#include <SketchSolver_Error.h>
#include <SketchSolver_Manager.h>
-////#include <ModelAPI_AttributeDouble.h>
-////#include <ModelAPI_AttributeRefAttr.h>
#include <ModelAPI_AttributeRefList.h>
-////#include <ModelAPI_ResultConstruction.h>
-////
-////#include <GeomAPI_Dir2d.h>
-////#include <GeomAPI_XY.h>
-////
-////#include <cmath>
void SketchSolver_ConstraintMirror::getAttributes(
EntityWrapperPtr& theMirrorLine,
}
myType = TYPE(myBaseConstraint);
- myStorage->update(aMirLineAttr, myGroupID);
+ myStorage->update(aMirLineAttr/*, myGroupID*/);
theMirrorLine = myStorage->entity(aMirLineAttr);
// Create SolveSpace entity for all features
if (!aFeature)
continue;
-//// anEntity = changeEntity(aFeature, aType);
-//// // Sort entities by their type
-//// std::vector<Slvs_Entity>::iterator anIt = aList->begin();
-//// for (; anIt != aList->end(); anIt++)
-//// if (aType < anIt->type)
-//// break;
-////// aList->push_back(myStorage->getEntity(anEntity));
-//// aList->insert(anIt, myStorage->getEntity(anEntity));
- myStorage->update(aFeature, myGroupID);
+ myStorage->update(aFeature/*, myGroupID*/);
aList->push_back(myStorage->entity(aFeature));
}
}
// Not enough parameters are assigned
return;
}
-//// if (!mySlvsConstraints.empty()) // some data is changed, update constraint
-//// update(myBaseConstraint);
EntityWrapperPtr aMirrorLine;
std::vector<EntityWrapperPtr> aBaseList;
process();
return;
}
- SketchSolver_Constraint::update();
+ adjustConstraint();
}
-////bool SketchSolver_ConstraintMirror::remove(ConstraintPtr theConstraint)
-////{
-//// cleanErrorMsg();
-//// if (theConstraint && theConstraint != myBaseConstraint)
-//// return false;
-//// bool isFullyRemoved = true;
-//// std::vector<Slvs_hEntity>::iterator aCIter = mySlvsConstraints.begin();
-//// for (; aCIter != mySlvsConstraints.end(); aCIter++)
-//// isFullyRemoved = myStorage->removeConstraint(*aCIter) && isFullyRemoved;
-//// mySlvsConstraints.clear();
-////
-//// std::map<FeaturePtr, Slvs_hEntity>::iterator aFeatIt = myFeatureMap.begin();
-//// for (; aFeatIt != myFeatureMap.end(); aFeatIt++)
-//// myStorage->removeEntity(aFeatIt->second);
-////
-//// if (isFullyRemoved) {
-//// myFeatureMap.clear();
-//// myAttributeMap.clear();
-//// myValueMap.clear();
-//// } else
-//// cleanRemovedEntities();
-//// return true;
-////}
-////
-////bool SketchSolver_ConstraintMirror::checkAttributesChanged(ConstraintPtr theConstraint)
-////{
-//// // First of all, check the mirror line is changed.
-//// // It may be changed to one of mirrored lines, which is already in this constraint
-//// // (this case is not marked as attribute changing)
-//// ConstraintPtr aConstraint = theConstraint ? theConstraint : myBaseConstraint;
-//// AttributeRefAttrPtr aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
-//// aConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
-//// if (!aRefAttr || !aRefAttr->isObject() || !aRefAttr->object())
-//// return true;
-//// FeaturePtr aMirrorLine = ModelAPI_Feature::feature(aRefAttr->object());
-//// if (!aMirrorLine)
-//// return true;
-////
-//// std::map<FeaturePtr, Slvs_hEntity>::iterator aMirrorIter = myFeatureMap.find(aMirrorLine);
-//// if (aMirrorIter == myFeatureMap.end())
-//// return true;
-////
-//// // Check the entity is not used as mirror line
-//// std::vector<Slvs_hConstraint>::iterator aCIter = mySlvsConstraints.begin();
-//// for (; aCIter != mySlvsConstraints.end(); aCIter++) {
-//// Slvs_Constraint aMirrorConstr = myStorage->getConstraint(*aCIter);
