private static string GetShaderPassFromTemplate(UnlitMasterNode masterNode, Pass pass, GenerationMode mode)
{
var builder = new ShaderStringBuilder();
builder.IncreaseIndent();
builder.IncreaseIndent();
var surfaceDescriptionFunction = new ShaderGenerator();
var surfaceDescriptionStruct = new ShaderGenerator();
var surfaceInputs = new ShaderGenerator();
var functionRegistry = new FunctionRegistry(builder);
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);
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);
ShaderGenerator defines = new ShaderGenerator();
defines.AddShaderChunk(string.Format("#define SHADERPASS {0}", pass.ShaderPassName), true);
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);
defines.AddShaderChunk(string.Format("#define ATTRIBUTES_NEED_TEXCOORD{0}", (int)channel), true);
defines.AddShaderChunk(string.Format("#define VARYINGS_NEED_TEXCOORD{0}", (int)channel), true);
}
surfaceInputs.Deindent();
surfaceInputs.AddShaderChunk("};", false);
var slots = new List <MaterialSlot>();
foreach (var id in pass.PixelShaderSlots)
{
var slot = masterNode.FindSlot <MaterialSlot>(id);
if (slot != null)
{
slots.Add(slot);
}
}
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(surfaceDescriptionStruct.GetShaderString(2), false);
graph.AddShaderChunk(surfaceDescriptionFunction.GetShaderString(2), false);
var tagsVisitor = new ShaderGenerator();
var blendingVisitor = new ShaderGenerator();
var cullingVisitor = new ShaderGenerator();
var zTestVisitor = new ShaderGenerator();
var zWriteVisitor = new ShaderGenerator();
var materialOptions = new SurfaceMaterialOptions();
materialOptions.GetTags(tagsVisitor);
materialOptions.GetBlend(blendingVisitor);
materialOptions.GetCull(cullingVisitor);
materialOptions.GetDepthTest(zTestVisitor);
materialOptions.GetDepthWrite(zWriteVisitor);
var localPixelShader = new ShaderGenerator();
var localSurfaceInputs = new ShaderGenerator();
var surfaceOutputRemap = new ShaderGenerator();
foreach (var channel in requirements.requiresMeshUVs.Distinct())
{
localSurfaceInputs.AddShaderChunk(string.Format("surfaceInput.{0} = {1};", channel.GetUVName(), string.Format("half4(input.texCoord{0}, 0, 0)", (int)channel)), false);
}
var templateLocation = ShaderGenerator.GetTemplatePath("HDUnlitPassForward.template");
foreach (var slot in usedSlots)
{
surfaceOutputRemap.AddShaderChunk(slot.shaderOutputName
+ " = surf."
+ 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("${LocalPixelShader}", localPixelShader.GetShaderString(3));
resultPass = resultPass.Replace("${SurfaceInputs}", localSurfaceInputs.GetShaderString(3));
resultPass = resultPass.Replace("${SurfaceOutputRemap}", surfaceOutputRemap.GetShaderString(3));
resultPass = resultPass.Replace("${LightMode}", pass.Name);
resultPass = resultPass.Replace("${ShaderPassInclude}", pass.ShaderPassInclude);
resultPass = resultPass.Replace("${Tags}", tagsVisitor.GetShaderString(2));
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));
resultPass = resultPass.Replace("${LOD}", "" + materialOptions.lod);
return(resultPass);
}
// TODO: Fix this
static ShaderGraphVfxAsset GenerateVfxShaderGraphAsset(GraphData graph)
{
var target = graph.activeTargets.FirstOrDefault(x => x is VFXTarget) as VFXTarget;
if (target == null)
{
return(null);
}
var nl = Environment.NewLine;
var indent = new string(' ', 4);
var asset = ScriptableObject.CreateInstance <ShaderGraphVfxAsset>();
var result = asset.compilationResult = new GraphCompilationResult();
var mode = GenerationMode.ForReals;
asset.lit = target.lit;
asset.alphaClipping = target.alphaTest;
var assetGuid = graph.assetGuid;
var assetPath = AssetDatabase.GUIDToAssetPath(assetGuid);
var hlslName = NodeUtils.GetHLSLSafeName(Path.GetFileNameWithoutExtension(assetPath));
var ports = new List <MaterialSlot>();
var nodes = new List <AbstractMaterialNode>();
foreach (var vertexBlock in graph.vertexContext.blocks)
{
vertexBlock.value.GetInputSlots(ports);
NodeUtils.DepthFirstCollectNodesFromNode(nodes, vertexBlock);
}
foreach (var fragmentBlock in graph.fragmentContext.blocks)
{
fragmentBlock.value.GetInputSlots(ports);
NodeUtils.DepthFirstCollectNodesFromNode(nodes, fragmentBlock);
}
//Remove inactive blocks from generation
{
var tmpCtx = new TargetActiveBlockContext(new List <BlockFieldDescriptor>(), null);
target.GetActiveBlocks(ref tmpCtx);
ports.RemoveAll(materialSlot =>
{
return(!tmpCtx.activeBlocks.Any(o => materialSlot.RawDisplayName() == o.displayName));
});
}
var bodySb = new ShaderStringBuilder(1);
var registry = new FunctionRegistry(new ShaderStringBuilder(), true);
foreach (var properties in graph.properties)
{
properties.ValidateConcretePrecision(graph.concretePrecision);
}
foreach (var node in nodes)
{
if (node is IGeneratesBodyCode bodyGenerator)
{
bodySb.currentNode = node;
bodyGenerator.GenerateNodeCode(bodySb, mode);
bodySb.ReplaceInCurrentMapping(PrecisionUtil.Token, node.concretePrecision.ToShaderString());
}
if (node is IGeneratesFunction generatesFunction)
{
registry.builder.currentNode = node;
generatesFunction.GenerateNodeFunction(registry, mode);
}
}
bodySb.currentNode = null;
var portNodeSets = new HashSet <AbstractMaterialNode> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
var nodeSet = new HashSet <AbstractMaterialNode>();
NodeUtils.CollectNodeSet(nodeSet, port);
portNodeSets[portIndex] = nodeSet;
}
var portPropertySets = new HashSet <string> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
portPropertySets[portIndex] = new HashSet <string>();
}
foreach (var node in nodes)
{
if (!(node is PropertyNode propertyNode))
{
continue;
}
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
if (portNodeSet.Contains(node))
{
portPropertySets[portIndex].Add(propertyNode.property.objectId);
}
}
}
var shaderProperties = new PropertyCollector();
foreach (var node in nodes)
{
node.CollectShaderProperties(shaderProperties, GenerationMode.ForReals);
}
asset.SetTextureInfos(shaderProperties.GetConfiguredTexutres());
var codeSnippets = new List <string>();
var portCodeIndices = new List <int> [ports.Count];
var sharedCodeIndices = new List <int>();
for (var i = 0; i < portCodeIndices.Length; i++)
{
portCodeIndices[i] = new List <int>();
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"#include \"Packages/com.unity.shadergraph/ShaderGraphLibrary/Functions.hlsl\"{nl}");
for (var registryIndex = 0; registryIndex < registry.names.Count; registryIndex++)
{
var name = registry.names[registryIndex];
var source = registry.sources[name];
var precision = source.nodes.First().concretePrecision;
var hasPrecisionMismatch = false;
var nodeNames = new HashSet <string>();
foreach (var node in source.nodes)
{
nodeNames.Add(node.name);
if (node.concretePrecision != precision)
{
hasPrecisionMismatch = true;
break;
}
}
if (hasPrecisionMismatch)
{
var message = new StringBuilder($"Precision mismatch for function {name}:");
foreach (var node in source.nodes)
{
message.AppendLine($"{node.name} ({node.objectId}): {node.concretePrecision}");
}
throw new InvalidOperationException(message.ToString());
}
var code = source.code.Replace(PrecisionUtil.Token, precision.ToShaderString());
code = $"// Node: {string.Join(", ", nodeNames)}{nl}{code}";
var codeIndex = codeSnippets.Count;
codeSnippets.Add(code + nl);
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
foreach (var node in source.nodes)
{
if (portNodeSet.Contains(node))
{
portCodeIndices[portIndex].Add(codeIndex);
break;
}
}
}
}
foreach (var property in graph.properties)
{
if (property.isExposable && property.generatePropertyBlock)
{
continue;
}
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portPropertySet = portPropertySets[portIndex];
if (portPropertySet.Contains(property.objectId))
{
portCodeIndices[portIndex].Add(codeSnippets.Count);
}
}
codeSnippets.Add($"// Property: {property.displayName}{nl}{property.GetPropertyDeclarationString()}{nl}{nl}");
}
var inputStructName = $"SG_Input_{assetGuid}";
var outputStructName = $"SG_Output_{assetGuid}";
var evaluationFunctionName = $"SG_Evaluate_{assetGuid}";
#region Input Struct
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"struct {inputStructName}{nl}{{{nl}");
#region Requirements
var portRequirements = new ShaderGraphRequirements[ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var requirementsNodes = portNodeSets[portIndex].ToList();
requirementsNodes.Add(ports[portIndex].owner);
portRequirements[portIndex] = ShaderGraphRequirements.FromNodes(requirementsNodes, ports[portIndex].stageCapability);
}
var portIndices = new List <int>();
