using System; using UnityEngine; using UnityEngine.Experimental.Rendering; using UnityEngine.Experimental.Rendering.HDPipeline; 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 BaseLitGUI : BaseUnlitGUI { protected static class StylesBaseLit { public static GUIContent doubleSidedNormalModeText = new GUIContent("Normal mode", "This will modify the normal base on the selected mode. None: untouch, Mirror: Mirror the normal with vertex normal plane, Flip: Flip the normal"); public static GUIContent depthOffsetEnableText = new GUIContent("Enable Depth Offset", "EnableDepthOffset on this shader (Use with heightmap)"); // Displacement mapping (POM, tessellation, per vertex) //public static GUIContent enablePerPixelDisplacementText = new GUIContent("Enable Per Pixel Displacement", ""); public static GUIContent displacementModeText = new GUIContent("Displacement mode", "Apply heightmap displacement to the selected element: Vertex, pixel or tessellated vertex. Pixel displacement must be use with flat surfaces, it is an expensive features and typical usage is paved road."); public static GUIContent lockWithObjectScaleText = new GUIContent("Lock with object scale", "Displacement mapping will take the absolute value of the scale of the object into account."); public static GUIContent lockWithTilingRateText = new GUIContent("Lock with height map tiling rate", "Displacement mapping will take the absolute value of the tiling rate of the height map into account."); // Material ID public static GUIContent materialIDText = new GUIContent("Material type", "Subsurface Scattering: enable for translucent materials such as skin, vegetation, fruit, marble, wax and milk."); // Per pixel displacement public static GUIContent ppdMinSamplesText = new GUIContent("Minimum steps", "Minimum steps (texture sample) to use with per pixel displacement mapping"); public static GUIContent ppdMaxSamplesText = new GUIContent("Maximum steps", "Maximum steps (texture sample) to use with per pixel displacement mapping"); public static GUIContent ppdLodThresholdText = new GUIContent("Fading mip level start", "Starting heightmap mipmap lod number where the parallax occlusion mapping effect start to disappear"); public static GUIContent ppdPrimitiveLength = new GUIContent("Primitive length", "Dimensions of the primitive (with the scale of 1) to which the per-pixel displacement mapping is being applied. For example, the standard quad is 1 x 1 meter, while the standard plane is 10 x 10 meters."); public static GUIContent ppdPrimitiveWidth = new GUIContent("Primitive width", "Dimensions of the primitive (with the scale of 1) to which the per-pixel displacement mapping is being applied. For example, the standard quad is 1 x 1 meter, while the standard plane is 10 x 10 meters."); // Tessellation public static string tessellationModeStr = "Tessellation Mode"; public static readonly string[] tessellationModeNames = Enum.GetNames(typeof(TessellationMode)); public static GUIContent tessellationText = new GUIContent("Tessellation options", "Tessellation options"); public static GUIContent tessellationFactorText = new GUIContent("Tessellation factor", "This value is the tessellation factor use for tessellation, higher mean more tessellated"); public static GUIContent tessellationFactorMinDistanceText = new GUIContent("Start fade distance", "Distance (in unity unit) at which the tessellation start to fade out. Must be inferior at Max distance"); public static GUIContent tessellationFactorMaxDistanceText = new GUIContent("End fade distance", "Maximum