("Output rate:");
if (ImGui::RadioButton("clock / 132",rateSel==0)) {
rateSel=false;
altered=true;
}
if (ImGui::RadioButton("clock / 165",rateSel==1)) {
rateSel=true;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("rateSel",rateSel);
});
}
break;
}
case DIV_SYSTEM_SCC:
case DIV_SYSTEM_SCC_PLUS: {
int clockSel=flags.getInt("clockSel",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("1.79MHz (NTSC/MSX)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("1.77MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("1.5MHz (Arcade)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("2MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_OPL:
case DIV_SYSTEM_OPL_DRUMS:
case DIV_SYSTEM_OPL2:
case DIV_SYSTEM_OPL2_DRUMS:
case DIV_SYSTEM_Y8950:
case DIV_SYSTEM_Y8950_DRUMS: {
int clockSel=flags.getInt("clockSel",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("3.58MHz (NTSC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("3.54MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("4MHz",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("3MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("3.9936MHz (PC-88/PC-98)",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("3.5MHz",clockSel==5)) {
clockSel=5;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_OPL3:
case DIV_SYSTEM_OPL3_DRUMS: {
int clockSel=flags.getInt("clockSel",0);
bool compatPan=flags.getBool("compatPan",false);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("14.32MHz (NTSC)",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("14.19MHz (PAL)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("14MHz",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("16MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("15MHz",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::Checkbox("Compatible panning (0800)",&compatPan)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("compatPan",compatPan);
});
}
break;
}
case DIV_SYSTEM_YMZ280B: {
int clockSel=flags.getInt("clockSel",0);
ImGui::Text("Clock rate:");
if (ImGui::RadioButton("16.9344MHz",clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton("14.32MHz (NTSC)",clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton("14.19MHz (PAL)",clockSel==2)) {
clockSel=2;
altered=true;
}
if (ImGui::RadioButton("16MHz",clockSel==3)) {
clockSel=3;
altered=true;
}
if (ImGui::RadioButton("16.67MHz",clockSel==4)) {
clockSel=4;
altered=true;
}
if (ImGui::RadioButton("14MHz",clockSel==5)) {
clockSel=5;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
});
}
break;
}
case DIV_SYSTEM_PCM_DAC: {
// default to 44100Hz 16-bit stereo
int sampRate=flags.getInt("rate",44100);
int bitDepth=flags.getInt("outDepth",15)+1;
int interpolation=flags.getInt("interpolation",0);
bool stereo=flags.getBool("stereo",false);
ImGui::Text("Output rate:");
if (CWSliderInt("##SampRate",&sampRate,1000,96000)) {
if (sampRate<1000) sampRate=1000;
if (sampRate>96000) sampRate=96000;
altered=true;
} rightClickable
ImGui::Text("Output bit depth:");
if (CWSliderInt("##BitDepth",&bitDepth,1,16)) {
if (bitDepth<1) bitDepth=1;
if (bitDepth>16) bitDepth=16;
altered=true;
} rightClickable
if (ImGui::Checkbox("Stereo",&stereo)) {
altered=true;
}
ImGui::Text("Interpolation:");
if (ImGui::RadioButton("None",interpolation==0)) {
