mirror of
https://github.com/libretro/ppsspp.git
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233 lines
7.8 KiB
C++
233 lines
7.8 KiB
C++
// Copyright (c) 2015- PPSSPP Project and Dolphin Project.
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, version 2.0 or later versions.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License 2.0 for more details.
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// A copy of the GPL 2.0 should have been included with the program.
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// If not, see http://www.gnu.org/licenses/
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// Official git repository and contact information can be found at
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// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
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// Adapted from Dolphin.
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#include <string.h>
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#include "base/logging.h"
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#include "base/NativeApp.h"
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#include "Common/ChunkFile.h"
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#include "Common/MathUtil.h"
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#include "Common/Atomics.h"
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#include "Core/Config.h"
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#include "Core/HW/StereoResampler.h"
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#include "Core/HLE/__sceAudio.h"
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#include "Core/System.h"
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#include "Globals.h"
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#ifdef _M_SSE
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#include <emmintrin.h>
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#endif
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StereoResampler::StereoResampler()
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: m_dma_mixer(this, 44100)
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{
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// Some Android devices are v-synced to non-60Hz framerates. We simply timestretch audio to fit.
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// TODO: should only do this if auto frameskip is off?
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float refresh = System_GetPropertyInt(SYSPROP_DISPLAY_REFRESH_RATE) / 1000.0f;
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// If framerate is "close"...
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if (refresh != 60.0f && refresh > 50.0f && refresh < 70.0f) {
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m_dma_mixer.SetInputSampleRate((int)(44100 * (refresh / 60.0f)));
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}
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}
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inline void ClampBufferToS16(s16 *out, const s32 *in, size_t size) {
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#ifdef _M_SSE
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// Size will always be 16-byte aligned as the hwBlockSize is.
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while (size >= 8) {
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__m128i in1 = _mm_loadu_si128((__m128i *)in);
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__m128i in2 = _mm_loadu_si128((__m128i *)(in + 4));
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__m128i packed = _mm_packs_epi32(in1, in2);
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_mm_storeu_si128((__m128i *)out, packed);
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out += 8;
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in += 8;
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size -= 8;
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}
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for (size_t i = 0; i < size; i++) {
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out[i] = clamp_s16(in[i]);
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}
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#else
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for (size_t i = 0; i < size; i++) {
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out[i] = clamp_s16(in[i]);
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}
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#endif
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}
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void StereoResampler::MixerFifo::Clear() {
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memset(m_buffer, 0, sizeof(m_buffer));
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}
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// Executed from sound stream thread
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unsigned int StereoResampler::MixerFifo::Mix(short* samples, unsigned int numSamples, bool consider_framelimit, int sample_rate) {
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unsigned int currentSample = 0;
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// Cache access in non-volatile variable
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// This is the only function changing the read value, so it's safe to
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// cache it locally although it's written here.
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// The writing pointer will be modified outside, but it will only increase,
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// so we will just ignore new written data while interpolating.
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// Without this cache, the compiler wouldn't be allowed to optimize the
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// interpolation loop.
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u32 indexR = Common::AtomicLoad(m_indexR);
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u32 indexW = Common::AtomicLoad(m_indexW);
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// We force on the audio resampler if the output sample rate doesn't match the input.
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if (!g_Config.bAudioResampler && sample_rate == (int)m_input_sample_rate) {
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for (; currentSample < numSamples * 2 && ((indexW - indexR) & INDEX_MASK) > 2; currentSample += 2) {
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u32 indexR2 = indexR + 2; //next sample
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s16 l1 = m_buffer[indexR & INDEX_MASK]; //current
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s16 r1 = m_buffer[(indexR + 1) & INDEX_MASK]; //current
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samples[currentSample] = l1;
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samples[currentSample + 1] = r1;
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indexR += 2;
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}
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aid_sample_rate_ = sample_rate;
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} else {
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// Drift prevention mechanism
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float numLeft = (float)(((indexW - indexR) & INDEX_MASK) / 2);
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m_numLeftI = (numLeft + m_numLeftI*(CONTROL_AVG - 1)) / CONTROL_AVG;
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float offset = (m_numLeftI - LOW_WATERMARK) * CONTROL_FACTOR;
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if (offset > MAX_FREQ_SHIFT) offset = MAX_FREQ_SHIFT;
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if (offset < -MAX_FREQ_SHIFT) offset = -MAX_FREQ_SHIFT;
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aid_sample_rate_ = m_input_sample_rate + offset;
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/* Hm?
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u32 framelimit = SConfig::GetInstance().m_Framelimit;
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if (consider_framelimit && framelimit > 1) {
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aid_sample_rate = aid_sample_rate * (framelimit - 1) * 5 / 59.994;
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}*/
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const u32 ratio = (u32)(65536.0f * aid_sample_rate_ / (float)sample_rate);
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// TODO: consider a higher-quality resampling algorithm.
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// TODO: Add a fast path for 1:1.
