ref: c1ad6de18c3cda9591fd4f881575d6088a0d9057
dir: /src/ft2_inst_ed.c/
// for finding memory leaks in debug mode with Visual Studio #if defined _DEBUG && defined _MSC_VER #include <crtdbg.h> #endif #include <stdio.h> #include <stdint.h> #include <stdbool.h> #include <math.h> #include "ft2_header.h" #include "ft2_config.h" #include "ft2_audio.h" #include "ft2_pattern_ed.h" #include "ft2_gui.h" #include "scopes/ft2_scopes.h" #include "ft2_sample_ed.h" #include "ft2_mouse.h" #include "ft2_video.h" #include "ft2_sample_loader.h" #include "ft2_diskop.h" #include "ft2_tables.h" #include "ft2_bmp.h" #include "ft2_structs.h" #include "ft2_bmp.h" #ifdef _MSC_VER #pragma pack(push) #pragma pack(1) #endif typedef struct patHdr_t { char ID[22], junk1[60]; uint8_t numInstrs, junk2, numChannels; int16_t waveforms, masterVol; int32_t dataSize; char junk4[36]; int16_t junk5; char instrName[16]; int32_t instrSize; uint8_t layers; char junk6[40]; uint8_t junk7, junk8; int32_t junk9; uint8_t numSamples; char junk10[40]; } #ifdef __GNUC__ __attribute__ ((packed)) #endif patHdr_t; typedef struct patWaveHdr_t { char name[7]; uint8_t fractions; int32_t sampleLength, loopStart, loopEnd; uint16_t sampleRate; int32_t lowFrq, highFreq, rootFrq; int16_t finetune; uint8_t panning, envRate[6], envOfs[6], tremSweep, tremRate; uint8_t tremDepth, vibSweep, vibRate, vibDepth, flags; int16_t junk1; uint16_t junk2; char junk3[36]; } #ifdef __GNUC__ __attribute__ ((packed)) #endif patWaveHdr_t; typedef struct xiHdr_t { char ID[21], name[23], progName[20]; uint16_t version; uint8_t note2SampleLUT[96]; int16_t volEnvPoints[12][2], panEnvPoints[12][2]; uint8_t volEnvLength, panEnvLength, volEnvSustain, volEnvLoopStart, volEnvLoopEnd, panEnvSustain, panEnvLoopStart; uint8_t panEnvLoopEnd, volEnvFlags, panEnvFlags, vibType, vibSweep, vibDepth, vibRate; uint16_t fadeout; uint8_t midiOn, midiChannel; int16_t midiProgram, midiBend; uint8_t mute, reserved[15]; int16_t numSamples; xmSmpHdr_t smp[16]; } #ifdef __GNUC__ __attribute__ ((packed)) #endif xiHdr_t; #define PIANOKEY_WHITE_W 10 #define PIANOKEY_WHITE_H 46 #define PIANOKEY_BLACK_W 7 #define PIANOKEY_BLACK_H 29 static const bool keyIsBlackTab[12] = { false, true, false, true, false, false, true, false, true, false, true }; static const char sharpNote1Char[12] = { 'C', 'C', 'D', 'D', 'E', 'F', 'F', 'G', 'G', 'A', 'A', 'B' }; static const char sharpNote2Char[12] = { '-', '#', '-', '#', '-', '-', '#', '-', '#', '-', '#', '-' }; static const char flatNote1Char[12] = { 'C', 'D', 'D', 'E', 'E', 'F', 'G', 'G', 'A', 'A', 'B', 'B' }; static const char flatNote2Char[12] = { '-', 'b', '-', 'b', '-', '-', 'b', '-', 'b', '-', 'b', '-' }; static const uint8_t whiteKeyIndex[7] = { 0, 2, 4, 5, 7, 9, 11 }; static const uint16_t whiteKeysBmpOrder[12] = { 0, 0, 506, 0, 1012, 0, 0, 506, 0, 506, 0, 1012 }; static const uint8_t keyDigitXPos[12] = { 11, 16, 22, 27, 33, 44, 49, 55, 60, 66, 71, 77 }; static const uint8_t keyXPos[12] = { 8, 15, 19, 26, 30, 41, 48, 52, 59, 63, 70, 74 }; static volatile bool updateVolEnv, updatePanEnv; static bool pianoKeyStatus[96]; static int32_t lastMouseX, lastMouseY, saveMouseX, saveMouseY; static const uint8_t mx2PianoKey[77] = { 0,0,0,0,0,0,0,1,1,1,1,1,1,1,2,2,2,2,3,3,3,3,3,3,3,4,4,4,4, 4,4,4,4,5,5,5,5,5,5,5,6,6,6,6,6,6,6,7,7,7,7,8,8,8,8,8,8,8, 9,9,9,9,10,10,10,10,10,10,10,11,11,11,11,11,11,11,11 }; // thread data static uint16_t saveInstrNum; static SDL_Thread *thread; extern const uint16_t *note2Period; // ft2_replayer.c void updateInstEditor(void); void updateNewInstrument(void); void sanitizeInstrument(instr_t *ins) { if (ins == NULL) return; ins->midiProgram = CLAMP(ins->midiProgram, 0, 127); ins->midiBend = CLAMP(ins->midiBend, 0, 36); if (ins->midiChannel > 15) ins->midiChannel = 15; if (ins->autoVibDepth > 0x0F) ins->autoVibDepth = 0x0F; if (ins->autoVibRate > 0x3F) ins->autoVibRate = 0x3F; if (ins->autoVibType > 3) ins->autoVibType = 0; for (int32_t i = 0; i < 96; i++) { if (ins->note2SampleLUT[i] >= MAX_SMP_PER_INST) ins->note2SampleLUT[i] = MAX_SMP_PER_INST-1; } if (ins->volEnvLength > 12) ins->volEnvLength = 12; if (ins->volEnvLoopStart > 11) ins->volEnvLoopStart = 11; if (ins->volEnvLoopEnd > 11) ins->volEnvLoopEnd = 11; if (ins->volEnvSustain > 11) ins->volEnvSustain = 11; if (ins->panEnvLength > 12) ins->panEnvLength = 12; if (ins->panEnvLoopStart > 11) ins->panEnvLoopStart = 11; if (ins->panEnvLoopEnd > 11) ins->panEnvLoopEnd = 11; if (ins->panEnvSustain > 11) ins->panEnvSustain = 11; for (int32_t i = 0; i < 12; i++) { if ((uint16_t)ins->volEnvPoints[i][0] > 32767) ins->volEnvPoints[i][0] = 32767; if ((uint16_t)ins->panEnvPoints[i][0] > 32767) ins->panEnvPoints[i][0] = 32767; if ((uint16_t)ins->volEnvPoints[i][1] > 64) ins->volEnvPoints[i][1] = 64; if ((uint16_t)ins->panEnvPoints[i][1] > 63) ins->panEnvPoints[i][1] = 63; } } static instr_t *getCurDispInstr(void) { if (instr[editor.curInstr] == NULL) return instr[131]; return instr[editor.curInstr]; } static int32_t SDLCALL copyInstrThread(void *ptr) { const int16_t dstIns = editor.curInstr; const int16_t srcIns = editor.srcInstr; pauseAudio(); freeInstr(dstIns); bool error = false; if (instr[srcIns] != NULL) { error = true; if (allocateInstr(dstIns)) { int16_t i; sample_t *srcSmp; sample_t *dstSmp; memcpy(instr[dstIns], instr[srcIns], sizeof (instr_t)); // clear all copied sample structs (set up in cloneSample() later) dstSmp = instr[dstIns]->smp; for (i = 0; i < MAX_SMP_PER_INST; i++, dstSmp++) memset(dstSmp, 0, sizeof (sample_t)); // clone all the samples srcSmp = instr[srcIns]->smp; dstSmp = instr[dstIns]->smp; for (i = 0; i < MAX_SMP_PER_INST; i++, srcSmp++, dstSmp++) { if (!cloneSample(srcSmp, dstSmp)) break; } if (i == MAX_SMP_PER_INST) // did we manage to successfully copy the samples? error = false; // yes } } resumeAudio(); if (error) okBoxThreadSafe(0, "System message", "Not enough memory!"); // do not change instrument names! if (!error) { editor.updateCurInstr = true; setSongModifiedFlag(); } setMouseBusy(false); return false; (void)ptr; } void copyInstr(void) // dstInstr = srcInstr { if (editor.curInstr == 0 || editor.srcInstr == editor.curInstr) return; mouseAnimOn(); thread = SDL_CreateThread(copyInstrThread, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); return; } SDL_DetachThread(thread); } void xchgInstr(void) // dstInstr <-> srcInstr { if (editor.curInstr == 0 || editor.srcInstr == editor.curInstr) return; lockMixerCallback(); // swap instruments instr_t *dstTmp = instr[editor.curInstr]; instr[editor.curInstr] = instr[editor.srcInstr]; instr[editor.srcInstr] = dstTmp; // we do not swap instrument names (like FT2) unlockMixerCallback(); updateNewInstrument(); setSongModifiedFlag(); } static void drawMIDICh(void) { instr_t *ins = getCurDispInstr(); assert(ins->midiChannel <= 15); const uint8_t val = ins->midiChannel + 1; textOutFixed(156, 132, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[val]); } static void drawMIDIPrg(void) { instr_t *ins = getCurDispInstr(); assert(ins->midiProgram <= 127); textOutFixed(149, 146, PAL_FORGRND, PAL_DESKTOP, dec3StrTab[ins->midiProgram]); } static void drawMIDIBend(void) { instr_t *ins = getCurDispInstr(); assert(ins->midiBend <= 36); textOutFixed(156, 160, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->midiBend]); } void midiChDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_EXT_MIDI_CH, 1); } void midiChUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_EXT_MIDI_CH, 1); } void midiPrgDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_EXT_MIDI_PRG, 1); } void midiPrgUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_EXT_MIDI_PRG, 1); } void midiBendDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_EXT_MIDI_BEND, 1); } void midiBendUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_EXT_MIDI_BEND, 1); } void sbMidiChPos(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_EXT_MIDI_CH, 0, false); return; } if (ins->midiChannel != (uint8_t)pos) { ins->midiChannel = (uint8_t)pos; drawMIDICh(); setSongModifiedFlag(); } } void sbMidiPrgPos(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_EXT_MIDI_PRG, 0, false); return; } if (ins->midiProgram != (int16_t)pos) { ins->midiProgram = (int16_t)pos; drawMIDIPrg(); setSongModifiedFlag(); } } void sbMidiBendPos(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_EXT_MIDI_BEND, 0, false); return; } if (ins->midiBend != (int16_t)pos) { ins->midiBend = (int16_t)pos; drawMIDIBend(); setSongModifiedFlag(); } } void updateNewSample(void) { if (ui.instrSwitcherShown) updateInstrumentSwitcher(); updateSampleEditorSample(); if (ui.sampleEditorShown) updateSampleEditor(); if (ui.instEditorShown || ui.instEditorExtShown) updateInstEditor(); } void updateNewInstrument(void) { updateTextBoxPointers(); if (ui.instrSwitcherShown) updateInstrumentSwitcher(); editor.currVolEnvPoint = 0; editor.currPanEnvPoint = 0; updateSampleEditorSample(); if (ui.sampleEditorShown) updateSampleEditor(); if (ui.instEditorShown || ui.instEditorExtShown) updateInstEditor(); if (ui.advEditShown) updateAdvEdit(); } static void drawVolEnvSus(void) { instr_t *ins = getCurDispInstr(); assert(ins->volEnvSustain < 100); textOutFixed(382, 206, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->volEnvSustain]); } static