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390 行
17 KiB

using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using System.Text.RegularExpressions;
using UnityEngine.Graphing;
namespace UnityEngine.MaterialGraph
{
public static class ShaderGeneratorNames
{
private static string[] UV = {"uv0", "uv1", "uv2", "uv3"};
public static int UVCount = 4;
public const string WorldSpaceNormal = "worldSpaceNormal";
public const string WorldSpaceBitangent = "worldSpaceBitangent";
public const string WorldSpaceTangent = "worldSpaceTangent";
public const string WorldSpacePosition = "worldPosition";
public const string WorldSpaceViewDirection = "worldSpaceViewDirection";
public const string TangentSpaceViewDirection = "tangentSpaceViewDirection";
public const string ScreenPosition = "screenPosition";
public const string VertexColor = "vertexColor";
public static string GetUVName(this UVChannel channel)
{
return UV[(int) channel];
}
}
public enum UVChannel
{
uv0 = 0,
uv1 = 1,
uv2 = 2,
uv3 = 3,
}
public class ShaderGenerator
{
private struct ShaderChunk
{
public ShaderChunk(int indentLevel, string shaderChunkString)
{
m_IndentLevel = indentLevel;
m_ShaderChunkString = shaderChunkString;
}
private readonly int m_IndentLevel;
private readonly string m_ShaderChunkString;
public int chunkIndentLevel
{
get { return m_IndentLevel; }
}
public string chunkString
{
get { return m_ShaderChunkString; }
}
}
private readonly List<ShaderChunk> m_ShaderChunks = new List<ShaderChunk>();
private int m_IndentLevel;
private string m_Pragma = string.Empty;
public void AddPragmaChunk(string s)
{
m_Pragma += s;
}
public string GetPragmaString()
{
return m_Pragma;
}
public void AddShaderChunk(string s, bool unique)
{
if (string.IsNullOrEmpty(s))
return;
if (unique && m_ShaderChunks.Any(x => x.chunkString == s))
return;
m_ShaderChunks.Add(new ShaderChunk(m_IndentLevel, s));
}
public void Indent()
{
m_IndentLevel++;
}
public void Deindent()
{
m_IndentLevel = Math.Max(0, m_IndentLevel - 1);
}
public string GetShaderString(int baseIndentLevel)
{
var sb = new StringBuilder();
foreach (var shaderChunk in m_ShaderChunks)
{
var lines = shaderChunk.chunkString.Split(Environment.NewLine.ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
for (int index = 0; index < lines.Length; index++)
{
var line = lines[index];
for (var i = 0; i < shaderChunk.chunkIndentLevel + baseIndentLevel; i++)
sb.Append("\t");
sb.AppendLine(line);
}
}
return sb.ToString();
}
internal static string GetTemplatePath(string templateName)
{
var path = new List<string>
{
Application.dataPath,
"UnityShaderEditor",
"Editor",
"Templates"
};
string result = path[0];
for (int i = 1; i < path.Count; i++)
result = Path.Combine(result, path[i]);
result = Path.Combine(result, templateName);
return result;
}
private const string kErrorString = @"ERROR!";
public static string AdaptNodeOutput(AbstractMaterialNode node, int outputSlotId, ConcreteSlotValueType convertToType, bool textureSampleUVHack = false)
{
var outputSlot = node.FindOutputSlot<MaterialSlot>(outputSlotId);
if (outputSlot == null)
return kErrorString;
var convertFromType = outputSlot.concreteValueType;
var rawOutput = node.GetVariableNameForSlot(outputSlotId);
