playtest-unity/playtest/Library/PackageCache/com.unity.visualscripting@1.../Runtime/VisualScripting.Flow/Flow.cs

using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using UnityEngine;

namespace Unity.VisualScripting
{
    public sealed class Flow : IPoolable, IDisposable
    {
        // We need to check for recursion by passing some additional
        // context information to avoid the same port in multiple different
        // nested flow graphs to count as the same item. Naively,
        // we're using the parent as the context, which seems to work;
        // it won't theoretically catch recursive nesting, but then recursive
        // nesting already isn't supported anyway, so this way we avoid hashing
        // or turning the stack into a reference.
        // https://support.ludiq.io/communities/5/topics/2122-r
        // We make this an equatable struct to avoid any allocation.
        private struct RecursionNode : IEquatable<RecursionNode>
        {
            public IUnitPort port { get; }

            public IGraphParent context { get; }

            public RecursionNode(IUnitPort port, GraphPointer pointer)
            {
                this.port = port;
                this.context = pointer.parent;
            }

            public bool Equals(RecursionNode other)
            {
                return other.port == port && other.context == context;
            }

            public override bool Equals(object obj)
            {
                return obj is RecursionNode other && Equals(other);
            }

            public override int GetHashCode()
            {
                return HashUtility.GetHashCode(port, context);
            }
        }

        public GraphStack stack { get; private set; }

        private Recursion<RecursionNode> recursion;

        private readonly Dictionary<IUnitValuePort, object> locals = new Dictionary<IUnitValuePort, object>();

        public readonly VariableDeclarations variables = new VariableDeclarations();

        private readonly Stack<int> loops = new Stack<int>();

        private readonly HashSet<GraphStack> preservedStacks = new HashSet<GraphStack>();

        public MonoBehaviour coroutineRunner { get; private set; }

        private ICollection<Flow> activeCoroutinesRegistry;

        private bool coroutineStopRequested;

        public bool isCoroutine { get; private set; }

        private IEnumerator coroutineEnumerator;

        public bool isPrediction { get; private set; }

        private bool disposed;

        public bool enableDebug
        {
            get
            {
                if (isPrediction)
                {
                    return false;
                }

                if (!stack.hasDebugData)
                {
                    return false;
                }

                return true;
            }
        }

        public static Func<GraphPointer, bool> isInspectedBinding { get; set; }

        public bool isInspected => isInspectedBinding?.Invoke(stack) ?? false;


        #region Lifecycle

        private Flow() { }

        public static Flow New(GraphReference reference)
        {
            Ensure.That(nameof(reference)).IsNotNull(reference);

            var flow = GenericPool<Flow>.New(() => new Flow()); ;
            flow.stack = reference.ToStackPooled();

            return flow;
        }

        void IPoolable.New()
        {
            disposed = false;

            recursion = Recursion<RecursionNode>.New();
        }

        public void Dispose()
        {
            if (disposed)
            {
                throw new ObjectDisposedException(ToString());
            }

            GenericPool<Flow>.Free(this);
        }

        void IPoolable.Free()
        {
            stack?.Dispose();
            recursion?.Dispose();
            locals.Clear();
            loops.Clear();
            variables.Clear();

            // Preserved stacks could remain if coroutine was interrupted
            foreach (var preservedStack in preservedStacks)
            {
                preservedStack.Dispose();
            }

            preservedStacks.Clear();

            loopIdentifier = -1;
            stack = null;
            recursion = null;
            isCoroutine = false;
            coroutineEnumerator = null;
            coroutineRunner = null;
            activeCoroutinesRegistry?.Remove(this);
            activeCoroutinesRegistry = null;
            coroutineStopRequested = false;
            isPrediction = false;

            disposed = true;
        }

        public GraphStack PreserveStack()
        {
            var preservedStack = stack.Clone();
            preservedStacks.Add(preservedStack);
            return preservedStack;
        }

        public void RestoreStack(GraphStack stack)
        {
            this.stack.CopyFrom(stack);
        }

        public void DisposePreservedStack(GraphStack stack)
        {
            stack.Dispose();
            preservedStacks.Remove(stack);
        }

        #endregion


        #region Loops

        public int loopIdentifier = -1;

        public int currentLoop
        {
            get
            {
                if (loops.Count > 0)
                {
                    return loops.Peek();
                }
                else
                {
                    return -1;
                }
            }
        }

        public bool LoopIsNotBroken(int loop)
        {
            return currentLoop == loop;
        }

        public int EnterLoop()
        {
            var loop = ++loopIdentifier;

            loops.Push(loop);

            return loop;
        }

        public void BreakLoop()
        {
            if (currentLoop < 0)
            {
                throw new InvalidOperationException("No active loop to break.");
            }

            loops.Pop();
        }

        public void ExitLoop(int loop)
        {
            if (loop != currentLoop)
            {
                // Already exited through break
                return;
            }

            loops.Pop();
        }

        #endregion


        #region Control

        public void Run(ControlOutput port)
        {
            Invoke(port);
            Dispose();
        }

        public void StartCoroutine(ControlOutput port, ICollection<Flow> registry = null)
        {
            isCoroutine = true;

            coroutineRunner = stack.component;

            if (coroutineRunner == null)
            {
                coroutineRunner = CoroutineRunner.instance;
            }

            activeCoroutinesRegistry = registry;

            activeCoroutinesRegistry?.Add(this);

