ZMWSLI0-SL2021-GR11/Projekt/MWSProjekt/Library/PackageCache/com.unity.visualscripting@1.6.1/Runtime/VisualScripting.Flow/Unit.cs

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2021-07-05 21:20:56 +02:00
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using UnityEngine;
namespace Unity.VisualScripting
{
[SerializationVersion("A")]
public abstract class Unit : GraphElement<FlowGraph>, IUnit
{
public class DebugData : IUnitDebugData
{
public int lastInvokeFrame { get; set; }
public float lastInvokeTime { get; set; }
public Exception runtimeException { get; set; }
}
protected Unit() : base()
{
controlInputs = new UnitPortCollection<ControlInput>(this);
controlOutputs = new UnitPortCollection<ControlOutput>(this);
valueInputs = new UnitPortCollection<ValueInput>(this);
valueOutputs = new UnitPortCollection<ValueOutput>(this);
invalidInputs = new UnitPortCollection<InvalidInput>(this);
invalidOutputs = new UnitPortCollection<InvalidOutput>(this);
relations = new ConnectionCollection<IUnitRelation, IUnitPort, IUnitPort>();
defaultValues = new Dictionary<string, object>();
}
public virtual IGraphElementDebugData CreateDebugData()
{
return new DebugData();
}
public override void AfterAdd()
{
// Important to define before notifying instances
Define();
base.AfterAdd();
}
public override void BeforeRemove()
{
base.BeforeRemove();
Disconnect();
}
public override void Instantiate(GraphReference instance)
{
base.Instantiate(instance);
if (this is IGraphEventListener listener && XGraphEventListener.IsHierarchyListening(instance))
{
listener.StartListening(instance);
}
}
public override void Uninstantiate(GraphReference instance)
{
if (this is IGraphEventListener listener)
{
listener.StopListening(instance);
}
base.Uninstantiate(instance);
}
#region Poutine
protected void CopyFrom(Unit source)
{
base.CopyFrom(source);
defaultValues = source.defaultValues;
}
#endregion
#region Definition
[DoNotSerialize]
public virtual bool canDefine => true;
[DoNotSerialize]
public bool failedToDefine => definitionException != null;
[DoNotSerialize]
public bool isDefined { get; private set; }
protected abstract void Definition();
protected virtual void AfterDefine() { }
protected virtual void BeforeUndefine() { }
private void Undefine()
{
// Because a unit is always undefined on definition,
// even if it wasn't defined before, we make sure the user
// code for undefinition can safely presume it was defined.
if (isDefined)
{
BeforeUndefine();
}
Disconnect();
defaultValues.Clear();
controlInputs.Clear();
controlOutputs.Clear();
valueInputs.Clear();
valueOutputs.Clear();
invalidInputs.Clear();
invalidOutputs.Clear();
relations.Clear();
isDefined = false;
}
public void EnsureDefined()
{
if (!isDefined)
{
Define();
}
}
public void Define()
{
var preservation = UnitPreservation.Preserve(this);
// A unit needs to undefine even if it wasn't defined,
// because there might be invalid ports and connections
// that we need to clear to avoid duplicates on definition.
Undefine();
if (canDefine)
{
try
{
Definition();
isDefined = true;
definitionException = null;
AfterDefine();
}
catch (Exception ex)
{
Undefine();
definitionException = ex;
Debug.LogWarning($"Failed to define {this}:\n{ex}");
}
}
preservation.RestoreTo(this);
}
public void RemoveUnconnectedInvalidPorts()
{
foreach (var unconnectedInvalidInput in invalidInputs.Where(p => !p.hasAnyConnection).ToArray())
{
invalidInputs.Remove(unconnectedInvalidInput);
}
foreach (var unconnectedInvalidOutput in invalidOutputs.Where(p => !p.hasAnyConnection).ToArray())
{
invalidOutputs.Remove(unconnectedInvalidOutput);
}
}
#endregion
#region Ports
[DoNotSerialize]
public IUnitPortCollection<ControlInput> controlInputs { get; }
[DoNotSerialize]
public IUnitPortCollection<ControlOutput> controlOutputs { get; }
[DoNotSerialize]
public IUnitPortCollection<ValueInput> valueInputs { get; }
[DoNotSerialize]
public IUnitPortCollection<ValueOutput> valueOutputs { get; }
[DoNotSerialize]
public IUnitPortCollection<InvalidInput> invalidInputs { get; }
[DoNotSerialize]
public IUnitPortCollection<InvalidOutput> invalidOutputs { get; }
[DoNotSerialize]
public IEnumerable<IUnitInputPort> inputs => LinqUtility.Concat<IUnitInputPort>(controlInputs, valueInputs, invalidInputs);
[DoNotSerialize]
public IEnumerable<IUnitOutputPort> outputs => LinqUtility.Concat<IUnitOutputPort>(controlOutputs, valueOutputs, invalidOutputs);
[DoNotSerialize]
public IEnumerable<IUnitInputPort> validInputs => LinqUtility.Concat<IUnitInputPort>(controlInputs, valueInputs);
[DoNotSerialize]
