/* -*- mode: fundamental; indent-tabs-mode: 1; -*- */ /***************************************************************************** * Parser for Fortran90 F subset * * Copyright (C) by Anke Visser * based on the work of 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. * */ /* Developer notes. * * - Consider using startScope(), endScope() functions with module, program, * subroutine or any other scope in fortran program. * * - Symbol modifiers (attributes) are collected using SymbolModifiers |= operator during * substructure parsing. When substructure ends all modifiers are applied to actual * entries in applyModifiers() functions. * * - How case insensitiveness should be handled in code? * On one side we have arg->name and entry->name, on another side modifierMap[name]. * In entries and arguments case is the same as in code, in modifier map case is lowered and * then it is compared to lowered entry/argument names. * * - Do not like constructs like aa{BS} or {BS}bb. Should try to handle blank space * with separate rule?: It seems it is often necessary, because we may parse something like * "functionA" or "MyInterface". So constructs like `(^|[ \t])interface({BS_}{ID})?/[ \t\n]' * are desired. * * - Must track yyLineNr when using REJECT, unput() or similar commands. */ %option never-interactive %option case-insensitive %option prefix="fortranscannerYY" %{ #include #include #include #include #include #include #include #include #include #include "fortranscanner.h" #include "entry.h" #include "message.h" #include "config.h" #include "doxygen.h" #include "util.h" #include "defargs.h" #include "language.h" #include "commentscan.h" #include "fortrancode.h" #include "pre.h" #include "arguments.h" // Toggle for some debugging info //#define DBG_CTX(x) fprintf x #define DBG_CTX(x) do { } while(0) #define YY_NO_INPUT 1 #define YY_NO_UNISTD_H 1 enum ScanVar { V_IGNORE, V_VARIABLE, V_PARAMETER, V_RESULT}; enum InterfaceType { IF_NONE, IF_SPECIFIC, IF_GENERIC, IF_ABSTRACT }; // {{{ ----- Helper structs ----- //! Holds modifiers (ie attributes) for one symbol (variable, function, etc) struct SymbolModifiers { enum Protection {NONE_P, PUBLIC, PRIVATE}; enum Direction {NONE_D, IN, OUT, INOUT}; //!< This is only used with function return value. QCString type, returnName; Protection protection; Direction direction; bool optional; bool protect; QCString dimension; bool allocatable; bool external; bool intrinsic; bool parameter; bool pointer; bool target; bool save; bool deferred; bool nonoverridable; bool nopass; bool pass; bool contiguous; bool volat; /* volatile is a reserved name */ bool value; /* volatile is a reserved name */ QCString passVar; SymbolModifiers() : type(), returnName(), protection(NONE_P), direction(NONE_D), optional(FALSE), protect(FALSE), dimension(), allocatable(FALSE), external(FALSE), intrinsic(FALSE), parameter(FALSE), pointer(FALSE), target(FALSE), save(FALSE), deferred(FALSE), nonoverridable(FALSE), nopass(FALSE), pass(FALSE), contiguous(FALSE), volat(FALSE), value(FALSE), passVar() {} SymbolModifiers& operator|=(const SymbolModifiers &mdfs); SymbolModifiers& operator|=(QCString mdfrString); }; //ostream& operator<<(ostream& out, const SymbolModifiers& mdfs); static const char *directionStrs[] = { "", "intent(in)", "intent(out)", "intent(inout)" }; static const char *directionParam[] = { "", "[in]", "[out]", "[in,out]" }; // }}} /* ----------------------------------------------------------------- * * statics */ static ParserInterface *g_thisParser; static const char * inputString; static int inputPosition; static bool isFixedForm; static QCString inputStringPrepass; ///< Input string for prepass of line cont. '&' static QCString inputStringSemi; ///< Input string after command separetor ';' static unsigned int inputPositionPrepass; static int lineCountPrepass = 0; static QList subrCurrent; struct CommentInPrepass { int column; QCString str; CommentInPrepass(int column, QCString str) : column(column), str(str) {} }; static QList comments; YY_BUFFER_STATE *include_stack = NULL; int include_stack_ptr = 0; int include_stack_cnt = 0; static QFile inputFile; static QCString yyFileName; static int yyLineNr = 1 ; static int yyColNr = 0 ; static Entry* current_root = 0 ; static Entry* global_root = 0 ; static Entry* file_root = 0 ; static Entry* current = 0 ; static Entry* last_entry = 0 ; static Entry* last_enum = 0 ; static ScanVar v_type = V_IGNORE; // type of parsed variable static QList moduleProcedures; // list of all interfaces which contain unresolved // module procedures static QCString docBlock; static bool docBlockInBody = FALSE; static bool docBlockJavaStyle; static MethodTypes mtype; static bool gstat; static Specifier virt; static QCString debugStr; static QCString result; // function result static Argument *parameter; // element of parameter list static QCString argType; // fortran type of an argument of a parameter list static QCString argName; // last identifier name in variable list static QCString initializer; // initial value of a variable static int initializerArrayScope; // number if nested array scopes in initializer static int initializerScope; // number if nested function calls in initializer static QCString useModuleName; // name of module in the use statement static Protection defaultProtection; static Protection typeProtection; static int typeMode = false; static InterfaceType ifType = IF_NONE; static bool functionLine = FALSE; static char stringStartSymbol; // single or double quote static bool parsingPrototype = FALSE; // see parsePrototype() //! Accumulated modifiers of current statement, eg variable declaration. static SymbolModifiers currentModifiers; //! Holds program scope->symbol name->symbol modifiers. static QMap > modifiers; static Entry *global_scope = NULL; static int anonCount = 0 ; //----------------------------------------------------------------------------- static int yyread(char *buf,int max_size); static void startCommentBlock(bool); static void handleCommentBlock(const QCString &doc,bool brief); static void subrHandleCommentBlock(const QCString &doc,bool brief); static void subrHandleCommentBlockResult(const QCString &doc,bool brief); static void addCurrentEntry(int case_insens); static void addModule(const char *name, bool isModule=FALSE); static void addSubprogram(const char *text); static void addInterface(QCString name, InterfaceType type); static Argument *getParameter(const QCString &name); static void scanner_abort(); static void startScope(Entry *scope); static bool endScope(Entry *scope, bool isGlobalRoot=FALSE); //static bool isTypeName(QCString name); static void resolveModuleProcedures(QList &moduleProcedures, Entry *current_root); static int getAmpersandAtTheStart(const char *buf, int length); static int getAmpOrExclAtTheEnd(const char *buf, int length, char ch); static void truncatePrepass(int index); static void pushBuffer(QCString &buffer); static void popBuffer(); //static void extractPrefix(QCString& text); static QCString extractFromParens(const QCString name); static CommentInPrepass* locatePrepassComment(int from, int to); static void updateVariablePrepassComment(int from, int to); static void newLine(); static void initEntry(); //----------------------------------------------------------------------------- #undef YY_INPUT #define YY_INPUT(buf,result,max_size) result=yyread(buf,max_size); #define YY_USER_ACTION yyColNr+=(int)yyleng; //----------------------------------------------------------------------------- %} //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- IDSYM [a-z_A-Z0-9] NOTIDSYM [^a-z_A-Z0-9] SEPARATE [:, \t] ID [a-z_A-Z%]+{IDSYM}* ID_ [a-z_A-Z%]*{IDSYM}* PP_ID {ID} LABELID [a-z_A-Z]+[a-z_A-Z0-9\-]* SUBPROG (subroutine|function) B [ \t] BS [ \t]* BS_ [ \t]+ BT_ ([ \t]+|[ \t]*"(") COMMA {BS},{BS} ARGS_L0 ("("[^)]*")") ARGS_L1a [^()]*"("[^)]*")"[^)]* ARGS_L1 ("("{ARGS_L1a}*")") ARGS_L2 "("({ARGS_L0}|[^()]|{ARGS_L1a}|{ARGS_L1})*")" ARGS {BS}({ARGS_L0}|{ARGS_L1}|{ARGS_L2}) NOARGS {BS}"\n" NUM_TYPE (complex|integer|logical|real) LOG_OPER (\.and\.|\.eq\.|\.eqv\.|\.ge\.|\.gt\.|\.le\.|\.lt\.|\.ne\.|\.neqv\.|\.or\.|\.not\.) KIND {ARGS} CHAR (CHARACTER{ARGS}?|CHARACTER{BS}"*"({BS}[0-9]+|{ARGS})) TYPE_SPEC (({NUM_TYPE}({BS}"*"{BS}[0-9]+)?)|({NUM_TYPE}{KIND})|DOUBLE{BS}COMPLEX|DOUBLE{BS}PRECISION|ENUMERATOR|{CHAR}|TYPE{ARGS}|CLASS{ARGS}|PROCEDURE{ARGS}?) INTENT_SPEC intent{BS}"("{BS}(in|out|in{BS}out){BS}")" ATTR_SPEC (EXTERNAL|ALLOCATABLE|DIMENSION{ARGS}|{INTENT_SPEC}|INTRINSIC|OPTIONAL|PARAMETER|POINTER|PROTECTED|PRIVATE|PUBLIC|SAVE|TARGET|NOPASS|PASS{ARGS}?