815 lines
22 KiB
C++
815 lines
22 KiB
C++
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#include "std3d.h"
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#include "nel/misc/common.h"
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#include "nel/3d/ps_ribbon_base.h"
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#include "nel/3d/particle_system.h"
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namespace NL3D
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{
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////////////////////////////////////
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// CPSRibbonBase implementation //
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////////////////////////////////////
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/// build some hermite spline value, with the given points and tangents
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static inline void BuildHermiteVector(const NLMISC::CVector &P0,
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const NLMISC::CVector &P1,
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const NLMISC::CVector &T0,
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const NLMISC::CVector &T1,
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NLMISC::CVector &dest,
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float lambda
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)
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{
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NL_PS_FUNC(BuildHermiteVector)
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const float lambda2 = lambda * lambda;
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const float lambda3 = lambda2 * lambda;
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const float h1 = 2 * lambda3 - 3 * lambda2 + 1;
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const float h2 = - 2 * lambda3 + 3 * lambda2;
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const float h3 = lambda3 - 2 * lambda2 + lambda;
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const float h4 = lambda3 - lambda2;
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/// just avoid some ctor calls here...
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dest.set (h1 * P0.x + h2 * P1.x + h3 * T0.x + h4 * T1.x,
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h1 * P0.y + h2 * P1.y + h3 * T0.y + h4 * T1.y,
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h1 * P0.z + h2 * P1.z + h3 * T0.z + h4 * T1.z);
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}
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/// for test
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static inline void BuildLinearVector(const NLMISC::CVector &P0,
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const NLMISC::CVector &P1,
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NLMISC::CVector &dest,
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float lambda,
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float oneMinusLambda
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)
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{
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NL_PS_FUNC(BuildLinearVector)
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dest.set (lambda * P1.x + oneMinusLambda * P0.x,
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lambda * P1.y + oneMinusLambda * P0.y,
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lambda * P1.z + oneMinusLambda * P0.z);
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}
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const uint EndRibbonStorage = 1;
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//=======================================================
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CPSRibbonBase::CPSRibbonBase() : _NbSegs(8),
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_SegDuration(0.02f),
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_Parametric(false),
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_RibbonIndex(0),
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_MatrixMode(FatherMatrix),
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_LastUpdateDate(0),
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_RibbonMode(VariableSize),
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_InterpolationMode(Hermitte),
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_RibbonLength(1),
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_SegLength(_RibbonLength / _NbSegs),
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_LODDegradation(1)
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{
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NL_PS_FUNC(CPSRibbonBase_CPSRibbonBase)
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initDateVect();
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}
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//=======================================================
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void CPSRibbonBase::setMatrixMode(TMatrixMode matrixMode)
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{
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NL_PS_FUNC(CPSRibbonBase_setMatrixMode)
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if (matrixMode == _MatrixMode) return;
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if (_Owner) resetFromOwner();
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_MatrixMode = matrixMode;
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}
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//=======================================================
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void CPSRibbonBase::setRibbonLength(float length)
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{
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NL_PS_FUNC(CPSRibbonBase_setRibbonLength)
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nlassert(length > 0.f);
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_RibbonLength = length;
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_SegLength = length / _NbSegs;
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}
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//=======================================================
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void CPSRibbonBase::setRibbonMode(TRibbonMode mode)
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{
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NL_PS_FUNC(CPSRibbonBase_setRibbonMode)
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nlassert(mode < RibbonModeLast);
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_RibbonMode = mode;
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}
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//=======================================================
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void CPSRibbonBase::setInterpolationMode(TInterpolationMode mode)
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{
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NL_PS_FUNC(CPSRibbonBase_setInterpolationMode)
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nlassert(mode < InterpModeLast);
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_InterpolationMode = mode;
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}
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//=======================================================
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void CPSRibbonBase::setTailNbSeg(uint32 nbSegs)
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{
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NL_PS_FUNC(CPSRibbonBase_setTailNbSeg)
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nlassert(nbSegs >= 1);
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_NbSegs = nbSegs;
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_RibbonIndex = 0;
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if (_Owner)
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{
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resize(_Owner->getMaxSize());
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}
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initDateVect();