portIndices.Capacity = ports.Count;
void AddRequirementsSnippet(Func <ShaderGraphRequirements, bool> predicate, string snippet)
{
portIndices.Clear();
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
if (predicate(portRequirements[portIndex]))
{
portIndices.Add(portIndex);
}
}
if (portIndices.Count > 0)
{
foreach (var portIndex in portIndices)
{
portCodeIndices[portIndex].Add(codeSnippets.Count);
}
codeSnippets.Add($"{indent}{snippet};{nl}");
}
}
void AddCoordinateSpaceSnippets(InterpolatorType interpolatorType, Func <ShaderGraphRequirements, NeededCoordinateSpace> selector)
{
foreach (var space in EnumInfo <CoordinateSpace> .values)
{
var neededSpace = space.ToNeededCoordinateSpace();
AddRequirementsSnippet(r => (selector(r) & neededSpace) > 0, $"float3 {space.ToVariableName(interpolatorType)}");
}
}
// TODO: Rework requirements system to make this better
AddCoordinateSpaceSnippets(InterpolatorType.Normal, r => r.requiresNormal);
AddCoordinateSpaceSnippets(InterpolatorType.Tangent, r => r.requiresTangent);
AddCoordinateSpaceSnippets(InterpolatorType.BiTangent, r => r.requiresBitangent);
AddCoordinateSpaceSnippets(InterpolatorType.ViewDirection, r => r.requiresViewDir);
AddCoordinateSpaceSnippets(InterpolatorType.Position, r => r.requiresPosition);
AddRequirementsSnippet(r => r.requiresVertexColor, $"float4 {ShaderGeneratorNames.VertexColor}");
AddRequirementsSnippet(r => r.requiresScreenPosition, $"float4 {ShaderGeneratorNames.ScreenPosition}");
AddRequirementsSnippet(r => r.requiresFaceSign, $"float4 {ShaderGeneratorNames.FaceSign}");
foreach (var uvChannel in EnumInfo <UVChannel> .values)
{
AddRequirementsSnippet(r => r.requiresMeshUVs.Contains(uvChannel), $"half4 {uvChannel.GetUVName()}");
}
AddRequirementsSnippet(r => r.requiresTime, $"float3 {ShaderGeneratorNames.TimeParameters}");
#endregion
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"}};{nl}{nl}");
#endregion
// VFX Code heavily relies on the slotId from the original MasterNodes
// Since we keep these around for upgrades anyway, for now it is simpler to use them
// Therefore we remap the output blocks back to the original Ids here
var originialPortIds = new int[ports.Count];
for (int i = 0; i < originialPortIds.Length; i++)
{
if (!VFXTarget.s_BlockMap.TryGetValue((ports[i].owner as BlockNode).descriptor, out var originalId))
{
continue;
}
// In Master Nodes we had a different BaseColor/Color slot id between Unlit/Lit
// In the stack we use BaseColor for both cases. Catch this here.
if (asset.lit && originalId == ShaderGraphVfxAsset.ColorSlotId)
{
originalId = ShaderGraphVfxAsset.BaseColorSlotId;
}
originialPortIds[i] = originalId;
}
#region Output Struct
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"struct {outputStructName}{nl}{{");
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
portCodeIndices[portIndex].Add(codeSnippets.Count);
codeSnippets.Add($"{nl}{indent}{port.concreteValueType.ToShaderString(graph.concretePrecision)} {port.shaderOutputName}_{originialPortIds[portIndex]};");
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{nl}}};{nl}{nl}");
#endregion
#region Graph Function
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{outputStructName} {evaluationFunctionName}({nl}{indent}{inputStructName} IN");
var inputProperties = new List <AbstractShaderProperty>();
var portPropertyIndices = new List <int> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
portPropertyIndices[portIndex] = new List <int>();
}
foreach (var property in graph.properties)
{
if (!property.isExposable || !property.generatePropertyBlock)
{
continue;
}
var propertyIndex = inputProperties.Count;
var codeIndex = codeSnippets.Count;
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portPropertySet = portPropertySets[portIndex];
if (portPropertySet.Contains(property.objectId))
{
portCodeIndices[portIndex].Add(codeIndex);
portPropertyIndices[portIndex].Add(propertyIndex);
}
}
inputProperties.Add(property);
codeSnippets.Add($",{nl}{indent}/* Property: {property.displayName} */ {property.GetPropertyAsArgumentString()}");
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"){nl}{{");
#region Node Code
for (var mappingIndex = 0; mappingIndex < bodySb.mappings.Count; mappingIndex++)
{
var mapping = bodySb.mappings[mappingIndex];
var code = bodySb.ToString(mapping.startIndex, mapping.count);
if (string.IsNullOrWhiteSpace(code))
{
continue;
}
code = $"{nl}{indent}// Node: {mapping.node.name}{nl}{code}";
var codeIndex = codeSnippets.Count;
codeSnippets.Add(code);
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
if (portNodeSet.Contains(mapping.node))
{
portCodeIndices[portIndex].Add(codeIndex);
}
}
}
#endregion
#region Output Mapping
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{nl}{indent}// VFXMasterNode{nl}{indent}{outputStructName} OUT;{nl}");
// Output mapping
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
portCodeIndices[portIndex].Add(codeSnippets.Count);
codeSnippets.Add($"{indent}OUT.{port.shaderOutputName}_{originialPortIds[portIndex]} = {port.owner.GetSlotValue(port.id, GenerationMode.ForReals, graph.concretePrecision)};{nl}");
}
#endregion
// Function end
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{indent}return OUT;{nl}}}{nl}");
#endregion
result.codeSnippets = codeSnippets.ToArray();
result.sharedCodeIndices = sharedCodeIndices.ToArray();
result.outputCodeIndices = new IntArray[ports.Count];
for (var i = 0; i < ports.Count; i++)
{
result.outputCodeIndices[i] = portCodeIndices[i].ToArray();
}
var outputMetadatas = new OutputMetadata[ports.Count];
for (int portIndex = 0; portIndex < outputMetadatas.Length; portIndex++)
{
outputMetadatas[portIndex] = new OutputMetadata(portIndex, ports[portIndex].shaderOutputName, originialPortIds[portIndex]);
}
asset.SetOutputs(outputMetadatas);
asset.evaluationFunctionName = evaluationFunctionName;
asset.inputStructName = inputStructName;
asset.outputStructName = outputStructName;
asset.portRequirements = portRequirements;
asset.concretePrecision = graph.concretePrecision;
asset.SetProperties(inputProperties);
asset.outputPropertyIndices = new IntArray[ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
asset.outputPropertyIndices[portIndex] = portPropertyIndices[portIndex].ToArray();
}
return(asset);
}
static ShaderGraphVfxAsset GenerateVfxShaderGraphAsset(VfxMasterNode masterNode)
{
var nl = Environment.NewLine;
var indent = new string(' ', 4);
var asset = ScriptableObject.CreateInstance <ShaderGraphVfxAsset>();
var result = asset.compilationResult = new GraphCompilationResult();
var mode = GenerationMode.ForReals;
var graph = masterNode.owner;
asset.lit = masterNode.lit.isOn;
var assetGuid = masterNode.owner.assetGuid;
var assetPath = AssetDatabase.GUIDToAssetPath(assetGuid);
var hlslName = NodeUtils.GetHLSLSafeName(Path.GetFileNameWithoutExtension(assetPath));
var ports = new List <MaterialSlot>();
masterNode.GetInputSlots(ports);
var nodes = new List <AbstractMaterialNode>();
NodeUtils.DepthFirstCollectNodesFromNode(nodes, masterNode);
var bodySb = new ShaderStringBuilder(1);
var registry = new FunctionRegistry(new ShaderStringBuilder(), true);
foreach (var properties in graph.properties)
{
properties.ValidateConcretePrecision(graph.concretePrecision);
}
foreach (var node in nodes)
{
if (node is IGeneratesBodyCode bodyGenerator)
{
bodySb.currentNode = node;
bodyGenerator.GenerateNodeCode(bodySb, mode);
bodySb.ReplaceInCurrentMapping(PrecisionUtil.Token, node.concretePrecision.ToShaderString());
}
if (node is IGeneratesFunction generatesFunction)
{
registry.builder.currentNode = node;
generatesFunction.GenerateNodeFunction(registry, mode);
}
}
bodySb.currentNode = null;
var portNodeSets = new HashSet <AbstractMaterialNode> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
var nodeSet = new HashSet <AbstractMaterialNode>();
NodeUtils.CollectNodeSet(nodeSet, port);
portNodeSets[portIndex] = nodeSet;
}
var portPropertySets = new HashSet <Guid> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
portPropertySets[portIndex] = new HashSet <Guid>();
}
foreach (var node in nodes)
{
if (!(node is PropertyNode propertyNode))
{
continue;
}
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
if (portNodeSet.Contains(node))
{
portPropertySets[portIndex].Add(propertyNode.propertyGuid);
}
}
}
var shaderProperties = new PropertyCollector();
foreach (var node in nodes)
{
node.CollectShaderProperties(shaderProperties, GenerationMode.ForReals);
}
asset.SetTextureInfos(shaderProperties.GetConfiguredTexutres());
var codeSnippets = new List <string>();