interpolation=0;
altered=true;
}
if (ImGui::RadioButton("Linear",interpolation==1)) {
interpolation=1;
altered=true;
}
if (ImGui::RadioButton("Cubic",interpolation==2)) {
interpolation=2;
altered=true;
}
if (ImGui::RadioButton("Sinc",interpolation==3)) {
interpolation=3;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("rate",sampRate);
flags.set("outDepth",bitDepth-1);
flags.set("stereo",stereo);
flags.set("interpolation",interpolation);
});
}
break;
}
case DIV_SYSTEM_SNES: { // TODO: echo
char temp[64];
int vsL=127-(flags.getInt("volScaleL",0)&127);
int vsR=127-(flags.getInt("volScaleR",0)&127);
bool echo=flags.getBool("echo",false);
int echoVolL=flags.getInt("echoVolL",127);
int echoVolR=flags.getInt("echoVolR",127);
int echoDelay=flags.getInt("echoDelay",0)&15;
int echoFeedback=flags.getInt("echoFeedback",0);
int echoMask=flags.getInt("echoMask",0);
int echoFilter[8];
echoFilter[0]=flags.getInt("echoFilter0",127);
echoFilter[1]=flags.getInt("echoFilter1",0);
echoFilter[2]=flags.getInt("echoFilter2",0);
echoFilter[3]=flags.getInt("echoFilter3",0);
echoFilter[4]=flags.getInt("echoFilter4",0);
echoFilter[5]=flags.getInt("echoFilter5",0);
echoFilter[6]=flags.getInt("echoFilter6",0);
echoFilter[7]=flags.getInt("echoFilter7",0);
ImGui::Text("Volume scale:");
if (CWSliderInt("Left##VolScaleL",&vsL,0,127)) {
if (vsL<0) vsL=0;
if (vsL>127) vsL=127;
altered=true;
} rightClickable
if (CWSliderInt("Right##VolScaleL",&vsR,0,127)) {
if (vsR<0) vsR=0;
if (vsR>127) vsR=127;
altered=true;
} rightClickable
if (ImGui::Checkbox("Enable echo",&echo)) {
altered=true;
}
ImGui::Text("Initial echo state:");
for (int i=0; i<8; i++) {
bool echoChan=(bool)(echoMask&(1<<i));
snprintf(temp,63,"%d##EON%d",i+1,i);
if (ImGui::Checkbox(temp,&echoChan)) {
echoMask&=~(1<<i);
if (echoChan) {
echoMask|=1<<i;
}
altered=true;
}
if (i<7) ImGui::SameLine();
}
if (CWSliderInt("Delay##EchoDelay",&echoDelay,0,15)) {
if (echoDelay<0) echoDelay=0;
if (echoDelay>15) echoDelay=15;
altered=true;
} rightClickable
if (CWSliderInt("Feedback##EchoFeedback",&echoFeedback,-128,127)) {
if (echoFeedback<-128) echoFeedback=-128;
if (echoFeedback>127) echoFeedback=127;
altered=true;
} rightClickable
ImGui::Text("Echo volume:");
if (CWSliderInt("Left##EchoVolL",&echoVolL,-128,127)) {
if (echoVolL<-128) echoVolL=-128;
if (echoVolL>127) echoVolL=127;
altered=true;
} rightClickable
if (CWSliderInt("Right##EchoVolL",&echoVolR,-128,127)) {
if (echoVolR<-128) echoVolR=-128;
if (echoVolR>127) echoVolR=127;
altered=true;
} rightClickable
ImGui::Text("Echo filter:");
for (int i=0; i<8; i++) {
snprintf(temp,63,"%d##FIR%d",i+1,i);
if (CWSliderInt(temp,&echoFilter[i],-128,127)) {
if (echoFilter[i]<-128) echoFilter[i]=-128;
if (echoFilter[i]>127) echoFilter[i]=127;
altered=true;
} rightClickable
}
if (ImGui::Button(snesFilterHex?"Hex##SNESFHex":"Dec##SNESFHex")) {
snesFilterHex=!snesFilterHex;
}
ImGui::SameLine();
ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x); // wavetable text input size found here
if (ImGui::InputText("##MMLWave",&mmlStringSNES)) {
int actualData[256];
int discardIt=0;
memset(actualData,0,256*sizeof(int));
decodeMMLStrW(mmlStringSNES,actualData,discardIt,snesFilterHex?0:-128,snesFilterHex?255:127,snesFilterHex);
if (snesFilterHex) {
for (int i=0; i<8; i++) {