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}
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//=======================================================
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void CPSRibbonBase::setSegDuration(TAnimationTime ellapsedTime)
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{
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NL_PS_FUNC(CPSRibbonBase_setSegDuration)
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_SegDuration = ellapsedTime;
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}
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//=======================================================
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void CPSRibbonBase::updateGlobals()
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{
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NL_PS_FUNC(CPSRibbonBase_updateGlobals)
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nlassert(!_Parametric);
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nlassert(_Owner);
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const uint size = _Owner->getSize();
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if (!size) return;
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const TAnimationTime currDate = _Owner->getOwner()->getSystemDate() + CParticleSystem::RealEllapsedTime;
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if (currDate - _LastUpdateDate >= _SegDuration)
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{
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if (_RibbonIndex == 0) _RibbonIndex = _NbSegs + EndRibbonStorage;
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else --_RibbonIndex;
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/// decal date
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::memmove(&_SamplingDate[1], &_SamplingDate[0], sizeof(float) * (_NbSegs + EndRibbonStorage));
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_LastUpdateDate = currDate;
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}
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/// save current date
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_SamplingDate[0] = currDate;
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/// updating ribbons positions
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TPSMatrixMode mm = convertMatrixMode();
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if (mm == _Owner->getMatrixMode())
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{
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// trail reside in the same coord system -> no conversion needed
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TPSAttribVector::iterator posIt = _Owner->getPos().begin();
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NLMISC::CVector *currIt = &_Ribbons[_RibbonIndex];
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uint k = size;
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for (;;)
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{
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*currIt = *posIt;
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--k;
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if (!k) break;
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++posIt;
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currIt += (_NbSegs + 1 + EndRibbonStorage);
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}
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}
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else
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{
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nlassert(_Owner->getOwner());
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const CMatrix &mat = CPSLocated::getConversionMatrix(*_Owner->getOwner(), mm, _Owner->getMatrixMode());
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TPSAttribVector::iterator posIt = _Owner->getPos().begin();
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NLMISC::CVector *currIt = &_Ribbons[_RibbonIndex];
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uint k = size;
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for (;;)
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{
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*currIt = mat * *posIt;
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--k;
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if (!k) break;
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++posIt;
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currIt += (_NbSegs + 1 + EndRibbonStorage);
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}
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}
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}
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//=======================================================
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void CPSRibbonBase::computeHermitteRibbon(uint index, NLMISC::CVector *dest, uint stride /* = sizeof(NLMISC::CVector)*/)
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{
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NL_PS_FUNC(CPSRibbonBase_CVector )
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nlassert(!_Parametric);
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NLMISC::CVector *startIt = &_Ribbons[(_NbSegs + 1 + EndRibbonStorage) * index];
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NLMISC::CVector *endIt = startIt + (_NbSegs + 1 + EndRibbonStorage);
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NLMISC::CVector *currIt = startIt + _RibbonIndex;
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const NLMISC::CVector *firstIt = currIt;
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NLMISC::CVector *nextIt = currIt + 1;
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if (nextIt == endIt) nextIt = startIt;
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NLMISC::CVector *nextNextIt = nextIt + 1;
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if (nextNextIt == endIt) nextNextIt = startIt;
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float *date = &_SamplingDate[0];
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NLMISC::CVector t0 = (*nextIt - *currIt);
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NLMISC::CVector t1 = 0.5f * (*nextNextIt - *currIt);
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uint leftToDo = _UsedNbSegs + 1;
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float lambda = 0.f;
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float lambdaStep = 1.f;
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for (;;)
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{
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float dt = date[0] - date[1];
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if (dt < 10E-6f) // we reached the start of ribbon
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{
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do
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{
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*dest = *currIt;
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
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nlassert(NLMISC::isValidDouble(dest->y));
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nlassert(NLMISC::isValidDouble(dest->z));
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#endif
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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}
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while (--leftToDo);
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return;
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}
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float newLambdaStep = _UsedSegDuration / dt;
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// readapt lambda
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lambda *= newLambdaStep / lambdaStep;
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lambdaStep = newLambdaStep;
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for(;;)
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{
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if (lambda >= 1.f) break;
