Esempio n. 1
0
 public void Compile(ProgramGraph graph, CompilerOutputInfo info)
 {
     if (!(info is ShaderOutputInfo))
     return;
      ShaderOutputInfo outputInfo = info as ShaderOutputInfo;
      RegisterDict = new Dictionary<string, int>();
      for(int i = 0; i < graph.getMaxDepth(); i++)
      {
     foreach (Vertex v in graph.getVerticesForLayer(i))
     {
        foreach (NodeItem outputItem in v.Data.Items.Where(item => item.Output.Enabled))
        {
           if(outputItem.OutputData is ShaderTypes.sampler2D)
           {
              ShaderTypes.sampler2D Sampler = (ShaderTypes.sampler2D)outputItem.OutputData;
              if (!RegisterDict.ContainsKey(Sampler.path))
                 RegisterDict.Add(Sampler.path, RegisterDict.Count);
           }
        }
     }
      }
      mCompiler = new HLSLCompiler(new Dictionary<object, string>(), RegisterDict);
      WritePostFxScript(outputInfo);
      if (mCompiler == null)
     return;
      mCompiler.Compile(graph, outputInfo);
 }
Esempio n. 2
0
 public void Compile(ProgramGraph graph, CompilerOutputInfo info)
 {
     currentDepth = 0;
      List<Vertex> inputVertices = graph.getVerticesForLayer(0);
      Vertex main = GetMainInput(inputVertices);
      if (main == null)
     return;
      InputDict = new Dictionary<object, string>();
      outStream = new StreamWriter(info.outputPath + info.outputFilename + ".hlsl");
      WriteInputHeaders(inputVertices);
      WriteFunctionHeader(main);
      for (int i = 0; i <= graph.getMaxDepth(); i++)
      {
     WriteLayer(graph.getVerticesForLayer(i));
      }
      currentDepth--;
      WriteLine("}", IndentType.Decrease);
      outStream.Close();
 }