-// Copyright (C) 2014-20xx CEA/DEN, EDF R&D
-
-// File: Model_Data.hxx
-// Created: 21 Mar 2014
-// Author: Mikhail PONIKAROV
+// Copyright (C) 2014-2019 CEA/DEN, EDF R&D
+//
+// 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 <Model_Data.h>
#include <Model_AttributeDocRef.h>
#include <Model_AttributeInteger.h>
#include <Model_AttributeDouble.h>
+#include <Model_AttributeDoubleArray.h>
#include <Model_AttributeReference.h>
#include <Model_AttributeRefAttr.h>
#include <Model_AttributeRefList.h>
+#include <Model_AttributeRefAttrList.h>
#include <Model_AttributeBoolean.h>
#include <Model_AttributeString.h>
+#include <Model_AttributeStringArray.h>
#include <Model_AttributeSelection.h>
#include <Model_AttributeSelectionList.h>
#include <Model_AttributeIntArray.h>
+#include <Model_AttributeTables.h>
#include <Model_Events.h>
#include <Model_Expression.h>
#include <ModelAPI_Feature.h>
#include <GeomData_Point2D.h>
#include <GeomData_Dir.h>
#include <Events_Loop.h>
-#include <Events_Error.h>
+#include <Events_InfoMessage.h>
#include <TDataStd_Name.hxx>
#include <TDataStd_AsciiString.hxx>
#include <TDataStd_IntegerArray.hxx>
+#include <TDataStd_UAttribute.hxx>
#include <TDF_AttributeIterator.hxx>
#include <TDF_ChildIterator.hxx>
#include <TDF_RelocationTable.hxx>
static const int kFlagDisplayed = 1;
// 2 - is deleted (for results) or not
static const int kFlagDeleted = 2;
+// TDataStd_Integer - 0 if the name of the object is generated automatically,
+// otherwise the name is defined by user
+Standard_GUID kUSER_DEFINED_NAME("9c694d18-a83c-4a56-bc9b-8020628a8244");
// invalid data
const static std::shared_ptr<ModelAPI_Data> kInvalid(new Model_Data());
-Model_Data::Model_Data() : mySendAttributeUpdated(true)
+Model_Data::Model_Data() : mySendAttributeUpdated(true), myWasChangedButBlocked(false)
{
}
myFlags->SetValue(kFlagInHistory, Standard_True); // is in history by default is true
myFlags->SetValue(kFlagDisplayed, Standard_True); // is displayed by default is true
myFlags->SetValue(kFlagDeleted, Standard_False); // is deleted by default is false
- } else if (myFlags->Length() != 3) { // for old formats support
- Standard_Boolean aFlag0 = myFlags->Upper() >= 0 ? myFlags->Value(0) : Standard_True;
- Standard_Boolean aFlag1 = myFlags->Upper() >= 1 ? myFlags->Value(1) : Standard_True;
- Standard_Boolean aFlag2 = myFlags->Upper() >= 2 ? myFlags->Value(2) : Standard_True;
- Handle(TColStd_HArray1OfByte) aNewArray = new TColStd_HArray1OfByte(0, 2);
- myFlags->SetInternalArray(aNewArray);
- myFlags->SetValue(0, aFlag0);
- myFlags->SetValue(1, aFlag1);
- myFlags->SetValue(2, aFlag2);
}
}
std::string Model_Data::name()
{
Handle(TDataStd_Name) aName;
- if (myLab.FindAttribute(TDataStd_Name::GetID(), aName))
+ if (shapeLab().FindAttribute(TDataStd_Name::GetID(), aName)) {
+#ifdef DEBUG_NAMES
+ myObject->myName = TCollection_AsciiString(aName->Get()).ToCString();
+#endif
return std::string(TCollection_AsciiString(aName->Get()).ToCString());
+ }
return ""; // not defined
}
bool isModified = false;
std::string anOldName = name();
Handle(TDataStd_Name) aName;
- if (!myLab.FindAttribute(TDataStd_Name::GetID(), aName)) {
- TDataStd_Name::Set(myLab, theName.c_str());
+ if (!shapeLab().FindAttribute(TDataStd_Name::GetID(), aName)) {
+ TDataStd_Name::Set(shapeLab(), theName.c_str());
isModified = true;
} else {
isModified = !aName->Get().IsEqual(theName.c_str());
- if (isModified)
+ if (isModified) {
aName->Set(theName.c_str());
+
+ // check the name of result is defined by user
+ // (name of result does not composed of the name of feature and the result index)
+ bool isUserDefined = true;
+ ResultPtr aResult = std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
+ if (aResult) {
+ std::string aDefaultName = ModelAPI_Tools::getDefaultName(aResult, false).first;
+ isUserDefined = aDefaultName != theName;
+ }
+ if (isUserDefined) {
+ // name is user-defined, thus special attribute is set
