OpenSceneGraph/src/osg/Sequence.cpp

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/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* 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
* OpenSceneGraph Public License for more details.
*/
#include <osg/Sequence>
#include <osg/Notify>
using namespace osg;
/**
* Sequence constructor.
*/
Sequence::Sequence() :
Group(),
_value(-1),
_now(0.0),
_start(-1.0),
_totalTime(0.),
_resetTotalTime(true),
_loopMode(LOOP),
_begin(0),
_end(-1),
_speed(0),
_nreps(-1),
_nrepsRemain(-1),
_step(0),
_defaultTime(1.),
_lastFrameTime(0.),
_saveRealLastFrameTime(-1.),
_mode(STOP),
_sync(false),
_clearOnStop(false)
{
setNumChildrenRequiringUpdateTraversal(1);
}
Sequence::Sequence(const Sequence& seq, const CopyOp& copyop) :
Group(seq, copyop),
_value(seq._value),
_now(seq._now),
_start(seq._start),
_frameTime(seq._frameTime),
_totalTime(seq._totalTime),
_resetTotalTime(seq._resetTotalTime),
_loopMode(seq._loopMode),
_begin(seq._begin),
_end(seq._end),
_speed(seq._speed),
_nreps(seq._nreps),
_nrepsRemain(seq._nrepsRemain),
_step(seq._step),
_defaultTime(seq._defaultTime),
_lastFrameTime(seq._lastFrameTime),
_saveRealLastFrameTime(seq._saveRealLastFrameTime),
_mode(seq._mode),
_sync(seq._sync),
_clearOnStop(seq._clearOnStop)
{
setNumChildrenRequiringUpdateTraversal(getNumChildrenRequiringUpdateTraversal()+1);
}
bool Sequence::addChild( Node *child)
{
return Sequence::insertChild( _children.size(), child, _defaultTime);
}
bool Sequence::addChild( Node *child, double t)
{
return Sequence::insertChild( _children.size(), child, t);
}
bool Sequence::insertChild( unsigned int index, Node *child)
{
return Sequence::insertChild(index, child, _defaultTime);
}
bool Sequence::insertChild( unsigned int index, Node *child, double t)
{
if (Group::insertChild(index,child))
{
if (index>=_frameTime.size())
{
Sequence::setTime(index, t);
}
_resetTotalTime = true;
return true;
}
return false;
}
bool Sequence::removeChild( Node *child )
{
if (Group::removeChild(child ))
{
unsigned int pos = getChildIndex(child);
if (pos < _children.size())
return Sequence::removeChildren(pos,1);
else
return false;
}
else
return false;
}
bool Sequence::removeChildren(unsigned int pos,unsigned int numChildrenToRemove)
{
if (pos<_frameTime.size())
_frameTime.erase(_frameTime.begin()+pos,
osg::minimum(_frameTime.begin()+(pos+numChildrenToRemove),
_frameTime.end()) );
_resetTotalTime = true;
return Group::removeChildren(pos,numChildrenToRemove);
}
// if frame >= _frameTime.size() then extend _frameTime to have frame-1 items
// a time <0 will get set to 0
void Sequence::setTime(unsigned int frame, double t)
{
if (t<0.) t = 0.0;
unsigned int sz = _frameTime.size();
if (frame < sz)
{
_frameTime[frame] = t;
}
else
{
for (unsigned int i = sz; i <= frame; i++)
{
_frameTime.push_back(t);
}
}
}
// returns a frame time of -1 if frame is out of range
double Sequence::getTime(unsigned int frame) const
{
if (frame < _frameTime.size())
return _frameTime[frame];
else
return -1.0f;
}
void Sequence::setInterval(LoopMode mode, int begin, int end)
{
_loopMode = mode;
_end = end;
_begin = begin;
// _value based on _begin & _end
_value = -1;
_resetTotalTime = true;
}
void Sequence::setDuration(float speed, int nreps)
{
_speed = speed;
// -1 means loop forever
_nreps = (nreps < 0 ? -1:nreps);
// countdown of laps around the track
_nrepsRemain = _nreps;
}
void Sequence::setMode(SequenceMode mode)
{
int ubegin, uend;
switch (mode)
{
case START:
// restarts sequence from beginning
_value = -1;
// Figure out which direction to start stepping the sequence
ubegin = (_begin < 0 ? (int)_frameTime.size()-1: _begin);
uend = (_end < 0 ? (int)_frameTime.size()-1: _end);
_step = (ubegin > uend ? -1 : 1);
_start = -1.0;
_mode = mode;
if (_saveRealLastFrameTime>=0.)