            // We have to store the enumerator because Coroutine itself
            // can't be cast to IDisposable, which we'll need when stopping.
            coroutineEnumerator = Coroutine(port);

            coroutineRunner.StartCoroutine(coroutineEnumerator);
        }

        public void StopCoroutine(bool disposeInstantly)
        {
            if (!isCoroutine)
            {
                throw new NotSupportedException("Stop may only be called on coroutines.");
            }

            if (disposeInstantly)
            {
                StopCoroutineImmediate();
            }
            else
            {
                // We prefer a soft coroutine stop here that will happen at the *next frame*,
                // because we don't want the flow to be disposed just yet when the event node stops
                // listening, as we still need it for clean up operations.
                coroutineStopRequested = true;
            }
        }

        internal void StopCoroutineImmediate()
        {
            if (coroutineRunner && coroutineEnumerator != null)
            {
                coroutineRunner.StopCoroutine(coroutineEnumerator);

                // Unity doesn't dispose coroutines enumerators when calling StopCoroutine, so we have to do it manually:
                // https://forum.unity.com/threads/finally-block-not-executing-in-a-stopped-coroutine.320611/
                ((IDisposable)coroutineEnumerator).Dispose();
            }
        }

        private IEnumerator Coroutine(ControlOutput startPort)
        {
            try
            {
                foreach (var instruction in InvokeCoroutine(startPort))
                {
                    if (coroutineStopRequested)
                    {
                        yield break;
                    }

                    yield return instruction;

                    if (coroutineStopRequested)
                    {
                        yield break;
                    }
                }
            }
            finally
            {
                // Manual disposal might have already occurred from StopCoroutine,
                // so we have to avoid double disposal, which would throw.
                if (!disposed)
                {
                    Dispose();
                }
            }
        }

        public void Invoke(ControlOutput output)
        {
            Ensure.That(nameof(output)).IsNotNull(output);

            var connection = output.connection;

            if (connection == null)
            {
                return;
            }

            var input = connection.destination;

            var recursionNode = new RecursionNode(output, stack);

            BeforeInvoke(output, recursionNode);

            try
            {
                var nextPort = InvokeDelegate(input);

                if (nextPort != null)
                {
                    Invoke(nextPort);
                }
            }
            finally
            {
                AfterInvoke(output, recursionNode);
            }
        }

        private IEnumerable InvokeCoroutine(ControlOutput output)
        {
            var connection = output.connection;

            if (connection == null)
            {
                yield break;
            }

            var input = connection.destination;

            var recursionNode = new RecursionNode(output, stack);

            BeforeInvoke(output, recursionNode);

            if (input.supportsCoroutine)
            {
                foreach (var instruction in InvokeCoroutineDelegate(input))
                {
                    if (instruction is ControlOutput)
                    {
                        foreach (var unwrappedInstruction in InvokeCoroutine((ControlOutput)instruction))
                        {
                            yield return unwrappedInstruction;
                        }
                    }
                    else
                    {
                        yield return instruction;
                    }
                }
            }
            else
            {
                ControlOutput nextPort = InvokeDelegate(input);

                if (nextPort != null)
                {
                    foreach (var instruction in InvokeCoroutine(nextPort))
                    {
                        yield return instruction;
                    }
                }
            }

            AfterInvoke(output, recursionNode);
        }

        private RecursionNode BeforeInvoke(ControlOutput output, RecursionNode recursionNode)
        {
            try
            {
                recursion?.Enter(recursionNode);
            }
            catch (StackOverflowException ex)
            {
                output.unit.HandleException(stack, ex);
                throw;
            }

            var connection = output.connection;
            var input = connection.destination;

            if (enableDebug)
            {
                var connectionEditorData = stack.GetElementDebugData<IUnitConnectionDebugData>(connection);
                var inputUnitEditorData = stack.GetElementDebugData<IUnitDebugData>(input.unit);

                connectionEditorData.lastInvokeFrame = EditorTimeBinding.frame;
                connectionEditorData.lastInvokeTime = EditorTimeBinding.time;
                inputUnitEditorData.lastInvokeFrame = EditorTimeBinding.frame;
                inputUnitEditorData.lastInvokeTime = EditorTimeBinding.time;
            }

            return recursionNode;
        }

        private void AfterInvoke(ControlOutput output, RecursionNode recursionNode)
        {
            recursion?.Exit(recursionNode);
        }

        private ControlOutput InvokeDelegate(ControlInput input)
        {
            try
            {
                if (input.requiresCoroutine)
                {
                    throw new InvalidOperationException($"Port '{input.key}' on '{input.unit}' can only be triggered in a coroutine.");
                }

