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|
/**
* @file llmotioncontroller.cpp
* @brief Implementation of LLMotionController class.
*
* Copyright (c) 2001-$CurrentYear$, Linden Research, Inc.
* $License$
*/
//-----------------------------------------------------------------------------
// Header Files
//-----------------------------------------------------------------------------
#include "linden_common.h"
#include "llmotioncontroller.h"
#include "llkeyframemotion.h"
#include "llmath.h"
#include "lltimer.h"
#include "llanimationstates.h"
#include "llstl.h"
const S32 NUM_JOINT_SIGNATURE_STRIDES = LL_CHARACTER_MAX_JOINTS / 4;
const U32 MAX_MOTION_INSTANCES = 32;
//-----------------------------------------------------------------------------
// Constants and statics
//-----------------------------------------------------------------------------
LLMotionRegistry LLMotionController::sRegistry;
//-----------------------------------------------------------------------------
// LLMotionTableEntry()
//-----------------------------------------------------------------------------
LLMotionTableEntry::LLMotionTableEntry()
{
mConstructor = NULL;
mID.setNull();
}
LLMotionTableEntry::LLMotionTableEntry(LLMotionConstructor constructor, const LLUUID& id)
: mConstructor(constructor), mID(id)
{
}
//-----------------------------------------------------------------------------
// create()
//-----------------------------------------------------------------------------
LLMotion* LLMotionTableEntry::create(const LLUUID &id)
{
LLMotion* motionp = mConstructor(id);
return motionp;
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// LLMotionRegistry class
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// LLMotionRegistry()
// Class Constructor
//-----------------------------------------------------------------------------
LLMotionRegistry::LLMotionRegistry() : mMotionTable(LLMotionTableEntry::uuidEq, LLMotionTableEntry())
{
}
//-----------------------------------------------------------------------------
// ~LLMotionRegistry()
// Class Destructor
//-----------------------------------------------------------------------------
LLMotionRegistry::~LLMotionRegistry()
{
mMotionTable.removeAll();
}
//-----------------------------------------------------------------------------
// addMotion()
//-----------------------------------------------------------------------------
BOOL LLMotionRegistry::addMotion( const LLUUID& id, LLMotionConstructor constructor )
{
// llinfos << "Registering motion: " << name << llendl;
if (!mMotionTable.check(id))
{
mMotionTable.set(id, LLMotionTableEntry(constructor, id));
return TRUE;
}
return FALSE;
}
//-----------------------------------------------------------------------------
// markBad()
//-----------------------------------------------------------------------------
void LLMotionRegistry::markBad( const LLUUID& id )
{
mMotionTable.set(id, LLMotionTableEntry());
}
//-----------------------------------------------------------------------------
// createMotion()
//-----------------------------------------------------------------------------
LLMotion *LLMotionRegistry::createMotion( const LLUUID &id )
{
LLMotionTableEntry motion_entry = mMotionTable.get(id);
LLMotion* motion = NULL;
if ( motion_entry.getID().isNull() )
{
// *FIX: need to replace with a better default scheme. RN
motion = LLKeyframeMotion::create(id);
}
else
{
motion = motion_entry.create(id);
}
return motion;
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// LLMotionController class
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// LLMotionController()
// Class Constructor
//-----------------------------------------------------------------------------
LLMotionController::LLMotionController( )
{
mTime = 0.f;
mTimeOffset = 0.f;
mLastTime = 0.0f;
mHasRunOnce = FALSE;
mPaused = FALSE;
mPauseTime = 0.f;
mTimeStep = 0.f;
mTimeStepCount = 0;
mLastInterp = 0.f;
mTimeFactor = 1.f;
}
//-----------------------------------------------------------------------------
// ~LLMotionController()
// Class Destructor
//-----------------------------------------------------------------------------
LLMotionController::~LLMotionController()
{
deleteAllMotions();
}
//-----------------------------------------------------------------------------
// deleteAllMotions()
//-----------------------------------------------------------------------------
void LLMotionController::deleteAllMotions()
{
mLoadingMotions.clear();
mLoadedMotions.clear();
mActiveMotions.clear();
for_each(mAllMotions.begin(), mAllMotions.end(), DeletePairedPointer());
mAllMotions.clear();
}
