void _init() { DrawElementsUShort* fan = new DrawElementsUShort(PrimitiveSet::TRIANGLE_FAN); fan->reserve(m_Segments+2); fan->push_back(m_Segments); for (int i=0; i < m_Segments; i++) { fan->push_back(i); } fan->push_back(0); (*m_Coords)[m_Segments].set(0.0, 0.0, -1000.0); addPrimitiveSet(fan); setVertexArray(m_Coords); setColorArray(m_Colors); UShortArray *ci = new UShortArray(m_Segments+1); for (unsigned short i=0; i < m_Segments+1; i++) { (*ci)[i] = i; } setColorIndices(ci); setColorBinding(Geometry::BIND_PER_VERTEX); updateHorizon(1000.0, 120000.0); updateFogColor(Vec4(1.0, 1.0, 1.0, 1.0)); }
bool Primitive_readLocalData(Input& fr,osg::Geometry& geom) { bool iteratorAdvanced = false; bool firstMatched = false; if ((firstMatched = fr.matchSequence("DrawArrays %w %i %i %i")) || fr.matchSequence("DrawArrays %w %i %i") ) { GLenum mode; Geometry_matchPrimitiveModeStr(fr[1].getStr(),mode); int first; fr[2].getInt(first); int count; fr[3].getInt(count); int numInstances = 0; if (firstMatched) { fr[4].getInt(numInstances); fr += 5; } else { fr += 4; } geom.addPrimitiveSet(new DrawArrays(mode, first, count, numInstances)); iteratorAdvanced = true; } else if ((firstMatched = fr.matchSequence("DrawArrayLengths %w %i %i %i {")) || fr.matchSequence("DrawArrayLengths %w %i %i {") ) { int entry = fr[1].getNoNestedBrackets(); GLenum mode; Geometry_matchPrimitiveModeStr(fr[1].getStr(),mode); int first; fr[2].getInt(first); int capacity; fr[3].getInt(capacity); int numInstances = 0; if (firstMatched) { fr[4].getInt(numInstances); fr += 6; } else { fr += 5; } DrawArrayLengths* prim = new DrawArrayLengths; prim->setMode(mode); prim->setNumInstances(numInstances); prim->setFirst(first); prim->reserve(capacity); while (!fr.eof() && fr[0].getNoNestedBrackets()>entry) { unsigned int i; if (fr[0].getUInt(i)) { prim->push_back(i); ++fr; } } ++fr; geom.addPrimitiveSet(prim); iteratorAdvanced = true; } else if ((firstMatched = fr.matchSequence("DrawElementsUByte %w %i %i {")) || fr.matchSequence("DrawElementsUByte %w %i {")) { int entry = fr[1].getNoNestedBrackets(); GLenum mode; Geometry_matchPrimitiveModeStr(fr[1].getStr(),mode); int capacity; fr[2].getInt(capacity); int numInstances = 0; if (firstMatched) { fr[3].getInt(numInstances); fr += 5; } else { fr += 4; } DrawElementsUByte* prim = new DrawElementsUByte; prim->setMode(mode); prim->setNumInstances(numInstances); prim->reserve(capacity); while (!fr.eof() && fr[0].getNoNestedBrackets()>entry) { unsigned int i; if (fr[0].getUInt(i)) { prim->push_back(i); ++fr; } } ++fr; geom.addPrimitiveSet(prim); iteratorAdvanced = true; } else if ((firstMatched = fr.matchSequence("DrawElementsUShort %w %i %i {")) || fr.matchSequence("DrawElementsUShort %w %i {")) { int entry = fr[1].getNoNestedBrackets(); GLenum mode; Geometry_matchPrimitiveModeStr(fr[1].getStr(),mode); int capacity; fr[2].getInt(capacity); int numInstances = 0; if (firstMatched) { fr[3].getInt(numInstances); fr += 5; } else { fr += 4; } DrawElementsUShort* prim = new DrawElementsUShort; prim->setMode(mode); prim->setNumInstances(numInstances); prim->reserve(capacity); while (!fr.eof() && fr[0].getNoNestedBrackets()>entry) { unsigned int i; if (fr[0].getUInt(i)) { prim->push_back(i); ++fr; } } ++fr; geom.addPrimitiveSet(prim); iteratorAdvanced = true; } else if ((firstMatched = fr.matchSequence("DrawElementsUInt %w %i %i {")) || fr.matchSequence("DrawElementsUInt %w %i {")) { int entry = fr[1].getNoNestedBrackets(); GLenum mode; Geometry_matchPrimitiveModeStr(fr[1].getStr(),mode); int capacity; fr[2].getInt(capacity); int numInstances = 0; if (firstMatched) { fr[3].getInt(numInstances); fr += 5; } else { fr += 4; } DrawElementsUInt* prim = new DrawElementsUInt; prim->setMode(mode); prim->setNumInstances(numInstances); prim->reserve(capacity); while (!fr.eof() && fr[0].getNoNestedBrackets()>entry) { unsigned int i; if (fr[0].getUInt(i)) { prim->push_back(i); ++fr; } } ++fr; geom.addPrimitiveSet(prim); iteratorAdvanced = true; } return iteratorAdvanced; }