var portCodeIndices = new List <int> [ports.Count];
var sharedCodeIndices = new List <int>();
for (var i = 0; i < portCodeIndices.Length; i++)
{
portCodeIndices[i] = new List <int>();
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"#include \"Packages/com.unity.shadergraph/ShaderGraphLibrary/Functions.hlsl\"{nl}");
for (var registryIndex = 0; registryIndex < registry.names.Count; registryIndex++)
{
var name = registry.names[registryIndex];
var source = registry.sources[name];
var precision = source.nodes.First().concretePrecision;
var hasPrecisionMismatch = false;
var nodeNames = new HashSet <string>();
foreach (var node in source.nodes)
{
nodeNames.Add(node.name);
if (node.concretePrecision != precision)
{
hasPrecisionMismatch = true;
break;
}
}
if (hasPrecisionMismatch)
{
var message = new StringBuilder($"Precision mismatch for function {name}:");
foreach (var node in source.nodes)
{
message.AppendLine($"{node.name} ({node.guid}): {node.concretePrecision}");
}
throw new InvalidOperationException(message.ToString());
}
var code = source.code.Replace(PrecisionUtil.Token, precision.ToShaderString());
code = $"// Node: {string.Join(", ", nodeNames)}{nl}{code}";
var codeIndex = codeSnippets.Count;
codeSnippets.Add(code + nl);
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
foreach (var node in source.nodes)
{
if (portNodeSet.Contains(node))
{
portCodeIndices[portIndex].Add(codeIndex);
break;
}
}
}
}
foreach (var property in graph.properties)
{
if (property.isExposable && property.generatePropertyBlock)
{
continue;
}
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portPropertySet = portPropertySets[portIndex];
if (portPropertySet.Contains(property.guid))
{
portCodeIndices[portIndex].Add(codeSnippets.Count);
}
}
codeSnippets.Add($"// Property: {property.displayName}{nl}{property.GetPropertyDeclarationString()}{nl}{nl}");
}
var inputStructName = $"SG_Input_{assetGuid}";
var outputStructName = $"SG_Output_{assetGuid}";
var evaluationFunctionName = $"SG_Evaluate_{assetGuid}";
#region Input Struct
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"struct {inputStructName}{nl}{{{nl}");
#region Requirements
var portRequirements = new ShaderGraphRequirements[ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
portRequirements[portIndex] = ShaderGraphRequirements.FromNodes(portNodeSets[portIndex].ToList(), ports[portIndex].stageCapability);
}
var portIndices = new List <int>();
portIndices.Capacity = ports.Count;
void AddRequirementsSnippet(Func <ShaderGraphRequirements, bool> predicate, string snippet)
{
portIndices.Clear();
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
if (predicate(portRequirements[portIndex]))
{
portIndices.Add(portIndex);
}
}
if (portIndices.Count > 0)
{
foreach (var portIndex in portIndices)
{
portCodeIndices[portIndex].Add(codeSnippets.Count);
}
codeSnippets.Add($"{indent}{snippet};{nl}");
}
}
void AddCoordinateSpaceSnippets(InterpolatorType interpolatorType, Func <ShaderGraphRequirements, NeededCoordinateSpace> selector)
{
foreach (var space in EnumInfo <CoordinateSpace> .values)
{
var neededSpace = space.ToNeededCoordinateSpace();
AddRequirementsSnippet(r => (selector(r) & neededSpace) > 0, $"float3 {space.ToVariableName(interpolatorType)}");
}
}
// TODO: Rework requirements system to make this better
AddCoordinateSpaceSnippets(InterpolatorType.Normal, r => r.requiresNormal);
AddCoordinateSpaceSnippets(InterpolatorType.Tangent, r => r.requiresTangent);
AddCoordinateSpaceSnippets(InterpolatorType.BiTangent, r => r.requiresBitangent);
AddCoordinateSpaceSnippets(InterpolatorType.ViewDirection, r => r.requiresViewDir);
AddCoordinateSpaceSnippets(InterpolatorType.Position, r => r.requiresPosition);
AddRequirementsSnippet(r => r.requiresVertexColor, $"float4 {ShaderGeneratorNames.VertexColor}");
AddRequirementsSnippet(r => r.requiresScreenPosition, $"float4 {ShaderGeneratorNames.ScreenPosition}");
AddRequirementsSnippet(r => r.requiresFaceSign, $"float4 {ShaderGeneratorNames.FaceSign}");
foreach (var uvChannel in EnumInfo <UVChannel> .values)
{
AddRequirementsSnippet(r => r.requiresMeshUVs.Contains(uvChannel), $"half4 {uvChannel.GetUVName()}");
}
AddRequirementsSnippet(r => r.requiresTime, $"float3 {ShaderGeneratorNames.TimeParameters}");
#endregion
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"}};{nl}{nl}");
#endregion
#region Output Struct
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"struct {outputStructName}{nl}{{");
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
portCodeIndices[portIndex].Add(codeSnippets.Count);
codeSnippets.Add($"{nl}{indent}{port.concreteValueType.ToShaderString(graph.concretePrecision)} {port.shaderOutputName}_{port.id};");
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{nl}}};{nl}{nl}");
#endregion
#region Graph Function
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{outputStructName} {evaluationFunctionName}({nl}{indent}{inputStructName} IN");
var inputProperties = new List <AbstractShaderProperty>();
var portPropertyIndices = new List <int> [ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
portPropertyIndices[portIndex] = new List <int>();
}
foreach (var property in graph.properties)
{
if (!property.isExposable || !property.generatePropertyBlock)
{
continue;
}
var propertyIndex = inputProperties.Count;
var codeIndex = codeSnippets.Count;
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portPropertySet = portPropertySets[portIndex];
if (portPropertySet.Contains(property.guid))
{
portCodeIndices[portIndex].Add(codeIndex);
portPropertyIndices[portIndex].Add(propertyIndex);
}
}
inputProperties.Add(property);
codeSnippets.Add($",{nl}{indent}/* Property: {property.displayName} */ {property.GetPropertyAsArgumentString()}");
}
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"){nl}{{");
#region Node Code
for (var mappingIndex = 0; mappingIndex < bodySb.mappings.Count; mappingIndex++)
{
var mapping = bodySb.mappings[mappingIndex];
var code = bodySb.ToString(mapping.startIndex, mapping.count);
if (string.IsNullOrWhiteSpace(code))
{
continue;
}
code = $"{nl}{indent}// Node: {mapping.node.name}{nl}{code}";
var codeIndex = codeSnippets.Count;
codeSnippets.Add(code);
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var portNodeSet = portNodeSets[portIndex];
if (portNodeSet.Contains(mapping.node))
{
portCodeIndices[portIndex].Add(codeIndex);
}
}
}
#endregion
#region Output Mapping
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{nl}{indent}// {masterNode.name}{nl}{indent}{outputStructName} OUT;{nl}");
// Output mapping
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
var port = ports[portIndex];
portCodeIndices[portIndex].Add(codeSnippets.Count);
codeSnippets.Add($"{indent}OUT.{port.shaderOutputName}_{port.id} = {masterNode.GetSlotValue(port.id, GenerationMode.ForReals, graph.concretePrecision)};{nl}");
}
#endregion
// Function end
sharedCodeIndices.Add(codeSnippets.Count);
codeSnippets.Add($"{indent}return OUT;{nl}}}{nl}");
#endregion
result.codeSnippets = codeSnippets.ToArray();
result.sharedCodeIndices = sharedCodeIndices.ToArray();
result.outputCodeIndices = new IntArray[ports.Count];
for (var i = 0; i < ports.Count; i++)
{
result.outputCodeIndices[i] = portCodeIndices[i].ToArray();
}
asset.SetOutputs(ports.Select((t, i) => new OutputMetadata(i, t.shaderOutputName, t.id)).ToArray());
asset.evaluationFunctionName = evaluationFunctionName;
asset.inputStructName = inputStructName;
asset.outputStructName = outputStructName;
asset.portRequirements = portRequirements;
asset.concretePrecision = graph.concretePrecision;
asset.SetProperties(inputProperties);
asset.outputPropertyIndices = new IntArray[ports.Count];
for (var portIndex = 0; portIndex < ports.Count; portIndex++)
{
asset.outputPropertyIndices[portIndex] = portPropertyIndices[portIndex].ToArray();
}
return(asset);
}
// Node generations
public virtual void GenerateNodeCode(ShaderGenerator visitor, GraphContext graphContext, GenerationMode generationMode)
{
var sb = new ShaderStringBuilder();
sb.AppendLine("{0}3 {1}_UV = {2} * {3};", precision, GetVariableNameForNode(),
GetSlotValue(PositionInputId, generationMode), GetSlotValue(TileInputId, generationMode));
//Sampler input slot
var samplerSlot = FindInputSlot <MaterialSlot>(SamplerInputId);
var edgesSampler = owner.GetEdges(samplerSlot.slotReference);
var id = GetSlotValue(TextureInputId, generationMode);
switch (textureType)
{
// Whiteout blend method
// https://medium.com/@bgolus/normal-mapping-for-a-triplanar-shader-10bf39dca05a
case TextureType.Normal:
