+std::pair<std::wstring, bool> getDefaultName(const std::shared_ptr<ModelAPI_Result>& theResult,
+ const bool theInherited,
+ const bool theRecursive)
+{
+ typedef std::list< std::pair < std::string, std::list<ObjectPtr> > > ListOfReferences;
+
+ SessionPtr aSession = ModelAPI_Session::get();
+
+ ResultBodyPtr anOwnerRes = bodyOwner(theResult);
+ if (anOwnerRes) {
+ // names of sub-solids in CompSolid should be default (for example,
+ // result of boolean operation 'Boolean_1_1' is a CompSolid which is renamed to 'MyBOOL',
+ // however, sub-elements of 'MyBOOL' should be named 'Boolean_1_1_1', 'Boolean_1_1_2' etc.)
+ std::wostringstream aDefaultName;
+ aDefaultName << getDefaultName(anOwnerRes).first;
+ aDefaultName << "_" << (bodyIndex(theResult) + 1);
+ return std::pair<std::wstring, bool>(aDefaultName.str(), false);
+ }
+
+ FeaturePtr anOwner = ModelAPI_Feature::feature(theResult->data()->owner());
+ DataPtr aData = anOwner->data();
+
+ ListOfReferences aReferences;
+ // find first result with user-defined name
+ ListOfReferences::const_iterator aFoundRef = aReferences.end();
+ if (theInherited) {
+ aData->referencesToObjects(aReferences);
+
+ for (ListOfReferences::const_iterator aRefIt = aReferences.begin();
+ aRefIt != aReferences.end(); ++aRefIt) {
+ bool isConcealed = aSession->validators()->isConcealed(anOwner->getKind(), aRefIt->first);
+ bool isMainArg = isConcealed &&
+ aSession->validators()->isMainArgument(anOwner->getKind(), aRefIt->first);
+ if (isConcealed) {
+ // check the referred object is a Body
+ // (for example, ExtrusionCut has a sketch as a first attribute which is concealing)
+ bool isBody = aRefIt->second.size() > 1 || (aRefIt->second.size() == 1 &&
+ aRefIt->second.front().get() &&
+ aRefIt->second.front()->groupName() == ModelAPI_ResultBody::group());
+ if (isBody && (isMainArg || aFoundRef == aReferences.end() ||
+ aData->isPrecedingAttribute(aRefIt->first, aFoundRef->first)))
+ aFoundRef = aRefIt;
+
+ if (isMainArg)
+ break;
+ }
+ }
+ }
+ // get the result number in the feature
+ int anIndexInOwner = 0;
+ const std::list<ResultPtr>& anOwnerResults = anOwner->results();
+ std::list<ResultPtr>::const_iterator aResIt = anOwnerResults.cbegin();
+ for(; aResIt != anOwnerResults.cend(); aResIt++) {
+ if(*aResIt == theResult)
+ break;
+ anIndexInOwner++;
+ }
+
+ // find an object which is concealed by theResult
+ if (aFoundRef != aReferences.end() && !aFoundRef->second.empty()) {
+ // store number of references for each object
+ std::map<ResultPtr, int> aNbRefToObject;
+ // search the object by result index
+ std::list<ObjectPtr>::const_iterator anObjIt = aFoundRef->second.begin();
+ int aResultIndex = anIndexInOwner;
+ while (--aResultIndex >= 0) {
+ ResultPtr aCurRes = std::dynamic_pointer_cast<ModelAPI_Result>(*anObjIt);
+ ResultBodyPtr aParentBody = ModelAPI_Tools::bodyOwner(aCurRes);
+ if (aParentBody)
+ aCurRes = aParentBody;
+ if (aNbRefToObject.find(aCurRes) == aNbRefToObject.end())