Node *makeSky( void ) { int i, j; float lev[] = { -5, -1.0, 1.0, 15.0, 30.0, 60.0, 90.0 }; float cc[][4] = { { 0.0, 0.0, 0.15 }, { 0.0, 0.0, 0.15 }, { 0.4, 0.4, 0.7 }, { 0.2, 0.2, 0.6 }, { 0.1, 0.1, 0.6 }, { 0.1, 0.1, 0.6 }, { 0.1, 0.1, 0.6 }, }; float x, y, z; float alpha, theta; float radius = 20.0f; int nlev = sizeof( lev )/sizeof(float); Geometry *geom = new Geometry; Vec3Array& coords = *(new Vec3Array(19*nlev)); Vec4Array& colors = *(new Vec4Array(19*nlev)); Vec2Array& tcoords = *(new Vec2Array(19*nlev)); int ci = 0; for( i = 0; i < nlev; i++ ) { for( j = 0; j <= 18; j++ ) { alpha = osg::DegreesToRadians(lev[i]); theta = osg::DegreesToRadians((float)(j*20)); x = radius * cosf( alpha ) * cosf( theta ); y = radius * cosf( alpha ) * -sinf( theta ); z = radius * sinf( alpha ); coords[ci][0] = x; coords[ci][1] = y; coords[ci][2] = z; colors[ci][0] = cc[i][0]; colors[ci][1] = cc[i][1]; colors[ci][2] = cc[i][2]; colors[ci][3] = 1.0; tcoords[ci][0] = (float)j/18.0; tcoords[ci][1] = (float)i/(float)(nlev-1); ci++; } } for( i = 0; i < nlev-1; i++ ) { DrawElementsUShort* drawElements = new DrawElementsUShort(PrimitiveSet::TRIANGLE_STRIP); drawElements->reserve(38); for( j = 0; j <= 18; j++ ) { drawElements->push_back((i+1)*19+j); drawElements->push_back((i+0)*19+j); } geom->addPrimitiveSet(drawElements); } geom->setVertexArray( &coords ); geom->setTexCoordArray( 0, &tcoords ); geom->setColorArray( &colors ); geom->setColorBinding( Geometry::BIND_PER_VERTEX ); Texture2D *tex = new Texture2D; tex->setImage(osgDB::readImageFile("Images/white.rgb")); StateSet *dstate = new StateSet; dstate->setTextureAttributeAndModes(0, tex, StateAttribute::OFF ); dstate->setTextureAttribute(0, new TexEnv ); dstate->setMode( GL_LIGHTING, StateAttribute::OFF ); dstate->setMode( GL_CULL_FACE, StateAttribute::ON ); // clear the depth to the far plane. osg::Depth* depth = new osg::Depth; depth->setFunction(osg::Depth::ALWAYS); depth->setRange(1.0,1.0); dstate->setAttributeAndModes(depth,StateAttribute::ON ); dstate->setRenderBinDetails(-2,"RenderBin"); geom->setStateSet( dstate ); Geode *geode = new Geode; geode->addDrawable( geom ); geode->setName( "Sky" ); return geode; }
void SkyDomeNode::init( int numWedges, int numSlices, float *sliceAngles ) { m_nlev = numSlices; m_nseg = numWedges; int i, j; float x, y, z; float alpha, theta; float radius = SKY_DOME_RADIUS; m_Horizon = new FalseHorizon; #ifdef TEXDOME m_Horizon->init(192); #else m_Horizon->init(m_nseg); #endif m_SkyDome = new Geometry; m_Colors = new Vec4Array(m_nseg*m_nlev); m_TexCoords = new Vec2Array(m_nseg*m_nlev); Vec3Array& coords = *(new Vec3Array(m_nseg*m_nlev)); Vec4Array& colors = *m_Colors; Vec2Array& tcoords = *m_TexCoords; assert(m_nseg * m_nlev < 65536); UShortArray *cindex = new UShortArray(m_nseg*m_nlev); //FIXME - leak - m_HorizonColors is created, but not attached to the scene #ifdef TEXDOME m_HorizonColors = new Vec4Array(192); #else m_HorizonColors = new Vec4Array(m_nseg); #endif int ci = 0; for (i = 0; i < m_nlev; ++i) { for(j = 0; j < m_nseg; ++j) { alpha = osg::DegreesToRadians(sliceAngles[i]); theta = osg::DegreesToRadians((float)(j*360.0/m_nseg)); float cos_alpha = cosf(alpha); float cos_theta = cosf(theta); float sin_theta = sinf(theta); x = radius * cos_alpha * cos_theta; y = radius * cos_alpha * -sin_theta; z = radius * sinf(alpha); coords[ci][0] = x; coords[ci][1] = y; coords[ci][2] = z; colors[ci][0] = 1.0; colors[ci][1] = 1.0; colors[ci][2] = 1.0; colors[ci][3] = 1.0; tcoords[ci][0] = 0.5f + std::min(0.5f, (90.0f - sliceAngles[i]) / 