X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FModelAPI%2FModelAPI_Tools.cpp;h=4e094e6116da8f481c85cc6accba69024c30bb79;hb=eff356718b41364a03e808e5a6c790ac718a572d;hp=1270db2ec520b7567234588d68190305a0e42f2a;hpb=58ed04fa9426f8dd99fcf76a1f3ef9e60c5f3b9b;p=modules%2Fshaper.git diff --git a/src/ModelAPI/ModelAPI_Tools.cpp b/src/ModelAPI/ModelAPI_Tools.cpp index 1270db2ec..4e094e611 100755 --- a/src/ModelAPI/ModelAPI_Tools.cpp +++ b/src/ModelAPI/ModelAPI_Tools.cpp @@ -1,574 +1,681 @@ -// Copyright (C) 2014-20xx CEA/DEN, EDF R&D - -// File: ModelAPI_Tools.cpp -// Created: 06 Aug 2014 -// Author: Vitaly Smetannikov - -#include "ModelAPI_Tools.h" -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -#include -#include - -//#define DEBUG_REMOVE_FEATURES - -#ifdef DEBUG_REMOVE_FEATURES -void printMapInfo(const std::map >& theMainList, - const std::string& thePrefix) -{ - std::map >::const_iterator aMainIt = theMainList.begin(), - aMainLast = theMainList.end(); - std::string anInfo; - for (; aMainIt != aMainLast; aMainIt++) { - FeaturePtr aMainListFeature = aMainIt->first; - std::set aMainRefList = aMainIt->second; - std::set::const_iterator anIt = aMainRefList.begin(), aLast = aMainRefList.end(); - std::string aRefsInfo; - for (; anIt != aLast; anIt++) { - aRefsInfo += (*anIt)->name().c_str(); - if (anIt != aLast) - aRefsInfo += ", "; - } - if (!aRefsInfo.empty()) { - anInfo = anInfo + aMainListFeature->name().c_str() + ": " + aRefsInfo + "\n"; - } - } - std::cout << thePrefix.c_str() << ": " << anInfo.c_str() << std::endl; -} - -void printListInfo(const std::set& theMainList, - const std::string& thePrefix) -{ - std::set::const_iterator aMainIt = theMainList.begin(), - aMainLast = theMainList.end(); - std::string anInfo; - for (; aMainIt != aMainLast; aMainIt++) { - FeaturePtr aRefFeature = *aMainIt; - anInfo += aRefFeature->name().c_str(); - if (aMainIt != aMainLast) - anInfo += ", "; - } - std::cout << thePrefix.c_str() << ": " << anInfo.c_str() << std::endl; -} -#endif - -namespace ModelAPI_Tools { - -std::shared_ptr shape(const ResultPtr& theResult) -{ - return theResult->shape(); -} - -const char* toString(ModelAPI_ExecState theExecState) -{ -#define TO_STRING(__NAME__) case __NAME__: return #__NAME__; - switch (theExecState) { - TO_STRING(ModelAPI_StateDone) - TO_STRING(ModelAPI_StateMustBeUpdated) - TO_STRING(ModelAPI_StateExecFailed) - TO_STRING(ModelAPI_StateInvalidArgument) - TO_STRING(ModelAPI_StateNothing) - default: return "Unknown ExecState."; - } -#undef TO_STRING -} - -std::string getFeatureError(const FeaturePtr& theFeature) -{ - std::string anError; - if (!theFeature.get() || !theFeature->data()->isValid() || theFeature->isAction()) - return anError; - - // to be removed later, this error should be got from the feature - if (theFeature->data()->execState() == ModelAPI_StateDone || - theFeature->data()->execState() == ModelAPI_StateMustBeUpdated) - return anError; - - // set error indication - anError = theFeature->error(); - if (anError.empty()) { - bool isDone = ( theFeature->data()->execState() == ModelAPI_StateDone - || theFeature->data()->execState() == ModelAPI_StateMustBeUpdated ); - if (!isDone) { - anError = toString(theFeature->data()->execState()); - // If the feature is Composite and error is StateInvalidArgument, - // error text should include error of first invalid sub-feature. Otherwise - // it is not clear what is the reason of the invalid argument. - if (theFeature->data()->execState() == ModelAPI_StateInvalidArgument) { - CompositeFeaturePtr aComposite = - std::dynamic_pointer_cast(theFeature); - if (aComposite) { - for (int i = 0, aSize = aComposite->numberOfSubs(); i < aSize; i++) { - FeaturePtr aSubFeature = aComposite->subFeature(i); - std::string aSubFeatureError = getFeatureError(aSubFeature); - if (!aSubFeatureError.empty()) { - anError = anError + " in " + aSubFeature->getKind() + ".\n" + aSubFeatureError; - break; - } - } - } - } - } - } - - return anError; -} - -ObjectPtr objectByName(const DocumentPtr& theDocument, const std::string& theGroup, const std::string& theName) -{ - for (int anIndex = 0; anIndex < theDocument->size(theGroup); ++anIndex) { - ObjectPtr anObject = theDocument->object(theGroup, anIndex); - if (anObject->data()->name() == theName) - return anObject; - } - // not found - return ObjectPtr(); -} - -bool findVariable(const DocumentPtr& theDocument, FeaturePtr theSearcher, - const std::string& theName, double& outValue, ResultParameterPtr& theParam) -{ - ObjectPtr aParamObj = objectByName(theDocument, ModelAPI_ResultParameter::group(), theName); - theParam = std::dynamic_pointer_cast(aParamObj); - if (!theParam.get()) - return false; - // avoid usage of parameters created later than the initial parameter - if (theSearcher.get() && theDocument->isLater(theDocument->feature(theParam), theSearcher)) - return false; - AttributeDoublePtr aValueAttribute = theParam->data()->real(ModelAPI_ResultParameter::VALUE()); - outValue = aValueAttribute->value(); - return true; -} - -bool findVariable(FeaturePtr theSearcher, const