-//// if (aMirrorConstr.type != SLVS_C_SYMMETRIC_LINE)
-//// continue;
-//// if (aMirrorConstr.entityA != aMirrorIter->second)
-//// return true;
-//// else break; // check just one symmetric constraint
-//// }
-////
-//// // Base verification
-//// return SketchSolver_Constraint::checkAttributesChanged(theConstraint);
-////}
-
-////void SketchSolver_ConstraintMirror::makeMirrorEntity(
-//// const Slvs_Entity& theBase,
-//// const Slvs_Entity& theMirror,
-//// const double theMirrorLine[]) const
-////{
-//// Slvs_hEntity aBasePoint[4];
-//// Slvs_hEntity aMirrorPoint[4];
-//// for (int i = 0; i < 4; i++) {
-//// aBasePoint[i] = theBase.point[i];
-//// aMirrorPoint[i] = theMirror.point[i];
-//// }
-//// if (theBase.type == SLVS_E_ARC_OF_CIRCLE) {
-//// Slvs_hEntity aTmp = aMirrorPoint[2];
-//// aMirrorPoint[2] = aMirrorPoint[1];
-//// aMirrorPoint[1] = aTmp;
-//// adjustArcPoints(theBase);
-//// }
-//// if (theBase.type == SLVS_E_POINT_IN_2D || theBase.type == SLVS_E_POINT_IN_3D) {
-//// aBasePoint[0] = theBase.h;
-//// aMirrorPoint[0] = theMirror.h;
-//// }
-////
-//// // Mirror line parameters
-//// std::shared_ptr<GeomAPI_XY> aLinePoints[2];
-//// for (int i = 0; i < 2; i++)
-//// aLinePoints[i] = std::shared_ptr<GeomAPI_XY>(
-//// new GeomAPI_XY(theMirrorLine[2*i], theMirrorLine[2*i+1]));
-//// // direction of a mirror line
-//// std::shared_ptr<GeomAPI_Dir2d> aDir = std::shared_ptr<GeomAPI_Dir2d>(
-//// new GeomAPI_Dir2d(aLinePoints[1]->added(aLinePoints[0]->multiplied(-1.0))));
-//// // orthogonal direction
-//// aDir = std::shared_ptr<GeomAPI_Dir2d>(new GeomAPI_Dir2d(aDir->y(), -aDir->x()));
-////
-//// Slvs_hConstraint aFixed; // transient variable
-//// for (int i = 0; i < 4; i++) {
-//// if (aBasePoint[i] == SLVS_E_UNKNOWN || aMirrorPoint[i] == SLVS_E_UNKNOWN)
-//// continue;
-//// // check the mirror point is not fixed
-//// if (myStorage->isPointFixed(aMirrorPoint[i], aFixed, true))
-//// continue;
-////
-//// Slvs_Entity aPointEnt = myStorage->getEntity(aBasePoint[i]);
-//// double aBaseX = myStorage->getParameter(aPointEnt.param[0]).val;
-//// double aBaseY = myStorage->getParameter(aPointEnt.param[1]).val;
-//// std::shared_ptr<GeomAPI_XY> aPoint = std::shared_ptr<GeomAPI_XY>(new GeomAPI_XY(aBaseX, aBaseY));
-////
-//// std::shared_ptr<GeomAPI_XY> aVec = std::shared_ptr<GeomAPI_XY>(
-//// new GeomAPI_XY(aPoint->x() - aLinePoints[0]->x(), aPoint->y() - aLinePoints[0]->y()));
-//// double aDist = aVec->dot(aDir->xy());
-//// aPoint = aPoint->added(aDir->xy()->multiplied(-2.0 * aDist));
-////
-//// Slvs_Entity aMirrorEnt = myStorage->getEntity(aMirrorPoint[i]);
-//// Slvs_Param aParam = Slvs_MakeParam(aMirrorEnt.param[0], myGroup->getId(), aPoint->x());
-//// myStorage->updateParameter(aParam);
-//// aParam = Slvs_MakeParam(aMirrorEnt.param[1], myGroup->getId(), aPoint->y());
-//// myStorage->updateParameter(aParam);
-//// }
-////}
-////
-////void SketchSolver_ConstraintMirror::adjustArcPoints(const Slvs_Entity& theArc) const
-////{
-//// Slvs_Param aParam;
-//// Slvs_Entity aPoint;
-//// double anArcParams[3][2];
-//// for (int i = 0; i < 3; i++) {
-//// aPoint = myStorage->getEntity(theArc.point[i]);
-//// for (int j = 0; j < 2; j++) {
-//// aParam = myStorage->getParameter(aPoint.param[j]);
-//// anArcParams[i][j] = aParam.val;
-//// if (i > 0)
-//// anArcParams[i][j] -= anArcParams[0][j];
-//// }
-//// }
-//// double aRad2 = anArcParams[1][0] * anArcParams[1][0] + anArcParams[1][1] * anArcParams[1][1];
