private VertexInfoReaderTemplate compileVertexInfoReader(int key, int vtype, bool readTexture) { VertexInfo.processType(vinfo, vtype); if (log.InfoEnabled) { Console.WriteLine(string.Format("Compiling VertexInfoReader for {0}", vinfo)); } Dictionary <string, object> variables = new Dictionary <string, object>(); // All these variables have to be defined as static members in the class VertexInfoReaderTemplate. variables["isLogTraceEnabled"] = Convert.ToBoolean(log.TraceEnabled); variables["transform2D"] = Convert.ToBoolean(vinfo.transform2D); variables["skinningWeightCount"] = Convert.ToInt32(vinfo.skinningWeightCount); variables["morphingVertexCount"] = Convert.ToInt32(vinfo.morphingVertexCount); variables["texture"] = Convert.ToInt32(vinfo.texture); variables["color"] = Convert.ToInt32(vinfo.color); variables["normal"] = Convert.ToInt32(vinfo.normal); variables["position"] = Convert.ToInt32(vinfo.position); variables["weight"] = Convert.ToInt32(vinfo.weight); variables["index"] = Convert.ToInt32(vinfo.index); variables["vtype"] = Convert.ToInt32(vinfo.vtype); variables["readTexture"] = Convert.ToBoolean(readTexture); variables["vertexSize"] = Convert.ToInt32(vinfo.vertexSize); variables["oneVertexSize"] = Convert.ToInt32(vinfo.oneVertexSize); variables["textureOffset"] = Convert.ToInt32(vinfo.textureOffset); variables["colorOffset"] = Convert.ToInt32(vinfo.colorOffset); variables["normalOffset"] = Convert.ToInt32(vinfo.normalOffset); variables["positionOffset"] = Convert.ToInt32(vinfo.positionOffset); variables["alignmentSize"] = Convert.ToInt32(vinfo.alignmentSize); string specializedClassName = string.Format("VertexInfoReader{0:X7}", key); ClassSpecializer cs = new ClassSpecializer(); Type specializedClass = cs.specialize(specializedClassName, typeof(VertexInfoReaderTemplate), variables); VertexInfoReaderTemplate compiledVertexInfoReader = null; if (specializedClass != null) { try { compiledVertexInfoReader = (VertexInfoReaderTemplate)System.Activator.CreateInstance(specializedClass); } catch (InstantiationException e) { Console.WriteLine("Error while instanciating compiled vertexInfoReader", e); } catch (IllegalAccessException e) { Console.WriteLine("Error while instanciating compiled vertexInfoReader", e); } } return(compiledVertexInfoReader); }
private RendererTemplate compileRenderer(BasePrimitiveRenderer renderer, LongLongKey id, GeContext context) { if (log.InfoEnabled) { Console.WriteLine(string.Format("Compiling Renderer {0}", id)); } Dictionary <string, object> variables = new Dictionary <string, object>(); // All these variables have to be defined as static members in the class RendererTemplate. variables["hasMemInt"] = Convert.ToBoolean(RuntimeContext.hasMemoryInt()); variables["transform2D"] = Convert.ToBoolean(renderer.transform2D); variables["clearMode"] = Convert.ToBoolean(renderer.clearMode); variables["clearModeColor"] = Convert.ToBoolean(context.clearModeColor); variables["clearModeStencil"] = Convert.ToBoolean(context.clearModeStencil); variables["clearModeDepth"] = Convert.ToBoolean(context.clearModeDepth); variables["needSourceDepthRead"] = Convert.ToBoolean(renderer.needSourceDepthRead); variables["needDestinationDepthRead"] = Convert.ToBoolean(renderer.needDestinationDepthRead); variables["needDepthWrite"] = Convert.ToBoolean(renderer.needDepthWrite); variables["needTextureUV"] = Convert.ToBoolean(renderer.needTextureUV); variables["simpleTextureUV"] = Convert.ToBoolean(renderer.simpleTextureUV); variables["swapTextureUV"] = Convert.ToBoolean(renderer.swapTextureUV); variables["needScissoringX"] = Convert.ToBoolean(renderer.needScissoringX); variables["needScissoringY"] = Convert.ToBoolean(renderer.needScissoringY); variables["nearZ"] = new int?(renderer.nearZ); variables["farZ"] = new int?(renderer.farZ); variables["colorTestFlagEnabled"] = Convert.ToBoolean(context.colorTestFlag.Enabled); variables["colorTestFunc"] = new int?(context.colorTestFunc); variables["alphaTestFlagEnabled"] = Convert.ToBoolean(context.alphaTestFlag.Enabled); variables["alphaFunc"] = new int?(context.alphaFunc); variables["alphaRef"] = new int?