private static bool GenerateShaderPass(UnlitMasterNode masterNode, Pass pass, GenerationMode mode, SurfaceMaterialOptions materialOptions, ShaderGenerator result, List <string> sourceAssetDependencyPaths)
{
var templateLocation = Path.Combine(Path.Combine(Path.Combine(HDEditorUtils.GetHDRenderPipelinePath(), "Editor"), "ShaderGraph"), pass.TemplateName);
if (!File.Exists(templateLocation))
{
// TODO: produce error here
return(false);
}
sourceAssetDependencyPaths.Add(templateLocation);
// grab all of the active nodes
var activeNodeList = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, masterNode, NodeUtils.IncludeSelf.Include, pass.PixelShaderSlots);
// graph requirements describe what the graph itself requires
var graphRequirements = ShaderGraphRequirements.FromNodes(activeNodeList, ShaderStageCapability.All, true, true);
ShaderStringBuilder graphNodeFunctions = new ShaderStringBuilder();
graphNodeFunctions.IncreaseIndent();
var functionRegistry = new FunctionRegistry(graphNodeFunctions);
// Build the list of active slots based on what the pass requires
// TODO: this can be a shared function -- From here through GraphUtil.GenerateSurfaceDescription(..)
var activeSlots = new List <MaterialSlot>();
foreach (var id in pass.PixelShaderSlots)
{
MaterialSlot slot = masterNode.FindSlot <MaterialSlot>(id);
if (slot != null)
{
activeSlots.Add(slot);
}
}
// build the graph outputs structure to hold the results of each active slots (and fill out activeFields to indicate they are active)
string graphInputStructName = "SurfaceDescriptionInputs";
string graphOutputStructName = "SurfaceDescription";
string graphEvalFunctionName = "SurfaceDescriptionFunction";
var graphEvalFunction = new ShaderStringBuilder();
var graphOutputs = new ShaderStringBuilder();
PropertyCollector graphProperties = new PropertyCollector();
// build the graph outputs structure, and populate activeFields with the fields of that structure
HashSet <string> activeFields = new HashSet <string>();
GraphUtil.GenerateSurfaceDescriptionStruct(graphOutputs, activeSlots, true);
// Build the graph evaluation code, to evaluate the specified slots
GraphUtil.GenerateSurfaceDescriptionFunction(
activeNodeList,
masterNode,
masterNode.owner as AbstractMaterialGraph,
graphEvalFunction,
functionRegistry,
graphProperties,
graphRequirements, // TODO : REMOVE UNUSED
mode,
graphEvalFunctionName,
graphOutputStructName,
null,
activeSlots,
graphInputStructName);
var blendCode = new ShaderStringBuilder();
var cullCode = new ShaderStringBuilder();
var zTestCode = new ShaderStringBuilder();
var zWriteCode = new ShaderStringBuilder();
var stencilCode = new ShaderStringBuilder();
var colorMaskCode = new ShaderStringBuilder();
HDSubShaderUtilities.BuildRenderStatesFromPassAndMaterialOptions(pass, materialOptions, blendCode, cullCode, zTestCode, zWriteCode, stencilCode, colorMaskCode);
if (masterNode.twoSided.isOn)
{
activeFields.Add("DoubleSided");
if (pass.ShaderPassName != "SHADERPASS_VELOCITY") // HACK to get around lack of a good interpolator dependency system
{ // we need to be able to build interpolators using multiple input structs
// also: should only require isFrontFace if Normals are required...
activeFields.Add("DoubleSided.Mirror"); // TODO: change this depending on what kind of normal flip you want..
activeFields.Add("FragInputs.isFrontFace"); // will need this for determining normal flip mode
}
}
if (pass.PixelShaderSlots != null)
{
foreach (var slotId in pass.PixelShaderSlots)
{
var slot = masterNode.FindSlot <MaterialSlot>(slotId);
if (slot != null)
{
var rawSlotName = slot.RawDisplayName().ToString();
var descriptionVar = string.Format("{0}.{1}", graphOutputStructName, rawSlotName);
activeFields.Add(descriptionVar);
}
}
}
var packedInterpolatorCode = new ShaderGenerator();
var graphInputs = new ShaderGenerator();
HDRPShaderStructs.Generate(
packedInterpolatorCode,
graphInputs,
graphRequirements,
pass.RequiredFields,
CoordinateSpace.World,
activeFields);
// debug output all active fields
var interpolatorDefines = new ShaderGenerator();
{
interpolatorDefines.AddShaderChunk("// ACTIVE FIELDS:");
foreach (string f in activeFields)
{
interpolatorDefines.AddShaderChunk("// " + f);
}
}
ShaderGenerator defines = new ShaderGenerator();
{
defines.AddShaderChunk(string.Format("#define SHADERPASS {0}", pass.ShaderPassName), true);
if (pass.ExtraDefines != null)
{
foreach (var define in pass.ExtraDefines)
{
defines.AddShaderChunk(define);
}
}
defines.AddGenerator(interpolatorDefines);
}
var shaderPassIncludes = new ShaderGenerator();
if (pass.Includes != null)
{
foreach (var include in pass.Includes)
{
shaderPassIncludes.AddShaderChunk(include);
}
}
// build graph code
var graph = new ShaderGenerator();
graph.AddShaderChunk("// Graph Inputs");
graph.Indent();
graph.AddGenerator(graphInputs);
graph.Deindent();
graph.AddShaderChunk("// Graph Outputs");
graph.Indent();
graph.AddShaderChunk(graphOutputs.ToString());
//graph.AddGenerator(graphOutputs);
graph.Deindent();
graph.AddShaderChunk("// Graph Properties (uniform inputs)");
graph.AddShaderChunk(graphProperties.GetPropertiesDeclaration(1));
graph.AddShaderChunk("// Graph Node Functions");
graph.AddShaderChunk(graphNodeFunctions.ToString());
graph.AddShaderChunk("// Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(graphEvalFunction.ToString());
//graph.AddGenerator(graphEvalFunction);
graph.Deindent();
// build the hash table of all named fragments TODO: could make this Dictionary<string, ShaderGenerator / string> ?