+ aNbRefToObject[aCurRes] = 1;
+ else
+ aNbRefToObject[aCurRes] += 1;
+
+ ++anObjIt;
+ if (anObjIt == aFoundRef->second.end()) {
+ anObjIt = aFoundRef->second.begin();
+ break;
+ }
+ }
+ // check the result is a Body
+ if (anObjIt->get() && (*anObjIt)->groupName() == ModelAPI_ResultBody::group()) {
+ // check the result is part of CompSolid
+ ResultPtr anObjRes = std::dynamic_pointer_cast<ModelAPI_Result>(*anObjIt);
+ ResultBodyPtr aParentBody = ModelAPI_Tools::bodyOwner(anObjRes);
+ if (aParentBody)
+ anObjRes = aParentBody;
+
+ // return name of reference result only if it has been renamed by the user,
+ // in other case compose a default name
+ if (anObjRes->data()->hasUserDefinedName() ||
+ (theRecursive && anObjRes->data()->name() != getDefaultName(anObjRes).first)) {
+ std::wstringstream aName;
+ aName << anObjRes->data()->name();
+ std::map<ResultPtr, int>::iterator aFound = aNbRefToObject.find(anObjRes);
+ if (aFound != aNbRefToObject.end()) {
+ // to generate unique name, add suffix if there are several results
+ // referring to the same shape
+ aName << "_" << aFound->second + 1;
+ }
+ return std::pair<std::wstring, bool>(aName.str(), true);
+ }
+ }
+ }
+
+ // compose default name by the name of the feature and the index of result
+ std::wstringstream aDefaultName;
+ aDefaultName << anOwner->name();
+ // if there are several results (issue #899: any number of result),
+ // add unique prefix starting from second
+ if (anIndexInOwner > 0 || theResult->groupName() == ModelAPI_ResultBody::group())
+ aDefaultName << "_" << anIndexInOwner + 1;
+ return std::pair<std::wstring, bool>(aDefaultName.str(), false);
+}
+
+std::set<FeaturePtr> getParents(const FeaturePtr& theFeature)
+{
+ std::set<FeaturePtr> aParents;
+ for (FeaturePtr aCurFeat = theFeature; aCurFeat; ) {
+ CompositeFeaturePtr aFoundComposite;
+ const std::set<AttributePtr>& aRefs = aCurFeat->data()->refsToMe();
+ for (std::set<AttributePtr>::const_iterator anIt = aRefs.begin();
+ anIt != aRefs.end(); ++anIt) {
+ FeaturePtr aF = ModelAPI_Feature::feature((*anIt)->owner());
+ aFoundComposite = std::dynamic_pointer_cast<ModelAPI_CompositeFeature>(aF);
+ if (aFoundComposite && aFoundComposite->isSub(aCurFeat))
+ break;
+ else
+ aFoundComposite = CompositeFeaturePtr();
+ }
+
+ if (aFoundComposite) {
+ aParents.insert(aFoundComposite);
+ aCurFeat = aFoundComposite;
+ }
+ else {
+ // add the part containing high-level feature
+ SessionPtr aSession = ModelAPI_Session::get();
+ DocumentPtr aPartSetDoc = aSession->moduleDocument();
+ std::list<FeaturePtr> aPartSetFeatures = aPartSetDoc->allFeatures();
+ for (std::list<FeaturePtr>::const_iterator anIt = aPartSetFeatures.begin();
+ anIt != aPartSetFeatures.end(); ++anIt) {
+ aFoundComposite = std::dynamic_pointer_cast<ModelAPI_CompositeFeature>(*anIt);
+ if (aFoundComposite && aFoundComposite->isSub(aCurFeat)) {
+ aParents.insert(aFoundComposite);
+ break;
+ }
+ }
+
+ aCurFeat = FeaturePtr();
+ }
+ }