+ TDataStd_UAttribute::Set(shapeLab(), kUSER_DEFINED_NAME);
+ }
+ }
}
if (mySendAttributeUpdated && isModified)
ModelAPI_ObjectRenamedMessage::send(myObject, anOldName, theName, this);
+ if (isModified && myObject && myObject->document()) {
+ std::dynamic_pointer_cast<Model_Document>(myObject->document())->
+ changeNamingName(anOldName, theName, shapeLab());
+ }
+#ifdef DEBUG_NAMES
+ myObject->myName = theName;
+#endif
+}
+
+bool Model_Data::hasUserDefinedName() const
+{
+ return shapeLab().IsAttribute(kUSER_DEFINED_NAME);
}
AttributePtr Model_Data::addAttribute(const std::string& theID, const std::string theAttrType)
{
AttributePtr aResult;
- TDF_Label anAttrLab = myLab.FindChild(myAttrs.size() + 1);
+ int anAttrIndex = int(myAttrs.size()) + 1;
+ TDF_Label anAttrLab = myLab.FindChild(anAttrIndex);
ModelAPI_Attribute* anAttr = 0;
if (theAttrType == ModelAPI_AttributeDocRef::typeId()) {
anAttr = new Model_AttributeDocRef(anAttrLab);
} else if (theAttrType == Model_AttributeInteger::typeId()) {
anAttr = new Model_AttributeInteger(anAttrLab);
} else if (theAttrType == ModelAPI_AttributeDouble::typeId()) {
- Model_AttributeDouble* anAttribute = new Model_AttributeDouble(anAttrLab);
- TDF_Label anExpressionLab = anAttrLab.FindChild(1);
- anAttribute->myExpression.reset(new Model_Expression(anExpressionLab));
- anAttribute->myIsInitialized = anAttribute->myIsInitialized && anAttribute->myExpression->isInitialized();
- anAttr = anAttribute;
+ anAttr = new Model_AttributeDouble(anAttrLab);
} else if (theAttrType == Model_AttributeBoolean::typeId()) {
anAttr = new Model_AttributeBoolean(anAttrLab);
} else if (theAttrType == Model_AttributeString::typeId()) {
anAttr = new Model_AttributeString(anAttrLab);
+ } else if (theAttrType == Model_AttributeStringArray::typeId()) {
+ anAttr = new Model_AttributeStringArray(anAttrLab);
} else if (theAttrType == ModelAPI_AttributeReference::typeId()) {
anAttr = new Model_AttributeReference(anAttrLab);
} else if (theAttrType == ModelAPI_AttributeSelection::typeId()) {
anAttr = new Model_AttributeRefAttr(anAttrLab);
} else if (theAttrType == ModelAPI_AttributeRefList::typeId()) {
anAttr = new Model_AttributeRefList(anAttrLab);
+ } else if (theAttrType == ModelAPI_AttributeRefAttrList::typeId()) {
+ anAttr = new Model_AttributeRefAttrList(anAttrLab);
} else if (theAttrType == ModelAPI_AttributeIntArray::typeId()) {
anAttr = new Model_AttributeIntArray(anAttrLab);
- }
+ } else if (theAttrType == ModelAPI_AttributeDoubleArray::typeId()) {
+ anAttr = new Model_AttributeDoubleArray(anAttrLab);
+ } else if (theAttrType == ModelAPI_AttributeTables::typeId()) {
+ anAttr = new Model_AttributeTables(anAttrLab);
+ }
// create also GeomData attributes here because only here the OCAF structure is known
else if (theAttrType == GeomData_Point::typeId()) {
- GeomData_Point* anAttribute = new GeomData_Point(anAttrLab);
+ GeomData_Point* anAttribute = new GeomData_Point();
+ bool anAllInitialized = true;
for (int aComponent = 0; aComponent < GeomData_Point::NUM_COMPONENTS; ++aComponent) {
TDF_Label anExpressionLab = anAttrLab.FindChild(aComponent + 1);
- anAttribute->myExpression[aComponent].reset(new Model_Expression(anExpressionLab));
- anAttribute->myIsInitialized = anAttribute->myIsInitialized && anAttribute->myExpression[aComponent]->isInitialized();
+ anAttribute->myExpression[aComponent].reset(new Model_ExpressionDouble(anExpressionLab));
+ anAllInitialized = anAllInitialized && anAttribute->myExpression[aComponent]->isInitialized();
}
+ anAttribute->myIsInitialized = anAllInitialized;
anAttr = anAttribute;
} else if (theAttrType == GeomData_Dir::typeId()) {
anAttr = new GeomData_Dir(anAttrLab);
} else if (theAttrType == GeomData_Point2D::typeId()) {
- GeomData_Point2D* anAttribute = new GeomData_Point2D(anAttrLab);
+ GeomData_Point2D* anAttribute = new GeomData_Point2D();
+ bool anAllInitialized = true;
