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|
/**
* @file llvoicevisualizer.cpp
* @brief Draws in-world speaking indicators.
*
* $LicenseInfo:firstyear=2000&license=viewerlgpl$
* 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
* $/LicenseInfo$
*/
//----------------------------------------------------------------------
// Voice Visualizer
// author: JJ Ventrella
// (information about this stuff can be found in "llvoicevisualizer.h")
//----------------------------------------------------------------------
#include "llviewerprecompiledheaders.h"
#include "llviewercontrol.h"
#include "llglheaders.h"
#include "llsphere.h"
#include "llvoicevisualizer.h"
#include "llviewercamera.h"
#include "llviewerobject.h"
#include "llviewertexture.h"
#include "llviewertexturelist.h"
#include "llvoiceclient.h"
#include "llrender.h"
#include "llagent.h"
//brent's wave image
//29de489d-0491-fb00-7dab-f9e686d31e83
//--------------------------------------------------------------------------------------
// sound symbol constants
//--------------------------------------------------------------------------------------
const F32 HEIGHT_ABOVE_HEAD = 0.3f; // how many meters vertically above the av's head the voice symbol will appear
const F32 RED_THRESHOLD = LLVoiceClient::OVERDRIVEN_POWER_LEVEL; // value above which speaking amplitude causes the voice symbol to turn red
const F32 GREEN_THRESHOLD = 0.2f; // value above which speaking amplitude causes the voice symbol to turn green
const F32 FADE_OUT_DURATION = 0.4f; // how many seconds it takes for a pair of waves to fade away
const F32 EXPANSION_RATE = 1.0f; // how many seconds it takes for the waves to expand to twice their original size
const F32 EXPANSION_MAX = 1.5f; // maximum size scale to which the waves can expand before popping back to 1.0
const F32 WAVE_WIDTH_SCALE = 0.03f; // base width of the waves
const F32 WAVE_HEIGHT_SCALE = 0.02f; // base height of the waves
const F32 BASE_BRIGHTNESS = 0.7f; // gray level of the voice indicator when quiet (below green threshold)
const F32 DOT_SIZE = 0.05f; // size of the dot billboard texture
const F32 DOT_OPACITY = 0.7f; // how opaque the dot is
const F32 WAVE_MOTION_RATE = 1.5f; // scalar applied to consecutive waves as a function of speaking amplitude
//--------------------------------------------------------------------------------------
// gesticulation constants
//--------------------------------------------------------------------------------------
const F32 DEFAULT_MINIMUM_GESTICULATION_AMPLITUDE = 0.2f;
const F32 DEFAULT_MAXIMUM_GESTICULATION_AMPLITUDE = 1.0f;
//--------------------------------------------------------------------------------------
// other constants
//--------------------------------------------------------------------------------------
const LLVector3 WORLD_UPWARD_DIRECTION = LLVector3( 0.0f, 0.0f, 1.0f ); // Z is up in SL
//------------------------------------------------------------------
// Initialize the statics
//------------------------------------------------------------------
bool LLVoiceVisualizer::sPrefsInitialized = false;
bool LLVoiceVisualizer::sLipSyncEnabled = false;
F32* LLVoiceVisualizer::sOoh = NULL;
F32* LLVoiceVisualizer::sAah = NULL;
U32 LLVoiceVisualizer::sOohs = 0;
U32 LLVoiceVisualizer::sAahs = 0;
F32 LLVoiceVisualizer::sOohAahRate = 0.0f;
F32* LLVoiceVisualizer::sOohPowerTransfer = NULL;
U32 LLVoiceVisualizer::sOohPowerTransfers = 0;
F32 LLVoiceVisualizer::sOohPowerTransfersf = 0.0f;
F32* LLVoiceVisualizer::sAahPowerTransfer = NULL;
U32 LLVoiceVisualizer::sAahPowerTransfers = 0;
F32 LLVoiceVisualizer::sAahPowerTransfersf = 0.0f;
//-----------------------------------------------
// constructor
//-----------------------------------------------
LLVoiceVisualizer::LLVoiceVisualizer( const U8 type )
: LLHUDEffect(type)
{
mCurrentTime = mTimer.getTotalSeconds();
mPreviousTime = mCurrentTime;
mStartTime = mCurrentTime;
mVoiceSourceWorldPosition = LLVector3( 0.0f, 0.0f, 0.0f );
mSpeakingAmplitude = 0.0f;
mCurrentlySpeaking = false;
mVoiceEnabled = false;
