#include <SketchSolver_Error.h>
#include <SketchSolver_Manager.h>
-////#include <SketchPlugin_Arc.h>
-////
-////#include <ModelAPI_AttributeDouble.h>
#include <ModelAPI_AttributeInteger.h>
#include <ModelAPI_AttributeRefAttr.h>
#include <ModelAPI_AttributeRefList.h>
-////#include <ModelAPI_ResultConstruction.h>
-////
-////#include <GeomAPI_Dir2d.h>
-////#include <GeomAPI_XY.h>
-////
-////#include <math.h>
void SketchSolver_ConstraintMulti::getEntitiesAndCopies(
std::list< std::list<EntityWrapperPtr> >& theEntAndCopies)
}
}
+void SketchSolver_ConstraintMulti::update()
+{
+ update(false);
+}
-////void SketchSolver_ConstraintMulti::processEntities(const std::vector< std::vector<Slvs_hEntity> >& theEntAndCopies)
-////{
-//// // Keep all objects unchanged (only initial object may be changed by user)
-//// myCircsAndCopies.clear();
-//// std::vector<std::vector<Slvs_hEntity> >::const_iterator anEntIt = theEntAndCopies.begin();
-//// std::vector<Slvs_hEntity>::const_iterator aCpIt;
-//// for (; anEntIt != theEntAndCopies.end(); ++anEntIt) {
-//// std::vector<Slvs_hEntity> aCircs;
-//// aCpIt = anEntIt->begin();
-//// // Obtain initial points
-//// Slvs_Entity anInitial = myStorage->getEntity(*aCpIt);
-//// if (anInitial.type == SLVS_E_POINT_IN_2D || anInitial.type == SLVS_E_POINT_IN_3D)
-//// myInitialPoints.insert(anInitial.h);
-//// else {
-//// for (int i = 0; i < 4 && anInitial.point[i] != SLVS_E_UNKNOWN; i++)
-//// myInitialPoints.insert(anInitial.point[i]);
-//// }
-////
-//// // Fix the copies
-//// for (++aCpIt; aCpIt != anEntIt->end(); ++aCpIt) {
-//// const Slvs_Entity& anEntity = myStorage->getEntity(*aCpIt);
-//// std::vector<Slvs_hConstraint> aNewConstr;
-//// if (anEntity.type == SLVS_E_CIRCLE) {
-//// aCircs.push_back(anEntity.distance);
-//// // for circles we fix only center
-//// aNewConstr = myStorage->fixEntity(anEntity.point[0]);
-//// } else
-//// aNewConstr = myStorage->fixEntity(*aCpIt);
-//// if (anEntity.type == SLVS_E_ARC_OF_CIRCLE)
-//// aCircs.push_back(anEntity.h);
-//// mySlvsConstraints.insert(mySlvsConstraints.end(), aNewConstr.begin(), aNewConstr.end());
-//// }
-////
-//// if (!aCircs.empty()) {
-//// if (anInitial.type == SLVS_E_CIRCLE)
-//// aCircs.insert(aCircs.begin(), anInitial.distance);
-//// else
-//// aCircs.insert(aCircs.begin(), anInitial.h);
-//// myCircsAndCopies.push_back(aCircs);
-//// }
-//// }
-////}
void SketchSolver_ConstraintMulti::update(bool isForce)
{
SketchSolver_Constraint::update();
}
-////bool SketchSolver_ConstraintMulti::remove()
-////{
-//// 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);
-//// myStorage->removeUnusedEntities();
-////
-//// std::map<FeaturePtr, Slvs_hEntity> aFeatureMapCopy = myFeatureMap;
-////
-//// if (isFullyRemoved) {
-//// myFeatureMap.clear();
-//// myAttributeMap.clear();
-//// myValueMap.clear();
-//// } else
-//// cleanRemovedEntities();
-////
