#include <ModelAPI_Session.h>
#include <ModelAPI_Validator.h>
+#include <SketchPlugin_Arc.h>
#include <SketchPlugin_ConstraintAngle.h>
#include <SketchPlugin_ConstraintCoincidence.h>
#include <SketchPlugin_ConstraintDistance.h>
Events_Loop::loop()->send(aMessage);
}
+static void sendMessage(const char* theMessageName, const std::set<ObjectPtr>& theConflicting)
+{
+ std::shared_ptr<ModelAPI_SolverFailedMessage> aMessage =
+ std::shared_ptr<ModelAPI_SolverFailedMessage>(
+ new ModelAPI_SolverFailedMessage(Events_Loop::eventByName(theMessageName)));
+ aMessage->setObjects(theConflicting);
+ Events_Loop::loop()->send(aMessage);
+}
+
// ========================================================
SketchSolver_Group::SketchSolver_Group(
std::shared_ptr<ModelAPI_CompositeFeature> theWorkplane)
: myID(GroupIndexer::NEW_GROUP()),
- myPrevSolved(true)
+ myPrevResult(STATUS_UNKNOWN)
{
// Initialize workplane
myWorkplaneID = EID_UNKNOWN;
{
myConstraints.clear();
GroupIndexer::REMOVE_GROUP(myID);
+ // send the message that there is no more conflicting constraints
+ if (!myConflictingConstraints.empty()) {
+ sendMessage(EVENT_SOLVER_REPAIRED, myConflictingConstraints);
+ myConflictingConstraints.clear();
+ }
}
// ============================================================================
if (isEmpty())
return true;
// Check interaction with the storage
- return myStorage->isInteract(theFeature);
+ bool isInteracted = myStorage->isInteract(theFeature);
+ ConstraintConstraintMap::const_iterator anIt = myConstraints.begin();
+ for (; !isInteracted && anIt != myConstraints.end(); ++anIt)
+ if (anIt->first->getKind() == SketchPlugin_MultiRotation::ID() ||
+ anIt->first->getKind() == SketchPlugin_MultiTranslation::ID())
+ isInteracted = anIt->second->isUsed(theFeature);
+ return isInteracted;
}
// ============================================================================
return false;
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
+ myStorage->blockEvents(true);
bool isNewConstraint = myConstraints.find(theConstraint) == myConstraints.end();
if (isNewConstraint) {
Events_Error::send(aConstraint->error(), this);
}
myConstraints[theConstraint] = aConstraint;
+
+ if (theConstraint->getKind() == SketchPlugin_ConstraintCoincidence::ID())
+ notifyCoincidenceChanged(myConstraints[theConstraint]);
}
else
myConstraints[theConstraint]->update();
return true;
}
-
-void SketchSolver_Group::updateConstraints()
+// Update constraints if they contain specific feature
+static void updateMultiConstraints(ConstraintConstraintMap& theConstraints, FeaturePtr theFeature)
{
- std::set<SolverConstraintPtr> aPostponed; // postponed constraints Multi-Rotation and Multi-Translation
-
- ConstraintConstraintMap::iterator anIt = myConstraints.begin();
- for (; anIt != myConstraints.end(); ++anIt) {
- if (myChangedConstraints.find(anIt->first) == myChangedConstraints.end())
- continue;
- if (anIt->first->getKind() == SketchPlugin_MultiRotation::ID() ||
- anIt->first->getKind() == SketchPlugin_MultiTranslation::ID())
- aPostponed.insert(anIt->second);
- else
- anIt->second->update();
