ref: 13b6db91928fea27f956cba68ee4169b7604a752
dir: /src/pt2_chordmaker.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 "pt2_config.h"
#include "pt2_textout.h"
#include "pt2_visuals.h"
#include "pt2_helpers.h"
#include "pt2_tables.h"
#include "pt2_sampler.h"
#include "pt2_audio.h"
#include "pt2_blep.h"
#include "pt2_downsample2x.h"
#include "pt2_replayer.h"
#define MAX_NOTES 4
typedef struct sampleMixer_t
{
bool active;
int32_t length, pos;
double dDelta, dPhase, dLastPhase;
} sampleMixer_t;
static void sortNotes(void)
{
for (int32_t i = 0; i < 3; i++)
{
if (editor.note2 == 36)
{
editor.note2 = editor.note3;
editor.note3 = editor.note4;
editor.note4 = 36;
}
}
for (int32_t i = 0; i < 3; i++)
{
if (editor.note3 == 36)
{
editor.note3 = editor.note4;
editor.note4 = 36;
}
}
}
static void removeDuplicateNotes(void)
{
if (editor.note4 == editor.note3) editor.note4 = 36;
if (editor.note4 == editor.note2) editor.note4 = 36;
if (editor.note3 == editor.note2) editor.note3 = 36;
}
static void setupMixVoice(sampleMixer_t *v, int32_t length, double dDelta)
{
v->dDelta = dDelta;
v->length = (int32_t)ceil(length / dDelta);
if (v->length > 0)
v->active = true;
}
// this has 2x oversampling for BLEP to function properly with all pitches
void mixChordSample(void)
{
char smpText[22+1];
int32_t i;
sampleMixer_t mixCh[MAX_NOTES];
blep_t bleps[MAX_NOTES];
if (editor.sampleZero)
{
statusNotSampleZero();
return;
}
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
moduleSample_t *s = &song->samples[editor.currSample];
if (s->length == 0)
{
statusSampleIsEmpty();
return;
}
// check if all notes are the same (illegal)
bool sameNotes = true;
if (editor.note2 != 36 && editor.note2 != editor.note1) sameNotes = false; else editor.note2 = 36;
if (editor.note3 != 36 && editor.note3 != editor.note1) sameNotes = false; else editor.note3 = 36;
if (editor.note4 != 36 && editor.note4 != editor.note1) sameNotes = false; else editor.note4 = 36;
if (sameNotes)
{
displayErrorMsg("ONLY ONE NOTE!");
return;
}
sortNotes();
removeDuplicateNotes();
ui.updateChordNote1Text = true;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
// setup some variables
int32_t smpLoopStart = s->loopStart;
int32_t smpLoopLength = s->loopLength;
bool smpLoopFlag = (smpLoopStart + smpLoopLength) > 2;
int32_t smpEnd = smpLoopFlag ? (smpLoopStart + smpLoopLength) : s->length;
int8_t *smpData = &song->sampleData[s->offset];
if (editor.newOldFlag == 0)
{
// find a free sample slot for the new sample
for (i = 0; i < MOD_SAMPLES; i++)
{
if (song->samples[i].length == 0)
break;
}
if (i == MOD_SAMPLES)
{
displayErrorMsg("NO EMPTY SAMPLE!");
return;
}
uint8_t smpFinetune = s->fineTune;
int8_t smpVolume = s->volume;
memcpy(smpText, s->text, sizeof (smpText));
s = &song->samples[i];
s->fineTune = smpFinetune;
s->volume = smpVolume;
memcpy(s->text, smpText, sizeof (smpText));
editor.currSample = (int8_t)i;
}
double *dMixData = (double *)calloc(config.maxSampleLength*2, sizeof (double));
if (dMixData == NULL)
{
statusOutOfMemory();
return;
}
s->length = smpLoopFlag ? config.maxSampleLength : editor.chordLength; // if sample loops, set max length
s->loopLength = 2;
s->loopStart = 0;
s->text[21] = '!'; // chord sample indicator
s->text[22] = '\0';
memset(mixCh, 0, sizeof (mixCh)); // also clears position and frac
// setup mixing lengths and deltas
