/**
* Shows an operation dialog box.
*
* @param enableAutoIncrement Enable auto increment checkbox
*/
void FloatingTextWidget::showOperationDialog(bool enableAutoIncrement)
{
if (!m_linkWidget) {
uError() << "m_linkWidget is NULL";
return;
}
QString seqNum = m_linkWidget->sequenceNumber();
UMLClassifier* c = m_linkWidget->lwClassifier();
QString opText = m_linkWidget->lwOperationText();
if (!c) {
uError() << "m_linkWidget->lwClassifier() returns a NULL classifier";
return;
}
QPointer<SelectOperationDialog> selectDialog = new SelectOperationDialog(m_scene->activeView(), c, enableAutoIncrement);
if (enableAutoIncrement && m_scene->autoIncrementSequence()) {
seqNum = m_scene->autoIncrementSequenceValue();
selectDialog->setAutoIncrementSequence(true);
}
selectDialog->setSeqNumber(seqNum);
if (m_linkWidget->operation() == 0) {
selectDialog->setCustomOp(opText);
} else {
selectDialog->setClassOp(opText);
}
if (selectDialog->exec()) {
seqNum = selectDialog->getSeqNumber();
opText = selectDialog->getOpText();
if (selectDialog->isClassOp()) {
Model_Utils::OpDescriptor od;
Model_Utils::Parse_Status st = Model_Utils::parseOperation(opText, od, c);
if (st == Model_Utils::PS_OK) {
UMLClassifierList selfAndAncestors = c->findSuperClassConcepts();
selfAndAncestors.prepend(c);
UMLOperation *op = 0;
foreach (UMLClassifier *cl, selfAndAncestors) {
op = cl->findOperation(od.m_name, od.m_args);
if (op) {
break;
}
}
/**
* update the start and end text for this hierarchicalcodeblock.
*/
void CPPHeaderClassDeclarationBlock::updateContent ()
{
CPPHeaderCodeDocument *parentDoc = dynamic_cast<CPPHeaderCodeDocument*>(getParentDocument());
UMLClassifier *c = parentDoc->getParentClassifier();
QString endLine = UMLApp::app()->commonPolicy()->getNewLineEndingChars();
bool isInterface = parentDoc->parentIsInterface(); // a little shortcut
QString CPPHeaderClassName = CodeGenerator::cleanName(c->name());
bool forceDoc = UMLApp::app()->commonPolicy()->getCodeVerboseDocumentComments();
// COMMENT
//check if class is abstract.. it should have abstract methods
if(!isInterface && c->isAbstract() && !c->hasAbstractOps())
{
getComment()->setText(QLatin1String("******************************* Abstract Class ****************************") + endLine
+ CPPHeaderClassName + QLatin1String(" does not have any pure virtual methods, but its author") + endLine
+ QLatin1String(" defined it as an abstract class, so you should not use it directly.") + endLine
+ QLatin1String(" Inherit from it instead and create only objects from the derived classes") + endLine
+ QLatin1String("*****************************************************************************"));
} else {
if(isInterface)
getComment()->setText(QLatin1String("Interface ") + CPPHeaderClassName + endLine + c->doc());
else
getComment()->setText(QLatin1String("Class ") + CPPHeaderClassName + endLine + c->doc());
}
if(forceDoc || !c->doc().isEmpty())
getComment()->setWriteOutText(true);
else
getComment()->setWriteOutText(false);
// Now set START/ENDING Text
QString startText;
/*
*/
/*
if(parentDoc->parentIsInterface())
startText.append(QLatin1String("interface "));
else
*/
startText.append(QLatin1String("class "));
startText.append(CPPHeaderClassName);
// write inheritances out
UMLClassifierList superclasses = c->findSuperClassConcepts();
int nrof_superclasses = superclasses.count();
// write out inheritance
int i = 0;
if(nrof_superclasses >0)
startText.append(QLatin1String(" : "));
foreach (UMLClassifier* concept, superclasses) {
startText.append(Uml::Visibility::toString(concept->visibility()) + QLatin1Char(' ') +
CodeGenerator::cleanName(concept->name()));
if(i != (nrof_superclasses-1))
startText.append(QLatin1String(", "));
i++;
}
// This method will cause the class to rebuild its text representation.
// based on the parent classifier object.
// For any situation in which this is called, we are either building the code
// document up, or replacing/regenerating the existing auto-generated parts. As
// such, we will want to insert everything we resonablely will want
// during creation. We can set various parts of the document (esp. the
// comments) to appear or not, as needed.
void CPPHeaderCodeDocument::updateContent( )
{
// Gather info on the various fields and parent objects of this class...
