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path: root/audio/softsynth/mt32/TVF.cpp
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/* Copyright (C) 2003, 2004, 2005, 2006, 2008, 2009 Dean Beeler, Jerome Fisher
 * Copyright (C) 2011, 2012, 2013 Dean Beeler, Jerome Fisher, Sergey V. Mikayev
 *
 *  This program is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU Lesser General Public License as published by
 *  the Free Software Foundation, either version 2.1 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU Lesser General Public License for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public License
 *  along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

//#include <cmath>

#include "mt32emu.h"
#include "mmath.h"

namespace MT32Emu {

// Note that when entering nextPhase(), newPhase is set to phase + 1, and the descriptions/names below refer to
// newPhase's value.
enum {
	// When this is the target phase, level[0] is targeted within time[0]
	// Note that this phase is always set up in reset(), not nextPhase()
	PHASE_ATTACK = 1,

	// When this is the target phase, level[1] is targeted within time[1]
	PHASE_2 = 2,

	// When this is the target phase, level[2] is targeted within time[2]
	PHASE_3 = 3,

	// When this is the target phase, level[3] is targeted within time[3]
	PHASE_4 = 4,

	// When this is the target phase, immediately goes to PHASE_RELEASE unless the poly is set to sustain.
	// Otherwise level[3] is continued with increment 0 - no phase change will occur until some external influence (like pedal release)
	PHASE_SUSTAIN = 5,

	// 0 is targeted within time[4] (the time calculation is quite different from the other phases)
	PHASE_RELEASE = 6,

	// 0 is targeted with increment 0 (thus theoretically staying that way forever)
	PHASE_DONE = 7
};

static int calcBaseCutoff(const TimbreParam::PartialParam *partialParam, Bit32u basePitch, unsigned int key) {
	// This table matches the values used by a real LAPC-I.
	static const Bit8s biasLevelToBiasMult[] = {85, 42, 21, 16, 10, 5, 2, 0, -2, -5, -10, -16, -21, -74, -85};
	// These values represent unique options with no consistent pattern, so we have to use something like a table in any case.
	// The table entries, when divided by 21, match approximately what the manual claims:
	// -1, -1/2, -1/4, 0, 1/8, 1/4, 3/8, 1/2, 5/8, 3/4, 7/8, 1, 5/4, 3/2, 2, s1, s2
	// Note that the entry for 1/8 is rounded to 2 (from 1/8 * 21 = 2.625), which seems strangely inaccurate compared to the others.
	static const Bit8s keyfollowMult21[] = {-21, -10, -5, 0, 2, 5, 8, 10, 13, 16, 18, 21, 26, 32, 42, 21, 21};
	int baseCutoff = keyfollowMult21[partialParam->tvf.keyfollow] - keyfollowMult21[partialParam->wg.pitchKeyfollow];
	// baseCutoff range now: -63 to 63
	baseCutoff *= (int)key - 60;
	// baseCutoff range now: -3024 to 3024
	int biasPoint = partialParam->tvf.biasPoint;
	if ((biasPoint & 0x40) == 0) {
		// biasPoint range here: 0 to 63
		int bias = biasPoint + 33 - key; // bias range here: -75 to 84
		if (bias > 0) {
			bias = -bias; // bias range here: -1 to -84
			baseCutoff += bias * biasLevelToBiasMult[partialParam->tvf.biasLevel]; // Calculation range: -7140 to 7140
			// baseCutoff range now: -10164 to 10164
		}
	} else {
		// biasPoint range here: 64 to 127
		int bias = biasPoint - 31 - key; // bias range here: -75 to 84
		if (bias < 0) {
			baseCutoff += bias * biasLevelToBiasMult[partialParam->tvf.biasLevel]; // Calculation range: −6375 to 6375
			// baseCutoff range now: -9399 to 9399
		}
	}
	// baseCutoff range now: -10164 to 10164
	baseCutoff += ((partialParam->tvf.cutoff << 4) - 800);
	// baseCutoff range now: -10964 to 10964
	if (baseCutoff >= 0) {
		// FIXME: Potentially bad if baseCutoff ends up below -2056?
		int pitchDeltaThing = (basePitch >> 4) + baseCutoff - 3584;
		if (pitchDeltaThing > 0) {
			baseCutoff -= pitchDeltaThing;
		}
	} else if (baseCutoff < -2048) {
		baseCutoff = -2048;
	}
	baseCutoff += 2056;
	baseCutoff >>= 4; // PORTABILITY NOTE: Hmm... Depends whether it could've been below -2056, but maybe arithmetic shift assumed?
	if (baseCutoff > 255) {
		baseCutoff = 255;
	}
	return (Bit8u)baseCutoff;
}