if (convertFromType == convertToType)
return rawOutput;
switch (convertToType)
{
case ConcreteSlotValueType.Vector1:
return string.Format("({0}).x", rawOutput);
case ConcreteSlotValueType.Vector2:
switch (convertFromType)
{
case ConcreteSlotValueType.Vector1:
return string.Format("({0}{1})", rawOutput, textureSampleUVHack ? ".xx" : string.Empty);
case ConcreteSlotValueType.Vector3:
case ConcreteSlotValueType.Vector4:
return string.Format("({0}.xy)", rawOutput);
default:
return kErrorString;
}
case ConcreteSlotValueType.Vector3:
switch (convertFromType)
{
case ConcreteSlotValueType.Vector1:
return string.Format("({0}{1})", rawOutput, textureSampleUVHack ? ".xxx" : string.Empty);
case ConcreteSlotValueType.Vector4:
return string.Format("({0}.xyz)", rawOutput);
default:
return kErrorString;
}
case ConcreteSlotValueType.Vector4:
switch (convertFromType)
{
case ConcreteSlotValueType.Vector1:
return string.Format("({0}{1})", rawOutput, textureSampleUVHack ? ".xxxx" : string.Empty);
default:
return kErrorString;
}
default:
return kErrorString;
}
}
public static string AdaptNodeOutputForPreview(AbstractMaterialNode node, int outputSlotId)
{
var outputSlot = node.FindOutputSlot<MaterialSlot>(outputSlotId);
if (outputSlot == null)
return kErrorString;
var convertFromType = outputSlot.concreteValueType;
var rawOutput = node.GetVariableNameForSlot(outputSlotId);
// preview is always dimension 4, and we always ignore alpha
switch (convertFromType)
{
case ConcreteSlotValueType.Vector1:
return string.Format("half4({0}, {0}, {0}, 1.0)", rawOutput);
case ConcreteSlotValueType.Vector2:
return string.Format("half4({0}.x, {0}.y, 0.0, 1.0)", rawOutput);
case ConcreteSlotValueType.Vector3:
return string.Format("half4({0}.x, {0}.y, {0}.z, 1.0)", rawOutput);
case ConcreteSlotValueType.Vector4:
return string.Format("half4({0}.x, {0}.y, {0}.z, 1.0)", rawOutput);
default:
return kErrorString;
}
}
public int numberOfChunks
{
get { return m_ShaderChunks.Count; }
}
public static string GeneratePreviewShader(AbstractMaterialNode node, out PreviewMode generatedShaderMode)
{
if (!node.GetOutputSlots<MaterialSlot>().Any())
{
generatedShaderMode = PreviewMode.Preview2D;
return string.Empty;
}
// figure out what kind of preview we want!
var activeNodeList = ListPool<INode>.Get();
NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, node);
generatedShaderMode = PreviewMode.Preview2D;
if (activeNodeList.OfType<AbstractMaterialNode>().Any(x => x.previewMode == PreviewMode.Preview3D))
generatedShaderMode = PreviewMode.Preview3D;
string templateLocation = GetTemplatePath("2DPreview.template");
if (!File.Exists(templateLocation))
return null;
string template = File.ReadAllText(templateLocation);
var shaderBodyVisitor = new ShaderGenerator();
var shaderFunctionVisitor = new ShaderGenerator();
var shaderPropertiesVisitor = new PropertyGenerator();
var shaderPropertyUsagesVisitor = new ShaderGenerator();
var shaderName = "Hidden/PreviewShader/" + node.GetVariableNameForSlot(node.GetOutputSlots<MaterialSlot>().First().id);
var shaderInputVisitor = new ShaderGenerator();
var vertexShaderBlock = new ShaderGenerator();
// always add color because why not.