Dictionary <string, string> namedFragments = new Dictionary <string, string>();
namedFragments.Add("${Defines}", defines.GetShaderString(2, false));
namedFragments.Add("${Graph}", graph.GetShaderString(2, false));
namedFragments.Add("${LightMode}", pass.LightMode);
namedFragments.Add("${PassName}", pass.Name);
namedFragments.Add("${Includes}", shaderPassIncludes.GetShaderString(2, false));
namedFragments.Add("${InterpolatorPacking}", packedInterpolatorCode.GetShaderString(2, false));
namedFragments.Add("${Blending}", blendCode.ToString());
namedFragments.Add("${Culling}", cullCode.ToString());
namedFragments.Add("${ZTest}", zTestCode.ToString());
namedFragments.Add("${ZWrite}", zWriteCode.ToString());
namedFragments.Add("${Stencil}", stencilCode.ToString());
namedFragments.Add("${ColorMask}", colorMaskCode.ToString());
namedFragments.Add("${LOD}", materialOptions.lod.ToString());
namedFragments.Add("${VariantDefines}", GetVariantDefines(masterNode));
// process the template to generate the shader code for this pass TODO: could make this a shared function
string[] templateLines = File.ReadAllLines(templateLocation);
System.Text.StringBuilder builder = new System.Text.StringBuilder();
foreach (string line in templateLines)
{
ShaderSpliceUtil.PreprocessShaderCode(line, activeFields, namedFragments, builder);
builder.AppendLine();
}
result.AddShaderChunk(builder.ToString(), false);
return(true);
}
private static bool GenerateShaderPassLit(AbstractMaterialNode masterNode, Pass pass, GenerationMode mode, SurfaceMaterialOptions materialOptions, ShaderGenerator result, List <string> sourceAssetDependencyPaths)
{
var templateLocation = Path.Combine(Path.Combine(Path.Combine(HDEditorUtils.GetHDRenderPipelinePath(), "Editor"), "ShaderGraph"), pass.TemplateName);
if (!File.Exists(templateLocation))
{
// TODO: produce error here
return(false);
}
if (sourceAssetDependencyPaths != null)
{
sourceAssetDependencyPaths.Add(templateLocation);
}
// grab all of the active nodes (for pixel and vertex graphs)
var vertexNodes = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(vertexNodes, masterNode, NodeUtils.IncludeSelf.Include, pass.VertexShaderSlots);
var pixelNodes = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(pixelNodes, masterNode, NodeUtils.IncludeSelf.Include, pass.PixelShaderSlots);
// graph requirements describe what the graph itself requires
var pixelRequirements = ShaderGraphRequirements.FromNodes(pixelNodes, ShaderStageCapability.Fragment, false); // TODO: is ShaderStageCapability.Fragment correct?
var vertexRequirements = ShaderGraphRequirements.FromNodes(vertexNodes, ShaderStageCapability.Vertex, false);
// Function Registry tracks functions to remove duplicates, it wraps a string builder that stores the combined function string
ShaderStringBuilder graphNodeFunctions = new ShaderStringBuilder();
graphNodeFunctions.IncreaseIndent();
var functionRegistry = new FunctionRegistry(graphNodeFunctions);
// TODO: this can be a shared function for all HDRP master nodes -- From here through GraphUtil.GenerateSurfaceDescription(..)
