/** * 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 "gui.h" #include "../ta-log.h" #include #include #include "actionUtil.h" #include "sampleUtil.h" const unsigned char avRequest[15]={ 0xf0, 0x43, 0x20, 0x7e, 0x4c, 0x4d, 0x20, 0x20, 0x38, 0x39, 0x37, 0x36, 0x41, 0x45, 0xf7 }; void FurnaceGUI::doAction(int what) { switch (what) { case GUI_ACTION_OPEN: if (modified) { showWarning("Unsaved changes! Save changes before opening another file?",GUI_WARN_OPEN); } else { openFileDialog(GUI_FILE_OPEN); } break; case GUI_ACTION_OPEN_BACKUP: if (modified) { showWarning("Unsaved changes! Save changes before opening backup?",GUI_WARN_OPEN_BACKUP); } else { if (load(backupPath)>0) { showError("No backup available! (or unable to open it)"); } } break; case GUI_ACTION_SAVE: if (curFileName=="" || curFileName==backupPath || e->song.version>=0xff00) { openFileDialog(GUI_FILE_SAVE); } else { if (save(curFileName,e->song.isDMF?e->song.version:0)>0) { showError(fmt::sprintf("Error while saving file! (%s)",lastError)); } } break; case GUI_ACTION_SAVE_AS: openFileDialog(GUI_FILE_SAVE); break; case GUI_ACTION_UNDO: if (curWindow==GUI_WINDOW_SAMPLE_EDIT) { doUndoSample(); } else { doUndo(); } break; case GUI_ACTION_REDO: if (curWindow==GUI_WINDOW_SAMPLE_EDIT) { doRedoSample(); } else { doRedo(); } break; case GUI_ACTION_PLAY_TOGGLE: if (e->isPlaying() && !e->isStepping()) { stop(); } else { play(); } break; case GUI_ACTION_PLAY: play(); break; case GUI_ACTION_STOP: stop(); break; case GUI_ACTION_PLAY_REPEAT: play(); e->setRepeatPattern(true); break; case GUI_ACTION_PLAY_CURSOR: if (e->isPlaying() && !e->isStepping()) { stop(); } else { play(cursor.y); } break; case GUI_ACTION_STEP_ONE: e->stepOne(cursor.y); break; case GUI_ACTION_OCTAVE_UP: if (++curOctave>7) { curOctave=7; } else { e->autoNoteOffAll(); } break; case GUI_ACTION_OCTAVE_DOWN: if (--curOctave<-5) { curOctave=-5; } else { e->autoNoteOffAll(); } break; case GUI_ACTION_INS_UP: if (--curIns<-1) curIns=-1; break; case GUI_ACTION_INS_DOWN: if (++curIns>=(int)e->song.ins.size()) curIns=((int)e->song.ins.size())-1; break; case GUI_ACTION_STEP_UP: if (++editStep>64) editStep=64; break; case GUI_ACTION_STEP_DOWN: if (--editStep<0) editStep=0; break; case GUI_ACTION_TOGGLE_EDIT: edit=!edit; break; case GUI_ACTION_METRONOME: e->setMetronome(!e->getMetronome()); break; case GUI_ACTION_REPEAT_PATTERN: e->setRepeatPattern(!e->getRepeatPattern()); break; case GUI_ACTION_FOLLOW_ORDERS: followOrders=!followOrders; break; case GUI_ACTION_FOLLOW_PATTERN: followPattern=!followPattern; break; case GUI_ACTION_FULLSCREEN: fullScreen=!fullScreen; SDL_SetWindowFullscreen(sdlWin,fullScreen?(SDL_WINDOW_FULLSCREEN|SDL_WINDOW_FULLSCREEN_DESKTOP):0); break; case GUI_ACTION_TX81Z_REQUEST: { TAMidiMessage msg; msg.type=TA_MIDI_SYSEX; msg.sysExData.reset(new unsigned char[15]); msg.sysExLen=15; memcpy(msg.sysExData.get(),avRequest,15); if (!e->sendMidiMessage(msg)) { showError("Error while sending request (MIDI output not configured?)"); } break; } case GUI_ACTION_PANIC: e->syncReset(); break; case GUI_ACTION_WINDOW_EDIT_CONTROLS: nextWindow=GUI_WINDOW_EDIT_CONTROLS; break; case GUI_ACTION_WINDOW_ORDERS: nextWindow=GUI_WINDOW_ORDERS; break; case GUI_ACTION_WINDOW_INS_LIST: nextWindow=GUI_WINDOW_INS_LIST; break; case GUI_ACTION_WINDOW_INS_EDIT: nextWindow=GUI_WINDOW_INS_EDIT; break; case GUI_ACTION_WINDOW_SONG_INFO: nextWindow=GUI_WINDOW_SONG_INFO; break; case