|DEFERRED|NON_OVERRIDABLE|CONTIGUOUS|VOLATILE|VALUE) ACCESS_SPEC (PRIVATE|PUBLIC) LANGUAGE_BIND_SPEC BIND{BS}"("{BS}C{BS}(,{BS}NAME{BS}"="{BS}"\""(.*)"\""{BS})?")" /* Assume that attribute statements are almost the same as attributes. */ ATTR_STMT {ATTR_SPEC}|DIMENSION|{ACCESS_SPEC} EXTERNAL_STMT (EXTERNAL) CONTAINS CONTAINS PREFIX ((NON_)?RECURSIVE{BS_}|IMPURE{BS_}|PURE{BS_}|ELEMENTAL{BS_}){0,4}((NON_)?RECURSIVE|IMPURE|PURE|ELEMENTAL)? SCOPENAME ({ID}{BS}"::"{BS})* %option noyywrap %option stack %option caseless /*%option debug */ //--------------------------------------------------------------------------------- /** fortran parsing states */ %x Subprog %x SubprogPrefix %x Parameterlist %x SubprogBody %x SubprogBodyContains %x Start %x Comment %x Module %x Program %x ModuleBody %x ModuleBodyContains %x AttributeList %x Variable %x Initialization %x ArrayInitializer %x Enum %x Typedef %x TypedefBody %x TypedefBodyContains %x InterfaceBody %x StrIgnore %x String %x Use %x UseOnly %x ModuleProcedure %x Prepass /** comment parsing states */ %x DocBlock %x DocBackLine %x EndDoc %x BlockData /** prototype parsing */ %x Prototype %x PrototypeSubprog %x PrototypeArgs %% /*-----------------------------------------------------------------------------------*/ ^{BS}[&]*{BS}!.*\n { /* skip lines with just comment. Note code was in free format or has been converted to it */ lineCountPrepass ++; } ^{BS}\n { /* skip empty lines */ lineCountPrepass ++; } <*>^.*\n { // prepass: look for line continuations functionLine = FALSE; DBG_CTX((stderr, "---%s", yytext)); int indexStart = getAmpersandAtTheStart(yytext, (int)yyleng); int indexEnd = getAmpOrExclAtTheEnd(yytext, (int)yyleng, '\0'); if (indexEnd>=0 && yytext[indexEnd]!='&') //we are only interested in amp indexEnd=-1; if(indexEnd<0){ // ----- no ampersand as line continuation if(YY_START == Prepass) { // last line in "continuation" // Only take input after initial ampersand inputStringPrepass+=(const char*)(yytext+(indexStart+1)); //printf("BUFFER:%s\n", (const char*)inputStringPrepass); pushBuffer(inputStringPrepass); yyColNr = 0; yy_pop_state(); } else { // simple line yyColNr = 0; REJECT; } } else { // ----- line with continuation if(YY_START != Prepass) { comments.setAutoDelete(TRUE); comments.clear(); yy_push_state(Prepass); } int length = inputStringPrepass.length(); // Only take input after initial ampersand inputStringPrepass+=(const char*)(yytext+(indexStart+1)); lineCountPrepass ++; // cut off & and remove following comment if present truncatePrepass(length+indexEnd-(indexStart+1)); } } /*------ ignore strings that are not initialization strings */ \"|\' { // string ends with next quote without previous backspace if (yytext[0]!=stringStartSymbol) { yyColNr -= (int)yyleng; REJECT; } // single vs double quote if (yy_top_state() == Initialization || yy_top_state() == ArrayInitializer) initializer+=yytext; yy_pop_state(); } . { if (yy_top_state() == Initialization || yy_top_state() == ArrayInitializer) initializer+=yytext; } <*>\"|\' { /* string starts */ if (YY_START == StrIgnore) { yyColNr -= (int)yyleng; REJECT; }; // ignore in simple comments yy_push_state(YY_START); if (yy_top_state() == Initialization || yy_top_state() == ArrayInitializer) initializer+=yytext; stringStartSymbol=yytext[0]; // single or double quote BEGIN(String); } /*------ ignore simple comment (not documentation comments) */ <*>"!"/[^<>\n] { if (YY_START == String) { yyColNr -= (int)yyleng; REJECT; } // "!" is ignored in strings // skip comment line (without docu comments "!>" "!<" ) /* ignore further "!" and ignore comments in Strings */ if ((YY_START != StrIgnore) && (YY_START != String)) { yy_push_state(YY_START); BEGIN(StrIgnore); debugStr="*!"; DBG_CTX((stderr,"start comment %d\n",yyLineNr)); } } .?