using System; using System.Collections.Generic; using System.Reflection; using RMGUI.GraphView; using UnityEngine; using UnityEngine.Graphing; using UnityEngine.MaterialGraph; using Object = UnityEngine.Object; namespace UnityEditor.MaterialGraph.Drawing { [Serializable] public class NodePreviewPresenter : GraphElementPresenter { protected NodePreviewPresenter() {} private MaterialGraphPreviewGenerator m_PreviewGenerator; [NonSerialized] private int m_LastShaderVersion = -1; [NonSerialized] private Material m_PreviewMaterial; [NonSerialized] private Shader m_PreviewShader; private AbstractMaterialNode m_Node; [NonSerialized] private ModificationScope m_modificationScope; // Null means no modification is currently in progress. public ModificationScope modificationScope { get { return m_modificationScope; } set { // External changes can only set the modification scope higher, to prevent missing out on a previously set shader regeneration. if (m_modificationScope >= value) return; m_modificationScope = value; } } [NonSerialized] private Texture m_texture; private PreviewMode m_GeneratedShaderMode = PreviewMode.Preview2D; public Material previewMaterial { get { if (m_PreviewMaterial == null) { m_PreviewMaterial = new Material(Shader.Find("Unlit/Color")) {hideFlags = HideFlags.HideInHierarchy}; m_PreviewMaterial.hideFlags = HideFlags.HideInHierarchy; } return m_PreviewMaterial; } } private MaterialGraphPreviewGenerator previewGenerator { get { if (m_PreviewGenerator == null) { m_PreviewGenerator = new MaterialGraphPreviewGenerator(); } return m_PreviewGenerator; } } public void Initialize(AbstractMaterialNode node) { m_Node = node; m_modificationScope = ModificationScope.Graph; } public Texture Render(Vector2 dimension) { if (m_Node == null) return null; if (m_Node.hasPreview == false) return null; if (m_modificationScope != ModificationScope.Nothing) { bool status = false; if (m_modificationScope >= ModificationScope.Graph) { previewGenerator.Reset(); // TODO: Handle shader regeneration error status = UpdatePreviewShader(); } m_texture = RenderPreview(dimension); m_modificationScope = ModificationScope.Nothing; } else if (m_texture == null) { m_texture = RenderPreview(dimension); } return m_texture; } protected virtual string GetPreviewShaderString() { // TODO: this is a workaround right now. if (m_Node is IMasterNode) { var localNode = (IMasterNode)m_Node; if (localNode == null) return string.Empty; List defaultTextures; var resultShader = ((IMasterNode) m_Node).GetFullShader(GenerationMode.Preview, out defaultTextures); m_GeneratedShaderMode = PreviewMode.Preview3D; return resultShader; } return ShaderGenerator.GeneratePreviewShader(m_Node, out m_GeneratedShaderMode); } private bool UpdatePreviewShader() { if (m_Node == null || m_Node.hasError) return false; var resultShader = GetPreviewShaderString(); Debug.Log("RecreateShaderAndMaterial : " + m_Node.GetVariableNameForNode() + Environment.NewLine + resultShader); if (string.IsNullOrEmpty(resultShader)) return false; // workaround for some internal shader compiler weirdness // if we are in error we sometimes to not properly clean // out the error flags and will stay in error, even // if we are now valid if (m_PreviewShader && MaterialGraphAsset.ShaderHasError(m_PreviewShader)) { Object.DestroyImmediate(m_PreviewShader, true); m_PreviewShader = null; } if (m_PreviewShader == null) { m_PreviewShader = ShaderUtil.CreateShaderAsset(resultShader); m_PreviewShader.hideFlags = HideFlags.HideAndDontSave; } else { ShaderUtil.UpdateShaderAsset(m_PreviewShader, resultShader); } return !MaterialGraphAsset.ShaderHasError(m_PreviewShader); } /// /// RenderPreview gets called in OnPreviewGUI. Nodes can override /// RenderPreview and do their own rendering to the render texture /// private Texture RenderPreview(Vector2 targetSize) { previewMaterial.shader = m_PreviewShader; UpdateMaterialProperties(m_Node, previewMaterial); return previewGenerator.DoRenderPreview(previewMaterial, m_GeneratedShaderMode, new Rect(0, 0, targetSize.x, targetSize.y)); } private static void SetPreviewMaterialProperty(PreviewProperty previewProperty, Material mat) { switch (previewProperty.m_PropType) { case PropertyType.Texture2D: mat.SetTexture(previewProperty.m_Name, previewProperty.m_Texture); break; case PropertyType.Cubemap: mat.SetTexture(previewProperty.m_Name, previewProperty.m_Cubemap); break; case PropertyType.Color: mat.SetColor(previewProperty.m_Name, previewProperty.m_Color); break; case PropertyType.Vector2: mat.SetVector(previewProperty.m_Name, previewProperty.m_Vector4); break; case PropertyType.Vector3: mat.SetVector(previewProperty.m_Name, previewProperty.m_Vector4); break; case PropertyType.Vector4: mat.SetVector(previewProperty.m_Name, previewProperty.m_Vector4); break; case PropertyType.Float: mat.SetFloat(previewProperty.m_Name, previewProperty.m_Float); break; } } public static void UpdateMaterialProperties(AbstractMaterialNode target, Material material) { var childNodes = ListPool.Get(); NodeUtils.DepthFirstCollectNodesFromNode(childNodes, target); var pList = ListPool.Get(); for (var index = 0; index < childNodes.Count; index++) { var node = childNodes[index] as AbstractMaterialNode; if (node == null) continue; node.CollectPreviewMaterialProperties(pList); } foreach (var prop in pList) SetPreviewMaterialProperty(prop, material); ListPool.Release(childNodes); ListPool.Release(pList); } } }