#include <ModelAPI_AttributeRefList.h>
#include <SketchPlugin_Arc.h>
#include <SketchPlugin_Circle.h>
+#include <SketchPlugin_Line.h>
+#include <SketchPlugin_Point.h>
+#include <SketchPlugin_IntersectionPoint.h>
+#include <SketchPlugin_ConstraintCoincidence.h>
+#include <SketchPlugin_ConstraintMirror.h>
+#include <SketchPlugin_ConstraintRigid.h>
/// \brief Verify two vectors of constraints are equal.
static bool isEqual(const std::list<ConstraintWrapperPtr>& theCVec1,
const std::list<ConstraintWrapperPtr>& theCVec2);
+/// \brief Convert result to feature or attribute
+static void resultToFeatureOrAttribute(const ObjectPtr& theResult,
+ FeaturePtr& theFeature, AttributePtr& theAttribute);
+
void SketchSolver_Storage::addConstraint(ConstraintPtr theConstraint,
ConstraintWrapperPtr theSolverConstraint)
{
- std::list<ConstraintWrapperPtr> aConstrList(1, theSolverConstraint);
- addConstraint(theConstraint, aConstrList);
+ if (theSolverConstraint) {
+ std::list<ConstraintWrapperPtr> aConstrList(1, theSolverConstraint);
+ addConstraint(theConstraint, aConstrList);
+ } else
+ addConstraint(theConstraint, std::list<ConstraintWrapperPtr>());
}
void SketchSolver_Storage::addConstraint(
if (aFound == myConstraintMap.end() || !isEqual(aFound->second, theSolverConstraints))
setNeedToResolve(true);
- // Do not add point-point coincidence, because it is already made by setting
- // the same parameters for both points
- if (!theSolverConstraints.empty() &&
- theSolverConstraints.front()->type() != CONSTRAINT_PT_PT_COINCIDENT) {
+ if (theSolverConstraints.empty()) {
+ // constraint links to the empty list, add its attributes linked to the empty entities
+ std::list<AttributePtr> aRefAttrs =
+ theConstraint->data()->attributes(ModelAPI_AttributeRefAttr::typeId());
+ std::list<AttributePtr>::const_iterator anAttrIt = aRefAttrs.begin();
+ for (; anAttrIt != aRefAttrs.end(); ++anAttrIt) {
+ AttributeRefAttrPtr aRef = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(*anAttrIt);
+ if (aRef->isObject()) {
+ FeaturePtr aFeature = ModelAPI_Feature::feature(aRef->object());
+ if (aFeature) addEntity(aFeature, EntityWrapperPtr());
+ } else
+ addEntity(aRef->attr(), EntityWrapperPtr());
+ }
+ std::list<AttributePtr> aRefLists =
+ theConstraint->data()->attributes(ModelAPI_AttributeRefList::typeId());
+ for (anAttrIt = aRefLists.begin(); anAttrIt != aRefLists.end(); ++anAttrIt) {
+ AttributeRefListPtr aRef = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(*anAttrIt);
+ std::list<ObjectPtr> anObj = aRef->list();
+ std::list<ObjectPtr>::iterator anIt = anObj.begin();
+ for (; anIt != anObj.end(); ++anIt) {
+ FeaturePtr aFeature = ModelAPI_Feature::feature(*anIt);
+ if (aFeature) addEntity(aFeature, EntityWrapperPtr());
+ }
+ }
+ }
+ else if (theSolverConstraints.front()->type() != CONSTRAINT_PT_PT_COINCIDENT) {
+ // Do not add point-point coincidence, because it is already made by setting
+ // the same parameters for both points
std::list<ConstraintWrapperPtr>::iterator aCIt = theSolverConstraints.begin();
for (; aCIt != theSolverConstraints.end(); ++aCIt)
update(*aCIt);
}
- myConstraintMap[theConstraint] = theSolverConstraints;
+
+ if (!theSolverConstraints.empty() || aFound == myConstraintMap.end())
+ myConstraintMap[theConstraint] = theSolverConstraints;
// block events if necessary
- if (myEventsBlocked && theConstraint->data() && theConstraint->data()->isValid())
+ if (myEventsBlocked && theConstraint && theConstraint->data() && theConstraint->data()->isValid())
theConstraint->data()->blockSendAttributeUpdated(myEventsBlocked);
}
+static std::list<AttributePtr> pointAttributes(FeaturePtr theFeature)
+{
+ std::list<AttributePtr> aPoints;