sb.AppendLine("{0}3 {1}_Blend = max(pow(abs({2}), {3}), 0);", precision, GetVariableNameForNode(),
GetSlotValue(NormalInputId, generationMode), GetSlotValue(BlendInputId, generationMode));
sb.AppendLine("{0}_Blend /= ({0}_Blend.x + {0}_Blend.y + {0}_Blend.z ).xxx;", GetVariableNameForNode());
sb.AppendLine("{0}3 {1}_X = UnpackNormalmapRGorAG(SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.zy));"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}3 {1}_Y = UnpackNormalmapRGorAG(SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.xz));"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}3 {1}_Z = UnpackNormalmapRGorAG(SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.xy));"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}_X = {1}3({0}_X.xy + {2}.zy, abs({0}_X.z) * {2}.x);"
, GetVariableNameForNode()
, precision
, GetSlotValue(NormalInputId, generationMode));
sb.AppendLine("{0}_Y = {1}3({0}_Y.xy + {2}.xz, abs({0}_Y.z) * {2}.y);"
, GetVariableNameForNode()
, precision
, GetSlotValue(NormalInputId, generationMode));
sb.AppendLine("{0}_Z = {1}3({0}_Z.xy + {2}.xy, abs({0}_Z.z) * {2}.z);"
, GetVariableNameForNode()
, precision
, GetSlotValue(NormalInputId, generationMode));
sb.AppendLine("{0}4 {1} = {0}4(normalize({2}_X.zyx * {2}_Blend.x + {2}_Y.xzy * {2}_Blend.y + {2}_Z.xyz * {2}_Blend.z), 1);"
, precision
, GetVariableNameForSlot(OutputSlotId)
, GetVariableNameForNode());
sb.AppendLine("float3x3 {0}_Transform = float3x3(IN.WorldSpaceTangent, IN.WorldSpaceBiTangent, IN.WorldSpaceNormal);", GetVariableNameForNode());
sb.AppendLine("{0}.rgb = TransformWorldToTangent({0}.rgb, {1}_Transform);"
, GetVariableNameForSlot(OutputSlotId)
, GetVariableNameForNode());
break;
default:
sb.AppendLine("{0}3 {1}_Blend = pow(abs({2}), {3});", precision, GetVariableNameForNode(),
GetSlotValue(NormalInputId, generationMode), GetSlotValue(BlendInputId, generationMode));
sb.AppendLine("{0}_Blend /= dot({0}_Blend, 1.0);", GetVariableNameForNode());
sb.AppendLine("{0}4 {1}_X = SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.zy);"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}4 {1}_Y = SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.xz);"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}4 {1}_Z = SAMPLE_TEXTURE2D({2}, {3}, {1}_UV.xy);"
, precision
, GetVariableNameForNode()
, id
, edgesSampler.Any() ? GetSlotValue(SamplerInputId, generationMode) : "sampler" + id);
sb.AppendLine("{0}4 {1} = {2}_X * {2}_Blend.x + {2}_Y * {2}_Blend.y + {2}_Z * {2}_Blend.z;"
, precision
, GetVariableNameForSlot(OutputSlotId)
, GetVariableNameForNode());
break;
}
visitor.AddShaderChunk(sb.ToString(), false);
}
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 = ShaderGenerator.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 GenerationResults GetShader(this AbstractMaterialGraph graph, AbstractMaterialNode node, GenerationMode mode, string name)
{
var results = new GenerationResults();
bool isUber = node == null;
var vertexInputs = new ShaderGenerator();
var vertexShader = new ShaderGenerator();
var surfaceDescriptionFunction = new ShaderGenerator();
var surfaceDescriptionStruct = new ShaderGenerator();
var functionBuilder = new ShaderStringBuilder();
var functionRegistry = new FunctionRegistry(functionBuilder);
var surfaceInputs = new ShaderGenerator();
surfaceInputs.AddShaderChunk("struct SurfaceInputs{", false);
surfaceInputs.Indent();
var activeNodeList = ListPool <INode> .Get();
if (isUber)
{
var unmarkedNodes = graph.GetNodes <INode>().Where(x => !(x is IMasterNode)).ToDictionary(x => x.guid);
while (unmarkedNodes.Any())
{
var unmarkedNode = unmarkedNodes.FirstOrDefault();
Visit(activeNodeList, unmarkedNodes, unmarkedNode.Value);
}
}
else
{
NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, node);
}
var requirements = ShaderGraphRequirements.FromNodes(activeNodeList);
GenerateApplicationVertexInputs(requirements, 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);
}
results.previewMode = PreviewMode.Preview3D;
if (!isUber)
{
foreach (var pNode in activeNodeList.OfType <AbstractMaterialNode>())
{
if (pNode.previewMode == PreviewMode.Preview3D)
{
results.previewMode = PreviewMode.Preview3D;
break;
}
}
}
foreach (var channel in requirements.requiresMeshUVs.Distinct())
{
surfaceInputs.AddShaderChunk(String.Format("half4 {0};", channel.GetUVName()), false);
}
surfaceInputs.Deindent();
surfaceInputs.AddShaderChunk("};", false);
vertexShader.AddShaderChunk("GraphVertexInput PopulateVertexData(GraphVertexInput v){", false);
vertexShader.Indent();
vertexShader.AddShaderChunk("return v;", false);
vertexShader.Deindent();
vertexShader.AddShaderChunk("}", false);
var slots = new List <MaterialSlot>();
foreach (var activeNode in isUber ? activeNodeList.Where(n => ((AbstractMaterialNode)n).hasPreview) : ((INode)node).ToEnumerable())
{
if (activeNode is IMasterNode)
{
slots.AddRange(activeNode.GetInputSlots <MaterialSlot>());
}
else
{
slots.AddRange(activeNode.GetOutputSlots <MaterialSlot>());
}
}
GenerateSurfaceDescriptionStruct(surfaceDescriptionStruct, slots, !isUber);
var shaderProperties = new PropertyCollector();
results.outputIdProperty = new Vector1ShaderProperty
{
displayName = "OutputId",
generatePropertyBlock = false,
value = -1
};
if (isUber)
{
shaderProperties.AddShaderProperty(results.outputIdProperty);
}
GenerateSurfaceDescription(
activeNodeList,
node,
graph,
surfaceDescriptionFunction,
functionRegistry,
shaderProperties,
requirements,
mode,
outputIdProperty: results.outputIdProperty);
var finalBuilder = new ShaderStringBuilder();
finalBuilder.AppendLine(@"Shader ""{0}""", name);
using (finalBuilder.BlockScope())
{
finalBuilder.AppendLine("Properties");
using (finalBuilder.BlockScope())
{
finalBuilder.AppendLines(shaderProperties.GetPropertiesBlock(0));
}
finalBuilder.AppendLine(@"HLSLINCLUDE");
finalBuilder.AppendLine("#define USE_LEGACY_UNITY_MATRIX_VARIABLES");
finalBuilder.AppendLine(@"#include ""CoreRP/ShaderLibrary/Common.hlsl""");
finalBuilder.AppendLine(@"#include ""CoreRP/ShaderLibrary/Packing.hlsl""");
finalBuilder.AppendLine(@"#include ""CoreRP/ShaderLibrary/Color.hlsl""");
finalBuilder.AppendLine(@"#include ""CoreRP/ShaderLibrary/UnityInstancing.hlsl""");
finalBuilder.AppendLine(@"#include ""CoreRP/ShaderLibrary/EntityLighting.hlsl""");
finalBuilder.AppendLine(@"#include ""ShaderGraphLibrary/ShaderVariables.hlsl""");
finalBuilder.AppendLine(@"#include ""ShaderGraphLibrary/ShaderVariablesFunctions.hlsl""");
finalBuilder.AppendLine(@"#include ""ShaderGraphLibrary/Functions.hlsl""");
finalBuilder.AppendLines(shaderProperties.GetPropertiesDeclaration(0));
finalBuilder.AppendLines(surfaceInputs.GetShaderString(0));
finalBuilder.Concat(functionBuilder);
finalBuilder.AppendLines(vertexInputs.GetShaderString(0));
finalBuilder.AppendLines(surfaceDescriptionStruct.GetShaderString(0));
finalBuilder.AppendLines(vertexShader.GetShaderString(0));
finalBuilder.AppendLines(surfaceDescriptionFunction.GetShaderString(0));
finalBuilder.AppendLine(@"ENDHLSL");
finalBuilder.AppendLines(ShaderGenerator.GetPreviewSubShader(node, requirements));
ListPool <INode> .Release(activeNodeList);
}
results.configuredTextures = shaderProperties.GetConfiguredTexutres();
ShaderSourceMap sourceMap;
results.shader = finalBuilder.ToString(out sourceMap);
results.sourceMap = sourceMap;
return(results);
}
public static string GetPreviewSubShader(AbstractMaterialNode node, ShaderGraphRequirements shaderGraphRequirements)
{
var vertexOutputStruct = new ShaderStringBuilder(2);
var vertexShader = new ShaderStringBuilder(2);
var vertexShaderDescriptionInputs = new ShaderStringBuilder(2);
var vertexShaderOutputs = new ShaderStringBuilder(1);
var pixelShader = new ShaderStringBuilder(2);
var pixelShaderSurfaceInputs = new ShaderStringBuilder(2);
var pixelShaderSurfaceRemap = new ShaderStringBuilder(2);
ShaderGenerator.GenerateStandardTransforms(
0,
16,
vertexOutputStruct,
vertexShader,
vertexShaderDescriptionInputs,
vertexShaderOutputs,
pixelShader,
pixelShaderSurfaceInputs,
shaderGraphRequirements,
shaderGraphRequirements,
ShaderGraphRequirements.none,
ShaderGraphRequirements.none,
CoordinateSpace.World);
vertexShader.AppendLines(vertexShaderDescriptionInputs.ToString());
vertexShader.AppendLines(vertexShaderOutputs.ToString());
if (node != null)
{
var outputSlot = node.GetOutputSlots <MaterialSlot>().FirstOrDefault();
if (outputSlot != null)
{
var result = string.Format("surf.{0}", node.GetVariableNameForSlot(outputSlot.id));
pixelShaderSurfaceRemap.AppendLine("return {0};", AdaptNodeOutputForPreview(node, outputSlot.id, result));
