Exemplo n.º 1
0
        public MaterialPropertyDescriptor[] GetProperties(MaterialEditor editor, object converterObject)
        {
            PropertyEditorCallback         valueChangedCallback = () => editor.BuildEditor();
            StandardMaterialValueConverter converter            = (StandardMaterialValueConverter)converterObject;

            PropertyInfo modeInfo          = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.Mode, "Mode");
            PropertyInfo cutoffInfo        = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.Cutoff, "Cutoff");
            PropertyInfo metallicMapInfo   = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.MetallicGlossMap, "MetallicGlossMap");
            PropertyInfo bumpMapInfo       = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.BumpMap, "BumpMap");
            PropertyInfo parallaxMapInfo   = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.ParallaxMap, "ParallaxMap");
            PropertyInfo occlusionMapInfo  = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.OcclusionMap, "OcclusionMap");
            PropertyInfo emissionMapInfo   = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.EmissionMap, "EmissionMap");
            PropertyInfo emissionColorInfo = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.EmissionColor, "EmissionColor");
            PropertyInfo detailMaskInfo    = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.DetailMask, "DetailMask");
            PropertyInfo detailAlbedoMap   = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.DetailAlbedoMap, "DetailAlbedoMap");
            PropertyInfo detailNormalMap   = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.DetailNormalMap, "DetailNormalMap");
            // PropertyInfo uvSecondaryInfo = Strong.PropertyInfo((StandardMaterialValueConverter x) => x.UVSecondary);

            PropertyInfo texInfo   = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture, "Texture");
            PropertyInfo colorInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Color, "Color");
            PropertyInfo floatInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float, "Float");

            BlendMode mode = GetBlendMode(editor.Material);
            List <MaterialPropertyDescriptor> properties = new List <MaterialPropertyDescriptor>();

            properties.Add(new MaterialPropertyDescriptor(converter, "Rendering Mode", RTShaderPropertyType.Float, modeInfo, new RuntimeShaderInfo.RangeLimits(), TextureDimension.None, valueChangedCallback));
            properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _MainTex), "Albedo", RTShaderPropertyType.TexEnv, texInfo, new RuntimeShaderInfo.RangeLimits(), TextureDimension.Tex2D, null));
            properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _Color), "Albedo Color", RTShaderPropertyType.Color, colorInfo, new RuntimeShaderInfo.RangeLimits(), TextureDimension.None, null));
            if (mode == BlendMode.Cutout)
            {
                properties.Add(new MaterialPropertyDescriptor(converter, "Alpha Cutoff", RTShaderPropertyType.Range, cutoffInfo, new RuntimeShaderInfo.RangeLimits(0.5f, 0.0f, 1.0f), TextureDimension.None, null));
            }

            properties.Add(new MaterialPropertyDescriptor(converter, "Metallic", RTShaderPropertyType.TexEnv, metallicMapInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, valueChangedCallback));
            bool hasGlossMap = IsMetallicGlossMapSet(editor.Material);

            if (!hasGlossMap)
            {
                properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _Metallic), "Metallic", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 1.0f), TextureDimension.None, null));
                if (StandardMaterialValueConverter.GetSmoothnessMapChannel(editor.Material) == StandardMaterialValueConverter.SmoothnessMapChannel.SpecularMetallicAlpha)
                {
                    properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _Glossiness), "Smoothness", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(0.5f, 0.0f, 1.0f), TextureDimension.None, null));
                }
                else
                {
                    properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _GlossMapScale), "Smoothness", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(1.0f, 0.0f, 1.0f), TextureDimension.None, null));
                }
            }
            else
            {
                properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _GlossMapScale), "Smoothness", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(1.0f, 0.0f, 1.0f), TextureDimension.None, null));
            }


            properties.Add(new MaterialPropertyDescriptor(converter, "Normal Map", RTShaderPropertyType.TexEnv, bumpMapInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, valueChangedCallback));
            if (converter.BumpMap != null)
            {
                properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _BumpScale), "Normal Map Scale", RTShaderPropertyType.Float, floatInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.None, null));
            }

