Inheritance: IfcBoundaryCondition
Exemplo n.º 1
0
        public IfcBoundaryNodeCondition FindOrCreateBoundaryNodeCondition(bool isPointRestraint, Triple <IfcTranslationalStiffnessSelect> translational, Triple <IfcRotationalStiffnessSelect> rotational)
        {
            string name    = "";
            bool   partial = false;

            if (translational.X == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!translational.X.mRigid && translational.X.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (translational.X.mRigid ? 'T' : 'F');
            }
            if (translational.Y == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!translational.Y.mRigid && translational.Y.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (translational.Y.mRigid ? 'T' : 'F');
            }
            if (translational.Z == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!translational.Z.mRigid && translational.Z.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (translational.Z.mRigid ? 'T' : 'F');
            }
            if (rotational.X == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!rotational.X.mRigid && rotational.X.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (rotational.X.mRigid ? 'T' : 'F');
            }
            if (rotational.Y == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!rotational.Y.mRigid && rotational.Y.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (rotational.Y.mRigid ? 'T' : 'F');
            }
            if (rotational.Z == null)
            {
                name += isPointRestraint ? 'F' : 'T';
            }
            else if (!rotational.Z.mRigid && rotational.Z.mStiffness != null)
            {
                partial = true;
            }
            else
            {
                name += (rotational.Z.mRigid ? 'T' : 'F');
            }

            if (partial)
            {
#warning implement
                return(new IfcBoundaryNodeCondition(mDatabase, "", translational.X, translational.Y, translational.Z, rotational.X, rotational.Y, rotational.Z));
            }
            if (mBoundaryNodeConditions.ContainsKey(name))
            {
                return(mBoundaryNodeConditions[name]);
            }
            IfcBoundaryNodeCondition result = new IfcBoundaryNodeCondition(mDatabase, name, translational.X, translational.Y, translational.Z, rotational.X, rotational.Y, rotational.Z);
            mBoundaryNodeConditions.Add(name, result);
            return(result);
        }
Exemplo n.º 2
0
 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;
 }
Exemplo n.º 3
0
        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);
        }
Exemplo n.º 4
0
		internal static void parseFields(IfcBoundaryNodeCondition b, List<string> arrFields, ref int ipos, Schema schema)
		{
			IfcBoundaryCondition.parseFields(b, arrFields, ref ipos);
			b.mTranslationalStiffnessX = IfcTranslationalStiffnessSelect.Parse(arrFields[ipos++], schema);
			b.mTranslationalStiffnessY = IfcTranslationalStiffnessSelect.Parse(arrFields[ipos++], schema);
			b.mTranslationalStiffnessZ = IfcTranslationalStiffnessSelect.Parse(arrFields[ipos++], schema);
			b.mRotationalStiffnessX = IfcRotationalStiffnessSelect.Parse(arrFields[ipos++], schema);
			b.mRotationalStiffnessY = IfcRotationalStiffnessSelect.Parse(arrFields[ipos++], schema);
			b.mRotationalStiffnessZ = IfcRotationalStiffnessSelect.Parse(arrFields[ipos++], schema);
		}
Exemplo n.º 5
0
		internal static IfcBoundaryNodeCondition Parse(string strDef) { IfcBoundaryNodeCondition b = new IfcBoundaryNodeCondition(); int ipos = 0; parseFields(b, ParserSTEP.SplitLineFields(strDef), ref ipos); return b; }
Exemplo n.º 6
0
		internal IfcBoundaryNodeCondition(IfcBoundaryNodeCondition i) : base(i) { mTranslationalStiffnessX = i.mTranslationalStiffnessX; mTranslationalStiffnessY = i.mTranslationalStiffnessY; mTranslationalStiffnessZ = i.mTranslationalStiffnessZ; mRotationalStiffnessX = i.mRotationalStiffnessX; mRotationalStiffnessY = i.mRotationalStiffnessY; mRotationalStiffnessZ = i.mRotationalStiffnessZ; }
Exemplo n.º 7
0
 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;
 }