GUI_ACTION_WINDOW_PATTERN: nextWindow=GUI_WINDOW_PATTERN; break; case GUI_ACTION_WINDOW_WAVE_LIST: nextWindow=GUI_WINDOW_WAVE_LIST; break; case GUI_ACTION_WINDOW_WAVE_EDIT: nextWindow=GUI_WINDOW_WAVE_EDIT; break; case GUI_ACTION_WINDOW_SAMPLE_LIST: nextWindow=GUI_WINDOW_SAMPLE_LIST; break; case GUI_ACTION_WINDOW_SAMPLE_EDIT: nextWindow=GUI_WINDOW_SAMPLE_EDIT; break; case GUI_ACTION_WINDOW_ABOUT: nextWindow=GUI_WINDOW_ABOUT; break; case GUI_ACTION_WINDOW_SETTINGS: nextWindow=GUI_WINDOW_SETTINGS; break; case GUI_ACTION_WINDOW_MIXER: nextWindow=GUI_WINDOW_MIXER; break; case GUI_ACTION_WINDOW_DEBUG: nextWindow=GUI_WINDOW_DEBUG; break; case GUI_ACTION_WINDOW_OSCILLOSCOPE: nextWindow=GUI_WINDOW_OSCILLOSCOPE; break; case GUI_ACTION_WINDOW_VOL_METER: nextWindow=GUI_WINDOW_VOL_METER; break; case GUI_ACTION_WINDOW_STATS: nextWindow=GUI_WINDOW_STATS; break; case GUI_ACTION_WINDOW_COMPAT_FLAGS: nextWindow=GUI_WINDOW_COMPAT_FLAGS; break; case GUI_ACTION_WINDOW_PIANO: nextWindow=GUI_WINDOW_PIANO; break; case GUI_ACTION_WINDOW_NOTES: nextWindow=GUI_WINDOW_NOTES; break; case GUI_ACTION_WINDOW_CHANNELS: nextWindow=GUI_WINDOW_CHANNELS; break; case GUI_ACTION_WINDOW_REGISTER_VIEW: nextWindow=GUI_WINDOW_REGISTER_VIEW; break; case GUI_ACTION_WINDOW_LOG: nextWindow=GUI_WINDOW_LOG; break; case GUI_ACTION_WINDOW_EFFECT_LIST: nextWindow=GUI_WINDOW_EFFECT_LIST; break; case GUI_ACTION_WINDOW_CHAN_OSC: nextWindow=GUI_WINDOW_CHAN_OSC; break; case GUI_ACTION_COLLAPSE_WINDOW: collapseWindow=true; break; case GUI_ACTION_CLOSE_WINDOW: switch (curWindow) { case GUI_WINDOW_EDIT_CONTROLS: editControlsOpen=false; break; case GUI_WINDOW_SONG_INFO: songInfoOpen=false; break; case GUI_WINDOW_ORDERS: ordersOpen=false; break; case GUI_WINDOW_INS_LIST: insListOpen=false; break; case GUI_WINDOW_PATTERN: patternOpen=false; break; case GUI_WINDOW_INS_EDIT: insEditOpen=false; break; case GUI_WINDOW_WAVE_LIST: waveListOpen=false; break; case GUI_WINDOW_WAVE_EDIT: waveEditOpen=false; break; case GUI_WINDOW_SAMPLE_LIST: sampleListOpen=false; break; case GUI_WINDOW_SAMPLE_EDIT: sampleEditOpen=false; break; case GUI_WINDOW_MIXER: mixerOpen=false; break; case GUI_WINDOW_ABOUT: aboutOpen=false; break; case GUI_WINDOW_SETTINGS: settingsOpen=false; break; case GUI_WINDOW_DEBUG: debugOpen=false; break; case GUI_WINDOW_OSCILLOSCOPE: oscOpen=false; break; case GUI_WINDOW_VOL_METER: volMeterOpen=false; break; case GUI_WINDOW_STATS: statsOpen=false; break; case GUI_WINDOW_COMPAT_FLAGS: compatFlagsOpen=false; break; case GUI_WINDOW_PIANO: pianoOpen=false; break; case GUI_WINDOW_NOTES: notesOpen=false; break; case GUI_WINDOW_CHANNELS: channelsOpen=false; break; case GUI_WINDOW_REGISTER_VIEW: regViewOpen=false; break; case GUI_WINDOW_LOG: logOpen=false; break; case GUI_WINDOW_EFFECT_LIST: effectListOpen=false; break; case GUI_WINDOW_CHAN_OSC: chanOscOpen=false; break; default: break; } curWindow=GUI_WINDOW_NOTHING; break; case GUI_ACTION_PAT_NOTE_UP: doTranspose(1,opMaskTransposeNote); break; case GUI_ACTION_PAT_NOTE_DOWN: doTranspose(-1,opMaskTransposeNote); break; case GUI_ACTION_PAT_OCTAVE_UP: doTranspose(12,opMaskTransposeNote); break; case GUI_ACTION_PAT_OCTAVE_DOWN: doTranspose(-12,opMaskTransposeNote); break; case GUI_ACTION_PAT_VALUE_UP: doTranspose(1,opMaskTransposeValue); break; case GUI_ACTION_PAT_VALUE_DOWN: doTranspose(-1,opMaskTransposeValue); break; case GUI_ACTION_PAT_VALUE_UP_COARSE: doTranspose(16,opMaskTransposeValue); break; case