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|
/*****************************************************************************
*
*
*
* Copyright (C) 1997-2004 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 <stdlib.h>
#include <ctype.h>
#if defined(_WIN32) && !defined(__CYGWIN__)
#include <windows.h>
#endif
#include "qtbc.h"
#include <qregexp.h>
#include <qfileinfo.h>
#include <qdir.h>
#include <qdatetime.h>
#include <qcache.h>
#include "util.h"
#include "message.h"
#include "classdef.h"
#include "filedef.h"
#include "doxygen.h"
#include "outputlist.h"
#include "defargs.h"
#include "language.h"
#include "config.h"
#include "htmlhelp.h"
#include "example.h"
#include "version.h"
#include "groupdef.h"
#include "reflist.h"
#include "pagedef.h"
#if !defined(_WIN32) || defined(__CYGWIN__)
#include <unistd.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <errno.h>
extern char **environ;
#endif
#if defined(_MSC_VER) || defined(__BORLANDC__)
#define popen _popen
#define pclose _pclose
#endif
//------------------------------------------------------------------------
struct LookupInfo
{
LookupInfo(ClassDef *cd=0,MemberDef *td=0,QCString ts="")
: classDef(cd), typeDef(td), templSpec(ts) {}
ClassDef *classDef;
MemberDef *typeDef;
QCString templSpec;
};
static QCache<LookupInfo> g_lookupCache(20000,20000);
// object that automatically initializes the cache at startup
class CacheInitializer
{
public:
CacheInitializer() { g_lookupCache.setAutoDelete(TRUE); }
} g_cacheInitializer;
//------------------------------------------------------------------------
// TextGeneratorOLImpl implementation
//------------------------------------------------------------------------
TextGeneratorOLImpl::TextGeneratorOLImpl(OutputDocInterface &od) : m_od(od)
{
}
void TextGeneratorOLImpl::writeString(const char *s,bool keepSpaces) const
{
if (keepSpaces)
{
const char *p=s;
if (p)
{
char cs[2];
char c;
cs[1]='\0';
while ((c=*p++))
{
if (c==' ') m_od.writeNonBreakableSpace(1);
else cs[0]=c,m_od.docify(cs);
}
}
}
else
{
m_od.docify(s);
}
}
void TextGeneratorOLImpl::writeBreak() const
{
m_od.pushGeneratorState();
m_od.disableAllBut(OutputGenerator::Html);
m_od.lineBreak();
m_od.popGeneratorState();
}
void TextGeneratorOLImpl::writeLink(const char *extRef,const char *file,
const char *anchor,const char *text
) const
{
m_od.writeObjectLink(extRef,file,anchor,text);
}
//------------------------------------------------------------------------
//------------------------------------------------------------------------
/*! Implements an interruptable system call on Unix/Windows */
int iSystem(const char *command,const char *args,bool isBatchFile)
{
QTime time;
time.start();
#if !defined(_WIN32) || defined(__CYGWIN__)
isBatchFile=isBatchFile;
/*! taken from the system() manpage on my Linux box */
int pid,status=0;
if (command==0) return 1;
#ifdef _OS_SOLARIS // for Solaris we use vfork since it is more memory efficient
// on Solaris fork() duplicates the memory usage
// so we use vfork instead
char buf[4096];
strcpy(buf,command);
strcat(buf," ");
strcat(buf,args);
// spawn shell
if ((pid=vfork())<0)
{
status=-1;
}
else if (pid==0)
{
execl("/bin/sh","sh","-c",buf,(char*)0);
_exit(127);
}
else
{
while (waitpid(pid,&status,0 )<0)
{
if (errno!=EINTR)
{
status=-1;
break;
}
}
}
Doxygen::sysElapsedTime+=((double)time.elapsed())/1000.0;
return status;
#else // Other Unices just use fork
pid = fork();
if (pid==-1) return -1;
if (pid==0)
{
char buf[4096];
strcpy(buf,command);
strcat(buf," ");
strcat(buf,args);
const char * argv[4];
argv[0] = "sh";
argv[1] = "-c";
argv[2] = buf;
argv[3] = 0;
execve("/bin/sh",(char * const *)argv,environ);
exit(127);
}
for (;;)
{
if (waitpid(pid,&status,0)==-1)
{
if (errno!=EINTR) return -1;
}
else
{
Doxygen::sysElapsedTime+=((double)time.elapsed())/1000.0;
return status;
}
}
#endif // _OS_SOLARIS
#else // Win32 specific
if (isBatchFile)
{
QCString fullCmd = command;
fullCmd += " ";
fullCmd += args;
return system(fullCmd);
}
else
{
SHELLEXECUTEINFO sInfo = {
sizeof(SHELLEXECUTEINFO), /* structure size */
SEE_MASK_NOCLOSEPROCESS, /* leave the process running */
NULL, /* window handle */
NULL, /* action to perform: open */
command, /* file to execute */
args, /* argument list */
NULL, /* use current working dir */
SW_HIDE, /* minimize on start-up */
0, /* application instance handle */
NULL, /* ignored: id list */
NULL, /* ignored: class name */
NULL, /* ignored: key class */
0, /* ignored: hot key */
NULL, /* ignored: icon */
NULL /* resulting application handle */
};
if (!ShellExecuteEx(&sInfo))
{
return -1;
}
else if (sInfo.hProcess) /* executable was launched, wait for it to finish */
{
WaitForSingleObject(sInfo.hProcess,INFINITE);
CloseHandle(sInfo.hProcess);
}
}
Doxygen::sysElapsedTime+=((double)time.elapsed())/1000.0;
return 0;
#endif
}
// an inheritance tree of depth of 100000 should be enough for everyone :-)
const int maxInheritanceDepth = 100000;
bool isId(char c)
{
return c=='_' || isalnum(c);
}
/*!
Removes all anoymous scopes from string s
Possible examples:
\verbatim
"bla::@10::blep" => "bla::blep"
"bla::@10::@11::blep" => "bla::blep"
"@10::blep" => "blep"
" @10::blep" => "blep"
"@9::@10::blep" => "blep"
"bla::@1" => "bla"
"bla::@1::@2" => "bla"
"bla @1" => "bla"
\endverbatim
*/
QCString removeAnonymousScopes(const QCString &s)
{
QCString result;
if (s.isEmpty()) return result;
static QRegExp re("[ :]*@[0-9]+[: ]*");
int i,l,sl=s.length();
int p=0;
while ((i=re.match(s,p,&l))!=-1)
{
result+=s.mid(p,i-p);
int c=i;
bool b1=FALSE,b2=FALSE;
while (c<i+l && s.at(c)!='@') if (s.at(c++)==':') b1=TRUE;
c=i+l-1;
while (c>=i && s.at(c)!='@') if (s.at(c--)==':') b2=TRUE;
if (b1 && b2)
{
result+="::";
}
p=i+l;
}
result+=s.right(sl-p);
//printf("removeAnonymousScopes(`%s')=`%s'\n",s.data(),result.data());
return result;
}
// replace anonymous scopes with __anonymous__
QCString replaceAnonymousScopes(const QCString &s)
{
QCString result;
if (s.isEmpty()) return result;
static QRegExp re("@[0-9]+");
int i,l,sl=s.length();
int p=0;
while ((i=re.match(s,p,&l))!=-1)
{
result+=s.mid(p,i-p);
result+="__anonymous__";
p=i+l;
}
result+=s.right(sl-p);
//printf("replaceAnonymousScopes(`%s')=`%s'\n",s.data(),result.data());
return result;
}
// strip annonymous left hand side part of the scope
QCString stripAnonymousNamespaceScope(const QCString &s)
{
#if 0
int oi=0,i=0,p=0;
p=s.find('@');
if (p==-1) return s;
while (s.at(p)=='@' && (i=s.find("::@",p))!=-1 &&
Doxygen::namespaceDict[s.left(i)]!=0) { oi=i; p=i+2; }
if (oi==0)
{
//printf("stripAnonymousNamespaceScope(`%s')=`%s'\n",s.data(),s.data());
return s;
}
else
{
//printf("stripAnonymousNamespaceScope(`%s')=`%s'\n",s.data(),s.right(s.length()-oi-2).data());
return s.right(s.length()-oi-2);
}
#endif
int i,p=0,l;
QCString newScope;
while ((i=getScopeFragment(s,p,&l))!=-1)
{
//printf("Scope fragment %s\n",s.mid(i,l).data());
if (Doxygen::namespaceSDict[s.left(i+l)]!=0)
{
if (s.at(i)!='@')
{
if (!newScope.isEmpty()) newScope+="::";
newScope+=s.mid(i,l);
}
}
else
{
if (!newScope.isEmpty()) newScope+="::";
newScope+=s.right(s.length()-i);
goto done;
}
p=i+l;
}
done:
//printf("stripAnonymousNamespaceScope(`%s')=`%s'\n",s.data(),newScope.data());
return newScope;
}
void writePageRef(OutputDocInterface &od,const char *cn,const char *mn)
{
od.pushGeneratorState();
od.disable(OutputGenerator::Html);
od.disable(OutputGenerator::Man);
if (Config_getBool("PDF_HYPERLINKS")) od.disable(OutputGenerator::Latex);
if (Config_getBool("RTF_HYPERLINKS")) od.disable(OutputGenerator::RTF);
od.startPageRef();
od.docify(theTranslator->trPageAbbreviation());
od.endPageRef(cn,mn);
od.popGeneratorState();
}
/*! Generate a place holder for a position in a list. Used for
* translators to be able to specify different elements orders
* depending on whether text flows from left to right or visa versa.
*/
QCString generateMarker(int id)
{
QCString result;
result.sprintf("@%d",id);
return result;
}
static QCString stripFromPath(const QCString &path,QStrList &l)
{
const char *s=l.first();
while (s)
{
QCString prefix = s;
if (stricmp(path.left(prefix.length()),prefix)==0) // case insensitive compare
{
return path.right(path.length()-prefix.length());
}
s = l.next();
}
return path;
}
/*! strip part of \a path if it matches
* one of the paths in the Config_getList("STRIP_FROM_PATH") list
*/
QCString stripFromPath(const QCString &path)
{
return stripFromPath(path,Config_getList("STRIP_FROM_PATH"));
}
/*! strip part of \a path if it matches
* one of the paths in the Config_getList("INCLUDE_PATH") list
*/
QCString stripFromIncludePath(const QCString &path)
{
return stripFromPath(path,Config_getList("STRIP_FROM_INC_PATH"));
}
/*! try to determine if \a name is a source or a header file name by looking
* at the extension. A number of variations is allowed in both upper and
* lower case) If anyone knows or uses another extension please let me know :-)
*/
int guessSection(const char *name)
{
QCString n=((QCString)name).lower();
if (n.right(2)==".c" || // source
n.right(3)==".cc" ||
n.right(4)==".cxx" ||
n.right(4)==".cpp" ||
n.right(4)==".c++" ||
n.right(5)==".java" ||
n.right(3)==".ii" || // inline
n.right(4)==".ixx" ||
n.right(4)==".ipp" ||
n.right(4)==".i++" ||
n.right(4)==".inl"
) return Entry::SOURCE_SEC;
if (n.right(2)==".h" || // header
n.right(3)==".hh" ||
n.right(4)==".hxx" ||
n.right(4)==".hpp" ||
n.right(4)==".h++" ||
n.right(4)==".idl" ||
n.right(5)==".pidl"
) return Entry::HEADER_SEC;
return 0;
}
QCString resolveTypeDef(Definition *context,const QCString &qualifiedName,
Definition **typedefContext)
{
//printf("<<resolveTypeDef(%s,%s)\n",
// context ? context->name().data() : "<none>",qualifiedName.data());
QCString result;
if (qualifiedName.isEmpty()) return result;
Definition *mContext=context;
if (typedefContext) *typedefContext=context;
// see if the qualified name has a scope part
int scopeIndex = qualifiedName.findRev("::");
QCString resName=qualifiedName;
if (scopeIndex!=-1) // strip scope part for the name
{
resName=qualifiedName.right(qualifiedName.length()-scopeIndex-2);
}
MemberDef *md=0;
while (mContext && md==0)
{
// step 1: get the right scope
Definition *resScope=mContext;
if (scopeIndex!=-1)
{
// split-off scope part
QCString resScopeName = qualifiedName.left(scopeIndex);
//printf("resScopeName=`%s'\n",resScopeName.data());
// look-up scope in context
int is,ps=0;
int l;
while ((is=getScopeFragment(resScopeName,ps,&l))!=-1)
{
QCString qualScopePart = resScopeName.mid(is,l);
QCString tmp = resolveTypeDef(mContext,qualScopePart);
if (!tmp.isEmpty()) qualScopePart=tmp;
resScope = resScope->findInnerCompound(qualScopePart);
//printf("qualScopePart=`%s' resScope=%p\n",qualScopePart.data(),resScope);
if (resScope==0) break;
ps=is+l;
}
}
//printf("resScope=%s\n",resScope?resScope->name().data():"<none>");
// step 2: get the member
if (resScope) // no scope or scope found in the current context
{
//printf("scope found: %s, look for typedef %s\n",
// resScope->qualifiedName().data(),resName.data());
MemberNameSDict *mnd=0;
if (resScope->definitionType()==Definition::TypeClass)
{
mnd=&Doxygen::memberNameSDict;
}
else
{
mnd=&Doxygen::functionNameSDict;
}
MemberName *mn=mnd->find(resName);
if (mn)
{
MemberNameIterator mni(*mn);
MemberDef *tmd=0;
for (;(tmd=mni.current());++mni)
{
//printf("Found member %s resScope=%s outerScope=%s mContext=%p\n",
// tmd->name().data(), resScope->name().data(),
// tmd->getOuterScope()->name().data(), mContext);
if (tmd->isTypedef() /*&& tmd->getOuterScope()==resScope*/)
{
// look if resScope is visible within tmd->getOuterScope()
Definition *d = tmd->getOuterScope();
while (d && d!=resScope) d=d->getOuterScope();
if (d)
{
md=tmd;
}
}
}
}
}
mContext=mContext->getOuterScope();
}
// step 3: get the member's type
if (md)
{
//printf(">>resolveTypeDef: Found typedef name `%s' in scope `%s' value=`%s'\n",
// qualifiedName.data(),context->name().data(),md->typeString()
// );
result=md->typeString();
if (typedefContext) *typedefContext=md->getOuterScope();
}
else
{
//printf(">>resolveTypeDef: Typedef `%s' not found in scope `%s'!\n",
// qualifiedName.data(),context ? context->name().data() : "<global>");
}
return result;
}
/*! Get a class definition given its name.
* Returns 0 if the class is not found.
*/
ClassDef *getClass(const char *name)
{
if (name==0 || name[0]=='\0') return 0;
return Doxygen::classSDict.find(name);
}
NamespaceDef *getResolvedNamespace(const char *name)
{
if (name==0 || name[0]=='\0') return 0;
QCString *subst = Doxygen::namespaceAliasDict[name];
if (subst)
{
int count=0; // recursion detection guard
QCString *newSubst;
while ((newSubst=Doxygen::namespaceAliasDict[*subst]) && count<10)
{
subst=newSubst;
count++;
}
if (count==10)
{
warn_cont("Warning: possible recursive namespace alias detected for %s!\n",name);
}
return Doxygen::namespaceSDict[subst->data()];
}
else
{
return Doxygen::namespaceSDict[name];
}
}
static QDict<MemberDef> g_resolvedTypedefs;
static QDict<Definition> g_visitedNamespaces;
// forward declaration
ClassDef *getResolvedClassRec(Definition *scope,
FileDef *fileScope,
const char *n,
MemberDef **pTypeDef,
QCString *pTemplSpec
);
int isAccessibleFromWithExpScope(Definition *scope,FileDef *fileScope,Definition *item,
const QCString &explicitScopePart);
/*! Returns the class representing the value of the typedef represented by \a md
* within file \a fileScope.
*
* Example: typedef A T; will return the class representing A if it is a class.
*
* Example: typedef int T; will return 0, since "int" is not a class.
*/
ClassDef *newResolveTypedef(FileDef *fileScope,MemberDef *md,QCString *pTemplSpec)
{
//printf("newResolveTypedef(md=%p,cachedVal=%p)\n",md,md->getCachedTypedefVal());
bool isCached = md->isTypedefValCached(); // value already cached
if (isCached)
{
return md->getCachedTypedefVal();
}
QCString qname = md->qualifiedName();
if (g_resolvedTypedefs.find(qname)) return 0; // typedef already done
g_resolvedTypedefs.insert(qname,md); // put on the trace list
QCString type = md->typeString(); // get the "value" of the typedef
int ip=type.length()-1; // remove * and & at the end
while (ip>=0 && (type.at(ip)=='*' || type.at(ip)=='&' || type.at(ip)==' '))
{
ip--;
}
type=type.left(ip+1);
if (type.left(6)=="const ") // strip leading "const"
{
type=type.mid(6);
}
if (type.left(7)=="struct ") // strip leading "struct"
{
}
else if (type.left(6)=="union ") // or strip leading "union"
{
}
type=type.stripWhiteSpace(); // strip leading and trailing whitespace
ClassDef *result = getResolvedClassRec(md->getOuterScope(),fileScope,type,0,0);
//printf("type=%s result=%p\n",type.data(),result);
if (result==0)
{
// try unspecialized version if type is template
int i=type.find('<');
if (i!=-1) // typedef of a template => try the unspecialized version
{
*pTemplSpec = type.mid(i);
result = getResolvedClassRec(md->getOuterScope(),fileScope,type.left(i),0,0);
}
}
// remember computed value for next time
if (result && result->getDefFileName()!="<code>")
// this check is needed to prevent that temporary classes that are
// introduced while parsing code fragments are being cached here.