for (int aComponent = 0; aComponent < GeomData_Point2D::NUM_COMPONENTS; ++aComponent) {
TDF_Label anExpressionLab = anAttrLab.FindChild(aComponent + 1);
- anAttribute->myExpression[aComponent].reset(new Model_Expression(anExpressionLab));
- anAttribute->myIsInitialized = anAttribute->myIsInitialized && anAttribute->myExpression[aComponent]->isInitialized();
+ anAttribute->myExpression[aComponent].reset(new Model_ExpressionDouble(anExpressionLab));
+ anAllInitialized = anAllInitialized && anAttribute->myExpression[aComponent]->isInitialized();
}
+ anAttribute->myIsInitialized = anAllInitialized;
anAttr = anAttribute;
}
if (anAttr) {
aResult = std::shared_ptr<ModelAPI_Attribute>(anAttr);
- myAttrs[theID] = aResult;
+ myAttrs[theID] = std::pair<AttributePtr, int>(aResult, anAttrIndex);
anAttr->setObject(myObject);
anAttr->setID(theID);
} else {
- Events_Error::send("Can not create unknown type of attribute " + theAttrType);
+ Events_InfoMessage("Model_Data",
+ "Can not create unknown type of attribute %1").arg(theAttrType).send();
}
return aResult;
}
-// macro for gthe generic returning of the attribute by the ID
+// macro for the generic returning of the attribute by the ID
#define GET_ATTRIBUTE_BY_ID(ATTR_TYPE, METHOD_NAME) \
std::shared_ptr<ATTR_TYPE> Model_Data::METHOD_NAME(const std::string& theID) { \
std::shared_ptr<ATTR_TYPE> aRes; \
- std::map<std::string, AttributePtr >::iterator aFound = \
- myAttrs.find(theID); \
+ AttributeMap::iterator aFound = myAttrs.find(theID); \
if (aFound != myAttrs.end()) { \
- aRes = std::dynamic_pointer_cast<ATTR_TYPE>(aFound->second); \
+ aRes = std::dynamic_pointer_cast<ATTR_TYPE>(aFound->second.first); \
} \
return aRes; \
}
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeInteger, integer);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeBoolean, boolean);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeString, string);
+GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeStringArray, stringArray);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeReference, reference);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeSelection, selection);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeSelectionList, selectionList);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeRefAttr, refattr);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeRefList, reflist);
+GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeRefAttrList, refattrlist);
GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeIntArray, intArray);
+GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeDoubleArray, realArray);
+GET_ATTRIBUTE_BY_ID(ModelAPI_AttributeTables, tables);
std::shared_ptr<ModelAPI_Attribute> Model_Data::attribute(const std::string& theID)
{
std::shared_ptr<ModelAPI_Attribute> aResult;
if (myAttrs.find(theID) == myAttrs.end()) // no such attribute
return aResult;
- return myAttrs[theID];
+ return myAttrs[theID].first;
}
const std::string& Model_Data::id(const std::shared_ptr<ModelAPI_Attribute>& theAttr)
{
- std::map<std::string, std::shared_ptr<ModelAPI_Attribute> >::iterator anAttr =
- myAttrs.begin();
+ AttributeMap::iterator anAttr = myAttrs.begin();
for (; anAttr != myAttrs.end(); anAttr++) {
- if (anAttr->second == theAttr)
+ if (anAttr->second.first == theAttr)
return anAttr->first;
}
// not found
std::list<std::shared_ptr<ModelAPI_Attribute> > Model_Data::attributes(const std::string& theType)
{
std::list<std::shared_ptr<ModelAPI_Attribute> > aResult;
- std::map<std::string, std::shared_ptr<ModelAPI_Attribute> >::iterator anAttrsIter =
- myAttrs.begin();
+ AttributeMap::iterator anAttrsIter = myAttrs.begin();
for (; anAttrsIter != myAttrs.end(); anAttrsIter++) {
- if (theType.empty() || anAttrsIter->second->attributeType() == theType) {
- aResult.push_back(anAttrsIter->second);
+ AttributePtr anAttr = anAttrsIter->second.first;
+ if (theType.empty() || anAttr->attributeType() == theType) {