                return input.action(this);
            }
            catch (Exception ex)
            {
                input.unit.HandleException(stack, ex);
                throw;
            }
        }

        private IEnumerable InvokeCoroutineDelegate(ControlInput input)
        {
            var instructions = input.coroutineAction(this);

            while (true)
            {
                object instruction;

                try
                {
                    if (!instructions.MoveNext())
                    {
                        break;
                    }

                    instruction = instructions.Current;
                }
                catch (Exception ex)
                {
                    input.unit.HandleException(stack, ex);
                    throw;
                }

                yield return instruction;
            }
        }

        #endregion


        #region Values

        public bool IsLocal(IUnitValuePort port)
        {
            Ensure.That(nameof(port)).IsNotNull(port);

            return locals.ContainsKey(port);
        }

        public void SetValue(IUnitValuePort port, object value)
        {
            Ensure.That(nameof(port)).IsNotNull(port);
            Ensure.That(nameof(value)).IsOfType(value, port.type);

            if (locals.ContainsKey(port))
            {
                locals[port] = value;
            }
            else
            {
                locals.Add(port, value);
            }
        }

        public object GetValue(ValueInput input)
        {
            if (locals.TryGetValue(input, out var local))
            {
                return local;
            }

            var connection = input.connection;

            if (connection != null)
            {
                if (enableDebug)
                {
                    var connectionEditorData = stack.GetElementDebugData<IUnitConnectionDebugData>(connection);

                    connectionEditorData.lastInvokeFrame = EditorTimeBinding.frame;
                    connectionEditorData.lastInvokeTime = EditorTimeBinding.time;
                }

                var output = connection.source;

                var value = GetValue(output);

                if (enableDebug)
                {
                    var connectionEditorData = stack.GetElementDebugData<ValueConnection.DebugData>(connection);

                    connectionEditorData.lastValue = value;
                    connectionEditorData.assignedLastValue = true;
                }

                return value;
            }
            else if (TryGetDefaultValue(input, out var defaultValue))
            {
                return defaultValue;
            }
            else
            {
                throw new MissingValuePortInputException(input.key);
            }
        }

        private object GetValue(ValueOutput output)
        {
            if (locals.TryGetValue(output, out var local))
            {
                return local;
            }

            if (!output.supportsFetch)
            {
                throw new InvalidOperationException($"The value of '{output.key}' on '{output.unit}' cannot be fetched dynamically, it must be assigned.");
            }

            var recursionNode = new RecursionNode(output, stack);

            try
            {
                recursion?.Enter(recursionNode);
            }
            catch (StackOverflowException ex)
            {
                output.unit.HandleException(stack, ex);
                throw;
            }

            try
            {
                if (enableDebug)
                {
                    var outputUnitEditorData = stack.GetElementDebugData<IUnitDebugData>(output.unit);

                    outputUnitEditorData.lastInvokeFrame = EditorTimeBinding.frame;
                    outputUnitEditorData.lastInvokeTime = EditorTimeBinding.time;
                }

                var value = GetValueDelegate(output);

                return value;
            }
            finally
            {
                recursion?.Exit(recursionNode);
            }
        }

        public object GetValue(ValueInput input, Type type)
        {
            return ConversionUtility.Convert(GetValue(input), type);
        }

        public T GetValue<T>(ValueInput input)
        {
            return (T)GetValue(input, typeof(T));
        }

        public object GetConvertedValue(ValueInput input)
        {
            return GetValue(input, input.type);
        }

        private object GetDefaultValue(ValueInput input)
        {
            if (!TryGetDefaultValue(input, out var defaultValue))
            {
                throw new InvalidOperationException("Value input port does not have a default value.");
            }

            return defaultValue;
        }

        public bool TryGetDefaultValue(ValueInput input, out object defaultValue)
        {
            if (!input.unit.defaultValues.TryGetValue(input.key, out defaultValue))
            {
                return false;
            }

            if (input.nullMeansSelf && defaultValue == null)
            {
                defaultValue = stack.self;
            }

            return true;
        }

        private object GetValueDelegate(ValueOutput output)
        {
            try
            {
                return output.getValue(this);
            }
            catch (Exception ex)
            {
                output.unit.HandleException(stack, ex);
                throw;
            }
        }

        public static object FetchValue(ValueInput input, GraphReference reference)
        {
            var flow = New(reference);

            var result = flow.GetValue(input);

            flow.Dispose();

            return result;
        }

        public static object FetchValue(ValueInput input, Type type, GraphReference reference)
        {
            return ConversionUtility.Convert(FetchValue(input, reference), type);
        }

        public static T FetchValue<T>(ValueInput input, GraphReference reference)
        {
            return (T)FetchValue(input, typeof(T), reference);
        }

