internal override void parseJObject(JObject obj) { base.parseJObject(obj); JObject jobj = obj.GetValue("TranslationalStiffnessX", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessX = IfcTranslationalStiffnessSelect.parseJObject(jobj); } else { jobj = obj.GetValue("LinearStiffnessX", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessX = IfcTranslationalStiffnessSelect.Parse(jobj.Value <double>().ToString(), mDatabase.Release); } } jobj = obj.GetValue("TranslationalStiffnessY", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessY = IfcTranslationalStiffnessSelect.parseJObject(jobj); } else { jobj = obj.GetValue("LinearStiffnessY", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessY = IfcTranslationalStiffnessSelect.Parse(jobj.Value <double>().ToString(), mDatabase.Release); } } jobj = obj.GetValue("TranslationalStiffnessZ", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessZ = IfcTranslationalStiffnessSelect.parseJObject(jobj); } else { jobj = obj.GetValue("LinearStiffnessZ", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mTranslationalStiffnessZ = IfcTranslationalStiffnessSelect.Parse(jobj.Value <double>().ToString(), mDatabase.Release); } } jobj = obj.GetValue("RotationalStiffnessX", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mRotationalStiffnessX = IfcRotationalStiffnessSelect.parseJObject(jobj); } jobj = obj.GetValue("RotationalStiffnessY", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mRotationalStiffnessY = IfcRotationalStiffnessSelect.parseJObject(jobj); } jobj = obj.GetValue("RotationalStiffnessZ", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { mRotationalStiffnessZ = IfcRotationalStiffnessSelect.parseJObject(jobj); } }
public IfcBoundaryNodeCondition(DatabaseIfc db, string name, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz) : base(db) { Name = name; if (db.mRelease < ReleaseVersion.IFC4) { if (x != null) { if (x.mRigid || x.mStiffness == null) mTranslationalStiffnessX = new IfcTranslationalStiffnessSelect(x.mRigid ? -1 : 0); else mTranslationalStiffnessX = x; } if (y != null) { if (y.mRigid || y.mStiffness == null) mTranslationalStiffnessY = new IfcTranslationalStiffnessSelect(y.mRigid ? -1 : 0); else mTranslationalStiffnessY = y; } if (z != null) { if (z.mRigid || z.mStiffness == null) mTranslationalStiffnessZ = new IfcTranslationalStiffnessSelect(z.mRigid ? -1 : 0); else mTranslationalStiffnessZ = z; } if (xx != null) { if (xx.mRigid || xx.mStiffness == null) mRotationalStiffnessX = new IfcRotationalStiffnessSelect(xx.mRigid ? -1 : 0); else mRotationalStiffnessX = xx; } if (yy != null) { if (yy.mRigid || yy.mStiffness == null) mRotationalStiffnessY = new IfcRotationalStiffnessSelect(yy.mRigid ? -1 : 0); else mRotationalStiffnessY = yy; } if (zz != null) { if (zz.mRigid || zz.mStiffness == null) mRotationalStiffnessZ = new IfcRotationalStiffnessSelect(zz.mRigid ? -1 : 0); else mRotationalStiffnessZ = zz; } } else { mTranslationalStiffnessX = x; mTranslationalStiffnessY = y; mTranslationalStiffnessZ = z; mRotationalStiffnessX = xx; mRotationalStiffnessY = yy; mRotationalStiffnessZ = zz; } }
