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Documentation                       Search   ps_plane_basis_maker.cpp Go to the documentation of this file. /* Copyright, 2001 Nevrax Ltd. * * This file is part of NEVRAX NEL. * NEVRAX NEL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * NEVRAX NEL 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 * General Public License for more details. * You should have received a copy of the GNU General Public License * along with NEVRAX NEL; see the file COPYING. If not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, * MA 02111-1307, USA. */ #include "std3d.h" #include "3d/ps_plane_basis_maker.h" #include "3d/ps_register_plane_basis_attribs.h" namespace NL3D { CPlaneBasis CPSPlaneBasisGradient::DefaultPlaneBasisTab[] = { CPlaneBasis(NLMISC::CVector::I), CPlaneBasis(NLMISC::CVector::J) }; // CPSPlaneBasisFollowSpeed implementation // CPlaneBasis CPSPlaneBasisFollowSpeed::get(CPSLocated *loc, uint32 index) { return (CPlaneBasis(loc->getSpeed()[index])); } void *CPSPlaneBasisFollowSpeed::make(CPSLocated *loc, uint32 startIndex, void *tab, uint32 stride, uint32 numAttrib, bool enableNoCopy /* = false*/, uint32 srcStep /*= (1 << 16)*/ ) const { nlassert(numAttrib); if (srcStep == (1 << 16)) { TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin() + startIndex , endSpeedIt = loc->getSpeed().begin() + startIndex + numAttrib; uint8 *ptDat = (uint8 *) tab; do { *(CPlaneBasis *) ptDat = CPlaneBasis(*speedIt); ++ speedIt; ptDat += stride; } while (speedIt != endSpeedIt); return tab; } else { uint32 fpIndex = startIndex * srcStep; const TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin(); uint8 *ptDat = (uint8 *) tab; while (numAttrib --) { *(CPlaneBasis *) ptDat = CPlaneBasis(*(speedIt + (fpIndex >> 16))); ptDat += stride; fpIndex += srcStep; } return tab; } } void CPSPlaneBasisFollowSpeed::make4(CPSLocated *loc, uint32 startIndex, void *tab, uint32 stride, uint32 numAttrib, uint32 srcStep /*= (1 << 16)*/ ) const { nlassert(numAttrib); if (srcStep == (1 << 16)) { TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin() + startIndex , endSpeedIt = loc->getSpeed().begin() + startIndex + numAttrib; uint8 *ptDat = (uint8 *) tab; do { *(CPlaneBasis *) ptDat = CPlaneBasis(*speedIt); *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride << 1; ++ speedIt; } while (speedIt != endSpeedIt); } else { uint32 fpIndex = startIndex * srcStep; const TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin(); uint8 *ptDat = (uint8 *) tab; while (numAttrib --) { *(CPlaneBasis *) ptDat = CPlaneBasis(*(speedIt + (fpIndex >> 16))); *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride << 1; fpIndex += srcStep; } } } void CPSPlaneBasisFollowSpeed::makeN(CPSLocated *loc, uint32 startIndex, void *tab, uint32 stride, uint32 numAttrib, uint32 nbReplicate, uint32 srcStep /*= (1 << 16) */ ) const { nlassert(numAttrib); if (srcStep == (1 << 16)) { nlassert(nbReplicate > 1); TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin() + startIndex , endSpeedIt = loc->getSpeed().begin() + startIndex + numAttrib; uint8 *ptDat = (uint8 *) tab; uint k; do { *(CPlaneBasis *) ptDat = CPlaneBasis(*speedIt); k = nbReplicate - 1; do { *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; } while (--k); ptDat += stride; ++ speedIt; } while (speedIt != endSpeedIt); } else { uint32 fpIndex = startIndex * srcStep; nlassert(nbReplicate > 1); const TPSAttribVector::const_iterator speedIt = loc->getSpeed().begin(); uint8 *ptDat = (uint8 *) tab; uint k; while (numAttrib --) { *(CPlaneBasis *) ptDat = CPlaneBasis(*(speedIt + (fpIndex >> 16))); k = nbReplicate - 1; do { *(CPlaneBasis *) (ptDat + stride) = *(CPlaneBasis *) ptDat; ptDat += stride; } while (--k); ptDat += stride; fpIndex += srcStep; } } } // CSpinnerFunctor implementation // CSpinnerFunctor::CSpinnerFunctor() : _NbSamples(16), _Axis(NLMISC::CVector::K) { updateSamples(); } void CSpinnerFunctor::setAxis(const NLMISC::CVector &axis) { _Axis = axis; updateSamples(); } const void CSpinnerFunctor::setNumSamples(uint32 nbSamples) { nlassert(nbSamples > 0); _NbSamples = nbSamples; updateSamples(); } const uint32 CSpinnerFunctor::getNumSamples(void) const { return _NbSamples; } void CSpinnerFunctor::serial(NLMISC::IStream &f) throw(NLMISC::EStream) { f.serialVersion(1); f.serial(_Axis, _NbSamples); if (f.isReading()) updateSamples(); } void CSpinnerFunctor::updateSamples(void) { // compute step between each angle const float angInc = (float) (2.f * NLMISC::Pi / _NbSamples); _PBTab.resize(_NbSamples + 1); NLMISC::CMatrix mat; // compute each sample for (uint32 k = 0; k < _NbSamples; ++k) { mat.setRot(NLMISC::CQuat(_Axis, k * angInc)); _PBTab[k] = CPlaneBasis(mat.getI(), mat.getJ()); } } void PSRegisterPlaneBasisAttribs() { NLMISC_REGISTER_CLASS(CPSPlaneBasisBlender); NLMISC_REGISTER_CLASS(CPSPlaneBasisGradient); NLMISC_REGISTER_CLASS(CPSPlaneBasisMemory); NLMISC_REGISTER_CLASS(CPSPlaneBasisBinOp); NLMISC_REGISTER_CLASS(CPSPlaneBasisFollowSpeed); NLMISC_REGISTER_CLASS(CPSBasisSpinner); } } // NL3D