+ if (!theFeature->data() || !theFeature->data()->isValid())
+ return aPoints;
+ if (theFeature->getKind() == SketchPlugin_Arc::ID()) {
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Arc::CENTER_ID()));
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Arc::START_ID()));
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Arc::END_ID()));
+ }
+ else if (theFeature->getKind() == SketchPlugin_Circle::ID())
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Circle::CENTER_ID()));
+ else if (theFeature->getKind() == SketchPlugin_Line::ID()) {
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Line::START_ID()));
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Line::END_ID()));
+ }
+ else if (theFeature->getKind() == SketchPlugin_Point::ID() ||
+ theFeature->getKind() == SketchPlugin_IntersectionPoint::ID())
+ aPoints.push_back(theFeature->attribute(SketchPlugin_Point::COORD_ID()));
+ return aPoints;
+}
+
void SketchSolver_Storage::addEntity(FeaturePtr theFeature,
EntityWrapperPtr theSolverEntity)
{
std::map<FeaturePtr, EntityWrapperPtr>::const_iterator aFound = myFeatureMap.find(theFeature);
- if (aFound == myFeatureMap.end() || !aFound->second || !aFound->second->isEqual(theSolverEntity))
+ if (aFound == myFeatureMap.end() || !aFound->second ||
+ (theSolverEntity && !aFound->second->isEqual(theSolverEntity)))
setNeedToResolve(true); // the entity is new or modified
- myFeatureMap[theFeature] = theSolverEntity;
+ if (!theSolverEntity) {
+ // feature links to the empty entity, add its attributes
+ std::list<AttributePtr> aPntAttrs = pointAttributes(theFeature);
+ std::list<AttributePtr>::const_iterator anAttrIt = aPntAttrs.begin();
+ for (; anAttrIt != aPntAttrs.end(); ++anAttrIt)
+ addEntity(*anAttrIt, EntityWrapperPtr());
+ if (aFound == myFeatureMap.end())
+ myFeatureMap[theFeature] = theSolverEntity;
+ } else
+ myFeatureMap[theFeature] = theSolverEntity;
+
// block events if necessary
if (myEventsBlocked && theFeature->data() && theFeature->data()->isValid())
theFeature->data()->blockSendAttributeUpdated(myEventsBlocked);
void SketchSolver_Storage::addEntity(AttributePtr theAttribute,
EntityWrapperPtr theSolverEntity)
{
- std::map<AttributePtr, EntityWrapperPtr>::const_iterator aFound = myAttributeMap.find(theAttribute);
- if (aFound == myAttributeMap.end() || !aFound->second || !aFound->second->isEqual(theSolverEntity))
+ std::map<AttributePtr, EntityWrapperPtr>::const_iterator aFound =
+ myAttributeMap.find(theAttribute);
+ if (aFound == myAttributeMap.end() || !aFound->second ||
+ (theSolverEntity && !aFound->second->isEqual(theSolverEntity)))
setNeedToResolve(true); // the entity is new or modified
- myAttributeMap[theAttribute] = theSolverEntity;
+ if (theSolverEntity || aFound == myAttributeMap.end())
+ myAttributeMap[theAttribute] = theSolverEntity;
// block events if necessary
if (myEventsBlocked && theAttribute->owner() &&
theAttribute->owner()->data() && theAttribute->owner()->data()->isValid())
}
-bool SketchSolver_Storage::update(FeaturePtr theFeature, const GroupID& theGroup)
+static bool isCopyInMulti(std::shared_ptr<SketchPlugin_Feature> theFeature,
+ const std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >& theConstraints)
+{
+ if (!theFeature)
+ return false;
+ bool aResult = theFeature->isCopy();
+ if (aResult) {
+ std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >::const_iterator
+ anIt = theConstraints.begin();
+ for (; anIt != theConstraints.end() && aResult; ++anIt) {
+ if (anIt->first->getKind() != SketchPlugin_ConstraintMirror::ID())
+ continue;
+ AttributeRefListPtr aRefList = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(
+ anIt->first->attribute(SketchPlugin_Constraint::ENTITY_C()));