{
//printf("setting cached typedef %p in result %p\n",md,result);
//printf("==> %s (%s,%d)\n",result->name().data(),result->getDefFileName().data(),result->getDefLine());
md->cacheTypedefVal(result);
}
g_resolvedTypedefs.remove(qname); // remove from the trace list
return result;
}
/*! Substitutes a simple unqualified \a name within \a scope. Returns the
* value of the typedef or \a name if no typedef was found.
*/
QCString substTypedef(Definition *scope,FileDef *fileScope,const QCString &name)
{
QCString result=name;
if (name.isEmpty()) return result;
// lookup scope fragment in the symbol map
DefinitionList *dl = Doxygen::symbolMap->find(name);
if (dl==0) return result; // no matches
// search for the best match
DefinitionListIterator dli(*dl);
Definition *d;
int minDistance=10000; // init at "infinite"
MemberDef *bestMatch=0;
for (dli.toFirst();(d=dli.current());++dli) // foreach definition
{
// only look at members
if (d->definitionType()==Definition::TypeMember)
{
// that are also typedefs
MemberDef *md = (MemberDef *)d;
if (md->isTypedef()) // d is a typedef
{
// test accessibility of typedef within scope.
int distance = isAccessibleFromWithExpScope(scope,fileScope,d,"");
if (distance!=-1 && distance<minDistance)
// definition is accessible and a better match
{
minDistance=distance;
bestMatch = md;
}
}
}
}
if (bestMatch) result = bestMatch->typeString();
//printf("substTypedef(%s,%s)=%s\n",scope?scope->name().data():"<global>",
// name.data(),result.data());
return result;
}
/*! Starting with scope \a start, the string \a path is interpreted as
* a part of a qualified scope name (e.g. A::B::C), and the scope is
* searched. If found the scope definition is returned, otherwise 0
* is returned.
*/
static Definition *followPath(Definition *start,FileDef *fileScope,const QCString &path)
{
int is,ps=0;
int l;
Definition *current=start;
// for each part of the explicit scope
while ((is=getScopeFragment(path,ps,&l))!=-1)
{
// try to resolve the part if it is a typedef
QCString qualScopePart = substTypedef(current,fileScope,path.mid(is,l));
current = current->findInnerCompound(qualScopePart);
if (current==0) break; // failed to follow the path
ps=is+l;
}
return current; // path could be followed
}
bool accessibleViaUsingClass(const SDict<Definition> *cl,
FileDef *fileScope,
Definition *item,
const QCString &explicitScopePart=""
)
{
if (cl) // see if the class was imported via a using statement
{
SDict<Definition>::Iterator cli(*cl);
Definition *ucd;
bool explicitScopePartEmpty = explicitScopePart.isEmpty();
for (cli.toFirst();(ucd=cli.current());++cli)
{
//printf("Trying via used class %s\n",ucd->name().data());
Definition *sc = explicitScopePartEmpty ? ucd : followPath(ucd,fileScope,explicitScopePart);
if (sc && sc==item) return TRUE;
//printf("Try via used class done\n");
}
}
return FALSE;
}
bool accessibleViaUsingNamespace(const NamespaceSDict *nl,
FileDef *fileScope,
Definition *item,
const QCString &explicitScopePart="")
{
if (nl) // check used namespaces for the class
{
NamespaceSDict::Iterator nli(*nl);
NamespaceDef *und;
for (nli.toFirst();(und=nli.current());++nli)
{
//printf("Trying via used namespace %s\n",und->name().data());
Definition *sc = explicitScopePart.isEmpty() ? und : followPath(und,fileScope,explicitScopePart);
if (sc && item->getOuterScope()==sc) return TRUE;
//printf("Try via used namespace done\n");
}
}
return FALSE;
}
/* Returns the "distance" (=number of levels up) from item to scope, or -1
* if item in not inside scope.
*/
int isAccessibleFrom(Definition *scope,FileDef *fileScope,Definition *item)
{
//fprintf(stderr,"<isAccesibleFrom(scope=%s,item=%s itemScope=%s)\n",
// scope->name().data(),item->name().data(),item->getOuterScope()->name().data());
int result=0; // assume we found it
int i;
if (item->getOuterScope()==scope)
{
//fprintf(stderr,"> found it\n");
}
else if (scope==Doxygen::globalScope)
{
if (fileScope)
{
SDict<Definition> *cl = fileScope->getUsedClasses();
if (accessibleViaUsingClass(cl,fileScope,item))
{
//fprintf(stderr,"> found via used class\n");
goto done;
}
NamespaceSDict *nl = fileScope->getUsedNamespaces();
if (accessibleViaUsingNamespace(nl,fileScope,item))
{
//fprintf(stderr,"> found via used namespace\n");
goto done;
}
}
//fprintf(stderr,"> reached global scope\n");
result=-1; // not found in path to globalScope
}
else // keep searching
{
// check if scope is a namespace, which is using other classes and namespaces
if (scope->definitionType()==Definition::TypeNamespace)
{
NamespaceDef *nscope = (NamespaceDef*)scope;
SDict<Definition> *cl = nscope->getUsedClasses();
if (accessibleViaUsingClass(cl,fileScope,item))
{
//fprintf(stderr,"> found via used class\n");
goto done;
}
NamespaceSDict *nl = nscope->getUsedNamespaces();
if (accessibleViaUsingNamespace(nl,fileScope,item))
{
//fprintf(stderr,"> found via used namespace\n");
goto done;
}
}
// repeat for the parent scope
i=isAccessibleFrom(scope->getOuterScope(),fileScope,item);
//fprintf(stderr,"> result=%d\n",i);
result= (i==-1) ? -1 : i+1;
}
done:
//g_lookupCache.insert(key,new int(result));
return result;
}
/* Returns the "distance" (=number of levels up) from item to scope, or -1
* if item in not in this scope. The explicitScopePart limits the search
* to scopes that match \a scope plus the explicit part.
*/
int isAccessibleFromWithExpScope(Definition *scope,FileDef *fileScope,Definition *item,
const QCString &explicitScopePart)
{
if (explicitScopePart.isEmpty())
{
// handle degenerate case where there is no explicit scope.
return isAccessibleFrom(scope,fileScope,item);
}
//printf("<isAccessibleFromWithExpScope(%s,%s,%s)\n",scope?scope->name().data():"<global>",
// item?item->name().data():"<none>",
// explicitScopePart.data());
int result=0; // assume we found it
Definition *newScope = followPath(scope,fileScope,explicitScopePart);
if (newScope) // explicitScope is inside scope => newScope is the result
{
//printf("scope traversal successful %s<->%s!\n",item->getOuterScope()->name().data(),newScope->name().data());
if (item->getOuterScope()==newScope)
{
//printf("> found it\n");
}
else
{
int i=-1;
if (newScope->definitionType()==Definition::TypeNamespace)
{
g_visitedNamespaces.insert(newScope->name(),newScope);
// this part deals with the case where item is a class
// A::B::C but is explicit referenced as A::C, where B is imported
// in A via a using directive.
//printf("newScope is a namespace: %s!\n",newScope->name().data());
NamespaceDef *nscope = (NamespaceDef*)newScope;
SDict<Definition> *cl = nscope->getUsedClasses();
if (cl)
{
SDict<Definition>::Iterator cli(*cl);
Definition *cd;
for (cli.toFirst();(cd=cli.current());++cli)
{
i = isAccessibleFromWithExpScope(scope,fileScope,item,cd->name());
if (i!=-1)
{
//printf("> found via explicit scope of used class\n");
goto done;
}
}
}
NamespaceSDict *nl = nscope->getUsedNamespaces();
if (nl)
{
NamespaceSDict::Iterator nli(*nl);
NamespaceDef *nd;
for (nli.toFirst();(nd=nli.current());++nli)
{
if (g_visitedNamespaces.find(nd->name())==0)
{
i = isAccessibleFromWithExpScope(scope,fileScope,item,nd->name());
if (i!=-1)
{
//printf("> found via explicit scope of used namespace\n");
goto done;
}
}
}
}
}
// repeat for the parent scope
if (scope!=Doxygen::globalScope)
{
i = isAccessibleFromWithExpScope(scope->getOuterScope(),fileScope,
item,explicitScopePart);
}
//printf("> result=%d\n",i);
result = (i==-1) ? -1 : i+1;
}
}
else // failed to resolve explicitScope
{
//printf("failed to resolve: scope=%s\n",scope->name().data());
if (scope->definitionType()==Definition::TypeNamespace)
{
NamespaceDef *nscope = (NamespaceDef*)scope;
SDict<Definition> *cl = nscope->getUsedClasses();
if (accessibleViaUsingClass(cl,fileScope,item,explicitScopePart))
{
//printf("> found in used class\n");
goto done;
}
NamespaceSDict *nl = nscope->getUsedNamespaces();
if (accessibleViaUsingNamespace(nl,fileScope,item,explicitScopePart))
{
//printf("> found in used namespace\n");
goto done;
}
}
if (scope==Doxygen::globalScope)
{
if (fileScope)
{
SDict<Definition> *cl = fileScope->getUsedClasses();
if (accessibleViaUsingClass(cl,fileScope,item,explicitScopePart))
{
//printf("> found in used class\n");
goto done;
}
NamespaceSDict *nl = fileScope->getUsedNamespaces();
if (accessibleViaUsingNamespace(nl,fileScope,item,explicitScopePart))
{
//printf("> found in used namespace\n");
goto done;
}
}
//printf("> not found\n");
result=-1;
}
else // continue by looking into the parent scope
{
int i=isAccessibleFromWithExpScope(scope->getOuterScope(),fileScope,
item,explicitScopePart);
//printf("> result=%d\n",i);
result= (i==-1) ? -1 : i+1;
}
}
done:
//g_lookupCache.insert(key,new int(result));
return result;
}
int computeQualifiedIndex(const QString &name)
{
int i = name.find('<');
return name.findRev("::",i==-1 ? name.length() : i);
}
/* Find the fully qualified class name refered to by the input class
* or typedef name against the input scope.
* Loops through scope and each of its parent scopes looking for a
* match against the input name. Can recursively call itself when
* resolving typedefs.
*/
ClassDef *getResolvedClassRec(Definition *scope,
FileDef *fileScope,
const char *n,
MemberDef **pTypeDef,
QCString *pTemplSpec
)
{
//printf("[getResolvedClassRec(%s,%s)\n",scope?scope->name().data():"<global>",n);
QCString name=n;
QCString explicitScopePart;
//int qualifierIndex = name.findRev("::"); // todo: deal with cases like A<B::C>
int qualifierIndex = computeQualifiedIndex(name);
//printf("name=%s qualifierIndex=%d\n",name.data(),qualifierIndex);
if (qualifierIndex!=-1) // qualified name
{
// split off the explicit scope part
explicitScopePart=name.left(qualifierIndex);
// todo: improve namespace alias substitution
replaceNamespaceAliases(explicitScopePart,explicitScopePart.length());
name=name.mid(qualifierIndex+2);
}
if (name.isEmpty())
{
//printf("] empty name\n");
return 0; // empty name
}
DefinitionList *dl = Doxygen::symbolMap->find(name);
//printf("Looking for symbol %s result=%p\n",name.data(),dl);
if (dl==0)
{
// name is not a known symbol
return 0;
}
// Since it is often the case that the same name is searched in the same
// scope over an over again (especially for the linked source code generation)
// we use a cache to collect previous results. This is possible since the
// result of a lookup is deterministic. As the key we use the concatenated
// scope, the name to search for and the explicit scope prefix. The speedup
// achieved by this simple cache can be enormous.
QCString key=scope->name()+"+"+name+"+"+explicitScopePart;
LookupInfo *pval=g_lookupCache.find(key);
//printf("Searching for %s result=%p\n",key.data(),pval);
if (pval)
{
if (pTemplSpec) *pTemplSpec=pval->templSpec;
if (pTypeDef) *pTypeDef=pval->typeDef;
//printf("] cachedMatch=%s\n",
// pval->classDef?pval->classDef->name().data():"<none>");
//if (pTemplSpec) printf("templSpec=%s\n",pTemplSpec->data());
return pval->classDef;
}
else // not found yet; we already add a 0 to avoid the possibility of
// endless recursion.
{
g_lookupCache.insert(key,new LookupInfo);
}
ClassDef *bestMatch=0;
//printf(" found %d symbol with name %s\n",dl->count(),name.data());
// now we look int the list of Definitions and determine which one is the "best"
DefinitionListIterator dli(*dl);
Definition *d;
MemberDef *bestTypedef=0;
QCString bestTemplSpec;
int minDistance=10000; // init at "infinite"
int count=0;
for (dli.toFirst();(d=dli.current());++dli,++count) // foreach definition
{
//fprintf(stderr," found type %x name=%s (%d/%d)\n",
// d->definitionType(),d->name().data(),count,dl->count());
// only look at classes and members
if (d->definitionType()==Definition::TypeClass ||
d->definitionType()==Definition::TypeMember)
{
g_visitedNamespaces.clear();
// test accessibility of definition within scope.
int distance = isAccessibleFromWithExpScope(scope,fileScope,d,explicitScopePart);
if (distance!=-1) // definition is accessible
{
// see if we are dealing with a class or a typedef
if (d->definitionType()==Definition::TypeClass) // d is a class
{
if (distance<minDistance) // found a definition that is "closer"
{
minDistance=distance;
bestMatch = (ClassDef *)d;
bestTypedef = 0;
bestTemplSpec.resize(0);
}
}
else if (d->definitionType()==Definition::TypeMember)
{
MemberDef *md = (MemberDef *)d;
//printf(" member isTypedef()=%d\n",md->isTypedef());
if (md->isTypedef()) // d is a typedef
{
//printf(" found typedef!\n");
// we found a symbol at this distance, but if it didn't
// resolve to a class, we still have to make sure that
// something at a greater distance does not match, since
// that symbol is hidden by this one.
if (distance<minDistance)
{
QCString spec;
minDistance=distance;
bestMatch = newResolveTypedef(fileScope,md,&spec);
//printf(" bestTypeDef=%p\n",md);
bestTypedef = md;
bestTemplSpec = spec;
}
}
}
} // if definition accessible
else
{
//printf(" Not accessible!\n");
}
} // if definition is a class or member
} // foreach definition
if (pTypeDef)
{
*pTypeDef = bestTypedef;
}
if (pTemplSpec)
{
*pTemplSpec = bestTemplSpec;
}
pval=g_lookupCache.find(key);
if (pval)
{
pval->classDef = bestMatch;
pval->typeDef = bestTypedef;
pval->templSpec = bestTemplSpec;
}
else
{
g_lookupCache.insert(key,new LookupInfo(bestMatch,bestTypedef,bestTemplSpec));
}
//printf("] bestMatch=%s distance=%d\n",
// bestMatch?bestMatch->name().data():"<none>",minDistance);
//if (pTemplSpec) printf("templSpec=%s\n",pTemplSpec->data());
return bestMatch;
}
/* Find the fully qualified class name refered to by the input class
* or typedef name against the input scope.
* Loops through scope and each of its parent scopes looking for a
* match against the input name.