            properties.Add(new MaterialPropertyDescriptor(converter, "Height Map", RTShaderPropertyType.TexEnv, parallaxMapInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, valueChangedCallback));
            if (converter.ParallaxMap != null)
            {
                properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _Parallax), "Height Map Scale", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(0.02f, 0.005f, 0.08f), TextureDimension.None, null));
            }

            properties.Add(new MaterialPropertyDescriptor(converter, "Occlusion Map", RTShaderPropertyType.TexEnv, occlusionMapInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, valueChangedCallback));
            if (converter.OcclusionMap != null)
            {
                properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _OcclusionStrength), "Occlusion Strength", RTShaderPropertyType.Range, floatInfo, new RuntimeShaderInfo.RangeLimits(1.0f, 0, 1.0f), TextureDimension.None, null));
            }

            properties.Add(new MaterialPropertyDescriptor(converter, "Emission Map", RTShaderPropertyType.TexEnv, emissionMapInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, null));
            properties.Add(new MaterialPropertyDescriptor(converter, "Emission Color", RTShaderPropertyType.Color, emissionColorInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.None, null));
            properties.Add(new MaterialPropertyDescriptor(converter, "Detail Mask", RTShaderPropertyType.TexEnv, detailMaskInfo, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, null));
            properties.Add(new MaterialPropertyDescriptor(converter, "Detail Albedo Map", RTShaderPropertyType.TexEnv, detailAlbedoMap, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, null));
            properties.Add(new MaterialPropertyDescriptor(converter, "Detail Normal Map", RTShaderPropertyType.TexEnv, detailNormalMap, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, null));
            properties.Add(new MaterialPropertyDescriptor(new MaterialPropertyAccessor(editor.Material, _DetailNormalMapScale), "Detail Scale", RTShaderPropertyType.Float, floatInfo, new RuntimeShaderInfo.RangeLimits(0, 0, 0), TextureDimension.None, null));
            //properties.Add(new MaterialPropertyDescriptor(converter, "UV Set", RTShaderPropertyType.Float, detailNormalMap, new RuntimeShaderInfo.RangeLimits(0.0f, 0.0f, 0.0f), TextureDimension.Tex2D, null));

#if !UNITY_WEBGL && PROC_MATERIAL
            ProceduralMaterial procMaterial = editor.Material as ProceduralMaterial;
            if (procMaterial != null)
            {
                MaterialDescriptor.GetProceduralMaterialDescriptors(procMaterial, properties);
            }
#endif

            return(properties.ToArray());
        }
Exemplo n.º 2
0
 public object CreateConverter(MaterialEditor editor)
 {
     return(null);
 }
Exemplo n.º 3
0
        public MaterialPropertyDescriptor[] GetProperties(MaterialEditor editor, object converter)
        {
            RuntimeShaderInfo  shaderInfo = null;
            IRuntimeShaderUtil shaderUtil = IOC.Resolve <IRuntimeShaderUtil>();

            if (shaderUtil != null)
            {
                shaderInfo = shaderUtil.GetShaderInfo(editor.Material.shader);
            }


            if (shaderInfo == null)
            {
                return(null);
            }

            List <MaterialPropertyDescriptor> descriptors = new List <MaterialPropertyDescriptor>();

            if (shaderInfo != null)
            {
                for (int i = 0; i < shaderInfo.PropertyCount; ++i)
                {
                    bool isHidden = shaderInfo.IsHidden[i];
                    if (isHidden)
                    {
                        continue;
                    }

                    string propertyDescr = shaderInfo.PropertyDescriptions[i];
                    string propertyName  = shaderInfo.PropertyNames[i];
                    RTShaderPropertyType          propertyType = shaderInfo.PropertyTypes[i];
                    RuntimeShaderInfo.RangeLimits limits       = shaderInfo.PropertyRangeLimits[i];
                    TextureDimension dim          = shaderInfo.PropertyTexDims[i];
                    PropertyInfo     propertyInfo = null;
                    switch (propertyType)
                    {
                    case RTShaderPropertyType.Color:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Color, "Color");
                        break;

                    case RTShaderPropertyType.Float:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float, "Float");
                        break;

                    case RTShaderPropertyType.Range:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float, "Float");
                        break;

                    case RTShaderPropertyType.TexEnv:
                        switch (dim)
                        {
                        case TextureDimension.Any:
                            propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture, "Texture");
                            break;

