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CircleFact.cs
CircleFact.cs 33.37 KiB
using Newtonsoft.Json;
using REST_JSON_API;
using System;
using System.Collections;
using System.Collections.Generic;
using UnityEngine;
/// <summary>
/// A Circle that is made out of a middle point, a plane and a radius
/// </summary>
public class CircleFact : FactWrappedCRTP<CircleFact>
{
/// <summary> defining the middle point of the circle </summary>
public string PidCenter;
/// <summary> defining the base point of the circle plane </summary>
public string PidBase;
[JsonIgnore]
public PointFact PointCenter { get => (PointFact)FactRecorder.AllFacts[PidCenter]; }
[JsonIgnore]
public PointFact PointBase { get => (PointFact)FactRecorder.AllFacts[PidBase]; }
/// <summary> radius of the circle </summary>
public float radius;
/// <summary> normal vector of the plane </summary>
public Vector3 normal;
/// <summary> \copydoc Fact.Fact </summary>
public CircleFact() : base()
{
this.normal = Vector3.zero;
this.PidCenter = null;
this.PidBase = null;
this.radius = 0;
}
/// <summary>
/// Standard Constructor:
/// Initiates <see cref="PidCenter"/>, <see cref="PidBase"/>, <see cref="radius"/>,<see cref="dir1"/>,<see cref="dir2"/>, <see cref="Fact._URI"/> and creates MMT %Fact Server-Side
/// </summary>
/// <param name="pid1">sets <see cref="PidCenter"/></param>
/// <param name="pid2">sets <see cref="PidBase"/></param>
/// <param name="radius">sets <see cref="radius"/></param>
/// <param name="normal">sets <see cref="normal"/></param>
public CircleFact(string pid1, string pid2, float radius, Vector3 normal) : base()
{
this.PidCenter = pid1;
this.PidBase = pid2;
this.radius = radius;
this.normal = normal;
}
protected override void RecalculateTransform()
{
Position = PointCenter.Position;
{ //Rotation
Vector3 arbitary_not_normal = normal == Vector3.forward ? Vector3.right : Vector3.forward;
Vector3 forwoard = Vector3.Cross(arbitary_not_normal, normal);
Rotation = Quaternion.LookRotation(forwoard, normal);
}
LocalScale = new Vector3(radius, 1, radius);
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Pid1">sets <see cref="PidCenter"/></param>
/// <param name="Pid2">sets <see cref="PidBase"/></param>
/// <param name="radius">sets <see cref="radius"/></param>
/// <param name="normal">sets <see cref="normal"/></param>
/// <param name="backendURI">MMT URI</param>
public CircleFact(string Pid1, string Pid2, float radius, Vector3 normal, SOMDoc _ServerDefinition) : base()
{
this.PidCenter = Pid1;
this.PidBase = Pid2;
this.radius = radius;
this.normal = normal;
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)
{
if (((MMTGeneralFact)fact).defines is not OMA df)
yield break;
OMA planeOMA = (OMA)df.arguments[0];
string planeApplicant = ((OMS)planeOMA.applicant).uri;
Vector3 normal;
// Getting the plane
// IN case of a normale plane
if (planeApplicant.Equals(MMTConstants.pointNormalPlane))
{
//OMA pointAOMA = (OMA)planeOMA.arguments[0];
normal = SOMDoc.MakeVector3((OMA)planeOMA.arguments[1]);
}
// In case of parametrized plane
else if (planeApplicant.Equals(MMTConstants.ParametrizedPlane))
{
Vector3 v = SOMDoc.MakeVector3((OMA)planeOMA.arguments[1]);
Vector3 w = SOMDoc.MakeVector3((OMA)planeOMA.arguments[2]);
normal = Vector3.Cross(v, w).normalized;
}
// incase of smth else. Shouldn't hapepen unless there is an error
else throw new ArgumentException("Invalid planeApplicant: " + planeApplicant);
// get the mid point uri
string parse_id_M = df.arguments[1].ToString();