-//// double aDist2 = anArcParams[2][0] * anArcParams[2][0] + anArcParams[2][1] * anArcParams[2][1];
-//// if (std::fabs(aRad2 - aDist2) < tolerance)
-//// return; // nothing to update (last point already on the arc)
-//// if (aDist2 < tolerance)
-//// return; // unable to update
-//// double aCoeff = std::sqrt(aRad2 / aDist2);
-//// anArcParams[2][0] *= aCoeff;
-//// anArcParams[2][1] *= aCoeff;
-////
-//// // Update last point
-//// aPoint = myStorage->getEntity(theArc.point[2]);
-//// for (int i = 0; i < 2; i++) {
-//// aParam = Slvs_MakeParam(aPoint.param[i], myGroup->getId(),
-//// anArcParams[0][i] + anArcParams[2][i]);
-//// myStorage->updateParameter(aParam);
-//// }
-////}
-
void SketchSolver_ConstraintMirror::adjustConstraint()
{
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
for (; aCIt != aConstraints.end(); ++aCIt)
if ((*aCIt)->type() == CONSTRAINT_SYMMETRIC)
aBuilder->adjustConstraint(*aCIt);
-
-//// AttributeRefAttrPtr aMirLineAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(
-//// myBaseConstraint->attribute(SketchPlugin_Constraint::ENTITY_A()));
-//// if (!aMirLineAttr || !aMirLineAttr->isInitialized() || !aMirLineAttr->isObject()) {
-//// myErrorMsg = SketchSolver_Error::NOT_INITIALIZED();
-//// return;
-//// }
-//// ResultConstructionPtr aRC =
-//// std::dynamic_pointer_cast<ModelAPI_ResultConstruction>(aMirLineAttr->object());
-//// FeaturePtr aFeature = aRC ? aRC->document()->feature(aRC) :
-//// std::dynamic_pointer_cast<ModelAPI_Feature>(aMirLineAttr->object());
-//// std::map<FeaturePtr, Slvs_hEntity>::iterator aMirLineIter = myFeatureMap.find(aFeature);
-//// if (aMirLineIter == myFeatureMap.end())
-//// return;
-//// Slvs_Entity aMirrorLine = myStorage->getEntity(aMirLineIter->second);
-////
-//// Slvs_Constraint aMirror;
-//// double aStartEnd[4];
-//// for (int i = 0; i < 2; i++) {
-//// Slvs_Entity aPoint = myStorage->getEntity(aMirrorLine.point[i]);
-//// for (int j = 0; j < 2; j++)
-//// aStartEnd[2*i+j] = myStorage->getParameter(aPoint.param[j]).val;
-//// }
-////
-//// // Calculate length of the mirror line and create temporary constraint
-//// double aLength = sqrt((aStartEnd[2] - aStartEnd[0]) * (aStartEnd[2] - aStartEnd[0]) +
-//// (aStartEnd[3] - aStartEnd[1]) * (aStartEnd[3] - aStartEnd[1]));
-//// if (aLength < tolerance) {
-//// if (myMirrorLineLength < 1.0)
-//// myMirrorLineLength = 1.0;
-//// } else
-//// myMirrorLineLength = aLength;
-//// std::list<Slvs_Constraint> aDist = myStorage->getConstraintsByType(SLVS_C_PT_PT_DISTANCE);
-//// std::list<Slvs_Constraint>::const_iterator aDIt = aDist.begin();
-//// for (; aDIt != aDist.end(); ++aDIt)
-//// if ((aDIt->ptA == aMirrorLine.point[0] && aDIt->ptB == aMirrorLine.point[1]) ||
-//// (aDIt->ptA == aMirrorLine.point[1] && aDIt->ptB == aMirrorLine.point[0]))
-//// break; // length of mirror line is already set
-//// if (aDIt == aDist.end()) {
-//// // check the points of mirror line is not fixed
-//// Slvs_hConstraint aFixed;
-//// if (!myStorage->isPointFixed(aMirrorLine.point[0], aFixed, true) ||
-//// !myStorage->isPointFixed(aMirrorLine.point[1], aFixed, true)) {
-//// // Add length constraint
-//// aMirror = Slvs_MakeConstraint(SLVS_E_UNKNOWN, myGroup->getId(), SLVS_C_PT_PT_DISTANCE,
-//// myGroup->getWorkplaneId(), aLength, aMirrorLine.point[0], aMirrorLine.point[1],
-//// SLVS_E_UNKNOWN, SLVS_E_UNKNOWN);
-//// aMirror.h = myStorage->addConstraint(aMirror);
-//// myStorage->addTemporaryConstraint(aMirror.h);
-//// }
-//// }
-////
-//// // Search mirror between middle points on the arcs and recompute their coordinates