+ std::list<ObjectPtr> aMirroredList = aRefList->list();
+ std::list<ObjectPtr>::const_iterator aMIt = aMirroredList.begin();
+ for (; aMIt != aMirroredList.end() && aResult; ++aMIt) {
+ FeaturePtr aFeat = ModelAPI_Feature::feature(*aMIt);
+ if (aFeat == theFeature)
+ aResult = false;
+ }
+ }
+ }
+ return aResult;
+}
+
+bool SketchSolver_Storage::update(FeaturePtr theFeature, const GroupID& theGroup, bool theForce)
{
bool isUpdated = false;
EntityWrapperPtr aRelated = entity(theFeature);
if (!aRelated) { // Feature is not exist, create it
+ std::shared_ptr<SketchPlugin_Feature> aSketchFeature =
+ std::dynamic_pointer_cast<SketchPlugin_Feature>(theFeature);
+ bool isCopy = isCopyInMulti(aSketchFeature, myConstraintMap);
+ // the feature is a copy in "Multi" constraint and does not used in other constraints
+ if (!theForce && isCopy && myFeatureMap.find(theFeature) == myFeatureMap.end())
+ return false;
+
std::list<EntityWrapperPtr> aSubs;
// Reserve the feature in the map of features (do not want to add several copies of it)
myFeatureMap[theFeature] = aRelated;
// Firstly, create/update its attributes
- std::list<AttributePtr> anAttrs =
- theFeature->data()->attributes(GeomDataAPI_Point2D::typeId());
+ std::list<AttributePtr> anAttrs = pointAttributes(theFeature);
std::list<AttributePtr>::const_iterator anIt = anAttrs.begin();
for (; anIt != anAttrs.end(); ++anIt) {
- isUpdated = update(*anIt, theGroup) || isUpdated;
+ if (!(*anIt)->isInitialized())
+ return false;
+ isUpdated = update(*anIt, theGroup, theForce) || isUpdated;
aSubs.push_back(entity(*anIt));
}
// If the feature is a circle, add its radius as a sub
if (theFeature->getKind() == SketchPlugin_Circle::ID()) {
AttributePtr aRadius = theFeature->attribute(SketchPlugin_Circle::RADIUS_ID());
- isUpdated = update(aRadius, theGroup) || isUpdated;
+ isUpdated = update(aRadius, theGroup, theForce) || isUpdated;
aSubs.push_back(entity(aRadius));
}
// If the feature if circle or arc, we need to add normal of the sketch to the list of subs
// Secondly, convert feature
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
GroupID aGroup = theGroup != GID_UNKNOWN ? theGroup : myGroupID;
+ // Check external feature
+ if (aSketchFeature && (aSketchFeature->isExternal() || isCopy))
+ aGroup = GID_OUTOFGROUP;
aRelated = aBuilder->createFeature(theFeature, aSubs, aGroup);
if (!aRelated)
return false;
return update(aRelated) || isUpdated;
}
-bool SketchSolver_Storage::update(AttributePtr theAttribute, const GroupID& theGroup)
+bool SketchSolver_Storage::update(AttributePtr theAttribute, const GroupID& theGroup, bool theForce)
{
+ if (!theAttribute->isInitialized())
+ return false;
+
AttributePtr anAttribute = theAttribute;
AttributeRefAttrPtr aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(anAttribute);
if (aRefAttr) {
if (aRefAttr->isObject()) {
- FeaturePtr aFeature = ModelAPI_Feature::feature(aRefAttr->object());
- return update(aFeature, theGroup);
- } else
+ FeaturePtr aFeature;
+ resultToFeatureOrAttribute(aRefAttr->object(), aFeature, anAttribute);
+ if (aFeature)
+ return update(aFeature, theGroup, theForce);
+ } else {
anAttribute = aRefAttr->attr();
+ if (!anAttribute->isInitialized())
+ return false;
+ }
}
EntityWrapperPtr aRelated = entity(anAttribute);
if (!aRelated) { // Attribute is not exist, create it
+ // verify the attribute is a point of arc and add whole arc
+ if (anAttribute->owner()) {
+ FeaturePtr aFeature = ModelAPI_Feature::feature(anAttribute->owner());
+ if (aFeature->getKind() == SketchPlugin_Arc::ID() &&
+ myFeatureMap.find(aFeature) == myFeatureMap.end()) {
+ // Additional checking that all attributes are initialized