+ aResult.push_back(anAttr);
}
}
return aResult;
}
-std::list<std::string> Model_Data::attributesIDs(const std::string& theType)
+std::list<std::string> Model_Data::attributesIDs(const std::string& theType)
{
std::list<std::string> aResult;
- std::map<std::string, std::shared_ptr<ModelAPI_Attribute> >::iterator anAttrsIter =
- myAttrs.begin();
+ AttributeMap::iterator anAttrsIter = myAttrs.begin();
for (; anAttrsIter != myAttrs.end(); anAttrsIter++) {
- if (theType.empty() || anAttrsIter->second->attributeType() == theType) {
+ AttributePtr anAttr = anAttrsIter->second.first;
+ if (theType.empty() || anAttr->attributeType() == theType) {
aResult.push_back(anAttrsIter->first);
}
}
{
theAttr->setInitialized();
if (theAttr->isArgument()) {
- static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_UPDATED);
- ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent);
- if (mySendAttributeUpdated && myObject) {
- myObject->attributeChanged(theAttr->id());
+ if (mySendAttributeUpdated) {
+ if (myObject) {
+ try {
+ myObject->attributeChanged(theAttr->id());
+ } catch(...) {
+ if (owner().get() && owner()->data().get() && owner()->data()->isValid()) {
+ Events_InfoMessage("Model_Data",
+ "%1 has failed during the update").arg(owner()->data()->name()).send();
+ }
+ }
+ static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_UPDATED);
+ ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent);
+ }
+ } else {
+ // to avoid too many duplications do not add the same like the last
+ if (myWasChangedButBlocked.empty() || *(myWasChangedButBlocked.rbegin()) != theAttr)
+ myWasChangedButBlocked.push_back(theAttr);
+ }
+ } else {
+ // trim: need to redisplay
+ if (myObject && theAttr->attributeType() == "Point2D") {
+ static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_TO_REDISPLAY);
+ ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent);
}
}
}
-void Model_Data::blockSendAttributeUpdated(const bool theBlock)
-{
- mySendAttributeUpdated = !theBlock;
+bool Model_Data::blockSendAttributeUpdated(const bool theBlock, const bool theSendMessage)
+{
+ bool aWasBlocked = !mySendAttributeUpdated;
+ if (mySendAttributeUpdated == theBlock) {
+ mySendAttributeUpdated = !theBlock;
+ if (mySendAttributeUpdated && !myWasChangedButBlocked.empty()) {
+ // so, now it is ok to send the update signal
+ if (theSendMessage) {
+ // make a copy to avoid iteration on modified list
+ // (may be cleared by attribute changed call)
+ std::list<ModelAPI_Attribute*> aWasChangedButBlocked = myWasChangedButBlocked;
+ myWasChangedButBlocked.clear();
+ std::list<ModelAPI_Attribute*>::iterator aChangedIter = aWasChangedButBlocked.begin();
+ for(; aChangedIter != aWasChangedButBlocked.end(); aChangedIter++) {
+ try {
+ myObject->attributeChanged((*aChangedIter)->id());
+ } catch(...) {
+ if (owner().get() && owner()->data().get() && owner()->data()->isValid()) {
+ Events_InfoMessage("Model_Data",
+ "%1 has failed during the update").arg(owner()->data()->name()).send();
+ }
+ }
+ }
+ static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_UPDATED);
+ ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent);
+ } else {
+ myWasChangedButBlocked.clear();
+ }
+ }
+ }
+ return aWasBlocked;
}
void Model_Data::erase()
{
- if (!myLab.IsNull())
+ if (!myLab.IsNull()) {
+ if (myLab.HasAttribute()) {
+ // remove in order to clear back references in other objects
+ std::list<std::pair<std::string, std::list<ObjectPtr> > > aRefs;
+ referencesToObjects(aRefs);
+ std::list<std::pair<std::string, std::list<ObjectPtr> > >::iterator
+ anAttrIter = aRefs.begin();
+ for(; anAttrIter != aRefs.end(); anAttrIter++) {
+ std::list<ObjectPtr>::iterator aReferenced = anAttrIter->second.begin();
+ for(; aReferenced != anAttrIter->second.end(); aReferenced++) {
+ if (aReferenced->get() && (*aReferenced)->data()->isValid()) {
+ std::shared_ptr<Model_Data> aData =
+ std::dynamic_pointer_cast<Model_Data>((*aReferenced)->data());