*/
ClassDef *getResolvedClass(Definition *scope,
FileDef *fileScope,
const char *n,
MemberDef **pTypeDef,
QCString *pTemplSpec,
bool mayBeUnlinkable
)
{
g_resolvedTypedefs.clear();
if (scope==0 ||
(scope->definitionType()!=Definition::TypeClass &&
scope->definitionType()!=Definition::TypeNamespace
)
)
{
scope=Doxygen::globalScope;
}
//printf("getResolvedClass(%s,%s)\n",scope?scope->name().data():"<global>",n);
ClassDef *result = getResolvedClassRec(scope,fileScope,n,pTypeDef,pTemplSpec);
if (!mayBeUnlinkable && result && !result->isLinkable())
{
result=0; // don't link to artifical/hidden classes
}
//printf("getResolvedClass(%s,%s)=%s\n",scope?scope->name().data():"<global>",
// n,result?result->name().data():"<none>");
//
return result;
}
//-------------------------------------------------------------------------
//-------------------------------------------------------------------------
//-------------------------------------------------------------------------
//-------------------------------------------------------------------------
static bool findOperator(const QCString &s,int i)
{
int b = s.findRev("operator",i);
if (b==-1) return FALSE; // not found
b+=8;
while (b<i) // check if there are only spaces inbetween
// the operator and the >
{
if (!isspace((uchar)s.at(b))) return FALSE;
b++;
}
return TRUE;
}
static const char constScope[] = { 'c', 'o', 'n', 's', 't', ':' };
QCString removeRedundantWhiteSpace(const QCString &s)
{
if (s.isEmpty()) return s;
QCString result;
uint i;
uint l=s.length();
uint csp=0;
for (i=0;i<l;i++)
{
nextChar:
char c=s.at(i);
if (csp<6 && c==constScope[csp]) csp++; else csp=0;
if (c=='"') // quoted string
{
i++;
result+=c;
while (i<l)
{
char cc=s.at(i);
result+=cc;
if (cc=='\\') // escaped character
{ result+=s.at(i+1); i+=2; }
else if (cc=='"') // end of string
{ i++; goto nextChar; }
else // any other character
{ i++; }
}
}
else if (i<l-2 && c=='<' && // current char is a <
(isId(s.at(i+1)) || isspace((uchar)s.at(i+1))) && // next char is an id char or space
(i<8 || !findOperator(s,i)) // string in front is not "operator"
)
{
result+="< "; // insert extra space for layouting (nested) templates
}
else if (i>0 && c=='>' && // current char is a >
(isId(s.at(i-1)) || isspace((uchar)s.at(i-1)) || s.at(i-1)=='*' || s.at(i-1)=='&') && // prev char is an id char or space
(i<8 || !findOperator(s,i)) // string in front is not "operator"
)
{
result+=" >"; // insert extra space for layouting (nested) templates
}
else if (i>0 && c==',' && !isspace((uchar)s.at(i-1))
&& ((i<l-1 && isId(s.at(i+1)))
|| (i<l-2 && s.at(i+1)=='$' && isId(s.at(i+2))) // for PHP
|| (i<l-3 && s.at(i+1)=='&' && s.at(i+2)=='$' && isId(s.at(i+3))))) // for PHP
{
result+=", ";
}
else if (i>0 &&
((isId(s.at(i)) && s.at(i-1)==')') ||
(s.at(i)=='\'' && s.at(i-1)==' ')
)
)
{
result+=' ';
result+=s.at(i);
}
else if (c=='t' && csp==5 && !(isId(s.at(i+1)) || s.at(i+1)==' ' || s.at(i+1)==')' || s.at(i+1)==',' || s.at(i+1)=='\0')) // prevent const ::A from being converted to const::A
{
result+="t ";
csp=0;
}
else if (c==':' && csp==6) // replace const::A by const ::A
{
result+=" :";
csp=0;
}
else if (!isspace((uchar)c) ||
( i>0 && i<l-1 &&
(isId(s.at(i-1)) || s.at(i-1)==')' || s.at(i-1)==',' || s.at(i-1)=='>' || s.at(i-1)==']')
&& (isId(s.at(i+1)) || (i<l-2 && s.at(i+1)=='$' && isId(s.at(i+2)))
|| (i<l-3 && s.at(i+1)=='&' && s.at(i+2)=='$' && isId(s.at(i+3))))
)
)
{
if (c=='*' || c=='&' || c=='@' || c=='$')
{
uint rl=result.length();
if (rl>0 && (isId(result.at(rl-1)) || result.at(rl-1)=='>')) result+=' ';
}
result+=c;
}
}
//printf("removeRedundantWhiteSpace(`%s')=`%s'\n",s.data(),result.data());
return result;
}
bool rightScopeMatch(const QCString &scope, const QCString &name)
{
return (name==scope || // equal
(scope.right(name.length())==name && // substring
scope.at(scope.length()-name.length()-1)==':' // scope
)
);
}
bool leftScopeMatch(const QCString &scope, const QCString &name)
{
return (name==scope || // equal
(scope.left(name.length())==name && // substring
scope.at(name.length())==':' // scope
)
);
}
void linkifyText(const TextGeneratorIntf &out,Definition *scope,
FileDef *fileScope,const char *,
const char *text, bool autoBreak,bool external,
bool keepSpaces)
{
//printf("`%s'\n",text);
static QRegExp regExp("[a-z_A-Z][a-z_A-Z0-9:]*");
QCString txtStr=text;
QCString scopeName;
int strLen = txtStr.length();
//printf("linkifyText scope=%s fileScope=%s strtxt=%s strlen=%d\n",
// scope?scope->name().data():"<none>",
// fileScope?fileScope->name().data():"<none>",
// txtStr.data(),strLen);
int matchLen;
int index=0;
int newIndex;
int skipIndex=0;
int floatingIndex=0;
if (strLen==0) return;
// read a word from the text string
while ((newIndex=regExp.match(txtStr,index,&matchLen))!=-1)
{
// add non-word part to the result
floatingIndex+=newIndex-skipIndex;
bool insideString=FALSE;
int i;
for (i=index;i<newIndex;i++)
{
if (txtStr.at(i)=='"') insideString=!insideString;
}
if (strLen>30 && floatingIndex>25 && autoBreak) // try to insert a split point
{
QCString splitText = txtStr.mid(skipIndex,newIndex-skipIndex);
int splitLength = splitText.length();
int i=splitText.find('<');
if (i==-1) i=splitText.find(',');
if (i==-1) i=splitText.find(' ');
if (i!=-1) // add a link-break at i in case of Html output
{
out.writeString(splitText.left(i+1),keepSpaces);
out.writeBreak();
out.writeString(splitText.right(splitLength-i-1),keepSpaces);
}
else
{
out.writeString(splitText,keepSpaces);
}
floatingIndex=splitLength-i-1;
}
else
{
//ol.docify(txtStr.mid(skipIndex,newIndex-skipIndex));
out.writeString(txtStr.mid(skipIndex,newIndex-skipIndex),keepSpaces);
}
// get word from string
QCString word=txtStr.mid(newIndex,matchLen);
bool found=FALSE;
if (!insideString)
{
ClassDef *cd=0;
FileDef *fd=0;
MemberDef *md=0;
NamespaceDef *nd=0;
GroupDef *gd=0;
MemberDef *typeDef=0;
if ((cd=getResolvedClass(scope,fileScope,word,&typeDef)))
{
// add link to the result
if (external ? cd->isLinkable() : cd->isLinkableInProject())
{
out.writeLink(cd->getReference(),cd->getOutputFileBase(),0,word);
found=TRUE;
}
}
else if (typeDef)
{
if (external ? typeDef->isLinkable() : typeDef->isLinkableInProject())
{
out.writeLink(typeDef->getReference(),
typeDef->getOutputFileBase(),
typeDef->anchor(),
word);
found=TRUE;
}
}
if (scope &&
(scope->definitionType()==Definition::TypeClass ||
scope->definitionType()==Definition::TypeNamespace
)
)
{
scopeName=scope->name();
}
//if (!found) printf("Trying to link %s in %s\n",word.data(),scName);
if (!found &&
getDefs(scopeName,word,0,md,cd,fd,nd,gd) &&
(md->isTypedef() || md->isEnumerate() ||
md->isReference() || md->isVariable()
) &&
(external ? md->isLinkable() : md->isLinkableInProject())
)
{
//printf("Found ref scope=%s\n",d?d->name().data():"<global>");
if ((external ? md->isLinkable() : md->isLinkableInProject()))
{
//ol.writeObjectLink(d->getReference(),d->getOutputFileBase(),
// md->anchor(),word);
out.writeLink(md->getReference(),md->getOutputFileBase(),
md->anchor(),word);
found=TRUE;
}
}
}
if (!found) // add word to the result
{
//ol.docify(word);
out.writeString(word,keepSpaces);
}
// set next start point in the string
//printf("index=%d/%d\n",index,txtStr.length());
skipIndex=index=newIndex+matchLen;
floatingIndex+=matchLen;
}
// add last part of the string to the result.
//ol.docify(txtStr.right(txtStr.length()-skipIndex));
out.writeString(txtStr.right(txtStr.length()-skipIndex),keepSpaces);
}
void writeExample(OutputList &ol,ExampleSDict *ed)
{
QCString exampleLine=theTranslator->trWriteList(ed->count());
//bool latexEnabled = ol.isEnabled(OutputGenerator::Latex);
//bool manEnabled = ol.isEnabled(OutputGenerator::Man);
//bool htmlEnabled = ol.isEnabled(OutputGenerator::Html);
QRegExp marker("@[0-9]+");
int index=0,newIndex,matchLen;
// now replace all markers in inheritLine with links to the classes
while ((newIndex=marker.match(exampleLine,index,&matchLen))!=-1)
{
bool ok;
ol.parseText(exampleLine.mid(index,newIndex-index));
uint entryIndex = exampleLine.mid(newIndex+1,matchLen-1).toUInt(&ok);
Example *e=ed->at(entryIndex);
if (ok && e)
{
ol.pushGeneratorState();
//if (latexEnabled) ol.disable(OutputGenerator::Latex);
ol.disable(OutputGenerator::Latex);
ol.disable(OutputGenerator::RTF);
// link for Html / man
ol.writeObjectLink(0,e->file,e->anchor,e->name);
ol.popGeneratorState();
ol.pushGeneratorState();
//if (latexEnabled) ol.enable(OutputGenerator::Latex);
ol.disable(OutputGenerator::Man);
ol.disable(OutputGenerator::Html);
// link for Latex / pdf with anchor because the sources
// are not hyperlinked (not possible with a verbatim environment).
ol.writeObjectLink(0,e->file,0,e->name);
//if (manEnabled) ol.enable(OutputGenerator::Man);
//if (htmlEnabled) ol.enable(OutputGenerator::Html);
ol.popGeneratorState();
}
index=newIndex+matchLen;
}
ol.parseText(exampleLine.right(exampleLine.length()-index));
ol.writeString(".");
}
QCString argListToString(ArgumentList *al)
{
QCString result;
if (al==0) return result;
Argument *a=al->first();
result+="(";
while (a)
{
QCString type1 = a->type, type2;
int i=type1.find(")("); // hack to deal with function pointers
if (i!=-1)
{
type2=type1.mid(i);
type1=type1.left(i);
}
if (!a->attrib.isEmpty())
{
result+=a->attrib+" ";
}
if (!a->name.isEmpty() || !a->array.isEmpty())
{
result+= type1+" "+a->name+type2+a->array;
}
else
{
result+= type1+type2;
}
if (!a->defval.isEmpty())
{
result+="="+a->defval;
}
a = al->next();
if (a) result+=", ";
}
result+=")";
if (al->constSpecifier) result+=" const";
if (al->volatileSpecifier) result+=" volatile";
return removeRedundantWhiteSpace(result);
}
QCString tempArgListToString(ArgumentList *al)
{
QCString result;
if (al==0) return result;
result="<";
Argument *a=al->first();
while (a)
{
if (!a->name.isEmpty()) // add template argument name
{
result+=a->name;
}
else // extract name from type
{
int i=a->type.length()-1;
while (i>=0 && isId(a->type.at(i))) i--;
if (i>0)
{
result+=a->type.right(a->type.length()-i-1);
}
}
a=al->next();
if (a) result+=", ";
}
result+=">";
return removeRedundantWhiteSpace(result);
}
// compute the HTML anchors for a list of members
void setAnchors(ClassDef *cd,char id,MemberList *ml,int groupId)
{
int count=0;
MemberListIterator mli(*ml);
MemberDef *md;
for (;(md=mli.current());++mli)
{
if (!md->isReference())
{
QCString anchor;
if (groupId==-1)
anchor.sprintf("%c%d",id,count++);
else
anchor.sprintf("%c%d_%d",id,groupId,count++);
if (cd) anchor.prepend(escapeCharsInString(cd->name(),FALSE));
md->setAnchor(anchor);
//printf("setAnchors(): Member %s outputFileBase=%s anchor %s result %s\n",
// md->name().data(),md->getOutputFileBase().data(),anchor.data(),md->anchor().data());
}
}
}
//----------------------------------------------------------------------------
/*! takes the \a buf of the given lenght \a len and converts CR LF (DOS)
* or CR (MAC) line ending to LF (Unix). Returns the length of the
* converted content (i.e. the same as \a len (Unix, MAC) or
* smaller (DOS).
*/
int filterCRLF(char *buf,int len)
{
int src = 0; // source index
int dest = 0; // destination index
char c; // current character
while (src<len)
{
c = buf[src++]; // Remember the processed character.
if (c == '\r') // CR to be solved (MAC, DOS)
{
c = '\n'; // each CR to LF
if (src<len && buf[src] == '\n')
++src; // skip LF just after CR (DOS)
}
else if ( c == '\0' && src<len-1) // filter out internal \0 characters, as it will confuse the parser
{
c = ' '; // turn into a space
}
buf[dest++] = c; // copy the (modified) character to dest
}
return dest; // length of the valid part of the buf
}
/*! reads a file with name \a name and returns it as a string. If \a filter
* is TRUE the file will be filtered by any user specified input filter.
* If \a name is "-" the string will be read from standard input.
*/
QCString fileToString(const char *name,bool filter)
{
if (name==0 || name[0]==0) return 0;
QFile f;
bool fileOpened=FALSE;
if (name[0]=='-' && name[1]==0) // read from stdin
{
fileOpened=f.open(IO_ReadOnly,stdin);
if (fileOpened)
{
const int bSize=4096;
QCString contents(bSize);
int totalSize=0;
int size;
while ((size=f.readBlock(contents.data()+totalSize,bSize))==bSize)
{
totalSize+=bSize;
contents.resize(totalSize+bSize);
}
totalSize = filterCRLF(contents.data(),totalSize+size)+2;
contents.resize(totalSize);
contents.at(totalSize-2)='\n'; // to help the scanner
contents.at(totalSize-1)='\0';
return contents;
}
}
else // read from file
{
QFileInfo fi(name);
if (!fi.exists() || !fi.isFile())
{
err("Error: file `%s' not found\n",name);
return "";
}
if (Config_getString("INPUT_FILTER").isEmpty() || !filter)
{
f.setName(name);
fileOpened=f.open(IO_ReadOnly);
if (fileOpened)
{
int fsize=f.size();
QCString contents(fsize+2);
f.readBlock(contents.data(),fsize);
if (fsize==0 || contents[fsize-1]=='\n')
contents[fsize]='\0';
else
contents[fsize]='\n'; // to help the scanner
contents[fsize+1]='\0';
f.close();
int newSize = filterCRLF(contents.data(),fsize+2);
if (newSize!=fsize+2)
{
contents.resize(newSize);
}
return contents;
}
}
else // filter the input
{
QCString cmd=Config_getString("INPUT_FILTER")+" \""+name+"\"";
FILE *f=popen(cmd,"r");
if (!f)
{
err("Error: could not execute filter %s\n",Config_getString("INPUT_FILTER").data());
return "";
}
const int bSize=4096;
QCString contents(bSize);
int totalSize=0;
int size;
while ((size=fread(contents.data()+totalSize,1,bSize,f))==bSize)
{
totalSize+=bSize;
contents.resize(totalSize+bSize);
}
totalSize = filterCRLF(contents.data(),totalSize+size)+2;
contents.resize(totalSize);
contents.at(totalSize-2)='\n'; // to help the scanner
contents.at(totalSize-1)='\0';
pclose(f);
return contents;
}
}
if (!fileOpened)
{
err("Error: cannot open file `%s' for reading\n",name);
}
return "";
}
QCString dateToString(bool includeTime)
{
if (includeTime)
{
return convertToQCString(QDateTime::currentDateTime().toString());
}
else
{
const QDate &d=QDate::currentDate();
QCString result;
result.sprintf("%d %s %d",
d.day(),
convertToQCString(d.monthName(d.month())).data(),
d.year());
return result;
}
//QDate date=dt.date();
//QTime time=dt.time();
//QCString dtString;
//dtString.sprintf("%02d:%02d, %04d/%02d/%02d",
// time.hour(),time.minute(),date.year(),date.month(),date.day());
//return dtString;
}
QCString yearToString()
{
const QDate &d=QDate::currentDate();
QCString result;
result.sprintf("%d", d.year());
return result;
}
//----------------------------------------------------------------------
// recursive function that returns the number of branches in the
// inheritance tree that the base class `bcd' is below the class `cd'
int minClassDistance(ClassDef *cd,ClassDef *bcd,int level)
{
if (bcd->categoryOf()) // use class that is being extended in case of
// an Objective-C category
{
bcd=bcd->categoryOf();
}
if (cd==bcd) return level;
if (level==256)
{
err("Error: Internal inconsistency: found class %s seem to have a recursive "
"inheritance relation! Please send a bug report to dimitri@stack.nl\n",cd->name().data());
return -1;
}
BaseClassListIterator bcli(*cd->baseClasses());
int m=maxInheritanceDepth;
for ( ; bcli.current() ; ++bcli)
{
//printf("class %s base class %s\n",cd->name().data(),bcli.current()->classDef->name().data());
int mc=minClassDistance(bcli.current()->classDef,bcd,level+1);
if (mc<m) m=mc;
if (m<0) break;
}
return m;
}
//static void printArgList(ArgumentList *al)
//{
// if (al==0) return;
// ArgumentListIterator ali(*al);
// Argument *a;
// printf("(");
// for (;(a=ali.current());++ali)
// {
// printf("t=`%s' n=`%s' v=`%s' ",a->type.data(),!a->name.isEmpty()>0?a->name.data():"",!a->defval.isEmpty()>0?a->defval.data():"");
// }
// printf(")");
//}
// strip any template specifiers that follow className in string s
static QCString trimTemplateSpecifiers(
const QCString &namespaceName,
const QCString &className,
const QCString &s
)
{
//printf("trimTemplateSpecifiers(%s,%s,%s)\n",namespaceName.data(),className.data(),s.data());
QCString scopeName=mergeScopes(namespaceName,className);
ClassDef *cd=getClass(scopeName);
if (cd==0) return s; // should not happen, but guard anyway.
QCString result=s;
int i=className.length()-1;
if (i>=0 && className.at(i)=='>') // template specialization
{
// replace unspecialized occurrences in s, with their specialized versions.
int count=1;
int cl=i+1;
while (i>=0)
{
char c=className.at(i);
if (c=='>') count++,i--;
else if (c=='<') { count--; if (count==0) break; }
else i--;
}
QCString unspecClassName=className.left(i);
int l=i;
int p=0;
while ((i=result.find(unspecClassName,p))!=-1)
{
if (result.at(i+l)!='<') // unspecialized version
{
result=result.left(i)+className+result.right(result.length()-i-l);
l=cl;
}
p=i+l;
}
}
//printf("result after specialization: %s\n",result.data());
QCString qualName=cd->qualifiedNameWithTemplateParameters();
//printf("QualifiedName = %s\n",qualName.data());
// We strip the template arguments following className (if any)
if (!qualName.isEmpty()) // there is a class name
{
int is,ps=0;
int p=0,l,i;
while ((is=getScopeFragment(qualName,ps,&l))!=-1)
{
QCString qualNamePart = qualName.right(qualName.length()-is);
//printf("qualNamePart=%s\n",qualNamePart.data());
while ((i=result.find(qualNamePart,p))!=-1)
{
int ql=qualNamePart.length();
result=result.left(i)+cd->name()+result.right(result.length()-i-ql);
p=i+cd->name().length();
}
ps=is+l;
}
}
//printf("result=%s\n",result.data());
return result;
}
/*!