+ if (aFeature->attribute(SketchPlugin_Arc::CENTER_ID())->isInitialized() &&
+ aFeature->attribute(SketchPlugin_Arc::START_ID())->isInitialized() &&
+ aFeature->attribute(SketchPlugin_Arc::END_ID())->isInitialized()) {
+ return SketchSolver_Storage::update(aFeature, theGroup, theForce);
+ } else {
+ myFeatureMap[aFeature] = EntityWrapperPtr();
+ myExistArc = true;
+ }
+ }
+ }
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
GroupID aGroup = theGroup != GID_UNKNOWN ? theGroup : myGroupID;
+ // Check attribute of external features
+ std::shared_ptr<SketchPlugin_Feature> aSketchFeature =
+ std::dynamic_pointer_cast<SketchPlugin_Feature>(anAttribute->owner());
+ if (aSketchFeature && (aSketchFeature->isExternal() ||
+ isCopyInMulti(aSketchFeature, myConstraintMap)))
+ aGroup = GID_OUTOFGROUP;
aRelated = aBuilder->createAttribute(anAttribute, aGroup);
if (!aRelated)
return false;
std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(theAttribute);
if (aRefAttr) {
if (aRefAttr->isObject()) {
- FeaturePtr aFeature = ModelAPI_Feature::feature(aRefAttr->object());
- return entity(aFeature);
+ FeaturePtr aFeature;
+ AttributePtr anAttribute;
+ resultToFeatureOrAttribute(aRefAttr->object(), aFeature, anAttribute);
+ if (aFeature)
+ return entity(aFeature);
+ else
+ return entity(anAttribute);
} else
return entity(aRefAttr->attr());
}
++anIt;
}
}
- if (!isFullyRemoved) {
- // revert removed constraint
- addConstraint(theConstraint, aConstrList);
- }
return isFullyRemoved;
}
template <class ENT_TYPE>
static bool isUsed(ConstraintWrapperPtr theConstraint, ENT_TYPE theEntity)
{
+ if (!theConstraint || !theEntity)
+ return false;
std::list<EntityWrapperPtr>::const_iterator anEntIt = theConstraint->entities().begin();
for (; anEntIt != theConstraint->entities().end(); ++anEntIt)
if ((*anEntIt)->isBase(theEntity))
static bool isUsed(EntityWrapperPtr theFeature, AttributePtr theSubEntity)
{
+ if (!theFeature || !theSubEntity)
+ return false;
std::list<EntityWrapperPtr>::const_iterator aSubIt = theFeature->subEntities().begin();
for (; aSubIt != theFeature->subEntities().end(); ++aSubIt)
if ((*aSubIt)->isBase(theSubEntity))
return false;
}
+static bool isUsed(FeaturePtr theFeature, AttributePtr theAttribute)
+{
+ if (!theFeature || !theAttribute)
+ return false;
+ std::list<AttributePtr> anAttrList = theFeature->data()->attributes(std::string());
+ std::list<AttributePtr>::const_iterator anIt = anAttrList.begin();
+ for (; anIt != anAttrList.end(); ++anIt) {
+ if (*anIt == theAttribute)
+ return true;
+ AttributeRefAttrPtr aRefAttr = std::dynamic_pointer_cast<ModelAPI_AttributeRefAttr>(*anIt);
+ if (aRefAttr && !aRefAttr->isObject() && aRefAttr->attr() == theAttribute)
+ return true;
+ }
+ return false;
+}
+
bool SketchSolver_Storage::isUsed(FeaturePtr theFeature) const
{
if (myFeatureMap.find(theFeature) != myFeatureMap.end())
if (::isUsed(*aCWIt, theFeature))
return true;
// check attributes
- std::list<AttributePtr> anAttrList = theFeature->data()->attributes(GeomDataAPI_Point2D::typeId());
+ std::list<AttributePtr> anAttrList = pointAttributes(theFeature);
std::list<AttributePtr>::const_iterator anIt = anAttrList.begin();
for (; anIt != anAttrList.end(); ++anIt)
if (isUsed(*anIt))
std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >::const_iterator
aCIt = myConstraintMap.begin();
std::list<ConstraintWrapperPtr>::const_iterator aCWIt;
- for (; aCIt != myConstraintMap.end(); ++aCIt)
+ for (; aCIt != myConstraintMap.end(); ++aCIt) {
for (aCWIt = aCIt->second.begin(); aCWIt != aCIt->second.end(); ++aCWIt)
if (::isUsed(*aCWIt, anAttribute))
return true;
+ // Additional check for the Fixed constraints, which have no wrapper associated.