shaderInputVisitor.AddShaderChunk("float4 color : COLOR;", true);
vertexShaderBlock.AddShaderChunk("float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz;", true);
vertexShaderBlock.AddShaderChunk("float3 viewDir = UnityWorldSpaceViewDir(worldPos);", true);
vertexShaderBlock.AddShaderChunk("float4 screenPos = ComputeScreenPos(UnityObjectToClipPos(v.vertex));", true);
vertexShaderBlock.AddShaderChunk("float3 worldNormal = UnityObjectToWorldNormal(v.normal);", true);
bool requiresBitangent = activeNodeList.OfType<IMayRequireBitangent>().Any(x => x.RequiresBitangent());
bool requiresTangent = activeNodeList.OfType<IMayRequireTangent>().Any(x => x.RequiresTangent());
bool requiresViewDirTangentSpace = activeNodeList.OfType<IMayRequireViewDirectionTangentSpace>().Any(x => x.RequiresViewDirectionTangentSpace());
bool requiresViewDir = activeNodeList.OfType<IMayRequireViewDirection>().Any(x => x.RequiresViewDirection());
bool requiresWorldPos = activeNodeList.OfType<IMayRequireWorldPosition>().Any(x => x.RequiresWorldPosition());
bool requiresNormal = activeNodeList.OfType<IMayRequireNormal>().Any(x => x.RequiresNormal());
bool requiresScreenPosition = activeNodeList.OfType<IMayRequireScreenPosition>().Any(x => x.RequiresScreenPosition());
bool requiresVertexColor = activeNodeList.OfType<IMayRequireVertexColor>().Any(x => x.RequiresVertexColor());
// view directions calculated from world position
if (requiresWorldPos || requiresViewDir || requiresViewDirTangentSpace)
{
shaderInputVisitor.AddShaderChunk("float3 worldPos : TEXCOORD0;", true);
vertexShaderBlock.AddShaderChunk("o.worldPos = worldPos;", true);
shaderBodyVisitor.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpacePosition + " = IN.worldPos;", true);
}
if (requiresBitangent || requiresNormal || requiresViewDirTangentSpace)
{
shaderInputVisitor.AddShaderChunk("float3 worldNormal : TEXCOORD1;", true);
vertexShaderBlock.AddShaderChunk("o.worldNormal = worldNormal;", true);
shaderBodyVisitor.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceNormal + " = normalize(IN.worldNormal);", true);
}
for (int uvIndex = 0; uvIndex < ShaderGeneratorNames.UVCount; ++uvIndex)
{
var channel = (UVChannel) uvIndex;
if (activeNodeList.OfType<IMayRequireMeshUV>().Any(x => x.RequiresMeshUV(channel)))
{
shaderInputVisitor.AddShaderChunk(string.Format("half4 meshUV{0} : TEXCOORD{1};", uvIndex, (uvIndex + 5)), true);
vertexShaderBlock.AddShaderChunk(string.Format("o.meshUV{0} = v.texcoord{1};", uvIndex, uvIndex == 0 ? "" : uvIndex.ToString()), true);
shaderBodyVisitor.AddShaderChunk(string.Format("half4 {0} = IN.meshUV{1};", channel.GetUVName(), uvIndex), true);
}
}
if (requiresViewDir || requiresViewDirTangentSpace)
{
shaderBodyVisitor.AddShaderChunk(
"float3 "
+ ShaderGeneratorNames.WorldSpaceViewDirection
+ " = normalize(UnityWorldSpaceViewDir("
+ ShaderGeneratorNames.WorldSpacePosition
+ "));", true);
}
if (requiresScreenPosition)
{
shaderInputVisitor.AddShaderChunk("float4 screenPos : TEXCOORD3;", true);
vertexShaderBlock.AddShaderChunk("o.screenPos = screenPos;", true);
shaderBodyVisitor.AddShaderChunk("half4 " + ShaderGeneratorNames.ScreenPosition + " = IN.screenPos;", true);
}
if (requiresBitangent || requiresViewDirTangentSpace || requiresTangent)
{
shaderInputVisitor.AddShaderChunk("float4 worldTangent : TEXCOORD4;", true);