        #endregion


        #region Value Prediction

        public static bool CanPredict(IUnitValuePort port, GraphReference reference)
        {
            Ensure.That(nameof(port)).IsNotNull(port);

            var flow = New(reference);

            flow.isPrediction = true;

            bool canPredict;

            if (port is ValueInput)
            {
                canPredict = flow.CanPredict((ValueInput)port);
            }
            else if (port is ValueOutput)
            {
                canPredict = flow.CanPredict((ValueOutput)port);
            }
            else
            {
                throw new NotSupportedException();
            }

            flow.Dispose();

            return canPredict;
        }

        private bool CanPredict(ValueInput input)
        {
            if (!input.hasValidConnection)
            {
                if (!TryGetDefaultValue(input, out var defaultValue))
                {
                    return false;
                }

                if (typeof(Component).IsAssignableFrom(input.type))
                {
                    defaultValue = defaultValue?.ConvertTo(input.type);
                }

                if (!input.allowsNull && defaultValue == null)
                {
                    return false;
                }

                return true;
            }

            var output = input.validConnectedPorts.Single();

            if (!CanPredict(output))
            {
                return false;
            }

            var connectedValue = GetValue(output);

            if (!ConversionUtility.CanConvert(connectedValue, input.type, false))
            {
                return false;
            }

            if (typeof(Component).IsAssignableFrom(input.type))
            {
                connectedValue = connectedValue?.ConvertTo(input.type);
            }

            if (!input.allowsNull && connectedValue == null)
            {
                return false;
            }

            return true;
        }

        private bool CanPredict(ValueOutput output)
        {
            // Shortcircuit the expensive check if the port isn't marked as predictable
            if (!output.supportsPrediction)
            {
                return false;
            }

            var recursionNode = new RecursionNode(output, stack);

            if (!recursion?.TryEnter(recursionNode) ?? false)
            {
                return false;
            }

            // Check each value dependency
            foreach (var relation in output.unit.relations.WithDestination(output))
            {
                if (relation.source is ValueInput)
                {
                    var source = (ValueInput)relation.source;

                    if (!CanPredict(source))
                    {
                        recursion?.Exit(recursionNode);
                        return false;
                    }
                }
            }

            var value = CanPredictDelegate(output);

            recursion?.Exit(recursionNode);

            return value;
        }

        private bool CanPredictDelegate(ValueOutput output)
        {
            try
            {
                return output.canPredictValue(this);
            }
            catch (Exception ex)
            {
                Debug.LogWarning($"Prediction check failed for '{output.key}' on '{output.unit}':\n{ex}");

                return false;
            }
        }

        public static object Predict(IUnitValuePort port, GraphReference reference)
        {
            Ensure.That(nameof(port)).IsNotNull(port);

            var flow = New(reference);

            flow.isPrediction = true;

            object value;

            if (port is ValueInput)
            {
                value = flow.GetValue((ValueInput)port);
            }
            else if (port is ValueOutput)
            {
                value = flow.GetValue((ValueOutput)port);
            }
            else
            {
                throw new NotSupportedException();
            }

            flow.Dispose();

            return value;
        }

        public static object Predict(IUnitValuePort port, GraphReference reference, Type type)
        {
            return ConversionUtility.Convert(Predict(port, reference), type);
        }

        public static T Predict<T>(IUnitValuePort port, GraphReference pointer)
        {
            return (T)Predict(port, pointer, typeof(T));
        }

        #endregion
    }
}
Start 2023-06-19 23:21:21 -04:00			`using System;`
			`using System.Collections;`
			`using System.Collections.Generic;`
			`using System.Linq;`
			`using UnityEngine;`

			`namespace Unity.VisualScripting`
			`{`
			`public sealed class Flow : IPoolable, IDisposable`
			`{`
			`// We need to check for recursion by passing some additional`
			`// context information to avoid the same port in multiple different`
			`// nested flow graphs to count as the same item. Naively,`
			`// we're using the parent as the context, which seems to work;`
			`// it won't theoretically catch recursive nesting, but then recursive`
			`// nesting already isn't supported anyway, so this way we avoid hashing`
			`// or turning the stack into a reference.`
			`// https://support.ludiq.io/communities/5/topics/2122-r`
			`// We make this an equatable struct to avoid any allocation.`
			`private struct RecursionNode : IEquatable<RecursionNode>`
			`{`
			`public IUnitPort port { get; }`

			`public IGraphParent context { get; }`

			`public RecursionNode(IUnitPort port, GraphPointer pointer)`
			`{`
			`this.port = port;`
			`this.context = pointer.parent;`
			`}`

			`public bool Equals(RecursionNode other)`
			`{`
			`return other.port == port && other.context == context;`
			`}`

			`public override bool Equals(object obj)`
			`{`
			`return obj is RecursionNode other && Equals(other);`
			`}`

			`public override int GetHashCode()`
			`{`
			`return HashUtility.GetHashCode(port, context);`
			`}`
			`}`

