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/******************************************************************************
*
*
*
* Copyright (C) 1997-2003 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.
*
*/
/*! \file
* This class represents a list of output generators that work in "parallel".
* The class only knows about the abstract base class OutputGenerators.
* All output is produced by calling a method of this class, which forwards
* the call to all output generators.
*/
#include "outputlist.h"
#include "outputgen.h"
#include "config.h"
#include "message.h"
#include "docparser.h"
OutputList::OutputList(bool)
{
//printf("OutputList::OutputList()\n");
outputs = new QList<OutputGenerator>;
outputs->setAutoDelete(TRUE);
}
//OutputList::OutputList(const OutputList *olist)
//{
// //printf("OutputList::OutputList() deep copy\n");
// outputs = new QList<OutputGenerator>;
// outputs->setAutoDelete(TRUE);
//
// QList<OutputGenerator> *ol=olist->outputs;
// OutputGenerator *og=ol->first();
// while (og)
// {
// OutputGenerator *ogc=og->copy();
// outputs->append(ogc);
// if (og->isEnabled()) ogc->enable(); else ogc->disable();
// og=ol->next();
// }
// //printf("OutputList::OutputList dst=%d res=%d\n",ol->count(),outputs->count());
//}
OutputList::~OutputList()
{
//printf("OutputList::~OutputList()\n");
delete outputs;
}
//OutputList &OutputList::operator=(const OutputList &olist)
//{
// if (this!=&olist)
// {
// QList<OutputGenerator> *ol=olist.outputs;
// OutputGenerator *ogsrc=ol->first();
// OutputGenerator *ogdst=outputs->first();
// //printf("OutputList::operator= src=%d dst=%d\n",outputs->count(),ol->count());
// while (ogdst)
// {
// ogdst=ogsrc->copy();
// ogsrc=ol->next();
// ogdst=outputs->next();
// }
// }
// return *this;
//}
void OutputList::add(const OutputGenerator *og)
{
if (og) outputs->append(og);
}
//HtmlGenerator *OutputList::getHtmlGenerator()
//{
// OutputGenerator *og=outputs->first();
// while (og)
// {
// if (og->get(OutputGenerator::Html)) return (HtmlGenerator *)og;
// og=outputs->next();
// }
// return 0; // should not happen!
//}
void OutputList::disableAllBut(OutputGenerator::OutputType o)
{
OutputGenerator *og=outputs->first();
while (og)
{
og->disableIfNot(o);
og=outputs->next();
}
}
void OutputList::enableAll()
{
OutputGenerator *og=outputs->first();
while (og)
{
og->enable();
og=outputs->next();
}
}
void OutputList::disableAll()
{
OutputGenerator *og=outputs->first();
while (og)
{
og->disable();
og=outputs->next();
}
}
void OutputList::disable(OutputGenerator::OutputType o)
{
OutputGenerator *og=outputs->first();
while (og)
{
og->disableIf(o);
og=outputs->next();
}
}
void OutputList::enable(OutputGenerator::OutputType o)
{
OutputGenerator *og=outputs->first();
while (og)
{
og->enableIf(o);
og=outputs->next();
}
}
bool OutputList::isEnabled(OutputGenerator::OutputType o)
{
bool result=FALSE;
OutputGenerator *og=outputs->first();
while (og)
{
result=result || og->isEnabled(o);
og=outputs->next();
}
return result;
}
//OutputList &OutputList::operator+=(const OutputList &outputList)
//{
// OutputList *ol=(OutputList *)&outputList;
// OutputGenerator *ogsrc=ol->outputs->first();
// OutputGenerator *ogdst=outputs->first();
// //printf("OutputList::operator+= src=%d dst=%d\n",outputs->count(),ol->outputs->count());
// while (ogdst && ogsrc)
// {
// ogdst->append(ogsrc);
// ogsrc=ol->outputs->next();
// ogdst=outputs->next();
// }
// return *this;
//}
void OutputList::pushGeneratorState()
{
OutputGenerator *og=outputs->first();
while (og)
{
og->pushGeneratorState();
og=outputs->next();
}
}
void OutputList::popGeneratorState()
{
OutputGenerator *og=outputs->first();
while (og)
{
og->popGeneratorState();
og=outputs->next();
}
}
void OutputList::parseDoc(const char *fileName,int startLine,
const char * clName,MemberDef * md,
const QCString &docStr,bool isExample,
const char *exampleName,SectionDict *sections)
{
int count=0;
if (docStr.isEmpty()) return;
OutputGenerator *og=outputs->first();
while (og)
{
if (og->isEnabled()) count++;
og=outputs->next();
}
if (count==0) return; // no output formats enabled.