+ aData->removeBackReference(myAttrs[anAttrIter->first].first);
+ }
+ }
+ }
+ }
+ myAttrs.clear();
myLab.ForgetAllAttributes();
+ }
}
// indexes in the state array
STATE_INDEX_TRANSACTION = 2, // transaction ID
};
-/// Returns the label array, initialises it by default values if not exists
+/// Returns the label array, initializes it by default values if not exists
static Handle(TDataStd_IntegerArray) stateArray(TDF_Label& theLab)
{
Handle(TDataStd_IntegerArray) aStateArray;
if (stateArray(myLab)->Value(STATE_INDEX_STATE) != (int)theState) {
stateArray(myLab)->SetValue(STATE_INDEX_STATE, (int)theState);
}
- // send signal even if the new value corresponds to the one in data model: undo issue 980
- static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_ERROR_CHANGED);
- ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent, false);
}
}
{
execState(ModelAPI_StateExecFailed);
if (theSend) {
- Events_Error::send(theError);
+ Events_InfoMessage("Model_Data", theError).send();
}
TDataStd_AsciiString::Set(myLab, theError.c_str());
- static const Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_ERROR_CHANGED);
- ModelAPI_EventCreator::get()->sendUpdated(myObject, anEvent, false);
}
void Model_Data::eraseErrorString()
return myLab.Father().Tag(); // tag of the feature label
}
-void Model_Data::eraseBackReferences()
+void Model_Data::removeBackReference(ObjectPtr theObject, std::string theAttrID)
{
- myRefsToMe.clear();
- std::shared_ptr<ModelAPI_Result> aRes =
- std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
- if (aRes)
- aRes->setIsConcealed(false);
+ AttributePtr anAttribute = theObject->data()->attribute(theAttrID);
+ removeBackReference(anAttribute);
}
-void Model_Data::removeBackReference(FeaturePtr theFeature, std::string theAttrID)
+void Model_Data::removeBackReference(AttributePtr theAttr)
{
- AttributePtr anAttribute = theFeature->data()->attribute(theAttrID);
- if (myRefsToMe.find(anAttribute) == myRefsToMe.end())
+ if (myRefsToMe.find(theAttr) == myRefsToMe.end())
return;
- myRefsToMe.erase(anAttribute);
+ myRefsToMe.erase(theAttr);
- // remove concealment immideately: on deselection it must be posible to reselect in GUI the same
- if (ModelAPI_Session::get()->validators()->isConcealed(theFeature->getKind(), theAttrID)) {
+ // remove concealment immediately: on deselection it must be possible to reselect in GUI the same
+ FeaturePtr aFeatureOwner = std::dynamic_pointer_cast<ModelAPI_Feature>(theAttr->owner());
+ if (aFeatureOwner.get() &&
+ ModelAPI_Session::get()->validators()->isConcealed(aFeatureOwner->getKind(), theAttr->id())) {
updateConcealmentFlag();
}
}
-void Model_Data::addBackReference(FeaturePtr theFeature, std::string theAttrID,
+void Model_Data::addBackReference(FeaturePtr theFeature, std::string theAttrID,
const bool theApplyConcealment)
{
- // do not add the same attribute twice
- AttributePtr anAttribute = theFeature->data()->attribute(theAttrID);
- if (myRefsToMe.find(anAttribute) != myRefsToMe.end())
- return;
+ addBackReference(ObjectPtr(theFeature), theAttrID);
- myRefsToMe.insert(theFeature->data()->attribute(theAttrID));
- if (theApplyConcealment && theFeature->isStable() &&
+ if (theApplyConcealment && theFeature->isStable() &&
ModelAPI_Session::get()->validators()->isConcealed(theFeature->getKind(), theAttrID)) {
- std::shared_ptr<ModelAPI_Result> aRes =
- std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
+ std::shared_ptr<ModelAPI_Result> aRes = std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
// the second condition is for history upper than concealment causer, so the feature result may
// be displayed and previewed; also for avoiding of quick show/hide on history
// moving deep down
}
}
+void Model_Data::addBackReference(ObjectPtr theObject, std::string theAttrID)
+{
+ // it is possible to add the same attribute twice: may be last time the owner was not Stable...