(context.alphaRef); variables["alphaMask"] = new int?(context.alphaMask); variables["stencilTestFlagEnabled"] = Convert.ToBoolean(context.stencilTestFlag.Enabled); variables["stencilFunc"] = new int?(context.stencilFunc); variables["stencilOpFail"] = new int?(context.stencilOpFail); variables["stencilOpZFail"] = new int?(context.stencilOpZFail); variables["stencilOpZPass"] = new int?(context.stencilOpZPass); variables["stencilRef"] = new int?(context.stencilRef); variables["depthTestFlagEnabled"] = Convert.ToBoolean(context.depthTestFlag.Enabled); variables["depthFunc"] = new int?(context.depthFunc); variables["blendFlagEnabled"] = Convert.ToBoolean(context.blendFlag.Enabled); variables["blendEquation"] = new int?(context.blendEquation); variables["blendSrc"] = new int?(context.blend_src); variables["blendDst"] = new int?(context.blend_dst); variables["sfix"] = new int?(context.sfix); variables["dfix"] = new int?(context.dfix); variables["colorLogicOpFlagEnabled"] = Convert.ToBoolean(context.colorLogicOpFlag.Enabled); variables["logicOp"] = new int?(context.logicOp); variables["colorMask"] = new int?(PixelColor.getColor(context.colorMask)); variables["depthMask"] = Convert.ToBoolean(context.depthMask); variables["textureFlagEnabled"] = Convert.ToBoolean(context.textureFlag.Enabled); variables["useVertexTexture"] = Convert.ToBoolean(renderer.useVertexTexture); variables["lightingFlagEnabled"] = Convert.ToBoolean(context.lightingFlag.Enabled); variables["sameVertexColor"] = Convert.ToBoolean(renderer.sameVertexColor); variables["setVertexPrimaryColor"] = Convert.ToBoolean(renderer.setVertexPrimaryColor); variables["primaryColorSetGlobally"] = Convert.ToBoolean(renderer.primaryColorSetGlobally); variables["isTriangle"] = Convert.ToBoolean(renderer.isTriangle); variables["matFlagAmbient"] = Convert.ToBoolean((context.mat_flags & CMAT_FLAG_AMBIENT) != 0); variables["matFlagDiffuse"] = Convert.ToBoolean((context.mat_flags & CMAT_FLAG_DIFFUSE) != 0); variables["matFlagSpecular"] = Convert.ToBoolean((context.mat_flags & CMAT_FLAG_SPECULAR) != 0); variables["useVertexColor"] = Convert.ToBoolean(context.useVertexColor); variables["textureColorDoubled"] = Convert.ToBoolean(context.textureColorDoubled); variables["lightMode"] = new int?(context.lightMode); variables["texMapMode"] = new int?(context.tex_map_mode); variables["texProjMapMode"] = new int?(context.tex_proj_map_mode); variables["texTranslateX"] = new float?(context.tex_translate_x); variables["texTranslateY"] = new float?(context.tex_translate_y); variables["texScaleX"] = new float?(context.tex_scale_x); variables["texScaleY"] = new float?(context.tex_scale_y); variables["texWrapS"] = new int?(context.tex_wrap_s); variables["texWrapT"] = new int?(context.tex_wrap_t); variables["textureFunc"] = new int?(context.textureFunc); variables["textureAlphaUsed"] = Convert.ToBoolean(context.textureAlphaUsed); variables["psm"] = new int?(context.psm); variables["texMagFilter"] = new int?(context.tex_mag_filter); variables["needTextureWrapU"] = Convert.ToBoolean(renderer.needTextureWrapU); variables["needTextureWrapV"] = Convert.ToBoolean(renderer.needTextureWrapV); variables["needSourceDepthClamp"] = Convert.ToBoolean(renderer.needSourceDepthClamp); variables["isLogTraceEnabled"] = Convert.ToBoolean(renderer.isLogTraceEnabled); variables["collectStatistics"] = Convert.ToBoolean(DurationStatistics.collectStatistics); variables["ditherFlagEnabled"] = Convert.ToBoolean(context.ditherFlag.Enabled); string specializedClassName = NewCompiledRendererClassName; ClassSpecializer cs = new ClassSpecializer(); Type specializedClass = cs.specialize(specializedClassName, typeof(RendererTemplate), variables); RendererTemplate compiledRenderer = null; if (specializedClass != null) { try { compiledRenderer = (RendererTemplate)System.Activator.CreateInstance(specializedClass); } catch (InstantiationException e) { Console.WriteLine("Error while instanciating compiled renderer", e); } catch (IllegalAccessException e) { Console.WriteLine("Error while instanciating compiled renderer", e); } } return(compiledRenderer); }