distance (in unity unit) to the camera where triangle are tessellated"); public static GUIContent tessellationFactorTriangleSizeText = new GUIContent("Triangle size", "Desired screen space sized of triangle (in pixel). Smaller value mean smaller triangle."); public static GUIContent tessellationShapeFactorText = new GUIContent("Shape factor", "Strength of Phong tessellation shape (lerp factor)"); public static GUIContent tessellationBackFaceCullEpsilonText = new GUIContent("Triangle culling Epsilon", "If -1.0 back face culling is enabled for tessellation, higher number mean more aggressive culling and better performance"); // Vertex animation public static string vertexAnimation = "Vertex animation"; // Wind public static GUIContent windText = new GUIContent("Enable Wind"); public static GUIContent windInitialBendText = new GUIContent("Initial Bend"); public static GUIContent windStiffnessText = new GUIContent("Stiffness"); public static GUIContent windDragText = new GUIContent("Drag"); public static GUIContent windShiverDragText = new GUIContent("Shiver Drag"); public static GUIContent windShiverDirectionalityText = new GUIContent("Shiver Directionality"); } public enum DoubleSidedNormalMode { None, Mirror, Flip } public enum TessellationMode { None, Phong } public enum DisplacementMode { None, Vertex, Pixel, Tessellation } protected MaterialProperty doubleSidedNormalMode = null; protected const string kDoubleSidedNormalMode = "_DoubleSidedNormalMode"; protected MaterialProperty depthOffsetEnable = null; protected const string kDepthOffsetEnable = "_DepthOffsetEnable"; // Properties // Material ID protected MaterialProperty materialID = null; protected const string kMaterialID = "_MaterialID"; protected const string kStencilRef = "_StencilRef"; protected MaterialProperty displacementMode = null; protected const string kDisplacementMode = "_DisplacementMode"; protected MaterialProperty displacementLockObjectScale = null; protected const string kDisplacementLockObjectScale = "_DisplacementLockObjectScale"; protected MaterialProperty displacementLockTilingScale = null; protected const string kDisplacementLockTilingScale = "_DisplacementLockTilingScale"; // Per pixel displacement params protected MaterialProperty ppdMinSamples = null; protected const string kPpdMinSamples = "_PPDMinSamples"; protected MaterialProperty ppdMaxSamples = null; protected const string kPpdMaxSamples = "_PPDMaxSamples"; protected MaterialProperty ppdLodThreshold = null; protected const string kPpdLodThreshold = "_PPDLodThreshold"; protected MaterialProperty ppdPrimitiveLength = null; protected const string kPpdPrimitiveLength = "_PPDPrimitiveLength"; protected MaterialProperty ppdPrimitiveWidth = null; protected const string kPpdPrimitiveWidth = "_PPDPrimitiveWidth"; protected MaterialProperty invPrimScale = null; protected const string kInvPrimScale = "_InvPrimScale"; // Wind protected MaterialProperty windEnable = null; protected const string kWindEnabled = "_EnableWind"; protected MaterialProperty windInitialBend = null; protected const string kWindInitialBend = "_InitialBend"; protected MaterialProperty windStiffness = null; protected const string kWindStiffness = "_Stiffness"; protected MaterialProperty windDrag = null; protected const string kWindDrag = "_Drag"; protected MaterialProperty windShiverDrag = null; protected const string kWindShiverDrag = "_ShiverDrag"; protected MaterialProperty windShiverDirectionality = null; protected const string kWindShiverDirectionality = "_ShiverDirectionality"; // tessellation params