ref: 1ce97b39ea2aaae9da67f202bf86cd07db9f755d
dir: /src/ft2_edit.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 "ft2_header.h"
#include "ft2_config.h"
#include "ft2_keyboard.h"
#include "ft2_audio.h"
#include "ft2_midi.h"
#include "ft2_pattern_ed.h"
#include "ft2_sysreqs.h"
#include "ft2_textboxes.h"
#include "ft2_tables.h"
#include "ft2_structs.h"
enum
{
KEYTYPE_NUM = 0,
KEYTYPE_ALPHA = 1
};
static double dVolScaleFK1 = 1.0, dVolScaleFK2 = 1.0;
// for block cut/copy/paste
static bool blockCopied;
static int16_t markXSize, markYSize;
static uint16_t ptnBufLen, trkBufLen;
// for transposing - these are set and tested accordingly
static int8_t lastTranspVal;
static uint8_t lastInsMode, lastTranspMode;
static uint32_t transpDelNotes; // count of under-/overflowing notes for warning message
static tonTyp clearNote;
static tonTyp blkCopyBuff[MAX_PATT_LEN * MAX_VOICES];
static tonTyp ptnCopyBuff[MAX_PATT_LEN * MAX_VOICES];
static tonTyp trackCopyBuff[MAX_PATT_LEN];
static const int8_t tickArr[16] = { 16, 8, 0, 4, 0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 1 };
void recordNote(uint8_t note, int8_t vol);
// when the cursor is at the note slot
static bool testNoteKeys(SDL_Scancode scancode)
{
const int8_t noteNum = scancodeKeyToNote(scancode);
if (noteNum > 0 && noteNum <= 96)
{
recordNote(noteNum, -1);
return true; // note key pressed (and note triggered)
}
return false; // no note key pressed
}
// when the cursor is at the note slot
void testNoteKeysRelease(SDL_Scancode scancode)
{
const int8_t noteNum = scancodeKeyToNote(scancode); // convert key scancode to note number
if (noteNum > 0 && noteNum <= 96)
recordNote(noteNum, 0); // release note
}
static bool testEditKeys(SDL_Scancode scancode, SDL_Keycode keycode)
{
int8_t i;
uint8_t oldVal;
if (cursor.object == CURSOR_NOTE)
{
// the edit cursor is at the note slot
if (testNoteKeys(scancode))
{
keyb.keyRepeat = (playMode == PLAYMODE_EDIT); // repeat keys only if in edit mode
return true; // we jammed an instrument
}
return false; // no note key pressed, test other keys
}
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECSONG && playMode != PLAYMODE_RECPATT)
return false; // we're not editing, test other keys
// convert key to slot data
if (cursor.object == CURSOR_VOL1)
{
// volume column effect type (mixed keys)
for (i = 0; i < KEY2VOL_ENTRIES; i++)
{
if (keycode == key2VolTab[i])
break;
}
if (i == KEY2VOL_ENTRIES)
i = -1; // invalid key for slot
}
else if (cursor.object == CURSOR_EFX0)
{
// effect type (mixed keys)
for (i = 0; i < KEY2EFX_ENTRIES; i++)
{
if (keycode == key2EfxTab[i])
break;
}
if (i == KEY2EFX_ENTRIES)
i = -1; // invalid key for slot
}
else
{
// all other slots (hex keys)
for (i = 0; i < KEY2HEX_ENTRIES; i++)
{
if (keycode == key2HexTab[i])
break;
}
if (i == KEY2HEX_ENTRIES)
i = -1; // invalid key for slot
}
if (i == -1 || !allocatePattern(editor.editPattern))
return false; // no edit to be done
// insert slot data
tonTyp *ton = &patt[editor.editPattern][(editor.pattPos * MAX_VOICES) + cursor.ch];
switch (cursor.object)
{
case CURSOR_INST1:
{
oldVal = ton->instr;
ton->instr = (ton->instr & 0x0F) | (i << 4);
if (ton->instr > MAX_INST)
ton->instr = MAX_INST;
if (ton->instr != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_INST2:
{
oldVal = ton->instr;
ton->instr = (ton->instr & 0xF0) | i;
if (ton->instr != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_VOL1:
{
oldVal = ton->vol;
ton->vol = (ton->vol & 0x0F) | ((i + 1) << 4);
if (ton->vol >= 0x51 && ton->vol <= 0x5F)
ton->vol = 0x50;
if (ton->vol != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_VOL2:
{
oldVal = ton->vol;
if (ton->vol < 0x10)
ton->vol = 0x10 + i;
else
ton->vol = (ton->vol & 0xF0) | i;
if (ton->vol >= 0x51 && ton->vol <= 0x5F)
ton->vol = 0x50;
if (ton->vol != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_EFX0:
{
oldVal = ton->effTyp;
ton->effTyp = i;
if (ton->effTyp != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_EFX1:
{
oldVal = ton->eff;
ton->eff = (ton->eff & 0x0F) | (i << 4);
if (ton->eff != oldVal)
setSongModifiedFlag();
}
break;
case CURSOR_EFX2:
{
oldVal = ton->eff;
ton->eff = (ton->eff & 0xF0) | i;
if (ton->eff != oldVal)
setSongModifiedFlag();
}
break;
default: break;
}
// increase row (only in edit mode)
const int16_t pattLen = pattLens[editor.editPattern];
if (playMode == PLAYMODE_EDIT && pattLen >= 1)
setPos(-1, (editor.pattPos + editor.ID_Add) % pattLen, true);
if (i == 0) // if we inserted a zero, check if pattern is empty, for killing
