using JsonSubTypes;
using Newtonsoft.Json;
using REST_JSON_API;
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Linq.Expressions;
using UnityEngine;
using UnityEngine.Networking;
public static class ParsingDictionary
{
//TODO? get rid of this, use reflection? instead, if possible
//TODO: docu
public static Dictionary<string, Func<List<Fact>, MMTFact, IEnumerator>> parseFactDictionary = new() {
{ MMTConstants.TypeType,
GeneralFact.parseFact },
{ MMTConstants.Point,
PointFact.parseFact },
{ MMTConstants.Metric,
LineFact.parseFact },
{ MMTConstants.Angle,
AngleFact.parseFact },
{ MMTConstants.Eq,
RightAngleFact.parseFact },
{ MMTConstants.RightAngle,
RightAngleFact.parseFact },
{ MMTConstants.LineType,
RayFact.parseFact },
{ MMTConstants.LineOf,
RayFact.parseFact },
{ MMTConstants.OnLine,
OnLineFact.parseFact },
{ MMTConstants.ParallelLine,
ParallelLineFact.parseFact },
{ MMTConstants.CircleType3d,
CircleFact.parseFact },
{ MMTConstants.OnCircle,
OnCircleFact.parseFact },
{ MMTConstants.AnglePlaneLine,
AngleCircleLineFact.parseFact },
{ MMTConstants.RadiusCircleMetric,
RadiusFact.parseFact },
{ MMTConstants.AreaCircle,
AreaCircleFact.parseFact },
{ MMTConstants.OrthoCircleLine,
OrthogonalCircleLineFact.parseFact },
{ MMTConstants.VolumeCone,
ConeVolumeFact.parseFact },
{ MMTConstants.TruncatedVolumeCone,
TruncatedConeVolumeFact.parseFact },
{ MMTConstants.CylinderVolume,
CylinderVolumeFact.parseFact },
{ MMTConstants.TestType,
TestFact.parseFact },
{ MMTConstants.EqualityCircles,
EqualCirclesFact.parseFact },
{ MMTConstants.UnEqualityCircles,
UnEqualCirclesFact.parseFact },
{ MMTConstants.CreateWall,
QuadFact.parseFact },
{ MMTConstants.CreateTriangle,
TriangleFact.parseFact },
{ MMTConstants.ListType,
DynamicListFact.parseFact },
{ MMTConstants.Product,
DynamicTupleFact.parseFact },
{ MMTConstants.FunctionFact,
FunctionFact.parseFact },
};
// TODO: get rid of this
public static Dictionary<string, string> parseTermsToId = new();
}
/// <summary>
/// %Fact representation of Unity; mostly mirrors Facts of MMT.
/// </summary>
[JsonConverter(typeof(JsonSubtypes), "s_type")]
[JsonSubtypes.KnownSubType(typeof(PointFact), nameof(PointFact))]
[JsonSubtypes.KnownSubType(typeof(LineFact), nameof(LineFact))]
[JsonSubtypes.KnownSubType(typeof(RayFact), nameof(RayFact))]
[JsonSubtypes.KnownSubType(typeof(OnLineFact), nameof(OnLineFact))]
[JsonSubtypes.KnownSubType(typeof(AngleFact), nameof(AngleFact))]
[JsonSubtypes.KnownSubType(typeof(CircleFact), nameof(CircleFact))]
[JsonSubtypes.KnownSubType(typeof(ParallelLineFact), nameof(ParallelLineFact))]
[JsonSubtypes.KnownSubType(typeof(OnCircleFact), nameof(OnCircleFact))]
[JsonSubtypes.KnownSubType(typeof(AngleCircleLineFact), nameof(AngleCircleLineFact))]
[JsonSubtypes.KnownSubType(typeof(OrthogonalCircleLineFact), nameof(OrthogonalCircleLineFact))]
[JsonSubtypes.KnownSubType(typeof(AreaCircleFact), nameof(AreaCircleFact))]