GUI_ACTION_PAT_VALUE_DOWN_COARSE: doTranspose(-16,opMaskTransposeValue); break; case GUI_ACTION_PAT_SELECT_ALL: doSelectAll(); break; case GUI_ACTION_PAT_CUT: doCopy(true); break; case GUI_ACTION_PAT_COPY: doCopy(false); break; case GUI_ACTION_PAT_PASTE: doPaste(); break; case GUI_ACTION_PAT_PASTE_MIX: doPaste(GUI_PASTE_MODE_MIX_FG); break; case GUI_ACTION_PAT_PASTE_MIX_BG: doPaste(GUI_PASTE_MODE_MIX_BG); break; case GUI_ACTION_PAT_PASTE_FLOOD: doPaste(GUI_PASTE_MODE_FLOOD); break; case GUI_ACTION_PAT_PASTE_OVERFLOW: doPaste(GUI_PASTE_MODE_OVERFLOW); break; case GUI_ACTION_PAT_CURSOR_UP: moveCursor(0,-MAX(1,settings.scrollStep?editStep:1),false); break; case GUI_ACTION_PAT_CURSOR_DOWN: moveCursor(0,MAX(1,settings.scrollStep?editStep:1),false); break; case GUI_ACTION_PAT_CURSOR_LEFT: moveCursor(-1,0,false); break; case GUI_ACTION_PAT_CURSOR_RIGHT: moveCursor(1,0,false); break; case GUI_ACTION_PAT_CURSOR_UP_ONE: moveCursor(0,-1,false); break; case GUI_ACTION_PAT_CURSOR_DOWN_ONE: moveCursor(0,1,false); break; case GUI_ACTION_PAT_CURSOR_LEFT_CHANNEL: moveCursorPrevChannel(false); break; case GUI_ACTION_PAT_CURSOR_RIGHT_CHANNEL: moveCursorNextChannel(false); break; case GUI_ACTION_PAT_CURSOR_NEXT_CHANNEL: moveCursorNextChannel(true); break; case GUI_ACTION_PAT_CURSOR_PREVIOUS_CHANNEL: moveCursorPrevChannel(true); break; case GUI_ACTION_PAT_CURSOR_BEGIN: moveCursorTop(false); break; case GUI_ACTION_PAT_CURSOR_END: moveCursorBottom(false); break; case GUI_ACTION_PAT_CURSOR_UP_COARSE: moveCursor(0,-16,false); break; case GUI_ACTION_PAT_CURSOR_DOWN_COARSE: moveCursor(0,16,false); break; case GUI_ACTION_PAT_SELECTION_UP: moveCursor(0,-MAX(1,settings.scrollStep?editStep:1),true); break; case GUI_ACTION_PAT_SELECTION_DOWN: moveCursor(0,MAX(1,settings.scrollStep?editStep:1),true); break; case GUI_ACTION_PAT_SELECTION_LEFT: moveCursor(-1,0,true); break; case GUI_ACTION_PAT_SELECTION_RIGHT: moveCursor(1,0,true); break; case GUI_ACTION_PAT_SELECTION_UP_ONE: moveCursor(0,-1,true); break; case GUI_ACTION_PAT_SELECTION_DOWN_ONE: moveCursor(0,1,true); break; case GUI_ACTION_PAT_SELECTION_BEGIN: moveCursorTop(true); break; case GUI_ACTION_PAT_SELECTION_END: moveCursorBottom(true); break; case GUI_ACTION_PAT_SELECTION_UP_COARSE: moveCursor(0,-16,true); break; case GUI_ACTION_PAT_SELECTION_DOWN_COARSE: moveCursor(0,16,true); break; case GUI_ACTION_PAT_DELETE: doDelete(); if (settings.stepOnDelete) { moveCursor(0,editStep,false); } break; case GUI_ACTION_PAT_PULL_DELETE: doPullDelete(); break; case GUI_ACTION_PAT_INSERT: doInsert(); if (settings.stepOnInsert) { moveCursor(0,editStep,false); } break; case GUI_ACTION_PAT_MUTE_CURSOR: if (cursor.xCoarse<0 || cursor.xCoarse>=e->getTotalChannelCount()) break; e->toggleMute(cursor.xCoarse); break; case GUI_ACTION_PAT_SOLO_CURSOR: if (cursor.xCoarse<0 || cursor.xCoarse>=e->getTotalChannelCount()) break; e->toggleSolo(cursor.xCoarse); break; case GUI_ACTION_PAT_UNMUTE_ALL: e->unmuteAll(); break; case GUI_ACTION_PAT_NEXT_ORDER: if (curOrdercurSubSong->ordersLen-1) { setOrder(curOrder+1); } break; case GUI_ACTION_PAT_PREV_ORDER: if (curOrder>0) { setOrder(curOrder-1); } break; case GUI_ACTION_PAT_COLLAPSE: if (cursor.xCoarse<0 || cursor.xCoarse>=e->getTotalChannelCount()) break; if (e->curSubSong->chanCollapse[cursor.xCoarse]==0) { e->curSubSong->chanCollapse[cursor.xCoarse]=3; } else if (e->curSubSong->chanCollapse[cursor.xCoarse]>0) { e->curSubSong->chanCollapse[cursor.xCoarse]--; } break; case