khanat-code-old/code/ryzom/client/src/sound_manager.cpp

1852 lines
50 KiB
C++

// Ryzom - MMORPG Framework <http://dev.ryzom.com/projects/ryzom/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "stdpch.h"
//////////////
// INCLUDES //
//////////////
// client
#include "sound_manager.h"
#include "pacs_client.h"
#include "light_cycle_manager.h"
#include "weather_manager_client.h"
#include "user_entity.h"
#include "entities.h"
#include "time_client.h"
#include "weather.h"
#include "global.h"
// game share
#include "game_share/cst_loader.h"
// If you compile using the nel distrib and you don't have the source, you must undef this symbol
#if !FINAL_VERSION
# define DEBUG_SOUND_IN_GAME
#endif
#if defined(DEBUG_SOUND_IN_GAME)
//sound
# include "nel/sound/clustered_sound.h"
# include "nel/sound/audio_mixer_user.h"
// 3d
# include "nel/3d/cluster.h"
# include "nel/3d/portal.h"
# include "nel/3d/dru.h"
# include "nel/3d/material.h"
# include "nel/3d/driver.h"
# include "nel/3d/driver_user.h"
# include "view.h"
#endif
extern CLightCycleManager LightCycleManager;
extern NL3D::UDriver *Driver;
extern NL3D::UCamera MainCam;
extern NLLIGO::CLigoConfig LigoConfig;
//////////////
// USING //
//////////////
using namespace NLMISC;
using namespace NLPACS;
using namespace NLSOUND;
using namespace std;
using namespace NL3D;
extern NL3D::UScene *Scene;
// The interpolation distance for the portals : 1 m
const float PORTAL_INTERPOLATE = 1.0f;
// Filter mapping
enum TFilterMapping
{
DAY = 0,
NIGHT = 1,
MORNING = 2,
DUSK = 3,
SPRING = 4,
SUMMER = 5,
AUTUMN = 6,
WINTER = 7,
MIST = 8,
FAIR1 = 9,
FAIR2 = 10,
FAIR3 = 11,
CLOUDS = 12,
RAIN1 = 13,
RAIN2 = 14,
SNOW1 = 15,
THUNDER1 = 16,
THUNDERSEVE1 = 17,
THUNDERSAND1 = 18,
THUNDERSAND2 = 19,
THUNDERSAND3 = 20,
BAD = 21,
GOOD = 22,
QUICK_MUTE = 23
};
//-----------------------------------------------
// constructor
//-----------------------------------------------
CSoundManager::CSoundManager(IProgressCallback * /* progressCallBack */)
: _AudioMixer(NULL),
_EnvSoundRoot(NULL),
_UserEntitySoundLevel(1.0f)
{
_EnableBackgroundMusicAtTime= 0;
_GameMusicVolume= 1.f;
_UserMusicVolume= 1.f;
_FadeGameMusicVolume= 1.f;
_FadeSFXVolume= 1.f;
_UseGameMusicVolume= true;
_EventMusicEnabled= true;
_EventMusicLoop= false;
_FadeGameMusicVolumeDueToEvent= 1.f;
// init(progressCallBack);
} // CSoundManager
//-----------------------------------------------
// Destructor
//-----------------------------------------------
CSoundManager::~CSoundManager()
{
_Sources.clear();
_AttachedSources.clear(); // attached sources already deleted (they are also in the _Sources map)
// detach the sound from the particule system
NL3D::UParticleSystemSound::setPSSound(NULL);
// free the audio mixer (and delete all sources)
if (_AudioMixer)
delete _AudioMixer;
// release sound anim properly
releaseSoundAnim();
} // ~CSoundManager //
// ***************************************************************************
void CSoundManager::releaseSoundAnim()
{
// Parse all Entities to reset their current sound id
EntitiesMngr.resetAllSoundAnimId();
// Parse all animation to reset their Id
if(EAM)
EAM->resetAllSoundAnimId();
// Delete the sound anim Singleton
CSoundAnimManager::release();
}
// ***************************************************************************
void CSoundManager::drawSounds(float camHeight)
{
#if defined(DEBUG_SOUND_IN_GAME)
// prepare the cameras for cluster display
// draw the cluster bounding box on screen
CMatrix newCam;
// get the user pos
CVector pos(View.viewPos());
pos += CVector(0,0,camHeight);
// get the view vector ?
CVector lookAt(View.view());
lookAt.z = 0;
lookAt.normalize();
if (lookAt.y <0)
newCam.rotateZ(float(Pi+/*-Pi/2+*/asin(lookAt.x)));
else
newCam.rotateZ(float(Pi+/*-Pi/2+*/Pi-asin(lookAt.x)));
newCam.rotateX(float(-Pi/2));
newCam.setPos(pos);
Driver->setMatrixMode3D(MainCam);
Driver->setViewMatrix(newCam.inverted());
Driver->clearZBuffer();
CMatrix model;
model.identity();
model.translate(-pos);
// model.rotateX(mapRX);
// model.rotateY(mapRY);
model.translate(pos);
Driver->setModelMatrix(model);
// UAudioMixer *amu = UAudioMixer::instance();
IDriver *idriver = static_cast<CDriverUser*>(Driver)->getDriver();
CClusteredSound *cs = static_cast<CAudioMixerUser*>(_AudioMixer)->getClusteredSound();
// Draw the audible clusters
{
CMaterial mat;
CMaterial mat2;
CClusteredSound::TClusterStatusMap::const_iterator first(cs->getAudibleClusters().begin()), last(cs->getAudibleClusters().end());
for (; first != last; ++first)
{
NL3D::CCluster *cluster = first->first;
const CAABBox &box = cluster->getBBox();
CVector center(box.getCenter());
CVector size(box.getHalfSize());
CVector a(center+size), b(center-size);
CVector s[8];
s[0].set(a.x, a.y, a.z);
s[1].set(a.x, b.y, a.z);
s[2].set(b.x, b.y, a.z);
s[3].set(b.x, a.y, a.z);
s[4].set(a.x, a.y, b.z);
s[5].set(a.x, b.y, b.z);
s[6].set(b.x, b.y, b.z);
s[7].set(b.x, a.y, b.z);
CLine lines[12] =
{
CLine(s[0], s[1]),
CLine(s[1], s[2]),
CLine(s[2], s[3]),
CLine(s[3], s[0]),
CLine(s[4], s[5]),
CLine(s[5], s[6]),
CLine(s[6], s[7]),
CLine(s[7], s[4]),
CLine(s[0], s[4]),
CLine(s[1], s[5]),
CLine(s[2], s[6]),
CLine(s[3], s[7]),
};