string M_uri = ParsingDictionary.parseTermsToId[parse_id_M];
string A_uri = ParsingDictionary.parseTermsToId[planeOMA.arguments[0].ToString()];
float radius = ((OMLIT<float>)df.arguments[2]).value;
if (!FactRecorder.AllFacts.ContainsKey(M_uri)
|| !FactRecorder.AllFacts.ContainsKey(A_uri))
yield break; //If dependent facts do not exist return null
ret.Add(new CircleFact(M_uri, A_uri, radius, normal, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> "○" + PointCenter.GetLabel(name_space);
/// <summary>
/// Constructs struct for right-angled MMT %Fact <see cref="AddFactResponse"/>
/// </summary>
/// <param name="Pid1"> <see cref="PidCenter"/></param>
/// <param name="p2URI"> <see cref="PidBase"/></param>
/// <param name="radius"> <see cref="radius"/></param>
/// <returns>struct for <see cref="AddFactResponse"/></returns>
public override MMTFact MakeMMTDeclaration()
{
SOMDoc tp = new OMS(MMTConstants.CircleType3d);
return new MMTGeneralFact(_LastLabel, tp, Defines());
}
public override SOMDoc Defines()
=> new OMA(
new OMS(MMTConstants.MkCircle3d),
new SOMDoc[] {
//CirclePlane,
new OMA(
//PointNormalPlane,
new OMS(MMTConstants.pointNormalPlane),
//planeArgs,
new SOMDoc[] {
//base point of the circle plane?,
new OMS(PidBase),
//NormalVector,
new OMA(
//"Vector"
new OMS(MMTConstants.Tuple),
//normalArgs,
new[] {
new OMLIT<float>(normal.x),
new OMLIT<float>(normal.y),
new OMLIT<float>(normal.z)
}
),
}
),
//middlePoint,
new OMS(PidCenter),
//Radius,
new OMLIT<float>(radius),
}
);
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { PidCenter, PidBase };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(CircleFact f1, CircleFact f2)
=> DependentFactsEquivalent(f1, f2)
&& Math3d.IsApproximatelyEqual(f1.normal, f2.normal)
&& Mathf.Approximately(f1.radius, f2.radius);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new CircleFact(old_to_new[this.PidCenter], old_to_new[this.PidBase], this.radius, this.normal);
}
/// <summary>
/// A RadiusFact that corresponds to a <see cref="CircleFact">PointFacts</see> and has a float value (the actual radius).
/// </summary>
public class RadiusFact : FactWrappedCRTP<RadiusFact>
{
/// <summary> The circle corresponding to the radius </summary>
public string Cid1;
[JsonIgnore]
public CircleFact Circle { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
/// <summary> The radius as a float </summary>
public float rad;
/// <summary> \copydoc Fact.Fact </summary>
public RadiusFact() : base()
{
this.Cid1 = null;
this.rad = 0.0f;
}
/// <summary>
/// Standard Constructor:
/// Initiates <see cref="Cid1"/> and <see cref="rad"/>
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
public RadiusFact(string cid1) : base()
{
this.Cid1 = cid1;
this.rad = Circle.radius;
}
protected override void RecalculateTransform()
{
Position = Circle.Position;
Rotation = Circle.Rotation;
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="backendURI">MMT URI</param>
public RadiusFact(string Cid1, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
string CircleUri = ((OMS)((OMA)((MMTValueFact)fact).lhs).arguments[0]).uri;
if (!FactRecorder.AllFacts.ContainsKey(CircleUri))
yield break;
ret.Add(new RadiusFact(CircleUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> "r " + Circle.GetLabel(name_space);
/// <summary>
/// Constructs struct for not-right-angled MMT %Fact <see cref="AddFactResponse"/>
/// </summary>
/// <param name="rad"> see <see cref="rad"/></param>
/// <param name="c1URI"> see <see cref="Cid1"/></param>