* @param pattern pattern to look for
* @param s string to search in
* @param p position to start
* @param len resulting pattern length
* @returns position on which string is found, or -1 if not found
*/
static int findScopePattern(const QCString &pattern,const QCString &s,
int p,int *len)
{
int sl=s.length();
int pl=pattern.length();
int sp=0;
*len=0;
while (p<sl)
{
sp=p; // start of match
int pp=0; // pattern position
while (p<sl && pp<pl)
{
if (s.at(p)=='<') // skip template arguments while matching
{
int bc=1;
//printf("skipping pos=%d c=%c\n",p,s.at(p));
p++;
while (p<sl)
{
if (s.at(p)=='<') bc++;
else if (s.at(p)=='>')
{
bc--;
if (bc==0)
{
p++;
break;
}
}
//printf("skipping pos=%d c=%c\n",p,s.at(p));
p++;
}
}
else if (s.at(p)==pattern.at(pp))
{
//printf("match at position p=%d pp=%d c=%c\n",p,pp,s.at(p));
p++;
pp++;
}
else // no match
{
//printf("restarting at %d c=%c pat=%s\n",p,s.at(p),pattern.data());
p=sp+1;
break;
}
}
if (pp==pl) // whole pattern matches
{
*len=p-sp;
return sp;
}
}
return -1;
}
static QCString trimScope(const QCString &name,const QCString &s)
{
int scopeOffset=name.length();
QCString result=s;
do // for each scope
{
QCString tmp;
QCString scope=name.left(scopeOffset)+"::";
//printf("Trying with scope=`%s'\n",scope.data());
int i,p=0,l;
while ((i=findScopePattern(scope,result,p,&l))!=-1) // for each occurrence
{
tmp+=result.mid(p,i-p); // add part before pattern
p=i+l;
}
tmp+=result.right(result.length()-p); // add trailing part
scopeOffset=name.findRev("::",scopeOffset-1);
result = tmp;
} while (scopeOffset>0);
//printf("trimScope(name=%s,scope=%s)=%s\n",name.data(),s.data(),result.data());
return result;
}
void trimBaseClassScope(BaseClassList *bcl,QCString &s,int level=0)
{
//printf("trimBaseClassScope level=%d `%s'\n",level,s.data());
BaseClassListIterator bcli(*bcl);
BaseClassDef *bcd;
for (;(bcd=bcli.current());++bcli)
{
ClassDef *cd=bcd->classDef;
//printf("Trying class %s\n",cd->name().data());
int spos=s.find(cd->name()+"::");
if (spos!=-1)
{
s = s.left(spos)+s.right(
s.length()-spos-cd->name().length()-2
);
}
//printf("base class `%s'\n",cd->name().data());
if (cd->baseClasses()->count()>0)
trimBaseClassScope(cd->baseClasses(),s,level+1);
}
}
/*! if either t1 or t2 contains a namespace scope, then remove that
* scope. If neither or both have a namespace scope, t1 and t2 remain
* unchanged.
*/
static void trimNamespaceScope(QCString &t1,QCString &t2,const QCString &nsName)
{
int p1=t1.length();
int p2=t2.length();
for (;;)
{
int i1=p1==0 ? -1 : t1.findRev("::",p1);
int i2=p2==0 ? -1 : t2.findRev("::",p2);
if (i1==-1 && i2==-1)
{
return;
}
if (i1!=-1 && i2==-1) // only t1 has a scope
{
QCString scope=t1.left(i1);
replaceNamespaceAliases(scope,i1);
int so=nsName.length();
do
{
QCString fullScope=nsName.left(so);
if (!fullScope.isEmpty() && !scope.isEmpty()) fullScope+="::";
fullScope+=scope;
if (!fullScope.isEmpty() && Doxygen::namespaceSDict[fullScope]!=0) // scope is a namespace
{
t1 = t1.right(t1.length()-i1-2);
return;
}
if (so==0)
{
so=-1;
}
else if ((so=nsName.findRev("::",so-1))==-1)
{
so=0;
}
}
while (so>=0);
}
else if (i1==-1 && i2!=-1) // only t2 has a scope
{
QCString scope=t2.left(i2);
replaceNamespaceAliases(scope,i2);
int so=nsName.length();
do
{
QCString fullScope=nsName.left(so);
if (!fullScope.isEmpty() && !scope.isEmpty()) fullScope+="::";
fullScope+=scope;
if (!fullScope.isEmpty() && Doxygen::namespaceSDict[fullScope]!=0) // scope is a namespace
{
t2 = t2.right(t2.length()-i2-2);
return;
}
if (so==0)
{
so=-1;
}
else if ((so=nsName.findRev("::",so-1))==-1)
{
so=0;
}
}
while (so>=0);
}
p1 = QMAX(i1-2,0);
p2 = QMAX(i2-2,0);
}
}
/*! According to the C++ spec and Ivan Vecerina:
Parameter declarations that differ only in the presence or absence
of const and/or volatile are equivalent.
So the following example, show what is stripped by this routine
for const. The same is done for volatile.
\code
const T param -> T param // not relevant
const T& param -> const T& param // const needed
T* const param -> T* param // not relevant
const T* param -> const T* param // const needed
\endcode
*/
void stripIrrelevantConstVolatile(QCString &s)
{
//printf("stripIrrelevantConstVolatile(%s)=",s.data());
int i;
if (s=="const") { s.resize(0); return; }
if (s=="volatile") { s.resize(0); return; }
// strip occurrences of const
int constLen=5+1;
i = s.find("const ");
if (i==-1 && s.right(5)=="const") { i=s.length()-5;constLen=5; }
while (i!=-1)
{
// no & or * after the const
int i1=s.find('*',i+constLen);
int i2=s.find('&',i+constLen);
if (i1==-1 && i2==-1)
{
s=s.left(i)+s.right(s.length()-i-constLen);
i-=constLen;
}
else if ((i1!=-1 && i<i1) || (i2!=-1 && i<i2)) // const before * or &
{
// move const to front
s=(QCString)"const "+s.left(i)+s.right(s.length()-i-constLen);
}
i = s.find("const ",i+constLen);
}
// strip occurrences of volatile
int volatileLen=8+1;
i = s.find("volatile ");
if (i==-1 && s.right(8)=="volatile") { i=s.length()-8;constLen=8; }
while (i!=-1)
{
// no & or * after the volatile
int i1=s.find('*',i+volatileLen);
int i2=s.find('&',i+volatileLen);
if (i1==-1 && i2==-1)
{
s=s.left(i)+s.right(s.length()-i-volatileLen);
i-=volatileLen;
}
else if ((i1!=-1 && i<i1) || (i2!=-1 && i<i2)) // volatile before * or &
{
// move volatile to front
s=(QCString)"volatile "+s.left(i)+s.right(s.length()-i-volatileLen);
}
i = s.find("volatile ",i+volatileLen);
}
//printf("%s\n",s.data());
}
// a bit of debug support for matchArguments
#define MATCH
#define NOMATCH
//#define MATCH printf("Match at line %d\n",__LINE__);
//#define NOMATCH printf("Nomatch at line %d\n",__LINE__);
static bool matchArgument(const Argument *srcA,const Argument *dstA,
const QCString &className,
const QCString &namespaceName,
NamespaceSDict *usingNamespaces,
SDict<Definition> *usingClasses)
{
//printf("match argument start %s:%s <-> %s:%s using nsp=%p class=%p\n",
// srcA->type.data(),srcA->name.data(),
// dstA->type.data(),dstA->name.data(),
// usingNamespaces,
// usingClasses);
// TODO: resolve any typedefs names that are part of srcA->type
// before matching. This should use className and namespaceName
// and usingNamespaces and usingClass to determine which typedefs
// are in-scope, so it will not be very efficient :-(
QCString srcAType=trimTemplateSpecifiers(namespaceName,className,srcA->type);
QCString dstAType=trimTemplateSpecifiers(namespaceName,className,dstA->type);
if (srcAType.left(6)=="class ") srcAType=srcAType.right(srcAType.length()-6);
if (dstAType.left(6)=="class ") dstAType=dstAType.right(dstAType.length()-6);
// allow distingishing "const A" from "const B" even though
// from a syntactic point of view they would be two names of the same
// type "const". This is not fool prove ofcourse, but should at least
// catch the most common cases.
if ((srcAType=="const" || srcAType=="volatile") && !srcA->name.isEmpty())
{
srcAType+=" ";
srcAType+=srcA->name;
}
if ((dstAType=="const" || dstAType=="volatile") && !dstA->name.isEmpty())
{
dstAType+=" ";
dstAType+=dstA->name;
}
if (srcA->name=="const" || srcA->name=="volatile")
{
srcAType+=srcA->name;
}
if (dstA->name=="const" || dstA->name=="volatile")
{
dstAType+=dstA->name;
}
stripIrrelevantConstVolatile(srcAType);
stripIrrelevantConstVolatile(dstAType);
// strip typename keyword
if (strncmp(srcAType,"typename ",9)==0)
{
srcAType = srcAType.right(srcAType.length()-9);
}
if (strncmp(dstAType,"typename ",9)==0)
{
dstAType = dstAType.right(dstAType.length()-9);
}
srcAType = removeRedundantWhiteSpace(srcAType);
dstAType = removeRedundantWhiteSpace(dstAType);
//srcAType=stripTemplateSpecifiersFromScope(srcAType,FALSE);
//dstAType=stripTemplateSpecifiersFromScope(dstAType,FALSE);
//printf("srcA=%s:%s dstA=%s:%s\n",srcAType.data(),srcA->name.data(),
// dstAType.data(),dstA->name.data());
if (srcA->array!=dstA->array) // nomatch for char[] against char
{
NOMATCH
return FALSE;
}
if (srcAType!=dstAType) // check if the argument only differs on name
{
// remove a namespace scope that is only in one type
// (assuming a using statement was used)
trimNamespaceScope(srcAType,dstAType,namespaceName);
//QCString srcScope;
//QCString dstScope;
// strip redundant scope specifiers
if (!className.isEmpty())
{
srcAType=trimScope(className,srcAType);
dstAType=trimScope(className,dstAType);
//printf("trimScope: `%s' <=> `%s'\n",srcAType.data(),dstAType.data());
ClassDef *cd;
if (!namespaceName.isEmpty())
cd=getClass(namespaceName+"::"+className);
else
cd=getClass(className);
if (cd && cd->baseClasses()->count()>0)
{
trimBaseClassScope(cd->baseClasses(),srcAType);
trimBaseClassScope(cd->baseClasses(),dstAType);
}
//printf("trimBaseClassScope: `%s' <=> `%s'\n",srcAType.data(),dstAType.data());
}
if (!namespaceName.isEmpty())
{
srcAType=trimScope(namespaceName,srcAType);
dstAType=trimScope(namespaceName,dstAType);
}
if (usingNamespaces && usingNamespaces->count()>0)
{
NamespaceSDict::Iterator nli(*usingNamespaces);
NamespaceDef *nd;
for (;(nd=nli.current());++nli)
{
srcAType=trimScope(nd->name(),srcAType);
dstAType=trimScope(nd->name(),dstAType);
}
}
if (usingClasses && usingClasses->count()>0)
{
SDict<Definition>::Iterator cli(*usingClasses);
Definition *cd;
for (;(cd=cli.current());++cli)
{
srcAType=trimScope(cd->name(),srcAType);
dstAType=trimScope(cd->name(),dstAType);
}
}
//printf("2. srcA=%s:%s dstA=%s:%s\n",srcAType.data(),srcA->name.data(),
// dstAType.data(),dstA->name.data());
if (!srcA->name.isEmpty() && !dstA->type.isEmpty() &&
(srcAType+" "+srcA->name)==dstAType)
{
MATCH
return TRUE;
}
else if (!dstA->name.isEmpty() && !srcA->type.isEmpty() &&
(dstAType+" "+dstA->name)==srcAType)
{
MATCH
return TRUE;
}
uint srcPos=0,dstPos=0;
bool equal=TRUE;
while (srcPos<srcAType.length() && dstPos<dstAType.length() && equal)
{
equal=srcAType.at(srcPos)==dstAType.at(dstPos);
if (equal) srcPos++,dstPos++;
}
uint srcATypeLen=srcAType.length();
uint dstATypeLen=dstAType.length();
if (srcPos<srcATypeLen && dstPos<dstATypeLen)
{
// if nothing matches or the match ends in the middle or at the
// end of a string then there is no match
if (srcPos==0 || dstPos==0)
{
NOMATCH
return FALSE;
}
if (isId(srcAType.at(srcPos)) && isId(dstAType.at(dstPos)))
{
//printf("partial match srcPos=%d dstPos=%d!\n",srcPos,dstPos);
// check if a name if already found -> if no then there is no match
if (!srcA->name.isEmpty() || !dstA->name.isEmpty())
{
NOMATCH
return FALSE;
}
// types only
while (srcPos<srcATypeLen && isId(srcAType.at(srcPos))) srcPos++;
while (dstPos<dstATypeLen && isId(dstAType.at(dstPos))) dstPos++;
if (srcPos<srcATypeLen ||
dstPos<dstATypeLen ||
(srcPos==srcATypeLen && dstPos==dstATypeLen)
)
{
NOMATCH
return FALSE;
}
}
else
{
// otherwise we assume that a name starts at the current position.
while (srcPos<srcATypeLen && isId(srcAType.at(srcPos))) srcPos++;
while (dstPos<dstATypeLen && isId(dstAType.at(dstPos))) dstPos++;
// if nothing more follows for both types then we assume we have
// found a match. Note that now `signed int' and `signed' match, but
// seeing that int is not a name can only be done by looking at the
// semantics.
if (srcPos!=srcATypeLen || dstPos!=dstATypeLen)
{
NOMATCH
return FALSE;
}
}
}
else if (dstPos<dstAType.length())
{
if (!isspace((uchar)dstAType.at(dstPos))) // maybe the names differ
{
if (!dstA->name.isEmpty()) // dst has its name separated from its type
{
NOMATCH
return FALSE;
}
while (dstPos<dstAType.length() && isId(dstAType.at(dstPos))) dstPos++;
if (dstPos!=dstAType.length())
{
NOMATCH
return FALSE; // more than a difference in name -> no match
}
}
else // maybe dst has a name while src has not
{
dstPos++;
while (dstPos<dstAType.length() && isId(dstAType.at(dstPos))) dstPos++;
if (dstPos!=dstAType.length() || !srcA->name.isEmpty())
{
NOMATCH
return FALSE; // nope not a name -> no match
}
}
}
else if (srcPos<srcAType.length())
{
if (!isspace((uchar)srcAType.at(srcPos))) // maybe the names differ
{
if (!srcA->name.isEmpty()) // src has its name separated from its type
{
NOMATCH
return FALSE;
}
while (srcPos<srcAType.length() && isId(srcAType.at(srcPos))) srcPos++;
if (srcPos!=srcAType.length())
{
NOMATCH
return FALSE; // more than a difference in name -> no match
}
}
else // maybe src has a name while dst has not
{
srcPos++;
while (srcPos<srcAType.length() && isId(srcAType.at(srcPos))) srcPos++;
if (srcPos!=srcAType.length() || !dstA->name.isEmpty())
{
NOMATCH
return FALSE; // nope not a name -> no match
}
}
}
}
MATCH
return TRUE;
}
/*!
* Matches the arguments list srcAl with the argument list dstAl
* Returns TRUE if the argument lists are equal. Two argument list are
* considered equal if the number of arguments is equal and the types of all
* arguments are equal. Furthermore the const and volatile specifiers
* stored in the list should be equal.
*/
bool matchArguments(ArgumentList *srcAl,ArgumentList *dstAl,
const char *cl,const char *ns,bool checkCV,
NamespaceSDict *usingNamespaces,
SDict<Definition> *usingClasses)
{
QCString className=cl;
QCString namespaceName=ns;
// strip template specialization from class name if present
//int til=className.find('<'),tir=className.find('>');
//if (til!=-1 && tir!=-1 && tir>til)
//{
// className=className.left(til)+className.right(className.length()-tir-1);
//}
//printf("matchArguments(%s,%s) className=%s namespaceName=%s checkCV=%d usingNamespaces=%d usingClasses=%d\n",
// srcAl ? argListToString(srcAl).data() : "",
// dstAl ? argListToString(dstAl).data() : "",
// cl,ns,checkCV,
// usingNamespaces?usingNamespaces->count():0,
// usingClasses?usingClasses->count():0
// );
if (srcAl==0 || dstAl==0)
{
bool match = srcAl==dstAl; // at least one of the members is not a function
if (match)
{
MATCH
return TRUE;
}
else
{
NOMATCH
return FALSE;
}
}
// handle special case with void argument
if ( srcAl->count()==0 && dstAl->count()==1 &&
dstAl->getFirst()->type=="void" )
{ // special case for finding match between func() and func(void)
Argument *a=new Argument;
a->type = "void";
srcAl->append(a);
MATCH
return TRUE;
}
if ( dstAl->count()==0 && srcAl->count()==1 &&
srcAl->getFirst()->type=="void" )
{ // special case for finding match between func(void) and func()
Argument *a=new Argument;
a->type = "void";
dstAl->append(a);
MATCH
return TRUE;
}
if (srcAl->count() != dstAl->count())
{
NOMATCH
return FALSE; // different number of arguments -> no match
}
if (checkCV)
{
if (srcAl->constSpecifier != dstAl->constSpecifier)
{
NOMATCH
return FALSE; // one member is const, the other not -> no match
}
if (srcAl->volatileSpecifier != dstAl->volatileSpecifier)
{
NOMATCH
return FALSE; // one member is volatile, the other not -> no match
}
}
// so far the argument list could match, so we need to compare the types of
// all arguments.