// Build the list of active slots based on what the pass requires
var pixelSlots = HDSubShaderUtilities.FindMaterialSlotsOnNode(pass.PixelShaderSlots, masterNode);
var vertexSlots = HDSubShaderUtilities.FindMaterialSlotsOnNode(pass.VertexShaderSlots, masterNode);
// properties used by either pixel and vertex shader
PropertyCollector sharedProperties = new PropertyCollector();
// build the graph outputs structure to hold the results of each active slots (and fill out activeFields to indicate they are active)
string pixelGraphInputStructName = "SurfaceDescriptionInputs";
string pixelGraphOutputStructName = "SurfaceDescription";
string pixelGraphEvalFunctionName = "SurfaceDescriptionFunction";
ShaderStringBuilder pixelGraphEvalFunction = new ShaderStringBuilder();
ShaderStringBuilder pixelGraphOutputs = new ShaderStringBuilder();
// dependency tracker -- set of active fields
HashSet <string> activeFields = GetActiveFieldsFromMasterNode(masterNode, pass);
// build initial requirements
HDRPShaderStructs.AddActiveFieldsFromPixelGraphRequirements(activeFields, pixelRequirements);
// build the graph outputs structure, and populate activeFields with the fields of that structure
GraphUtil.GenerateSurfaceDescriptionStruct(pixelGraphOutputs, pixelSlots, true, pixelGraphOutputStructName, activeFields);
// Build the graph evaluation code, to evaluate the specified slots
GraphUtil.GenerateSurfaceDescriptionFunction(
pixelNodes,
masterNode,
masterNode.owner as AbstractMaterialGraph,
pixelGraphEvalFunction,
functionRegistry,
sharedProperties,
pixelRequirements, // TODO : REMOVE UNUSED
mode,
pixelGraphEvalFunctionName,
pixelGraphOutputStructName,
null,
pixelSlots,
pixelGraphInputStructName);
string vertexGraphInputStructName = "VertexDescriptionInputs";
string vertexGraphOutputStructName = "VertexDescription";
string vertexGraphEvalFunctionName = "VertexDescriptionFunction";
ShaderStringBuilder vertexGraphEvalFunction = new ShaderStringBuilder();
ShaderStringBuilder vertexGraphOutputs = new ShaderStringBuilder();
// check for vertex animation -- enables HAVE_VERTEX_MODIFICATION
bool vertexActive = false;
if (masterNode.IsSlotConnected(PBRMasterNode.PositionSlotId))
{
vertexActive = true;
activeFields.Add("features.modifyMesh");
HDRPShaderStructs.AddActiveFieldsFromVertexGraphRequirements(activeFields, vertexRequirements);
// -------------------------------------
// Generate Output structure for Vertex Description function
GraphUtil.GenerateVertexDescriptionStruct(vertexGraphOutputs, vertexSlots, vertexGraphOutputStructName, activeFields);
// -------------------------------------
// Generate Vertex Description function
GraphUtil.GenerateVertexDescriptionFunction(
masterNode.owner as AbstractMaterialGraph,
vertexGraphEvalFunction,
functionRegistry,
sharedProperties,
mode,
vertexNodes,
vertexSlots,
vertexGraphInputStructName,
vertexGraphEvalFunctionName,
vertexGraphOutputStructName);
}
var blendCode = new ShaderStringBuilder();
var cullCode = new ShaderStringBuilder();
var zTestCode = new ShaderStringBuilder();
var zWriteCode = new ShaderStringBuilder();
var stencilCode = new ShaderStringBuilder();
var colorMaskCode = new ShaderStringBuilder();
HDSubShaderUtilities.BuildRenderStatesFromPassAndMaterialOptions(pass, materialOptions, blendCode, cullCode, zTestCode, zWriteCode, stencilCode, colorMaskCode);
HDRPShaderStructs.AddRequiredFields(pass.RequiredFields, activeFields);
// apply dependencies to the active fields, and build interpolators (TODO: split this function)
var packedInterpolatorCode = new ShaderGenerator();
HDRPShaderStructs.Generate(
packedInterpolatorCode,
activeFields);
// debug output all active fields
var interpolatorDefines = new ShaderGenerator();
{
interpolatorDefines.AddShaderChunk("// ACTIVE FIELDS:");
foreach (string f in activeFields)
{
interpolatorDefines.AddShaderChunk("// " + f);
}
}
// build graph inputs structures
ShaderGenerator pixelGraphInputs = new ShaderGenerator();
ShaderSpliceUtil.BuildType(typeof(HDRPShaderStructs.SurfaceDescriptionInputs), activeFields, pixelGraphInputs);
ShaderGenerator vertexGraphInputs = new ShaderGenerator();
ShaderSpliceUtil.BuildType(typeof(HDRPShaderStructs.VertexDescriptionInputs), activeFields, vertexGraphInputs);
ShaderGenerator defines = new ShaderGenerator();
{
defines.AddShaderChunk(string.Format("#define SHADERPASS {0}", pass.ShaderPassName), true);
if (pass.ExtraDefines != null)
{
foreach (var define in pass.ExtraDefines)
{
defines.AddShaderChunk(define);
}
}
defines.AddGenerator(interpolatorDefines);
}
var shaderPassIncludes = new ShaderGenerator();
if (pass.Includes != null)
{
foreach (var include in pass.Includes)
{
shaderPassIncludes.AddShaderChunk(include);
}
}
// build graph code
var graph = new ShaderGenerator();
{
graph.AddShaderChunk("// Shared Graph Properties (uniform inputs)");
graph.AddShaderChunk(sharedProperties.GetPropertiesDeclaration(1));
if (vertexActive)
{
graph.AddShaderChunk("// Vertex Graph Inputs");
graph.Indent();
graph.AddGenerator(vertexGraphInputs);
graph.Deindent();
graph.AddShaderChunk("// Vertex Graph Outputs");
graph.Indent();
graph.AddShaderChunk(vertexGraphOutputs.ToString());
graph.Deindent();
}
graph.AddShaderChunk("// Pixel Graph Inputs");
graph.Indent();
graph.AddGenerator(pixelGraphInputs);
graph.Deindent();
graph.AddShaderChunk("// Pixel Graph Outputs");
graph.Indent();
graph.AddShaderChunk(pixelGraphOutputs.ToString());
graph.Deindent();
graph.AddShaderChunk("// Shared Graph Node Functions");
graph.AddShaderChunk(graphNodeFunctions.ToString());
if (vertexActive)
{
graph.AddShaderChunk("// Vertex Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(vertexGraphEvalFunction.ToString());
graph.Deindent();
}
graph.AddShaderChunk("// Pixel Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(pixelGraphEvalFunction.ToString());
graph.Deindent();
}
// build the hash table of all named fragments TODO: could make this Dictionary<string, ShaderGenerator / string> ?