std::string& theName, double& outValue, ResultParameterPtr& theParam, - const DocumentPtr& theDocument) -{ - SessionPtr aSession = ModelAPI_Session::get(); - std::list aDocList; - DocumentPtr aDocument = theDocument.get() ? theDocument : aSession->activeDocument(); - if (findVariable(aDocument, theSearcher, theName, outValue, theParam)) - return true; - DocumentPtr aRootDocument = aSession->moduleDocument(); - if (aDocument != aRootDocument) { - ResultPtr aPartResult = findPartResult(aRootDocument, aDocument); - if (aPartResult.get()) { - FeaturePtr aPartFeature; - if (theSearcher.get()) // only if the relative search is needed - aPartFeature = aRootDocument->feature(aPartResult); - if (findVariable(aRootDocument, aPartFeature, theName, outValue, theParam)) - return true; - } - } - return false; -} - -static std::map > myColorMap; - -void appendValues(std::vector& theRGB, const int theRed, const int theGreen, const int theBlue) -{ - theRGB.push_back(theRed); - theRGB.push_back(theGreen); - theRGB.push_back(theBlue); -} - -bool containsValues(std::map >& theColorMap, std::vector& theValues) -{ - std::map >::const_iterator anIt = theColorMap.begin(), aLast = theColorMap.end(); - bool isFound = false; - for (; anIt != aLast && !isFound; anIt++) { - std::vector aValues = anIt->second; - isFound = aValues[0] == theValues[0] && - aValues[1] == theValues[1] && - aValues[2] == theValues[2]; - } - return isFound; -} - -std::vector HSVtoRGB(int theH, int theS, int theV) -{ - std::vector aRGB; - if (theH < 0 || theH > 360 || - theS < 0 || theS > 100 || - theV < 0 || theV > 100) - return aRGB; - - int aHi = (int)theH/60; - - double aV = theV; - double aVmin = (100 - theS)*theV/100; - - double anA = (theV - aVmin)* (theH % 60) / 60; - - double aVinc = aVmin + anA; - double aVdec = theV - anA; - - double aPercentToValue = 255./100; - int aV_int = (int)(aV*aPercentToValue); - int aVinc_int = (int)(aVinc*aPercentToValue); - int aVmin_int = (int)(aVmin*aPercentToValue); - int aVdec_int = (int)(aVdec*aPercentToValue); - - switch(aHi) { - case 0: appendValues(aRGB, aV_int, aVinc_int, aVmin_int); break; - case 1: appendValues(aRGB, aVdec_int, aV_int, aVmin_int); break; - case 2: appendValues(aRGB, aVmin_int, aV_int, aVinc_int); break; - case 3: appendValues(aRGB, aVmin_int, aVdec_int, aV_int); break; - case 4: appendValues(aRGB, aVinc_int, aVmin_int, aV_int); break; - case 5: appendValues(aRGB, aV_int, aVmin_int, aVdec_int); break; - default: break; - } - return aRGB; -} - - -void fillColorMap() -{ - if (!myColorMap.empty()) - return; - - int i = 0; - for (int s = 100; s > 0; s = s - 50) - { - for (int v = 100; v >= 40; v = v - 20) - { - for (int h = 0; h < 359 ; h = h + 60) - { - std::vector aColor = HSVtoRGB(h, s, v); - if (containsValues(myColorMap, aColor)) - continue; - myColorMap[i] = aColor; - i++; - } - } - } -} - -void findRandomColor(std::vector& theValues) -{ - theValues.clear(); - if (myColorMap.empty()) { - fillColorMap(); - } - - size_t aSize = myColorMap.size(); - int anIndex = rand() % aSize; - if (myColorMap.find(anIndex) != myColorMap.end()) { - theValues = myColorMap.at(anIndex); - } -} - -ResultPtr findPartResult(const DocumentPtr& theMain, const DocumentPtr& theSub) -{ - if (theMain != theSub) { // to optimize and avoid of crash on partset document close (don't touch the sub-document structure) - for (int a = theMain->size(ModelAPI_ResultPart::group()) - 1; a >= 0; a--) { - ResultPartPtr aPart = std::dynamic_pointer_cast( - theMain->object(ModelAPI_ResultPart::group(), a)); - if (aPart && aPart->data()->document(ModelAPI_ResultPart::DOC_REF())->value() == theSub) { - return aPart; - } - } - } - return ResultPtr(); -} - -FeaturePtr findPartFeature(const DocumentPtr& theMain, const DocumentPtr& theSub) -{ - if (theMain != theSub) { // to optimize and avoid of crash on partset document close (don't touch the sub-document structure) - for (int a = theMain->size(ModelAPI_Feature::group()) - 1; a >= 0; a--) { - FeaturePtr aPartFeat = std::dynamic_pointer_cast( - theMain->object(ModelAPI_Feature::group(), a)); - if (aPartFeat.get()) { - const std::list >& aResList = aPartFeat->results(); - std::list >::const_iterator aRes = aResList.begin(); - for(; aRes != aResList.end(); aRes++) { - ResultPartPtr aPart = std::dynamic_pointer_cast(*aRes); - if (aPart.get()) { - if (aPart->isActivated() && aPart->partDoc() == theSub) - return aPartFeat; - } else break; // if the first is not Part, others are also not - } - } - } - } - return FeaturePtr(); -} - -CompositeFeaturePtr compositeOwner(const FeaturePtr& theFeature) -{ - if (theFeature.get() && theFeature->data()->isValid()) { - const std::set >& aRefs = theFeature->data()->refsToMe(); - std::set >::const_iterator aRefIter = aRefs.begin(); - for(; aRefIter != aRefs.end(); aRefIter++) { - CompositeFeaturePtr aComp = std::dynamic_pointer_cast - ((*aRefIter)->owner()); - if (aComp.get() && aComp->data()->isValid() && aComp->isSub(theFeature)) - return aComp; - } - } - return CompositeFeaturePtr(); // not found -} - -ResultCompSolidPtr compSolidOwner(const ResultPtr& theSub) -{ - ResultBodyPtr aBody = std::dynamic_pointer_cast(theSub); - if (aBody.get()) { - FeaturePtr aFeatureOwner = aBody->document()->feature(aBody); - if (aFeatureOwner.get()) { - std::list >::const_iterator aResIter = - aFeatureOwner->results().cbegin(); - for(; aResIter != aFeatureOwner->results().cend(); aResIter++) { - ResultCompSolidPtr aComp = std::dynamic_pointer_cast(*aResIter); - if (aComp && aComp->isSub(aBody)) - return aComp; - } - } - } - return ResultCompSolidPtr(); // not found -} - -bool hasSubResults(const ResultPtr& theResult) -{ - ResultCompSolidPtr aCompSolid = std::dynamic_pointer_cast(theResult); - return aCompSolid.get() && aCompSolid->numberOfSubs() > 0; -} - -void allResults(const FeaturePtr& theFeature, std::list& theResults) -{ - const std::list >& aResults = theFeature->results(); - std::list >::const_iterator aRIter = aResults.begin(); - for (; aRIter != aResults.cend(); aRIter++) { - theResults.push_back(*aRIter); - // iterate sub-bodies of compsolid - ResultCompSolidPtr aComp = std::dynamic_pointer_cast(*aRIter); - if (aComp.get()) { - int aNumSub = aComp->numberOfSubs(); - for(int a = 0; a < aNumSub; a++) { - theResults.push_back(aComp->subResult(a)); - } - } - } -} - -//****************************************************************** -bool allDocumentsActivated(std::string& theNotActivatedNames) -{ - theNotActivatedNames = ""; - bool anAllPartActivated = true; - - DocumentPtr aRootDoc = ModelAPI_Session::get()->moduleDocument(); - int aSize = aRootDoc->size(ModelAPI_ResultPart::group()); - for (int i = 0; i < aSize; i++) { - ObjectPtr aObject = aRootDoc->object(ModelAPI_ResultPart::group(), i); - ResultPartPtr aPart = std::dynamic_pointer_cast(aObject); - if (!aPart->isActivated()) { - anAllPartActivated = false; - if (!theNotActivatedNames.empty()) - theNotActivatedNames += ", "; - theNotActivatedNames += aObject->data()->name().c_str(); - } - } - return anAllPartActivated; -} - -bool removeFeaturesAndReferences(const std::set& theFeatures, - const bool theFlushRedisplay, - const bool theUseComposite, - const bool theUseRecursion) -{ -#ifdef DEBUG_REMOVE_FEATURES - printListInfo(theFeatures, "selection: "); -#endif - - std::map > aReferences; - ModelAPI_Tools::findAllReferences(theFeatures, aReferences, theUseComposite, theUseRecursion); -#ifdef DEBUG_REMOVE_FEATURES - printMapInfo(aReferences, "allDependencies: "); -#endif - - std::set aFeaturesRefsTo; - ModelAPI_Tools::findRefsToFeatures(theFeatures, aReferences, aFeaturesRefsTo); -#ifdef DEBUG_REMOVE_FEATURES - printListInfo(aFeaturesRefsTo, "references: "); -#endif - - std::set aFeatures = theFeatures; - if (!aFeaturesRefsTo.empty()) - aFeatures.insert(aFeaturesRefsTo.begin(), aFeaturesRefsTo.end()); -#ifdef DEBUG_REMOVE_FEATURES - printListInfo(aFeatures, "removeFeatures: "); -#endif - - return ModelAPI_Tools::removeFeatures(aFeatures, false); -} - -bool removeFeatures(const std::set& theFeatures, - const bool theFlushRedisplay) -{ - bool isDone = false; - std::set::const_iterator anIt = theFeatures.begin(), - aLast = theFeatures.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aFeature = *anIt; - if (aFeature.get()) { - DocumentPtr aDoc = aFeature->document(); - // flush REDISPLAY signal after remove feature - aDoc->removeFeature(aFeature); - isDone = true; - } - } - if (isDone && theFlushRedisplay) { - // the redisplay signal should be flushed in order to erase the feature presentation in the viewer - // if should be done after removeFeature() of document - Events_Loop::loop()->flush(Events_Loop::loop()->eventByName(EVENT_OBJECT_TO_REDISPLAY)); - } - return true; -} - -// Fills the references list by all references of the feature from the references map. -// This is a recusive method to find references by next found feature in the map of references. -// \param theFeature a feature to find references -// \param theReferencesMap a map of references -// \param theReferences an out container of references -void addRefsToFeature(const FeaturePtr& theFeature, - const std::map >& theReferencesMap, - std::set& theReferences) -{ - if (theReferencesMap.find(theFeature) == theReferencesMap.end()) - return; // this feature is not in the selection list, so exists without references to it - std::set aMainReferences = theReferencesMap.at(theFeature); - - std::set::const_iterator anIt = aMainReferences.begin(), - aLast = aMainReferences.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aRefFeature = *anIt; - if (theReferences.find(aRefFeature) == theReferences.end()) - theReferences.insert(aRefFeature); - addRefsToFeature(aRefFeature, theReferencesMap, theReferences); - } -} - -// For each feature from the feature list it searches references to the feature and append them -// to the references map. This is a recusive method. -// \param theFeature a feature to find references -// \param theReferencesMap a map of references -// \param theReferences an out container of references -void findReferences(const std::set& theFeatures, - std::map >& theReferences, - const bool theUseComposite, const bool theUseRecursion) -{ - std::set::const_iterator anIt = theFeatures.begin(), - aLast = theFeatures.