mMinGesticulationAmplitude = DEFAULT_MINIMUM_GESTICULATION_AMPLITUDE;
mMaxGesticulationAmplitude = DEFAULT_MAXIMUM_GESTICULATION_AMPLITUDE;
mSoundSymbol.mActive = true;
mSoundSymbol.mPosition = LLVector3( 0.0f, 0.0f, 0.0f );
mTimer.reset();
const char* sound_level_img[] =
{
"voice_meter_dot.j2c",
"voice_meter_rings.j2c",
"voice_meter_rings.j2c",
"voice_meter_rings.j2c",
"voice_meter_rings.j2c",
"voice_meter_rings.j2c",
"voice_meter_rings.j2c"
};
for (int i=0; i<NUM_VOICE_SYMBOL_WAVES; i++)
{
mSoundSymbol.mWaveFadeOutStartTime [i] = mCurrentTime;
mSoundSymbol.mTexture [i] = LLViewerTextureManager::getFetchedTextureFromFile(sound_level_img[i], FTT_LOCAL_FILE, false, LLGLTexture::BOOST_UI);
mSoundSymbol.mWaveActive [i] = false;
mSoundSymbol.mWaveOpacity [i] = 1.0f;
mSoundSymbol.mWaveExpansion [i] = 1.0f;
}
mSoundSymbol.mTexture[0]->setFilteringOption(LLTexUnit::TFO_ANISOTROPIC);
// The first instance loads the initial state from prefs.
if (!sPrefsInitialized)
{
setPreferences();
// Set up our listener to get updates on all prefs values we care about.
gSavedSettings.getControl("LipSyncEnabled")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
gSavedSettings.getControl("LipSyncOohAahRate")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
gSavedSettings.getControl("LipSyncOoh")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
gSavedSettings.getControl("LipSyncAah")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
gSavedSettings.getControl("LipSyncOohPowerTransfer")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
gSavedSettings.getControl("LipSyncAahPowerTransfer")->getSignal()->connect(boost::bind(&LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged, _2));
sPrefsInitialized = true;
}
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setMinGesticulationAmplitude( F32 m )
{
mMinGesticulationAmplitude = m;
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setMaxGesticulationAmplitude( F32 m )
{
mMaxGesticulationAmplitude = m;
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setVoiceEnabled( bool v )
{
mVoiceEnabled = v;
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setStartSpeaking()
{
mStartTime = mTimer.getTotalSeconds();
mCurrentlySpeaking = true;
mSoundSymbol.mActive = true;
}//---------------------------------------------------
//---------------------------------------------------
bool LLVoiceVisualizer::getCurrentlySpeaking()
{
return mCurrentlySpeaking;
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setStopSpeaking()
{
mCurrentlySpeaking = false;
mSpeakingAmplitude = 0.0f;
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setSpeakingAmplitude( F32 a )
{
mSpeakingAmplitude = a;
}//---------------------------------------------------
//------------------------------------------------------------------
// handles parameter updates
//------------------------------------------------------------------
bool LLVoiceVisualizer::handleVoiceVisualizerPrefsChanged(const LLSD& newvalue)
{
// Note: Ignore the specific event value, we look up the ones we want
LLVoiceVisualizer::setPreferences();
return true;
}
//---------------------------------------------------
void LLVoiceVisualizer::setPreferences( )
{
sLipSyncEnabled = gSavedSettings.getBOOL("LipSyncEnabled");
sOohAahRate = gSavedSettings.getF32("LipSyncOohAahRate");
std::string oohString = gSavedSettings.getString("LipSyncOoh");
lipStringToF32s (oohString, sOoh, sOohs);
std::string aahString = gSavedSettings.getString("LipSyncAah");
lipStringToF32s (aahString, sAah, sAahs);
std::string oohPowerString = gSavedSettings.getString("LipSyncOohPowerTransfer");
lipStringToF32s (oohPowerString, sOohPowerTransfer, sOohPowerTransfers);
sOohPowerTransfersf = (F32) sOohPowerTransfers;
std::string aahPowerString = gSavedSettings.getString("LipSyncAahPowerTransfer");
lipStringToF32s (aahPowerString, sAahPowerTransfer, sAahPowerTransfers);
sAahPowerTransfersf = (F32) sAahPowerTransfers;
}//---------------------------------------------------
//---------------------------------------------------
// convert a string of digits to an array of floats.
