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/**
* @file audioengine.h
* @brief Definition of LLAudioEngine base class abstracting the audio support
*
* $LicenseInfo:firstyear=2000&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#ifndef LL_AUDIOENGINE_H
#define LL_AUDIOENGINE_H
#include <list>
#include <map>
#include "v3math.h"
#include "v3dmath.h"
#include "lltimer.h"
#include "lluuid.h"
#include "llframetimer.h"
#include "llassettype.h"
#include "llextendedstatus.h"
#include "lllistener.h"
const F32 LL_WIND_UPDATE_INTERVAL = 0.1f;
const F32 LL_WIND_UNDERWATER_CENTER_FREQ = 20.f;
const F32 ATTACHED_OBJECT_TIMEOUT = 5.0f;
const F32 DEFAULT_MIN_DISTANCE = 2.0f;
#define MAX_CHANNELS 30
#define MAX_BUFFERS 40 // Some extra for preloading, maybe?
class LLAudioSource;
class LLAudioData;
class LLAudioChannel;
class LLAudioChannelOpenAL;
class LLAudioBuffer;
class LLStreamingAudioInterface;
struct SoundData;
//
// LLAudioEngine definition
//
class LLAudioEngine
{
friend class LLAudioChannelOpenAL; // bleh. channel needs some listener methods.
public:
enum LLAudioType
{
AUDIO_TYPE_NONE = 0,
AUDIO_TYPE_SFX = 1,
AUDIO_TYPE_UI = 2,
AUDIO_TYPE_AMBIENT = 3,
AUDIO_TYPE_COUNT = 4 // last
};
enum LLAudioPlayState
{
// isInternetStreamPlaying() returns an *S32*, with
// 0 = stopped, 1 = playing, 2 = paused.
AUDIO_STOPPED = 0,
AUDIO_PLAYING = 1,
AUDIO_PAUSED = 2
};
LLAudioEngine();
virtual ~LLAudioEngine();
// initialization/startup/shutdown
virtual bool init(const S32 num_channels, void *userdata, const std::string &app_title);
virtual std::string getDriverName(bool verbose) = 0;
virtual void shutdown();
// Used by the mechanics of the engine
//virtual void processQueue(const LLUUID &sound_guid);
virtual void setListener(LLVector3 pos,LLVector3 vel,LLVector3 up,LLVector3 at);
virtual void updateWind(LLVector3 direction, F32 camera_height_above_water) = 0;
virtual void idle(F32 max_decode_time = 0.f);
virtual void updateChannels();
//
// "End user" functionality
//
virtual bool isWindEnabled();
virtual void enableWind(bool state_b);
// Use these for temporarily muting the audio system.
// Does not change buffers, initialization, etc. but
// stops playing new sounds.
void setMuted(bool muted);
bool getMuted() const { return mMuted; }
#ifdef USE_PLUGIN_MEDIA
LLPluginClassMedia* initializeMedia(const std::string& media_type);
#endif
F32 getMasterGain();
void setMasterGain(F32 gain);
F32 getSecondaryGain(S32 type);
void setSecondaryGain(S32 type, F32 gain);
F32 getInternetStreamGain();
virtual void setDopplerFactor(F32 factor);
virtual F32 getDopplerFactor();
virtual void setRolloffFactor(F32 factor);
virtual F32 getRolloffFactor();
virtual void setMaxWindGain(F32 gain);
// Methods actually related to setting up and removing sounds
// Owner ID is the owner of the object making the request
void triggerSound(const LLUUID &sound_id, const LLUUID& owner_id, const F32 gain,
const S32 type = LLAudioEngine::AUDIO_TYPE_NONE,
const LLVector3d &pos_global = LLVector3d::zero);
void triggerSound(SoundData& soundData);
bool preloadSound(const LLUUID &id);
void addAudioSource(LLAudioSource *asp);
void cleanupAudioSource(LLAudioSource *asp);
LLAudioSource *findAudioSource(const LLUUID &source_id);
LLAudioData *getAudioData(const LLUUID &audio_uuid);
// Internet stream implementation manipulation
LLStreamingAudioInterface *getStreamingAudioImpl();
void setStreamingAudioImpl(LLStreamingAudioInterface *impl);
// Internet stream methods - these will call down into the *mStreamingAudioImpl if it exists
void startInternetStream(const std::string& url);
void stopInternetStream();
void pauseInternetStream(S32 pause);
void updateInternetStream(); // expected to be called often
LLAudioPlayState isInternetStreamPlaying();
// use a value from 0.0 to 1.0, inclusive
void setInternetStreamGain(F32 vol);
std::string getInternetStreamURL();
// For debugging usage
virtual LLVector3 getListenerPos();
LLAudioBuffer *getFreeBuffer(); // Get a free buffer, or flush an existing one if you have to.