+ if (aCIt->first->getKind() == SketchPlugin_ConstraintRigid::ID() &&
+ ::isUsed(FeaturePtr(aCIt->first), anAttribute))
+ return true;
+ }
// check in features
std::map<FeaturePtr, EntityWrapperPtr>::const_iterator aFIt = myFeatureMap.begin();
for (; aFIt != myFeatureMap.end(); ++aFIt)
{
std::map<FeaturePtr, EntityWrapperPtr>::iterator aFound = myFeatureMap.find(theFeature);
if (aFound == myFeatureMap.end())
- return false; // feature not found, nothing to delete
-
- // Check the feature is not used by constraints
- if (isUsed(theFeature))
- return false; // the feature is used, don't remove it
+ return true; // feature not found, nothing to delete
- // Remove feature
EntityWrapperPtr anEntity = aFound->second;
myFeatureMap.erase(aFound);
- if (remove(anEntity))
+
+ // Check if the feature is not used by constraints, remove it
+ if (!anEntity || (!isUsed(theFeature) && remove(anEntity)))
return true;
+
// feature is not removed, revert operation
myFeatureMap[theFeature] = anEntity;
update(anEntity);
{
std::map<AttributePtr, EntityWrapperPtr>::iterator aFound = myAttributeMap.find(theAttribute);
if (aFound == myAttributeMap.end())
- return false; // attribute not found, nothing to delete
-
- // Check the attribute is not used by constraints
- if (isUsed(theAttribute))
- return false; // the attribute is used, don't remove it
- // Check the attribute is not used by other features
- std::map<FeaturePtr, EntityWrapperPtr>::const_iterator aFIt = myFeatureMap.begin();
- for (; aFIt != myFeatureMap.end(); ++aFIt)
- if (::isUsed(aFIt->second, theAttribute)) // the attribute is used, don't remove it
- return false;
+ return true; // attribute not found, nothing to delete
- // Remove attribute
EntityWrapperPtr anEntity = aFound->second;
myAttributeMap.erase(aFound);
- if (remove(anEntity))
+
+ // Check if the attribute is not used by constraints and features, remove it
+ if (!anEntity || (!isUsed(theAttribute) && remove(anEntity)))
return true;
+
// attribute is not removed, revert operation
myAttributeMap[theAttribute] = anEntity;
update(anEntity);
return false;
}
+// Merge groups containing given entities
+static void mergeGroups(std::list<std::set<EntityWrapperPtr> >& theGroups,
+ const EntityWrapperPtr& theEntity1, const EntityWrapperPtr& theEntity2)
+{
+ std::list<std::set<EntityWrapperPtr> >::iterator aFound1 = theGroups.end();
+ std::list<std::set<EntityWrapperPtr> >::iterator aFound2 = theGroups.end();
+ std::list<std::set<EntityWrapperPtr> >::iterator anIt = theGroups.begin();
+ for (; anIt != theGroups.end() && (aFound1 == theGroups.end() || aFound2 == theGroups.end());
+ ++anIt) {
+ if (anIt->find(theEntity1) != anIt->end())
+ aFound1 = anIt;
+ if (anIt->find(theEntity2) != anIt->end())
+ aFound2 = anIt;
+ }
+
+ if (aFound1 == aFound2 || aFound1 == theGroups.end() || aFound2 == theGroups.end())
+ return; // nothing to merge
+
+ aFound1->insert(aFound2->begin(), aFound2->end());
+ theGroups.erase(aFound2);
+}
+
+bool SketchSolver_Storage::removeCoincidence(ConstraintWrapperPtr theConstraint)
+{
+ std::list<EntityWrapperPtr> aPoints = theConstraint->entities();
+ std::list<EntityWrapperPtr>::const_iterator aPIt;
+
+ CoincidentPointsMap::iterator aPtPtIt = myCoincidentPoints.begin();
+ for (; aPtPtIt != myCoincidentPoints.end(); ++aPtPtIt) {
+ for (aPIt = aPoints.begin(); aPIt != aPoints.end(); ++aPIt)
+ if (aPtPtIt->first == *aPIt ||
+ aPtPtIt->second.find(*aPIt) != aPtPtIt->second.end())
+ break;
+ if (aPIt != aPoints.end())
+ break;
+ }
+
+ if (aPtPtIt == myCoincidentPoints.end())
+ return true; // already removed
+
+ // Removing of coincidence may split this group of coincident point to several groups.
