/****************************************************************************** * * * * Copyright (C) 1997-2015 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. * */ %option never-interactive %option prefix="codeYY" %{ /* * includes */ #include #include #include #include #include #include "entry.h" #include "doxygen.h" #include "message.h" #include "outputlist.h" #include "util.h" #include "membername.h" #include "searchindex.h" #include "arguments.h" #include "config.h" #include "groupdef.h" #include "classlist.h" #include "filedef.h" #include "filename.h" #include "namespacedef.h" #include "tooltip.h" // Toggle for some debugging info //#define DBG_CTX(x) fprintf x #define DBG_CTX(x) do { } while(0) #define YY_NO_UNISTD_H 1 #define CLASSBLOCK (int *)4 #define SCOPEBLOCK (int *)8 #define INNERBLOCK (int *)12 /* ----------------------------------------------------------------- * statics */ static CodeOutputInterface * g_code; static ClassSDict *g_codeClassSDict = 0; static QCString g_curClassName; static QStrList g_curClassBases; static QCString g_parmType; static QCString g_parmName; static const char * g_inputString; //!< the code fragment as text static int g_inputPosition; //!< read offset during parsing static int g_inputLines; //!< number of line in the code fragment static int g_yyLineNr; //!< current line number static int g_yyColNr; //!< current column number static bool g_needsTermination; static bool g_exampleBlock; static QCString g_exampleName; static QCString g_exampleFile; static bool g_insideTemplate = FALSE; static QCString g_type; static QCString g_name; static QCString g_args; static QCString g_classScope; static QCString g_realScope; static QStack g_scopeStack; //!< 1 if bracket starts a scope, // 2 for internal blocks static int g_anchorCount; static FileDef * g_sourceFileDef; static bool g_lineNumbers; static Definition * g_currentDefinition; static MemberDef * g_currentMemberDef; static bool g_includeCodeFragment; static const char * g_currentFontClass; static bool g_searchingForBody; static bool g_insideBody; static int g_bodyCurlyCount; static QCString g_saveName; static QCString g_saveType; static QCString g_delimiter; static int g_bracketCount = 0; static int g_curlyCount = 0; static int g_sharpCount = 0; static bool g_inFunctionTryBlock = FALSE; static bool g_inForEachExpression = FALSE; static int g_lastTemplCastContext; static int g_lastSpecialCContext; static int g_lastStringContext; static int g_lastSkipCppContext; static int g_lastVerbStringContext; static int g_lastObjCCallContext; static int g_memCallContext; static int g_lastCContext; static int g_skipInlineInitContext; static bool g_insideObjC; static bool g_insideJava; static bool g_insideCS; static bool g_insidePHP; static bool g_insideProtocolList; static bool g_lexInit = FALSE; static QStack g_classScopeLengthStack; static int g_prefixed_with_this_keyword = FALSE; static Definition *g_searchCtx; static bool g_collectXRefs; // context for an Objective-C method call struct ObjCCallCtx { int id; QCString methodName; QCString objectTypeOrName; QGString comment; ClassDef *objectType; MemberDef *objectVar; MemberDef *method; QCString format; int lexState; int braceCount; }; // globals for objective-C method calls static ObjCCallCtx *g_currentCtx=0; static int g_currentCtxId=0; static int g_currentNameId=0; static int g_currentObjId=0; static int g_currentWordId=0; static int g_currentCommentId=0; static QStack g_contextStack; static QIntDict g_contextDict; static QIntDict g_nameDict; static QIntDict g_objectDict; static QIntDict g_wordDict; static QIntDict g_commentDict; static int g_braceCount=0; static void saveObjCContext(); static void restoreObjCContext(); static QCString g_forceTagReference; //------------------------------------------------------------------- /*! Represents a stack of variable to class mappings as found in the * code. Each scope is enclosed in pushScope() and popScope() calls. * Variables are added by calling addVariables() and one can search * for variable using findVariable(). */ class VariableContext { public: static const ClassDef *dummyContext; class Scope : public SDict { public: Scope() : SDict(17) {} }; VariableContext() { m_scopes.setAutoDelete(TRUE); } virtual ~VariableContext() { } void pushScope() { m_scopes.append(new Scope); DBG_CTX((stderr,"** Push var context %d\n",m_scopes.count())); } void popScope() { if (m_scopes.count()>0) { DBG_CTX((stderr,"** Pop var context %d\n",m_scopes.count())); m_scopes.remove(m_scopes.count()-1); } else { DBG_CTX((stderr,"** ILLEGAL: Pop var context\n")); } } void clear() { m_scopes.clear(); m_globalScope.clear(); } void clearExceptGlobal() { DBG_CTX((stderr,"** Clear var context\n")); m_scopes.clear(); } void addVariable(const QCString &type,const QCString &name); ClassDef *findVariable(const QCString &name); int count() const { return m_scopes.count(); } private: Scope m_globalScope; QList m_scopes; }; void VariableContext::addVariable(const QCString &type,const QCString &name) { //printf("VariableContext::addVariable(%s,%s)\n",type.data(),name.data()); QCString ltype = type.simplifyWhiteSpace(); QCString lname = name.simplifyWhiteSpace(); if (ltype.left(7)=="struct ") { ltype = ltype.right(ltype.length()-7); } else if (ltype.left(6)=="union ") { ltype = ltype.right(ltype.length()-6); } if (ltype.isEmpty() || lname.isEmpty()) return; DBG_CTX((stderr,"** addVariable trying: type='%s' name='%s' g_currentDefinition=%s\n", ltype.data(),lname.data(),g_currentDefinition?g_currentDefinition->name().data():"")); Scope *scope = m_scopes.count()==0 ? &m_globalScope : m_scopes.getLast(); ClassDef *varType; int i=0; if ( (varType=g_codeClassSDict->find(ltype)) || // look for class definitions inside the code block (varType=getResolvedClass(g_currentDefinition,g_sourceFileDef,ltype)) // look for global class definitions ) { DBG_CTX((stderr,"** addVariable type='%s' name='%s'\n",ltype.data(),lname.data())); scope->append(lname,varType); // add it to a list } else if ((i=ltype.find('<'))!=-1) { // probably a template class QCString typeName(ltype.left(i)); ClassDef* newDef = 0; QCString templateArgs(ltype.right(ltype.length() - i)); if ( ( // look for class definitions inside the code block (varType=g_codeClassSDict->find(typeName)) || // otherwise look for global class definitions (varType=getResolvedClass(g_currentDefinition,g_sourceFileDef,typeName,0,0,TRUE,TRUE)) ) && // and it must be a template varType->templateArguments()) { newDef = varType->getVariableInstance( templateArgs ); } if (newDef) { DBG_CTX((stderr,"** addVariable type='%s' templ='%s' name='%s'\n",typeName.data(),templateArgs.data(),lname.data())); scope->append(lname, newDef); } else { // Doesn't seem to be a template. Try just the base name. addVariable(typeName,name); } } else { if (m_scopes.count()>0) // for local variables add a dummy entry so the name // is hidden to avoid false links to global variables with the same name // TODO: make this work for namespaces as well! { DBG_CTX((stderr,"** addVariable: dummy context for '%s'\n",lname.data())); scope->append(lname,dummyContext); } else { DBG_CTX((stderr,"** addVariable: not adding variable!\n")); } } } ClassDef *VariableContext::findVariable(const QCString &name) { if (name.isEmpty()) return 0; ClassDef *result = 0; QListIterator sli(m_scopes); Scope *scope; QCString key = name; // search from inner to outer scope for (sli.toLast();(scope=sli.current());--sli) { result = scope->find(key); if (result) { DBG_CTX((stderr,"** findVariable(%s)=%p\n",name.data(),result)); return result; } } // nothing found -> also try the global scope result=m_globalScope.find(name); DBG_CTX((stderr,"** findVariable(%s)=%p\n",name.data(),result)); return result; } static VariableContext g_theVarContext; const ClassDef *VariableContext::dummyContext = (ClassDef*)0x8; //------------------------------------------------------------------- class CallContext { public: struct Ctx { Ctx() : name(g_name), type(g_type), d(0) {} QCString name; QCString type; Definition *d; }; CallContext() { m_defList.append(new Ctx); m_defList.setAutoDelete(TRUE); } virtual ~CallContext() {} void setScope(Definition *d) { Ctx *ctx = m_defList.getLast(); if (ctx) { DBG_CTX((stderr,"** Set call context %s (%p)\n",d==0 ? "" : d->name().data(),d)); ctx->d=d; } } void pushScope() { m_defList.append(new Ctx); DBG_CTX((stderr,"** Push call context %d\n",m_defList.count())); } void popScope() { if (m_defList.count()>1) { DBG_CTX((stderr,"** Pop call context %d\n",m_defList.count())); Ctx *ctx = m_defList.getLast(); if (ctx) { g_name = ctx->name; g_type = ctx->type; } m_defList.removeLast(); } else { DBG_CTX((stderr,"** ILLEGAL: Pop call context\n")); } } void clear() { DBG_CTX((stderr,"** Clear call context\n")); m_defList.clear(); m_defList.append(new Ctx); } Definition *getScope() const { Ctx *ctx = m_defList.getLast(); if (ctx) return ctx->d; else return 0; } private: QList m_defList; }; static CallContext g_theCallContext; //------------------------------------------------------------------- /*! add class/namespace name s to the scope */ static void pushScope(const char *s) { g_classScopeLengthStack.push(new int(g_classScope.length())); if (g_classScope.isEmpty() || leftScopeMatch(s,g_classScope)) { g_classScope = s; } else { g_classScope += "::"; g_classScope += s; } //printf("pushScope(%s) result: `%s'\n",s,g_classScope.data()); } /*! remove the top class/namespace name from the scope */ static void popScope() { if (!g_classScopeLengthStack.isEmpty()) { int *pLength = g_classScopeLengthStack.pop(); g_classScope.truncate(*pLength); delete pLength; } else { //err("Too many end of scopes found!\n"); } //printf("popScope() result: `%s'\n",g_classScope.data()); } static void setCurrentDoc(const QCString &anchor) { if (Doxygen::searchIndex) { if (g_searchCtx) { g_code->setCurrentDoc(g_searchCtx,g_searchCtx->anchor(),FALSE); } else { g_code->setCurrentDoc(g_sourceFileDef,anchor,TRUE); } } } static void addToSearchIndex(const char *text) { if (Doxygen::searchIndex) { g_code->addWord(text,FALSE); } } static void setClassScope(const QCString &name) { //printf("setClassScope(%s)\n",name.data()); QCString n=name; n=n.simplifyWhiteSpace(); int ts=n.find('<'); // start of template int te=n.findRev('>'); // end of template //printf("ts=%d te=%d\n",ts,te); if (ts!=-1 && te!=-1 && te>ts) { // remove template from scope n=n.left(ts)+n.right(n.length()-te-1); } while (!g_classScopeLengthStack.isEmpty()) { popScope(); } g_classScope.resize(0); int i; while ((i=n.find("::"))!