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
return true;
}
// directly ported from the original FT2 code (fun fact: named EvulateTimeStamp() in the FT2 code)
static void evaluateTimeStamp(int16_t *songPos, int16_t *pattNr, int16_t *pattPos, int16_t *tick)
{
int16_t sp = editor.songPos;
int16_t nr = editor.editPattern;
int16_t row = editor.pattPos;
int16_t t = editor.tempo - editor.timer;
t = CLAMP(t, 0, editor.tempo - 1);
// this is needed, but also breaks quantization on speed>15
if (t > 15)
t = 15;
const int16_t pattLen = pattLens[nr];
if (config.recQuant > 0)
{
int16_t r;
if (config.recQuantRes >= 16)
{
t += (editor.tempo >> 1) + 1;
}
else
{
r = tickArr[config.recQuantRes-1];
int16_t p = row & (r - 1);
if (p < (r >> 1))
row -= p;
else
row = (row + r) - p;
t = 0;
}
}
if (t > editor.tempo)
{
t -= editor.tempo;
row++;
}
if (row >= pattLen)
{
if (playMode == PLAYMODE_RECSONG)
sp++;
row = 0;
if (sp >= song.len)
sp = song.repS;
nr = song.songTab[sp];
}
*songPos = sp;
*pattNr = nr;
*pattPos = row;
*tick = t;
}
// directly ported from the original FT2 code - what a mess, but it works...
void recordNote(uint8_t note, int8_t vol)
{
int8_t i;
int16_t nr, sp, pattpos, tick;
int32_t time;
tonTyp *noteData;
const int16_t oldpattpos = editor.pattPos;
if (songPlaying)
{
// row quantization
evaluateTimeStamp(&sp, &nr, &pattpos, &tick);
}
else
{
sp = editor.songPos;
nr = editor.editPattern;
pattpos = editor.pattPos;
tick = 0;
}
bool editmode = (playMode == PLAYMODE_EDIT);
bool recmode = (playMode == PLAYMODE_RECSONG) || (playMode == PLAYMODE_RECPATT);
if (note == 97)
vol = 0;
int8_t c = -1;
int8_t k = -1;
if (editmode || recmode)
{
// find out what channel is the most suitable in edit/record mode
if ((config.multiEdit && editmode) || (config.multiRec && recmode))
{
time = 0x7FFFFFFF;
for (i = 0; i < song.antChn; i++)
{
if (editor.chnMode[i] && config.multiRecChn[i] && editor.keyOffTime[i] < time && editor.keyOnTab[i] == 0)
{
c = i;
time = editor.keyOffTime[i];
}
}
}
else
{
c = cursor.ch;
}
for (i = 0; i < song.antChn; i++)
{
if (note == editor.keyOnTab[i] && config.multiRecChn[i])
k = i;
}
}
else
{
// find out what channel is the most suitable in idle/play mode (jamming)
if (config.multiKeyJazz)
{
time = 0x7FFFFFFF;
c = 0;
if (songPlaying)
{
for (i = 0; i < song.antChn; i++)
{
if (editor.keyOffTime[i] < time && editor.keyOnTab[i] == 0 && config.multiRecChn[i])
{
c = i;
time = editor.keyOffTime[i];
}
}
}
if (time == 0x7FFFFFFF)
{
for (i = 0; i < song.antChn; i++)
{
if (editor.keyOffTime[i] < time && editor.keyOnTab[i] == 0)
{
c = i;
time = editor.keyOffTime[i];
}
}
}
}
else
{
c = cursor.ch;
}
for (i = 0; i < song.antChn; i++)
{
if (note == editor.keyOnTab[i])
k = i;
}
}
if (vol != 0)
{
if (c < 0 || (k >= 0 && (config.multiEdit || (recmode || !editmode))))
return;
// play note
editor.keyOnTab[c] = note;
if (pattpos >= oldpattpos) // non-FT2 fix: only do this if we didn't quantize to next row
{
#ifdef HAS_MIDI
playTone(c, editor.curInstr, note, vol, midi.currMIDIVibDepth, midi.currMIDIPitch);
#else
playTone(c, editor.curInstr, note, vol, 0, 0);
#endif
}
if (editmode || recmode)
{
if (allocatePattern(nr))
{
const int16_t pattLen = pattLens[nr];
noteData = &patt[nr][(pattpos * MAX_VOICES) + c];
// insert data
noteData->ton = note;
if (editor.curInstr > 0)
noteData->instr = editor.curInstr;
if (vol >= 0)
noteData->vol = 0x10 + vol;
if (!recmode)
{
// increase row (only in edit mode)
if (pattLen >= 1)
setPos(-1, (editor.pattPos + editor.ID_Add) % pattLen, true);
}
else
{
// apply tick delay for note if quantization is disabled
if (!config.recQuant && tick > 0)
{
noteData->effTyp = 0x0E;
noteData->eff = 0xD0 + (tick & 0x0F);
}
}
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
}
}
else
{
// note off
if (k != -1)
c = k;
if (c < 0)
return;
editor.keyOnTab[c] = 0;
editor.keyOffTime[c] = ++editor.keyOffNr;
if (pattpos >= oldpattpos) // non-FT2 fix: only do this if we didn't quantize to next row
{
#ifdef HAS_MIDI
playTone(c, editor.curInstr, 97, vol, midi.currMIDIVibDepth, midi.currMIDIPitch);
#else
playTone(c, editor.curInstr, 97, vol, 0, 0);
#endif
}
if (config.recRelease && recmode)
{
if (allocatePattern(nr))
{
// insert data
int16_t pattLen = pattLens[nr];
noteData = &patt[nr][(pattpos * MAX_VOICES) + c];
if (noteData->ton != 0)
pattpos++;
if (pattpos >= pattLen)
{
if (songPlaying)
sp++;
if (sp >= song.len)
sp = song.repS;
nr = song.songTab[sp];
pattpos = 0;
pattLen = pattLens[nr];
}
noteData = &patt[nr][(pattpos * MAX_VOICES) + c];
noteData->ton = 97;
if (!recmode)