[JsonSubtypes.KnownSubType(typeof(RadiusFact), nameof(RadiusFact))]
[JsonSubtypes.KnownSubType(typeof(ConeVolumeFact), nameof(ConeVolumeFact))]
[JsonSubtypes.KnownSubType(typeof(TruncatedConeVolumeFact), nameof(TruncatedConeVolumeFact))]
[JsonSubtypes.KnownSubType(typeof(RightAngleFact), nameof(RightAngleFact))]
[JsonSubtypes.KnownSubType(typeof(CylinderVolumeFact), nameof(CylinderVolumeFact))]
[JsonSubtypes.KnownSubType(typeof(TestFact), nameof(TestFact))]
[JsonSubtypes.KnownSubType(typeof(EqualCirclesFact), nameof(EqualCirclesFact))]
[JsonSubtypes.KnownSubType(typeof(UnEqualCirclesFact), nameof(UnEqualCirclesFact))]
[JsonSubtypes.KnownSubType(typeof(FunctionFact), nameof(FunctionFact))]
[JsonSubtypes.KnownSubType(typeof(FunctionCallFact), nameof(FunctionCallFact))]
[JsonSubtypes.KnownSubType(typeof(ListFact), nameof(ListFact))]
[JsonSubtypes.KnownSubType(typeof(TupleFact), nameof(TupleFact))]
[JsonSubtypes.KnownSubType(typeof(DynamicListFact), nameof(DynamicListFact))]
[JsonSubtypes.KnownSubType(typeof(DynamicTupleFact), nameof(DynamicTupleFact))]
[JsonSubtypes.KnownSubType(typeof(QuadFact), nameof(QuadFact))]
[JsonSubtypes.KnownSubType(typeof(TriangleFact), nameof(TriangleFact))]
[JsonSubtypes.KnownSubType(typeof(RealLitFact), nameof(RealLitFact))]
public abstract class Fact
{
[JsonIgnore]
public Expression CompileBase
{
get
{
if (_CompileBase == null)
CompileValue(HasServerTwin ? Defines() : ServerDefinition);
return _CompileBase;
}
protected set => _CompileBase = value;
}
private Expression _CompileBase;
[JsonIgnore]
public object CompiledValue
{
get => _CompiledValue ??= GetCompiledValue();
protected set => _CompiledValue = value;
}
private object _CompiledValue;
protected virtual object GetCompiledValue() // put to abstract, once we know what to do with every Fact
=> CompileValue(HasServerTwin ? Defines() : ServerDefinition);
protected object CompileValue(SOMDoc compile_me)
{
Func<object[], object[]> builder =
compile_me.PartialInvokeCastingLambdaExpression(out _CompileBase, out Type[] Signature);
if (Signature.Length != 1)
throw new InvalidCastException($"{nameof(ServerDefinition)} does not compile to constant!");
return _CompiledValue = Signature[0] == typeof(object[])
? builder(new object[0])
: builder(new object[0])[0];
}
/// <summary>
/// Reference to <c>GameObject</c> that represents this Fact in the GameWorld.
/// </summary>
/// <seealso cref="FactObject3D"/>
[JsonIgnore]
public FactWrapper WorldRepresentation;
/// <summary>
/// Collection of <c>Type</c>s of *all* available <see cref="Fact"/>s to choose from.
/// </summary>
[JsonIgnore]
public static readonly Type[] Types = TypeExtensions<Fact>.UAssemblyInheritenceTypes;
/// <value>
/// [ClassName] for JSON de-/serialization.
/// Automatically set in <see cref="Fact()"/> for <b>NON-Generiy-Types</b>!
/// Also add JsonSubtypes.KnownSubType decorator for deserialization to Fact!