			`public GraphStack stack { get; private set; }`

			`private Recursion<RecursionNode> recursion;`

			`private readonly Dictionary<IUnitValuePort, object> locals = new Dictionary<IUnitValuePort, object>();`

			`public readonly VariableDeclarations variables = new VariableDeclarations();`

			`private readonly Stack<int> loops = new Stack<int>();`

			`private readonly HashSet<GraphStack> preservedStacks = new HashSet<GraphStack>();`

			`public MonoBehaviour coroutineRunner { get; private set; }`

			`private ICollection<Flow> activeCoroutinesRegistry;`

			`private bool coroutineStopRequested;`

			`public bool isCoroutine { get; private set; }`

			`private IEnumerator coroutineEnumerator;`

			`public bool isPrediction { get; private set; }`

			`private bool disposed;`

			`public bool enableDebug`
			`{`
			`get`
			`{`
			`if (isPrediction)`
			`{`
			`return false;`
			`}`

			`if (!stack.hasDebugData)`
			`{`
			`return false;`
			`}`

			`return true;`
			`}`
			`}`

			`public static Func<GraphPointer, bool> isInspectedBinding { get; set; }`

			`public bool isInspected => isInspectedBinding?.Invoke(stack) ?? false;`


			`#region Lifecycle`

			`private Flow() { }`

			`public static Flow New(GraphReference reference)`
			`{`
			`Ensure.That(nameof(reference)).IsNotNull(reference);`

			`var flow = GenericPool<Flow>.New(() => new Flow()); ;`
			`flow.stack = reference.ToStackPooled();`

			`return flow;`
			`}`

			`void IPoolable.New()`
			`{`
			`disposed = false;`

			`recursion = Recursion<RecursionNode>.New();`
			`}`

			`public void Dispose()`
			`{`
			`if (disposed)`
			`{`
			`throw new ObjectDisposedException(ToString());`
			`}`

			`GenericPool<Flow>.Free(this);`
			`}`

			`void IPoolable.Free()`
			`{`
			`stack?.Dispose();`
			`recursion?.Dispose();`
			`locals.Clear();`
			`loops.Clear();`
			`variables.Clear();`

			`// Preserved stacks could remain if coroutine was interrupted`
			`foreach (var preservedStack in preservedStacks)`
			`{`
			`preservedStack.Dispose();`
			`}`

			`preservedStacks.Clear();`

			`loopIdentifier = -1;`
			`stack = null;`
			`recursion = null;`
			`isCoroutine = false;`
			`coroutineEnumerator = null;`
			`coroutineRunner = null;`
			`activeCoroutinesRegistry?.Remove(this);`
			`activeCoroutinesRegistry = null;`
			`coroutineStopRequested = false;`
			`isPrediction = false;`

			`disposed = true;`
			`}`

			`public GraphStack PreserveStack()`
			`{`
			`var preservedStack = stack.Clone();`
			`preservedStacks.Add(preservedStack);`
			`return preservedStack;`
			`}`

			`public void RestoreStack(GraphStack stack)`
			`{`
			`this.stack.CopyFrom(stack);`
			`}`

			`public void DisposePreservedStack(GraphStack stack)`
			`{`
			`stack.Dispose();`
			`preservedStacks.Remove(stack);`
			`}`

			`#endregion`


			`#region Loops`

			`public int loopIdentifier = -1;`

			`public int currentLoop`
			`{`
			`get`
			`{`
			`if (loops.Count > 0)`
			`{`
			`return loops.Peek();`
			`}`
			`else`
			`{`
			`return -1;`
			`}`
			`}`
			`}`

			`public bool LoopIsNotBroken(int loop)`
			`{`
			`return currentLoop == loop;`
			`}`

			`public int EnterLoop()`
			`{`
			`var loop = ++loopIdentifier;`

			`loops.Push(loop);`

			`return loop;`
			`}`

			`public void BreakLoop()`
			`{`
			`if (currentLoop < 0)`
			`{`
			`throw new InvalidOperationException("No active loop to break.");`
			`}`

			`loops.Pop();`
			`}`

			`public void ExitLoop(int loop)`
			`{`
			`if (loop != currentLoop)`
			`{`
			`// Already exited through break`
			`return;`
			`}`

			`loops.Pop();`
			`}`

			`#endregion`


			`#region Control`

			`public void Run(ControlOutput port)`
			`{`
			`Invoke(port);`
			`Dispose();`
			`}`

			`public void StartCoroutine(ControlOutput port, ICollection<Flow> registry = null)`
			`{`
			`isCoroutine = true;`

			`coroutineRunner = stack.component;`

			`if (coroutineRunner == null)`
			`{`
			`coroutineRunner = CoroutineRunner.instance;`
			`}`

			`activeCoroutinesRegistry = registry;`

			`activeCoroutinesRegistry?.Add(this);`

			`// We have to store the enumerator because Coroutine itself`
			`// can't be cast to IDisposable, which we'll need when stopping.`
			`coroutineEnumerator = Coroutine(port);`

