mirror of https://github.com/AxioDL/amuse.git
EffectDelay: Make use of std::array where applicable
Makes the arrays more strongly typed and allows dehardcoding some array sizes.
This commit is contained in:
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5de0035adb
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be754a44a4
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@ -1,5 +1,7 @@
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#pragma once
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#pragma once
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#include <algorithm>
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#include <array>
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#include <cstdint>
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#include <cstdint>
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#include <memory>
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#include <memory>
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@ -13,24 +15,24 @@ class EffectDelayImp;
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/** Parameters needed to create EffectDelay */
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/** Parameters needed to create EffectDelay */
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struct EffectDelayInfo {
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struct EffectDelayInfo {
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uint32_t delay[8]; /**< [10, 5000] time in ms of each channel's delay */
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std::array<uint32_t, NumChannels> delay; /**< [10, 5000] time in ms of each channel's delay */
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uint32_t feedback[8] = {}; /**< [0, 100] percent to mix delayed signal with input signal */
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std::array<uint32_t, NumChannels> feedback{}; /**< [0, 100] percent to mix delayed signal with input signal */
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uint32_t output[8] = {}; /**< [0, 100] total output percent */
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std::array<uint32_t, NumChannels> output{}; /**< [0, 100] total output percent */
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static uint32_t lerp(uint32_t v0, uint32_t v1, float t) { return (1.f - t) * v0 + t * v1; }
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static uint32_t lerp(uint32_t v0, uint32_t v1, float t) { return (1.f - t) * v0 + t * v1; }
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static void Interp3To8(uint32_t arr[8], uint32_t L, uint32_t R, uint32_t S) {
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static void Interp3To8(std::array<uint32_t, 8>& arr, uint32_t L, uint32_t R, uint32_t S) {
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arr[int(AudioChannel::FrontLeft)] = L;
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arr[size_t(AudioChannel::FrontLeft)] = L;
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arr[int(AudioChannel::FrontRight)] = R;
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arr[size_t(AudioChannel::FrontRight)] = R;
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arr[int(AudioChannel::RearLeft)] = lerp(L, S, 0.75f);
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arr[size_t(AudioChannel::RearLeft)] = lerp(L, S, 0.75f);
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arr[int(AudioChannel::RearRight)] = lerp(R, S, 0.75f);
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arr[size_t(AudioChannel::RearRight)] = lerp(R, S, 0.75f);
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arr[int(AudioChannel::FrontCenter)] = lerp(L, R, 0.5f);
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arr[size_t(AudioChannel::FrontCenter)] = lerp(L, R, 0.5f);
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arr[int(AudioChannel::LFE)] = arr[int(AudioChannel::FrontCenter)];
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arr[size_t(AudioChannel::LFE)] = arr[size_t(AudioChannel::FrontCenter)];
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arr[int(AudioChannel::SideLeft)] = lerp(L, S, 0.5f);
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arr[size_t(AudioChannel::SideLeft)] = lerp(L, S, 0.5f);
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arr[int(AudioChannel::SideRight)] = lerp(R, S, 0.5f);
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arr[size_t(AudioChannel::SideRight)] = lerp(R, S, 0.5f);
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}
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}
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EffectDelayInfo() { std::fill_n(delay, 8, 10); }
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EffectDelayInfo() { delay.fill(10); }
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EffectDelayInfo(uint32_t delayL, uint32_t delayR, uint32_t delayS, uint32_t feedbackL, uint32_t feedbackR,
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EffectDelayInfo(uint32_t delayL, uint32_t delayR, uint32_t delayS, uint32_t feedbackL, uint32_t feedbackR,
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uint32_t feedbackS, uint32_t outputL, uint32_t outputR, uint32_t outputS) {
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uint32_t feedbackS, uint32_t outputL, uint32_t outputR, uint32_t outputS) {
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Interp3To8(delay, delayL, delayR, delayS);
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Interp3To8(delay, delayL, delayR, delayS);
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@ -42,18 +44,18 @@ struct EffectDelayInfo {
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/** Mixes the audio back into itself after specified delay */
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/** Mixes the audio back into itself after specified delay */
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class EffectDelay {
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class EffectDelay {
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protected:
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protected:
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uint32_t x3c_delay[8]; /**< [10, 5000] time in ms of each channel's delay */
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std::array<uint32_t, NumChannels> x3c_delay; /**< [10, 5000] time in ms of each channel's delay */
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uint32_t x48_feedback[8]; /**< [0, 100] percent to mix delayed signal with input signal */
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std::array<uint32_t, NumChannels> x48_feedback; /**< [0, 100] percent to mix delayed signal with input signal */
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uint32_t x54_output[8]; /**< [0, 100] total output percent */
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std::array<uint32_t, NumChannels> x54_output; /**< [0, 100] total output percent */
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bool m_dirty = true; /**< needs update of internal parameter data */