{
// increase row (only in edit mode)
if (pattLen >= 1)
setPos(-1, (editor.pattPos + editor.ID_Add) % pattLen, true);
}
else
{
// apply tick delay for note if quantization is disabled
if (!config.recQuant && tick > 0)
{
noteData->effTyp = 0x0E;
noteData->eff = 0xD0 + (tick & 0x0F);
}
}
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
}
}
}
bool handleEditKeys(SDL_Keycode keycode, SDL_Scancode scancode)
{
// special case for delete - manipulate note data
if (keycode == SDLK_DELETE)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECSONG && playMode != PLAYMODE_RECPATT)
return false; // we're not editing, test other keys
if (patt[editor.editPattern] == NULL)
return true;
tonTyp *note = &patt[editor.editPattern][(editor.pattPos * MAX_VOICES) + cursor.ch];
if (keyb.leftShiftPressed)
{
// delete all
memset(note, 0, sizeof (tonTyp));
}
else if (keyb.leftCtrlPressed)
{
// delete volume column + effect
note->vol = 0;
note->effTyp = 0;
note->eff = 0;
}
else if (keyb.leftAltPressed)
{
// delete effect
note->effTyp = 0;
note->eff = 0;
}
else
{
if (cursor.object == CURSOR_VOL1 || cursor.object == CURSOR_VOL2)
{
// delete volume column
note->vol = 0;
}
else
{
// delete note + instrument
note->ton = 0;
note->instr = 0;
}
}
killPatternIfUnused(editor.editPattern);
// increase row (only in edit mode)
const int16_t pattLen = pattLens[editor.editPattern];
if (playMode == PLAYMODE_EDIT && pattLen >= 1)
setPos(-1, (editor.pattPos + editor.ID_Add) % pattLen, true);
ui.updatePatternEditor = true;
setSongModifiedFlag();
return true;
}
// a kludge for french keyb. layouts to allow writing numbers in the pattern data with left SHIFT
const bool frKeybHack = keyb.leftShiftPressed && !keyb.leftAltPressed && !keyb.leftCtrlPressed &&
(scancode >= SDL_SCANCODE_1) && (scancode <= SDL_SCANCODE_0);
if (frKeybHack || !keyb.keyModifierDown)
return (testEditKeys(scancode, keycode));
return false;
}
void writeToMacroSlot(uint8_t slot)
{
uint16_t writeVol = 0;
uint16_t writeEff = 0;
if (patt[editor.editPattern] != NULL)
{
tonTyp *note = &patt[editor.editPattern][(editor.pattPos * MAX_VOICES) + cursor.ch];
writeVol = note->vol;
writeEff = (note->effTyp << 8) | note->eff;
}
if (cursor.object == CURSOR_VOL1 || cursor.object == CURSOR_VOL2)
config.volMacro[slot] = writeVol;
else
config.comMacro[slot] = writeEff;
}
void writeFromMacroSlot(uint8_t slot)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECSONG && playMode != PLAYMODE_RECPATT)
return;
if (!allocatePattern(editor.editPattern))
return;
const int16_t pattLen = pattLens[editor.editPattern];
tonTyp *note = &patt[editor.editPattern][(editor.pattPos * MAX_VOICES) + cursor.ch];
if (cursor.object == CURSOR_VOL1 || cursor.object == CURSOR_VOL2)
{
note->vol = (uint8_t)config.volMacro[slot];
}
else
{
uint8_t effTyp = (uint8_t)(config.comMacro[slot] >> 8);
if (effTyp > 35)
{
// illegal effect
note->effTyp = 0;
note->eff = 0;
}
else
{
note->effTyp = effTyp;
note->eff = config.comMacro[slot] & 0xFF;
}
}
if (playMode == PLAYMODE_EDIT && pattLen >= 1)
setPos(-1, (editor.pattPos + editor.ID_Add) % pattLen, true);
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void insertPatternNote(void)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECPATT && playMode != PLAYMODE_RECSONG)
return;
const int16_t nr = editor.editPattern;
tonTyp *pattPtr = patt[nr];
if (pattPtr == NULL)
return;
const int16_t pattPos = editor.pattPos;
const int16_t pattLen = pattLens[nr];
if (pattLen > 1)
{
for (int32_t i = pattLen-2; i >= pattPos; i--)
pattPtr[((i + 1) * MAX_VOICES) + cursor.ch] = pattPtr[(i * MAX_VOICES) + cursor.ch];
}
memset(&pattPtr[(pattPos * MAX_VOICES) + cursor.ch], 0, sizeof (tonTyp));
killPatternIfUnused(nr);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void insertPatternLine(void)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECPATT && playMode != PLAYMODE_RECSONG)
return;
const int16_t nr = editor.editPattern;
setPatternLen(nr, pattLens[nr] + config.recTrueInsert); // config.recTrueInsert is 0 or 1
tonTyp *pattPtr = patt[nr];
if (pattPtr != NULL)
{
const int16_t pattPos = editor.pattPos;
const int16_t pattLen = pattLens[nr];
if (pattLen > 1)
{
for (int32_t i = pattLen-2; i >= pattPos; i--)
{
for (int32_t j = 0; j < MAX_VOICES; j++)
pattPtr[((i + 1) * MAX_VOICES) + j] = pattPtr[(i * MAX_VOICES) + j];
}
}
memset(&pattPtr[pattPos * MAX_VOICES], 0, TRACK_WIDTH);
killPatternIfUnused(nr);
}
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void deletePatternNote(void)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECPATT && playMode != PLAYMODE_RECSONG)