GUI_ACTION_PAT_INCREASE_COLUMNS: if (cursor.xCoarse<0 || cursor.xCoarse>=e->getTotalChannelCount()) break; e->curPat[cursor.xCoarse].effectCols++; if (e->curPat[cursor.xCoarse].effectCols>8) e->curPat[cursor.xCoarse].effectCols=8; break; case GUI_ACTION_PAT_DECREASE_COLUMNS: if (cursor.xCoarse<0 || cursor.xCoarse>=e->getTotalChannelCount()) break; e->curPat[cursor.xCoarse].effectCols--; if (e->curPat[cursor.xCoarse].effectCols<1) e->curPat[cursor.xCoarse].effectCols=1; break; case GUI_ACTION_PAT_INTERPOLATE: doInterpolate(); break; case GUI_ACTION_PAT_INVERT_VALUES: doInvertValues(); break; case GUI_ACTION_PAT_FLIP_SELECTION: doFlip(); break; case GUI_ACTION_PAT_COLLAPSE_ROWS: doCollapse(2); break; case GUI_ACTION_PAT_EXPAND_ROWS: doExpand(2); break; case GUI_ACTION_PAT_COLLAPSE_PAT: // TODO break; case GUI_ACTION_PAT_EXPAND_PAT: // TODO break; case GUI_ACTION_PAT_COLLAPSE_SONG: // TODO break; case GUI_ACTION_PAT_EXPAND_SONG: // TODO break; case GUI_ACTION_PAT_LATCH: // TODO break; case GUI_ACTION_INS_LIST_ADD: curIns=e->addInstrument(cursor.xCoarse); if (curIns==-1) { showError("too many instruments!"); } else { MARK_MODIFIED; } break; case GUI_ACTION_INS_LIST_DUPLICATE: if (curIns>=0 && curIns<(int)e->song.ins.size()) { int prevIns=curIns; curIns=e->addInstrument(cursor.xCoarse); if (curIns==-1) { showError("too many instruments!"); } else { (*e->song.ins[curIns])=(*e->song.ins[prevIns]); MARK_MODIFIED; } } break; case GUI_ACTION_INS_LIST_OPEN: openFileDialog(GUI_FILE_INS_OPEN); break; case GUI_ACTION_INS_LIST_OPEN_REPLACE: openFileDialog(GUI_FILE_INS_OPEN_REPLACE); break; case GUI_ACTION_INS_LIST_SAVE: if (curIns>=0 && curIns<(int)e->song.ins.size()) openFileDialog(GUI_FILE_INS_SAVE); break; case GUI_ACTION_INS_LIST_MOVE_UP: if (e->moveInsUp(curIns)) curIns--; break; case GUI_ACTION_INS_LIST_MOVE_DOWN: if (e->moveInsDown(curIns)) curIns++; break; case GUI_ACTION_INS_LIST_DELETE: if (curIns>=0 && curIns<(int)e->song.ins.size()) { e->delInstrument(curIns); MARK_MODIFIED; if (curIns>=(int)e->song.ins.size()) { curIns--; } } break; case GUI_ACTION_INS_LIST_EDIT: insEditOpen=true; break; case GUI_ACTION_INS_LIST_UP: if (--curIns<0) curIns=0; break; case GUI_ACTION_INS_LIST_DOWN: if (++curIns>=(int)e->song.ins.size()) curIns=((int)e->song.ins.size())-1; break; case GUI_ACTION_WAVE_LIST_ADD: curWave=e->addWave(); if (curWave==-1) { showError("too many wavetables!"); } else { MARK_MODIFIED; } break; case GUI_ACTION_WAVE_LIST_DUPLICATE: if (curWave>=0 && curWave<(int)e->song.wave.size()) { int prevWave=curWave; curWave=e->addWave(); if (curWave==-1) { showError("too many wavetables!"); } else { (*e->song.wave[curWave])=(*e->song.wave[prevWave]); MARK_MODIFIED; } } break; case GUI_ACTION_WAVE_LIST_OPEN: openFileDialog(GUI_FILE_WAVE_OPEN); break; case GUI_ACTION_WAVE_LIST_SAVE: if (curWave>=0 && curWave<(int)e->song.wave.size()) openFileDialog(GUI_FILE_WAVE_SAVE); break; case GUI_ACTION_WAVE_LIST_MOVE_UP: if (e->moveWaveUp(curWave)) curWave--; break; case GUI_ACTION_WAVE_LIST_MOVE_DOWN: if (e->moveWaveDown(curWave)) curWave++; break; case GUI_ACTION_WAVE_LIST_DELETE: if (curWave>=0 && curWave<(int)e->song.wave.size()) { e->delWave(curWave); MARK_MODIFIED; if (curWave>=(int)e->song.wave.size()) { curWave--; } } break; case GUI_ACTION_WAVE_LIST_EDIT: waveEditOpen=true; break; case GUI_ACTION_WAVE_LIST_UP: if (--curWave<0) curWave=0; break; case