+ ConstraintConstraintMap::iterator aCIt = theConstraints.begin();
+ for (; aCIt != theConstraints.end(); ++aCIt) {
+ SketchSolver_ConstraintType aType = aCIt->second->getType();
+ if ((aType == CONSTRAINT_MULTI_ROTATION ||
+ aType == CONSTRAINT_MULTI_TRANSLATION)
+ && aCIt->second->isUsed(theFeature))
+ std::dynamic_pointer_cast<SketchSolver_ConstraintMulti>(aCIt->second)->update(true);
+ else if ((aType == CONSTRAINT_TANGENT_CIRCLE_LINE ||
+ aType == CONSTRAINT_SYMMETRIC || aType == CONSTRAINT_ANGLE)
+ && aCIt->second->isUsed(theFeature))
+ aCIt->second->update();
}
+}
- // Update postponed constraints
- std::set<SolverConstraintPtr>::iterator aSCIter = aPostponed.begin();
- for (; aSCIter != aPostponed.end(); ++aSCIter)
- (*aSCIter)->update();
-
- myChangedConstraints.clear();
+// Recalculate slave features of the Multi constraints
+static void updateMultiConstraints(ConstraintConstraintMap& theConstraints)
+{
+ ConstraintConstraintMap::iterator aCIt = theConstraints.begin();
+ for (; aCIt != theConstraints.end(); ++aCIt) {
+ SketchSolver_ConstraintType aType = aCIt->second->getType();
+ if ((aType == CONSTRAINT_MULTI_ROTATION ||
+ aType == CONSTRAINT_MULTI_TRANSLATION))
+ std::dynamic_pointer_cast<SketchSolver_ConstraintMulti>(aCIt->second)->update(true);
+ }
}
bool SketchSolver_Group::updateFeature(FeaturePtr theFeature)
{
if (!checkFeatureValidity(theFeature))
return false;
+
+ bool isBlocked = myStorage->isEventsBlocked();
+ if (!isBlocked)
+ myStorage->blockEvents(true);
+
myStorage->refresh(true);
- return myStorage->update(theFeature);
+ bool isUpdated = myStorage->update(theFeature);
+
+ updateMultiConstraints(myConstraints, theFeature);
+
+ // events were not blocked before, the feature has not been updated,
+ // so it is necessary to revert blocking
+ if (!isUpdated && !isBlocked)
+ myStorage->blockEvents(false);
+ return isUpdated;
}
void SketchSolver_Group::moveFeature(FeaturePtr theFeature)
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
// Firstly, revert changes in the fixed entities
+ myStorage->blockEvents(true);
myStorage->refresh(true);
- // Secondly, search attributes of the feature in the list of the Multi constraints and update them
- ConstraintConstraintMap::iterator aCIt = myConstraints.begin();
- for (; aCIt != myConstraints.end(); ++aCIt) {
- if ((aCIt->second->getType() == CONSTRAINT_MULTI_ROTATION ||
- aCIt->second->getType() == CONSTRAINT_MULTI_TRANSLATION)
- && aCIt->second->isUsed(theFeature))
- std::dynamic_pointer_cast<SketchSolver_ConstraintMulti>(aCIt->second)->update(true);
- }
-
- // Then, create temporary rigid constraint
+ // Then, create temporary Fixed constraint
SolverConstraintPtr aConstraint = aBuilder->createMovementConstraint(theFeature);
if (!aConstraint)
return;
aConstraint->process(myStorage, getId(), getWorkplaneId());
if (aConstraint->error().empty())
setTemporary(aConstraint);
+
+ // Secondly, search attributes of the feature in the list of the Multi constraints and update them
+ updateMultiConstraints(myConstraints, theFeature);
+
+ // Workaround to process arcs.
+ // When move unconstrained arc, add temporary constraint to fix radius.
