Esempio n. 1
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 public void LoadGraphData()
 {
     if (!String.IsNullOrEmpty(m_SerializedSubGraphData.JSONnodeData))
     {
         m_SubGraphData = new SubGraphData();
         MultiJson.Deserialize(m_SubGraphData, m_SerializedSubGraphData.JSONnodeData);
     }
 }
Esempio n. 2
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        public void WriteData(IEnumerable <AbstractShaderProperty> inputs, IEnumerable <ShaderKeyword> keywords, IEnumerable <ShaderDropdown> dropdowns, IEnumerable <AbstractShaderProperty> nodeProperties, IEnumerable <MaterialSlot> outputs, IEnumerable <Target> unsupportedTargets)
        {
            if (m_SubGraphData == null)
            {
                m_SubGraphData = new SubGraphData();
                m_SubGraphData.OverrideObjectId(assetGuid, "_subGraphData");
            }

            m_SubGraphData.inputs.Clear();
            m_SubGraphData.keywords.Clear();
            m_SubGraphData.dropdowns.Clear();
            m_SubGraphData.nodeProperties.Clear();
            m_SubGraphData.outputs.Clear();
            m_SubGraphData.unsupportedTargets.Clear();

            foreach (var input in inputs)
            {
                m_SubGraphData.inputs.Add(input);
            }

            foreach (var keyword in keywords)
            {
                m_SubGraphData.keywords.Add(keyword);
            }

            foreach (var dropdown in dropdowns)
            {
                m_SubGraphData.dropdowns.Add(dropdown);
            }

            foreach (var nodeProperty in nodeProperties)
            {
                m_SubGraphData.nodeProperties.Add(nodeProperty);
            }

            foreach (var output in outputs)
            {
                m_SubGraphData.outputs.Add(output);
            }

            foreach (var unsupportedTarget in unsupportedTargets)
            {
                m_SubGraphData.unsupportedTargets.Add(unsupportedTarget);
            }
            var json = MultiJson.Serialize(m_SubGraphData);

            m_SerializedSubGraphData = new SerializationHelper.JSONSerializedElement()
            {
                JSONnodeData = json
            };
            m_SubGraphData = null;
        }
Esempio n. 3
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        public void WriteData(IEnumerable <AbstractShaderProperty> inputs, IEnumerable <ShaderKeyword> keywords, IEnumerable <AbstractShaderProperty> nodeProperties, IEnumerable <MaterialSlot> outputs)
        {
            if (m_SubGraphData == null)
            {
                m_SubGraphData = new SubGraphData();
            }
            m_SubGraphData.inputs.Clear();
            m_SubGraphData.keywords.Clear();
            m_SubGraphData.nodeProperties.Clear();
            m_SubGraphData.outputs.Clear();

            foreach (var input in inputs)
            {
                m_SubGraphData.inputs.Add(input);
            }

            foreach (var keyword in keywords)
            {
                m_SubGraphData.keywords.Add(keyword);
            }

            foreach (var nodeProperty in nodeProperties)
            {
                m_SubGraphData.nodeProperties.Add(nodeProperty);
            }

            foreach (var output in outputs)
            {
                m_SubGraphData.outputs.Add(output);
            }
            var json = MultiJson.Serialize(m_SubGraphData);

            m_SerializedSubGraphData = new SerializationHelper.JSONSerializedElement()
            {
                JSONnodeData = json
            };
            m_SubGraphData = null;
        }
Esempio n. 4
0
        void LoadSubGraph()
        {
            if (m_SubGraph == null)
            {
                m_SubGraphData = null;

                if (string.IsNullOrEmpty(m_SerializedSubGraph))
                {
                    return;
                }

                var graphGuid = subGraphGuid;
                var assetPath = AssetDatabase.GUIDToAssetPath(graphGuid);
                m_SubGraph = AssetDatabase.LoadAssetAtPath <SubGraphAsset>(assetPath);
                if (m_SubGraph == null)
                {
                    return;
                }

