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/******************************************************************************
*
*
*
* Copyright (C) 1997-2012 by Dimitri van Heesch.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation under the terms of the GNU General Public License is hereby
* granted. No representations are made about the suitability of this software
* for any purpose. It is provided "as is" without express or implied warranty.
* See the GNU General Public License for more details.
*
* Documents produced by Doxygen are derivative works derived from the
* input used in their production; they are not affected by this license.
*
*/
#include "classlist.h"
#include "config.h"
#include "util.h"
#include "outputlist.h"
#include "language.h"
#include "doxygen.h"
#include "vhdldocgen.h"
#include "defargs.h"
#include "arguments.h"
ClassList::ClassList() : QList<ClassDef>()
{
}
ClassList::~ClassList()
{
}
static int compItems(void *item1,void *item2)
{
ClassDef *c1=(ClassDef *)item1;
ClassDef *c2=(ClassDef *)item2;
static bool b = Config_getBool("SORT_BY_SCOPE_NAME");
//printf("compItems: %d %s<->%s\n",b,c1->name().data(),c2->name().data());
if (b)
{
return stricmp(c1->name(),
c2->name());
}
else
{
return stricmp(c1->className(),
c2->className());
}
}
int ClassList::compareItems(QCollection::Item item1, QCollection::Item item2)
{
return compItems(item1,item2);
}
int ClassSDict::compareItems(QCollection::Item item1, QCollection::Item item2)
{
return compItems(item1,item2);
}
ClassListIterator::ClassListIterator(const ClassList &cllist) :
QListIterator<ClassDef>(cllist)
{
}
bool ClassSDict::declVisible(const ClassDef::CompoundType *filter) const
{
static bool hideUndocClasses = Config_getBool("HIDE_UNDOC_CLASSES");
static bool extractLocalClasses = Config_getBool("EXTRACT_LOCAL_CLASSES");
if (count()>0)
{
ClassSDict::Iterator sdi(*this);
ClassDef *cd=0;
for (sdi.toFirst();(cd=sdi.current());++sdi)
{
if (cd->name().find('@')==-1 &&
(filter==0 || *filter==cd->compoundType())
)
{
bool isLink = cd->isLinkable();
if (isLink ||
(!hideUndocClasses &&
(!cd->isLocal() || extractLocalClasses)
)
)
{
return TRUE;
}
}
}
}
return FALSE;
}
void ClassSDict::writeDeclaration(OutputList &ol,const ClassDef::CompoundType *filter,
const char *header,bool localNames)
{
static bool extractPrivate = Config_getBool("EXTRACT_PRIVATE");
if (count()>0)
{
ClassSDict::Iterator sdi(*this);
ClassDef *cd=0;
bool found=FALSE;
for (sdi.toFirst();(cd=sdi.current());++sdi)
{
//printf(" ClassSDict::writeDeclaration for %s\n",cd->name().data());
if (cd->name().find('@')==-1 &&
!cd->isExtension() &&
(cd->protection()!=Private || extractPrivate) &&
(filter==0 || *filter==cd->compoundType())
)
{
cd->writeDeclarationLink(ol,found,header,localNames);
}
}
if (found) ol.endMemberList();
}
}
void ClassSDict::writeDocumentation(OutputList &ol,Definition * container)
{
static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN");
static bool inlineGroupedClasses = Config_getBool("INLINE_GROUPED_CLASSES");
static bool inlineSimpleClasses = Config_getBool("INLINE_SIMPLE_STRUCTS");
if (!inlineGroupedClasses && !inlineSimpleClasses) return;
if (count()>0)
{
bool found=FALSE;
ClassSDict::Iterator sdi(*this);
ClassDef *cd=0;
for (sdi.toFirst();(cd=sdi.current());++sdi)
{
//printf("%s:writeDocumentation() %p embedded=%d container=%p\n",
// cd->name().data(),cd->getOuterScope(),cd->isEmbeddedInOuterScope(),
// container);
if (cd->name().find('@')==-1 &&
cd->isLinkableInProject() &&
cd->isEmbeddedInOuterScope() &&
(container==0 || cd->partOfGroups()==0) // if container==0 -> show as part of the group docs, otherwise only show if not part of a group
//&&
//(container==0 || // no container -> used for groups
// cd->getOuterScope()==container || // correct container -> used for namespaces and classes
// (container->definitionType()==Definition::TypeFile && cd->getOuterScope()==Doxygen::globalScope && cd->partOfGroups()==0) // non grouped class with file scope -> used for files
//)
)
{
if (!found)
{
ol.writeRuler();
ol.startGroupHeader();
ol.parseText(fortranOpt?theTranslator->trTypeDocumentation():
theTranslator->trClassDocumentation());
ol.endGroupHeader();
found=TRUE;
}
cd->writeInlineDocumentation(ol);
}
}
}
}
//-------------------------------------------
void GenericsSDict::insert(const QCString &key,ClassDef *cd)
{
int i=key.find('<');
if (i==-1) return;
ArgumentList argList;
stringToArgumentList(key.mid(i),&argList);
int c = argList.count();
if (c==0) return;
GenericsCollection *collection = m_dict.find(key.left(i));
if (collection==0) // new name
{
collection = new GenericsCollection;
m_dict.append(key.left(i),collection);
}
if (collection->find(c)==0) // should always be 0!
{
collection->insert(c,cd);
}
}
ClassDef *GenericsSDict::find(const QCString &key)
{
int i=key.find('<');
if (i==-1)
{
GenericsCollection *collection = m_dict.find(key);
if (collection && collection->count()==1)
{
QIntDictIterator<ClassDef> it(*collection);
return it.current();
}
}
else
{
GenericsCollection *collection = m_dict.find(key.left(i));
if (collection)
{
ArgumentList argList;
stringToArgumentList(key.mid(i),&argList);
int c = argList.count();
return collection->find(c);
}
}
return 0;
}
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