ArgumentListIterator srcAli(*srcAl),dstAli(*dstAl);
Argument *srcA,*dstA;
for (;(srcA=srcAli.current(),dstA=dstAli.current());++srcAli,++dstAli)
{
if (!matchArgument(srcA,dstA,className,namespaceName,
usingNamespaces,usingClasses))
{
NOMATCH
return FALSE;
}
}
MATCH
return TRUE; // all arguments match
}
// merges the initializer of two argument lists
// pre: the types of the arguments in the list should match.
void mergeArguments(ArgumentList *srcAl,ArgumentList *dstAl,bool forceNameOverwrite)
{
//printf("mergeArguments `%s', `%s'\n",
// argListToString(srcAl).data(),argListToString(dstAl).data());
if (srcAl==0 || dstAl==0 || srcAl->count()!=dstAl->count())
{
return; // invalid argument lists -> do not merge
}
ArgumentListIterator srcAli(*srcAl),dstAli(*dstAl);
Argument *srcA,*dstA;
for (;(srcA=srcAli.current(),dstA=dstAli.current());++srcAli,++dstAli)
{
if (srcA->defval.isEmpty() && !dstA->defval.isEmpty())
{
//printf("Defval changing `%s'->`%s'\n",srcA->defval.data(),dstA->defval.data());
srcA->defval=dstA->defval.copy();
}
else if (!srcA->defval.isEmpty() && dstA->defval.isEmpty())
{
//printf("Defval changing `%s'->`%s'\n",dstA->defval.data(),srcA->defval.data());
dstA->defval=srcA->defval.copy();
}
if (srcA->type==dstA->type)
{
if (srcA->name.isEmpty() && !dstA->name.isEmpty())
{
//printf("type: `%s':=`%s'\n",srcA->type.data(),dstA->type.data());
//printf("name: `%s':=`%s'\n",srcA->name.data(),dstA->name.data());
srcA->type = dstA->type.copy();
srcA->name = dstA->name.copy();
}
else if (!srcA->name.isEmpty() && dstA->name.isEmpty())
{
//printf("type: `%s':=`%s'\n",dstA->type.data(),srcA->type.data());
//printf("name: `%s':=`%s'\n",dstA->name.data(),srcA->name.data());
dstA->type = srcA->type.copy();
dstA->name = dstA->name.copy();
}
else if (!srcA->name.isEmpty() && !dstA->name.isEmpty())
{
if (forceNameOverwrite)
{
srcA->name = dstA->name.copy();
}
else
{
if (srcA->docs.isEmpty() && !dstA->docs.isEmpty())
{
srcA->name = dstA->name.copy();
}
else if (!srcA->docs.isEmpty() && dstA->docs.isEmpty())
{
dstA->name = srcA->name.copy();
}
}
}
}
else
{
//printf("merging %s:%s <-> %s:%s\n",srcA->type.data(),srcA->name.data(),dstA->type.data(),dstA->name.data());
if (srcA->type+" "+srcA->name==dstA->type) // "unsigned long:int" <-> "unsigned long int:bla"
{
srcA->type+=" "+srcA->name;
srcA->name=dstA->name;
}
else if (dstA->type+" "+dstA->name==srcA->type) // "unsigned long int bla" <-> "unsigned long int"
{
dstA->type+=" "+dstA->name;
dstA->name=srcA->name;
}
else if (srcA->name.isEmpty() && !dstA->name.isEmpty())
{
srcA->name = dstA->name;
}
else if (dstA->name.isEmpty() && !srcA->name.isEmpty())
{
dstA->name = srcA->name;
}
}
int i1=srcA->type.find("::"),
i2=dstA->type.find("::"),
j1=srcA->type.length()-i1-2,
j2=dstA->type.length()-i2-2;
if (i1!=-1 && i2==-1 && srcA->type.right(j1)==dstA->type)
{
//printf("type: `%s':=`%s'\n",dstA->type.data(),srcA->type.data());
//printf("name: `%s':=`%s'\n",dstA->name.data(),srcA->name.data());
dstA->type = srcA->type.left(i1+2)+dstA->type;
dstA->name = dstA->name.copy();
}
else if (i1==-1 && i2!=-1 && dstA->type.right(j2)==srcA->type)
{
//printf("type: `%s':=`%s'\n",srcA->type.data(),dstA->type.data());
//printf("name: `%s':=`%s'\n",dstA->name.data(),srcA->name.data());
srcA->type = dstA->type.left(i2+2)+srcA->type;
srcA->name = dstA->name.copy();
}
if (srcA->docs.isEmpty() && !dstA->docs.isEmpty())
{
srcA->docs = dstA->docs.copy();
}
else if (dstA->docs.isEmpty() && !srcA->docs.isEmpty())
{
dstA->docs = srcA->docs.copy();
}
}
//printf("result mergeArguments `%s', `%s'\n",
// argListToString(srcAl).data(),argListToString(dstAl).data());
}
/*!
* Searches for a member definition given its name `memberName' as a string.
* memberName may also include a (partial) scope to indicate the scope
* in which the member is located.
*
* The parameter `scName' is a string representing the name of the scope in
* which the link was found.
*
* In case of a function args contains a string representation of the
* argument list. Passing 0 means the member has no arguments.
* Passing "()" means any argument list will do, but "()" is preferred.
*
* The function returns TRUE if the member is known and documented or
* FALSE if it is not.
* If TRUE is returned parameter `md' contains a pointer to the member
* definition. Furthermore exactly one of the parameter `cd', `nd', or `fd'
* will be non-zero:
* - if `cd' is non zero, the member was found in a class pointed to by cd.
* - if `nd' is non zero, the member was found in a namespace pointed to by nd.
* - if `fd' is non zero, the member was found in the global namespace of
* file fd.
*/
bool getDefs(const QCString &scName,const QCString &memberName,
const char *args,
MemberDef *&md,
ClassDef *&cd, FileDef *&fd, NamespaceDef *&nd, GroupDef *&gd,
bool forceEmptyScope,
FileDef *currentFile,
bool checkCV
)
{
fd=0, md=0, cd=0, nd=0, gd=0;
if (memberName.isEmpty()) return FALSE; /* empty name => nothing to link */
QCString scopeName=scName;
//printf("Search for name=%s args=%s in scope=%s\n",
// memberName.data(),args,scopeName.data());
int is,im=0,pm=0;
// strip common part of the scope from the scopeName
while ((is=scopeName.findRev("::"))!=-1 &&
(im=memberName.find("::",pm))!=-1 &&
(scopeName.right(scopeName.length()-is-2)==memberName.mid(pm,im-pm))
)
{
scopeName=scopeName.left(is);
pm=im+2;
}
//printf("result after scope corrections scope=%s name=%s\n",
// scopeName.data(),memberName.data());
QCString mName=memberName;
QCString mScope;
if (memberName.left(9)!="operator " && // treat operator conversion methods
// as a special case
(im=memberName.findRev("::"))!=-1
)
{
mScope=memberName.left(im);
mName=memberName.right(memberName.length()-im-2);
}
// handle special the case where both scope name and member scope are equal
if (mScope==scopeName) scopeName.resize(0);
//printf("mScope=`%s' mName=`%s'\n",mScope.data(),mName.data());
MemberName *mn = Doxygen::memberNameSDict[mName];
if (!forceEmptyScope && mn && !(scopeName.isEmpty() && mScope.isEmpty()))
{
//printf(" >member name found\n");
int scopeOffset=scopeName.length();
do
{
QCString className = scopeName.left(scopeOffset);
if (!className.isEmpty() && !mScope.isEmpty())
{
className+="::"+mScope;
}
else if (!mScope.isEmpty())
{
className=mScope.copy();
}
//printf("Trying class scope %s\n",className.data());
ClassDef *fcd=0;
// todo: fill in correct fileScope!
if ((fcd=getResolvedClass(Doxygen::globalScope,0,className)) && // is it a documented class
fcd->isLinkable()
)
{
//printf(" Found fcd=%p\n",fcd);
MemberListIterator mmli(*mn);
MemberDef *mmd;
int mdist=maxInheritanceDepth;
ArgumentList *argList=0;
if (args)
{
argList=new ArgumentList;
stringToArgumentList(args,argList);
}
for (mmli.toFirst();(mmd=mmli.current());++mmli)
{
if (mmd->isLinkable())
{
bool match=args==0 ||
matchArguments(mmd->argumentList(),argList,className,0,checkCV);
//printf("match=%d\n",match);
if (match)
{
ClassDef *mcd=mmd->getClassDef();
int m=minClassDistance(fcd,mcd);
if (m<mdist && mcd->isLinkable())
{
mdist=m;
cd=mcd;
md=mmd;
}
}
}
}
if (argList)
{
delete argList; argList=0;
}
if (mdist==maxInheritanceDepth && args && strcmp(args,"()")==0)
// no exact match found, but if args="()" an arbitrary member will do
{
//printf(" >Searching for arbitrary member\n");
for (mmli.toFirst();(mmd=mmli.current());++mmli)
{
if (mmd->isLinkable())
{
ClassDef *mcd=mmd->getClassDef();
//printf(" >Class %s found\n",mcd->name().data());
int m=minClassDistance(fcd,mcd);
if (m<mdist && mcd->isLinkable())
{
//printf("Class distance %d\n",m);
mdist=m;
cd=mcd;
md=mmd;
}
}
}
}
//printf(" >Succes=%d\n",mdist<maxInheritanceDepth);
if (mdist<maxInheritanceDepth)
{
gd=md->getGroupDef();
if (gd) cd=0;
return TRUE; /* found match */
}
}
/* go to the parent scope */
if (scopeOffset==0)
{
scopeOffset=-1;
}
else if ((scopeOffset=scopeName.findRev("::",scopeOffset-1))==-1)
{
scopeOffset=0;
}
} while (scopeOffset>=0);
// unknown or undocumented scope
}
// maybe an namespace, file or group member ?
//printf("Testing for global function scopeName=`%s' mScope=`%s' :: mName=`%s'\n",
// scopeName.data(),mScope.data(),mName.data());
if ((mn=Doxygen::functionNameSDict[mName])) // name is known
{
//printf(" >function name found\n");
NamespaceDef *fnd=0;
int scopeOffset=scopeName.length();
do
{
QCString namespaceName = scopeName.left(scopeOffset);
if (!namespaceName.isEmpty() && !mScope.isEmpty())
{
namespaceName+="::"+mScope;
}
else if (!mScope.isEmpty())
{
namespaceName=mScope.copy();
}
//printf("Trying namespace %s\n",namespaceName.data());
if (!namespaceName.isEmpty() &&
(fnd=Doxygen::namespaceSDict[namespaceName]) &&
fnd->isLinkable()
)
{
//printf("Function inside existing namespace `%s'\n",namespaceName.data());
bool found=FALSE;
MemberListIterator mmli(*mn);
MemberDef *mmd;
for (mmli.toFirst();((mmd=mmli.current()) && !found);++mmli)
{
//printf("mmd->getNamespaceDef()=%p fnd=%p\n",
// mmd->getNamespaceDef(),fnd);
if (mmd->getNamespaceDef()==fnd && mmd->isLinkable())
{ // namespace is found
bool match=TRUE;
ArgumentList *argList=0;
if (args)
{
argList=new ArgumentList;
stringToArgumentList(args,argList);
match=matchArguments(mmd->argumentList(),argList,0,
namespaceName,checkCV);
}
if (match)
{
nd=fnd;
md=mmd;
found=TRUE;
}
if (args)
{
delete argList; argList=0;
}
}
}
if (!found && args && !strcmp(args,"()"))
// no exact match found, but if args="()" an arbitrary
// member will do
{
for (mmli.toFirst();((mmd=mmli.current()) && !found);++mmli)
{
if (mmd->getNamespaceDef()==fnd && mmd->isLinkable())
{
nd=fnd;
md=mmd;
found=TRUE;
}
}
}
if (found)
{
gd=md->getGroupDef();
if (gd && gd->isLinkable()) nd=0; else gd=0;
return TRUE;
}
}
if (scopeOffset==0)
{
scopeOffset=-1;
}
else if ((scopeOffset=scopeName.findRev("::",scopeOffset-1))==-1)
{
scopeOffset=0;
}
} while (scopeOffset>=0);
//else // no scope => global function
{
QList<MemberDef> members;
//printf(" Function with global scope name `%s' args=`%s'\n",memberName.data(),args);
MemberListIterator mli(*mn);
for (mli.toFirst();(md=mli.current());++mli)
{
if (md->isLinkable())
{
fd=md->getFileDef();
gd=md->getGroupDef();
//printf(" md->name()=`%s' md->args=`%s' fd=%p gd=%p\n",
// md->name().data(),args,fd,gd);
if (
(gd && gd->isLinkable()) || (fd && fd->isLinkable())
)
{
//printf("fd=%p gd=%p inGroup=`%d' args=`%s'\n",fd,gd,inGroup,args);
bool match=TRUE;
ArgumentList *argList=0;
if (args && !md->isDefine())
{
argList=new ArgumentList;
stringToArgumentList(args,argList);
match=matchArguments(md->argumentList(),argList,0,0,checkCV);
delete argList; argList=0;
}
if (match)
{
//printf("Found match!\n");
members.append(md);
}
}
}
}
if (members.count()!=1 && args && !strcmp(args,"()"))
{
// no exact match found, but if args="()" an arbitrary
// member will do
md=mn->last();
while (md && md->isLinkable())
{
//printf("Found member `%s'\n",md->name().data());
//printf("member is linkable md->name()=`%s'\n",md->name().data());
fd=md->getFileDef();
gd=md->getGroupDef();
if (
(gd && gd->isLinkable()) || (fd && fd->isLinkable())
)
{
members.append(md);
}
md=mn->prev();
}
}
//printf("found %d candidate members\n",members.count());
if (members.count()==1 || currentFile!=0)
{
md=members.first();
}
else if (members.count()>1)
{
//printf("Found more than one matching member!\n");
// use some C scoping rules to determine the correct link
// 1. member in current file
// 2. non-static member in different file
if (currentFile==0)
{
bool ambig;
currentFile = findFileDef(Doxygen::inputNameDict,0/*namespaceName*/,ambig);
}
MemberDef *bmd = 0;
for (md=members.first(); md; md=members.next())
{
if (md->getFileDef() == currentFile)
{
bmd = 0;
break;
}
if (!(md->isStatic()) || Config_getBool("EXTRACT_STATIC")) bmd = md;
}
if (bmd) md=bmd;
}
if (md && !md->isLinkable()) md=0; // ignore things we cannot link to
if (md) // found a matching global member
{
fd=md->getFileDef();
gd=md->getGroupDef();
//printf("fd=%p gd=%p gd->isLinkable()=%d\n",fd,gd,gd->isLinkable());
if (gd && gd->isLinkable()) fd=0; else gd=0;
return TRUE;
}
}
}
// no nothing found
return FALSE;
}
/*!
* Searches for a scope definition given its name as a string via parameter
* `scope'.
*
* The parameter `docScope' is a string representing the name of the scope in
* which the `scope' string was found.
*
* The function returns TRUE if the scope is known and documented or
* FALSE if it is not.
* If TRUE is returned exactly one of the parameter `cd', `nd'
* will be non-zero:
* - if `cd' is non zero, the scope was a class pointed to by cd.
* - if `nd' is non zero, the scope was a namespace pointed to by nd.