+ // Find all of them and also the points which become alone.
+ std::list< std::set<EntityWrapperPtr> > aCoincGroups;
+ std::set<EntityWrapperPtr> aGroup;
+ aGroup.insert(aPtPtIt->first);
+ aCoincGroups.push_back(aGroup);
+ std::set<EntityWrapperPtr>::const_iterator aTempIt = aPtPtIt->second.begin();
+ for (; aTempIt != aPtPtIt->second.end(); ++aTempIt) {
+ aGroup.clear();
+ aGroup.insert(*aTempIt);
+ aCoincGroups.push_back(aGroup);
+ }
+
+ std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >::iterator
+ aConstrIt = myConstraintMap.begin();
+ for (; aConstrIt != myConstraintMap.end(); ++aConstrIt) {
+ if (aConstrIt->first->getKind() != SketchPlugin_ConstraintCoincidence::ID())
+ continue;
+
+ AttributeRefAttrPtr aRefAttr[2] = {
+ aConstrIt->first->refattr(SketchPlugin_Constraint::ENTITY_A()),
+ aConstrIt->first->refattr(SketchPlugin_Constraint::ENTITY_B())
+ };
+ AttributePtr anAttr[2];
+ if (aConstrIt->first->data()->isValid()) {
+ if (!aRefAttr[0] || !aRefAttr[1])
+ continue;
+
+ for (int i = 0; i < 2; ++i) {
+ if (aRefAttr[i]->isObject()) {
+ FeaturePtr aFeature = ModelAPI_Feature::feature(aRefAttr[i]->object());
+ if (!aFeature || (aFeature->getKind() != SketchPlugin_Point::ID() &&
+ aFeature->getKind() != SketchPlugin_IntersectionPoint::ID()))
+ continue;
+ anAttr[i] = aFeature->attribute(SketchPlugin_Point::COORD_ID());
+ } else
+ anAttr[i] = aRefAttr[i]->attr();
+ }
+ } else {
+ // obtain attributes from the constraint wrapper
+ // if SketchPlugin_Constraint has invalid data (already removed)
+ ConstraintWrapperPtr aWrapper = aConstrIt->second.front();
+ anAttr[0] = aWrapper->entities().front()->baseAttribute();
+ anAttr[1] = aWrapper->entities().back()->baseAttribute();
+ }
+
+ EntityWrapperPtr anEntities[2];
+ for (int i = 0; i < 2; ++i) {
+ std::map<AttributePtr, EntityWrapperPtr>::iterator
+ aFound = myAttributeMap.find(anAttr[i]);
+ if (aFound != myAttributeMap.end())
+ anEntities[i] = aFound->second;
+ }
+ mergeGroups(aCoincGroups, anEntities[0], anEntities[1]);
+ }
+
+ // Collect alone points and build them new instances
+ std::list<EntityWrapperPtr> aShutOffList;
+ BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
+ std::map<EntityWrapperPtr, EntityWrapperPtr> aNotCoinc;
+ std::list<std::set<EntityWrapperPtr> >::iterator aGroupIt = aCoincGroups.begin();
+ while (aGroupIt != aCoincGroups.end()) {
+ if (aGroupIt->size() == 1) {
+ EntityWrapperPtr aPoint = *aGroupIt->begin();
+ aShutOffList.push_back(aPoint);
+ aNotCoinc[aPoint] =
+ aBuilder->createAttribute(aPoint->baseAttribute(), myGroupID, mySketchID);
+ std::list<std::set<EntityWrapperPtr> >::iterator aRemoveIt = aGroupIt++;
+ aCoincGroups.erase(aRemoveIt);
+ } else // point is not alone
+ ++aGroupIt;
+ }
+
+ if (aNotCoinc.empty() && aCoincGroups.size() == 1)
+ return false;
+
+ // Find all features and constraints uses non-coincident points
+ replaceEntities(aNotCoinc);
+
+ // Remove not coincident points and points in separated groups
+ if (!aCoincGroups.empty()) {
+ aGroupIt = aCoincGroups.begin();
+ for (++aGroupIt; aGroupIt != aCoincGroups.end(); ++aGroupIt)
+ aShutOffList.insert(aShutOffList.end(), aGroupIt->begin(), aGroupIt->end());
+ }