public override MMTFact MakeMMTDeclaration()
{
SOMDoc valueTp = new OMS(MMTConstants.RealLit);
SOMDoc value = new OMLIT<float>(rad);
return new MMTValueFact(_LastLabel, Defines(), valueTp, value);
}
public override SOMDoc Defines()
=> new OMA(
new OMS(MMTConstants.RadiusCircleMetric),
new[] {
new OMS(Cid1),
}
);
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1 };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(RadiusFact f1, RadiusFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new RadiusFact(old_to_new[this.Cid1]);
}
/// <summary>
/// Area of a <see cref="CircleFact">CircleFact</see>
/// </summary>
public class AreaCircleFact : FactWrappedCRTP<AreaCircleFact>
{
/// <summary> the circle <see cref="CircleFact">CircleFact</see> </summary>
public string Cid1;
[JsonIgnore]
public CircleFact Circle { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
/// <summary> the area which is contained by the circle </summary>
public float A;
/// <summary> \copydoc Fact.Fact </summary>
public AreaCircleFact() : base()
{
this.Cid1 = null;
this.A = 0.0f;
}
/// <summary>
/// Standard Constructor:
/// Initiates <see cref="Cid1"/> and creates MMT %Fact Server-Side
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
public AreaCircleFact(string cid1) : base()
{
this.Cid1 = cid1;
this.A = Circle.radius * Circle.radius * (float)Math.PI;
}
protected override void RecalculateTransform()
{
Position = Circle.Position;
Rotation = Circle.Rotation;
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="backendURI">MMT URI</param>
public AreaCircleFact(string Cid1, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
string CircleUri = ((OMS)((OMA)((MMTValueFact)fact).lhs).arguments[0]).uri;
if (!FactRecorder.AllFacts.ContainsKey(CircleUri))
yield break;
ret.Add(new AreaCircleFact(CircleUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> "A(" + Circle.GetLabel(name_space) + ")";
public override MMTFact MakeMMTDeclaration()
{
SOMDoc valueTp = new OMS(MMTConstants.RealLit);
SOMDoc value = new OMLIT<float>(A);
return new MMTValueFact(_LastLabel, Defines(), valueTp, value);
}
public override SOMDoc Defines()
=> new OMA(
new OMS(MMTConstants.AreaCircle),
new[] {
new OMS(Cid1),
}
);
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1 };
/// \copydoc Fact.GetHashCode
public override int GetHashCode()
=> base.GetHashCode() ^ A.GetHashCode();
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(AreaCircleFact f1, AreaCircleFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new AreaCircleFact(old_to_new[this.Cid1]);
}
/// <summary>
/// A <see cref="PointFact"/> on a <see cref="CircleFact"/>
/// </summary>
public class OnCircleFact : FactWrappedCRTP<OnCircleFact>
{
/// <summary> the point on the circle </summary>
public string Pid;
/// <summary> the circle, which the point is on </summary>
public string Cid;
[JsonIgnore]
public PointFact Point { get => (PointFact)FactRecorder.AllFacts[Pid]; }
[JsonIgnore]
public CircleFact Circle { get => (CircleFact)FactRecorder.AllFacts[Cid]; }
/// <summary> \copydoc Fact.Fact </summary>
public OnCircleFact() : base()
{
this.Pid = null;
this.Cid = null;
}
/// <summary>
/// Standard Constructor:
/// Initiates <see cref="Pid"/>, <see cref="Rid"/>, <see cref="Fact._URI"/> and creates MMT %Fact Server-Side
/// </summary>
/// <param name="pid">sets <see cref="Pid"/></param>
/// <param name="cid">sets <see cref="Cid"/></param>
public OnCircleFact(string pid, string cid) : base()
{
this.Pid = pid;
this.Cid = cid;
}
protected override void RecalculateTransform()