LLAudioChannel *getFreeChannel(const F32 priority); // Get a free channel or flush an existing one if your priority is higher
void cleanupBuffer(LLAudioBuffer *bufferp);
bool hasDecodedFile(const LLUUID &uuid);
bool hasLocalFile(const LLUUID &uuid);
bool updateBufferForData(LLAudioData *adp, const LLUUID &audio_uuid = LLUUID::null);
// Asset callback when we're retrieved a sound from the asset server.
void startNextTransfer();
static void assetCallback(const LLUUID &uuid, LLAssetType::EType type, void *user_data, S32 result_code, LLExtStat ext_status);
friend class LLPipeline; // For debugging
public:
F32 mMaxWindGain; // Hack. Public to set before fade in?
protected:
virtual LLAudioBuffer *createBuffer() = 0;
virtual LLAudioChannel *createChannel() = 0;
virtual bool initWind() = 0;
virtual void cleanupWind() = 0;
virtual void setInternalGain(F32 gain) = 0;
void commitDeferredChanges();
virtual void allocateListener() = 0;
// listener methods
virtual void setListenerPos(LLVector3 vec);
virtual void setListenerVelocity(LLVector3 vec);
virtual void orientListener(LLVector3 up, LLVector3 at);
virtual void translateListener(LLVector3 vec);
F64 mapWindVecToGain(LLVector3 wind_vec);
F64 mapWindVecToPitch(LLVector3 wind_vec);
F64 mapWindVecToPan(LLVector3 wind_vec);
protected:
LLListener *mListenerp;
bool mMuted;
void* mUserData;
S32 mLastStatus;
S32 mNumChannels;
bool mEnableWind;
LLUUID mCurrentTransfer; // Audio file currently being transferred by the system
LLFrameTimer mCurrentTransferTimer;
// A list of all audio sources that are known to the viewer at this time.
// This is most likely a superset of the ones that we actually have audio
// data for, or are playing back.
typedef std::map<LLUUID, LLAudioSource *> source_map;
typedef std::map<LLUUID, LLAudioData *> data_map;
source_map mAllSources;
data_map mAllData;
LLAudioChannel *mChannels[MAX_CHANNELS];
// Buffers needs to change into a different data structure, as the number of buffers
// that we have active should be limited by RAM usage, not count.
LLAudioBuffer *mBuffers[MAX_BUFFERS];
F32 mMasterGain;
F32 mInternalGain; // Actual gain set; either mMasterGain or 0 when mMuted is true.
F32 mSecondaryGain[AUDIO_TYPE_COUNT];
F32 mNextWindUpdate;
LLFrameTimer mWindUpdateTimer;
private:
void setDefaults();
LLStreamingAudioInterface *mStreamingAudioImpl;
};
//
// Standard audio source. Can be derived from for special sources, such as those attached to objects.
//
class LLAudioSource
{
public:
// owner_id is the id of the agent responsible for making this sound
// play, for example, the owner of the object currently playing it
LLAudioSource(const LLUUID &id, const LLUUID& owner_id, const F32 gain, const S32 type = LLAudioEngine::AUDIO_TYPE_NONE);
virtual ~LLAudioSource();
virtual void update(); // Update this audio source
void updatePriority();
void preload(const LLUUID &audio_id); // Only used for preloading UI sounds, now.
void addAudioData(LLAudioData *adp, bool set_current = TRUE);
void setForcedPriority(const bool ambient) { mForcedPriority = ambient; }
bool isForcedPriority() const { return mForcedPriority; }
void setLoop(const bool loop) { mLoop = loop; }
bool isLoop() const { return mLoop; }
void setSyncMaster(const bool master) { mSyncMaster = master; }
bool isSyncMaster() const { return mSyncMaster; }
void setSyncSlave(const bool slave) { mSyncSlave = slave; }
bool isSyncSlave() const { return mSyncSlave; }
void setQueueSounds(const bool queue) { mQueueSounds = queue; }
bool isQueueSounds() const { return mQueueSounds; }
void setPlayedOnce(const bool played_once) { mPlayedOnce = played_once; }
void setType(S32 type) { mType = type; }
S32 getType() { return mType; }
void setPositionGlobal(const LLVector3d &position_global) { mPositionGlobal = position_global; }
LLVector3d getPositionGlobal() const { return mPositionGlobal; }
LLVector3 getVelocity() const { return mVelocity; }
F32 getPriority() const { return mPriority; }
// Gain should always be clamped between 0 and 1.
F32 getGain() const { return mGain; }
virtual void setGain(const F32 gain) { mGain = llclamp(gain, 0.f, 1.f); }
const LLUUID &getID() const { return mID; }
bool isDone() const;
bool isMuted() const { return mSourceMuted; }
LLAudioData *getCurrentData();
LLAudioData *getQueuedData();
LLAudioBuffer *getCurrentBuffer();
bool setupChannel();
bool play(const LLUUID &audio_id); // Start the audio source playing
bool hasPendingPreloads() const; // Has preloads that haven't been done yet
friend class LLAudioEngine;
friend class LLAudioChannel;
protected:
void setChannel(LLAudioChannel *channelp);
LLAudioChannel *getChannel() const { return mChannelp; }
protected:
LLUUID mID; // The ID of the source is that of the object if it's attached to an object.