return;
const int16_t nr = editor.editPattern;
int16_t pattPos = editor.pattPos;
const int16_t pattLen = pattLens[nr];
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr != NULL)
{
if (pattPos > 0)
{
pattPos--;
editor.pattPos = song.pattPos = pattPos;
for (int32_t i = pattPos; i < pattLen-1; i++)
pattPtr[(i * MAX_VOICES) + cursor.ch] = pattPtr[((i + 1) * MAX_VOICES) + cursor.ch];
memset(&pattPtr[((pattLen - 1) * MAX_VOICES) + cursor.ch], 0, sizeof (tonTyp));
}
}
else
{
if (pattPos > 0)
{
pattPos--;
editor.pattPos = song.pattPos = pattPos;
}
}
killPatternIfUnused(nr);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void deletePatternLine(void)
{
if (playMode != PLAYMODE_EDIT && playMode != PLAYMODE_RECPATT && playMode != PLAYMODE_RECSONG)
return;
const int16_t nr = editor.editPattern;
int16_t pattPos = editor.pattPos;
const int16_t pattLen = pattLens[nr];
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr != NULL)
{
if (pattPos > 0)
{
pattPos--;
editor.pattPos = song.pattPos = pattPos;
for (int32_t i = pattPos; i < pattLen-1; i++)
{
for (int32_t j = 0; j < MAX_VOICES; j++)
pattPtr[(i * MAX_VOICES) + j] = pattPtr[((i + 1) * MAX_VOICES) + j];
}
memset(&pattPtr[(pattLen - 1) * MAX_VOICES], 0, TRACK_WIDTH);
}
}
else
{
if (pattPos > 0)
{
pattPos--;
editor.pattPos = song.pattPos = pattPos;
}
}
if (config.recTrueInsert && pattLen > 1)
setPatternLen(nr, pattLen - 1);
killPatternIfUnused(nr);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
// ----- TRANSPOSE FUNCTIONS -----
static void countOverflowingNotes(uint8_t currInsOnly, uint8_t transpMode, int8_t addVal)
{
uint8_t ton;
uint16_t p, pattLen, ch, row;
tonTyp *pattPtr;
transpDelNotes = 0;
switch (transpMode)
{
case TRANSP_TRACK:
{
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattPtr += cursor.ch;
pattLen = pattLens[editor.editPattern];
for (row = 0; row < pattLen; row++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!currInsOnly || pattPtr->instr == editor.curInstr))
{
if ((int8_t)ton+addVal > 96 || (int8_t)ton+addVal <= 0)
transpDelNotes++;
}
pattPtr += MAX_VOICES;
}
}
break;
case TRANSP_PATT:
{
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattLen = pattLens[editor.editPattern];
for (row = 0; row < pattLen; row++)
{
for (ch = 0; ch < song.antChn; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!currInsOnly || pattPtr->instr == editor.curInstr))
{
if ((int8_t)ton+addVal > 96 || (int8_t)ton+addVal <= 0)
transpDelNotes++;
}
pattPtr++;
}
pattPtr += MAX_VOICES - song.antChn;
}
}
break;
case TRANSP_SONG:
{
for (p = 0; p < MAX_PATTERNS; p++)
{
pattPtr = patt[p];
if (pattPtr == NULL)
continue; // empty pattern
pattLen = pattLens[p];
for (row = 0; row < pattLen; row++)
{
for (ch = 0; ch < song.antChn; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!currInsOnly || pattPtr->instr == editor.curInstr))
{
if ((int8_t)ton+addVal > 96 || (int8_t)ton+addVal <= 0)
transpDelNotes++;
}
pattPtr++;
}
pattPtr += MAX_VOICES - song.antChn;
}
}
}
break;
case TRANSP_BLOCK:
{
if (pattMark.markY1 == pattMark.markY2)
return; // no pattern marking
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattPtr += (pattMark.markY1 * MAX_VOICES) + pattMark.markX1;
pattLen = pattLens[editor.editPattern];
for (row = pattMark.markY1; row < pattMark.markY2; row++)
{
for (ch = pattMark.markX1; ch <= pattMark.markX2; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!currInsOnly || pattPtr->instr == editor.curInstr))
{
if ((int8_t)ton+addVal > 96 || (int8_t)ton+addVal <= 0)
transpDelNotes++;
}
pattPtr++;
}
pattPtr += MAX_VOICES - ((pattMark.markX2 + 1) - pattMark.markX1);
}
}
break;
default: break;
}
}
void doTranspose(void)
{
char text[48];
uint8_t ton;
uint16_t p, pattLen, ch, row;
tonTyp *pattPtr;
countOverflowingNotes(lastInsMode, lastTranspMode, lastTranspVal);
if (transpDelNotes > 0)
{
sprintf(text, "%d note(s) will be erased! Proceed?", (int32_t)transpDelNotes);
if (okBox(2, "System request", text) != 1)
return;
}
// lastTranspVal is never <-12 or >12, so unsigned testing for >96 is safe
switch (lastTranspMode)
{
case TRANSP_TRACK:
{
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattPtr += cursor.ch;
pattLen = pattLens[editor.editPattern];
for (row = 0; row < pattLen; row++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!lastInsMode || pattPtr->instr == editor.curInstr))
{
ton += lastTranspVal;
if (ton > 96)
ton = 0; // also handles underflow
pattPtr->ton = ton;
}
pattPtr += MAX_VOICES;
}
}
break;
case TRANSP_PATT:
{