UMLClassifier * c = getParentClassifier();
CodeGenPolicyExt *pe = UMLApp::app()->getPolicyExt();
CPPCodeGenerationPolicy * policy = dynamic_cast<CPPCodeGenerationPolicy*>(pe);
// first, set the global flag on whether or not to show classfield info
CodeClassFieldList * cfList = getCodeClassFieldList();
for(CodeClassField * field = cfList->first(); field; field = cfList->next())
field->setWriteOutMethods(policy->getAutoGenerateAccessors());
// attribute-based ClassFields
// we do it this way to have the static fields sorted out from regular ones
CodeClassFieldList staticPublicAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Public );
CodeClassFieldList publicAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Public );
CodeClassFieldList staticProtectedAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Protected );
CodeClassFieldList protectedAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Protected );
CodeClassFieldList staticPrivateAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Private );
CodeClassFieldList privateAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Private);
// association-based ClassFields
// don't care if they are static or not..all are lumped together
CodeClassFieldList publicPlainAssocClassFields = getSpecificClassFields ( CodeClassField::PlainAssociation , Uml::Visibility::Public);
CodeClassFieldList publicAggregationClassFields = getSpecificClassFields ( CodeClassField::Aggregation, Uml::Visibility::Public);
CodeClassFieldList publicCompositionClassFields = getSpecificClassFields ( CodeClassField::Composition, Uml::Visibility::Public );
CodeClassFieldList protPlainAssocClassFields = getSpecificClassFields ( CodeClassField::PlainAssociation , Uml::Visibility::Protected);
CodeClassFieldList protAggregationClassFields = getSpecificClassFields ( CodeClassField::Aggregation, Uml::Visibility::Protected);
CodeClassFieldList protCompositionClassFields = getSpecificClassFields ( CodeClassField::Composition, Uml::Visibility::Protected);
CodeClassFieldList privPlainAssocClassFields = getSpecificClassFields ( CodeClassField::PlainAssociation , Uml::Visibility::Private);
CodeClassFieldList privAggregationClassFields = getSpecificClassFields ( CodeClassField::Aggregation, Uml::Visibility::Private);
CodeClassFieldList privCompositionClassFields = getSpecificClassFields ( CodeClassField::Composition, Uml::Visibility::Private);
bool hasOperationMethods = c->getOpList().last() ? true : false;
bool hasNamespace = false;
bool isEnumeration = false;
bool isInterface = parentIsInterface();
bool hasclassFields = hasClassFields();
bool forcedoc = UMLApp::app()->getCommonPolicy()->getCodeVerboseDocumentComments();
QString endLine = UMLApp::app()->getCommonPolicy()->getNewLineEndingChars();
UMLClassifierList superclasses = c->findSuperClassConcepts();
// START GENERATING CODE/TEXT BLOCKS and COMMENTS FOR THE DOCUMENT
//
// Write the hash define stuff to prevent multiple parsing/inclusion of header
QString cppClassName = CodeGenerator::cleanName(c->getName());
QString hashDefine = CodeGenerator::cleanName(c->getName().upper().simplifyWhiteSpace());
QString defText = "#ifndef "+hashDefine + "_H"+ endLine + "#define "+ hashDefine + "_H";
addOrUpdateTaggedCodeBlockWithComments("hashDefBlock", defText, "", 0, false);
// INCLUDE CODEBLOCK
//
// Q: Why all utils? Isnt just List and Vector the only classes we are using?
// A: doesn't matter at all; its more readable to just include '*' and cpp compilers
// don't slow down or anything. (TZ)
QString includeStatement = "";
bool stringGlobal = policy->stringIncludeIsGlobal();
QString sStartBrak = stringGlobal ? "<" : "\"";
QString sEndBrak = stringGlobal ? ">" : "\"";
includeStatement.append("#include "+sStartBrak+policy->getStringClassNameInclude()+sEndBrak+endLine);
if ( hasObjectVectorClassFields() )
{
bool vecGlobal = policy->vectorIncludeIsGlobal();
QString vStartBrak = vecGlobal ? "<" : "\"";
QString vEndBrak = vecGlobal ? ">" : "\"";
QString value ="#include "+vStartBrak+policy->getVectorClassNameInclude()+vEndBrak;
includeStatement.append(value+endLine);
}
//only include classes in a different package from this class
UMLPackageList includes;
QMap<UMLPackage *,QString> packageMap; // so we don't repeat packages
CodeGenerator::findObjectsRelated(c,includes);
for(UMLPackage *con = includes.first(); con ; con = includes.next())
if (con->getBaseType() != Uml::ot_Datatype && !packageMap.contains(con))
{
packageMap.insert(con,con->getPackage());
if(con != getParentClassifier())
includeStatement.append("#include \""+CodeGenerator::cleanName(con->getName().lower())+".h\""+endLine);
}
// now, add/update the includes codeblock
CodeBlockWithComments * inclBlock = addOrUpdateTaggedCodeBlockWithComments("includes", includeStatement, QString::null, 0, false);
if(includeStatement.isEmpty() && inclBlock->getContentType() == CodeBlock::AutoGenerated)
inclBlock->setWriteOutText(false);
else
inclBlock->setWriteOutText(true);
// Using
QString usingStatement;
for(UMLClassifier *classifier = superclasses.first(); classifier ; classifier = superclasses.next()) {
if(classifier->getPackage()!=c->getPackage() && !classifier->getPackage().isEmpty()) {
usingStatement.append("using "+CodeGenerator::cleanName(c->getPackage())+"::"+cleanName(c->getName())+';'+endLine);
}
}
CodeBlockWithComments * usingBlock = addOrUpdateTaggedCodeBlockWithComments("using", usingStatement, "", 0, false);
if(usingStatement.isEmpty() && usingBlock->getContentType() == CodeBlock::AutoGenerated)
usingBlock->setWriteOutText(false);
else
usingBlock->setWriteOutText(true);
// namespace
// This needs special treatment. We cant use "nowriteouttext" for this, as
// that will prevent the class declaration from being written. Instead, we
// check if "hasNamspace" is true or not, and then indent the remaining code
// appropriately as well as set the start/end text of this namespace block.