+ if (theFeature->getKind() == SketchPlugin_Arc::ID()) {
+ bool hasDup = myStorage->hasDuplicatedConstraint();
+ SolverConstraintPtr aFixedRadius = aBuilder->createFixedArcRadiusConstraint(theFeature);
+ if (aFixedRadius) {
+ aFixedRadius->process(myStorage, getId(), getWorkplaneId());
+ hasDup = myStorage->hasDuplicatedConstraint() && !hasDup;
+ if (aFixedRadius->error().empty() && !hasDup)
+ setTemporary(aFixedRadius);
+ else
+ aFixedRadius->remove();
+ }
+ }
}
// ============================================================================
// ============================================================================
bool SketchSolver_Group::resolveConstraints()
{
- if (!myChangedConstraints.empty())
- updateConstraints();
-
bool aResolved = false;
- bool isGroupEmpty = isEmpty();
+ bool isGroupEmpty = isEmpty() && myStorage->isEmpty();
if (myStorage->isNeedToResolve() && !isGroupEmpty) {
if (!mySketchSolver)
mySketchSolver = SketchSolver_Manager::instance()->builder()->createSolver();
mySketchSolver->setGroup(myID);
mySketchSolver->calculateFailedConstraints(false);
myStorage->initializeSolver(mySketchSolver);
+ mySketchSolver->prepare();
SketchSolver_SolveStatus aResult = STATUS_OK;
try {
// To avoid overconstraint situation, we will remove temporary constraints one-by-one
// and try to find the case without overconstraint
bool isLastChance = false;
- size_t aNbTemp = myStorage->nbTemporary();
while (true) {
aResult = mySketchSolver->solve();
if (aResult == STATUS_OK || aResult == STATUS_EMPTYSET || isLastChance)
break;
- if (aNbTemp == 0) {
- // try to update parameters and resolve once again
- ConstraintConstraintMap::iterator aConstrIt = myConstraints.begin();
- for (; aConstrIt != myConstraints.end(); ++aConstrIt)
- aConstrIt->second->update();
- isLastChance = true;
- } else
- aNbTemp = myStorage->removeTemporary();
+//// // try to update parameters and resolve once again
+//// ConstraintConstraintMap::iterator aConstrIt = myConstraints.begin();
+//// for (; aConstrIt != myConstraints.end(); ++aConstrIt)
+//// aConstrIt->second->update();
+ isLastChance = true;
+
+ removeTemporaryConstraints();
mySketchSolver->calculateFailedConstraints(true); // something failed => need to find it
myStorage->initializeSolver(mySketchSolver);
}
} catch (...) {
// Events_Error::send(SketchSolver_Error::SOLVESPACE_CRASH(), this);
getWorkplane()->string(SketchPlugin_Sketch::SOLVER_ERROR())->setValue(SketchSolver_Error::SOLVESPACE_CRASH());
- if (myPrevSolved) {
+ if (myPrevResult == STATUS_OK || myPrevResult == STATUS_UNKNOWN) {
// the error message should be changed before sending the message
sendMessage(EVENT_SOLVER_FAILED);
- myPrevSolved = false;
+ myPrevResult = STATUS_FAILED;
}
+ mySketchSolver->undo();
return false;
}
if (aResult == STATUS_OK || aResult == STATUS_EMPTYSET) { // solution succeeded, store results into correspondent attributes
myStorage->refresh();
- if (!myPrevSolved) {
+ updateMultiConstraints(myConstraints);
+ if (myPrevResult != STATUS_OK || myPrevResult == STATUS_UNKNOWN) {
getWorkplane()->string(SketchPlugin_Sketch::SOLVER_ERROR())->setValue("");
// the error message should be changed before sending the message
- sendMessage(EVENT_SOLVER_REPAIRED);
- myPrevSolved = true;
+ sendMessage(EVENT_SOLVER_REPAIRED, myConflictingConstraints);
+ myConflictingConstraints.clear();
+ myPrevResult = STATUS_OK;
}
- } else if (!myConstraints.empty()) {
-// Events_Error::send(SketchSolver_Error::CONSTRAINTS(), this);
- getWorkplane()->string(SketchPlugin_Sketch::SOLVER_ERROR())->setValue(SketchSolver_Error::CONSTRAINTS());
- if (myPrevSolved) {
+ } else {
+ mySketchSolver->undo();
+ if (!myConstraints.empty()) {
// the error message should be changed before sending the message
- sendMessage(EVENT_SOLVER_FAILED);
- myPrevSolved = false;
+ getWorkplane()->string(SketchPlugin_Sketch::SOLVER_ERROR())->setValue(SketchSolver_Error::CONSTRAINTS());
+ if (myPrevResult != aResult || myPrevResult == STATUS_UNKNOWN) {