                name = m_SubGraph.name;
                var index = SubGraphDatabase.instance.subGraphGuids.BinarySearch(graphGuid);
                m_SubGraphData = index < 0 ? null : SubGraphDatabase.instance.subGraphs[index];
            }
        }
Esempio n. 5
0
        static void ProcessSubGraph(Dictionary <string, SubGraphData> subGraphMap, FunctionRegistry registry, SubGraphData subGraphData, GraphData graph)
        {
            registry.names.Clear();
            subGraphData.functionNames.Clear();
            subGraphData.nodeProperties.Clear();
            subGraphData.isValid = true;

            graph.OnEnable();
            graph.messageManager.ClearAll();
            graph.ValidateGraph();

            var assetPath = AssetDatabase.GUIDToAssetPath(subGraphData.assetGuid);

            subGraphData.hlslName        = NodeUtils.GetHLSLSafeName(Path.GetFileNameWithoutExtension(assetPath));
            subGraphData.inputStructName = $"Bindings_{subGraphData.hlslName}_{subGraphData.assetGuid}";
            subGraphData.functionName    = $"SG_{subGraphData.hlslName}_{subGraphData.assetGuid}";
            subGraphData.path            = graph.path;

            var outputNode = (SubGraphOutputNode)graph.outputNode;

            subGraphData.outputs.Clear();
            outputNode.GetInputSlots(subGraphData.outputs);

            List <AbstractMaterialNode> nodes = new List <AbstractMaterialNode>();

            NodeUtils.DepthFirstCollectNodesFromNode(nodes, outputNode);

            subGraphData.effectiveShaderStage = ShaderStageCapability.All;
            foreach (var slot in subGraphData.outputs)
            {
                var stage = NodeUtils.GetEffectiveShaderStageCapability(slot, true);
                if (stage != ShaderStageCapability.All)
                {
                    subGraphData.effectiveShaderStage = stage;
                    break;
                }
            }

            subGraphData.requirements = ShaderGraphRequirements.FromNodes(nodes, subGraphData.effectiveShaderStage, false);
            subGraphData.inputs       = graph.properties.ToList();

            foreach (var node in nodes)
            {
                if (node.hasError)
                {
                    subGraphData.isValid = false;
                    registry.ProvideFunction(subGraphData.functionName, sb => { });
                    return;
                }
            }

            foreach (var node in nodes)
            {
                if (node is SubGraphNode subGraphNode)
                {
                    var nestedData = subGraphMap[subGraphNode.subGraphGuid];

                    foreach (var functionName in nestedData.functionNames)
                    {
                        registry.names.Add(functionName);
                    }
                }
                else if (node is IGeneratesFunction generatesFunction)
                {
                    generatesFunction.GenerateNodeFunction(registry, new GraphContext(subGraphData.inputStructName), GenerationMode.ForReals);
                }
            }

            registry.ProvideFunction(subGraphData.functionName, sb =>
            {
                var graphContext = new GraphContext(subGraphData.inputStructName);

                GraphUtil.GenerateSurfaceInputStruct(sb, subGraphData.requirements, subGraphData.inputStructName);
                sb.AppendNewLine();

                // Generate arguments... first INPUTS
                var arguments = new List <string>();
                foreach (var prop in subGraphData.inputs)
                {
                    arguments.Add(string.Format("{0}", prop.GetPropertyAsArgumentString()));
                }

                // now pass surface inputs
                arguments.Add(string.Format("{0} IN", subGraphData.inputStructName));

                // Now generate outputs
                foreach (var output in subGraphData.outputs)
                {
                    arguments.Add($"out {output.concreteValueType.ToString(outputNode.precision)} {output.shaderOutputName}_{output.id}");
                }

                // Create the function prototype from the arguments
                sb.AppendLine("void {0}({1})"
                              , subGraphData.functionName
                              , arguments.Aggregate((current, next) => $"{current}, {next}"));

                // now generate the function
                using (sb.BlockScope())
                {
                    // Just grab the body from the active nodes
                    var bodyGenerator = new ShaderGenerator();
                    foreach (var node in nodes)
                    {
                        if (node is IGeneratesBodyCode)
                        {
                            (node as IGeneratesBodyCode).GenerateNodeCode(bodyGenerator, graphContext, GenerationMode.ForReals);
                        }
                    }

                    foreach (var slot in subGraphData.outputs)
                    {
                        bodyGenerator.AddShaderChunk($"{slot.shaderOutputName}_{slot.id} = {outputNode.GetSlotValue(slot.id, GenerationMode.ForReals)};");
                    }