DocNode *root=0;
if (docStr.at(docStr.length()-1)=='\n')
{
root = validatingParseDoc(fileName,startLine,
clName,md,docStr,isExample,exampleName,
sections);
}
else
{
root = validatingParseDoc(fileName,startLine,
clName,md,docStr+"\n",isExample,exampleName,
sections);
}
og=outputs->first();
while (og)
{
if (og->isEnabled()) og->printDoc(root);
og=outputs->next();
}
delete root;
}
void OutputList::parseText(const QCString &textStr)
{
int count=0;
OutputGenerator *og=outputs->first();
while (og)
{
if (og->isEnabled()) count++;
og=outputs->next();
}
if (count==0) return; // no output formats enabled.
DocNode *root = validatingParseText(textStr);
og=outputs->first();
while (og)
{
if (og->isEnabled()) og->printDoc(root);
og=outputs->next();
}
delete root;
}
//--------------------------------------------------------------------------
// Create some overloaded definitions of the forall function.
// Using template functions here would have made it a little less
// portable (I guess).
// zero arguments
void OutputList::forall(void (OutputGenerator::*func)())
{
OutputGenerator *og=outputs->first();
while (og)
{
if (og->isEnabled()) (og->*func)();
og=outputs->next();
}
}
// one argument
#define FORALL1(a1,p1) \
void OutputList::forall(void (OutputGenerator::*func)(a1),a1) \
{ \
OutputGenerator *og=outputs->first(); \
while (og) \
{ \
if (og->isEnabled()) (og->*func)(p1); \
og=outputs->next(); \
} \
}
// two arguments
#define FORALL2(a1,a2,p1,p2) \
void OutputList::forall(void (OutputGenerator::*func)(a1,a2),a1,a2) \
{ \
OutputGenerator *og=outputs->first(); \
while (og) \
{ \
if (og->isEnabled()) (og->*func)(p1,p2); \
og=outputs->next(); \
} \
}
// three arguments
#define FORALL3(a1,a2,a3,p1,p2,p3) \
void OutputList::forall(void (OutputGenerator::*func)(a1,a2,a3),a1,a2,a3) \
{ \
OutputGenerator *og=outputs->first(); \
while (og) \
{ \
if (og->isEnabled()) (og->*func)(p1,p2,p3); \
og=outputs->next(); \
} \
}
// four arguments
#define FORALL4(a1,a2,a3,a4,p1,p2,p3,p4) \
void OutputList::forall(void (OutputGenerator::*func)(a1,a2,a3,a4),a1,a2,a3,a4) \
{ \
OutputGenerator *og=outputs->first(); \
while (og) \
{ \
if (og->isEnabled()) (og->*func)(p1,p2,p3,p4); \
og=outputs->next(); \
} \
}
// now instantiate only the ones we need.
FORALL1(const char *a1,a1)
FORALL1(char a1,a1)
FORALL1(int a1,a1)
FORALL1(DotClassGraph &a1,a1)
FORALL1(DotInclDepGraph &a1,a1)
FORALL1(DotCallGraph &a1,a1)
FORALL1(DotGfxHierarchyTable &a1,a1)
FORALL1(SectionTypes a1,a1)
#if defined(HAS_BOOL_TYPE) || defined(Q_HAS_BOOL_TYPE)
FORALL1(bool a1,a1)
FORALL2(bool a1,int a2,a1,a2)
FORALL2(bool a1,bool a2,a1,a2)
FORALL4(const char *a1,const char *a2,const char *a3,bool a4,a1,a2,a3,a4)
#endif
FORALL2(int a1,bool a2,a1,a2)
FORALL2(ParamListTypes a1,const char *a2,a1,a2)
FORALL1(IndexSections a1,a1)
FORALL2(const char *a1,const char *a2,a1,a2)
FORALL2(const char *a1,bool a2,a1,a2)
FORALL2(const char *a1,SectionInfo::SectionType a2,a1,a2)
FORALL3(ClassDiagram &a1,const char *a2,const char *a3,a1,a2,a3)
FORALL3(const char *a1,const char *a2,const char *a3,a1,a2,a3)
FORALL3(const char *a1,const char *a2,bool a3,a1,a2,a3)
FORALL3(const char *a1,const char *a2,SectionInfo::SectionType a3,a1,a2,a3)
FORALL3(uchar a1,uchar a2,uchar a3,a1,a2,a3)
FORALL4(SectionTypes a1,const char *a2,const char *a3,const char *a4,a1,a2,a3,a4)
FORALL4(const char *a1,const char *a2,const char *a3,const char *a4,a1,a2,a3,a4)
FORALL4(const char *a1,const char *a2,const char *a3,int a4,a1,a2,a3,a4)
//--------------------------------------------------------------------------
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