+ return aParents;
+}
+
+void fillShapeHierarchy(const GeomShapePtr& theShape,
+ const ResultPtr& theContext,
+ GeomAPI_ShapeHierarchy& theHierarchy)
+{
+ ResultBodyPtr aResCompSolidPtr = ModelAPI_Tools::bodyOwner(theContext);
+ if (aResCompSolidPtr.get()) {
+ std::shared_ptr<GeomAPI_Shape> aContextShape = aResCompSolidPtr->shape();
+ if (aContextShape->shapeType() <= GeomAPI_Shape::COMPSOLID) {
+ theHierarchy.addParent(theShape, aContextShape);
+ fillShapeHierarchy(aContextShape, aResCompSolidPtr, theHierarchy);
+ }
+ }
+}
+
+
+void removeResults(const std::list<ResultPtr>& theResults)
+{
+ // collect all documents where the results must be removed
+ std::map<DocumentPtr, std::list<ResultPtr> > aDocs;
+
+ std::list<ResultPtr>::const_iterator aResIter = theResults.cbegin();
+ for(; aResIter != theResults.cend(); aResIter++) {
+ DocumentPtr aDoc = (*aResIter)->document();
+ if (!aDocs.count(aDoc))
+ aDocs[aDoc] = std::list<ResultPtr>();
+ aDocs[aDoc].push_back(*aResIter);
+ }
+ // create a "remove" feature in each doc
+ std::map<DocumentPtr, std::list<ResultPtr> >::iterator aDoc = aDocs.begin();
+ for(; aDoc != aDocs.end(); aDoc++) {
+ FeaturePtr aRemove = aDoc->first->addFeature("RemoveResults");
+ if (aRemove) {
+ for(aResIter = aDoc->second.cbegin(); aResIter != aDoc->second.cend(); aResIter++)
+ aRemove->selectionList("results")->append(*aResIter, GeomShapePtr());
+ }
+ }
+}
+
+// used by GUI only
+// LCOV_EXCL_START
+
+//**************************************************************
+void setDeflection(ResultPtr theResult, const double theDeflection)
+{
+ if (!theResult.get())
+ return;
+
+ AttributeDoublePtr aDeflectionAttr = theResult->data()->real(ModelAPI_Result::DEFLECTION_ID());
+ if (aDeflectionAttr.get() != NULL) {
+ aDeflectionAttr->setValue(theDeflection);
+ }
+}
+
+double getDeflection(const std::shared_ptr<ModelAPI_Result>& theResult)
+{
+ double aDeflection = -1;
+ // get deflection from the attribute of the result
+ if (theResult.get() != NULL &&
+ theResult->data()->attribute(ModelAPI_Result::DEFLECTION_ID()).get() != NULL) {
+ AttributeDoublePtr aDoubleAttr = theResult->data()->real(ModelAPI_Result::DEFLECTION_ID());
+ if (aDoubleAttr.get() && aDoubleAttr->isInitialized()) {
+ double aValue = aDoubleAttr->value();
+ if (aValue > 0) /// zero value should not be used as a deflection(previous studies)
+ aDeflection = aDoubleAttr->value();
+ }
+ }
+ return aDeflection;
+}
+
+//******************************************************
+void setColor(ResultPtr theResult, const std::vector<int>& theColor)
+{
+ if (!theResult.get())
+ return;
+
+ AttributeIntArrayPtr aColorAttr = theResult->data()->intArray(ModelAPI_Result::COLOR_ID());
+ if (aColorAttr.get() != NULL) {
+ if (!aColorAttr->size()) {
+ aColorAttr->setSize(3);
+ }
+ aColorAttr->setValue(0, theColor[0]);
+ aColorAttr->setValue(1, theColor[1]);
+ aColorAttr->setValue(2, theColor[2]);
+ }
+}
+