                    sb.Append(bodyGenerator.GetShaderString(1));
                }
            });

            subGraphData.functionNames.AddRange(registry.names.Distinct());

            var collector = new PropertyCollector();

            subGraphData.nodeProperties = collector.properties;
            foreach (var node in nodes)
            {
                node.CollectShaderProperties(collector, GenerationMode.ForReals);
            }

            subGraphData.OnBeforeSerialize();
        }
Esempio n. 6
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        public override void OnImportAsset(AssetImportContext ctx)
        {
            var currentTime = DateTime.Now.Ticks;

            if (ctx.assetPath != path)
            {
                ctx.LogImportError("The sgpostsubgraph extension may only be used internally by Shader Graph.");
                return;
            }

            if (SubGraphDatabase.instance == null)
            {
                SubGraphDatabase.instance = ScriptableObject.CreateInstance <SubGraphDatabase>();
            }
            var database = SubGraphDatabase.instance;

            var allSubGraphGuids = AssetDatabase.FindAssets($"t:{nameof(SubGraphAsset)}").ToList();

            allSubGraphGuids.Sort();
            var subGraphMap  = new Dictionary <string, SubGraphData>();
            var graphDataMap = new Dictionary <string, GraphData>();

            foreach (var subGraphData in database.subGraphs)
            {
                if (allSubGraphGuids.BinarySearch(subGraphData.assetGuid) >= 0)
                {
                    subGraphMap.Add(subGraphData.assetGuid, subGraphData);
                }
            }

            var dirtySubGraphGuids = new List <string>();

            foreach (var subGraphGuid in allSubGraphGuids)
            {
                var subGraphAsset = AssetDatabase.LoadAssetAtPath <SubGraphAsset>(AssetDatabase.GUIDToAssetPath(subGraphGuid));
                if (!subGraphMap.TryGetValue(subGraphGuid, out var subGraphData))
                {
                    subGraphData = new SubGraphData();
                }

                if (subGraphAsset.importedAt > subGraphData.processedAt)
                {
                    dirtySubGraphGuids.Add(subGraphGuid);
                    subGraphData.Reset();
                    subGraphData.processedAt = currentTime;
                    var subGraphPath = AssetDatabase.GUIDToAssetPath(subGraphGuid);
                    var textGraph    = File.ReadAllText(subGraphPath, Encoding.UTF8);
                    var graphData    = new GraphData {
                        isSubGraph = true, assetGuid = subGraphGuid
                    };
                    JsonUtility.FromJsonOverwrite(textGraph, graphData);
                    subGraphData.children.AddRange(graphData.GetNodes <SubGraphNode>().Select(x => x.subGraphGuid).Distinct());
                    subGraphData.assetGuid     = subGraphGuid;
                    subGraphMap[subGraphGuid]  = subGraphData;
                    graphDataMap[subGraphGuid] = graphData;
                }
                else
                {
                    subGraphData.ancestors.Clear();
                    subGraphData.descendents.Clear();
                    subGraphData.isRecursive = false;
                }
            }

            database.subGraphs.Clear();
            database.subGraphs.AddRange(subGraphMap.Values);
            database.subGraphs.Sort((s1, s2) => s1.assetGuid.CompareTo(s2.assetGuid));
            database.subGraphGuids.Clear();
            database.subGraphGuids.AddRange(database.subGraphs.Select(x => x.assetGuid));

            var permanentMarks = new HashSet <string>();
            var stack          = new Stack <string>(allSubGraphGuids.Count);

            // Detect recursion, and populate `ancestors` and `descendents` per sub graph.
            foreach (var rootSubGraphData in database.subGraphs)
            {
                var rootSubGraphGuid = rootSubGraphData.assetGuid;
                stack.Push(rootSubGraphGuid);
                while (stack.Count > 0)
                {
                    var subGraphGuid = stack.Pop();
                    if (!permanentMarks.Add(subGraphGuid))
                    {
                        continue;
                    }

                    var subGraphData = subGraphMap[subGraphGuid];
                    if (subGraphData != rootSubGraphData)
                    {
                        subGraphData.ancestors.Add(rootSubGraphGuid);
                        rootSubGraphData.descendents.Add(subGraphGuid);
                    }
                    foreach (var childSubGraphGuid in subGraphData.children)
                    {
                        if (childSubGraphGuid == rootSubGraphGuid)
                        {
                            rootSubGraphData.isRecursive = true;
                        }
                        else if (subGraphMap.ContainsKey(childSubGraphGuid))
                        {
                            stack.Push(childSubGraphGuid);
                        }
                    }
                }
                permanentMarks.Clear();
            }