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for (; currentSample < numSamples * 2 && ((indexW - indexR) & INDEX_MASK) > 2; currentSample += 2) {
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u32 indexR2 = indexR + 2; //next sample
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s16 l1 = m_buffer[indexR & INDEX_MASK]; //current
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s16 r1 = m_buffer[(indexR + 1) & INDEX_MASK]; //current
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s16 l2 = m_buffer[indexR2 & INDEX_MASK]; //next
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s16 r2 = m_buffer[(indexR2 + 1) & INDEX_MASK]; //next
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int sampleL = ((l1 << 16) + (l2 - l1) * (u16)m_frac) >> 16;
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int sampleR = ((r1 << 16) + (r2 - r1) * (u16)m_frac) >> 16;
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samples[currentSample] = sampleL;
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samples[currentSample + 1] = sampleR;
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m_frac += ratio;
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indexR += 2 * (u16)(m_frac >> 16);
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m_frac &= 0xffff;
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}
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}
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int realSamples = currentSample;
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if (currentSample < numSamples * 2)
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underrunCount_++;
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// Padding with the last value to reduce clicking
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short s[2];
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s[0] = clamp_s16(m_buffer[(indexR - 1) & INDEX_MASK]);
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s[1] = clamp_s16(m_buffer[(indexR - 2) & INDEX_MASK]);
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for (; currentSample < numSamples * 2; currentSample += 2) {
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samples[currentSample] = s[0];
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samples[currentSample + 1] = s[1];
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}
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// Flush cached variable
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Common::AtomicStore(m_indexR, indexR);
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//if (realSamples != numSamples * 2) {
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// ILOG("Underrun! %i / %i", realSamples / 2, numSamples);
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//}
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lastBufSize_ = (m_indexW - m_indexR) & INDEX_MASK;
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return realSamples / 2;
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}
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unsigned int StereoResampler::Mix(short* samples, unsigned int num_samples, bool consider_framelimit, int sample_rate) {
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if (!samples)
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return 0;
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return m_dma_mixer.Mix(samples, num_samples, consider_framelimit, sample_rate);
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}
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void StereoResampler::MixerFifo::PushSamples(const s32 *samples, unsigned int num_samples) {
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// Cache access in non-volatile variable
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// indexR isn't allowed to cache in the audio throttling loop as it
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// needs to get updates to not deadlock.
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u32 indexW = Common::AtomicLoad(m_indexW);
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u32 cap = MAX_SAMPLES * 2;
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// If unthottling, no need to fill up the entire buffer, just screws up timing after releasing unthrottle.
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if (PSP_CoreParameter().unthrottle)
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cap = LOW_WATERMARK * 2;
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// Check if we have enough free space
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// indexW == m_indexR results in empty buffer, so indexR must always be smaller than indexW
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if (num_samples * 2 + ((indexW - Common::AtomicLoad(m_indexR)) & INDEX_MASK) >= cap) {
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if (!PSP_CoreParameter().unthrottle)
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overrunCount_++;
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// TODO: "Timestretch" by doing a windowed overlap with existing buffer content?
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return;
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}
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int over_bytes = num_samples * 4 - (MAX_SAMPLES * 2 - (indexW & INDEX_MASK)) * sizeof(short);
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if (over_bytes > 0) {
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ClampBufferToS16(&m_buffer[indexW & INDEX_MASK], samples, (num_samples * 4 - over_bytes) / 2);
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ClampBufferToS16(&m_buffer[0], samples + (num_samples * 4 - over_bytes) / sizeof(short), over_bytes / 2);
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} else {
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ClampBufferToS16(&m_buffer[indexW & INDEX_MASK], samples, num_samples * 2);
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}
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Common::AtomicAdd(m_indexW, num_samples * 2);
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lastPushSize_ = num_samples;
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}
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void StereoResampler::MixerFifo::GetAudioDebugStats(AudioDebugStats *stats) {
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stats->buffered = lastBufSize_;
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stats->underrunCount += underrunCount_;
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underrunCount_ = 0;
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stats->overrunCount += overrunCount_;
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overrunCount_ = 0;
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stats->watermark = LOW_WATERMARK;
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stats->bufsize = MAX_SAMPLES * 2;
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stats->instantSampleRate = aid_sample_rate_;
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stats->lastPushSize = lastPushSize_;
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}
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void StereoResampler::PushSamples(const int *samples, unsigned int num_samples) {
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m_dma_mixer.PushSamples(samples, num_samples);
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}
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void StereoResampler::MixerFifo::SetInputSampleRate(unsigned int rate) {
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m_input_sample_rate = rate;
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}
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void StereoResampler::DoState(PointerWrap &p) {
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auto s = p.Section("resampler", 1);
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if (!s)
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return;
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}
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void StereoResampler::GetAudioDebugStats(AudioDebugStats *stats) {
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m_dma_mixer.GetAudioDebugStats(stats);
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}
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