if (c->getUMLPackage() && policy->getPackageIsNamespace())
hasNamespace = true;
else
hasNamespace = false;
// set start/end text of namespace block
namespaceBlock = getHierarchicalCodeBlock("namespace", "Namespace", 0);
if(hasNamespace) {
UMLPackageList pkgList = c->getPackages();
QString pkgs;
UMLPackage *pkg;
for (pkg = pkgList.first(); pkg != NULL; pkg = pkgList.next()) {
pkgs += "namespace " + CodeGenerator::cleanName(pkg->getName()) + " { ";
}
namespaceBlock->setStartText(pkgs);
QString closingBraces;
for (pkg = pkgList.first(); pkg != NULL; pkg = pkgList.next()) {
closingBraces += "} ";
}
namespaceBlock->setEndText(closingBraces);
namespaceBlock->getComment()->setWriteOutText(true);
} else {
namespaceBlock->setStartText("");
namespaceBlock->setEndText("");
namespaceBlock->getComment()->setWriteOutText(false);
}
// Enum types for include
if (!isInterface) {
QString enumStatement;
QString indent = UMLApp::app()->getCommonPolicy()->getIndentation();
UMLEnum* e = dynamic_cast<UMLEnum*>(c);
if (e) {
enumStatement.append(indent + "enum " + cppClassName + " {" + endLine);
// populate
UMLClassifierListItemList ell = e->getFilteredList(Uml::ot_EnumLiteral);
for (UMLClassifierListItem *el=ell.first(); el ; ) {
enumStatement.append(indent+indent);
enumStatement.append(CodeGenerator::cleanName(el->getName()));
if ((el=ell.next()) != 0)
enumStatement.append(", "+endLine);
else
break;
enumStatement.append(endLine);
}
enumStatement.append(indent+"};");
isEnumeration = true;
}
namespaceBlock->addOrUpdateTaggedCodeBlockWithComments("enums", enumStatement, "", 0, false);
}
// CLASS DECLARATION BLOCK
//
// add the class declaration block to the namespace block.
CPPHeaderClassDeclarationBlock * myClassDeclCodeBlock = getClassDecl();
namespaceBlock->addTextBlock(myClassDeclCodeBlock); // note: wont add if already present
// Is this really true?? hmm..
if(isEnumeration)
myClassDeclCodeBlock->setWriteOutText(false); // not written out IF its an enumeration class
else
myClassDeclCodeBlock->setWriteOutText(true);
//
// Main Sub-Blocks
//
// declare public, protected and private methods, attributes (fields).
// set the start text ONLY if this is the first time we created the objects.