+ std::list<EntityWrapperPtr>::iterator aNotCIt = aShutOffList.begin();
+ for (; aNotCIt != aShutOffList.end(); ++aNotCIt) {
+ if (aPtPtIt->second.size() <= 1) {
+ myCoincidentPoints.erase(aPtPtIt);
+ break;
+ }
+ if (aPtPtIt->first == *aNotCIt) {
+ std::set<EntityWrapperPtr> aSlaves = aPtPtIt->second;
+ EntityWrapperPtr aNewMaster = *aSlaves.begin();
+ aSlaves.erase(aSlaves.begin());
+ myCoincidentPoints.erase(aPtPtIt);
+ myCoincidentPoints[aNewMaster] = aSlaves;
+ aPtPtIt = myCoincidentPoints.find(aNewMaster);
+ } else
+ aPtPtIt->second.erase(*aNotCIt);
+ }
+
+ // Create additional groups of coincident points
+ aGroupIt = aCoincGroups.begin();
+ if (!aCoincGroups.empty())
+ ++aGroupIt;
+ for (; aGroupIt != aCoincGroups.end(); ++aGroupIt) {
+ aNotCoinc.clear();
+ std::set<EntityWrapperPtr>::iterator anEntIt = aGroupIt->begin();
+ for (; anEntIt != aGroupIt->end(); ++anEntIt) {
+ aNotCoinc[*anEntIt] =
+ aBuilder->createAttribute((*anEntIt)->baseAttribute(), myGroupID, mySketchID);
+ }
+ // replace points by newly created
+ replaceEntities(aNotCoinc);
+ // set new group of coincident points
+ EntityWrapperPtr aMasterEnt = aNotCoinc.begin()->second;
+ std::map<EntityWrapperPtr, EntityWrapperPtr>::iterator aNCIt = aNotCoinc.begin();
+ for (++aNCIt; aNCIt != aNotCoinc.end(); ++aNCIt)
+ addCoincidentPoints(aMasterEnt, aNCIt->second);
+ }
+
+ return true;
+}
+
+void SketchSolver_Storage::replaceEntities(const std::map<EntityWrapperPtr,
+ EntityWrapperPtr>& theChange)
+{
+ std::set<EntityWrapperPtr> anUpdFeatures;
+ std::map<EntityWrapperPtr, EntityWrapperPtr>::const_iterator aSubIt;
+ std::map<FeaturePtr, EntityWrapperPtr>::iterator aFIt = myFeatureMap.begin();
+ for (; aFIt != myFeatureMap.end(); ++aFIt) {
+ if (!aFIt->second)
+ continue; // avoid not completed arcs
+ for (aSubIt = theChange.begin(); aSubIt != theChange.end(); ++aSubIt) {
+ if (!aSubIt->second || !::isUsed(aFIt->first, aSubIt->first->baseAttribute()))
+ continue;
+ std::list<EntityWrapperPtr> aSubs = aFIt->second->subEntities();
+ std::list<EntityWrapperPtr>::iterator aSIt = aSubs.begin();
+ bool isUpd = false;
+ for (; aSIt != aSubs.end(); ++aSIt)
+ if (*aSIt == aSubIt->first) {
+ (*aSIt)->update(aSubIt->second);
+ (*aSIt)->setGroup(aFIt->second->group());
+ isUpd = true;
+ }
+ if (isUpd) {
+ aFIt->second->setSubEntities(aSubs);
+ anUpdFeatures.insert(aFIt->second);
+ }
+ }
+ }
+ // update features
+ std::set<EntityWrapperPtr>::iterator anUpdIt = anUpdFeatures.begin();
+ for (; anUpdIt != anUpdFeatures.end(); ++anUpdIt)
+ update(EntityWrapperPtr(*anUpdIt));
+}
bool SketchSolver_Storage::remove(ConstraintWrapperPtr theConstraint)
{
if (aBaseFeature)
isFullyRemoved = SketchSolver_Storage::removeEntity(aBaseFeature) && isFullyRemoved;
else
- isFullyRemoved = SketchSolver_Storage::removeEntity((*anIt)->baseAttribute()) && isFullyRemoved;
+ isFullyRemoved =
+ SketchSolver_Storage::removeEntity((*anIt)->baseAttribute()) && isFullyRemoved;
}
return isFullyRemoved;
}
FeaturePtr aBaseFeature = (*anEntIt)->baseFeature();
if (aBaseFeature)
isFullyRemoved = SketchSolver_Storage::removeEntity(aBaseFeature) && isFullyRemoved;
- else
- isFullyRemoved = SketchSolver_Storage::removeEntity((*anEntIt)->baseAttribute()) && isFullyRemoved;