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/// compute a location
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BuildHermiteVector(*currIt, *nextIt, t0, t1, *dest, lambda);
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
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nlassert(NLMISC::isValidDouble(dest->y));
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nlassert(NLMISC::isValidDouble(dest->z));
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#endif
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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-- leftToDo;
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if (!leftToDo) return;
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lambda += lambdaStep;
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}
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++date;
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lambda -= 1.f;
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// Start new segment and compute new tangents
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t0 = t1;
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currIt = nextIt;
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nextIt = nextNextIt;
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++nextNextIt;
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if (nextNextIt == endIt) nextNextIt = startIt;
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if (nextNextIt == firstIt)
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{
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t1 = *nextIt - *currIt;
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}
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else
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{
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t1 = 0.5f * (*nextNextIt - *currIt);
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}
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}
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}
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//=======================================================
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void CPSRibbonBase::computeLinearRibbon(uint index, NLMISC::CVector *dest, uint stride)
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{
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NL_PS_FUNC(CPSRibbonBase_computeLinearRibbon)
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nlassert(!_Parametric);
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NLMISC::CVector *startIt = &_Ribbons[(_NbSegs + 1 + EndRibbonStorage) * index];
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NLMISC::CVector *endIt = startIt + (_NbSegs + 1 + EndRibbonStorage);
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NLMISC::CVector *currIt = startIt + _RibbonIndex;
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NLMISC::CVector *nextIt = currIt + 1;
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if (nextIt == endIt) nextIt = startIt;
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NLMISC::CVector *nextNextIt = nextIt + 1;
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if (nextNextIt == endIt) nextNextIt = startIt;
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float *date = &_SamplingDate[0];
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uint leftToDo = _UsedNbSegs + 1;
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float lambda = 0.f;
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float lambdaStep = 1.f;
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for (;;)
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{
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float dt = date[0] - date[1];
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if (dt < 10E-6f) // we reached the start of ribbon
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{
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do
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{
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*dest = *currIt;
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
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nlassert(NLMISC::isValidDouble(dest->y));
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nlassert(NLMISC::isValidDouble(dest->z));
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#endif
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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}
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while (--leftToDo);
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return;
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}
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float newLambdaStep = _UsedSegDuration / dt;
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// readapt lambda
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lambda *= newLambdaStep / lambdaStep;
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lambdaStep = newLambdaStep;
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float oneMinusLambda = 1.f - lambda;
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for(;;)
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{
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if (lambda >= 1.f) break;
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/// compute a location
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BuildLinearVector(*currIt, *nextIt, *dest, lambda, oneMinusLambda);
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
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nlassert(NLMISC::isValidDouble(dest->y));
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nlassert(NLMISC::isValidDouble(dest->z));
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#endif
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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-- leftToDo;
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if (!leftToDo) return;
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lambda += lambdaStep;
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oneMinusLambda -= lambdaStep;
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}
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++date;
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lambda -= 1.f;
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currIt = nextIt;
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nextIt = nextNextIt;
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++nextNextIt;
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if (nextNextIt == endIt) nextNextIt = startIt;
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}
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}
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/*
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void CPSRibbonBase::computeLinearRibbon(uint index, NLMISC::CVector *dest, uint stride)
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{
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nlassert(!_Parametric);
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NLMISC::CVector *startIt = &_Ribbons[(_NbSegs + 1 + EndRibbonStorage) * index];
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NLMISC::CVector *endIt = startIt + (_NbSegs + 1 + EndRibbonStorage);
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NLMISC::CVector *currIt = startIt + _RibbonIndex;
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NLMISC::CVector *nextIt = currIt + 1;
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if (nextIt == endIt) nextIt = startIt;
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NLMISC::CVector *nextNextIt = nextIt + 1;
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if (nextNextIt == endIt) nextNextIt = startIt;
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float *date = &_SamplingDate[0];
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uint leftToDo = _UsedNbSegs + 1;
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float lambda = 0.f;
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float dt = date[0] - date[1];
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if (dt < 10E-6f) // we reached the start of ribbon
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{
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do