=-1) { pushScope(n.left(i)); n = n.mid(i+2); } pushScope(n); //printf("--->New class scope `%s'\n",g_classScope.data()); } /*! start a new line of code, inserting a line number if g_sourceFileDef * is TRUE. If a definition starts at the current line, then the line * number is linked to the documentation of that definition. */ static void startCodeLine() { //if (g_currentFontClass) { g_code->endFontClass(); } if (g_sourceFileDef && g_lineNumbers) { //QCString lineNumber,lineAnchor; //lineNumber.sprintf("%05d",g_yyLineNr); //lineAnchor.sprintf("l%05d",g_yyLineNr); Definition *d = g_sourceFileDef->getSourceDefinition(g_yyLineNr); //printf("%s:startCodeLine(%d)=%p\n",g_sourceFileDef->name().data(),g_yyLineNr,d); if (!g_includeCodeFragment && d) { g_currentDefinition = d; g_currentMemberDef = g_sourceFileDef->getSourceMember(g_yyLineNr); g_insideBody = FALSE; g_searchingForBody = TRUE; g_realScope = d->name(); //g_classScope = ""; g_type.resize(0); g_name.resize(0); g_args.resize(0); g_parmType.resize(0); g_parmName.resize(0); //printf("Real scope: `%s'\n",g_realScope.data()); g_bodyCurlyCount = 0; QCString lineAnchor; lineAnchor.sprintf("l%05d",g_yyLineNr); if (g_currentMemberDef) { g_code->writeLineNumber(g_currentMemberDef->getReference(), g_currentMemberDef->getOutputFileBase(), g_currentMemberDef->anchor(),g_yyLineNr); setCurrentDoc(lineAnchor); } else if (d->isLinkableInProject()) { g_code->writeLineNumber(d->getReference(), d->getOutputFileBase(), 0,g_yyLineNr); setCurrentDoc(lineAnchor); } } else { g_code->writeLineNumber(0,0,0,g_yyLineNr); } } DBG_CTX((stderr,"startCodeLine(%d)\n",g_yyLineNr)); g_code->startCodeLine(g_sourceFileDef && g_lineNumbers); if (g_currentFontClass) { g_code->startFontClass(g_currentFontClass); } } static void endFontClass(); static void startFontClass(const char *s); static void endCodeLine() { DBG_CTX((stderr,"endCodeLine(%d)\n",g_yyLineNr)); endFontClass(); g_code->endCodeLine(); } static void nextCodeLine() { const char * fc = g_currentFontClass; endCodeLine(); if (g_yyLineNrcodify(tmp); free(tmp); nextCodeLine(); } else { g_code->codify(sp); done=TRUE; } } } /*! writes a link to a fragment \a text that may span multiple lines, inserting * line numbers for each line. If \a text contains newlines, the link will be * split into multiple links with the same destination, one for each line. */ static void writeMultiLineCodeLink(CodeOutputInterface &ol, Definition *d, const char *text) { static bool sourceTooltips = Config_getBool(SOURCE_TOOLTIPS); TooltipManager::instance()->addTooltip(d); QCString ref = d->getReference(); QCString file = d->getOutputFileBase(); QCString anchor = d->anchor(); QCString tooltip; if (!sourceTooltips) // fall back to simple "title" tooltips { tooltip = d->briefDescriptionAsTooltip(); } bool done=FALSE; char *p=(char *)text; while (!done) { char *sp=p; char c; while ((c=*p++) && c!='\n') { } if (c=='\n') { g_yyLineNr++; *(p-1)='\0'; //printf("writeCodeLink(%s,%s,%s,%s)\n",ref,file,anchor,sp); ol.writeCodeLink(ref,file,anchor,sp,tooltip); nextCodeLine(); } else { //printf("writeCodeLink(%s,%s,%s,%s)\n",ref,file,anchor,sp); ol.writeCodeLink(ref,file,anchor,sp,tooltip); done=TRUE; } } } static void addType() { if (g_name=="const") { g_name.resize(0); return; } if (!g_type.isEmpty()) g_type += ' ' ; g_type += g_name ; g_name.resize(0) ; if (!g_type.isEmpty()) g_type += ' ' ; g_type += g_args ; g_args.resize(0) ; } static void addParmType() { if (g_parmName=="const") { g_parmName.resize(0); return; } if (!g_parmType.isEmpty()) g_parmType += ' ' ; g_parmType += g_parmName ; g_parmName.resize(0) ; } static void addUsingDirective(const char *name) { if (g_sourceFileDef && name) { NamespaceDef *nd = Doxygen::namespaceSDict->find(name); if (nd) { g_sourceFileDef->addUsingDirective(nd); } } } static void setParameterList(MemberDef *md) { g_classScope = md->getClassDef() ? md->getClassDef()->name().data() : ""; ArgumentList *al = md->argumentList(); if (al==0) return; ArgumentListIterator it(*al); Argument *a; for (;(a=it.current());++it) { g_parmName = a->name.copy(); g_parmType = a->type.copy(); int i = g_parmType.find('*'); if (i!=-1) g_parmType = g_parmType.left(i); i = g_parmType.find('&'); if (i!=-1) g_parmType = g_parmType.left(i); g_parmType.stripPrefix("const "); g_parmType=g_parmType.stripWhiteSpace(); g_theVarContext.addVariable(g_parmType,g_parmName); } } static ClassDef *stripClassName(const char *s,Definition *d=g_currentDefinition) { int pos=0; QCString type = s; QCString className; QCString templSpec; while (extractClassNameFromType(type,pos,className,templSpec)!=-1) { QCString clName=className+templSpec; ClassDef *cd=0; if (!g_classScope.isEmpty()) { cd=getResolvedClass(d,g_sourceFileDef,g_classScope+"::"+clName); } if (cd==0) { cd=getResolvedClass(d,g_sourceFileDef,clName); } //printf("stripClass trying `%s' = %p\n",clName.data(),cd); if (cd) { return cd; } } return 0; } static MemberDef *setCallContextForVar(const QCString &name) { if (name.isEmpty()) return 0; DBG_CTX((stderr,"setCallContextForVar(%s) g_classScope=%s\n",name.data(),g_classScope.data())); int scopeEnd = name.findRev("::"); if (scopeEnd!=-1) // name with explicit scope { QCString scope = name.left(scopeEnd); QCString locName = name.right(name.length()-scopeEnd-2); //printf("explicit scope: name=%s scope=%s\n",locName.data(),scope.data()); ClassDef *mcd = getClass(scope); if (mcd && !locName.isEmpty()) { MemberDef *md=mcd->getMemberByName(locName); if (md) { //printf("name=%s scope=%s\n",locName.data(),scope.data()); g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); return md; } } else // check namespace as well { NamespaceDef *mnd = getResolvedNamespace(scope); if (mnd && !locName.isEmpty()) { MemberDef *md=mnd->getMemberByName(locName); if (md) { //printf("name=%s scope=%s\n",locName.data(),scope.data()); g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); return md; } } } } MemberName *mn; ClassDef *mcd = g_theVarContext.findVariable(name); if (mcd) // local variable { DBG_CTX((stderr,"local variable?\n")); if (mcd!=VariableContext::dummyContext) { DBG_CTX((stderr,"local var `%s' mcd=%s\n",name.data(),mcd->name().data())); g_theCallContext.setScope(mcd); } } else { DBG_CTX((stderr,"class member? scope=%s\n",g_classScope.data())); // look for a class member mcd = getClass(g_classScope); if (mcd) { DBG_CTX((stderr,"Inside class %s\n",mcd->name().data())); MemberDef *md=mcd->getMemberByName(name); if (md) { DBG_CTX((stderr,"Found member %s\n",md->name().data())); if (g_scopeStack.top()!=CLASSBLOCK) { DBG_CTX((stderr,"class member `%s' mcd=%s\n",name.data(),mcd->name().data())); g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); } return md; } } } // look for a global member if ((mn=Doxygen::functionNameSDict->find(name))) { //printf("global var `%s'\n",name.data()); if (mn->count()==1) // global defined only once { MemberDef *md=mn->getFirst(); if (!md->isStatic() || md->getBodyDef()==g_sourceFileDef) { g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); return md; } return 0; } else if (mn->count()>1) // global defined more than once { MemberNameIterator it(*mn); MemberDef *md; for (;(md=it.current());++it) { //printf("mn=%p md=%p md->getBodyDef()=%p g_sourceFileDef=%p\n", // mn,md, // md->getBodyDef(),g_sourceFileDef); // in case there are multiple members we could link to, we // only link to members if defined in the same file or // defined as external. if ((!md->isStatic() || md->getBodyDef()==g_sourceFileDef) && (g_forceTagReference.isEmpty() || g_forceTagReference==md->getReference()) ) { g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); //printf("returning member %s in source file %s\n",md->name().data(),g_sourceFileDef->name().data()); return md; } } return 0; } } return 0; } static void updateCallContextForSmartPointer() { Definition *d = g_theCallContext.getScope(); //printf("updateCallContextForSmartPointer() cd=%s\n",cd ? d->name().data() : ""); MemberDef *md; if (d && d->definitionType()==Definition::TypeClass && (md=((ClassDef*)d)->isSmartPointer())) { ClassDef *ncd = stripClassName(md->typeString(),md->getOuterScope()); if (ncd) { g_theCallContext.setScope(ncd); //printf("Found smart pointer call %s->%s!\n",cd->name().data(),ncd->name().data()); } } } static bool getLinkInScope(const QCString &c, // scope const QCString &m, // member const char *memberText, // exact text CodeOutputInterface &ol, const char *text, bool varOnly=FALSE ) { MemberDef *md; ClassDef *cd; FileDef *fd; NamespaceDef *nd; GroupDef *gd; DBG_CTX((stderr,"getLinkInScope: trying `%s'::`%s' varOnly=%d\n",c.data(),m.data(),varOnly)); if (getDefs(c,m,"()",md,cd,fd,nd,gd,FALSE,g_sourceFileDef,FALSE,g_forceTagReference) && (!varOnly || md->isVariable())) { if (md->isLinkable()) { //printf("found it %s!\n",md->qualifiedName().data()); if (g_exampleBlock) { QCString anchor; anchor.sprintf("a%d",g_anchorCount); //printf("addExampleFile(%s,%s,%s)\n",anchor.data(),g_exampleName.data(), // g_exampleFile.data()); if (md->addExample(anchor,g_exampleName,g_exampleFile)) { ol.writeCodeAnchor(anchor); g_anchorCount++; } } Definition *d = md->getOuterScope()==Doxygen::globalScope ? md->getFileDef() : md->getOuterScope(); if (md->getGroupDef()) d = md->getGroupDef(); if (d && d->isLinkable()) { g_theCallContext.setScope(stripClassName(md->typeString(),md->getOuterScope())); //printf("g_currentDefinition=%p g_currentMemberDef=%p g_insideBody=%d\n", // g_currentDefinition,g_currentMemberDef,g_insideBody); if (g_currentDefinition && g_currentMemberDef && md!