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361 行
16 KiB

using System;
using UnityEngine;
namespace UnityEditor.Experimental.Rendering.HDPipeline
{
// A Material can be authored from the shader graph or by hand. When written by hand we need to provide an inspector.
// Such a Material will share some properties between it various variant (shader graph variant or hand authored variant).
// This is the purpose of BaseLitGUI. It contain all properties that are common to all Material based on Lit template.
// For the default hand written Lit material see LitUI.cs that contain specific properties for our default implementation.
public abstract class BaseUnlitGUI : ShaderGUI
{
protected static class StylesBaseUnlit
{
public static string optionText = "Surface options";
public static string surfaceTypeText = "Surface Type";
public static string blendModeText = "Blend Mode";
public static readonly string[] surfaceTypeNames = Enum.GetNames(typeof(SurfaceType));
public static readonly string[] blendModeNames = Enum.GetNames(typeof(BlendMode));
public static GUIContent alphaCutoffEnableText = new GUIContent("Alpha Cutoff Enable", "Threshold for alpha cutoff");
public static GUIContent alphaCutoffText = new GUIContent("Alpha Cutoff", "Threshold for alpha cutoff");
public static GUIContent doubleSidedEnableText = new GUIContent("Double Sided", "This will render the two face of the objects (disable backface culling) and flip/mirror normal");
public static GUIContent distortionEnableText = new GUIContent("Distortion", "Enable distortion on this shader");
public static GUIContent distortionOnlyText = new GUIContent("Distortion Only", "This shader will only be use to render distortion");
public static GUIContent distortionDepthTestText = new GUIContent("Distortion Depth Test", "Enable the depth test for distortion");
public static string advancedText = "Advanced Options";
}
public enum SurfaceType
{
Opaque,
Transparent
}
public enum BlendMode
{
Lerp,
Add,
SoftAdd,
Multiply,
Premultiply
}
protected MaterialEditor m_MaterialEditor;
// Properties
protected MaterialProperty surfaceType = null;
protected const string kSurfaceType = "_SurfaceType";
protected MaterialProperty alphaCutoffEnable = null;
protected const string kAlphaCutoffEnabled = "_AlphaCutoffEnable";
protected MaterialProperty alphaCutoff = null;
protected const string kAlphaCutoff = "_AlphaCutoff";
protected MaterialProperty doubleSidedEnable = null;
protected const string kDoubleSidedEnable = "_DoubleSidedEnable";
protected MaterialProperty blendMode = null;
protected const string kBlendMode = "_BlendMode";
protected MaterialProperty distortionEnable = null;
protected const string kDistortionEnable = "_DistortionEnable";
protected MaterialProperty distortionOnly = null;
protected const string kDistortionOnly = "_DistortionOnly";
protected MaterialProperty distortionDepthTest = null;
protected const string kDistortionDepthTest = "_DistortionDepthTest";
// See comment in LitProperties.hlsl
const string kEmissionColor = "_EmissionColor";
// The following set of functions are call by the ShaderGraph
// It will allow to display our common parameters + setup keyword correctly for them
protected abstract void FindMaterialProperties(MaterialProperty[] props);
protected abstract void SetupMaterialKeywordsAndPassInternal(Material material);
protected abstract void MaterialPropertiesGUI(Material material);
protected abstract void VertexAnimationPropertiesGUI();
// This function will say if emissive is used or not regarding enlighten/PVR
protected abstract bool ShouldEmissionBeEnabled(Material material);
protected virtual void FindBaseMaterialProperties(MaterialProperty[] props)
{
surfaceType = FindProperty(kSurfaceType, props);
alphaCutoffEnable = FindProperty(kAlphaCutoffEnabled, props);
alphaCutoff = FindProperty(kAlphaCutoff, props);
doubleSidedEnable = FindProperty(kDoubleSidedEnable, props);
blendMode = FindProperty(kBlendMode, props);
distortionEnable = FindProperty(kDistortionEnable, props, false);
distortionOnly = FindProperty(kDistortionOnly, props, false);
distortionDepthTest = FindProperty(kDistortionDepthTest, props, false);
}
void SurfaceTypePopup()
{
EditorGUI.showMixedValue = surfaceType.hasMixedValue;
var mode = (SurfaceType)surfaceType.floatValue;
EditorGUI.BeginChangeCheck();
mode = (SurfaceType)EditorGUILayout.Popup(StylesBaseUnlit.surfaceTypeText, (int)mode, StylesBaseUnlit.surfaceTypeNames);
if (EditorGUI.EndChangeCheck())
{
m_MaterialEditor.RegisterPropertyChangeUndo("Surface Type");
surfaceType.floatValue = (float)mode;
}
EditorGUI.showMixedValue = false;
}
private void BlendModePopup()
{
EditorGUI.showMixedValue = blendMode.hasMixedValue;