Dictionary <string, string> namedFragments = new Dictionary <string, string>();
namedFragments.Add("${Defines}", defines.GetShaderString(2, false));
namedFragments.Add("${Graph}", graph.GetShaderString(2, false));
namedFragments.Add("${LightMode}", pass.LightMode);
namedFragments.Add("${PassName}", pass.Name);
namedFragments.Add("${Includes}", shaderPassIncludes.GetShaderString(2, false));
namedFragments.Add("${InterpolatorPacking}", packedInterpolatorCode.GetShaderString(2, false));
namedFragments.Add("${Blending}", blendCode.ToString());
namedFragments.Add("${Culling}", cullCode.ToString());
namedFragments.Add("${ZTest}", zTestCode.ToString());
namedFragments.Add("${ZWrite}", zWriteCode.ToString());
namedFragments.Add("${Stencil}", stencilCode.ToString());
namedFragments.Add("${ColorMask}", colorMaskCode.ToString());
namedFragments.Add("${LOD}", materialOptions.lod.ToString());
// process the template to generate the shader code for this pass TODO: could make this a shared function
string[] templateLines = File.ReadAllLines(templateLocation);
System.Text.StringBuilder builder = new System.Text.StringBuilder();
foreach (string line in templateLines)
{
ShaderSpliceUtil.PreprocessShaderCode(line, activeFields, namedFragments, builder);
builder.AppendLine();
}
result.AddShaderChunk(builder.ToString(), false);
return(true);
}
private static string GetShaderPassFromTemplate(string template, PBRMasterNode masterNode, Pass pass, GenerationMode mode, SurfaceMaterialOptions materialOptions)
{
var builder = new ShaderStringBuilder();
builder.IncreaseIndent();
builder.IncreaseIndent();
var vertexInputs = new ShaderGenerator();
var surfaceVertexShader = new ShaderGenerator();
var surfaceDescriptionFunction = new ShaderGenerator();
var surfaceDescriptionStruct = new ShaderGenerator();
var functionRegistry = new FunctionRegistry(builder);
var surfaceInputs = new ShaderGenerator();
var shaderProperties = new PropertyCollector();
surfaceInputs.AddShaderChunk("struct SurfaceInputs{", false);
surfaceInputs.Indent();
var activeNodeList = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, masterNode, NodeUtils.IncludeSelf.Include, pass.PixelShaderSlots);
var requirements = ShaderGraphRequirements.FromNodes(activeNodeList);
var modelRequiements = ShaderGraphRequirements.none;
modelRequiements.requiresNormal |= NeededCoordinateSpace.World;
modelRequiements.requiresTangent |= NeededCoordinateSpace.World;
modelRequiements.requiresBitangent |= NeededCoordinateSpace.World;
modelRequiements.requiresPosition |= NeededCoordinateSpace.World;
modelRequiements.requiresViewDir |= NeededCoordinateSpace.World;
modelRequiements.requiresMeshUVs.Add(UVChannel.UV1);
GraphUtil.GenerateApplicationVertexInputs(requirements.Union(modelRequiements), vertexInputs);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(requirements.requiresNormal, InterpolatorType.Normal, surfaceInputs);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(requirements.requiresTangent, InterpolatorType.Tangent, surfaceInputs);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(requirements.requiresBitangent, InterpolatorType.BiTangent, surfaceInputs);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(requirements.requiresViewDir, InterpolatorType.ViewDirection, surfaceInputs);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(requirements.requiresPosition, InterpolatorType.Position, surfaceInputs);
if (requirements.requiresVertexColor)
{
surfaceInputs.AddShaderChunk(string.Format("float4 {0};", ShaderGeneratorNames.VertexColor), false);
}
if (requirements.requiresScreenPosition)
{
surfaceInputs.AddShaderChunk(string.Format("float4 {0};", ShaderGeneratorNames.ScreenPosition), false);
}
foreach (var channel in requirements.requiresMeshUVs.Distinct())
{
surfaceInputs.AddShaderChunk(string.Format("half4 {0};", channel.GetUVName()), false);
}
surfaceInputs.Deindent();
surfaceInputs.AddShaderChunk("};", false);