=g_currentMemberDef && g_insideBody && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,md); } //printf("d->getReference()=`%s' d->getOutputBase()=`%s' name=`%s' member name=`%s'\n",d->getReference().data(),d->getOutputFileBase().data(),d->name().data(),md->name().data()); writeMultiLineCodeLink(ol,md, text ? text : memberText); addToSearchIndex(text ? text : memberText); return TRUE; } } else // found member, but is is not linkable, so make sure content inside is not assign // to the previous member, see bug762760 { DBG_CTX((stderr,"unlinkable member %s\n",md->name().data())); g_currentMemberDef = 0; } } return FALSE; } static bool getLink(const char *className, const char *memberName, CodeOutputInterface &ol, const char *text=0, bool varOnly=FALSE) { //printf("getLink(%s,%s) g_curClassName=%s\n",className,memberName,g_curClassName.data()); QCString m=removeRedundantWhiteSpace(memberName); QCString c=className; if (!getLinkInScope(c,m,memberName,ol,text,varOnly)) { if (!g_curClassName.isEmpty()) { if (!c.isEmpty()) c.prepend("::"); c.prepend(g_curClassName); return getLinkInScope(c,m,memberName,ol,text,varOnly); } return FALSE; } return TRUE; } static void generateClassOrGlobalLink(CodeOutputInterface &ol,const char *clName, bool typeOnly=FALSE,bool varOnly=FALSE) { int i=0; if (*clName=='~') // correct for matching negated values i.s.o. destructors. { g_code->codify("~"); clName++; } QCString className=clName; if (className.isEmpty()) return; if (g_insideProtocolList) // for Obj-C { className+="-p"; } if (g_insidePHP) { className = substitute(className,"\\","::"); // for PHP namespaces } else if (g_insideCS || g_insideJava) { className = substitute(className,".","::"); // for PHP namespaces } ClassDef *cd=0,*lcd=0; MemberDef *md=0; bool isLocal=FALSE; //printf("generateClassOrGlobalLink(className=%s)\n",className.data()); if (!g_prefixed_with_this_keyword || (lcd=g_theVarContext.findVariable(className))==0) // not a local variable { Definition *d = g_currentDefinition; //printf("d=%s g_sourceFileDef=%s\n",d?d->name().data():"",g_sourceFileDef?g_sourceFileDef->name().data():""); cd = getResolvedClass(d,g_sourceFileDef,className,&md); DBG_CTX((stderr,"non-local variable name=%s context=%d cd=%s md=%s!\n", className.data(),g_theVarContext.count(),cd?cd->name().data():"", md?md->name().data():"")); if (cd==0 && md==0 && (i=className.find('<'))!=-1) { QCString bareName = className.left(i); //stripTemplateSpecifiersFromScope(className); DBG_CTX((stderr,"bareName=%s\n",bareName.data())); if (bareName!=className) { cd=getResolvedClass(d,g_sourceFileDef,bareName,&md); // try unspecialized version } } NamespaceDef *nd = getResolvedNamespace(className); if (nd) { g_theCallContext.setScope(nd); addToSearchIndex(className); writeMultiLineCodeLink(*g_code,nd,clName); return; } //printf("md=%s\n",md?md->name().data():""); DBG_CTX((stderr,"is found as a type cd=%s nd=%s\n", cd?cd->name().data():"", nd?nd->name().data():"")); if (cd==0 && md==0) // also see if it is variable or enum or enum value { if (getLink(g_classScope,clName,ol,clName,varOnly)) { return; } } } else { //printf("local variable!\n"); if (lcd!=VariableContext::dummyContext) { //printf("non-dummy context lcd=%s!\n",lcd->name().data()); g_theCallContext.setScope(lcd); // to following is needed for links to a global variable, but is // no good for a link to a local variable that is also a global symbol. //if (getLink(g_classScope,clName,ol,clName)) //{ //return; //} } isLocal=TRUE; DBG_CTX((stderr,"is a local variable cd=%p!\n",cd)); } g_prefixed_with_this_keyword = FALSE; // discard the "this" prefix for the next calls if (cd && cd->isLinkable()) // is it a linkable class { DBG_CTX((stderr,"is linkable class %s\n",clName)); if (g_exampleBlock) { QCString anchor; anchor.sprintf("_a%d",g_anchorCount); //printf("addExampleClass(%s,%s,%s)\n",anchor.data(),g_exampleName.data(), // g_exampleFile.data()); if (cd->addExample(anchor,g_exampleName,g_exampleFile)) { ol.writeCodeAnchor(anchor); g_anchorCount++; } } writeMultiLineCodeLink(ol,cd,clName); addToSearchIndex(className); g_theCallContext.setScope(cd); if (md) { Definition *d = md->getOuterScope()==Doxygen::globalScope ? md->getFileDef() : md->getOuterScope(); if (md->getGroupDef()) d = md->getGroupDef(); if (d && d->isLinkable() && md->isLinkable() && g_currentMemberDef && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,md); } } } else // not a class, maybe a global member { DBG_CTX((stderr,"class %s not linkable! cd=%p md=%p typeOnly=%d\n",clName,cd,md,typeOnly)); if (!isLocal && (md!=0 || (cd==0 && !typeOnly))) // not a class, see if it is a global enum/variable/typedef. { if (md==0) // not found as a typedef { md = setCallContextForVar(clName); //printf("setCallContextForVar(%s) md=%p g_currentDefinition=%p\n",clName,md,g_currentDefinition); if (md && g_currentDefinition) { DBG_CTX((stderr,"%s accessible from %s? %d md->getOuterScope=%s\n", md->name().data(),g_currentDefinition->name().data(), isAccessibleFrom(g_currentDefinition,g_sourceFileDef,md), md->getOuterScope()->name().data())); } if (md && g_currentDefinition && isAccessibleFrom(g_currentDefinition,g_sourceFileDef,md)==-1) { md=0; // variable not accessible } } if (md && (!varOnly || md->isVariable())) { DBG_CTX((stderr,"is a global md=%p g_currentDefinition=%s linkable=%d\n",md,g_currentDefinition?g_currentDefinition->name().data():"",md->isLinkable())); if (md->isLinkable()) { QCString text; if (!g_forceTagReference.isEmpty()) // explicit reference to symbol in tag file { text=g_forceTagReference; if (text.right(4)==".tag") // strip .tag if present { text=text.left(text.length()-4); } text+=getLanguageSpecificSeparator(md->getLanguage()); text+=clName; md->setName(text); md->setLocalName(text); } else // normal reference { text=clName; } writeMultiLineCodeLink(ol,md,text); addToSearchIndex(clName); if (g_currentMemberDef && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,md); } return; } } } // nothing found, just write out the word DBG_CTX((stderr,"not found!\n")); codifyLines(clName); addToSearchIndex(clName); } } static bool generateClassMemberLink(CodeOutputInterface &ol,MemberDef *xmd,const char *memName) { // extract class definition of the return type in order to resolve // a->b()->c() like call chains //printf("type=`%s' args=`%s' class=%s\n", // xmd->typeString(),xmd->argsString(), // xmd->getClassDef()->name().data()); if (g_exampleBlock) { QCString anchor; anchor.sprintf("a%d",g_anchorCount); //printf("addExampleFile(%s,%s,%s)\n",anchor.data(),g_exampleName.data(), // g_exampleFile.data()); if (xmd->addExample(anchor,g_exampleName,g_exampleFile)) { ol.writeCodeAnchor(anchor); g_anchorCount++; } } ClassDef *typeClass = stripClassName(removeAnonymousScopes(xmd->typeString()),xmd->getOuterScope()); DBG_CTX((stderr,"%s -> typeName=%p\n",xmd->typeString(),typeClass)); g_theCallContext.setScope(typeClass); Definition *xd = xmd->getOuterScope()==Doxygen::globalScope ? xmd->getFileDef() : xmd->getOuterScope(); if (xmd->getGroupDef()) xd = xmd->getGroupDef(); if (xd && xd->isLinkable()) { //printf("g_currentDefiniton=%p g_currentMemberDef=%p xmd=%p g_insideBody=%d\n",g_currentDefinition,g_currentMemberDef,xmd,g_insideBody); if (xmd->templateMaster()) xmd = xmd->templateMaster(); if (xmd->isLinkable()) { // add usage reference if (g_currentDefinition && g_currentMemberDef && /*xmd!=g_currentMemberDef &&*/ g_insideBody && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,xmd); } // write the actual link writeMultiLineCodeLink(ol,xmd,memName); addToSearchIndex(memName); return TRUE; } } return FALSE; } static bool generateClassMemberLink(CodeOutputInterface &ol,Definition *def,const char *memName) { if (def && def->definitionType()==Definition::TypeClass) { ClassDef *cd = (ClassDef*)def; MemberDef *xmd = cd->getMemberByName(memName); //printf("generateClassMemberLink(class=%s,member=%s)=%p\n",def->name().data(),memName,xmd); if (xmd) { return generateClassMemberLink(ol,xmd,memName); } else { Definition *innerDef = cd->findInnerCompound(memName); if (innerDef) { g_theCallContext.setScope(innerDef); addToSearchIndex(memName); writeMultiLineCodeLink(*g_code,innerDef,memName); return TRUE; } } } else if (def && def->definitionType()==Definition::TypeNamespace) { NamespaceDef *nd = (NamespaceDef*)def; //printf("Looking for %s inside namespace %s\n",memName,nd->name().data()); Definition *innerDef = nd->findInnerCompound(memName); if (innerDef) { g_theCallContext.setScope(innerDef); addToSearchIndex(memName); writeMultiLineCodeLink(*g_code,innerDef,memName); return TRUE; } } return FALSE; } static void generateMemberLink(CodeOutputInterface &ol,const QCString &varName, char *memName) { //printf("generateMemberLink(object=%s,mem=%s) classScope=%s\n", // varName.data(),memName,g_classScope.data()); if (varName.isEmpty()) return; // look for the variable in the current context ClassDef *vcd = g_theVarContext.findVariable(varName); if (vcd) { if (vcd!=VariableContext::dummyContext) { //printf("Class found!\n"); if (getLink(vcd->name(),memName,ol)) { //printf("Found result!\n"); return; } if (vcd->baseClasses()) { BaseClassListIterator bcli(*vcd->baseClasses()); for ( ; bcli.current() ; ++bcli) { if (getLink(bcli.current()->classDef->name(),memName,ol)) { //printf("Found result!\n"); return; } } } } } else // variable not in current context, maybe it is in a parent context { vcd = getResolvedClass(g_currentDefinition,g_sourceFileDef,g_classScope); if (vcd && vcd->isLinkable()) { //printf("Found class %s for variable `%s'\n",g_classScope.data(),varName.data()); MemberName *vmn=Doxygen::memberNameSDict->find(varName); if (vmn==0) { int vi; QCString vn=varName; if ((vi=vn.findRev("::"))!=-1 || (vi=vn.findRev('.'))!=-1) // explicit scope A::b(), probably static member { ClassDef *jcd = getClass(vn.left(vi)); vn=vn.right(vn.length()-vi-2); vmn=Doxygen::memberNameSDict->find(vn); //printf("Trying name `%s' scope=%s\n",vn.data(),scope.data()); if (vmn) { MemberNameIterator vmni(*vmn); MemberDef *vmd; for (;(vmd=vmni.current());++vmni) { if (/*(vmd->isVariable() || vmd->isFunction()) && */ vmd->getClassDef()==jcd) { //printf("Found variable type=%s\n",vmd->typeString()); ClassDef *mcd=stripClassName(vmd->typeString(),vmd->getOuterScope()); if (mcd && mcd->isLinkable()) { if (generateClassMemberLink(ol,mcd,memName)) return; } } } } } } if (vmn) { //printf("There is a variable with name `%s'\n",varName); MemberNameIterator vmni(*vmn); MemberDef *vmd; for (;(vmd=vmni.current());++vmni) { if (/*(vmd->isVariable() || vmd->isFunction()) && */ vmd->getClassDef()==vcd) { //printf("Found variable type=%s\n",vmd->typeString()); ClassDef *mcd=stripClassName(vmd->typeString(),vmd->getOuterScope()); if (mcd && mcd->isLinkable()) { if (generateClassMemberLink(ol,mcd,memName)) return; } } } } } } // nothing found -> write result as is codifyLines(memName); addToSearchIndex(memName); return; } static void generatePHPVariableLink(CodeOutputInterface &ol,const char *varName) { QCString name = varName+7; // strip $this-> name.prepend("$"); //printf("generatePHPVariableLink(%s) name=%s scope=%s\n",varName,name.data(),g_classScope.data()); if (!getLink(g_classScope,name,ol,varName)) { codifyLines(varName); } } static void generateFunctionLink(CodeOutputInterface &ol,const char *funcName) { //CodeClassDef *ccd=0; ClassDef *ccd=0; QCString locScope=g_classScope; QCString locFunc=removeRedundantWhiteSpace(funcName); QCString funcScope; QCString funcWithScope=locFunc; QCString funcWithFullScope=locFunc; QCString fullScope=locScope; DBG_CTX((stdout,"*** locScope=%s locFunc=%s\n",locScope.data(),locFunc.data())); int len=2; int i=locFunc.findRev("::"); if (g_currentMemberDef && g_currentMemberDef->getClassDef() && funcName==g_currentMemberDef->localName() && g_currentMemberDef->getDefLine()==g_yyLineNr && generateClassMemberLink(ol,g_currentMemberDef,funcName) ) { // special case where funcName is the name of a method that is also // defined on this line. In this case we can directly link to // g_currentMemberDef, which is not only faster, but // in case of overloaded methods, this will make sure that we link to // the correct method, and thereby get the correct reimplemented relations. // See also bug 549022. goto exit; } if (i==-1) i=locFunc.findRev("."),len=1; if (i==-1) i=locFunc.findRev("\\"),len=1; // for PHP if (i>0) { funcScope=locFunc.left(i); locFunc=locFunc.right(locFunc.length()-i-len).stripWhiteSpace(); int ts=locScope.find('<'); // start of template int te=locScope.findRev('>'); // end of template //printf("ts=%d te=%d\n",ts,te); if (ts!