+ // Obtain list of conflicting constraints
+ std::set<ObjectPtr> aConflicting = myStorage->getConflictingConstraints(mySketchSolver);
+
+ if (myConflictingConstraints.empty())
+ sendMessage(EVENT_SOLVER_FAILED, aConflicting);
+ else {
+ std::set<ObjectPtr>::iterator anIt = aConflicting.begin();
+ for (; anIt != aConflicting.end(); ++anIt)
+ myConflictingConstraints.erase(*anIt);
+ if (!myConflictingConstraints.empty()) {
+ // some constraints does not conflict, send corresponding message
+ sendMessage(EVENT_SOLVER_REPAIRED, myConflictingConstraints);
+ }
+ }
+ myConflictingConstraints = aConflicting;
+ myPrevResult = aResult;
+ }
}
}
myStorage->refresh();
}
removeTemporaryConstraints();
+ myStorage->blockEvents(false);
myStorage->setNeedToResolve(false);
return aResolved;
}
for (; aTmpIt != myTempConstraints.end(); ++aTmpIt)
(*aTmpIt)->remove();
- size_t aNbTemp = myStorage->nbTemporary();
- if (aNbTemp > 0)
- myStorage->removeTemporary(aNbTemp);
-
if (!myTempConstraints.empty())
myStorage->verifyFixed();
myStorage->setNeedToResolve(false);
// ============================================================================
void SketchSolver_Group::removeConstraint(ConstraintPtr theConstraint)
{
- bool isFullyRemoved = true;
ConstraintConstraintMap::iterator aCIter = myConstraints.begin();
for (; aCIter != myConstraints.end(); aCIter++)
if (aCIter->first == theConstraint) {
- if (!aCIter->second->remove()) // the constraint is not fully removed
- isFullyRemoved = false;
+ aCIter->second->remove(); // the constraint is not fully removed
+ if (aCIter->first->getKind() == SketchPlugin_ConstraintCoincidence::ID())
+ notifyCoincidenceChanged(aCIter->second);
break;
}
- if (aCIter == myConstraints.end())
- return;
-
- if (isFullyRemoved)
+ if (aCIter != myConstraints.end())
myConstraints.erase(aCIter);
- else if (aCIter != myConstraints.end() &&
- aCIter->first->getKind() == SketchPlugin_ConstraintCoincidence::ID()) {
- // Update multicoincidence
- std::list<ConstraintPtr> aMultiCoinc;
- SolverConstraintPtr aCoincidence = aCIter->second;
- while (aCIter != myConstraints.end()) {
- if (aCIter->second != aCoincidence) {
- ++aCIter;
- continue;
- }
- if (aCIter->first != theConstraint)
- aMultiCoinc.push_back(aCIter->first);
- aCIter->second->remove();
- ConstraintConstraintMap::iterator aRemoveIt = aCIter++;
- myConstraints.erase(aRemoveIt);
- }
-
- std::list<ConstraintPtr>::iterator anIt = aMultiCoinc.begin();
- for (; anIt != aMultiCoinc.end(); ++anIt)
- changeConstraint(*anIt);
- }
-}
-
-// ============================================================================
-// Function: isComplexConstraint
-// Class: SketchSolver_Group
-// Purpose: verifies the constraint is complex, i.e. it needs another constraints to be created before
-// ============================================================================
-bool SketchSolver_Group::isComplexConstraint(FeaturePtr theConstraint)
-{
- return theConstraint->getKind() == SketchPlugin_ConstraintFillet::ID() ||
- theConstraint->getKind() == SketchPlugin_ConstraintMirror::ID() ||
- theConstraint->getKind() == SketchPlugin_ConstraintTangent::ID();
}
// ============================================================================
// ============================================================================
void SketchSolver_Group::setTemporary(SolverConstraintPtr theConstraint)
{
- theConstraint->makeTemporary();
myTempConstraints.insert(theConstraint);
}
return aResult;
}
+void SketchSolver_Group::notifyCoincidenceChanged(SolverConstraintPtr theCoincidence)
+{
+ const std::list<EntityWrapperPtr>& aCoincident = theCoincidence->attributes();
+ EntityWrapperPtr anAttr1 = aCoincident.front();
+ EntityWrapperPtr anAttr2 = aCoincident.back();
+
+ ConstraintConstraintMap::iterator anIt = myConstraints.begin();
+ for (; anIt != myConstraints.end(); ++anIt)
+ anIt->second->notifyCoincidenceChanged(anAttr1, anAttr2);
+}