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bool m_dirty = true; /**< needs update of internal parameter data */
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public:
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public:
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template <typename T>
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template <typename T>
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using ImpType = EffectDelayImp<T>;
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using ImpType = EffectDelayImp<T>;
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void setDelay(uint32_t delay) {
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void setDelay(uint32_t delay) {
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delay = std::clamp(delay, 10u, 5000u);
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delay = std::clamp(delay, 10u, 5000u);
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for (int i = 0; i < 8; ++i)
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x3c_delay.fill(delay);
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x3c_delay[i] = delay;
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m_dirty = true;
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m_dirty = true;
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}
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}
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void setChanDelay(int chanIdx, uint32_t delay) {
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void setChanDelay(int chanIdx, uint32_t delay) {
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@ -65,8 +67,7 @@ public:
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void setFeedback(uint32_t feedback) {
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void setFeedback(uint32_t feedback) {
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feedback = std::clamp(feedback, 0u, 100u);
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feedback = std::clamp(feedback, 0u, 100u);
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for (int i = 0; i < 8; ++i)
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x48_feedback.fill(feedback);
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x48_feedback[i] = feedback;
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m_dirty = true;
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m_dirty = true;
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}
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}
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@ -79,8 +80,7 @@ public:
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void setOutput(uint32_t output) {
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void setOutput(uint32_t output) {
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output = std::clamp(output, 0u, 100u);
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output = std::clamp(output, 0u, 100u);
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for (int i = 0; i < 8; ++i)
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x54_output.fill(output);
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x54_output[i] = output;
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m_dirty = true;
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m_dirty = true;
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}
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}
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@ -92,7 +92,7 @@ public:
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uint32_t getChanOutput(int chanIdx) const { return x54_output[chanIdx]; }
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uint32_t getChanOutput(int chanIdx) const { return x54_output[chanIdx]; }
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void setParams(const EffectDelayInfo& info) {
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void setParams(const EffectDelayInfo& info) {
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for (int i = 0; i < 8; ++i) {
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for (size_t i = 0; i < NumChannels; ++i) {
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x3c_delay[i] = std::clamp(info.delay[i], 10u, 5000u);
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x3c_delay[i] = std::clamp(info.delay[i], 10u, 5000u);
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x48_feedback[i] = std::clamp(info.feedback[i], 0u, 100u);
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x48_feedback[i] = std::clamp(info.feedback[i], 0u, 100u);
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x54_output[i] = std::clamp(info.output[i], 0u, 100u);
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x54_output[i] = std::clamp(info.output[i], 0u, 100u);
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@ -104,12 +104,12 @@ public:
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/** Type-specific implementation of delay effect */
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/** Type-specific implementation of delay effect */
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template <typename T>
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template <typename T>
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class EffectDelayImp : public EffectBase<T>, public EffectDelay {
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class EffectDelayImp : public EffectBase<T>, public EffectDelay {
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uint32_t x0_currentSize[8]; /**< per-channel delay-line buffer sizes */
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std::array<uint32_t, NumChannels> x0_currentSize; /**< per-channel delay-line buffer sizes */
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uint32_t xc_currentPos[8]; /**< per-channel block-index */
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std::array<uint32_t, NumChannels> xc_currentPos; /**< per-channel block-index */
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uint32_t x18_currentFeedback[8]; /**< [0, 128] feedback attenuator */
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std::array<uint32_t, NumChannels> x18_currentFeedback; /**< [0, 128] feedback attenuator */
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uint32_t x24_currentOutput[8]; /**< [0, 128] total attenuator */
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std::array<uint32_t, NumChannels> x24_currentOutput; /**< [0, 128] total attenuator */
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std::unique_ptr<T[]> x30_chanLines[8]; /**< delay-line buffers for each channel */
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std::array<std::unique_ptr<T[]>, NumChannels> x30_chanLines; /**< delay-line buffers for each channel */
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uint32_t m_sampsPerMs; /**< canonical count of samples per ms for the current backend */
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uint32_t m_sampsPerMs; /**< canonical count of samples per ms for the current backend */
