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ad86c297fb
Closes #1626
112 lines
4.5 KiB
C++
Vendored
112 lines
4.5 KiB
C++
Vendored
/*
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* Copyright (C) 2018 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "oboe_oboe_StabilizedCallback_android.h"
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#include "oboe_common_AudioClock_android.h"
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#include "oboe_common_Trace_android.h"
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constexpr int32_t kLoadGenerationStepSizeNanos = 20000;
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constexpr float kPercentageOfCallbackToUse = 0.8;
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using namespace oboe;
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StabilizedCallback::StabilizedCallback(AudioStreamCallback *callback) : mCallback(callback){
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Trace::initialize();
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}
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/**
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* An audio callback which attempts to do work for a fixed amount of time.
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*
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* @param oboeStream
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* @param audioData
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* @param numFrames
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* @return
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*/
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DataCallbackResult
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StabilizedCallback::onAudioReady(AudioStream *oboeStream, void *audioData, int32_t numFrames) {
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int64_t startTimeNanos = AudioClock::getNanoseconds();
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if (mFrameCount == 0){
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mEpochTimeNanos = startTimeNanos;
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}
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int64_t durationSinceEpochNanos = startTimeNanos - mEpochTimeNanos;
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// In an ideal world the callback start time will be exactly the same as the duration of the
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// frames already read/written into the stream. In reality the callback can start early
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// or late. By finding the delta we can calculate the target duration for our stabilized
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// callback.
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int64_t idealStartTimeNanos = (mFrameCount * kNanosPerSecond) / oboeStream->getSampleRate();
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int64_t lateStartNanos = durationSinceEpochNanos - idealStartTimeNanos;
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if (lateStartNanos < 0){
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// This was an early start which indicates that our previous epoch was a late callback.
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// Update our epoch to this more accurate time.
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mEpochTimeNanos = startTimeNanos;
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mFrameCount = 0;
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}
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int64_t numFramesAsNanos = (numFrames * kNanosPerSecond) / oboeStream->getSampleRate();
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int64_t targetDurationNanos = static_cast<int64_t>(
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(numFramesAsNanos * kPercentageOfCallbackToUse) - lateStartNanos);
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Trace::beginSection("Actual load");
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DataCallbackResult result = mCallback->onAudioReady(oboeStream, audioData, numFrames);
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Trace::endSection();
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int64_t executionDurationNanos = AudioClock::getNanoseconds() - startTimeNanos;
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int64_t stabilizingLoadDurationNanos = targetDurationNanos - executionDurationNanos;
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Trace::beginSection("Stabilized load for %lldns", stabilizingLoadDurationNanos);
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generateLoad(stabilizingLoadDurationNanos);
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Trace::endSection();
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// Wraparound: At 48000 frames per second mFrameCount wraparound will occur after 6m years,
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// significantly longer than the average lifetime of an Android phone.
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mFrameCount += numFrames;
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return result;
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}
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void StabilizedCallback::generateLoad(int64_t durationNanos) {
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int64_t currentTimeNanos = AudioClock::getNanoseconds();
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int64_t deadlineTimeNanos = currentTimeNanos + durationNanos;
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// opsPerStep gives us an estimated number of operations which need to be run to fully utilize
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// the CPU for a fixed amount of time (specified by kLoadGenerationStepSizeNanos).
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// After each step the opsPerStep value is re-calculated based on the actual time taken to
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// execute those operations.
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auto opsPerStep = (int)(mOpsPerNano * kLoadGenerationStepSizeNanos);
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int64_t stepDurationNanos = 0;
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int64_t previousTimeNanos = 0;
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while (currentTimeNanos <= deadlineTimeNanos){
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for (int i = 0; i < opsPerStep; i++) cpu_relax();
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previousTimeNanos = currentTimeNanos;
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currentTimeNanos = AudioClock::getNanoseconds();
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stepDurationNanos = currentTimeNanos - previousTimeNanos;
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// Calculate exponential moving average to smooth out values, this acts as a low pass filter.
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// @see https://en.wikipedia.org/wiki/Moving_average#Exponential_moving_average
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static const float kFilterCoefficient = 0.1;
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auto measuredOpsPerNano = (double) opsPerStep / stepDurationNanos;
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mOpsPerNano = kFilterCoefficient * measuredOpsPerNano + (1.0 - kFilterCoefficient) * mOpsPerNano;
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opsPerStep = (int) (mOpsPerNano * kLoadGenerationStepSizeNanos);
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}
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} |