// the result for each digit is the value of the
// digit multiplied by 0.11
//---------------------------------------------------
void LLVoiceVisualizer::lipStringToF32s ( std::string& in_string, F32*& out_F32s, U32& count_F32s )
{
delete[] out_F32s; // get rid of the current array
count_F32s = static_cast<U32>(in_string.length());
if (count_F32s == 0)
{
// we don't like zero length arrays
count_F32s = 1;
out_F32s = new F32[1];
out_F32s[0] = 0.0f;
}
else
{
out_F32s = new F32[count_F32s];
for (U32 i=0; i<count_F32s; i++)
{
// we convert the characters 0 to 9 to their numeric value
// anything else we take the low order four bits with a ceiling of 9
U8 digit = in_string[i];
U8 four_bits = digit % 16;
if (four_bits > 9)
{
four_bits = 9;
}
out_F32s[i] = 0.11f * (F32) four_bits;
}
}
}//---------------------------------------------------
//--------------------------------------------------------------------------
// find the amount to blend the ooh and aah mouth morphs
//--------------------------------------------------------------------------
void LLVoiceVisualizer::lipSyncOohAah( F32& ooh, F32& aah )
{
if (sLipSyncEnabled && mCurrentlySpeaking)
{
U32 transfer_index = (U32) (sOohPowerTransfersf * mSpeakingAmplitude);
if (transfer_index >= sOohPowerTransfers)
{
transfer_index = sOohPowerTransfers - 1;
}
F32 transfer_ooh = sOohPowerTransfer[transfer_index];
transfer_index = (U32) (sAahPowerTransfersf * mSpeakingAmplitude);
if (transfer_index >= sAahPowerTransfers)
{
transfer_index = sAahPowerTransfers - 1;
}
F32 transfer_aah = sAahPowerTransfer[transfer_index];
F64 current_time = mTimer.getTotalSeconds();
F64 elapsed_time = current_time - mStartTime;
U32 elapsed_frames = (U32) (elapsed_time * sOohAahRate);
U32 elapsed_oohs = elapsed_frames % sOohs;
U32 elapsed_aahs = elapsed_frames % sAahs;
ooh = transfer_ooh * sOoh[elapsed_oohs];
aah = transfer_aah * sAah[elapsed_aahs];
/*
LL_INFOS() << " elapsed frames " << elapsed_frames
<< " ooh " << ooh
<< " aah " << aah
<< " transfer ooh" << transfer_ooh
<< " transfer aah" << transfer_aah
<< " start time " << mStartTime
<< " current time " << current_time
<< " elapsed time " << elapsed_time
<< " elapsed oohs " << elapsed_oohs
<< " elapsed aahs " << elapsed_aahs
<< LL_ENDL;
*/
}
else
{
ooh = 0.0f;
aah = 0.0f;
}
}//---------------------------------------------------
//---------------------------------------------------
// this method is inherited from HUD Effect
//---------------------------------------------------
void LLVoiceVisualizer::render()
{