			`coroutineRunner.StartCoroutine(coroutineEnumerator);`
			`}`

			`public void StopCoroutine(bool disposeInstantly)`
			`{`
			`if (!isCoroutine)`
			`{`
			`throw new NotSupportedException("Stop may only be called on coroutines.");`
			`}`

			`if (disposeInstantly)`
			`{`
			`StopCoroutineImmediate();`
			`}`
			`else`
			`{`
			`// We prefer a soft coroutine stop here that will happen at the next frame,`
			`// because we don't want the flow to be disposed just yet when the event node stops`
			`// listening, as we still need it for clean up operations.`
			`coroutineStopRequested = true;`
			`}`
			`}`

			`internal void StopCoroutineImmediate()`
			`{`
			`if (coroutineRunner && coroutineEnumerator != null)`
			`{`
			`coroutineRunner.StopCoroutine(coroutineEnumerator);`

			`// Unity doesn't dispose coroutines enumerators when calling StopCoroutine, so we have to do it manually:`
			`// https://forum.unity.com/threads/finally-block-not-executing-in-a-stopped-coroutine.320611/`
			`((IDisposable)coroutineEnumerator).Dispose();`
			`}`
			`}`

			`private IEnumerator Coroutine(ControlOutput startPort)`
			`{`
			`try`
			`{`
			`foreach (var instruction in InvokeCoroutine(startPort))`
			`{`
			`if (coroutineStopRequested)`
			`{`
			`yield break;`
			`}`

			`yield return instruction;`

			`if (coroutineStopRequested)`
			`{`
			`yield break;`
			`}`
			`}`
			`}`
			`finally`
			`{`
			`// Manual disposal might have already occurred from StopCoroutine,`
			`// so we have to avoid double disposal, which would throw.`
			`if (!disposed)`
			`{`
			`Dispose();`
			`}`
			`}`
			`}`

			`public void Invoke(ControlOutput output)`
			`{`
			`Ensure.That(nameof(output)).IsNotNull(output);`

			`var connection = output.connection;`

			`if (connection == null)`
			`{`
			`return;`
			`}`

			`var input = connection.destination;`

			`var recursionNode = new RecursionNode(output, stack);`

			`BeforeInvoke(output, recursionNode);`

			`try`
			`{`
			`var nextPort = InvokeDelegate(input);`

			`if (nextPort != null)`
			`{`
			`Invoke(nextPort);`
			`}`
			`}`
			`finally`
			`{`
			`AfterInvoke(output, recursionNode);`
			`}`
			`}`

			`private IEnumerable InvokeCoroutine(ControlOutput output)`
			`{`
			`var connection = output.connection;`

			`if (connection == null)`
			`{`
			`yield break;`
			`}`

			`var input = connection.destination;`

			`var recursionNode = new RecursionNode(output, stack);`

			`BeforeInvoke(output, recursionNode);`

			`if (input.supportsCoroutine)`
			`{`
			`foreach (var instruction in InvokeCoroutineDelegate(input))`
			`{`
			`if (instruction is ControlOutput)`
			`{`
			`foreach (var unwrappedInstruction in InvokeCoroutine((ControlOutput)instruction))`
			`{`
			`yield return unwrappedInstruction;`
			`}`
			`}`
			`else`
			`{`
			`yield return instruction;`
			`}`
			`}`
			`}`
			`else`
			`{`
			`ControlOutput nextPort = InvokeDelegate(input);`

			`if (nextPort != null)`
			`{`
			`foreach (var instruction in InvokeCoroutine(nextPort))`
			`{`
			`yield return instruction;`
			`}`
			`}`
			`}`

			`AfterInvoke(output, recursionNode);`
			`}`

			`private RecursionNode BeforeInvoke(ControlOutput output, RecursionNode recursionNode)`
			`{`
			`try`
			`{`
			`recursion?.Enter(recursionNode);`
			`}`
			`catch (StackOverflowException ex)`
			`{`
			`output.unit.HandleException(stack, ex);`
			`throw;`
			`}`

			`var connection = output.connection;`
			`var input = connection.destination;`

			`if (enableDebug)`
			`{`
			`var connectionEditorData = stack.GetElementDebugData<IUnitConnectionDebugData>(connection);`
			`var inputUnitEditorData = stack.GetElementDebugData<IUnitDebugData>(input.unit);`

			`connectionEditorData.lastInvokeFrame = EditorTimeBinding.frame;`
			`connectionEditorData.lastInvokeTime = EditorTimeBinding.time;`
			`inputUnitEditorData.lastInvokeFrame = EditorTimeBinding.frame;`
			`inputUnitEditorData.lastInvokeTime = EditorTimeBinding.time;`
			`}`

			`return recursionNode;`
			`}`

			`private void AfterInvoke(ControlOutput output, RecursionNode recursionNode)`
			`{`
			`recursion?.Exit(recursionNode);`
			`}`