bool createdPublicBlock = publicBlock == 0 ? true : false;
publicBlock = myClassDeclCodeBlock->getHierarchicalCodeBlock("publicBlock","Public stuff",0);
if (createdPublicBlock)
publicBlock->setStartText("public:");
bool createdProtBlock = protectedBlock == 0 ? true : false;
protectedBlock = myClassDeclCodeBlock->getHierarchicalCodeBlock("protectedBlock","Protected stuff",0);
if(createdProtBlock)
protectedBlock->setStartText("protected:");
bool createdPrivBlock = privateBlock == 0 ? true : false;
privateBlock = myClassDeclCodeBlock->getHierarchicalCodeBlock("privateBlock","Private stuff",0);
if(createdPrivBlock)
privateBlock->setStartText("private:");
//
// * CLASS FIELD declaration section
//
// setup/get/create the field declaration code block
//
// public fields: Update the comment: we only set comment to appear under the following conditions
HierarchicalCodeBlock * publicFieldDeclBlock = publicBlock->getHierarchicalCodeBlock("publicFieldsDecl", "Fields", 1);
CodeComment * pubFcomment = publicFieldDeclBlock->getComment();
if (!forcedoc && !hasclassFields )
pubFcomment->setWriteOutText(false);
else
pubFcomment->setWriteOutText(true);
// protected fields: Update the comment: we only set comment to appear under the following conditions
HierarchicalCodeBlock * protectedFieldDeclBlock = protectedBlock->getHierarchicalCodeBlock("protectedFieldsDecl", "Fields", 1);
CodeComment * protFcomment = protectedFieldDeclBlock->getComment();
if (!forcedoc && !hasclassFields )
protFcomment->setWriteOutText(false);
else
protFcomment->setWriteOutText(true);
// private fields: Update the comment: we only set comment to appear under the following conditions
HierarchicalCodeBlock * privateFieldDeclBlock = privateBlock->getHierarchicalCodeBlock("privateFieldsDecl", "Fields", 1);
CodeComment * privFcomment = privateFieldDeclBlock->getComment();
if (!forcedoc && !hasclassFields )
privFcomment->setWriteOutText(false);
else
privFcomment->setWriteOutText(true);
// now actually declare the fields within the appropriate HCodeBlock
//
// public
declareClassFields(staticPublicAttribClassFields, publicFieldDeclBlock);
declareClassFields(publicAttribClassFields, publicFieldDeclBlock);
declareClassFields(publicPlainAssocClassFields, publicFieldDeclBlock);
declareClassFields(publicAggregationClassFields, publicFieldDeclBlock);
declareClassFields(publicCompositionClassFields, publicFieldDeclBlock);
// protected
declareClassFields(staticProtectedAttribClassFields, protectedFieldDeclBlock);
declareClassFields(protectedAttribClassFields, protectedFieldDeclBlock);
declareClassFields(protPlainAssocClassFields, protectedFieldDeclBlock);
declareClassFields(protAggregationClassFields, protectedFieldDeclBlock);
declareClassFields(protCompositionClassFields, protectedFieldDeclBlock);
// private
declareClassFields(staticPrivateAttribClassFields, privateFieldDeclBlock);
declareClassFields(privateAttribClassFields, privateFieldDeclBlock);
declareClassFields(privPlainAssocClassFields, privateFieldDeclBlock);
declareClassFields(privAggregationClassFields, privateFieldDeclBlock);
declareClassFields(privCompositionClassFields, privateFieldDeclBlock);
//
// METHODS section
//
// get/create the method codeblock
// public methods
HierarchicalCodeBlock * pubMethodsBlock = publicBlock->getHierarchicalCodeBlock("pubMethodsBlock", "", 1);
CodeComment * pubMethodsComment = pubMethodsBlock->getComment();
// set conditions for showing this comment
if (!forcedoc && !hasclassFields && !hasOperationMethods)
pubMethodsComment->setWriteOutText(false);
else
pubMethodsComment->setWriteOutText(true);
// protected methods
HierarchicalCodeBlock * protMethodsBlock = protectedBlock->getHierarchicalCodeBlock("protMethodsBlock", "", 1);
CodeComment * protMethodsComment = protMethodsBlock->getComment();
// set conditions for showing this comment
if (!forcedoc && !hasclassFields && !hasOperationMethods)
protMethodsComment->setWriteOutText(false);
else
protMethodsComment->setWriteOutText(true);
// private methods
HierarchicalCodeBlock * privMethodsBlock = privateBlock->getHierarchicalCodeBlock("privMethodsBlock", "", 1);
CodeComment * privMethodsComment = privMethodsBlock->getComment();
// set conditions for showing this comment
if (!forcedoc && !hasclassFields && !hasOperationMethods)
privMethodsComment->setWriteOutText(false);
else
privMethodsComment->setWriteOutText(true);
// METHODS sub-section : constructor methods
//
CodeGenerationPolicy *pol = UMLApp::app()->getCommonPolicy();
// setup/get/create the constructor codeblocks
// public
pubConstructorBlock = pubMethodsBlock->getHierarchicalCodeBlock("constructionMethods", "Constructors", 1);
// special condiions for showing comment: only when autogenerateding empty constructors
// Although, we *should* check for other constructor methods too
CodeComment * pubConstComment = pubConstructorBlock->getComment();
if (!forcedoc && (isInterface || !pol->getAutoGenerateConstructors()))
pubConstComment->setWriteOutText(false);
else
pubConstComment->setWriteOutText(true);
// protected
protConstructorBlock = protMethodsBlock->getHierarchicalCodeBlock("constructionMethods", "Constructors", 1);
// special condiions for showing comment: only when autogenerateding empty constructors
// Although, we *should* check for other constructor methods too
CodeComment * protConstComment = protConstructorBlock->getComment();
if (!forcedoc && (isInterface || !pol->getAutoGenerateConstructors()))
protConstComment->setWriteOutText(false);
else
protConstComment->setWriteOutText(true);
// private
privConstructorBlock = privMethodsBlock->getHierarchicalCodeBlock("constructionMethods", "Constructors", 1);
// special condiions for showing comment: only when autogenerateding empty constructors
// Although, we *should* check for other constructor methods too
CodeComment * privConstComment = privConstructorBlock->getComment();
if (!forcedoc && (isInterface || !pol->getAutoGenerateConstructors()))
privConstComment->setWriteOutText(false);
else
privConstComment->setWriteOutText(true);
// add/get the empty constructor. I guess since there is no
// meta-data to state what the scope of this method is, we will make it
// "public" as a default. This might present problems if the user wants
// to move the block into the "private" or "protected" blocks.
