khanat-opennel-code/code/ryzom/client/src/entity_animation_manager.cpp
2014-02-08 18:39:39 -08:00

754 lines
22 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"
/////////////
// INCLUDE //
/////////////
// client
#include "entity_animation_manager.h"
#include "animation_misc.h"
#include "animation_set.h"
#include "debug_client.h"
#include "sheet_manager.h"
#include "time_client.h"
#include "global.h"
// misc
#include "nel/misc/path.h"
#include "nel/misc/smart_ptr.h"
#include "nel/misc/file.h"
#include "nel/misc/progress_callback.h"
// 3d
#include "nel/3d/u_skeleton.h"
#include "nel/3d/u_driver.h"
#include "nel/3d/u_scene.h"
#include "nel/3d/u_track.h"
#include "nel/3d/u_play_list.h"
#include "nel/3d/u_play_list_manager.h"
#include "nel/3d/u_animation_set.h"
///////////
// USING //
///////////
using namespace NLMISC;
using namespace std;
using namespace NLGEORGES;
////////////
// EXTERN //
////////////
extern NL3D::UScene * Scene;
////////////
// GLOBAL //
////////////
// Hierarchical timer
H_AUTO_DECL ( RZ_Client_Entity_Animation_Mngr )
////////////////////
// STATIC MEMBERS //
////////////////////
CEntityAnimationManager *CEntityAnimationManager::_Instance = 0;
NL3D::UPlayListManager *CEntityAnimationManager::_PlayListManager = 0;
////////////////////
// STATIC METHODS //
////////////////////
//---------------------------------------------------
// getInstance :
// Instanciate CEntityAnimationManager. There can be only one instance (singleton)
// \return CEntityAnimationManager * : Pointer on CEntityAnimationManager.
//---------------------------------------------------
CEntityAnimationManager * CEntityAnimationManager::getInstance()
{
if(_Instance == 0)
{
_Instance = new CEntityAnimationManager();
if(Scene)
_PlayListManager = Scene->createPlayListManager();
else
nlwarning("CEntityAnimationManager::getInstance : Scene is not allocated.");
}
return _Instance;
}// instance //
//-----------------------------------------------
// delInstance :
// Release the current instance
// \warning If you the kept the pointer given by getInstance, it will be invalid.
//-----------------------------------------------
void CEntityAnimationManager::delInstance()
{
// Release the singleton
if(_Instance)
{
delete _Instance;
_Instance = 0;
}
}// delInstance //
/////////////
// METHODS //
/////////////
//---------------------------------------------------
// CEntityAnimationManager :
// Constructor.
//---------------------------------------------------
CEntityAnimationManager::CEntityAnimationManager()
{
_AnimationSet = NULL;
_AutomatonList = NULL;
_EmotList = NULL;
}// CEntityAnimationManager //
//---------------------------------------------------
// ~CEntityAnimationManager :
// Destructor.
//---------------------------------------------------
CEntityAnimationManager::~CEntityAnimationManager()
{
// Delete the playlist manager
if(_PlayListManager)
{
// if(Scene)
// Scene->deletePlayListManager(_PlayListManager);
_PlayListManager = 0;
}
// Release all things initialized by the load method.
release();
}// ~CEntityAnimationManager //
//-----------------------------------------------
// release
// Release all things initialized by the load method.
//-----------------------------------------------
void CEntityAnimationManager::release()
{
// Animation set cache
_AnimationSetPosCache.clear();
_AnimationSetRotCache.clear();
// Release animsets.
_AnimSet.clear();
// Release Automatons and Release the emots list
// Nothing to release here : all is in the sheet manager so kept during all the time the game is running
// Release the AnimationSet.
if(_AnimationSet)
{
Driver->deleteAnimationSet(_AnimationSet);
_AnimationSet = 0;
}
// owned by CSheetManager
_AutomatonList = NULL;
}// release //
//---------------------------------------------------
// load :
//---------------------------------------------------
void CEntityAnimationManager::load(NLMISC::IProgressCallback &/* progress */, bool /* forceRepack */ /* = false */)
{
// Whole initInGame profile
NLMISC::TTime initStart;
initStart = ryzomGetLocalTime ();
// Before loading, release the old stuff.
release();
// Log in the animation file.
//setDebugOutput(getLogDirectory() + "animation.dbg");
setDebugOutput(""); // no log
// Create the animation set for all entities.