mat.setColor(CRGBA(255,0,0,255));
mat.setZFunc(CMaterial::less);
NL3D::CDRU::drawLinesUnlit(lines, 12, mat, *idriver);
mat.setColor(CRGBA(80,0,0,255));
mat.setZFunc(CMaterial::greater);
NL3D::CDRU::drawLinesUnlit(lines, 12, mat, *idriver);
mat2.setColor(CRGBA(0,0,255,50));
mat2.setZFunc(CMaterial:: always);
mat2.setSrcBlend(CMaterial::srcalpha);
mat2.setDstBlend(CMaterial::one);
mat2.setBlend(true);
mat.setColor(CRGBA(0,0,255,255));
mat.setZFunc(CMaterial::always);
// draw the portals
for (uint k = 0; k<cluster->getNbPortals(); ++k)
{
CPortal *portal = cluster->getPortal(k);
std::vector<NLMISC::CVector> poly;
portal->getPoly(poly);
if (poly.size() > 2)
{
for (uint i=1; i<poly.size()-1; ++i)
{
CTriangleUV tri;
tri.V0 = poly[0];
tri.V1 = poly[i];
tri.V2 = poly[i+1];
NL3D::CDRU::drawTrianglesUnlit(&tri, 1, mat2, *idriver);
tri.V0 = poly[0];
tri.V1 = poly[i+1];
tri.V2 = poly[i];
NL3D::CDRU::drawTrianglesUnlit(&tri, 1, mat2, *idriver);
}
}
{
for (uint i=0; i<poly.size(); ++i)
{
CLine line(poly[i], poly[(i+1)%poly.size()]);
NL3D::CDRU::drawLinesUnlit(&line, 1, mat, *idriver);
}
}
}
}
} // draw audible clusters
CMaterial mat;
mat.setColor(CRGBA(255,255,255,255));
/* float d = float(Pi/10);
for (float j=0; j<float(Pi*2); j+=d)
NL3D::CDRU::drawLine(pos+CVector(LISTEN_DISTANCE*float(sin(j)), LISTEN_DISTANCE*float(cos(j)), 0), pos+CVector(LISTEN_DISTANCE*float(sin(j+d)), LISTEN_DISTANCE*float(cos(j+d)),0), CRGBA(255,255,255,255), *idriver);
for (j=0; j<float(Pi*2); j+=d)
NL3D::CDRU::drawLine(pos+CVector(PORTAL_INTERPOLATE*float(sin(j)), PORTAL_INTERPOLATE*float(cos(j)), 0), pos+CVector(PORTAL_INTERPOLATE*float(sin(j+d)), PORTAL_INTERPOLATE*float(cos(j+d)),0), CRGBA(255,255,255,255), *idriver);
*/
mat.setColor(CRGBA(0,255,0,255));
mat.setZFunc(CMaterial::always);
/* for (uint k=0; k<debugLines.size(); ++k)
{
// CDRU::drawLinesUnlit(debugLines, mat, *idriver);
NL3D::CDRU::drawLine(debugLines[k].V0, debugLines[k].V1, CRGBA(0,255,0,255), *idriver);
}
*/ // Draw listener pos
mat.setColor(CRGBA(0,255,0,255));
{
NL3D::CDRU::drawLine(pos+CVector(2,2,0), pos+CVector(-2,-2,0), CRGBA(255,255,0,255), *idriver);
NL3D::CDRU::drawLine(pos+CVector(-2,2,0), pos+CVector(2,-2,0), CRGBA(255,255,0,255), *idriver);
// CVector front = Camera->getMatrix().getI();
// NL3D::CDRU::drawLine(pos, pos+front*4, CRGBA(255,255,0,255), *idriver);
}
// draw the virtual sound sound
{
CClusteredSound::TClusterStatusMap::const_iterator first(cs->getAudibleClusters().begin()), last(cs->getAudibleClusters().end());
for (; first != last; ++first )
{
const CClusteredSound::CClusterSoundStatus &css = first->second;
if (css.Direction != CVector::Null)
{
CVector dest = pos+css.Direction*css.Dist;
NL3D::CDRU::drawLine(pos, dest, CRGBA(0,255,255,255), *idriver);
NL3D::CDRU::drawLine(dest+CVector(0.5f,0.5f,0), dest+CVector(-0.5f,-0.5f,0), CRGBA(0, 255,255,255), *idriver);
NL3D::CDRU::drawLine(dest+CVector(-0.5f,0.5f,0), dest+CVector(0.5f,-0.5f,0), CRGBA(0, 255,255,255), *idriver);
}
}
}
// draw the audio path
{
idriver->setupMaterial(mat);
const std::vector<std::pair<NLMISC::CVector, NLMISC::CVector> > &lines = cs->getAudioPath();
std::vector<std::pair<NLMISC::CVector, NLMISC::CVector> >::const_iterator first(lines.begin()), last(lines.end());
for (; first != last; ++first)
{
NL3D::CDRU::drawLine(first->first, first->second, CRGBA(0,255,0,255), *idriver);
}
}
// draw the sound source position
{
std::vector<std::pair<bool, CVector> > soundPos;
_AudioMixer->getPlayingSoundsPos(true, soundPos);
std::vector<std::pair<bool, CVector> >::iterator first(soundPos.begin()), last(soundPos.end());
for (; first != last; ++first)
{
NL3D::CDRU::drawLine(first->second + CVector(0.5f,0.5f,0), first->second + CVector(-0.5f,-0.5f,0), CRGBA(255,0,255,255), *idriver);
NL3D::CDRU::drawLine(first->second + CVector(0.5f,-0.5f,0), first->second + CVector(-0.5f,0.5f,0), CRGBA(255,0,255,255), *idriver);
}
}
#endif // DEBUG_SOUND_IN_GAME
}
UAudioMixer *CSoundManager::getMixer()
{
return _AudioMixer;
}
void CSoundManager::switchSoundState ()
{
_PlaySound = !_PlaySound;
_AudioMixer->enable(_PlaySound);
}
void CSoundManager::loadContinent(const string &name, const NLMISC::CVector& pos)
{
if (!_AudioMixer)
return;
// load already stop all sound and unload them before loading new one
_AudioMixer->loadBackgroundSound (name, LigoConfig);
_AudioMixer->setListenerPos(pos);
}
void CSoundManager::reset ()
{
if (!_AudioMixer)
return;
NL3D::UParticleSystemSound::setPSSound(NULL);
delete _AudioMixer;
_AudioMixer = NULL;
// release sound anim properly
releaseSoundAnim();
init();
// _AudioMixer->reset ();
}
//---------------------------------------------------
// init :
// Initialize the audio mixer, load the sound banks
//---------------------------------------------------
void CSoundManager::init(IProgressCallback *progressCallBack)
{
_NextId = 1;
_EnvSoundRoot = NULL;
_PlaySound = true;
_UserEntitySoundLevel = ClientCfg.UserEntitySoundLevel;
const std::string &packedSheetPath = ClientCfg.SoundPackedSheetPath;
const std::string &samplePath = ClientCfg.SampleBankDir;
// try
// {
// reset particle sound
NL3D::UParticleSystemSound::setPSSound(NULL);
/*
* Create the audio mixer object and init it.