surfaceVertexShader.AddShaderChunk("GraphVertexInput PopulateVertexData(GraphVertexInput v){", false);
surfaceVertexShader.Indent();
surfaceVertexShader.AddShaderChunk("return v;", false);
surfaceVertexShader.Deindent();
surfaceVertexShader.AddShaderChunk("}", false);
var slots = new List <MaterialSlot>();
foreach (var id in pass.PixelShaderSlots)
{
slots.Add(masterNode.FindSlot <MaterialSlot>(id));
}
GraphUtil.GenerateSurfaceDescriptionStruct(surfaceDescriptionStruct, slots, true);
var usedSlots = new List <MaterialSlot>();
foreach (var id in pass.PixelShaderSlots)
{
usedSlots.Add(masterNode.FindSlot <MaterialSlot>(id));
}
GraphUtil.GenerateSurfaceDescription(
activeNodeList,
masterNode,
masterNode.owner as AbstractMaterialGraph,
surfaceDescriptionFunction,
functionRegistry,
shaderProperties,
requirements,
mode,
"PopulateSurfaceData",
"SurfaceDescription",
null,
usedSlots);
var graph = new ShaderGenerator();
graph.AddShaderChunk(shaderProperties.GetPropertiesDeclaration(2), false);
graph.AddShaderChunk(surfaceInputs.GetShaderString(2), false);
graph.AddShaderChunk(builder.ToString(), false);
graph.AddShaderChunk(vertexInputs.GetShaderString(2), false);
graph.AddShaderChunk(surfaceDescriptionStruct.GetShaderString(2), false);
graph.AddShaderChunk(surfaceVertexShader.GetShaderString(2), false);
graph.AddShaderChunk(surfaceDescriptionFunction.GetShaderString(2), false);
var blendingVisitor = new ShaderGenerator();
var cullingVisitor = new ShaderGenerator();
var zTestVisitor = new ShaderGenerator();
var zWriteVisitor = new ShaderGenerator();
materialOptions.GetBlend(blendingVisitor);
materialOptions.GetCull(cullingVisitor);
materialOptions.GetDepthTest(zTestVisitor);
materialOptions.GetDepthWrite(zWriteVisitor);
var interpolators = new ShaderGenerator();
var localVertexShader = new ShaderGenerator();
var localPixelShader = new ShaderGenerator();
var localSurfaceInputs = new ShaderGenerator();
var surfaceOutputRemap = new ShaderGenerator();
ShaderGenerator.GenerateStandardTransforms(
3,
10,
interpolators,
localVertexShader,
localPixelShader,
localSurfaceInputs,
requirements,
modelRequiements,
CoordinateSpace.World);
ShaderGenerator defines = new ShaderGenerator();
if (masterNode.IsSlotConnected(PBRMasterNode.NormalSlotId))
{
defines.AddShaderChunk("#define _NORMALMAP 1", true);
}
if (masterNode.model == PBRMasterNode.Model.Specular)
{
defines.AddShaderChunk("#define _SPECULAR_SETUP 1", true);
}
if (masterNode.IsSlotConnected(PBRMasterNode.AlphaThresholdSlotId))
{
defines.AddShaderChunk("#define _AlphaClip 1", true);
}
if (masterNode.surfaceType == SurfaceType.Transparent && masterNode.alphaMode == AlphaMode.Premultiply)
{
defines.AddShaderChunk("#define _ALPHAPREMULTIPLY_ON 1", true);
}
var templateLocation = GetTemplatePath(template);
foreach (var slot in usedSlots)
{
surfaceOutputRemap.AddShaderChunk(string.Format("{0} = surf.{0};", slot.shaderOutputName), true);
}
if (!File.Exists(templateLocation))
{
return(string.Empty);
}
var subShaderTemplate = File.ReadAllText(templateLocation);
var resultPass = subShaderTemplate.Replace("${Defines}", defines.GetShaderString(3));
resultPass = resultPass.Replace("${Graph}", graph.GetShaderString(3));
resultPass = resultPass.Replace("${Interpolators}", interpolators.GetShaderString(3));
resultPass = resultPass.Replace("${VertexShader}", localVertexShader.GetShaderString(3));
resultPass = resultPass.Replace("${LocalPixelShader}", localPixelShader.GetShaderString(3));
resultPass = resultPass.Replace("${SurfaceInputs}", localSurfaceInputs.GetShaderString(3));
resultPass = resultPass.Replace("${SurfaceOutputRemap}", surfaceOutputRemap.GetShaderString(3));
resultPass = resultPass.Replace("${Tags}", string.Empty);
resultPass = resultPass.Replace("${Blending}", blendingVisitor.GetShaderString(2));
resultPass = resultPass.Replace("${Culling}", cullingVisitor.GetShaderString(2));
resultPass = resultPass.Replace("${ZTest}", zTestVisitor.GetShaderString(2));
resultPass = resultPass.Replace("${ZWrite}", zWriteVisitor.GetShaderString(2));