vertexShaderBlock.AddShaderChunk("o.worldTangent = float4(UnityObjectToWorldDir(v.tangent.xyz), v.tangent.w);", true);
shaderBodyVisitor.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceTangent + " = normalize(IN.worldTangent.xyz);", true);
}
if (requiresBitangent || requiresViewDirTangentSpace)
{
shaderBodyVisitor.AddShaderChunk(string.Format("float3 {0} = cross({1}, {2}) * IN.worldTangent.w;", ShaderGeneratorNames.WorldSpaceBitangent, ShaderGeneratorNames.WorldSpaceNormal, ShaderGeneratorNames.WorldSpaceTangent), true);
}
if (requiresViewDirTangentSpace)
{
shaderBodyVisitor.AddShaderChunk(
"float3 " + ShaderGeneratorNames.TangentSpaceViewDirection + ";", true);
shaderBodyVisitor.AddShaderChunk(
ShaderGeneratorNames.TangentSpaceViewDirection + ".x = dot(" +
ShaderGeneratorNames.WorldSpaceViewDirection + "," +
ShaderGeneratorNames.WorldSpaceTangent + ");", true);
shaderBodyVisitor.AddShaderChunk(
ShaderGeneratorNames.TangentSpaceViewDirection + ".y = dot(" +
ShaderGeneratorNames.WorldSpaceViewDirection + "," +
ShaderGeneratorNames.WorldSpaceBitangent + ");", true);
shaderBodyVisitor.AddShaderChunk(
ShaderGeneratorNames.TangentSpaceViewDirection + ".z = dot(" +
ShaderGeneratorNames.WorldSpaceViewDirection + "," +
ShaderGeneratorNames.WorldSpaceNormal + ");", true);
}
if (requiresVertexColor)
{
vertexShaderBlock.AddShaderChunk("o.color = v.color;", true);
shaderBodyVisitor.AddShaderChunk("float4 " + ShaderGeneratorNames.VertexColor + " = IN.color;", true);
}
var generationMode = GenerationMode.Preview;
foreach (var activeNode in activeNodeList.OfType<AbstractMaterialNode>())
{
if (activeNode is IGeneratesFunction)
(activeNode as IGeneratesFunction).GenerateNodeFunction(shaderFunctionVisitor, generationMode);
if (activeNode is IGeneratesBodyCode)
(activeNode as IGeneratesBodyCode).GenerateNodeCode(shaderBodyVisitor, generationMode);
activeNode.GeneratePropertyBlock(shaderPropertiesVisitor, generationMode);
activeNode.GeneratePropertyUsages(shaderPropertyUsagesVisitor, generationMode);
}
shaderBodyVisitor.AddShaderChunk("return " + AdaptNodeOutputForPreview(node, node.GetOutputSlots<MaterialSlot>().First().id) + ";", true);
ListPool<INode>.Release(activeNodeList);
template = template.Replace("${ShaderName}", shaderName);
template = template.Replace("${ShaderPropertiesHeader}", shaderPropertiesVisitor.GetShaderString(2));
template = template.Replace("${ShaderPropertyUsages}", shaderPropertyUsagesVisitor.GetShaderString(3));
template = template.Replace("${ShaderInputs}", shaderInputVisitor.GetShaderString(4));
template = template.Replace("${ShaderFunctions}", shaderFunctionVisitor.GetShaderString(3));
template = template.Replace("${VertexShaderBody}", vertexShaderBlock.GetShaderString(4));
template = template.Replace("${PixelShaderBody}", shaderBodyVisitor.GetShaderString(4));
string vertexShaderBody = vertexShaderBlock.GetShaderString(4);
if (vertexShaderBody.Length > 0)
{
template = template.Replace("${VertexShaderDecl}", "vertex:vert");
template = template.Replace("${VertexShaderBody}", vertexShaderBody);
}
else
{
template = template.Replace("${VertexShaderDecl}", "");
template = template.Replace("${VertexShaderBody}", vertexShaderBody);
}
return Regex.Replace(template, @"\r\n|\n\r|\n|\r", Environment.NewLine);
}
}
}