* If the sound driver cannot be loaded, an exception is thrown.
*/
_AudioMixer = UAudioMixer::createAudioMixer();
if (!_AudioMixer)
return;
// Set the path to the sample directory
_AudioMixer->setSamplePath(samplePath);
// Set the path to the packed sheets
if (ClientCfg.UpdatePackedSheet)
_AudioMixer->setPackedSheetOption(packedSheetPath, true);
else
_AudioMixer->setPackedSheetOption("", false);
UAudioMixer::TDriver driverType= UAudioMixer::DriverAuto;
if(ClientCfg.DriverSound==CClientConfig::SoundDrvFMod)
driverType= UAudioMixer::DriverFMod;
else if(ClientCfg.DriverSound==CClientConfig::SoundDrvOpenAL)
driverType= UAudioMixer::DriverOpenAl;
else if(ClientCfg.DriverSound==CClientConfig::SoundDrvDirectSound)
driverType= UAudioMixer::DriverDSound;
else if(ClientCfg.DriverSound==CClientConfig::SoundDrvXAudio2)
driverType= UAudioMixer::DriverXAudio2;
_AudioMixer->init(ClientCfg.MaxTrack, ClientCfg.UseEax, ClientCfg.UseADPCM, progressCallBack, false, driverType, ClientCfg.SoundForceSoftwareBuffer);
/* int nbVoice = _AudioMixer->getPolyphony();
_AudioMixer->setPriorityReserve(HighPri, max(1, nbVoice /2));
nbVoice -= nbVoice /2;
_AudioMixer->setPriorityReserve(MidPri, max(1, nbVoice /2));
nbVoice -= nbVoice /2;
_AudioMixer->setPriorityReserve(LowPri, max(1, nbVoice /2));
*/
// when they are only 1 track available, enter in limiting mode.
_AudioMixer->setLowWaterMark(1);
/*
* Create the CSoundAnimManager. The CSoundAnimManager is a singleton.
* Access the singleton with CSoundAnimManager::instance().
*/
new CSoundAnimManager(_AudioMixer);
// restore the volume
SoundMngr->setSFXVolume(ClientCfg.SoundSFXVolume);
SoundMngr->setGameMusicVolume(ClientCfg.SoundGameMusicVolume);
// Init clustered sound system
_AudioMixer->initClusteredSound(Scene, 0.01f, 100.0f, PORTAL_INTERPOLATE);
// Init the background flags;
for (uint i=0; i<NLSOUND::UAudioMixer::TBackgroundFlags::NB_BACKGROUND_FLAGS; ++i)
_BackgroundFlags.Flags[i] = false;
_AudioMixer->setBackgroundFlags(_BackgroundFlags);
/*
* Initialize listener's position
*/
CVector initpos ( 0.0f, 0.0f, 0.0f );
//_AudioMixer->getListener()->setPos( initpos );
_AudioMixer->setListenerPos(initpos);
/*
* Init the particule sound system
*/
// attach the sound from the particule system
NL3D::UParticleSystemSound::setPSSound(_AudioMixer);
//loadPositionedSounds();
// reload Sound Animation (if EAM already init)
if(EAM)
EAM->reloadAllSoundAnim();
// Special option for DEV (easier to test when disabled)
_AudioMixer->enableBackgroundMusicTimeConstraint(ClientCfg.EnableBackgroundMusicTimeConstraint);
/* }
catch( Exception& e )
{
nlwarning( "Error: %s", e.what() );
}
*/
} // init //
//---------------------------------------------------
// getSoundName:
//---------------------------------------------------
/*bool CSoundManager::getSoundName( TSound sound, std::string &name, const CVector& pos ) const
{
/// \todo Malkav: take ground type into account, and all the different sounds
switch (sound)
{
case WALK:
{
//name = "walk";
UGlobalPosition globalPos = GR->retrievePosition( pos );
uint32 material = GR->getMaterial( globalPos );
}
break;
case RUN:
name = "run";
break;
case USER_WALK:
name = "user_walk";
break;
case USER_RUN:
name = "user_run";
break;
default:
return false;
}
return true;
} // getSoundName //
*/
//---------------------------------------------------
// addSource :
// add a new source to the world, attached to the specified entity
// return 0 if creation failed, sound id if creation was successful
//---------------------------------------------------
/*uint32 CSoundManager::addSource( TSound sound, const NLMISC::CVector &position, bool play, bool loop, const CEntityId &parentId )
{
static std::string name;
static TSource source;
uint32 retValue = 0;
if ( ! getSoundName ( sound, name, position ) )
return 0;
USource *pSource = _AudioMixer->createSource( name );
if ( pSource != NULL )
{
pSource ->setPos( position );
pSource ->setLooping( loop );
if (play)
pSource ->play();
//create the TSource object
source.sound = sound;
source.pSource = pSource;
// attach the source to the entity, if specified
if (parentId != CEntityId::Unknown)
_AttachedSources.insert( TMultiMapEntityToSource::value_type( parentId, source ) );
// set source id
retValue = _NextId;
_Sources.insert( TMapIdToSource::value_type( _NextId, source ) );
++_NextId;
}
else
{
nlwarning( "Sound '%s' not found", name );
}
return retValue;
} // addSource //
*/
//-----------------------------------------------
// addSource :
// add a new source to the world, attached to the specified entity
// return 0 if creation failed, sound id if creation was successful
//-----------------------------------------------
uint32 CSoundManager::addSource( const NLMISC::TStringId &soundName, const NLMISC::CVector &position, bool play, bool loop, const CEntityId &id)
{
uint32 retValue = 0;
// Create a source
USource *pSource = _AudioMixer->createSource( soundName );
// If the source is valid.
if(pSource == 0)
{
nlwarning("Sound '%s' not found !", CStringMapper::unmap(soundName).c_str());
return retValue;
}
// Load the properties for this sound.