180.0f) * cos_theta; tcoords[ci][1] = 0.5f + std::min(0.5f, (90.0f - sliceAngles[i]) / 180.0f) * sin_theta; (*cindex)[ci] = static_cast<unsigned short>(ci); ++ci; } } DrawElementsUShort* drawElements = new DrawElementsUShort(PrimitiveSet::TRIANGLE_STRIP); drawElements->reserve(m_nlev*(m_nseg+1)*2); for (i = 0; i < m_nlev-1; ++i) { for (j = 0; j <= m_nseg; ++j) { drawElements->push_back((i+1)*m_nseg+(j%m_nseg)); drawElements->push_back((i+0)*m_nseg+(j%m_nseg)); } } // XXX enabling/disabling dl/vbo may impact performance m_SkyDome->setSupportsDisplayList(false); m_SkyDome->setUseDisplayList(false); //m_SkyDome->setUseVertexBufferObjects(false); m_SkyDome->addPrimitiveSet(drawElements); m_SkyDome->setVertexArray(&coords); m_SkyDome->setTexCoordArray( 0, m_TexCoords ); m_SkyDome->setColorArray( m_Colors ); m_SkyDome->setColorIndices(cindex); m_SkyDome->setColorBinding(Geometry::BIND_PER_VERTEX); if (1) { StateSet *dome_state = m_SkyDome->getOrCreateStateSet(); #ifdef TEXDOME Image *image = new Image(); image->allocateImage(64, 64, 1, GL_RGB, GL_UNSIGNED_BYTE); assert(image->data() != NULL); memset(image->data(), 255, 64*64*3); // setting the internal texture format is required, but // its not clear how to determine the correct value. the // following is just what the png loader does, setting // the format to the number of color bytes. image->setInternalTextureFormat(GL_RGB); Texture2D *tex = new Texture2D; tex->setDataVariance(osg::Object::DYNAMIC); tex->setImage(image); tex->setWrap(Texture::WRAP_S, Texture::CLAMP); tex->setWrap(Texture::WRAP_T, Texture::CLAMP); tex->setFilter(Texture::MIN_FILTER, Texture::LINEAR); tex->setFilter(Texture::MAG_FILTER, Texture::LINEAR); //tex->setFilter(Texture::MIN_FILTER, Texture::NEAREST); //tex->setFilter(Texture::MAG_FILTER, Texture::NEAREST); tex->setUseHardwareMipMapGeneration(false); tex->setUnRefImageDataAfterApply(false); tex->setInternalFormatMode(osg::Texture::USE_IMAGE_DATA_FORMAT); m_SkyDomeTextureImage = image; m_SkyDomeTexture = tex; dome_state->setTextureAttributeAndModes(0, m_SkyDomeTexture.get(), StateAttribute::ON); dome_state->setTextureAttributeAndModes(0, new TexEnv); #endif } osg::Geode *skyDomeGeode = new osg::Geode(); skyDomeGeode->addDrawable(m_SkyDome.get()); addChild(skyDomeGeode); osg::Geode *horizon = new osg::Geode(); // horizon->addDrawable(m_Horizon.get()); // draw horizon after sky, stars, and moon addChild(horizon); setName("Sky"); }
Node *makeTerrain( void ) { int m, n; int i, j; float dbcenter[3]; float dbradius; getDatabaseCenterRadius( dbcenter, &dbradius ); m = (sizeof( vertex ) /(sizeof( float[3])))/39; n = 39; Vec3Array& v = *(new Vec3Array(m*n)); Vec2Array& t = *(new Vec2Array(m*n)); Vec4Array& col = *(new Vec4Array(1)); col[0][0] = col[0][1] = col[0][2] = col[0][3] = 1.0f; for( i = 0; i < m * n; i++ ) { float* vc = vertex[i]; v[i][0] = vc[0] - dbcenter[0]; v[i][1] = vc[1] - dbcenter[1]; v[i][2] = vc[2]; float* tc = texcoord[i]; t[i][0] = tc[0]; t[i][1] = tc[1]; } Geometry *geom = new Geometry; geom->setVertexArray( &v ); geom->setTexCoordArray( 0, &t ); geom->setColorArray( &col, Array::BIND_OVERALL ); for( i = 0; i < m-2; i++ ) { DrawElementsUShort* elements = new DrawElementsUShort(PrimitiveSet::TRIANGLE_STRIP); elements->reserve(39*2); for( j = 0; j < n; j++ ) { elements->push_back((i+0)*n+j); elements->push_back((i+1)*n+j); } geom->addPrimitiveSet(elements); } Texture2D *tex = new Texture2D; tex->setImage(osgDB::readRefImageFile("Images/lz.rgb")); StateSet *dstate = new StateSet; dstate->setMode( GL_LIGHTING, StateAttribute::OFF ); dstate->setTextureAttributeAndModes(0, tex, StateAttribute::ON ); dstate->setTextureAttribute(0, new TexEnv ); geom->setStateSet( dstate ); Geode *geode = new Geode; geode->addDrawable( geom ); return geode; }