private MasterGeoObj[] checkSphereSphere(AbstractSphere abstractSphere1, AbstractSphere abstractSphere2) { intersectionFigData data = IntersectionMath.SphereSphereIntersection(abstractSphere1, abstractSphere2); Debug.Log("Data produces " + data.figtype.ToString()); Debug.Log("Point Value " + data.vectordata[0].ToString()); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.circle) { DependentPoint centerPoint = GeoObjConstruction.dPoint(data.vectordata[0]); Vector3 radiusDirection = Vector3.up; if (Vector3.Cross(radiusDirection, data.vectordata[1]).magnitude == 0) { radiusDirection = Vector3.right; } radiusDirection = Vector3.Cross(data.vectordata[1], radiusDirection).normalized; DependentPoint edgePoint = GeoObjConstruction.dPoint(data.vectordata[2]); DependentCircle newCircle = GeoObjConstruction.dCircle(centerPoint, edgePoint, data.vectordata[1]); mgoResult = new MasterGeoObj[] { centerPoint.setIntersectionFigure(0), edgePoint.setIntersectionFigure(0), newCircle.setIntersectionFigure(0) }; } else if (data.figtype == GeoObjType.point) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]) }; } return(mgoResult); }
private MasterGeoObj[] checkSphereFlatface(AbstractSphere abstractSphere, flatfaceBehave flatfaceBehave) { intersectionFigData data = IntersectionMath.SpherePlaneIntersection(abstractSphere, flatfaceBehave); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.circle) { DependentPoint centerPoint = GeoObjConstruction.dPoint(data.vectordata[0]); Vector3 radiusDirection = Vector3.up; if (Vector3.Cross(radiusDirection, data.vectordata[1]).magnitude == 0) { radiusDirection = Vector3.right; } radiusDirection = Vector3.Cross(data.vectordata[1], radiusDirection).normalized; DependentPoint edgePoint = GeoObjConstruction.dPoint(data.vectordata[0] + data.floatdata[0] * radiusDirection); DependentCircle newCircle = GeoObjConstruction.dCircle(centerPoint, edgePoint, data.vectordata[1]); mgoResult = new MasterGeoObj[] { centerPoint.setIntersectionFigure(0), edgePoint.setIntersectionFigure(1), newCircle.setIntersectionFigure(2) }; } else if (data.figtype == GeoObjType.point) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]) }; } return(mgoResult); }
private void updateSphereLine(MasterGeoObj mgo, MasterGeoObj masterGeoObj1, MasterGeoObj masterGeoObj2) { intersectionFigData data = IntersectionMath.SphereLineIntersection(masterGeoObj1.GetComponent <AbstractSphere>(), masterGeoObj2.GetComponent <straightEdgeBehave>()); if (data.figtype == mgo.figType) { //point or points; if (data.vectordata.Length > 1) { mgo.Position3 = data.vectordata[mgo.intersectionMultipleIDX]; } else { mgo.Position3 = data.vectordata[0]; } } else if (data.figtype == GeoObjType.none) { mgo.DeleteGeoObj(); } else { Debug.LogWarning("TYPE MISMATCH"); } }
private MasterGeoObj[] checkFlatfaceStraightedge(flatfaceBehave flatfaceBehave, straightEdgeBehave straightEdgeBehave) { intersectionFigData data = IntersectionMath.LinePlaneIntersection(flatfaceBehave, straightEdgeBehave); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } return(mgoResult); }
private MasterGeoObj[] checkFlatfaceFlatface(flatfaceBehave flatfaceBehave1, flatfaceBehave flatfaceBehave2) { intersectionFigData data = IntersectionMath.PlanePlaneIntersection(flatfaceBehave1, flatfaceBehave2); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.line) { Debug.LogWarning("Need to Construct Line"); } return(mgoResult); }
private AbstractGeoObj[] checkStraightedgeStraightedge(straightEdgeBehave straightEdgeBehave1, straightEdgeBehave straightEdgeBehave2) { intersectionFigData data = IntersectionMath.LineLineIntersection(straightEdgeBehave1, straightEdgeBehave2); AbstractGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { mgoResult = new AbstractGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } return(mgoResult); }
private MasterGeoObj[] checkSphereStraightEdge(AbstractSphere abstractSphere, straightEdgeBehave straightEdgeBehave) { intersectionFigData data = IntersectionMath.SphereLineIntersection(abstractSphere, straightEdgeBehave); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { if (data.vectordata.Length == 1) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } else if (data.vectordata.Length == 2) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0), GeoObjConstruction.dPoint(data.vectordata[1]).setIntersectionFigure(1) }; } } return(mgoResult); }