// REMOVED because the pitch and the gain are now in the .nss (don't need .sdf anymore)
// loadProperties(soundName, pSource);
// Set the source position.
pSource->setPos( position );
// Is the source looping ?
pSource->setLooping( loop );
// Play the sound immedialty if asked.
if(play)
{
pSource->play();
}
// attach the source to the entity, if specified
if (id != CEntityId::Unknown )
{
_AttachedSources.insert( TMultiMapEntityToSource::value_type( id, pSource ) );
}
// set source id
retValue = _NextId;
// add the new source
_Sources.insert( TMapIdToSource::value_type( _NextId, pSource ) );
++_NextId;
// return the id of the source
return retValue;
} // addSource //
//-----------------------------------------------
// spawn a new source to the world
// return false if creation failed, true if creation was successful
//-----------------------------------------------
bool CSoundManager::spawnSource(const NLMISC::TStringId &soundName, CSoundContext &context)
{
if (!_PlaySound) return false;
// Create a source
// TODO : find the correct cluster
USource *pSource = _AudioMixer->createSource( soundName, true, NULL, NULL, NULL, &context);
// If the source is valid.
if(pSource == 0)
{
nlwarning("Sound '%s' not found !", soundName);
return false;
}
// Set the source position.
pSource->setPos (context.Position);
pSource->play();
////nlinfo ("%.3f spawn source %p", (float)ryzomGetLocalTime ()/1000.0f, pSource);
return true;
} // addSource //
//-----------------------------------------------
// spawn a new source to the world
// return false if creation failed, true if creation was successful
//-----------------------------------------------
bool CSoundManager::spawnSource(const NLMISC::TStringId &soundName, const NLMISC::CVector &position)
{
if (!_PlaySound) return false;
// Create a source
USource *pSource = _AudioMixer->createSource( soundName, true);
// If the source is valid.
if(pSource == 0)
{
nlwarning("Sound '%s' not found !", CStringMapper::unmap(soundName).c_str ());
return false;
}
// Set the source position.
pSource->setPos (position);
pSource->play();
////nlinfo ("%.3f spawn source %p", (float)ryzomGetLocalTime ()/1000.0f, pSource);
return true;
} // addSource //
//---------------------------------------------------
// removeSource:
// remove a source
//---------------------------------------------------
void CSoundManager::removeSource( uint32 sourceId )
{
nldebug("remove the source : %d", sourceId);
/// \todo Malkav : optimize speed
nldebug("nb sources = %d", _Sources.size() );
TMapIdToSource::iterator itS = _Sources.find( sourceId );
if (itS != _Sources.end() )
{
USource *pSource = (*itS).second;
if ( pSource == NULL )
return;
TMultiMapEntityToSource::iterator it = _AttachedSources.begin();//, itOld;
for ( ; it != _AttachedSources.end() ; ++it)
{
if ( (*it).second == pSource )
{
(*it).second = NULL;
// itOld = it;
// ++it;
_AttachedSources.erase( it/*Old*/ );
break;
// if (it == _AttachedSources.end() )
// break;
}
}
// delete the source
// _AudioMixer->removeSource (pSource);
delete pSource;
}
} // removeSource //
//---------------------------------------------------
// getSounds :
//
//---------------------------------------------------
/*bool CSoundManager::getSounds( uint32 material, TMoveType moveType, bool soft, std::vector<string>& sounds )
{
return _StepSounds.getSounds( material, moveType, soft, sounds );
} // getSounds //*/
//---------------------------------------------------
// updateEntityPos :
// update the pos of all the sounds attached to that entity
//---------------------------------------------------
void CSoundManager::updateEntityPos( const CEntityId &id, const NLMISC::CVector &pos)
{
TMultiMapEntityToSource::iterator it;
const std::pair<TMultiMapEntityToSource::iterator, TMultiMapEntityToSource::iterator> range = _AttachedSources.equal_range( id );
for ( it = range.first; it != range.second ; ++it)
{
(*it).second->setPos( pos );
}
} // updateEntityPos //
//---------------------------------------------------
// updateEntityVelocity :
// update the velocity of all the sounds attached to that entity
//---------------------------------------------------
void CSoundManager::updateEntityVelocity( const CEntityId &id, const NLMISC::CVector &velocity)
{
TMultiMapEntityToSource::iterator it;
const std::pair<TMultiMapEntityToSource::iterator, TMultiMapEntityToSource::iterator> range = _AttachedSources.equal_range( id );
for ( it = range.first; it != range.second ; ++it)
{
(*it).second->setVelocity( velocity );
}
} // updateEntityVelocity //
//---------------------------------------------------
// updateEntityDirection :
// update the direction of all the sounds attached to that entity
//---------------------------------------------------
void CSoundManager::updateEntityDirection( const CEntityId &id, const NLMISC::CVector &dir )
{
TMultiMapEntityToSource::iterator it;
const std::pair<TMultiMapEntityToSource::iterator, TMultiMapEntityToSource::iterator> range = _AttachedSources.equal_range( id );
for ( it = range.first; it != range.second ; ++it)
{
(*it).second->setDirection( dir );
}
} // updateEntityOrientation //
//---------------------------------------------------
// removeEntity :
// remove an entity from the view : delete all the sources attached to that entity
//---------------------------------------------------
void CSoundManager::removeEntity( const CEntityId &id)
{
/// \todo Malkav : optimize speed
TMultiMapEntityToSource::iterator it;
const std::pair<TMultiMapEntityToSource::iterator, TMultiMapEntityToSource::iterator> range = _AttachedSources.equal_range( id );
USource *pSource;
for ( it = range.first; it != range.second ; ++it)
{
pSource = (*it).second;
if ( pSource != NULL)
{
TMapIdToSource::iterator itS = _Sources.begin();//, itOld;
for ( ; itS != _Sources.end() ; ++itS)
{
if ( (*itS).second == pSource )
{
(*itS).second = NULL;
_Sources.erase( itS );
break;
}
}
// delete the source
delete (*it).second;
}
}
_AttachedSources.erase( range.first, range.second );
} // removeEntity //
//---------------------------------------------------
// setSoundPosition :
//---------------------------------------------------
void CSoundManager::setSoundPosition( uint32 soundId, const NLMISC::CVector &position)
{
if (!_PlaySound) return;
TMapIdToSource::iterator it = _Sources.find( soundId );
if (it != _Sources.end() )
{
nlassert( (*it).second );
(*it).second->setPos( position );
}
} // setSoundPosition //
//---------------------------------------------------
// loopSound :
//---------------------------------------------------
void CSoundManager::loopSound( uint32 soundId, bool loop)
{
if (!_PlaySound) return;
TMapIdToSource::iterator it = _Sources.find( soundId );
if (it != _Sources.end() )
{
nlassert( (*it).second );
(*it).second->setLooping( loop );
}
} // loopSound //
//---------------------------------------------------
// playSound :
// start or stop playing sound
//---------------------------------------------------