internal override void parse(string str, ref int pos, ReleaseVersion release, int len, ConcurrentDictionary <int, BaseClassIfc> dictionary) { base.parse(str, ref pos, release, len, dictionary); mTranslationalStiffnessX = IfcTranslationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); mTranslationalStiffnessY = IfcTranslationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); mTranslationalStiffnessZ = IfcTranslationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); mRotationalStiffnessX = IfcRotationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); mRotationalStiffnessY = IfcRotationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); mRotationalStiffnessZ = IfcRotationalStiffnessSelect.Parse(ParserSTEP.StripField(str, ref pos, len), release); }
internal static IfcRotationalStiffnessSelect parseJObject(JObject obj) { JObject jobj = obj.GetValue("IfcBoolean", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { return(new IfcRotationalStiffnessSelect(jobj.Value <bool>())); } jobj = obj.GetValue("IfcRotationalStiffnessMeasure", StringComparison.InvariantCultureIgnoreCase) as JObject; if (jobj != null) { return(new IfcRotationalStiffnessSelect(jobj.Value <double>())); } return(IfcRotationalStiffnessSelect.Parse(obj.Value <double>().ToString(), ReleaseVersion.IFC2x3)); }
public IfcBoundaryNodeConditionWarping(DatabaseIfc m, string name, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz, IfcWarpingStiffnessSelect w) : base(m, name, x, y, z, xx, yy, zz) { mWarpingStiffness = w; }
internal IfcBoundaryNodeCondition(DatabaseIfc db, IfcBoundaryNodeCondition b) : base(db, b) { mTranslationalStiffnessX = b.mTranslationalStiffnessX; mTranslationalStiffnessY = b.mTranslationalStiffnessY; mTranslationalStiffnessZ = b.mTranslationalStiffnessZ; mRotationalStiffnessX = b.mRotationalStiffnessX; mRotationalStiffnessY = b.mRotationalStiffnessY; mRotationalStiffnessZ = b.mRotationalStiffnessZ; }
public IfcBoundaryNodeCondition FindOrCreateBoundaryNodeCondition(bool isPointRestraint, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz) { string name = ""; bool partial = false; double tol = 1e-6; if (x == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!x.mRigid && x.mStiffness != null) { partial = true; } else { name += (x.mRigid ? 'T' : 'F'); } if (y == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!y.mRigid && y.mStiffness != null) { partial = true; } else { name += (y.mRigid ? 'T' : 'F'); } if (z == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!z.mRigid && z.mStiffness != null) { partial = true; } else { name += (z.mRigid ? 'T' : 'F'); } if (xx == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!xx.mRigid && xx.mStiffness != null) { partial = true; } else { name += (xx.mRigid ? 'T' : 'F'); } if (yy == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!yy.mRigid && yy.mStiffness != null) { partial = true; } else { name += (yy.mRigid ? 'T' : 'F'); } if (zz == null) { name += isPointRestraint ? 'F' : 'T'; } else if (!zz.mRigid && zz.mStiffness != null) { partial = true; } else { name += (zz.mRigid ? 'T' : 'F'); } if (partial) { #warning implement return(new IfcBoundaryNodeCondition(mDatabase, "", x, y, z, xx, yy, zz)); } if (mBoundaryNodeConditions.ContainsKey(name)) { return(mBoundaryNodeConditions[name]); } IfcBoundaryNodeCondition result = new IfcBoundaryNodeCondition(mDatabase, name, x, y, z, xx, yy, zz); mBoundaryNodeConditions.Add(name, result); return(result); }
internal IfcBoundaryNodeConditionWarping(DatabaseIfc m, string name, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz, IfcWarpingStiffnessSelect w) : base(m, name, x, y, z, xx, yy, zz) { mWarpingStiffness = w; }