=-1 && te!=-1 && te>ts) { // remove template from scope locScope=locScope.left(ts)+locScope.right(locScope.length()-te-1); } ts=funcScope.find('<'); // start of template te=funcScope.findRev('>'); // end of template //printf("ts=%d te=%d\n",ts,te); if (ts!=-1 && te!=-1 && te>ts) { // remove template from scope funcScope=funcScope.left(ts)+funcScope.right(funcScope.length()-te-1); } if (!funcScope.isEmpty()) { funcWithScope = funcScope+"::"+locFunc; if (!locScope.isEmpty()) { fullScope=locScope+"::"+funcScope; } } if (!locScope.isEmpty()) { funcWithFullScope = locScope+"::"+funcWithScope; } } if (!fullScope.isEmpty() && (ccd=g_codeClassSDict->find(fullScope))) { //printf("using classScope %s\n",g_classScope.data()); if (ccd->baseClasses()) { BaseClassListIterator bcli(*ccd->baseClasses()); for ( ; bcli.current() ; ++bcli) { if (getLink(bcli.current()->classDef->name(),locFunc,ol,funcName)) { goto exit; } } } } if (!locScope.isEmpty() && fullScope!=locScope && (ccd=g_codeClassSDict->find(locScope))) { //printf("using classScope %s\n",g_classScope.data()); if (ccd->baseClasses()) { BaseClassListIterator bcli(*ccd->baseClasses()); for ( ; bcli.current() ; ++bcli) { if (getLink(bcli.current()->classDef->name(),funcWithScope,ol,funcName)) { goto exit; } } } } if (!getLink(locScope,funcWithScope,ol,funcName)) { generateClassOrGlobalLink(ol,funcName); } exit: g_forceTagReference.resize(0); return; } /*! counts the number of lines in the input */ static int countLines() { const char *p=g_inputString; char c; int count=1; while ((c=*p)) { p++ ; if (c=='\n') count++; } if (p>g_inputString && *(p-1)!='\n') { // last line does not end with a \n, so we add an extra // line and explicitly terminate the line after parsing. count++, g_needsTermination=TRUE; } return count; } static void endFontClass() { if (g_currentFontClass) { g_code->endFontClass(); g_currentFontClass=0; } } static void startFontClass(const char *s) { endFontClass(); g_code->startFontClass(s); g_currentFontClass=s; } //---------------------------------------------------------------------------- // recursively writes a linkified Objective-C method call static void writeObjCMethodCall(ObjCCallCtx *ctx) { if (ctx==0) return; char c; const char *p = ctx->format.data(); if (!ctx->methodName.isEmpty()) { //printf("writeObjCMethodCall(%s) obj=%s method=%s\n", // ctx->format.data(),ctx->objectTypeOrName.data(),ctx->methodName.data()); if (!ctx->objectTypeOrName.isEmpty() && ctx->objectTypeOrName.at(0)!='$') { //printf("Looking for object=%s method=%s\n",ctx->objectTypeOrName.data(), // ctx->methodName.data()); ClassDef *cd = g_theVarContext.findVariable(ctx->objectTypeOrName); if (cd==0) // not a local variable { if (ctx->objectTypeOrName=="self") { if (g_currentDefinition && g_currentDefinition->definitionType()==Definition::TypeClass) { ctx->objectType = (ClassDef *)g_currentDefinition; } } else { ctx->objectType = getResolvedClass( g_currentDefinition, g_sourceFileDef, ctx->objectTypeOrName, &ctx->method); } //printf(" object is class? %p\n",ctx->objectType); if (ctx->objectType) // found class { ctx->method = ctx->objectType->getMemberByName(ctx->methodName); //printf(" yes->method=%s\n",ctx->method?ctx->method->name().data():""); } else if (ctx->method==0) // search for class variable with the same name { //printf(" no\n"); //printf("g_currentDefinition=%p\n",g_currentDefinition); if (g_currentDefinition && g_currentDefinition->definitionType()==Definition::TypeClass) { ctx->objectVar = ((ClassDef *)g_currentDefinition)->getMemberByName(ctx->objectTypeOrName); //printf(" ctx->objectVar=%p\n",ctx->objectVar); if (ctx->objectVar) { ctx->objectType = stripClassName(ctx->objectVar->typeString()); //printf(" ctx->objectType=%p\n",ctx->objectType); if (ctx->objectType) { ctx->method = ctx->objectType->getMemberByName(ctx->methodName); //printf(" ctx->method=%p\n",ctx->method); } } } } } else // local variable { //printf(" object is local variable\n"); if (cd!=VariableContext::dummyContext) { ctx->method = cd->getMemberByName(ctx->methodName); //printf(" class=%p method=%p\n",cd,ctx->method); } } } } //printf("["); while ((c=*p++)) // for each character in ctx->format { if (c=='$') { char nc=*p++; if (nc=='$') // escaped $ { g_code->codify("$"); } else // name fragment or reference to a nested call { if (nc=='n') // name fragment { nc=*p++; QCString refIdStr; while (nc!=0 && isdigit(nc)) { refIdStr+=nc; nc=*p++; } p--; int refId=refIdStr.toInt(); QCString *pName = g_nameDict.find(refId); if (pName) { if (ctx->method && ctx->method->isLinkable()) { writeMultiLineCodeLink(*g_code,ctx->method,pName->data()); if (g_currentMemberDef && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,ctx->method); } } else { codifyLines(pName->data()); } } else { //printf("Invalid name: id=%d\n",refId); } } else if (nc=='o') // reference to potential object name { nc=*p++; QCString refIdStr; while (nc!=0 && isdigit(nc)) { refIdStr+=nc; nc=*p++; } p--; int refId=refIdStr.toInt(); QCString *pObject = g_objectDict.find(refId); if (pObject) { if (*pObject=="self") { if (g_currentDefinition && g_currentDefinition->definitionType()==Definition::TypeClass) { ctx->objectType = (ClassDef *)g_currentDefinition; if (ctx->objectType->categoryOf()) { ctx->objectType = ctx->objectType->categoryOf(); } if (ctx->objectType) { ctx->method = ctx->objectType->getMemberByName(ctx->methodName); } } startFontClass("keyword"); codifyLines(pObject->data()); endFontClass(); } else if (*pObject=="super") { if (g_currentDefinition && g_currentDefinition->definitionType()==Definition::TypeClass) { ClassDef *cd = (ClassDef *)g_currentDefinition; if (cd->categoryOf()) { cd = cd->categoryOf(); } BaseClassList *bcd = cd->baseClasses(); if (bcd) // get direct base class (there should be only one) { BaseClassListIterator bli(*bcd); BaseClassDef *bclass; for (bli.toFirst();(bclass=bli.current());++bli) { if (bclass->classDef->compoundType()!=ClassDef::Protocol) { ctx->objectType = bclass->classDef; if (ctx->objectType) { ctx->method = ctx->objectType->getMemberByName(ctx->methodName); } } } } } startFontClass("keyword"); codifyLines(pObject->data()); endFontClass(); } else if (ctx->objectVar && ctx->objectVar->isLinkable()) // object is class variable { writeMultiLineCodeLink(*g_code,ctx->objectVar,pObject->data()); if (g_currentMemberDef && g_collectXRefs) { addDocCrossReference(g_currentMemberDef,ctx->objectVar); } } else if (ctx->objectType && ctx->objectType!=VariableContext::dummyContext && ctx->objectType->isLinkable() ) // object is class name { ClassDef *cd = ctx->objectType; writeMultiLineCodeLink(*g_code,cd,pObject->data()); } else // object still needs to be resolved { ClassDef *cd = getResolvedClass(g_currentDefinition, g_sourceFileDef, *pObject); if (cd && cd->isLinkable()) { if (ctx->objectType==0) ctx->objectType=cd; writeMultiLineCodeLink(*g_code,cd,pObject->data()); } else { codifyLines(pObject->data()); } } } else { //printf("Invalid object: id=%d\n",refId); } } else if (nc=='c') // reference to nested call { nc=*p++; QCString refIdStr; while (nc!=0 && isdigit(nc)) { refIdStr+=nc; nc=*p++; } p--; int refId=refIdStr.toInt(); ObjCCallCtx *ictx = g_contextDict.find(refId); if (ictx) // recurse into nested call { writeObjCMethodCall(ictx); if (ictx->method) // link to nested call successfully { // get the ClassDef representing the method's return type if (QCString(ictx->method->typeString())=="id") { // see if the method name is unique, if so we link to it MemberName *mn=Doxygen::memberNameSDict->find(ctx->methodName); //printf("mn->count=%d ictx->method=%s ctx->methodName=%s\n", // mn==0?-1:(int)mn->count(), // ictx->method->name().data(), // ctx->methodName.data()); if (mn && mn->count()==1) // member name unique { ctx->method = mn->getFirst(); } } else { ctx->objectType = stripClassName(ictx->method->typeString()); if (ctx->objectType) { ctx->method = ctx->objectType->getMemberByName(ctx->methodName); } } //printf(" ***** method=%s -> object=%p\n",ictx->method->name().data(),ctx->objectType); } } else { //printf("Invalid context: id=%d\n",refId); } } else if (nc=='w') // some word { nc=*p++; QCString refIdStr; while (nc!=0 && isdigit(nc)) { refIdStr+=nc; nc=*p++; } p--; int refId=refIdStr.toInt(); QCString *pWord = g_wordDict.find(refId); if (pWord) { codifyLines(pWord->data()); } } else if (nc=='d') // comment block { nc=*p++; QCString refIdStr; while (nc!=0 && isdigit(nc)) { refIdStr+=nc; nc=*p++; } p--; int refId=refIdStr.toInt(); QCString *pComment = g_commentDict.find(refId); if (pComment) { startFontClass("comment"); codifyLines(pComment->data()); endFontClass(); } } else // illegal marker { ASSERT(!"invalid escape sequence"); } } } else // normal non-marker character { char s[2]; s[0]=c;s[1]=0; codifyLines(s); } } //printf("%s %s]\n",ctx->objectTypeOrName.data(),ctx->methodName.data()); //printf("}=(type='%s',name='%s')", // ctx->objectTypeOrName.data(), // ctx->methodName.data()); } // Replaces an Objective-C method name fragment s by a marker of the form // $n12, the number (12) can later be used as a key for obtaining the name // fragment, from g_nameDict static QCString escapeName(const char *s) { QCString result; result.sprintf("$n%d",g_currentNameId); g_nameDict.insert(g_currentNameId,new QCString(s)); g_currentNameId++; return result; } static QCString escapeObject(const char *s) { QCString result; result.sprintf("$o%d",g_currentObjId); g_objectDict.insert(g_currentObjId,new QCString(s)); g_currentObjId++; return result; } static QCString escapeWord(const char *s) { QCString result; result.sprintf("$w%d",g_currentWordId); g_wordDict.insert(g_currentWordId,new QCString(s)); g_currentWordId++; return result; } static QCString escapeComment(const char *s) { QCString result; result.sprintf("$d%d",g_currentCommentId); g_commentDict.insert(g_currentCommentId,new QCString(s)); g_currentCommentId++; return result; } /* ----------------------------------------------------------------- */ #undef YY_INPUT #define YY_INPUT(buf,result,max_size) result=yyread(buf,max_size); static int yyread(char *buf,int max_size) { int c=0; while( c < max_size && g_inputString[g_inputPosition] ) { *buf = g_inputString[g_inputPosition++] ; c++; buf++; } return c; } %} B [ \t] BN [ \t\n\r] ID "$"?