void drawVolEnvRepS(void) { instr_t *ins = getCurDispInstr(); assert(ins->volEnvLoopStart < 100); textOutFixed(382, 233, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->volEnvLoopStart]); } static void drawVolEnvRepE(void) { instr_t *ins = getCurDispInstr(); assert(ins->volEnvLoopEnd < 100); textOutFixed(382, 247, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->volEnvLoopEnd]); } static void drawPanEnvSus(void) { instr_t *ins = getCurDispInstr(); assert(ins->panEnvSustain < 100); textOutFixed(382, 293, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->panEnvSustain]); } static void drawPanEnvRepS(void) { instr_t *ins = getCurDispInstr(); assert(ins->panEnvLoopStart < 100); textOutFixed(382, 320, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->panEnvLoopStart]); } static void drawPanEnvRepE(void) { instr_t *ins = getCurDispInstr(); assert(ins->panEnvLoopEnd < 100); textOutFixed(382, 334, PAL_FORGRND, PAL_DESKTOP, dec2StrTab[ins->panEnvLoopEnd]); } static void drawVolume(void) { sample_t *s; if (instr[editor.curInstr] == NULL) s = &instr[0]->smp[0]; else s = &instr[editor.curInstr]->smp[editor.curSmp]; hexOutBg(505, 177, PAL_FORGRND, PAL_DESKTOP, s->volume, 2); } static void drawPanning(void) { sample_t *s; if (instr[editor.curInstr] == NULL) s = &instr[0]->smp[0]; else s = &instr[editor.curInstr]->smp[editor.curSmp]; hexOutBg(505, 191, PAL_FORGRND, PAL_DESKTOP, s->panning, 2); } void drawC4Rate(void) { fillRect(465, 299, 71, 8, PAL_DESKTOP); int32_t C4Hz = 0; if (editor.curInstr != 0) { instr_t *ins = instr[editor.curInstr]; if (ins != NULL) C4Hz = (int32_t)(getSampleC4Rate(&ins->smp[editor.curSmp]) + 0.5); // rounded } char str[64]; sprintf(str, "%dHz", C4Hz); textOut(465, 299, PAL_FORGRND, str); } static void drawFineTune(void) { sample_t *s; if (instr[editor.curInstr] == NULL) s = &instr[0]->smp[0]; else s = &instr[editor.curInstr]->smp[editor.curSmp]; fillRect(491, 205, 27, 8, PAL_DESKTOP); int16_t ftune = s->finetune; if (ftune == 0) { charOut(512, 205, PAL_FORGRND, '0'); return; } const char sign = (ftune < 0) ? '-' : '+'; ftune = ABS(ftune); if (ftune >= 100) { charOut(491, 205, PAL_FORGRND, sign); charOut(498 + (0 * 7), 205, PAL_FORGRND, '0' + ((ftune / 100) % 10)); charOut(498 + (1 * 7), 205, PAL_FORGRND, '0' + ((ftune / 10) % 10)); charOut(498 + (2 * 7), 205, PAL_FORGRND, '0' + (ftune % 10)); } else if (ftune >= 10) { charOut(498, 205, PAL_FORGRND, sign); charOut(505 + (0 * 7), 205, PAL_FORGRND, '0' + ((ftune / 10) % 10)); charOut(505 + (1 * 7), 205, PAL_FORGRND, '0' + (ftune % 10)); } else { charOut(505, 205, PAL_FORGRND, sign); charOut(512, 205, PAL_FORGRND, '0' + (ftune % 10)); } } static void drawFadeout(void) { hexOutBg(498, 222, PAL_FORGRND, PAL_DESKTOP, getCurDispInstr()->fadeout, 3); } static void drawVibSpeed(void) { hexOutBg(505, 236, PAL_FORGRND, PAL_DESKTOP, getCurDispInstr()->autoVibRate, 2); } static void drawVibDepth(void) { hexOutBg(512, 250, PAL_FORGRND, PAL_DESKTOP, getCurDispInstr()->autoVibDepth, 1); } static void drawVibSweep(void) { hexOutBg(505, 264, PAL_FORGRND, PAL_DESKTOP, getCurDispInstr()->autoVibSweep, 2); } static void drawRelativeNote(void) { char noteChar1, noteChar2; int8_t note2; if (instr[editor.curInstr] == NULL) { fillRect(600, 299, 8*3, 8, PAL_BCKGRND); return; } if (editor.curInstr == 0) note2 = 48; else note2 = 48 + instr[editor.curInstr]->smp[editor.curSmp].relativeNote; const int8_t note = note2 % 12; if (config.ptnAcc == 0) { noteChar1 = sharpNote1Char[note]; noteChar2 = sharpNote2Char[note]; } else { noteChar1 = flatNote1Char[note]; noteChar2 = flatNote2Char[note]; } const char octaChar = '0' + (note2 / 12); charOutBg(600, 299, PAL_FORGRND, PAL_BCKGRND, noteChar1); charOutBg(608, 299, PAL_FORGRND, PAL_BCKGRND, noteChar2); charOutBg(616, 299, PAL_FORGRND, PAL_BCKGRND, octaChar); } static void setStdVolEnvelope(instr_t *ins, uint8_t num) { if (editor.curInstr == 0 || ins == NULL) return; pauseMusic(); ins->fadeout = config.stdFadeout[num]; ins->volEnvSustain = (uint8_t)config.stdVolEnvSustain[num]; ins->volEnvLoopStart = (uint8_t)config.stdVolEnvLoopStart[num]; ins->volEnvLoopEnd = (uint8_t)config.stdVolEnvLoopEnd[num]; ins->volEnvLength = (uint8_t)config.stdVolEnvLength[num]; ins->volEnvFlags = (uint8_t)config.stdVolEnvFlags[num]; ins->autoVibRate = (uint8_t)config.stdVibRate[num]; ins->autoVibDepth = (uint8_t)config.stdVibDepth[num]; ins->autoVibSweep = (uint8_t)config.stdVibSweep[num]; ins->autoVibType = (uint8_t)config.stdVibType[num]; memcpy(ins->volEnvPoints, config.stdEnvPoints[num][0], sizeof (int16_t) * 12 * 2); resumeMusic(); } static void setStdPanEnvelope(instr_t *ins, uint8_t num) { if (editor.curInstr == 0 || ins == NULL) return; pauseMusic(); ins->panEnvLength = (uint8_t)config.stdPanEnvLength[num]; ins->panEnvSustain = (uint8_t)config.stdPanEnvSustain[num]; ins->panEnvLoopStart = (uint8_t)config.stdPanEnvLoopStart[num]; ins->panEnvLoopEnd = (uint8_t)config.stdPanEnvLoopEnd[num]; ins->panEnvFlags = (uint8_t)config.stdPanEnvFlags[num]; memcpy(ins->panEnvPoints, config.stdEnvPoints[num][1], sizeof (int16_t) * 12 * 2); resumeMusic(); } static void setOrStoreVolEnvPreset(uint8_t num) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (mouse.rightButtonReleased) { // store preset config.stdFadeout[num] = ins->fadeout; config.stdVolEnvSustain[num] = ins->volEnvSustain; config.stdVolEnvLoopStart[num] = ins->volEnvLoopStart; config.stdVolEnvLoopEnd[num] = ins->volEnvLoopEnd; config.stdVolEnvLength[num] = ins->volEnvLength; config.stdVolEnvFlags[num] = ins->volEnvFlags; config.stdVibRate[num] = ins->autoVibRate; config.stdVibDepth[num] = ins->autoVibDepth; config.stdVibSweep[num] = ins->autoVibSweep; config.stdVibType[num] = ins->autoVibType; memcpy(config.stdEnvPoints[num][0], ins->volEnvPoints, sizeof (int16_t) * 12 * 2); } else if (mouse.leftButtonReleased) { // read preset setStdVolEnvelope(ins, num); editor.currVolEnvPoint = 0; updateInstEditor(); setSongModifiedFlag(); } } static void setOrStorePanEnvPreset(uint8_t num) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (mouse.rightButtonReleased) { // store preset config.stdFadeout[num] = ins->fadeout; config.stdPanEnvSustain[num] = ins->panEnvSustain; config.stdPanEnvLoopStart[num] = ins->panEnvLoopStart; config.stdPanEnvLoopEnd[num] = ins->panEnvLoopEnd; config.stdPanEnvLength[num] = ins->panEnvLength; config.stdPanEnvFlags[num] = ins->panEnvFlags; config.stdVibRate[num] = ins->autoVibRate; config.stdVibDepth[num] = ins->autoVibDepth; config.stdVibSweep[num] = ins->autoVibSweep; config.stdVibType[num] = ins->autoVibType; memcpy(config.stdEnvPoints[num][1], ins->panEnvPoints, sizeof (int16_t) * 12 * 2); } else if (mouse.leftButtonReleased) { // read preset setStdPanEnvelope(ins, num); editor.currPanEnvPoint = 0; updateInstEditor(); setSongModifiedFlag(); } } void volPreDef1(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(1 - 1); } void volPreDef2(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(2 - 1); } void volPreDef3(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(3 - 1); } void volPreDef4(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(4 - 1); } void volPreDef5(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(5 - 1); } void volPreDef6(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStoreVolEnvPreset(6 - 1); } void panPreDef1(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(1 - 1); } void panPreDef2(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(2 - 1); } void panPreDef3(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(3 - 1); } void panPreDef4(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(4 - 1); } void panPreDef5(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(5 - 1); } void panPreDef6(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) setOrStorePanEnvPreset(6 - 1); } void relativeNoteOctUp(void) { sample_t *s; if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->relativeNote <= 71-12) s->relativeNote += 12; else s->relativeNote = 71; drawRelativeNote(); drawC4Rate(); setSongModifiedFlag(); } void relativeNoteOctDown(void) { sample_t *s; if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->relativeNote >= -48+12) s->relativeNote -= 12; else s->relativeNote = -48; drawRelativeNote(); drawC4Rate(); setSongModifiedFlag(); } void relativeNoteUp(void) { sample_t *s; if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->relativeNote < 71) { s->relativeNote++; drawRelativeNote(); drawC4Rate(); setSongModifiedFlag(); } } void relativeNoteDown(void) { sample_t *s; if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->relativeNote > -48) { s->relativeNote--; drawRelativeNote(); drawC4Rate(); setSongModifiedFlag(); } } void volEnvAdd(void) { instr_t *ins = instr[editor.curInstr]; if (editor.curInstr == 0 || ins == NULL) return; const int16_t ant = ins->volEnvLength; if (ant >= 12) return; int16_t i = (int16_t)editor.currVolEnvPoint; if (i < 0 || i >= ant) { i = ant-1; if (i < 0) i = 0; } if (i < ant-1 && ins->volEnvPoints[i+1][0]-ins->volEnvPoints[i][0] < 2) return; if (ins->volEnvPoints[i][0] >= 323) return; for (int16_t j = ant; j > i; j--) { ins->volEnvPoints[j][0] = ins->volEnvPoints[j-1][0]; ins->volEnvPoints[j][1] = ins->volEnvPoints[j-1][1]; } if (ins->volEnvSustain > i) { ins->volEnvSustain++; drawVolEnvSus(); } if (ins->volEnvLoopStart > i) { ins->volEnvLoopStart++; drawVolEnvRepS(); } if (ins->volEnvLoopEnd > i) { ins->volEnvLoopEnd++; drawVolEnvRepE(); } if (i < ant-1) { ins->volEnvPoints[i+1][0] = (ins->volEnvPoints[i][0] + ins->volEnvPoints[i+2][0]) / 2; ins->volEnvPoints[i+1][1] = (ins->volEnvPoints[i][1] + ins->volEnvPoints[i+2][1]) / 2; } else { ins->volEnvPoints[i+1][0] = ins->volEnvPoints[i][0] + 10; ins->volEnvPoints[i+1][1] = ins->volEnvPoints[i][1]; } if (ins->volEnvPoints[i+1][0] > 324) ins->volEnvPoints[i+1][0] = 324; ins->volEnvLength++; updateVolEnv = true; setSongModifiedFlag(); } void volEnvDel(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0 || ins->volEnvLength <= 2) return; int16_t i = (int16_t)editor.currVolEnvPoint; if (i < 0 || i >= ins->volEnvLength) return; for (int16_t j = i; j < ins->volEnvLength; j++) { ins->volEnvPoints[j][0] = ins->volEnvPoints[j+1][0]; ins->volEnvPoints[j][1] = ins->volEnvPoints[j+1][1]; } bool drawSust = false; bool drawRepS = false; bool drawRepE = false; if (ins->volEnvSustain > i) { ins->volEnvSustain--; drawSust = true; } if (ins->volEnvLoopStart > i) { ins->volEnvLoopStart--; drawRepS = true; } if (ins->volEnvLoopEnd > i) { ins->volEnvLoopEnd--; drawRepE = true; } ins->volEnvPoints[0][0] = 0; ins->volEnvLength--; if (ins->volEnvSustain >= ins->volEnvLength) { ins->volEnvSustain = ins->volEnvLength - 1; drawSust = true; } if (ins->volEnvLoopStart >= ins->volEnvLength) { ins->volEnvLoopStart = ins->volEnvLength - 1; drawRepS = true; } if (ins->volEnvLoopEnd >= ins->volEnvLength) { ins->volEnvLoopEnd = ins->volEnvLength - 1; drawRepE = true; } if (drawSust) drawVolEnvSus(); if (drawRepS) drawVolEnvRepS(); if (drawRepE) drawVolEnvRepE(); if (ins->volEnvLength == 0) editor.currVolEnvPoint = 0; else if (editor.currVolEnvPoint >= ins->volEnvLength) editor.currVolEnvPoint = ins->volEnvLength-1; updateVolEnv = true; setSongModifiedFlag(); } void volEnvSusUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvSustain < ins->volEnvLength-1) { ins->volEnvSustain++; drawVolEnvSus(); updateVolEnv = true; setSongModifiedFlag(); } } void volEnvSusDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvSustain > 0) { ins->volEnvSustain--; drawVolEnvSus(); updateVolEnv = true; setSongModifiedFlag(); } } void volEnvRepSUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvLoopStart < ins->volEnvLoopEnd) { ins->volEnvLoopStart++; drawVolEnvRepS(); updateVolEnv = true; setSongModifiedFlag(); } } void volEnvRepSDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvLoopStart > 0) { ins->volEnvLoopStart--; drawVolEnvRepS(); updateVolEnv = true; setSongModifiedFlag(); } } void volEnvRepEUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvLoopEnd < ins->volEnvLength-1) { ins->volEnvLoopEnd++; drawVolEnvRepE(); updateVolEnv = true; setSongModifiedFlag(); } } void volEnvRepEDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->volEnvLoopEnd > ins->volEnvLoopStart) { ins->volEnvLoopEnd--; drawVolEnvRepE(); updateVolEnv = true; setSongModifiedFlag(); } } void panEnvAdd(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; const int16_t ant = ins->panEnvLength; if (ant >= 12) return; int16_t i = (int16_t)editor.currPanEnvPoint; if (i < 0 || i >= ant) { i = ant-1; if (i < 0) i = 0; } if (i < ant-1 && ins->panEnvPoints[i+1][0]-ins->panEnvPoints[i][0] < 2) return; if (ins->panEnvPoints[i][0] >= 323) return; for (int16_t j = ant; j > i; j--) { ins->panEnvPoints[j][0] = ins->panEnvPoints[j-1][0]; ins->panEnvPoints[j][1] = ins->panEnvPoints[j-1][1]; } if (ins->panEnvSustain > i) { ins->panEnvSustain++; drawPanEnvSus(); } if (ins->panEnvLoopStart > i) { ins->panEnvLoopStart++; drawPanEnvRepS(); } if (ins->panEnvLoopEnd > i) { ins->panEnvLoopEnd++; drawPanEnvRepE(); } if (i < ant-1) { ins->panEnvPoints[i+1][0] = (ins->panEnvPoints[i][0] + ins->panEnvPoints[i+2][0]) / 2; ins->panEnvPoints[i+1][1] = (ins->panEnvPoints[i][1] + ins->panEnvPoints[i+2][1]) / 2; } else { ins->panEnvPoints[i+1][0] = ins->panEnvPoints[i][0] + 10; ins->panEnvPoints[i+1][1] = ins->panEnvPoints[i][1]; } if (ins->panEnvPoints[i+1][0] > 324) ins->panEnvPoints[i+1][0] = 324; ins->panEnvLength++; updatePanEnv = true; setSongModifiedFlag(); } void panEnvDel(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0 || ins->panEnvLength <= 2) return; int16_t i = (int16_t)editor.currPanEnvPoint; if (i < 0 || i >= ins->panEnvLength) return; for (int16_t j = i; j < ins->panEnvLength; j++) { ins->panEnvPoints[j][0] = ins->panEnvPoints[j+1][0]; ins->panEnvPoints[j][1] = ins->panEnvPoints[j+1][1]; } bool drawSust = false; bool drawRepS = false; bool drawRepE = false; if (ins->panEnvSustain > i) { ins->panEnvSustain--; drawSust = true; } if (ins->panEnvLoopStart > i) { ins->panEnvLoopStart--; drawRepS = true; } if (ins->panEnvLoopEnd > i) { ins->panEnvLoopEnd--; drawRepE = true; } ins->panEnvPoints[0][0] = 0; ins->panEnvLength--; if (ins->panEnvSustain >= ins->panEnvLength) { ins->panEnvSustain = ins->panEnvLength - 1; drawSust = true; } if (ins->panEnvLoopStart >= ins->panEnvLength) { ins->panEnvLoopStart = ins->panEnvLength - 1; drawRepS = true; } if (ins->panEnvLoopEnd >= ins->panEnvLength) { ins->panEnvLoopEnd = ins->panEnvLength - 1; drawRepE = true; } if (drawSust) drawPanEnvSus(); if (drawRepS) drawPanEnvRepS(); if (drawRepE) drawPanEnvRepE(); if (ins->panEnvLength == 0) editor.currPanEnvPoint = 0; else if (editor.currPanEnvPoint >= ins->panEnvLength) editor.currPanEnvPoint = ins->panEnvLength-1; updatePanEnv = true; setSongModifiedFlag(); } void panEnvSusUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvSustain < ins->panEnvLength-1) { ins->panEnvSustain++; drawPanEnvSus(); updatePanEnv = true; setSongModifiedFlag(); } } void panEnvSusDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvSustain > 0) { ins->panEnvSustain--; drawPanEnvSus(); updatePanEnv = true; setSongModifiedFlag(); } } void panEnvRepSUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvLoopStart < ins->panEnvLoopEnd) { ins->panEnvLoopStart++; drawPanEnvRepS(); updatePanEnv = true; setSongModifiedFlag(); } } void panEnvRepSDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvLoopStart > 0) { ins->panEnvLoopStart--; drawPanEnvRepS(); updatePanEnv = true; setSongModifiedFlag(); } } void panEnvRepEUp(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvLoopEnd < ins->panEnvLength-1) { ins->panEnvLoopEnd++; drawPanEnvRepE(); updatePanEnv = true; setSongModifiedFlag(); } } void panEnvRepEDown(void) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) return; if (ins->panEnvLoopEnd > ins->panEnvLoopStart) { ins->panEnvLoopEnd--; drawPanEnvRepE(); updatePanEnv = true; setSongModifiedFlag(); } } void volDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_VOL, 1); } void volUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_VOL, 1); } void panDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_PAN, 1); } void panUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_PAN, 1); } void ftuneDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_FTUNE, 1); } void ftuneUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_FTUNE, 1); } void fadeoutDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_FADEOUT, 1); } void fadeoutUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_FADEOUT, 1); } void vibSpeedDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_VIBSPEED, 1); } void vibSpeedUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_VIBSPEED, 1); } void vibDepthDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_VIBDEPTH, 1); } void vibDepthUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_VIBDEPTH, 1); } void vibSweepDown(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollLeft(SB_INST_VIBSWEEP, 1); } void vibSweepUp(void) { if (editor.curInstr != 0 && instr[editor.curInstr] != NULL) scrollBarScrollRight(SB_INST_VIBSWEEP, 1); } void setVolumeScroll(uint32_t pos) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { if (editor.curInstr == 0 && editor.curSmp != 0) setScrollBarPos(SB_INST_VOL, 0x40, false); else setScrollBarPos(SB_INST_VOL, 0, false); return; } sample_t *s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->volume != (uint8_t)pos) { s->volume = (uint8_t)pos; drawVolume(); setSongModifiedFlag(); } } void setPanningScroll(uint32_t pos) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_PAN, 0x80, false); return; } sample_t *s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->panning != (uint8_t)pos) { s->panning = (uint8_t)pos; drawPanning(); setSongModifiedFlag(); } } void setFinetuneScroll(uint32_t pos) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_FTUNE, 128, false); // finetune 0 return; } sample_t *s = &instr[editor.curInstr]->smp[editor.curSmp]; if (s->finetune != (int8_t)(pos - 128)) { s->finetune = (int8_t)(pos - 128); drawFineTune(); drawC4Rate(); setSongModifiedFlag(); } } void setFadeoutScroll(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL) { setScrollBarPos(SB_INST_FADEOUT, 0, false); return; } if (editor.curInstr == 0) { setScrollBarPos(SB_INST_FADEOUT, 0x80, false); return; } if (ins->fadeout != (uint16_t)pos) { ins->fadeout = (uint16_t)pos; drawFadeout(); setSongModifiedFlag(); } } void