public IEnumerable<IUnitOutputPort> validOutputs => LinqUtility.Concat<IUnitOutputPort>(controlOutputs, valueOutputs);
[DoNotSerialize]
public IEnumerable<IUnitPort> ports => LinqUtility.Concat<IUnitPort>(inputs, outputs);
[DoNotSerialize]
public IEnumerable<IUnitPort> invalidPorts => LinqUtility.Concat<IUnitPort>(invalidInputs, invalidOutputs);
[DoNotSerialize]
public IEnumerable<IUnitPort> validPorts => LinqUtility.Concat<IUnitPort>(validInputs, validOutputs);
public event Action onPortsChanged;
public void PortsChanged()
{
onPortsChanged?.Invoke();
}
#endregion
#region Default Values
[Serialize]
public Dictionary<string, object> defaultValues { get; private set; }
#endregion
#region Connections
[DoNotSerialize]
public IConnectionCollection<IUnitRelation, IUnitPort, IUnitPort> relations { get; private set; }
[DoNotSerialize]
public IEnumerable<IUnitConnection> connections => ports.SelectMany(p => p.connections);
public void Disconnect()
{
// Can't use a foreach because invalid ports may get removed as they disconnect
while (ports.Any(p => p.hasAnyConnection))
{
ports.First(p => p.hasAnyConnection).Disconnect();
}
}
#endregion
#region Analysis
[DoNotSerialize]
public virtual bool isControlRoot { get; protected set; } = false;
#endregion
#region Helpers
protected void EnsureUniqueInput(string key)
{
if (controlInputs.Contains(key) || valueInputs.Contains(key) || invalidInputs.Contains(key))
{
throw new ArgumentException($"Duplicate input for '{key}' in {GetType()}.");
}
}
protected void EnsureUniqueOutput(string key)
{
if (controlOutputs.Contains(key) || valueOutputs.Contains(key) || invalidOutputs.Contains(key))
{
throw new ArgumentException($"Duplicate output for '{key}' in {GetType()}.");
}
}
protected ControlInput ControlInput(string key, Func<Flow, ControlOutput> action)
{
EnsureUniqueInput(key);
var port = new ControlInput(key, action);
controlInputs.Add(port);
return port;
}
protected ControlInput ControlInputCoroutine(string key, Func<Flow, IEnumerator> coroutineAction)
{
EnsureUniqueInput(key);
var port = new ControlInput(key, coroutineAction);
controlInputs.Add(port);
return port;
}
protected ControlInput ControlInputCoroutine(string key, Func<Flow, ControlOutput> action, Func<Flow, IEnumerator> coroutineAction)
{
EnsureUniqueInput(key);
var port = new ControlInput(key, action, coroutineAction);
controlInputs.Add(port);
return port;
}
protected ControlOutput ControlOutput(string key)
{
EnsureUniqueOutput(key);
var port = new ControlOutput(key);
controlOutputs.Add(port);
return port;
}
protected ValueInput ValueInput(Type type, string key)
{
EnsureUniqueInput(key);
var port = new ValueInput(key, type);
valueInputs.Add(port);
return port;
}
protected ValueInput ValueInput<T>(string key)
{
return ValueInput(typeof(T), key);
}
protected ValueInput ValueInput<T>(string key, T @default)
{
var port = ValueInput<T>(key);
port.SetDefaultValue(@default);
return port;
}
protected ValueOutput ValueOutput(Type type, string key)
{
EnsureUniqueOutput(key);
var port = new ValueOutput(key, type);
valueOutputs.Add(port);
return port;
}
protected ValueOutput ValueOutput(Type type, string key, Func<Flow, object> getValue)
{
EnsureUniqueOutput(key);
var port = new ValueOutput(key, type, getValue);
valueOutputs.Add(port);
return port;
}
protected ValueOutput ValueOutput<T>(string key)
{
return ValueOutput(typeof(T), key);
}
protected ValueOutput ValueOutput<T>(string key, Func<Flow, T> getValue)
{
return ValueOutput(typeof(T), key, (recursion) => getValue(recursion));
}
private void Relation(IUnitPort source, IUnitPort destination)
{
relations.Add(new UnitRelation(source, destination));
}
/// <summary>
/// Triggering the destination may fetch the source value.
/// </summary>
protected void Requirement(ValueInput source, ControlInput destination)
{
Relation(source, destination);
}
/// <summary>
/// Getting the value of the destination may fetch the value of the source.
/// </summary>
protected void Requirement(ValueInput source, ValueOutput destination)
{
Relation(source, destination);
}
/// <summary>
/// Triggering the source may assign the destination value on the flow.
/// </summary>
protected void Assignment(ControlInput source, ValueOutput destination)
{
Relation(source, destination);
}
/// <summary>
/// Triggering the source may trigger the destination.
/// </summary>
protected void Succession(ControlInput source, ControlOutput destination)
{
Relation(source, destination);
}
#endregion
#region Widget
[Serialize]
public Vector2 position { get; set; }
[DoNotSerialize]
public Exception definitionException { get; protected set; }
#endregion
}
}