return(resultPass);
}
public static bool GenerateShaderPass(AbstractMaterialNode masterNode, Pass pass, GenerationMode mode, SurfaceMaterialOptions materialOptions, HashSet <string> activeFields, ShaderGenerator result, List <string> sourceAssetDependencyPaths, bool vertexActive)
{
string templatePath = Path.Combine(HDUtils.GetHDRenderPipelinePath(), "Editor/Material");
string templateLocation = Path.Combine(Path.Combine(Path.Combine(templatePath, pass.MaterialName), "ShaderGraph"), pass.TemplateName);
if (!File.Exists(templateLocation))
{
// TODO: produce error here
Debug.LogError("Template not found: " + templateLocation);
return(false);
}
bool debugOutput = false;
// grab all of the active nodes (for pixel and vertex graphs)
var vertexNodes = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(vertexNodes, masterNode, NodeUtils.IncludeSelf.Include, pass.VertexShaderSlots);
var pixelNodes = ListPool <INode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(pixelNodes, masterNode, NodeUtils.IncludeSelf.Include, pass.PixelShaderSlots);
// graph requirements describe what the graph itself requires
var pixelRequirements = ShaderGraphRequirements.FromNodes(pixelNodes, ShaderStageCapability.Fragment, false); // TODO: is ShaderStageCapability.Fragment correct?
var vertexRequirements = ShaderGraphRequirements.FromNodes(vertexNodes, ShaderStageCapability.Vertex, false);
var graphRequirements = pixelRequirements.Union(vertexRequirements);
// Function Registry tracks functions to remove duplicates, it wraps a string builder that stores the combined function string
ShaderStringBuilder graphNodeFunctions = new ShaderStringBuilder();
graphNodeFunctions.IncreaseIndent();
var functionRegistry = new FunctionRegistry(graphNodeFunctions);
// TODO: this can be a shared function for all HDRP master nodes -- From here through GraphUtil.GenerateSurfaceDescription(..)
// Build the list of active slots based on what the pass requires
var pixelSlots = HDSubShaderUtilities.FindMaterialSlotsOnNode(pass.PixelShaderSlots, masterNode);
var vertexSlots = HDSubShaderUtilities.FindMaterialSlotsOnNode(pass.VertexShaderSlots, masterNode);
// properties used by either pixel and vertex shader
PropertyCollector sharedProperties = new PropertyCollector();
// build the graph outputs structure to hold the results of each active slots (and fill out activeFields to indicate they are active)
string pixelGraphInputStructName = "SurfaceDescriptionInputs";
string pixelGraphOutputStructName = "SurfaceDescription";
string pixelGraphEvalFunctionName = "SurfaceDescriptionFunction";
ShaderStringBuilder pixelGraphEvalFunction = new ShaderStringBuilder();
ShaderStringBuilder pixelGraphOutputs = new ShaderStringBuilder();
// build initial requirements
HDRPShaderStructs.AddActiveFieldsFromPixelGraphRequirements(activeFields, pixelRequirements);
// build the graph outputs structure, and populate activeFields with the fields of that structure
GraphUtil.GenerateSurfaceDescriptionStruct(pixelGraphOutputs, pixelSlots, true, pixelGraphOutputStructName, activeFields);
// Build the graph evaluation code, to evaluate the specified slots
GraphUtil.GenerateSurfaceDescriptionFunction(
pixelNodes,
masterNode,
masterNode.owner as AbstractMaterialGraph,
pixelGraphEvalFunction,
functionRegistry,
sharedProperties,
pixelRequirements, // TODO : REMOVE UNUSED
mode,
pixelGraphEvalFunctionName,
pixelGraphOutputStructName,
null,
pixelSlots,
pixelGraphInputStructName);
string vertexGraphInputStructName = "VertexDescriptionInputs";
string vertexGraphOutputStructName = "VertexDescription";
string vertexGraphEvalFunctionName = "VertexDescriptionFunction";
ShaderStringBuilder vertexGraphEvalFunction = new ShaderStringBuilder();
ShaderStringBuilder vertexGraphOutputs = new ShaderStringBuilder();
// check for vertex animation -- enables HAVE_VERTEX_MODIFICATION
if (vertexActive)
{
vertexActive = true;
activeFields.Add("features.modifyMesh");
