-// Name : ConstructionAPI_Plane.cpp
-// Purpose:
+// Copyright (C) 2014-2019 CEA/DEN, EDF R&D
+//
+// This library is free software; you can redistribute it and/or
+// modify it under the terms of the GNU Lesser General Public
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
+//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+// Lesser General Public License for more details.
+//
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
+// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+//
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
-// History:
-// 27/05/16 - Sergey POKHODENKO - Creation of the file
#include "ConstructionAPI_Plane.h"
{
fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_OTHER_PLANE(), mycreationMethod);
fillAttribute(theFace, myplane);
- fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_DISTANCE_FROM_OTHER(), mycreationMethodByOtherPlane);
+ fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_DISTANCE_FROM_OTHER(),
+ mycreationMethodByOtherPlane);
fillAttribute(theDistance, mydistance);
fillAttribute(theIsReverse, myreverse);
void ConstructionAPI_Plane::setByTwoParallelPlanes(const ModelHighAPI_Selection& thePlane1,
const ModelHighAPI_Selection& thePlane2)
{
- fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_TWO_PARALLEL_PLANES(), mycreationMethod);
+ fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_TWO_PARALLEL_PLANES(),
+ mycreationMethod);
fillAttribute(thePlane1, myplane1);
fillAttribute(thePlane2, myplane2);
{
fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_OTHER_PLANE(), mycreationMethod);
fillAttribute(thePlane, myplane);
- fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_COINCIDENT_TO_POINT(), mycreationMethodByOtherPlane);
+ fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_COINCIDENT_TO_POINT(),
+ mycreationMethodByOtherPlane);
fillAttribute(thePoint, mycoincidentPoint);
execute();
{
fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_OTHER_PLANE(), mycreationMethod);
fillAttribute(thePlane, myplane);
- fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_ROTATION(), mycreationMethodByOtherPlane);
+ fillAttribute(ConstructionPlugin_Plane::CREATION_METHOD_BY_ROTATION(),
+ mycreationMethodByOtherPlane);
fillAttribute(theAxis, myaxis);
fillAttribute(theAngle, myangle);
theDumper << aBase << " = model.addPlane(" << aDocName;
- std::string aCreationMethod = aBase->string(ConstructionPlugin_Plane::CREATION_METHOD())->value();
+ std::string aCreationMethod =
+ aBase->string(ConstructionPlugin_Plane::CREATION_METHOD())->value();
if(aCreationMethod == ConstructionPlugin_Plane::CREATION_METHOD_BY_GENERAL_EQUATION()) {
AttributeDoublePtr anAttrA = aBase->real(ConstructionPlugin_Plane::A());
} else if(aCreationMethod == ConstructionPlugin_Plane::CREATION_METHOD_BY_LINE_AND_POINT()) {
AttributeSelectionPtr anAttrLine = aBase->selection(ConstructionPlugin_Plane::LINE());
AttributeSelectionPtr anAttrPoint = aBase->selection(ConstructionPlugin_Plane::POINT());
- AttributeBooleanPtr anAttrPerpendicular = aBase->boolean(ConstructionPlugin_Plane::PERPENDICULAR());
+ AttributeBooleanPtr anAttrPerpendicular =
+ aBase->boolean(ConstructionPlugin_Plane::PERPENDICULAR());
theDumper << ", " << anAttrLine << ", " << anAttrPoint << ", " << anAttrPerpendicular;
} else if(aCreationMethod == ConstructionPlugin_Plane::CREATION_METHOD_BY_OTHER_PLANE()) {
std::string aCreationMethodOption =
aBase->string(ConstructionPlugin_Plane::CREATION_METHOD_BY_OTHER_PLANE_OPTION())->value();
- if(aCreationMethodOption == ConstructionPlugin_Plane::CREATION_METHOD_BY_DISTANCE_FROM_OTHER()) {
+ if(aCreationMethodOption ==
+ ConstructionPlugin_Plane::CREATION_METHOD_BY_DISTANCE_FROM_OTHER()) {
AttributeDoublePtr anAttrDistance = aBase->real(ConstructionPlugin_Plane::DISTANCE());
AttributeBooleanPtr anAttrReverse = aBase->boolean(ConstructionPlugin_Plane::REVERSE());
theDumper << ", " << anAttrPlane << ", " << anAttrDistance << ", " << anAttrReverse;
- } else if(aCreationMethodOption == ConstructionPlugin_Plane::CREATION_METHOD_BY_COINCIDENT_TO_POINT()) {
- AttributeSelectionPtr anAttrPoint = aBase->selection(ConstructionPlugin_Plane::COINCIDENT_POINT());
+ } else if(aCreationMethodOption ==
+ ConstructionPlugin_Plane::CREATION_METHOD_BY_COINCIDENT_TO_POINT()) {
+ AttributeSelectionPtr anAttrPoint =
+ aBase->selection(ConstructionPlugin_Plane::COINCIDENT_POINT());
theDumper << ", " << anAttrPlane << ", " << anAttrPoint;
} else if(aCreationMethodOption == ConstructionPlugin_Plane::CREATION_METHOD_BY_ROTATION()) {
theDumper << ", " << anAttrPlane << ", " << anAttrAxis << ", " << anAttrAngle;
}
- } else if(aCreationMethod == ConstructionPlugin_Plane::CREATION_METHOD_BY_TWO_PARALLEL_PLANES()) {
+ } else if(aCreationMethod ==
+ ConstructionPlugin_Plane::CREATION_METHOD_BY_TWO_PARALLEL_PLANES()) {
AttributeSelectionPtr anAttrPlane1 = aBase->selection(ConstructionPlugin_Plane::PLANE1());
AttributeSelectionPtr anAttrPlane2 = aBase->selection(ConstructionPlugin_Plane::PLANE2());