_AnimationSet = Driver->createAnimationSet();
if(_AnimationSet == 0)
pushDebugStr("_AnimationSet is Null !.");
// Loading Emots
pushInfoStr("COMPUTING EMOTS ...");
// Initialize the emot list
_EmotList = dynamic_cast<CEmotListSheet*>(SheetMngr.get(CSheetId("list.emot")));
nlassert(_EmotList != NULL);
pushInfoStr("COMPUTING AUTOMATON ...");
// Initialize the automaton.
_AutomatonList = dynamic_cast<CAutomatonListSheet*>(SheetMngr.get(CSheetId("automaton.automaton_list")));
nlassert(_AutomatonList != NULL);
pushInfoStr("COMPUTING ANIMATION SET ...");
// Initialize the list of animsets
CAnimationSetListSheet *pASLS = dynamic_cast<CAnimationSetListSheet*>(SheetMngr.get(CSheetId("entities.animset_list")));
nlassert(pASLS != NULL);
for (uint32 i = 0; i < pASLS->AnimSetList.size(); ++i)
{
CAnimationSet as;
string sTmp = strlwr(pASLS->AnimSetList[i].Name);
sTmp = sTmp.substr(0,sTmp.rfind('.'));
pair<map<string,CAnimationSet>::iterator, bool> it;
it = _AnimSet.insert(pair<string,CAnimationSet>(sTmp,as));
it.first->second.init (&pASLS->AnimSetList[i], _AnimationSet);
}
// Build 3d Animation Set (called after all animations added in the animation set).
_AnimationSetPosCache.resize (0, NULL);
_AnimationSetRotCache.resize (0, NULL);
if(_AnimationSet)
{
_AnimationSet->build();
// Build animation set cache
uint i;
const uint count = _AnimationSet->getNumAnimation ();
_AnimationSetPosCache.resize (count, NULL);
_AnimationSetRotCache.resize (count, NULL);
for (i=0; i<count; i++)
{
// Get the animation
NL3D::UAnimation *anim = _AnimationSet->getAnimation (i);
if (anim)
{
// Get the tracks
_AnimationSetPosCache[i] = anim->getTrackByName("pos");
_AnimationSetRotCache[i] = anim->getTrackByName("rotquat");
}
}
}
// Flush debug information
flushDebugStack("-- ANIMATIONS OTHER --");
// Stop to Log in the animation file.
setDebugOutput("");
// Whole load profile
nlinfo ("%d seconds for EAM->load()", (uint32)(ryzomGetLocalTime ()-initStart)/1000);
/* // Memory debug
uint32 nTotalAnimSet = _AnimSet.size();
TAnimSet::iterator it = _AnimSet.begin();
uint32 nTotalAnimState = 0;
uint32 nTotalAnim = 0;
uint32 nTotalAnimFx = 0;
bool bOnce = false;
while (it != _AnimSet.end())
{
CAnimationSet &rAS = it->second;
uint32 nAS = rAS.getNumAnimationState();
nTotalAnimState += nAS;
for (uint i = 0; i < nAS; ++i)
{
CAnimationState *pAnimState = rAS.getAnimationStateByIndex(i);
uint32 nAnim = pAnimState->getNumAnimation();
nTotalAnim += nAnim;
for (uint j = 0; j < nAnim; ++j)
{
CAnimation *pAnim = pAnimState->getAnimationByIndex(j);
nTotalAnimFx += pAnim->getFXSet().FX.size();
if (!bOnce)
{
bOnce = true;
nlinfo ("%d %d %d", sizeof(rAS), sizeof(*pAnimState), sizeof(*pAnim));
}
}
}
it++;
}
nlinfo ("%d %d %d", nTotalAnimSet, nTotalAnimState, nTotalAnim, nTotalAnimFx);
*/
}// load //
//---------------------------------------------------
// animate :
// Animate all the playlists.
// \param double time : play time.
//---------------------------------------------------
void CEntityAnimationManager::animate(double time)
{
H_AUTO_USE ( RZ_Client_Entity_Animation_Mngr )
_PlayListManager->animate(time);
}// animate //
//---------------------------------------------------
// Setup :
// Setup all the playlists.
// \param double time : play time.
//---------------------------------------------------
void CEntityAnimationManager::setup(double time)
{
H_AUTO_USE ( RZ_Client_Entity_Animation_Mngr )
if (_PlayListManager) _PlayListManager->setup(time);
}// setup //
//---------------------------------------------------
// mState :
// Return a ref on a state of the moving automaton defined by its key.