-//// // Restore initial features
-//// std::map<FeaturePtr, Slvs_hEntity>::iterator aFIter = aFeatureMapCopy.begin();
-//// for (; aFIter != aFeatureMapCopy.end(); ++aFIter)
-//// {
-//// if (myFeatureMap.find(aFIter->first) != myFeatureMap.end())
-//// continue; // the feature was not removed
-//// Slvs_hEntity anEntity = myGroup->getFeatureId(aFIter->first);
-//// if (anEntity != SLVS_E_UNKNOWN)
-//// myFeatureMap[aFIter->first] = anEntity;
-//// }
-////
-//// // Clear list of rotated points
-//// myPointsAndCopies.clear();
-//// myInitialPoints.clear();
-////
-//// return true;
-////}
-
-////void SketchSolver_ConstraintMulti::addFeature(FeaturePtr theFeature)
-////{
-//// SketchSolver_Constraint::addFeature(theFeature);
-////
-//// std::map<FeaturePtr, Slvs_hEntity>::iterator aFeatIt = myFeatureMap.find(theFeature);
-//// if (aFeatIt == myFeatureMap.end())
-//// return;
-////
-//// // store list of points of the feature
-//// const Slvs_Entity& theEntity = myStorage->getEntity(aFeatIt->second);
-//// for (int i = 0; i < 4; i++)
-//// if (theEntity.point[i] != SLVS_E_UNKNOWN)
-//// myPointsJustUpdated.insert(theEntity.point[i]);
-////}
-
void SketchSolver_ConstraintMulti::adjustConstraint()
{
if (myAdjusted)
for (; anIt != aConstraints.end(); ++anIt)
aBuilder->adjustConstraint(*anIt);
myStorage->addConstraint(myBaseConstraint, aConstraints);
-
-//// double aRelCoord[2] = {0.0, 0.0}; // relative coordinates of point
-//// double anAbsCoord[2] = {0.0, 0.0}; // absolute coordinates of point
-////
-//// std::list<Slvs_Constraint> aCoincident = myStorage->getConstraintsByType(SLVS_C_POINTS_COINCIDENT);
-//// std::list<Slvs_Constraint>::const_iterator aCoIt;
-////
-//// // Update positions of all points to satisfy angles
-//// std::vector< std::vector<Slvs_hEntity> >::const_iterator aPointsIter = myPointsAndCopies.begin();
-//// std::vector<Slvs_hEntity>::const_iterator aCopyIter;
-//// for (; aPointsIter != myPointsAndCopies.end(); ++aPointsIter) {
-//// aCopyIter = aPointsIter->begin();
-//// const Slvs_Entity& anInitial = myStorage->getEntity(*aCopyIter);
-//// for (int i = 0; i < 2; i++)
-//// anAbsCoord[i] = myStorage->getParameter(anInitial.param[i]).val;
-//// getRelative(anAbsCoord[0], anAbsCoord[1], aRelCoord[0], aRelCoord[1]);
-////
-//// // if the point is coincident with another one which is temporary fixed (moved by user),
-//// // we will update its position correspondingly
-//// Slvs_hConstraint aFixed;
-//// for (aCoIt = aCoincident.begin(); aCoIt != aCoincident.end(); ++aCoIt) {
-//// if ((aCoIt->ptA == anInitial.h && myInitialPoints.find(aCoIt->ptB) != myInitialPoints.end()) ||
-//// (aCoIt->ptB == anInitial.h && myInitialPoints.find(aCoIt->ptA) != myInitialPoints.end())) {
-//// Slvs_hEntity anOtherId = aCoIt->ptA == anInitial.h ? aCoIt->ptB : aCoIt->ptA;
-//// if (!myStorage->isTemporary(aFixed) &&
-//// myPointsJustUpdated.find(anOtherId) == myPointsJustUpdated.end())