/\n { yy_pop_state(); // comment ends with endline character DBG_CTX((stderr,"end comment %d %s\n",yyLineNr,debugStr.data())); } // comment line ends . { debugStr+=yytext; } /*------ use handling ------------------------------------------------------------*/ "use"{BS_} { if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } yy_push_state(Use); } {ID} { DBG_CTX((stderr,"using dir %s\n",yytext)); current->name=yytext; current->fileName = yyFileName; current->section=Entry::USINGDIR_SEC; current_root->addSubEntry(current); current = new Entry; current->lang = SrcLangExt_Fortran; yy_pop_state(); } {ID}/, { useModuleName=yytext; } ,{BS}"ONLY" { BEGIN(UseOnly); } {BS},{BS} {} {ID} { current->name= useModuleName+"::"+yytext; current->fileName = yyFileName; current->section=Entry::USINGDECL_SEC; current_root->addSubEntry(current); current = new Entry ; current->lang = SrcLangExt_Fortran; } "\n" { yyColNr -= 1; unput(*yytext); yy_pop_state(); } /* INTERFACE definitions */ { ^{BS}interface{IDSYM}+ { /* variable with interface prefix */ } ^{BS}interface { ifType = IF_SPECIFIC; yy_push_state(InterfaceBody); // do not start a scope here, every // interface body is a scope of its own } ^{BS}abstract{BS_}interface { ifType = IF_ABSTRACT; yy_push_state(InterfaceBody); // do not start a scope here, every // interface body is a scope of its own } ^{BS}interface{BS_}{ID}{ARGS}? { ifType = IF_GENERIC; current->bodyLine = yyLineNr + lineCountPrepass + 1; // we have to be at the line after the definition and we have to take continuation lines into account. yy_push_state(InterfaceBody); // extract generic name QCString name = QCString(yytext).stripWhiteSpace(); name = name.right(name.length() - 9).stripWhiteSpace().lower(); addInterface(name, ifType); startScope(last_entry); } } ^{BS}end{BS}interface({BS_}{ID})? { // end scope only if GENERIC interface if (ifType == IF_GENERIC)last_entry->parent()->endBodyLine = yyLineNr - 1; if (ifType == IF_GENERIC && !endScope(current_root)) yyterminate(); ifType = IF_NONE; yy_pop_state(); } module{BS}procedure { yy_push_state(YY_START); BEGIN(ModuleProcedure); } {ID} { if (ifType == IF_ABSTRACT || ifType == IF_SPECIFIC) { addInterface(yytext, ifType); startScope(last_entry); } current->section = Entry::FUNCTION_SEC ; current->name = yytext; moduleProcedures.append(current); addCurrentEntry(1); } "\n" { yyColNr -= 1; unput(*yytext); yy_pop_state(); } . {} /*-- Contains handling --*/ ^{BS}{CONTAINS}/({BS}|\n|!) { if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBodyContains); //anon program } } ^{BS}{CONTAINS}/({BS}|\n|!) { BEGIN(ModuleBodyContains); } ^{BS}{CONTAINS}/({BS}|\n|!) { BEGIN(SubprogBodyContains); } ^{BS}{CONTAINS}/({BS}|\n|!) { BEGIN(TypedefBodyContains); } /*------ module handling ------------------------------------------------------------*/ block{BS}data{BS}{ID_} { // v_type = V_IGNORE; yy_push_state(BlockData); defaultProtection = Public; } module|program{BS_} { // v_type = V_IGNORE; if(yytext[0]=='m' || yytext[0]=='M') yy_push_state(Module); else yy_push_state(Program); defaultProtection = Public; } ^{BS}"end"({BS}(block{BS}data)({BS_}{ID})?)?{BS}/(\n|!) { // end block data //if (!endScope(current_root)) // yyterminate(); defaultProtection = Public; yy_pop_state(); } ^{BS}"end"({BS}(module|program)({BS_}{ID})?)?{BS}/(\n|!) { // end module resolveModuleProcedures(moduleProcedures, current_root); if (!endScope(current_root)) yyterminate(); defaultProtection = Public; if (global_scope) { if (global_scope != (Entry *) -1) yy_push_state(Start); else yy_pop_state(); // cannot pop artrificial entry } else { yy_push_state(Start); global_scope = (Entry *)-1; // signal that the global_scope has already been used. } } {ID} { addModule(yytext, TRUE); BEGIN(ModuleBody); } {ID} { addModule(yytext, FALSE); BEGIN(ModuleBody); } /*------- access specification --------------------------------------------------------------------------*/ private/{BS}(\n|"!") { defaultProtection = Private; current->protection = defaultProtection ; } public/{BS}(\n|"!") { defaultProtection = Public; current->protection = defaultProtection ; } /*------- type definition -------------------------------------------------------------------------------*/ ^{BS}type/[^a-z0-9_] { if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } yy_push_state(Typedef); current->protection = defaultProtection; typeProtection = defaultProtection; typeMode = true; } { {COMMA} {} {BS}"::"{BS} {} abstract { current->spec |= Entry::AbstractClass; } extends{ARGS} { QCString basename = extractFromParens(yytext).lower(); current->extends->append(new BaseInfo(basename, Public, Normal)); } public { current->protection = Public; typeProtection = Public; } private { current->protection = Private; typeProtection = Private; } {LANGUAGE_BIND_SPEC} { /* ignored for now */ } {ID} { /* type name found */ current->section = Entry::CLASS_SEC; current->spec |= Entry::Struct; current->name = yytext; current->fileName = yyFileName; current->bodyLine = yyLineNr; current->startLine = yyLineNr; /* if type is part of a module, mod name is necessary for output */ if ((current_root) && (current_root->section == Entry::CLASS_SEC || current_root->section == Entry::NAMESPACE_SEC)) { current->name = current_root->name + "::" + current->name; } addCurrentEntry(1); startScope(last_entry); BEGIN(TypedefBody); } } { /* Type Bound Procedures */ ^{BS}PROCEDURE{ARGS}? { current->type = QCString(yytext).simplifyWhiteSpace(); } ^{BS}final { current->spec |= Entry::Final; current->type = QCString(yytext).simplifyWhiteSpace(); } ^{BS}generic { current->type = QCString(yytext).simplifyWhiteSpace(); } {COMMA} { } {ATTR_SPEC} { currentModifiers |= QCString(yytext); } {BS}"::"{BS} { } {ID} { QCString name = yytext; modifiers[current_root][name.lower()] |= currentModifiers; current->section = Entry::FUNCTION_SEC; current->name = name; current->fileName = yyFileName; current->bodyLine = yyLineNr; current->startLine = yyLineNr; addCurrentEntry(1); } {BS}"=>"[^(\n|\!)]* { /* Specific bindings come after the ID. */ QCString args = yytext; last_entry->args = args.lower(); } "\n" { currentModifiers = SymbolModifiers(); newLine(); docBlock.resize(0); } } { ^{BS}"end"{BS}"type"({BS_}{ID})?{BS}/(\n|!) { /* end type definition */ last_entry->parent()->endBodyLine = yyLineNr; if (!endScope(current_root)) yyterminate(); typeMode = false; yy_pop_state(); } } /*------- module/global/typedef variable ---------------------------------------------------*/ ^{BS}[0-9]*{BS}"end"({BS}{SUBPROG}({BS_}{ID})?)?{BS}/(\n|!) { // // ABSTRACT and specific interfaces are stored // in a scope of their own, even if multiple // are group in one INTERFACE/END INTERFACE block. // if (ifType == IF_ABSTRACT || ifType == IF_SPECIFIC) { endScope(current_root); last_entry->endBodyLine = yyLineNr - 1; } current_root->endBodyLine = yyLineNr - 1; if (!endScope(current_root)) yyterminate(); subrCurrent.remove(0u); yy_pop_state() ; } { {ID} { } } { ^{BS}{TYPE_SPEC}/{SEPARATE} { last_enum = 0; if (YY_START == Enum) { argType = "@"; // enum marker } else { argType = QCString(yytext).simplifyWhiteSpace().lower(); } current->bodyLine = yyLineNr + 1; current->endBodyLine = yyLineNr + lineCountPrepass; /* variable declaration starts */ if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } yy_push_state(AttributeList); } /* Dimitri: macro expansion should already be done during preprocessing not here! ^{BS}{PP_ID}{KIND}? { // check for preprocessor symbol expand to type QCString str = yytext; str = str.stripWhiteSpace(); //DefineDict* defines = getGlobalDefineDict(); QCString name; int index = str.find("("); if (index != -1) name = str.left(index).stripWhiteSpace(); else name = str; Define *define = 0; //(*defines)[name]; if (define != 0 && isTypeName(define->definition)) { argType = str; yy_push_state(AttributeList); } else { yyColNr -= (int)yyleng; REJECT; } } */ {EXTERNAL_STMT}/({BS}"::"|{BS_}{ID}) { /* external can be a "type" or an attribute */ if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } QCString tmp = yytext; currentModifiers |= tmp.stripWhiteSpace(); argType = QCString(yytext).simplifyWhiteSpace().lower(); yy_push_state(AttributeList); } {ATTR_STMT}/{BS_}{ID} | {ATTR_STMT}/{BS}"::" { /* attribute statement starts */ DBG_CTX((stderr,"5=========> Attribute statement: %s\n", yytext)); QCString tmp = yytext; currentModifiers |= tmp.stripWhiteSpace(); argType=""; yy_push_state(YY_START); BEGIN( AttributeList ) ; } {ID} { } ^{BS}"type"{BS_}"is"/{BT_} { } ^{BS}"type"{BS}"=" { } ^{BS}"class"{BS_}"is"/{BT_} { } ^{BS}"class"{BS_}"default" { } } { {COMMA} {} {BS} {} {ATTR_SPEC}. { /* update current modifiers when it is an ATTR_SPEC and not a variable name */ /* bug_625519 */ QChar chr = yytext[(int)yyleng-1]; if (chr.isLetter() || chr.isDigit() || (chr == '_')) { yyColNr -= (int)yyleng; REJECT; } else { QCString tmp = yytext; tmp = tmp.left(tmp.length() - 1); yyColNr -= 1; unput(yytext[(int)yyleng-1]); currentModifiers |= (tmp); } } "::" { /* end attribute list */ BEGIN( Variable ); } . { /* unknown attribute, consider variable name */ //cout<<"start variables, unput "<<*yytext<{BS} { } {ID} { /* parse variable declaration */ //cout << "5=========> got variable: " << argType << "::" << yytext << endl; /* work around for bug in QCString.replace (QCString works) */ QCString name=yytext; name = name.lower(); /* remember attributes for the symbol */ modifiers[current_root][name.lower()] |= currentModifiers; argName= name; v_type= V_IGNORE; if (!argType.isEmpty() && current_root->section!