var mode = (BlendMode)blendMode.floatValue;
EditorGUI.BeginChangeCheck();
mode = (BlendMode)EditorGUILayout.Popup(StylesBaseUnlit.blendModeText, (int)mode, StylesBaseUnlit.blendModeNames);
if (EditorGUI.EndChangeCheck())
{
m_MaterialEditor.RegisterPropertyChangeUndo("Blend Mode");
blendMode.floatValue = (float)mode;
}
EditorGUI.showMixedValue = false;
}
protected virtual void BaseMaterialPropertiesGUI()
{
EditorGUILayout.LabelField(StylesBaseUnlit.optionText, EditorStyles.boldLabel);
EditorGUI.indentLevel++;
SurfaceTypePopup();
if ((SurfaceType)surfaceType.floatValue == SurfaceType.Transparent)
{
BlendModePopup();
if (distortionEnable != null)
{
m_MaterialEditor.ShaderProperty(distortionEnable, StylesBaseUnlit.distortionEnableText);
if (distortionEnable.floatValue == 1.0f)
{
m_MaterialEditor.ShaderProperty(distortionOnly, StylesBaseUnlit.distortionOnlyText);
m_MaterialEditor.ShaderProperty(distortionDepthTest, StylesBaseUnlit.distortionDepthTestText);
}
}
}
m_MaterialEditor.ShaderProperty(alphaCutoffEnable, StylesBaseUnlit.alphaCutoffEnableText);
if (alphaCutoffEnable.floatValue == 1.0f)
{
m_MaterialEditor.ShaderProperty(alphaCutoff, StylesBaseUnlit.alphaCutoffText);
}
// This function must finish with double sided option (see LitUI.cs)
m_MaterialEditor.ShaderProperty(doubleSidedEnable, StylesBaseUnlit.doubleSidedEnableText);
EditorGUI.indentLevel--;
}
static public void SetKeyword(Material m, string keyword, bool state)
{
if (state)
m.EnableKeyword(keyword);
else
m.DisableKeyword(keyword);
}
// All Setup Keyword functions must be static. It allow to create script to automatically update the shaders with a script if ocde change
static public void SetupBaseUnlitKeywords(Material material)
{
bool alphaTestEnable = material.GetFloat(kAlphaCutoffEnabled) > 0.0f;
SurfaceType surfaceType = (SurfaceType)material.GetFloat(kSurfaceType);
BlendMode blendMode = (BlendMode)material.GetFloat(kBlendMode);
if (surfaceType == SurfaceType.Opaque)
{
material.SetOverrideTag("RenderType", alphaTestEnable ? "TransparentCutout" : "");
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.Zero);
material.SetInt("_ZWrite", 1);
material.renderQueue = alphaTestEnable ? (int)UnityEngine.Rendering.RenderQueue.AlphaTest : -1;
}
else
{
material.SetOverrideTag("RenderType", "Transparent");
material.SetInt("_ZWrite", 0);
material.renderQueue = (int)UnityEngine.Rendering.RenderQueue.Transparent;
SetKeyword(material, "_BLENDMODE_LERP", BlendMode.Lerp == blendMode);
SetKeyword(material, "_BLENDMODE_ADD", BlendMode.Add == blendMode);
SetKeyword(material, "_BLENDMODE_SOFT_ADD", BlendMode.SoftAdd == blendMode);
SetKeyword(material, "_BLENDMODE_MULTIPLY", BlendMode.Multiply == blendMode);
SetKeyword(material, "_BLENDMODE_PRE_MULTIPLY", BlendMode.Premultiply == blendMode);
switch (blendMode)
{
case BlendMode.Lerp:
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.SrcAlpha);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusSrcAlpha);
break;
case BlendMode.Add:
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.One);
break;
case BlendMode.SoftAdd:
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusDstColor);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.One);
break;
case BlendMode.Multiply:
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.DstColor);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.Zero);
break;
case BlendMode.Premultiply:
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusSrcAlpha);
break;
}
}
bool doubleSidedEnable = material.GetFloat(kDoubleSidedEnable) > 0.0f;
if (doubleSidedEnable)
{
material.SetInt("_CullMode", (int)UnityEngine.Rendering.CullMode.Off);
}
else
{
material.SetInt("_CullMode", (int)UnityEngine.Rendering.CullMode.Back);
}
SetKeyword(material, "_DOUBLESIDED_ON", doubleSidedEnable);
SetKeyword(material, "_ALPHATEST_ON", alphaTestEnable);
if (material.HasProperty(kDistortionEnable))
{
bool distortionEnable = material.GetFloat(kDistortionEnable) > 0.0f;
if (distortionEnable)
{
material.SetShaderPassEnabled("DistortionVectors", true);
}
else
{
material.SetShaderPassEnabled("DistortionVectors", false);
}
bool distortionDepthTest = material.GetFloat(kDistortionDepthTest) > 0.0f;
if (distortionDepthTest)
{
material.SetInt("_ZTestMode", (int)UnityEngine.Rendering.CompareFunction.LessEqual);
}
else
{
material.SetInt("_ZTestMode", (int)UnityEngine.Rendering.CompareFunction.Always);
}
SetKeyword(material, "_DISTORTION_ON", distortionEnable);
}
// A material's GI flag internally keeps track of whether emission is enabled at all, it's enabled but has no effect
// or is enabled and may be modified at runtime. This state depends on the values of the current flag and emissive color.