-//// continue; // nothing to change
-////
-//// const Slvs_Entity& anOtherPnt = myStorage->getEntity(anOtherId);
-//// for (int i = 0; i < 2; i++) {
-//// Slvs_Param anInitParam = myStorage->getParameter(anInitial.param[i]);
-//// const Slvs_Param& anOtherParam = myStorage->getParameter(anOtherPnt.param[i]);
-//// anInitParam.val = anOtherParam.val;
-//// myStorage->updateParameter(anInitParam);
-//// anAbsCoord[i] = anOtherParam.val;
-//// }
-//// getRelative(anAbsCoord[0], anAbsCoord[1], aRelCoord[0], aRelCoord[1]);
-//// }
-//// }
-////
-//// // update copied points
-//// aCopyIter = aPointsIter->begin();
-//// for (++aCopyIter; aCopyIter != aPointsIter->end(); ++aCopyIter) {
-//// // transform coordinates
-//// transformRelative(aRelCoord[0], aRelCoord[1]);
-//// getAbsolute(aRelCoord[0], aRelCoord[1], anAbsCoord[0], anAbsCoord[1]);
-////
-//// const Slvs_Entity& aTarget = myStorage->getEntity(*aCopyIter);
-//// for (int i = 0; i < 2; i++) {
-//// Slvs_Param aParam = myStorage->getParameter(aTarget.param[i]);
-//// aParam.val = anAbsCoord[i];
-//// myStorage->updateParameter(aParam);
-//// }
-//// }
-//// }
-////
-//// std::list<Slvs_Constraint> aDiamConstr;
-//// for (aPointsIter = myCircsAndCopies.begin(); aPointsIter != myCircsAndCopies.end(); ++aPointsIter) {
-//// aCopyIter = aPointsIter->begin();
-//// const Slvs_Entity& anInitial = myStorage->getEntity(*aCopyIter);
-//// if (anInitial.type == SLVS_E_DISTANCE) {
-//// const Slvs_Param& anInitRad = myStorage->getParameter(anInitial.param[0]);
-//// for (++aCopyIter; aCopyIter != aPointsIter->end(); ++aCopyIter) {
-//// const Slvs_Entity& aCopy = myStorage->getEntity(*aCopyIter);
-//// Slvs_Param aCopyRad = myStorage->getParameter(aCopy.param[0]);
-//// aCopyRad.val = anInitRad.val;
-//// myStorage->updateParameter(aCopyRad);
-//// }
-//// } else if (anInitial.type == SLVS_E_ARC_OF_CIRCLE) {
-//// const Slvs_Entity& aCenterEnt = myStorage->getEntity(anInitial.point[0]);
-//// const Slvs_Entity& aStartEnt = myStorage->getEntity(anInitial.point[1]);
-////
-//// if (aDiamConstr.empty())
-//// aDiamConstr = myStorage->getConstraintsByType(SLVS_C_DIAMETER);
-//// // Calculate diameter of initial arc
-//// double aDiam = 0.0;
-//// for (int i = 0; i < 2; i++) {
-//// double d = myStorage->getParameter(aStartEnt.param[i]).val -
-//// myStorage->getParameter(aCenterEnt.param[i]).val;
-//// aDiam += d * d;
-//// }
-//// aDiam = sqrt(aDiam) * 2.0;
-//// // Update the Diameter constraints of copied arcs
-//// for (++aCopyIter; aCopyIter != aPointsIter->end(); ++aCopyIter) {
-//// std::list<Slvs_Constraint>::iterator aDCIt = aDiamConstr.begin();
-//// for (; aDCIt != aDiamConstr.end(); ++aDCIt)
-//// if (aDCIt->entityA == *aCopyIter) {
-//// aDCIt->valA = aDiam;
-//// myStorage->updateConstraint(*aDCIt);
-//// aDiamConstr.erase(aDCIt);
-//// break;
-//// }
-//// }
-//// }
-//// }
-////
