(* SCHEMA IFC4; *)
FUNCTION IfcVectorSum (Arg1, Arg2 : IfcVectorOrDirection) : IfcVector; LOCAL Result : IfcVector; Res, Vec1, Vec2 : IfcDirection; Mag, Mag1, Mag2 : REAL; Ndim : INTEGER; END_LOCAL; IF ((NOT EXISTS (Arg1)) OR (NOT EXISTS (Arg2))) OR (Arg1.Dim <> Arg2.Dim) THEN RETURN (?) ; ELSE BEGIN IF 'IFC4.IFCVECTOR' IN TYPEOF(Arg1) THEN Mag1 := Arg1\IfcVector.Magnitude; Vec1 := Arg1\IfcVector.Orientation; ELSE Mag1 := 1.0; Vec1 := Arg1; END_IF; IF 'IFC4.IFCVECTOR' IN TYPEOF(Arg2) THEN Mag2 := Arg2\IfcVector.Magnitude; Vec2 := Arg2\IfcVector.Orientation; ELSE Mag2 := 1.0; Vec2 := Arg2; END_IF; Vec1 := IfcNormalise (Vec1); Vec2 := IfcNormalise (Vec2); Ndim := SIZEOF(Vec1.DirectionRatios); Mag := 0.0; Res := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0:Ndim]); REPEAT i := 1 TO Ndim; Res.DirectionRatios[i] := Mag1*Vec1.DirectionRatios[i] + Mag2*Vec2.DirectionRatios[i]; Mag := Mag + (Res.DirectionRatios[i]*Res.DirectionRatios[i]); END_REPEAT; IF (Mag > 0.0 ) THEN Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Res, SQRT(Mag)); ELSE Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Vec1, 0.0); END_IF; END; END_IF; RETURN (Result); END_FUNCTION;
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2016-06-01T11:21:50-04:00