using System;
using System.Collections.Generic;
using UnityEngine;
using UnityEngine.Networking;
using static JSONManager;
using static FactManager;
public class ParsingDictionary {
public static Dictionary<string, Func<Scroll.ScrollFact, Fact>> parseFactDictionary = new Dictionary<string, Func<Scroll.ScrollFact, Fact>>() {
{MMTURIs.Point, PointFact.parseFact},
{MMTURIs.Metric, LineFact.parseFact},
{MMTURIs.Angle, AngleFact.parseFact}
};
}
public abstract class Fact
{
private int _id;
public string Label;
public int Id
{
get { return _id; }
set
{
// if (_id == value) return;
_id = value;
Label= ((Char)(64 + _id + 1)).ToString();
}
}
public GameObject Representation;
public string backendURI;
public string backendValueURI; // supposed to be null, for Facts without values eg. Points, OpenLines, OnLineFacts...
public string format(float t)
{
return t.ToString("0.0000").Replace(',', '.');
}
}
public abstract class DirectedFact : Fact
{
public DirectedFact flippedFact;
}
public class AddFactResponse
{
//class to Read AddFact Responses.
// public string factUri;
// public string factValUri;
public string uri;
public static AddFactResponse sendAdd(string path, string body)
{
if (!CommunicationEvents.ServerRunning)
{
Debug.LogWarning("Server not running");
return new AddFactResponse();
}
Debug.Log(body);
//Put constructor parses stringbody to byteArray internally (goofy workaround)
UnityWebRequest www = UnityWebRequest.Put(path, body);
www.method = UnityWebRequest.kHttpVerbPOST;
www.SetRequestHeader("Content-Type", "application/json");
www.timeout = 1;
//TODO: implement real asynchronous communication ...
AsyncOperation op = www.SendWebRequest();
while (!op.isDone) { }
if (www.isNetworkError || www.isHttpError)
{
Debug.LogWarning(www.error);
return new AddFactResponse();
}
else
{
string answer = www.downloadHandler.text;
return JsonUtility.FromJson<AddFactResponse>(answer);
}
}
}
//I am not sure if we ever need to attach these to an object, so one script for all for now...
public class PointFact : Fact
{
public Vector3 Point;
public Vector3 Normal;
public PointFact(int i, Vector3 P, Vector3 N)
{
this.Id = i;
this.Point = P;
this.Normal = N;
List<MMTTerm> arguments = new List<MMTTerm>
{
new OMF(P.x),
new OMF(P.y),
new OMF(P.z)
};
//OMS constructor generates full URI
MMTTerm tp = new OMS(MMTURIs.Point);
MMTTerm df = new OMA(new OMS(MMTURIs.Tuple), arguments);
//TODO: rework fact list + labeling
MMTSymbolDeclaration mmtDecl = new MMTSymbolDeclaration(this.Label, tp, df);
string body = MMTSymbolDeclaration.ToJson(mmtDecl);
AddFactResponse res = AddFactResponse.sendAdd(CommunicationEvents.ServerAdress+"/fact/add", body);
this.backendURI = res.uri;
Debug.Log(this.backendURI);
}
public PointFact(float a, float b, float c, string uri)
{
this.Point = new Vector3(a, b, c);
this.Normal = new Vector3(0, 1, 0);
this.backendURI = uri;
}
public static PointFact parseFact(Scroll.ScrollFact fact) {
String uri = fact.@ref.uri;
float a = (float) ((OMF)((OMA)((Scroll.ScrollSymbolFact)fact).df).arguments[0]).f;
float b = (float) ((OMF)((OMA)((Scroll.ScrollSymbolFact)fact).df).arguments[1]).f;
float c = (float) ((OMF)((OMA)((Scroll.ScrollSymbolFact)fact).df).arguments[2]).f;
return new PointFact(a, b, c, uri);
}
}
public class LineFact : DirectedFact
{
//Id's of the 2 Point-Facts that are connected
public int Pid1, Pid2;
//only for temporary Use of LineFacts.
