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321 lines
12 KiB
C++
321 lines
12 KiB
C++
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// Copyright 2016 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <algorithm>
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#include <array>
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#include "audio_core/codec.h"
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#include "audio_core/hle/common.h"
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#include "audio_core/hle/source.h"
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#include "audio_core/interpolate.h"
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "core/memory.h"
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namespace DSP {
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namespace HLE {
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SourceStatus::Status Source::Tick(SourceConfiguration::Configuration& config, const s16_le (&adpcm_coeffs)[16]) {
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ParseConfig(config, adpcm_coeffs);
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if (state.enabled) {
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GenerateFrame();
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}
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return GetCurrentStatus();
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}
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void Source::MixInto(QuadFrame32& dest, size_t intermediate_mix_id) const {
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if (!state.enabled)
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return;
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const std::array<float, 4>& gains = state.gain.at(intermediate_mix_id);
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for (size_t samplei = 0; samplei < samples_per_frame; samplei++) {
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// Conversion from stereo (current_frame) to quadraphonic (dest) occurs here.
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dest[samplei][0] += static_cast<s32>(gains[0] * current_frame[samplei][0]);
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dest[samplei][1] += static_cast<s32>(gains[1] * current_frame[samplei][1]);
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dest[samplei][2] += static_cast<s32>(gains[2] * current_frame[samplei][0]);
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dest[samplei][3] += static_cast<s32>(gains[3] * current_frame[samplei][1]);
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}
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}
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void Source::Reset() {
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current_frame.fill({});
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state = {};
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}
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void Source::ParseConfig(SourceConfiguration::Configuration& config, const s16_le (&adpcm_coeffs)[16]) {
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if (!config.dirty_raw) {
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return;
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}
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if (config.reset_flag) {
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config.reset_flag.Assign(0);
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Reset();
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LOG_TRACE(Audio_DSP, "source_id=%zu reset", source_id);
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}
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if (config.partial_reset_flag) {
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config.partial_reset_flag.Assign(0);
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state.input_queue = std::priority_queue<Buffer, std::vector<Buffer>, BufferOrder>{};
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LOG_TRACE(Audio_DSP, "source_id=%zu partial_reset", source_id);
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}
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if (config.enable_dirty) {
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config.enable_dirty.Assign(0);
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state.enabled = config.enable != 0;
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LOG_TRACE(Audio_DSP, "source_id=%zu enable=%d", source_id, state.enabled);
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}
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if (config.sync_dirty) {
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config.sync_dirty.Assign(0);
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state.sync = config.sync;
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LOG_TRACE(Audio_DSP, "source_id=%zu sync=%u", source_id, state.sync);
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}
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if (config.rate_multiplier_dirty) {
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config.rate_multiplier_dirty.Assign(0);
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state.rate_multiplier = config.rate_multiplier;
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LOG_TRACE(Audio_DSP, "source_id=%zu rate=%f", source_id, state.rate_multiplier);
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if (state.rate_multiplier <= 0) {
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LOG_ERROR(Audio_DSP, "Was given an invalid rate multiplier: source_id=%zu rate=%f", source_id, state.rate_multiplier);
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state.rate_multiplier = 1.0f;
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// Note: Actual firmware starts producing garbage if this occurs.