*/
bool getScopeDefs(const char *docScope,const char *scope,
ClassDef *&cd, NamespaceDef *&nd)
{
cd=0;nd=0;
QCString scopeName=scope;
//printf("getScopeDefs: docScope=`%s' scope=`%s'\n",docScope,scope);
if (scopeName.isEmpty()) return FALSE;
bool explicitGlobalScope=FALSE;
if (scopeName.at(0)==':' && scopeName.at(1)==':')
{
scopeName=scopeName.right(scopeName.length()-2);
explicitGlobalScope=TRUE;
}
QCString docScopeName=docScope;
int scopeOffset=explicitGlobalScope ? 0 : docScopeName.length();
do // for each possible docScope (from largest to and including empty)
{
QCString fullName=scopeName.copy();
if (scopeOffset>0) fullName.prepend(docScopeName.left(scopeOffset)+"::");
if ((cd=getClass(fullName)) && cd->isLinkable())
{
return TRUE; // class link written => quit
}
else if ((nd=Doxygen::namespaceSDict[fullName]) && nd->isLinkable())
{
return TRUE; // namespace link written => quit
}
if (scopeOffset==0)
{
scopeOffset=-1;
}
else if ((scopeOffset=docScopeName.findRev("::",scopeOffset-1))==-1)
{
scopeOffset=0;
}
} while (scopeOffset>=0);
return FALSE;
}
static bool isLowerCase(QCString &s)
{
char *p=s.data();
int c;
while ((c=*p++)) if (!islower(c)) return FALSE;
return TRUE;
}
/*! Returns an object to reference to given its name and context
* @post return value TRUE implies *resContext!=0 or *resMember!=0
*/
bool resolveRef(/* in */ const char *scName,
/* in */ const char *name,
/* in */ bool inSeeBlock,
/* out */ Definition **resContext,
/* out */ MemberDef **resMember
)
{
//printf("resolveRef(scName=%s,name=%s,inSeeBlock=%d)\n",scName,name,inSeeBlock);
QCString tsName = name;
bool memberScopeFirst = tsName.find('#')!=-1;
QCString fullName = substitute(tsName,"#","::");
fullName = removeRedundantWhiteSpace(substitute(fullName,".","::"));
int bracePos=fullName.findRev('('); // reverse is needed for operator()(...)
int endNamePos=bracePos!=-1 ? bracePos : fullName.length();
int scopePos=fullName.findRev("::",endNamePos);
// default result values
*resContext=0;
*resMember=0;
if (bracePos==-1) // simple name
{
ClassDef *cd=0;
NamespaceDef *nd=0;
if (!inSeeBlock && scopePos==-1 && isLowerCase(tsName))
{ // link to lower case only name => do not try to autolink
return FALSE;
}
//printf("scName=%s name=%s\n",scName,fullName.data());
// check if this is a class or namespace reference
if (scName!=fullName && getScopeDefs(scName,fullName,cd,nd))
{
if (cd) // scope matches that of a class
{
*resContext = cd;
}
else // scope matches that of a namespace
{
ASSERT(nd!=0);
*resContext = nd;
}
return TRUE;
}
else if (scName==fullName || (!inSeeBlock && scopePos==-1)) // nothing to link => output plain text
{
return FALSE;
}
// continue search...
}
//printf("scopeContext=%s scopeUser=%s\n",scopeContext.data(),scopeUser.data());
// extract userscope+name
QCString nameStr=fullName.left(endNamePos);
// extract arguments
QCString argsStr;
if (bracePos!=-1) argsStr=fullName.right(fullName.length()-bracePos);
// strip template specifier
// TODO: match against the correct partial template instantiation
int templPos=nameStr.find('<');
if (templPos!=-1 && nameStr.find("operator")==-1)
{
int endTemplPos=nameStr.findRev('>');
nameStr=nameStr.left(templPos)+nameStr.right(nameStr.length()-endTemplPos-1);
}
QCString scopeStr=scName;
MemberDef *md = 0;
ClassDef *cd = 0;
FileDef *fd = 0;
NamespaceDef *nd = 0;
GroupDef *gd = 0;
// check if nameStr is a member or global.
//printf("getDefs(scope=%s,name=%s,args=%s)\n",scopeStr.data(),nameStr.data(),argsStr.data());
if (getDefs(scopeStr,nameStr,argsStr,
md,cd,fd,nd,gd,
scopePos==0 && !memberScopeFirst,
0,
TRUE
)
)
{
//printf("after getDefs md=%p cd=%p fd=%p nd=%p gd=%p\n",md,cd,fd,nd,gd);
if (md) { *resMember=md; *resContext=md; }
else if (cd) *resContext=cd;
else if (nd) *resContext=nd;
else if (fd) *resContext=fd;
else if (gd) *resContext=gd;
else { *resContext=0; *resMember=0; return FALSE; }
//printf("member=%s (md=%p) anchor=%s linkable()=%d context=%s\n",
// md->name().data(),md,md->anchor().data(),md->isLinkable(),(*resContext)->name().data());
return TRUE;
}
else if (inSeeBlock && !nameStr.isEmpty() && (gd=Doxygen::groupSDict[nameStr]))
{ // group link
*resContext=gd;
return TRUE;
}
else if (tsName.find('.')!=-1) // maybe a link to a file
{
bool ambig;
fd=findFileDef(Doxygen::inputNameDict,tsName,ambig);
if (fd && !ambig)
{
*resContext=fd;
return TRUE;
}
}
return FALSE;
}
QCString linkToText(const char *link,bool isFileName)
{
QCString result=link;
if (!result.isEmpty())
{
// replace # by ::
result=substitute(result,"#","::");
// replace . by ::
if (!isFileName) result=substitute(result,".","::");
// strip leading :: prefix if present
if (result.at(0)==':' && result.at(1)==':')
{
result=result.right(result.length()-2);
}
if (Config_getBool("OPTIMIZE_OUTPUT_JAVA"))
{
result=substitute(result,"::",".");
}
}
return result;
}
/*!
* generate a reference to a class, namespace or member.
* `scName' is the name of the scope that contains the documentation
* string that is returned.
* `name' is the name that we want to link to.
* `name' may have five formats:
* 1) "ScopeName"
* 2) "memberName()" one of the (overloaded) function or define
* with name memberName.
* 3) "memberName(...)" a specific (overloaded) function or define
* with name memberName
* 4) "::name a global variable or define
* 4) "#memberName member variable, global variable or define
* 5) ("ScopeName::")+"memberName()"
* 6) ("ScopeName::")+"memberName(...)"
* 7) ("ScopeName::")+"memberName"
* instead of :: the # symbol may also be used.
*/
bool generateRef(OutputDocInterface &od,const char *scName,
const char *name,bool inSeeBlock,const char *rt)
{
//printf("generateRef(scName=%s,name=%s,rt=%s)\n",scName,name,rt);
Definition *compound;
MemberDef *md;
// create default link text
QCString linkText = linkToText(rt,FALSE);
if (resolveRef(scName,name,inSeeBlock,&compound,&md))
{
if (md && md->isLinkable()) // link to member
{
od.writeObjectLink(md->getReference(),
md->getOutputFileBase(),
md->anchor(),linkText);
// generate the page reference (for LaTeX)
if (!md->isReference())
{
writePageRef(od,md->getOutputFileBase(),md->anchor());
}
return TRUE;
}
else if (compound && compound->isLinkable()) // link to compound
{
if (rt==0 && compound->definitionType()==Definition::TypeGroup)
{
linkText=((GroupDef *)compound)->groupTitle();
}
if (compound && compound->definitionType()==Definition::TypeFile)
{
linkText=linkToText(rt,TRUE);
}
od.writeObjectLink(compound->getReference(),
compound->getOutputFileBase(),
0,linkText);
if (!compound->isReference())
{
writePageRef(od,compound->getOutputFileBase(),0);
}
return TRUE;
}
}
od.docify(linkText);
return FALSE;
}
bool resolveLink(/* in */ const char *scName,
/* in */ const char *lr,
/* in */ bool inSeeBlock,
/* out */ Definition **resContext,
/* out */ QCString &resAnchor
)
{
*resContext=0;
QCString linkRef=lr;
FileDef *fd;
GroupDef *gd;
PageDef *pd;
ClassDef *cd;
NamespaceDef *nd;
bool ambig;
if (linkRef.isEmpty()) // no reference name!
{
return FALSE;
}
else if ((pd=Doxygen::pageSDict->find(linkRef))) // link to a page
{
GroupDef *gd = pd->getGroupDef();
if (gd)
{
SectionInfo *si=0;
if (!pd->name().isEmpty()) si=Doxygen::sectionDict[pd->name()];
*resContext=gd;
if (si) resAnchor = si->label;
}
else
{
*resContext=pd;
}
return TRUE;
}
else if ((pd=Doxygen::exampleSDict->find(linkRef))) // link to an example
{
*resContext=pd;
return TRUE;
}
else if ((gd=Doxygen::groupSDict[linkRef])) // link to a group
{
*resContext=gd;
return TRUE;
}
else if ((fd=findFileDef(Doxygen::inputNameDict,linkRef,ambig)) // file link
&& fd->isLinkable())
{
*resContext=fd;
return TRUE;
}
else if ((cd=getClass(linkRef)))
{
*resContext=cd;
return TRUE;
}
else if ((nd=Doxygen::namespaceSDict.find(linkRef)))
{
*resContext=nd;
return TRUE;
}
else // probably a member reference
{
MemberDef *md;
bool res = resolveRef(scName,lr,inSeeBlock,resContext,&md);
if (md) resAnchor=md->anchor();
return res;
}
}
//----------------------------------------------------------------------
// General function that generates the HTML code for a reference to some
// file, class or member from text `lr' within the context of class `clName'.
// This link has the text 'lt' (if not 0), otherwise `lr' is used as a
// basis for the link's text.
// returns TRUE if a link could be generated.
bool generateLink(OutputDocInterface &od,const char *clName,
const char *lr,bool inSeeBlock,const char *lt)
{
//printf("generateLink(clName=%s,lr=%s,lr=%s)\n",clName,lr,lt);
Definition *compound;
//PageDef *pageDef=0;
QCString anchor,linkText=linkToText(lt,FALSE);
//printf("generateLink linkText=%s\n",linkText.data());
if (resolveLink(clName,lr,inSeeBlock,&compound,anchor))
{
if (compound) // link to compound
{
if (lt==0 && anchor.isEmpty() && /* compound link */
compound->definitionType()==Definition::TypeGroup /* is group */
)
{
linkText=((GroupDef *)compound)->groupTitle(); // use group's title as link
}
else if (compound->definitionType()==Definition::TypeFile)
{
linkText=linkToText(lt,TRUE);
}
od.writeObjectLink(compound->getReference(),
compound->getOutputFileBase(),anchor,linkText);
if (!compound->isReference())
{
writePageRef(od,compound->getOutputFileBase(),anchor);
}
}
else
{
err("%s:%d: Internal error: resolveLink successful but no compound found!\n",__FILE__,__LINE__);
}
return TRUE;
}
else // link could not be found
{
od.docify(linkText);
return FALSE;
}
}
void generateFileRef(OutputDocInterface &od,const char *name,const char *text)
{
//printf("generateFileRef(%s,%s)\n",name,text);
QCString linkText = text ? text : name;
//FileInfo *fi;
FileDef *fd;
bool ambig;
if ((fd=findFileDef(Doxygen::inputNameDict,name,ambig)) &&
fd->isLinkable())
// link to documented input file
od.writeObjectLink(fd->getReference(),fd->getOutputFileBase(),0,linkText);
else
od.docify(linkText);
}
//----------------------------------------------------------------------
#if 0
QCString substituteClassNames(const QCString &s)
{
int i=0,l,p;
QCString result;
if (s.isEmpty()) return result;
QRegExp r("[a-z_A-Z][a-z_A-Z0-9]*");
while ((p=r.match(s,i,&l))!=-1)
{
QCString *subst;
if (p>i) result+=s.mid(i,p-i);
if ((subst=substituteDict[s.mid(p,l)]))
{
result+=*subst;
}
else
{
result+=s.mid(p,l);
}
i=p+l;
}
result+=s.mid(i,s.length()-i);
return result;
}
#endif
//----------------------------------------------------------------------
// substitute all occurences of `src' in `s' by `dst'
QCString substitute(const char *s,const char *src,const char *dst)
{
// TODO: optimize by using strstr() instead of find
QCString input=s;
QCString output;
int i=0,p;
while ((p=input.find(src,i))!=-1)
{
output+=input.mid(i,p-i);
output+=dst;
i=p+strlen(src);
}
output+=input.mid(i,input.length()-i);
return output;
}
//----------------------------------------------------------------------
FileDef *findFileDef(const FileNameDict *fnDict,const char *n,bool &ambig)
{
ambig=FALSE;
QCString name=convertToQCString(QDir::cleanDirPath(n));
QCString path;
if (name.isEmpty()) return 0;
int slashPos=QMAX(name.findRev('/'),name.findRev('\\'));
if (slashPos!=-1)
{
path=name.left(slashPos+1);
name=name.right(name.length()-slashPos-1);
}
//printf("findFileDef path=`%s' name=`%s'\n",path.data(),name.data());
if (name.isEmpty()) return 0;
FileName *fn;
if ((fn=(*fnDict)[name]))
{
if (fn->count()==1)
{
FileDef *fd = fn->getFirst();
if (path.isEmpty() || fd->getPath().right(path.length())==path)
{
return fd;
}
}
else // file name alone is ambigious
{
int count=0;
FileNameIterator fni(*fn);
FileDef *fd;
FileDef *lastMatch=0;
for (fni.toFirst();(fd=fni.current());++fni)
{
if (path.isEmpty() || fd->getPath().right(path.length())==path)
{
count++;
lastMatch=fd;
}
}
ambig=(count>1);
return lastMatch;
}
}
return 0;
}
//----------------------------------------------------------------------
QCString showFileDefMatches(const FileNameDict *fnDict,const char *n)
{
QCString result;
QCString name=n;
QCString path;
int slashPos=QMAX(name.findRev('/'),name.findRev('\\'));
if (slashPos!=-1)
{
path=name.left(slashPos+1);
name=name.right(name.length()-slashPos-1);
}
FileName *fn;
if ((fn=(*fnDict)[name]))
{
FileNameIterator fni(*fn);
FileDef *fd;
for (fni.toFirst();(fd=fni.current());++fni)
{
if (path.isEmpty() || fd->getPath().right(path.length())==path)
{
result+=" "+fd->absFilePath()+"\n";
}
}
}
return result;
}
//----------------------------------------------------------------------
QCString substituteKeywords(const QCString &s,const char *title,const QCString &relPath)
{
QCString result = s.copy();
if (title) result = substitute(result,"$title",title);
result = substitute(result,"$datetime",dateToString(TRUE));
result = substitute(result,"$date",dateToString(FALSE));
result = substitute(result,"$year",yearToString());
result = substitute(result,"$doxygenversion",versionString);
result = substitute(result,"$projectname",Config_getString("PROJECT_NAME"));
result = substitute(result,"$projectnumber",Config_getString("PROJECT_NUMBER"));
result = substitute(result,"$relpath$",relPath);
return result;
}
//----------------------------------------------------------------------
/*! Returns the character index within \a name of the first prefix
* in Config_getList("IGNORE_PREFIX") that matches \a name at the left hand side,
* or zero if no match was found
*/
int getPrefixIndex(const QCString &name)
{
if (name.isEmpty()) return 0;
QStrList &sl = Config_getList("IGNORE_PREFIX");
char *s = sl.first();
while (s)
{
const char *ps=s;
const char *pd=name.data();
int i=0;
while (*ps!=0 && *pd!=0 && *ps==*pd) ps++,pd++,i++;
if (*ps==0 && *pd!=0)
{
return i;
}
s = sl.next();
}
return 0;
}
//----------------------------------------------------------------------------
static void initBaseClassHierarchy(BaseClassList *bcl)
{
BaseClassListIterator bcli(*bcl);
for ( ; bcli.current(); ++bcli)
{
ClassDef *cd=bcli.current()->classDef;
if (cd->baseClasses()->count()==0) // no base classes => new root
{
initBaseClassHierarchy(cd->baseClasses());
}
cd->visited=FALSE;
}
}
//----------------------------------------------------------------------------
void initClassHierarchy(ClassSDict *cl)
{
ClassSDict::Iterator cli(*cl);
ClassDef *cd;
for ( ; (cd=cli.current()); ++cli)
{
cd->visited=FALSE;
initBaseClassHierarchy(cd->baseClasses());
}
}
//----------------------------------------------------------------------------
bool hasVisibleRoot(BaseClassList *bcl)
{
BaseClassListIterator bcli(*bcl);
for ( ; bcli.current(); ++bcli)
{
ClassDef *cd=bcli.current()->classDef;
if (cd->isVisibleInHierarchy()) return TRUE;
hasVisibleRoot(cd->baseClasses());
}
return FALSE;
}
//----------------------------------------------------------------------
QCString escapeCharsInString(const char *name,bool allowDots)
{
static bool caseSenseNames = Config_getBool("CASE_SENSE_NAMES");
QCString result;
char c;
const char *p=name;
while ((c=*p++)!=0)
{
switch(c)
{
case '_': result+="__"; break;
case '-': result+="-"; break;
case ':': result+="_1"; break;
case '/': result+="_2"; break;
case '<': result+="_3"; break;
case '>': result+="_4"; break;
case '*': result+="_5"; break;
case '&': result+="_6"; break;
case '|': result+="_7"; break;
case '.': if (allowDots) result+="."; else result+="_8"; break;
case '!': result+="_9"; break;
case ',': result+="_00"; break;
case ' ': result+="_01"; break;
default:
if (caseSenseNames || !isupper(c))
{
result+=c;
}
else
{
result+="_";
result+=tolower(c);
}
break;
}
}
return result;
}
/*! This function determines the file name on disk of an item
* given its name, which could be a class name with template
* arguments, so special characters need to be escaped.
