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184 lines
6.1 KiB
C++
184 lines
6.1 KiB
C++
//
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// CompoundSource.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 19/12/2017.
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// Copyright 2017 Thomas Harte. All rights reserved.
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//
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#pragma once
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#include "BufferSource.hpp"
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#include <algorithm>
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#include <cassert>
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#include <cstring>
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#include <atomic>
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namespace Outputs::Speaker {
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/// @returns @c true if any of the templated sources is stereo; @c false otherwise.
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template <typename... S> constexpr bool is_stereo() {
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bool is_stereo = false;
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([&] {
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is_stereo |= S::is_stereo;
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}(), ...);
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return is_stereo;
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}
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/// @returns @c true if the variadic template arguments are ordered as all stereo sources followed by
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/// all mono; @c false otherwise.
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template <typename... S> constexpr bool are_properly_ordered() {
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bool is_ordered = true;
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bool is_stereo = true;
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([&] {
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if(S::is_stereo && !is_stereo) {
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is_ordered = false;
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}
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is_stereo &= S::is_stereo;
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}(), ...);
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return is_ordered;
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}
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/*!
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A CompoundSource adds together the sound generated by multiple individual SampleSources.
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An owner may optionally assign relative volumes.
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*/
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template <typename... T> class CompoundSource:
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public Outputs::Speaker::BufferSource<CompoundSource<T...>, ::Outputs::Speaker::is_stereo<T...>()> {
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private:
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template <typename... S> class CompoundSourceHolder {
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public:
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static constexpr bool is_stereo = false;
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void set_scaled_volume_range(int16_t, double *, double) {}
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static constexpr std::size_t size() { return 0; }
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double total_scale(double *) const { return 0.0; }
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};
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template <typename S, typename... R> class CompoundSourceHolder<S, R...> {
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public:
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CompoundSourceHolder(S &source, R &...next) : source_(source), next_source_(next...) {}
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static constexpr bool is_stereo = S::is_stereo || CompoundSourceHolder<R...>::is_stereo;
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template <Outputs::Speaker::Action action, bool output_stereo>
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void apply_samples(std::size_t number_of_samples, typename ::Outputs::Speaker::SampleT<output_stereo>::type *target) {
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// If this is the step at which a mono-to-stereo adaptation happens, apply it.
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if constexpr (output_stereo && !S::is_stereo) {
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// There'll be only one place in the chain that this conversion happens, but it'll
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// happen there often. So avoid continuously reallocating.
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if(conversion_source_.size() < number_of_samples) {
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conversion_source_.resize(number_of_samples);
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}
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// Populate the conversion buffer with this source and all below.
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apply_samples<Action::Store, false>(number_of_samples, conversion_source_.data());
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// Map up and return.
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for(std::size_t c = 0; c < number_of_samples; c++) {
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Outputs::Speaker::apply<action>(target[c], StereoSample(conversion_source_[c]));
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}
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} else {
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constexpr bool is_final_source = sizeof...(R) == 0;
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// Get the rest of the output, if any.
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if constexpr (!is_final_source) {
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next_source_.template apply_samples<action, output_stereo>(number_of_samples, target);
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}
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if(source_.is_zero_level()) {
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// This component is currently outputting silence; therefore don't add anything to the output
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// audio. Zero fill only if this is the final source (as everything above will be additive).
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if constexpr (is_final_source) {
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Outputs::Speaker::fill<action>(target, target + number_of_samples, typename SampleT<output_stereo>::type());
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}
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return;
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}
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// Add in this component's output.
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source_.template apply_samples<is_final_source ? Action::Store : Action::Mix>(number_of_samples, target);
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}
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}
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void set_scaled_volume_range(int16_t range, double *volumes, double scale) {
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const auto scaled_range = volumes[0] / double(source_.average_output_peak()) * double(range) / scale;
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source_.set_sample_volume_range(int16_t(scaled_range));
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next_source_.set_scaled_volume_range(range, &volumes[1], scale);
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}
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static constexpr std::size_t size() {
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return 1 + CompoundSourceHolder<R...>::size();
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}
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double total_scale(double *volumes) const {
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return (volumes[0] / source_.average_output_peak()) + next_source_.total_scale(&volumes[1]);
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}
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private:
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S &source_;
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CompoundSourceHolder<R...> next_source_;
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std::vector<MonoSample> conversion_source_;
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};
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public:
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using Sample = typename SampleT<::Outputs::Speaker::is_stereo<T...>()>::type;
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// To ensure at most one mono to stereo conversion, require appropriate source ordering.
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static_assert(are_properly_ordered<T...>(), "Sources should be listed with all stereo sources before all mono sources");
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CompoundSource(T &... sources) : source_holder_(sources...) {
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// Default: give all sources equal volume.
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const auto volume = 1.0 / double(source_holder_.size());
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for(std::size_t c = 0; c < source_holder_.size(); ++c) {
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volumes_.push_back(volume);
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}
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}
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template <Outputs::Speaker::Action action>
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void apply_samples(std::size_t number_of_samples, Sample *target) {
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source_holder_.template apply_samples<action, ::Outputs::Speaker::is_stereo<T...>()>(number_of_samples, target);
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}
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/*!
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Sets the total output volume of this CompoundSource.
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*/
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void set_sample_volume_range(int16_t range) {
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volume_range_ = range;
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push_volumes();
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}
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/*!
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Sets the relative volumes of the various sources underlying this
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compound. The caller should ensure that the number of items supplied
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matches the number of sources and that the values in it sum to 1.0.
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*/
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void set_relative_volumes(const std::vector<double> &volumes) {
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assert(volumes.size() == source_holder_.size());
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volumes_ = volumes;
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push_volumes();
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average_output_peak_ = 1.0 / source_holder_.total_scale(volumes_.data());
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}
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/*!
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@returns the average output peak given the sources owned by this CompoundSource and the
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current relative volumes.
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*/
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double average_output_peak() const {
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return average_output_peak_;
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}
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private:
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void push_volumes() {
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const double scale = source_holder_.total_scale(volumes_.data());
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source_holder_.set_scaled_volume_range(volume_range_, volumes_.data(), scale);
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}
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CompoundSourceHolder<T...> source_holder_;
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std::vector<double> volumes_;
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int16_t volume_range_ = 0;
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std::atomic<double> average_output_peak_{1.0};
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};
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}
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