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattLen = pattLens[editor.editPattern];
for (row = 0; row < pattLen; row++)
{
for (ch = 0; ch < song.antChn; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!lastInsMode || pattPtr->instr == editor.curInstr))
{
ton += lastTranspVal;
if (ton > 96)
ton = 0; // also handles underflow
pattPtr->ton = ton;
}
pattPtr++;
}
pattPtr += MAX_VOICES - song.antChn;
}
}
break;
case TRANSP_SONG:
{
for (p = 0; p < MAX_PATTERNS; p++)
{
pattPtr = patt[p];
if (pattPtr == NULL)
continue; // empty pattern
pattLen = pattLens[p];
for (row = 0; row < pattLen; row++)
{
for (ch = 0; ch < song.antChn; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!lastInsMode || pattPtr->instr == editor.curInstr))
{
ton += lastTranspVal;
if (ton > 96)
ton = 0; // also handles underflow
pattPtr->ton = ton;
}
pattPtr++;
}
pattPtr += MAX_VOICES - song.antChn;
}
}
}
break;
case TRANSP_BLOCK:
{
if (pattMark.markY1 == pattMark.markY2)
return; // no pattern marking
pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return; // empty pattern
pattPtr += (pattMark.markY1 * MAX_VOICES) + pattMark.markX1;
pattLen = pattLens[editor.editPattern];
for (row = pattMark.markY1; row < pattMark.markY2; row++)
{
for (ch = pattMark.markX1; ch <= pattMark.markX2; ch++)
{
ton = pattPtr->ton;
if ((ton >= 1 && ton <= 96) && (!lastInsMode || pattPtr->instr == editor.curInstr))
{
ton += lastTranspVal;
if (ton > 96)
ton = 0; // also handles underflow
pattPtr->ton = ton;
}
pattPtr++;
}
pattPtr += MAX_VOICES - ((pattMark.markX2 + 1) - pattMark.markX1);
}
}
break;
default: break;
}
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void trackTranspCurInsUp(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = 1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void trackTranspCurInsDn(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = -1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void trackTranspCurIns12Up(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = 12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void trackTranspCurIns12Dn(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = -12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void trackTranspAllInsUp(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = 1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void trackTranspAllInsDn(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = -1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void trackTranspAllIns12Up(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = 12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void trackTranspAllIns12Dn(void)
{
lastTranspMode = TRANSP_TRACK;
lastTranspVal = -12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void pattTranspCurInsUp(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = 1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void pattTranspCurInsDn(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = -1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void pattTranspCurIns12Up(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = 12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void pattTranspCurIns12Dn(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = -12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void pattTranspAllInsUp(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = 1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void pattTranspAllInsDn(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = -1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void pattTranspAllIns12Up(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = 12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void pattTranspAllIns12Dn(void)
{
lastTranspMode = TRANSP_PATT;
lastTranspVal = -12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void songTranspCurInsUp(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = 1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void songTranspCurInsDn(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = -1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void songTranspCurIns12Up(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = 12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void songTranspCurIns12Dn(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = -12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void songTranspAllInsUp(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = 1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void songTranspAllInsDn(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = -1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void songTranspAllIns12Up(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = 12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void songTranspAllIns12Dn(void)
