185 lines
7.5 KiB
C
185 lines
7.5 KiB
C
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/* /android/src/frameworks/base/media/libeffects/AudioFormatAdapter.h
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**
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** Copyright 2009, 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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#ifndef AUDIOFORMATADAPTER_H_
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#define AUDIOFORMATADAPTER_H_
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#include <media/EffectApi.h>
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#define min(x,y) (((x) < (y)) ? (x) : (y))
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namespace android {
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// An adapter for an audio processor working on audio_sample_t samples with a
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// buffer override behavior to arbitrary sample formats and buffer behaviors.
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// The adapter may work on any processing class which has a processing function
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// with the following signature:
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// void process(const audio_sample_t * pIn,
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// audio_sample_t * pOut,
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// int frameCount);
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// It is assumed that the underlying processor works in S7.24 format and an
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// overwrite behavior.
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//
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// Usage is simple: just work with the processor normally, but instead of
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// calling its process() function directly, work with the process() function of
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// the adapter.
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// The adapter supports re-configuration to a different format on the fly.
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//
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// T The processor class.
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// bufSize The maximum number of samples (single channel) to process on a
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// single call to the underlying processor. Setting this to a small
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// number will save a little memory, but will cost function call
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// overhead, resulting from multiple calls to the underlying process()
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// per a single call to this class's process().
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template<class T, size_t bufSize>
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class AudioFormatAdapter {
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public:
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// Configure the adapter.
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// processor The underlying audio processor.
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// nChannels Number of input and output channels. The adapter does not do
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// channel conversion - this parameter must be in sync with the
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// actual processor.
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// pcmFormat The desired input/output sample format.
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// behavior The desired behavior (overwrite or accumulate).
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void configure(T & processor, int nChannels, uint8_t pcmFormat,
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uint32_t behavior) {
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mpProcessor = &processor;
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mNumChannels = nChannels;
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mPcmFormat = pcmFormat;
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mBehavior = behavior;
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mMaxSamplesPerCall = bufSize / nChannels;
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}
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// Process a block of samples.
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// pIn A buffer of samples with the format specified on
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// configure().
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// pOut A buffer of samples with the format specified on
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// configure(). May be the same as pIn.
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// numSamples The number of multi-channel samples to process.
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void process(const void * pIn, void * pOut, uint32_t numSamples) {
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while (numSamples > 0) {
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uint32_t numSamplesIter = min(numSamples, mMaxSamplesPerCall);
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uint32_t nSamplesChannels = numSamplesIter * mNumChannels;
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if (mPcmFormat == SAMPLE_FORMAT_PCM_S7_24) {
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if (mBehavior == EFFECT_BUFFER_ACCESS_WRITE) {
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mpProcessor->process(
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reinterpret_cast<const audio_sample_t *> (pIn),
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reinterpret_cast<audio_sample_t *> (pOut),
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numSamplesIter);
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} else if (mBehavior == EFFECT_BUFFER_ACCESS_ACCUMULATE) {
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mpProcessor->process(
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reinterpret_cast<const audio_sample_t *> (pIn),
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mBuffer, numSamplesIter);
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MixOutput(pOut, numSamplesIter);
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} else {
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assert(false);
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}
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pIn = reinterpret_cast<const audio_sample_t *> (pIn)
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+ nSamplesChannels;
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pOut = reinterpret_cast<audio_sample_t *> (pOut)
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+ nSamplesChannels;
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} else {
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ConvertInput(pIn, nSamplesChannels);
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mpProcessor->process(mBuffer, mBuffer, numSamplesIter);
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ConvertOutput(pOut, nSamplesChannels);
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}
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numSamples -= numSamplesIter;
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}
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}
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private:
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// The underlying processor.
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T * mpProcessor;
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// The number of input/output channels.
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int mNumChannels;
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// The desired PCM format.
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uint8_t mPcmFormat;
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// The desired buffer behavior.
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uint32_t mBehavior;
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// An intermediate buffer for processing.
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audio_sample_t mBuffer[bufSize];
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// The buffer size, divided by the number of channels - represents the
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// maximum number of multi-channel samples that can be stored in the
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// intermediate buffer.
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size_t mMaxSamplesPerCall;
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// Converts a buffer of input samples to audio_sample_t format.
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// Output is written to the intermediate buffer.
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// pIn The input buffer with the format designated in configure().
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// When function exist will point to the next unread input
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// sample.
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// numSamples The number of single-channel samples to process.
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void ConvertInput(const void *& pIn, uint32_t numSamples) {
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if (mPcmFormat == SAMPLE_FORMAT_PCM_S15) {
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const int16_t * pIn16 = reinterpret_cast<const int16_t *>(pIn);
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audio_sample_t * pOut = mBuffer;
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while (numSamples-- > 0) {
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*(pOut++) = s15_to_audio_sample_t(*(pIn16++));
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}
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pIn = pIn16;
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} else {
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assert(false);
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}
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}
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// Converts audio_sample_t samples from the intermediate buffer to the
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// output buffer, converting to the desired format and buffer behavior.
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// pOut The buffer to write the output to.
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// When function exist will point to the next output sample.
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// numSamples The number of single-channel samples to process.
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void ConvertOutput(void *& pOut, uint32_t numSamples) {
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if (mPcmFormat == SAMPLE_FORMAT_PCM_S15) {
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const audio_sample_t * pIn = mBuffer;
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int16_t * pOut16 = reinterpret_cast<int16_t *>(pOut);
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if (mBehavior == EFFECT_BUFFER_ACCESS_WRITE) {
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while (numSamples-- > 0) {
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*(pOut16++) = audio_sample_t_to_s15_clip(*(pIn++));
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}
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} else if (mBehavior == EFFECT_BUFFER_ACCESS_ACCUMULATE) {
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while (numSamples-- > 0) {
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*(pOut16++) += audio_sample_t_to_s15_clip(*(pIn++));
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}
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} else {
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assert(false);
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}
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pOut = pOut16;
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} else {
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assert(false);
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}
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}
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// Accumulate data from the intermediate buffer to the output. Output is
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// assumed to be of audio_sample_t type.
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// pOut The buffer to mix the output to.
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// When function exist will point to the next output sample.
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// numSamples The number of single-channel samples to process.
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void MixOutput(void *& pOut, uint32_t numSamples) {
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const audio_sample_t * pIn = mBuffer;
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audio_sample_t * pOut24 = reinterpret_cast<audio_sample_t *>(pOut);
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numSamples *= mNumChannels;
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while (numSamples-- > 0) {
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*(pOut24++) += *(pIn++);
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}
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pOut = pOut24;
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}
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};
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}
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#endif // AUDIOFORMATADAPTER_H_
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