services/audioflinger/AudioMixer.h - android_frameworks_av - Gitiles

 /*
 **
 ** Copyright 2007, The Android Open Source Project
 **
 ** Licensed under the Apache License, Version 2.0 (the "License");
 ** you may not use this file except in compliance with the License.
 ** You may obtain a copy of the License at
 **
 **     http://www.apache.org/licenses/LICENSE-2.0
 **
 ** Unless required by applicable law or agreed to in writing, software
 ** distributed under the License is distributed on an "AS IS" BASIS,
 ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 ** See the License for the specific language governing permissions and
 ** limitations under the License.
 */

 #ifndef ANDROID_AUDIO_MIXER_H
 #define ANDROID_AUDIO_MIXER_H

 #include <stdint.h>
 #include <sys/types.h>

 #include <utils/threads.h>

 #include <media/AudioBufferProvider.h>
 #include "AudioResampler.h"

 #include <audio_effects/effect_downmix.h>
 #include <system/audio.h>
 #include <media/nbaio/NBLog.h>

 // FIXME This is actually unity gain, which might not be max in future, expressed in U.12
 #define MAX_GAIN_INT AudioMixer::UNITY_GAIN_INT

 namespace android {

 // ----------------------------------------------------------------------------

 class AudioMixer
 {
 public:
                             AudioMixer(size_t frameCount, uint32_t sampleRate,
                                        uint32_t maxNumTracks = MAX_NUM_TRACKS);

     /*virtual*/             ~AudioMixer();  // non-virtual saves a v-table, restore if sub-classed


     // This mixer has a hard-coded upper limit of 32 active track inputs.
     // Adding support for > 32 tracks would require more than simply changing this value.
     static const uint32_t MAX_NUM_TRACKS = 32;
     // maximum number of channels supported by the mixer

     // This mixer has a hard-coded upper limit of 2 channels for output.
     // There is support for > 2 channel tracks down-mixed to 2 channel output via a down-mix effect.
     // Adding support for > 2 channel output would require more than simply changing this value.
     static const uint32_t MAX_NUM_CHANNELS = 2;
     // maximum number of channels supported for the content
     static const uint32_t MAX_NUM_CHANNELS_TO_DOWNMIX = 8;

     static const uint16_t UNITY_GAIN_INT = 0x1000;
     static const float    UNITY_GAIN_FLOAT = 1.0f;

     enum { // names

         // track names (MAX_NUM_TRACKS units)
         TRACK0          = 0x1000,

         // 0x2000 is unused

         // setParameter targets
         TRACK           = 0x3000,
         RESAMPLE        = 0x3001,
         RAMP_VOLUME     = 0x3002, // ramp to new volume
         VOLUME          = 0x3003, // don't ramp

         // set Parameter names
         // for target TRACK
         CHANNEL_MASK    = 0x4000,
         FORMAT          = 0x4001,
         MAIN_BUFFER     = 0x4002,
         AUX_BUFFER      = 0x4003,
         DOWNMIX_TYPE    = 0X4004,
         MIXER_FORMAT    = 0x4005, // AUDIO_FORMAT_PCM_(FLOAT|16_BIT)
         // for target RESAMPLE
         SAMPLE_RATE     = 0x4100, // Configure sample rate conversion on this track name;
                                   // parameter 'value' is the new sample rate in Hz.
                                   // Only creates a sample rate converter the first time that
                                   // the track sample rate is different from the mix sample rate.
                                   // If the new sample rate is the same as the mix sample rate,
                                   // and a sample rate converter already exists,
                                   // then the sample rate converter remains present but is a no-op.
         RESET           = 0x4101, // Reset sample rate converter without changing sample rate.
                                   // This clears out the resampler's input buffer.
         REMOVE          = 0x4102, // Remove the sample rate converter on this track name;
                                   // the track is restored to the mix sample rate.
         // for target RAMP_VOLUME and VOLUME (8 channels max)
         // FIXME use float for these 3 to improve the dynamic range
         VOLUME0         = 0x4200,
         VOLUME1         = 0x4201,
         AUXLEVEL        = 0x4210,
     };