}
else
{
pixelShaderSurfaceRemap.AppendLine("return 0;");
}
}
else
{
pixelShaderSurfaceRemap.AppendLine("return all(isfinite(surf.PreviewOutput)) ? surf.PreviewOutput : float4(1.0f, 0.0f, 1.0f, 1.0f);");
}
// -------------------------------------
// Extra pixel shader work
var faceSign = new ShaderStringBuilder();
if (shaderGraphRequirements.requiresFaceSign)
{
faceSign.AppendLine(", half FaceSign : VFACE");
}
var res = subShaderTemplate.Replace("${Interpolators}", vertexOutputStruct.ToString());
res = res.Replace("${VertexShader}", vertexShader.ToString());
res = res.Replace("${FaceSign}", faceSign.ToString());
res = res.Replace("${LocalPixelShader}", pixelShader.ToString());
res = res.Replace("${SurfaceInputs}", pixelShaderSurfaceInputs.ToString());
res = res.Replace("${SurfaceOutputRemap}", pixelShaderSurfaceRemap.ToString());
return(res);
}
public static bool GenerateShaderPass(AbstractMaterialNode masterNode, ShaderPass pass, GenerationMode mode,
ActiveFields activeFields, ShaderGenerator result, List <string> sourceAssetDependencyPaths,
List <Dependency[]> dependencies, string resourceClassName, string assemblyName)
{
// --------------------------------------------------
// Debug
// Get scripting symbols
BuildTargetGroup buildTargetGroup = EditorUserBuildSettings.selectedBuildTargetGroup;
string defines = PlayerSettings.GetScriptingDefineSymbolsForGroup(buildTargetGroup);
bool isDebug = defines.Contains(kDebugSymbol);
// --------------------------------------------------
// Setup
// Initiailize Collectors
var propertyCollector = new PropertyCollector();
var keywordCollector = new KeywordCollector();
masterNode.owner.CollectShaderKeywords(keywordCollector, mode);
// Get upstream nodes from ShaderPass port mask
List <AbstractMaterialNode> vertexNodes;
List <AbstractMaterialNode> pixelNodes;
GetUpstreamNodesForShaderPass(masterNode, pass, out vertexNodes, out pixelNodes);
// Track permutation indices for all nodes
List <int>[] vertexNodePermutations = new List <int> [vertexNodes.Count];
List <int>[] pixelNodePermutations = new List <int> [pixelNodes.Count];
// Get active fields from upstream Node requirements
ShaderGraphRequirementsPerKeyword graphRequirements;
GetActiveFieldsAndPermutationsForNodes(masterNode, pass, keywordCollector, vertexNodes, pixelNodes,
vertexNodePermutations, pixelNodePermutations, activeFields, out graphRequirements);
// GET CUSTOM ACTIVE FIELDS HERE!
// Get active fields from ShaderPass
AddRequiredFields(pass.requiredAttributes, activeFields.baseInstance);
AddRequiredFields(pass.requiredVaryings, activeFields.baseInstance);
// Get Port references from ShaderPass
var pixelSlots = FindMaterialSlotsOnNode(pass.pixelPorts, masterNode);
var vertexSlots = FindMaterialSlotsOnNode(pass.vertexPorts, masterNode);
// Function Registry
var functionBuilder = new ShaderStringBuilder();
var functionRegistry = new FunctionRegistry(functionBuilder);
// Hash table of named $splice(name) commands
// Key: splice token
// Value: string to splice
Dictionary <string, string> spliceCommands = new Dictionary <string, string>();
// --------------------------------------------------
// Dependencies
// Propagate active field requirements using dependencies
// Must be executed before types are built
foreach (var instance in activeFields.all.instances)
{
ShaderSpliceUtil.ApplyDependencies(instance, dependencies);
}
// --------------------------------------------------
// Pass Setup
// Name
if (!string.IsNullOrEmpty(pass.displayName))
{
spliceCommands.Add("PassName", $"Name \"{pass.displayName}\"");
}
else
{
spliceCommands.Add("PassName", "// Name: <None>");
}
// Tags
if (!string.IsNullOrEmpty(pass.lightMode))
{
spliceCommands.Add("LightMode", $"\"LightMode\" = \"{pass.lightMode}\"");
}
else
{
spliceCommands.Add("LightMode", "// LightMode: <None>");
}
// Render state
BuildRenderStatesFromPass(pass, ref spliceCommands);
// --------------------------------------------------
// Pass Code
// Pragmas
using (var passPragmaBuilder = new ShaderStringBuilder())
{
if (pass.pragmas != null)
{
foreach (string pragma in pass.pragmas)
{
passPragmaBuilder.AppendLine($"#pragma {pragma}");
}
}
if (passPragmaBuilder.length == 0)
{
passPragmaBuilder.AppendLine("// PassPragmas: <None>");
}
spliceCommands.Add("PassPragmas", passPragmaBuilder.ToCodeBlack());
}
// Includes
using (var passIncludeBuilder = new ShaderStringBuilder())
{
if (pass.includes != null)
{
foreach (string include in pass.includes)
{
passIncludeBuilder.AppendLine($"#include \"{include}\"");
}
}
if (passIncludeBuilder.length == 0)
{
passIncludeBuilder.AppendLine("// PassIncludes: <None>");
}
spliceCommands.Add("PassIncludes", passIncludeBuilder.ToCodeBlack());
}
// Keywords
using (var passKeywordBuilder = new ShaderStringBuilder())
{
if (pass.keywords != null)
{
foreach (KeywordDescriptor keyword in pass.keywords)
{
passKeywordBuilder.AppendLine(keyword.ToDeclarationString());
}
}
if (passKeywordBuilder.length == 0)
{
passKeywordBuilder.AppendLine("// PassKeywords: <None>");
}
spliceCommands.Add("PassKeywords", passKeywordBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Graph Vertex
var vertexBuilder = new ShaderStringBuilder();
// If vertex modification enabled
if (activeFields.baseInstance.Contains("features.graphVertex"))
{
// Setup
string vertexGraphInputName = "VertexDescriptionInputs";
string vertexGraphOutputName = "VertexDescription";
string vertexGraphFunctionName = "VertexDescriptionFunction";
var vertexGraphInputGenerator = new ShaderGenerator();
var vertexGraphFunctionBuilder = new ShaderStringBuilder();
var vertexGraphOutputBuilder = new ShaderStringBuilder();
// Build vertex graph inputs
ShaderSpliceUtil.BuildType(GetTypeForStruct("VertexDescriptionInputs", resourceClassName, assemblyName), activeFields, vertexGraphInputGenerator, isDebug);
// Build vertex graph outputs
// Add struct fields to active fields
SubShaderGenerator.GenerateVertexDescriptionStruct(vertexGraphOutputBuilder, vertexSlots, vertexGraphOutputName, activeFields.baseInstance);
// Build vertex graph functions from ShaderPass vertex port mask
SubShaderGenerator.GenerateVertexDescriptionFunction(
masterNode.owner as GraphData,
vertexGraphFunctionBuilder,
functionRegistry,
propertyCollector,
keywordCollector,
mode,
masterNode,
vertexNodes,
vertexNodePermutations,
vertexSlots,
vertexGraphInputName,
vertexGraphFunctionName,
vertexGraphOutputName);
// Generate final shader strings
vertexBuilder.AppendLines(vertexGraphInputGenerator.GetShaderString(0, false));
vertexBuilder.AppendNewLine();
vertexBuilder.AppendLines(vertexGraphOutputBuilder.ToString());
vertexBuilder.AppendNewLine();
vertexBuilder.AppendLines(vertexGraphFunctionBuilder.ToString());
}
// Add to splice commands
if (vertexBuilder.length == 0)
{
vertexBuilder.AppendLine("// GraphVertex: <None>");
}
spliceCommands.Add("GraphVertex", vertexBuilder.ToCodeBlack());
// --------------------------------------------------
// Graph Pixel
// Setup
string pixelGraphInputName = "SurfaceDescriptionInputs";
string pixelGraphOutputName = "SurfaceDescription";
string pixelGraphFunctionName = "SurfaceDescriptionFunction";
var pixelGraphInputGenerator = new ShaderGenerator();
var pixelGraphOutputBuilder = new ShaderStringBuilder();
var pixelGraphFunctionBuilder = new ShaderStringBuilder();
// Build pixel graph inputs
ShaderSpliceUtil.BuildType(GetTypeForStruct("SurfaceDescriptionInputs", resourceClassName, assemblyName), activeFields, pixelGraphInputGenerator, isDebug);
// Build pixel graph outputs
// Add struct fields to active fields
SubShaderGenerator.GenerateSurfaceDescriptionStruct(pixelGraphOutputBuilder, pixelSlots, pixelGraphOutputName, activeFields.baseInstance);
// Build pixel graph functions from ShaderPass pixel port mask
SubShaderGenerator.GenerateSurfaceDescriptionFunction(
pixelNodes,
pixelNodePermutations,
masterNode,
masterNode.owner as GraphData,
pixelGraphFunctionBuilder,
functionRegistry,
propertyCollector,
keywordCollector,
mode,
pixelGraphFunctionName,
pixelGraphOutputName,
null,
pixelSlots,
pixelGraphInputName);
using (var pixelBuilder = new ShaderStringBuilder())
{
// Generate final shader strings
pixelBuilder.AppendLines(pixelGraphInputGenerator.GetShaderString(0, false));
pixelBuilder.AppendNewLine();
pixelBuilder.AppendLines(pixelGraphOutputBuilder.ToString());
pixelBuilder.AppendNewLine();
pixelBuilder.AppendLines(pixelGraphFunctionBuilder.ToString());
// Add to splice commands
if (pixelBuilder.length == 0)
{
pixelBuilder.AppendLine("// GraphPixel: <None>");