GUI_ACTION_WAVE_LIST_DOWN: if (++curWave>=(int)e->song.wave.size()) curWave=((int)e->song.wave.size())-1; break; case GUI_ACTION_SAMPLE_LIST_ADD: curSample=e->addSample(); if (curSample==-1) { showError("too many samples!"); } else { MARK_MODIFIED; } updateSampleTex=true; break; case GUI_ACTION_SAMPLE_LIST_DUPLICATE: if (curSample>=0 && curSample<(int)e->song.sample.size()) { DivSample* prevSample=e->getSample(curSample); curSample=e->addSample(); if (curSample==-1) { showError("too many samples!"); } else { e->lockEngine([this,prevSample]() { DivSample* sample=e->getSample(curSample); if (sample!=NULL) { sample->rate=prevSample->rate; sample->centerRate=prevSample->centerRate; sample->name=prevSample->name; sample->loopStart=prevSample->loopStart; sample->depth=prevSample->depth; if (sample->init(prevSample->samples)) { if (prevSample->getCurBuf()!=NULL) { memcpy(sample->getCurBuf(),prevSample->getCurBuf(),prevSample->getCurBufLen()); } } } e->renderSamples(); }); MARK_MODIFIED; } updateSampleTex=true; } break; case GUI_ACTION_SAMPLE_LIST_OPEN: openFileDialog(GUI_FILE_SAMPLE_OPEN); break; case GUI_ACTION_SAMPLE_LIST_SAVE: if (curSample>=0 && curSample<(int)e->song.sample.size()) openFileDialog(GUI_FILE_SAMPLE_SAVE); break; case GUI_ACTION_SAMPLE_LIST_MOVE_UP: if (e->moveSampleUp(curSample)) { curSample--; updateSampleTex=true; } break; case GUI_ACTION_SAMPLE_LIST_MOVE_DOWN: if (e->moveSampleDown(curSample)) { curSample++; updateSampleTex=true; } break; case GUI_ACTION_SAMPLE_LIST_DELETE: e->delSample(curSample); MARK_MODIFIED; if (curSample>=(int)e->song.sample.size()) { curSample--; updateSampleTex=true; } break; case GUI_ACTION_SAMPLE_LIST_EDIT: sampleEditOpen=true; break; case GUI_ACTION_SAMPLE_LIST_UP: if (--curSample<0) curSample=0; updateSampleTex=true; break; case GUI_ACTION_SAMPLE_LIST_DOWN: if (++curSample>=(int)e->song.sample.size()) curSample=((int)e->song.sample.size())-1; updateSampleTex=true; break; case GUI_ACTION_SAMPLE_LIST_PREVIEW: e->previewSample(curSample); break; case GUI_ACTION_SAMPLE_LIST_STOP_PREVIEW: e->stopSamplePreview(); break; case GUI_ACTION_SAMPLE_SELECT: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; sampleDragMode=false; break; case GUI_ACTION_SAMPLE_DRAW: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; sampleDragMode=true; break; case GUI_ACTION_SAMPLE_CUT: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; SAMPLE_OP_BEGIN; if (end-start<1) break; sample->prepareUndo(true); if (sampleClipboard!=NULL) { delete[] sampleClipboard; } sampleClipboard=new short[end-start]; sampleClipboardLen=end-start; memcpy(sampleClipboard,&(sample->data16[start]),sizeof(short)*(end-start)); e->lockEngine([this,sample,start,end]() { sample->strip(start,end); updateSampleTex=true; e->renderSamples(); }); sampleSelStart=-1; sampleSelEnd=-1; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_COPY: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; SAMPLE_OP_BEGIN; if (end-start<1) break; if (sampleClipboard!