kopia lustrzana https://github.com/jameshball/osci-render
150 wiersze
4.9 KiB
C++
150 wiersze
4.9 KiB
C++
#include "Effect.h"
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#include <numbers>
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Effect::Effect(std::shared_ptr<EffectApplication> effectApplication, std::vector<EffectParameter*> parameters) : effectApplication(effectApplication), parameters(parameters), enabled(nullptr) {
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actualValues = std::vector<double>(parameters.size(), 0.0);
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}
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Effect::Effect(std::shared_ptr<EffectApplication> effectApplication, EffectParameter* parameter) : Effect(effectApplication, std::vector<EffectParameter*>{parameter}) {}
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Effect::Effect(std::function<Vector2(int, Vector2, const std::vector<double>&, double)> application, std::vector<EffectParameter*> parameters) : application(application), parameters(parameters), enabled(nullptr) {
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actualValues = std::vector<double>(parameters.size(), 0.0);
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}
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Effect::Effect(std::function<Vector2(int, Vector2, const std::vector<double>&, double)> application, EffectParameter* parameter) : Effect(application, std::vector<EffectParameter*>{parameter}) {}
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Vector2 Effect::apply(int index, Vector2 input) {
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animateValues();
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if (application) {
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return application(index, input, actualValues, sampleRate);
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} else if (effectApplication != nullptr) {
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return effectApplication->apply(index, input, actualValues, sampleRate);
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}
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return input;
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}
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void Effect::animateValues() {
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for (int i = 0; i < parameters.size(); i++) {
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auto parameter = parameters[i];
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float minValue = parameter->min;
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float maxValue = parameter->max;
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float phase = parameter->lfo != nullptr ? nextPhase(parameter) : 0.0;
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float percentage = phase / (2 * std::numbers::pi);
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LfoType type = parameter->lfo != nullptr ? (LfoType)(int)parameter->lfo->getValueUnnormalised() : LfoType::Static;
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switch (type) {
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case LfoType::Sine:
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actualValues[i] = std::sin(phase) * 0.5 + 0.5;
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actualValues[i] = actualValues[i] * (maxValue - minValue) + minValue;
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break;
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case LfoType::Square:
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actualValues[i] = (percentage < 0.5) ? maxValue : minValue;
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break;
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case LfoType::Seesaw:
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// modified sigmoid function
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actualValues[i] = (percentage < 0.5) ? percentage * 2 : (1 - percentage) * 2;
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actualValues[i] = 1 / (1 + std::exp(-16 * (actualValues[i] - 0.5)));
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actualValues[i] = actualValues[i] * (maxValue - minValue) + minValue;
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break;
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case LfoType::Triangle:
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actualValues[i] = (percentage < 0.5) ? percentage * 2 : (1 - percentage) * 2;
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actualValues[i] = actualValues[i] * (maxValue - minValue) + minValue;
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break;
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case LfoType::Sawtooth:
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actualValues[i] = percentage * (maxValue - minValue) + minValue;
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break;
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case LfoType::ReverseSawtooth:
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actualValues[i] = (1 - percentage) * (maxValue - minValue) + minValue;
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break;
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case LfoType::Noise:
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actualValues[i] = ((float)rand() / RAND_MAX) * (maxValue - minValue) + minValue;
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break;
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default:
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double weight = parameter->smoothValueChange ? 0.0005 : 1.0;
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actualValues[i] = (1.0 - weight) * actualValues[i] + weight * parameter->getValueUnnormalised();
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break;
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}
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}
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}
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// should only be the audio thread calling this, but either way it's not a big deal
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float Effect::nextPhase(EffectParameter* parameter) {
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parameter->phase += parameter->lfoRate->getValueUnnormalised() / sampleRate;
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if (parameter->phase > 1) {
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parameter->phase -= 1;
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}
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return parameter->phase * 2 * std::numbers::pi;
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}
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void Effect::apply() {
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apply(0, Vector2());
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}
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double Effect::getValue(int index) {
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return parameters[index]->getValueUnnormalised();
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}
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double Effect::getValue() {
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return getValue(0);
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}
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void Effect::setValue(int index, double value) {
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parameters[index]->setUnnormalisedValueNotifyingHost(value);
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}
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void Effect::setValue(double value) {
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setValue(0, value);
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}
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int Effect::getPrecedence() {
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return precedence;
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}
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void Effect::setPrecedence(int precedence) {
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this->precedence = precedence;
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}
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void Effect::addListener(int index, juce::AudioProcessorParameter::Listener* listener) {
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parameters[index]->addListener(listener);
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if (parameters[index]->lfo != nullptr) {
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parameters[index]->lfo->addListener(listener);
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}
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if (parameters[index]->lfoRate != nullptr) {
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parameters[index]->lfoRate->addListener(listener);
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}
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if (enabled != nullptr) {
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enabled->addListener(listener);
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}
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}
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void Effect::removeListener(int index, juce::AudioProcessorParameter::Listener* listener) {
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if (enabled != nullptr) {
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enabled->removeListener(listener);
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}
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if (parameters[index]->lfoRate != nullptr) {
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parameters[index]->lfoRate->removeListener(listener);
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}
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if (parameters[index]->lfo != nullptr) {
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parameters[index]->lfo->removeListener(listener);
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}
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parameters[index]->removeListener(listener);
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}
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void Effect::markEnableable(bool enable) {
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if (enabled != nullptr) {
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enabled->setValue(enable);
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} else {
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enabled = new BooleanParameter(getName() + " Enabled", getId() + "Enabled", enable);
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}
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}
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juce::String Effect::getId() {
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return parameters[0]->paramID;
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}
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juce::String Effect::getName() {
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return parameters[0]->name;
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}
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