//-----------------------------------------------------------------------------
// addLoadedMotion()
//-----------------------------------------------------------------------------
void LLMotionController::addLoadedMotion(LLMotion* motionp)
{
if (mLoadedMotions.size() > MAX_MOTION_INSTANCES)
{
// too many motions active this frame, kill all blenders
mPoseBlender.clearBlenders();
for (U32 i = 0; i < mLoadedMotions.size(); i++)
{
LLMotion* cur_motionp = mLoadedMotions.front();
mLoadedMotions.pop_front();
// motion isn't playing, delete it
if (!isMotionActive(cur_motionp))
{
mCharacter->requestStopMotion(cur_motionp);
mAllMotions.erase(cur_motionp->getID());
delete cur_motionp;
if (mLoadedMotions.size() <= MAX_MOTION_INSTANCES)
{
break;
}
}
else
{
// put active motion on back
mLoadedMotions.push_back(cur_motionp);
}
}
}
mLoadedMotions.push_back(motionp);
}
//-----------------------------------------------------------------------------
// setTimeStep()
//-----------------------------------------------------------------------------
void LLMotionController::setTimeStep(F32 step)
{
mTimeStep = step;
if (step != 0.f)
{
// make sure timestamps conform to new quantum
for (motion_list_t::iterator iter = mActiveMotions.begin();
iter != mActiveMotions.end(); ++iter)
{
LLMotion* motionp = *iter;
motionp->mActivationTimestamp = (F32)llfloor(motionp->mActivationTimestamp / step) * step;
BOOL stopped = motionp->isStopped();
motionp->setStopTime((F32)llfloor(motionp->getStopTime() / step) * step);
motionp->setStopped(stopped);
motionp->mSendStopTimestamp = (F32)llfloor(motionp->mSendStopTimestamp / step) * step;
}
}
}
//-----------------------------------------------------------------------------
// setTimeFactor()
//-----------------------------------------------------------------------------
void LLMotionController::setTimeFactor(F32 time_factor)
{
mTimeOffset += mTimer.getElapsedTimeAndResetF32() * mTimeFactor;
mTimeFactor = time_factor;
}
//-----------------------------------------------------------------------------
// setCharacter()
//-----------------------------------------------------------------------------
void LLMotionController::setCharacter(LLCharacter *character)
{
mCharacter = character;
}
//-----------------------------------------------------------------------------
// addMotion()
//-----------------------------------------------------------------------------
BOOL LLMotionController::addMotion( const LLUUID& id, LLMotionConstructor constructor )
{
return sRegistry.addMotion(id, constructor);
}
//-----------------------------------------------------------------------------
// removeMotion()
//-----------------------------------------------------------------------------
void LLMotionController::removeMotion( const LLUUID& id)
{
LLMotion* motionp = findMotion(id);
if (motionp)
{
stopMotionLocally(id, TRUE);
mLoadingMotions.erase(motionp);
mLoadedMotions.remove(motionp);
mActiveMotions.remove(motionp);
mAllMotions.erase(id);
delete motionp;
}
}
//-----------------------------------------------------------------------------
// createMotion()
//-----------------------------------------------------------------------------
LLMotion* LLMotionController::createMotion( const LLUUID &id )
{
// do we have an instance of this motion for this character?
LLMotion *motion = findMotion(id);
// if not, we need to create one
if (!motion)
{
// look up constructor and create it
motion = sRegistry.createMotion(id);
if (!motion)
{
return NULL;
}
// look up name for default motions
const char* motion_name = gAnimLibrary.animStateToString(id);
if (motion_name)
{
motion->setName(motion_name);
}
// initialize the new instance
LLMotion::LLMotionInitStatus stat = motion->onInitialize(mCharacter);
switch(stat)
{
case LLMotion::STATUS_FAILURE:
llinfos << "Motion " << id << " init failed." << llendl;
sRegistry.markBad(id);
delete motion;
return NULL;
case LLMotion::STATUS_HOLD:
mLoadingMotions.insert(motion);
break;
case LLMotion::STATUS_SUCCESS:
// add motion to our list
addLoadedMotion(motion);
break;
default:
llerrs << "Invalid initialization status" << llendl;
break;
}
mAllMotions[id] = motion;
}
return motion;
}
//-----------------------------------------------------------------------------
// startMotion()
//-----------------------------------------------------------------------------
BOOL LLMotionController::startMotion(const LLUUID &id, F32 start_offset)
{
// look for motion in our list of created motions
LLMotion *motion = createMotion(id);
if (!motion)
{
return FALSE;
}
//if the motion is already active, then we're done
else if (isMotionActive(motion)) // motion is playing and...