public LineFact() { }
public LineFact(int i, int pid1, int pid2)
{
this.Id = i;
this.Pid1 = pid1;
this.Pid2 = pid2;
PointFact pf1 = CommunicationEvents.Facts.Find((x => x.Id == pid1)) as PointFact;
PointFact pf2 = CommunicationEvents.Facts.Find((x => x.Id == pid2)) as PointFact;
//Label is currently set to Fact.setId
//Set Label to StringConcatenation of Points
this.Label = pf1.Label + pf2.Label;
string p1URI = pf1.backendURI;
string p2URI = pf2.backendURI;
float v = (pf1.Point - pf2.Point).magnitude;
MMTTerm lhs =
new OMA(
new OMS(MMTURIs.Metric),
new List<MMTTerm> {
new OMS(p1URI),
new OMS(p2URI)
}
);
MMTTerm valueTp = new OMS(MMTURIs.RealLit);
MMTTerm value = new OMF(v);
//see point label
MMTValueDeclaration mmtDecl = new MMTValueDeclaration(this.Label, lhs, valueTp, value);
string body = MMTDeclaration.ToJson(mmtDecl);
AddFactResponse res = AddFactResponse.sendAdd(CommunicationEvents.ServerAdress + "/fact/add", body);
this.backendURI = res.uri;
Debug.Log(this.backendURI);
}
public LineFact(int Pid1, int Pid2, string backendURI)
{
this.Pid1 = Pid1;
this.Pid2 = Pid2;
this.backendURI = backendURI;
}
public static LineFact parseFact(Scroll.ScrollFact fact)
{
String uri = fact.@ref.uri;
String pointAUri = ((OMS)((OMA)((Scroll.ScrollValueFact)fact).lhs).arguments[0]).uri;
String pointBUri = ((OMS)((OMA)((Scroll.ScrollValueFact)fact).lhs).arguments[1]).uri;
int pid1 = CommunicationEvents.Facts.Find(x => x.backendURI.Equals(pointAUri)).Id;
int pid2 = CommunicationEvents.Facts.Find(x => x.backendURI.Equals(pointBUri)).Id;
return new LineFact(pid1, pid2, uri);
}
}
public class OpenLineFact : Fact
{
//R: this is called RayFact for now (see below), feel free to change
//an infinite Line through the Points Pid1 and Pid2
public int Pid1, Pid2;
}
public class RayFact : Fact
{
//Id's of the 2 Point-Facts that are connected
public int Pid1, Pid2;
//only for temporary Use of LineFacts.
public RayFact() { }
public RayFact(int i, int pid1, int pid2)
{
this.Id = i;
this.Pid1 = pid1;
this.Pid2 = pid2;
PointFact pf1 = CommunicationEvents.Facts.Find((x => x.Id == pid1)) as PointFact;
PointFact pf2 = CommunicationEvents.Facts.Find((x => x.Id == pid2)) as PointFact;
string p1URI = pf1.backendURI;
string p2URI = pf2.backendURI;
//TODO: fix body
string body = @"{ ""base"":""" + p1URI + @"""," + @"""second"":""" + p2URI + @"""" + "}";
AddFactResponse res = AddFactResponse.sendAdd(CommunicationEvents.ServerAdress+"/fact/add/line", body);
this.backendURI = res.uri;
// this.backendValueURI = res.factValUri;
}
public RayFact(int i, int pid1, int pid2, string uri, string valuri)
{
this.Id = i;
this.Pid1 = pid1;
this.Pid2 = pid2;
this.backendURI = uri;
this.backendValueURI = valuri;
}
}
public class OnLineFact : Fact
{
//Id's of the Point , and the Id of the Line it sits on
public int Pid, Lid;
public OnLineFact(int i, int pid, int lid)
{