+void getColor(const std::shared_ptr<ModelAPI_Result>& theResult, std::vector<int>& theColor)
+{
+ theColor.clear();
+ // get color from the attribute of the result
+ if (theResult.get() != NULL &&
+ theResult->data()->attribute(ModelAPI_Result::COLOR_ID()).get() != NULL) {
+ AttributeIntArrayPtr aColorAttr = theResult->data()->intArray(ModelAPI_Result::COLOR_ID());
+ if (aColorAttr.get() && aColorAttr->size()) {
+ theColor.push_back(aColorAttr->value(0));
+ theColor.push_back(aColorAttr->value(1));
+ theColor.push_back(aColorAttr->value(2));
+ }
+ }
+}
+
+//******************************************************
+void getIsoLines(const std::shared_ptr<ModelAPI_Result>& theResult,
+ bool& isVisible, std::vector<int>& theNbLines)
+{
+ theNbLines.clear();
+ isVisible = false;
+ if (!theResult.get())
+ return;
+ if (theResult->groupName() == ModelAPI_ResultConstruction::group()) {
+ theNbLines.push_back(0);
+ theNbLines.push_back(0);
+ }
+ else {
+ // get color from the attribute of the result
+ AttributeIntArrayPtr aAttr = theResult->data()->intArray(ModelAPI_Result::ISO_LINES_ID());
+ if (aAttr.get()) {
+ if (aAttr->size()) {
+ theNbLines.push_back(aAttr->value(0));
+ theNbLines.push_back(aAttr->value(1));
+ }
+ }
+ AttributeBooleanPtr aBoolAttr =
+ theResult->data()->boolean(ModelAPI_Result::SHOW_ISO_LINES_ID());
+ if (aBoolAttr.get()) {
+ isVisible = aBoolAttr->value();
+ }
+ }
+}
+
+//******************************************************
+void setIsoLines(ResultPtr theResult, const std::vector<int>& theIso)
+{
+ if (!theResult.get())
+ return;
+
+ AttributeIntArrayPtr aAttr = theResult->data()->intArray(ModelAPI_Result::ISO_LINES_ID());
+ if (aAttr.get() != NULL) {
+ if (!aAttr->size()) {
+ aAttr->setSize(2);
+ }
+ aAttr->setValue(0, theIso[0]);
+ aAttr->setValue(1, theIso[1]);
+ }
+}
+
+//******************************************************
+void showIsoLines(std::shared_ptr<ModelAPI_Result> theResult, bool theShow)
+{
+ if (!theResult.get())
+ return;
+
+ AttributeBooleanPtr aAttr = theResult->data()->boolean(ModelAPI_Result::SHOW_ISO_LINES_ID());
+ if (aAttr.get() != NULL) {
+ aAttr->setValue(theShow);
+ }
+}
+
+//******************************************************
+bool isShownIsoLines(std::shared_ptr<ModelAPI_Result> theResult)
+{
+ if (!theResult.get())
+ return false;
+
+ AttributeBooleanPtr aAttr = theResult->data()->boolean(ModelAPI_Result::SHOW_ISO_LINES_ID());
+ if (aAttr.get() != NULL) {
+ return aAttr->value();
+ }
+ return false;
+}
+
+//**************************************************************
+void setTransparency(ResultPtr theResult, double theTransparency)
+{
+ if (!theResult.get())
+ return;
+
+ AttributeDoublePtr anAttribute = theResult->data()->real(ModelAPI_Result::TRANSPARENCY_ID());
+ if (anAttribute.get() != NULL) {
+ anAttribute->setValue(theTransparency);
+ }
+}
+
+double getTransparency(const std::shared_ptr<ModelAPI_Result>& theResult)
+{
+ double aTransparency = -1;
+ // get transparency from the attribute of the result
