using System; using System.Collections.Generic; using System.Linq; using UnityEditor.Experimental.UIElements.GraphView; using UnityEditor.Graphing.Util; using UnityEngine; using UnityEditor.Graphing; using UnityEngine.Experimental.UIElements; using Edge = UnityEditor.Experimental.UIElements.GraphView.Edge; using Node = UnityEditor.Experimental.UIElements.GraphView.Node; using Object = UnityEngine.Object; #if !UNITY_2018_1 using UnityEditor.Graphs; #endif namespace UnityEditor.ShaderGraph.Drawing { public sealed class MaterialGraphView : GraphView { public MaterialGraphView() { AddStyleSheetPath("Styles/MaterialGraphView"); serializeGraphElements = SerializeGraphElementsImplementation; canPasteSerializedData = CanPasteSerializedDataImplementation; unserializeAndPaste = UnserializeAndPasteImplementation; deleteSelection = DeleteSelectionImplementation; RegisterCallback(OnDragUpdatedEvent); RegisterCallback(OnDragPerformEvent); } protected override bool canCopySelection { get { return selection.OfType().Any() || selection.OfType().Any() || selection.OfType().Any(); } } public MaterialGraphView(AbstractMaterialGraph graph) : this() { this.graph = graph; } public AbstractMaterialGraph graph { get; private set; } public Action onConvertToSubgraphClick { get; set; } public override List GetCompatiblePorts(Port startAnchor, NodeAdapter nodeAdapter) { var compatibleAnchors = new List(); var startSlot = startAnchor.GetSlot(); if (startSlot == null) return compatibleAnchors; var startStage = startSlot.stageCapability; if (startStage == ShaderStageCapability.All) startStage = NodeUtils.GetEffectiveShaderStageCapability(startSlot, true) & NodeUtils.GetEffectiveShaderStageCapability(startSlot, false); foreach (var candidateAnchor in ports.ToList()) { var candidateSlot = candidateAnchor.GetSlot(); if (!startSlot.IsCompatibleWith(candidateSlot)) continue; if (startStage != ShaderStageCapability.All) { var candidateStage = candidateSlot.stageCapability; if (candidateStage == ShaderStageCapability.All) candidateStage = NodeUtils.GetEffectiveShaderStageCapability(candidateSlot, true) & NodeUtils.GetEffectiveShaderStageCapability(candidateSlot, false); if (candidateStage != ShaderStageCapability.All && candidateStage != startStage) continue; } compatibleAnchors.Add(candidateAnchor); } return compatibleAnchors; } public override void BuildContextualMenu(ContextualMenuPopulateEvent evt) { base.BuildContextualMenu(evt); if (evt.target is GraphView || evt.target is Node) { evt.menu.AppendAction("Convert To Sub-graph", ConvertToSubgraph, ConvertToSubgraphStatus); evt.menu.AppendAction("Convert To Inline Node", ConvertToInlineNode, ConvertToInlineNodeStatus); evt.menu.AppendAction("Convert To Property", ConvertToProperty, ConvertToPropertyStatus); if (selection.OfType().Count() == 1) { evt.menu.AppendSeparator(); evt.menu.AppendAction("Open Documentation", SeeDocumentation, SeeDocumentationStatus); } if (selection.OfType().Count() == 1 && selection.OfType().First().node is SubGraphNode) { evt.menu.AppendSeparator(); evt.menu.AppendAction("Open Sub Graph", OpenSubGraph, ContextualMenu.MenuAction.StatusFlags.Normal); } } else if (evt.target is BlackboardField) { evt.menu.AppendAction("Delete", (e) => DeleteSelectionImplementation("Delete", AskUser.DontAskUser), (e) => canDeleteSelection ? ContextualMenu.MenuAction.StatusFlags.Normal : ContextualMenu.MenuAction.StatusFlags.Disabled); } if (evt.target is MaterialGraphView) { evt.menu.AppendAction("Collapse Previews", CollapsePreviews, ContextualMenu.MenuAction.StatusFlags.Normal); evt.menu.AppendAction("Expand Previews", ExpandPreviews, ContextualMenu.MenuAction.StatusFlags.Normal); evt.menu.AppendSeparator(); } } void CollapsePreviews() { graph.owner.RegisterCompleteObjectUndo("Collapse