void CSoundManager::playSound( uint32 soundId, bool play)
{
if (!_PlaySound) return;
TMapIdToSource::iterator it = _Sources.find( soundId );
if (it != _Sources.end() )
{
nlassert( (*it).second );
if (play)
(*it).second->play();
else
(*it).second->stop();
}
} // loopSound //
//---------------------------------------------------
// isPlaying :
// return true if the source is playing
//---------------------------------------------------
bool CSoundManager::isPlaying( uint32 sourceId )
{
TMapIdToSource::iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
nlassert( (*it).second );
return ( (*it).second->isPlaying() );
}
return false;
} // isPlaying //
//---------------------------------------------------
// setSoundForSource :
// set the sound associated to the specified source
//---------------------------------------------------
/*
bool CSoundManager::setSoundForSource( uint32 sourceId, TSound sound, const CVector& pos )
{
// find the sound name
static std::string soundName;
soundName.clear();
if ( ! getSoundName( sound , soundName, pos) )
return false;
TMapIdToSource::iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
nlassert( (*it).second.pSource );
// get the sound
TSoundId soundId = _AudioMixer->getSoundId( soundName.c_str() );
if (soundId != NULL)
{
(*it).second.pSource->setSound( soundId );
(*it).second.sound = sound;
nlinfo("sound has been set to %d",sound);
return true;
}
}
return false;
} // setSoundForSource //
*/
//---------------------------------------------------
// getSoundFromSource :
// get the sound type currently associated to a source
//---------------------------------------------------
/*CSoundManager::TSound CSoundManager::getSoundFromSource( uint32 sourceId ) const
{
TMapIdToSource::const_iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
nlassert( (*it).second.pSource );
return ( (*it).second.sound );
}
return NONE;
} // getSoundFromSource //
*/
//---------------------------------------------------
// setSourceGain :
// set the gain of the specified source
//---------------------------------------------------
void CSoundManager::setSourceGain( uint32 sourceId, float gain)
{
TMapIdToSource::const_iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
USource *pSource = (*it).second;
nlassert( pSource );
pSource->setGain( gain );
}
} // setSourceGain //
//---------------------------------------------------
// getSourceGain :
// get the gain of the specified source (-1 if source not found)
//---------------------------------------------------
float CSoundManager::getSourceGain( uint32 sourceId )
{
TMapIdToSource::const_iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
USource *pSource = (*it).second;
nlassert( pSource );
return ( pSource->getGain() );
}
return -1;
} // getSourceGain //
//---------------------------------------------------
// setSourcePitch :
// set the Pitch of the specified source
//---------------------------------------------------
void CSoundManager::setSourcePitch( uint32 sourceId, float Pitch)
{
TMapIdToSource::const_iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
USource *pSource = (*it).second;
nlassert( pSource );
pSource->setPitch( Pitch );
}
} // setSourcePitch //
//---------------------------------------------------
// getSourcePitch :
// get the Pitch of the specified source (-1 if source not found)
//---------------------------------------------------
float CSoundManager::getSourcePitch( uint32 sourceId )
{
TMapIdToSource::const_iterator it = _Sources.find( sourceId );
if (it != _Sources.end() )
{
USource *pSource = (*it).second;
nlassert( pSource );
return ( pSource->getPitch() );
}
return -1;
} // getSourcePitch //
//---------------------------------------------------
// loadProperties :
// Load the properties for this sound and apply them.
//---------------------------------------------------
void CSoundManager::loadProperties(const string &soundName, USource *source)
{
// If the source does not exist -> return nothing to do.
if(!source)
return;
// Search for the file.
string filePath = CPath::lookup(soundName+".sdf");
ifstream file(filePath.c_str(), ios::in);
// Try to open the file.
if(file.is_open())
{
char tmpBuff[260];
char delimiterBox[] = "\t ";
// While the end of the file is not reached.
while(!file.eof())
{
// Get a line (teh line should not be more than _MAX_LINE_SIZE).
file.getline(tmpBuff, 260);
char *token = strtok(tmpBuff, delimiterBox);
while(token != NULL)
{
// Get the pitch.
if(strcmp(token, "Pitch:") == 0)
{
token = strtok(NULL, delimiterBox);
if(token)
{
float pitch;
fromString(token, pitch);
nlinfo("Pitch: %f", pitch);
source->setPitch(pitch);
}
}
// Get the Gain.
else if(strcmp(token, "Gain:") == 0)
{
token = strtok(NULL, delimiterBox);
if(token)
{
float gain;
fromString(token, gain);
nlinfo("Gain: %f", gain);
source->setGain(gain);
}
}
// Next property.
token = strtok(NULL, delimiterBox);
}
}
// Close the file.
file.close();
}
}// loadProperties //
//---------------------------------------------------
// loadPositionedSounds :
//
//---------------------------------------------------
/*void CSoundManager::loadPositionedSounds()
{
nlstopex(("class CStepSounds is not used anymore"));
// cst loader
CSTLoader cstl;
// build file format
map<string,CSTLoader::TDataType> fileFormat;
fileFormat.insert( make_pair( string( "sound name" ) , CSTLoader::STRING ));
fileFormat.insert( make_pair( string( "x" ) , CSTLoader::FLOAT ));
fileFormat.insert( make_pair( string( "y" ) , CSTLoader::FLOAT ));
fileFormat.insert( make_pair( string( "z" ) , CSTLoader::FLOAT ));
fileFormat.insert( make_pair( string( "loop" ) , CSTLoader::BOOL ));
string str = CPath::lookup("positioned_sounds.txt", false);
if(str.empty())
{
nlwarning ("cant load positioned_sounds");
return;
}
// init loader
cstl.init( str, fileFormat );
// read the file
while( cstl.readLine() )
{
string soundName;
cstl.getStringValue( "sound name", soundName );
CVector sourcePos;
cstl.getValue( "x", sourcePos.x );
cstl.getValue( "y", sourcePos.y );
cstl.getValue( "z", sourcePos.z );
bool loop;
cstl.getBoolValue( "loop", loop );
uint32 sourceId = addSource( soundName, sourcePos, false , loop );
if(sourceId != 0)
{
_PositionedSounds.push_back( sourceId );
}
else
{
nlwarning ("positioned sound: can't find sound: '%s'", soundName.c_str());
}
}
cstl.close();
} // chooseSoundOnMaterial //
*/
//---------------------------------------------------
// playPositionedSounds :
//
//---------------------------------------------------
void CSoundManager::playPositionedSounds( const CVector& /* pos */ )
{
if (!_PlaySound) return;
list<uint32>::iterator itPSnd;
for( itPSnd = _PositionedSounds.begin(); itPSnd != _PositionedSounds.end(); ++itPSnd )
{
TMapIdToSource::const_iterator itSrc = _Sources.find( *itPSnd );
if( itSrc == _Sources.end() )
{
nlwarning("<CSoundManager::playPositionedSounds> : The source %d is unknown",*itPSnd);
}
/*
if( (pos - (*itSrc).second.getPos()).norm() < ...)
