using UnityEngine; using UnityEditor.AssetImporters; using UnityEngine.Rendering; using UnityEngine.Rendering.Universal; namespace UnityEditor.Rendering.Universal { class AutodeskInteractiveMaterialImport : AssetPostprocessor { static readonly uint k_Version = 1; static readonly int k_Order = 3; public override uint GetVersion() { return k_Version; } public override int GetPostprocessOrder() { return k_Order; } public void OnPreprocessMaterialDescription(MaterialDescription description, Material material, AnimationClip[] clips) { var pipelineAsset = GraphicsSettings.currentRenderPipeline; if (!pipelineAsset || pipelineAsset.GetType() != typeof(UniversalRenderPipelineAsset)) return; if (IsAutodeskInteractiveMaterial(description)) { float floatProperty; Vector4 vectorProperty; TexturePropertyDescription textureProperty; bool isMasked = description.TryGetProperty("mask_threshold",out floatProperty); bool isTransparent = description.TryGetProperty("opacity",out floatProperty); Shader shader; if (isMasked) shader = GraphicsSettings.currentRenderPipeline.autodeskInteractiveMaskedShader; else if (isTransparent) shader = GraphicsSettings.currentRenderPipeline.autodeskInteractiveTransparentShader; else shader = GraphicsSettings.currentRenderPipeline.autodeskInteractiveShader; if (shader == null) return; material.shader = shader; foreach (var clip in clips) { clip.ClearCurves(); } if (description.TryGetProperty("base_color", out vectorProperty)) material.SetColor("_Color", vectorProperty); if (description.TryGetProperty("emissive", out vectorProperty)) material.SetColor("_EmissionColor", vectorProperty); if (description.TryGetProperty("roughness", out floatProperty)) material.SetFloat("_Roughness", floatProperty); if (description.TryGetProperty("metallic", out floatProperty)) material.SetFloat("_Metallic", floatProperty); if (description.TryGetProperty("uvTransform", out vectorProperty)) { material.SetVector("_UvOffset", new Vector4(vectorProperty.x, vectorProperty.y, .0f, .0f)); material.SetVector("_UvTiling", new Vector4(vectorProperty.w, vectorProperty.z, .0f, .0f)); } if (description.TryGetProperty("TEX_color_map", out textureProperty)) { material.SetTexture("_MainTex", textureProperty.texture); material.SetFloat("_UseColorMap", 1.0f); } else { material.SetFloat("_UseColorMap", 0.0f); } if (description.TryGetProperty("TEX_normal_map", out textureProperty)) { material.SetTexture("_BumpMap", textureProperty.texture); material.SetFloat("_UseNormalMap", 1.0f); } else { material.SetFloat("_UseNormalMap", 0.0f); } if (description.TryGetProperty("TEX_roughness_map", out textureProperty)) { material.SetTexture("RoughnessMap", textureProperty.texture); material.SetFloat("_UseRoughnessMap", 1.0f); } else { material.SetFloat("_UseRoughnessMap", 0.0f); } if (description.TryGetProperty("TEX_metallic_map", out textureProperty)) { material.SetTexture("_MetallicMap", textureProperty.texture); material.SetFloat("_UseMetallicMap", 1.0f); } else { material.SetFloat("_UseMetallicMap", 0.0f); } if (description.TryGetProperty("TEX_emissive_map", out textureProperty)) { material.SetTexture("_EmissionMap", textureProperty.texture); material.SetFloat("_UseEmissiveMap", 1.0f); } else { material.SetFloat("_UseEmissiveMap", 0.0f); } if (description.TryGetProperty("hasTransparencyTexture", out floatProperty)) material.SetFloat("_UseOpacityMap", floatProperty); if (description.TryGetProperty("transparencyMaskThreshold", out floatProperty)) material.SetFloat("_OpacityThreshold", floatProperty); if (description.TryGetProperty("TEX_ao_map", out textureProperty)) { var tex = AssetDatabase.LoadAssetAtPath(textureProperty.relativePath); material.SetTexture("AoMap", tex); material.SetFloat("UseAoMap", 1.0f); } else { material.SetFloat("UseAoMap", 0.0f); } RemapColorCurves(description, clips, "base_color", "_Color"); RemapCurve(description, clips, "mask_threshold", "_Cutoff"); RemapCurve(description, clips, "metallic", "_Metallic"); RemapCurve(description, clips, "roughness", "_Glossiness"); for (int i = 0; i < clips.Length; i++) { if (description.HasAnimationCurveInClip(clips[i].name, "uv_scale.x") || description.HasAnimationCurveInClip(clips[i].name, "uv_scale.y")) { AnimationCurve curve; if (description.TryGetAnimationCurve(clips[i].name, "uv_scale.x", out curve)) clips[i].SetCurve("", typeof(Material), "_UvTiling.x", curve); else clips[i].SetCurve("", typeof(Material), "_UvTiling.x", AnimationCurve.Constant(0.0f, 1.0f, 1.0f)); if (description.TryGetAnimationCurve(clips[i].name, "uv_scale.y", out curve)) clips[i].SetCurve("", typeof(Material), "_UvTiling.y", curve); else clips[i].SetCurve("", typeof(Material), "_UvTiling.y", AnimationCurve.Constant(0.0f, 1.0f, 1.0f)); } if (description.HasAnimationCurveInClip(clips[i].name, "uv_offset.x") || description.HasAnimationCurveInClip(clips[i].name, "uv_offset.y")) { AnimationCurve curve; if (description.TryGetAnimationCurve(clips[i].name, "uv_offset.x", out curve)) clips[i].SetCurve("", typeof(Material), "_UvOffset.x", curve); else clips[i].SetCurve("", typeof(Material), "_UvOffset.x", AnimationCurve.Constant(0.0f, 1.0f, 0.0f)); if (description.TryGetAnimationCurve(clips[i].name, "uv_offset.y", out curve)) { ConvertKeys(curve, ConvertFloatNegate); clips[i].SetCurve("", typeof(Material), "_UvOffset.y", curve); } else clips[i].SetCurve("", typeof(Material), "_UvOffset.y", AnimationCurve.Constant(0.0f, 1.0f, 0.0f)); } } if (description.HasAnimationCurve("emissive_intensity")) { Vector4 emissiveColor; description.TryGetProperty("emissive", out emissiveColor); for (int i = 0; i < clips.Length; i++) { AnimationCurve curve; description.TryGetAnimationCurve(clips[i].name, "emissive_intensity", out curve); // remap emissive intensity to emission color clips[i].SetCurve("", typeof(Material), "_EmissionColor.r", curve); clips[i].SetCurve("", typeof(Material), "_EmissionColor.g", curve); clips[i].SetCurve("", typeof(Material), "_EmissionColor.b", curve); } } else if (description.TryGetProperty("emissive", out vectorProperty)) { if (vectorProperty.x > 0.0f || vectorProperty.y > 0.0f || vectorProperty.z > 0.0f) { material.globalIlluminationFlags |= MaterialGlobalIlluminationFlags.RealtimeEmissive; material.EnableKeyword("_EMISSION"); } if (description.TryGetProperty("emissive_intensity", out floatProperty)) { vectorProperty *= floatProperty; } material.SetColor("_EmissionColor", vectorProperty); if (description.HasAnimationCurve("emissive.x")) { if (description.HasAnimationCurve("emissive_intensity")) { // combine color and intensity. for (int i = 0; i < clips.Length; i++) { AnimationCurve curve; AnimationCurve intensityCurve; description.TryGetAnimationCurve(clips[i].name, "emissive_intensity", out intensityCurve); description.TryGetAnimationCurve(clips[i].name, "emissive.x", out curve); MultiplyCurves(curve, intensityCurve); clips[i].SetCurve("", typeof(Material), "_EmissionColor.r", curve); description.TryGetAnimationCurve(clips[i].name, "emissive.y", out curve); MultiplyCurves(curve, intensityCurve); clips[i].SetCurve("", typeof(Material), "_EmissionColor.g", curve); description.TryGetAnimationCurve(clips[i].name, "emissive.z", out