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{
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*dest = *currIt;
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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}
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while (--leftToDo);
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return;
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}
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float lambdaStep = _UsedSegDuration / dt;
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BuildLinearVector(*currIt, *nextIt, *dest, 0.f, 1.f);
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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-- leftToDo;
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// snap lambda to nearest time step
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lambda = lambdaStep * fmodf(date[0], _UsedSegDuration) / _UsedSegDuration;
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for (;;)
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{
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float oneMinusLambda = 1.f - lambda;
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for(;;)
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{
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if (lambda >= 1.f) break;
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/// compute a location
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BuildLinearVector(*currIt, *nextIt, *dest, lambda, oneMinusLambda);
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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-- leftToDo;
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if (!leftToDo) return;
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lambda += lambdaStep;
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oneMinusLambda -= lambdaStep;
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}
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++date;
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lambda -= 1.f;
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currIt = nextIt;
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nextIt = nextNextIt;
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++nextNextIt;
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if (nextNextIt == endIt) nextNextIt = startIt;
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float dt = date[0] - date[1];
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if (dt < 10E-6f) // we reached the start of ribbon
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{
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do
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{
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*dest = *currIt;
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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}
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while (--leftToDo);
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return;
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}
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float newLambdaStep = _UsedSegDuration / dt;
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// readapt lambda
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lambda *= newLambdaStep / lambdaStep;
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lambdaStep = newLambdaStep;
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}
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}
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*/
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//=======================================================
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void CPSRibbonBase::computeLinearCstSizeRibbon(uint index, NLMISC::CVector *dest, uint stride /* = sizeof(NLMISC::CVector)*/)
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{
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NL_PS_FUNC(CPSRibbonBase_CVector )
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nlassert(!_Parametric);
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CVector *startIt = &_Ribbons[(_NbSegs + 1 + EndRibbonStorage) * index];
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NLMISC::CVector *endIt = startIt + (_NbSegs + 1 + EndRibbonStorage);
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NLMISC::CVector *currIt = startIt + _RibbonIndex;
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NLMISC::CVector *firstIt = currIt;
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NLMISC::CVector *nextIt = currIt + 1;
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if (nextIt == endIt) nextIt = startIt;
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NLMISC::CVector *nextNextIt = nextIt + 1;
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if (nextNextIt == endIt) nextNextIt = startIt;
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uint leftToDo = _UsedNbSegs + 1;
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float lambda = 0.f;
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float lambdaStep = 1.f;
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/// Our goal here is to match the length of the ribbon, But if it isn't moving fast enough, we must truncate it
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for (;;)
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{
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/// compute length between the 2 sampling points
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const float sampleLength = (*nextIt - *currIt).norm();
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if (sampleLength > 10E-6f)
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{
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/// compute lambda so that it match the length needed for each segment
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float newLambdaStep = _UsedSegLength / sampleLength;
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// readapt lambda
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lambda *= newLambdaStep / lambdaStep;
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lambdaStep = newLambdaStep;
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float oneMinusLambda = 1.f - lambda;
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for(;;)
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{
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if (lambda >= 1.f) break;
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/// compute a location
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BuildLinearVector(*currIt, *nextIt, *dest, lambda, oneMinusLambda);
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
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nlassert(NLMISC::isValidDouble(dest->y));
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nlassert(NLMISC::isValidDouble(dest->z));
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#endif
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dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
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-- leftToDo;
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if (!leftToDo) return;
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lambda += lambdaStep;
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oneMinusLambda -= lambdaStep;
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}
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lambda -= 1.f;
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}
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/// go to next sampling pos
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currIt = nextIt;
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nextIt = nextNextIt;
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++nextNextIt;
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if (nextNextIt == endIt) nextNextIt = startIt;
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if (nextNextIt == firstIt)
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{
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// The length of the sampling curve is too short
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// must truncate the ribbon.