Previews"); foreach (AbstractMaterialNode node in graph.GetNodes()) { node.previewExpanded = false; } } void ExpandPreviews() { graph.owner.RegisterCompleteObjectUndo("Expand Previews"); foreach (AbstractMaterialNode node in graph.GetNodes()) { node.previewExpanded = true; } } void SeeDocumentation() { var node = selection.OfType().First().node; if (node.documentationURL != null) System.Diagnostics.Process.Start(node.documentationURL); } void OpenSubGraph() { SubGraphNode subgraphNode = selection.OfType().First().node as SubGraphNode; var path = AssetDatabase.GetAssetPath(subgraphNode.subGraphAsset); ShaderGraphImporterEditor.ShowGraphEditWindow(path); } ContextualMenu.MenuAction.StatusFlags SeeDocumentationStatus() { if (selection.OfType().First().node.documentationURL == null) return ContextualMenu.MenuAction.StatusFlags.Disabled; return ContextualMenu.MenuAction.StatusFlags.Normal; } ContextualMenu.MenuAction.StatusFlags ConvertToPropertyStatus() { if (selection.OfType().Any(v => v.node != null)) { if (selection.OfType().Any(v => v.node is IPropertyFromNode)) return ContextualMenu.MenuAction.StatusFlags.Normal; return ContextualMenu.MenuAction.StatusFlags.Disabled; } return ContextualMenu.MenuAction.StatusFlags.Hidden; } void ConvertToProperty() { var selectedNodeViews = selection.OfType().Select(x => x.node).ToList(); foreach (var node in selectedNodeViews) { if (!(node is IPropertyFromNode)) continue; var converter = node as IPropertyFromNode; var prop = converter.AsShaderProperty(); graph.AddShaderProperty(prop); var propNode = new PropertyNode(); propNode.drawState = node.drawState; graph.AddNode(propNode); propNode.propertyGuid = prop.guid; var oldSlot = node.FindSlot(converter.outputSlotId); var newSlot = propNode.FindSlot(PropertyNode.OutputSlotId); foreach (var edge in graph.GetEdges(oldSlot.slotReference)) graph.Connect(newSlot.slotReference, edge.inputSlot); graph.RemoveNode(node); } } ContextualMenu.MenuAction.StatusFlags ConvertToInlineNodeStatus() { if (selection.OfType().Any(v => v.node != null)) { if (selection.OfType().Any(v => v.node is PropertyNode)) return ContextualMenu.MenuAction.StatusFlags.Normal; return ContextualMenu.MenuAction.StatusFlags.Disabled; } return ContextualMenu.MenuAction.StatusFlags.Hidden; } void ConvertToInlineNode() { var selectedNodeViews = selection.OfType() .Select(x => x.node) .OfType(); foreach (var propNode in selectedNodeViews) ((AbstractMaterialGraph)propNode.owner).ReplacePropertyNodeWithConcreteNode(propNode); } ContextualMenu.MenuAction.StatusFlags ConvertToSubgraphStatus() { if (onConvertToSubgraphClick == null) return ContextualMenu.MenuAction.StatusFlags.Hidden; return selection.OfType().Any(v => v.node != null) ? ContextualMenu.MenuAction.StatusFlags.Normal : ContextualMenu.MenuAction.StatusFlags.Hidden; } void ConvertToSubgraph() { onConvertToSubgraphClick(); } string SerializeGraphElementsImplementation(IEnumerable elements) { var nodes = elements.OfType().Select(x => (INode)x.node); var edges = elements.OfType().Select(x => x.userData).OfType(); var properties = selection.OfType().Select(x => x.userData as IShaderProperty); // Collect the property nodes and get the corresponding properties var propertyNodeGuids = nodes.OfType().Select(x => x.propertyGuid); var metaProperties = this.graph.properties.Where(x => propertyNodeGuids.Contains(x.guid)); var graph = new CopyPasteGraph(this.graph.guid, nodes, edges, properties, metaProperties); return JsonUtility.ToJson(graph, true); } bool CanPasteSerializedDataImplementation(string serializedData) { return CopyPasteGraph.FromJson(serializedData) != null; } void UnserializeAndPasteImplementation(string operationName, string serializedData) { graph.owner.RegisterCompleteObjectUndo(operationName); var pastedGraph = CopyPasteGraph.FromJson(serializedData); this.InsertCopyPasteGraph(pastedGraph); } void DeleteSelectionImplementation(string operationName, GraphView.AskUser askUser) { foreach (var selectable in selection) { var field = selectable as BlackboardField; if (field != null && field.userData != null) { if (EditorUtility.DisplayDialog("Sub Graph Will Change", "If you remove a property and save the sub graph, you might change other graphs that are using this sub graph.