using System; namespace Unity.VisualScripting { [TypeIcon(typeof(FlowGraph))] [UnitCategory("Nesting")] public sealed class SuperUnit : NesterUnit, IGraphEventListener, IGraphElementWithData { public sealed class Data : IGraphElementData { public bool isListening; } public IGraphElementData CreateData() { return new Data(); } public SuperUnit() : base() { } public SuperUnit(ScriptGraphAsset macro) : base(macro) { } public static SuperUnit WithInputOutput() { var superUnit = new SuperUnit(); superUnit.nest.source = GraphSource.Embed; superUnit.nest.embed = FlowGraph.WithInputOutput(); return superUnit; } public static SuperUnit WithStartUpdate() { var superUnit = new SuperUnit(); superUnit.nest.source = GraphSource.Embed; superUnit.nest.embed = FlowGraph.WithStartUpdate(); return superUnit; } public override FlowGraph DefaultGraph() { return FlowGraph.WithInputOutput(); } protected override void Definition() { isControlRoot = true; // TODO: Infer relations instead // Using portDefinitions and type checks instead of specific definition collections // to avoid duplicates. Iterating only once for speed. foreach (var definition in nest.graph.validPortDefinitions) { if (definition is ControlInputDefinition) { var controlInputDefinition = (ControlInputDefinition)definition; var key = controlInputDefinition.key; ControlInput(key, (flow) => { foreach (var unit in nest.graph.units) { if (unit is GraphInput) { var inputUnit = (GraphInput)unit; flow.stack.EnterParentElement(this); return inputUnit.controlOutputs[key]; } } return null; }); } else if (definition is ValueInputDefinition) { var valueInputDefinition = (ValueInputDefinition)definition; var key = valueInputDefinition.key; var type = valueInputDefinition.type; var hasDefaultValue = valueInputDefinition.hasDefaultValue; var defaultValue = valueInputDefinition.defaultValue; var port = ValueInput(type, key); if (hasDefaultValue) { port.SetDefaultValue(defaultValue); } } else if (definition is ControlOutputDefinition) { var controlOutputDefinition = (ControlOutputDefinition)definition; var key = controlOutputDefinition.key; ControlOutput(key); } else if (definition is ValueOutputDefinition) { var valueOutputDefinition = (ValueOutputDefinition)definition; var key = valueOutputDefinition.key; var type = valueOutputDefinition.type; ValueOutput(type, key, (flow) => { flow.stack.EnterParentElement(this); // Manual looping to avoid LINQ allocation // Also removing check for multiple output units for speed // (The first output unit will be used without any error) foreach (var unit in nest.graph.units) { if (unit is GraphOutput) { var outputUnit = (GraphOutput)unit; var value = flow.GetValue(outputUnit.valueInputs[key]); flow.stack.ExitParentElement(); return value; } } flow.stack.ExitParentElement(); throw new InvalidOperationException("Missing output unit when to get value."); }); } } } public void StartListening(GraphStack stack) { if (stack.TryEnterParentElement(this)) { nest.graph.StartListening(stack); stack.ExitParentElement(); } stack.GetElementData(this).isListening = true; } public void StopListening(GraphStack stack) { stack.GetElementData(this).isListening = false; if (stack.TryEnterParentElement(this)) { nest.graph.StopListening(stack); stack.ExitParentElement(); } } public bool IsListening(GraphPointer pointer) { return pointer.GetElementData(this).isListening; } #region Editing public override void AfterAdd() { base.AfterAdd(); nest.beforeGraphChange += StopWatchingPortDefinitions; nest.afterGraphChange += StartWatchingPortDefinitions; StartWatchingPortDefinitions(); } public override void BeforeRemove() { base.BeforeRemove(); StopWatchingPortDefinitions(); nest.beforeGraphChange -= StopWatchingPortDefinitions; nest.afterGraphChange -= StartWatchingPortDefinitions; } private void StopWatchingPortDefinitions() { if (nest.graph != null) { nest.graph.onPortDefinitionsChanged -= Define; } } private void StartWatchingPortDefinitions() { if (nest.graph != null) { nest.graph.onPortDefinitionsChanged += Define; } } #endregion } }