{
lastTranspMode = TRANSP_SONG;
lastTranspVal = -12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void blockTranspCurInsUp(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = 1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void blockTranspCurInsDn(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = -1;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void blockTranspCurIns12Up(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = 12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void blockTranspCurIns12Dn(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = -12;
lastInsMode = TRANSP_CUR_INST;
doTranspose();
}
void blockTranspAllInsUp(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = 1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void blockTranspAllInsDn(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = -1;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void blockTranspAllIns12Up(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = 12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void blockTranspAllIns12Dn(void)
{
lastTranspMode = TRANSP_BLOCK;
lastTranspVal = -12;
lastInsMode = TRANSP_ALL_INST;
doTranspose();
}
void copyNote(tonTyp *src, tonTyp *dst)
{
if (editor.copyMaskEnable)
{
if (editor.copyMask[0]) dst->ton = src->ton;
if (editor.copyMask[1]) dst->instr = src->instr;
if (editor.copyMask[2]) dst->vol = src->vol;
if (editor.copyMask[3]) dst->effTyp = src->effTyp;
if (editor.copyMask[4]) dst->eff = src->eff;
}
else
{
*dst = *src;
}
}
void pasteNote(tonTyp *src, tonTyp *dst)
{
if (editor.copyMaskEnable)
{
if (editor.copyMask[0] && (src->ton != 0 || !editor.transpMask[0])) dst->ton = src->ton;
if (editor.copyMask[1] && (src->instr != 0 || !editor.transpMask[1])) dst->instr = src->instr;
if (editor.copyMask[2] && (src->vol != 0 || !editor.transpMask[2])) dst->vol = src->vol;
if (editor.copyMask[3] && (src->effTyp != 0 || !editor.transpMask[3])) dst->effTyp = src->effTyp;
if (editor.copyMask[4] && (src->eff != 0 || !editor.transpMask[4])) dst->eff = src->eff;
}
else
{
*dst = *src;
}
}
void cutTrack(void)
{
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
const int16_t pattLen = pattLens[editor.editPattern];
if (config.ptnCutToBuffer)
{
memset(trackCopyBuff, 0, MAX_PATT_LEN * sizeof (tonTyp));
for (int16_t i = 0; i < pattLen; i++)
copyNote(&pattPtr[(i * MAX_VOICES) + cursor.ch], &trackCopyBuff[i]);
trkBufLen = pattLen;
}
pauseMusic();
for (int16_t i = 0; i < pattLen; i++)
pasteNote(&clearNote, &pattPtr[(i * MAX_VOICES) + cursor.ch]);
resumeMusic();
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void copyTrack(void)
{
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
const int16_t pattLen = pattLens[editor.editPattern];
memset(trackCopyBuff, 0, MAX_PATT_LEN * sizeof (tonTyp));
for (int16_t i = 0; i < pattLen; i++)
copyNote(&pattPtr[(i * MAX_VOICES) + cursor.ch], &trackCopyBuff[i]);
trkBufLen = pattLen;
}
void pasteTrack(void)
{
if (trkBufLen == 0 || !allocatePattern(editor.editPattern))
return;
tonTyp *pattPtr = patt[editor.editPattern];
const int16_t pattLen = pattLens[editor.editPattern];
pauseMusic();
for (int16_t i = 0; i < pattLen; i++)
pasteNote(&trackCopyBuff[i], &pattPtr[(i * MAX_VOICES) + cursor.ch]);
resumeMusic();
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void cutPattern(void)
{
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
const int16_t pattLen = pattLens[editor.editPattern];
if (config.ptnCutToBuffer)
{
memset(ptnCopyBuff, 0, (MAX_PATT_LEN * MAX_VOICES) * sizeof (tonTyp));
for (int16_t x = 0; x < song.antChn; x++)
{
for (int16_t i = 0; i < pattLen; i++)
copyNote(&pattPtr[(i * MAX_VOICES) + x], &ptnCopyBuff[(i * MAX_VOICES) + x]);
}
ptnBufLen = pattLen;
}
pauseMusic();
for (int16_t x = 0; x < song.antChn; x++)
{
for (int16_t i = 0; i < pattLen; i++)
pasteNote(&clearNote, &pattPtr[(i * MAX_VOICES) + x]);
}
resumeMusic();
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void copyPattern(void)
{
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
const int16_t pattLen = pattLens[editor.editPattern];
memset(ptnCopyBuff, 0, (MAX_PATT_LEN * MAX_VOICES) * sizeof (tonTyp));
for (int16_t x = 0; x < song.antChn; x++)
{
for (int16_t i = 0; i < pattLen; i++)