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}
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}
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if (config.adpcm_coefficients_dirty) {
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config.adpcm_coefficients_dirty.Assign(0);
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std::transform(adpcm_coeffs, adpcm_coeffs + state.adpcm_coeffs.size(), state.adpcm_coeffs.begin(),
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[](const auto& coeff) { return static_cast<s16>(coeff); });
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LOG_TRACE(Audio_DSP, "source_id=%zu adpcm update", source_id);
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}
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if (config.gain_0_dirty) {
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config.gain_0_dirty.Assign(0);
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std::transform(config.gain[0], config.gain[0] + state.gain[0].size(), state.gain[0].begin(),
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[](const auto& coeff) { return static_cast<float>(coeff); });
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LOG_TRACE(Audio_DSP, "source_id=%zu gain 0 update", source_id);
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}
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if (config.gain_1_dirty) {
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config.gain_1_dirty.Assign(0);
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std::transform(config.gain[1], config.gain[1] + state.gain[1].size(), state.gain[1].begin(),
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[](const auto& coeff) { return static_cast<float>(coeff); });
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LOG_TRACE(Audio_DSP, "source_id=%zu gain 1 update", source_id);
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}
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if (config.gain_2_dirty) {
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config.gain_2_dirty.Assign(0);
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std::transform(config.gain[2], config.gain[2] + state.gain[2].size(), state.gain[2].begin(),
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[](const auto& coeff) { return static_cast<float>(coeff); });
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LOG_TRACE(Audio_DSP, "source_id=%zu gain 2 update", source_id);
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}
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if (config.filters_enabled_dirty) {
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config.filters_enabled_dirty.Assign(0);
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state.filters.Enable(config.simple_filter_enabled.ToBool(), config.biquad_filter_enabled.ToBool());
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LOG_TRACE(Audio_DSP, "source_id=%zu enable_simple=%hu enable_biquad=%hu",
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source_id, config.simple_filter_enabled.Value(), config.biquad_filter_enabled.Value());
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}
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if (config.simple_filter_dirty) {
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config.simple_filter_dirty.Assign(0);
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state.filters.Configure(config.simple_filter);
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LOG_TRACE(Audio_DSP, "source_id=%zu simple filter update");
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}
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if (config.biquad_filter_dirty) {
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config.biquad_filter_dirty.Assign(0);
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state.filters.Configure(config.biquad_filter);
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LOG_TRACE(Audio_DSP, "source_id=%zu biquad filter update");
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}
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if (config.interpolation_dirty) {
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config.interpolation_dirty.Assign(0);
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state.interpolation_mode = config.interpolation_mode;
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LOG_TRACE(Audio_DSP, "source_id=%zu interpolation_mode=%zu", source_id, static_cast<size_t>(state.interpolation_mode));
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}
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if (config.format_dirty || config.embedded_buffer_dirty) {
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config.format_dirty.Assign(0);
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state.format = config.format;
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LOG_TRACE(Audio_DSP, "source_id=%zu format=%zu", source_id, static_cast<size_t>(state.format));
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}
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if (config.mono_or_stereo_dirty || config.embedded_buffer_dirty) {
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config.mono_or_stereo_dirty.Assign(0);
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state.mono_or_stereo = config.mono_or_stereo;
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LOG_TRACE(Audio_DSP, "source_id=%zu mono_or_stereo=%zu", source_id, static_cast<size_t>(state.mono_or_stereo));
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}
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if (config.embedded_buffer_dirty) {
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config.embedded_buffer_dirty.Assign(0);
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state.input_queue.emplace(Buffer{
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config.physical_address,
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config.length,
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static_cast<u8>(config.adpcm_ps),
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{ config.adpcm_yn[0], config.adpcm_yn[1] },
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config.adpcm_dirty.ToBool(),
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config.is_looping.ToBool(),
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config.buffer_id,
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state.mono_or_stereo,
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state.format,
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false
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});
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LOG_TRACE(Audio_DSP, "enqueuing embedded addr=0x%08x len=%u id=%hu", config.physical_address, config.length, config.buffer_id);
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}
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if (config.buffer_queue_dirty) {
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config.buffer_queue_dirty.Assign(0);
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for (size_t i = 0; i < 4; i++) {
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if (config.buffers_dirty & (1 << i)) {
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const auto& b = config.buffers[i];
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state.input_queue.emplace(Buffer{
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b.physical_address,
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b.length,
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static_cast<u8>(b.adpcm_ps),
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{ b.adpcm_yn[0], b.adpcm_yn[1] },
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b.adpcm_dirty != 0,
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b.is_looping != 0,
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b.buffer_id,
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state.mono_or_stereo,
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state.format,
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true
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});
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LOG_TRACE(Audio_DSP, "enqueuing queued %zu addr=0x%08x len=%u id=%hu", i, b.physical_address, b.length, b.buffer_id);
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}
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}
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config.buffers_dirty = 0;
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}
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if (config.dirty_raw) {
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LOG_DEBUG(Audio_DSP, "source_id=%zu remaining_dirty=%x", source_id, config.dirty_raw);