     // For all APIs with "name": TRACK0 <= name < TRACK0 + MAX_NUM_TRACKS

     // Allocate a track name.  Returns new track name if successful, -1 on failure.
     // The failure could be because of an invalid channelMask or format, or that
     // the track capacity of the mixer is exceeded.
     int         getTrackName(audio_channel_mask_t channelMask,
                              audio_format_t format, int sessionId);

     // Free an allocated track by name
     void        deleteTrackName(int name);

     // Enable or disable an allocated track by name
     void        enable(int name);
     void        disable(int name);

     void        setParameter(int name, int target, int param, void *value);

     void        setBufferProvider(int name, AudioBufferProvider* bufferProvider);
     void        process(int64_t pts);

     uint32_t    trackNames() const { return mTrackNames; }

     size_t      getUnreleasedFrames(int name) const;

     static inline bool isValidPcmTrackFormat(audio_format_t format) {
         return format == AUDIO_FORMAT_PCM_16_BIT ||
                 format == AUDIO_FORMAT_PCM_24_BIT_PACKED ||
                 format == AUDIO_FORMAT_PCM_32_BIT ||
                 format == AUDIO_FORMAT_PCM_FLOAT;
     }

 private:

     enum {
         // FIXME this representation permits up to 8 channels
         NEEDS_CHANNEL_COUNT__MASK   = 0x00000007,
     };

     enum {
         NEEDS_CHANNEL_1             = 0x00000000,   // mono
         NEEDS_CHANNEL_2             = 0x00000001,   // stereo

         // sample format is not explicitly specified, and is assumed to be AUDIO_FORMAT_PCM_16_BIT

         NEEDS_MUTE                  = 0x00000100,
         NEEDS_RESAMPLE              = 0x00001000,
         NEEDS_AUX                   = 0x00010000,
     };

     struct state_t;
     struct track_t;
     class DownmixerBufferProvider;
     class ReformatBufferProvider;

     typedef void (*hook_t)(track_t* t, int32_t* output, size_t numOutFrames, int32_t* temp,
                            int32_t* aux);
     static const int BLOCKSIZE = 16; // 4 cache lines

     struct track_t {
         uint32_t    needs;

         union {
         int16_t     volume[MAX_NUM_CHANNELS]; // [0]3.12 fixed point
         int32_t     volumeRL;
         };

         int32_t     prevVolume[MAX_NUM_CHANNELS];

         // 16-byte boundary

         int32_t     volumeInc[MAX_NUM_CHANNELS];
         int32_t     auxInc;
         int32_t     prevAuxLevel;

         // 16-byte boundary

         int16_t     auxLevel;       // 0 <= auxLevel <= MAX_GAIN_INT, but signed for mul performance
         uint16_t    frameCount;

         uint8_t     channelCount;   // 1 or 2, redundant with (needs & NEEDS_CHANNEL_COUNT__MASK)
         uint8_t     unused_padding; // formerly format, was always 16
         uint16_t    enabled;        // actually bool
         audio_channel_mask_t channelMask;

         // actual buffer provider used by the track hooks, see DownmixerBufferProvider below
         //  for how the Track buffer provider is wrapped by another one when dowmixing is required
         AudioBufferProvider*                bufferProvider;

         // 16-byte boundary

         mutable AudioBufferProvider::Buffer buffer; // 8 bytes

         hook_t      hook;
         const void* in;             // current location in buffer

         // 16-byte boundary

         AudioResampler*     resampler;
         uint32_t            sampleRate;
         int32_t*           mainBuffer;
         int32_t*           auxBuffer;

         // 16-byte boundary
         AudioBufferProvider*     mInputBufferProvider;    // 4 bytes
         ReformatBufferProvider*  mReformatBufferProvider; // 4 bytes
         DownmixerBufferProvider* downmixerBufferProvider; // 4 bytes

         int32_t     sessionId;

         // 16-byte boundary
         audio_format_t mMixerFormat;     // output mix format: AUDIO_FORMAT_PCM_(FLOAT|16_BIT)
         audio_format_t mFormat;          // input track format
         audio_format_t mMixerInFormat;   // mix internal format AUDIO_FORMAT_PCM_(FLOAT|16_BIT)
                                          // each track must be converted to this format.