+ AttributePtr anAttribute = theObject->data()->attribute(theAttrID);
+ if (myRefsToMe.find(anAttribute) == myRefsToMe.end())
+ myRefsToMe.insert(anAttribute);
+}
+
void Model_Data::updateConcealmentFlag()
{
std::set<AttributePtr>::iterator aRefsIter = myRefsToMe.begin();
for(; aRefsIter != myRefsToMe.end(); aRefsIter++) {
if (aRefsIter->get()) {
FeaturePtr aFeature = std::dynamic_pointer_cast<ModelAPI_Feature>((*aRefsIter)->owner());
- if (aFeature.get() && !aFeature->isDisabled()) {
+ if (aFeature.get() && !aFeature->isDisabled() && aFeature->isStable()) {
if (ModelAPI_Session::get()->validators()->isConcealed(
aFeature->getKind(), (*aRefsIter)->id())) {
- return; // it is still concealed, nothing to do
+ std::shared_ptr<ModelAPI_Result> aRes =
+ std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
+ if (aRes.get()) {
+ aRes->setIsConcealed(true); // set concealed
+ return;
+ }
}
}
}
}
- // thus, no concealment references anymore => make not-concealed
- std::shared_ptr<ModelAPI_Result> aRes =
+ std::shared_ptr<ModelAPI_Result> aRes =
std::dynamic_pointer_cast<ModelAPI_Result>(myObject);
- if (aRes.get() && aRes->isConcealed()) {
+ if (aRes.get()) {
aRes->setIsConcealed(false);
- static Events_ID anEvent = Events_Loop::eventByName(EVENT_OBJECT_CREATED);
- ModelAPI_EventCreator::get()->sendUpdated(aRes, anEvent);
- Events_Loop::loop()->flush(anEvent);
}
}
-std::set<std::string> set_union(const std::set<std::string>& theLeft,
+std::set<std::string> set_union(const std::set<std::string>& theLeft,
const std::set<std::string>& theRight)
{
std::set<std::string> aResult;
return anUsedParameters;
}
-std::list<ResultParameterPtr> findVariables(const std::set<std::string>& theParameters,
+std::list<ResultParameterPtr> findVariables(const std::set<std::string>& theParameters,
const DocumentPtr& theDocument)
{
std::list<ResultParameterPtr> aResult;
const std::string& aName = *aParamIt;
double aValue;
ResultParameterPtr aParam;
- if (ModelAPI_Tools::findVariable(aName, aValue, aParam, theDocument))
+ // theSearcher is not needed here: in expressions
+ // of features the parameters history is not needed
+ if (ModelAPI_Tools::findVariable(FeaturePtr(), aName, aValue, aParam, theDocument))
aResult.push_back(aParam);
}
return aResult;
void Model_Data::referencesToObjects(
std::list<std::pair<std::string, std::list<ObjectPtr> > >& theRefs)
{
- static Model_ValidatorsFactory* aValidators =
+ static Model_ValidatorsFactory* aValidators =
static_cast<Model_ValidatorsFactory*>(ModelAPI_Session::get()->validators());
FeaturePtr aMyFeature = std::dynamic_pointer_cast<ModelAPI_Feature>(myObject);
- std::map<std::string, std::shared_ptr<ModelAPI_Attribute> >::iterator anAttr = myAttrs.begin();
+ AttributeMap::iterator anAttrIt = myAttrs.begin();
std::list<ObjectPtr> aReferenced; // not inside of cycle to avoid excess memory management
- for(; anAttr != myAttrs.end(); anAttr++) {
+ for(; anAttrIt != myAttrs.end(); anAttrIt++) {
+ AttributePtr anAttr = anAttrIt->second.first;
// skip not-case attributes, that really may refer to anything not-used (issue 671)
- if (aMyFeature.get() && !aValidators->isCase(aMyFeature, anAttr->second->id()))
+ if (aMyFeature.get() && !aValidators->isCase(aMyFeature, anAttr->id()))
continue;
- std::string aType = anAttr->second->attributeType();
+ std::string aType = anAttr->attributeType();
if (aType == ModelAPI_AttributeReference::typeId()) { // reference to object
std::shared_ptr<ModelAPI_AttributeReference> aRef = std::dynamic_pointer_cast<