/// </value>
[JsonProperty]
protected string s_type;
/// <returns><see langword="true"/> if Fact depends on other \ref Fact "Facts"; equivalent to <see cref="getDependentFactIds"/> returns non empty array</returns>
[JsonIgnore]
public virtual bool HasDependentFacts => DependentFactIds.Length > 0;
/// <returns> array of Fact <see cref="Id"> Ids </see> on which this Fact depends.</returns>
/// <example><see cref="AngleFact"/> needs 3 <see cref="PointFact"/>s to be defined.</example>
[JsonIgnore]
public string[] DependentFactIds => _DependentFactIds ??= GetDependentFactIds();
private string[] _DependentFactIds;
/// <returns> array of Fact <see cref="Id"> Ids </see> on which this Fact depends.</returns>
/// <example><see cref="AngleFact"/> needs 3 <see cref="PointFact"/>s to be defined.</example>
protected abstract string[] GetDependentFactIds();
/// <value>Unique Id. e.g.: MMT URI</value>
[JsonIgnore]
public string Id
{
get
{
//while (FetchURICoroutine.MoveNext()) ; //active wait for server
return ServerDefinition?.ToString() ?? ScalaFact.ToString();
}
}
//private IEnumerator FetchURICoroutine = IEnumeratorExtensions.yield_break;
/// <summary>AST which the Server understands. e.g.: OMS(MMT URI)</summary>
[JsonIgnore]
public SOMDoc ServerDefinition
{
get => _ServerDefinition ??= Defines();
protected set => _ServerDefinition = value;
}
private SOMDoc _ServerDefinition = null;
[JsonIgnore]
public MMTFact ScalaFact
{
get => _ScalaFact ??= MakeMMTDeclaration();
protected set => _ScalaFact = value;
}
private MMTFact _ScalaFact = null;
//public MMTFact MMTFact => _MMTFact ??= MakeMMTDeclaration();
//private MMTFact _MMTFact = null;
[JsonIgnore]
public bool HasServerTwin => ServerDefinition is OMS;
/// <value>
/// <c>get</c> initiates and subsequently updates a human readable name.
/// <c>set</c> calls <see cref="rename(string, FactRecorder)"/>
/// </value>
public string GetLabel(FactRecorder name_space)
{ // in case of renamed dependables
return _LastLabel = (
name_space == null // JsonSerialization toggle (_Facts.GetNumberOfFacts() == 0 && this is not PointFact) // JsonSerialization toggle && allow first (Point)Fact to be created
|| (hasCustomLabel && _CustomLabel != null)
? _CustomLabel
: generateLabel(name_space));
}
protected internal string _LastLabel = "NaN";
public bool SetLabel(string value, FactRecorder name_space)
{
if (name_space == null) // JsonSerialization toggle)
{
_CustomLabel = value;
LabelId = -LabelId;
return true;
}
else
return rename(value, name_space);
}
/// <value>
/// Is true if Fact has a custom <see cref="GetLabel"/> which is not <c>null</c> or <c>""</c>.
/// </value>
public bool hasCustomLabel => LabelId < 0;
/// <summary>
/// Stores custom <see cref="GetLabel"/> if set.
/// </summary>
[JsonProperty]
protected string _CustomLabel = null;
/// <summary>
/// Counter to organize auto generated <see cref="GetLabel"/>.
/// Set to negative, if custom \ref Label is assigned.
/// </summary>
// property for JSON to set AFTER Label => declare AFTER Label
public int LabelId { get; set; }
[JsonIgnore]
bool ForceRecalculateTransform = true;
[JsonIgnore]
public Vector3 Position
{
get
{
if (ForceRecalculateTransform)
RecalculateTransform();
return _Position;
}
protected set
{
ForceRecalculateTransform = false;
_Position = value;
}
}
private Vector3 _Position = Vector3.zero;
[JsonIgnore]
public Quaternion Rotation
{
get
{
if (ForceRecalculateTransform)
RecalculateTransform();
return _Rotation;
}
protected set
{
ForceRecalculateTransform = false;
_Rotation = value;
}
}
private Quaternion _Rotation = Quaternion.identity;
[JsonIgnore]
public Vector3 LocalScale
{
get
{
if (ForceRecalculateTransform)
RecalculateTransform();
return _LocalScale;
}
protected set
{
ForceRecalculateTransform = false;
_LocalScale = value;
}
}
private Vector3 _LocalScale = Vector3.one;
/// <summary>
/// Only being used by [JsonReader](https://www.newtonsoft.com/json/help/html/T_Newtonsoft_Json_JsonReader.htm) to initiate empty \ref Fact "Facts".