=Entry::FUNCTION_SEC) { // new variable entry v_type = V_VARIABLE; current->section = Entry::VARIABLE_SEC; current->name = argName; current->type = argType; current->fileName = yyFileName; current->bodyLine = yyLineNr; // used for source reference current->startLine = yyLineNr; if (argType == "@") { current_root->addSubEntry(current); current = new Entry(*current); // add to the scope surrounding the enum (copy!) current_root->parent()->addSubEntry(current); last_enum = current; current = new Entry ; initEntry(); } else { addCurrentEntry(1); } } else if (!argType.isEmpty()) { // declaration of parameter list: add type for corr. parameter parameter = getParameter(argName); if (parameter) { v_type= V_PARAMETER; if (!argType.isNull()) parameter->type=argType.stripWhiteSpace(); if (!docBlock.isNull()) { subrHandleCommentBlock(docBlock,TRUE); } } // save, it may be function return type if (parameter) { modifiers[current_root][name.lower()].type = argType; } else { if ((current_root->name.lower() == argName.lower()) || (modifiers[current_root->parent()][current_root->name.lower()].returnName.lower() == argName.lower())) { int strt = current_root->type.find("function"); QCString lft; QCString rght; if (strt != -1) { v_type = V_RESULT; lft = ""; rght = ""; if (strt != 0) lft = current_root->type.left(strt).stripWhiteSpace(); if ((current_root->type.length() - strt - strlen("function"))!= 0) { rght = current_root->type.right(current_root->type.length() - strt - strlen("function")).stripWhiteSpace(); } current_root->type = lft; if (rght.length() > 0) { if (current_root->type.length() > 0) current_root->type += " "; current_root->type += rght; } if (argType.stripWhiteSpace().length() > 0) { if (current_root->type.length() > 0) current_root->type += " "; current_root->type += argType.stripWhiteSpace(); } if (current_root->type.length() > 0) current_root->type += " "; current_root->type += "function"; if (!docBlock.isNull()) { subrHandleCommentBlockResult(docBlock,TRUE); } } else { current_root->type += " " + argType.stripWhiteSpace(); } current_root->type = current_root->type.stripWhiteSpace(); modifiers[current_root][name.lower()].type = current_root->type; } else { modifiers[current_root][name.lower()].type = argType; } } // any accumulated doc for argument should be emptied, // because it is handled other way and this doc can be // unexpectedly passed to the next member. current->doc.resize(0); current->brief.resize(0); } } {ARGS} { /* dimension of the previous entry. */ QCString name(argName); QCString attr("dimension"); attr += yytext; modifiers[current_root][name.lower()] |= attr; } {COMMA} { //printf("COMMA: %d<=..<=%d\n", yyColNr-(int)yyleng, yyColNr); // locate !< comment updateVariablePrepassComment(yyColNr-(int)yyleng, yyColNr); } {BS}"=" { yy_push_state(YY_START); initializer="="; initializerScope = initializerArrayScope = 0; BEGIN(Initialization); } "\n" { currentModifiers = SymbolModifiers(); yy_pop_state(); // end variable declaration list newLine(); docBlock.resize(0); } ";".*"\n" { currentModifiers = SymbolModifiers(); yy_pop_state(); // end variable declaration list docBlock.resize(0); inputStringSemi =(const char*)(QCString(" \n") + QCString(yytext+1)).data(); yyLineNr--; pushBuffer(inputStringSemi); } <*>";".