- ModelAPI_AttributeReference>(anAttr->second);
+ ModelAPI_AttributeReference>(anAttr);
aReferenced.push_back(aRef->value());
} else if (aType == ModelAPI_AttributeRefAttr::typeId()) { // reference to attribute or object
std::shared_ptr<ModelAPI_AttributeRefAttr> aRef = std::dynamic_pointer_cast<
- ModelAPI_AttributeRefAttr>(anAttr->second);
- aReferenced.push_back(aRef->isObject() ? aRef->object() : aRef->attr()->owner());
+ ModelAPI_AttributeRefAttr>(anAttr);
+ if (aRef->isObject()) {
+ aReferenced.push_back(aRef->object());
+ } else {
+ AttributePtr anAttr = aRef->attr();
+ if (anAttr.get())
+ aReferenced.push_back(anAttr->owner());
+ }
} else if (aType == ModelAPI_AttributeRefList::typeId()) { // list of references
- aReferenced = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(anAttr->second)->list();
- } else if (aType == ModelAPI_AttributeSelection::typeId()) { // selection attribute
+ aReferenced = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(anAttr)->list();
+ }
+ else if (aType == ModelAPI_AttributeSelection::typeId()) { // selection attribute
std::shared_ptr<ModelAPI_AttributeSelection> aRef = std::dynamic_pointer_cast<
- ModelAPI_AttributeSelection>(anAttr->second);
- aReferenced.push_back(aRef->context());
+ ModelAPI_AttributeSelection>(anAttr);
+ FeaturePtr aRefFeat = aRef->contextFeature();
+ if (aRefFeat.get()) { // reference to all results of the referenced feature
+ const std::list<ResultPtr>& allRes = aRefFeat->results();
+ std::list<ResultPtr>::const_iterator aRefRes = allRes.cbegin();
+ for(; aRefRes != allRes.cend(); aRefRes++) {
+ aReferenced.push_back(*aRefRes);
+ }
+ } else {
+ aReferenced.push_back(aRef->context());
+ }
} else if (aType == ModelAPI_AttributeSelectionList::typeId()) { // list of selection attributes
std::shared_ptr<ModelAPI_AttributeSelectionList> aRef = std::dynamic_pointer_cast<
- ModelAPI_AttributeSelectionList>(anAttr->second);
- for(int a = aRef->size() - 1; a >= 0; a--) {
- aReferenced.push_back(aRef->value(a)->context());
+ ModelAPI_AttributeSelectionList>(anAttr);
+ for(int a = 0, aSize = aRef->size(); a < aSize; ++a) {
+ FeaturePtr aRefFeat = aRef->value(a)->contextFeature();
+ if (aRefFeat.get()) { // reference to all results of the referenced feature
+ const std::list<ResultPtr>& allRes = aRefFeat->results();
+ std::list<ResultPtr>::const_iterator aRefRes = allRes.cbegin();
+ for (; aRefRes != allRes.cend(); aRefRes++) {
+ aReferenced.push_back(*aRefRes);
+ }
+ } else {
+ aReferenced.push_back(aRef->value(a)->context());
+ }
+ }
+ } else if (aType == ModelAPI_AttributeRefAttrList::typeId()) {
+ std::shared_ptr<ModelAPI_AttributeRefAttrList> aRefAttr = std::dynamic_pointer_cast<
+ ModelAPI_AttributeRefAttrList>(anAttr);
+ std::list<std::pair<ObjectPtr, AttributePtr> > aRefs = aRefAttr->list();
+ std::list<std::pair<ObjectPtr, AttributePtr> >::const_iterator anIt = aRefs.begin(),
+ aLast = aRefs.end();
+ for (; anIt != aLast; anIt++) {
+ aReferenced.push_back(anIt->first);
}
+ } else if (aType == ModelAPI_AttributeInteger::typeId()) { // integer attribute
+ AttributeIntegerPtr anAttribute =
+ std::dynamic_pointer_cast<ModelAPI_AttributeInteger>(anAttr);
+ std::set<std::string> anUsedParameters = anAttribute->usedParameters();
+ std::list<ResultParameterPtr> aParameters =
+ findVariables(anUsedParameters, owner()->document());
+ aReferenced.insert(aReferenced.end(), aParameters.begin(), aParameters.end());
} else if (aType == ModelAPI_AttributeDouble::typeId()) { // double attribute
AttributeDoublePtr anAttribute =