{
if( (*itSrc).second.pSource->isPlaying() == false )
{
(*itSrc).second.pSource->play();
}
}
*/
if( (*itSrc).second->isPlaying() == false )
{
(*itSrc).second->play();
}
}
} // playPositionedSounds //
void CSoundManager::selectEnv( const std::string &/* tag */)
{
// TODO : boris : temporarily removed.
/* if (_EnvSoundRoot==NULL)
return;
_EnvSoundRoot->selectEnv (tag.c_str(), true);
*/
}
void CSoundManager::setFilterState(uint filterId, bool state)
{
nlassert(filterId < NLSOUND::UAudioMixer::TBackgroundFlags::NB_BACKGROUND_FLAGS);
_BackgroundFlags.Flags[filterId] = state;
_AudioMixer->setBackgroundFlags(_BackgroundFlags);
}
// ***************************************************************************
void CSoundManager::update ()
{
// Filters : day = 0, night = 1, morning = 2, Dusk = 3
// update the filter state for day/night management.
switch(LightCycleManager.getState())
{
case CLightCycleManager::Day:
_BackgroundFlags.Flags[DAY] = true;
_BackgroundFlags.Flags[NIGHT] = false;
_BackgroundFlags.Flags[MORNING] = false;
_BackgroundFlags.Flags[DUSK] = false;
break;
case CLightCycleManager::Night:
_BackgroundFlags.Flags[DAY] = false;
_BackgroundFlags.Flags[NIGHT] = true;
_BackgroundFlags.Flags[MORNING] = false;
_BackgroundFlags.Flags[DUSK] = false;
break;
case CLightCycleManager::DayToNight:
_BackgroundFlags.Flags[DAY] = true;
_BackgroundFlags.Flags[NIGHT] = false;
_BackgroundFlags.Flags[MORNING] = true;
_BackgroundFlags.Flags[DUSK] = false;
break;
case CLightCycleManager::NightToDay:
_BackgroundFlags.Flags[DAY] = false;
_BackgroundFlags.Flags[NIGHT] = false;
_BackgroundFlags.Flags[MORNING] = false;
_BackgroundFlags.Flags[DUSK] = true;
break;
case CLightCycleManager::StateUnknown:
//nlwarning("Unknown light cycle state reached.");
break;
}
// update the filter for season.
EGSPD::CSeason::TSeason season = CurrSeason;
switch(season)
{
case EGSPD::CSeason::Spring:
_BackgroundFlags.Flags[SPRING] = true;
_BackgroundFlags.Flags[SUMMER] = false;
_BackgroundFlags.Flags[AUTUMN] = false;
_BackgroundFlags.Flags[WINTER] = false;
break;
case EGSPD::CSeason::Summer:
_BackgroundFlags.Flags[SPRING] = false;
_BackgroundFlags.Flags[SUMMER] = true;
_BackgroundFlags.Flags[AUTUMN] = false;
_BackgroundFlags.Flags[WINTER] = false;
break;
case EGSPD::CSeason::Autumn:
_BackgroundFlags.Flags[SPRING] = false;
_BackgroundFlags.Flags[SUMMER] = false;
_BackgroundFlags.Flags[AUTUMN] = true;
_BackgroundFlags.Flags[WINTER] = false;
break;
case EGSPD::CSeason::Winter:
_BackgroundFlags.Flags[SPRING] = false;
_BackgroundFlags.Flags[SUMMER] = false;
_BackgroundFlags.Flags[AUTUMN] = false;
_BackgroundFlags.Flags[WINTER] = true;
break;
default:
//nlwarning("Updating unknown season.");
break;
}
// TODO : update the filter state for weather effet
CWeatherState weatherState = WeatherManager.getCurrWeatherState();
enum TWeatherSoundEnv
{
WSEMist = 0, // not used
WSEFair1,
WSEFair2,
WSEFair3,
WSEClouds,
WSERain1,
WSERain2,
WSESnow1,
WSEThunder1,
WSEThunderSeve,
WSEThunderSand1, // not used
WSEThunderSand2, // not used
WSEThunderSand3, // not used
WSECount
};
// For each weather setup, gives the matching weather sound env to used, when there are precipitation or not
class CWeatherSetupSoundEnv
{
public:
NLMISC::TStringId SetupName; // setup nem as found is the .weather_setup sheets
TWeatherSoundEnv Sound;
CWeatherSetupSoundEnv(const char *setupName, TWeatherSoundEnv sound)
{
SetupName = NLMISC::CStringMapper::map(setupName);
Sound = sound;
}
};
// association between weather setup names & sound env
static const CWeatherSetupSoundEnv weatherSoundLUT[] =
{
CWeatherSetupSoundEnv("fair1", WSEFair1),
CWeatherSetupSoundEnv("fair2", WSEFair2),
CWeatherSetupSoundEnv("fair3", WSEFair3),
CWeatherSetupSoundEnv("wind1", WSEClouds),
CWeatherSetupSoundEnv("humidity1", WSERain1),
CWeatherSetupSoundEnv("humidity2", WSERain2),
CWeatherSetupSoundEnv("clouds1", WSERain1),
CWeatherSetupSoundEnv("clouds2", WSERain2),
CWeatherSetupSoundEnv("thunderseve", WSEThunderSeve),
CWeatherSetupSoundEnv("storm", WSEThunder1),
CWeatherSetupSoundEnv("snow", WSESnow1),
};
const CWeatherSetupSoundEnv *weatherSetupSoundEnv = NULL;
for(uint k = 0; k < sizeof(weatherSoundLUT) / sizeof(weatherSoundLUT[0]); ++k)
{
if (weatherSoundLUT[k].SetupName == weatherState.BestSetupName)
{
weatherSetupSoundEnv = &weatherSoundLUT[k];
break;
}
}
// disable all weather setup sound flags except the current one
for(uint k = 0; k < WSECount; ++k)
{
_BackgroundFlags.Flags[MIST+k] = false;
}
if (weatherSetupSoundEnv)
{
_BackgroundFlags.Flags[MIST + weatherSetupSoundEnv->Sound] = true;
}
else
{
static bool bDisplayOnce = false;
if (!bDisplayOnce)
{
nlinfo("The current weather setup '%s' is unknown !", CStringMapper::unmap(weatherState.BestSetupName).c_str());
bDisplayOnce = true;
}
}
// update the background flags in the mixer.