protected MaterialProperty tessellationMode = null; protected const string kTessellationMode = "_TessellationMode"; protected MaterialProperty tessellationFactor = null; protected const string kTessellationFactor = "_TessellationFactor"; protected MaterialProperty tessellationFactorMinDistance = null; protected const string kTessellationFactorMinDistance = "_TessellationFactorMinDistance"; protected MaterialProperty tessellationFactorMaxDistance = null; protected const string kTessellationFactorMaxDistance = "_TessellationFactorMaxDistance"; protected MaterialProperty tessellationFactorTriangleSize = null; protected const string kTessellationFactorTriangleSize = "_TessellationFactorTriangleSize"; protected MaterialProperty tessellationShapeFactor = null; protected const string kTessellationShapeFactor = "_TessellationShapeFactor"; protected MaterialProperty tessellationBackFaceCullEpsilon = null; protected const string kTessellationBackFaceCullEpsilon = "_TessellationBackFaceCullEpsilon"; protected override void FindBaseMaterialProperties(MaterialProperty[] props) { base.FindBaseMaterialProperties(props); doubleSidedNormalMode = FindProperty(kDoubleSidedNormalMode, props); depthOffsetEnable = FindProperty(kDepthOffsetEnable, props); // MaterialID materialID = FindProperty(kMaterialID, props); displacementMode = FindProperty(kDisplacementMode, props); displacementLockObjectScale = FindProperty(kDisplacementLockObjectScale, props); displacementLockTilingScale = FindProperty(kDisplacementLockTilingScale, props); // Per pixel displacement ppdMinSamples = FindProperty(kPpdMinSamples, props); ppdMaxSamples = FindProperty(kPpdMaxSamples, props); ppdLodThreshold = FindProperty(kPpdLodThreshold, props); ppdPrimitiveLength = FindProperty(kPpdPrimitiveLength, props); ppdPrimitiveWidth = FindProperty(kPpdPrimitiveWidth, props); invPrimScale = FindProperty(kInvPrimScale, props); // tessellation specific, silent if not found tessellationMode = FindProperty(kTessellationMode, props, false); tessellationFactor = FindProperty(kTessellationFactor, props, false); tessellationFactorMinDistance = FindProperty(kTessellationFactorMinDistance, props, false); tessellationFactorMaxDistance = FindProperty(kTessellationFactorMaxDistance, props, false); tessellationFactorTriangleSize = FindProperty(kTessellationFactorTriangleSize, props, false); tessellationShapeFactor = FindProperty(kTessellationShapeFactor, props, false); tessellationBackFaceCullEpsilon = FindProperty(kTessellationBackFaceCullEpsilon, props, false); // Wind windEnable = FindProperty(kWindEnabled, props); windInitialBend = FindProperty(kWindInitialBend, props); windStiffness = FindProperty(kWindStiffness, props); windDrag = FindProperty(kWindDrag, props); windShiverDrag = FindProperty(kWindShiverDrag, props); windShiverDirectionality = FindProperty(kWindShiverDirectionality, props); } void TessellationModePopup() { EditorGUI.showMixedValue = tessellationMode.hasMixedValue; var mode = (TessellationMode)tessellationMode.floatValue; EditorGUI.BeginChangeCheck(); mode = (TessellationMode)EditorGUILayout.Popup(StylesBaseLit.tessellationModeStr, (int)mode, StylesBaseLit.tessellationModeNames); if (EditorGUI.EndChangeCheck()) { m_MaterialEditor.RegisterPropertyChangeUndo("Tessellation Mode"); tessellationMode.floatValue = (float)mode; } EditorGUI.showMixedValue = false; } protected override void BaseMaterialPropertiesGUI() { base.BaseMaterialPropertiesGUI(); EditorGUI.indentLevel++; // This follow double sided option if (doubleSidedEnable.floatValue > 