- std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(anAttr->second);
+ std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(anAttr);
std::set<std::string> anUsedParameters = anAttribute->usedParameters();
- std::list<ResultParameterPtr> aParameters = findVariables(anUsedParameters, aMyFeature->document());
+ std::list<ResultParameterPtr> aParameters =
+ findVariables(anUsedParameters, owner()->document());
aReferenced.insert(aReferenced.end(), aParameters.begin(), aParameters.end());
} else if (aType == GeomDataAPI_Point::typeId()) { // point attribute
AttributePointPtr anAttribute =
- std::dynamic_pointer_cast<GeomDataAPI_Point>(anAttr->second);
+ std::dynamic_pointer_cast<GeomDataAPI_Point>(anAttr);
std::set<std::string> anUsedParameters = usedParameters(anAttribute);
- std::list<ResultParameterPtr> aParameters = findVariables(anUsedParameters, aMyFeature->document());
+ std::list<ResultParameterPtr> aParameters =
+ findVariables(anUsedParameters, owner()->document());
aReferenced.insert(aReferenced.end(), aParameters.begin(), aParameters.end());
} else if (aType == GeomDataAPI_Point2D::typeId()) { // point attribute
AttributePoint2DPtr anAttribute =
- std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttr->second);
+ std::dynamic_pointer_cast<GeomDataAPI_Point2D>(anAttr);
std::set<std::string> anUsedParameters = usedParameters(anAttribute);
- std::list<ResultParameterPtr> aParameters = findVariables(anUsedParameters, aMyFeature->document());
+ std::list<ResultParameterPtr> aParameters =
+ findVariables(anUsedParameters, owner()->document());
aReferenced.insert(aReferenced.end(), aParameters.begin(), aParameters.end());
} else
continue; // nothing to do, not reference
if (!aReferenced.empty()) {
- theRefs.push_back(std::pair<std::string, std::list<ObjectPtr> >(anAttr->first, aReferenced));
+ theRefs.push_back(
+ std::pair<std::string, std::list<ObjectPtr> >(anAttrIt->first, aReferenced));
aReferenced.clear();
}
}
aTargetAttr = anAttrIter.Value()->NewEmpty();
theDestination.AddAttribute(aTargetAttr);
}
- Handle(TDF_RelocationTable) aRelocTable = new TDF_RelocationTable(); // no relocation, empty map
+ // no special relocation, empty map, but self-relocation is on: copy references w/o changes
+ Handle(TDF_RelocationTable) aRelocTable = new TDF_RelocationTable(Standard_True);
anAttrIter.Value()->Paste(aTargetAttr, aRelocTable);
}
// copy the sub-labels content
{
TDF_Label aTargetRoot = std::dynamic_pointer_cast<Model_Data>(theTarget)->label();
copyAttrs(myLab, aTargetRoot);
- // make initialized the initialized attributes
- std::map<std::string, std::shared_ptr<ModelAPI_Attribute> >::iterator aMyIter = myAttrs.begin();
- for(; aMyIter != myAttrs.end(); aMyIter++) {
- if (aMyIter->second->isInitialized()) {
- theTarget->attribute(aMyIter->first)->setInitialized();
- }
- }
+ // reinitialize Model_Attributes by TDF_Attributes set
+ std::shared_ptr<Model_Data> aTData = std::dynamic_pointer_cast<Model_Data>(theTarget);
+ aTData->myAttrs.clear();
+ theTarget->owner()->initAttributes(); // reinitialize feature attributes
}
bool Model_Data::isInHistory()
{
return myObject;
}
+
+bool Model_Data::isPrecedingAttribute(const std::string& theAttribute1,
+ const std::string& theAttribute2) const
+{
+ AttributeMap::const_iterator aFound1 = myAttrs.find(theAttribute1);
+ AttributeMap::const_iterator aFound2 = myAttrs.find(theAttribute2);
+ if (aFound2 == myAttrs.end())
+ return true;
+ else if (aFound1 == myAttrs.end())
+ return false;
+ return aFound1->second.second < aFound2->second.second;
+}