uint8_t finetune = s->fineTune & 0xF;
const double dOutputHz = ((double)PAULA_PAL_CLK / periodTable[24]) * 2.0;
const double dClk = PAULA_PAL_CLK / dOutputHz;
if (editor.note1 < 36) setupMixVoice(&mixCh[0], smpEnd, dClk / periodTable[(finetune * 37) + editor.note1]);
if (editor.note2 < 36) setupMixVoice(&mixCh[1], smpEnd, dClk / periodTable[(finetune * 37) + editor.note2]);
if (editor.note3 < 36) setupMixVoice(&mixCh[2], smpEnd, dClk / periodTable[(finetune * 37) + editor.note3]);
if (editor.note4 < 36) setupMixVoice(&mixCh[3], smpEnd, dClk / periodTable[(finetune * 37) + editor.note4]);
// start mixing
memset(bleps, 0, sizeof (bleps));
turnOffVoices();
sampleMixer_t *v = mixCh;
blep_t *bSmp = bleps;
for (i = 0; i < MAX_NOTES; i++, v++, bSmp++)
{
if (!v->active || v->dDelta == 0.0)
continue;
for (int32_t j = 0; j < config.maxSampleLength*2; j++)
{
double dSmp = smpData[v->pos] * (1.0 / 128.0);
if (dSmp != bSmp->dLastValue)
{
if (v->dDelta > v->dLastPhase)
blepAdd(bSmp, v->dLastPhase / v->dDelta, bSmp->dLastValue - dSmp);
bSmp->dLastValue = dSmp;
}
if (bSmp->samplesLeft > 0) dSmp = blepRun(bSmp, dSmp);
dMixData[j] += dSmp;
v->dPhase += v->dDelta;
if (v->dPhase >= 1.0)
{
v->dPhase -= 1.0;
v->dLastPhase = v->dPhase;
v->pos++;
if (v->pos >= smpEnd)
{
if (smpLoopFlag)
{
do
{
v->pos -= smpLoopLength;
}
while (v->pos >= smpEnd);
}
else
{
break;
}
}
}
}
}
// downsample oversampled buffer, normalize and quantize to 8-bit
downsample2xDouble(dMixData, s->length * 2);
double dAmp = 1.0;
const double dPeak = getDoublePeak(dMixData, s->length);
if (dPeak > 0.0)
dAmp = INT8_MAX / dPeak;
int8_t *smpPtr = &song->sampleData[s->offset];
for (i = 0; i < s->length; i++)
{
const int32_t smp = (const int32_t)round(dMixData[i] * dAmp);
assert(smp >= -128 && smp <= 127); // shouldn't happen according to dAmp (but just in case)
smpPtr[i] = (int8_t)smp;
}
free(dMixData);
// clear unused sample data (if sample is not full already)
if (s->length < config.maxSampleLength)
memset(&song->sampleData[s->offset + s->length], 0, config.maxSampleLength - s->length);
// we're done
editor.samplePos = 0;
fixSampleBeep(s);
updateCurrSample();
updateWindowTitle(MOD_IS_MODIFIED);
}
static void backupChord(void)
{
editor.oldNote1 = editor.note1;
editor.oldNote2 = editor.note2;
editor.oldNote3 = editor.note3;
editor.oldNote4 = editor.note4;
}
void recalcChordLength(void)
{
int32_t note;
moduleSample_t *s = &song->samples[editor.currSample];
if (editor.chordLengthMin)
{
note = MAX(MAX((editor.note1 == 36) ? -1 : editor.note1,
(editor.note2 == 36) ? -1 : editor.note2),
MAX((editor.note3 == 36) ? -1 : editor.note3,
(editor.note4 == 36) ? -1 : editor.note4));
}
else
{
note = MIN(MIN(editor.note1, editor.note2), MIN(editor.note3, editor.note4));
}
if (note < 0 || note > 35)
{
editor.chordLength = 0;
}
else
{
int32_t len = (s->length * periodTable[(37 * s->fineTune) + note]) / periodTable[24];
if (len > config.maxSampleLength)
len = config.maxSampleLength;
editor.chordLength = len & config.maxSampleLength;
}
if (ui.editOpScreenShown && ui.editOpScreen == 3)
ui.updateChordLengthText = true;
}
void resetChord(void)
{
editor.note1 = 36;
editor.note2 = 36;
editor.note3 = 36;
editor.note4 = 36;
editor.chordLengthMin = false;
ui.updateChordNote1Text = true;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void undoChord(void)
{
editor.note1 = editor.oldNote1;