+ if (theResult.get() != NULL &&
+ theResult->data()->attribute(ModelAPI_Result::TRANSPARENCY_ID()).get() != NULL) {
+ AttributeDoublePtr aDoubleAttr = theResult->data()->real(ModelAPI_Result::TRANSPARENCY_ID());
+ if (aDoubleAttr.get() && aDoubleAttr->isInitialized()) {
+ aTransparency = aDoubleAttr->value();
+ }
+ }
+ return aTransparency;
+}
+
+void copyVisualizationAttrs(
+ std::shared_ptr<ModelAPI_Result> theSource, std::shared_ptr<ModelAPI_Result> theDest)
+{
+ // color
+ AttributeIntArrayPtr aSourceColor = theSource->data()->intArray(ModelAPI_Result::COLOR_ID());
+ if (aSourceColor.get() && aSourceColor->isInitialized() && aSourceColor->size()) {
+ AttributeIntArrayPtr aDestColor = theDest->data()->intArray(ModelAPI_Result::COLOR_ID());
+ if (aDestColor.get()) {
+ aDestColor->setSize(aSourceColor->size());
+ for(int a = 0; a < aSourceColor->size(); a++)
+ aDestColor->setValue(a, aSourceColor->value(a));
+ }
+ }
+ // Iso-lines
+ AttributeIntArrayPtr aSource = theSource->data()->intArray(ModelAPI_Result::ISO_LINES_ID());
+ if (aSource.get() && aSource->isInitialized() && aSource->size()) {
+ AttributeIntArrayPtr aDest = theDest->data()->intArray(ModelAPI_Result::ISO_LINES_ID());
+ if (aDest.get()) {
+ aDest->setSize(aSource->size());
+ for(int a = 0; a < aSource->size(); a++)
+ aDest->setValue(a, aSource->value(a));
+ }
+ }
+ // deflection
+ AttributeDoublePtr aSourceDefl = theSource->data()->real(ModelAPI_Result::DEFLECTION_ID());
+ if (aSourceDefl.get() && aSourceDefl->isInitialized()) {
+ AttributeDoublePtr aDestDefl = theDest->data()->real(ModelAPI_Result::DEFLECTION_ID());
+ if (aDestDefl.get()) {
+ aDestDefl->setValue(aSourceDefl->value());
+ }
+ }
+ // transparency
+ AttributeDoublePtr aSourceTransp = theSource->data()->real(ModelAPI_Result::TRANSPARENCY_ID());
+ if (aSourceTransp.get() && aSourceTransp->isInitialized()) {
+ AttributeDoublePtr aDestTransp = theDest->data()->real(ModelAPI_Result::TRANSPARENCY_ID());
+ if (aDestTransp.get()) {
+ aDestTransp->setValue(aSourceTransp->value());
+ }
+ }
+}
+
+
+void copyImageAttribute (std::shared_ptr<ModelAPI_Result> theSource,
+ std::shared_ptr<ModelAPI_Result> theDest)
+{
+ if (!theSource.get() || !theDest.get())
+ return;
+
+ // images allowed only for ResultBody
+ ResultBodyPtr aSourceBody = std::dynamic_pointer_cast<ModelAPI_ResultBody>(theSource);
+ ResultBodyPtr aDestBody = std::dynamic_pointer_cast<ModelAPI_ResultBody>(theDest);
+ if (!aSourceBody.get() || !aDestBody.get())
+ return;
+
+ AttributeImagePtr aSourceImage =
+ theSource->data()->image(ModelAPI_ResultBody::IMAGE_ID());
+ if (aSourceImage.get() && aSourceImage->hasTexture()) {
+ AttributeImagePtr aDestImage =
+ theDest->data()->image(ModelAPI_ResultBody::IMAGE_ID());
+ if (aDestImage.get()) {
+ aSourceImage->copyTo(aDestImage);
+ }
+ }
+}
+
+std::list<FeaturePtr> referencedFeatures(
+ std::shared_ptr<ModelAPI_Result> theTarget, const std::string& theFeatureKind,