// \param string automatonName : the automaton's name.
// \param TAnimStateKey key : the key of the state.
// \return CMovingAutomatonState * : pointer .
//---------------------------------------------------
const CAutomatonStateSheet *CEntityAnimationManager::mState(const string &automaton, TAnimStateKey key)
{
// Search for the automaton
std::map<std::string, CAutomatonSheet *>::iterator it = _AutomatonList->Automatons.find(automaton);
if(it != _AutomatonList->Automatons.end())
{
// Get the state.
const CAutomatonStateSheet *statePtr = ((*it).second)->state(key);
if(statePtr == 0)
{
nlwarning("CEntityAnimationManager::mState: the state '%s' does not exist for the automaton '%s'", CAnimationState::getAnimationStateName(key).c_str(), automaton.c_str());
return 0;
}
else
return statePtr;
}
// Automaton not found
else
return 0;
}// mState //
//---------------------------------------------------
// deletePlayList:
// Delete a play list.
// \param UPlayList * pl : pointer on the play list to delete.
//---------------------------------------------------
void CEntityAnimationManager::deletePlayList(NL3D::UPlayList * pl)
{
// Check if the playlist is not Null.
if(pl)
{
_PlayListManager->deletePlayList(pl);
pl = 0;
}
}// deletePlayList //
/*
//---------------------------------------------------
// processLogic :
//
//---------------------------------------------------
void CEntityAnimationManager::processLogic(const std::string &animListName, TAnimStateKey animationId, CAnimationTime startTimeOffset, CAnimationTime endTimeOffset, UTrack *&soundTrack, vector<CAnimationTime>& result)
{
result.clear();
// Get the animation set according to the animation list name
UAnimationSet *animSet = getAnimationSet(animListName);
if(animSet)
{
// Get the animation Id.
uint idAnim = animSet->getAnimationIdByName(animationId);
if(idAnim != UAnimationSet::NotFound)
{
// Get the animation pointer and get the length.
UAnimation *anim = animSet->getAnimation(idAnim);
if(anim)
{
char *soundTrackName = "NoteTrack";
soundTrack = anim->getTrackByName( soundTrackName );
if( soundTrack != NULL )
{
UTrackKeyframer * soundTrackKF = dynamic_cast<UTrackKeyframer *>(soundTrack);
if( soundTrackKF == NULL )
{
nlerror("The track %s is not a key framer track",soundTrackName);
}
soundTrackKF->getKeysInRange(startTimeOffset, endTimeOffset, result);
}
}
}
}
}// processLogic //
*/
//---------------------------------------------------
// getAnimationLength :
// Return an animation length (in sec).
// \param string animName : Animation Name.
// \return double : the length of the animation.
// \warning This method never return a value <= 0.0 and so will return 1.0 instead.
// \warning This Method is slower than the one with the animation Id instead of the animation Name.
//---------------------------------------------------
double CEntityAnimationManager::getAnimationLength(const std::string &animName) const
{
double length = CAnimationMisc::getAnimationLength(_AnimationSet, animName);
if(length <= 0.0)
return 1.0;
return length;
}// getAnimationLength //
//---------------------------------------------------
// getAnimationLength :
// Return an animation length (in sec).
// \param idAnim : id of the animation.
// \return double : the length of the animation.
// \warning This method never return a value <= 0.0 and so will return 1.0 instead.
// \warning This Method is slower than the one with the animation Id instead of the animation Name.
//---------------------------------------------------
double CEntityAnimationManager::getAnimationLength(uint idAnim) const
{
if (idAnim == NL3D::UAnimationSet::NotFound) return 0.f;
double length = CAnimationMisc::getAnimationLength(_AnimationSet, idAnim);
if(length <= 0.0)
return 1.0;
return length;
}// getAnimationLength //
//---------------------------------------------------
// getAnimationAverageSpeed :
// Get the average speed of an animation (in meters/sec).
// \param string animName : Animation Name.
// \return double : the average speed (in m/s).
//---------------------------------------------------
double CEntityAnimationManager::getAnimationAverageSpeed(const std::string &animName) const
{
return CAnimationMisc::getAnimationAverageSpeed(_AnimationSet, animName);
}// getAnimationAverageSpeed //
//---------------------------------------------------
// getAnimationAverageSpeed :
// Get the average speed of an animation (in meters/sec).
// \param string animName : Animation Name.
