-// Copyright (C) 2014-20xx CEA/DEN, EDF R&D
+// Copyright (C) 2014-2016 CEA/DEN, EDF R&D
// File: ConstructionPlugin_Axis.cpp
// Created: 12 Dec 2014
// Author: Vitaly Smetannikov
+// Modified by Clarisse Genrault (CEA) : 29 Mar 2016
+
#include "ConstructionPlugin_Axis.h"
#include <Config_PropManager.h>
+#include <ModelAPI_AttributeBoolean.h>
#include <ModelAPI_AttributeSelection.h>
#include <ModelAPI_ResultConstruction.h>
#include <ModelAPI_AttributeString.h>
#include <ModelAPI_AttributeDouble.h>
+#include <ModelAPI_Session.h>
+#include <ModelAPI_Validator.h>
#include <GeomAPI_Edge.h>
+#include <GeomAPI_Lin.h>
+#include <GeomAPI_Pln.h>
#include <GeomAPI_Vertex.h>
#include <GeomAlgoAPI_EdgeBuilder.h>
#include <GeomAlgoAPI_PointBuilder.h>
+#include <math.h>
+
#ifdef _DEBUG
#include <iostream>
#endif
-using namespace std;
+static const double defaultAxisSize = 100;
ConstructionPlugin_Axis::ConstructionPlugin_Axis()
{
{
data()->addAttribute(ConstructionPlugin_Axis::METHOD(),
ModelAPI_AttributeString::typeId());
+
+ // Attributes needed to build the axis using the "two points" method
data()->addAttribute(ConstructionPlugin_Axis::POINT_FIRST(),
ModelAPI_AttributeSelection::typeId());
data()->addAttribute(ConstructionPlugin_Axis::POINT_SECOND(),
ModelAPI_AttributeSelection::typeId());
+
+ // Attributes needed to build the axis using the "cylindrical face" method"
data()->addAttribute(ConstructionPlugin_Axis::CYLINDRICAL_FACE(),
ModelAPI_AttributeSelection::typeId());
data()->addAttribute(ConstructionPlugin_Axis::X_DIRECTION(),
ModelAPI_AttributeDouble::typeId());
data()->addAttribute(ConstructionPlugin_Axis::Z_DIRECTION(),
ModelAPI_AttributeDouble::typeId());
+ ModelAPI_Session::get()->validators()->registerNotObligatory(getKind(),
+ ConstructionPlugin_Axis::X_DIRECTION());
+ ModelAPI_Session::get()->validators()->registerNotObligatory(getKind(),
+ ConstructionPlugin_Axis::Y_DIRECTION());
+ ModelAPI_Session::get()->validators()->registerNotObligatory(getKind(),
+ ConstructionPlugin_Axis::Z_DIRECTION());
+
+ //Attributes needed to build the axis using the "three dimensions" method
+ data()->addAttribute(ConstructionPlugin_Axis::DX(),
+ ModelAPI_AttributeDouble::typeId());
+ data()->addAttribute(ConstructionPlugin_Axis::DY(),
+ ModelAPI_AttributeDouble::typeId());
+ data()->addAttribute(ConstructionPlugin_Axis::DZ(),
+ ModelAPI_AttributeDouble::typeId());
+
+ /// Attributes for axis by line.
+ data()->addAttribute(LINE(), ModelAPI_AttributeSelection::typeId());
+
+ /// Attributes for axis by plane and point.
+ data()->addAttribute(PLANE(), ModelAPI_AttributeSelection::typeId());
+ data()->addAttribute(POINT(), ModelAPI_AttributeSelection::typeId());
+
+ /// Attributes for axis by two planes.
