using System; using System.Collections.Generic; using System.Linq; using UnityEngine.MaterialGraph; namespace UnityEngine.Graphing { public class SlotConfigurationException : Exception { public SlotConfigurationException(string message) : base(message) {} } public static class NodeUtils { public static void SlotConfigurationExceptionIfBadConfiguration(INode node, IEnumerable expectedInputSlots, IEnumerable expectedOutputSlots) { var missingSlots = new List(); var inputSlots = expectedInputSlots as IList ?? expectedInputSlots.ToList(); missingSlots.AddRange(inputSlots.Except(node.GetInputSlots().Select(x => x.id))); var outputSlots = expectedOutputSlots as IList ?? expectedOutputSlots.ToList(); missingSlots.AddRange(outputSlots.Except(node.GetOutputSlots().Select(x => x.id))); if (missingSlots.Count == 0) return; var toPrint = missingSlots.Select(x => x.ToString()); throw new SlotConfigurationException(string.Format("Missing slots {0} on node {1}", string.Join(", ", toPrint.ToArray()), node)); } public static IEnumerable GetAllEdges(INode node) { var result = new List(); var validSlots = ListPool.Get(); validSlots.AddRange(node.GetInputSlots()); for (int index = 0; index < validSlots.Count; index++) { var inputSlot = validSlots[index]; result.AddRange(node.owner.GetEdges(inputSlot.slotReference)); } validSlots.Clear(); validSlots.AddRange(node.GetOutputSlots()); for (int index = 0; index < validSlots.Count; index++) { var outputSlot = validSlots[index]; result.AddRange(node.owner.GetEdges(outputSlot.slotReference)); } ListPool.Release(validSlots); return result; } // CollectNodesNodeFeedsInto looks at the current node and calculates // which child nodes it depends on for it's calculation. // Results are returned depth first so by processing each node in // order you can generate a valid code block. public enum IncludeSelf { Include, Exclude } public static void DepthFirstCollectNodesFromNode(List nodeList, INode node, IncludeSelf includeSelf = IncludeSelf.Include, List slotIds = null) { // no where to start if (node == null) return; using (var stackDisposable = StackPool.GetDisposable()) using (var queueDisposable = QueuePool.GetDisposable()) { var stack = stackDisposable.value; var queue = queueDisposable.value; queue.Enqueue(node); while (queue.Any()) { var fromNode = queue.Dequeue(); // already added this node if (nodeList.Contains(fromNode)) continue; var remapper = fromNode as INodeGroupRemapper; if (remapper != null) { remapper.DepthFirstCollectNodesFromNodeSlotList(nodeList, includeSelf); continue; } foreach (var slot in fromNode.GetInputSlots()) { if (slotIds != null && !slotIds.Contains(slot.id)) continue; foreach (var edge in fromNode.owner.GetEdges(fromNode.GetSlotReference(slot.id))) { var outputNode = fromNode.owner.GetNodeFromGuid(edge.outputSlot.nodeGuid); queue.Enqueue(outputNode); stack.Push(outputNode); } } } while (stack.Any()) nodeList.Add(stack.Pop()); if (includeSelf == IncludeSelf.Include) nodeList.Add(node); } } public static void CollectNodesNodeFeedsInto(List nodeList, INode node, IncludeSelf includeSelf = IncludeSelf.Include) { if (node == null) return; if (nodeList.Contains(node)) return; foreach (var slot in node.GetOutputSlots()) { foreach (var edge in node.owner.GetEdges(slot.slotReference)) { var inputNode = node.owner.GetNodeFromGuid(edge.inputSlot.nodeGuid); CollectNodesNodeFeedsInto(nodeList, inputNode); } } if (includeSelf == IncludeSelf.Include) nodeList.Add(node); } public static ShaderStage FindEffectiveShaderStage(INode initialNode, bool goingBackwards) { var shaderStage = ShaderStage.Dynamic; var nodeStack = new Stack(); nodeStack.Push(initialNode); while (nodeStack.Any() && shaderStage == ShaderStage.Dynamic) { var node = nodeStack.Pop(); foreach (var slot in goingBackwards ? node.GetInputSlots() : node.GetOutputSlots()) { if (shaderStage != ShaderStage.Dynamic) break; if (slot.shaderStage == ShaderStage.Dynamic) { foreach (var edge in node.owner.GetEdges(slot.slotReference)) { var connectedNode = node.owner.GetNodeFromGuid(goingBackwards ? edge.outputSlot.nodeGuid : edge.inputSlot.nodeGuid); var connectedSlot = goingBackwards ? connectedNode.FindOutputSlot(edge.outputSlot.slotId) : connectedNode.FindInputSlot(edge.inputSlot.slotId); if (connectedSlot.shaderStage == ShaderStage.Dynamic) nodeStack.Push(connectedNode); else { shaderStage = connectedSlot.shaderStage; break; } } } else shaderStage = slot.shaderStage; } } return shaderStage; } } }