static LLCachedControl<bool> show_visualizer(gSavedSettings, "VoiceVisualizerEnabled", false);
if (!mVoiceEnabled || !show_visualizer)
{
return;
}
LL_PROFILE_ZONE_SCOPED_CATEGORY_UI;
if ( mSoundSymbol.mActive )
{
mPreviousTime = mCurrentTime;
mCurrentTime = mTimer.getTotalSeconds();
//---------------------------------------------------------------
// set the sound symbol position over the source (avatar's head)
//---------------------------------------------------------------
mSoundSymbol.mPosition = gAgent.getPosAgentFromGlobal(mPositionGlobal) + WORLD_UPWARD_DIRECTION * HEIGHT_ABOVE_HEAD;
//---------------------------------------------------------------
// some gl state
//---------------------------------------------------------------
LLGLSPipelineAlpha alpha_blend;
LLGLDepthTest depth(GL_TRUE, GL_FALSE);
//LLGLDisable gls_stencil(GL_STENCIL_TEST);
//-------------------------------------------------------------
// create coordinates of the geometry for the dot
//-------------------------------------------------------------
LLViewerCamera* camera = LLViewerCamera::getInstance();
LLVector3 l = camera->getLeftAxis() * DOT_SIZE;
LLVector3 u = camera->getUpAxis() * DOT_SIZE;
LLVector3 bottomLeft = mSoundSymbol.mPosition + l - u;
LLVector3 bottomRight = mSoundSymbol.mPosition - l - u;
LLVector3 topLeft = mSoundSymbol.mPosition + l + u;
LLVector3 topRight = mSoundSymbol.mPosition - l + u;
//-----------------------------
// bind texture 0 (the dot)
//-----------------------------
gGL.getTexUnit(0)->bind(mSoundSymbol.mTexture[0]);
//-------------------------------------------------------------
// now render the dot
//-------------------------------------------------------------
gGL.color4fv( LLColor4( 1.0f, 1.0f, 1.0f, DOT_OPACITY ).mV );
gGL.begin( LLRender::TRIANGLE_STRIP );
gGL.texCoord2i( 0, 0 ); gGL.vertex3fv( bottomLeft.mV );
gGL.texCoord2i( 1, 0 ); gGL.vertex3fv( bottomRight.mV );
gGL.texCoord2i( 0, 1 ); gGL.vertex3fv( topLeft.mV );
gGL.end();
gGL.begin( LLRender::TRIANGLE_STRIP );
gGL.texCoord2i( 1, 0 ); gGL.vertex3fv( bottomRight.mV );
gGL.texCoord2i( 1, 1 ); gGL.vertex3fv( topRight.mV );
gGL.texCoord2i( 0, 1 ); gGL.vertex3fv( topLeft.mV );
gGL.end();
//--------------------------------------------------------------------------------------
// if currently speaking, trigger waves (1 through 6) based on speaking amplitude
//--------------------------------------------------------------------------------------
if ( mCurrentlySpeaking )
{
F32 min = 0.2f;
F32 max = 0.7f;
F32 fraction = ( mSpeakingAmplitude - min ) / ( max - min );
// in case mSpeakingAmplitude > max....