/// <seealso cref="SOMDocManager"/>
/// </summary>
protected Fact()
{
LabelId = 0;
s_type = this.GetType().Name;
}
/// <summary>
/// Copies <paramref name="fact"/> by initiating new MMT %Fact.
/// </summary>
/// <param name="fact">Fact to be copied</param>
/// <param name="old_to_new"><c>Dictionary</c> mapping <paramref name="fact"/>.<see cref="getDependentFactIds"/> to corresponding <see cref="Fact.Id"/> in <paramref name="organizer"/> </param>
/// <param name="organizer">for Labeling<see cref="GetLabel(FactRecorder)"/></param>
public Fact ReInitializeMe(Dictionary<string, string> old_to_new, FactRecorder organizer)
{
Fact ret = _ReInitializeMe(old_to_new);
ret.LabelId = this.LabelId;
if (ret.hasCustomLabel)
ret._CustomLabel = this.GetLabel(organizer);
return ret;
}
protected abstract Fact _ReInitializeMe(Dictionary<string, string> old_to_new);
/// <summary>
/// Assignes a custom <see cref="GetLabel"/>, if <paramref name="newLabel"/> is not yet taken;
/// or clears custom <see cref="GetLabel"/>.
/// </summary>
/// <param name="newLabel">To be new <see cref="GetLabel"/>. To reset to auto-generation set to <c>null</c> or <c>""</c>.</param>
/// <returns></returns>
//TODO: notify about updated dependable Labelnames for UI
//TODO: check for colissions with not yet generated names
public bool rename(string newLabel, FactRecorder name_space)
// returns true if succeded
{
if (string.IsNullOrEmpty(newLabel) && name_space.GetNumberOfFacts() != 0)
// switch back to autogenerated
{
generateLabel(name_space);
_CustomLabel = null;
return true;
}
else
// set CustomLabel if available
{
if (name_space.ContainsLabel(newLabel))
return false;
freeAutoLabel(name_space);
_CustomLabel = newLabel;
return true;
}
}
protected abstract void RecalculateTransform();
public abstract MMTFact MakeMMTDeclaration();
public abstract SOMDoc Defines();
/// <summary>
/// Frees ressources e.g. <see cref="GetLabel"/> and will eventually delete %Fact Server-Side in far-near future when feature is supported.
/// </summary>
~Fact()
{
//TODO: MMT: delete over there
//freeAutoLabel(_Facts); //should be done already
if (CommunicationEvents.VerboseURI)
Debug.Log("Server removed Fact:\n" + this.Id);
}
/// <summary>
/// Compares \ref Fact "this" against <paramref name="f2"/>.
/// </summary>
/// <param name="f2">Fact to compare to</param>
/// <returns><c>true</c> if <paramref name="f2"/> is semantical very similar to \ref Fact "this"</returns>
public abstract bool Equivalent(Fact f2);
/// <summary>
/// Compares <paramref name="f1"/> against <paramref name="f2"/>.
/// </summary>
/// <param name="f1">Fact to compare to</param>
/// <param name="f2">Fact to compare to</param>
/// <returns><c>true</c> if <paramref name="f2"/> is semantical very similar to <paramref name="f1"/></returns>
public abstract bool Equivalent(Fact f1, Fact f2);
/// <summary>
/// canonical
/// </summary>
/// <returns>unique-ish Hash</returns>
public new virtual int GetHashCode()
=> DependentFactIds
.Select(id => id.GetHashCode())
.Aggregate((hash1, hash2) => hash1 ^ hash2);
/// <summary>
/// auto-generates <see cref="GetLabel"/> using generation variable(s) e.g. <see cref="LabelId"/>;
/// if custom <see cref="GetLabel"/> is set, tries to restore original generated <see cref="GetLabel"/> **without** resetting <see cref="_CustomLabel"/>. If original <see cref="GetLabel"/> is already taken, a new one will be generated.