setVibSpeedScroll(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_VIBSPEED, 0, false); return; } if (ins->autoVibRate != (uint8_t)pos) { ins->autoVibRate = (uint8_t)pos; drawVibSpeed(); setSongModifiedFlag(); } } void setVibDepthScroll(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_VIBDEPTH, 0, false); return; } if (ins->autoVibDepth != (uint8_t)pos) { ins->autoVibDepth = (uint8_t)pos; drawVibDepth(); setSongModifiedFlag(); } } void setVibSweepScroll(uint32_t pos) { instr_t *ins = instr[editor.curInstr]; if (ins == NULL || editor.curInstr == 0) { setScrollBarPos(SB_INST_VIBSWEEP, 0, false); return; } if (ins->autoVibSweep != (uint8_t)pos) { ins->autoVibSweep = (uint8_t)pos; drawVibSweep(); setSongModifiedFlag(); } } void rbVibWaveSine(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; instr[editor.curInstr]->autoVibType = 0; uncheckRadioButtonGroup(RB_GROUP_INST_WAVEFORM); radioButtons[RB_INST_WAVE_SINE].state = RADIOBUTTON_CHECKED; showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); setSongModifiedFlag(); } void rbVibWaveSquare(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; instr[editor.curInstr]->autoVibType = 1; uncheckRadioButtonGroup(RB_GROUP_INST_WAVEFORM); radioButtons[RB_INST_WAVE_SQUARE].state = RADIOBUTTON_CHECKED; showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); setSongModifiedFlag(); } void rbVibWaveRampDown(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; instr[editor.curInstr]->autoVibType = 2; uncheckRadioButtonGroup(RB_GROUP_INST_WAVEFORM); radioButtons[RB_INST_WAVE_RAMP_DOWN].state = RADIOBUTTON_CHECKED; showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); setSongModifiedFlag(); } void rbVibWaveRampUp(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) return; instr[editor.curInstr]->autoVibType = 3; uncheckRadioButtonGroup(RB_GROUP_INST_WAVEFORM); radioButtons[RB_INST_WAVE_RAMP_UP].state = RADIOBUTTON_CHECKED; showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); setSongModifiedFlag(); } void cbVEnv(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_VENV].checked = false; drawCheckBox(CB_INST_VENV); return; } instr[editor.curInstr]->volEnvFlags ^= 1; updateVolEnv = true; setSongModifiedFlag(); } void cbVEnvSus(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_VENV_SUS].checked = false; drawCheckBox(CB_INST_VENV_SUS); return; } instr[editor.curInstr]->volEnvFlags ^= 2; updateVolEnv = true; setSongModifiedFlag(); } void cbVEnvLoop(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_VENV_LOOP].checked = false; drawCheckBox(CB_INST_VENV_LOOP); return; } instr[editor.curInstr]->volEnvFlags ^= 4; updateVolEnv = true; setSongModifiedFlag(); } void cbPEnv(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_PENV].checked = false; drawCheckBox(CB_INST_PENV); return; } instr[editor.curInstr]->panEnvFlags ^= 1; updatePanEnv = true; setSongModifiedFlag(); } void cbPEnvSus(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_PENV_SUS].checked = false; drawCheckBox(CB_INST_PENV_SUS); return; } instr[editor.curInstr]->panEnvFlags ^= 2; updatePanEnv = true; setSongModifiedFlag(); } void cbPEnvLoop(void) { if (instr[editor.curInstr] == NULL || editor.curInstr == 0) { checkBoxes[CB_INST_PENV_LOOP].checked = false; drawCheckBox(CB_INST_PENV_LOOP); return; } instr[editor.curInstr]->panEnvFlags ^= 4; updatePanEnv = true; setSongModifiedFlag(); } static void pinoaNumberOut(uint16_t xPos, uint16_t yPos, uint8_t fgPalette, uint8_t bgPalette, uint8_t val) { assert(val <= 0xF); const uint32_t fg = video.palette[fgPalette]; const uint32_t bg = video.palette[bgPalette]; uint32_t *dstPtr = &video.frameBuffer[(yPos * SCREEN_W) + xPos]; const uint8_t *srcPtr = &bmp.font8[val * 5]; for (int32_t y = 0; y < 7; y++) { for (int32_t x = 0; x < 5; x++) dstPtr[x] = srcPtr[x] ? fg : bg; dstPtr += SCREEN_W; srcPtr += 80; } } static void writePianoNumber(uint8_t note, uint8_t key, uint8_t octave) { uint8_t number = 0; if (instr[editor.curInstr] != NULL && editor.curInstr != 0) number = instr[editor.curInstr]->note2SampleLUT[note]; const uint16_t x = keyDigitXPos[key] + (octave * 77); if (keyIsBlackTab[key]) pinoaNumberOut(x, 361, PAL_FORGRND, PAL_BCKGRND, number); else pinoaNumberOut(x, 385, PAL_BCKGRND, PAL_FORGRND, number); } static void drawBlackPianoKey(uint8_t key, uint8_t octave, bool keyDown) { const uint16_t x = keyXPos[key] + (octave * 77); blit(x, 351, &bmp.blackPianoKeys[keyDown * (7*27)], 7, 27); } static void drawWhitePianoKey(uint8_t key, uint8_t octave, bool keyDown) { const uint16_t x = keyXPos[key] + (octave * 77); blit(x, 351, &bmp.whitePianoKeys[(keyDown * (11*46*3)) + whiteKeysBmpOrder[key]], 11, 46); } void redrawPiano(void) { memset(pianoKeyStatus, 0, sizeof (pianoKeyStatus)); for (uint8_t i = 0; i < 96; i++) { const uint8_t key = noteTab1[i]; const uint8_t octave = noteTab2[i]; if (keyIsBlackTab[key]) drawBlackPianoKey(key, octave, false); else drawWhitePianoKey(key, octave, false); writePianoNumber(i, key, octave); } } bool testPianoKeysMouseDown(bool mouseButtonDown) { uint8_t key, octave; if (!ui.instEditorShown) return false; // area not clicked if (editor.curInstr == 0 || instr[editor.curInstr] == NULL) return true; // area clicked, but don't do anything int32_t mx = mouse.x; int32_t my = mouse.y; if (!mouseButtonDown) { if (my < 351 || my > 396 || mx < 8 || mx > 623) return false; mouse.lastUsedObjectType = OBJECT_PIANO; } else { my = CLAMP(my, 351, 396); mx = CLAMP(mx, 8, 623); } mx -= 8; const int32_t quotient = mx / 77; const int32_t remainder = mx % 77; if (my < 378) { // white keys and black keys (top) octave = (uint8_t)quotient; key = mx2PianoKey[remainder]; } else { // white keys only (bottom) const int32_t whiteKeyWidth = 11; octave = (uint8_t)(quotient); key = whiteKeyIndex[remainder / whiteKeyWidth]; } const uint8_t note = (octave * 12) + key; if (instr[editor.curInstr]->note2SampleLUT[note] != editor.curSmp) { instr[editor.curInstr]->note2SampleLUT[note] = editor.curSmp; writePianoNumber(note, key, octave); setSongModifiedFlag(); } return true; } void drawPiano(chSyncData_t *chSyncData) { bool newStatus[96]; memset(newStatus, 0, sizeof (newStatus)); // find active notes if (editor.curInstr > 0) { if (chSyncData != NULL) // song is playing, use replayer channel state { syncedChannel_t *c = chSyncData->channels; for (int32_t i = 0; i < song.numChannels; i++, c++) { if (c->instrNum == editor.curInstr && c->pianoNoteNum <= 95) newStatus[c->pianoNoteNum] = true; } } else // song is not playing (jamming from keyboard/MIDI) { channel_t *c = channel; for (int32_t i = 0; i < song.numChannels; i++, c++) { if (c->instrNum == editor.curInstr && !c->keyOff) { const int32_t note = getPianoKey(c->finalPeriod, c->finetune, c->relativeNote); if (note >= 0 && note <= 95) newStatus[note] = true; } } } } // draw keys for (int32_t i = 0; i < 96; i++) { const bool keyDown = newStatus[i]; if (pianoKeyStatus[i] ^ keyDown) { const uint8_t key = noteTab1[i]; const uint8_t octave = noteTab2[i]; if (keyIsBlackTab[key]) drawBlackPianoKey(key, octave, keyDown); else drawWhitePianoKey(key, octave, keyDown); pianoKeyStatus[i] = keyDown; } } } static void envelopeLine(int32_t envNum, int16_t x1, int16_t y1, int16_t x2, int16_t y2, uint8_t pal) { y1 = CLAMP(y1, 0, 66); y2 = CLAMP(y2, 0, 66); x1 = CLAMP(x1, 0, 335); x2 = CLAMP(x2, 0, 335); if (envNum == 0) // volume envelope { y1 += 189; y2 += 189; } else // panning envelope { y1 += 276; y2 += 276; } const int16_t dx = x2 - x1; const uint16_t ax = ABS(dx) << 1; const int16_t sx = SGN(dx); const int16_t dy = y2 - y1; const uint16_t ay = ABS(dy) << 1; const int16_t sy = SGN(dy); int16_t x = x1; int16_t y = y1; const uint32_t pal1 = video.palette[PAL_BLCKMRK]; const uint32_t pal2 = video.palette[PAL_BLCKTXT]; const uint32_t pixVal = video.palette[pal]; const int32_t pitch = sy * SCREEN_W; uint32_t *dst32 = &video.frameBuffer[(y * SCREEN_W) + x]; // draw line if (ax > ay) { int16_t d = ay - (ax >> 1); while (true) { // invert certain colors if (*dst32 != pal2) { if (*dst32 == pal1) *dst32 = pal2; else *dst32 = pixVal; } if (x == x2) break; if (d >= 0) { d -= ax; dst32 += pitch; } x += sx; d += ay; dst32 += sx; } } else { int16_t d = ax - (ay >> 1); while (true) { // invert certain colors if (*dst32 != pal2) { if (*dst32 == pal1) *dst32 = pal2; else *dst32 = pixVal; } if (y == y2) break; if (d >= 0) { d -= ay; dst32 += sx; } y += sy; d += ax; dst32 += pitch; } } } static void envelopePixel(int32_t envNum, int16_t x, int16_t y, uint8_t pal) { y += (envNum == 0) ? 189 : 276; video.frameBuffer[(y * SCREEN_W) + x] = video.palette[pal]; } static void envelopeDot(int32_t envNum, int16_t x, int16_t y) { y += (envNum == 0) ? 189 : 276; const uint32_t pixVal = video.palette[PAL_BLCKTXT]; uint32_t *dstPtr = &video.frameBuffer[(y * SCREEN_W) + x]; for (y = 0; y < 3; y++) { *dstPtr++ = pixVal; *dstPtr++ = pixVal; *dstPtr++ = pixVal; dstPtr += SCREEN_W-3; } } static void envelopeVertLine(int32_t envNum, int16_t x, int16_t y, uint8_t pal) { y += (envNum == 0) ? 