-// Copyright (C) 2014-20xx CEA/DEN, EDF R&D
-
-// File: SolveSpaceSolver_Builder.cpp
-// Created: 25 Mar 2015
-// Author: Artem ZHIDKOV
+// Copyright (C) 2014-2024 CEA, EDF
+//
+// 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
+//
#include <SolveSpaceSolver_Builder.h>
#include <SolveSpaceSolver_Solver.h>
#include <SketchSolver_Manager.h>
+#include <GeomAPI_Angle2d.h>
#include <GeomAPI_Dir2d.h>
#include <GeomAPI_Pnt2d.h>
#include <GeomAPI_XY.h>
#include <SketchPlugin_Circle.h>
#include <SketchPlugin_Line.h>
#include <SketchPlugin_Point.h>
+#include <SketchPlugin_IntersectionPoint.h>
+#include <SketchPlugin_ConstraintAngle.h>
#include <math.h>
static void adjustAngle(ConstraintWrapperPtr theConstraint);
/// \brief Update mirror points
static void adjustMirror(ConstraintWrapperPtr theConstraint);
-/// \brief Update positions of rotated features
-static void adjustMultiRotation(ConstraintWrapperPtr theConstraint);
-/// \brief Update positions of translated features
-static void adjustMultiTranslation(ConstraintWrapperPtr theConstraint);
+/// \brief Update a sign of the point-line distance constraint
+static void adjustPtLineDistance(ConstraintWrapperPtr theConstraint);
/// \brief Transform points to be symmetric regarding to the mirror line
static void makeMirrorPoints(EntityWrapperPtr theOriginal,
if (theType == CONSTRAINT_SYMMETRIC)
return createMirror(theConstraint, theGroupID, theSketchID,
thePoint1, thePoint2, theEntity1);
+ else if (theType == CONSTRAINT_TANGENT_CIRCLE_LINE) {
+ // replace by distance from center of circle to the line
+ const std::list<EntityWrapperPtr>& aSubs = theEntity1->subEntities();
+ EntityWrapperPtr aCenter = aSubs.front();
+ AttributeDoublePtr aRadius = std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(
+ aSubs.back()->baseAttribute());
+ return createConstraint(theConstraint, theGroupID, theSketchID,
+ CONSTRAINT_PT_LINE_DISTANCE, aRadius->value(), aCenter, EntityWrapperPtr(), theEntity2);
+ }
+ else if (theType == CONSTRAINT_COLLINEAR) {
+ // replace by two constraints point-on-line
+ std::list<ConstraintWrapperPtr> aConstraints;
+ const std::list<EntityWrapperPtr>& aSubs1 = theEntity1->subEntities();
+ const std::list<EntityWrapperPtr>& aSubs2 = theEntity2->subEntities();
+ std::list<EntityWrapperPtr>::const_iterator anIt1, anIt2;
+ for (anIt2 = aSubs2.begin(); anIt2 != aSubs2.end(); ++anIt2) {
+ for (anIt1 = aSubs1.begin(); anIt1 != aSubs1.end(); ++anIt1)
+ if ((*anIt1)->id() == (*anIt2)->id())
+ break;
+ if (anIt1 != aSubs1.end())
+ continue; // the lines have coincident point
+
+ std::list<ConstraintWrapperPtr> aC = createConstraint(theConstraint, theGroupID,
+ theSketchID, CONSTRAINT_PT_ON_LINE, theValue, *anIt2, EntityWrapperPtr(), theEntity1);
+ aConstraints.insert(aConstraints.end(), aC.begin(), aC.end());
+ }
+ return aConstraints;
+ }
int aType = ConstraintType::toSolveSpace(theType);
if (aType == SLVS_C_UNKNOWN)
if (!anOriginal[i])
continue;