/// </summary>
/// <returns>auto-generated <see cref="GetLabel"/></returns>
protected virtual string generateLabel(FactRecorder name_space)
{
if (LabelId < 0)
// reload Label if possible
LabelId = name_space.UnusedLabelIds.Remove(-LabelId) ? -LabelId : 0;
if (LabelId == 0)
if (name_space.UnusedLabelIds.Count == 0)
LabelId = ++name_space.MaxLabelId;
else
{
LabelId = name_space.UnusedLabelIds.Min;
name_space.UnusedLabelIds.Remove(LabelId);
}
return ((char)(64 + LabelId)).ToString();
}
/// <summary>
/// Parses <see cref="MMTFact"/> to actual Fact
/// </summary>
/// <param name="fact">instance to be parsed</param>
/// <returns>parsed Fact</returns>
public static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
=> null;
public virtual SOMDoc GetMMTType()
=> new OMS(MMTConstants.TYPE_TO_OMS[GetType()]);
/// <summary>
/// Tells a <see cref="FactRecorder"/> that \ref Fact "this" no longer uses auto-generated <see cref="GetLabel"/>, but remembers current generation variable(s).
/// </summary>
public void freeAutoLabel(FactRecorder name_space)
{
if (LabelId > 0)
{
name_space.UnusedLabelIds.Add(LabelId);
// store Label for name-persistance
LabelId = -LabelId;
}
}
private static readonly List<Type> ServerBlacklist = new()
{
typeof(FunctionFact),
typeof(FunctionCallFact),
//typeof(DynamicListFact),
};
private bool SendedToMMT = false;
public void SendToMMT()
{
if (ServerBlacklist.Contains(GetType()))
return;
if (!SendedToMMT && !HasServerTwin)
{
ServerDefinition = SendToMMT(MakeMMTDeclaration());
SendedToMMT = true;
}
}
/// <summary>
///
/// </summary>
/// <remarks>Asynchron version has proofen inefficent, since <see cref="Fact.Id"/> is usually called in close proximity.</remarks>
// Asynchron version in comments
public static SOMDoc SendToMMT(MMTFact mmtDecl)
{
//GlobalBehaviour.Instance.StartCoroutine(
// FetchURICoroutine =
//_URI =
string uri =
_SendAdd(
CommunicationEvents.ServerAdress + "/fact/add",
JsonConvert.SerializeObject(mmtDecl)
//,(string uri) => _SendURICallback(mmtDecl, uri)
);//);
//return;
//void _SendURICallback(MMTDeclaration mmtDecl, string uri)
//{
// _URI = uri;
if (mmtDecl is MMTGeneralFact mMTSymbol && mMTSymbol.defines != null)
ParsingDictionary.parseTermsToId[mMTSymbol.defines.ToString()] = uri;// _URI;
//}
if (uri == null)
{
Debug.LogWarning("Server rejected MMTFact; Fallback engaged.");
return mmtDecl.GetDefines();
}
else
return new OMS(uri);
/*IEnumerator*/
static string _SendAdd(string path, string body)//, Action<string> uriCallback)
{
if (!CommunicationEvents.ServerRunning)
{
Debug.LogWarning("Server not running");
//uriCallback(null);
return null; // yield break;
}
if (CommunicationEvents.VerboseURI)
Debug.Log("Sending to Server:\n" + body);
//Put constructor parses stringbody to byteArray internally (goofy workaround)
using UnityWebRequest www = UnityWebRequest.Put(path, body);
www.method = UnityWebRequest.kHttpVerbPOST;
www.SetRequestHeader("Content-Type", "application/json");
www.timeout = 1;
//yield return
UnityWebRequestAsyncOperation web =
www.SendWebRequest();
while (!web.isDone // not enough as querry
&& www.result == UnityWebRequest.Result.InProgress) ;
if (www.result == UnityWebRequest.Result.ConnectionError
|| www.result == UnityWebRequest.Result.ProtocolError)
{
Debug.LogWarning(www.error);
//uriCallback(null);
return null; // yield break;
}
while (!www.downloadHandler.isDone)
//yield return null
;