// \return double : the average speed (in m/s).
//---------------------------------------------------
double CEntityAnimationManager::getAnimationAverageSpeed(uint idAnim) const
{
return CAnimationMisc::getAnimationAverageSpeed(_AnimationSet, idAnim);
}// getAnimationAverageSpeed //
//---------------------------------------------------
// getAnimSet :
// Return a pointer on the set according to the set name.
// \param animSet : name of the set.
// \return CAnimationSet * : pointer of the right Set or 0.
//---------------------------------------------------
const CAnimationSet *CEntityAnimationManager::getAnimSet(const std::string &animSet) const
{
// Search the right animation set.
TAnimSet::const_iterator itAnimSet = _AnimSet.find(animSet);
if(itAnimSet == _AnimSet.end())
// Set not found.
return 0;
// Return the pointer
return &((*itAnimSet).second);
}// getAnimSet //
//---------------------------------------------------
// createPlayList :
// Create a playlist.
// \return UPlayList * : a pointer on a play list or 0 if any pb.
//---------------------------------------------------
NL3D::UPlayList *CEntityAnimationManager::createPlayList() const
{
if (_PlayListManager == 0)
return 0;
return _PlayListManager->createPlayList(_AnimationSet);
}// createPlayList //
//-----------------------------------------------
// serial :
// Serialize a CEntityAnimationManager.
//-----------------------------------------------
void CEntityAnimationManager::serial(class NLMISC::IStream &/* f */) throw(NLMISC::EStream)
{
}// serial //
// ***************************************************************************
void CEntityAnimationManager::resetAllSoundAnimId()
{
TAnimSet::iterator it(_AnimSet.begin()), last(_AnimSet.end());
for(;it!=last;it++)
{
CAnimationSet &animSet= it->second;
uint numAnimState= animSet.getNumAnimationState();
for(uint i=0;i<numAnimState;i++)
{
CAnimationState *state= animSet.getAnimationStateByIndex(i);
if(state)
{
uint numAnim= state->getNumAnimation();
for(uint j=0;j<numAnim;j++)
{
CAnimation *anim= state->getAnimationByIndex(j);
if(anim)
anim->resetSoundAnim();
}
}
}
}
}
// ***************************************************************************
void CEntityAnimationManager::reloadAllSoundAnim()
{
TAnimSet::iterator it(_AnimSet.begin()), last(_AnimSet.end());
for(;it!=last;it++)
{
CAnimationSet &animSet= it->second;
uint numAnimState= animSet.getNumAnimationState();
for(uint i=0;i<numAnimState;i++)
{
CAnimationState *state= animSet.getAnimationStateByIndex(i);
if(state)
{
uint numAnim= state->getNumAnimation();
for(uint j=0;j<numAnim;j++)
{
CAnimation *anim= state->getAnimationByIndex(j);
if(anim)
anim->reloadSoundAnim();
}
}
}
}
}
// \todo GUIGUI : A REFAIRE.
/*
//---------------------------------------------------
// createFacePlayList :
// Create an uninitialized playlist for the face animations.
// \param type : type of the play list to create.
// \return UPlayList * : a pointer on an initialized play list.
//---------------------------------------------------
UPlayList * CEntityAnimationManager::createFacePlayList(const CTypeEntity& type)
{
// get the animation set
UAnimationSet *animationSet = getFaceAnimationSet(type);
if(animationSet)
return _PlayListManager->createPlayList(animationSet);
else
return 0;
}// createFacePlayList //
//---------------------------------------------------
// createFaceAnimationSet :
// Create an animation set for the Face.
//---------------------------------------------------
void CEntityAnimationManager::createFaceAnimationSet(const CTypeEntity& type)
{
UAnimationSet * faceAnimationSet = Driver->createAnimationSet();
if(faceAnimationSet == 0)
nlwarning("CEntityAnimationManager::createFaceAnimationSet : cannot create an animation set for the Face.");
// Insert the new animation set in the map
else
_FaceAnimationSets.insert(make_pair(type, faceAnimationSet));
}// createFaceAnimationSet //
//---------------------------------------------------
// getFaceAnimationSet :
// Get an animation set for face.
// \param type : type of the animation set you want.
// \return UAnimationSet * : a pointer on the animation set or 0 if there is not animation set for this type.