copyNote(&pattPtr[(i * MAX_VOICES) + x], &ptnCopyBuff[(i * MAX_VOICES) + x]);
}
ptnBufLen = pattLen;
ui.updatePatternEditor = true;
}
void pastePattern(void)
{
if (ptnBufLen == 0)
return;
if (pattLens[editor.editPattern] != ptnBufLen)
{
if (okBox(1, "System request", "Change pattern length to copybuffer's length?") == 1)
setPatternLen(editor.editPattern, ptnBufLen);
}
if (!allocatePattern(editor.editPattern))
return;
tonTyp *pattPtr = patt[editor.editPattern];
const int16_t pattLen = pattLens[editor.editPattern];
pauseMusic();
for (int16_t x = 0; x < song.antChn; x++)
{
for (int16_t i = 0; i < pattLen; i++)
pasteNote(&ptnCopyBuff[(i * MAX_VOICES) + x], &pattPtr[(i * MAX_VOICES) + x]);
}
resumeMusic();
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void cutBlock(void)
{
if (pattMark.markY1 == pattMark.markY2 || pattMark.markY1 > pattMark.markY2)
return;
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
if (config.ptnCutToBuffer)
{
for (int16_t x = pattMark.markX1; x <= pattMark.markX2; x++)
{
for (int16_t y = pattMark.markY1; y < pattMark.markY2; y++)
{
assert(x < song.antChn && y < pattLens[editor.editPattern]);
copyNote(&pattPtr[(y * MAX_VOICES) + x],
&blkCopyBuff[((y - pattMark.markY1) * MAX_VOICES) + (x - pattMark.markX1)]);
}
}
}
pauseMusic();
for (int16_t x = pattMark.markX1; x <= pattMark.markX2; x++)
{
for (int16_t y = pattMark.markY1; y < pattMark.markY2; y++)
pasteNote(&clearNote, &pattPtr[(y * MAX_VOICES) + x]);
}
resumeMusic();
markXSize = pattMark.markX2 - pattMark.markX1;
markYSize = pattMark.markY2 - pattMark.markY1;
blockCopied = true;
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void copyBlock(void)
{
if (pattMark.markY1 == pattMark.markY2 || pattMark.markY1 > pattMark.markY2)
return;
tonTyp *pattPtr = patt[editor.editPattern];
if (pattPtr == NULL)
return;
for (int16_t x = pattMark.markX1; x <= pattMark.markX2; x++)
{
for (int16_t y = pattMark.markY1; y < pattMark.markY2; y++)
{
assert(x < song.antChn && y < pattLens[editor.editPattern]);
copyNote(&pattPtr[(y * MAX_VOICES) + x],
&blkCopyBuff[((y - pattMark.markY1) * MAX_VOICES) + (x - pattMark.markX1)]);
}
}
markXSize = pattMark.markX2 - pattMark.markX1;
markYSize = pattMark.markY2 - pattMark.markY1;
blockCopied = true;
}
void pasteBlock(void)
{
if (!blockCopied || !allocatePattern(editor.editPattern))
return;
const int16_t pattLen = pattLens[editor.editPattern];
const int32_t xpos = cursor.ch;
const int32_t ypos = editor.pattPos;
int32_t j = markXSize;
if (j+xpos >= song.antChn)
j = song.antChn - xpos - 1;
int32_t k = markYSize;
if (k+ypos >= pattLen)
k = pattLen - ypos;
tonTyp *pattPtr = patt[editor.editPattern];
pauseMusic();
for (int32_t x = xpos; x <= xpos+j; x++)
{
for (int32_t y = ypos; y < ypos+k; y++)
{
assert(x < song.antChn && y < pattLen);
pasteNote(&blkCopyBuff[((y - ypos) * MAX_VOICES) + (x - xpos)], &pattPtr[(y * MAX_VOICES) + x]);
}
}
resumeMusic();
killPatternIfUnused(editor.editPattern);
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
static void remapInstrXY(uint16_t nr, uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2, uint8_t src, uint8_t dst)
{
// this routine is only used sanely, so no need to check input
tonTyp *pattPtr = patt[nr];
if (pattPtr == NULL)
return;
const int32_t noteSkipLen = MAX_VOICES - ((x2 + 1) - x1);
tonTyp *note = &pattPtr[(y1 * MAX_VOICES) + x1];
for (uint16_t y = y1; y <= y2; y++)
{
for (uint16_t x = x1; x <= x2; x++)
{
assert(x < song.antChn && y < pattLens[nr]);
if (note->instr == src)
note->instr = dst;
note++;
}
note += noteSkipLen;
}
}
void remapBlock(void)
{
if (editor.srcInstr == editor.curInstr || pattMark.markY1 == pattMark.markY2 || pattMark.markY1 > pattMark.markY2)
return;
pauseMusic();
remapInstrXY(editor.editPattern,
pattMark.markX1, pattMark.markY1,
pattMark.markX2, pattMark.markY2 - 1,
editor.srcInstr, editor.curInstr);
resumeMusic();
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void remapTrack(void)
{
if (editor.srcInstr == editor.curInstr)
return;
pauseMusic();
remapInstrXY(editor.editPattern,
cursor.ch, 0,
cursor.ch, pattLens[editor.editPattern] - 1,
editor.srcInstr, editor.curInstr);
resumeMusic();
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void remapPattern(void)
{
if (editor.srcInstr == editor.curInstr)
return;
pauseMusic();
remapInstrXY(editor.editPattern,
0, 0,
(uint16_t)(song.antChn - 1), pattLens[editor.editPattern] - 1,
editor.srcInstr, editor.curInstr);
resumeMusic();
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
void remapSong(void)
{
if (editor.srcInstr == editor.curInstr)
return;