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NLMISC::CVector &toDup = *nextIt;
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while (leftToDo --)
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{
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*dest = toDup;
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#ifdef NL_DEBUG
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nlassert(NLMISC::isValidDouble(dest->x));
|
|
nlassert(NLMISC::isValidDouble(dest->y));
|
|
nlassert(NLMISC::isValidDouble(dest->z));
|
|
#endif
|
|
dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
|
|
}
|
|
return;
|
|
}
|
|
}
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::computeHermitteCstSizeRibbon(uint index, NLMISC::CVector *dest, uint stride /* = sizeof(NLMISC::CVector)*/)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_CVector )
|
|
nlassert(!_Parametric);
|
|
NLMISC::CVector *startIt = &_Ribbons[(_NbSegs + 1 + EndRibbonStorage) * index];
|
|
NLMISC::CVector *endIt = startIt + (_NbSegs + 1 + EndRibbonStorage);
|
|
NLMISC::CVector *currIt = startIt + _RibbonIndex;
|
|
NLMISC::CVector *firstIt = currIt;
|
|
NLMISC::CVector *nextIt = currIt + 1;
|
|
if (nextIt == endIt) nextIt = startIt;
|
|
NLMISC::CVector *nextNextIt = nextIt + 1;
|
|
if (nextNextIt == endIt) nextNextIt = startIt;
|
|
|
|
NLMISC::CVector t0 = (*nextIt - *currIt);
|
|
NLMISC::CVector t1 = 0.5f * (*nextNextIt - *currIt);
|
|
|
|
uint leftToDo = _UsedNbSegs + 1;
|
|
|
|
float lambda = 0.f;
|
|
float lambdaStep = 1.f;
|
|
|
|
|
|
/// Our goal here is to match the length of the ribbon, But if it isn't moving fast enough, we must truncate it
|
|
/// Having a constant speed over a hermite curve is expensive, so we make a (very) rough approximation...
|
|
for (;;)
|
|
{
|
|
/// compute length between the 2 sampling points
|
|
const float sampleLength = (*nextIt - *currIt).norm();
|
|
if (sampleLength > 10E-6f)
|
|
{
|
|
/// compute lambda so that it match the length needed for each segment
|
|
float newLambdaStep = _UsedSegLength / sampleLength;
|
|
// readapt lambda
|
|
lambda *= newLambdaStep / lambdaStep;
|
|
lambdaStep = newLambdaStep;
|
|
|
|
for(;;)
|
|
{
|
|
if (lambda >= 1.f) break;
|
|
/// compute a location
|
|
BuildHermiteVector(*currIt, *nextIt, t0, t1, *dest, lambda);
|
|
#ifdef NL_DEBUG
|
|
nlassert(NLMISC::isValidDouble(dest->x));
|
|
nlassert(NLMISC::isValidDouble(dest->y));
|
|
nlassert(NLMISC::isValidDouble(dest->z));
|
|
#endif
|
|
|
|
dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
|
|
-- leftToDo;
|
|
if (!leftToDo) return;
|
|
lambda += lambdaStep;
|
|
}
|
|
lambda -= 1.f;
|
|
}
|
|
|
|
/// go to next sampling pos
|
|
currIt = nextIt;
|
|
nextIt = nextNextIt;
|
|
++nextNextIt;
|
|
if (nextNextIt == endIt) nextNextIt = startIt;
|
|
if (nextNextIt == firstIt)
|
|
{
|
|
// The length of the sampling curve is too short
|
|
// must truncate the ribbon.
