private void DrawShadowSettings(MaterialEditor materialEditor, Material material) { showShadows = XSStyles.ShurikenFoldout("Shadows", showShadows); if (showShadows) { materialEditor.TexturePropertySingleLine(new GUIContent("Ramp Selection Mask", "A black to white mask that determins how far up on the multi ramp to sample. 0 for bottom, 1 for top, 0.5 for middle, 0.25, and 0.75 for mid bottom and mid top respectively."), _RampSelectionMask); XSStyles.SeparatorThin(); if (_RampSelectionMask.textureValue != null) { string rampMaskPath = AssetDatabase.GetAssetPath(_RampSelectionMask.textureValue); TextureImporter ti = (TextureImporter)TextureImporter.GetAtPath(rampMaskPath); if (ti.sRGBTexture) { if (XSStyles.HelpBoxWithButton(new GUIContent("This texture is not marked as Linear.", "This is recommended for the mask"), new GUIContent("Fix Now"))) { ti.sRGBTexture = false; AssetDatabase.ImportAsset(rampMaskPath, ImportAssetOptions.ForceUpdate); AssetDatabase.Refresh(); } } } materialEditor.TexturePropertySingleLine(new GUIContent("Shadow Ramp", "Shadow Ramp, Dark to Light should be Left to Right"), _Ramp); materialEditor.ShaderProperty(_ShadowSharpness, new GUIContent("Shadow Sharpness", "Controls the sharpness of recieved shadows, as well as the sharpness of 'shadows' from Vertex Lighting.")); XSStyles.SeparatorThin(); materialEditor.TexturePropertySingleLine(new GUIContent("Occlusion Map", "Occlusion Map, used to darken areas on the model artifically."), _OcclusionMap); XSStyles.constrainedShaderProperty(materialEditor, _OcclusionColor, new GUIContent("Occlusion Tint", "Occlusion shadow tint."), 2); materialEditor.ShaderProperty(_UVSetOcclusion, new GUIContent("UV Set", "The UV set to use for the Occlusion Texture"), 2); materialEditor.TextureScaleOffsetProperty(_OcclusionMap); XSStyles.SeparatorThin(); XSStyles.constrainedShaderProperty(materialEditor, _ShadowRim, new GUIContent("Shadow Rim", "Shadow Rim Color. Set to white to disable."), 0); materialEditor.ShaderProperty(_ShadowRimAlbedoTint, new GUIContent("Shadow Rim Albedo Tint", "How much the Albedo texture should effect the Shadow Rim color.")); materialEditor.ShaderProperty(_ShadowRimRange, new GUIContent("Range", "Range of the Shadow Rim"), 2); materialEditor.ShaderProperty(_ShadowRimThreshold, new GUIContent("Threshold", "Threshold of the Shadow Rim"), 2); materialEditor.ShaderProperty(_ShadowRimSharpness, new GUIContent("Sharpness", "Sharpness of the Shadow Rim"), 2); XSStyles.callGradientEditor(material); } }
public override void OnGUI(MaterialEditor materialEditor, MaterialProperty[] props) { Material material = materialEditor.target as Material; Shader shader = material.shader; isCutout = shader.name.Contains("Cutout") && !shader.name.Contains("A2C"); isOutlined = shader.name.Contains("Outline"); //Find all material properties listed in the script using reflection, and set them using a loop only if they're of type MaterialProperty. //This makes things a lot nicer to maintain and cleaner to look at. foreach (var property in GetType().GetFields(bindingFlags)) { if (property.FieldType == typeof(MaterialProperty)) { property.SetValue(this, FindProperty(property.Name, props)); } } EditorGUI.BeginChangeCheck(); { if (!isCutout)// Do this to make sure that if you're using AlphaToCoverage that you fallback to cutout with 0.5 Cutoff if your shaders are blocked. { material.SetFloat("_Cutoff", 0.5f); } XSStyles.ShurikenHeaderCentered("XSToon v" + XSStyles.ver); materialEditor.ShaderProperty(_AdvMode, new GUIContent("Shader Mode", "Setting this to 'Advanced' will give you access to things such as stenciling, and other expiremental/advanced features.")); materialEditor.ShaderProperty(_Culling, new GUIContent("Culling Mode", "Changes the culling mode. 