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occt/src/DrawFairCurve/DrawFairCurve_Batten.cxx
abv 92efcf78a6 0026936: Drawbacks of inlining in new type system in OCCT 7.0 -- automatic 
Automatic restore of IMPLEMENT_STANDARD_RTTIEXT macro (upgrade -rtti)
2015-12-04 14:15:06 +03:00

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// Created on: 1996-02-16
// Created by: Philippe MANGIN
// Copyright (c) 1996-1999 Matra Datavision
// Copyright (c) 1999-2014 OPEN CASCADE SAS
//
// This file is part of Open CASCADE Technology software library.
//
// This library is free software; you can redistribute it and/or modify it under
// the terms of the GNU Lesser General Public License version 2.1 as published
// by the Free Software Foundation, with special exception defined in the file
// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
// distribution for complete text of the license and disclaimer of any warranty.
//
// Alternatively, this file may be used under the terms of Open CASCADE
// commercial license or contractual agreement.
#include <DrawFairCurve_Batten.hxx>
#include <FairCurve_AnalysisCode.hxx>
#include <FairCurve_Batten.hxx>
#include <Geom2d_BSplineCurve.hxx>
#include <GeomTools_Curve2dSet.hxx>
#include <gp_Pnt2d.hxx>
#include <Standard_Type.hxx>
IMPLEMENT_STANDARD_RTTIEXT(DrawFairCurve_Batten,DrawTrSurf_BSplineCurve2d)
DrawFairCurve_Batten::DrawFairCurve_Batten(const Standard_Address TheBatten)
: DrawTrSurf_BSplineCurve2d( ((FairCurve_Batten*)TheBatten)->Curve()),
MyBatten( TheBatten)
{
Compute();
ShowCurvature();
}
void DrawFairCurve_Batten::Compute()
{
FairCurve_AnalysisCode Iana;
((FairCurve_Batten*)MyBatten)->Compute(Iana, 50, 1.0e-2);
curv = ((FairCurve_Batten*)MyBatten)->Curve();
}
void DrawFairCurve_Batten::SetPoint(const Standard_Integer Side, const gp_Pnt2d& Point)
{
if (Side == 1) {
((FairCurve_Batten*)MyBatten)->SetP1(Point);
}
else {
((FairCurve_Batten*)MyBatten)-> SetP2(Point);
}
Compute();
}
void DrawFairCurve_Batten::SetAngle(const Standard_Integer Side, const Standard_Real Angle)
{
if (Side == 1) {
((FairCurve_Batten*)MyBatten)->SetAngle1(Angle*M_PI/180);
if ( ((FairCurve_Batten*)MyBatten)->GetConstraintOrder1() == 0 )
{
((FairCurve_Batten*)MyBatten)->SetConstraintOrder1(1);
}
}
else {
((FairCurve_Batten*)MyBatten)->SetAngle2(Angle*M_PI/180);
if ( ((FairCurve_Batten*)MyBatten)->GetConstraintOrder2() == 0 )
{
((FairCurve_Batten*)MyBatten)->SetConstraintOrder2(1);
}
}
Compute();
}
void DrawFairCurve_Batten::SetSliding(const Standard_Real Length)
{
((FairCurve_Batten*)MyBatten)-> SetFreeSliding(Standard_False);
((FairCurve_Batten*)MyBatten)->SetSlidingFactor(Length);
Compute();
}
void DrawFairCurve_Batten::SetHeight(const Standard_Real Height)
{
((FairCurve_Batten*)MyBatten)->SetHeight(Height);
Compute();
}
void DrawFairCurve_Batten::SetSlope(const Standard_Real Slope)
{
((FairCurve_Batten*)MyBatten)->SetSlope(Slope);
Compute();
}
Standard_Real DrawFairCurve_Batten::GetAngle(const Standard_Integer Side) const
{
if (Side == 1) return ((FairCurve_Batten*)MyBatten)->GetAngle1();
else return ((FairCurve_Batten*)MyBatten)->GetAngle2();
}
Standard_Real DrawFairCurve_Batten::GetSliding() const
{
return ((FairCurve_Batten*)MyBatten)->GetSlidingFactor();
}
void DrawFairCurve_Batten::FreeSliding()
{
((FairCurve_Batten*)MyBatten)->SetFreeSliding(Standard_True);
Compute();
}
void DrawFairCurve_Batten::FreeAngle(const Standard_Integer Side)
{
if (Side == 1) ((FairCurve_Batten*)MyBatten)->SetConstraintOrder1(0);
else ((FairCurve_Batten*)MyBatten)->SetConstraintOrder2(0);
Compute();
}
void DrawFairCurve_Batten::Dump(Standard_OStream& S)const
{
GeomTools_Curve2dSet::PrintCurve2d(curv,S);
((FairCurve_Batten*)MyBatten)->Dump(S);
}
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