aSlvsEntities[i] = (Slvs_hEntity)anOriginal[i]->id();
+ // entity is not added into a storage, constraint can not be created
if (aSlvsEntities[i] == SLVS_E_UNKNOWN)
- return std::list<ConstraintWrapperPtr>(); // entity is not added into a storage, constraint can not be created
+ return std::list<ConstraintWrapperPtr>();
aConstrAttrList.push_back(anOriginal[i]);
}
SLVS_C_UNKNOWN, (Slvs_hGroup)theGroupID, aType, (Slvs_hEntity)theSketchID,
theValue, aSlvsEntities[0], aSlvsEntities[1], aSlvsEntities[2], aSlvsEntities[3]);
ConstraintWrapperPtr aResult(new SolveSpaceSolver_ConstraintWrapper(theConstraint, aConstraint));
+ aResult->setGroup(theGroupID);
aResult->setValue(theValue);
aResult->setEntities(aConstrAttrList);
adjustConstraint(aResult);
const EntityID& theSketchID,
const SketchSolver_ConstraintType& theType,
const double& theValue,
+ const bool theFullValue,
const EntityWrapperPtr& thePoint1,
const EntityWrapperPtr& thePoint2,
const std::list<EntityWrapperPtr>& theTrsfEnt) const
aConstrAttrList.push_front(thePoint1);
ConstraintWrapperPtr aResult(new SolveSpaceSolver_ConstraintWrapper(theConstraint, aConstraint));
+ aResult->setGroup(theGroupID);
aResult->setValue(theValue);
+ aResult->setIsFullValue(theFullValue);
aResult->setEntities(aConstrAttrList);
return std::list<ConstraintWrapperPtr>(1, aResult);
}
std::list<ConstraintWrapperPtr> aResult;
std::list<EntityWrapperPtr> aConstrAttrList;
if (theEntity1->type() == ENTITY_POINT) {
- if (theEntity2->group() == theGroupID) // theEntity2 is not fixed
- makeMirrorPoints(theEntity1, theEntity2, theMirrorLine);
+ makeMirrorPoints(theEntity1, theEntity2, theMirrorLine);
aConstraint = Slvs_MakeConstraint(
SLVS_E_UNKNOWN, (Slvs_hGroup)theGroupID, SLVS_C_SYMMETRIC_LINE, (Slvs_hEntity)theSketchID,
ConstraintWrapperPtr aWrapper(new SolveSpaceSolver_ConstraintWrapper(
theConstraint, aConstraint));
+ aWrapper->setGroup(theGroupID);
aWrapper->setEntities(aConstrAttrList);
aResult.push_back(aWrapper);
}
aResult.insert(aResult.end(), aMrrList.begin(), aMrrList.end());
}
else if (theEntity1->type() == ENTITY_ARC) {
- // Do not allow mirrored arc recalculate its position until coordinated of all points recalculated
+ // Do not allow mirrored arc recalculate its position until
+ // coordinated of all points recalculated
FeaturePtr aMirrArc = theEntity2->baseFeature();
- aMirrArc->data()->blockSendAttributeUpdated(true);
+ bool aWasBlocked = aMirrArc->data()->blockSendAttributeUpdated(true);
std::list<ConstraintWrapperPtr> aMrrList;
std::list<EntityWrapperPtr>::const_iterator anIt1 = theEntity1->subEntities().begin();
std::list<EntityWrapperPtr>::const_iterator anIt2 = theEntity2->subEntities().begin();
- if ((*anIt2)->group() == theGroupID) // mirrored point is not fixed
- makeMirrorPoints(theEntity1->subEntities().front(),
- theEntity2->subEntities().front(), theMirrorLine);
+ makeMirrorPoints(*anIt1, *anIt2, theMirrorLine);
// Workaround to avoid problems in SolveSpace.