curve); MultiplyCurves(curve, intensityCurve); clips[i].SetCurve("", typeof(Material), "_EmissionColor.b", curve); } } else { RemapColorCurves(description, clips, "emissive", "_EmissionColor"); } } else if (description.HasAnimationCurve("emissive_intensity")) { Vector4 emissiveColor; description.TryGetProperty("emissive", out emissiveColor); for (int i = 0; i < clips.Length; i++) { AnimationCurve curve; description.TryGetAnimationCurve(clips[i].name, "emissive_intensity", out curve); // remap emissive intensity to emission color AnimationCurve curveR = new AnimationCurve(); ConvertAndCopyKeys(curveR, curve, value => ConvertFloatMultiply(emissiveColor.x, value)); clips[i].SetCurve("", typeof(Material), "_EmissionColor.r", curveR); AnimationCurve curveG = new AnimationCurve(); ConvertAndCopyKeys(curveG, curve, value => ConvertFloatMultiply(emissiveColor.y, value)); clips[i].SetCurve("", typeof(Material), "_EmissionColor.g", curveG); AnimationCurve curveB = new AnimationCurve(); ConvertAndCopyKeys(curveB, curve, value => ConvertFloatMultiply(emissiveColor.z, value)); clips[i].SetCurve("", typeof(Material), "_EmissionColor.b", curveB); } } } } } static bool IsAutodeskInteractiveMaterial(MaterialDescription description) { return description.TryGetProperty("renderAPI", out string stringValue) && stringValue == "SFX_PBS_SHADER"; } static void ConvertKeys(AnimationCurve curve, System.Func convertionDelegate) { Keyframe[] keyframes = curve.keys; for (int i = 0; i < keyframes.Length; i++) { keyframes[i].value = convertionDelegate(keyframes[i].value); } curve.keys = keyframes; } static void ConvertAndCopyKeys(AnimationCurve curveDest, AnimationCurve curveSource, System.Func convertionDelegate) { for (int i = 0; i < curveSource.keys.Length; i++) { var sourceKey = curveSource.keys[i]; curveDest.AddKey(new Keyframe(sourceKey.time, convertionDelegate(sourceKey.value), sourceKey.inTangent, sourceKey.outTangent, sourceKey.inWeight, sourceKey.outWeight)); } } static float ConvertFloatNegate(float value) { return -value; } static float ConvertFloatMultiply(float value, float multiplier) { return value * multiplier; } static void MultiplyCurves(AnimationCurve curve, AnimationCurve curveMultiplier) { Keyframe[] keyframes = curve.keys; for (int i = 0; i < keyframes.Length; i++) { keyframes[i].value *= curveMultiplier.Evaluate(keyframes[i].time); } curve.keys = keyframes; } static void RemapCurve(MaterialDescription description, AnimationClip[] clips, string originalPropertyName, string newPropertyName) { AnimationCurve curve; for (int i = 0; i < clips.Length; i++) { if (description.TryGetAnimationCurve(clips[i].name, originalPropertyName, out curve)) { clips[i].SetCurve("", typeof(Material), newPropertyName, curve); } } } static void RemapColorCurves(MaterialDescription description, AnimationClip[] clips, string originalPropertyName, string newPropertyName) { AnimationCurve curve; for (int i = 0; i < clips.Length; i++) { if (description.TryGetAnimationCurve(clips[i].name, originalPropertyName + ".x", out curve)) { clips[i].SetCurve("", typeof(Material), newPropertyName + ".r", curve); } if (description.TryGetAnimationCurve(clips[i].name, originalPropertyName + ".y", out curve)) { clips[i].SetCurve("", typeof(Material), newPropertyName + ".g", curve); } if (description.TryGetAnimationCurve(clips[i].name, originalPropertyName + ".z", out curve)) { clips[i].SetCurve("", typeof(Material), newPropertyName + ".b", curve); } } } } }