         int32_t        mUnused[1];       // alignment padding

         // 16-byte boundary

         bool        needsRamp() { return (volumeInc[0] | volumeInc[1] | auxInc) != 0; }
         bool        setResampler(uint32_t sampleRate, uint32_t devSampleRate);
         bool        doesResample() const { return resampler != NULL; }
         void        resetResampler() { if (resampler != NULL) resampler->reset(); }
         void        adjustVolumeRamp(bool aux);
         size_t      getUnreleasedFrames() const { return resampler != NULL ?
                                                     resampler->getUnreleasedFrames() : 0; };
     };

     typedef void (*process_hook_t)(state_t* state, int64_t pts);

     // pad to 32-bytes to fill cache line
     struct state_t {
         uint32_t        enabledTracks;
         uint32_t        needsChanged;
         size_t          frameCount;
         process_hook_t  hook;   // one of process__*, never NULL
         int32_t         *outputTemp;
         int32_t         *resampleTemp;
         NBLog::Writer*  mLog;
         int32_t         reserved[1];
         // FIXME allocate dynamically to save some memory when maxNumTracks < MAX_NUM_TRACKS
         track_t         tracks[MAX_NUM_TRACKS] __attribute__((aligned(32)));
     };

     // AudioBufferProvider that wraps a track AudioBufferProvider by a call to a downmix effect
     class DownmixerBufferProvider : public AudioBufferProvider {
     public:
         virtual status_t getNextBuffer(Buffer* buffer, int64_t pts);
         virtual void releaseBuffer(Buffer* buffer);
         DownmixerBufferProvider();
         virtual ~DownmixerBufferProvider();

         AudioBufferProvider* mTrackBufferProvider;
         effect_handle_t    mDownmixHandle;
         effect_config_t    mDownmixConfig;
     };

     // AudioBufferProvider wrapper that reformats track to acceptable mixer input type
     class ReformatBufferProvider : public AudioBufferProvider {
     public:
         ReformatBufferProvider(int32_t channels,
                 audio_format_t inputFormat, audio_format_t outputFormat);
         virtual ~ReformatBufferProvider();

         // overrides AudioBufferProvider methods
         virtual status_t getNextBuffer(Buffer* buffer, int64_t pts);
         virtual void releaseBuffer(Buffer* buffer);

         void reset();
         inline bool requiresInternalBuffers() {
             return true; //mInputFrameSize < mOutputFrameSize;
         }

         AudioBufferProvider* mTrackBufferProvider;
         int32_t              mChannels;
         audio_format_t       mInputFormat;
         audio_format_t       mOutputFormat;
         size_t               mInputFrameSize;
         size_t               mOutputFrameSize;
         // (only) required for reformatting to a larger size.
         AudioBufferProvider::Buffer mBuffer;
         void*                mOutputData;
         size_t               mOutputCount;
         size_t               mConsumed;
     };

     // bitmask of allocated track names, where bit 0 corresponds to TRACK0 etc.
     uint32_t        mTrackNames;

     // bitmask of configured track names; ~0 if maxNumTracks == MAX_NUM_TRACKS,
     // but will have fewer bits set if maxNumTracks < MAX_NUM_TRACKS
     const uint32_t  mConfiguredNames;

     const uint32_t  mSampleRate;

     NBLog::Writer   mDummyLog;
 public:
     void            setLog(NBLog::Writer* log);
 private:
     state_t         mState __attribute__((aligned(32)));

     // effect descriptor for the downmixer used by the mixer
     static effect_descriptor_t sDwnmFxDesc;
     // indicates whether a downmix effect has been found and is usable by this mixer
     static bool                sIsMultichannelCapable;

     // Call after changing either the enabled status of a track, or parameters of an enabled track.
     // OK to call more often than that, but unnecessary.
     void invalidateState(uint32_t mask);

     static status_t initTrackDownmix(track_t* pTrack, int trackNum, audio_channel_mask_t mask);
     static status_t prepareTrackForDownmix(track_t* pTrack, int trackNum);
     static void unprepareTrackForDownmix(track_t* pTrack, int trackName);
     static status_t prepareTrackForReformat(track_t* pTrack, int trackNum);
     static void unprepareTrackForReformat(track_t* pTrack, int trackName);
     static void reconfigureBufferProviders(track_t* pTrack);

     static void track__genericResample(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
             int32_t* aux);
     static void track__nop(track_t* t, int32_t* out, size_t numFrames, int32_t* temp, int32_t* aux);
     static void track__16BitsStereo(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
             int32_t* aux);
     static void track__16BitsMono(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
             int32_t* aux);
     static void volumeRampStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp,
             int32_t* aux);
     static void volumeStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp,
             int32_t* aux);