// The symmetry of two arcs will be done using symmetry of three points on these arcs:
anIt1 = aBaseArcPoints.begin();
anIt2 = aMirrorArcPoints.begin();
for (; anIt1 != aBaseArcPoints.end(); ++anIt1, ++anIt2) {
- aMrrList = createMirror(theConstraint, theGroupID, theSketchID, *anIt1, *anIt2, theMirrorLine);
+ aMrrList =
+ createMirror(theConstraint, theGroupID, theSketchID, *anIt1, *anIt2, theMirrorLine);
aResult.insert(aResult.end(), aMrrList.begin(), aMrrList.end());
}
// Restore event sending
- aMirrArc->data()->blockSendAttributeUpdated(false);
+ aMirrArc->data()->blockSendAttributeUpdated(aWasBlocked);
}
return aResult;
}
adjustAngle(theConstraint);
else if (aType == CONSTRAINT_SYMMETRIC)
adjustMirror(theConstraint);
- else if (aType == CONSTRAINT_MULTI_ROTATION)
- adjustMultiRotation(theConstraint);
- else if (aType == CONSTRAINT_MULTI_TRANSLATION)
- adjustMultiTranslation(theConstraint);
+ else if (aType == CONSTRAINT_PT_LINE_DISTANCE)
+ adjustPtLineDistance(theConstraint);
}
EntityWrapperPtr SolveSpaceSolver_Builder::createFeature(
return createLine(theFeature, theAttributes, theGroupID, theSketchID);
// Circle
else if (aFeatureKind == SketchPlugin_Circle::ID())
- return createCircle(theFeature, theAttributes,theGroupID, theSketchID);
+ return createCircle(theFeature, theAttributes, theGroupID, theSketchID);
// Arc
else if (aFeatureKind == SketchPlugin_Arc::ID())
- return createArc(theFeature, theAttributes,theGroupID, theSketchID);
+ return createArc(theFeature, theAttributes, theGroupID, theSketchID);
// Point (it has low probability to be an attribute of constraint, so it is checked at the end)
- else if (aFeatureKind == SketchPlugin_Point::ID()) {
+ else if (aFeatureKind == SketchPlugin_Point::ID() ||
+ aFeatureKind == SketchPlugin_IntersectionPoint::ID()) {
AttributePtr aPoint = theFeature->attribute(SketchPlugin_Point::COORD_ID());
if (!aPoint->isInitialized())
return aDummy;
- EntityWrapperPtr aSub = createAttribute(aPoint, theGroupID, theSketchID);
+ EntityWrapperPtr aSub = theAttributes.empty() ?
+ createAttribute(aPoint, theGroupID, theSketchID) :
+ theAttributes.front();
if (!aSub)
return aDummy;
- std::shared_ptr<SketchPlugin_Point> aPointFeature =
- std::dynamic_pointer_cast<SketchPlugin_Point>(theFeature);
-
const Slvs_Entity& aSubEnt =
std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(aSub)->entity();
- return EntityWrapperPtr(new SolveSpaceSolver_EntityWrapper(aPointFeature, aPoint, aSubEnt));
+ EntityWrapperPtr aResult(new SolveSpaceSolver_EntityWrapper(theFeature, aPoint, aSubEnt));
+ aResult->setSubEntities(theAttributes);
+ return aResult;
}
// wrong entity
std::shared_ptr<GeomDataAPI_Point2D> aPoint2D =
std::dynamic_pointer_cast<GeomDataAPI_Point2D>(theAttribute);
if (aPoint2D) {
- aParameters.push_back(createParameter(theGroupID, aPoint2D->x(), !aPoint2D->textX().empty()));
- aParameters.push_back(createParameter(theGroupID, aPoint2D->y(), !aPoint2D->textY().empty()));
+ aParameters.push_back(createParameter(theGroupID, aPoint2D->x(),
+ !aPoint2D->textX().empty()));
+ aParameters.push_back(createParameter(theGroupID, aPoint2D->y(),
+ !aPoint2D->textY().empty()));
// Create entity (parameters are not filled)
anEntity = Slvs_MakePoint2d(SLVS_E_UNKNOWN, (Slvs_hGroup)theGroupID,
(Slvs_hEntity)theSketchID, SLVS_E_UNKNOWN, SLVS_E_UNKNOWN);
AttributeDoublePtr aScalar =
std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(theAttribute);
if (aScalar) {
- aParameters.push_back(createParameter(theGroupID, aScalar->value(), !aScalar->text().empty()));