*/
QCString convertNameToFile(const char *name,bool allowDots)
{
static bool shortNames = Config_getBool("SHORT_NAMES");
static bool createSubdirs = Config_getBool("CREATE_SUBDIRS");
QCString result;
if (shortNames)
{
static QDict<void> usedNames(10007);
static int count=1;
void *value=usedNames.find(name);
int num;
if (value==0)
{
usedNames.insert(name,(void *)count);
num = count++;
}
else
{
num = *(int*)&value;
}
result.sprintf("a%05d",num);
}
else // long names
{
result=escapeCharsInString(name,allowDots);
}
if (createSubdirs)
{
if (Doxygen::htmlDirMap==0)
{
Doxygen::htmlDirMap=new QDict<int>(100003);
Doxygen::htmlDirMap->setAutoDelete(TRUE);
}
static int curDirNum=0;
int *dirNum = Doxygen::htmlDirMap->find(result);
int l1Dir=0,l2Dir=0;
if (dirNum==0) // new name
{
Doxygen::htmlDirMap->insert(result,new int(curDirNum));
l1Dir = (curDirNum)%10;
l2Dir = ((curDirNum)/10)%10;
curDirNum++;
}
else // existing name
{
l1Dir = (*dirNum)%10;
l2Dir = ((*dirNum)/10)%10;
}
result.prepend(QCString().sprintf("d%d/d%d/",l1Dir,l2Dir));
}
return result;
}
QCString relativePathToRoot(const char *name)
{
QCString result;
if (Config_getBool("CREATE_SUBDIRS"))
{
if (name==0)
{
return REL_PATH_TO_ROOT;
}
else
{
QCString n = name;
int i = n.findRev('/');
if (i!=-1)
{
result=REL_PATH_TO_ROOT;
}
}
}
return result;
}
void createSubDirs(QDir &d)
{
if (Config_getBool("CREATE_SUBDIRS"))
{
// create 100 subdirectories
int l1,l2;
for (l1=0;l1<10;l1++)
{
d.mkdir(QString().sprintf("d%d",l1));
for (l2=0;l2<10;l2++)
{
d.mkdir(QString().sprintf("d%d/d%d",l1,l2));
}
}
}
}
/*! Input is a scopeName, output is the scopename split into a
* namespace part (as large as possible) and a classname part.
*/
void extractNamespaceName(const QCString &scopeName,
QCString &className,QCString &namespaceName,
bool allowEmptyClass)
{
int i,p;
QCString clName=scopeName;
NamespaceDef *nd = 0;
if (!clName.isEmpty() && (nd=getResolvedNamespace(clName)) && getClass(clName)==0)
{ // the whole name is a namespace (and not a class)
namespaceName=nd->name().copy();
className.resize(0);
goto done;
}
p=clName.length()-2;
while (p>=0 && (i=clName.findRev("::",p))!=-1)
// see if the first part is a namespace (and not a class)
{
//printf("Trying %s\n",clName.left(i).data());
if (i>0 && (nd=getResolvedNamespace(clName.left(i))) && getClass(clName.left(i))==0)
{
//printf("found!\n");
namespaceName=nd->name().copy();
className=clName.right(clName.length()-i-2);
goto done;
}
p=i-2; // try a smaller piece of the scope
}
//printf("not found!\n");
// not found, so we just have to guess.
className=scopeName.copy();
namespaceName.resize(0);
done:
if (className.isEmpty() && !namespaceName.isEmpty() && !allowEmptyClass)
{
// class and namespace with the same name, correct to return the class.
className=namespaceName.copy();
namespaceName.resize(0);
}
//printf("extractNamespace `%s' => `%s|%s'\n",scopeName.data(),
// className.data(),namespaceName.data());
return;
}
QCString insertTemplateSpecifierInScope(const QCString &scope,const QCString &templ)
{
QCString result=scope.copy();
if (!templ.isEmpty() && scope.find('<')==-1)
{
int si,pi=0;
ClassDef *cd=0;
while (
(si=scope.find("::",pi))!=-1 && !getClass(scope.left(si)+templ) &&
((cd=getClass(scope.left(si)))==0 || cd->templateArguments()==0)
)
{
//printf("Tried `%s'\n",(scope.left(si)+templ).data());
pi=si+2;
}
if (si==-1) // not nested => append template specifier
{
result+=templ;
}
else // nested => insert template specifier before after first class name
{
result=scope.left(si) + templ + scope.right(scope.length()-si);
}
}
//printf("insertTemplateSpecifierInScope(`%s',`%s')=%s\n",
// scope.data(),templ.data(),result.data());
return result;
}
/*! Strips the scope from a name. Examples: A::B will return A
* and A<T>::B<N::C<D> > will return A<T>.
* \todo deal with cases like A< s<<2 >::B
*/
QCString stripScope(const char *name)
{
QCString result = name;
int l=result.length();
int p=l-1;
bool done;
int count;
while (p>=0)
{
char c=result.at(p);
switch (c)
{
case ':':
//printf("stripScope(%s)=%s\n",name,result.right(l-p-1).data());
return result.right(l-p-1);
case '>':
count=1;
done=FALSE;
//printf("pos < = %d\n",p);
p--;
while (p>=0 && !done)
{
c=result.at(p--);
switch (c)
{
case '>': count++; break;
case '<': count--; if (count<=0) done=TRUE; break;
default:
//printf("c=%c count=%d\n",c,count);
break;
}
}
//printf("pos > = %d\n",p+1);
break;
default:
p--;
}
}
//printf("stripScope(%s)=%s\n",name,name);
return name;
}
/*! Convert nibble (range 0..15) to hex char */
//static char nibbleToHex(int n)
//{
// return (n < 10) ? ('0'+n) : ('a'+n-10);
//}
/*! Converts a string to an XML-encoded string */
QCString convertToXML(const char *s)
{
QCString result;
if (s==0) return result;
const char *p=s;
char c;
while ((c=*p++))
{
switch (c)
{
case '<': result+="<"; break;
case '>': result+=">"; break;
case '&': result+="&"; break;
case '\'': result+="'"; break;
case '"': result+="""; break;
default:
//if (c<0)
//{ <- this doesn't work for languages that use
// characters with codes beyond 255
// result+=(QCString)"&#x" +
// nibbleToHex((((uchar)c)>>4)&0xf)+
// nibbleToHex(c&0xf)+";";
//}
//else
//{
result+=c;
//}
break;
}
}
return result;
}
/*! Converts a string to a HTML-encoded string */
QCString convertToHtml(const char *s)
{
return convertToXML(s);
}
/*! Returns the standard string that is generated when the \\overload
* command is used.
*/
const char *getOverloadDocs()
{
return "This is an overloaded member function, "
"provided for convenience. It differs from the above "
"function only in what argument(s) it accepts.";
}
void addMembersToMemberGroup(MemberList *ml,
MemberGroupSDict *memberGroupSDict,
Definition *context)
{
ASSERT(context!=0);
//printf("addMemberToMemberGroup()\n");
MemberListIterator mli(*ml);
MemberDef *md;
uint index;
for (index=0;(md=mli.current());)
{
if (md->isEnumerate()) // insert enum value of this enum into groups
{
QList<MemberDef> *fmdl=md->enumFieldList();
if (fmdl)
{
MemberDef *fmd=fmdl->first();
while (fmd)
{
int groupId=fmd->getMemberGroupId();
if (groupId!=-1)
{
MemberGroupInfo *info = Doxygen::memGrpInfoDict[groupId];
//QCString *pGrpHeader = Doxygen::memberHeaderDict[groupId];
//QCString *pDocs = Doxygen::memberDocDict[groupId];
if (info)
{
MemberGroup *mg = memberGroupSDict->find(groupId);
if (mg==0)
{
mg = new MemberGroup(
context,
groupId,
info->header,
info->doc,
info->docFile
);
memberGroupSDict->append(groupId,mg);
}
mg->insertMember(fmd); // insert in member group
fmd->setMemberGroup(mg);
}
}
fmd=fmdl->next();
}
}
}
int groupId=md->getMemberGroupId();
if (groupId!=-1)
{
MemberGroupInfo *info = Doxygen::memGrpInfoDict[groupId];
//QCString *pGrpHeader = Doxygen::memberHeaderDict[groupId];
//QCString *pDocs = Doxygen::memberDocDict[groupId];
if (info)
{
MemberGroup *mg = memberGroupSDict->find(groupId);
if (mg==0)
{
mg = new MemberGroup(
context,
groupId,
info->header,
info->doc,
info->docFile
);
memberGroupSDict->append(groupId,mg);
}
md = ml->take(index); // remove from member list
mg->insertMember(md); // insert in member group
md->setMemberGroup(mg);
continue;
}
}
++mli;++index;
}
}
/*! Extracts a (sub-)string from \a type starting at \a pos that
* could form a class. When TRUE is returned the result is the
* class \a name and a template argument list \a templSpec.
*/
bool extractClassNameFromType(const QCString &type,int &pos,QCString &name,QCString &templSpec)
{
static const QRegExp re("[a-z_A-Z][a-z_A-Z0-9:]*");
name.resize(0);
templSpec.resize(0);
int i,l;
int typeLen=type.length();
if (typeLen>0)
{
if ((i=re.match(type,pos,&l))!=-1) // for each class name in the type
{
int ts=i+l;
int te=ts;
int tl=0;
while (type.at(ts)==' ' && ts<typeLen) ts++,tl++; // skip any whitespace
if (type.at(ts)=='<') // assume template instance
{
// locate end of template
te=ts+1;
int brCount=1;
while (te<typeLen && brCount!=0)
{
if (type.at(te)=='<')
{
if (te<typeLen-1 && type.at(te+1)=='<') te++; else brCount++;
}
if (type.at(te)=='>')
{
if (te<typeLen-1 && type.at(te+1)=='>') te++; else brCount--;
}
te++;
}
}
if (te>ts) templSpec = type.mid(ts,te-ts),tl+=te-ts;
name = type.mid(i,l);
pos=i+l+tl;
//printf("extractClassNameFromType([in] type=%s,[out] pos=%d,[out] name=%s,[out] templ=%s)=TRUE\n",
// type.data(),pos,name.data(),templSpec.data());
return TRUE;
}
}
//printf("extractClassNameFromType([in] type=%s,[out] pos=%d,[out] name=%s,[out] templ=%s)=FALSE\n",
// type.data(),pos,name.data(),templSpec.data());
return FALSE;
}
/*! Substitutes any occurrence of a formal argument from argument list
* \a formalArgs in \a name by the corresponding actual argument in
* argument list \a actualArgs. The result after substitution
* is returned as a string. The argument \a name is used to
* prevent recursive substitution.
*/
QCString substituteTemplateArgumentsInString(
const QCString &name,
ArgumentList *formalArgs,
ArgumentList *actualArgs)
{
//printf("substituteTemplateArgumentsInString(name=%s formal=%s actualArg=%s)\n",
// name.data(),argListToString(formalArgs).data(),argListToString(actualArgs).data());
if (formalArgs==0) return name;
QCString result;
static QRegExp re("[a-z_A-Z][a-z_A-Z0-9]*");
int p=0,l,i;
// for each identifier in the base class name (e.g. B<T> -> B and T)
while ((i=re.match(name,p,&l))!=-1)
{
result += name.mid(p,i-p);
QCString n = name.mid(i,l);
ArgumentListIterator formAli(*formalArgs);
Argument *formArg;
Argument *actArg=actualArgs->first();
// if n is a template argument, then we substitute it
// for its template instance argument.
bool found=FALSE;
for (formAli.toFirst();
(formArg=formAli.current()) && !found;
++formAli,actArg=actualArgs->next()
)
{
//printf("n=%s formArg->type=%s formArg->name=%s\n",
// n.data(),formArg->type.data(),formArg->name.data());
if (formArg->type=="class" || formArg->type=="typename")
{
if (formArg->name==n && actArg && !actArg->type.isEmpty()) // base class is a template argument
{
// replace formal argument with the actual argument of the instance
result += actArg->type+" ";
found=TRUE;
}
else if (formArg->name==n && actArg==0 && !formArg->defval.isEmpty() &&
formArg->defval!=name /* to prevent recursion */
)
{
result += substituteTemplateArgumentsInString(formArg->defval,formalArgs,actualArgs)+" ";
found=TRUE;
}
}
}
if (!found) result += n;
p=i+l;
}
result+=name.right(name.length()-p);
//printf(" Inheritance relation %s -> %s\n",
// name.data(),result.data());
return result;
}
/*! Makes a deep copy of argument list \a src. Will allocate memory, that
* is owned by the caller.
*/
ArgumentList *copyArgumentList(const ArgumentList *src)
{
ASSERT(src!=0);
ArgumentList *dst = new ArgumentList;
dst->setAutoDelete(TRUE);
ArgumentListIterator tali(*src);
Argument *a;
for (;(a=tali.current());++tali)
{
dst->append(new Argument(*a));
}
dst->constSpecifier = src->constSpecifier;
dst->volatileSpecifier = src->volatileSpecifier;
dst->pureSpecifier = src->pureSpecifier;
return dst;
}
/*! Makes a deep copy of the list of argument lists \a srcLists.
* Will allocate memory, that is owned by the caller.
*/
QList<ArgumentList> *copyArgumentLists(const QList<ArgumentList> *srcLists)
{
ASSERT(srcLists!=0);
QList<ArgumentList> *dstLists = new QList<ArgumentList>;
dstLists->setAutoDelete(TRUE);
QListIterator<ArgumentList> sli(*srcLists);
ArgumentList *sl;
for (;(sl=sli.current());++sli)
{
dstLists->append(copyArgumentList(sl));
}
return dstLists;
}
/*! Strips template specifiers from scope \a fullName, except those
* that make up specialized classes. The switch \a parentOnly
* determines whether or not a template "at the end" of a scope
* should be considered, e.g. with \a parentOnly is \c TRUE, A<T>::B<S> will
* try to strip \<T\> and not \<S\>, while \a parentOnly is \c FALSE will
* strip both unless A<T> or B<S> are specialized template classes.
*/
QCString stripTemplateSpecifiersFromScope(const QCString &fullName,
bool parentOnly)
{
QCString result;
int p=0;
int l=fullName.length();
int i=fullName.find('<');
while (i!=-1)
{
//printf("1:result+=%s\n",fullName.mid(p,i-p).data());
int e=i+1;
bool done=FALSE;
int count=1;
while (e<l && !done)
{
char c=fullName.at(e++);
if (c=='<')
{
count++;
}
else if (c=='>')
{
count--;
done = count==0;
}
}
int si= fullName.find("::",e);
if (parentOnly && si==-1) break;
// we only do the parent scope, so we stop here if needed
result+=fullName.mid(p,i-p);
//printf(" trying %s\n",(result+fullName.mid(i,e-i)).data());
if (getClass(result+fullName.mid(i,e-i))!=0)
{
result+=fullName.mid(i,e-i);
//printf("2:result+=%s\n",fullName.mid(i,e-i-1).data());
}
p=e;
i=fullName.find('<',p);
}
result+=fullName.right(l-p);
//printf("3:result+=%s\n",fullName.right(l-p).data());
return result;
}
/*! Merges two scope parts together. The parts may (partially) overlap.
* Example1: \c A::B and \c B::C will result in \c A::B::C <br>
* Example2: \c A and \c B will be \c A::B <br>
* Example3: \c A::B and B will be \c A::B
*
* @param leftScope the left hand part of the scope.
* @param rightScope the right hand part of the scope.
* @returns the merged scope.
*/
QCString mergeScopes(const QCString &leftScope,const QCString &rightScope)
{
// case leftScope=="A" rightScope=="A::B" => result = "A::B"
if (leftScopeMatch(rightScope,leftScope)) return rightScope;
QCString result;
int i=0,p=leftScope.length();
// case leftScope=="A::B" rightScope=="B::C" => result = "A::B::C"
// case leftScope=="A::B" rightScope=="B" => result = "A::B"
bool found=FALSE;
while ((i=leftScope.findRev("::",p))!=-1)
{
if (leftScopeMatch(rightScope,leftScope.right(leftScope.length()-i-2)))
{
result = leftScope.left(i+2)+rightScope;
found=TRUE;
}
p=i-1;
}
if (found) return result;
// case leftScope=="A" rightScope=="B" => result = "A::B"
result=leftScope.copy();
if (!result.isEmpty() && !rightScope.isEmpty()) result+="::";
result+=rightScope;
return result;
}
/*! Returns a fragment from scope \a s, starting at position \a p.
*
* @param s the scope name as a string.
* @param p the start position (0 is the first).
* @param l the resulting length of the fragment.
* @returns the location of the fragment, or -1 if non is found.
*/
int getScopeFragment(const QCString &s,int p,int *l)
{
int sl=s.length();
int sp=p;
int count=0;
bool done;
if (sp>=sl) return -1;
while (sp<sl)
{
char c=s.at(sp);
if (c==':') sp++,p++; else break;
}
while (sp<sl)
{
char c=s.at(sp);
switch (c)
{
case ':': // found next part
goto found;
case '<': // skip template specifier
count=1;sp++;
done=FALSE;
while (sp<sl && !done)
{
// TODO: deal with << and >> operators!
char c=s.at(sp++);
switch(c)
{
case '<': count++; break;
case '>': count--; if (count==0) done=TRUE; break;
default: break;
}
}
break;
default:
sp++;
break;
}
}
found:
*l=sp-p;
//printf("getScopeFragment(%s,%d)=%s\n",s.data(),p,s.mid(p,*l).data());
return p;
}
//----------------------------------------------------------------------------
PageDef *addRelatedPage(const char *name,const QCString &ptitle,
const QCString &doc,
QList<SectionInfo> * /*anchors*/,
const char *fileName,int startLine,
const QList<ListItemInfo> *sli,
GroupDef *gd,
TagInfo *tagInfo
)
{
PageDef *pd=0;
//printf("addRelatedPage(name=%s gd=%p)\n",name,gd);
if ((pd=Doxygen::pageSDict->find(name)) && !tagInfo)
{
// append documentation block to the page.
pd->setDocumentation(pd->documentation()+"\n\n"+doc,fileName,startLine);
//printf("Adding page docs `%s' pi=%p name=%s\n",doc.data(),pi,name);
}
else // new page
{
QCString baseName=name;
if (baseName.right(4)==".tex")
baseName=baseName.left(baseName.length()-4);
else if (baseName.right(Doxygen::htmlFileExtension.length())==Doxygen::htmlFileExtension)
baseName=baseName.left(baseName.length()-Doxygen::htmlFileExtension.length());
QCString title=ptitle.stripWhiteSpace();
pd=new PageDef(fileName,startLine,baseName,doc,title);
pd->setRefItems(sli);
if (tagInfo)
{
pd->setReference(tagInfo->tagName);
}
QCString pageName;
if (Config_getBool("CASE_SENSE_NAMES"))
pageName=pd->name();
else
pageName=pd->name().lower();
pd->setFileName(pageName);
//printf("Appending page `%s'\n",baseName.data());
Doxygen::pageSDict->append(baseName,pd);
if (gd) gd->addPage(pd);
if (!pd->title().isEmpty())
{
//outputList->writeTitle(pi->name,pi->title);
// a page name is a label as well!