//---------------------------------------------------
UAnimationSet * CEntityAnimationManager::getFaceAnimationSet(const CTypeEntity& type)
{
map<CTypeEntity, UAnimationSet *>::iterator itAnimSet = _FaceAnimationSets.find(type);
if(itAnimSet == _FaceAnimationSets.end())
return 0;
else
return (*itAnimSet).second;
}// getFaceAnimationSet //
//---------------------------------------------------
// chooseFaceAnim :
// Choose an animation for the face according to the type and the emotion.
// \param type : type of the face.
// \param emotion : emotion to play.
// \return uint : the index of the animation.
// \todo GUIGUI : make a real choice according to the percentage.
//---------------------------------------------------
uint CEntityAnimationManager::chooseFaceAnim(const CTypeEntity& type, const string &emotion)
{
std::map<CTypeEntity, TFaceEmotions>::iterator itFEPT = _FaceEmotionsPerType.find(type);
if(itFEPT == _FaceEmotionsPerType.end())
{
nlwarning("CEntityAnimationManager::chooseFaceAnim : Nothing associated to the type.");
return UAnimationSet::NotFound;
}
TFaceEmotions &faceEmotions = (*itFEPT).second;
TFaceEmotions::iterator itFE = faceEmotions.find(emotion);
if(itFE == faceEmotions.end())
{
nlwarning("CEntityAnimationManager::chooseFaceAnim : Face Emotion '%s' does not exist for this type.", emotion.c_str());
return UAnimationSet::NotFound;
}
CFaceEmotion &faceEmotion = (*itFE).second;
if(faceEmotion._Anims.empty())
{
nlwarning("No animation in the Emotion '%s'.", emotion.c_str());
return UAnimationSet::NotFound;
}
string anim = (*faceEmotion._Anims.begin()).first;
UAnimationSet *animSet = getFaceAnimationSet(type);
if(animSet)
return animSet->getAnimationIdByName(anim);
else
return UAnimationSet::NotFound;
}// chooseFaceAnim //
//-----------------------------------------------
// loadFaceAnimations :
// Load table containing infos about face animations.
// \param type : table is different according to the type.
// \param fileName : the name of the file containing the animation infos.
// \todo GUIGUI : Check that we can add the same animation more than once with no problem or do i have to check if the animation is already in.
//-----------------------------------------------
void CEntityAnimationManager::loadFaceAnimations(const CTypeEntity& type, const char * fileName)
{
// Get the animation set.
UAnimationSet * animationSet = getFaceAnimationSet(type);
if(!animationSet)
{
nlwarning("CEntityAnimationManager::loadFaceAnimations : animationSet is Null for the type -> Face Animations not loaded.");
return;
}
// Create Face Emotions struct.
TFaceEmotions faceEmotions;
// CST loader
CSTLoader cstl;
// Build file format
map<string, CSTLoader::TDataType> fileFormat;
fileFormat.insert(make_pair(string("name"), CSTLoader::STRING));
fileFormat.insert(make_pair(string("filename"), CSTLoader::STRING));
fileFormat.insert(make_pair(string("percentage"), CSTLoader::FLOAT));
// Init loader
cstl.init(fileName, fileFormat);
// Read the file line per line.
while(cstl.readLine())
{
// Get the name of the emotion.
string emotionName;
string animFilename;
float percentage;
cstl.getStringValue ("name", emotionName);
cstl.getStringValue ("filename", animFilename);
cstl.getValue ("percentage", percentage);
// Try to add the anim in the animation set.
if(animationSet->addAnimation((animFilename + ".anim").c_str(), animFilename.c_str()) == UAnimationSet::NotFound)
nlwarning("CEntityAnimationManager::loadFaceAnimations : anim '%s' is not found.", (animFilename + ".anim").c_str());
// The animation is right added in the set -> add anim in the right face emotion.
else
{
// Attempt on find this name in the map.
map<string, CFaceEmotion>::iterator itFaceEmotion = faceEmotions.find(emotionName);
// This emotion already exist -> add new animation to the emotion.
if(itFaceEmotion != faceEmotions.end())
{
CFaceEmotion &faceEmotion = (*itFaceEmotion).second;
faceEmotion.addAnim(animFilename, percentage);
}
else
{
CFaceEmotion faceEmotion;
faceEmotion.addAnim(animFilename, percentage);
faceEmotions.insert(make_pair(emotionName, faceEmotion));
}
}
}
// Close file
cstl.close();
// Add Emotions for the type.
_FaceEmotionsPerType.insert(make_pair(type, faceEmotions));
}// loadFaceAnimations //
*/