}
spliceCommands.Add("GraphPixel", pixelBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Graph Functions
if (functionBuilder.length == 0)
{
functionBuilder.AppendLine("// GraphFunctions: <None>");
}
spliceCommands.Add("GraphFunctions", functionBuilder.ToCodeBlack());
// --------------------------------------------------
// Graph Keywords
using (var keywordBuilder = new ShaderStringBuilder())
{
keywordCollector.GetKeywordsDeclaration(keywordBuilder, mode);
if (keywordBuilder.length == 0)
{
keywordBuilder.AppendLine("// GraphKeywords: <None>");
}
spliceCommands.Add("GraphKeywords", keywordBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Graph Properties
using (var propertyBuilder = new ShaderStringBuilder())
{
propertyCollector.GetPropertiesDeclaration(propertyBuilder, mode, masterNode.owner.concretePrecision);
if (propertyBuilder.length == 0)
{
propertyBuilder.AppendLine("// GraphProperties: <None>");
}
spliceCommands.Add("GraphProperties", propertyBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Graph Defines
using (var graphDefines = new ShaderStringBuilder())
{
graphDefines.AppendLine("#define {0}", pass.referenceName);
if (graphRequirements.permutationCount > 0)
{
List <int> activePermutationIndices;
// Depth Texture
activePermutationIndices = graphRequirements.allPermutations.instances
.Where(p => p.requirements.requiresDepthTexture)
.Select(p => p.permutationIndex)
.ToList();
if (activePermutationIndices.Count > 0)
{
graphDefines.AppendLine(KeywordUtil.GetKeywordPermutationSetConditional(activePermutationIndices));
graphDefines.AppendLine("#define REQUIRE_DEPTH_TEXTURE");
graphDefines.AppendLine("#endif");
}
// Opaque Texture
activePermutationIndices = graphRequirements.allPermutations.instances
.Where(p => p.requirements.requiresCameraOpaqueTexture)
.Select(p => p.permutationIndex)
.ToList();
if (activePermutationIndices.Count > 0)
{
graphDefines.AppendLine(KeywordUtil.GetKeywordPermutationSetConditional(activePermutationIndices));
graphDefines.AppendLine("#define REQUIRE_OPAQUE_TEXTURE");
graphDefines.AppendLine("#endif");
}
}
else
{
// Depth Texture
if (graphRequirements.baseInstance.requirements.requiresDepthTexture)
{
graphDefines.AppendLine("#define REQUIRE_DEPTH_TEXTURE");
}
// Opaque Texture
if (graphRequirements.baseInstance.requirements.requiresCameraOpaqueTexture)
{
graphDefines.AppendLine("#define REQUIRE_OPAQUE_TEXTURE");
}
}
// Add to splice commands
spliceCommands.Add("GraphDefines", graphDefines.ToCodeBlack());
}
// --------------------------------------------------
// Main
// Main include is expected to contain vert/frag definitions for the pass
// This must be defined after all graph code
using (var mainBuilder = new ShaderStringBuilder())
{
mainBuilder.AppendLine($"#include \"{pass.varyingsInclude}\"");
mainBuilder.AppendLine($"#include \"{pass.passInclude}\"");
// Add to splice commands
spliceCommands.Add("MainInclude", mainBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Debug
// Debug output all active fields
using (var debugBuilder = new ShaderStringBuilder())
{
if (isDebug)
{
// Active fields
debugBuilder.AppendLine("// ACTIVE FIELDS:");
foreach (string field in activeFields.baseInstance.fields)
{
debugBuilder.AppendLine("// " + field);
}
}
if (debugBuilder.length == 0)
{
debugBuilder.AppendLine("// <None>");
}
// Add to splice commands
spliceCommands.Add("Debug", debugBuilder.ToCodeBlack());
}
// --------------------------------------------------
// Finalize
// Get Template
string templateLocation = GetTemplatePath("PassMesh.template");
if (!File.Exists(templateLocation))
{
return(false);
}
// Get Template preprocessor
string templatePath = "Assets/com.unity.render-pipelines.universal/Editor/ShaderGraph/Templates";
var templatePreprocessor = new ShaderSpliceUtil.TemplatePreprocessor(activeFields, spliceCommands,
isDebug, templatePath, sourceAssetDependencyPaths, assemblyName, resourceClassName);
// Process Template
templatePreprocessor.ProcessTemplateFile(templateLocation);
result.AddShaderChunk(templatePreprocessor.GetShaderCode().ToString(), false);
return(true);
}
public static GenerationResults GetShader(this GraphData graph, AbstractMaterialNode node, GenerationMode mode, string name)
{
// ----------------------------------------------------- //
// SETUP //
// ----------------------------------------------------- //
// -------------------------------------
// String builders
var finalShader = new ShaderStringBuilder();
var results = new GenerationResults();
var shaderProperties = new PropertyCollector();
var shaderKeywords = new KeywordCollector();
var shaderPropertyUniforms = new ShaderStringBuilder();
var shaderKeywordDeclarations = new ShaderStringBuilder();
var shaderKeywordPermutations = new ShaderStringBuilder(1);
var functionBuilder = new ShaderStringBuilder();
var functionRegistry = new FunctionRegistry(functionBuilder);
var vertexDescriptionFunction = new ShaderStringBuilder(0);
var surfaceDescriptionInputStruct = new ShaderStringBuilder(0);
var surfaceDescriptionStruct = new ShaderStringBuilder(0);
var surfaceDescriptionFunction = new ShaderStringBuilder(0);
var vertexInputs = new ShaderStringBuilder(0);
graph.CollectShaderKeywords(shaderKeywords, mode);
if (graph.GetKeywordPermutationCount() > ShaderGraphPreferences.variantLimit)
{
graph.AddValidationError(node.tempId, ShaderKeyword.kVariantLimitWarning, Rendering.ShaderCompilerMessageSeverity.Error);
results.configuredTextures = shaderProperties.GetConfiguredTexutres();
results.shader = string.Empty;
return(results);
}
// -------------------------------------
// Get Slot and Node lists
var activeNodeList = ListPool <AbstractMaterialNode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, node);
var slots = new List <MaterialSlot>();
if (node is IMasterNode || node is SubGraphOutputNode)
{
slots.AddRange(node.GetInputSlots <MaterialSlot>());
}
else
{
var outputSlots = node.GetOutputSlots <MaterialSlot>().ToList();
if (outputSlots.Count > 0)
{
slots.Add(outputSlots[0]);
}
}
// -------------------------------------
// Get Requirements
var requirements = ShaderGraphRequirements.FromNodes(activeNodeList, ShaderStageCapability.Fragment);
// ----------------------------------------------------- //
// KEYWORDS //
// ----------------------------------------------------- //
// -------------------------------------
// Get keyword permutations
graph.CollectShaderKeywords(shaderKeywords, mode);
// Track permutation indicies for all nodes and requirements
List <int>[] keywordPermutationsPerNode = new List <int> [activeNodeList.Count];
// -------------------------------------
// Evaluate all permutations
for (int i = 0; i < shaderKeywords.permutations.Count; i++)
{
// Get active nodes for this permutation
var localNodes = ListPool <AbstractMaterialNode> .Get();
NodeUtils.DepthFirstCollectNodesFromNode(localNodes, node, keywordPermutation: shaderKeywords.permutations[i]);
// Track each pixel node in this permutation
foreach (AbstractMaterialNode pixelNode in localNodes)
{
int nodeIndex = activeNodeList.IndexOf(pixelNode);
if (keywordPermutationsPerNode[nodeIndex] == null)
{
keywordPermutationsPerNode[nodeIndex] = new List <int>();
}
keywordPermutationsPerNode[nodeIndex].Add(i);
}
// Get active requirements for this permutation
var localSurfaceRequirements = ShaderGraphRequirements.FromNodes(localNodes, ShaderStageCapability.Fragment, false);
var localPixelRequirements = ShaderGraphRequirements.FromNodes(localNodes, ShaderStageCapability.Fragment);
}
// ----------------------------------------------------- //
// START VERTEX DESCRIPTION //
// ----------------------------------------------------- //
// -------------------------------------
// Generate Vertex Description function
vertexDescriptionFunction.AppendLine("GraphVertexInput PopulateVertexData(GraphVertexInput v)");
using (vertexDescriptionFunction.BlockScope())
{
vertexDescriptionFunction.AppendLine("return v;");
}
// ----------------------------------------------------- //
// START SURFACE DESCRIPTION //
// ----------------------------------------------------- //
// -------------------------------------
// Generate Input structure for Surface Description function
// Surface Description Input requirements are needed to exclude intermediate translation spaces
GenerateSurfaceInputStruct(surfaceDescriptionInputStruct, requirements, "SurfaceDescriptionInputs");
results.previewMode = PreviewMode.Preview2D;
foreach (var pNode in activeNodeList)
{
if (pNode.previewMode == PreviewMode.Preview3D)
{