{
_frameTime[_saveRealLastFrameValue] = _saveRealLastFrameTime;
_saveRealLastFrameTime = -1.;
}
break;
case STOP:
_mode = mode;
break;
case PAUSE:
if (_mode == START)
_mode = PAUSE;
break;
case RESUME:
if (_mode == PAUSE)
_mode = START;
break;
}
}
void Sequence::traverse(NodeVisitor& nv)
{
if (getNumChildren()==0) return;
const FrameStamp* framestamp = nv.getFrameStamp();
if (framestamp)
{
_now = framestamp->getSimulationTime();
}
if (nv.getVisitorType()==NodeVisitor::UPDATE_VISITOR &&
_mode == START &&
!_frameTime.empty() && getNumChildren()!=0)
{
// if begin or end < 0, make it last frame
int _ubegin = (_begin < 0 ? (int)_frameTime.size()-1: _begin);
int _uend = (_end < 0 ? (int)_frameTime.size()-1: _end);
int _sbegin = osg::minimum(_ubegin,_uend);
int _send = osg::maximum(_ubegin,_uend);
if (framestamp)
{
// hack for last frame time
if (_lastFrameTime>0. && _nrepsRemain==1 && _saveRealLastFrameTime<0.)
{
if ( _loopMode == LOOP)
{
if ((_step>0 && _value!=_send) || (_step<0 && _value!=_sbegin))
{
_saveRealLastFrameTime=_frameTime[_uend];
_saveRealLastFrameValue = _uend;
_frameTime[_uend] = _lastFrameTime;
_resetTotalTime = true;
}
}
else
{
if (_step>0 && _value!=_sbegin)
{
_saveRealLastFrameTime=_frameTime[_send];
_saveRealLastFrameValue = _send;
_frameTime[_send] = _lastFrameTime;
_resetTotalTime = true;
}
else if (_step<0 && _value!=_send)
{
_saveRealLastFrameTime=_frameTime[_sbegin];
_saveRealLastFrameValue = _sbegin;
_frameTime[_sbegin] = _lastFrameTime;
_resetTotalTime = true;
}
}
}
// I never know when to stop!
// more fun for last frame time
if (_nrepsRemain==0)
{
if (!_clearOnStop)
{
_mode = STOP;
}
else
{
if ( (_loopMode == LOOP) &&
( (_step>0 && _value!=_send) ||
(_step<0 && _value!=_sbegin)))
{
_mode = STOP;
}
else if ( (_loopMode == SWING) &&
( (_step<0 && _value!=_send) ||
(_step>0 && _value!=_sbegin)))
{
_mode = STOP;
}
}
}
// update local variables
_update();
// now for the heavy lifting! three options
// 1) still in the same frame, so have nothing to do
// 2) just in the next frame
// 3) need to calculate everything based on elapsed time
if ((_now - _start) > _frameTime[_value]*osg::absolute(_speed))
{ // case 2 or case 3
// most of the time it's just the next frame in the sequence
int nextValue = _getNextValue();
if (!_sync ||
((_now - _start) <= (_frameTime[_value]+_frameTime[nextValue])*osg::absolute(_speed)) )
{
_start += _frameTime[_value]*osg::absolute(_speed);
// repeat or change directions?