if (actualData[i]>=128) actualData[i]-=256;
}
}
memcpy(echoFilter,actualData,8*sizeof(int));
altered=true;
}
if (!ImGui::IsItemActive()) {
int actualData[8];
for (int i=0; i<8; i++) {
if (echoFilter[i]<0 && snesFilterHex) {
actualData[i]=echoFilter[i]+256;
} else {
actualData[i]=echoFilter[i];
}
}
encodeMMLStr(mmlStringSNES,actualData,8,-1,-1,snesFilterHex);
}
int filterSum=(
echoFilter[0]+
echoFilter[1]+
echoFilter[2]+
echoFilter[3]+
echoFilter[4]+
echoFilter[5]+
echoFilter[6]+
echoFilter[7]
);
ImGui::PushStyleColor(ImGuiCol_Text,(filterSum<-128 || filterSum>127)?uiColors[GUI_COLOR_LOGLEVEL_WARNING]:uiColors[GUI_COLOR_TEXT]);
ImGui::Text("sum: %d",filterSum);
ImGui::PopStyleColor();
if (altered) {
e->lockSave([&]() {
flags.set("volScaleL",127-vsL);
flags.set("volScaleR",127-vsR);
flags.set("echo",echo);
flags.set("echoVolL",echoVolL);
flags.set("echoVolR",echoVolR);
flags.set("echoDelay",echoDelay);
flags.set("echoFeedback",echoFeedback);
flags.set("echoFilter0",echoFilter[0]);
flags.set("echoFilter1",echoFilter[1]);
flags.set("echoFilter2",echoFilter[2]);
flags.set("echoFilter3",echoFilter[3]);
flags.set("echoFilter4",echoFilter[4]);
flags.set("echoFilter5",echoFilter[5]);
flags.set("echoFilter6",echoFilter[6]);
flags.set("echoFilter7",echoFilter[7]);
flags.set("echoMask",echoMask);
});
}
supportsCustomRate=false;
break;
}
case DIV_SYSTEM_MSM5232: {
int detune=flags.getInt("detune",0);
int vibSpeed=flags.getInt("vibSpeed",0);
float vibDepth=flags.getFloat("vibDepth",0.0f);
bool groupEnv[2];
int groupVol[8];
float capValue[8];
char temp[64];
groupEnv[0]=flags.getBool("groupEnv0",true);
groupEnv[1]=flags.getBool("groupEnv1",true);
groupVol[0]=flags.getInt("partVolume0",255);
groupVol[1]=flags.getInt("partVolume1",255);
groupVol[2]=flags.getInt("partVolume2",255);
groupVol[3]=flags.getInt("partVolume3",255);
groupVol[4]=flags.getInt("partVolume4",255);
groupVol[5]=flags.getInt("partVolume5",255);
groupVol[6]=flags.getInt("partVolume6",255);
groupVol[7]=flags.getInt("partVolume7",255);
capValue[0]=flags.getFloat("capValue0",390.0f);
capValue[1]=flags.getFloat("capValue1",390.0f);
capValue[2]=flags.getFloat("capValue2",390.0f);
capValue[3]=flags.getFloat("capValue3",390.0f);
capValue[4]=flags.getFloat("capValue4",390.0f);
capValue[5]=flags.getFloat("capValue5",390.0f);
capValue[6]=flags.getFloat("capValue6",390.0f);
capValue[7]=flags.getFloat("capValue7",390.0f);
if (CWSliderInt("Detune",&detune,-127,127)) {
if (detune<-127) detune=-127;
if (detune>127) detune=127;
altered=true;
} rightClickable
ImGui::Text("Capacitor values (nF):");
for (int i=0; i<8; i++) {
snprintf(temp,63,"%d##CAPV%d",i+1,i);
if (CWSliderFloat(temp,&capValue[i],1.0f,1000.0f)) {
if (capValue[i]<0) capValue[i]=0;
if (capValue[i]>1000) capValue[i]=1000;
altered=true;
} rightClickable
}
ImGui::Text("Initial part volume (channel 1-4):");
for (int i=0; i<4; i++) {
snprintf(temp,63,"%d'##GRPV%d",2<<i,i);
if (CWSliderInt(temp,&groupVol[i],0,255)) {
if (groupVol[i]<0) groupVol[i]=0;
if (groupVol[i]>255) groupVol[i]=255;
altered=true;
} rightClickable
}
ImGui::Text("Initial part volume (channel 5-8):");
for (int i=4; i<8; i++) {
snprintf(temp,63,"%d'##GRPV%d",2<<(i-4),i);
if (CWSliderInt(temp,&groupVol[i],0,255)) {
if (groupVol[i]<0) groupVol[i]=0;
if (groupVol[i]>255) groupVol[i]=255;