=NULL) { delete[] sampleClipboard; } sampleClipboard=new short[end-start]; sampleClipboardLen=end-start; memcpy(sampleClipboard,&(sample->data16[start]),sizeof(short)*(end-start)); break; } case GUI_ACTION_SAMPLE_PASTE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; if (sampleClipboard==NULL || sampleClipboardLen<1) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); int pos=(sampleSelStart==-1 || sampleSelStart==sampleSelEnd)?sample->samples:sampleSelStart; if (pos>=(int)sample->samples) pos=sample->samples-1; if (pos<0) pos=0; logV("paste position: %d",pos); e->lockEngine([this,sample,pos]() { if (!sample->insert(pos,sampleClipboardLen)) { showError("couldn't paste! make sure your sample is 8 or 16-bit."); } else { if (sample->depth==8) { for (size_t i=0; idata8[pos+i]=sampleClipboard[i]>>8; } } else { memcpy(&(sample->data16[pos]),sampleClipboard,sizeof(short)*sampleClipboardLen); } } e->renderSamples(); }); sampleSelStart=pos; sampleSelEnd=pos+sampleClipboardLen; updateSampleTex=true; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_PASTE_REPLACE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; if (sampleClipboard==NULL || sampleClipboardLen<1) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); int pos=(sampleSelStart==-1 || sampleSelStart==sampleSelEnd)?0:sampleSelStart; if (pos>=(int)sample->samples) pos=sample->samples-1; if (pos<0) pos=0; e->lockEngine([this,sample,pos]() { if (sample->depth==8) { for (size_t i=0; i=sample->samples) break; sample->data8[pos+i]=sampleClipboard[i]>>8; } } else { for (size_t i=0; i=sample->samples) break; sample->data16[pos+i]=sampleClipboard[i]; } } e->renderSamples(); }); sampleSelStart=pos; sampleSelEnd=pos+sampleClipboardLen; if (sampleSelEnd>(int)sample->samples) sampleSelEnd=sample->samples; updateSampleTex=true; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_PASTE_MIX: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; if (sampleClipboard==NULL || sampleClipboardLen<1) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); int pos=(sampleSelStart==-1 || sampleSelStart==sampleSelEnd)?0:sampleSelStart; if (pos>=(int)sample->samples) pos=sample->samples-1; if (pos<0) pos=0; e->lockEngine([this,sample,pos]() { if (sample->depth==8) { for (size_t i=0; i=sample->samples) break; int val=sample->data8[pos+i]+(sampleClipboard[i]>>8); if (val>127) val=127; if (val<-128) val=-128; sample->data8[pos+i]=val; } } else { for (size_t i=0; i=sample->samples) break; int val=sample->data16[pos+i]+sampleClipboard[i]; if (val>32767) val=32767; if (val<-32768) val=-32768; sample->data16[pos+i]=val; } } e->renderSamples(); }); sampleSelStart=pos; sampleSelEnd=pos+sampleClipboardLen; if (sampleSelEnd>(int)sample->samples) sampleSelEnd=sample->samples; updateSampleTex=true; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_SELECT_ALL: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sampleDragActive=false; sampleSelStart=0; sampleSelEnd=sample->samples; break; } case GUI_ACTION_SAMPLE_RESIZE: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; openSampleResizeOpt=true; break; case GUI_ACTION_SAMPLE_RESAMPLE: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; openSampleResampleOpt=true; break; case GUI_ACTION_SAMPLE_AMPLIFY: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; openSampleAmplifyOpt=true; break; case GUI_ACTION_SAMPLE_NORMALIZE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; float maxVal=0.0f; if (sample->depth==16) { for (unsigned int i=start; idata16[i]/32767.0f); if (val>maxVal) maxVal=val; } if (maxVal>1.0f) maxVal=1.0f; if (maxVal>0.0f) { float vol=1.0f/maxVal; for (unsigned int i=start; idata16[i]*vol; if (val<-32768) val=-32768; if (val>32767) val=32767; sample->data16[i]=val; } } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]/127.0f); if (val>maxVal) maxVal=val; } if (maxVal>1.0f) maxVal=1.0f; if (maxVal>0.0f) { float