     static void process__validate(state_t* state, int64_t pts);
     static void process__nop(state_t* state, int64_t pts);
     static void process__genericNoResampling(state_t* state, int64_t pts);
     static void process__genericResampling(state_t* state, int64_t pts);
     static void process__OneTrack16BitsStereoNoResampling(state_t* state,
                                                           int64_t pts);
 #if 0
     static void process__TwoTracks16BitsStereoNoResampling(state_t* state,
                                                            int64_t pts);
 #endif

     static int64_t calculateOutputPTS(const track_t& t, int64_t basePTS,
                                       int outputFrameIndex);

     static uint64_t         sLocalTimeFreq;
     static pthread_once_t   sOnceControl;
     static void             sInitRoutine();

     // multi-format process hooks
     template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
     static void process_NoResampleOneTrack(state_t* state, int64_t pts);

     // multi-format track hooks
     template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
     static void track__Resample(track_t* t, TO* out, size_t frameCount,
             TO* temp __unused, TA* aux);
     template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
     static void track__NoResample(track_t* t, TO* out, size_t frameCount,
             TO* temp __unused, TA* aux);

     static void convertMixerFormat(void *out, audio_format_t mixerOutFormat,
             void *in, audio_format_t mixerInFormat, size_t sampleCount);

     // hook types
     enum {
         PROCESSTYPE_NORESAMPLEONETRACK,
     };
     enum {
         TRACKTYPE_NOP,
         TRACKTYPE_RESAMPLE,
         TRACKTYPE_NORESAMPLE,
         TRACKTYPE_NORESAMPLEMONO,
     };

     // functions for determining the proper process and track hooks.
     static process_hook_t getProcessHook(int processType, int channels,
             audio_format_t mixerInFormat, audio_format_t mixerOutFormat);
     static hook_t getTrackHook(int trackType, int channels,
             audio_format_t mixerInFormat, audio_format_t mixerOutFormat);
 };

 // ----------------------------------------------------------------------------
 }; // namespace android

 #endif // ANDROID_AUDIO_MIXER_H
	/*
	**
	** Copyright 2007, The Android Open Source Project
	**
	** Licensed under the Apache License, Version 2.0 (the "License");
	** you may not use this file except in compliance with the License.
	** You may obtain a copy of the License at
	**
	** http://www.apache.org/licenses/LICENSE-2.0
	**
	** Unless required by applicable law or agreed to in writing, software
	** distributed under the License is distributed on an "AS IS" BASIS,
	** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	** See the License for the specific language governing permissions and
	** limitations under the License.
	*/

	#ifndef ANDROID_AUDIO_MIXER_H
	#define ANDROID_AUDIO_MIXER_H

	#include <stdint.h>
	#include <sys/types.h>

	#include <utils/threads.h>

	#include <media/AudioBufferProvider.h>
	#include "AudioResampler.h"

	#include <audio_effects/effect_downmix.h>
	#include <system/audio.h>
	#include <media/nbaio/NBLog.h>

	// FIXME This is actually unity gain, which might not be max in future, expressed in U.12
	#define MAX_GAIN_INT AudioMixer::UNITY_GAIN_INT

	namespace android {

	// ----------------------------------------------------------------------------

	class AudioMixer
	{
	public:
	AudioMixer(size_t frameCount, uint32_t sampleRate,
	uint32_t maxNumTracks = MAX_NUM_TRACKS);

	/virtual/ ~AudioMixer(); // non-virtual saves a v-table, restore if sub-classed


	// This mixer has a hard-coded upper limit of 32 active track inputs.
	// Adding support for > 32 tracks would require more than simply changing this value.
	static const uint32_t MAX_NUM_TRACKS = 32;
	// maximum number of channels supported by the mixer