{
Position = Point.Position;
Rotation = Circle.Rotation;
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="pid">sets <see cref="Pid"/></param>
/// <param name="cid">sets <see cref="Cid"/></param>
/// <param name="uri">MMT URI</param>
public OnCircleFact(string pid, string cid, SOMDoc _ServerDefinition) : base()
{
this.Pid = pid;
this.Cid = cid;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
if (((MMTGeneralFact)fact).type is not OMA type)
yield break;
string circleUri = ((OMS)((OMA)type.arguments[0]).arguments[0]).uri;
string pointUri = ((OMS)((OMA)type.arguments[0]).arguments[1]).uri;
if (!FactRecorder.AllFacts.ContainsKey(pointUri)
|| !FactRecorder.AllFacts.ContainsKey(circleUri))
yield break;
ret.Add(new OnCircleFact(pointUri, circleUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> Point.GetLabel(name_space) + "∈" + Circle.GetLabel(name_space);
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Pid, Cid };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(OnCircleFact c1, OnCircleFact c2)
=> DependentFactsEquivalent(c1, c2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new OnCircleFact(old_to_new[this.Pid], old_to_new[this.Cid]);
public override MMTFact MakeMMTDeclaration()
{
SOMDoc tp =
new OMA(
new OMS(MMTConstants.Ded),
new[] {
new OMA(
new OMS(MMTConstants.OnCircle),
new[] {
new OMS(Cid),
new OMS(Pid),
}),});
return new MMTGeneralFact(_LastLabel, tp, Defines());
}
public override SOMDoc Defines()
=> null;
}
/// <summary>
/// Angle comprised of a line and a circle
/// </summary>
public class AngleCircleLineFact : FactWrappedCRTP<AngleCircleLineFact>
{
/// @{ <summary>
/// One <see cref="Fact.Id">Id</see> of a <see cref="RayFact">RayFact</see> and a <see cref="CircleFact">CircleFact</see> defining Angle [<see cref="Cid1"/>, <see cref="Rid2"/>].
/// </summary>
public string Cid1, Rid2;
/// @}
[JsonIgnore]
public AbstractLineFact Ray { get => (AbstractLineFact)FactRecorder.AllFacts[Rid2]; }
[JsonIgnore]
public CircleFact Circle { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
//TODO? deg or rad?
[JsonIgnore]
public float angle;
[JsonIgnore]
public Vector3 intersection;
/// <summary> \copydoc Fact.Fact </summary>
public AngleCircleLineFact() : base()
{
this.Cid1 = null;
this.Rid2 = null;
this.angle = 0.0f;
}
/// <summary>
/// Standard Constructor:
/// Initiates <see cref="Cid1"/>, <see cref="Rid2"/>, <see cref="angle"/> <see cref="Fact._URI"/> and creates MMT %Fact Server-Side
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
/// <param name="rid2">sets <see cref="Rid2"/></param>
/// <param name="angle"> sets the angle </param>
public AngleCircleLineFact(string cid1, string rid2) : base()
{
this.Cid1 = cid1;
this.Rid2 = rid2;
this.angle = Math3d.AngleVectorPlane(Ray.Dir, Circle.normal).ToDegrees();
Math3d.LinePlaneIntersection(out intersection, Ray.Point1.Position, Ray.Dir, Circle.normal, Circle.Position);
}
protected override void RecalculateTransform()
{
Position = intersection;
{ //Rotation
Vector3 from = (Circle.Position - Position).normalized;
Vector3 angle_to = Math3d.IsApproximatelyEqual(intersection, Ray.Point1.Position)
? Ray.Point2.Position
: Ray.Point1.Position;
Vector3 to = (angle_to - Position).normalized;
Vector3 up = Vector3.Cross(to, from);
Vector3 forwoard = (from + to).normalized;
if (up.sqrMagnitude < Math3d.vectorPrecission)
{ //Angle is 180° (or 0°)
Vector3 arbitary = up.normalized == Vector3.forward ? Vector3.right : Vector3.forward;
up = Vector3.Cross(arbitary, to);