*"\n" { if (YY_START == Variable) REJECT; // Just be on the safe side if (YY_START == String) REJECT; // ";" ignored in strings if (YY_START == StrIgnore) REJECT; // ";" ignored in regular comments inputStringSemi =(const char*)(QCString(" \n") + QCString(yytext+1)).data(); yyLineNr--; pushBuffer(inputStringSemi); } "[" | "(/" { initializer+=yytext; initializerArrayScope++; BEGIN(ArrayInitializer); // initializer may contain comma } "]" | "/)" { initializer+=yytext; initializerArrayScope--; if(initializerArrayScope<=0) { initializerArrayScope = 0; // just in case BEGIN(Initialization); } } . { initializer+=yytext; } "(" { initializerScope++; initializer+=yytext; } ")" { initializerScope--; initializer+=yytext; } {COMMA} { if (initializerScope == 0) { updateVariablePrepassComment(yyColNr-(int)yyleng, yyColNr); yy_pop_state(); // end initialization if (last_enum) { last_enum->initializer= initializer; } else { if (v_type == V_VARIABLE) last_entry->initializer= initializer; } } else initializer+=", "; } "\n"|"!" { //| yy_pop_state(); // end initialization if (last_enum) { last_enum->initializer= initializer; } else { if (v_type == V_VARIABLE) last_entry->initializer= initializer; } yyColNr -= 1; unput(*yytext); } . { initializer+=yytext; } <*>{BS}"enum"{BS}","{BS}"bind"{BS}"("{BS}"c"{BS}")"{BS} { if(YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } yy_push_state(Enum); current->protection = defaultProtection; typeProtection = defaultProtection; typeMode = true; current->spec |= Entry::Struct; current->name.resize(0); current->args.resize(0); current->name.sprintf("@%d",anonCount++); current->section = Entry::ENUM_SEC; current->fileName = yyFileName; current->startLine = yyLineNr; current->bodyLine = yyLineNr; if ((current_root) && (current_root->section == Entry::CLASS_SEC || current_root->section == Entry::NAMESPACE_SEC)) { current->name = current_root->name + "::" + current->name; } addCurrentEntry(1); startScope(last_entry); BEGIN( Enum ) ; } "end"{BS}"enum" { last_entry->parent()->endBodyLine = yyLineNr; if (!endScope(current_root)) yyterminate(); typeMode = false; yy_pop_state(); } /*------ fortran subroutine/function handling ------------------------------------------------------------*/ /* Start is initial condition */ ^{BS}({PREFIX}{BS_})?{TYPE_SPEC}{BS}({PREFIX}{BS_})?/{SUBPROG}{BS_} { if (ifType == IF_ABSTRACT || ifType == IF_SPECIFIC) { addInterface("$interface$", ifType); startScope(last_entry); } // TYPE_SPEC is for old function style function result result = QCString(yytext).stripWhiteSpace().lower(); current->type = result; yy_push_state(SubprogPrefix); } {BS}{SUBPROG}{BS_} { // Fortran subroutine or function found v_type = V_IGNORE; result=yytext; result=result.stripWhiteSpace(); addSubprogram(result); BEGIN(Subprog); current->bodyLine = yyLineNr + lineCountPrepass + 1; // we have to be at the line after the definition and we have to take continuation lines into account. current->startLine = yyLineNr; } ^{BS}({PREFIX}{BS_})?{SUBPROG}{BS_} { // Fortran subroutine or function found v_type = V_IGNORE; if (ifType == IF_ABSTRACT || ifType == IF_SPECIFIC) { addInterface("$interface$", ifType); startScope(last_entry); } result = QCString(yytext).stripWhiteSpace(); addSubprogram(result); yy_push_state(Subprog); current->bodyLine = yyLineNr + lineCountPrepass + 1; // we have to be at the line after the definition and we have to take continuation lines into account. current->startLine = yyLineNr; } {BS} { /* ignore white space */ } {ID} { current->name = yytext; //cout << "1a==========> got " << current->type << " " << yytext << " " << yyLineNr << endl; modifiers[current_root][current->name.lower()].returnName = current->name.lower(); if (ifType == IF_ABSTRACT || ifType == IF_SPECIFIC) { current_root->name.replace(QRegExp("\\$interface\\$"), yytext); } BEGIN(Parameterlist); } "(" { current->args = "("; } ")" { current->args += ")"; current->args = removeRedundantWhiteSpace(current->args); addCurrentEntry(1); startScope(last_entry); BEGIN(SubprogBody); } {COMMA}|{BS} { current->args += yytext; CommentInPrepass *c = locatePrepassComment(yyColNr-(int)yyleng, yyColNr); if (c!=NULL) { if(current->argList->count()>0) { current->argList->at(current->argList->count()-1)->docs = c->str; } } } {ID} { //current->type not yet available QCString param = yytext; // std::cout << "3=========> got parameter " << param << std::endl; current->args += param; Argument *arg = new Argument; arg->name = param; arg->type = ""; current->argList->append(arg); } {NOARGS} { newLine(); //printf("3=========> without parameterlist \n"); //current->argList = ; addCurrentEntry(1); startScope(last_entry); BEGIN(SubprogBody); } result{BS}\({BS}{ID} { if (functionLine) { result= yytext; result= result.right(result.length()-result.find("(")-1); result= result.stripWhiteSpace(); modifiers[current_root->parent()][current_root->name.lower()].returnName = result; } //cout << "=====> got result " << result << endl; } /*---- documentation comments --------------------------------------------------------------------*/ "!