			`private ControlOutput InvokeDelegate(ControlInput input)`
			`{`
			`try`
			`{`
			`if (input.requiresCoroutine)`
			`{`
			`throw new InvalidOperationException($"Port '{input.key}' on '{input.unit}' can only be triggered in a coroutine.");`
			`}`

			`return input.action(this);`
			`}`
			`catch (Exception ex)`
			`{`
			`input.unit.HandleException(stack, ex);`
			`throw;`
			`}`
			`}`

			`private IEnumerable InvokeCoroutineDelegate(ControlInput input)`
			`{`
			`var instructions = input.coroutineAction(this);`

			`while (true)`
			`{`
			`object instruction;`

			`try`
			`{`
			`if (!instructions.MoveNext())`
			`{`
			`break;`
			`}`

			`instruction = instructions.Current;`
			`}`
			`catch (Exception ex)`
			`{`
			`input.unit.HandleException(stack, ex);`
			`throw;`
			`}`

			`yield return instruction;`
			`}`
			`}`

			`#endregion`


			`#region Values`

			`public bool IsLocal(IUnitValuePort port)`
			`{`
			`Ensure.That(nameof(port)).IsNotNull(port);`

			`return locals.ContainsKey(port);`
			`}`

			`public void SetValue(IUnitValuePort port, object value)`
			`{`
			`Ensure.That(nameof(port)).IsNotNull(port);`
			`Ensure.That(nameof(value)).IsOfType(value, port.type);`

			`if (locals.ContainsKey(port))`
			`{`
			`locals[port] = value;`
			`}`
			`else`
			`{`
			`locals.Add(port, value);`
			`}`
			`}`

			`public object GetValue(ValueInput input)`
			`{`
			`if (locals.TryGetValue(input, out var local))`
			`{`
			`return local;`
			`}`

			`var connection = input.connection;`

			`if (connection != null)`
			`{`
			`if (enableDebug)`
			`{`
			`var connectionEditorData = stack.GetElementDebugData<IUnitConnectionDebugData>(connection);`

			`connectionEditorData.lastInvokeFrame = EditorTimeBinding.frame;`
			`connectionEditorData.lastInvokeTime = EditorTimeBinding.time;`
			`}`

			`var output = connection.source;`

			`var value = GetValue(output);`

			`if (enableDebug)`
			`{`
			`var connectionEditorData = stack.GetElementDebugData<ValueConnection.DebugData>(connection);`

			`connectionEditorData.lastValue = value;`
			`connectionEditorData.assignedLastValue = true;`
			`}`

			`return value;`
			`}`
			`else if (TryGetDefaultValue(input, out var defaultValue))`
			`{`
			`return defaultValue;`
			`}`
			`else`
			`{`
			`throw new MissingValuePortInputException(input.key);`
			`}`
			`}`

			`private object GetValue(ValueOutput output)`
			`{`
			`if (locals.TryGetValue(output, out var local))`
			`{`
			`return local;`
			`}`

			`if (!output.supportsFetch)`
			`{`
			`throw new InvalidOperationException($"The value of '{output.key}' on '{output.unit}' cannot be fetched dynamically, it must be assigned.");`
			`}`

			`var recursionNode = new RecursionNode(output, stack);`

			`try`
			`{`
			`recursion?.Enter(recursionNode);`
			`}`
			`catch (StackOverflowException ex)`
			`{`
			`output.unit.HandleException(stack, ex);`
			`throw;`
			`}`

			`try`
			`{`
			`if (enableDebug)`
			`{`
			`var outputUnitEditorData = stack.GetElementDebugData<IUnitDebugData>(output.unit);`

			`outputUnitEditorData.lastInvokeFrame = EditorTimeBinding.frame;`
			`outputUnitEditorData.lastInvokeTime = EditorTimeBinding.time;`
			`}`

			`var value = GetValueDelegate(output);`

			`return value;`
			`}`
			`finally`
			`{`
			`recursion?.Exit(recursionNode);`
			`}`
			`}`

			`public object GetValue(ValueInput input, Type type)`
			`{`
			`return ConversionUtility.Convert(GetValue(input), type);`
			`}`

			`public T GetValue<T>(ValueInput input)`
			`{`
			`return (T)GetValue(input, typeof(T));`
			`}`

			`public object GetConvertedValue(ValueInput input)`
			`{`
			`return GetValue(input, input.type);`
			`}`

			`private object GetDefaultValue(ValueInput input)`
			`{`
			`if (!TryGetDefaultValue(input, out var defaultValue))`
			`{`
			`throw new InvalidOperationException("Value input port does not have a default value.");`
			`}`

			`return defaultValue;`
			`}`

			`public bool TryGetDefaultValue(ValueInput input, out object defaultValue)`
			`{`
			`if (!input.unit.defaultValues.TryGetValue(input.key, out defaultValue))`
			`{`
			`return false;`
			`}`

			`if (input.nullMeansSelf && defaultValue == null)`
			`{`
			`defaultValue = stack.self;`
			`}`