QString emptyConstStatement = cppClassName + " ( ) { }";
// search for this first in the entire document. IF not present, put
// it in the public constructor method block
TextBlock * emptyConstTb = findTextBlockByTag("emptyconstructor", true);
CodeBlockWithComments * emptyConstBlock = dynamic_cast<CodeBlockWithComments*>(emptyConstTb);
if(!emptyConstBlock)
emptyConstBlock = pubConstructorBlock->addOrUpdateTaggedCodeBlockWithComments("emptyconstructor", emptyConstStatement, "Empty Constructor", 1, false);
// Now, as an additional condition we only show the empty constructor block
// IF it was desired to be shown
if(!isInterface && pol->getAutoGenerateConstructors())
emptyConstBlock->setWriteOutText(true);
else
emptyConstBlock->setWriteOutText(false);
// METHODS subsection : ACCESSOR METHODS
//
// get/create the accessor codeblock
// public
HierarchicalCodeBlock * pubAccessorBlock = pubMethodsBlock->getHierarchicalCodeBlock("accessorMethods", "Accessor Methods", 1);
// set conditions for showing section comment
CodeComment * pubAccessComment = pubAccessorBlock->getComment();
if (!forcedoc && !hasclassFields)
pubAccessComment->setWriteOutText(false);
else
pubAccessComment->setWriteOutText(true);
// protected
HierarchicalCodeBlock * protAccessorBlock = protMethodsBlock->getHierarchicalCodeBlock("accessorMethods", "Accessor Methods", 1);
// set conditions for showing section comment
CodeComment * protAccessComment = protAccessorBlock->getComment();
if (!forcedoc && !hasclassFields)
protAccessComment->setWriteOutText(false);
else
protAccessComment->setWriteOutText(true);
// private
HierarchicalCodeBlock * privAccessorBlock = privMethodsBlock->getHierarchicalCodeBlock("accessorMethods", "Accessor Methods", 1);
// set conditions for showing section comment
CodeComment * privAccessComment = privAccessorBlock->getComment();
// We've to copy the private accessorMethods to the public block
if (!forcedoc && !hasclassFields)
privAccessComment->setWriteOutText(false);
else
privAccessComment->setWriteOutText(true);
// now, 2 sub-sub sections in accessor block
// add/update accessor methods for attributes
HierarchicalCodeBlock * pubStaticAccessors = pubAccessorBlock->getHierarchicalCodeBlock("pubStaticAccessorMethods", "", 1);
HierarchicalCodeBlock * pubRegularAccessors = pubAccessorBlock->getHierarchicalCodeBlock("pubRegularAccessorMethods", "", 1);
pubStaticAccessors->getComment()->setWriteOutText(false); // never write block comment
pubRegularAccessors->getComment()->setWriteOutText(false); // never write block comment
HierarchicalCodeBlock * protStaticAccessors = protAccessorBlock->getHierarchicalCodeBlock("protStaticAccessorMethods", "", 1);
HierarchicalCodeBlock * protRegularAccessors = protAccessorBlock->getHierarchicalCodeBlock("protRegularAccessorMethods", "", 1);
protStaticAccessors->getComment()->setWriteOutText(false); // never write block comment
protRegularAccessors->getComment()->setWriteOutText(false); // never write block comment
HierarchicalCodeBlock * privStaticAccessors = privAccessorBlock->getHierarchicalCodeBlock("privStaticAccessorMethods", "", 1);
HierarchicalCodeBlock * privRegularAccessors = privAccessorBlock->getHierarchicalCodeBlock("privRegularAccessorMethods", "", 1);
privStaticAccessors->getComment()->setWriteOutText(false); // never write block comment
privRegularAccessors->getComment()->setWriteOutText(false); // never write block comment
// now add in accessors as appropriate
// public stuff
pubStaticAccessors->addCodeClassFieldMethods(staticPublicAttribClassFields);
pubRegularAccessors->addCodeClassFieldMethods(publicAttribClassFields);