vol=1.0f/maxVal; for (unsigned int i=start; idata8[i]*vol; if (val<-128) val=-128; if (val>127) val=127; sample->data8[i]=val; } } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_FADE_IN: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]*float(i-start)/float(end-start); if (val<-32768) val=-32768; if (val>32767) val=32767; sample->data16[i]=val; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]*float(i-start)/float(end-start); if (val<-128) val=-128; if (val>127) val=127; sample->data8[i]=val; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_FADE_OUT: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]*float(end-i)/float(end-start); if (val<-32768) val=-32768; if (val>32767) val=32767; sample->data16[i]=val; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]*float(end-i)/float(end-start); if (val<-128) val=-128; if (val>127) val=127; sample->data8[i]=val; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_INSERT: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; openSampleSilenceOpt=true; break; case GUI_ACTION_SAMPLE_SILENCE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]=0; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]=0; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_DELETE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; sample->strip(start,end); updateSampleTex=true; e->renderSamples(); }); sampleSelStart=-1; sampleSelEnd=-1; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_TRIM: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; sample->trim(start,end); updateSampleTex=true; e->renderSamples(); }); sampleSelStart=-1; sampleSelEnd=-1; MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_REVERSE: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]^=sample->data16[ri]; sample->data16[ri]^=sample->data16[i]; sample->data16[i]^=sample->data16[ri]; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]^=sample->data8[ri]; sample->data8[ri]^=sample->data8[i]; sample->data8[i]^=sample->data8[ri]; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_INVERT: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]=-sample->data16[i]; if (sample->data16[i]==-32768) sample->data16[i]=32767; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]=-sample->data8[i]; if (sample->data16[i]==-128) sample->data16[i]=127; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_SIGN: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; sample->prepareUndo(true); e->lockEngine([this,sample]() { SAMPLE_OP_BEGIN; if (sample->depth==16) { for (unsigned int i=start; idata16[i]^=0x8000; } } else if (sample->depth==8) { for (unsigned int i=start; idata8[i]^=0x80; } } updateSampleTex=true; e->renderSamples(); }); MARK_MODIFIED; break; } case GUI_ACTION_SAMPLE_FILTER: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; openSampleFilterOpt=true; break; case GUI_ACTION_SAMPLE_PREVIEW: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; e->previewSample(curSample); break; case GUI_ACTION_SAMPLE_STOP_PREVIEW: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; e->stopSamplePreview(); break; case GUI_ACTION_SAMPLE_ZOOM_IN: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; double zoomPercent=100.0/sampleZoom; zoomPercent+=10.0; if (zoomPercent>10000.0) zoomPercent=10000.0; if (zoomPercent<1.0) zoomPercent=1.0; sampleZoom=100.0/zoomPercent; if (sampleZoom<0.01) sampleZoom=0.01; sampleZoomAuto=false; updateSampleTex=true; break; } case