+ aParameters.push_back(createParameter(theGroupID, aScalar->value(),
+ !aScalar->text().empty()));
// Create entity (parameter is not filled)
anEntity = Slvs_MakeDistance(SLVS_E_UNKNOWN, (Slvs_hGroup)theGroupID,
(Slvs_hEntity)theSketchID, SLVS_E_UNKNOWN);
std::shared_ptr<GeomDataAPI_Dir> aNorm = std::dynamic_pointer_cast<GeomDataAPI_Dir>(theNormal);
std::shared_ptr<GeomDataAPI_Dir> aDirX = std::dynamic_pointer_cast<GeomDataAPI_Dir>(theDirX);
if (!aDirX || !aNorm ||
- (fabs(aDirX->x()) + fabs(aDirX->y()) + fabs(aDirX->z()) < tolerance) ||
+ (fabs(aDirX->x()) + fabs(aDirX->y()) + fabs(aDirX->z()) < tolerance) ||
!aNorm->isInitialized())
return EntityWrapperPtr();
// calculate Y direction
EntityWrapperPtr aStartEnt, aEndEnt;
std::list<EntityWrapperPtr>::const_iterator anIt = theAttributes.begin();
for (; anIt != theAttributes.end(); ++anIt) {
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
+ std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(*anIt);
if (aSlvsEntity->isBase(aStart))
aStartEnt = aSlvsEntity;
EntityWrapperPtr aCenterEnt, aRadiusEnt, aNormalEnt;
std::list<EntityWrapperPtr>::const_iterator anIt = theAttributes.begin();
for (; anIt != theAttributes.end(); ++anIt) {
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
+ std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(*anIt);
if (aSlvsEntity->isBase(aCenter))
aCenterEnt = aSlvsEntity;
EntityWrapperPtr aCenterEnt, aStartEnt, aEndEnt, aNormalEnt;
std::list<EntityWrapperPtr>::const_iterator anIt = theAttributes.begin();
for (; anIt != theAttributes.end(); ++anIt) {
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
+ std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSlvsEntity =
std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(*anIt);
if (aSlvsEntity->isBase(aCenter))
aCenterEnt = aSlvsEntity;
std::shared_ptr<SolveSpaceSolver_ConstraintWrapper> aConstraint =
std::dynamic_pointer_cast<SolveSpaceSolver_ConstraintWrapper>(theConstraint);
+ bool isFixed[2][2];
std::shared_ptr<GeomAPI_Pnt2d> aPoints[2][2]; // start and end points of lines
const std::list<EntityWrapperPtr>& aConstrLines = aConstraint->entities();
std::list<EntityWrapperPtr>::const_iterator aCLIt = aConstrLines.begin();
for (int i = 0; aCLIt != aConstrLines.end(); ++i, ++aCLIt) {
const std::list<EntityWrapperPtr>& aLinePoints = (*aCLIt)->subEntities();
std::list<EntityWrapperPtr>::const_iterator aLPIt = aLinePoints.begin();
- for (int j = 0; aLPIt != aLinePoints.end(); ++j, ++aLPIt)
+ for (int j = 0; aLPIt != aLinePoints.end(); ++j, ++aLPIt) {
+ isFixed[i][j] = ((*aLPIt)->group() != theConstraint->group());
aPoints[i][j] = aBuilder->point(*aLPIt);
+ }
}
+ if (isFixed[0][0] && isFixed[0][1] && isFixed[1][0] && isFixed[1][1])
+ return; // both lines are fixed => no need to update them
+
std::shared_ptr<GeomAPI_Lin2d> aLine[2] = {
std::shared_ptr<GeomAPI_Lin2d>(new GeomAPI_Lin2d(aPoints[0][0], aPoints[0][1])),
std::shared_ptr<GeomAPI_Lin2d>(new GeomAPI_Lin2d(aPoints[1][0], aPoints[1][1]))
};
- std::shared_ptr<GeomAPI_Pnt2d> anIntersection = aLine[0]->intersect(aLine[1]);
- if (!anIntersection)
- return;
- double aDist[2][2];
- for (int i = 0; i < 2; i++) {
- for (int j = 0; j < 2; j++) {
- aDist[i][j] = anIntersection->distance(aPoints[i][j]);
- if (fabs(aDist[i][j]) <= tolerance)
- aDist[i][j] = 0.0;
- }
- if (aDist[i][0] > tolerance && aDist[i][1] > tolerance &&
- aDist[i][0] + aDist[i][1] < aPoints[i][0]->distance(aPoints[i][1]) + 2.0 * tolerance) {
- // the intersection point is an inner point of the line,
- // we change the sign of distance till start point to calculate correct coordinates