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aFeature = *anIt; - if (aFeature.get() && theReferences.find(aFeature) == theReferences.end()) { - DocumentPtr aSelFeatureDoc = aFeature->document(); - std::set aSelRefFeatures; - aSelFeatureDoc->refsToFeature(aFeature, aSelRefFeatures, false/*do not emit signals*/); - if (theUseComposite) { // do not filter selection - theReferences[aFeature] = aSelRefFeatures; - } - else { // filter references to skip composition features of the current feature - std::set aFilteredFeatures; - std::set::const_iterator anIt = aSelRefFeatures.begin(), - aLast = aSelRefFeatures.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aCFeature = *anIt; - CompositeFeaturePtr aComposite = std::dynamic_pointer_cast(aCFeature); - if (aComposite.get() && aComposite->isSub(aFeature)) - continue; /// composite of the current feature should be skipped - aFilteredFeatures.insert(aCFeature); - } - theReferences[aFeature] = aFilteredFeatures; - } - if (theUseRecursion) - findReferences(aSelRefFeatures, theReferences, theUseComposite, theUseRecursion); - } - } -} - -void findAllReferences(const std::set& theFeatures, - std::map >& theReferences, - const bool theUseComposite, - const bool theUseRecursion) -{ - // For dependencies, find main_list: - // sk_1(ext_1, vertex_1) - // ext_1(bool_1, sk_3) - // vertex_1() - // sk_2(ext_2) - // ext_2(bool_2) - // sk_3() - // Information: bool_1 is not selected, ext_2(bool_2) exists - // find all referenced features - std::map > aMainList; - findReferences(theFeatures, aMainList, theUseComposite, theUseRecursion); - -#ifdef DEBUG_REMOVE_FEATURES - printMapInfo(aMainList, "firstDependencies"); -#endif - // find all dependencies for each object: - // sk_1(ext_1, vertex_1) + (sk_3, bool_1) - // ext_1(bool_1, sk_3) - // vertex_1() - // sk_2(ext_2) + (bool_1) - // ext_2(bool_1) - // sk_3() - std::map >::const_iterator aMainIt = aMainList.begin(), - aMainLast = aMainList.end(); - for (; aMainIt != aMainLast; aMainIt++) { - FeaturePtr aMainListFeature = aMainIt->first; - //std::string aName = aMainListFeature->name(); - std::set aMainRefList = aMainIt->second; - std::set anAddRefFeatures; - - std::set::const_iterator anIt = aMainRefList.begin(), - aLast = aMainRefList.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aFeature = *anIt; - addRefsToFeature(aFeature, aMainList, aMainRefList); - } - theReferences[aMainListFeature] = aMainRefList; - } - -#ifdef DEBUG_REMOVE_FEATURES - printMapInfo(theReferences, "allDependencies"); -#endif -} - -void findRefsToFeatures(const std::set& theFeatures, - const std::map >& theReferences, - std::set& theFeaturesRefsTo) -{ - std::set::const_iterator anIt = theFeatures.begin(), - aLast = theFeatures.end(); - for (; anIt != aLast; anIt++) { - FeaturePtr aFeature = *anIt; - if (theReferences.find(aFeature) == theReferences.end()) - continue; - std::set aRefList = theReferences.at(aFeature); - std::set::const_iterator aRefIt = aRefList.begin(), aRefLast = aRefList.end(); - for (; aRefIt != aRefLast; aRefIt++) { - FeaturePtr aRefFeature = *aRefIt; - CompositeFeaturePtr aComposite = std::dynamic_pointer_cast(aRefFeature); - if (aComposite.get() && aComposite->isSub(aFeature)) - continue; /// composite of the current feature should not be removed - - if (theFeatures.find(aRefFeature) == theFeatures.end() && // it is not selected - theFeaturesRefsTo.find(aRefFeature) == theFeaturesRefsTo.end()) // it is not added - theFeaturesRefsTo.insert(aRefFeature); - } - } -} - -} // namespace ModelAPI_Tools - - +// Copyright (C) 2014-20xx CEA/DEN, EDF R&D + +// File: ModelAPI_Tools.cpp +// Created: 06 Aug 2014 +// Author: Vitaly Smetannikov + +#include "ModelAPI_Tools.h" +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include + +#define RECURSE_TOP_LEVEL 50 + +//#define DEBUG_REMOVE_FEATURES +//#define DEBUG_REMOVE_FEATURES_RECURSE +//#define DEBUG_CYCLING_1550 + +#ifdef DEBUG_REMOVE_FEATURES_RECURSE +#include +std::string getFeatureInfo(FeaturePtr theFeature) +{ + if (!theFeature.get()) + return ""; + //std::ostringstream aPtrStr; + //aPtrStr << "[" << theFeature.get() << "] "; + std::string aFeatureInfo = /*aPtrStr.str() + */theFeature->name(); + CompositeFeaturePtr aComposite = ModelAPI_Tools::compositeOwner(theFeature); + if (aComposite.get()) { + aFeatureInfo = aFeatureInfo + "[in " + aComposite->name() + "]"; + } + return aFeatureInfo; +} +#endif + +#ifdef DEBUG_REMOVE_FEATURES +void printMapInfo(const std::map >& theMainList, + const std::string& thePrefix) +{ + std::map >::const_iterator aMainIt = theMainList.begin(), + aMainLast = theMainList.end(); + std::string anInfo; + for (; aMainIt != aMainLast; aMainIt++) { + FeaturePtr aMainListFeature = aMainIt->first; + std::set aMainRefList = aMainIt->second; + std::set::const_iterator anIt = aMainRefList.begin(), aLast = aMainRefList.end(); + std::string aRefsInfo; + for (; anIt != aLast; anIt++) { + aRefsInfo += (*anIt)->name().c_str(); + if (anIt != aLast) + aRefsInfo += ", "; + } + if (!aRefsInfo.empty()) { + anInfo = anInfo + aMainListFeature->name().c_str() + ": " + aRefsInfo + "\n"; + } + } + std::cout << thePrefix.c_str() << " [feature: references to]: \n" << anInfo.c_str() << std::endl; +} + +void printListInfo(const std::set& theMainList, + const std::string& thePrefix) +{ + std::set::const_iterator aMainIt = theMainList.begin(), + aMainLast = theMainList.end(); + std::string anInfo; + for (; aMainIt != aMainLast; aMainIt++) { + FeaturePtr aRefFeature = *aMainIt; + anInfo += aRefFeature->name().c_str(); + if (aMainIt != aMainLast) + anInfo += ", "; + } + std::cout << thePrefix.c_str() << ": " << anInfo.c_str() << std::endl; +} +#endif + +namespace ModelAPI_Tools { + +std::shared_ptr shape(const ResultPtr& theResult) +{ + return theResult->shape(); +} + +void shapesOfType(const FeaturePtr& theFeature, + const GeomAPI_Shape::ShapeType& theType, + std::set& theShapes) +{ + std::list aResults = theFeature->results(); + std::list::const_iterator aRIter = aResults.cbegin(); + for (; aRIter != aResults.cend(); aRIter++) { + ResultPtr aResult = *aRIter; + GeomShapePtr aShape = aResult->shape(); + if (aShape.get() && aShape->shapeType() == theType) + theShapes.insert(aShape); + } +} + +const char* toString(ModelAPI_ExecState theExecState) +{ +#define TO_STRING(__NAME__) case __NAME__: return #__NAME__; + switch (theExecState) { + TO_STRING(ModelAPI_StateDone) + TO_STRING(ModelAPI_StateMustBeUpdated) + TO_STRING(ModelAPI_StateExecFailed) + TO_STRING(ModelAPI_StateInvalidArgument) + TO_STRING(ModelAPI_StateNothing) + default: return "Unknown ExecState."; + } +#undef TO_STRING +} + +std::string getFeatureError(const FeaturePtr& theFeature) +{ + std::string anError; + if (!theFeature.get() || !theFeature->data()->isValid() || theFeature->isAction()) + return anError; + + // to be removed later, this error should be got from the feature + if (theFeature->data()->execState() == ModelAPI_StateDone || + theFeature->data()->execState() == ModelAPI_StateMustBeUpdated) + return anError; + + // set error indication + anError = theFeature->error(); + if (anError.empty()) { + bool isDone = ( theFeature->data()->execState() == ModelAPI_StateDone + || theFeature->data()->execState() == ModelAPI_StateMustBeUpdated ); + if (!isDone) { + anError = toString(theFeature->data()->execState()); + // If the feature is Composite and error is StateInvalidArgument, + // error text should include error of first invalid sub-feature. Otherwise + // it is not clear what is the reason of the invalid argument. + if (theFeature->data()->execState() == ModelAPI_StateInvalidArgument) { + CompositeFeaturePtr aComposite = + std::dynamic_pointer_cast(theFeature); + if (aComposite) { + for (int i = 0, aSize = aComposite->numberOfSubs(); i < aSize; i++) { + FeaturePtr aSubFeature = aComposite->subFeature(i); + std::string aSubFeatureError = getFeatureError(aSubFeature); + if (!aSubFeatureError.empty()) { + anError = anError + " in " + aSubFeature->getKind() + ".\n" + aSubFeatureError; + break; + } + } + } + } + } + } + + return anError; +} + +ObjectPtr objectByName(const DocumentPtr& theDocument, const std::string& theGroup, const std::string& theName) +{ + for (int anIndex = 0; anIndex < theDocument->size(theGroup); ++anIndex) { + ObjectPtr anObject = theDocument->object(theGroup, anIndex); + if (anObject->data()->name() == theName) + return anObject; + } + // not found + return ObjectPtr(); +} + +bool findVariable(const DocumentPtr& theDocument, FeaturePtr theSearcher, + const std::string& theName, double& outValue, ResultParameterPtr& theParam) +{ + ObjectPtr aParamObj = objectByName(theDocument, ModelAPI_ResultParameter::group(), theName); + theParam = std::dynamic_pointer_cast(aParamObj); + if (!theParam.get()) + return false; + // avoid usage of parameters created later than the initial parameter + if (theSearcher.get() && theDocument->isLater(theDocument->feature(theParam), theSearcher)) + return false; + AttributeDoublePtr aValueAttribute = theParam->data()->real(ModelAPI_ResultParameter::VALUE()); + outValue = aValueAttribute->value(); + return true; +} + +bool findVariable(FeaturePtr theSearcher, const std::string& theName, double& outValue, ResultParameterPtr& theParam, + const DocumentPtr& theDocument) +{ + SessionPtr aSession = ModelAPI_Session::get(); + std::list aDocList; + DocumentPtr aDocument = theDocument.get() ? theDocument : aSession->activeDocument(); + if (findVariable(aDocument, theSearcher, theName, outValue, theParam)) + return true; + DocumentPtr aRootDocument = aSession->moduleDocument(); + if (aDocument != aRootDocument) { + // any parameters in PartSet is okindependently on the Part position (issu #1504) + if (findVariable(aRootDocument, FeaturePtr(), theName, outValue, theParam)) + return true; + } + return false; +} + +static std::map > myColorMap; + +void appendValues(std::vector& theRGB, const int theRed, const int theGreen, const int theBlue) +{ + theRGB.push_back(theRed); + theRGB.push_back(theGreen); + theRGB.push_back(theBlue); +} + +bool containsValues(std::map >& theColorMap, std::vector& theValues) +{ + std::map >::const_iterator anIt = theColorMap.begin(), aLast = theColorMap.end(); + bool isFound = false; + for (; anIt != aLast && !isFound; anIt++) { + std::vector aValues = anIt->second; + isFound = aValues[0] == theValues[0] && + aValues[1] == theValues[1] && + aValues[2] == theValues[2]; + } + return isFound; +} + +std::vector HSVtoRGB(int theH, int theS, int theV) +{ + std::vector aRGB; + if (theH < 0 || theH > 360 || + theS < 0 || theS > 100 || + theV < 0 || theV > 100) + return aRGB; + + int aHi = (int)theH/60; + + double aV = theV; + double aVmin = (100 - theS)*theV/100; + + double anA = (theV - aVmin)* (theH % 60) / 60; + + double aVinc = aVmin + anA; + double aVdec = theV - anA; + + double aPercentToValue = 255./100; + int aV_int = (int)(aV*aPercentToValue); + int aVinc_int = (int)(aVinc*aPercentToValue); + int aVmin_int = (int)(aVmin*aPercentToValue); + int aVdec_int = (int)(aVdec*aPercentToValue); + + switch(aHi) { + case 0: appendValues(aRGB, aV_int, aVinc_int, aVmin_int); break; + case 1: appendValues(aRGB, aVdec_int, aV_int, aVmin_int); break; + case 2: appendValues(aRGB, aVmin_int, aV_int, aVinc_int); break; + case 3: appendValues(aRGB, aVmin_int, aVdec_int, aV_int); break; + case 4: appendValues(aRGB, aVinc_int, aVmin_int, aV_int); break; + case 5: appendValues(aRGB, aV_int, aVmin_int, aVdec_int); break; + default: break; + } + return aRGB; +} + + +void fillColorMap() +{ + if (!myColorMap.empty()) + return; + + int i = 0; + for (int s = 100; s > 0; s = s - 50) + { + for (int v = 100; v >= 40; v = v - 20) + { + for (int h = 0; h < 359 ; h = h + 60) + { + std::vector aColor = HSVtoRGB(h, s, v); + if (containsValues(myColorMap, aColor)) + continue; + myColorMap[i] = aColor; + i++; + } + } + } +} + +void findRandomColor(std::vector& theValues) +{ + theValues.clear(); + if (myColorMap.empty()) { + fillColorMap(); + } + + size_t aSize = myColorMap.size(); + int anIndex = rand() % aSize; + if (myColorMap.find(anIndex) != myColorMap.end()) { + theValues = myColorMap.at(anIndex); + } +} + +ResultPtr findPartResult(const DocumentPtr& theMain, const DocumentPtr& theSub) +{ + if (theMain != theSub) { // to optimize and avoid of crash on partset document close (don't touch the sub-document structure) + for (int a = theMain->size(ModelAPI_ResultPart::group()) - 1; a >= 0; a--) { + ResultPartPtr aPart = std::dynamic_pointer_cast( + theMain->object(ModelAPI_ResultPart::group(), a)); + if (aPart && aPart->data()->document(ModelAPI_ResultPart::DOC_REF())->value() == theSub) { + return aPart; + } + } + } + return ResultPtr(); +} + +FeaturePtr findPartFeature(const DocumentPtr& theMain, const DocumentPtr& theSub) +{ + if (theMain != theSub) { // to optimize and avoid of crash on partset document close (don't touch the sub-document structure) + for (int a = theMain->size(ModelAPI_Feature::group()) - 1; a >= 0; a--) { + FeaturePtr aPartFeat = std::dynamic_pointer_cast( + theMain->object(ModelAPI_Feature::group(), a)); + if (aPartFeat.get()) { + const std::list >& aResList = aPartFeat->results(); + std::list >::const_iterator aRes = aResList.begin(); + for(; aRes != aResList.end(); aRes++) { + ResultPartPtr aPart = std::dynamic_pointer_cast(*aRes); + if (aPart.get()) { + if (aPart->isActivated() && aPart->partDoc() == theSub) + return aPartFeat; + } else break; // if the first is not Part, others are also not + } + } + } + } + return FeaturePtr(); +} + +CompositeFeaturePtr compositeOwner(const FeaturePtr& theFeature) +{ + if (theFeature.get() && theFeature->data()->isValid()) { + const std::set >& aRefs = theFeature->data()->refsToMe(); + std::set >::const_iterator aRefIter = aRefs.begin(); + for(; aRefIter != aRefs.end(); aRefIter++) { + CompositeFeaturePtr aComp = std::dynamic_pointer_cast + ((*aRefIter)->owner()); + if (aComp.get() && aComp->data()->isValid() && aComp->isSub(theFeature)) + return aComp; + } + } + return CompositeFeaturePtr(); // not found +} + +ResultCompSolidPtr compSolidOwner(const ResultPtr& theSub) +{ + ResultBodyPtr aBody = std::dynamic_pointer_cast(theSub); + if (aBody.get()) { + FeaturePtr aFeatureOwner = aBody->document()->feature(aBody); + if (aFeatureOwner.get()) { + std::list >::const_iterator aResIter = + aFeatureOwner->results().cbegin(); + for(; aResIter != aFeatureOwner->results().cend(); aResIter++) { + ResultCompSolidPtr aComp = std::dynamic_pointer_cast(*aResIter); + if (aComp && aComp->isSub(aBody)) + return aComp; + } + } + } + return ResultCompSolidPtr(); // not found +} + +bool hasSubResults(const ResultPtr& theResult) +{ + ResultCompSolidPtr aCompSolid = std::dynamic_pointer_cast(theResult); + return aCompSolid.get() && aCompSolid->numberOfSubs() > 0; +} + +void allResults(const FeaturePtr& theFeature, std::list& theResults) +{ + if (!theFeature.get()) // safety: for empty feature no results + return; + const std::list >& aResults = theFeature->results(); + std::list >::const_iterator aRIter = aResults.begin(); + for (; aRIter != aResults.cend(); aRIter++) { + theResults.push_back(*aRIter); + // iterate sub-bodies of compsolid + ResultCompSolidPtr aComp = std::dynamic_pointer_cast(*aRIter); + if (aComp.get()) { + int