private MasterGeoObj[] CheckCircleCircle(AbstractCircle abstractCircle1, AbstractCircle abstractCircle2) { intersectionFigData data = IntersectionMath.CircleCircleIntersection(abstractCircle1, abstractCircle2); MasterGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { if (data.vectordata.Length == 1) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } else if (data.vectordata.Length == 2) { mgoResult = new MasterGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0), GeoObjConstruction.dPoint(data.vectordata[1]).setIntersectionFigure(1) }; } } return(mgoResult); }
private AbstractGeoObj[] checkSpherecircle(AbstractSphere abstractSphere, AbstractCircle abstractCircle) { intersectionFigData data = IntersectionMath.SphereCircleIntersection(abstractSphere, abstractCircle); AbstractGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { if (data.vectordata.Length == 1) { mgoResult = new AbstractGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } else if (data.vectordata.Length == 2) { mgoResult = new AbstractGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0), GeoObjConstruction.dPoint(data.vectordata[1]).setIntersectionFigure(1) }; } } return(mgoResult); }
private AbstractGeoObj[] checkCircleFlatface(AbstractCircle abstractCircle, flatfaceBehave flatfaceBehave) { intersectionFigData data = IntersectionMath.CirclePlaneIntersection(abstractCircle, flatfaceBehave); AbstractGeoObj[] mgoResult = null; if (data.figtype == GeoObjType.point) { if (data.vectordata.Length == 1) { mgoResult = new AbstractGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0) }; } else if (data.vectordata.Length == 2) { mgoResult = new AbstractGeoObj[] { GeoObjConstruction.dPoint(data.vectordata[0]).setIntersectionFigure(0), GeoObjConstruction.dPoint(data.vectordata[1]).setIntersectionFigure(1) }; } } return(mgoResult); }
private void updatePlanePlane(MasterGeoObj mgo, MasterGeoObj masterGeoObj1, MasterGeoObj masterGeoObj2) { intersectionFigData data = IntersectionMath.PlanePlaneIntersection(masterGeoObj1.GetComponent <flatfaceBehave>(), masterGeoObj2.GetComponent <flatfaceBehave>()); if (data.figtype == mgo.figType) { //line only option mgo.Position3 = data.vectordata[0]; mgo.AddToRManager(); } else if (data.figtype == GeoObjType.none) { mgo.DeleteGeoObj(); } else { Debug.LogWarning("TYPE MISMATCH"); } }
private void updatePlaneLine(AbstractGeoObj mgo, AbstractGeoObj AbstractGeoObj1, AbstractGeoObj AbstractGeoObj2) { intersectionFigData data = IntersectionMath.LinePlaneIntersection(AbstractGeoObj1.GetComponent <flatfaceBehave>(), AbstractGeoObj2.GetComponent <straightEdgeBehave>()); if (data.figtype == mgo.figType) { //point only option; mgo.Position3 = data.vectordata[0]; mgo.AddToRManager(); } else if (data.figtype == GeoObjType.none) { mgo.DeleteGeoObj(); } else { Debug.LogWarning("TYPE MISMATCH"); } }
private void updateCircleLine(MasterGeoObj mgo, MasterGeoObj masterGeoObj1, MasterGeoObj masterGeoObj2) { intersectionFigData data = IntersectionMath.CircleLineIntersection(masterGeoObj1.GetComponent <AbstractCircle>(), masterGeoObj2.GetComponent <straightEdgeBehave>()); if (data.figtype == mgo.figType) { switch (data.figtype) { case GeoObjType.point: mgo.Position3 = data.vectordata[0]; mgo.AddToRManager(); break; case GeoObjType.circle: DependentCircle circle = mgo.GetComponent <DependentCircle>(); circle.centerPos = data.vectordata[0]; circle.normalDir = data.vectordata[1]; circle.center.Position3 = data.vectordata[0]; circle.edgePos = data.vectordata[2]; circle.edge.Position3 = data.vectordata[2]; circle.AddToRManager(); circle.edge.AddToRManager(); circle.center.AddToRManager(); break; default: break; } } else if (data.figtype == GeoObjType.none) { mgo.DeleteGeoObj(); } else { Debug.LogWarning("TYPE MISMATCH"); } }
private void updateCirclePlane(MasterGeoObj mgo, MasterGeoObj masterGeoObj1, MasterGeoObj masterGeoObj2) { intersectionFigData data = IntersectionMath.CirclePlaneIntersection(masterGeoObj1.GetComponent <AbstractCircle>(), masterGeoObj2.GetComponent <flatfaceBehave>()); if (data.figtype == mgo.figType) { if (data.vectordata.Length > 1) { mgo.Position3 = data.vectordata[mgo.intersectionMultipleIDX]; } else { mgo.Position3 = data.vectordata[0]; } } else if (data.figtype == GeoObjType.none) { mgo.DeleteGeoObj(); } else { Debug.LogWarning("TYPE MISMATCH"); } }