forwoard = Vector3.Cross(up, to);
}
Rotation = Quaternion.LookRotation(forwoard, up);
}
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="´Rid2">sets <see cref="Rid2"/></param>
/// <param name="angle"> sets the angle </param>
/// <param name="backendURI">MMT URI</param>
public AngleCircleLineFact(string Cid1, string Rid2, float angle, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.Rid2 = Rid2;
this.angle = angle;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
if (((MMTValueFact)fact).lhs is not OMA lhs)
yield break;
// init it with 0 degrees, so we don't accidentally generate orthogonalfacts
// and the parsing works correctly if smb ever adds a scroll for this
float angle = 0.0f;
if (((MMTValueFact)fact).value is OMLIT<float> oMFangle)
angle = oMFangle.value;
string CircleUri = ((OMS)lhs.arguments[0]).uri;
string RayUri = ((OMS)lhs.arguments[1]).uri;
if (!FactRecorder.AllFacts.ContainsKey(CircleUri)
|| !FactRecorder.AllFacts.ContainsKey(RayUri))
yield break;
ret.Add(new AngleCircleLineFact(CircleUri, RayUri, angle, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> "∠" + Circle.GetLabel(name_space) + Ray.GetLabel(name_space);
public override MMTFact MakeMMTDeclaration()
{
SOMDoc valueTp = new OMS(MMTConstants.RealLit);
SOMDoc value = new OMLIT<float>(angle);
return new MMTValueFact(_LastLabel, Defines(), valueTp, value);
}
public override SOMDoc Defines()
=> new OMA(
new OMS(MMTConstants.AnglePlaneLine),
new[] {
new OMS(Cid1),
new OMS(Rid2),
}
);
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1, Rid2 };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(AngleCircleLineFact f1, AngleCircleLineFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new AngleCircleLineFact(old_to_new[this.Cid1], old_to_new[this.Rid2]);
}
/// <summary>
/// The fact that the plane of a <see cref="CircleFact">CircleFact</see> and the line <see cref="RayFact>RayFact</see> are orthogonal
/// </summary>
public class OrthogonalCircleLineFact : FactWrappedCRTP<OrthogonalCircleLineFact>
{
/// <summary> a <see cref="CircleFact">CircleFact</see> describing the base area </summary>
public string Cid1;
[JsonIgnore]
public CircleFact Circle { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
/// <summary> a <see cref="RayFact">Rayfact</see> describing the line </summary>
public string Lid1;
[JsonIgnore]
public AbstractLineFact Ray { get => (AbstractLineFact)FactRecorder.AllFacts[Lid1]; }
//TODO? deg or rad?
[JsonIgnore]
public float angle = 90f;
[JsonIgnore]
public Vector3 intersection;
/// <summary> \copydoc Fact.Fact </summary>
public OrthogonalCircleLineFact() : base()
{
this.Cid1 = null;
this.Lid1 = null;
}
/// <summary>
/// Standard Constructor:
/// Initiates members and creates MMT %Fact Server-Side
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
/// <param name="lid1">sets <see cref="Lid1"/></param>
public OrthogonalCircleLineFact(string cid1, string lid1) : base()
{
this.Cid1 = cid1;
this.Lid1 = lid1;
Math3d.LinePlaneIntersection(out intersection, Ray.Point1.Position, Ray.Dir, Circle.normal, Circle.Position);
}
protected override void RecalculateTransform()
{
Position = intersection;
{ //Rotation
Vector3 from = (Circle.Position - Position).normalized;
Vector3 angle_to = Math3d.IsApproximatelyEqual(intersection, Ray.Point1.Position)
? Ray.Point2.Position
: Ray.Point1.Position;
Vector3 to = (angle_to - Position).normalized;
Vector3 up = Vector3.Cross(to, from);
Vector3 forward = (from + to).normalized;
Rotation = Quaternion.LookRotation(forward, up);