this.Id = i;
this.Pid = pid;
this.Lid = lid;
PointFact pf = CommunicationEvents.Facts.Find((x => x.Id == pid)) as PointFact;
RayFact lf = CommunicationEvents.Facts.Find((x => x.Id == lid)) as RayFact;
string pURI = pf.backendURI;
string lURI = lf.backendURI;
string body = @"{ ""vector"":""" + pURI + @"""," + @"""line"":""" + lURI + @"""" + "}";
AddFactResponse res = AddFactResponse.sendAdd(CommunicationEvents.ServerAdress+"/fact/add/onLine", body);
this.backendURI = res.uri;
// this.backendValueURI = res.factValUri;
Debug.Log("created onLine" + this.backendURI + " " + this.backendValueURI);
}
}
public class AngleFact : DirectedFact
{
//Id's of the 3 Point-Facts, where Pid2 is the point, where the angle is
public int Pid1, Pid2, Pid3;
//only for temporary Use of AngleFacts
public AngleFact() { }
public AngleFact(int i, int pid1, int pid2, int pid3)
{
this.Id = i;
this.Pid1 = pid1;
this.Pid2 = pid2;
this.Pid3 = pid3;
PointFact pf1 = CommunicationEvents.Facts.Find((x => x.Id == pid1)) as PointFact;
PointFact pf2 = CommunicationEvents.Facts.Find((x => x.Id == pid2)) as PointFact;
PointFact pf3 = CommunicationEvents.Facts.Find((x => x.Id == pid3)) as PointFact;
//Label is currently set to Fact.setId
//Set Label to StringConcatenation of Points
this.Label = "∠" + pf1.Label + pf2.Label + pf3.Label;
string p1URI = pf1.backendURI;
string p2URI = pf2.backendURI;
string p3URI = pf3.backendURI;
float v = Vector3.Angle((pf1.Point - pf2.Point), (pf3.Point - pf2.Point));
if (Mathf.Abs(v - 90.0f) < 0.01) v = 90.0f;
Debug.Log("angle: " + v);
MMTTerm lhs =
new OMA(
new OMS(MMTURIs.Angle),
new List<MMTTerm> {
new OMS(p1URI),
new OMS(p2URI),
new OMS(p3URI)
}
);
MMTTerm valueTp = new OMS(MMTURIs.RealLit);
MMTTerm value = new OMF(v);
//see point label
MMTValueDeclaration mmtDecl = new MMTValueDeclaration(this.Label, lhs, valueTp, value);
string body = MMTDeclaration.ToJson(mmtDecl);
Debug.Log(body);
AddFactResponse res = AddFactResponse.sendAdd(CommunicationEvents.ServerAdress+"/fact/add", body);
this.backendURI = res.uri;
Debug.Log(this.backendURI);
}
public AngleFact(int Pid1, int Pid2, int Pid3, string backendURI)
{
this.Pid1 = Pid1;
this.Pid2 = Pid2;
this.Pid3 = Pid3;
this.backendURI = backendURI;
}
public static AngleFact parseFact(Scroll.ScrollFact fact)
{
String uri = fact.@ref.uri;
String pointAUri = ((OMS)((OMA)((Scroll.ScrollValueFact)fact).lhs).arguments[0]).uri;
String pointBUri = ((OMS)((OMA)((Scroll.ScrollValueFact)fact).lhs).arguments[1]).uri;
String pointCUri = ((OMS)((OMA)((Scroll.ScrollValueFact)fact).lhs).arguments[2]).uri;
int pid1 = CommunicationEvents.Facts.Find(x => x.backendURI.Equals(pointAUri)).Id;
int pid2 = CommunicationEvents.Facts.Find(x => x.backendURI.Equals(pointBUri)).Id;
int pid3 = CommunicationEvents.Facts.Find(x => x.backendURI.Equals(pointCUri)).Id;
return new AngleFact(pid1, pid2, pid3, uri);
}
}