	// This mixer has a hard-coded upper limit of 2 channels for output.
	// There is support for > 2 channel tracks down-mixed to 2 channel output via a down-mix effect.
	// Adding support for > 2 channel output would require more than simply changing this value.
	static const uint32_t MAX_NUM_CHANNELS = 2;
	// maximum number of channels supported for the content
	static const uint32_t MAX_NUM_CHANNELS_TO_DOWNMIX = 8;

	static const uint16_t UNITY_GAIN_INT = 0x1000;
	static const float UNITY_GAIN_FLOAT = 1.0f;

	enum { // names

	// track names (MAX_NUM_TRACKS units)
	TRACK0 = 0x1000,

	// 0x2000 is unused

	// setParameter targets
	TRACK = 0x3000,
	RESAMPLE = 0x3001,
	RAMP_VOLUME = 0x3002, // ramp to new volume
	VOLUME = 0x3003, // don't ramp

	// set Parameter names
	// for target TRACK
	CHANNEL_MASK = 0x4000,
	FORMAT = 0x4001,
	MAIN_BUFFER = 0x4002,
	AUX_BUFFER = 0x4003,
	DOWNMIX_TYPE = 0X4004,
	MIXER_FORMAT = 0x4005, // AUDIO_FORMAT_PCM_(FLOAT\|16_BIT)
	// for target RESAMPLE
	SAMPLE_RATE = 0x4100, // Configure sample rate conversion on this track name;
	// parameter 'value' is the new sample rate in Hz.
	// Only creates a sample rate converter the first time that
	// the track sample rate is different from the mix sample rate.
	// If the new sample rate is the same as the mix sample rate,
	// and a sample rate converter already exists,
	// then the sample rate converter remains present but is a no-op.
	RESET = 0x4101, // Reset sample rate converter without changing sample rate.
	// This clears out the resampler's input buffer.
	REMOVE = 0x4102, // Remove the sample rate converter on this track name;
	// the track is restored to the mix sample rate.
	// for target RAMP_VOLUME and VOLUME (8 channels max)
	// FIXME use float for these 3 to improve the dynamic range
	VOLUME0 = 0x4200,
	VOLUME1 = 0x4201,
	AUXLEVEL = 0x4210,
	};


	// For all APIs with "name": TRACK0 <= name < TRACK0 + MAX_NUM_TRACKS

	// Allocate a track name. Returns new track name if successful, -1 on failure.
	// The failure could be because of an invalid channelMask or format, or that
	// the track capacity of the mixer is exceeded.
	int getTrackName(audio_channel_mask_t channelMask,
	audio_format_t format, int sessionId);

	// Free an allocated track by name
	void deleteTrackName(int name);

	// Enable or disable an allocated track by name
	void enable(int name);
	void disable(int name);

	void setParameter(int name, int target, int param, void *value);

	void setBufferProvider(int name, AudioBufferProvider* bufferProvider);
	void process(int64_t pts);

	uint32_t trackNames() const { return mTrackNames; }

	size_t getUnreleasedFrames(int name) const;

	static inline bool isValidPcmTrackFormat(audio_format_t format) {
	return format == AUDIO_FORMAT_PCM_16_BIT \|\|
	format == AUDIO_FORMAT_PCM_24_BIT_PACKED \|\|
	format == AUDIO_FORMAT_PCM_32_BIT \|\|
	format == AUDIO_FORMAT_PCM_FLOAT;
	}

	private:

	enum {
	// FIXME this representation permits up to 8 channels
	NEEDS_CHANNEL_COUNT__MASK = 0x00000007,
	};

	enum {
	NEEDS_CHANNEL_1 = 0x00000000, // mono
	NEEDS_CHANNEL_2 = 0x00000001, // stereo

	// sample format is not explicitly specified, and is assumed to be AUDIO_FORMAT_PCM_16_BIT

	NEEDS_MUTE = 0x00000100,
	NEEDS_RESAMPLE = 0x00001000,
	NEEDS_AUX = 0x00010000,
	};

	struct state_t;
	struct track_t;
	class DownmixerBufferProvider;
	class ReformatBufferProvider;

	typedef void (hook_t)(track_t t, int32_t* output, size_t numOutFrames, int32_t* temp,
	int32_t* aux);
	static const int BLOCKSIZE = 16; // 4 cache lines

	struct track_t {
	uint32_t needs;

	union {
	int16_t volume[MAX_NUM_CHANNELS]; // [0]3.12 fixed point
	int32_t volumeRL;
	};

	int32_t prevVolume[MAX_NUM_CHANNELS];

