/**************************************************************************\ * * This file is part of the Coin 3D visualization library. * Copyright (C) 1998-2007 by Systems in Motion. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * ("GPL") version 2 as published by the Free Software Foundation. * See the file LICENSE.GPL at the root directory of this source * distribution for additional information about the GNU GPL. * * For using Coin with software that can not be combined with the GNU * GPL, and for taking advantage of the additional benefits of our * support services, please contact Systems in Motion about acquiring * a Coin Professional Edition License. * * See http://www.coin3d.org/ for more information. * * Systems in Motion, Postboks 1283, Pirsenteret, 7462 Trondheim, NORWAY. * http://www.sim.no/ sales@sim.no coin-support@coin3d.org * \**************************************************************************/ /*! \class SoCoordinate4 SoCoordinate4.h Inventor/nodes/SoCoordinate4.h \brief The SoCoordinate4 class is a node for providing coordinates to shape nodes. \ingroup nodes When encountering nodes of this type during traversal, the coordinates it contains will be put on the statestack for later use by shape nodes of types which needs coordinate sets (like SoFaceSet nodes or SoPointSet nodes). The fourth element of the coordinate vectors is used for normalization. A node of this type where all the normalization values are equal to 1.0 is the equivalent of setting up an SoCoordinate3 node. Note that an SoCoordinate4 node will \e replace the coordinates already present in the state (if any). FILE FORMAT/DEFAULTS: \code Coordinate4 { point 0 0 0 1 } \endcode \sa SoCoordinate3 */ #include #include #include #include #include #include #include #include #include #include "../misc/SoVBO.h" #include "../misc/PointerMap.h" /*! \var SoMFVec4f SoCoordinate4::point Coordinate set of 3D points as 4D vectors (each vector contains a 3D coordinate plus normalization value). */ class SoCoordinate4P { public: SoCoordinate4P() : vbo(NULL) { } ~SoCoordinate4P() { delete this->vbo; } SoVBO * vbo; }; #define PRIVATE(obj) ((SoCoordinate4P*) PointerMap::get(obj)) // ************************************************************************* SO_NODE_SOURCE(SoCoordinate4); /*! Constructor. */ SoCoordinate4::SoCoordinate4(void) { PointerMap::add(this, new SoCoordinate4P); SO_NODE_INTERNAL_CONSTRUCTOR(SoCoordinate4); SO_NODE_ADD_FIELD(point, (SbVec4f(0.0f, 0.0f, 0.0f, 1.0f))); } /*! Destructor. */ SoCoordinate4::~SoCoordinate4() { SoCoordinate4P * pimpl = PRIVATE(this); PointerMap::remove(this); delete pimpl; } // Doc from superclass. void SoCoordinate4::initClass(void) { SO_NODE_INTERNAL_INIT_CLASS(SoCoordinate4, SO_FROM_INVENTOR_1); SO_ENABLE(SoGetBoundingBoxAction, SoCoordinateElement); SO_ENABLE(SoGLRenderAction, SoGLCoordinateElement); SO_ENABLE(SoPickAction, SoCoordinateElement); SO_ENABLE(SoCallbackAction, SoCoordinateElement); SO_ENABLE(SoGetPrimitiveCountAction, SoCoordinateElement); } // Doc from superclass. void SoCoordinate4::getBoundingBox(SoGetBoundingBoxAction * action) { SoCoordinate4::doAction(action); } // Doc from superclass. void SoCoordinate4::doAction(SoAction * action) { SoCoordinateElement::set4(action->getState(), this, point.getNum(), point.getValues(0)); } // Doc from superclass. void SoCoordinate4::GLRender(SoGLRenderAction * action) { SoCoordinate4::doAction(action); #ifdef COIN_NEXT_MINOR SoCoordinate4P * pimpl = PRIVATE(this); SoState * state = action->getState(); const int num = this->point.getNum(); SbBool setvbo = FALSE; SoBase::staticDataLock(); if (SoGLVBOElement::shouldCreateVBO(state, num)) { SbBool dirty = FALSE; setvbo = TRUE; if (pimpl->vbo == NULL) { pimpl->vbo = new SoVBO(GL_ARRAY_BUFFER, GL_STATIC_DRAW); dirty = TRUE; } else if (pimpl->vbo->getBufferDataId() != this->getNodeId()) { dirty = TRUE; } if (dirty) { pimpl->vbo->setBufferData(this->point.getValues(0), num*sizeof(SbVec4f), this->getNodeId()); } } else if (pimpl->vbo && pimpl->vbo->getBufferDataId()) { // clear buffers to deallocate VBO memory pimpl->vbo->setBufferData(NULL, 0, 0); } SoBase::staticDataUnlock(); if (setvbo) { SoGLVBOElement::setVertexVBO(state, pimpl->vbo); } #endif // COIN_NEXT_MINOR } // Doc from superclass. void SoCoordinate4::callback(SoCallbackAction * action) { SoCoordinate4::doAction(action); } // Doc from superclass. void SoCoordinate4::pick(SoPickAction * action) { SoCoordinate4::doAction(action); } // Doc from superclass. void SoCoordinate4::getPrimitiveCount(SoGetPrimitiveCountAction * action) { SoCoordinate4::doAction(action); } #undef PRIVATE