+ data()->addAttribute(PLANE1(), ModelAPI_AttributeSelection::typeId());
+ data()->addAttribute(USE_OFFSET1(), ModelAPI_AttributeString::typeId());
+ data()->addAttribute(OFFSET1(), ModelAPI_AttributeDouble::typeId());
+ data()->addAttribute(REVERSE_OFFSET1(), ModelAPI_AttributeBoolean::typeId());
+ data()->addAttribute(PLANE2(), ModelAPI_AttributeSelection::typeId());
+ data()->addAttribute(USE_OFFSET2(), ModelAPI_AttributeString::typeId());
+ data()->addAttribute(OFFSET2(), ModelAPI_AttributeDouble::typeId());
+ data()->addAttribute(REVERSE_OFFSET2(), ModelAPI_AttributeBoolean::typeId());
}
void ConstructionPlugin_Axis::createAxisByTwoPoints()
AttributeDoublePtr aXAttr = data()->real(ConstructionPlugin_Axis::X_DIRECTION());
AttributeDoublePtr aYAttr = data()->real(ConstructionPlugin_Axis::Y_DIRECTION());
AttributeDoublePtr aZAttr = data()->real(ConstructionPlugin_Axis::Z_DIRECTION());
- if ((aRef1.get() != NULL) && (aXAttr.get() != NULL) &&
+ if ((aRef1.get() != NULL) && (aXAttr.get() != NULL) &&
(aYAttr.get() != NULL) && (aZAttr.get() != NULL)) {
GeomShapePtr aShape1 = aRef1->value();
if (!aShape1.get())
aShape1 = aRef1->context()->shape();
- std::shared_ptr<GeomAPI_Vertex> aVertex(new GeomAPI_Vertex(aXAttr->value(),
+ std::shared_ptr<GeomAPI_Vertex> aVertex(new GeomAPI_Vertex(aXAttr->value(),
aYAttr->value(),
aZAttr->value()));
if (aShape1->isVertex() && (!aShape1->isEqual(aVertex))) {
std::shared_ptr<GeomAPI_Pnt> aStart = GeomAlgoAPI_PointBuilder::point(aShape1);
- std::shared_ptr<GeomAPI_Pnt> anEnd = GeomAlgoAPI_PointBuilder::point(aVertex);
+ std::shared_ptr<GeomAPI_Pnt> anEnd = aVertex->point();
if (aStart->distance(anEnd) > ConstructionPlugin_Axis::MINIMAL_LENGTH()) {
std::shared_ptr<GeomAPI_Edge> anEdge = GeomAlgoAPI_EdgeBuilder::line(aStart, anEnd);
}
}
+void ConstructionPlugin_Axis::createAxisByDimensions()
+{
+ // Start by getting these dimensions
+ double aDX = data()->real(DX())->value();
+ double aDY = data()->real(DY())->value();
+ double aDZ = data()->real(DZ())->value();
+
+ if (fabs(aDX) < MINIMAL_LENGTH() && fabs(aDY) < MINIMAL_LENGTH() &&
+ fabs(aDZ) < MINIMAL_LENGTH()) {
+ setError("Axis builder with dimensions :: all dimensions are null", false);
+ return ;
+ }
+
+ // Make the axis, build the ResultConstructionPtr and write it
+ std::shared_ptr<GeomAPI_Edge> anEdge = GeomAlgoAPI_EdgeBuilder::line(aDX, aDY, aDZ);
+ ResultConstructionPtr aConstr = document()->createConstruction(data());
+ aConstr->setInfinite(true);
+ aConstr->setShape(anEdge);
+ setResult(aConstr);
+}
+
+void ConstructionPlugin_Axis::createAxisByLine()
+{
+ // Get edge.
+ AttributeSelectionPtr anEdgeSelection = selection(LINE());
+ GeomShapePtr aLineShape = anEdgeSelection->value();
+ if(!aLineShape.get()) {
+ aLineShape = anEdgeSelection->context()->shape();
+ }
+ std::shared_ptr<GeomAPI_Edge> anEdge(new GeomAPI_Edge(aLineShape));
+
+ ResultConstructionPtr aConstr = document()->createConstruction(data());
+ aConstr->setInfinite(true);
+ aConstr->setShape(anEdge);
+ setResult(aConstr);
+}
+
+void ConstructionPlugin_Axis::createAxisByPlaneAndPoint()
+{
+ // Get face.
+ AttributeSelectionPtr aFaceSelection = selection(PLANE());
+ GeomShapePtr aFaceShape = aFaceSelection->value();
+ if(!aFaceShape.get()) {
+ aFaceShape = aFaceSelection->context()->shape();
+ }
+ std::shared_ptr<GeomAPI_Face> aFace(new GeomAPI_Face(aFaceShape));
+ std::shared_ptr<GeomAPI_Pln> aPln = aFace->getPlane();
+
+ // Get point.