[a-z_A-Z\x80-\xFF][a-z_A-Z0-9\x80-\xFF]* SEP ("::"|"\\") SCOPENAME ({SEP}{BN}*)?({ID}{BN}*{SEP}{BN}*)*("~"{BN}*)?{ID} TEMPLIST "<"[^\"\}\{\(\)\/\n\>]*">" SCOPETNAME (((({ID}{TEMPLIST}?){BN}*)?{SEP}{BN}*)*)((~{BN}*)?{ID}) SCOPEPREFIX ({ID}{TEMPLIST}?{BN}*{SEP}{BN}*)+ KEYWORD_OBJC ("@public"|"@private"|"@protected"|"@class"|"@implementation"|"@interface"|"@end"|"@selector"|"@protocol"|"@optional"|"@required"|"@throw"|"@synthesize"|"@property") KEYWORD ("asm"|"__assume"|"auto"|"class"|"const"|"delete"|"enum"|"explicit"|"extern"|"false"|"friend"|"gcnew"|"gcroot"|"set"|"get"|"inline"|"internal"|"mutable"|"namespace"|"new"|"nullptr"|"override"|"operator"|"pin_ptr"|"private"|"protected"|"public"|"raise"|"register"|"remove"|"self"|"sizeof"|"static"|"struct"|"__super"|"function"|"template"|"generic"|"this"|"true"|"typedef"|"typeid"|"typename"|"union"|"using"|"virtual"|"volatile"|"abstract"|"final"|"import"|"synchronized"|"transient"|"alignas"|"alignof"|{KEYWORD_OBJC}) FLOWKW ("break"|"catch"|"continue"|"default"|"do"|"else"|"finally"|"return"|"switch"|"throw"|"throws"|"@catch"|"@finally") FLOWCONDITION ("case"|"for"|"foreach"|"for each"|"goto"|"if"|"try"|"while"|"@try") TYPEKW ("bool"|"char"|"double"|"float"|"int"|"long"|"object"|"short"|"signed"|"unsigned"|"void"|"wchar_t"|"size_t"|"boolean"|"id"|"SEL"|"string"|"nullptr") CASTKW ("const_cast"|"dynamic_cast"|"reinterpret_cast"|"static_cast") CHARLIT (("'"\\[0-7]{1,3}"'")|("'"\\."'")|("'"[^' \\\n]{1,4}"'")) ARITHOP "+"|"-"|"/"|"*"|"%"|"--"|"++" ASSIGNOP "="|"*="|"/="|"%="|"+="|"-="|"<<="|">>="|"&="|"^="|"|=" LOGICOP "=="|"!="|">"|"<"|">="|"<="|"&&"|"||"|"!" BITOP "&"|"|"|"^"|"<<"|">>"|"~" OPERATOR {ARITHOP}|{ASSIGNOP}|{LOGICOP}|{BITOP} RAWBEGIN (u|U|L|u8)?R\"[^ \t\(\)\\]{0,16}"(" RAWEND ")"[^ \t\(\)\\]{0,16}\" %option noyywrap %x SkipString %x SkipStringS %x SkipVerbString %x SkipCPP %x SkipComment %x SkipCxxComment %x RemoveSpecialCComment %x StripSpecialCComment %x Body %x FuncCall %x MemberCall %x MemberCall2 %x SkipInits %x ClassName %x AlignAs %x AlignAsEnd %x PackageName %x ClassVar %x CppCliTypeModifierFollowup %x Bases %x SkipSharp %x ReadInclude %x TemplDecl %x TemplCast %x CallEnd %x ObjCMethod %x ObjCParams %x ObjCParamType %x ObjCCall %x ObjCMName %x ObjCSkipStr %x ObjCCallComment %x OldStyleArgs %x UsingName %x RawString %x InlineInit %% <*>\x0d ^([ \t]*"#"[ \t]*("include"|"import")[ \t]*)("<"|"\"") { startFontClass("preprocessor"); g_code->codify(yytext); BEGIN( ReadInclude ); } ("@interface"|"@implementation"|"@protocol")[ \t\n]+ { g_insideObjC=TRUE; startFontClass("keyword"); codifyLines(yytext); endFontClass(); if (!g_insideTemplate) BEGIN( ClassName ); } (("public"|"private"){B}+)?("ref"|"value"|"interface"|"enum"){B}+("class"|"struct") { if (g_insideTemplate) REJECT; startFontClass("keyword"); codifyLines(yytext); endFontClass(); BEGIN( ClassName ); } "property"|"event"/{BN}* { if (g_insideTemplate) REJECT; startFontClass("keyword"); codifyLines(yytext); endFontClass(); } (KEYWORD_CPPCLI_DATATYPE|("partial"{B}+)?"class"|"struct"|"union"|"namespace"|"interface"){B}+ { startFontClass("keyword"); codifyLines(yytext); endFontClass(); if (!g_insideTemplate) BEGIN( ClassName ); } ("package")[ \t\n]+ { startFontClass("keyword"); codifyLines(yytext); endFontClass(); BEGIN( PackageName ); } \n { if (!g_insideObjC) REJECT; codifyLines(yytext); BEGIN(Body); } "-"|"+" { if (!g_insideObjC || g_insideBody) { g_code->codify(yytext); } else // Start of Objective-C method { //printf("Method!\n"); g_code->codify(yytext); BEGIN(ObjCMethod); } } ":" { g_code->codify(yytext); BEGIN(ObjCParams); } "(" { g_code->codify(yytext); BEGIN(ObjCParamType); } ";"|"{" { g_code->codify(yytext); if (*yytext=='{') { if (g_searchingForBody) { g_searchingForBody=FALSE; g_insideBody=TRUE; } if (g_insideBody) g_bodyCurlyCount++; if (!g_curClassName.isEmpty()) // valid class name { pushScope(g_curClassName); DBG_CTX((stderr,"** scope stack push SCOPEBLOCK\n")); g_scopeStack.push(SCOPEBLOCK); } } g_type.resize(0); g_name.resize(0); BEGIN(Body); } {ID}{B}*":" { g_code->codify(yytext); } {TYPEKW} { startFontClass("keywordtype"); g_code->codify(yytext); endFontClass(); g_parmType=yytext; } {ID} { generateClassOrGlobalLink(*g_code,yytext); g_parmType=yytext; } ")" { g_code->codify(yytext); BEGIN(ObjCParams); } {ID} { g_code->codify(yytext); g_parmName=yytext; g_theVarContext.addVariable(g_parmType,g_parmName); g_parmType.resize(0);g_parmName.resize(0); } {ID} { generateClassOrGlobalLink(*g_code,yytext); } . { g_code->codify(yytext); } \n { codifyLines(yytext); } [^\n\"\>]+/(">"|"\"") { //FileInfo *f; bool ambig; bool found=FALSE; //QCString absPath = yytext; //if (g_sourceFileDef && QDir::isRelativePath(absPath)) //{ // absPath = QDir::cleanDirPath(g_sourceFileDef->getPath()+"/"+absPath); //} FileDef *fd=findFileDef(Doxygen::inputNameDict,yytext,ambig); //printf("looking for include %s -> %s fd=%p\n",yytext,absPath.data(),fd); if (fd && fd->isLinkable()) { if (ambig) // multiple input files match the name { //printf("===== yes %s is ambiguous\n",yytext); QCString name = QDir::cleanDirPath(yytext).utf8(); if (!name.isEmpty() && g_sourceFileDef) { FileName *fn = Doxygen::inputNameDict->find(name); if (fn) { FileNameIterator fni(*fn); // for each include name for (fni.toFirst();!found && (fd=fni.current());++fni) { // see if this source file actually includes the file found = g_sourceFileDef->isIncluded(fd->absFilePath()); //printf(" include file %s found=%d\n",fd->absFilePath().data(),found); } } } } else // not ambiguous { found = TRUE; } } //printf(" include file %s found=%d\n",fd ? fd->absFilePath().data() : "",found); if (found) { writeMultiLineCodeLink(*g_code,fd,yytext); } else { g_code->codify(yytext); } char c=yyinput(); QCString text; text+=c; g_code->codify(text); endFontClass(); BEGIN( Body ); } ^[ \t]*"#" { startFontClass("preprocessor"); g_lastSkipCppContext = YY_START; g_code->codify(yytext); BEGIN( SkipCPP ) ; } . { g_code->codify(yytext); } [^\n\/\\]+ { g_code->codify(yytext); } \\[\r]?\n { codifyLines(yytext); } "//" { g_code->codify(yytext); } "{" { g_theVarContext.pushScope(); DBG_CTX((stderr,"** scope stack push INNERBLOCK\n")); g_scopeStack.push(INNERBLOCK); if (g_searchingForBody) { g_searchingForBody=FALSE; g_insideBody=TRUE; } g_code->codify(yytext); if (g_insideBody) { g_bodyCurlyCount++; } g_type.resize(0); g_name.resize(0); BEGIN( Body ); } "}" { g_theVarContext.popScope(); g_type.resize(0); g_name.resize(0); int *scope = g_scopeStack.pop(); DBG_CTX((stderr,"** scope stack pop SCOPEBLOCK=%d\n",scope==SCOPEBLOCK)); if (scope==SCOPEBLOCK || scope==CLASSBLOCK) { popScope(); } g_code->codify(yytext); DBG_CTX((stderr,"g_bodyCurlyCount=%d\n",g_bodyCurlyCount)); if (--g_bodyCurlyCount<=0) { g_insideBody=FALSE; g_currentMemberDef=0; if (g_currentDefinition) g_currentDefinition=g_currentDefinition->getOuterScope(); } BEGIN(Body); } "@end" { //printf("End of objc scope fd=%s\n",g_sourceFileDef->name().data()); if (g_sourceFileDef) { FileDef *fd=g_sourceFileDef; g_insideObjC = fd->name().lower().right(2)==".m" || fd->name().lower().right(3)==".mm"; //printf("insideObjC=%d\n",g_insideObjC); } else { g_insideObjC = FALSE; } if (g_insideBody) { g_theVarContext.popScope(); int *scope = g_scopeStack.pop(); DBG_CTX((stderr,"** scope stack pop SCOPEBLOCK=%d\n",scope==SCOPEBLOCK)); if (scope==SCOPEBLOCK || scope==CLASSBLOCK) { popScope(); } g_insideBody=FALSE; } startFontClass("keyword"); g_code->codify(yytext); endFontClass(); g_currentMemberDef=0; if (g_currentDefinition) g_currentDefinition=g_currentDefinition->getOuterScope(); BEGIN(Body); } ";" { g_code->codify(yytext); g_searchingForBody=FALSE; BEGIN( Body ); } [*&^%]+ { g_type=g_curClassName.copy(); g_name.resize(0); g_code->codify(yytext); BEGIN( Body ); // variable of type struct * } "__declspec"{B}*"("{B}*{ID}{B}*")" { startFontClass("keyword"); g_code->codify(yytext); endFontClass(); } {ID}("::"{ID})* { g_curClassName=yytext; addType(); if (g_curClassName=="alignas") { startFontClass("keyword"); g_code->codify(yytext); endFontClass(); BEGIN( AlignAs ); } else { generateClassOrGlobalLink(*g_code,yytext); BEGIN( ClassVar ); } } "(" { g_bracketCount=1; g_code->codify(yytext); BEGIN( AlignAsEnd ); } \n { g_yyLineNr++; codifyLines(yytext); } . { g_code->codify(yytext); } "(" { g_code->codify(yytext); g_bracketCount++; } ")" { g_code->codify(yytext); if (--g_bracketCount<=0) { BEGIN(ClassName); } } \n { g_yyLineNr++; codifyLines(yytext); } . { g_code->codify(yytext); } {ID}("\\"{ID})* { // PHP namespace g_curClassName=substitute(yytext,"\\","::"); g_scopeStack.push(CLASSBLOCK); pushScope(g_curClassName); addType(); generateClassOrGlobalLink(*g_code,yytext); BEGIN( ClassVar ); } {ID}{B}*"("{ID}")" { // Obj-C category g_curClassName=removeRedundantWhiteSpace(yytext); g_scopeStack.push(CLASSBLOCK); pushScope(g_curClassName); addType(); generateClassOrGlobalLink(*g_code,yytext); BEGIN( ClassVar ); } {ID}("."{ID})* { g_curClassName=substitute(yytext,".","::"); //printf("found package: %s\n",g_curClassName.data()); addType(); codifyLines(yytext); } "=" { unput(*yytext); BEGIN( Body ); } ("extends"|"implements") { // Java startFontClass("keyword"); codifyLines(yytext); endFontClass(); g_curClassBases.clear(); BEGIN( Bases ); } ("sealed"|"abstract")/{BN}*(":"|"{") { DBG_CTX((stderr,"***** C++/CLI modifier %s on g_curClassName=%s\n",yytext,g_curClassName.data())); startFontClass("keyword"); codifyLines(yytext); endFontClass(); BEGIN( CppCliTypeModifierFollowup ); } {ID} { g_type = g_curClassName.copy(); g_name = yytext; if (g_insideBody) { g_theVarContext.addVariable(g_type,g_name); } generateClassOrGlobalLink(*g_code,yytext); } {B}*":"{B}* { codifyLines(yytext); g_curClassBases.clear(); BEGIN( Bases ); } [ \t]*";" | ^{B}*/"@"{ID} | // Objective-C interface {B}*"{"{B}* { g_theVarContext.pushScope(); g_code->codify(yytext); if (YY_START==ClassVar && g_curClassName.isEmpty()) { g_curClassName = g_name.copy(); } if (g_searchingForBody) { g_searchingForBody=FALSE; g_insideBody=TRUE; } if (g_insideBody) g_bodyCurlyCount++; if (!g_curClassName.isEmpty()) // valid class name { DBG_CTX((stderr,"** scope stack push CLASSBLOCK\n")); g_scopeStack.push(CLASSBLOCK); pushScope(g_curClassName); DBG_CTX((stderr,"***** g_curClassName=%s\n",g_curClassName.data())); if (getResolvedClass(g_currentDefinition,g_sourceFileDef,g_curClassName)==0) { DBG_CTX((stderr,"Adding new class %s\n",g_curClassName.data())); ClassDef *ncd=new ClassDef("",1,1, g_curClassName,ClassDef::Class,0,0,FALSE); g_codeClassSDict->append(g_curClassName,ncd); // insert base classes. char *s=g_curClassBases.first(); while (s) { ClassDef *bcd; bcd=g_codeClassSDict->find(s); if (bcd==0) bcd=getResolvedClass(g_currentDefinition,g_sourceFileDef,s); if (bcd && bcd!