FactReference res = JsonUtility.FromJson<FactReference>(www.downloadHandler.text);
if (CommunicationEvents.VerboseURI)
Debug.Log("Server added Fact:\n" + res.uri);
//uriCallback(res.uri);
return res.uri; // yield break;
}
}
/// <summary> Used by <see cref="MakeFact(List{Fact}, object, SOMDoc, bool, SOMDoc)"/> to create unique pseudo-URIs / <see cref="Id"/>s. </summary>
private static uint bypasscc = 0;
/// <summary>
/// Tries to parse <paramref name="payload"/> into <see cref="Fact"/>(s)
/// </summary>
/// <param name="ret">to add results to</param>
/// <param name="payload">to be parsed</param>
/// <param name="ServerDefinition">what the Server could use. Only relevant for certain types of <paramref name="payload"/>.</param>
/// <param name="BypassServer">iff <c>true</c> avoids Server-side initialization</param>
/// <param name="BypassURI">iff <c><paramref name="BypassServer"/>==true</c> used as Server reference; iff set <c>null</c> a unique pseudo reference will be generated</param>
/// <exception cref="NotImplementedException">iff <paramref name="payload"/> is of unhandled type</exception>
public static void MakeFact(List<Fact> ret, object payload, SOMDoc ServerDefinition, bool BypassServer, SOMDoc BypassURI = null)
{
Type type = payload.GetType();
if (BypassServer
&& BypassURI == null)
BypassURI = new OMLIT<uint>(++bypasscc);
if (payload is Fact fact)
ret.Add(fact);
else
if (payload is float f)
ret.Add(BypassServer
? new RealLitFact(f, BypassURI)
: new RealLitFact(f));
else
if (payload is Vector3 point)
ret.Add(BypassServer
? new PointFact(point, BypassURI)
: new PointFact(point, Vector3.up));
else
if (FuncExtensions.IsFuncType(type, out _))
ret.Add(BypassServer
? new FunctionFact(ServerDefinition, BypassURI)
: new FunctionFact(ServerDefinition));
else
if (TupleExtensions.IsTupleType(type, out _))
ret.AddRange(BypassServer
? DynamicTupleFact.MMTFactory(payload, ServerDefinition, SOMDoc.SOMDocType(type), BypassURI)
: DynamicTupleFact.MMTFactory(payload, ServerDefinition, SOMDoc.SOMDocType(type)));
else
if (type.IsGenericType
&& type.GetGenericTypeDefinition() == typeof(List<>))
ret.AddRange(BypassServer
? DynamicListFact.MMTFactory(Enumerable.ToList<dynamic>((dynamic)payload), ServerDefinition, SOMDoc.SOMDocType(type), BypassURI)
: DynamicListFact.MMTFactory(Enumerable.ToList<dynamic>((dynamic)payload), ServerDefinition, SOMDoc.SOMDocType(type)));
else
if (type.IsAnonymousType()) // TODO? generic Fact
return;
else
throw new NotImplementedException($"For Type {type}.");
return;
}
/// <summary>
/// Compiles/Executes <paramref name="ingredient"/> and parses result into @Fact s
/// </summary>
/// <param name="ingredient">MMT package to be interpreted</param>
/// <returns>containing all @Fact s succesfully parsed, or empty when failed.</returns>
public static List<Fact> MMTFactory(MMTFact ingredient)
{
List<Fact> ret = new();
SOMDoc indirect_payload = ingredient.GetDefines();
if (indirect_payload == null)
return ret;
// First try static approach
try
{
ParsingDictionary.parseFactDictionary[ingredient.getType()]
.Invoke(ret, ingredient)
.FastForward();
if (ret.Count != 0)
return ret;
}
catch(Exception ex)
{
Debug.LogException(ex);
Debug.Log($"Could not statically parse {nameof(MMTFact)} {nameof(ingredient)}. Using dynamic Fallback...");
}
object CompiledValue;
try
{
Func<object[], object[]> builder =
indirect_payload.PartialInvokeCastingLambdaExpression(out _, out Type[] signature);