0.0f) { EditorGUI.indentLevel++; m_MaterialEditor.ShaderProperty(doubleSidedNormalMode, StylesBaseLit.doubleSidedNormalModeText); EditorGUI.indentLevel--; } m_MaterialEditor.ShaderProperty(materialID, StylesBaseLit.materialIDText); m_MaterialEditor.ShaderProperty(displacementMode, StylesBaseLit.displacementModeText); if ((DisplacementMode)displacementMode.floatValue != DisplacementMode.None) { EditorGUI.indentLevel++; m_MaterialEditor.ShaderProperty(displacementLockObjectScale, StylesBaseLit.lockWithObjectScaleText); m_MaterialEditor.ShaderProperty(displacementLockTilingScale, StylesBaseLit.lockWithTilingRateText); EditorGUI.indentLevel--; } if ((DisplacementMode)displacementMode.floatValue == DisplacementMode.Pixel) { EditorGUILayout.Space(); EditorGUI.indentLevel++; m_MaterialEditor.ShaderProperty(ppdMinSamples, StylesBaseLit.ppdMinSamplesText); m_MaterialEditor.ShaderProperty(ppdMaxSamples, StylesBaseLit.ppdMaxSamplesText); ppdMinSamples.floatValue = Mathf.Min(ppdMinSamples.floatValue, ppdMaxSamples.floatValue); m_MaterialEditor.ShaderProperty(ppdLodThreshold, StylesBaseLit.ppdLodThresholdText); m_MaterialEditor.ShaderProperty(ppdPrimitiveLength, StylesBaseLit.ppdPrimitiveLength); ppdPrimitiveLength.floatValue = Mathf.Max(0.01f, ppdPrimitiveLength.floatValue); m_MaterialEditor.ShaderProperty(ppdPrimitiveWidth, StylesBaseLit.ppdPrimitiveWidth); ppdPrimitiveWidth.floatValue = Mathf.Max(0.01f, ppdPrimitiveWidth.floatValue); invPrimScale.vectorValue = new Vector4(1.0f / ppdPrimitiveLength.floatValue, 1.0f / ppdPrimitiveWidth.floatValue); // Precompute m_MaterialEditor.ShaderProperty(depthOffsetEnable, StylesBaseLit.depthOffsetEnableText); EditorGUI.indentLevel--; } EditorGUI.indentLevel--; // Display tessellation option if it exist if (tessellationMode != null) { EditorGUILayout.Space(); EditorGUILayout.LabelField(StylesBaseLit.tessellationText, EditorStyles.boldLabel); EditorGUI.indentLevel++; TessellationModePopup(); m_MaterialEditor.ShaderProperty(tessellationFactor, StylesBaseLit.tessellationFactorText); m_MaterialEditor.ShaderProperty(tessellationFactorMinDistance, StylesBaseLit.tessellationFactorMinDistanceText); m_MaterialEditor.ShaderProperty(tessellationFactorMaxDistance, StylesBaseLit.tessellationFactorMaxDistanceText); // clamp min distance to be below max distance tessellationFactorMinDistance.floatValue = Math.Min(tessellationFactorMaxDistance.floatValue, tessellationFactorMinDistance.floatValue); m_MaterialEditor.ShaderProperty(tessellationFactorTriangleSize, StylesBaseLit.tessellationFactorTriangleSizeText); if ((TessellationMode)tessellationMode.floatValue == TessellationMode.Phong) { m_MaterialEditor.ShaderProperty(tessellationShapeFactor, StylesBaseLit.tessellationShapeFactorText); } if (doubleSidedEnable.floatValue == 0.0) { m_MaterialEditor.ShaderProperty(tessellationBackFaceCullEpsilon, StylesBaseLit.tessellationBackFaceCullEpsilonText); } EditorGUI.indentLevel--; } } protected override void VertexAnimationPropertiesGUI() { EditorGUILayout.LabelField(StylesBaseLit.vertexAnimation, EditorStyles.boldLabel); EditorGUI.indentLevel++; m_MaterialEditor.ShaderProperty(windEnable, StylesBaseLit.windText); if (!windEnable.hasMixedValue && windEnable.floatValue > 0.0f) { EditorGUI.indentLevel++; m_MaterialEditor.ShaderProperty(windInitialBend, StylesBaseLit.windInitialBendText); m_MaterialEditor.ShaderProperty(windStiffness, StylesBaseLit.windStiffnessText); m_MaterialEditor.ShaderProperty(windDrag, StylesBaseLit.windDragText); m_MaterialEditor.ShaderProperty(windShiverDrag, StylesBaseLit.windShiverDragText); m_MaterialEditor.ShaderProperty(windShiverDirectionality, StylesBaseLit.windShiverDirectionalityText); EditorGUI.indentLevel--; } EditorGUI.indentLevel--; } // All