- // after rotation
- aDist[i][0] *= -1.0;
- }
- }
- std::shared_ptr<GeomAPI_Dir2d> aDir[2];
- for (int i = 0; i < 2; i++) {
- if (aDist[i][1] > fabs(aDist[i][0]))
- aDir[i] = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(
- aPoints[i][1]->xy()->decreased(anIntersection->xy())));
- else {
- aDir[i] = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(
- aPoints[i][0]->xy()->decreased(anIntersection->xy())));
- // main direction is opposite => change signs
- if (aDist[i][0] < 0.0) {
- aDist[i][0] *= -1.0;
- aDist[i][1] *= -1.0;
- }
- }
- }
+ bool isReversed[2] = {
+ aConstraint->baseConstraint()->boolean(
+ SketchPlugin_ConstraintAngle::ANGLE_REVERSED_FIRST_LINE_ID())->value(),
+ aConstraint->baseConstraint()->boolean(
+ SketchPlugin_ConstraintAngle::ANGLE_REVERSED_SECOND_LINE_ID())->value()
+ };
+ std::shared_ptr<GeomAPI_Angle2d>
+ anAngle(new GeomAPI_Angle2d(aLine[0], isReversed[0], aLine[1], isReversed[1]));
+ std::shared_ptr<GeomAPI_Pnt2d> aCenter = anAngle->center();
Slvs_Constraint& aSlvsConstraint = aConstraint->changeConstraint();
- aSlvsConstraint.other = false;
- for (int i = 0; i < 2; i++)
- if (aLine[i]->direction()->dot(aDir[i]) < 0.0)
- aSlvsConstraint.other = !aSlvsConstraint.other;
+ aSlvsConstraint.other = isReversed[0] != isReversed[1];
}
void adjustMirror(ConstraintWrapperPtr theConstraint)
(*aMIt)->setValue(aCoord[i]);
// update corresponding attribute
- AttributePtr anAttr = std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theMirrored)->baseAttribute();
+ AttributePtr anAttr =
+ std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theMirrored)->baseAttribute();
if (anAttr) {
- std::shared_ptr<GeomDataAPI_Point2D> aMirroredPnt = std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttr);
+ std::shared_ptr<GeomDataAPI_Point2D> aMirroredPnt =
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttr);
aMirroredPnt->setValue(aCoord[0], aCoord[1]);
}
}
-static void rotate(EntityWrapperPtr theSource, EntityWrapperPtr theDest,
- std::shared_ptr<GeomAPI_Pnt2d> theCenter,
- double theSin, double theCos)
-{
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSource =
- std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theSource);
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aDest =
- std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theDest);
-
- if (theSource->type() == ENTITY_POINT) {
- // Rotate single point
- std::shared_ptr<GeomDataAPI_Point2D> aSrcAttr =
- std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aSource->baseAttribute());
- std::shared_ptr<GeomDataAPI_Point2D> aDstAttr =
- std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aDest->baseAttribute());
- if (aSrcAttr && aDstAttr) {
- std::shared_ptr<GeomAPI_XY> aVec = aSrcAttr->pnt()->xy()->decreased(theCenter->xy());
- double aNewX = aVec->x() * theCos - aVec->y() * theSin;
- double aNewY = aVec->x() * theSin + aVec->y() * theCos;
- aDstAttr->setValue(theCenter->x() + aNewX, theCenter->y() + aNewY);
- }
- return;
- }
-
- FeaturePtr aDestFeature = aDest->baseFeature();
- if (aDestFeature)
- aDestFeature->data()->blockSendAttributeUpdated(true);
-
- // Rotate points of the feature
- const std::list<EntityWrapperPtr>& aSrcSubs = theSource->subEntities();
- const std::list<EntityWrapperPtr>& aDstSubs = theDest->subEntities();
- std::list<EntityWrapperPtr>::const_iterator aSrcIt, aDstIt;
- for (aSrcIt = aSrcSubs.begin(), aDstIt = aDstSubs.begin();
- aSrcIt != aSrcSubs.end() && aDstIt != aDstSubs.end(); ++aSrcIt, ++aDstIt)