// generate accessors as public
if (policy && policy->getAccessorsArePublic())
{
pubRegularAccessors->addCodeClassFieldMethods(privateAttribClassFields);
pubRegularAccessors->addCodeClassFieldMethods(protectedAttribClassFields);
}
pubRegularAccessors->addCodeClassFieldMethods(publicPlainAssocClassFields);
pubRegularAccessors->addCodeClassFieldMethods(publicAggregationClassFields);
pubRegularAccessors->addCodeClassFieldMethods(publicCompositionClassFields);
// protected stuff
protStaticAccessors->addCodeClassFieldMethods(staticProtectedAttribClassFields);
// accessors are public so we don't have to create it here
if (policy && !policy->getAccessorsArePublic())
protRegularAccessors->addCodeClassFieldMethods(protectedAttribClassFields);
protRegularAccessors->addCodeClassFieldMethods(protPlainAssocClassFields);
protRegularAccessors->addCodeClassFieldMethods(protAggregationClassFields);
protRegularAccessors->addCodeClassFieldMethods(protCompositionClassFields);
// private stuff
privStaticAccessors->addCodeClassFieldMethods(staticPrivateAttribClassFields);
// accessors are public so we don't have to create it here
if (policy && !policy->getAccessorsArePublic())
privRegularAccessors->addCodeClassFieldMethods(privateAttribClassFields);
privRegularAccessors->addCodeClassFieldMethods(privPlainAssocClassFields);
privRegularAccessors->addCodeClassFieldMethods(privAggregationClassFields);
privRegularAccessors->addCodeClassFieldMethods(privCompositionClassFields);
// METHODS subsection : Operation methods (e.g. methods derive from operations but which arent constructors)
//
// setup/get/create the operations codeblock
// public
pubOperationsBlock = pubMethodsBlock->getHierarchicalCodeBlock("operationMethods", "Operations", 1);
// set conditions for showing section comment
CodeComment * pubOcomment = pubOperationsBlock->getComment();
if (!forcedoc && !hasOperationMethods )
pubOcomment->setWriteOutText(false);
else
pubOcomment->setWriteOutText(true);
//protected
protOperationsBlock = protMethodsBlock->getHierarchicalCodeBlock("operationMethods", "Operations", 1);
// set conditions for showing section comment
CodeComment * protOcomment = protOperationsBlock->getComment();
if (!forcedoc && !hasOperationMethods )
protOcomment->setWriteOutText(false);
else
protOcomment->setWriteOutText(true);
//private
privOperationsBlock = privMethodsBlock->getHierarchicalCodeBlock("operationMethods", "Operations", 1);
// set conditions for showing section comment
CodeComment * privOcomment = privOperationsBlock->getComment();
if (!forcedoc && !hasOperationMethods )
privOcomment->setWriteOutText(false);
else
privOcomment->setWriteOutText(true);
// Operations
//
// nothing to do here.. "updateOperations" in parent class puts things
// in the right place using the "addCodeOperation" method we defined in this class
// FINISH up with hash def block close
QString defTextEnd = "#endif //"+hashDefine + "_H";
addOrUpdateTaggedCodeBlockWithComments("hashDefBlockEnd", defTextEnd, "", 0, false);
}
// This method will cause the class to rebuild its text representation.
// based on the parent classifier object.
// For any situation in which this is called, we are either building the code
// document up, or replacing/regenerating the existing auto-generated parts. As
// such, we will want to insert everything we resonablely will want
// during creation. We can set various parts of the document (esp. the
// comments) to appear or not, as needed.
void CPPHeaderCodeDocument::updateContent()
{
// Gather info on the various fields and parent objects of this class...