results.previewMode = PreviewMode.Preview3D;
break;
}
}
// -------------------------------------
// Generate Output structure for Surface Description function
GenerateSurfaceDescriptionStruct(surfaceDescriptionStruct, slots, useIdsInNames: !(node is IMasterNode));
// -------------------------------------
// Generate Surface Description function
GenerateSurfaceDescriptionFunction(
activeNodeList,
keywordPermutationsPerNode,
node,
graph,
surfaceDescriptionFunction,
functionRegistry,
shaderProperties,
shaderKeywords,
mode,
outputIdProperty: results.outputIdProperty);
// ----------------------------------------------------- //
// GENERATE VERTEX > PIXEL PIPELINE //
// ----------------------------------------------------- //
// -------------------------------------
// Keyword declarations
shaderKeywords.GetKeywordsDeclaration(shaderKeywordDeclarations, mode);
// -------------------------------------
// Property uniforms
shaderProperties.GetPropertiesDeclaration(shaderPropertyUniforms, mode, graph.concretePrecision);
// -------------------------------------
// Generate Input structure for Vertex shader
GenerateApplicationVertexInputs(requirements, vertexInputs);
// ----------------------------------------------------- //
// FINALIZE //
// ----------------------------------------------------- //
// -------------------------------------
// Build final shader
finalShader.AppendLine(@"Shader ""{0}""", name);
using (finalShader.BlockScope())
{
SubShaderGenerator.GeneratePropertiesBlock(finalShader, shaderProperties, shaderKeywords, mode);
finalShader.AppendNewLine();
finalShader.AppendLine(@"HLSLINCLUDE");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Common.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Packing.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/NormalSurfaceGradient.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Color.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/UnityInstancing.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/EntityLighting.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/ShaderVariables.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/ShaderVariablesFunctions.hlsl""");
finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/Functions.hlsl""");
finalShader.AppendLines(shaderKeywordDeclarations.ToString());
finalShader.AppendLine(@"#define SHADERGRAPH_PREVIEW 1");
finalShader.AppendNewLine();
finalShader.AppendLines(shaderKeywordPermutations.ToString());
finalShader.AppendLines(shaderPropertyUniforms.ToString());
finalShader.AppendNewLine();
finalShader.AppendLines(surfaceDescriptionInputStruct.ToString());
finalShader.AppendNewLine();
finalShader.Concat(functionBuilder);
finalShader.AppendNewLine();
finalShader.AppendLines(surfaceDescriptionStruct.ToString());
finalShader.AppendNewLine();
finalShader.AppendLines(surfaceDescriptionFunction.ToString());
finalShader.AppendNewLine();
finalShader.AppendLines(vertexInputs.ToString());
finalShader.AppendNewLine();
finalShader.AppendLines(vertexDescriptionFunction.ToString());
finalShader.AppendNewLine();
finalShader.AppendLine(@"ENDHLSL");
finalShader.AppendLines(ShaderGenerator.GetPreviewSubShader(node, requirements));
ListPool <AbstractMaterialNode> .Release(activeNodeList);
}
// -------------------------------------
// Finalize
results.configuredTextures = shaderProperties.GetConfiguredTexutres();
ShaderSourceMap sourceMap;
results.shader = finalShader.ToString(out sourceMap);
results.sourceMap = sourceMap;
return(results);
}
public static string GetPreviewSubShader(AbstractMaterialNode node, ShaderGraphRequirements shaderGraphRequirements)
{
// Should never be called without a node
Debug.Assert(node != null);
var vertexOutputStruct = new ShaderStringBuilder(2);
var vertexShader = new ShaderStringBuilder(2);
var vertexShaderDescriptionInputs = new ShaderStringBuilder(2);
var vertexShaderOutputs = new ShaderStringBuilder(1);
var pixelShader = new ShaderStringBuilder(2);
var pixelShaderSurfaceInputs = new ShaderStringBuilder(2);
var pixelShaderSurfaceRemap = new ShaderStringBuilder(2);
ShaderGenerator.GenerateStandardTransforms(
0,
16,
vertexOutputStruct,
vertexShader,
vertexShaderDescriptionInputs,
vertexShaderOutputs,
pixelShader,
pixelShaderSurfaceInputs,
shaderGraphRequirements,
shaderGraphRequirements,
ShaderGraphRequirements.none,
ShaderGraphRequirements.none,
CoordinateSpace.World);
vertexShader.AppendLines(vertexShaderDescriptionInputs.ToString());
vertexShader.AppendLines(vertexShaderOutputs.ToString());
var outputSlot = node.GetOutputSlots <MaterialSlot>().FirstOrDefault();
// Sub Graph Output uses first input slot
if (node is SubGraphOutputNode)
{
outputSlot = node.GetInputSlots <MaterialSlot>().FirstOrDefault();
}
if (outputSlot != null)
{
var result = $"surf.{NodeUtils.GetHLSLSafeName(outputSlot.shaderOutputName)}_{outputSlot.id}";
pixelShaderSurfaceRemap.AppendLine("return all(isfinite({0})) ? {1} : {2};",
result, AdaptNodeOutputForPreview(node, outputSlot.id, result), nanOutput);
}
else
{
// No valid slots to display, so just show black.
// It's up to each node to error or warn as appropriate.
pixelShaderSurfaceRemap.AppendLine("return 0;");
}
// -------------------------------------
// Extra pixel shader work
var faceSign = new ShaderStringBuilder();
if (shaderGraphRequirements.requiresFaceSign)
{
faceSign.AppendLine(", half FaceSign : VFACE");
}
var res = subShaderTemplate.Replace("${Interpolators}", vertexOutputStruct.ToString());
res = res.Replace("${VertexShader}", vertexShader.ToString());
res = res.Replace("${FaceSign}", faceSign.ToString());
res = res.Replace("${LocalPixelShader}", pixelShader.ToString());
res = res.Replace("${SurfaceInputs}", pixelShaderSurfaceInputs.ToString());
res = res.Replace("${SurfaceOutputRemap}", pixelShaderSurfaceRemap.ToString());
return(res);
}
public void GenerateNodeCode(ShaderGenerator visitor, GraphContext graphContext, GenerationMode generationMode)
{
var sb = new ShaderStringBuilder();
if (subGraphData == null || hasError)
{
var outputSlots = new List <MaterialSlot>();
GetOutputSlots(outputSlots);
foreach (var slot in outputSlots)
{
visitor.AddShaderChunk($"{NodeUtils.ConvertConcreteSlotValueTypeToString(precision, slot.concreteValueType)} {GetVariableNameForSlot(slot.id)} = {slot.GetDefaultValue(GenerationMode.ForReals)};");
}
return;
}
var inputVariableName = $"_{GetVariableNameForNode()}";
GraphUtil.GenerateSurfaceInputTransferCode(sb, subGraphData.requirements, subGraphData.inputStructName, inputVariableName);
visitor.AddShaderChunk(sb.ToString());
foreach (var outSlot in subGraphData.outputs)
{
visitor.AddShaderChunk(string.Format("{0} {1};", NodeUtils.ConvertConcreteSlotValueTypeToString(precision, outSlot.concreteValueType), GetVariableNameForSlot(outSlot.id)));
}
var arguments = new List <string>();
foreach (var prop in subGraphData.inputs)
{
var inSlotId = m_PropertyIds[m_PropertyGuids.IndexOf(prop.guid.ToString())];
if (prop is TextureShaderProperty)
{
arguments.Add(string.Format("TEXTURE2D_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode)));
}
else if (prop is Texture2DArrayShaderProperty)
{
arguments.Add(string.Format("TEXTURE2D_ARRAY_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode)));
}
else if (prop is Texture3DShaderProperty)
{
arguments.Add(string.Format("TEXTURE3D_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode)));
}
else if (prop is CubemapShaderProperty)
{
arguments.Add(string.Format("TEXTURECUBE_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode)));
}
else
{
arguments.Add(GetSlotValue(inSlotId, generationMode));
}
}
// pass surface inputs through
arguments.Add(inputVariableName);
foreach (var outSlot in subGraphData.outputs)
{
arguments.Add(GetVariableNameForSlot(outSlot.id));
}
visitor.AddShaderChunk(
string.Format("{0}({1});"
, subGraphData.functionName
, arguments.Aggregate((current, next) => string.Format("{0}, {1}", current, next))));
}
private static string GetShaderPassFromTemplate(string template, UnlitMasterNode masterNode, Pass pass, GenerationMode mode)
{
// ----------------------------------------------------- //
// SETUP //
// ----------------------------------------------------- //
// -------------------------------------
// String builders
var shaderProperties = new PropertyCollector();
var functionBuilder = new ShaderStringBuilder(1);
var functionRegistry = new FunctionRegistry(functionBuilder);
var defines = new ShaderStringBuilder(1);
var graph = new ShaderStringBuilder(0);
var surfaceDescriptionInputStruct = new ShaderStringBuilder(1);