if (signature.Length != 1)
return new();
CompiledValue = builder(new object[0])[0];
}
catch (Exception ex)
{
Debug.Log($"{nameof(ingredient)} could not be built/executed:");
Debug.LogException(ex);
return new();
}
//try // simplify
//{
// indirect_payload = SOMDoc.SOMDocObject(CompiledValue);
//}
//catch (NotSupportedException) { }
MakeFact(ret, CompiledValue, indirect_payload, false, ingredient.@ref); //true => server does not recognize fact
return ret;
}
}
public interface IUnpackable
{
public abstract IEnumerator UnpackMe(List<Fact> ret, bool BypassServer);
}
/// <summary>
/// Implements CRTP for <see cref="Fact"/>; Escalates constructors;
/// </summary>
/// <typeparam name="T">class, which inherits from FactWrappedCRTP</typeparam>
public abstract class FactWrappedCRTP<T> : Fact where T : FactWrappedCRTP<T>
{
/// <summary>\copydoc Fact.Fact()</summary>
protected FactWrappedCRTP() : base() { }
/// \copydoc Fact.Equivalent(Fact)
public override bool Equivalent(Fact f2)
=> Equivalent(this, f2);
/// \copydoc Fact.Equivalent(Fact, Fact)
public override bool Equivalent(Fact f1, Fact f2)
=> f1.GetType() == f2.GetType()
&& EquivalentWrapped((T)f1, (T)f2); // || f1.ServerDefinition.Equivalent(f2.ServerDefinition); <= StackOverflow
/// <summary>CRTP step of <see cref="Equivalent(Fact)"/> and <see cref="Equivalent(Fact, Fact)"/></summary>
protected abstract bool EquivalentWrapped(T f1, T f2);
protected bool DependentFactsEquivalent(T f1, T f2)
=> f1.DependentFactIds
.Zip(f2.DependentFactIds,
(id1, id2) =>
id1 == id2
|| (FactRecorder.AllFacts.ContainsKey(id1)
&& FactRecorder.AllFacts.ContainsKey(id2)
&& FactRecorder.AllFacts[id1].Equivalent(FactRecorder.AllFacts[id2]))
)
.All(b => b);
}
#pragma warning disable // Testing...
/// TEST FACT
/// use this if you need to test certain implementations of facts.
/// <summary>
/// just for testing purposes
/// </summary>
public class TestFact : FactWrappedCRTP<TestFact>
{
/// <summary> \copydoc Fact.Fact </summary>
public TestFact() : base()
{
}
protected override void RecalculateTransform() { }
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Pid1">sets <see cref="Pid1"/></param>
/// <param name="Pid2">sets <see cref="Pid2"/></param>
/// <param name="radius">sets <see cref="radius"/></param>
/// <param name="normal">sets <see cref="normal"/></param>
/// <param name="backendURI">MMT URI</param>
public TestFact(string backendURI) : base()
{
this.ServerDefinition = ServerDefinition;
}
/// <summary>
/// parses the Circlefact response of the MMT-Server
/// </summary>
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
string uri = fact.@ref.uri;
Debug.Log("TestFact Uri:" + uri);
ret.Add(new TestFact(uri));
yield break;
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder _Facts)
=> "test";
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => false;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { };
/// \copydoc Fact.GetHashCode
public override int GetHashCode()
=> base.GetHashCode();// this.Pid1.GetHashCode() ^ this.Pid2.GetHashCode();
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(TestFact f1, TestFact f2)
{
return DependentFactsEquivalent(f1, f2);
}
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new TestFact();
public override MMTFact MakeMMTDeclaration()
{
throw new NotImplementedException();
}
public override SOMDoc Defines()
{
throw new NotImplementedException();
}
}
#pragma warning restore // Testing over