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CLK/Outputs/Speaker/Implementation/CompoundSource.hpp

181 lines
5.6 KiB
C++

//
// CompoundSource.hpp
// Clock Signal
//
// Created by Thomas Harte on 19/12/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
//
#pragma once
#include "SampleSource.hpp"
#include <algorithm>
#include <cassert>
#include <cstring>
#include <atomic>
namespace Outputs::Speaker {
/// @returns @c true if any of the templated sources is stereo; @c false otherwise.
template <typename... S> constexpr bool is_stereo() {
bool is_stereo = false;
([&] {
is_stereo |= S::is_stereo;
}(), ...);
return is_stereo;
}
/*!
A CompoundSource adds together the sound generated by multiple individual SampleSources.
An owner may optionally assign relative volumes.
*/
template <typename... T> class CompoundSource:
public Outputs::Speaker::SampleSource<CompoundSource<T...>, ::Outputs::Speaker::is_stereo<T...>()> {
private:
template <typename... S> class CompoundSourceHolder {
public:
template <bool output_stereo> void get_samples(std::size_t number_of_samples, std::int16_t *target) {
std::fill(target, target + number_of_samples, 0);
}
void set_scaled_volume_range(int16_t, double *, double) {}
void skip_samples(const std::size_t) {}
static constexpr std::size_t size() {
return 0;
}
static constexpr bool is_stereo = false;
double total_scale(double *) const {
return 0.0;
}
};
template <typename S, typename... R> class CompoundSourceHolder<S, R...> {
public:
CompoundSourceHolder(S &source, R &...next) : source_(source), next_source_(next...) {}
static constexpr bool is_stereo = S::is_stereo || CompoundSourceHolder<R...>::is_stereo;
// TODO: fix below for mixed mono/stereo sources.
template <bool output_stereo>
void get_samples(std::size_t number_of_samples, typename SampleT<output_stereo>::type *target) {
// Get the rest of the output.
next_source_.template get_samples<output_stereo>(number_of_samples, target);
if(source_.is_zero_level()) {
// This component is currently outputting silence; therefore don't add anything to the output
// audio — just pass the call onward.
source_.skip_samples(number_of_samples);
return;
}
// Get this component's output.
auto buffer_size = number_of_samples * (output_stereo ? 2 : 1);
typename SampleT<is_stereo>::type local_samples[number_of_samples];
source_.get_samples(number_of_samples, local_samples);
// Merge it in; furthermore if total output is stereo but this source isn't,
// map it to stereo.
if constexpr (output_stereo == S::is_stereo) {
while(buffer_size--) {
target[buffer_size] += local_samples[buffer_size];
}
} else {
// This will happen only if mapping from mono to stereo, never in the
// other direction, because the compound source outputs stereo if any
// subcomponent does. So it outputs mono only if no stereo devices are
// in the mixing chain.
while(buffer_size--) {
target[buffer_size] += local_samples[buffer_size >> 1];
}
}
// TODO: accelerate above?
}
void skip_samples(const std::size_t number_of_samples) {
source_.skip_samples(number_of_samples);
next_source_.skip_samples(number_of_samples);
}
void set_scaled_volume_range(int16_t range, double *volumes, double scale) {
const auto scaled_range = volumes[0] / double(source_.average_output_peak()) * double(range) / scale;
source_.set_sample_volume_range(int16_t(scaled_range));
next_source_.set_scaled_volume_range(range, &volumes[1], scale);
}
static constexpr std::size_t size() {
return 1 + CompoundSourceHolder<R...>::size();
}
double total_scale(double *volumes) const {
return (volumes[0] / source_.average_output_peak()) + next_source_.total_scale(&volumes[1]);
}
private:
S &source_;
CompoundSourceHolder<R...> next_source_;
};
public:
CompoundSource(T &... sources) : source_holder_(sources...) {
// Default: give all sources equal volume.
const auto volume = 1.0 / double(source_holder_.size());
for(std::size_t c = 0; c < source_holder_.size(); ++c) {
volumes_.push_back(volume);
}
}
void get_samples(std::size_t number_of_samples, typename SampleT<::Outputs::Speaker::is_stereo<T...>()>::type *target) {
source_holder_.template get_samples<::Outputs::Speaker::is_stereo<T...>()>(number_of_samples, target);
}
void skip_samples(const std::size_t number_of_samples) {
source_holder_.skip_samples(number_of_samples);
}
/*!
Sets the total output volume of this CompoundSource.
*/
void set_sample_volume_range(int16_t range) {
volume_range_ = range;
push_volumes();
}
/*!
Sets the relative volumes of the various sources underlying this
compound. The caller should ensure that the number of items supplied
matches the number of sources and that the values in it sum to 1.0.
*/
void set_relative_volumes(const std::vector<double> &volumes) {
assert(volumes.size() == source_holder_.size());
volumes_ = volumes;
push_volumes();
average_output_peak_ = 1.0 / source_holder_.total_scale(volumes_.data());
}
/*!
@returns the average output peak given the sources owned by this CompoundSource and the
current relative volumes.
*/
double average_output_peak() const {
return average_output_peak_;
}
private:
void push_volumes() {
const double scale = source_holder_.total_scale(volumes_.data());
source_holder_.set_scaled_volume_range(volume_range_, volumes_.data(), scale);
}
CompoundSourceHolder<T...> source_holder_;
std::vector<double> volumes_;
int16_t volume_range_ = 0;
std::atomic<double> average_output_peak_{1.0};
};
}