_AudioMixer->setBackgroundFlags(_BackgroundFlags);
// update background music enabling
if(_EnableBackgroundMusicAtTime && CTime::getLocalTime()>_EnableBackgroundMusicAtTime)
{
setGameMusicMode(true, true);
}
// Special option for DEV (easier to test when disabled)
_AudioMixer->enableBackgroundMusicTimeConstraint(ClientCfg.EnableBackgroundMusicTimeConstraint);
// update game music volume because of event played or not
updateEventAndGameMusicVolume();
// update audio mixer
_AudioMixer->update ();
}
// ***************************************************************************
void CSoundManager::updateAudioMixerOnly()
{
if(!_AudioMixer)
return;
_AudioMixer->update ();
}
// ***************************************************************************
void CSoundManager::playBackgroundSound()
{
_AudioMixer->playBackgroundSound();
}
// ***************************************************************************
void CSoundManager::stopBackgroundSound()
{
_AudioMixer->stopBackgroundSound();
}
// ***************************************************************************
void CSoundManager::playMusic(const string &fileName, uint xFadeTime, bool async, bool loop, bool forceGameMusicVolume)
{
if(fileName.empty())
{
stopMusic(xFadeTime);
}
else
{
if(_AudioMixer)
{
// disable before the background music (before is important else may have bug)
setGameMusicMode(false, forceGameMusicVolume);
// play
_AudioMixer->playMusic(fileName, xFadeTime, async, loop);
}
}
}
// ***************************************************************************
void CSoundManager::stopMusic(uint xFadeTime)
{
if(_AudioMixer)
{
// stop the music
_AudioMixer->stopMusic(xFadeTime);
// and reenable the background music system. after a delay if xFadeTime
if(xFadeTime>0)
{
// enable background music later
_EnableBackgroundMusicAtTime= CTime::getLocalTime()+xFadeTime;
}
else
{
// else enable now
setGameMusicMode(true, true);
}
}
}
// ***************************************************************************
void CSoundManager::playEventMusic(const string &fileName, uint xFadeTime, bool loop)
{
// if event music not enabled (mp3 player), abort
if(!_EventMusicEnabled)
return;
if(fileName.empty())
{
stopEventMusic("", xFadeTime);
}
else
{
if(_AudioMixer)
{
// if the music is not already currently playing (with same loop state)
if(_EventMusicPlayed.empty() || nlstricmp(fileName, _EventMusicPlayed)!=0 || loop!=_EventMusicLoop)
{
// play
_AudioMixer->playEventMusic(fileName, xFadeTime, true, loop);
_EventMusicPlayed= fileName;
_EventMusicLoop= loop;
}
}
}
}
// ***************************************************************************
void CSoundManager::stopEventMusic(const string &fileName, uint xFadeTime)
{
if(_AudioMixer)
{
// if the event music is the one currently played, or if empty fileName
if(fileName.empty() || nlstricmp(_EventMusicPlayed,fileName)==0)
{
// stop the music
_AudioMixer->stopEventMusic(xFadeTime);
// music no more played
_EventMusicPlayed.clear();
}
}
}
// ***************************************************************************
void CSoundManager::pauseMusic()
{
if(_AudioMixer)
_AudioMixer->pauseMusic();
}
// ***************************************************************************
void CSoundManager::resumeMusic()
{
if(_AudioMixer)
_AudioMixer->resumeMusic();
}
// ***************************************************************************
bool CSoundManager::isMusicEnded()
{
if(_AudioMixer)
return _AudioMixer->isMusicEnded();
return false;
}
// ***************************************************************************
void CSoundManager::setGameMusicVolume(float val)
{
clamp(val,0.f,1.f);
_GameMusicVolume= val;
updateVolume();
}
// ***************************************************************************
void CSoundManager::setUserMusicVolume(float val)
{
clamp(val,0.f,1.f);
_UserMusicVolume= val;
updateVolume();
}
// ***************************************************************************
void CSoundManager::setSFXVolume(float val)
{
clamp(val,0.f,1.f);
_SFXVolume= val;
updateVolume();
}
// ***************************************************************************
void CSoundManager::setGameMusicMode(bool enableBackground, bool useGameMusicVolume)
{
// update background music state
_EnableBackgroundMusicAtTime= 0;
_AudioMixer->enableBackgroundMusic(enableBackground);
_UseGameMusicVolume= useGameMusicVolume;
// event music enabled if the background music is also enabled
_EventMusicEnabled= enableBackground;
// stop any event music if disabled
if(!_EventMusicEnabled)
stopEventMusic("", 500);
// update music volume state
updateVolume();
}
// ***************************************************************************
void CSoundManager::updateVolume()
{
if(_AudioMixer)
{
// update music volume
if(_UseGameMusicVolume)
// Game music (background music system)
_AudioMixer->setMusicVolume(_GameMusicVolume*_FadeGameMusicVolume*_FadeGameMusicVolumeDueToEvent);
else
// User music volume (mp3 player) is not affected by fadein/fadeout
_AudioMixer->setMusicVolume(_UserMusicVolume);
// The event music volume get the game music volume, but is not faded (want music during teleport)
_AudioMixer->setEventMusicVolume(_GameMusicVolume);
// update sfx volume
_AudioMixer->getListener()->setGain(_SFXVolume*_FadeSFXVolume);
}
}
// ***************************************************************************
void CSoundManager::fadeInGameSound(sint32 timeFadeMs)
{
// if already at max, noop
if(_FadeGameMusicVolume==1.f && _FadeSFXVolume==1.f)
return;
fadeGameSound(true, timeFadeMs);
}
// ***************************************************************************
void CSoundManager::fadeOutGameSound(sint32 timeFadeMs)
{
// if already at 0, noop
if(_FadeGameMusicVolume==0.f && _FadeSFXVolume==0.f)
return;