TVF::TVF(const Partial *usePartial, LA32Ramp *useCutoffModifierRamp) :
	partial(usePartial), cutoffModifierRamp(useCutoffModifierRamp) {
}

void TVF::startRamp(Bit8u newTarget, Bit8u newIncrement, int newPhase) {
	target = newTarget;
	phase = newPhase;
	cutoffModifierRamp->startRamp(newTarget, newIncrement);
#if MT32EMU_MONITOR_TVF >= 1
	partial->getSynth()->printDebug("[+%lu] [Partial %d] TVF,ramp,%d,%d,%d,%d", partial->debugGetSampleNum(), partial->debugGetPartialNum(), newTarget, (newIncrement & 0x80) ? -1 : 1, (newIncrement & 0x7F), newPhase);
#endif
}

void TVF::reset(const TimbreParam::PartialParam *newPartialParam, unsigned int basePitch) {
	partialParam = newPartialParam;

	unsigned int key = partial->getPoly()->getKey();
	unsigned int velocity = partial->getPoly()->getVelocity();

	const Tables *tables = &Tables::getInstance();

	baseCutoff = calcBaseCutoff(newPartialParam, basePitch, key);
#if MT32EMU_MONITOR_TVF >= 1
	partial->getSynth()->printDebug("[+%lu] [Partial %d] TVF,base,%d", partial->debugGetSampleNum(), partial->debugGetPartialNum(), baseCutoff);
#endif

	int newLevelMult = velocity * newPartialParam->tvf.envVeloSensitivity;
	newLevelMult >>= 6;
	newLevelMult += 109 - newPartialParam->tvf.envVeloSensitivity;
	newLevelMult += ((signed)key - 60) >> (4 - newPartialParam->tvf.envDepthKeyfollow);
	if (newLevelMult < 0) {
		newLevelMult = 0;
	}
	newLevelMult *= newPartialParam->tvf.envDepth;
	newLevelMult >>= 6;
	if (newLevelMult > 255) {
		newLevelMult = 255;
	}
	levelMult = newLevelMult;

	if (newPartialParam->tvf.envTimeKeyfollow != 0) {
		keyTimeSubtraction = ((signed)key - 60) >> (5 - newPartialParam->tvf.envTimeKeyfollow);
	} else {
		keyTimeSubtraction = 0;
	}

	int newTarget = (newLevelMult * newPartialParam->tvf.envLevel[0]) >> 8;
	int envTimeSetting = newPartialParam->tvf.envTime[0] - keyTimeSubtraction;
	int newIncrement;
	if (envTimeSetting <= 0) {
		newIncrement = (0x80 | 127);
	} else {
		newIncrement = tables->envLogarithmicTime[newTarget] - envTimeSetting;
		if (newIncrement <= 0) {
			newIncrement = 1;
		}
	}
	cutoffModifierRamp->reset();
	startRamp(newTarget, newIncrement, PHASE_2 - 1);
}

Bit8u TVF::getBaseCutoff() const {
	return baseCutoff;
}

void TVF::handleInterrupt() {
	nextPhase();
}

void TVF::startDecay() {
	if (phase >= PHASE_RELEASE) {
		return;
	}
	if (partialParam->tvf.envTime[4] == 0) {
		startRamp(0, 1, PHASE_DONE - 1);
	} else {
		startRamp(0, -partialParam->tvf.envTime[4], PHASE_DONE - 1);
	}
}

void TVF::nextPhase() {
	const Tables *tables = &Tables::getInstance();
	int newPhase = phase + 1;

	switch (newPhase) {
	case PHASE_DONE:
		startRamp(0, 0, newPhase);
		return;
	case PHASE_SUSTAIN:
	case PHASE_RELEASE:
		// FIXME: Afaict newPhase should never be PHASE_RELEASE here. And if it were, this is an odd way to handle it.
		if (!partial->getPoly()->canSustain()) {
			phase = newPhase; // FIXME: Correct?
			startDecay(); // FIXME: This should actually start decay even if phase is already 6. Does that matter?
			return;
		}
		startRamp((levelMult * partialParam->tvf.envLevel[3]) >> 8, 0, newPhase);
		return;
	}

	int envPointIndex = phase;
	int envTimeSetting = partialParam->tvf.envTime[envPointIndex] - keyTimeSubtraction;

	int newTarget = (levelMult * partialParam->tvf.envLevel[envPointIndex]) >> 8;
	int newIncrement;
	if (envTimeSetting > 0) {
		int targetDelta = newTarget - target;
		if (targetDelta == 0) {
			if (newTarget == 0) {
				targetDelta = 1;
				newTarget = 1;
			} else {
				targetDelta = -1;
				newTarget--;
			}
		}
		newIncrement = tables->envLogarithmicTime[targetDelta < 0 ? -targetDelta : targetDelta] - envTimeSetting;
		if (newIncrement <= 0) {
			newIncrement = 1;
		}
		if (targetDelta < 0) {
			newIncrement |= 0x80;
		}
	} else {
		newIncrement = newTarget >= target ? (0x80 | 127) : 127;
	}
	startRamp(newTarget, newIncrement, newPhase);
}

}