internal IfcBoundaryNodeCondition(DatabaseIfc m, string name, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz) : base(m, name) { if (m.mSchema == Schema.IFC2x3) { if (x != null && (x.mRigid || x.mStiffness == null)) mTranslationalStiffnessX = new IfcTranslationalStiffnessSelect(x.mRigid ? -1 : 0); if (y != null && (y.mRigid || y.mStiffness == null)) mTranslationalStiffnessY = new IfcTranslationalStiffnessSelect(y.mRigid ? -1 : 0); if (z != null && (z.mRigid || z.mStiffness == null)) mTranslationalStiffnessZ = new IfcTranslationalStiffnessSelect(z.mRigid ? -1 : 0); if (xx != null && (xx.mRigid || xx.mStiffness == null)) mRotationalStiffnessX = new IfcRotationalStiffnessSelect(xx.mRigid ? -1 : 0); if (yy != null && (yy.mRigid || yy.mStiffness == null)) mRotationalStiffnessY = new IfcRotationalStiffnessSelect(yy.mRigid ? -1 : 0); if (zz != null && (zz.mRigid || zz.mStiffness == null)) mRotationalStiffnessZ = new IfcRotationalStiffnessSelect(zz.mRigid ? -1 : 0); } else { mTranslationalStiffnessX = x; mTranslationalStiffnessY = y; mTranslationalStiffnessZ = z; mRotationalStiffnessX = xx; mRotationalStiffnessY = yy; mRotationalStiffnessZ = zz; } }
internal IfcBoundaryNodeCondition(IfcBoundaryNodeCondition i) : base(i) { mTranslationalStiffnessX = i.mTranslationalStiffnessX; mTranslationalStiffnessY = i.mTranslationalStiffnessY; mTranslationalStiffnessZ = i.mTranslationalStiffnessZ; mRotationalStiffnessX = i.mRotationalStiffnessX; mRotationalStiffnessY = i.mRotationalStiffnessY; mRotationalStiffnessZ = i.mRotationalStiffnessZ; }
internal IfcBoundaryNodeCondition(DatabaseIfc db, IfcBoundaryNodeCondition b) : base(db,b) { mTranslationalStiffnessX = b.mTranslationalStiffnessX; mTranslationalStiffnessY = b.mTranslationalStiffnessY; mTranslationalStiffnessZ = b.mTranslationalStiffnessZ; mRotationalStiffnessX = b.mRotationalStiffnessX; mRotationalStiffnessY = b.mRotationalStiffnessY; mRotationalStiffnessZ = b.mRotationalStiffnessZ; }
public IfcBoundaryNodeCondition(DatabaseIfc m, string name, IfcTranslationalStiffnessSelect x, IfcTranslationalStiffnessSelect y, IfcTranslationalStiffnessSelect z, IfcRotationalStiffnessSelect xx, IfcRotationalStiffnessSelect yy, IfcRotationalStiffnessSelect zz) : base(m, name) { if (m.mRelease == ReleaseVersion.IFC2x3) { if (x != null) { if (x.mRigid || x.mStiffness == null) mTranslationalStiffnessX = new IfcTranslationalStiffnessSelect(x.mRigid ? -1 : 0); else mTranslationalStiffnessX = x; } if (y != null) { if (y.mRigid || y.mStiffness == null) mTranslationalStiffnessY = new IfcTranslationalStiffnessSelect(y.mRigid ? -1 : 0); else mTranslationalStiffnessY = y; } if (z != null) { if (z.mRigid || z.mStiffness == null) mTranslationalStiffnessZ = new IfcTranslationalStiffnessSelect(z.mRigid ? -1 : 0); else mTranslationalStiffnessZ = z; } if (xx != null) { if (xx.mRigid || xx.mStiffness == null) mRotationalStiffnessX = new IfcRotationalStiffnessSelect(xx.mRigid ? -1 : 0); else mRotationalStiffnessX = xx; } if (yy != null) { if (yy.mRigid || yy.mStiffness == null) mRotationalStiffnessY = new IfcRotationalStiffnessSelect(yy.mRigid ? -1 : 0); else mRotationalStiffnessY = yy; } if (zz != null) { if (zz.mRigid || zz.mStiffness == null) mRotationalStiffnessZ = new IfcRotationalStiffnessSelect(zz.mRigid ? -1 : 0); else mRotationalStiffnessZ = zz; } } else { mTranslationalStiffnessX = x; mTranslationalStiffnessY = y; mTranslationalStiffnessZ = z; mRotationalStiffnessX = xx; mRotationalStiffnessY = yy; mRotationalStiffnessZ = zz; } }