+ else {
+ AttributePtr aBaseAttr = (*anEntIt)->baseAttribute();
+ if (aBaseAttr)
+ isFullyRemoved = SketchSolver_Storage::removeEntity(aBaseAttr) && isFullyRemoved;
+ else
+ remove(*anEntIt);
+ }
}
std::list<ParameterWrapperPtr>::const_iterator aParIt = theEntity->parameters().begin();
if ((*anEntIt)->group() != myGroupID)
return true;
}
+
+ std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >::const_iterator aCIt =
+ myConstraintMap.begin();
+ std::list<ConstraintWrapperPtr>::const_iterator aCWIt;
+ for (; aCIt != myConstraintMap.end(); ++aCIt) {
+ if (aCIt->second.empty())
+ continue;
+ aCWIt = aCIt->second.begin();
+ if ((*aCWIt)->type() != CONSTRAINT_FIXED)
+ continue;
+ for (; aCWIt != aCIt->second.end(); ++aCIt)
+ if ((theEntity->baseAttribute() && (*aCWIt)->isUsed(theEntity->baseAttribute())) ||
+ (theEntity->baseFeature() && (*aCWIt)->isUsed(theEntity->baseFeature())))
+ return true;
+ }
+
return false;
}
addEntity(FeaturePtr(), theSketch);
}
+void SketchSolver_Storage::processArcs()
+{
+ myExistArc = false;
+ std::map<FeaturePtr, EntityWrapperPtr>::iterator aFIt = myFeatureMap.begin();
+ for (; aFIt != myFeatureMap.end(); ++aFIt)
+ if (!aFIt->second && aFIt->first->getKind() == SketchPlugin_Arc::ID()) {
+ // Additional checking the attributes are initialized
+ if (aFIt->first->attribute(SketchPlugin_Arc::CENTER_ID())->isInitialized() &&
+ aFIt->first->attribute(SketchPlugin_Arc::START_ID())->isInitialized() &&
+ aFIt->first->attribute(SketchPlugin_Arc::END_ID())->isInitialized())
+ update(aFIt->first);
+ else
+ myExistArc = true;
+ }
+}
+
void SketchSolver_Storage::blockEvents(bool isBlocked)
{
if (isBlocked == myEventsBlocked)
myEventsBlocked = isBlocked;
}
+std::set<ObjectPtr> SketchSolver_Storage::getConflictingConstraints(SolverPtr theSolver) const
+{
+ std::set<ObjectPtr> aConflicting;
+ std::map<ConstraintPtr, std::list<ConstraintWrapperPtr> >::const_iterator
+ aConstrIt = myConstraintMap.begin();
+ for (; aConstrIt != myConstraintMap.end(); ++aConstrIt) {
+ std::list<ConstraintWrapperPtr>::const_iterator anIt = aConstrIt->second.begin();
+ for (; anIt != aConstrIt->second.end(); ++anIt)
+ if (theSolver->isConflicting((*anIt)->id())) {
+ aConflicting.insert(aConstrIt->first);
+ break;
+ }
+ }
+ return aConflicting;
+}
}
return true;
}
+
+void resultToFeatureOrAttribute(const ObjectPtr& theResult,
+ FeaturePtr& theFeature, AttributePtr& theAttribute)
+{
+ FeaturePtr aFeature = ModelAPI_Feature::feature(theResult);
+ // if the feature has several results, we choose which one is referred
+ const std::list<ResultPtr>& aResults = aFeature->results();
+ if (aResults.size() > 1 && theResult != aFeature->lastResult()) {
+ // actually, the attribute refers to center of arc or circle,
+ // but not the edge, get correct attributes
+ std::string anAttrName;
+ if (aFeature->getKind() == SketchPlugin_Arc::ID())
+ anAttrName = SketchPlugin_Arc::CENTER_ID();
+ else if (aFeature->getKind() == SketchPlugin_Circle::ID())
+ anAttrName = SketchPlugin_Circle::CENTER_ID();
+ if (!anAttrName.empty()) {
+ theAttribute = aFeature->attribute(anAttrName);
+ aFeature = FeaturePtr();
+ }
+ }
+ theFeature = aFeature;
+}