{
if (motion->isStopped()) // motion has been stopped
{
deactivateMotion(motion);
}
else if (mTime < motion->mSendStopTimestamp) // motion is still active
{
return TRUE;
}
}
// llinfos << "Starting motion " << name << llendl;
return activateMotion(motion, mTime - start_offset);
}
//-----------------------------------------------------------------------------
// stopMotionLocally()
//-----------------------------------------------------------------------------
BOOL LLMotionController::stopMotionLocally(const LLUUID &id, BOOL stop_immediate)
{
// if already inactive, return false
LLMotion *motion = findMotion(id);
if (!motion)
{
return FALSE;
}
// If on active list, stop it
if (isMotionActive(motion) && !motion->isStopped())
{
// when using timesteps, set stop time to last frame's time, otherwise grab current timer value
// *FIX: should investigate this inconsistency...hints of obscure bugs
F32 stop_time = (mTimeStep != 0.f || mPaused) ? (mTime) : mTimeOffset + (mTimer.getElapsedTimeF32() * mTimeFactor);
motion->setStopTime(stop_time);
if (stop_immediate)
{
deactivateMotion(motion);
}
return TRUE;
}
else if (isMotionLoading(motion))
{
motion->setStopped(TRUE);
return TRUE;
}
return FALSE;
}
//-----------------------------------------------------------------------------
// updateRegularMotions()
//-----------------------------------------------------------------------------
void LLMotionController::updateRegularMotions()
{
updateMotionsByType(LLMotion::NORMAL_BLEND);
}
//-----------------------------------------------------------------------------
// updateAdditiveMotions()
//-----------------------------------------------------------------------------
void LLMotionController::updateAdditiveMotions()
{
updateMotionsByType(LLMotion::ADDITIVE_BLEND);
}
//-----------------------------------------------------------------------------
// resetJointSignatures()
//-----------------------------------------------------------------------------
void LLMotionController::resetJointSignatures()
{
memset(&mJointSignature[0][0], 0, sizeof(U8) * LL_CHARACTER_MAX_JOINTS);
memset(&mJointSignature[1][0], 0, sizeof(U8) * LL_CHARACTER_MAX_JOINTS);
}
//-----------------------------------------------------------------------------
// updateMotionsByType()
//-----------------------------------------------------------------------------
void LLMotionController::updateMotionsByType(LLMotion::LLMotionBlendType anim_type)
{
BOOL update_result = TRUE;
U8 last_joint_signature[LL_CHARACTER_MAX_JOINTS];
memset(&last_joint_signature, 0, sizeof(U8) * LL_CHARACTER_MAX_JOINTS);
// iterate through active motions in chronological order
for (motion_list_t::iterator iter = mActiveMotions.begin();
iter != mActiveMotions.end(); )
{
motion_list_t::iterator curiter = iter++;
LLMotion* motionp = *curiter;
if (motionp->getBlendType() != anim_type)
{
continue;
}
BOOL update_motion = FALSE;
if (motionp->getPose()->getWeight() < 1.f)
{
update_motion = TRUE;
}
else
{
// NUM_JOINT_SIGNATURE_STRIDES should be multiple of 4
for (S32 i = 0; i < NUM_JOINT_SIGNATURE_STRIDES; i++)
{
U32 *current_signature = (U32*)&(mJointSignature[0][i * 4]);
U32 test_signature = *(U32*)&(motionp->mJointSignature[0][i * 4]);
if ((*current_signature | test_signature) > (*current_signature))
{
*current_signature |= test_signature;
update_motion = TRUE;
}
*((U32*)&last_joint_signature[i * 4]) = *(U32*)&(mJointSignature[1][i * 4]);
current_signature = (U32*)&(mJointSignature[1][i * 4]);
test_signature = *(U32*)&(motionp->mJointSignature[1][i * 4]);
if ((*current_signature | test_signature) > (*current_signature))
{
*current_signature |= test_signature;
update_motion = TRUE;
}
}
}
if (!update_motion)
{
if (motionp->isStopped() && mTime > motionp->getStopTime() + motionp->getEaseOutDuration())
{
deactivateMotion(motionp);
}
else if (motionp->isStopped() && mTime > motionp->getStopTime())
{
// is this the first iteration in the ease out phase?