if ( fraction > 1.0f )
{
fraction = 1.0f;
}
S32 level = 1 + (int)( fraction * ( NUM_VOICE_SYMBOL_WAVES - 2 ) );
for (int i=0; i<level+1; i++)
{
mSoundSymbol.mWaveActive [i] = true;
mSoundSymbol.mWaveOpacity [i] = 1.0f;
mSoundSymbol.mWaveFadeOutStartTime [i] = mCurrentTime;
}
} // if currently speaking
//---------------------------------------------------
// determine color
//---------------------------------------------------
F32 red = 0.0f;
F32 green = 0.0f;
F32 blue = 0.0f;
if ( mSpeakingAmplitude < RED_THRESHOLD )
{
if ( mSpeakingAmplitude < GREEN_THRESHOLD )
{
red = BASE_BRIGHTNESS;
green = BASE_BRIGHTNESS;
blue = BASE_BRIGHTNESS;
}
else
{
//---------------------------------------------------
// fade from gray to bright green
//---------------------------------------------------
F32 fraction = ( mSpeakingAmplitude - GREEN_THRESHOLD ) / ( 1.0f - GREEN_THRESHOLD );
red = BASE_BRIGHTNESS - ( fraction * BASE_BRIGHTNESS );
green = BASE_BRIGHTNESS + fraction * ( 1.0f - BASE_BRIGHTNESS );
blue = BASE_BRIGHTNESS - ( fraction * BASE_BRIGHTNESS );
}
}
else
{
//---------------------------------------------------
// redish
//---------------------------------------------------
red = 1.0f;
green = 0.2f;
blue = 0.2f;
}
for (int i=0; i<NUM_VOICE_SYMBOL_WAVES; i++)
{
if ( mSoundSymbol.mWaveActive[i] )
{
F32 fadeOutFraction = (F32)( mCurrentTime - mSoundSymbol.mWaveFadeOutStartTime[i] ) / FADE_OUT_DURATION;
mSoundSymbol.mWaveOpacity[i] = 1.0f - fadeOutFraction;
if ( mSoundSymbol.mWaveOpacity[i] < 0.0f )
{
mSoundSymbol.mWaveFadeOutStartTime [i] = mCurrentTime;
mSoundSymbol.mWaveOpacity [i] = 0.0f;
mSoundSymbol.mWaveActive [i] = false;
}
//----------------------------------------------------------------------------------
// This is where we calculate the expansion of the waves - that is, the
// rate at which they are scaled greater than 1.0 so that they grow over time.
//----------------------------------------------------------------------------------
F32 timeSlice = (F32)( mCurrentTime - mPreviousTime );
F32 waveSpeed = mSpeakingAmplitude * WAVE_MOTION_RATE;
mSoundSymbol.mWaveExpansion[i] *= ( 1.0f + EXPANSION_RATE * timeSlice * waveSpeed );
if ( mSoundSymbol.mWaveExpansion[i] > EXPANSION_MAX )
{
mSoundSymbol.mWaveExpansion[i] = 1.0f;
}
//----------------------------------------------------------------------------------
// create geometry for the wave billboard textures
//----------------------------------------------------------------------------------
F32 width = i * WAVE_WIDTH_SCALE * mSoundSymbol.mWaveExpansion[i];
F32 height = i * WAVE_HEIGHT_SCALE * mSoundSymbol.mWaveExpansion[i];
LLVector3 l = camera->getLeftAxis() * width;
LLVector3 u = camera->getUpAxis() * height;
LLVector3 bottomLeft = mSoundSymbol.mPosition + l - u;
LLVector3 bottomRight = mSoundSymbol.mPosition - l - u;
LLVector3 topLeft = mSoundSymbol.mPosition + l + u;
LLVector3 topRight = mSoundSymbol.mPosition - l + u;
gGL.color4fv( LLColor4( red, green, blue, mSoundSymbol.mWaveOpacity[i] ).mV );
gGL.getTexUnit(0)->bind(mSoundSymbol.mTexture[i]);
//---------------------------------------------------
// now, render the mofo
//---------------------------------------------------
gGL.begin( LLRender::TRIANGLE_STRIP );
gGL.texCoord2i( 0, 0 ); gGL.vertex3fv( bottomLeft.mV );
gGL.texCoord2i( 1, 0 ); gGL.vertex3fv( bottomRight.mV );
gGL.texCoord2i( 0, 1 ); gGL.vertex3fv( topLeft.mV );
gGL.end();
gGL.begin( LLRender::TRIANGLE_STRIP );