-//// std::map<Slvs_hEntity, Slvs_hEntity> aPointsOnCircles;
-//// std::list<Slvs_Constraint> aMirrorPonCirc;
-//// std::list<Slvs_Constraint> aPonCirc = myStorage->getConstraintsByType(SLVS_C_PT_ON_CIRCLE);
-//// std::vector<Slvs_hConstraint>::iterator aConstrIter = mySlvsConstraints.begin();
-//// for (; aConstrIter != mySlvsConstraints.end(); aConstrIter++) {
-//// aMirror = myStorage->getConstraint(*aConstrIter);
-//// if (aMirror.type != SLVS_C_SYMMETRIC_LINE)
-//// continue;
-//// if (aMirror.entityA != aMirrorLine.h)
-//// continue; // don't update another Mirror constraints
-//// Slvs_Constraint aPonCircA, aPonCircB;
-//// aPonCircA.h = SLVS_E_UNKNOWN;
-//// aPonCircB.h = SLVS_E_UNKNOWN;
-//// std::list<Slvs_Constraint>::iterator aPtIter = aPonCirc.begin();
-//// for (; aPtIter != aPonCirc.end(); aPtIter++) {
-//// if (aMirror.ptA == aPtIter->ptA)
-//// aPonCircA = *aPtIter;
-//// if (aMirror.ptB == aPtIter->ptA)
-//// aPonCircB = *aPtIter;
-//// }
-//// if (aPonCircA.h == SLVS_E_UNKNOWN || aPonCircB.h == SLVS_E_UNKNOWN)
-//// continue;
-//// aMirrorPonCirc.push_back(aMirror);
-//// // Store point IDs to avoid their recalculation twice
-//// aPointsOnCircles[aPonCircA.ptA] = aPonCircA.entityA;
-//// aPointsOnCircles[aPonCircB.ptA] = aPonCircB.entityA;
-//// }
-////
-//// // Recalculate positions of mirroring points
-//// std::list<Slvs_Constraint> aMirrorList = myStorage->getConstraintsByType(SLVS_C_SYMMETRIC_LINE);
-//// std::list<Slvs_Constraint>::iterator aMirIter = aMirrorList.begin();
-//// for (; aMirIter != aMirrorList.end(); aMirIter++) {
-//// if (aMirIter->entityA != aMirrorLine.h)
-//// continue; // don't update another Mirror constraints
-//// if (aPointsOnCircles.find(aMirIter->ptA) != aPointsOnCircles.end())
-//// continue; // Avoid mirroring points on circles
-//// Slvs_Entity aBase = myStorage->getEntity(aMirIter->ptA);
-//// Slvs_Entity aMirror = myStorage->getEntity(aMirIter->ptB);
-//// makeMirrorEntity(aBase, aMirror, aStartEnd);
-//// }
-////
-//// bool aNeedToResolve = myStorage->isNeedToResolve();
-//// for (aMirIter = aMirrorPonCirc.begin(); aMirIter != aMirrorPonCirc.end(); aMirIter++) {
-//// // Make centers of arcs symmetric
-//// Slvs_Entity aBaseArc = myStorage->getEntity(aPointsOnCircles[aMirIter->ptA]);
-//// Slvs_Entity aBasePoint = myStorage->getEntity(aBaseArc.point[0]);
-//// Slvs_Entity aMirrorArc = myStorage->getEntity(aPointsOnCircles[aMirIter->ptB]);
-//// Slvs_Entity aMirrorPoint = myStorage->getEntity(aMirrorArc.point[0]);
-//// makeMirrorEntity(aBasePoint, aMirrorPoint, aStartEnd);
-//// // Calculate middle point for base arc and mirrored point on mirror arc
-//// aBasePoint = myStorage->getEntity(aMirIter->ptA);
-//// Slvs_Param aParamX = myStorage->getParameter(aBasePoint.param[0]);
-//// Slvs_Param aParamY = myStorage->getParameter(aBasePoint.param[1]);
-//// calculateMiddlePoint(aBaseArc, 0.5, aParamX.val, aParamY.val);
-//// myStorage->updateParameter(aParamX);
-//// myStorage->updateParameter(aParamY);
-//// aMirrorPoint = myStorage->getEntity(aMirIter->ptB);
-//// aParamX = myStorage->getParameter(aMirrorPoint.param[0]);
-//// aParamY = myStorage->getParameter(aMirrorPoint.param[1]);
-//// calculateMiddlePoint(aMirrorArc, 0.5, aParamX.val, aParamY.val);
-//// myStorage->updateParameter(aParamX);
-//// myStorage->updateParameter(aParamY);
-//// }
-//// // Restore previous value to avoid looped recalculations of sketch
-//// myStorage->setNeedToResolve(aNeedToResolve);
}