// The fixup routine makes sure that the material is in the correct state if/when changes are made to the mode or color.
MaterialEditor.FixupEmissiveFlag(material);
}
static public void SetupBaseUnlitMaterialPass(Material material)
{
if (material.HasProperty(kDistortionEnable))
{
bool distortionEnable = material.GetFloat(kDistortionEnable) > 0.0f;
bool distortionOnly = material.GetFloat(kDistortionOnly) > 0.0f;
if (distortionEnable && distortionOnly)
{
// Disable all passes except debug material
material.SetShaderPassEnabled("GBuffer", false);
material.SetShaderPassEnabled("DebugViewMaterial", true);
material.SetShaderPassEnabled("Meta", false);
material.SetShaderPassEnabled("ShadowCaster", false);
material.SetShaderPassEnabled("DepthOnly", false);
material.SetShaderPassEnabled("MotionVectors", false);
material.SetShaderPassEnabled("Forward", false);
}
else
{
material.SetShaderPassEnabled("GBuffer", true);
material.SetShaderPassEnabled("DebugViewMaterial", true);
material.SetShaderPassEnabled("Meta", true);
material.SetShaderPassEnabled("ShadowCaster", true);
material.SetShaderPassEnabled("DepthOnly", true);
material.SetShaderPassEnabled("MotionVectors", true);
material.SetShaderPassEnabled("Forward", true);
}
}
}
// Dedicated to emissive - for emissive Enlighten/PVR
protected void DoEmissionArea(Material material)
{
// Emission for GI?
if (ShouldEmissionBeEnabled(material))
{
if (m_MaterialEditor.EmissionEnabledProperty())
{
// change the GI flag and fix it up with emissive as black if necessary
m_MaterialEditor.LightmapEmissionFlagsProperty(MaterialEditor.kMiniTextureFieldLabelIndentLevel, true);
}
}
}
public void ShaderPropertiesGUI(Material material)
{
// Use default labelWidth
EditorGUIUtility.labelWidth = 0f;
// Detect any changes to the material
EditorGUI.BeginChangeCheck();
{
//EditorGUI.indentLevel++;
BaseMaterialPropertiesGUI();
EditorGUILayout.Space();
VertexAnimationPropertiesGUI();
EditorGUILayout.Space();
MaterialPropertiesGUI(material);
DoEmissionArea(material);
EditorGUILayout.Space();
EditorGUILayout.LabelField(StylesBaseUnlit.advancedText, EditorStyles.boldLabel);
// NB renderqueue editor is not shown on purpose: we want to override it based on blend mode
EditorGUI.indentLevel++;
m_MaterialEditor.EnableInstancingField();
m_MaterialEditor.DoubleSidedGIField();
EditorGUI.indentLevel--;
}
if (EditorGUI.EndChangeCheck())
{
foreach (var obj in m_MaterialEditor.targets)
SetupMaterialKeywordsAndPassInternal((Material)obj);
}
}
// This is call by the inspector
public override void OnGUI(MaterialEditor materialEditor, MaterialProperty[] props)
{
m_MaterialEditor = materialEditor;
// We should always do this call at the beginning
m_MaterialEditor.serializedObject.Update();
// MaterialProperties can be animated so we do not cache them but fetch them every event to ensure animated values are updated correctly
FindBaseMaterialProperties(props);
FindMaterialProperties(props);
Material material = materialEditor.target as Material;
ShaderPropertiesGUI(material);
// We should always do this call at the end
m_MaterialEditor.serializedObject.ApplyModifiedProperties();
}
}
}