189 : 276; const uint32_t pixVal1 = video.palette[pal]; const uint32_t pixVal2 = video.palette[PAL_BLCKTXT]; uint32_t *dstPtr = &video.frameBuffer[(y * SCREEN_W) + x]; for (y = 0; y < 33; y++) { if (*dstPtr != pixVal2) *dstPtr = pixVal1; dstPtr += SCREEN_W*2; } } static void writeEnvelope(int32_t envNum) { uint8_t selected; int16_t i, nd, sp, ls, le, (*curEnvP)[2]; instr_t *ins = instr[editor.curInstr]; // clear envelope area if (envNum == 0) clearRect(5, 189, 333, 67); else clearRect(5, 276, 333, 67); // draw dotted x/y lines for (i = 0; i <= 32; i++) envelopePixel(envNum, 5, 1 + i * 2, PAL_PATTEXT); for (i = 0; i <= 8; i++) envelopePixel(envNum, 4, 1 + i * 8, PAL_PATTEXT); for (i = 0; i <= 162; i++) envelopePixel(envNum, 8 + i * 2, 65, PAL_PATTEXT); for (i = 0; i <= 6; i++) envelopePixel(envNum, 8 + i * 50, 66, PAL_PATTEXT); // draw center line on pan envelope if (envNum == 1) envelopeLine(envNum, 8, 33, 332, 33, PAL_BLCKMRK); if (ins == NULL) return; // collect variables if (envNum == 0) // volume envelope { nd = ins->volEnvLength; if (ins->volEnvFlags & ENV_SUSTAIN) sp = ins->volEnvSustain; else sp = -1; if (ins->volEnvFlags & ENV_LOOP) { ls = ins->volEnvLoopStart; le = ins->volEnvLoopEnd; } else { ls = -1; le = -1; } curEnvP = ins->volEnvPoints; selected = editor.currVolEnvPoint; } else // panning envelope { nd = ins->panEnvLength; if (ins->panEnvFlags & ENV_SUSTAIN) sp = ins->panEnvSustain; else sp = -1; if (ins->panEnvFlags & ENV_LOOP) { ls = ins->panEnvLoopStart; le = ins->panEnvLoopEnd; } else { ls = -1; le = -1; } curEnvP = ins->panEnvPoints; selected = editor.currPanEnvPoint; } if (nd > 12) nd = 12; int16_t lx = 0; int16_t ly = 0; // draw envelope for (i = 0; i < nd; i++) { int16_t x = curEnvP[i][0]; int16_t y = curEnvP[i][1]; x = CLAMP(x, 0, 324); if (envNum == 0) // volume envelope y = CLAMP(y, 0, 64); else // panning envelope y = CLAMP(y, 0, 63); if ((uint16_t)curEnvP[i][0] <= 324) { envelopeDot(envNum, 7 + x, 64 - y); // draw "envelope selected" data if (i == selected) { envelopeLine(envNum, 5 + x, 64 - y, 5 + x, 66 - y, PAL_BLCKTXT); envelopeLine(envNum, 11 + x, 64 - y, 11 + x, 66 - y, PAL_BLCKTXT); envelopePixel(envNum, 5, 65 - y, PAL_BLCKTXT); envelopePixel(envNum, 8 + x, 65, PAL_BLCKTXT); } // draw loop start marker if (i == ls) { envelopeLine(envNum, x + 6, 1, x + 10, 1, PAL_PATTEXT); envelopeLine(envNum, x + 7, 2, x + 9, 2, PAL_PATTEXT); envelopeVertLine(envNum, x + 8, 1, PAL_PATTEXT); } // draw sustain marker if (i == sp) envelopeVertLine(envNum, x + 8, 1, PAL_BLCKTXT); // draw loop end marker if (i == le) { envelopeLine(envNum, x + 6, 65, x + 10, 65, PAL_PATTEXT); envelopeLine(envNum, x + 7, 64, x + 9, 64, PAL_PATTEXT); envelopeVertLine(envNum, x + 8, 1, PAL_PATTEXT); } } // draw envelope line if (i > 0 && lx < x) envelopeLine(envNum, lx + 8, 65 - ly, x + 8, 65 - y, PAL_PATTEXT); lx = x; ly = y; } } static void drawVolEnvCoords(int16_t tick, int16_t val) { char str[4]; tick = CLAMP(tick, 0, 324); sprintf(str, "%03d", tick); textOutTinyOutline(326, 190, str); val = CLAMP(val, 0, 64); sprintf(str, "%02d", val); textOutTinyOutline(330, 198, str); } static void drawPanEnvCoords(int16_t tick, int16_t val) { bool negative = false; char str[4]; tick = CLAMP(tick, 0, 324); sprintf(str, "%03d", tick); textOutTinyOutline(326, 277, str); val -= 32; val = CLAMP(val, -32, 31); if (val < 0) { negative = true; val = -val; } if (negative) // draw minus sign { // outline hLine(326, 287, 3, PAL_BCKGRND); hLine(326, 289, 3, PAL_BCKGRND); video.frameBuffer[(288 * SCREEN_W) + 325] = video.palette[PAL_BCKGRND]; video.frameBuffer[(288 * SCREEN_W) + 329] = video.palette[PAL_BCKGRND]; hLine(326, 288, 3, PAL_FORGRND); } sprintf(str, "%02d", val); textOutTinyOutline(330, 285, str); } void handleInstEditorRedrawing(void) { int16_t tick, val; instr_t *ins = instr[editor.curInstr]; if (updateVolEnv) { updateVolEnv = false; writeEnvelope(0); tick = 0; val = 0; if (ins != NULL && ins->volEnvLength > 0) { tick = ins->volEnvPoints[editor.currVolEnvPoint][0]; val = ins->volEnvPoints[editor.currVolEnvPoint][1]; } drawVolEnvCoords(tick, val); } if (updatePanEnv) { updatePanEnv = false; writeEnvelope(1); tick = 0; val = 32; if (ins != NULL && ins->panEnvLength > 0) { tick = ins->panEnvPoints[editor.currPanEnvPoint][0]; val = ins->panEnvPoints[editor.currPanEnvPoint][1]; } drawPanEnvCoords(tick, val); } } void hideInstEditor(void) { ui.instEditorShown = false; hideScrollBar(SB_INST_VOL); hideScrollBar(SB_INST_PAN); hideScrollBar(SB_INST_FTUNE); hideScrollBar(SB_INST_FADEOUT); hideScrollBar(SB_INST_VIBSPEED); hideScrollBar(SB_INST_VIBDEPTH); hideScrollBar(SB_INST_VIBSWEEP); hidePushButton(PB_INST_VDEF1); hidePushButton(PB_INST_VDEF2); hidePushButton(PB_INST_VDEF3); hidePushButton(PB_INST_VDEF4); hidePushButton(PB_INST_VDEF5); hidePushButton(PB_INST_VDEF6); hidePushButton(PB_INST_PDEF1); hidePushButton(PB_INST_PDEF2); hidePushButton(PB_INST_PDEF3); hidePushButton(PB_INST_PDEF4); hidePushButton(PB_INST_PDEF5); hidePushButton(PB_INST_PDEF6); hidePushButton(PB_INST_VP_ADD); hidePushButton(PB_INST_VP_DEL); hidePushButton(PB_INST_VS_UP); hidePushButton(PB_INST_VS_DOWN); hidePushButton(PB_INST_VREPS_UP); hidePushButton(PB_INST_VREPS_DOWN); hidePushButton(PB_INST_VREPE_UP); hidePushButton(PB_INST_VREPE_DOWN); hidePushButton(PB_INST_PP_ADD); hidePushButton(PB_INST_PP_DEL); hidePushButton(PB_INST_PS_UP); hidePushButton(PB_INST_PS_DOWN); hidePushButton(PB_INST_PREPS_UP); hidePushButton(PB_INST_PREPS_DOWN); hidePushButton(PB_INST_PREPE_UP); hidePushButton(PB_INST_PREPE_DOWN); hidePushButton(PB_INST_VOL_DOWN); hidePushButton(PB_INST_VOL_UP); hidePushButton(PB_INST_PAN_DOWN); hidePushButton(PB_INST_PAN_UP); hidePushButton(PB_INST_FTUNE_DOWN); hidePushButton(PB_INST_FTUNE_UP); hidePushButton(PB_INST_FADEOUT_DOWN); hidePushButton(PB_INST_FADEOUT_UP); hidePushButton(PB_INST_VIBSPEED_DOWN); hidePushButton(PB_INST_VIBSPEED_UP); hidePushButton(PB_INST_VIBDEPTH_DOWN); hidePushButton(PB_INST_VIBDEPTH_UP); hidePushButton(PB_INST_VIBSWEEP_DOWN); hidePushButton(PB_INST_VIBSWEEP_UP); hidePushButton(PB_INST_EXIT); hidePushButton(PB_INST_OCT_UP); hidePushButton(PB_INST_HALFTONE_UP); hidePushButton(PB_INST_OCT_DOWN); hidePushButton(PB_INST_HALFTONE_DOWN); hideCheckBox(CB_INST_VENV); hideCheckBox(CB_INST_VENV_SUS); hideCheckBox(CB_INST_VENV_LOOP); hideCheckBox(CB_INST_PENV); hideCheckBox(CB_INST_PENV_SUS); hideCheckBox(CB_INST_PENV_LOOP); hideRadioButtonGroup(RB_GROUP_INST_WAVEFORM); } void exitInstEditor(void) { hideInstEditor(); showPatternEditor(); } void updateInstEditor(void) { uint16_t tmpID; sample_t *s; instr_t *ins = getCurDispInstr(); if (instr[editor.curInstr] == NULL) s = &ins->smp[0]; else s = &ins->smp[editor.curSmp]; // update instrument editor extension if (ui.instEditorExtShown) { checkBoxes[CB_INST_EXT_MIDI].checked = ins->midiOn ? true : false; checkBoxes[CB_INST_EXT_MUTE].checked = ins->mute ? true : false; setScrollBarPos(SB_INST_EXT_MIDI_CH, ins->midiChannel, false); setScrollBarPos(SB_INST_EXT_MIDI_PRG, ins->midiProgram, false); setScrollBarPos(SB_INST_EXT_MIDI_BEND, ins->midiBend, false); drawCheckBox(CB_INST_EXT_MIDI); drawCheckBox(CB_INST_EXT_MUTE); drawMIDICh(); drawMIDIPrg(); drawMIDIBend(); } if (!ui.instEditorShown) return; drawVolEnvSus(); drawVolEnvRepS(); drawVolEnvRepE(); drawPanEnvSus(); drawPanEnvRepS(); drawPanEnvRepE(); drawVolume(); drawPanning(); drawFineTune(); drawFadeout(); drawVibSpeed(); drawVibDepth(); drawVibSweep(); drawC4Rate(); drawRelativeNote(); // set scroll bars setScrollBarPos(SB_INST_VOL, s->volume, false); setScrollBarPos(SB_INST_PAN, s->panning, false); setScrollBarPos(SB_INST_FTUNE, 128 + s->finetune, false); setScrollBarPos(SB_INST_FADEOUT, ins->fadeout, false); setScrollBarPos(SB_INST_VIBSPEED, ins->autoVibRate, false); setScrollBarPos(SB_INST_VIBDEPTH, ins->autoVibDepth, false); setScrollBarPos(SB_INST_VIBSWEEP, ins->autoVibSweep, false); // set radio buttons uncheckRadioButtonGroup(RB_GROUP_INST_WAVEFORM); switch (ins->autoVibType) { default: case 0: tmpID = RB_INST_WAVE_SINE; break; case 1: tmpID = RB_INST_WAVE_SQUARE; break; case 2: tmpID = RB_INST_WAVE_RAMP_DOWN; break; case 3: tmpID = RB_INST_WAVE_RAMP_UP; break; } radioButtons[tmpID].state = RADIOBUTTON_CHECKED; // set checkboxes checkBoxes[CB_INST_VENV].checked = (ins->volEnvFlags & ENV_ENABLED) ? true : false; checkBoxes[CB_INST_VENV_SUS].checked = (ins->volEnvFlags & ENV_SUSTAIN) ? true : false; checkBoxes[CB_INST_VENV_LOOP].checked = (ins->volEnvFlags & ENV_LOOP) ? true : false; checkBoxes[CB_INST_PENV].checked = (ins->panEnvFlags & ENV_ENABLED) ? true : false; checkBoxes[CB_INST_PENV_SUS].checked = (ins->panEnvFlags & ENV_SUSTAIN) ? true : false; checkBoxes[CB_INST_PENV_LOOP].checked = (ins->panEnvFlags & ENV_LOOP) ? true : false; if (editor.currVolEnvPoint >= ins->volEnvLength) editor.currVolEnvPoint = 0; if (editor.currPanEnvPoint >= ins->panEnvLength) editor.currPanEnvPoint = 0; showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); drawCheckBox(CB_INST_VENV); drawCheckBox(CB_INST_VENV_SUS); drawCheckBox(CB_INST_VENV_LOOP); drawCheckBox(CB_INST_PENV); drawCheckBox(CB_INST_PENV_SUS); drawCheckBox(CB_INST_PENV_LOOP); updateVolEnv = true; updatePanEnv = true; redrawPiano(); } void showInstEditor(void) { if (ui.extended) exitPatternEditorExtended(); if (ui.sampleEditorShown) hideSampleEditor(); if (ui.sampleEditorExtShown) hideSampleEditorExt(); hidePatternEditor(); ui.instEditorShown = true; drawFramework(0, 173, 438, 87, FRAMEWORK_TYPE1); drawFramework(0, 260, 438, 87, FRAMEWORK_TYPE1); drawFramework(0, 