- rotate(*aSrcIt, *aDstIt, theCenter, theSin, theCos);
-
- if (aDestFeature)
- aDestFeature->data()->blockSendAttributeUpdated(false);
-}
-
-static void translate(EntityWrapperPtr theSource, EntityWrapperPtr theDest,
- std::shared_ptr<GeomAPI_XY> theDelta)
-{
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aSource =
- std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theSource);
- std::shared_ptr<SolveSpaceSolver_EntityWrapper> aDest =
- std::dynamic_pointer_cast<SolveSpaceSolver_EntityWrapper>(theDest);
-
- if (theSource->type() == ENTITY_POINT) {
- // Translate single point
- std::shared_ptr<GeomDataAPI_Point2D> aSrcAttr =
- std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aSource->baseAttribute());
- std::shared_ptr<GeomDataAPI_Point2D> aDstAttr =
- std::dynamic_pointer_cast<GeomDataAPI_Point2D>(aDest->baseAttribute());
- if (aSrcAttr && aDstAttr)
- aDstAttr->setValue(aSrcAttr->x() + theDelta->x(), aSrcAttr->y() + theDelta->y());
- return;
- }
-
- FeaturePtr aDestFeature = aDest->baseFeature();
- if (aDestFeature)
- aDestFeature->data()->blockSendAttributeUpdated(true);
-
- // Translate points of the feature
- const std::list<EntityWrapperPtr>& aSrcSubs = theSource->subEntities();
- const std::list<EntityWrapperPtr>& aDstSubs = theDest->subEntities();
- std::list<EntityWrapperPtr>::const_iterator aSrcIt, aDstIt;
- for (aSrcIt = aSrcSubs.begin(), aDstIt = aDstSubs.begin();
- aSrcIt != aSrcSubs.end() && aDstIt != aDstSubs.end(); ++aSrcIt, ++aDstIt)
- translate(*aSrcIt, *aDstIt, theDelta);
-
- if (aDestFeature)
- aDestFeature->data()->blockSendAttributeUpdated(false);
-}
-
-void adjustMultiRotation(ConstraintWrapperPtr theConstraint)
+void adjustPtLineDistance(ConstraintWrapperPtr theConstraint)
{
BuilderPtr aBuilder = SolveSpaceSolver_Builder::getInstance();
- double anAngleRad = theConstraint->value() * PI / 180.0;
- double aSin = sin(anAngleRad);
- double aCos = cos(anAngleRad);
-
- const std::list<EntityWrapperPtr>& aSubs = theConstraint->entities();
+ std::shared_ptr<GeomAPI_Pnt2d> aPoint;
+ std::shared_ptr<GeomAPI_Lin2d> aLine;
+ std::list<EntityWrapperPtr> aSubs = theConstraint->entities();
std::list<EntityWrapperPtr>::const_iterator aSIt = aSubs.begin();
+ for (; aSIt != aSubs.end(); ++aSIt) {
+ if ((*aSIt)->type() == ENTITY_POINT)
+ aPoint = aBuilder->point(*aSIt);
+ else if ((*aSIt)->type() == ENTITY_LINE)
+ aLine = aBuilder->line(*aSIt);
+ }
- std::shared_ptr<GeomAPI_Pnt2d> aCenter = aBuilder->point(*aSIt++);
- std::list<EntityWrapperPtr>::const_iterator aPrevIt = aSIt++;
- for (; aSIt != aSubs.end(); ++aPrevIt, ++aSIt)
- rotate(*aPrevIt, *aSIt, aCenter, aSin, aCos);
-}
-
-void adjustMultiTranslation(ConstraintWrapperPtr theConstraint)
-{
- BuilderPtr aBuilder = SolveSpaceSolver_Builder::getInstance();
-
- const std::list<EntityWrapperPtr>& aSubs = theConstraint->entities();
- std::list<EntityWrapperPtr>::const_iterator aSIt = aSubs.begin();
-
- std::shared_ptr<GeomAPI_Pnt2d> aStartPnt = aBuilder->point(*aSIt++);
- std::shared_ptr<GeomAPI_Pnt2d> aEndPnt = aBuilder->point(*aSIt++);
- std::shared_ptr<GeomAPI_XY> aDelta = aEndPnt->xy()->decreased(aStartPnt->xy());
-
- std::list<EntityWrapperPtr>::const_iterator aPrevIt = aSIt++;
- for (; aSIt != aSubs.end(); ++aPrevIt, ++aSIt)
- translate(*aPrevIt, *aSIt, aDelta);
+ std::shared_ptr<GeomAPI_XY> aLineVec = aLine->direction()->xy();
+ std::shared_ptr<GeomAPI_XY> aPtLineVec = aPoint->xy()->decreased(aLine->location()->xy());
+ if (aPtLineVec->cross(aLineVec) * theConstraint->value() < 0.0)
+ theConstraint->setValue(theConstraint->value() * (-1.0));
}