            // Next up we build a list of sub graphs to be processed, which will later be sorted topologically.
            var sortedSubGraphs = new List <SubGraphData>();

            foreach (var subGraphGuid in dirtySubGraphGuids)
            {
                var subGraphData = subGraphMap[subGraphGuid];
                if (permanentMarks.Add(subGraphGuid))
                {
                    sortedSubGraphs.Add(subGraphData);
                }

                // Note that we're traversing up the graph via ancestors rather than descendents, because all Sub Graphs using the current sub graph needs to be re-processed.
                foreach (var ancestorGuid in subGraphData.ancestors)
                {
                    if (permanentMarks.Add(ancestorGuid))
                    {
                        var ancestorSubGraphData = subGraphMap[ancestorGuid];
                        sortedSubGraphs.Add(ancestorSubGraphData);
                    }
                }
            }
            permanentMarks.Clear();

            // Sort topologically. At this stage we can assume there are no loops because all recursive sub graphs have been filtered out.
            sortedSubGraphs.Sort((s1, s2) => s1.descendents.Contains(s2.assetGuid) ? 1 : s2.descendents.Contains(s1.assetGuid) ? -1 : 0);

            // Finally process the topologically sorted sub graphs without recursion.
            var registry       = new FunctionRegistry(new ShaderStringBuilder(), true);
            var messageManager = new MessageManager();

            foreach (var subGraphData in sortedSubGraphs)
            {
                try
                {
                    var subGraphPath = AssetDatabase.GUIDToAssetPath(subGraphData.assetGuid);
                    if (!graphDataMap.TryGetValue(subGraphData.assetGuid, out var graphData))
                    {
                        var textGraph = File.ReadAllText(subGraphPath, Encoding.UTF8);
                        graphData = new GraphData {
                            isSubGraph = true, assetGuid = subGraphData.assetGuid
                        };
                        JsonUtility.FromJsonOverwrite(textGraph, graphData);
                    }

                    graphData.messageManager = messageManager;
                    ProcessSubGraph(subGraphMap, registry, subGraphData, graphData);
                    if (messageManager.nodeMessagesChanged)
                    {
                        var subGraphAsset = AssetDatabase.LoadAssetAtPath <SubGraphAsset>(AssetDatabase.GUIDToAssetPath(subGraphData.assetGuid));
                        foreach (var pair in messageManager.GetNodeMessages())
                        {
                            var node = graphData.GetNodeFromTempId(pair.Key);
                            foreach (var message in pair.Value)
                            {
                                MessageManager.Log(node, subGraphPath, message, subGraphAsset);
                            }
                        }
                    }
                }
                catch (Exception e)
                {
                    subGraphData.isValid = false;
                    var subGraphAsset = AssetDatabase.LoadAssetAtPath <SubGraphAsset>(AssetDatabase.GUIDToAssetPath(subGraphData.assetGuid));
                    Debug.LogException(e, subGraphAsset);
                }
                finally
                {
                    subGraphData.processedAt = currentTime;
                    messageManager.ClearAll();
                }
            }

            // Carry over functions used by sub-graphs that were not re-processed in this import.
            foreach (var subGraphData in database.subGraphs)
            {
                foreach (var functionName in subGraphData.functionNames)
                {
                    if (!registry.sources.ContainsKey(functionName))
                    {
                        registry.sources.Add(functionName, database.functionSources[database.functionNames.BinarySearch(functionName)]);
                    }
                }
            }

            var functions = registry.sources.ToList();

            functions.Sort((p1, p2) => p1.Key.CompareTo(p2.Key));
            database.functionNames.Clear();
            database.functionSources.Clear();
            foreach (var pair in functions)
            {
                database.functionNames.Add(pair.Key);
                database.functionSources.Add(pair.Value);
            }

            ctx.AddObjectToAsset("MainAsset", database);
            ctx.SetMainObject(database);

            SubGraphDatabase.instance = null;
        }