'Off' will result in a two sided material, while 'Front' and 'Back' will cull those sides respectively")); materialEditor.ShaderProperty(_TilingMode, new GUIContent("Tiling Mode", "Setting this to Merged will tile and offset all textures based on the Main texture's Tiling/Offset.")); showMainSettings = XSStyles.ShurikenFoldout("Main Settings", showMainSettings); if (showMainSettings) { materialEditor.TexturePropertySingleLine(new GUIContent("Main Texture", "The Main Texture."), _MainTex, _Color); if (isCutout) { materialEditor.ShaderProperty(_Cutoff, new GUIContent("Cutoff", "The Cutoff Amount"), 2); } materialEditor.ShaderProperty(_UVSetAlbedo, new GUIContent("UV Set", "The UV set to use for the Albedo Texture"), 2); materialEditor.TextureScaleOffsetProperty(_MainTex); materialEditor.ShaderProperty(_Saturation, new GUIContent("Saturation", "Controls saturation of the final output from the shader.")); } showShadows = XSStyles.ShurikenFoldout("Shadows", showShadows); if (showShadows) { materialEditor.TexturePropertySingleLine(new GUIContent("Ramp Selection Mask", "A black to white mask that determins how far up on the multi ramp to sample. 0 for bottom, 1 for top, 0.5 for middle, 0.25, and 0.75 for mid bottom and mid top respectively."), _RampSelectionMask); if (_RampSelectionMask.textureValue != null) { string rampMaskPath = AssetDatabase.GetAssetPath(_RampSelectionMask.textureValue); TextureImporter ti = (TextureImporter)TextureImporter.GetAtPath(rampMaskPath); if (ti.sRGBTexture) { if (XSStyles.HelpBoxWithButton(new GUIContent("This texture is not marked as Linear.", "This is recommended for the mask"), new GUIContent("Fix Now"))) { ti.sRGBTexture = false; AssetDatabase.ImportAsset(rampMaskPath, ImportAssetOptions.ForceUpdate); AssetDatabase.Refresh(); } } } materialEditor.TexturePropertySingleLine(new GUIContent("Shadow Ramp", "Shadow Ramp, Dark to Light should be Left to Right, or Down to Up"), _Ramp); materialEditor.ShaderProperty(_ShadowSharpness, new GUIContent("Shadow Sharpness", "Controls the sharpness of recieved shadows, as well as the sharpness of 'shadows' from Vertex Lighting.")); GUILayout.Space(5); materialEditor.TexturePropertySingleLine(new GUIContent("Occlusion Map", "Occlusion Map, used to darken areas on the model artifically."), _OcclusionMap); XSStyles.constrainedShaderProperty(materialEditor, _OcclusionColor, new GUIContent("Occlusion Tint", "Occlusion shadow tint."), 2); materialEditor.ShaderProperty(_UVSetOcclusion, new GUIContent("UV Set", "The UV set to use for the Occlusion Texture"), 2); materialEditor.TextureScaleOffsetProperty(_OcclusionMap); GUILayout.Space(5); XSStyles.constrainedShaderProperty(materialEditor, _ShadowRim, new GUIContent("Shadow Rim", "Shadow Rim Color. Set to white to disable."), 0); materialEditor.ShaderProperty(_ShadowRimRange, new GUIContent("Range", "Range of the Shadow Rim"), 2); materialEditor.ShaderProperty(_ShadowRimThreshold, new GUIContent("Threshold", "Threshold of the Shadow Rim"), 2); materialEditor.ShaderProperty(_ShadowRimSharpness, new GUIContent("Sharpness", "Sharpness of the Shadow Rim"), 2); XSStyles.callGradientEditor(material); } if (isOutlined) { showOutlines = XSStyles.ShurikenFoldout("Outlines", showOutlines); if (showOutlines) { materialEditor.TexturePropertySingleLine(new