gGL.texCoord2i( 1, 0 ); gGL.vertex3fv( bottomRight.mV );
gGL.texCoord2i( 1, 1 ); gGL.vertex3fv( topRight.mV );
gGL.texCoord2i( 0, 1 ); gGL.vertex3fv( topLeft.mV );
gGL.end();
} //if ( mSoundSymbol.mWaveActive[i] )
}// for loop
}//if ( mSoundSymbol.mActive )
}//---------------------------------------------------
//---------------------------------------------------
void LLVoiceVisualizer::setVoiceSourceWorldPosition( const LLVector3 &p )
{
mVoiceSourceWorldPosition = p;
}//---------------------------------------------------
//---------------------------------------------------
VoiceGesticulationLevel LLVoiceVisualizer::getCurrentGesticulationLevel()
{
VoiceGesticulationLevel gesticulationLevel = VOICE_GESTICULATION_LEVEL_OFF; //default
//-----------------------------------------------------------------------------------------
// Within the range of gesticulation amplitudes, the sound signal is split into
// three equal amplitude regimes, each specifying one of three gesticulation levels.
//-----------------------------------------------------------------------------------------
F32 range = mMaxGesticulationAmplitude - mMinGesticulationAmplitude;
if ( mSpeakingAmplitude > mMinGesticulationAmplitude + range * 0.5f ) { gesticulationLevel = VOICE_GESTICULATION_LEVEL_HIGH; }
else if ( mSpeakingAmplitude > mMinGesticulationAmplitude + range * 0.25f ) { gesticulationLevel = VOICE_GESTICULATION_LEVEL_MEDIUM; }
else if ( mSpeakingAmplitude > mMinGesticulationAmplitude + range * 0.00000f ) { gesticulationLevel = VOICE_GESTICULATION_LEVEL_LOW; }
return gesticulationLevel;
}//---------------------------------------------------
//------------------------------------
// Destructor
//------------------------------------
LLVoiceVisualizer::~LLVoiceVisualizer()
{
}//----------------------------------------------
//---------------------------------------------------
// "packData" is inherited from HUDEffect
//---------------------------------------------------
void LLVoiceVisualizer::packData(LLMessageSystem *mesgsys)
{
// Pack the default data
LLHUDEffect::packData(mesgsys);
// TODO -- pack the relevant data for voice effects
// we'll come up with some cool configurations....TBD
//U8 packed_data[41];
//mesgsys->addBinaryDataFast(_PREHASH_TypeData, packed_data, 41);
U8 packed_data = 0;
mesgsys->addBinaryDataFast(_PREHASH_TypeData, &packed_data, 1);
}
//---------------------------------------------------
// "unpackData" is inherited from HUDEffect
//---------------------------------------------------
void LLVoiceVisualizer::unpackData(LLMessageSystem *mesgsys, S32 blocknum)
{
// TODO -- find the speaker, unpack binary data, set the properties of this effect
/*
LLHUDEffect::unpackData(mesgsys, blocknum);
LLUUID source_id;
LLUUID target_id;
S32 size = mesgsys->getSizeFast(_PREHASH_Effect, blocknum, _PREHASH_TypeData);
if (size != 1)
{
LL_WARNS() << "Voice effect with bad size " << size << LL_ENDL;
return;
}
mesgsys->getBinaryDataFast(_PREHASH_Effect, _PREHASH_TypeData, packed_data, 1, blocknum);
*/
}
//------------------------------------------------------------------
// this method is inherited from HUD Effect
//------------------------------------------------------------------
void LLVoiceVisualizer::markDead()
{
mCurrentlySpeaking = false;
mVoiceEnabled = false;
mSoundSymbol.mActive = false;
LLHUDEffect::markDead();
}//------------------------------------------------------------------
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