\n\nDo you want to continue?", "Yes", "No")) break; return; } } graph.owner.RegisterCompleteObjectUndo(operationName); graph.RemoveElements(selection.OfType().Where(v => !(v.node is SubGraphOutputNode)).Select(x => (INode)x.node), selection.OfType().Select(x => x.userData).OfType()); foreach (var selectable in selection) { var field = selectable as BlackboardField; if (field != null && field.userData != null) { var property = (IShaderProperty)field.userData; graph.RemoveShaderProperty(property.guid); } } selection.Clear(); } #region Drag and drop static bool ValidateObjectForDrop(Object obj) { return EditorUtility.IsPersistent(obj) && (obj is Texture2D || obj is Cubemap || obj is MaterialSubGraphAsset || obj is Texture2DArray || obj is Texture3D); } static void OnDragUpdatedEvent(DragUpdatedEvent e) { var selection = DragAndDrop.GetGenericData("DragSelection") as List; bool dragging = false; if (selection != null) { // Blackboard if (selection.OfType().Any()) dragging = true; } else { // Handle unity objects var objects = DragAndDrop.objectReferences; foreach (Object obj in objects) { if (ValidateObjectForDrop(obj)) { dragging = true; break; } } } if (dragging) { DragAndDrop.visualMode = DragAndDropVisualMode.Generic; } } void OnDragPerformEvent(DragPerformEvent e) { Vector2 localPos = (e.currentTarget as VisualElement).ChangeCoordinatesTo(contentViewContainer, e.localMousePosition); var selection = DragAndDrop.GetGenericData("DragSelection") as List; if (selection != null) { // Blackboard if (selection.OfType().Any()) { IEnumerable fields = selection.OfType(); foreach (BlackboardField field in fields) { CreateNode(field, localPos); } } } else { // Handle unity objects var objects = DragAndDrop.objectReferences; foreach (Object obj in objects) { if (ValidateObjectForDrop(obj)) { CreateNode(obj, localPos); } } } } void CreateNode(object obj, Vector2 nodePosition) { var texture2D = obj as Texture2D; if (texture2D != null) { graph.owner.RegisterCompleteObjectUndo("Drag Texture"); bool isNormalMap = false; if (EditorUtility.IsPersistent(texture2D) && !string.IsNullOrEmpty(AssetDatabase.GetAssetPath(texture2D))) { var importer = AssetImporter.GetAtPath(AssetDatabase.GetAssetPath(texture2D)) as TextureImporter; if (importer != null) isNormalMap = importer.textureType == TextureImporterType.NormalMap; } var node = new SampleTexture2DNode(); if (isNormalMap) node.textureType = TextureType.Normal; var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; graph.AddNode(node); var inputslot = node.FindInputSlot(SampleTexture2DNode.TextureInputId); if (inputslot != null) inputslot.texture = texture2D; } var textureArray = obj as Texture2DArray; if (textureArray != null) { graph.owner.RegisterCompleteObjectUndo("Drag Texture Array"); var property = new Texture2DArrayShaderProperty { displayName = textureArray.name, value = { textureArray = textureArray } }; graph.AddShaderProperty(property); var node = new SampleTexture2DArrayNode(); var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; graph.AddNode(node); var inputslot = node.FindSlot(SampleTexture2DArrayNode.TextureInputId); if (inputslot != null) inputslot.textureArray = textureArray; } var texture3D = obj as Texture3D; if (texture3D != null) { graph.owner.RegisterCompleteObjectUndo("Drag Texture 3D"); var property = new