if (mLastTime <= motionp->getStopTime())
{
// store residual weight for this motion
motionp->mResidualWeight = motionp->getPose()->getWeight();
}
}
else if (mTime > motionp->mSendStopTimestamp)
{
// notify character of timed stop event on first iteration past sendstoptimestamp
// this will only be called when an animation stops itself (runs out of time)
if (mLastTime <= motionp->mSendStopTimestamp)
{
mCharacter->requestStopMotion( motionp );
stopMotionLocally(motionp->getID(), FALSE);
}
}
else if (mTime >= motionp->mActivationTimestamp)
{
if (mLastTime < motionp->mActivationTimestamp)
{
motionp->mResidualWeight = motionp->getPose()->getWeight();
}
}
continue;
}
LLPose *posep = motionp->getPose();
// only filter by LOD after running every animation at least once (to prime the avatar state)
if (mHasRunOnce && motionp->getMinPixelArea() > mCharacter->getPixelArea())
{
motionp->fadeOut();
//should we notify the simulator that this motion should be stopped (check even if skipped by LOD logic)
if (mTime > motionp->mSendStopTimestamp)
{
// notify character of timed stop event on first iteration past sendstoptimestamp
// this will only be called when an animation stops itself (runs out of time)
if (mLastTime <= motionp->mSendStopTimestamp)
{
mCharacter->requestStopMotion( motionp );
stopMotionLocally(motionp->getID(), FALSE);
}
}
if (motionp->getFadeWeight() < 0.01f)
{
if (motionp->isStopped() && mTime > motionp->getStopTime() + motionp->getEaseOutDuration())
{
posep->setWeight(0.f);
deactivateMotion(motionp);
}
continue;
}
}
else
{
motionp->fadeIn();
}
//**********************
// MOTION INACTIVE
//**********************
if (motionp->isStopped() && mTime > motionp->getStopTime() + motionp->getEaseOutDuration())
{
// this motion has gone on too long, deactivate it
// did we have a chance to stop it?
if (mLastTime <= motionp->getStopTime())
{
// if not, let's stop it this time through and deactivate it the next
posep->setWeight(motionp->getFadeWeight());
motionp->onUpdate(motionp->getStopTime() - motionp->mActivationTimestamp, last_joint_signature);
}
else
{
posep->setWeight(0.f);
deactivateMotion(motionp);
continue;
}
}
//**********************
// MOTION EASE OUT
//**********************
else if (motionp->isStopped() && mTime > motionp->getStopTime())
{
// is this the first iteration in the ease out phase?
if (mLastTime <= motionp->getStopTime())
{
// store residual weight for this motion
motionp->mResidualWeight = motionp->getPose()->getWeight();
}
if (motionp->getEaseOutDuration() == 0.f)
{
posep->setWeight(0.f);
}
else
{
posep->setWeight(motionp->getFadeWeight() * motionp->mResidualWeight * cubic_step(1.f - ((mTime - motionp->getStopTime()) / motionp->getEaseOutDuration())));
}
// perform motion update
update_result = motionp->onUpdate(mTime - motionp->mActivationTimestamp, last_joint_signature);
}
//**********************
// MOTION ACTIVE
//**********************
else if (mTime > motionp->mActivationTimestamp + motionp->getEaseInDuration())
{
posep->setWeight(motionp->getFadeWeight());
//should we notify the simulator that this motion should be stopped?