                        case TextureDimension.Cube:
                            propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Cubemap, "Cubemap");
                            break;

                        case TextureDimension.None:
                            propertyInfo = null;
                            break;

                        case TextureDimension.Tex2D:
                            propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture2D, "Texture2D");
                            break;

                        case TextureDimension.Tex2DArray:
                            propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture2DArray, "Texture2DArray");
                            break;

                        case TextureDimension.Tex3D:
                            propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture3D, "Texture3D");
                            break;

                        case TextureDimension.Unknown:
                            propertyInfo = null;
                            break;
                        }

                        break;

                    case RTShaderPropertyType.Vector:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Vector, "Vector");
                        break;
                    }

                    if (propertyInfo == null)
                    {
                        continue;
                    }

                    MaterialPropertyDescriptor propertyDescriptor = new MaterialPropertyDescriptor(
                        editor.Material,
                        new MaterialPropertyAccessor(editor.Material, propertyName),
                        propertyDescr, propertyType, propertyInfo, limits, dim, null,
                        (accessorRef, newTarget) =>
                    {
                        MaterialPropertyAccessor accessor = (MaterialPropertyAccessor)accessorRef;
                        accessor.Material = newTarget as Material;
                    });
                    descriptors.Add(propertyDescriptor);
                }
            }

            return(descriptors.ToArray());
        }
        public MaterialPropertyDescriptor[] GetProperties(MaterialEditor editor)
        {
            RuntimeShaderInfo shaderInfo = RuntimeShaderUtil.GetShaderInfo(editor.Material.shader);

            if (shaderInfo == null)
            {
                return(null);
            }
            List <MaterialPropertyDescriptor> descriptors = new List <MaterialPropertyDescriptor>();

            for (int i = 0; i < shaderInfo.PropertyCount; ++i)
            {
                bool isHidden = shaderInfo.IsHidden[i];
                if (isHidden)
                {
                    continue;
                }

                string propertyDescr = shaderInfo.PropertyDescriptions[i];
                string propertyName  = shaderInfo.PropertyNames[i];
                if (propertyName != "_Color" && propertyName != "_MainTex")
                {
                    continue;
                }

                RTShaderPropertyType          propertyType = shaderInfo.PropertyTypes[i];
                RuntimeShaderInfo.RangeLimits limits       = shaderInfo.PropertyRangeLimits[i];
                TextureDimension dim          = shaderInfo.PropertyTexDims[i];
                PropertyInfo     propertyInfo = null;
                switch (propertyType)
                {
                case RTShaderPropertyType.Color:
                    propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Color);
                    break;

                case RTShaderPropertyType.Float:
                    propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float);
                    break;

                case RTShaderPropertyType.Range:
                    propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float);
                    break;

                case RTShaderPropertyType.TexEnv:
                    switch (dim)
                    {
                    case TextureDimension.Any:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture);
                        break;

                    case TextureDimension.Cube:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Cubemap);
                        break;

                    case TextureDimension.None:
                        propertyInfo = null;
                        break;

                    case TextureDimension.Tex2D:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture2D);
                        break;

                    case TextureDimension.Tex2DArray:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture2DArray);
                        break;

                    case TextureDimension.Tex3D:
                        propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Texture3D);
                        break;

                    case TextureDimension.Unknown:
                        propertyInfo = null;
                        break;
                    }

                    break;

                case RTShaderPropertyType.Vector:
                    propertyInfo = Strong.PropertyInfo((MaterialPropertyAccessor x) => x.Float);
                    break;
                }

                if (propertyInfo == null)
                {
                    continue;
                }

                MaterialPropertyAccessor   accessor           = new MaterialPropertyAccessor(editor.Material, propertyName);
                MaterialPropertyDescriptor propertyDescriptor = new MaterialPropertyDescriptor(accessor, propertyDescr, propertyType, propertyInfo, limits, dim, null);
                descriptors.Add(propertyDescriptor);
            }

            return(descriptors.ToArray());
        }
 public void CreateConverters(MaterialEditor editor)
 {
 }
Exemplo n.º 6
0
 public virtual MaterialPropertyDescriptor[] GetProperties(MaterialEditor editor, object converter)
 {
     return(GetProperties(editor.Materials));
 }