editor.note2 = editor.oldNote2;
editor.note3 = editor.oldNote3;
editor.note4 = editor.oldNote4;
ui.updateChordNote1Text = true;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void toggleChordLength(void)
{
if (song->samples[editor.currSample].loopLength == 2 && song->samples[editor.currSample].loopStart == 0)
{
editor.chordLengthMin = mouse.rightButtonPressed ? true : false;
recalcChordLength();
}
}
void setChordMajor(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 4;
editor.note3 = editor.note1 + 7;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
editor.note4 = 36;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordMinor(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 3;
editor.note3 = editor.note1 + 7;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
editor.note4 = 36;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordSus4(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 5;
editor.note3 = editor.note1 + 7;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
editor.note4 = 36;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordMajor6(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 4;
editor.note3 = editor.note1 + 7;
editor.note4 = editor.note1 + 9;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
if (editor.note4 >= 36) editor.note4 -= 12;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordMinor6(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 3;
editor.note3 = editor.note1 + 7;
editor.note4 = editor.note1 + 9;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
if (editor.note4 >= 36) editor.note4 -= 12;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordMajor7(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 4;
editor.note3 = editor.note1 + 7;
editor.note4 = editor.note1 + 11;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
if (editor.note4 >= 36) editor.note4 -= 12;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void setChordMinor7(void)
{
if (editor.note1 == 36)
{
displayErrorMsg("NO BASENOTE!");
return;
}
backupChord();
editor.note2 = editor.note1 + 3;
editor.note3 = editor.note1 + 7;
editor.note4 = editor.note1 + 10;
if (editor.note2 >= 36) editor.note2 -= 12;
if (editor.note3 >= 36) editor.note3 -= 12;
if (editor.note4 >= 36) editor.note4 -= 12;
ui.updateChordNote2Text = true;
ui.updateChordNote3Text = true;
ui.updateChordNote4Text = true;
recalcChordLength();
}
void selectChordNote1(void)
{
if (mouse.rightButtonPressed)
{
editor.note1 = 36;
}
else
{
ui.changingChordNote = 1;
setStatusMessage("SELECT NOTE", NO_CARRY);
pointerSetMode(POINTER_MODE_MSG1, NO_CARRY);
}
ui.updateChordNote1Text = true;
}
void selectChordNote2(void)
{
if (mouse.rightButtonPressed)
{
editor.note2 = 36;
}
else
{
ui.changingChordNote = 2;
setStatusMessage("SELECT NOTE", NO_CARRY);
pointerSetMode(POINTER_MODE_MSG1, NO_CARRY);
}
ui.updateChordNote2Text = true;
}
void selectChordNote3(void)
{
if (mouse.rightButtonPressed)
{
editor.note3 = 36;
}
else
{
ui.changingChordNote = 3;
setStatusMessage("SELECT NOTE", NO_CARRY);
pointerSetMode(POINTER_MODE_MSG1, NO_CARRY);
}
ui.updateChordNote3Text = true;
}
void selectChordNote4(void)
{
if (mouse.rightButtonPressed)
{
editor.note4 = 36;
}
else
{
ui.changingChordNote = 4;
setStatusMessage("SELECT NOTE", NO_CARRY);
pointerSetMode(POINTER_MODE_MSG1, NO_CARRY);
}
ui.updateChordNote4Text = true;
}