aNumSub = aComp->numberOfSubs(); + for(int a = 0; a < aNumSub; a++) { + theResults.push_back(aComp->subResult(a)); + } + } + } +} + +//****************************************************************** +bool allDocumentsActivated(std::string& theNotActivatedNames) +{ + theNotActivatedNames = ""; + bool anAllPartActivated = true; + + DocumentPtr aRootDoc = ModelAPI_Session::get()->moduleDocument(); + int aSize = aRootDoc->size(ModelAPI_ResultPart::group()); + for (int i = 0; i < aSize; i++) { + ObjectPtr aObject = aRootDoc->object(ModelAPI_ResultPart::group(), i); + ResultPartPtr aPart = std::dynamic_pointer_cast(aObject); + if (!aPart->isActivated()) { + anAllPartActivated = false; + if (!theNotActivatedNames.empty()) + theNotActivatedNames += ", "; + theNotActivatedNames += aObject->data()->name().c_str(); + } + } + return anAllPartActivated; +} + +bool removeFeaturesAndReferences(const std::set& theFeatures, + const bool theFlushRedisplay, + const bool theUseComposite, + const bool theUseRecursion) +{ +#ifdef DEBUG_REMOVE_FEATURES + printListInfo(theFeatures, "selection: "); +#endif + + std::map > aReferences; + ModelAPI_Tools::findAllReferences(theFeatures, aReferences, theUseComposite, theUseRecursion); +#ifdef DEBUG_REMOVE_FEATURES + printMapInfo(aReferences, "allDependencies: "); +#endif + + std::set aFeaturesRefsTo; + ModelAPI_Tools::findRefsToFeatures(theFeatures, aReferences, aFeaturesRefsTo); +#ifdef DEBUG_REMOVE_FEATURES + printListInfo(aFeaturesRefsTo, "references: "); +#endif + + std::set aFeatures = theFeatures; + if (!aFeaturesRefsTo.empty()) + aFeatures.insert(aFeaturesRefsTo.begin(), aFeaturesRefsTo.end()); +#ifdef DEBUG_REMOVE_FEATURES + printListInfo(aFeatures, "removeFeatures: "); +#endif + + return ModelAPI_Tools::removeFeatures(aFeatures, false); +} + +bool removeFeatures(const std::set& theFeatures, + const bool theFlushRedisplay) +{ + bool isDone = false; + std::set::const_iterator anIt = theFeatures.begin(), + aLast = theFeatures.end(); + for (; anIt != aLast; anIt++) { + FeaturePtr aFeature = *anIt; + if (aFeature.get()) { + DocumentPtr aDoc = aFeature->document(); + // flush REDISPLAY signal after remove feature + aDoc->removeFeature(aFeature); + isDone = true; + } + } + if (isDone && theFlushRedisplay) { + // the redisplay signal should be flushed in order to erase the feature presentation in the viewer + // if should be done after removeFeature() of document + Events_Loop::loop()->flush(Events_Loop::loop()->eventByName(EVENT_OBJECT_TO_REDISPLAY)); + } + return true; +} + +// Fills the references list by all references of the feature from the references map. +// This is a recusive method to find references by next found feature in the map of references. +// \param theFeature a feature to find references +// \param theReferencesMap a map of references +// \param theReferences an out container of references +void addRefsToFeature(const FeaturePtr& theFeature, + const std::map >& theReferencesMap, + std::map >& theProcessedReferences, + int theRecLevel, + std::set& theReferences) +{ + if (theRecLevel > RECURSE_TOP_LEVEL) + return; + theRecLevel++; + + // if the feature is already processed, get the ready references from the map + if (theProcessedReferences.find(theFeature) != theProcessedReferences.end()) { + std::set aReferences = theProcessedReferences.at(theFeature); + theReferences.insert(aReferences.begin(), aReferences.end()); + return; + } + + if (theReferencesMap.find(theFeature) == theReferencesMap.end()) + return; // this feature is not in the selection list, so exists without references to it + std::set aMainReferences = theReferencesMap.at(theFeature); + + std::set::const_iterator anIt = aMainReferences.begin(), + aLast = aMainReferences.end(); +#ifdef DEBUG_REMOVE_FEATURES_RECURSE + std::string aSpacing; + for (int i = 0; i < theRecLevel; i++) + aSpacing.append(" "); +#endif + + for (; anIt != aLast; anIt++) { + FeaturePtr aRefFeature = *anIt; +#ifdef DEBUG_REMOVE_FEATURES_RECURSE + std::cout << aSpacing << " Ref: " << getFeatureInfo(aRefFeature) << std::endl; +#endif + if (theReferences.find(aRefFeature) == theReferences.end()) + theReferences.insert(aRefFeature); + addRefsToFeature(aRefFeature, theReferencesMap, theProcessedReferences, theRecLevel, theReferences); + } +} + +// For each feature from the feature list it searches references to the feature and append them +// to the references map. This is a recusive method. +// \param theFeature a feature to find references +// \param theReferencesMap a map of references +// \param theReferences an out container of references +void findReferences(const std::set& theFeatures, + std::map >& theReferences, + const bool theUseComposite, const bool theUseRecursion, int theRecLevel) +{ + if (theRecLevel > RECURSE_TOP_LEVEL) + return; + theRecLevel++; + std::set::const_iterator anIt = theFeatures.begin(), + aLast = theFeatures.end(); + for (; anIt != aLast; anIt++) { + FeaturePtr aFeature = *anIt; + if (aFeature.get() && theReferences.find(aFeature) == theReferences.end()) { + DocumentPtr aSelFeatureDoc = aFeature->document(); + std::set