+ const bool theSortResults)
+{
+ std::set<FeaturePtr> aResSet; // collect in the set initially to avoid duplicates
+ std::list<ResultPtr> allSubRes;
+ allSubRes.push_back(theTarget);
+ ResultBodyPtr aBody = std::dynamic_pointer_cast<ModelAPI_ResultBody>(theTarget);
+ if (aBody.get())
+ allSubs(aBody, allSubRes);
+ std::list<ResultPtr>::iterator aSub = allSubRes.begin();
+ for(; aSub != allSubRes.end(); aSub++) {
+ const std::set<AttributePtr>& aRefs = (*aSub)->data()->refsToMe();
+ std::set<AttributePtr>::const_iterator aRef = aRefs.cbegin();
+ for(; aRef != aRefs.cend(); aRef++) {
+ FeaturePtr aFeat = std::dynamic_pointer_cast<ModelAPI_Feature>((*aRef)->owner());
+ if (aFeat.get() && (theFeatureKind.empty() || aFeat->getKind() == theFeatureKind))
+ aResSet.insert(aFeat);
+ }
+ }
+ // add also feature of the target that may be referenced as a whole
+ FeaturePtr aTargetFeature = theTarget->document()->feature(theTarget);
+ const std::set<AttributePtr>& aRefs = aTargetFeature->data()->refsToMe();
+ std::set<AttributePtr>::const_iterator aRef = aRefs.cbegin();
+ for(; aRef != aRefs.cend(); aRef++) {
+ FeaturePtr aFeat = std::dynamic_pointer_cast<ModelAPI_Feature>((*aRef)->owner());
+ if (aFeat.get() && (theFeatureKind.empty() || aFeat->getKind() == theFeatureKind))
+ aResSet.insert(aFeat);
+ }
+ // check also Group-operations that may refer to groups - add them for theFeatureKind "Group"
+ if (theFeatureKind == "Group") {
+ std::set<FeaturePtr> aGroupOperations;
+ for(bool aNeedIterate = true; aNeedIterate; ) {
+ std::set<FeaturePtr>::iterator aResIter = aResSet.begin();
+ for(; aResIter != aResSet.end(); aResIter++) {
+ std::list<ResultPtr>::const_iterator aGroupRes = (*aResIter)->results().cbegin();
+ for(; aGroupRes != (*aResIter)->results().cend(); aGroupRes++) {
+ const std::set<AttributePtr>& aGroupRefs = (*aGroupRes)->data()->refsToMe();
+ std::set<AttributePtr>::const_iterator aRefIt = aGroupRefs.cbegin();
+ for(; aRefIt != aGroupRefs.cend(); aRefIt++) {
+ FeaturePtr aFeat = std::dynamic_pointer_cast<ModelAPI_Feature>((*aRefIt)->owner());
+ if (aFeat.get() && !aGroupOperations.count(aFeat) && !aFeat->results().empty() &&
+ aFeat->firstResult()->groupName() == ModelAPI_ResultGroup::group()) {
+ // iterate results of this group operation because it may be without theTarget shape
+ GeomShapePtr aTargetShape = theTarget->shape();
+ bool anIsIn = false;
+ std::list<ResultPtr>::const_iterator anOpRes = aFeat->results().cbegin();
+ for(; anOpRes != aFeat->results().cend() && !anIsIn; anOpRes++) {
+ GeomShapePtr anOpShape = (*anOpRes)->shape();
+ if (!anOpShape.get() || anOpShape->isNull())
+ continue;
+ for(GeomAPI_ShapeIterator aSubIt(anOpShape); aSubIt.more(); aSubIt.next()) {
+ if (aTargetShape->isSubShape(aSubIt.current(), false)) {
+ anIsIn = true;
+ break;
+ }
+ }
+ }
+ if (anIsIn)
+ aGroupOperations.insert(aFeat);
+ }
+ }
+ }
+ }
+ // insert all new group operations into result and if they are, check for next dependencies