=ncd) { ncd->insertBaseClass(bcd,s,Public,Normal); } s=g_curClassBases.next(); } } //printf("g_codeClassList.count()=%d\n",g_codeClassList.count()); } else // not a class name -> assume inner block { DBG_CTX((stderr,"** scope stack push INNERBLOCK\n")); g_scopeStack.push(INNERBLOCK); } g_curClassName.resize(0); g_curClassBases.clear(); BEGIN( Body ); } "virtual"|"public"|"protected"|"private"|"@public"|"@private"|"@protected" { startFontClass("keyword"); g_code->codify(yytext); endFontClass(); } {SEP}?({ID}{SEP})*{ID} { DBG_CTX((stderr,"%s:addBase(%s)\n",g_curClassName.data(),yytext)); g_curClassBases.inSort(yytext); generateClassOrGlobalLink(*g_code,yytext); } "<" { g_code->codify(yytext); if (!g_insideObjC) { g_sharpCount=1; BEGIN ( SkipSharp ); } else { g_insideProtocolList=TRUE; } } ">" { g_code->codify(yytext); g_insideProtocolList=FALSE; } "<" { g_code->codify(yytext); ++g_sharpCount; } ">" { g_code->codify(yytext); if (--g_sharpCount<=0) BEGIN ( Bases ); } "(" { g_code->codify(yytext); g_sharpCount=1; BEGIN ( SkipSharp ); } "(" { g_code->codify(yytext); ++g_sharpCount; } ")" { g_code->codify(yytext); if (--g_sharpCount<=0) BEGIN ( Bases ); } "," { g_code->codify(yytext); } {SCOPEPREFIX}?"operator"{B}*"()"{B}*/"(" { addType(); generateFunctionLink(*g_code,yytext); g_bracketCount=0; g_args.resize(0); g_name+=yytext; BEGIN( FuncCall ); } {SCOPEPREFIX}?"operator"/"(" { addType(); generateFunctionLink(*g_code,yytext); g_bracketCount=0; g_args.resize(0); g_name+=yytext; BEGIN( FuncCall ); } {SCOPEPREFIX}?"operator"[^a-z_A-Z0-9\(\n]+/"(" { addType(); generateFunctionLink(*g_code,yytext); g_bracketCount=0; g_args.resize(0); g_name+=yytext; BEGIN( FuncCall ); } ("template"|"generic")/([^a-zA-Z0-9]) { startFontClass("keyword"); codifyLines(yytext); endFontClass(); g_insideTemplate=TRUE; g_sharpCount=0; } "using"{BN}+"namespace"{BN}+ { startFontClass("keyword"); codifyLines(yytext); endFontClass(); BEGIN(UsingName); } {ID}("::"{ID})* { addUsingDirective(yytext); generateClassOrGlobalLink(*g_code,yytext); DBG_CTX((stderr,"** scope stack push CLASSBLOCK\n")); g_scopeStack.push(CLASSBLOCK); pushScope(yytext); BEGIN(Body); } \n { codifyLines(yytext); BEGIN(Body); } . { codifyLines(yytext); BEGIN(Body); } "$"?"this"("->"|".") { g_code->codify(yytext); // this-> for C++, this. for C# g_prefixed_with_this_keyword = TRUE; } {KEYWORD}/([^a-z_A-Z0-9]) { startFontClass("keyword"); codifyLines(yytext); if (QCString(yytext)=="typedef") { addType(); g_name+=yytext; } endFontClass(); } {KEYWORD}/{B}* { startFontClass("keyword"); codifyLines(yytext); endFontClass(); } {KEYWORD}/{BN}*"(" { startFontClass("keyword"); codifyLines(yytext); endFontClass(); g_name.resize(0);g_type.resize(0); } "in"/{BN}* { if (!g_inForEachExpression) REJECT; startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); // insert the variable in the parent scope, see bug 546158 g_theVarContext.popScope(); g_theVarContext.addVariable(g_parmType,g_parmName); g_theVarContext.pushScope(); g_name.resize(0);g_type.resize(0); } {FLOWKW}/{BN}*"(" { startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); g_name.resize(0);g_type.resize(0); g_inForEachExpression = (qstrcmp(yytext,"for each")==0 || qstrcmp(yytext, "foreach")==0); BEGIN(FuncCall); } {FLOWCONDITION}/{BN}*"(" { if (g_currentMemberDef && g_currentMemberDef->isFunction()) { g_currentMemberDef->addFlowKeyWord(); } startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); g_name.resize(0);g_type.resize(0); g_inForEachExpression = (strcmp(yytext,"for each")==0 || strcmp(yytext, "foreach")==0); BEGIN(FuncCall); } {FLOWKW}/([^a-z_A-Z0-9]) { startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); if (g_inFunctionTryBlock && (qstrcmp(yytext,"catch")==0 || qstrcmp(yytext,"finally")==0)) { g_inFunctionTryBlock=FALSE; } } {FLOWCONDITION}/([^a-z_A-Z0-9]) { if (g_currentMemberDef && g_currentMemberDef->isFunction()) { g_currentMemberDef->addFlowKeyWord(); } startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); if (g_inFunctionTryBlock && (strcmp(yytext,"catch")==0 || strcmp(yytext,"finally")==0)) { g_inFunctionTryBlock=FALSE; } } {FLOWKW}/{B}* { startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); } {FLOWCONDITION}/{B}* { if (g_currentMemberDef && g_currentMemberDef->isFunction()) { g_currentMemberDef->addFlowKeyWord(); } startFontClass("keywordflow"); codifyLines(yytext); endFontClass(); } "*"{B}*")" { // end of cast? g_code->codify(yytext); g_theCallContext.popScope(); g_bracketCount--; g_parmType = g_name; BEGIN(FuncCall); } [\\|\)\+\-\/\%\~\!] { g_code->codify(yytext); g_name.resize(0);g_type.resize(0); if (*yytext==')') { g_theCallContext.popScope(); g_bracketCount--; BEGIN(FuncCall); } } {TYPEKW}/{B}* { startFontClass("keywordtype"); g_code->codify(yytext); endFontClass(); addType(); g_name+=yytext; } "generic"/{B}*"<"[^\n\/\-\.\{\"\>]*">"{B}* { startFontClass("keyword"); g_code->codify(yytext); endFontClass(); g_sharpCount=0; BEGIN(TemplDecl); } "template"/{B}*"<"[^\n\/\-\.\{\"\>]*">"{B}* { // template<...> startFontClass("keyword"); g_code->codify(yytext); endFontClass(); g_sharpCount=0; BEGIN(TemplDecl); } "class"|"typename" { startFontClass("keyword"); codifyLines(yytext); endFontClass(); } "<" { g_code->codify(yytext); g_sharpCount++; } ">" { g_code->codify(yytext); g_sharpCount--; if (g_sharpCount<=0) { BEGIN(Body); } } ">" { startFontClass("keyword"); codifyLines(yytext); endFontClass(); BEGIN( g_lastTemplCastContext ); } {ID}("::"{ID})* { generateClassOrGlobalLink(*g_code,yytext); } ("const"|"volatile"){B}* { startFontClass("keyword"); codifyLines(yytext); endFontClass(); } [*^]* { codifyLines(yytext); } {CASTKW}"<" { // static_cast( startFontClass("keyword"); codifyLines(yytext); endFontClass(); g_lastTemplCastContext = YY_START; BEGIN(TemplCast); } "$this->"{SCOPENAME}/{BN}*[;,)\]] { // PHP member variable addType(); generatePHPVariableLink(*g_code,yytext); g_name+=yytext+7; } {SCOPENAME}{B}*"<"[^\n\/\-\.\{\"\>]*">"("::"{ID})*/{B}* { // A *pt; int i=QCString(yytext).find('<'); QCString kw = QCString(yytext).left(i).stripWhiteSpace(); if (kw.right(5)=="_cast" && YY_START==Body) { REJECT; } addType(); generateClassOrGlobalLink(*g_code,yytext); g_name+=yytext; } {SCOPENAME}/{BN}*[:;,)\]] { // "int var;" or "var, var2" or "debug(f) macro" , or int var : 5; addType(); // changed this to generateFunctionLink, see bug 624514 //generateClassOrGlobalLink(*g_code,yytext,FALSE,TRUE); generateFunctionLink(*g_code,yytext); g_name+=yytext; } {SCOPENAME}/{B}* { // p->func() addType(); generateClassOrGlobalLink(*g_code,yytext); g_name+=yytext; } "("{B}*("*"{B}*)+{SCOPENAME}*{B}*")"/{B}* { // (*p)->func() but not "if (p) ..." g_code->codify(yytext); int s=0;while (s<(int)yyleng && !isId(yytext[s])) s++; int e=(int)yyleng-1;while (e>=0 && !isId(yytext[e])) e--; QCString varname = ((QCString)yytext).mid(s,e-s+1); addType(); g_name=varname; } {SCOPETNAME}/{BN}*"(" { // a() or c::a() or t::a() or A\B\foo() addType(); generateFunctionLink(*g_code,yytext); g_bracketCount=0; g_args.resize(0); g_name+=yytext; BEGIN( FuncCall ); } {RAWBEGIN} { QCString text=yytext; int i=text.find('R'); g_code->codify(text.left(i+1)); startFontClass("stringliteral"); g_code->codify(yytext+i+1); g_lastStringContext=YY_START; g_inForEachExpression = FALSE; g_delimiter = yytext+i+2; g_delimiter=g_delimiter.left(g_delimiter.length()-1); BEGIN( RawString ); } \" { startFontClass("stringliteral"); g_code->codify(yytext); g_lastStringContext=YY_START; g_inForEachExpression = FALSE; BEGIN( SkipString ); } \' { startFontClass("stringliteral"); g_code->codify(yytext); g_lastStringContext=YY_START; g_inForEachExpression = FALSE; BEGIN( SkipStringS ); } [^\"\\\r\n]* { g_code->codify(yytext); } [^\'\\\r\n]* { g_code->codify(yytext); } "//"|"/*" { g_code->codify(yytext); } @?\" { g_code->codify(yytext); endFontClass(); BEGIN( g_lastStringContext ); } \' { g_code->codify(yytext); endFontClass(); BEGIN( g_lastStringContext ); } \\. { g_code->codify(yytext); } {RAWEND} { g_code->codify(yytext); QCString delimiter = yytext+1; delimiter=delimiter.left(delimiter.length()-1); if (delimiter==g_delimiter) { BEGIN( g_lastStringContext ); } } [^)\n]+ { g_code->codify(yytext); } . { g_code->codify(yytext); } \n { codifyLines(yytext); } [^"\n]+ { g_code->codify(yytext); } \"\" { // escaped quote g_code->codify(yytext); } \" { // end of string g_code->codify(yytext); endFontClass(); BEGIN( g_lastVerbStringContext ); } . { g_code->codify(yytext); } \n { codifyLines(yytext); } ":" { g_code->codify(yytext); g_name.resize(0);g_type.resize(0); } "<" { if (g_insideTemplate) { g_sharpCount++; } g_code->codify(yytext); } ">" { if (g_insideTemplate) { if (--g_sharpCount<=0) { g_insideTemplate=FALSE; } } g_code->codify(yytext); } "'"((\\0[Xx0-9]+)|(\\.)|(.))"'" { startFontClass("charliteral"); g_code->codify(yytext); endFontClass(); } "."|"->" { if (yytext[0]=='-') // -> could be overloaded { updateCallContextForSmartPointer(); } g_code->codify(yytext); g_memCallContext = YY_START; BEGIN( MemberCall ); } {SCOPETNAME}/{BN}*"(" { if (g_theCallContext.getScope()) { if (!generateClassMemberLink(*g_code,g_theCallContext.getScope(),yytext)) { g_code->codify(yytext); addToSearchIndex(yytext); } g_name.resize(0); } else { g_code->codify(yytext); addToSearchIndex(yytext); g_name.resize(0); } g_type.resize(0); g_bracketCount=0; if (g_memCallContext==Body) { BEGIN(FuncCall); } else { BEGIN(g_memCallContext); } } {SCOPENAME}/{B}* { if (g_theCallContext.getScope()) { DBG_CTX((stderr,"g_theCallContext.getClass()=%p\n",g_theCallContext.getScope())); if (!generateClassMemberLink(*g_code,g_theCallContext.getScope(),yytext)) { g_code->codify(yytext); addToSearchIndex(yytext); } g_name.resize(0); } else { DBG_CTX((stderr,"no class context!\n")); g_code->codify(yytext); addToSearchIndex(yytext); g_name.resize(0); } g_type.resize(0); BEGIN(g_memCallContext); } [,=;\[] { if (g_insideObjC && *yytext=='[') { //printf("Found start of ObjC call!