HDRPShaderStructs.AddActiveFieldsFromVertexGraphRequirements(activeFields, vertexRequirements);
// -------------------------------------
// Generate Output structure for Vertex Description function
GraphUtil.GenerateVertexDescriptionStruct(vertexGraphOutputs, vertexSlots, vertexGraphOutputStructName, activeFields);
// -------------------------------------
// Generate Vertex Description function
GraphUtil.GenerateVertexDescriptionFunction(
masterNode.owner as AbstractMaterialGraph,
vertexGraphEvalFunction,
functionRegistry,
sharedProperties,
mode,
vertexNodes,
vertexSlots,
vertexGraphInputStructName,
vertexGraphEvalFunctionName,
vertexGraphOutputStructName);
}
var blendCode = new ShaderStringBuilder();
var cullCode = new ShaderStringBuilder();
var zTestCode = new ShaderStringBuilder();
var zWriteCode = new ShaderStringBuilder();
var zClipCode = new ShaderStringBuilder();
var stencilCode = new ShaderStringBuilder();
var colorMaskCode = new ShaderStringBuilder();
HDSubShaderUtilities.BuildRenderStatesFromPassAndMaterialOptions(pass, materialOptions, blendCode, cullCode, zTestCode, zWriteCode, zClipCode, stencilCode, colorMaskCode);
HDRPShaderStructs.AddRequiredFields(pass.RequiredFields, activeFields);
// propagate active field requirements using dependencies
ShaderSpliceUtil.ApplyDependencies(
activeFields,
new List <Dependency[]>()
{
HDRPShaderStructs.FragInputs.dependencies,
HDRPShaderStructs.VaryingsMeshToPS.standardDependencies,
HDRPShaderStructs.SurfaceDescriptionInputs.dependencies,
HDRPShaderStructs.VertexDescriptionInputs.dependencies
});
// debug output all active fields
var interpolatorDefines = new ShaderGenerator();
if (debugOutput)
{
interpolatorDefines.AddShaderChunk("// ACTIVE FIELDS:");
foreach (string f in activeFields)
{
interpolatorDefines.AddShaderChunk("// " + f);
}
}
// build graph inputs structures
ShaderGenerator pixelGraphInputs = new ShaderGenerator();
ShaderSpliceUtil.BuildType(typeof(HDRPShaderStructs.SurfaceDescriptionInputs), activeFields, pixelGraphInputs);
ShaderGenerator vertexGraphInputs = new ShaderGenerator();
ShaderSpliceUtil.BuildType(typeof(HDRPShaderStructs.VertexDescriptionInputs), activeFields, vertexGraphInputs);
ShaderGenerator defines = new ShaderGenerator();
{
defines.AddShaderChunk(string.Format("#define SHADERPASS {0}", pass.ShaderPassName), true);
if (pass.ExtraDefines != null)
{
foreach (var define in pass.ExtraDefines)
{
defines.AddShaderChunk(define);
}
}
if (graphRequirements.requiresDepthTexture)
{
defines.AddShaderChunk("#define REQUIRE_DEPTH_TEXTURE");
}
defines.AddGenerator(interpolatorDefines);
}
var shaderPassIncludes = new ShaderGenerator();
if (pass.Includes != null)
{
foreach (var include in pass.Includes)
{
shaderPassIncludes.AddShaderChunk(include);
}
}
// build graph code
var graph = new ShaderGenerator();
{
graph.AddShaderChunk("// Shared Graph Properties (uniform inputs)");
graph.AddShaderChunk(sharedProperties.GetPropertiesDeclaration(1));
if (vertexActive)
{
graph.AddShaderChunk("// Vertex Graph Inputs");
graph.Indent();
graph.AddGenerator(vertexGraphInputs);
graph.Deindent();
graph.AddShaderChunk("// Vertex Graph Outputs");
graph.Indent();
graph.AddShaderChunk(vertexGraphOutputs.ToString());
graph.Deindent();
}
graph.AddShaderChunk("// Pixel Graph Inputs");
graph.Indent();
graph.AddGenerator(pixelGraphInputs);
graph.Deindent();
graph.AddShaderChunk("// Pixel Graph Outputs");
graph.Indent();
graph.AddShaderChunk(pixelGraphOutputs.ToString());
graph.Deindent();
graph.AddShaderChunk("// Shared Graph Node Functions");
graph.AddShaderChunk(graphNodeFunctions.ToString());
if (vertexActive)
{
graph.AddShaderChunk("// Vertex Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(vertexGraphEvalFunction.ToString());
graph.Deindent();
}
graph.AddShaderChunk("// Pixel Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(pixelGraphEvalFunction.ToString());
graph.Deindent();
}
// build the hash table of all named fragments TODO: could make this Dictionary<string, ShaderGenerator / string> ?