if (mTime > motionp->mSendStopTimestamp)
{
// notify character of timed stop event on first iteration past sendstoptimestamp
// this will only be called when an animation stops itself (runs out of time)
if (mLastTime <= motionp->mSendStopTimestamp)
{
mCharacter->requestStopMotion( motionp );
stopMotionLocally(motionp->getID(), FALSE);
}
}
// perform motion update
update_result = motionp->onUpdate(mTime - motionp->mActivationTimestamp, last_joint_signature);
}
//**********************
// MOTION EASE IN
//**********************
else if (mTime >= motionp->mActivationTimestamp)
{
if (mLastTime < motionp->mActivationTimestamp)
{
motionp->mResidualWeight = motionp->getPose()->getWeight();
}
if (motionp->getEaseInDuration() == 0.f)
{
posep->setWeight(motionp->getFadeWeight());
}
else
{
// perform motion update
posep->setWeight(motionp->getFadeWeight() * motionp->mResidualWeight + (1.f - motionp->mResidualWeight) * cubic_step((mTime - motionp->mActivationTimestamp) / motionp->getEaseInDuration()));
}
// perform motion update
update_result = motionp->onUpdate(mTime - motionp->mActivationTimestamp, last_joint_signature);
}
else
{
posep->setWeight(0.f);
update_result = motionp->onUpdate(0.f, last_joint_signature);
}
// allow motions to deactivate themselves
if (!update_result)
{
if (!motionp->isStopped() || motionp->getStopTime() > mTime)
{
// animation has stopped itself due to internal logic
// propagate this to the network
// as not all viewers are guaranteed to have access to the same logic
mCharacter->requestStopMotion( motionp );
stopMotionLocally(motionp->getID(), FALSE);
}
}
// even if onupdate returns FALSE, add this motion in to the blend one last time
mPoseBlender.addMotion(motionp);
}
}
//-----------------------------------------------------------------------------
// updateMotion()
//-----------------------------------------------------------------------------
void LLMotionController::updateMotion()
{
BOOL use_quantum = (mTimeStep != 0.f);
// Update timing info for this time step.
if (!mPaused)
{
F32 update_time = mTimeOffset + (mTimer.getElapsedTimeF32() * mTimeFactor);
if (use_quantum)
{
F32 time_interval = fmodf(update_time, mTimeStep);
// always animate *ahead* of actual time
S32 quantum_count = llmax(0, llfloor((update_time - time_interval) / mTimeStep)) + 1;
if (quantum_count == mTimeStepCount)
{
// we're still in same time quantum as before, so just interpolate and exit
if (!mPaused)
{
F32 interp = time_interval / mTimeStep;
mPoseBlender.interpolate(interp - mLastInterp);
mLastInterp = interp;
}
return;
}
// is calculating a new keyframe pose, make sure the last one gets applied
mPoseBlender.interpolate(1.f);
mPoseBlender.clearBlenders();
mTimeStepCount = quantum_count;
mLastTime = mTime;
mTime = (F32)quantum_count * mTimeStep;
mLastInterp = 0.f;
}
else
{
mLastTime = mTime;
mTime = update_time;
}
}
// query pending motions for completion
for (motion_set_t::iterator iter = mLoadingMotions.begin();
iter != mLoadingMotions.end(); )
{
motion_set_t::iterator curiter = iter++;
LLMotion* motionp = *curiter;
LLMotion::LLMotionInitStatus status = motionp->onInitialize(mCharacter);
if (status == LLMotion::STATUS_SUCCESS)
{
mLoadingMotions.erase(curiter);
// add motion to our loaded motion list
addLoadedMotion(motionp);
// this motion should be playing
if (!motionp->isStopped())
{
activateMotion(motionp, mTime);
}
}
else if (status == LLMotion::STATUS_FAILURE)
{
llinfos << "Motion " << motionp->getID() << " init failed." << llendl;
sRegistry.markBad(motionp->getID());
mLoadingMotions.erase(curiter);
mAllMotions.erase(motionp->getID());
delete motionp;
}
}
resetJointSignatures();
if (!mPaused)
{
// update additive motions
updateAdditiveMotions();
resetJointSignatures();
// update all regular motions
updateRegularMotions();
if (use_quantum)
{
mPoseBlender.blendAndCache(TRUE);
}
else
{
mPoseBlender.blendAndApply();
}
}
mHasRunOnce = TRUE;
// llinfos << "Motion controller time " << motionTimer.getElapsedTimeF32() << llendl;
}
//-----------------------------------------------------------------------------
// activateMotion()
//-----------------------------------------------------------------------------
BOOL LLMotionController::activateMotion(LLMotion *motion, F32 time)
{
if (mLoadingMotions.find(motion) != mLoadingMotions.end())
{
// we want to start this motion, but we can't yet, so flag it as started
motion->setStopped(FALSE);
// report pending animations as activated
return TRUE;
}
motion->mResidualWeight = motion->getPose()->getWeight();
motion->mActivationTimestamp = time;
// set stop time based on given duration and ease out time
if (motion->getDuration() != 0.f && !motion->getLoop())
{
F32 ease_out_time;
F32 motion_duration;
// should we stop at the end of motion duration, or a bit earlier
// to allow it to ease out while moving?