\n"); // start of a method call g_contextDict.setAutoDelete(TRUE); g_nameDict.setAutoDelete(TRUE); g_objectDict.setAutoDelete(TRUE); g_wordDict.setAutoDelete(TRUE); g_commentDict.setAutoDelete(TRUE); g_contextDict.clear(); g_nameDict.clear(); g_objectDict.clear(); g_wordDict.clear(); g_commentDict.clear(); g_currentCtxId = 0; g_currentNameId = 0; g_currentObjId = 0; g_currentCtx = 0; g_braceCount = 0; unput('['); BEGIN(ObjCCall); } else { g_code->codify(yytext); g_saveName = g_name.copy(); g_saveType = g_type.copy(); if (*yytext!='[' && !g_type.isEmpty()) { //printf("g_scopeStack.bottom()=%p\n",g_scopeStack.bottom()); //if (g_scopeStack.top()!=CLASSBLOCK) // commented out for bug731363 { //printf("AddVariable: '%s' '%s' context=%d\n", // g_type.data(),g_name.data(),g_theVarContext.count()); g_theVarContext.addVariable(g_type,g_name); } g_name.resize(0); } if (*yytext==';' || *yytext=='=') { g_type.resize(0); g_name.resize(0); } else if (*yytext=='[') { g_theCallContext.pushScope(); } g_args.resize(0); g_parmType.resize(0); g_parmName.resize(0); } } /* {ID} { if (qstrcmp(yytext,"self")==0 || qstrcmp(yytext,"super")==0) { // TODO: get proper base class for "super" g_theCallContext.setClass(getClass(g_curClassName)); startFontClass("keyword"); g_code->codify(yytext); endFontClass(); } else { generateClassOrGlobalLink(*g_code,yytext); } g_name.resize(0); BEGIN(ObjCMemberCall2); } "[" { g_code->codify(yytext); g_theCallContext.pushScope(); } {ID}":"? { g_name+=yytext; if (g_theCallContext.getClass()) { //printf("Calling method %s\n",g_name.data()); if (!generateClassMemberLink(*g_code,g_theCallContext.getClass(),g_name)) { g_code->codify(yytext); addToSearchIndex(g_name); } } else { g_code->codify(yytext); addToSearchIndex(g_name); } g_name.resize(0); BEGIN(ObjCMemberCall3); } "]" { g_theCallContext.popScope(); g_code->codify(yytext); BEGIN(Body); } */ "["|"{" { saveObjCContext(); g_currentCtx->format+=*yytext; BEGIN(ObjCCall); //printf("open\n"); } "]"|"}" { g_currentCtx->format+=*yytext; restoreObjCContext(); BEGIN(ObjCMName); if (g_currentCtx==0) { // end of call writeObjCMethodCall(g_contextDict.find(0)); BEGIN(Body); } //printf("close\n"); } "//".* { g_currentCtx->format+=escapeComment(yytext); } "/*" { g_lastObjCCallContext = YY_START; g_currentCtx->comment=yytext; BEGIN(ObjCCallComment); } "*/" { g_currentCtx->comment+=yytext; g_currentCtx->format+=escapeComment(g_currentCtx->comment); BEGIN(g_lastObjCCallContext); } [^*\n]+ { g_currentCtx->comment+=yytext; } "//"|"/*" { g_currentCtx->comment+=yytext; } \n { g_currentCtx->comment+=*yytext; } . { g_currentCtx->comment+=*yytext; } {ID} { g_currentCtx->format+=escapeObject(yytext); if (g_braceCount==0) { g_currentCtx->objectTypeOrName=yytext; //printf("new type=%s\n",g_currentCtx->objectTypeOrName.data()); BEGIN(ObjCMName); } } {ID}/{BN}*"]" { if (g_braceCount==0 && g_currentCtx->methodName.isEmpty()) { g_currentCtx->methodName=yytext; g_currentCtx->format+=escapeName(yytext); } else { g_currentCtx->format+=escapeWord(yytext); } } {ID}/{BN}*":" { if (g_braceCount==0) { g_currentCtx->methodName+=yytext; g_currentCtx->methodName+=":"; } g_currentCtx->format+=escapeName(yytext); } [^\n\"$\\]* { g_currentCtx->format+=yytext; } \\. { g_currentCtx->format+=yytext; } "\"" { g_currentCtx->format+=yytext; BEGIN(g_lastStringContext); } {CHARLIT} { g_currentCtx->format+=yytext; } "@"?"\"" { g_currentCtx->format+=yytext; g_lastStringContext=YY_START; BEGIN(ObjCSkipStr); } "$" { g_currentCtx->format+="$$"; } "(" { g_currentCtx->format+=*yytext; g_braceCount++; } ")" { g_currentCtx->format+=*yytext; g_braceCount--; } "@"/"\"" { // needed to prevent matching the global rule (for C#) g_currentCtx->format+=yytext; } {ID} { g_currentCtx->format+=escapeWord(yytext); } . { g_currentCtx->format+=*yytext; } \n { g_currentCtx->format+=*yytext; } "]" { g_theCallContext.popScope(); g_code->codify(yytext); // TODO: nested arrays like: a[b[0]->func()]->func() g_name = g_saveName.copy(); g_type = g_saveType.copy(); } [0-9]+ { g_code->codify(yytext); } [0-9]+[xX][0-9A-Fa-f]+ { g_code->codify(yytext); } {KEYWORD}/([^a-z_A-Z0-9]) { //addParmType(); //g_parmName=yytext; startFontClass("keyword"); g_code->codify(yytext); endFontClass(); } {TYPEKW}/([^a-z_A-Z0-9]) { addParmType(); g_parmName=yytext; startFontClass("keywordtype"); g_code->codify(yytext); endFontClass(); } {FLOWKW}/([^a-z_A-Z0-9]) { addParmType(); g_parmName=yytext; startFontClass("keywordflow"); g_code->codify(yytext); endFontClass(); } {FLOWCONDITION}/([^a-z_A-Z0-9]) { if (g_currentMemberDef && g_currentMemberDef->isFunction()) { g_currentMemberDef->addFlowKeyWord(); } addParmType(); g_parmName=yytext; startFontClass("keywordflow"); g_code->codify(yytext); endFontClass(); } {ID}(({B}*"<"[^\n\[\](){}<>]*">")?({B}*"::"{B}*{ID})?)* { addParmType(); g_parmName=yytext; generateClassOrGlobalLink(*g_code,yytext,!g_insideBody); } ";" { // probably a cast, not a function call g_code->codify(yytext); g_inForEachExpression = FALSE; BEGIN( Body ); } , { g_code->codify(yytext); g_theVarContext.addVariable(g_parmType,g_parmName); g_parmType.resize(0);g_parmName.resize(0); } "{" { if (g_bracketCount>0) { g_code->codify(yytext); g_skipInlineInitContext=YY_START; g_curlyCount=0; BEGIN(InlineInit); } else { REJECT; } } "{" { g_curlyCount++; g_code->codify(yytext); } "}" { g_code->codify(yytext); if (--g_curlyCount<=0) { BEGIN(g_skipInlineInitContext); } } \n { codifyLines(yytext); } . { g_code->codify(yytext); } "(" { g_parmType.resize(0);g_parmName.resize(0); g_code->codify(yytext); g_bracketCount++; g_theCallContext.pushScope(); if (YY_START==FuncCall && !g_insideBody) { g_theVarContext.pushScope(); } } {OPERATOR} { // operator if (qstrcmp(yytext,"*") && qstrcmp(yytext,"&") && qstrcmp(yytext,"^") && qstrcmp(yytext,"%")) // typically a pointer or reference { // not a * or &, or C++/CLI's ^ or % g_parmType.resize(0);g_parmName.resize(0); } g_code->codify(yytext); } ("*"{B}*)?")" { if (yytext[0]==')') // no a pointer cast { //printf("addVariable(%s,%s)\n",g_parmType.data(),g_parmName.data()); if (g_parmType.isEmpty()) { g_parmType=g_parmName; g_parmName.resize(0); } g_theVarContext.addVariable(g_parmType,g_parmName); } else { g_parmType = g_parmName; g_parmName.resize(0); g_theVarContext.addVariable(g_parmType,g_parmName); } g_theCallContext.popScope(); g_inForEachExpression = FALSE; //g_theCallContext.setClass(0); // commented out, otherwise a()->b() does not work for b(). g_code->codify(yytext); if (--g_bracketCount<=0) { if (g_name.isEmpty()) { BEGIN( Body ); } else { BEGIN( CallEnd ); } } } [ \t\n]* { codifyLines(yytext); } /* ")"[ \t\n]*[;:] { */ [;:] { codifyLines(yytext); g_bracketCount=0; if (*yytext==';') g_searchingForBody=FALSE; if (!g_type.isEmpty()) { DBG_CTX((stderr,"add variable g_type=%s g_name=%s)\n",g_type.data(),g_name.data())); g_theVarContext.addVariable(g_type,g_name); } g_parmType.resize(0);g_parmName.resize(0); g_theCallContext.setScope(0); if (*yytext==';' || g_insideBody) { if (!g_insideBody) { g_theVarContext.popScope(); } g_name.resize(0);g_type.resize(0); BEGIN( Body ); } else { g_bracketCount=0; BEGIN( SkipInits ); } } ("const"|"volatile"|"sealed"|"override")({BN}+("const"|"volatile"|"sealed"|"override"))*/{BN}*(";"|"="|"throw"{BN}*"(") { startFontClass("keyword"); codifyLines(yytext); endFontClass(); } ("const"|"volatile"|"sealed"|"override")*({BN}+("const"|"volatile"|"sealed"|"override"))*{BN}*"{" { if (g_insideBody) { g_theVarContext.pushScope(); } g_theVarContext.addVariable(g_parmType,g_parmName); //g_theCallContext.popScope(); g_parmType.resize(0);g_parmName.resize(0); int index = g_name.findRev("::"); DBG_CTX((stderr,"g_name=%s\n",g_name.data())); if (index!=-1) { QCString scope = g_name.left(index); if (!g_classScope.isEmpty()) scope.prepend(g_classScope+"::"); ClassDef *cd=getResolvedClass(Doxygen::globalScope,g_sourceFileDef,scope); if (cd) { setClassScope(cd->name()); g_scopeStack.push(SCOPEBLOCK); DBG_CTX((stderr,"** scope stack push SCOPEBLOCK\n")); } else { //setClassScope(g_realScope); g_scopeStack.push(INNERBLOCK); DBG_CTX((stderr,"** scope stack push INNERBLOCK\n")); } } else { DBG_CTX((stderr,"** scope stack push INNERBLOCK\n")); g_scopeStack.push(INNERBLOCK); } yytext[yyleng-1]='\0'; QCString cv(yytext); if (!cv.stripWhiteSpace().isEmpty()) { startFontClass("keyword"); codifyLines(yytext); endFontClass(); } else // just whitespace { codifyLines(yytext); } g_code->codify("{"); if (g_searchingForBody) { g_searchingForBody=FALSE; g_insideBody=TRUE; } if (g_insideBody) g_bodyCurlyCount++; g_type.resize(0); g_name.resize(0); BEGIN( Body ); } "try" { // function-try-block startFontClass("keyword"); g_code->codify(yytext); endFontClass(); g_inFunctionTryBlock=TRUE; } {ID} { if (g_insideBody || !g_parmType.isEmpty()) { REJECT; } // could be K&R style definition addParmType(); g_parmName=yytext; generateClassOrGlobalLink(*g_code,yytext,!g_insideBody); BEGIN(OldStyleArgs); } {ID} { addParmType(); g_parmName=yytext; generateClassOrGlobalLink(*g_code,yytext,!g_insideBody); } [,;] { g_code->codify(yytext); g_theVarContext.addVariable(g_parmType,g_parmName); if (*yytext==';') g_parmType.resize(0); g_parmName.resize(0); } "#" { startFontClass("preprocessor"); g_lastSkipCppContext = Body; g_code->codify(yytext); BEGIN( SkipCPP ); } . { unput(*yytext); if (!g_insideBody) { g_theVarContext.popScope(); } g_name.resize(0);g_args.resize(0); g_parmType.resize(0);g_parmName.resize(0); BEGIN( Body ); } ";" { g_code->codify(yytext); g_type.resize(0); g_name.resize(0); BEGIN( Body ); } "{" { g_code->codify(yytext); if (g_searchingForBody) { g_searchingForBody=FALSE; g_insideBody=TRUE; } if (g_insideBody) g_bodyCurlyCount++; if (g_name.find("::")!=-1) { DBG_CTX((stderr,"** scope stack push SCOPEBLOCK\n")); g_scopeStack.push(SCOPEBLOCK); setClassScope(g_realScope); } else { DBG_CTX((stderr,"** scope stack push INNERBLOCK\n")); g_scopeStack.push(INNERBLOCK); } g_type.resize(0); g_name.resize(0); BEGIN( Body ); } {ID} { generateClassOrGlobalLink(*g_code,yytext); } {ID}/"(" { generateFunctionLink(*g_code,yytext); } {ID}/("."|"->") { g_name=yytext; generateClassOrGlobalLink(*g_code,yytext); BEGIN( MemberCall2 ); } ("("{B}*("*"{B}*)+{ID}*{B}*")"{B}*)/("."|"->") { g_code->codify(yytext); int s=0;while (!isId(yytext[s])) s++; int e=(int)yyleng-1;while (!isId(yytext[e])) e--; g_name=((QCString)yytext).mid(s,e-s+1); BEGIN( MemberCall2 ); } {ID}/([ \t\n]*"(") { if (!g_args.isEmpty()) generateMemberLink(*g_code,g_args,yytext); else generateClassOrGlobalLink(*g_code,yytext); g_args.resize(0); BEGIN( FuncCall ); } {ID}/([ \t\n]*("."