UMLClassifier * c = getParentClassifier();
Q_ASSERT(c != NULL);
CodeGenPolicyExt *pe = UMLApp::app()->policyExt();
CPPCodeGenerationPolicy * policy = dynamic_cast<CPPCodeGenerationPolicy*>(pe);
// first, set the global flag on whether or not to show classfield info
const CodeClassFieldList * cfList = getCodeClassFieldList();
CodeClassFieldList::const_iterator it = cfList->begin();
CodeClassFieldList::const_iterator end = cfList->end();
for(; it != end; ++it)
(*it)->setWriteOutMethods(policy->getAutoGenerateAccessors());
// attribute-based ClassFields
// we do it this way to have the static fields sorted out from regular ones
CodeClassFieldList staticPublicAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Public);
CodeClassFieldList publicAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Public);
CodeClassFieldList staticProtectedAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Protected);
CodeClassFieldList protectedAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Protected);
CodeClassFieldList staticPrivateAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, true, Uml::Visibility::Private);
CodeClassFieldList privateAttribClassFields = getSpecificClassFields (CodeClassField::Attribute, false, Uml::Visibility::Private);
// association-based ClassFields
// don't care if they are static or not..all are lumped together
CodeClassFieldList publicPlainAssocClassFields = getSpecificClassFields (CodeClassField::PlainAssociation, Uml::Visibility::Public);
CodeClassFieldList publicAggregationClassFields = getSpecificClassFields (CodeClassField::Aggregation, Uml::Visibility::Public);
CodeClassFieldList publicCompositionClassFields = getSpecificClassFields (CodeClassField::Composition, Uml::Visibility::Public);
CodeClassFieldList protPlainAssocClassFields = getSpecificClassFields (CodeClassField::PlainAssociation, Uml::Visibility::Protected);
CodeClassFieldList protAggregationClassFields = getSpecificClassFields (CodeClassField::Aggregation, Uml::Visibility::Protected);
CodeClassFieldList protCompositionClassFields = getSpecificClassFields (CodeClassField::Composition, Uml::Visibility::Protected);
CodeClassFieldList privPlainAssocClassFields = getSpecificClassFields (CodeClassField::PlainAssociation, Uml::Visibility::Private);
CodeClassFieldList privAggregationClassFields = getSpecificClassFields (CodeClassField::Aggregation, Uml::Visibility::Private);
CodeClassFieldList privCompositionClassFields = getSpecificClassFields (CodeClassField::Composition, Uml::Visibility::Private);
bool hasOperationMethods = false;
UMLOperationList list = c->getOpList();
hasOperationMethods = ! list.isEmpty();
bool hasNamespace = false;
bool isEnumeration = false;
bool isInterface = parentIsInterface();
bool hasclassFields = hasClassFields();
bool forcedoc = UMLApp::app()->commonPolicy()->getCodeVerboseDocumentComments();
QString endLine = UMLApp::app()->commonPolicy()->getNewLineEndingChars();
UMLClassifierList superclasses = c->findSuperClassConcepts();
// START GENERATING CODE/TEXT BLOCKS and COMMENTS FOR THE DOCUMENT
//
// Write the hash define stuff to prevent multiple parsing/inclusion of header
QString cppClassName = CodeGenerator::cleanName(c->name());
QString hashDefine = CodeGenerator::cleanName(c->name().toUpper().simplified());
QString defText = QLatin1String("#ifndef ") + hashDefine + QLatin1String("_H") + endLine + QLatin1String("#define ") + hashDefine + QLatin1String("_H");
addOrUpdateTaggedCodeBlockWithComments(QLatin1String("hashDefBlock"), defText, QString(), 0, false);
// INCLUDE CODEBLOCK
//
// Q: Why all utils? Isnt just List and Vector the only classes we are using?
// A: doesn't matter at all; its more readable to just include '*' and cpp compilers
// don't slow down or anything. (TZ)
QString includeStatement;
bool stringGlobal = policy->stringIncludeIsGlobal();
QString sStartBrak = stringGlobal ? QLatin1String("<") : QLatin1String("\"");
QString sEndBrak = stringGlobal ? QLatin1String(">") : QLatin1String("\"");
includeStatement.append(QLatin1String("#include ") + sStartBrak + policy->getStringClassNameInclude() + sEndBrak + endLine);
if (hasObjectVectorClassFields())
{
bool vecGlobal = policy->vectorIncludeIsGlobal();
QString vStartBrak = vecGlobal ? QLatin1String("<") : QLatin1String("\"");
QString vEndBrak = vecGlobal ? QLatin1String(">") : QLatin1String("\"");
QString value =QLatin1String("#include ") + vStartBrak + policy->getVectorClassNameInclude() + vEndBrak;
includeStatement.append(value + endLine);
}
//only include classes in a different package from this class
UMLPackageList includes;
QMap<UMLPackage *, QString> packageMap; // so we don't repeat packages
CodeGenerator::findObjectsRelated(c, includes);
foreach(UMLPackage* con, includes) {
if (con->baseType() != UMLObject::ot_Datatype && !packageMap.contains(con)) {
packageMap.insert(con, con->package());
if(con != getParentClassifier())
includeStatement.append(QLatin1String("#include \"") + CodeGenerator::cleanName(con->name().toLower()) + QLatin1String(".h\"") + endLine);
}
}
// now, add/update the includes codeblock
CodeBlockWithComments * inclBlock = addOrUpdateTaggedCodeBlockWithComments(QLatin1String("includes"), includeStatement, QString(), 0, false);
if(includeStatement.isEmpty() && inclBlock->contentType() == CodeBlock::AutoGenerated)
inclBlock->setWriteOutText(false);
else
inclBlock->setWriteOutText(true);
// Using
QString usingStatement;
foreach(UMLClassifier* classifier, superclasses) {
if(classifier->package()!=c->package() && !classifier->package().isEmpty()) {
usingStatement.append(QLatin1String("using ") + CodeGenerator::cleanName(c->package()) + QLatin1String("::") + cleanName(c->name()) + QLatin1Char(';') + endLine);
}
}
CodeBlockWithComments * usingBlock = addOrUpdateTaggedCodeBlockWithComments(QLatin1String("using"), usingStatement, QString(), 0, false);
if(usingStatement.isEmpty() && usingBlock->contentType() == CodeBlock::AutoGenerated)
usingBlock->setWriteOutText(false);
else
usingBlock->setWriteOutText(true);
// namespace
// This needs special treatment. We cant use "nowriteouttext" for this, as
// that will prevent the class declaration from being written. Instead, we
// check if "hasNamspace" is true or not, and then indent the remaining code
// appropriately as well as set the start/end text of this namespace block.