|
|
NLMISC::CVector &toDup = *nextIt;
|
|
while (leftToDo --)
|
|
{
|
|
*dest = toDup;
|
|
#ifdef NL_DEBUG
|
|
nlassert(NLMISC::isValidDouble(dest->x));
|
|
nlassert(NLMISC::isValidDouble(dest->y));
|
|
nlassert(NLMISC::isValidDouble(dest->z));
|
|
#endif
|
|
dest = (NLMISC::CVector *) ((uint8 *) dest + stride);
|
|
}
|
|
return;
|
|
}
|
|
/// update tangents
|
|
t0 = t1;
|
|
t1 = 0.5f * (*nextNextIt - *currIt);
|
|
}
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::computeRibbon(uint index, NLMISC::CVector *dest, uint stride /* = sizeof(NLMISC::CVector)*/)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_CVector )
|
|
switch (_InterpolationMode)
|
|
{
|
|
case Linear:
|
|
if (_RibbonMode == VariableSize)
|
|
{
|
|
computeLinearRibbon(index, dest, stride);
|
|
}
|
|
else
|
|
{
|
|
computeLinearCstSizeRibbon(index, dest, stride);
|
|
}
|
|
break;
|
|
case Hermitte:
|
|
if (_RibbonMode == VariableSize)
|
|
{
|
|
computeHermitteRibbon(index, dest, stride);
|
|
|
|
}
|
|
else
|
|
{
|
|
computeHermitteCstSizeRibbon(index, dest, stride);
|
|
}
|
|
break;
|
|
default:
|
|
nlassert(0);
|
|
break;
|
|
}
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::dupRibbon(uint dest, uint src)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_dupRibbon)
|
|
nlassert(!_Parametric);
|
|
nlassert(_Owner);
|
|
const uint size = _Owner->getSize();
|
|
nlassert(dest < size && src < size);
|
|
::memcpy(&_Ribbons[dest * (_NbSegs + EndRibbonStorage + 1)], &_Ribbons[src * (_NbSegs + EndRibbonStorage + 1)], sizeof(NLMISC::CVector) * (_NbSegs + 1 + EndRibbonStorage));
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::newElement(const CPSEmitterInfo &info)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_newElement)
|
|
if (_Parametric) return;
|
|
/// dump the same pos for all pos of the ribbon
|
|
const uint index = _Owner->getNewElementIndex();
|
|
const NLMISC::CVector &pos = _Owner->getPos()[index]; // get the pos of the new element;
|
|
resetSingleRibbon(index, pos);
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::deleteElement(uint32 index)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_deleteElement)
|
|
if (_Parametric) return;
|
|
const uint32 size = _Owner->getSize();
|
|
if(index == (size - 1)) return; // was the last element, no permutation needed.