aSelRefFeatures; + aSelFeatureDoc->refsToFeature(aFeature, aSelRefFeatures, false/*do not emit signals*/); + if (theUseComposite) { // do not filter selection + theReferences[aFeature] = aSelRefFeatures; + } + else { // filter references to skip composition features of the current feature + std::set aFilteredFeatures; + std::set::const_iterator anIt = aSelRefFeatures.begin(), + aLast = aSelRefFeatures.end(); + for (; anIt != aLast; anIt++) { + FeaturePtr aCFeature = *anIt; + CompositeFeaturePtr aComposite = std::dynamic_pointer_cast(aCFeature); + if (aComposite.get() && aComposite->isSub(aFeature)) + continue; /// composite of the current feature should be skipped + aFilteredFeatures.insert(aCFeature); + } + theReferences[aFeature] = aFilteredFeatures; + } + if (theUseRecursion) { +#ifdef DEBUG_CYCLING_1550 + findReferences(aSelRefFeatures, theReferences, theUseComposite, theUseRecursion, theRecLevel); +#else + findReferences(theReferences[aFeature], theReferences, theUseComposite, theUseRecursion, + theRecLevel); +#endif + } + } + } +} + +void findAllReferences(const std::set& theFeatures, + std::map >& theReferences, + const bool theUseComposite, + const bool theUseRecursion) +{ + // For dependencies, find main_list: + // sk_1(ext_1, vertex_1) + // ext_1(bool_1, sk_3) + // vertex_1() + // sk_2(ext_2) + // ext_2(bool_2) + // sk_3() + // Information: bool_1 is not selected, ext_2(bool_2) exists + // find all referenced features + std::map > aMainList; + int aRecLevel = 0; + findReferences(theFeatures, aMainList, theUseComposite, theUseRecursion, aRecLevel); + +#ifdef DEBUG_REMOVE_FEATURES + printMapInfo(aMainList, "firstDependencies"); +#endif + // find all dependencies for each object: + // sk_1(ext_1, vertex_1) + (sk_3, bool_1) + // ext_1(bool_1, sk_3) + // vertex_1() + // sk_2(ext_2) + (bool_1) + // ext_2(bool_1) + // sk_3() + std::map >::const_iterator aMainIt = aMainList.begin(), + aMainLast = aMainList.end(); + for (; aMainIt != aMainLast; aMainIt++) { + FeaturePtr aMainListFeature = aMainIt->first; + + //std::string aName = aMainListFeature->name(); + std::set aMainRefList = aMainIt->second; + +#ifdef DEBUG_REMOVE_FEATURES_RECURSE + char aBuf[50]; + int n = sprintf(aBuf, "%d", aMainRefList.size()); + std::string aSize(aBuf); + std::cout << "_findAllReferences for the Feature: " << getFeatureInfo(aMainListFeature) + << ", references size = " << aSize << std::endl; +#endif + std::set::const_iterator anIt = aMainRefList.begin(), + aLast = aMainRefList.end(); + std::set aResultRefList; + aResultRefList.insert(aMainRefList.begin(), aMainRefList.end()); + for (; anIt != aLast; anIt++) { + FeaturePtr aFeature = *anIt; + int aRecLevel = 0; +#ifdef DEBUG_REMOVE_FEATURES_RECURSE + std::cout << " Ref: " << getFeatureInfo(aFeature) << std::endl; +#endif + aRecLevel++; + addRefsToFeature(aFeature, aMainList, theReferences, aRecLevel, aResultRefList/*aMainRefList*/); + } + theReferences[aMainListFeature] = aResultRefList; + } +#ifdef DEBUG_REMOVE_FEATURES_RECURSE + std::cout << std::endl; +#endif + +#ifdef DEBUG_REMOVE_FEATURES + printMapInfo(theReferences, "allDependencies"); +#endif +} + +void findRefsToFeatures(const std::set& theFeatures, + const std::map >& theReferences, + std::set& theFeaturesRefsTo) +{ + std::set::const_iterator anIt = theFeatures.begin(), + aLast = theFeatures.end(); + for (; anIt != aLast; anIt++) { + FeaturePtr aFeature = *anIt; + if (theReferences.find(aFeature) == theReferences.end()) + continue; + std::set aRefList = theReferences.at(aFeature); + std::set::const_iterator aRefIt = aRefList.begin(), aRefLast = aRefList.end(); + for (; aRefIt != aRefLast; aRefIt++) { + FeaturePtr aRefFeature = *aRefIt; + CompositeFeaturePtr aComposite = std::dynamic_pointer_cast(aRefFeature); + if (aComposite.get() && aComposite->isSub(aFeature)) + continue; /// composite of the current feature should not be removed + + if (theFeatures.find(aRefFeature) == theFeatures.end() && // it is not selected + theFeaturesRefsTo.find(aRefFeature) == theFeaturesRefsTo.end()) // it is not added + theFeaturesRefsTo.insert(aRefFeature); + } + } +} + +void getConcealedResults(const FeaturePtr& theFeature, + std::list >& theResults) +{ + SessionPtr aSession = ModelAPI_Session::get(); + + std::list > > > aRefs; + theFeature->data()->referencesToObjects(aRefs); + std::list > >::const_iterator + anIt = aRefs.begin(), aLast = aRefs.end(); + std::set alreadyThere; // to avoid duplications + for (; anIt != aLast; anIt++) { + if (!aSession->validators()->isConcealed(theFeature->getKind(), anIt->first)) + continue; // use only concealed attributes + std::list anObjects = (*anIt).second; + std::list::const_iterator anOIt = anObjects.begin(), anOLast = anObjects.end(); + for (; anOIt != anOLast; anOIt++) { + ResultPtr aResult = std::dynamic_pointer_cast(*anOIt); + if (aResult && aResult->isConcealed()) { + if (alreadyThere.find(aResult) == alreadyThere.end()) // issue 1712, avoid duplicates + alreadyThere.insert(aResult); + else continue; + theResults.push_back(aResult); + } + } + } +} + +} // namespace ModelAPI_Tools