+ AttributeSelectionPtr aPointSelection = selection(POINT());
+ GeomShapePtr aPointShape = aPointSelection->value();
+ if(!aPointShape.get()) {
+ aPointShape = aPointSelection->context()->shape();
+ }
+ std::shared_ptr<GeomAPI_Vertex> aVertex(new GeomAPI_Vertex(aPointShape));
+ std::shared_ptr<GeomAPI_Pnt> aPnt = aVertex->point();
+
+ std::shared_ptr<GeomAPI_Pnt> aProjPnt = aPln->project(aPnt);
+
+ if(aProjPnt->isEqual(aPnt)) {
+ aPnt->translate(aPln->direction(), defaultAxisSize);
+ }
+
+ std::shared_ptr<GeomAPI_Edge> anEdge = GeomAlgoAPI_EdgeBuilder::line(aPnt, aProjPnt);
+
+ ResultConstructionPtr aConstr = document()->createConstruction(data());
+ aConstr->setInfinite(true);
+ aConstr->setShape(anEdge);
+ setResult(aConstr);
+}
+
+void ConstructionPlugin_Axis::createAxisByTwoPlanes()
+{
+ // Get face 1.
+ AttributeSelectionPtr aFaceSelection1 = selection(PLANE1());
+ GeomShapePtr aFaceShape1 = aFaceSelection1->value();
+ if(!aFaceShape1.get()) {
+ aFaceShape1 = aFaceSelection1->context()->shape();
+ }
+ std::shared_ptr<GeomAPI_Face> aFace1(new GeomAPI_Face(aFaceShape1));
+ std::shared_ptr<GeomAPI_Pln> aPln1 = aFace1->getPlane();
+ std::string useOffset1 = string(USE_OFFSET1())->value();
+ if(!useOffset1.empty()) {
+ double anOffset1 = real(OFFSET1())->value();
+ bool reverseOffset1 = boolean(REVERSE_OFFSET1())->value();
+ if(reverseOffset1) {
+ anOffset1 = -anOffset1;
+ }
+ aPln1->translate(aPln1->direction(), anOffset1);
+ }
+
+ // Get face 2.
+ AttributeSelectionPtr aFaceSelection2 = selection(PLANE2());
+ GeomShapePtr aFaceShape2 = aFaceSelection2->value();
+ if(!aFaceShape2.get()) {
+ aFaceShape2 = aFaceSelection2->context()->shape();
+ }
+ std::shared_ptr<GeomAPI_Face> aFace2(new GeomAPI_Face(aFaceShape2));
+ std::shared_ptr<GeomAPI_Pln> aPln2 = aFace2->getPlane();
+
+ std::string useOffset2 = string(USE_OFFSET2())->value();
+ if(!useOffset2.empty()) {
+ double anOffset2 = real(OFFSET2())->value();
+ bool reverseOffset2 = boolean(REVERSE_OFFSET2())->value();
+ if(reverseOffset2) {
+ anOffset2 = -anOffset2;
+ }
+ aPln2->translate(aPln2->direction(), anOffset2);
+ }
+
+ std::shared_ptr<GeomAPI_Lin> aLin = aPln1->intersect(aPln2);
+ std::shared_ptr<GeomAPI_Pnt> aPnt1 = aLin->location();
+ std::shared_ptr<GeomAPI_Pnt> aPnt2 = aLin->location();
+ aPnt2->translate(aLin->direction(), defaultAxisSize);
+
+ std::shared_ptr<GeomAPI_Edge> anEdge = GeomAlgoAPI_EdgeBuilder::line(aPnt1, aPnt2);
+
+ ResultConstructionPtr aConstr = document()->createConstruction(data());
+ aConstr->setInfinite(true);
+ aConstr->setShape(anEdge);
+ setResult(aConstr);
+}
void ConstructionPlugin_Axis::execute()
{
AttributeStringPtr aMethodTypeAttr = string(ConstructionPlugin_Axis::METHOD());
std::string aMethodType = aMethodTypeAttr->value();
- if (aMethodType == "AxisByPointsCase") {
+ if (aMethodType == CREATION_METHOD_BY_TWO_POINTS()) {
createAxisByTwoPoints();
- } else if (aMethodType == "AxisByCylindricalFaceCase") {
+ } else if (aMethodType == CREATION_METHOD_BY_CYLINDRICAL_FACE()) {
createAxisByCylindricalFace();
- } else if (aMethodType == "AxisByPointAndDirection") {
+ } else if (aMethodType == CREATION_METHOD_BY_POINT_AND_DIRECTION()) {
createAxisByPointAndDirection();
+ } else if (aMethodType == CREATION_METHOD_BY_DIMENSIONS()) {
+ createAxisByDimensions();
+ } else if(aMethodType == CREATION_METHOD_BY_LINE()) {
+ createAxisByLine();
+ } else if(aMethodType == CREATION_METHOD_BY_PLANE_AND_POINT()) {
+ createAxisByPlaneAndPoint();
+ } else if(aMethodType == CREATION_METHOD_BY_TWO_PLANES()) {
+ createAxisByTwoPlanes();
}
}