			`return true;`
			`}`

			`private object GetValueDelegate(ValueOutput output)`
			`{`
			`try`
			`{`
			`return output.getValue(this);`
			`}`
			`catch (Exception ex)`
			`{`
			`output.unit.HandleException(stack, ex);`
			`throw;`
			`}`
			`}`

			`public static object FetchValue(ValueInput input, GraphReference reference)`
			`{`
			`var flow = New(reference);`

			`var result = flow.GetValue(input);`

			`flow.Dispose();`

			`return result;`
			`}`

			`public static object FetchValue(ValueInput input, Type type, GraphReference reference)`
			`{`
			`return ConversionUtility.Convert(FetchValue(input, reference), type);`
			`}`

			`public static T FetchValue<T>(ValueInput input, GraphReference reference)`
			`{`
			`return (T)FetchValue(input, typeof(T), reference);`
			`}`

			`#endregion`


			`#region Value Prediction`

			`public static bool CanPredict(IUnitValuePort port, GraphReference reference)`
			`{`
			`Ensure.That(nameof(port)).IsNotNull(port);`

			`var flow = New(reference);`

			`flow.isPrediction = true;`

			`bool canPredict;`

			`if (port is ValueInput)`
			`{`
			`canPredict = flow.CanPredict((ValueInput)port);`
			`}`
			`else if (port is ValueOutput)`
			`{`
			`canPredict = flow.CanPredict((ValueOutput)port);`
			`}`
			`else`
			`{`
			`throw new NotSupportedException();`
			`}`

			`flow.Dispose();`

			`return canPredict;`
			`}`

			`private bool CanPredict(ValueInput input)`
			`{`
			`if (!input.hasValidConnection)`
			`{`
			`if (!TryGetDefaultValue(input, out var defaultValue))`
			`{`
			`return false;`
			`}`

			`if (typeof(Component).IsAssignableFrom(input.type))`
			`{`
			`defaultValue = defaultValue?.ConvertTo(input.type);`
			`}`

			`if (!input.allowsNull && defaultValue == null)`
			`{`
			`return false;`
			`}`

			`return true;`
			`}`

			`var output = input.validConnectedPorts.Single();`

			`if (!CanPredict(output))`
			`{`
			`return false;`
			`}`

			`var connectedValue = GetValue(output);`

			`if (!ConversionUtility.CanConvert(connectedValue, input.type, false))`
			`{`
			`return false;`
			`}`

			`if (typeof(Component).IsAssignableFrom(input.type))`
			`{`
			`connectedValue = connectedValue?.ConvertTo(input.type);`
			`}`

			`if (!input.allowsNull && connectedValue == null)`
			`{`
			`return false;`
			`}`

			`return true;`
			`}`

			`private bool CanPredict(ValueOutput output)`
			`{`
			`// Shortcircuit the expensive check if the port isn't marked as predictable`
			`if (!output.supportsPrediction)`
			`{`
			`return false;`
			`}`

			`var recursionNode = new RecursionNode(output, stack);`

			`if (!recursion?.TryEnter(recursionNode) ?? false)`
			`{`
			`return false;`
			`}`

			`// Check each value dependency`
			`foreach (var relation in output.unit.relations.WithDestination(output))`
			`{`
			`if (relation.source is ValueInput)`
			`{`
			`var source = (ValueInput)relation.source;`

			`if (!CanPredict(source))`
			`{`
			`recursion?.Exit(recursionNode);`
			`return false;`
			`}`
			`}`
			`}`

			`var value = CanPredictDelegate(output);`

			`recursion?.Exit(recursionNode);`

			`return value;`
			`}`

			`private bool CanPredictDelegate(ValueOutput output)`
			`{`
			`try`
			`{`
			`return output.canPredictValue(this);`
			`}`
			`catch (Exception ex)`
			`{`
			`Debug.LogWarning($"Prediction check failed for '{output.key}' on '{output.unit}':\n{ex}");`

			`return false;`
			`}`
			`}`

			`public static object Predict(IUnitValuePort port, GraphReference reference)`
			`{`
			`Ensure.That(nameof(port)).IsNotNull(port);`

			`var flow = New(reference);`

			`flow.isPrediction = true;`

			`object value;`

			`if (port is ValueInput)`
			`{`
			`value = flow.GetValue((ValueInput)port);`
			`}`
			`else if (port is ValueOutput)`
			`{`
			`value = flow.GetValue((ValueOutput)port);`
			`}`
			`else`
			`{`
			`throw new NotSupportedException();`
			`}`

			`flow.Dispose();`

			`return value;`
			`}`

			`public static object Predict(IUnitValuePort port, GraphReference reference, Type type)`
			`{`
			`return ConversionUtility.Convert(Predict(port, reference), type);`
			`}`

			`public static T Predict<T>(IUnitValuePort port, GraphReference pointer)`
			`{`
			`return (T)Predict(port, pointer, typeof(T));`
			`}`

			`#endregion`
			`}`
			`}`