Setup Keyword functions must be static. It allow to create script to automatically update the shaders with a script if code change static public void SetupBaseLitKeywords(Material material) { SetupBaseUnlitKeywords(material); bool doubleSidedEnable = material.GetFloat(kDoubleSidedEnable) > 0.0f; if (doubleSidedEnable) { DoubleSidedNormalMode doubleSidedNormalMode = (DoubleSidedNormalMode)material.GetFloat(kDoubleSidedNormalMode); switch (doubleSidedNormalMode) { case DoubleSidedNormalMode.None: material.SetVector("_DoubleSidedConstants", new Vector4(1.0f, 1.0f, 1.0f, 0.0f)); break; case DoubleSidedNormalMode.Mirror: // Mirror mode (in tangent space) material.SetVector("_DoubleSidedConstants", new Vector4(1.0f, 1.0f, -1.0f, 0.0f)); break; case DoubleSidedNormalMode.Flip: // Flip mode (in tangent space) material.SetVector("_DoubleSidedConstants", new Vector4(-1.0f, -1.0f, -1.0f, 0.0f)); break; } } // Set the reference value for the stencil test. int stencilRef = (int)StencilLightingUsage.RegularLighting; if ((int)material.GetFloat(kMaterialID) == (int)Lit.MaterialId.LitSSS) { stencilRef = (int)StencilLightingUsage.SplitLighting; } material.SetInt(kStencilRef, stencilRef); bool enableDisplacement = (DisplacementMode)material.GetFloat(kDisplacementMode) != DisplacementMode.None; bool enableVertexDisplacement = (DisplacementMode)material.GetFloat(kDisplacementMode) == DisplacementMode.Vertex; bool enablePixelDisplacement = (DisplacementMode)material.GetFloat(kDisplacementMode) == DisplacementMode.Pixel; bool enableTessellationDisplacement = ((DisplacementMode)material.GetFloat(kDisplacementMode) == DisplacementMode.Tessellation) && material.HasProperty(kTessellationMode); CoreUtils.SetKeyword(material, "_VERTEX_DISPLACEMENT", enableVertexDisplacement); CoreUtils.SetKeyword(material, "_PIXEL_DISPLACEMENT", enablePixelDisplacement); // Only set if tessellation exist CoreUtils.SetKeyword(material, "_TESSELLATION_DISPLACEMENT", enableTessellationDisplacement); bool displacementLockObjectScale = material.GetFloat(kDisplacementLockObjectScale) > 0.0; bool displacementLockTilingScale = material.GetFloat(kDisplacementLockTilingScale) > 0.0; // Tessellation reuse vertex flag. CoreUtils.SetKeyword(material, "_VERTEX_DISPLACEMENT_LOCK_OBJECT_SCALE", displacementLockObjectScale && (enableVertexDisplacement || enableTessellationDisplacement)); CoreUtils.SetKeyword(material, "_PIXEL_DISPLACEMENT_LOCK_OBJECT_SCALE", displacementLockObjectScale && enablePixelDisplacement); CoreUtils.SetKeyword(material, "_DISPLACEMENT_LOCK_TILING_SCALE", displacementLockTilingScale && enableDisplacement); bool windEnabled = material.GetFloat(kWindEnabled) > 0.0f; CoreUtils.SetKeyword(material, "_VERTEX_WIND", windEnabled); // Depth offset is only enabled if per pixel displacement is bool depthOffsetEnable = (material.GetFloat(kDepthOffsetEnable) > 0.0f) && enablePixelDisplacement; CoreUtils.SetKeyword(material, "_DEPTHOFFSET_ON", depthOffsetEnable); if (material.HasProperty(kTessellationMode)) { TessellationMode tessMode = (TessellationMode)material.GetFloat(kTessellationMode); CoreUtils.SetKeyword(material, "_TESSELLATION_PHONG", tessMode == TessellationMode.Phong); } SetupMainTexForAlphaTestGI("_BaseColorMap", "_BaseColor", material); } static public void SetupBaseLitMaterialPass(Material material) { SetupBaseUnlitMaterialPass(material); } } } // namespace UnityEditor