altered=true;
} rightClickable
}
ImGui::Text("Envelope mode (channel 1-4):");
if (ImGui::RadioButton("Capacitor (attack/decay)##EM00",groupEnv[0])) {
groupEnv[0]=true;
altered=true;
}
if (ImGui::RadioButton("External (volume macro)##EM01",!groupEnv[0])) {
groupEnv[0]=false;
altered=true;
}
ImGui::Text("Envelope mode (channel 5-8):");
if (ImGui::RadioButton("Capacitor (attack/decay)##EM10",groupEnv[1])) {
groupEnv[1]=true;
altered=true;
}
if (ImGui::RadioButton("External (volume macro)##EM11",!groupEnv[1])) {
groupEnv[1]=false;
altered=true;
}
ImGui::Text("Global vibrato:");
if (CWSliderInt("Speed",&vibSpeed,0,256)) {
if (vibSpeed<0) vibSpeed=0;
if (vibSpeed>256) vibSpeed=256;
altered=true;
} rightClickable
if (CWSliderFloat("Depth",&vibDepth,0.0f,256.0f)) {
if (vibDepth<0) vibDepth=0;
if (vibDepth>256) vibDepth=256;
altered=true;
} rightClickable
if (altered) {
flags.set("detune",detune);
flags.set("vibSpeed",vibSpeed);
flags.set("vibDepth",vibDepth);
flags.set("capValue0",capValue[0]);
flags.set("capValue1",capValue[1]);
flags.set("capValue2",capValue[2]);
flags.set("capValue3",capValue[3]);
flags.set("capValue4",capValue[4]);
flags.set("capValue5",capValue[5]);
flags.set("capValue6",capValue[6]);
flags.set("capValue7",capValue[7]);
flags.set("partVolume0",groupVol[0]);
flags.set("partVolume1",groupVol[1]);
flags.set("partVolume2",groupVol[2]);
flags.set("partVolume3",groupVol[3]);
flags.set("partVolume4",groupVol[4]);
flags.set("partVolume5",groupVol[5]);
flags.set("partVolume6",groupVol[6]);
flags.set("partVolume7",groupVol[7]);
flags.set("groupEnv0",groupEnv[0]);
flags.set("groupEnv1",groupEnv[1]);
}
break;
}
case DIV_SYSTEM_T6W28: {
bool noEasyNoise=flags.getBool("noEasyNoise",false);
if (ImGui::Checkbox("Disable easy period to note mapping on upper octaves",&noEasyNoise)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("noEasyNoise",noEasyNoise);
});
}
break;
}
case DIV_SYSTEM_K007232: {
bool stereo=flags.getBool("stereo",false);
if (ImGui::Checkbox("Stereo",&stereo)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("stereo",stereo);
});
}
break;
}
case DIV_SYSTEM_SWAN:
case DIV_SYSTEM_BUBSYS_WSG:
case DIV_SYSTEM_PET:
case DIV_SYSTEM_VBOY:
case DIV_SYSTEM_GA20:
ImGui::Text("nothing to configure");
break;
case DIV_SYSTEM_VERA:
case DIV_SYSTEM_YMU759:
supportsCustomRate=false;
break;
default: {
bool sysPal=flags.getInt("clockSel",0);
if (ImGui::Checkbox("PAL",&sysPal)) {
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",(int)sysPal);
});
}
break;
}
}
if (supportsCustomRate) {
ImGui::Separator();
int customClock=flags.getInt("customClock",0);
bool usingCustomClock=customClock>=MIN_CUSTOM_CLOCK;
if (ImGui::Checkbox("Custom clock rate",&usingCustomClock)) {
if (usingCustomClock) {
customClock=MIN_CUSTOM_CLOCK;
} else {
customClock=0;
}
altered=true;
}
if (ImGui::InputInt("Hz",&customClock)) {
if (customClock<MIN_CUSTOM_CLOCK) customClock=0;
if (customClock>MAX_CUSTOM_CLOCK) customClock=MAX_CUSTOM_CLOCK;
altered=true;
}
if (altered) {
e->lockSave([&]() {
flags.set("customClock",customClock);
});
}
}
if (altered) {
if (chan>=0) {
e->updateSysFlags(chan,restart);
if (e->song.autoSystem) {
autoDetectSystem();
}
updateWindowTitle();
}
MARK_MODIFIED;
}
return altered;
}
Reference in New Issue View Git Blame Copy Permalink