-//// myPointsJustUpdated.clear();
myAdjusted = true;
}
-
-////void SketchSolver_ConstraintMulti::checkCoincidence()
-////{
-//// std::vector< std::vector<Slvs_hEntity> > aFilteredPoints; // points are filtered by their positions
-////
-//// std::vector< std::vector<Slvs_hEntity> >::const_iterator aPCIt = myPointsAndCopies.begin();
-//// std::vector<Slvs_hEntity>::const_iterator aCIt;
-//// for (; aPCIt != myPointsAndCopies.end(); ++aPCIt) {
-//// aCIt = aPCIt->begin();
-//// // Skip first element, focus the copies only
-//// for (++aCIt; aCIt != aPCIt->end(); ++aCIt) {
-//// std::vector< std::vector<Slvs_hEntity> >::iterator aFilterIt = aFilteredPoints.begin();
-//// for (; aFilterIt != aFilteredPoints.end(); ++aFilterIt)
-//// if (myStorage->isEqual(*aCIt, aFilterIt->front())) {
-//// aFilterIt->push_back(*aCIt);
-//// break;
-//// }
-//// if (aFilterIt == aFilteredPoints.end()) {
-//// std::vector<Slvs_hEntity> aNewFilter(1, *aCIt);
-//// aFilteredPoints.push_back(aNewFilter);
-//// }
-//// }
-//// }
-////
-//// // Check the coicidence of filtered points and remove extra fixation.
-//// // Also check separated points which are not fixed.
-//// std::vector< std::vector<Slvs_hEntity> >::iterator aFPIt = aFilteredPoints.begin();
-//// for (; aFPIt != aFilteredPoints.end(); ++aFPIt) {
-//// if (aFPIt->size() <= 1)
-//// continue;
-//// std::vector<Slvs_hEntity>::iterator anIt1, anIt2;
-//// for (anIt1 = aFPIt->begin(); anIt1 != aFPIt->end(); ++anIt1) {
-//// for (anIt2 = anIt1 + 1; anIt2 != aFPIt->end(); ++anIt2) {
-//// Slvs_hConstraint aFixed1, aFixed2;
-//// bool isFixed1 = myStorage->isPointFixed(*anIt1, aFixed1);
-//// bool isFixed2 = myStorage->isPointFixed(*anIt2, aFixed2);
-//// if (myStorage->isCoincident(*anIt1, *anIt2)) {
-//// if (!isFixed1 && isFixed2) {
-//// Slvs_hEntity aTmp = *anIt1;
-//// *anIt1 = *anIt2;
-//// *anIt2 = aTmp;
-//// } else if (isFixed1 && isFixed2) {
-//// // remove fixing of the second point
-//// myStorage->removeConstraint(aFixed2);
-//// std::vector<Slvs_hConstraint>::iterator aRemoveIt = mySlvsConstraints.begin();
-//// for (; aRemoveIt != mySlvsConstraints.end(); ++aRemoveIt)
-//// if (*aRemoveIt == aFixed2) {
-//// mySlvsConstraints.erase(aRemoveIt);
-//// break;
-//// }
-//// }
-//// } else {
-//// bool isFixed[2] = {
-//// myStorage->isPointFixed(*anIt1, aFixed1, true),
-//// myStorage->isPointFixed(*anIt2, aFixed2, true)
-//// };
-////
-//// Slvs_hEntity aPoint[2] = {*anIt1, *anIt2};
-//// for (int i = 0; i < 2; i++)
-//// if (!isFixed[i]) {
-//// Slvs_Constraint aConstraint = Slvs_MakeConstraint(SLVS_C_UNKNOWN, myGroup->getId(),
-//// SLVS_C_WHERE_DRAGGED, myGroup->getWorkplaneId(), 0.0,
-//// aPoint[i], SLVS_E_UNKNOWN, SLVS_E_UNKNOWN, SLVS_E_UNKNOWN);
-//// aConstraint.h = myStorage->addConstraint(aConstraint);
-//// mySlvsConstraints.push_back(aConstraint.h);
-//// }
-//// }
-//// }
-//// }
-//// }
-////}