if (c->umlPackage() && policy->getPackageIsNamespace())
hasNamespace = true;
else
hasNamespace = false;
// set start/end text of namespace block
m_namespaceBlock = getHierarchicalCodeBlock(QLatin1String("namespace"), QLatin1String("Namespace"), 0);
if(hasNamespace) {
UMLPackageList pkgList = c->packages();
QString pkgs;
UMLPackage *pkg;
foreach (pkg, pkgList) {
pkgs += QLatin1String("namespace ") + CodeGenerator::cleanName(pkg->name()) + QLatin1String(" { ");
}
m_namespaceBlock->setStartText(pkgs);
QString closingBraces;
foreach (pkg, pkgList) {
closingBraces += QLatin1String("} ");
}
/**
* update the start and end text for this ownedhierarchicalcodeblock.
*/
void JavaClassDeclarationBlock::updateContent ( )
{
JavaClassifierCodeDocument *parentDoc = dynamic_cast<JavaClassifierCodeDocument*>(getParentDocument());
UMLClassifier *c = parentDoc->getParentClassifier();
CodeGenerationPolicy *commonPolicy = UMLApp::app()->getCommonPolicy();
QString endLine = commonPolicy->getNewLineEndingChars();
bool isInterface = parentDoc->parentIsInterface(); // a little shortcut
QString JavaClassName = parentDoc->getJavaClassName(c->getName());
// COMMENT
if(isInterface)
getComment()->setText("Interface "+JavaClassName+endLine+c->getDoc());
else
getComment()->setText("Class "+JavaClassName+endLine+c->getDoc());
bool forceDoc = UMLApp::app()->getCommonPolicy()->getCodeVerboseDocumentComments();
if(forceDoc || !c->getDoc().isEmpty())
getComment()->setWriteOutText(true);
else
getComment()->setWriteOutText(false);
// Now set START/ENDING Text
QString startText = "";
// In Java, we need declare abstract only on classes
if (c->getAbstract() && !isInterface)
startText.append("abstract ");
if (c->getVisibility() != Uml::Visibility::Public) {
// We should probably emit a warning in here .. java doesn't like to allow
// private/protected classes. The best we can do (I believe)
// is to let these declarations default to "package visibility"
// which is a level between traditional "private" and "protected"
// scopes. To get this visibility level we just print nothing..
} else
startText.append("public ");
if(parentDoc->parentIsInterface())
startText.append("interface ");
else
startText.append("class ");
startText.append(JavaClassName);
// write inheritances out
UMLClassifierList superclasses =
c->findSuperClassConcepts(UMLClassifier::CLASS);
UMLClassifierList superinterfaces =
c->findSuperClassConcepts(UMLClassifier::INTERFACE);
int nrof_superclasses = superclasses.count();
int nrof_superinterfaces = superinterfaces.count();
// write out inheritance
int i = 0;
if(nrof_superclasses >0)
startText.append(" extends ");
for (UMLClassifier * concept= superclasses.first(); concept; concept = superclasses.next())
{
startText.append(parentDoc->cleanName(concept->getName()));
if(i != (nrof_superclasses-1))
startText.append(", ");
i++;
}
// write out what we 'implement'
i = 0;
if(nrof_superinterfaces >0)
{
// In Java interfaces "extend" other interfaces. Classes "implement" interfaces
if(isInterface)
startText.append(" extends ");
else
startText.append(" implements ");
}
for (UMLClassifier * concept= superinterfaces.first(); concept; concept = superinterfaces.next())
{
startText.append(parentDoc->cleanName(concept->getName()));
if(i != (nrof_superinterfaces-1))
startText.append(", ");
i++;
}
// Set the header and end text for the hier.codeblock
setStartText(startText+" {");
// setEndText("}"); // not needed
}