|
|
dupRibbon(index, size - 1);
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::resize(uint32 size)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_resize)
|
|
nlassert(size < (1 << 16));
|
|
if (_Parametric) return;
|
|
_Ribbons.resize(size * (_NbSegs + 1 + EndRibbonStorage));
|
|
resetFromOwner();
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::resetSingleRibbon(uint index, const NLMISC::CVector &pos)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_resetSingleRibbon)
|
|
nlassert(!_Parametric);
|
|
TPSMatrixMode mm = convertMatrixMode();
|
|
NLMISC::CVector *it = &_Ribbons[(index * (_NbSegs + 1 + EndRibbonStorage))];
|
|
if (mm == _Owner->getMatrixMode())
|
|
{
|
|
std::fill(it, it + (_NbSegs + 1 + EndRibbonStorage), pos);
|
|
}
|
|
else
|
|
{
|
|
nlassert(_Owner->getOwner());
|
|
const CMatrix &mat = CPSLocated::getConversionMatrix(*_Owner->getOwner(), mm, _Owner->getMatrixMode());
|
|
std::fill(it, it + (_NbSegs + 1 + EndRibbonStorage), mat * pos);
|
|
}
|
|
}
|
|
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::resetFromOwner()
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_resetFromOwner)
|
|
nlassert(!_Parametric);
|
|
TPSAttribVector::iterator posIt = _Owner->getPos().begin();
|
|
TPSAttribVector::iterator endPosIt = _Owner->getPos().end();
|
|
for (uint k = 0; posIt != endPosIt; ++posIt, ++k)
|
|
{
|
|
resetSingleRibbon(k, *posIt);
|
|
}
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::motionTypeChanged(bool parametric)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_motionTypeChanged)
|
|
_Parametric = parametric;
|
|
if (parametric)
|
|
{
|
|
NLMISC::contReset(_Ribbons); // kill the vector
|
|
}
|
|
else
|
|
{
|
|
nlassert(_Owner);
|
|
resize(_Owner->getMaxSize());
|
|
initDateVect();
|
|
resetFromOwner();
|
|
}
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::initDateVect()
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_initDateVect)
|
|
_SamplingDate.resize( _NbSegs + 1 + EndRibbonStorage);
|
|
std::fill(_SamplingDate.begin(), _SamplingDate.begin() + (_NbSegs + 1 + EndRibbonStorage), 0.f);
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::serial(NLMISC::IStream &f) throw(NLMISC::EStream)
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_serial)
|
|
CPSParticle::serial(f);
|
|
// version 2 : added matrix mode
|
|
sint ver = f.serialVersion(2);
|
|
f.serialEnum(_RibbonMode);
|
|
f.serialEnum(_InterpolationMode);
|
|
f.serial(_NbSegs, _SegDuration);
|
|
if (_RibbonMode == FixedSize)
|
|
{
|
|
f.serial(_RibbonLength);
|
|
if (f.isReading())
|
|
{
|
|
_SegLength = _RibbonLength / _NbSegs;
|
|
}
|
|
}
|
|
if (f.isReading())
|
|
{
|
|
if (_Owner)
|
|
{
|
|
resize(_Owner->getMaxSize());
|
|
initDateVect();
|
|
resetFromOwner();
|
|
}
|
|
}
|
|
if (ver >= 1)
|
|
{
|
|
f.serial(_LODDegradation);
|
|
}
|
|
if (ver >= 2)
|
|
{
|
|
f.serialEnum(_MatrixMode);
|
|
}
|
|
}
|
|
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::updateLOD()
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_updateLOD)
|
|
nlassert(_Owner);
|
|
float ratio = _Owner->getOwner()->getOneMinusCurrentLODRatio();
|
|
float squaredRatio = ratio * ratio;
|
|
float lodRatio = _LODDegradation + (1.f - _LODDegradation ) * squaredRatio * squaredRatio * squaredRatio;
|
|
|
|
_UsedNbSegs = (uint) (_NbSegs * lodRatio);
|
|
NLMISC::clamp(_UsedNbSegs, 0u, _NbSegs);
|
|
const float epsilon = 10E-4f;
|
|
_UsedSegDuration = _SegDuration / std::max(epsilon, lodRatio);
|
|
_UsedSegLength = _SegLength / std::max(epsilon, lodRatio);
|
|
|
|
}
|
|
|
|
//=======================================================
|
|
void CPSRibbonBase::systemDateChanged()
|
|
{
|
|
NL_PS_FUNC(CPSRibbonBase_systemDateChanged)
|
|
nlassert(_Owner->getOwner());
|
|
_Owner->getOwner()->getSystemDate();
|
|
float date = _Owner->getOwner()->getSystemDate();
|
|
std::fill(_SamplingDate.begin(), _SamplingDate.end(), date);
|
|
_LastUpdateDate = date;
|
|
}
|
|
|
|
|
|
|
|
} // NL3D
|
|
|