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uint32_t m_blockSamples; /**< count of samples in a 5ms block */
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uint32_t m_blockSamples; /**< count of samples in a 5ms block */
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@ -1,6 +1,7 @@
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#pragma once
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#pragma once
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#include <array>
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#include <array>
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#include <cstddef>
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namespace amuse {
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namespace amuse {
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class IBackendSubmix;
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class IBackendSubmix;
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@ -18,10 +19,12 @@ enum class AudioChannel {
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Unknown = 0xff
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Unknown = 0xff
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};
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};
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constexpr size_t NumChannels = 8;
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/** Same structure from boo, used to represent interleaved speaker layout */
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/** Same structure from boo, used to represent interleaved speaker layout */
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struct ChannelMap {
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struct ChannelMap {
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unsigned m_channelCount = 0;
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unsigned m_channelCount = 0;
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AudioChannel m_channels[8] = {};
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AudioChannel m_channels[NumChannels] = {};
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};
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};
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/** Client-implemented voice instance */
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/** Client-implemented voice instance */
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#include "amuse/EffectDelay.hpp"
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#include "amuse/EffectDelay.hpp"
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#include <cmath>
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#include <cmath>
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#include <cstring>
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#include "amuse/Common.hpp"
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#include "amuse/Common.hpp"
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#include "amuse/IBackendVoice.hpp"
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#include "amuse/IBackendVoice.hpp"
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@ -14,18 +13,16 @@ EffectDelayImp<T>::EffectDelayImp(uint32_t initDelay, uint32_t initFeedback, uin
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initFeedback = std::clamp(initFeedback, 0u, 100u);
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initFeedback = std::clamp(initFeedback, 0u, 100u);
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initOutput = std::clamp(initOutput, 0u, 100u);
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initOutput = std::clamp(initOutput, 0u, 100u);
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for (int i = 0; i < 8; ++i) {
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x3c_delay.fill(initDelay);
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x3c_delay[i] = initDelay;
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x48_feedback.fill(initFeedback);
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x48_feedback[i] = initFeedback;
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x54_output.fill(initOutput);
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x54_output[i] = initOutput;
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}
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_setup(sampleRate);
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_setup(sampleRate);
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}
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}
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template <typename T>
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template <typename T>
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EffectDelayImp<T>::EffectDelayImp(const EffectDelayInfo& info, double sampleRate) {
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EffectDelayImp<T>::EffectDelayImp(const EffectDelayInfo& info, double sampleRate) {
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for (int i = 0; i < 8; ++i) {
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for (size_t i = 0; i < NumChannels; ++i) {
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x3c_delay[i] = std::clamp(info.delay[i], 10u, 5000u);
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x3c_delay[i] = std::clamp(info.delay[i], 10u, 5000u);
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x48_feedback[i] = std::clamp(info.feedback[i], 0u, 100u);
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x48_feedback[i] = std::clamp(info.feedback[i], 0u, 100u);
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x54_output[i] = std::clamp(info.output[i], 0u, 100u);
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x54_output[i] = std::clamp(info.output[i], 0u, 100u);
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@ -44,7 +41,7 @@ void EffectDelayImp<T>::_setup(double sampleRate) {
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template <typename T>
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template <typename T>
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void EffectDelayImp<T>::_update() {
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void EffectDelayImp<T>::_update() {
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for (int i = 0; i < 8; ++i) {
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for (size_t i = 0; i < NumChannels; ++i) {
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x0_currentSize[i] = ((x3c_delay[i] - 5) * m_sampsPerMs + 159) / 160;
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x0_currentSize[i] = ((x3c_delay[i] - 5) * m_sampsPerMs + 159) / 160;
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xc_currentPos[i] = 0;
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xc_currentPos[i] = 0;
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x18_currentFeedback[i] = x48_feedback[i] * 128 / 100;
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x18_currentFeedback[i] = x48_feedback[i] * 128 / 100;
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