if ( (_step>0 && nextValue==_send) ||
(_step<0 && nextValue==_sbegin))
{
if (_nreps>0)
_nrepsRemain--;
// change direction
if (_loopMode == SWING)
_step = -_step;
}
_value = nextValue;
}
else // case 3
{
// recalculate everything based on elapsed time
// elapsed time from start of the frame
double deltaT = _now - _start;
// factors _speed into account
double adjTotalTime = _totalTime*osg::absolute(_speed);
// how many laps?
int loops = (int)(deltaT/adjTotalTime);
// adjust reps & quick check to see if done becuase reps used up
if (_nreps>0)
{
if (_loopMode == LOOP)
_nrepsRemain -= loops;
else
_nrepsRemain -= 2*loops;
if (_nrepsRemain<=0)
{
_nrepsRemain = 0;
_mode = STOP;
OSG_WARN << "stopping because elapsed time greater or equal to time remaining to repeat the sequence\n";
}
}
// deduct off time for laps- _value shouldn't change as it's modulo the total time
double jumpStart = ((double)loops * adjTotalTime);
// step through frames one at a time until caught up
while (deltaT-jumpStart > _frameTime[_value]*osg::absolute(_speed))
{
jumpStart += _frameTime[_value]*osg::absolute(_speed );
_value = _getNextValue();
}
// set start time
_start += jumpStart;
}
}
}
else
OSG_WARN << "osg::Sequence::traverse(NodeVisitor&) requires a valid FrameStamp to function, sequence not updated.\n";
}
// now do the traversal
if (nv.getTraversalMode()==NodeVisitor::TRAVERSE_ACTIVE_CHILDREN)
{
if ( !((_mode == STOP) && _clearOnStop) &&
(getValue()>=0 && getValue()<(int)_children.size()) )
{
_children[getValue()]->accept(nv);
}
}
else
{
Group::traverse(nv);
}
}
int Sequence::_getNextValue()
{
if (_frameTime.empty() || getNumChildren()==0) return 0;
// if begin or end < 0, make it last frame
int _ubegin = (_begin < 0 ? (int)_frameTime.size()-1: _begin);
int _uend = (_end < 0 ? (int)_frameTime.size()-1: _end);
int _sbegin = osg::minimum(_ubegin,_uend);
int _send = osg::maximum(_ubegin,_uend);
int v = _value + _step;
if (_sbegin==_send)
{
return _sbegin;
}
else if (v<=_send && v>=_sbegin)
{
return v;
}
else
{
int vs = _send - _sbegin + 1;
if (_loopMode == LOOP)
{
v = ((v-_sbegin)%vs) + _sbegin;
if (v<_sbegin)
{
v+=vs;
}
return v;
}
else // SWING
{
if (v>_send)
return (2*_send-v);
else
return (2*_sbegin-v);
}
}
}
void Sequence::_update()
{
if (_frameTime.empty()) return;
// if begin or end < 0, make it last frame
int _ubegin = (_begin < 0 ? (int)_frameTime.size()-1: _begin);
int _uend = (_end < 0 ? (int)_frameTime.size()-1: _end);
int _sbegin = osg::minimum(_ubegin,_uend);
int _send = osg::maximum(_ubegin,_uend);
// if _value<0, new or restarted
if (_value<0)
{
_value = (_begin < 0 ? (int)_frameTime.size()-1: _begin);
_resetTotalTime = true;
}
// if _start<0, new or restarted
if (_start<0)
{
_start = _now;
_resetTotalTime = true;
}
// need to calculate time of a complete sequence?
// time is different depending on loop mode
if (_resetTotalTime)
{
if (_loopMode == LOOP)
{
_totalTime = 0.0;
for (int i=_sbegin; i<=_send; i++)
{
_totalTime += _frameTime[i];
}
}
else //SWING
{
_totalTime = _frameTime[_sbegin];
// ones in the middle get counted twice: 0 1 2 3 4 3 2 1 0
for (int i=_sbegin+1; i<_send; i++)
{
_totalTime += 2*_frameTime[i];
}
if (_sbegin != _send)
{
_totalTime += _frameTime[_send];
}
}
_resetTotalTime = false;
}
}