GUIContent("Outline Mask", "Outline width mask, black will make the outline minimum width."), _OutlineMask); materialEditor.ShaderProperty(_OutlineWidth, new GUIContent("Outline Width", "Width of the Outlines")); XSStyles.constrainedShaderProperty(materialEditor, _OutlineColor, new GUIContent("Outline Color", "Color of the outlines"), 0); } } showNormalMapSettings = XSStyles.ShurikenFoldout("Normal Maps", showNormalMapSettings); if (showNormalMapSettings) { materialEditor.TexturePropertySingleLine(new GUIContent("Normal Map", "Normal Map"), _BumpMap); materialEditor.ShaderProperty(_BumpScale, new GUIContent("Normal Strength", "Strength of the main Normal Map"), 2); materialEditor.ShaderProperty(_UVSetNormal, new GUIContent("UV Set", "The UV set to use for the Normal Map"), 2); materialEditor.TextureScaleOffsetProperty(_BumpMap); GUILayout.Space(5); materialEditor.TexturePropertySingleLine(new GUIContent("Detail Normal Map", "Detail Normal Map"), _DetailNormalMap); materialEditor.ShaderProperty(_DetailNormalMapScale, new GUIContent("Detail Normal Strength", "Strength of the detail Normal Map"), 2); materialEditor.ShaderProperty(_UVSetDetNormal, new GUIContent("UV Set", "The UV set to use for the Detail Normal Map"), 2); materialEditor.TextureScaleOffsetProperty(_DetailNormalMap); GUILayout.Space(5); materialEditor.TexturePropertySingleLine(new GUIContent("Detail Mask", "Mask for Detail Normal Map"), _DetailMask); materialEditor.ShaderProperty(_UVSetDetMask, new GUIContent("UV Set", "The UV set to use for the Detail Mask"), 2); materialEditor.TextureScaleOffsetProperty(_DetailMask); } showSpecular = XSStyles.ShurikenFoldout("Specular", showSpecular); if (showSpecular) { materialEditor.ShaderProperty(_SpecMode, new GUIContent("Specular Mode", "Specular Mode.")); materialEditor.ShaderProperty(_SpecularStyle, new GUIContent("Specular Style", "Specular Style.")); materialEditor.TexturePropertySingleLine(new GUIContent("Specular Map(R,G,B)", "Specular Map. Red channel controls Intensity, Green controls how much specular is tinted by Albedo, and Blue controls Smoothness (Only for Blinn-Phong, and GGX)."), _SpecularMap); materialEditor.TextureScaleOffsetProperty(_SpecularMap); materialEditor.ShaderProperty(_UVSetSpecular, new GUIContent("UV Set", "The UV set to use for the Specular Map"), 2); materialEditor.ShaderProperty(_SpecularIntensity, new GUIContent("Specular Intensity", "Specular Intensity."), 2); materialEditor.ShaderProperty(_SpecularAlbedoTint, new GUIContent("Specular Albedo Tint", "How much the specular highlight should derive color from the albedo of the object."), 2); if (_SpecMode.floatValue == 0 || _SpecMode.floatValue == 2) { materialEditor.ShaderProperty(_SpecularArea, new GUIContent("Specular Area", "Specular Area."), 2); } else { materialEditor.ShaderProperty(_AnisotropicAX, new GUIContent("Anisotropic Width", "Anisotropic Width, makes anistropic relfections more horizontal"), 2); materialEditor.ShaderProperty(_AnisotropicAY, new GUIContent("Anisotropic Height", "Anisotropic Height, makes anistropic relfections more vertical"), 2); } } showReflection = XSStyles.ShurikenFoldout("Reflections", showReflection); if (showReflection) { materialEditor.ShaderProperty(_ReflectionMode, new GUIContent("Reflection Mode", "Reflection Mode.")); if (_ReflectionMode.floatValue == 0) // PBR { materialEditor.ShaderProperty(_ReflectionBlendMode, new GUIContent("Reflection Blend Mode", "Blend mode for reflection. Additive is Color + reflection, Multiply is Color * reflection, and subtractive is Color - reflection")); materialEditor.ShaderProperty(_ClearCoat, new GUIContent("Clearcoat", "Clearcoat")); materialEditor.TexturePropertySingleLine(new GUIContent("Fallback Cubemap", " Used as fallback in 'Unity' reflection mode if reflection probe is black."), _BakedCubemap); materialEditor.TexturePropertySingleLine(new GUIContent("Metallic Map", "Metallic Map, Metallic on Red Channel, Smoothness on Alpha Channel. \nIf Clearcoat is enabled, Clearcoat Smoothness on Green Channel, Clearcoat Reflectivity on Blue Channel."), _MetallicGlossMap); materialEditor.TextureScaleOffsetProperty(_MetallicGlossMap); materialEditor.ShaderProperty(_UVSetMetallic, new GUIContent("UV Set", "The UV set to use for the Metallic Smoothness Map"), 2); materialEditor.ShaderProperty(_Metallic, new GUIContent("Metallic", "Metallic, set to 1 if using metallic map"), 2); materialEditor.ShaderProperty(_Glossiness, new GUIContent("Smoothness", "Smoothness, set to 1 if using metallic map"), 2); materialEditor.ShaderProperty(_ClearcoatSmoothness, new GUIContent("Clearcoat Smoothness", "Smoothness of the clearcoat."), 2); materialEditor.ShaderProperty(_ClearcoatStrength, new GUIContent("Clearcoat Reflectivity", "The strength of the clearcoat reflection."), 2); } else if (_ReflectionMode.floatValue == 1) //Baked cube { materialEditor.ShaderProperty(_ReflectionBlendMode, new GUIContent("Reflection Blend Mode", "Blend mode for reflection. Additive is Color + reflection, Multiply is Color * reflection, and subtractive is Color - reflection")); materialEditor.ShaderProperty(_ClearCoat, new GUIContent("Clearcoat", "Clearcoat")); materialEditor.TexturePropertySingleLine(new GUIContent("Baked Cubemap", "Baked cubemap."), _BakedCubemap); materialEditor.TexturePropertySingleLine(new GUIContent("Metallic Map", "Metallic Map, Metallic on Red Channel, Smoothness on Alpha Channel. \nIf Clearcoat is enabled, Clearcoat Smoothness on Green Channel, Clearcoat Reflectivity on Blue Channel."), _MetallicGlossMap); materialEditor.TextureScaleOffsetProperty(_MetallicGlossMap); materialEditor.ShaderProperty(_UVSetMetallic, new GUIContent("UV Set", "The UV set to use for the MetallicSmoothness Map"), 2); materialEditor.ShaderProperty(_Metallic, new GUIContent("Metallic", "Metallic, set to 1 if using metallic map"), 2); materialEditor.ShaderProperty(_Glossiness, new GUIContent("Smoothness", "Smoothness, set to 1 if using metallic map"), 2); materialEditor.ShaderProperty(_ClearcoatSmoothness, new GUIContent("Clearcoat Smoothness", "Smoothness of the clearcoat."), 2); materialEditor.ShaderProperty(_ClearcoatStrength, new GUIContent("Clearcoat Reflectivity", "The strength of the clearcoat reflection."), 2); } else if (_ReflectionMode.floatValue == 2) //Matcap { materialEditor.ShaderProperty(_ReflectionBlendMode, new GUIContent("Reflection Blend Mode", "Blend mode for reflection. Additive is Color + reflection, Multiply is Color * reflection, and subtractive is Color - reflection")); materialEditor.TexturePropertySingleLine(new GUIContent("Matcap", "Matcap Texture"), _Matcap, _MatcapTint); materialEditor.ShaderProperty(_Glossiness, new GUIContent("Matcap Blur", "Matcap blur, blurs the Matcap, set to 1 for full clarity"), 2); material.SetFloat("_Metallic", 0); material.SetFloat("_ClearCoat", 0); material.SetTexture("_MetallicGlossMap", null); } if (_ReflectionMode.floatValue != 3) { materialEditor.TexturePropertySingleLine(new GUIContent("Reflectivity Mask", "Mask for