ease_out_time = motion->getEaseOutDuration();
// is the clock running when the motion is easing in?
// if not (POSTURE_EASE) then we need to wait that much longer before triggering the stop
motion_duration = llmax(motion->getDuration() - ease_out_time, 0.f);
motion->mSendStopTimestamp = time + motion_duration;
}
else
{
motion->mSendStopTimestamp = F32_MAX;
}
mActiveMotions.push_front(motion);
motion->activate();
motion->onUpdate(0.f, mJointSignature[1]);
return TRUE;
}
//-----------------------------------------------------------------------------
// deactivateMotion()
//-----------------------------------------------------------------------------
BOOL LLMotionController::deactivateMotion(LLMotion *motion)
{
motion->deactivate();
mActiveMotions.remove(motion);
return TRUE;
}
//-----------------------------------------------------------------------------
// isMotionActive()
//-----------------------------------------------------------------------------
bool LLMotionController::isMotionActive(LLMotion *motion)
{
return (motion && motion->isActive());
}
//-----------------------------------------------------------------------------
// isMotionLoading()
//-----------------------------------------------------------------------------
bool LLMotionController::isMotionLoading(LLMotion* motion)
{
return (mLoadingMotions.find(motion) != mLoadingMotions.end());
}
//-----------------------------------------------------------------------------
// findMotion()
//-----------------------------------------------------------------------------
LLMotion *LLMotionController::findMotion(const LLUUID& id)
{
return mAllMotions[id];
}
//-----------------------------------------------------------------------------
// flushAllMotions()
//-----------------------------------------------------------------------------
void LLMotionController::flushAllMotions()
{
std::vector<std::pair<LLUUID,F32> > active_motions;
active_motions.reserve(mActiveMotions.size());
for (motion_list_t::iterator iter = mActiveMotions.begin();
iter != mActiveMotions.end(); )
{
motion_list_t::iterator curiter = iter++;
LLMotion* motionp = *curiter;
F32 dtime = mTime - motionp->mActivationTimestamp;
active_motions.push_back(std::make_pair(motionp->getID(),dtime));
motionp->deactivate();
}
// delete all motion instances
deleteAllMotions();
// kill current hand pose that was previously called out by
// keyframe motion
mCharacter->removeAnimationData("Hand Pose");
// restart motions
for (std::vector<std::pair<LLUUID,F32> >::iterator iter = active_motions.begin();
iter != active_motions.end(); ++iter)
{
startMotion(iter->first, iter->second);
}
}
//-----------------------------------------------------------------------------
// pause()
//-----------------------------------------------------------------------------
void LLMotionController::pause()
{
if (!mPaused)
{
//llinfos << "Pausing animations..." << llendl;
mPauseTime = mTimer.getElapsedTimeF32();
mPaused = TRUE;
}
}
//-----------------------------------------------------------------------------
// unpause()
//-----------------------------------------------------------------------------
void LLMotionController::unpause()
{
if (mPaused)
{
//llinfos << "Unpausing animations..." << llendl;
mTimer.reset();
mTimer.setAge(mPauseTime);
mPaused = FALSE;
}
}
// End
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