QCString file;
if (gd)
{
file=gd->getOutputFileBase();
}
else if (pd->getGroupDef())
{
file=pd->getGroupDef()->getOutputFileBase().copy();
}
else
{
file=pageName;
}
SectionInfo *si=new SectionInfo(
file,pd->name(),pd->title(),SectionInfo::Page,pd->getReference());
//printf("si->label=`%s' si->definition=%s si->fileName=`%s'\n",
// si->label.data(),si->definition?si->definition->name().data():"<none>",
// si->fileName.data());
//printf(" SectionInfo: sec=%p sec->fileName=%s\n",si,si->fileName.data());
//printf("Adding section key=%s si->fileName=%s\n",pageName.data(),si->fileName.data());
Doxygen::sectionDict.insert(pageName,si);
}
}
return pd;
}
//----------------------------------------------------------------------------
void addRefItem(const QList<ListItemInfo> *sli,
const char *prefix,
const char *name,const char *title,const char *args)
{
//printf("addRefItem(%s,%s,%s,%s)\n",prefix,name,title,args);
if (sli)
{
QListIterator<ListItemInfo> slii(*sli);
ListItemInfo *lii;
for (slii.toFirst();(lii=slii.current());++slii)
{
RefList *refList = Doxygen::xrefLists->find(lii->type);
if (refList &&
(
// either not a built-in list or the list is enabled
(lii->type!="todo" || Config_getBool("GENERATE_TODOLIST")) &&
(lii->type!="test" || Config_getBool("GENERATE_TESTLIST")) &&
(lii->type!="bug" || Config_getBool("GENERATE_BUGLIST")) &&
(lii->type!="deprecated" || Config_getBool("GENERATE_DEPRECATEDLIST"))
)
)
{
RefItem *item = refList->getRefItem(lii->itemId);
ASSERT(item!=0);
if (item->written) return;
//printf("anchor=%s\n",item->listAnchor.data());
QCString doc(1000);
doc = "\\anchor ";
doc += item->listAnchor;
doc += " <dl><dt>";
doc += prefix;
doc += " \\_internalref ";
doc += name;
doc += " \"";
doc += title;
doc += "\"";
if (args) doc += args;
doc += "</dt>\n<dd>";
doc += item->text;
doc += "</dd></dl>\n";
addRelatedPage(refList->listName(),refList->pageTitle(),doc,0,refList->listName(),1,0,0,0);
item->written=TRUE;
}
}
}
}
void addGroupListToTitle(OutputList &ol,Definition *d)
{
if (d->partOfGroups()) // write list of group to which this definition belongs
{
ol.pushGeneratorState();
ol.disableAllBut(OutputGenerator::Html);
ol.lineBreak();
ol.startSmall();
ol.docify("[");
GroupListIterator gli(*d->partOfGroups());
GroupDef *gd;
bool first=TRUE;
for (gli.toFirst();(gd=gli.current());++gli)
{
if (!first) { ol.docify(","); ol.writeNonBreakableSpace(1); } else first=FALSE;
ol.writeObjectLink(gd->getReference(),
gd->getOutputFileBase(),0,gd->groupTitle());
}
ol.docify("]");
ol.endSmall();
ol.popGeneratorState();
}
}
/*!
* Function converts Latin1 character to latex string representin the same
* character.
*/
static void latin1ToLatex(QTextStream &t,unsigned char c)
{
switch (c)
{
// the Latin-1 characters
case 161: t << "!`"; break;
case 181: t << "$\\mu$"; break;
case 191: t << "?`"; break;
case 192: t << "\\`{A}"; break;
case 193: t << "\\'{A}"; break;
case 194: t << "\\^{A}"; break;
case 195: t << "\\~{A}"; break;
case 196: t << "\\\"{A}"; break;
case 197: t << "\\AA{}"; break;
case 198: t << "\\AE{}"; break;
case 199: t << "\\c{C}"; break;
case 200: t << "\\`{E}"; break;
case 201: t << "\\'{E}"; break;
case 202: t << "\\^{E}"; break;
case 203: t << "\\\"{E}"; break;
case 204: t << "\\`{I}"; break;
case 205: t << "\\'{I}"; break;
case 206: t << "\\^{I}"; break;
case 207: t << "\\\"{I}"; break;
case 208: t << "D "; break; // anyone know the real code?
case 209: t << "\\~{N}"; break;
case 210: t << "\\`{O}"; break;
case 211: t << "\\'{O}"; break;
case 212: t << "\\^{O}"; break;
case 213: t << "\\~{O}"; break;
case 214: t << "\\\"{O}"; break;
case 215: t << "$\\times$"; break;
case 216: t << "\\O"; break;
case 217: t << "\\`{U}"; break;
case 218: t << "\\'{U}"; break;
case 219: t << "\\^{U}"; break;
case 220: t << "\\\"{U}"; break;
case 221: t << "\\'{Y}"; break;
case 223: t << "\\ss{}"; break;
case 224: t << "\\`{a}"; break;
case 225: t << "\\'{a}"; break;
case 226: t << "\\^{a}"; break;
case 227: t << "\\~{a}"; break;
case 228: t << "\\\"{a}"; break;
case 229: t << "\\aa{}"; break;
case 230: t << "\\ae{}"; break;
case 231: t << "\\c{c}"; break;
case 232: t << "\\`{e}"; break;
case 233: t << "\\'{e}"; break;
case 234: t << "\\^{e}"; break;
case 235: t << "\\\"{e}"; break;
case 236: t << "\\`{\\i}"; break;
case 237: t << "\\'{\\i}"; break;
case 238: t << "\\^{\\i}"; break;
case 239: t << "\\\"{\\i}"; break;
case 241: t << "\\~{n}"; break;
case 242: t << "\\`{o}"; break;
case 243: t << "\\'{o}"; break;
case 244: t << "\\^{o}"; break;
case 245: t << "\\~{o}"; break;
case 246: t << "\\\"{o}"; break;
case 248: t << "\\o{}"; break;
case 249: t << "\\`{u}"; break;
case 250: t << "\\'{u}"; break;
case 251: t << "\\^{u}"; break;
case 252: t << "\\\"{u}"; break;
case 253: t << "\\'{y}"; break;
case 255: t << "\\\"{y}"; break;
default: t << c;
}
}
/*!
* Function converts Latin2 character to latex string representin the same
* character.
*/
static void latin2ToLatex(QTextStream &t,unsigned char c)
{
switch (c)
{
case 0xA1: t << "\\k{A}"; break;
case 0xA2: t << c; break;
case 0xA3: t << "\\L{}"; break;
case 0xA4: t << c; break;
case 0xA5: t << c; break;
case 0xA6: t << "\\'{S}"; break;
case 0xA7: t << c; break;
case 0xA8: t << c; break;
case 0xA9: t << "\\v{S}"; break;
case 0xAA: t << "\\c{S}"; break;
case 0xAB: t << "\\v{T}"; break;
case 0xAC: t << "\\'{Z}"; break;
case 0xAD: t << c; break;
case 0xAE: t << "\\v{Z}"; break;
case 0xAF: t << "\\.{Z}"; break;
case 0xB0: t << c; break;
case 0xB1: t << "\\k{a}"; break;
case 0xB2: t << c; break;
case 0xB3: t << "\\l{}"; break;
case 0xB4: t << c; break;
case 0xB5: t << c; break;
case 0xB6: t << "\\'{s}"; break;
case 0xB7: t << c; break;
case 0xB8: t << c; break;
case 0xB9: t << "\\v{s}"; break;
case 0xBA: t << "\\c{s}"; break;
case 0xBB: t << "\\v{t}"; break;
case 0xBC: t << "\\'{z}"; break;
case 0xBD: t << c; break;
case 0xBE: t << "\\v{z}"; break;
case 0xBF: t << "\\.{z}"; break;
case 0xC0: t << "\\'{R}"; break;
case 0xC1: t << "\\'{A}"; break;
case 0xC2: t << "\\^{A}"; break;
case 0xC3: t << "\\u{A}"; break;
case 0xC4: t << "\\\"{A}"; break;
case 0xC5: t << "\\'{L}"; break;
case 0xC6: t << "\\'{C}"; break;
case 0xC7: t << "\\c{C}"; break;
case 0xC8: t << "\\v{C}"; break;
case 0xC9: t << "\\'{E}"; break;
case 0xCA: t << "\\k{E}"; break;
case 0xCB: t << "\\\"{E}"; break;
case 0xCC: t << "\\v{E}"; break;
case 0xCD: t << "\\'{I}"; break;
case 0xCE: t << "\\^{I}"; break;
case 0xCF: t << "\\v{D}"; break;
case 0xD0: t << "\\bar{D}"; break;
case 0xD1: t << "\\'{N}"; break;
case 0xD2: t << "\\v{N}"; break;
case 0xD3: t << "\\'{O}"; break;
case 0xD4: t << "\\^{O}"; break;
case 0xD5: t << "\\H{O}"; break;
case 0xD6: t << "\\\"{O}"; break;
case 0xD7: t << c; break;
case 0xD8: t << "\\v{R}"; break;
case 0xD9: t << c; break;
case 0xDA: t << "\\'{U}"; break;
case 0xDB: t << "\\H{U}"; break;
case 0xDC: t << "\\\"{U}"; break;
case 0xDD: t << "\\'{Y}"; break;
case 0xDE: t << "\\c{T}"; break;
case 0xDF: t << "\\ss"; break;
case 0xE0: t << "\\'{r}"; break;
case 0xE1: t << "\\'{a}"; break;
case 0xE2: t << "\\^{a}"; break;
case 0xE3: t << c; break;
case 0xE4: t << "\\\"{a}"; break;
case 0xE5: t << "\\'{l}"; break;
case 0xE6: t << "\\'{c}"; break;
case 0xE7: t << "\\c{c}"; break;
case 0xE8: t << "\\v{c}"; break;
case 0xE9: t << "\\'{e}"; break;
case 0xEA: t << "\\k{e}"; break;
case 0xEB: t << "\\\"{e}"; break;
case 0xEC: t << "\\v{e}"; break;
case 0xED: t << "\\'{\\i}"; break;
case 0xEE: t << "\\^{\\i}"; break;
case 0xEF: t << "\\v{d}"; break;
case 0xF0: t << "\\bar{d}"; break;
case 0xF1: t << "\\'{n}"; break;
case 0xF2: t << "\\v{n}"; break;
case 0xF3: t << "\\'{o}"; break;
case 0xF4: t << "\\^{o}"; break;
case 0xF5: t << "\\H{o}"; break;
case 0xF6: t << "\\\"{o}"; break;
case 0xF7: t << c; break;
case 0xF8: t << "\\v{r}"; break;
case 0xF9: t << c; break;
case 0xFA: t << "\\'{u}"; break;
case 0xFB: t << "\\H{u}"; break;
case 0xFC: t << "\\\"{u}"; break;
case 0xFD: t << "\\'{y}"; break;
case 0xFE: t << c; break;
case 0xFF: t << c; break;
default: t << c;
}
}
void filterLatexString(QTextStream &t,const char *str,
bool insideTabbing,bool insidePre,bool insideItem)
{
static bool isCzech = theTranslator->idLanguage()=="czech";
static bool isJapanese = theTranslator->idLanguage()=="japanese" ||
theTranslator->idLanguage()=="japanese-en";
static bool isKorean = theTranslator->idLanguage()=="korean" ||
theTranslator->idLanguage()=="korean-en";
static bool isRussian = theTranslator->idLanguage()=="russian";
static bool isUkrainian = theTranslator->idLanguage()=="ukrainian";
static bool isChinese = theTranslator->idLanguage()=="chinese" ||
theTranslator->idLanguage()=="chinese-traditional";
static bool isLatin2 = theTranslator->idLanguageCharset()=="iso-8859-2";
static bool isGreek = theTranslator->idLanguage()=="greek";
//printf("filterLatexString(%s)\n",str);
if (str)
{
const unsigned char *p=(const unsigned char *)str;
unsigned char c;
unsigned char pc='\0';
while (*p)
{
c=*p++;
if (insidePre)
{
switch(c)
{
case '\\': t << "\\(\\backslash\\)"; break;
case '{': t << "\\{"; break;
case '}': t << "\\}"; break;
case '_': t << "\\_"; break;
default:
{
// Some languages use wide characters
if (c>=128 && (isJapanese || isKorean || isChinese))
{
t << (char)c;
if (*p)
{
c = *p++;
t << (char)c;
}
}
else
{
t << (char)c;
}
break;
}
}
}
else
{
switch(c)
{
case '#': t << "\\#"; break;
case '$': t << "\\$"; break;
case '%': t << "\\%"; break;
case '^': t << "$^\\wedge$"; break;
case '&': t << "\\&"; break;
case '*': t << "$\\ast$"; break;
case '_': t << "\\_";
if (!insideTabbing) t << "\\-";
break;
case '{': t << "\\{"; break;
case '}': t << "\\}"; break;
case '<': t << "$<$"; break;
case '>': t << "$>$"; break;
case '|': t << "$|$"; break;
case '~': t << "$\\sim$"; break;
case '[': if (Config_getBool("PDF_HYPERLINKS") || insideItem)
t << "\\mbox{[}";
else
t << "[";
break;
case ']': if (pc=='[') t << "$\\,$";
if (Config_getBool("PDF_HYPERLINKS") || insideItem)
t << "\\mbox{]}";
else
t << "]";
break;
case '-': if (*p=='>')
{ t << " $\\rightarrow$ "; p++; }
else
{ t << (char)c; }
break;
case '\\': if (*p=='<')
{ t << "$<$"; p++; }
else if (*p=='>')
{ t << "$>$"; p++; }
else
{ t << "$\\backslash$"; }
break;
case '"': { t << "\\char`\\\"{}"; }
break;
default:
{
// Some languages use wide characters
if (isJapanese || isKorean || isChinese)
{
if (c>=128)
{
t << (char)c;
if (*p)
{
c = *p++;
t << (char)c;
}
}
else // ascii char => see if we can insert a hypenation hint
{
if (isupper(c) && islower(pc) && !insideTabbing) t << "\\-";
t << (char)c;
}
}
else if (isCzech || isRussian || isUkrainian)
{
if (c>=128)
{
t << (char)c;
}
else // ascii char => see if we can insert a hypenation hint
{
if (isupper(c) && islower(pc) && !insideTabbing) t << "\\-";
t << (char)c;
}
}
else if (isGreek)
{
if (c<128)
{
t << "\\textlatin{" << (char)c << "}";
}
else
{
t << (char)c;
}
}
else if (isLatin2)
{
if (c>=128)
{
latin2ToLatex(t,c);
}
else
{
// see if we can insert an hyphenation hint
if (isupper(c) && islower(pc) && !insideTabbing) t << "\\-";
t << (char)c;
}
}
else // another language => assume latin1 charset
{
if (c>=128)
{
latin1ToLatex(t,c);
}
else
{
// see if we can insert an hyphenation hint
if (isupper(c) && islower(pc) && !insideTabbing) t << "\\-";
t << (char)c;
}
}
}
}
}
pc = c;
}
}
}
QCString rtfFormatBmkStr(const char *name)
{
static QCString g_nextTag( "AAAAAAAAAA" );
static QDict<QCString> g_tagDict( 5003 );
g_tagDict.setAutoDelete(TRUE);
// To overcome the 40-character tag limitation, we
// substitute a short arbitrary string for the name
// supplied, and keep track of the correspondence
// between names and strings.
QCString key( name );
QCString* tag = g_tagDict.find( key );
if ( !tag )
{
// This particular name has not yet been added
// to the list. Add it, associating it with the
// next tag value, and increment the next tag.
tag = new QCString( g_nextTag.copy() ); // Make sure to use a deep copy!
g_tagDict.insert( key, tag );
// This is the increment part
char* nxtTag = g_nextTag.data() + g_nextTag.length() - 1;
for ( unsigned int i = 0; i < g_nextTag.length(); ++i, --nxtTag )
{
if ( ( ++(*nxtTag) ) > 'Z' )
{
*nxtTag = 'A';
}
else
{
// Since there was no carry, we can stop now
break;
}
}
}
return *tag;
}
QCString stripExtension(const char *fName)
{
QCString result=fName;
if (result.right(Doxygen::htmlFileExtension.length())==Doxygen::htmlFileExtension)
{
result=result.left(result.length()-Doxygen::htmlFileExtension.length());
}
return result;
}
void replaceNamespaceAliases(QCString &scope,int i)
{
//printf("replaceNamespaceAliases(%s,%d)\n",scope.data(),i);
while (i>0)
{
QCString *s = Doxygen::namespaceAliasDict[scope.left(i)];
if (s)
{
scope=*s+scope.right(scope.length()-i);
i=s->length();
}
i=scope.findRev("::",i-1);
}
//printf("replaceNamespaceAliases() result=%s\n",scope.data());
}
QCString stripPath(const char *s)
{
QCString result=s;
int i=result.findRev('/');
if (i!=-1)
{
result=result.mid(i+1);
}
return result;
}
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