Dictionary <string, string> namedFragments = new Dictionary <string, string>();
namedFragments.Add("Defines", defines.GetShaderString(2, false));
namedFragments.Add("Graph", graph.GetShaderString(2, false));
namedFragments.Add("LightMode", pass.LightMode);
namedFragments.Add("PassName", pass.Name);
namedFragments.Add("Includes", shaderPassIncludes.GetShaderString(2, false));
namedFragments.Add("Blending", blendCode.ToString());
namedFragments.Add("Culling", cullCode.ToString());
namedFragments.Add("ZTest", zTestCode.ToString());
namedFragments.Add("ZWrite", zWriteCode.ToString());
namedFragments.Add("ZClip", zClipCode.ToString());
namedFragments.Add("Stencil", stencilCode.ToString());
namedFragments.Add("ColorMask", colorMaskCode.ToString());
namedFragments.Add("LOD", materialOptions.lod.ToString());
// this is the format string for building the 'C# qualified assembly type names' for $buildType() commands
string buildTypeAssemblyNameFormat = "UnityEditor.Experimental.Rendering.HDPipeline.HDRPShaderStructs+{0}, " + typeof(HDSubShaderUtilities).Assembly.FullName.ToString();
string sharedTemplatePath = Path.Combine(Path.Combine(HDUtils.GetHDRenderPipelinePath(), "Editor"), "ShaderGraph");
// process the template to generate the shader code for this pass
ShaderSpliceUtil.TemplatePreprocessor templatePreprocessor =
new ShaderSpliceUtil.TemplatePreprocessor(activeFields, namedFragments, debugOutput, sharedTemplatePath, sourceAssetDependencyPaths, buildTypeAssemblyNameFormat);
templatePreprocessor.ProcessTemplateFile(templateLocation);
result.AddShaderChunk(templatePreprocessor.GetShaderCode().ToString(), false);
return(true);
}
private static bool GenerateShaderPass(CustomRenderTextureNode masterNode, GenerationMode mode, ShaderGenerator result, List <string> sourceAssetDependencyPaths)
{
string templateLocation = Path.Combine(
HDUtils.GetHDRenderPipelinePath(),
"Editor",
"CustomRenderTextureShaderGraph",
"CustomRenderTexturePass.template");
if (!File.Exists(templateLocation))
{
Debug.LogError("Template not found: " + templateLocation);
return(false);
}
var activeFields = new HashSet <string>()
{
"uv0"
};
var pixelNodes = ListPool <AbstractMaterialNode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(pixelNodes, masterNode, NodeUtils.IncludeSelf.Include, CustomRenderTextureNode.AllSlots);
var pixelRequirements = ShaderGraphRequirements.FromNodes(pixelNodes, ShaderStageCapability.Fragment, false);
var graphNodeFunctions = new ShaderStringBuilder();
graphNodeFunctions.IncreaseIndent();
var functionRegistry = new FunctionRegistry(graphNodeFunctions);
var pixelSlots = HDSubShaderUtilities.FindMaterialSlotsOnNode(CustomRenderTextureNode.AllSlots, masterNode);
// build the graph outputs structure to hold the results of each active slots (and fill out activeFields to indicate they are active)
string pixelGraphInputStructName = "SurfaceDescriptionInputs";
string pixelGraphOutputStructName = "SurfaceDescriptionOutputs";
string pixelGraphEvalFunctionName = "SurfaceDescriptionFunction";
var sharedProperties = new PropertyCollector();
var pixelGraphEvalFunction = new ShaderStringBuilder();
// Build the graph evaluation code, to evaluate the specified slots
GraphUtil.GenerateSurfaceDescriptionFunction(
pixelNodes,
masterNode,
masterNode.owner as GraphData,
pixelGraphEvalFunction,
functionRegistry,
sharedProperties,
pixelRequirements,
mode,
pixelGraphEvalFunctionName,
pixelGraphOutputStructName,
null,
pixelSlots,
pixelGraphInputStructName);
// build graph inputs structures
ShaderGenerator pixelGraphInputs = new ShaderGenerator();
ShaderSpliceUtil.BuildType(typeof(HDRPShaderStructs.SurfaceDescriptionInputs), activeFields, pixelGraphInputs);
// build graph code
var graph = new ShaderGenerator();
{
graph.AddShaderChunk("// Shared Graph Properties (uniform inputs)");
graph.AddShaderChunk(sharedProperties.GetPropertiesDeclaration(1, mode));
graph.AddShaderChunk("// Shared Graph Node Functions");
graph.AddShaderChunk(graphNodeFunctions.ToString());
graph.AddShaderChunk("// Pixel Graph Evaluation");
graph.Indent();
graph.AddShaderChunk(pixelGraphEvalFunction.ToString());
graph.Deindent();
}
var namedFragments = new Dictionary <string, string>()
{
{ "Graph", graph.GetShaderString(2, false) },
};
string sharedTemplatePath = Path.Combine(HDUtils.GetHDRenderPipelinePath(), "Editor", "ShaderGraph");
string buildTypeAssemblyNameFormat = "UnityEditor.Experimental.Rendering.HDPipeline.HDRPShaderStructs+{0}, " + typeof(HDSubShaderUtilities).Assembly.FullName.ToString();
var templatePreprocessor =
new ShaderSpliceUtil.TemplatePreprocessor(activeFields, namedFragments, false, sharedTemplatePath, sourceAssetDependencyPaths, buildTypeAssemblyNameFormat);
templatePreprocessor.ProcessTemplateFile(templateLocation);
result.AddShaderChunk(templatePreprocessor.GetShaderCode().ToString(), false);
return(true);
}