var surfaceDescriptionFunction = new ShaderStringBuilder(1);
var surfaceDescriptionStruct = new ShaderStringBuilder(1);
var pixelShader = new ShaderStringBuilder(2);
var pixelShaderSurfaceInputs = new ShaderStringBuilder(2);
var pixelShaderSurfaceRemap = new ShaderStringBuilder(2);
// -------------------------------------
// Get Slot and Node lists per stage
var pixelSlots = pass.PixelShaderSlots.Select(masterNode.FindSlot<MaterialSlot>).ToList();
var pixelNodes = ListPool<INode>.Get();
NodeUtils.DepthFirstCollectNodesFromNode(pixelNodes, masterNode, NodeUtils.IncludeSelf.Include, pass.PixelShaderSlots);
// -------------------------------------
// Get Requirements
var pixelRequirements = ShaderGraphRequirements.FromNodes(pixelNodes);
// ----------------------------------------------------- //
// START SHADER GENERATION //
// ----------------------------------------------------- //
// -------------------------------------
// Calculate material options
var tagsBuilder = new ShaderStringBuilder(1);
var blendingBuilder = new ShaderStringBuilder(1);
var cullingBuilder = new ShaderStringBuilder(1);
var zTestBuilder = new ShaderStringBuilder(1);
var zWriteBuilder = new ShaderStringBuilder(1);
var materialOptions = new SurfaceMaterialOptions();
materialOptions.GetTags(tagsBuilder);
materialOptions.GetBlend(blendingBuilder);
materialOptions.GetCull(cullingBuilder);
materialOptions.GetDepthTest(zTestBuilder);
materialOptions.GetDepthWrite(zWriteBuilder);
// -------------------------------------
// Generate defines
defines.AppendLine("#define SHADERPASS {0}", pass.ShaderPassName);
foreach (var channel in pixelRequirements.requiresMeshUVs.Distinct())
{
defines.AppendLine("#define ATTRIBUTES_NEED_TEXCOORD{0}", (int)channel);
defines.AppendLine("#define VARYINGS_NEED_TEXCOORD{0}", (int)channel);
}
if (masterNode.IsSlotConnected(PBRMasterNode.AlphaThresholdSlotId))
defines.AppendLine("#define _ALPHATEST_ON");
// ----------------------------------------------------- //
// START SURFACE DESCRIPTION //
// ----------------------------------------------------- //
// -------------------------------------
// Generate Input structure for Surface Description function
// Surface Description Input requirements are needed to exclude intermediate translation spaces
surfaceDescriptionInputStruct.AppendLine("struct SurfaceDescriptionInputs", false);
using(surfaceDescriptionInputStruct.BlockSemicolonScope())
{
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(pixelRequirements.requiresNormal, InterpolatorType.Normal, surfaceDescriptionInputStruct);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(pixelRequirements.requiresTangent, InterpolatorType.Tangent, surfaceDescriptionInputStruct);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(pixelRequirements.requiresBitangent, InterpolatorType.BiTangent, surfaceDescriptionInputStruct);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(pixelRequirements.requiresViewDir, InterpolatorType.ViewDirection, surfaceDescriptionInputStruct);
ShaderGenerator.GenerateSpaceTranslationSurfaceInputs(pixelRequirements.requiresPosition, InterpolatorType.Position, surfaceDescriptionInputStruct);
if (pixelRequirements.requiresVertexColor)
surfaceDescriptionInputStruct.AppendLine("float4 {0};", ShaderGeneratorNames.VertexColor);
if (pixelRequirements.requiresScreenPosition)
surfaceDescriptionInputStruct.AppendLine("float4 {0};", ShaderGeneratorNames.ScreenPosition);
foreach (var channel in pixelRequirements.requiresMeshUVs.Distinct())
{
surfaceDescriptionInputStruct.AppendLine("half4 {0};", channel.GetUVName());
}
}
// -------------------------------------
// Generate Output structure for Surface Description function
GraphUtil.GenerateSurfaceDescriptionStruct(surfaceDescriptionStruct, pixelSlots, true);
// -------------------------------------
// Generate Surface Description function
GraphUtil.GenerateSurfaceDescriptionFunction(
pixelNodes,
masterNode,
masterNode.owner as AbstractMaterialGraph,
surfaceDescriptionFunction,
functionRegistry,
shaderProperties,
pixelRequirements,
mode,
"PopulateSurfaceData",
"SurfaceDescription",
null,
pixelSlots);
// ----------------------------------------------------- //
// GENERATE VERTEX > PIXEL PIPELINE //
// ----------------------------------------------------- //
// -------------------------------------
// TODO - Why is this not a full generation?
// Generate standard transformations
foreach (var channel in pixelRequirements.requiresMeshUVs.Distinct())
pixelShaderSurfaceInputs.AppendLine("surfaceInput.{0} = {1};", channel.GetUVName(), string.Format("half4(input.texCoord{0}, 0, 0)", (int)channel));
// -------------------------------------
// Generate pixel shader surface remap
foreach (var slot in pixelSlots)
{
pixelShaderSurfaceRemap.AppendLine("{0} = surf.{0};", slot.shaderOutputName);
}
// ----------------------------------------------------- //
// FINALIZE //
// ----------------------------------------------------- //
// -------------------------------------
// Combine Graph sections
graph.AppendLine(shaderProperties.GetPropertiesDeclaration(1));
graph.AppendLine(functionBuilder.ToString());
graph.AppendLine(surfaceDescriptionInputStruct.ToString());
graph.AppendLine(surfaceDescriptionStruct.ToString());
graph.AppendLine(surfaceDescriptionFunction.ToString());
// -------------------------------------
// Generate final subshader
var resultPass = template.Replace("${Tags}", tagsBuilder.ToString());
resultPass = resultPass.Replace("${Blending}", blendingBuilder.ToString());
resultPass = resultPass.Replace("${Culling}", cullingBuilder.ToString());
resultPass = resultPass.Replace("${ZTest}", zTestBuilder.ToString());
resultPass = resultPass.Replace("${ZWrite}", zWriteBuilder.ToString());
resultPass = resultPass.Replace("${Defines}", defines.ToString());
resultPass = resultPass.Replace("${LOD}", "" + materialOptions.lod);
resultPass = resultPass.Replace("${LightMode}", pass.Name);
resultPass = resultPass.Replace("${ShaderPassInclude}", pass.ShaderPassInclude);
resultPass = resultPass.Replace("${Graph}", graph.ToString());
resultPass = resultPass.Replace("${PixelShader}", pixelShader.ToString());
resultPass = resultPass.Replace("${PixelShaderSurfaceInputs}", pixelShaderSurfaceInputs.ToString());
resultPass = resultPass.Replace("${PixelShaderSurfaceRemap}", pixelShaderSurfaceRemap.ToString());
return resultPass;
}
private void ProcessIncludeCommand(Token includeCommand, int lineEnd)
{
if (Expect(includeCommand.s, includeCommand.end, '('))
{
Token param = ParseString(includeCommand.s, includeCommand.end + 1, lineEnd);
if (!param.IsValid())
{
Error("ERROR: $include expected a string file path parameter", includeCommand.s, includeCommand.end + 1);
}
else
{
bool found = false;
string includeLocation = null;
// Use reverse order in the array, higher number element have higher priority in case $include exist in several directories
for (int i = templatePaths.Length - 1; i >= 0; i--)
{
string templatePath = templatePaths[i];
includeLocation = Path.Combine(templatePath, param.GetString());
if (File.Exists(includeLocation))
{
found = true;
break;
}
}
if (!found)
{
string errorStr = "ERROR: $include cannot find file : " + param.GetString() + ". Looked into:\n";
foreach (string templatePath in templatePaths)
{
errorStr += "// " + templatePath + "\n";
}
Error(errorStr, includeCommand.s, param.start);
}
else
{
int endIndex = result.length;
using (var temp = new ShaderStringBuilder())
{
// Wrap in debug mode
if (isDebug)
{
result.AppendLine("//-------------------------------------------------------------------------------------");
result.AppendLine("// TEMPLATE INCLUDE : " + param.GetString());
result.AppendLine("//-------------------------------------------------------------------------------------");
result.AppendNewLine();
}
// Recursively process templates
ProcessTemplateFile(includeLocation);
// Wrap in debug mode
if (isDebug)
{
result.AppendNewLine();
result.AppendLine("//-------------------------------------------------------------------------------------");
result.AppendLine("// END TEMPLATE INCLUDE : " + param.GetString());
result.AppendLine("//-------------------------------------------------------------------------------------");
}
result.AppendNewLine();
// Required to enforce indentation rules
// Append lines from this include into temporary StringBuilder
// Reduce result length to remove this include
temp.AppendLines(result.ToString(endIndex, result.length - endIndex));
result.length = endIndex;
result.AppendLines(temp.ToCodeBlock());
}
}
}
}
}