}
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="Lid1">sets <see cref="Lid1"/></param>
/// <param name="backendURI">MMT URI</param>
public OrthogonalCircleLineFact(string Cid1, string Lid1, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.Lid1 = Lid1;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
if (((MMTGeneralFact)fact).type is not OMA type)
yield break;
string CircleUri = ((OMS)((OMA)type.arguments[0]).arguments[0]).uri;
string LineUri = ((OMS)((OMA)type.arguments[0]).arguments[1]).uri;
if (!FactRecorder.AllFacts.ContainsKey(CircleUri)
|| !FactRecorder.AllFacts.ContainsKey(LineUri))
yield break;
ret.Add(new OrthogonalCircleLineFact(CircleUri, LineUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> Circle.GetLabel(name_space) + "⊥" + Ray.GetLabel(name_space);
public override MMTFact MakeMMTDeclaration()
{
SOMDoc tp = new OMA(
new OMS(MMTConstants.Ded),
new[]{
new OMA(
new OMS(MMTConstants.OrthoCircleLine),
new[] {
new OMS(Cid1),
new OMS(Lid1),
}
),
}
);
return new MMTGeneralFact(_LastLabel, tp, Defines());
}
public override SOMDoc Defines()
=> null;
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1, Lid1 };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(OrthogonalCircleLineFact f1, OrthogonalCircleLineFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new OrthogonalCircleLineFact(old_to_new[this.Cid1], old_to_new[this.Lid1]);
}
/// <summary>
/// A fact that describes, that two circles have the same size and is comprised of two <see cref="CircleFact">CircleFacts</see>
/// </summary>
public class EqualCirclesFact : FactWrappedCRTP<EqualCirclesFact>
{
/// @{ <summary>
/// two circles that are meant to be equal in area
/// </summary>
public string Cid1, Cid2;
/// @}
[JsonIgnore]
public CircleFact Circle1 { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
[JsonIgnore]
public CircleFact Circle2 { get => (CircleFact)FactRecorder.AllFacts[Cid2]; }
/// <summary> \copydoc Fact.Fact </summary>
public EqualCirclesFact() : base()
{
this.Cid1 = null;
this.Cid2 = null;
}
/// <summary>
/// Standard Constructor:
/// Initiates members and creates MMT %Fact Server-Side
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
/// <param name="cid2">sets <see cref="Cid2"/></param>
public EqualCirclesFact(string cid1, string cid2) : base()
{
this.Cid1 = cid1;
this.Cid2 = cid2;
}
protected override void RecalculateTransform()
{
Position = Circle1.Position;
Rotation = Circle1.Rotation;
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="Cid2">sets <see cref="Cid2"/></param>
/// <param name="backendURI">MMT URI</param>
public EqualCirclesFact(string Cid1, string Cid2, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.Cid2 = Cid2;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
if (((MMTGeneralFact)fact).type is not OMA proof_OMA) // proof DED
yield break;
OMA parallel_circles_OMA = (OMA)proof_OMA.arguments[0]; // parallel
string circleAUri = ((OMS)parallel_circles_OMA.arguments[0]).uri;
string circleBUri = ((OMS)parallel_circles_OMA.arguments[1]).uri;
if (!FactRecorder.AllFacts.ContainsKey(circleAUri)
|| !FactRecorder.AllFacts.ContainsKey(circleBUri))
yield break;
ret.Add(new EqualCirclesFact(circleAUri, circleBUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> Circle1.GetLabel(name_space) + " ≠ " + Circle2.GetLabel(name_space);
public override MMTFact MakeMMTDeclaration()
{
SOMDoc tp = new OMA(
new OMS(MMTConstants.Ded),
new[] {
new OMA(
new OMS(MMTConstants.EqualityCircles),
new[] {
new OMS(Cid1),