347, 632, 53, FRAMEWORK_TYPE1); drawFramework(438, 173, 194, 45, FRAMEWORK_TYPE1); drawFramework(438, 218, 194, 76, FRAMEWORK_TYPE1); drawFramework(438, 294, 194, 53, FRAMEWORK_TYPE1); drawFramework(2, 188, 337, 70, FRAMEWORK_TYPE2); drawFramework(2, 275, 337, 70, FRAMEWORK_TYPE2); drawFramework(2, 349, 628, 49, FRAMEWORK_TYPE2); drawFramework(593, 296, 36, 15, FRAMEWORK_TYPE2); textOutShadow(20, 176, PAL_FORGRND, PAL_DSKTOP2, "Volume envelope:"); textOutShadow(153, 176, PAL_FORGRND, PAL_DSKTOP2, "Predef."); textOutShadow(358, 194, PAL_FORGRND, PAL_DSKTOP2, "Sustain:"); textOutShadow(342, 206, PAL_FORGRND, PAL_DSKTOP2, "Point"); textOutShadow(358, 219, PAL_FORGRND, PAL_DSKTOP2, "Env.loop:"); textOutShadow(342, 233, PAL_FORGRND, PAL_DSKTOP2, "Start"); textOutShadow(342, 247, PAL_FORGRND, PAL_DSKTOP2, "End"); textOutShadow(20, 263, PAL_FORGRND, PAL_DSKTOP2, "Panning envelope:"); textOutShadow(152, 263, PAL_FORGRND, PAL_DSKTOP2, "Predef."); textOutShadow(358, 281, PAL_FORGRND, PAL_DSKTOP2, "Sustain:"); textOutShadow(342, 293, PAL_FORGRND, PAL_DSKTOP2, "Point"); textOutShadow(358, 306, PAL_FORGRND, PAL_DSKTOP2, "Env.loop:"); textOutShadow(342, 320, PAL_FORGRND, PAL_DSKTOP2, "Start"); textOutShadow(342, 334, PAL_FORGRND, PAL_DSKTOP2, "End"); textOutShadow(443, 177, PAL_FORGRND, PAL_DSKTOP2, "Volume"); textOutShadow(443, 191, PAL_FORGRND, PAL_DSKTOP2, "Panning"); textOutShadow(443, 205, PAL_FORGRND, PAL_DSKTOP2, "F.tune"); textOutShadow(442, 222, PAL_FORGRND, PAL_DSKTOP2, "Fadeout"); textOutShadow(442, 236, PAL_FORGRND, PAL_DSKTOP2, "Vib.speed"); textOutShadow(442, 250, PAL_FORGRND, PAL_DSKTOP2, "Vib.depth"); textOutShadow(442, 264, PAL_FORGRND, PAL_DSKTOP2, "Vib.sweep"); textOutShadow(442, 299, PAL_FORGRND, PAL_DSKTOP2, "C4="); textOutShadow(537, 299, PAL_FORGRND, PAL_DSKTOP2, "Rel. note"); showScrollBar(SB_INST_VOL); showScrollBar(SB_INST_PAN); showScrollBar(SB_INST_FTUNE); showScrollBar(SB_INST_FADEOUT); showScrollBar(SB_INST_VIBSPEED); showScrollBar(SB_INST_VIBDEPTH); showScrollBar(SB_INST_VIBSWEEP); showPushButton(PB_INST_VDEF1); showPushButton(PB_INST_VDEF2); showPushButton(PB_INST_VDEF3); showPushButton(PB_INST_VDEF4); showPushButton(PB_INST_VDEF5); showPushButton(PB_INST_VDEF6); showPushButton(PB_INST_PDEF1); showPushButton(PB_INST_PDEF2); showPushButton(PB_INST_PDEF3); showPushButton(PB_INST_PDEF4); showPushButton(PB_INST_PDEF5); showPushButton(PB_INST_PDEF6); showPushButton(PB_INST_VP_ADD); showPushButton(PB_INST_VP_DEL); showPushButton(PB_INST_VS_UP); showPushButton(PB_INST_VS_DOWN); showPushButton(PB_INST_VREPS_UP); showPushButton(PB_INST_VREPS_DOWN); showPushButton(PB_INST_VREPE_UP); showPushButton(PB_INST_VREPE_DOWN); showPushButton(PB_INST_PP_ADD); showPushButton(PB_INST_PP_DEL); showPushButton(PB_INST_PS_UP); showPushButton(PB_INST_PS_DOWN); showPushButton(PB_INST_PREPS_UP); showPushButton(PB_INST_PREPS_DOWN); showPushButton(PB_INST_PREPE_UP); showPushButton(PB_INST_PREPE_DOWN); showPushButton(PB_INST_VOL_DOWN); showPushButton(PB_INST_VOL_UP); showPushButton(PB_INST_PAN_DOWN); showPushButton(PB_INST_PAN_UP); showPushButton(PB_INST_FTUNE_DOWN); showPushButton(PB_INST_FTUNE_UP); showPushButton(PB_INST_FADEOUT_DOWN); showPushButton(PB_INST_FADEOUT_UP); showPushButton(PB_INST_VIBSPEED_DOWN); showPushButton(PB_INST_VIBSPEED_UP); showPushButton(PB_INST_VIBDEPTH_DOWN); showPushButton(PB_INST_VIBDEPTH_UP); showPushButton(PB_INST_VIBSWEEP_DOWN); showPushButton(PB_INST_VIBSWEEP_UP); showPushButton(PB_INST_EXIT); showPushButton(PB_INST_OCT_UP); showPushButton(PB_INST_HALFTONE_UP); showPushButton(PB_INST_OCT_DOWN); showPushButton(PB_INST_HALFTONE_DOWN); showCheckBox(CB_INST_VENV); showCheckBox(CB_INST_VENV_SUS); showCheckBox(CB_INST_VENV_LOOP); showCheckBox(CB_INST_PENV); showCheckBox(CB_INST_PENV_SUS); showCheckBox(CB_INST_PENV_LOOP); // draw auto-vibrato waveforms blitFast(455, 279, &bmp.vibratoWaveforms[0*(12*10)], 12, 10); blitFast(485, 279, &bmp.vibratoWaveforms[1*(12*10)], 12, 10); blitFast(515, 279, &bmp.vibratoWaveforms[2*(12*10)], 12, 10); blitFast(545, 279, &bmp.vibratoWaveforms[3*(12*10)], 12, 10); showRadioButtonGroup(RB_GROUP_INST_WAVEFORM); updateInstEditor(); redrawPiano(); } void toggleInstEditor(void) { if (ui.sampleEditorShown) hideSampleEditor(); if (ui.instEditorShown) { exitInstEditor(); } else { hidePatternEditor(); showInstEditor(); } } bool testInstrVolEnvMouseDown(bool mouseButtonDown) { int32_t minX, maxX; if (!ui.instEditorShown || editor.curInstr == 0 || instr[editor.curInstr] == NULL) return false; instr_t *ins = instr[editor.curInstr]; uint8_t ant = ins->volEnvLength; if (ant > 12) ant = 12; int32_t mx = mouse.x; int32_t my = mouse.y; if (!mouseButtonDown) { if (my < 189 || my > 256 || mx < 7 || mx > 334) return false; if (ins->volEnvLength == 0) return true; lastMouseX = mx; lastMouseY = my; for (uint8_t i = 0; i < ant; i++) { const int32_t x = 8 + ins->volEnvPoints[i][0]; const int32_t y = 190 + (64 - ins->volEnvPoints[i][1]); if (mx >= x-2 && mx <= x+2 && my >= y-2 && my <= y+2) { editor.currVolEnvPoint = i; mouse.lastUsedObjectType = OBJECT_INSVOLENV; saveMouseX = 8 + (lastMouseX - x); saveMouseY = 190 + (lastMouseY - y); updateVolEnv = true; break; } } return true; } if (ins->volEnvLength == 0) return true; if (mx != lastMouseX) { lastMouseX = mx; if (ant > 1 && editor.currVolEnvPoint > 0) { mx -= saveMouseX; mx = CLAMP(mx, 0, 324); if (editor.currVolEnvPoint == ant-1) { minX = ins->volEnvPoints[editor.currVolEnvPoint-1][0] + 1; maxX = 324; } else { minX = ins->volEnvPoints[editor.currVolEnvPoint-1][0] + 1; maxX = ins->volEnvPoints[editor.currVolEnvPoint+1][0] - 1; } minX = CLAMP(minX, 0, 324); maxX = CLAMP(maxX, 0, 324); ins->volEnvPoints[editor.currVolEnvPoint][0] = (int16_t)(CLAMP(mx, minX, maxX)); updateVolEnv = true; setSongModifiedFlag(); } } if (my != lastMouseY) { lastMouseY = my; my -= saveMouseY; my = 64 - CLAMP(my, 0, 64); ins->volEnvPoints[editor.currVolEnvPoint][1] = (int16_t)my; updateVolEnv = true; setSongModifiedFlag(); } return true; } bool testInstrPanEnvMouseDown(bool mouseButtonDown) { int32_t minX, maxX; if (!ui.instEditorShown || editor.curInstr == 0 || instr[editor.curInstr] == NULL) return false; instr_t *ins = instr[editor.curInstr]; uint8_t ant = ins->panEnvLength; if (ant > 12) ant = 12; int32_t mx = mouse.x; int32_t my = mouse.y; if (!mouseButtonDown) { if (my < 277 || my > 343 || mx < 7 || mx > 334) return false; if (ins->panEnvLength == 0) return true; lastMouseX = mx; lastMouseY = my; for (uint8_t i = 0; i < ant; i++) { const int32_t x = 8 + ins->panEnvPoints[i][0]; const int32_t y = 277 + (63 - ins->panEnvPoints[i][1]); if (mx >= x-2 && mx <= x+2 && my >= y-2 && my <= y+2) { editor.currPanEnvPoint = i; mouse.lastUsedObjectType = OBJECT_INSPANENV; saveMouseX = lastMouseX - x + 8; saveMouseY = lastMouseY - y + 277; updatePanEnv = true; break; } } return true; } if (ins->panEnvLength == 0) return true; if (mx != lastMouseX) { lastMouseX = mx; if (ant > 1 && editor.currPanEnvPoint > 0) { mx -= saveMouseX; mx = CLAMP(mx, 0, 324); if (editor.currPanEnvPoint == ant-1) { minX = ins->panEnvPoints[editor.currPanEnvPoint-1][0] + 1; maxX = 324; } else { minX = ins->panEnvPoints[editor.currPanEnvPoint-1][0] + 1; maxX = ins->panEnvPoints[editor.currPanEnvPoint+1][0] - 1; } minX = CLAMP(minX, 0, 324); maxX = CLAMP(maxX, 0, 324); ins->panEnvPoints[editor.currPanEnvPoint][0] = (int16_t)(CLAMP(mx, minX, maxX)); updatePanEnv = true; setSongModifiedFlag(); } } if (my != lastMouseY) { lastMouseY = my; my -= saveMouseY; my = 63 - CLAMP(my, 0, 63); ins->panEnvPoints[editor.currPanEnvPoint][1] = (int16_t)my; updatePanEnv = true; setSongModifiedFlag(); } return true; } void cbInstMidiEnable(void) { if (editor.curInstr == 0 || instr[editor.curInstr] == NULL) { checkBoxes[CB_INST_EXT_MIDI].checked = false; drawCheckBox(CB_INST_EXT_MIDI); return; } instr[editor.curInstr]->midiOn ^= 1; setSongModifiedFlag(); } void cbInstMuteComputer(void) { if (editor.curInstr == 0 || instr[editor.curInstr] == NULL) { checkBoxes[CB_INST_EXT_MUTE].checked = false; drawCheckBox(CB_INST_EXT_MUTE); return; } instr[editor.curInstr]->mute ^= 1; setSongModifiedFlag(); } void drawInstEditorExt(void) { instr_t *ins = instr[editor.curInstr]; drawFramework(0, 92, 291, 17, FRAMEWORK_TYPE1); drawFramework(0, 109, 291, 19, FRAMEWORK_TYPE1); drawFramework(0, 128, 291, 45, FRAMEWORK_TYPE1); textOutShadow(4, 96, PAL_FORGRND, PAL_DSKTOP2, "Instrument Editor Extension:"); textOutShadow(20, 114, PAL_FORGRND, PAL_DSKTOP2, "Instrument MIDI enable"); textOutShadow(189, 114, PAL_FORGRND, PAL_DSKTOP2, "Mute computer"); textOutShadow(4, 132, PAL_FORGRND, PAL_DSKTOP2, "MIDI transmit channel"); textOutShadow(4, 146, PAL_FORGRND, PAL_DSKTOP2, "MIDI program"); textOutShadow(4, 160, PAL_FORGRND, PAL_DSKTOP2, "Bender range (halftones)"); if (ins == NULL) { checkBoxes[CB_INST_EXT_MIDI].checked = false; checkBoxes[CB_INST_EXT_MUTE].checked = false; setScrollBarPos(SB_INST_EXT_MIDI_CH, 0, false); setScrollBarPos(SB_INST_EXT_MIDI_PRG, 0, false); setScrollBarPos(SB_INST_EXT_MIDI_BEND, 0, false); } else { checkBoxes[CB_INST_EXT_MIDI].checked = ins->midiOn ? true : false; checkBoxes[CB_INST_EXT_MUTE].checked = ins->mute ? true : false; setScrollBarPos(SB_INST_EXT_MIDI_CH, ins->midiChannel, false); setScrollBarPos(SB_INST_EXT_MIDI_PRG, ins->midiProgram, false); setScrollBarPos(SB_INST_EXT_MIDI_BEND, ins->midiBend, false); } showCheckBox(CB_INST_EXT_MIDI); showCheckBox(CB_INST_EXT_MUTE); showScrollBar(SB_INST_EXT_MIDI_CH); showScrollBar(SB_INST_EXT_MIDI_PRG); showScrollBar(SB_INST_EXT_MIDI_BEND); showPushButton(PB_INST_EXT_MIDI_CH_DOWN); showPushButton(PB_INST_EXT_MIDI_CH_UP); showPushButton(PB_INST_EXT_MIDI_PRG_DOWN); showPushButton(PB_INST_EXT_MIDI_PRG_UP); showPushButton(PB_INST_EXT_MIDI_BEND_DOWN); showPushButton(PB_INST_EXT_MIDI_BEND_UP); drawMIDICh(); drawMIDIPrg(); drawMIDIBend(); } void showInstEditorExt(void) { if (ui.extended) exitPatternEditorExtended(); hideTopScreen(); showTopScreen(false); ui.instEditorExtShown = true; ui.scopesShown = false; drawInstEditorExt(); } void hideInstEditorExt(void) { hideScrollBar(SB_INST_EXT_MIDI_CH); hideScrollBar(SB_INST_EXT_MIDI_PRG); hideScrollBar(SB_INST_EXT_MIDI_BEND); hideCheckBox(CB_INST_EXT_MIDI); hideCheckBox(CB_INST_EXT_MUTE); hidePushButton(PB_INST_EXT_MIDI_CH_DOWN); hidePushButton(PB_INST_EXT_MIDI_CH_UP); hidePushButton(PB_INST_EXT_MIDI_PRG_DOWN); hidePushButton(PB_INST_EXT_MIDI_PRG_UP); hidePushButton(PB_INST_EXT_MIDI_BEND_DOWN); hidePushButton(PB_INST_EXT_MIDI_BEND_UP); ui.instEditorExtShown = false; ui.scopesShown = true; drawScopeFramework(); } void toggleInstEditorExt(void) { if (ui.instEditorExtShown) hideInstEditorExt(); else showInstEditorExt(); } static bool testInstrSwitcherNormal(void) // Welcome to the Jungle { uint8_t newEntry; if (mouse.x < 424 || mouse.x > 585) return false; if (mouse.y >= 5 && mouse.y <= 91) { // instruments if (mouse.x >= 446 && mouse.x <= 584) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // destination instrument newEntry = (editor.instrBankOffset + 1) + (uint8_t)((mouse.y - 5) / 11); if (editor.curInstr != newEntry) { editor.curInstr = newEntry; updateTextBoxPointers(); updateNewInstrument(); } return true; } else if (mouse.x >= 424 && mouse.x <= 438) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // source isntrument newEntry = (editor.instrBankOffset + 1) + (uint8_t)((mouse.y - 5) / 11); if (editor.srcInstr != newEntry) { editor.srcInstr = newEntry; updateInstrumentSwitcher(); if (ui.advEditShown) updateAdvEdit(); } return true; } } else if (mouse.y >= 99 && mouse.y <= 152) { // samples if (mouse.x >= 446 && mouse.x <= 560) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-99) % 11 == 10) return true; // we clicked on the one-pixel spacer // destionation sample newEntry = editor.sampleBankOffset + (uint8_t)((mouse.y - 99) / 11); if (editor.curSmp != newEntry) { editor.curSmp = newEntry; updateInstrumentSwitcher(); updateSampleEditorSample(); if (ui.sampleEditorShown) updateSampleEditor(); else if (ui.instEditorShown) updateInstEditor(); } return true; } else if (mouse.x >= 423 && mouse.x <= 438) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-99) % 11 == 10) return true; // we clicked on the one-pixel spacer // source sample newEntry = editor.sampleBankOffset + (uint8_t)((mouse.y - 99) / 11); if (editor.srcSmp != newEntry) { editor.srcSmp = newEntry; updateInstrumentSwitcher(); } return true; } } return false; } static bool testInstrSwitcherExtended(void) // Welcome to the Jungle 2 - The Happening { uint8_t newEntry; if (mouse.y < 5 || mouse.y > 47) return false; if (mouse.x >= 511) { // right columns if (mouse.x <= 525) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // source instrument newEntry = (editor.instrBankOffset + 5) + (uint8_t)((mouse.y - 5) / 11); if (editor.srcInstr != newEntry) { editor.srcInstr = newEntry; updateInstrumentSwitcher(); if (ui.advEditShown) updateAdvEdit(); } return true; } else if (mouse.x >= 529 && mouse.x <= 626) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // destination instrument newEntry = (editor.instrBankOffset + 5) + (uint8_t)((mouse.y - 5) / 11); if (editor.curInstr != newEntry) { editor.curInstr = newEntry; updateTextBoxPointers(); updateNewInstrument(); } return true; } } else if (mouse.x >= 388) { // left columns if (mouse.x <= 402) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // source instrument newEntry = (editor.instrBankOffset + 1) + (uint8_t)((mouse.y - 5) / 11); if (editor.srcInstr != newEntry) { editor.srcInstr = newEntry; updateInstrumentSwitcher(); if (ui.advEditShown) updateAdvEdit(); } return true; } else if (mouse.x >= 406 && mouse.x <= 503) { mouse.lastUsedObjectType = OBJECT_INSTRSWITCH; if ((mouse.y-5) % 11 == 10) return true; // we clicked on the one-pixel spacer // destination instrument newEntry = (editor.instrBankOffset + 1) + (uint8_t)((mouse.y - 5) / 11); if (editor.curInstr != newEntry) { editor.curInstr = newEntry; updateTextBoxPointers(); updateNewInstrument(); } return true; } } return false; } bool testInstrSwitcherMouseDown(void) { if (!ui.instrSwitcherShown) return false; if (ui.extended) return testInstrSwitcherExtended(); else return testInstrSwitcherNormal(); } static int32_t SDLCALL saveInstrThread(void *ptr) { xiHdr_t ih; sample_t *s; if (editor.tmpFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during saving! Is the file in use?"); return false; } const int32_t numSamples = getUsedSamples(saveInstrNum); if (numSamples == 0 || instr[saveInstrNum] == NULL) { okBoxThreadSafe(0, "System message", "Instrument is empty!"); return false; } FILE *f = UNICHAR_FOPEN(editor.tmpFilenameU, "wb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during saving! Is the file in use?"); return false; } memset(&ih, 0, sizeof (ih)); // important, also clears reserved stuff memcpy(ih.ID, "Extended Instrument: ", 21); ih.version = 0x0102; // song name int32_t nameLength = (int32_t)strlen(song.instrName[saveInstrNum]); if (nameLength > 22) nameLength = 22; memset(ih.name, ' ', 22); // yes, FT2 pads the name with spaces if (nameLength > 0) memcpy(ih.name, song.instrName[saveInstrNum], nameLength); ih.name[22] = 0x1A; // program/tracker name nameLength = (int32_t)strlen(PROG_NAME_STR); if (nameLength > 20) nameLength = 20; memset(ih.progName, ' ', 20); // yes, FT2 pads the name with spaces if (nameLength > 0) memcpy(ih.progName, PROG_NAME_STR, nameLength); // copy over instrument struct data to instrument header instr_t *ins = instr[saveInstrNum]; memcpy(ih.note2SampleLUT, ins->note2SampleLUT, 96); memcpy(ih.volEnvPoints, ins->volEnvPoints, 12*2*sizeof(int16_t)); memcpy(ih.panEnvPoints, ins->panEnvPoints, 12*2*sizeof(int16_t)); ih.volEnvLength = ins->volEnvLength; ih.panEnvLength = ins->panEnvLength; ih.volEnvSustain = ins->volEnvSustain; ih.volEnvLoopStart = ins->volEnvLoopStart; ih.volEnvLoopEnd = ins->volEnvLoopEnd; ih.panEnvSustain = ins->panEnvSustain; ih.panEnvLoopStart = ins->panEnvLoopStart; ih.panEnvLoopEnd = ins->panEnvLoopEnd; ih.volEnvFlags = ins->volEnvFlags; ih.panEnvFlags = ins->panEnvFlags; ih.vibType = ins->autoVibType; ih.vibSweep = ins->autoVibSweep; ih.vibDepth = ins->autoVibDepth; ih.vibRate = ins->autoVibRate; ih.fadeout = ins->fadeout; ih.midiOn = ins->midiOn ? 1 : 0; ih.midiChannel = ins->midiChannel; ih.midiProgram = ins->midiProgram; ih.midiBend = ins->midiBend; ih.mute = ins->mute ? 1 : 0; ih.numSamples = (uint16_t)numSamples; // copy over sample struct datas to sample headers s = instr[saveInstrNum]->smp; for (int32_t i = 0; i < numSamples; i++, s++) { xmSmpHdr_t *dst = &ih.smp[i]; bool sample16Bit = !!(s->flags & SAMPLE_16BIT); dst->length = s->length; dst->loopStart = s->loopStart; dst->loopLength = s->loopLength; if (sample16Bit) { dst->length <<= 1; dst->loopStart <<= 1; dst->loopLength <<= 1; } dst->volume = s->volume; dst->finetune = s->finetune; dst->flags = s->flags; dst->panning = s->panning; dst->relativeNote = s->relativeNote; dst->nameLength = (uint8_t)strlen(s->name); if (dst->nameLength > 22) dst->nameLength = 22; memset(dst->name, 0, 22); if (dst->nameLength > 0) memcpy(dst->name, s->name, dst->nameLength); if (s->dataPtr == NULL) dst->length = 0; } size_t result = fwrite(&ih, INSTR_XI_HEADER_SIZE + (ih.numSamples * sizeof (xmSmpHdr_t)), 1, f); if (result != 1) { fclose(f); okBoxThreadSafe(0, "System message", "Error saving instrument: general I/O error!"); return false; } pauseAudio(); s = instr[saveInstrNum]->smp; for (int32_t i = 0; i < numSamples; i++, s++) { if (s->dataPtr != NULL && s->length > 0) { unfixSample(s); samp2Delta(s->dataPtr, s->length, s->flags); result = fwrite(s->dataPtr, 1, SAMPLE_LENGTH_BYTES(s), f); delta2Samp(s->dataPtr, s->length, s->flags); fixSample(s); if (result != (size_t)SAMPLE_LENGTH_BYTES(s)) // write not OK { resumeAudio(); fclose(f); okBoxThreadSafe(0, "System message", "Error saving instrument: general I/O error!"); return false; } } } resumeAudio(); fclose(f); editor.diskOpReadDir = true; // force diskop re-read setMouseBusy(false); return true; (void)ptr; } void saveInstr(UNICHAR *filenameU, int16_t insNum) { if (insNum == 0) return; saveInstrNum = insNum; UNICHAR_STRCPY(editor.tmpFilenameU, filenameU); mouseAnimOn(); thread = SDL_CreateThread(saveInstrThread, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); return; } SDL_DetachThread(thread); } static int16_t getPATNote(int32_t freq) { const double dNote = (log2(freq / 440000.0) * 12.0) + 57.0; const int32_t note = (const int32_t)(dNote + 0.5); // rounded return (int16_t)note; } static