LLUUID mOwnerID; // owner of the object playing the sound
F32 mPriority;
F32 mGain;
bool mSourceMuted;
bool mForcedPriority; // ignore mute, set high priority, researved for sound preview and UI
bool mLoop;
bool mSyncMaster;
bool mSyncSlave;
bool mQueueSounds;
bool mPlayedOnce;
bool mCorrupted;
S32 mType;
LLVector3d mPositionGlobal;
LLVector3 mVelocity;
//LLAudioSource *mSyncMasterp; // If we're a slave, the source that we're synced to.
LLAudioChannel *mChannelp; // If we're currently playing back, this is the channel that we're assigned to.
LLAudioData *mCurrentDatap;
LLAudioData *mQueuedDatap;
typedef std::map<LLUUID, LLAudioData *> data_map;
data_map mPreloadMap;
LLFrameTimer mAgeTimer;
};
//
// Generic metadata about a particular piece of audio data.
// The actual data is handled by the derived LLAudioBuffer classes which are
// derived for each audio engine.
//
class LLAudioData
{
public:
LLAudioData(const LLUUID &uuid);
bool load();
LLUUID getID() const { return mID; }
LLAudioBuffer *getBuffer() const { return mBufferp; }
bool hasLocalData() const { return mHasLocalData; }
bool hasDecodedData() const { return mHasDecodedData; }
bool hasCompletedDecode() const { return mHasCompletedDecode; }
bool hasValidData() const { return mHasValidData; }
void setHasLocalData(const bool hld) { mHasLocalData = hld; }
void setHasDecodedData(const bool hdd) { mHasDecodedData = hdd; }
void setHasCompletedDecode(const bool hcd) { mHasCompletedDecode = hcd; }
void setHasValidData(const bool hvd) { mHasValidData = hvd; }
friend class LLAudioEngine; // Severe laziness, bad.
protected:
LLUUID mID;
LLAudioBuffer *mBufferp; // If this data is being used by the audio system, a pointer to the buffer will be set here.
bool mHasLocalData; // Set true if the sound asset file is available locally
bool mHasDecodedData; // Set true if the sound file has been decoded
bool mHasCompletedDecode; // Set true when the sound is decoded
bool mHasValidData; // Set false if decoding failed, meaning the sound asset is bad
};
//
// Base class for an audio channel, i.e. a channel which is capable of playing back a sound.
// Management of channels is done generically, methods for actually manipulating the channel
// are derived for each audio engine.
//
class LLAudioChannel
{
public:
LLAudioChannel();
virtual ~LLAudioChannel();
virtual void setSource(LLAudioSource *sourcep);
LLAudioSource *getSource() const { return mCurrentSourcep; }
void setSecondaryGain(F32 gain) { mSecondaryGain = gain; }
F32 getSecondaryGain() { return mSecondaryGain; }
friend class LLAudioEngine;
friend class LLAudioSource;
protected:
virtual void play() = 0;
virtual void playSynced(LLAudioChannel *channelp) = 0;
virtual void cleanup() = 0;
virtual bool isPlaying() = 0;
void setWaiting(const bool waiting) { mWaiting = waiting; }
bool isWaiting() const { return mWaiting; }
virtual bool updateBuffer(); // Check to see if the buffer associated with the source changed, and update if necessary.
virtual void update3DPosition() = 0;
virtual void updateLoop() = 0; // Update your loop/completion status, for use by queueing/syncing.
protected:
LLAudioSource *mCurrentSourcep;
LLAudioBuffer *mCurrentBufferp;
bool mLoopedThisFrame;
bool mWaiting; // Waiting for sync.
F32 mSecondaryGain;
};
// Basically an interface class to the engine-specific implementation
// of audio data that's ready for playback.
// Will likely get more complex as we decide to do stuff like real streaming audio.
class LLAudioBuffer
{
public:
virtual ~LLAudioBuffer() {};
virtual bool loadWAV(const std::string& filename) = 0;
virtual U32 getLength() = 0;
friend class LLAudioEngine;
friend class LLAudioChannel;
friend class LLAudioData;
protected:
bool mInUse;
LLAudioData *mAudioDatap;
LLFrameTimer mLastUseTimer;
};
struct SoundData
{
LLUUID audio_uuid;
LLUUID owner_id;
F32 gain;
S32 type;
LLVector3d pos_global;
SoundData(const LLUUID &audio_uuid,
const LLUUID& owner_id,
const F32 gain,
const S32 type = LLAudioEngine::AUDIO_TYPE_NONE,
const LLVector3d &pos_global = LLVector3d::zero)
{
this->audio_uuid = audio_uuid;
this->owner_id = owner_id;
this->gain = gain;
this->type = type;
this->pos_global = pos_global;
}
};
extern LLAudioEngine* gAudiop;
#endif
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