Texture3DShaderProperty { displayName = texture3D.name, value = { texture = texture3D } }; graph.AddShaderProperty(property); var node = new SampleTexture3DNode(); var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; graph.AddNode(node); var inputslot = node.FindSlot(SampleTexture3DNode.TextureInputId); if (inputslot != null) inputslot.texture = texture3D; } var cubemap = obj as Cubemap; if (cubemap != null) { graph.owner.RegisterCompleteObjectUndo("Drag Cubemap"); var property = new CubemapShaderProperty { displayName = cubemap.name, value = { cubemap = cubemap } }; graph.AddShaderProperty(property); var node = new SampleCubemapNode(); var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; graph.AddNode(node); var inputslot = node.FindInputSlot(SampleCubemapNode.CubemapInputId); if (inputslot != null) inputslot.cubemap = cubemap; } var subGraphAsset = obj as MaterialSubGraphAsset; if (subGraphAsset != null) { graph.owner.RegisterCompleteObjectUndo("Drag Sub-Graph"); var node = new SubGraphNode(); var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; node.subGraphAsset = subGraphAsset; graph.AddNode(node); } var blackboardField = obj as BlackboardField; if (blackboardField != null) { IShaderProperty property = blackboardField.userData as IShaderProperty; if (property != null) { graph.owner.RegisterCompleteObjectUndo("Drag Property"); var node = new PropertyNode(); var drawState = node.drawState; drawState.position = new Rect(nodePosition, drawState.position.size); node.drawState = drawState; graph.AddNode(node); node.propertyGuid = property.guid; } } } #endregion } public static class GraphViewExtensions { internal static void InsertCopyPasteGraph(this MaterialGraphView graphView, CopyPasteGraph copyGraph) { if (copyGraph == null) return; // Make new properties from the copied graph foreach (IShaderProperty property in copyGraph.properties) { string propertyName = graphView.graph.SanitizePropertyName(property.displayName); IShaderProperty copiedProperty = property.Copy(); copiedProperty.displayName = propertyName; graphView.graph.AddShaderProperty(copiedProperty); // Update the property nodes that depends on the copied node var dependentPropertyNodes = copyGraph.GetNodes().Where(x => x.propertyGuid == property.guid); foreach (var node in dependentPropertyNodes) { node.owner = graphView.graph; node.propertyGuid = copiedProperty.guid; } } using (var remappedNodesDisposable = ListPool.GetDisposable()) { using (var remappedEdgesDisposable = ListPool.GetDisposable()) { var remappedNodes = remappedNodesDisposable.value; var remappedEdges = remappedEdgesDisposable.value; graphView.graph.PasteGraph(copyGraph, remappedNodes, remappedEdges); if (graphView.graph.guid != copyGraph.sourceGraphGuid) { // Compute the mean of the copied nodes. Vector2 centroid = Vector2.zero; var count = 1; foreach (var node in remappedNodes) { var position = node.drawState.position.position; centroid = centroid + (position - centroid) / count; ++count; } // Get the center of the current view var viewCenter = graphView.contentViewContainer.WorldToLocal(graphView.layout.center); foreach (var node in remappedNodes) { var drawState = node.drawState; var positionRect = drawState.position; var position = positionRect.position; position += viewCenter - centroid; positionRect.position = position; drawState.position = positionRect; node.drawState = drawState; } } // Add new elements to selection graphView.ClearSelection(); graphView.graphElements.ForEach(element => { var edge = element as Edge; if (edge != null && remappedEdges.Contains(edge.userData as IEdge)) graphView.AddToSelection(edge); var nodeView = element as MaterialNodeView; if (nodeView != null && remappedNodes.Contains(nodeView.node)) graphView.AddToSelection(nodeView); }); } } } } }