int32_t SDLCALL loadInstrThread(void *ptr) { int16_t a, b; int32_t i, j, numLoadedSamples; xiHdr_t xi_h; patHdr_t pat_h; patWaveHdr_t patWave_h; xmSmpHdr_t *src; sample_t *s; instr_t *ins; bool stereoWarning = false; numLoadedSamples = 0; if (editor.tmpInstrFilenameU == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); return false; } FILE *f = UNICHAR_FOPEN(editor.tmpInstrFilenameU, "rb"); if (f == NULL) { okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); return false; } memset(&xi_h, 0, sizeof (xi_h)); memset(&pat_h, 0, sizeof (pat_h)); memset(&patWave_h, 0, sizeof (patWave_h)); fread(&xi_h, INSTR_XI_HEADER_SIZE, 1, f); if (!strncmp(xi_h.ID, "Extended Instrument: ", 21)) { // XI - Extended Instrument if (xi_h.version != 0x0101 && xi_h.version != 0x0102) { okBoxThreadSafe(0, "System message", "Incompatible format version!"); goto loadDone; } // not even FT2.01 can save old v1.01 .XI files, so I have no way to verify this if (xi_h.version == 0x0101) { fseek(f, -20, SEEK_CUR); xi_h.numSamples = xi_h.midiProgram; xi_h.midiProgram = 0; xi_h.midiBend = 0; xi_h.mute = false; } numLoadedSamples = xi_h.numSamples; memcpy(song.instrName[editor.curInstr], xi_h.name, 22); song.instrName[editor.curInstr][22] = '\0'; pauseAudio(); freeInstr(editor.curInstr); if (xi_h.numSamples > 0) { if (!allocateInstr(editor.curInstr)) { resumeAudio(); okBoxThreadSafe(0, "System message", "Not enough memory!"); goto loadDone; } // copy instrument header elements to our instrument struct ins = instr[editor.curInstr]; memcpy(ins->note2SampleLUT, xi_h.note2SampleLUT, 96); memcpy(ins->volEnvPoints, xi_h.volEnvPoints, 12*2*sizeof(int16_t)); memcpy(ins->panEnvPoints, xi_h.panEnvPoints, 12*2*sizeof(int16_t)); ins->volEnvLength = xi_h.volEnvLength; ins->panEnvLength = xi_h.panEnvLength; ins->volEnvSustain = xi_h.volEnvSustain; ins->volEnvLoopStart = xi_h.volEnvLoopStart; ins->volEnvLoopEnd = xi_h.volEnvLoopEnd; ins->panEnvSustain = xi_h.panEnvSustain; ins->panEnvLoopStart = xi_h.panEnvLoopStart; ins->panEnvLoopEnd = xi_h.panEnvLoopEnd; ins->volEnvFlags = xi_h.volEnvFlags; ins->panEnvFlags = xi_h.panEnvFlags; ins->autoVibType = xi_h.vibType; ins->autoVibSweep = xi_h.vibSweep; ins->autoVibDepth = xi_h.vibDepth; ins->autoVibRate = xi_h.vibRate; ins->fadeout = xi_h.fadeout; ins->midiOn = (xi_h.midiOn == 1) ? true : false; ins->midiChannel = xi_h.midiChannel; ins->midiProgram = xi_h.midiProgram; ins->midiBend = xi_h.midiBend; ins->mute = (xi_h.mute == 1) ? true : false; // correct logic! Don't mess with this ins->numSamples = xi_h.numSamples; // used in loadInstrSample() int32_t sampleHeadersToRead = xi_h.numSamples; if (sampleHeadersToRead > MAX_SMP_PER_INST) sampleHeadersToRead = MAX_SMP_PER_INST; if (fread(xi_h.smp, sampleHeadersToRead * sizeof (xmSmpHdr_t), 1, f) != 1) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto loadDone; } if (xi_h.numSamples > MAX_SMP_PER_INST) { const int32_t sampleHeadersToSkip = xi_h.numSamples - MAX_SMP_PER_INST; fseek(f, sampleHeadersToSkip * sizeof (xmSmpHdr_t), SEEK_CUR); } for (i = 0; i < sampleHeadersToRead; i++) { s = &instr[editor.curInstr]->smp[i]; src = &xi_h.smp[i]; // copy sample header elements to our sample struct s->length = src->length; s->loopStart = src->loopStart; s->loopLength = src->loopLength; s->volume = src->volume; s->finetune = src->finetune; s->flags = src->flags; s->panning = src->panning; s->relativeNote = src->relativeNote; memcpy(s->name, src->name, 22); s->name[22] = '\0'; // dst->dataPtr is set up later } } for (i = 0; i < xi_h.numSamples; i++) { s = &instr[editor.curInstr]->smp[i]; if (s->length <= 0) { s->length = 0; s->loopStart = 0; s->loopLength = 0; s->flags = 0; } else { const int32_t lengthInFile = s->length; bool sample16Bit = !!(s->flags & SAMPLE_16BIT); bool stereoSample = !!(s->flags & SAMPLE_STEREO); if (sample16Bit) // we use units of samples (not bytes like in FT2) { s->length >>= 1; s->loopStart >>= 1; s->loopLength >>= 1; } if (s->length > MAX_SAMPLE_LEN) s->length = MAX_SAMPLE_LEN; if (!allocateSmpData(s, s->length, sample16Bit)) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "Not enough memory!"); goto loadDone; } const int32_t sampleLengthInBytes = SAMPLE_LENGTH_BYTES(s); if (fread(s->dataPtr, sampleLengthInBytes, 1, f) != 1) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto loadDone; } if (sampleLengthInBytes < lengthInFile) fseek(f, lengthInFile-sampleLengthInBytes, SEEK_CUR); delta2Samp(s->dataPtr, s->length, s->flags); // stereo samples are handled here // check if it was a stereo sample if (stereoSample) { s->flags &= ~SAMPLE_STEREO; s->length >>= 1; s->loopStart >>= 1; s->loopLength >>= 1; reallocateSmpData(s, s->length, sample16Bit); stereoWarning = true; } } } resumeAudio(); } else { rewind(f); fread(&pat_h, 1, sizeof (patHdr_t), f); if (!memcmp(pat_h.ID, "GF1PATCH110\0ID#000002\0", 22)) { // PAT - Gravis Ultrasound patch if (pat_h.numSamples == 0) pat_h.numSamples = 1; // to some patch makers, 0 means 1 if (pat_h.layers > 1 || pat_h.numSamples > MAX_SMP_PER_INST) { okBoxThreadSafe(0, "System message", "Incompatible instrument!"); goto loadDone; } numLoadedSamples = pat_h.numSamples; pauseAudio(); freeInstr(editor.curInstr); if (!allocateInstr(editor.curInstr)) { okBoxThreadSafe(0, "System message", "Not enough memory!"); goto loadDone; } memcpy(song.instrName[editor.curInstr], pat_h.instrName, 16); song.instrName[editor.curInstr][16] = '\0'; for (i = 0; i < pat_h.numSamples; i++) { s = &instr[editor.curInstr]->smp[i]; ins = instr[editor.curInstr]; if (fread(&patWave_h, 1, sizeof (patWave_h), f) != sizeof (patWave_h)) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto loadDone; } const int32_t lengthInFile = patWave_h.sampleLength; bool sample16Bit = !!(patWave_h.flags & 1); s->length = lengthInFile; if (sample16Bit) { s->flags |= SAMPLE_16BIT; s->length >>= 1; } if (s->length > MAX_SAMPLE_LEN) s->length = MAX_SAMPLE_LEN; if (!allocateSmpData(s, s->length, sample16Bit)) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "Not enough memory!"); goto loadDone; } if (i == 0) { ins->autoVibSweep = patWave_h.vibSweep; ins->autoVibRate = (patWave_h.vibRate + 2) >> 2; // rounded ins->autoVibDepth = (patWave_h.vibDepth + 1) >> 1; // rounded } s = &instr[editor.curInstr]->smp[i]; memcpy(s->name, patWave_h.name, 7); s->name[7] = '\0'; if (patWave_h.flags & 4) // loop enabled? { if (patWave_h.flags & 8) s->flags |= LOOP_BIDI; else s->flags |= LOOP_FWD; } s->panning = ((patWave_h.panning << 4) & 0xF0) | (patWave_h.panning & 0xF); s->loopStart = patWave_h.loopStart; s->loopLength = patWave_h.loopEnd - patWave_h.loopStart; if (sample16Bit) { s->loopStart >>= 1; s->loopLength >>= 1; } const double dFreq = (1.0 + (patWave_h.finetune / 512.0)) * patWave_h.sampleRate; tuneSample(s, (int32_t)(dFreq + 0.5), audio.linearPeriodsFlag); a = getPATNote(patWave_h.rootFrq) - (12 * 3); s->relativeNote -= (uint8_t)a; a = getPATNote(patWave_h.lowFrq); b = getPATNote(patWave_h.highFreq); a = CLAMP(a, 0, 95); b = CLAMP(b, 0, 95); for (j = a; j <= b; j++) ins->note2SampleLUT[j] = (uint8_t)i; const int32_t sampleLengthInBytes = SAMPLE_LENGTH_BYTES(s); size_t bytesRead = fread(s->dataPtr, sampleLengthInBytes, 1, f); if (bytesRead != 1) { freeInstr(editor.curInstr); resumeAudio(); okBoxThreadSafe(0, "System message", "General I/O error during loading! Is the file in use?"); goto loadDone; } if (sampleLengthInBytes < lengthInFile) fseek(f, lengthInFile-sampleLengthInBytes, SEEK_CUR); if (patWave_h.flags & 2) // unsigned samples? { if (sample16Bit) conv16BitSample(s->dataPtr, s->length, false); else conv8BitSample(s->dataPtr, s->length, false); } } resumeAudio(); } } loadDone: fclose(f); numLoadedSamples = CLAMP(numLoadedSamples, 1, MAX_SMP_PER_INST); ins = instr[editor.curInstr]; if (ins != NULL) { sanitizeInstrument(ins); for (i = 0; i < numLoadedSamples; i++) { s = &ins->smp[i]; sanitizeSample(s); if (s->dataPtr != NULL) fixSample(s); } fixInstrAndSampleNames(editor.curInstr); } editor.updateCurInstr = true; // setMouseBusy(false) is called in the input/video thread when done if (numLoadedSamples > MAX_SMP_PER_INST) okBoxThreadSafe(0, "System message", "Warning: The instrument contained >16 samples. The extra samples were discarded!"); if (stereoWarning) okBoxThreadSafe(0, "System message", "Warning: The instrument contained stereo sample(s). They were mixed to mono!"); return true; (void)ptr; } bool fileIsInstr(UNICHAR *filenameU) { FILE *f = UNICHAR_FOPEN(filenameU, "rb"); if (f == NULL) return false; char header[22]; fread(header, 1, sizeof (header), f); fclose(f); if (!strncmp(header, "Extended Instrument: ", 21) || !memcmp(header, "GF1PATCH110\0ID#000002\0", 22)) return true; return false; } void loadInstr(UNICHAR *filenameU) { if (editor.curInstr == 0) { okBox(0, "System message", "The zero-instrument cannot hold intrument data."); return; } UNICHAR_STRCPY(editor.tmpInstrFilenameU, filenameU); if (fileIsInstr(filenameU)) { // load as instrument mouseAnimOn(); thread = SDL_CreateThread(loadInstrThread, NULL, NULL); if (thread == NULL) { okBox(0, "System message", "Couldn't create thread!"); return; } SDL_DetachThread(thread); } else { // load as sample into sample slot #0 (and clear instrument) loadSample(editor.tmpInstrFilenameU, 0, true); } }