reflections."), _ReflectivityMask); materialEditor.TextureScaleOffsetProperty(_ReflectivityMask); materialEditor.ShaderProperty(_UVSetReflectivity, new GUIContent("UV Set", "The UV set to use for the Reflectivity Mask"), 2); materialEditor.ShaderProperty(_Reflectivity, new GUIContent("Reflectivity", "The strength of the reflections."), 2); } if (_ReflectionMode.floatValue == 3) { material.SetFloat("_Metallic", 0); material.SetFloat("_ReflectionBlendMode", 0); material.SetFloat("_ClearCoat", 0); } } showEmission = XSStyles.ShurikenFoldout("Emission", showEmission); if (showEmission) { materialEditor.TexturePropertySingleLine(new GUIContent("Emission Map", "Emissive map. White to black, unless you want multiple colors."), _EmissionMap, _EmissionColor); materialEditor.TextureScaleOffsetProperty(_EmissionMap); materialEditor.ShaderProperty(_UVSetEmission, new GUIContent("UV Set", "The UV set to use for the Emission Map"), 2); materialEditor.ShaderProperty(_EmissionToDiffuse, new GUIContent("Tint To Diffuse", "Tints the emission to the Diffuse Color"), 2); GUILayout.Space(5); materialEditor.ShaderProperty(_ScaleWithLight, new GUIContent("Scale w/ Light", "Scales the emission intensity based on how dark or bright the environment is.")); if (_ScaleWithLight.floatValue == 0) { materialEditor.ShaderProperty(_ScaleWithLightSensitivity, new GUIContent("Scaling Sensitivity", "How agressively the emission should scale with the light.")); } } showRimlight = XSStyles.ShurikenFoldout("Rimlight", showRimlight); if (showRimlight) { materialEditor.ShaderProperty(_RimColor, new GUIContent("Rimlight Tint", "The Tint of the Rimlight.")); materialEditor.ShaderProperty(_RimIntensity, new GUIContent("Rimlight Intensity", "Strength of the Rimlight.")); materialEditor.ShaderProperty(_RimRange, new GUIContent("Range", "Range of the Rim"), 2); materialEditor.ShaderProperty(_RimThreshold, new GUIContent("Threshold", "Threshold of the Rim"), 2); materialEditor.ShaderProperty(_RimSharpness, new GUIContent("Sharpness", "Sharpness of the Rim"), 2); } showSubsurface = XSStyles.ShurikenFoldout("Subsurface Scattering", showSubsurface); if (showSubsurface) { materialEditor.TexturePropertySingleLine(new GUIContent("Thickness Map", "Thickness Map, used to mask areas where subsurface can happen"), _ThicknessMap); materialEditor.TextureScaleOffsetProperty(_ThicknessMap); materialEditor.ShaderProperty(_UVSetThickness, new GUIContent("UV Set", "The UV set to use for the Thickness Map"), 2); XSStyles.constrainedShaderProperty(materialEditor, _SSColor, new GUIContent("Subsurface Color", "Subsurface Scattering Color"), 2); materialEditor.ShaderProperty(_SSDistortion, new GUIContent("Subsurface Distortion", "How much the subsurface follows the normals of the mesh, Normal map."), 2); materialEditor.ShaderProperty(_SSPower, new GUIContent("Subsurface Power", "Subsurface Power"), 2); materialEditor.ShaderProperty(_SSScale, new GUIContent("Subsurface Scale", "Subsurface Scale"), 2); materialEditor.ShaderProperty(_SSSRange, new GUIContent("Subsurface Range", "Subsurface Range"), 2); materialEditor.ShaderProperty(_SSSSharpness, new GUIContent("Subsurface Sharpness", "Subsurface Sharpness"), 2); } if (_AdvMode.floatValue == 1) { showAdvanced = XSStyles.ShurikenFoldout("Advanced Settings", showAdvanced); if (showAdvanced) { materialEditor.ShaderProperty(_Stencil, _Stencil.displayName); materialEditor.ShaderProperty(_StencilComp, _StencilComp.displayName); materialEditor.ShaderProperty(_StencilOp, _StencilOp.displayName); } } XSStyles.DoFooter(); } }