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}
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config.dirty_raw = 0;
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}
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void Source::GenerateFrame() {
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current_frame.fill({});
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if (state.current_buffer.empty() && !DequeueBuffer()) {
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state.enabled = false;
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state.buffer_update = true;
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state.current_buffer_id = 0;
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return;
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}
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size_t frame_position = 0;
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state.current_sample_number = state.next_sample_number;
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while (frame_position < current_frame.size()) {
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if (state.current_buffer.empty() && !DequeueBuffer()) {
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break;
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}
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const size_t size_to_copy = std::min(state.current_buffer.size(), current_frame.size() - frame_position);
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std::copy(state.current_buffer.begin(), state.current_buffer.begin() + size_to_copy, current_frame.begin() + frame_position);
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state.current_buffer.erase(state.current_buffer.begin(), state.current_buffer.begin() + size_to_copy);
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frame_position += size_to_copy;
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state.next_sample_number += static_cast<u32>(size_to_copy);
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}
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state.filters.ProcessFrame(current_frame);
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}
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bool Source::DequeueBuffer() {
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ASSERT_MSG(state.current_buffer.empty(), "Shouldn't dequeue; we still have data in current_buffer");
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if (state.input_queue.empty())
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return false;
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const Buffer buf = state.input_queue.top();
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state.input_queue.pop();
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if (buf.adpcm_dirty) {
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state.adpcm_state.yn1 = buf.adpcm_yn[0];
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state.adpcm_state.yn2 = buf.adpcm_yn[1];
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}
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if (buf.is_looping) {
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LOG_ERROR(Audio_DSP, "Looped buffers are unimplemented at the moment");
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}
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const u8* const memory = Memory::GetPhysicalPointer(buf.physical_address);
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if (memory) {
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const unsigned num_channels = buf.mono_or_stereo == MonoOrStereo::Stereo ? 2 : 1;
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switch (buf.format) {
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case Format::PCM8:
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state.current_buffer = Codec::DecodePCM8(num_channels, memory, buf.length);
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break;
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case Format::PCM16:
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state.current_buffer = Codec::DecodePCM16(num_channels, memory, buf.length);
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break;
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case Format::ADPCM:
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DEBUG_ASSERT(num_channels == 1);
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state.current_buffer = Codec::DecodeADPCM(memory, buf.length, state.adpcm_coeffs, state.adpcm_state);
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break;
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default:
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UNIMPLEMENTED();
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break;
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}
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} else {
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LOG_WARNING(Audio_DSP, "source_id=%zu buffer_id=%hu length=%u: Invalid physical address 0x%08X",
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source_id, buf.buffer_id, buf.length, buf.physical_address);
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state.current_buffer.clear();
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return true;
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}
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switch (state.interpolation_mode) {
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case InterpolationMode::None:
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state.current_buffer = AudioInterp::None(state.interp_state, state.current_buffer, state.rate_multiplier);
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break;
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case InterpolationMode::Linear:
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state.current_buffer = AudioInterp::Linear(state.interp_state, state.current_buffer, state.rate_multiplier);
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break;
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case InterpolationMode::Polyphase:
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// TODO(merry): Implement polyphase interpolation
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state.current_buffer = AudioInterp::Linear(state.interp_state, state.current_buffer, state.rate_multiplier);
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break;
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default:
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UNIMPLEMENTED();
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break;
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}
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state.current_sample_number = 0;
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state.next_sample_number = 0;
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state.current_buffer_id = buf.buffer_id;
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state.buffer_update = buf.from_queue;
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LOG_TRACE(Audio_DSP, "source_id=%zu buffer_id=%hu from_queue=%s current_buffer.size()=%zu",
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source_id, buf.buffer_id, buf.from_queue ? "true" : "false", state.current_buffer.size());
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return true;
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}
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SourceStatus::Status Source::GetCurrentStatus() {
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SourceStatus::Status ret;
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// Applications depend on the correct emulation of
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// current_buffer_id_dirty and current_buffer_id to synchronise
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// audio with video.
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ret.is_enabled = state.enabled;
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ret.current_buffer_id_dirty = state.buffer_update ? 1 : 0;
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state.buffer_update = false;
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ret.current_buffer_id = state.current_buffer_id;
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ret.buffer_position = state.current_sample_number;
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ret.sync = state.sync;
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return ret;
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}
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} // namespace HLE
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} // namespace DSP
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