fadeGameSound(false, timeFadeMs);
}
// ***************************************************************************
void CSoundManager::fadeGameSound(bool fadeIn, sint32 timeFadeMs)
{
// fade in
clamp(_FadeGameMusicVolume, 0.f, 1.f);
clamp(_FadeSFXVolume, 0.f, 1.f);
TTime t0= CTime::getLocalTime();
float dVolumeOverDt= 1.f / (timeFadeMs*0.001f);
if(!fadeIn)
dVolumeOverDt*= -1;
while(fadeIn?(_FadeGameMusicVolume<1.f || _FadeSFXVolume<1.f):(_FadeGameMusicVolume>0.f || _FadeSFXVolume>0.f))
{
// update volume vars
TTime t1= CTime::getLocalTime();
float dt= (t1-t0)*0.001f;
t0= t1;
_FadeGameMusicVolume+= dVolumeOverDt*dt;
_FadeSFXVolume+= dVolumeOverDt*dt;
clamp(_FadeGameMusicVolume, 0.f, 1.f);
clamp(_FadeSFXVolume, 0.f, 1.f);
// update volume and sound
updateVolume();
update();
}
}
// ***************************************************************************
void CSoundManager::setupFadeSound(float sfxFade, float musicFade)
{
clamp(sfxFade, 0.f, 1.f);
clamp(musicFade, 0.f, 1.f);
_FadeGameMusicVolume= musicFade;
_FadeSFXVolume= sfxFade;
updateVolume();
}
// ***************************************************************************
void CSoundManager::updateEventAndGameMusicVolume()
{
// update event music played state if not looping
if(!_EventMusicPlayed.empty() && !_EventMusicLoop)
{
if(!_AudioMixer)
_EventMusicPlayed.clear();
else
{
if(_AudioMixer->isEventMusicEnded())
_EventMusicPlayed.clear();
}
}
// Fade
const sint32 timeFadeMs= 500;
static TTime t0= CTime::getLocalTime();
TTime t1= CTime::getLocalTime();
float dVolume= (t1-t0) / (float)timeFadeMs;
t0= t1;
// if event music is played, music lower the music
if(!_EventMusicPlayed.empty())
dVolume*= -1;
float f= _FadeGameMusicVolumeDueToEvent + dVolume;
clamp(f, 0.f, 1.f);
// if faded, update the volume
if(f!=_FadeGameMusicVolumeDueToEvent)
{
_FadeGameMusicVolumeDueToEvent= f;
updateVolume();
}
}
//---------------------------------------------------
// CStepSounds :
//
//---------------------------------------------------
/*CStepSounds::CStepSounds()
{
nlstopex(("class CStepSounds is not used anymore"));
//init( CPath::lookup("materials_for_step_sounds.txt", false).c_str() );
} // CStepSounds //
*/
//---------------------------------------------------
// init :
//
//---------------------------------------------------
/*void CStepSounds::init( const char * fileName )
{
nlstopex(("class CStepSounds is not used anymore"));
if(fileName==NULL || strlen(fileName)==0 || fileName[0]=='\0')
{
nlwarning ("can't load step sound because no material step file");
return;
}
// get all the materials used for step sounds
list<uint32> materials;
try
{
CConfigFile cf;
cf.load( fileName );
CConfigFile::CVar &cvMaterials = cf.getVar("Materials");
for(sint i = 0; i < cvMaterials.size(); i++)
{
materials.push_back( cvMaterials.asInt(i) );
}
}
catch (EConfigFile &e)
{
nlerror("Problem in the file %s : %s", fileName,e.what ());
}
// load all sounds for each of these material
list<uint32>::const_iterator itMaterials;
for( itMaterials = materials.begin(); itMaterials != materials.end(); ++itMaterials )
{
CMaterialStepSounds materialStepSounds;
materialStepSounds.load( CPath::lookup(string("sndmat_") + toString(*itMaterials) + string(".txt")) );
_StepSoundsByMaterial.insert( make_pair(*itMaterials,materialStepSounds) );
}
} // init //*/
//---------------------------------------------------
// getSounds :
//
//---------------------------------------------------
/*bool CStepSounds::getSounds( uint32 material, TMoveType moveType, bool soft, std::vector<string>& sounds )
{
nlstopex(("class CStepSounds is not used anymore"));
map<uint32,CMaterialStepSounds>::iterator itMatSounds = _StepSoundsByMaterial.find( material );
if( itMatSounds == _StepSoundsByMaterial.end() )
{
return false;
}
else
{
return (*itMatSounds).second.getSounds( moveType, soft, sounds );
}
} // getSounds //*/
//---------------------------------------------------
// readVar :
//
//---------------------------------------------------
/*void CMaterialStepSounds::readVar( CConfigFile& cf, TMoveType moveType, bool soft, char * varName )
{
try
{
vector<string> sounds;
CConfigFile::CVar &cvSounds = cf.getVar( varName );
for(sint i = 0; i < cvSounds.size(); i++)
{
sounds.push_back( cvSounds.asString(i) );
}
_Sounds.insert( make_pair( make_pair(moveType,soft), sounds) );
}
catch (EConfigFile &e)
{
nlwarning("Problem in the sounds by material config file : %s", e.what ());
}
} // readVar //
*/
//---------------------------------------------------
// load :
//
//---------------------------------------------------
/*void CMaterialStepSounds::load( string fileName )
{
CConfigFile cf;
cf.load(CPath::lookup(fileName.c_str()));
// walk soft sounds
readVar(cf,WALK,true,"walk_sounds_soft");
// walk hard sounds
readVar(cf,WALK,false,"walk_sounds_hard");
// run soft sounds
readVar(cf,RUN,true,"run_sounds_soft");
// run hard sounds
readVar(cf,RUN,false,"run_sounds_hard");
// user walk soft sounds
readVar(cf,USER_WALK,true,"user_walk_sounds_soft");
// user walk hard sounds
readVar(cf,USER_WALK,false,"user_walk_sounds_hard");
// user run soft sounds
readVar(cf,USER_RUN,true,"user_run_sounds_soft");
// user run hard sounds
readVar(cf,USER_RUN,false,"user_run_sounds_hard");
} // load //
*/
/*//---------------------------------------------------
// getSounds :
//
//---------------------------------------------------
bool CMaterialStepSounds::getSounds( TMoveType moveType, bool soft, vector<string>& sounds )
{
map<pair<TMoveType,bool>,vector<string> >::iterator itSounds = _Sounds.find( make_pair(moveType,soft) );
if( itSounds == _Sounds.end() )
{
return false;
}
uint i;
uint sz = (*itSounds).second.size();
sounds.clear();
sounds.resize( sz );
for( i=0; i < sz; i++ )
{
sounds[i] = (*itSounds).second[i];
}
return true;
} // getSounds //*/