GUI_ACTION_SAMPLE_ZOOM_OUT: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; double zoomPercent=100.0/sampleZoom; zoomPercent-=10.0; if (zoomPercent>10000.0) zoomPercent=10000.0; if (zoomPercent<1.0) zoomPercent=1.0; sampleZoom=100.0/zoomPercent; if (sampleZoom<0.01) sampleZoom=0.01; sampleZoomAuto=false; updateSampleTex=true; break; } case GUI_ACTION_SAMPLE_ZOOM_AUTO: if (curSample<0 || curSample>=(int)e->song.sample.size()) break; if (sampleZoomAuto) { sampleZoom=1.0; sampleZoomAuto=false; updateSampleTex=true; } else { sampleZoomAuto=true; updateSampleTex=true; } break; case GUI_ACTION_SAMPLE_MAKE_INS: { if (curSample<0 || curSample>=(int)e->song.sample.size()) break; DivSample* sample=e->song.sample[curSample]; curIns=e->addInstrument(cursor.xCoarse); if (curIns==-1) { showError("too many instruments!"); } else { e->song.ins[curIns]->type=DIV_INS_AMIGA; e->song.ins[curIns]->name=sample->name; e->song.ins[curIns]->amiga.initSample=curSample; nextWindow=GUI_WINDOW_INS_EDIT; MARK_MODIFIED; } break; } case GUI_ACTION_ORDERS_UP: if (curOrder>0) { setOrder(curOrder-1); } break; case GUI_ACTION_ORDERS_DOWN: if (curOrdercurSubSong->ordersLen-1) { setOrder(curOrder+1); } break; case GUI_ACTION_ORDERS_LEFT: { DETERMINE_FIRST; do { orderCursor--; if (orderCursorcurSubSong->chanShow[orderCursor]); break; } case GUI_ACTION_ORDERS_RIGHT: { DETERMINE_LAST; do { orderCursor++; if (orderCursor>=lastChannel) { orderCursor=lastChannel-1; break; } } while (!e->curSubSong->chanShow[orderCursor]); break; } case GUI_ACTION_ORDERS_INCREASE: { if (orderCursor<0 || orderCursor>=e->getTotalChannelCount()) break; if (e->curOrders->ord[orderCursor][curOrder]<0x7f) { e->curOrders->ord[orderCursor][curOrder]++; } break; } case GUI_ACTION_ORDERS_DECREASE: { if (orderCursor<0 || orderCursor>=e->getTotalChannelCount()) break; if (e->curOrders->ord[orderCursor][curOrder]>0) { e->curOrders->ord[orderCursor][curOrder]--; } break; } case GUI_ACTION_ORDERS_EDIT_MODE: orderEditMode++; if (orderEditMode>3) orderEditMode=0; break; case GUI_ACTION_ORDERS_LINK: changeAllOrders=!changeAllOrders; break; case GUI_ACTION_ORDERS_ADD: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->addOrder(false,false); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_DUPLICATE: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->addOrder(true,false); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_DEEP_CLONE: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->deepCloneOrder(false); makeUndo(GUI_UNDO_CHANGE_ORDER); if (!e->getWarnings().empty()) { showWarning(e->getWarnings(),GUI_WARN_GENERIC); } break; case GUI_ACTION_ORDERS_DUPLICATE_END: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->addOrder(true,true); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_DEEP_CLONE_END: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->deepCloneOrder(true); makeUndo(GUI_UNDO_CHANGE_ORDER); if (!e->getWarnings().empty()) { showWarning(e->getWarnings(),GUI_WARN_GENERIC); } break; case GUI_ACTION_ORDERS_REMOVE: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->deleteOrder(); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_MOVE_UP: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->moveOrderUp(); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_MOVE_DOWN: prepareUndo(GUI_UNDO_CHANGE_ORDER); e->moveOrderDown(); makeUndo(GUI_UNDO_CHANGE_ORDER); break; case GUI_ACTION_ORDERS_REPLAY: setOrder(curOrder); break; } }