	// 16-byte boundary

	int32_t volumeInc[MAX_NUM_CHANNELS];
	int32_t auxInc;
	int32_t prevAuxLevel;

	// 16-byte boundary

	int16_t auxLevel; // 0 <= auxLevel <= MAX_GAIN_INT, but signed for mul performance
	uint16_t frameCount;

	uint8_t channelCount; // 1 or 2, redundant with (needs & NEEDS_CHANNEL_COUNT__MASK)
	uint8_t unused_padding; // formerly format, was always 16
	uint16_t enabled; // actually bool
	audio_channel_mask_t channelMask;

	// actual buffer provider used by the track hooks, see DownmixerBufferProvider below
	// for how the Track buffer provider is wrapped by another one when dowmixing is required
	AudioBufferProvider* bufferProvider;

	// 16-byte boundary

	mutable AudioBufferProvider::Buffer buffer; // 8 bytes

	hook_t hook;
	const void* in; // current location in buffer

	// 16-byte boundary

	AudioResampler* resampler;
	uint32_t sampleRate;
	int32_t* mainBuffer;
	int32_t* auxBuffer;

	// 16-byte boundary
	AudioBufferProvider* mInputBufferProvider; // 4 bytes
	ReformatBufferProvider* mReformatBufferProvider; // 4 bytes
	DownmixerBufferProvider* downmixerBufferProvider; // 4 bytes

	int32_t sessionId;

	// 16-byte boundary
	audio_format_t mMixerFormat; // output mix format: AUDIO_FORMAT_PCM_(FLOAT\|16_BIT)
	audio_format_t mFormat; // input track format
	audio_format_t mMixerInFormat; // mix internal format AUDIO_FORMAT_PCM_(FLOAT\|16_BIT)
	// each track must be converted to this format.

	int32_t mUnused[1]; // alignment padding

	// 16-byte boundary

	bool needsRamp() { return (volumeInc[0] \| volumeInc[1] \| auxInc) != 0; }
	bool setResampler(uint32_t sampleRate, uint32_t devSampleRate);
	bool doesResample() const { return resampler != NULL; }
	void resetResampler() { if (resampler != NULL) resampler->reset(); }
	void adjustVolumeRamp(bool aux);
	size_t getUnreleasedFrames() const { return resampler != NULL ?
	resampler->getUnreleasedFrames() : 0; };
	};

	typedef void (process_hook_t)(state_t state, int64_t pts);

	// pad to 32-bytes to fill cache line
	struct state_t {
	uint32_t enabledTracks;
	uint32_t needsChanged;
	size_t frameCount;
	process_hook_t hook; // one of process__*, never NULL
	int32_t *outputTemp;
	int32_t *resampleTemp;
	NBLog::Writer* mLog;
	int32_t reserved[1];
	// FIXME allocate dynamically to save some memory when maxNumTracks < MAX_NUM_TRACKS
	track_t tracks[MAX_NUM_TRACKS] __attribute__((aligned(32)));
	};

	// AudioBufferProvider that wraps a track AudioBufferProvider by a call to a downmix effect
	class DownmixerBufferProvider : public AudioBufferProvider {
	public:
	virtual status_t getNextBuffer(Buffer* buffer, int64_t pts);
	virtual void releaseBuffer(Buffer* buffer);
	DownmixerBufferProvider();
	virtual ~DownmixerBufferProvider();

	AudioBufferProvider* mTrackBufferProvider;
	effect_handle_t mDownmixHandle;
	effect_config_t mDownmixConfig;
	};

	// AudioBufferProvider wrapper that reformats track to acceptable mixer input type
	class ReformatBufferProvider : public AudioBufferProvider {
	public:
	ReformatBufferProvider(int32_t channels,
	audio_format_t inputFormat, audio_format_t outputFormat);
	virtual ~ReformatBufferProvider();

	// overrides AudioBufferProvider methods
	virtual status_t getNextBuffer(Buffer* buffer, int64_t pts);
	virtual void releaseBuffer(Buffer* buffer);

	void reset();
	inline bool requiresInternalBuffers() {
	return true; //mInputFrameSize < mOutputFrameSize;
	}