pauseMusic();
for (int32_t i = 0; i < MAX_PATTERNS; i++)
{
const uint8_t pattNr = (uint8_t)i;
remapInstrXY(pattNr,
0, 0,
(uint16_t)(song.antChn - 1), pattLens[pattNr] - 1,
editor.srcInstr, editor.curInstr);
}
resumeMusic();
ui.updatePatternEditor = true;
setSongModifiedFlag();
}
// "scale-fade volume" routines
static int8_t getNoteVolume(tonTyp *note)
{
int8_t nv, vv, ev;
if (note->vol >= 0x10 && note->vol <= 0x50)
vv = note->vol - 0x10;
else
vv = -1;
if (note->effTyp == 0xC)
ev = MIN(note->eff, 64);
else
ev = -1;
if (note->instr != 0 && instr[note->instr] != NULL)
nv = (int8_t)instr[note->instr]->samp[0].vol;
else
nv = -1;
int8_t finalv = -1;
if (nv >= 0) finalv = nv;
if (vv >= 0) finalv = vv;
if (ev >= 0) finalv = ev;
return finalv;
}
static void setNoteVolume(tonTyp *note, int8_t newVol)
{
if (newVol < 0)
return;
const int8_t oldv = getNoteVolume(note);
if (note->vol == oldv)
return; // volume is the same
if (note->effTyp == 0x0C)
note->eff = newVol; // Cxx effect
else
note->vol = 0x10 + newVol; // volume column
}
static void scaleNote(uint16_t ptn, int8_t ch, int16_t row, double dScale)
{
if (patt[ptn] == NULL)
return;
const int16_t pattLen = pattLens[ptn];
if (row < 0 || row >= pattLen || ch < 0 || ch >= song.antChn)
return;
tonTyp *note = &patt[ptn][(row * MAX_VOICES) + ch];
int32_t vol = getNoteVolume(note);
if (vol >= 0)
{
vol = (int32_t)((vol * dScale) + 0.5); // rounded
vol = MIN(MAX(0, vol), 64);
setNoteVolume(note, (int8_t)vol);
}
}
static bool askForScaleFade(char *msg)
{
char volstr[32+1];
sprintf(volstr, "%0.2f,%0.2f", dVolScaleFK1, dVolScaleFK2);
if (inputBox(1, msg, volstr, sizeof (volstr) - 1) != 1)
return false;
bool err = false;
char *val1 = volstr;
if (strlen(val1) < 3)
err = true;
char *val2 = strchr(volstr, ',');
if (val2 == NULL || strlen(val2) < 3)
err = true;
if (err)
{
okBox(0, "System message", "Invalid constant expressions.");
return false;
}
dVolScaleFK1 = atof(val1);
dVolScaleFK2 = atof(val2+1);
return true;
}
void scaleFadeVolumeTrack(void)
{
if (!askForScaleFade("Volume scale-fade track (start-, end scale)"))
return;
if (patt[editor.editPattern] == NULL)
return;
const int32_t pattLen = pattLens[editor.editPattern];
double dIPy = 0.0;
if (pattLen > 0)
dIPy = (dVolScaleFK2 - dVolScaleFK1) / pattLen;
double dVol = dVolScaleFK1;
pauseMusic();
for (int16_t row = 0; row < pattLen; row++)
{
scaleNote(editor.editPattern, cursor.ch, row, dVol);
dVol += dIPy;
}
resumeMusic();
}
void scaleFadeVolumePattern(void)
{
if (!askForScaleFade("Volume scale-fade pattern (start-, end scale)"))
return;
if (patt[editor.editPattern] == NULL)
return;
const int32_t pattLen = pattLens[editor.editPattern];
double dIPy = 0.0;
if (pattLen > 0)
dIPy = (dVolScaleFK2 - dVolScaleFK1) / pattLen;
double dVol = dVolScaleFK1;
pauseMusic();
for (int16_t row = 0; row < pattLen; row++)
{
for (int8_t ch = 0; ch < song.antChn; ch++)
scaleNote(editor.editPattern, ch, row, dVol);
dVol += dIPy;
}
resumeMusic();
}
void scaleFadeVolumeBlock(void)
{
if (!askForScaleFade("Volume scale-fade block (start-, end scale)"))
return;
if (patt[editor.editPattern] == NULL || pattMark.markY1 == pattMark.markY2 || pattMark.markY1 > pattMark.markY2)
return;
const int32_t dy = pattMark.markY2 - pattMark.markY1;
double dIPy = 0.0;
if (dy > 0)
dIPy = (dVolScaleFK2 - dVolScaleFK1) / dy;
double dVol = dVolScaleFK1;
pauseMusic();
for (int16_t row = pattMark.markY1; row < pattMark.markY2; row++)
{
for (int16_t ch = pattMark.markX1; ch <= pattMark.markX2; ch++)
scaleNote(editor.editPattern, (uint8_t)ch, row, dVol);
dVol += dIPy;
}
resumeMusic();
}
void toggleCopyMaskEnable(void) { editor.copyMaskEnable ^= 1; }
void toggleCopyMask0(void) { editor.copyMask[0] ^= 1; };
void toggleCopyMask1(void) { editor.copyMask[1] ^= 1; };
void toggleCopyMask2(void) { editor.copyMask[2] ^= 1; };
void toggleCopyMask3(void) { editor.copyMask[3] ^= 1; };
void toggleCopyMask4(void) { editor.copyMask[4] ^= 1; };
void togglePasteMask0(void) { editor.pasteMask[0] ^= 1; };
void togglePasteMask1(void) { editor.pasteMask[1] ^= 1; };
void togglePasteMask2(void) { editor.pasteMask[2] ^= 1; };
void togglePasteMask3(void) { editor.pasteMask[3] ^= 1; };
void togglePasteMask4(void) { editor.pasteMask[4] ^= 1; };
void toggleTranspMask0(void) { editor.transpMask[0] ^= 1; };
void toggleTranspMask1(void) { editor.transpMask[1] ^= 1; };
void toggleTranspMask2(void) { editor.transpMask[2] ^= 1; };
void toggleTranspMask3(void) { editor.transpMask[3] ^= 1; };
void toggleTranspMask4(void) { editor.transpMask[4] ^= 1; };