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phoenix-firestorm/indra/newview/fsjointpose.cpp

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/**
* @file fsjointpose.cpp
* @brief Container for the pose of a joint.
*
* $LicenseInfo:firstyear=2024&license=viewerlgpl$
* Phoenix Firestorm Viewer Source Code
* Copyright (c) 2024 Angeldark Raymaker @ Second Life
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include <deque>
#include <boost/algorithm/string.hpp>
#include "fsposingmotion.h"
#include "llcharacter.h"
/// <summary>
/// The maximum length of the undo queue; adding new members preens older ones.
/// </summary>
constexpr size_t MaximumUndoQueueLength = 20;
/// <summary>
/// The constant time interval, in seconds, specifying whether an 'undo' value should be added.
/// </summary>
constexpr std::chrono::duration<double> UndoUpdateInterval = std::chrono::duration<double>(0.8);
FSJointPose::FSJointPose(LLJoint* joint, U32 usage, bool isCollisionVolume)
{
mJointState = new LLJointState;
mJointState->setJoint(joint);
mJointState->setUsage(usage);
mJointName = joint->getName();
mIsCollisionVolume = isCollisionVolume;
mCurrentState = FSJointState(joint);
}
void FSJointPose::setPublicPosition(const LLVector3& pos)
{
addStateToUndo(FSJointState(mCurrentState));
mCurrentState.mPosition.set(pos);
}
void FSJointPose::setPublicRotation(const LLQuaternion& rot)
{
addStateToUndo(FSJointState(mCurrentState));
mCurrentState.mRotation.set(rot);
}
void FSJointPose::setPublicScale(const LLVector3& scale)
{
addStateToUndo(FSJointState(mCurrentState));
mCurrentState.mScale.set(scale);
}
void FSJointPose::undoLastChange()
{
mCurrentState = undoLastStateChange(FSJointState(mCurrentState));
}
void FSJointPose::redoLastChange()
{
mCurrentState = redoLastStateChange(FSJointState(mCurrentState));
}
void FSJointPose::addStateToUndo(FSJointState stateToAddToUndo)
{
auto timeIntervalSinceLastChange = std::chrono::system_clock::now() - mTimeLastUpdatedCurrentState;
mTimeLastUpdatedCurrentState = std::chrono::system_clock::now();
if (timeIntervalSinceLastChange < UndoUpdateInterval)
return;
if (mUndoneJointStatesIndex > 0)
{
for (size_t i = 0; i <= mUndoneJointStatesIndex; i++)
if (!mLastSetJointStates.empty())
mLastSetJointStates.pop_front();
mUndoneJointStatesIndex = 0;
}
mLastSetJointStates.push_front(stateToAddToUndo);
while (mLastSetJointStates.size() > MaximumUndoQueueLength)
mLastSetJointStates.pop_back();
}
FSJointPose::FSJointState FSJointPose::undoLastStateChange(FSJointState thingToSet)
{
if (mLastSetJointStates.empty())
return thingToSet;
if (mUndoneJointStatesIndex == 0)
mLastSetJointStates.push_front(thingToSet);
mUndoneJointStatesIndex += 1;
mUndoneJointStatesIndex = llclamp(mUndoneJointStatesIndex, 0, mLastSetJointStates.size() - 1);
return mLastSetJointStates.at(mUndoneJointStatesIndex);
}
FSJointPose::FSJointState FSJointPose::redoLastStateChange(FSJointState thingToSet)
{
if (mLastSetJointStates.empty())
return thingToSet;
if (mUndoneJointStatesIndex == 0)
return thingToSet;
mUndoneJointStatesIndex -= 1;
mUndoneJointStatesIndex = llclamp(mUndoneJointStatesIndex, 0, mLastSetJointStates.size() - 1);
auto result = mLastSetJointStates.at(mUndoneJointStatesIndex);
if (mUndoneJointStatesIndex == 0)
mLastSetJointStates.pop_front();
return result;
}
void FSJointPose::recaptureJoint()
{
if (mIsCollisionVolume)
return;
LLJoint* joint = mJointState->getJoint();
if (!joint)
return;
addStateToUndo(FSJointState(mCurrentState));
mCurrentState = FSJointState(joint);
}
void FSJointPose::recaptureJointAsDelta()
{
LLJoint* joint = mJointState->getJoint();
if (!joint)
return;
addStateToUndo(FSJointState(mCurrentState));
mCurrentState.updateFromJoint(joint);
}
void FSJointPose::swapRotationWith(FSJointPose* oppositeJoint)
{
if (!oppositeJoint)
return;
if (mIsCollisionVolume)
return;
auto tempState = FSJointState(mCurrentState);
mCurrentState.cloneRotationFrom(oppositeJoint->mCurrentState);
oppositeJoint->mCurrentState.cloneRotationFrom(tempState);
}
void FSJointPose::cloneRotationFrom(FSJointPose* fromJoint)
{
if (!fromJoint)
return;
addStateToUndo(FSJointState(mCurrentState));
mCurrentState.cloneRotationFrom(fromJoint->mCurrentState);
}
void FSJointPose::mirrorRotationFrom(FSJointPose* fromJoint)
{
if (!fromJoint)
return;
cloneRotationFrom(fromJoint);
mCurrentState.reflectRotation();
}
void FSJointPose::revertJoint()
{
mCurrentState.revertJointToBase(mJointState->getJoint());
}
void FSJointPose::reflectRotation()
{
if (mIsCollisionVolume)
return;
mCurrentState.reflectRotation();
}
void FSJointPose::zeroBaseRotation()
{
if (mIsCollisionVolume)
return;
if (!isBaseRotationZero())
purgeUndoQueue();
mCurrentState.zeroBaseRotation();
}
bool FSJointPose::isBaseRotationZero() const
{
if (mIsCollisionVolume)
return true;
return mCurrentState.baseRotationIsZero();
}
void FSJointPose::purgeUndoQueue()
{
mUndoneJointStatesIndex = 0;
mLastSetJointStates.clear();
}
bool FSJointPose::canPerformUndo() const
{
switch (mLastSetJointStates.size())
{
case 0: // nothing to undo
return false;
case 1: // there is only one change
return true;
default: // current state is not the bottom of the deque
return mUndoneJointStatesIndex != (mLastSetJointStates.size() - 1);
}
}
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