new OMS(Cid2),
}
)
}
);
return new MMTGeneralFact(_LastLabel, tp, Defines());
}
public override SOMDoc Defines()
=> null;
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1, Cid2 };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(EqualCirclesFact f1, EqualCirclesFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new EqualCirclesFact(old_to_new[this.Cid1], old_to_new[this.Cid2]);
}
/// <summary>
/// A fact that describes, that two circles have not the same size and is comprised of two <see cref="CircleFact">CircleFacts</see>
/// </summary>
public class UnEqualCirclesFact : FactWrappedCRTP<UnEqualCirclesFact>
{
/// @{ <summary>
/// two circles that are meant to be unequal in area
/// </summary>
public string Cid1, Cid2;
/// @}
[JsonIgnore]
public CircleFact Circle1 { get => (CircleFact)FactRecorder.AllFacts[Cid1]; }
[JsonIgnore]
public CircleFact Circle2 { get => (CircleFact)FactRecorder.AllFacts[Cid2]; }
/// <summary> \copydoc Fact.Fact </summary>
public UnEqualCirclesFact() : base()
{
this.Cid1 = null;
this.Cid2 = null;
}
/// <summary>
/// Standard Constructor:
/// Initiates members and creates MMT %Fact Server-Side
/// </summary>
/// <param name="cid1">sets <see cref="Cid1"/></param>
/// <param name="cid2">sets <see cref="Cid2"/></param>
public UnEqualCirclesFact(string cid1, string cid2) : base()
{
this.Cid1 = cid1;
this.Cid2 = cid2;
}
protected override void RecalculateTransform()
{
Position = Circle2.Position;
Rotation = Circle2.Rotation;
}
/// <summary>
/// Bypasses initialization of new MMT %Fact by using existend URI, _which is not checked for existence_.
/// </summary>
/// <param name="Cid1">sets <see cref="Cid1"/></param>
/// <param name="Cid2">sets <see cref="Cid2"/></param>
/// <param name="backendURI">MMT URI</param>
public UnEqualCirclesFact(string Cid1, string Cid2, SOMDoc _ServerDefinition) : base()
{
this.Cid1 = Cid1;
this.Cid2 = Cid2;
this.ServerDefinition = _ServerDefinition;
}
/// \copydoc Fact.parseFact(ScrollFact)
public new static IEnumerator parseFact(List<Fact> ret, MMTFact fact)
{
if (((MMTGeneralFact)fact).type is not OMA proof_OMA) // proof DED
yield break;
OMA unequal_circles_OMA = (OMA)proof_OMA.arguments[0]; // unequal
string circleAUri = ((OMS)unequal_circles_OMA.arguments[0]).uri;
string circleBUri = ((OMS)unequal_circles_OMA.arguments[1]).uri;
if (!FactRecorder.AllFacts.ContainsKey(circleAUri)
|| !FactRecorder.AllFacts.ContainsKey(circleBUri))
yield break;
ret.Add(new UnEqualCirclesFact(circleAUri, circleBUri, fact.@ref));
}
/// \copydoc Fact.generateLabel
protected override string generateLabel(FactRecorder name_space)
=> Circle1.GetLabel(name_space) + " = " + Circle2.GetLabel(name_space);
public override MMTFact MakeMMTDeclaration()
{
SOMDoc tp = new OMA(
new OMS(MMTConstants.Ded),
new[] {
new OMA(new OMS(MMTConstants.UnEqualityCircles),
new[] {
new OMS(Cid1),
new OMS(Cid2),
}),});
return new MMTGeneralFact(_LastLabel, tp, Defines());
}
public override SOMDoc Defines()
=> null;
/// \copydoc Fact.hasDependentFacts
public override bool HasDependentFacts => true;
/// \copydoc Fact.getDependentFactIds
protected override string[] GetDependentFactIds()
=> new string[] { Cid1, Cid2 };
/// \copydoc Fact.Equivalent(Fact, Fact)
protected override bool EquivalentWrapped(UnEqualCirclesFact f1, UnEqualCirclesFact f2)
=> DependentFactsEquivalent(f1, f2);
protected override Fact _ReInitializeMe(Dictionary<string, string> old_to_new)
=> new UnEqualCirclesFact(old_to_new[this.Cid1], old_to_new[this.Cid2]);
}