	AudioBufferProvider* mTrackBufferProvider;
	int32_t mChannels;
	audio_format_t mInputFormat;
	audio_format_t mOutputFormat;
	size_t mInputFrameSize;
	size_t mOutputFrameSize;
	// (only) required for reformatting to a larger size.
	AudioBufferProvider::Buffer mBuffer;
	void* mOutputData;
	size_t mOutputCount;
	size_t mConsumed;
	};

	// bitmask of allocated track names, where bit 0 corresponds to TRACK0 etc.
	uint32_t mTrackNames;

	// bitmask of configured track names; ~0 if maxNumTracks == MAX_NUM_TRACKS,
	// but will have fewer bits set if maxNumTracks < MAX_NUM_TRACKS
	const uint32_t mConfiguredNames;

	const uint32_t mSampleRate;

	NBLog::Writer mDummyLog;
	public:
	void setLog(NBLog::Writer* log);
	private:
	state_t mState __attribute__((aligned(32)));

	// effect descriptor for the downmixer used by the mixer
	static effect_descriptor_t sDwnmFxDesc;
	// indicates whether a downmix effect has been found and is usable by this mixer
	static bool sIsMultichannelCapable;

	// Call after changing either the enabled status of a track, or parameters of an enabled track.
	// OK to call more often than that, but unnecessary.
	void invalidateState(uint32_t mask);

	static status_t initTrackDownmix(track_t* pTrack, int trackNum, audio_channel_mask_t mask);
	static status_t prepareTrackForDownmix(track_t* pTrack, int trackNum);
	static void unprepareTrackForDownmix(track_t* pTrack, int trackName);
	static status_t prepareTrackForReformat(track_t* pTrack, int trackNum);
	static void unprepareTrackForReformat(track_t* pTrack, int trackName);
	static void reconfigureBufferProviders(track_t* pTrack);

	static void track__genericResample(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
	int32_t* aux);
	static void track__nop(track_t* t, int32_t* out, size_t numFrames, int32_t* temp, int32_t* aux);
	static void track__16BitsStereo(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
	int32_t* aux);
	static void track__16BitsMono(track_t* t, int32_t* out, size_t numFrames, int32_t* temp,
	int32_t* aux);
	static void volumeRampStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp,
	int32_t* aux);
	static void volumeStereo(track_t* t, int32_t* out, size_t frameCount, int32_t* temp,
	int32_t* aux);

	static void process__validate(state_t* state, int64_t pts);
	static void process__nop(state_t* state, int64_t pts);
	static void process__genericNoResampling(state_t* state, int64_t pts);
	static void process__genericResampling(state_t* state, int64_t pts);
	static void process__OneTrack16BitsStereoNoResampling(state_t* state,
	int64_t pts);
	#if 0
	static void process__TwoTracks16BitsStereoNoResampling(state_t* state,
	int64_t pts);
	#endif

	static int64_t calculateOutputPTS(const track_t& t, int64_t basePTS,
	int outputFrameIndex);

	static uint64_t sLocalTimeFreq;
	static pthread_once_t sOnceControl;
	static void sInitRoutine();

	// multi-format process hooks
	template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
	static void process_NoResampleOneTrack(state_t* state, int64_t pts);

	// multi-format track hooks
	template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
	static void track__Resample(track_t* t, TO* out, size_t frameCount,
	TO* temp __unused, TA* aux);
	template <int MIXTYPE, int NCHAN, typename TO, typename TI, typename TA>
	static void track__NoResample(track_t* t, TO* out, size_t frameCount,
	TO* temp __unused, TA* aux);

	static void convertMixerFormat(void *out, audio_format_t mixerOutFormat,
	void *in, audio_format_t mixerInFormat, size_t sampleCount);

	// hook types
	enum {
	PROCESSTYPE_NORESAMPLEONETRACK,
	};
	enum {
	TRACKTYPE_NOP,
	TRACKTYPE_RESAMPLE,
	TRACKTYPE_NORESAMPLE,
	TRACKTYPE_NORESAMPLEMONO,
	};

	// functions for determining the proper process and track hooks.
	static process_hook_t getProcessHook(int processType, int channels,
	audio_format_t mixerInFormat, audio_format_t mixerOutFormat);
	static hook_t getTrackHook(int trackType, int channels,
	audio_format_t mixerInFormat, audio_format_t mixerOutFormat);
	};

	// ----------------------------------------------------------------------------
	}; // namespace android

	#endif // ANDROID_AUDIO_MIXER_H