|"->")) { //g_code->codify(yytext); g_name=yytext; generateClassOrGlobalLink(*g_code,yytext); BEGIN( MemberCall2 ); } "->"|"." { if (yytext[0]=='-') // -> could be overloaded { updateCallContextForSmartPointer(); } g_code->codify(yytext); g_memCallContext = YY_START; BEGIN( MemberCall ); } "/*"("!"?)"*/" { g_code->codify(yytext); endFontClass(); BEGIN( g_lastCContext ) ; } "//"|"/*" { g_code->codify(yytext); } [^*/\n]+ { g_code->codify(yytext); } [ \t]*"*/" { g_code->codify(yytext); endFontClass(); if (g_lastCContext==SkipCPP) { startFontClass("preprocessor"); } BEGIN( g_lastCContext ) ; } [^\r\n]*"\\"[\r]?\n { // line continuation codifyLines(yytext); } [^\r\n]+ { g_code->codify(yytext); } \r \n { unput('\n'); endFontClass(); BEGIN( g_lastCContext ) ; } . { g_code->codify(yytext); } "*/"{B}*\n({B}*\n)*({B}*(("//@"[{}])|("/*@"[{}]"*/")){B}*\n)?{B}*"/*"[*!]/[^/*] { g_yyLineNr+=QCString(yytext).contains('\n'); } "*/"{B}*\n({B}*\n)*({B}*(("//@"[{}])|("/*@"[{}]"*/")){B}*\n)? { g_yyLineNr+=QCString(yytext).contains('\n'); nextCodeLine(); if (g_lastSpecialCContext==SkipCxxComment) { // force end of C++ comment here endFontClass(); BEGIN( g_lastCContext ) ; } else { BEGIN(g_lastSpecialCContext); } } "*/" { BEGIN(g_lastSpecialCContext); } [^*\n]+ "//"|"/*" \n { g_yyLineNr++; } . [^a-z_A-Z0-9(\n] { g_code->codify(yytext); g_type.resize(0); g_name.resize(0); BEGIN(g_memCallContext); } <*>\n({B}*"//"[!/][^\n]*\n)+ { // remove special one-line comment if (YY_START==SkipCPP) REJECT; if (Config_getBool(STRIP_CODE_COMMENTS)) { g_yyLineNr+=((QCString)yytext).contains('\n'); nextCodeLine(); } else { startFontClass("comment"); codifyLines(yytext); endFontClass(); } if (YY_START==SkipCxxComment) { endFontClass(); BEGIN( g_lastCContext ) ; } } \n/.*\n { endFontClass(); codifyLines(yytext); BEGIN( g_lastSkipCppContext ) ; } <*>\n{B}*"//@"[{}].*\n { // remove one-line group marker if (Config_getBool(STRIP_CODE_COMMENTS)) { g_yyLineNr+=2; nextCodeLine(); } else { startFontClass("comment"); codifyLines(yytext); endFontClass(); } if (YY_START==SkipCxxComment) { endFontClass(); BEGIN( g_lastCContext ) ; } } <*>\n{B}*"/*@"[{}] { // remove one-line group marker if (Config_getBool(STRIP_CODE_COMMENTS)) { g_lastSpecialCContext = YY_START; g_yyLineNr++; BEGIN(RemoveSpecialCComment); } else { // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } startFontClass("comment"); codifyLines(yytext); BEGIN(SkipComment); } } <*>^{B}*"//@"[{}].*\n { // remove one-line group marker if (Config_getBool(STRIP_CODE_COMMENTS)) { g_yyLineNr++; nextCodeLine(); } else { startFontClass("comment"); codifyLines(yytext); endFontClass(); } } <*>^{B}*"/*@"[{}] { // remove multi-line group marker if (Config_getBool(STRIP_CODE_COMMENTS)) { g_lastSpecialCContext = YY_START; BEGIN(RemoveSpecialCComment); } else { // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } startFontClass("comment"); g_code->codify(yytext); BEGIN(SkipComment); } } <*>^{B}*"//"[!/][^\n]*\n { // remove special one-line comment if (Config_getBool(STRIP_CODE_COMMENTS)) { g_yyLineNr++; //nextCodeLine(); } else { startFontClass("comment"); codifyLines(yytext); endFontClass(); } } <*>"//"[!/][^\n]*\n { // strip special one-line comment if (YY_START==SkipComment || YY_START==SkipString) REJECT; if (Config_getBool(STRIP_CODE_COMMENTS)) { char c[2]; c[0]='\n'; c[1]=0; codifyLines(c); } else { startFontClass("comment"); codifyLines(yytext); endFontClass(); } } <*>"/*[tag:"[^\]\n]*"]*/"{B}* { // special pattern /*[tag:filename]*/ to force linking to a tag file g_forceTagReference=yytext; int s=g_forceTagReference.find(':'); int e=g_forceTagReference.findRev(']'); g_forceTagReference = g_forceTagReference.mid(s+1,e-s-1); } <*>\n{B}*"/*"[!*]/[^/*] { if (Config_getBool(STRIP_CODE_COMMENTS)) { g_lastSpecialCContext = YY_START; g_yyLineNr++; BEGIN(RemoveSpecialCComment); } else { // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } startFontClass("comment"); codifyLines(yytext); BEGIN(SkipComment); } } <*>^{B}*"/*"[!*]/[^/*] { // special C comment block at a new line if (Config_getBool(STRIP_CODE_COMMENTS)) { g_lastSpecialCContext = YY_START; BEGIN(RemoveSpecialCComment); } else { // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } startFontClass("comment"); g_code->codify(yytext); BEGIN(SkipComment); } } <*>"/*"[!*]/[^/*] { // special C comment block half way a line if (YY_START==SkipString) REJECT; if (Config_getBool(STRIP_CODE_COMMENTS)) { g_lastSpecialCContext = YY_START; BEGIN(RemoveSpecialCComment); } else { // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } startFontClass("comment"); g_code->codify(yytext); BEGIN(SkipComment); } } <*>"/*"("!"?)"*/" { if (YY_START==SkipString) REJECT; if (!Config_getBool(STRIP_CODE_COMMENTS)) { startFontClass("comment"); g_code->codify(yytext); endFontClass(); } } <*>"/*" { startFontClass("comment"); g_code->codify(yytext); // check is to prevent getting stuck in skipping C++ comments if (YY_START != SkipCxxComment) { g_lastCContext = YY_START ; } BEGIN( SkipComment ) ; } <*>@\" { // C# verbatim string startFontClass("stringliteral"); g_code->codify(yytext); g_lastVerbStringContext=YY_START; BEGIN(SkipVerbString); } <*>"//" { startFontClass("comment"); g_code->codify(yytext); g_lastCContext = YY_START ; BEGIN( SkipCxxComment ) ; } <*>"("|"[" { g_code->codify(yytext); g_theCallContext.pushScope(); } <*>")"|"]" { g_code->codify(yytext); g_theCallContext.popScope(); } <*>\n { g_yyColNr++; codifyLines(yytext); } <*>. { g_yyColNr++; g_code->codify(yytext); } /* <*>([ \t\n]*"\n"){2,} { // combine multiple blank lines //QCString sepLine=yytext; //g_code->codify("\n\n"); //g_yyLineNr+=sepLine.contains('\n'); //char sepLine[3]="\n\n"; codifyLines(yytext); } */ %% /*@ ---------------------------------------------------------------------------- */ static void saveObjCContext() { if (g_currentCtx) { g_currentCtx->format+=QCString().sprintf("$c%d",g_currentCtxId); if (g_braceCount==0 && YY_START==ObjCCall) { g_currentCtx->objectTypeOrName=g_currentCtx->format.mid(1); //printf("new type=%s\n",g_currentCtx->objectTypeOrName.data()); } g_contextStack.push(g_currentCtx); } else { //printf("Trying to save NULL context!\n"); } ObjCCallCtx *newCtx = new ObjCCallCtx; newCtx->id = g_currentCtxId; newCtx->lexState = YY_START; newCtx->braceCount = g_braceCount; newCtx->objectType = 0; newCtx->objectVar = 0; newCtx->method = 0; //printf("save state=%d\n",YY_START); g_contextDict.insert(g_currentCtxId,newCtx); g_currentCtx = newCtx; g_braceCount = 0; g_currentCtxId++; } static void restoreObjCContext() { //printf("restore state=%d->%d\n",YY_START,g_currentCtx->lexState); BEGIN(g_currentCtx->lexState); g_braceCount = g_currentCtx->braceCount; if (!g_contextStack.isEmpty()) { g_currentCtx = g_contextStack.pop(); } else { g_currentCtx = 0; //printf("Trying to pop context while g_contextStack is empty!\n"); } } void resetCCodeParserState() { //printf("***initParseCodeContext()\n"); g_forceTagReference.resize(0); g_theVarContext.clear(); g_classScopeLengthStack.setAutoDelete(TRUE); g_classScopeLengthStack.clear(); delete g_codeClassSDict; g_codeClassSDict = new ClassSDict(17); g_codeClassSDict->setAutoDelete(TRUE); g_codeClassSDict->clear(); g_curClassBases.clear(); g_anchorCount = 0; } void parseCCode(CodeOutputInterface &od,const char *className,const QCString &s, SrcLangExt lang,bool exBlock, const char *exName,FileDef *fd, int startLine,int endLine,bool inlineFragment, MemberDef *memberDef,bool showLineNumbers,Definition *searchCtx, bool collectXRefs) { //printf("***parseCode() exBlock=%d exName=%s fd=%p className=%s searchCtx=%s\n", // exBlock,exName,fd,className,searchCtx?searchCtx->name().data():""); if (s.isEmpty()) return; printlex(yy_flex_debug, TRUE, __FILE__, fd ? fd->fileName().data(): NULL); TooltipManager::instance()->clearTooltips(); if (g_codeClassSDict==0) { resetCCodeParserState(); } g_code = &od; g_inputString = s; g_inputPosition = 0; g_currentFontClass = 0; g_needsTermination = FALSE; g_searchCtx = searchCtx; g_collectXRefs = collectXRefs; g_inFunctionTryBlock = FALSE; if (startLine!=-1) g_yyLineNr = startLine; else g_yyLineNr = 1; if (endLine!=-1) g_inputLines = endLine+1; else g_inputLines = g_yyLineNr + countLines() - 1; g_curlyCount = 0; g_bodyCurlyCount = 0; g_bracketCount = 0; g_sharpCount = 0; g_insideTemplate = FALSE; g_theCallContext.clear(); g_scopeStack.clear(); g_classScope = className; //printf("parseCCode %s\n",className); g_exampleBlock = exBlock; g_exampleName = exName; g_sourceFileDef = fd; g_lineNumbers = fd!=0 && showLineNumbers; bool cleanupSourceDef = FALSE; if (fd==0) { // create a dummy filedef for the example g_sourceFileDef = new FileDef("",(exName?exName:"generated")); cleanupSourceDef = TRUE; } g_insideObjC = lang==SrcLangExt_ObjC; g_insideJava = lang==SrcLangExt_Java; g_insideCS = lang==SrcLangExt_CSharp; g_insidePHP = lang==SrcLangExt_PHP; if (g_sourceFileDef) { setCurrentDoc("l00001"); } g_currentDefinition = 0; g_currentMemberDef = 0; g_searchingForBody = exBlock; g_insideBody = FALSE; g_bracketCount = 0; if (!g_exampleName.isEmpty()) { g_exampleFile = convertNameToFile(g_exampleName+"-example",FALSE,TRUE); //printf("g_exampleFile=%s\n",g_exampleFile.data()); } g_includeCodeFragment = inlineFragment; //printf("** exBlock=%d exName=%s include=%d\n",exBlock,exName,inlineFragment); startCodeLine(); g_type.resize(0); g_name.resize(0); g_args.resize(0); g_parmName.resize(0); g_parmType.resize(0); if (memberDef) setParameterList(memberDef); codeYYrestart( codeYYin ); BEGIN( Body ); codeYYlex(); g_lexInit=TRUE; if (g_needsTermination) { endFontClass(); DBG_CTX((stderr,"endCodeLine(%d)\n",g_yyLineNr)); g_code->endCodeLine(); } if (fd) { TooltipManager::instance()->writeTooltips(*g_code); } if (cleanupSourceDef) { // delete the temporary file definition used for this example delete g_sourceFileDef; g_sourceFileDef=0; } printlex(yy_flex_debug, FALSE, __FILE__, fd ? fd->fileName().data(): NULL); return; } void codeFreeScanner() { #if defined(YY_FLEX_SUBMINOR_VERSION) if (g_lexInit) { codeYYlex_destroy(); } #endif } #if !defined(YY_FLEX_SUBMINOR_VERSION) extern "C" { // some bogus code to keep the compiler happy void codeYYdummy() { yy_flex_realloc(0,0); } } #elif YY_FLEX_MAJOR_VERSION<=2 && YY_FLEX_MINOR_VERSION<=5 && YY_FLEX_SUBMINOR_VERSION<33 #error "You seem to be using a version of flex newer than 2.5.4. These are currently incompatible with 2.5.4, and do NOT work with doxygen! Please use version 2.5.4 or expect things to be parsed wrongly! A bug report has been submitted (#732132)." #endif