+ aNeedIterate = false;
+ std::set<FeaturePtr>::iterator aGroupOpIter = aGroupOperations.begin();
+ for(; aGroupOpIter != aGroupOperations.end(); aGroupOpIter++) {
+ if (aResSet.find(*aGroupOpIter) == aResSet.end()) {
+ aResSet.insert(*aGroupOpIter);
+ aNeedIterate = true;
+ }
+ }
+ }
+ }
+
+ std::list<FeaturePtr> aResList;
+ std::set<FeaturePtr>::iterator aResIter = aResSet.begin();
+ for(; aResIter != aResSet.end(); aResIter++) {
+ if (theSortResults) { // sort results by creation-order
+ std::list<FeaturePtr>::iterator aListIter = aResList.begin();
+ for(; aListIter != aResList.end(); aListIter++) {
+ if ((*aResIter)->document()->isLater(*aListIter, *aResIter))
+ break;
+ }
+ if (aListIter == aResList.end()) // goes to the end
+ aResList.push_back(*aResIter);
+ else
+ aResList.insert(aListIter, *aResIter);
+ } else //just push to the end unsorted
+ aResList.push_back(*aResIter);
+ }
+ return aResList;
+}
+
+void setValues(std::vector<int>& theRGB, const int theRed, const int theGreen, const int theBlue)
+{
+ theRGB.push_back(theRed);
+ theRGB.push_back(theGreen);
+ theRGB.push_back(theBlue);
+}
+
+std::vector<int> HSVtoRGB(int theH, int theS, int theV)
+{
+ std::vector<int> 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: setValues(aRGB, aV_int, aVinc_int, aVmin_int); break;
+ case 1: setValues(aRGB, aVdec_int, aV_int, aVmin_int); break;
+ case 2: setValues(aRGB, aVmin_int, aV_int, aVinc_int); break;
+ case 3: setValues(aRGB, aVmin_int, aVdec_int, aV_int); break;
+ case 4: setValues(aRGB, aVinc_int, aVmin_int, aV_int); break;
+ case 5: setValues(aRGB, aV_int, aVmin_int, aVdec_int); break;
+ default: break;
+ }
+ return aRGB;
+}
+
+std::array<std::vector<int>, 10> myColorTab = {
+ std::vector<int> {255, 0, 0},
+ std::vector<int> {0, 255, 0},
+ std::vector<int> {0, 0, 255},
+ std::vector<int> {255, 255, 0},
+ std::vector<int> {0, 255, 255},
+ std::vector<int> {255, 0, 255},
+ std::vector<int> {255, 94, 0},
+ std::vector<int> {132, 255, 0},
+ std::vector<int> {132, 0, 255},
+ std::vector<int> {0, 0, 0},
+};
+
+void findRandomColor(std::vector<int>& theValues, bool theReset)
+{
+ static size_t i = 0;
+ static std::vector<std::vector<int>> usedGeneratedColor;
+
+ // True when disabling auto-color
+ if ( theReset ) {
+ i = 0;
+ return;
+ }
+
+ theValues.clear();
+ if (i < myColorTab.size()) {
+ theValues = myColorTab[i++];
+ } else {
+ int timeout = 0;
+ std::vector<int> aHSVColor;
+ std::vector<int> aRGBColor;
+ do {
+ aHSVColor = {rand() % 360 , rand() % (100 - 50 + 1) + 50, rand() % (100 - 50 + 1) + 50};
+ aRGBColor = HSVtoRGB(aHSVColor[0], aHSVColor[1], aHSVColor[2]);
+ timeout++;
+ } while (
+ timeout < 20 &&
+ std::find(usedGeneratedColor.begin(), usedGeneratedColor.end(), aHSVColor)
+ != usedGeneratedColor.end() &&
+ std::find(myColorTab.begin(), myColorTab.end(), aRGBColor) != myColorTab.end());
+ usedGeneratedColor.push_back(aHSVColor);
+ theValues = aRGBColor;
+ }
+}
+
+// LCOV_EXCL_STOP
+