+/* -*-c++-*-
+ *
+ * Copyright (C) 2008 Stuart Buchanan
+ *
+ * This program 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 of the
+ * License, or (at your option) any later version.
+ *
+ * This program 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 this program; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
+ * MA 02110-1301, USA.
+ *
+ */
+
+#include <osgDB/Registry>
+#include <osgDB/Input>
+#include <osgDB/ParameterOutput>
+
#include "ShaderGeometry.hxx"
+#include <algorithm>
+
using namespace osg;
+using namespace osgDB;
namespace simgear
{
-void ShaderGeometry::drawImplementation(RenderInfo& renderInfo) const
+void ShaderGeometry::addObject(const Vec3& position, float scale,
+ int texture_index)
+{
+ if (!_posScaleArray.valid()) {
+ _posScaleArray = new Vec4Array();
+ _vertexAttribArray = new FloatArray();
+ }
+ _posScaleArray->push_back(Vec4(position, scale));
+ _vertexAttribArray->push_back((float)texture_index / varieties);
+ dirtyBound();
+}
+
+void ShaderGeometry::drawImplementation(osg::RenderInfo& renderInfo) const
{
- for(PositionSizeList::const_iterator itr = _trees.begin();
- itr != _trees.end();
- ++itr) {
- glColor4fv(itr->ptr());
+ State& state = *renderInfo.getState();
+ const Extensions* extensions = getExtensions(state.getContextID(), true);
+ Vec4Array::const_iterator citer = _posScaleArray->begin();
+ Vec4Array::const_iterator cend = _posScaleArray->end();
+ FloatArray::const_iterator viter = _vertexAttribArray->begin();
+ for (; citer != cend; ++citer, ++viter) {
+ const Vec4& color = *citer;
+ const float attrib = *viter;
+ glColor4fv(color.ptr());
+ extensions->glVertexAttrib1f(1, attrib);
_geometry->draw(renderInfo);
}
}
BoundingBox ShaderGeometry::computeBound() const
{
- BoundingBox geom_box = _geometry->getBound();
+ const BoundingBox& geom_box = _geometry->getBound();
BoundingBox bb;
- for(PositionSizeList::const_iterator itr = _trees.begin();
- itr != _trees.end();
- ++itr) {
- bb.expandBy(geom_box.corner(0)*(*itr)[3] +
- Vec3((*itr)[0], (*itr)[1], (*itr)[2]));
- bb.expandBy(geom_box.corner(7)*(*itr)[3] +
- Vec3((*itr)[0], (*itr)[1], (*itr)[2]));
+ const Vec4Array* posScales = _posScaleArray.get();
+ if (!posScales)
+ return bb;
+// size_t numPosScales = posScales->size();
+ for (Vec4Array::const_iterator iter = _posScaleArray->begin(),
+ e = _posScaleArray->end();
+ iter != e;
+ ++iter) {
+ const Vec4& posScale = *iter;
+ const float scale = posScale.w();
+ const Vec3 pos(posScale.x(), posScale.y(), posScale.z());
+ for (unsigned j = 0; j < 7; ++j)
+ bb.expandBy(geom_box.corner(j) * scale + pos);
}
return bb;
}
+bool ShaderGeometry_readLocalData(Object& obj, Input& fr)
+{
+ bool iteratorAdvanced = false;
+
+ ShaderGeometry& geom = static_cast<ShaderGeometry&>(obj);
+
+ if ((fr[0].matchWord("geometry"))) {
+ ++fr;
+ iteratorAdvanced = true;
+ osg::Geometry* drawable = dynamic_cast<osg::Geometry*>(fr.readDrawable());
+ if (drawable) {
+ geom._geometry = drawable;
+ }
+ }
+// int capacity = 0;
+ if (fr.matchSequence("posScale %i {")) {
+ int entry = fr[1].getNoNestedBrackets();
+ int capacity;
+ fr[1].getInt(capacity);
+ Vec4Array* posScale = new Vec4Array;
+ posScale->reserve(capacity);
+ fr += 3;
+ while (!fr.eof() && fr[0].getNoNestedBrackets() > entry) {
+ Vec4 v;
+ if (fr[0].getFloat(v.x()) && fr[1].getFloat(v.y())
+ && fr[2].getFloat(v.z()) && fr[3].getFloat(v.w())) {
+ fr += 4;
+ posScale->push_back(v);
+ }
+ else ++fr;
+ }
+ ++fr;
+ geom._posScaleArray = posScale;
+ }
+ if (fr.matchSequence("variety %i {")) {
+ int entry = fr[1].getNoNestedBrackets();
+ int capacity;
+ fr[1].getInt(capacity);
+ FloatArray* variety = new FloatArray;
+ variety->reserve(capacity);
+ fr += 3;
+ while (!fr.eof() && fr[0].getNoNestedBrackets() > entry) {
+ float val;
+ if (fr[0].getFloat(val)) {
+ ++fr;
+ variety->push_back(val);
+ }
+ else ++fr;
+ }
+ ++fr;
+ geom._vertexAttribArray = variety;
+ }
+
+ return iteratorAdvanced;
}
+
+bool ShaderGeometry_writeLocalData(const Object& obj, Output& fw)
+{
+ const ShaderGeometry& geom = static_cast<const ShaderGeometry&>(obj);
+
+ fw.indent() << "geometry" << std::endl;
+ fw.writeObject(*geom._geometry);
+ if (geom._posScaleArray.valid()) {
+ fw.indent() << "posScale " << geom._posScaleArray->size() << " {\n";
+ fw.moveIn();
+ for (Vec4Array::const_iterator iter = geom._posScaleArray->begin();
+ iter != geom._posScaleArray->end();
+ ++iter) {
+ fw.indent() << iter->x() << " " << iter->y() << " " << iter->z() << " "
+ << iter->w() << "\n";
+ }
+ fw.moveOut();
+ fw.indent() << "}\n";
+ }
+ if (geom._vertexAttribArray.valid()) {
+ fw.indent() << "variety" << geom._vertexAttribArray->size() << " {\n";
+ fw.moveIn();
+ for (FloatArray::const_iterator iter = geom._vertexAttribArray->begin();
+ iter != geom._vertexAttribArray->end();
+ ++iter) {
+ fw.indent() << *iter << "\n";
+ }
+ fw.moveOut();
+ fw.indent() << "}\n";
+ }
+ return true;
+}
+
+osgDB::RegisterDotOsgWrapperProxy shaderGeometryProxy
+(
+ new ShaderGeometry,
+ "ShaderGeometry",
+ "Object Drawable ShaderGeometry",
+ &ShaderGeometry_readLocalData,
+ &ShaderGeometry_writeLocalData
+ );
+}
+