<" { /* backward docu comment */ if (v_type != V_IGNORE) { current->docLine = yyLineNr; docBlockJavaStyle = FALSE; docBlock.resize(0); docBlockJavaStyle = Config_getBool(JAVADOC_AUTOBRIEF); startCommentBlock(TRUE); yy_push_state(DocBackLine); } else { /* handle out of place !< comment as a normal comment */ if (YY_START == String) { yyColNr -= (int)yyleng; REJECT; } // "!" is ignored in strings // skip comment line (without docu comments "!>" "!<" ) /* ignore further "!" and ignore comments in Strings */ if ((YY_START != StrIgnore) && (YY_START != String)) { yy_push_state(YY_START); BEGIN(StrIgnore); debugStr="*!"; } } } .* { // contents of current comment line docBlock+=yytext; } "\n"{BS}"!"("<"|"!"+) { // comment block (next line is also comment line) docBlock+="\n"; // \n is necessary for lists newLine(); } "\n" { // comment block ends at the end of this line //cout <<"3=========> comment block : "<< docBlock << endl; yyColNr -= 1; unput(*yytext); if (v_type == V_VARIABLE) { Entry *tmp_entry = current; current = last_entry; // temporarily switch to the previous entry if (last_enum) current = last_enum; handleCommentBlock(docBlock,TRUE); current=tmp_entry; } else if (v_type == V_PARAMETER) { subrHandleCommentBlock(docBlock,TRUE); } else if (v_type == V_RESULT) { subrHandleCommentBlockResult(docBlock,TRUE); } yy_pop_state(); docBlock.resize(0); } "!>" { yy_push_state(YY_START); current->docLine = yyLineNr; docBlockJavaStyle = FALSE; if (YY_START==SubprogBody) docBlockInBody = TRUE; docBlock.resize(0); docBlockJavaStyle = Config_getBool(JAVADOC_AUTOBRIEF); startCommentBlock(TRUE); BEGIN(DocBlock); //cout << "start DocBlock " << endl; } .* { // contents of current comment line docBlock+=yytext; } "\n"{BS}"!"(">"|"!"+) { // comment block (next line is also comment line) docBlock+="\n"; // \n is necessary for lists newLine(); } "\n" { // comment block ends at the end of this line //cout <<"3=========> comment block : "<< docBlock << endl; yyColNr -= 1; unput(*yytext); handleCommentBlock(docBlock,TRUE); yy_pop_state(); } /*-----Prototype parsing -------------------------------------------------------------------------*/ {BS}{SUBPROG}{BS_} { BEGIN(PrototypeSubprog); } {BS}{SCOPENAME}?{BS}{ID} { current->name = QCString(yytext).lower(); current->name.stripWhiteSpace(); BEGIN(PrototypeArgs); } { "("|")"|","|{BS_} { current->args += yytext; } {ID} { current->args += yytext; Argument *a = new Argument; a->name = QCString(yytext).lower(); current->argList->append(a); } } /*------------------------------------------------------------------------------------------------*/ <*>"\n" { newLine(); //if (debugStr.stripWhiteSpace().length() > 0) cout << "ignored text: " << debugStr << " state: " <<> { if (parsingPrototype) { yyterminate(); } else if ( include_stack_ptr <= 0 ) { if (YY_START!=INITIAL && YY_START!=Start) { DBG_CTX((stderr,"==== Error: EOF reached in wrong state (end missing)")); scanner_abort(); } yyterminate(); } else { popBuffer(); } } <*>{LOG_OPER} { // Fortran logical comparison keywords } <*>. { //debugStr+=yytext; //printf("I:%c\n", *yytext); } // ignore remaining text /**********************************************************************************/ /**********************************************************************************/ /**********************************************************************************/ %% //---------------------------------------------------------------------------- #if 0 static void extractPrefix(QCString &text) { int prefixIndex = 0; int curIndex = 0; bool cont = TRUE; const char* pre[] = {"RECURSIVE","IMPURE","PURE","ELEMENTAL"}; while(cont) { cont = FALSE; for(unsigned int i=0; i<4; i++) { if((prefixIndex=text.find(pre[i], curIndex, FALSE))==0) { text.remove(0,strlen(pre[i])); text.stripWhiteSpace(); cont = TRUE; } } } } #endif static void newLine() { yyLineNr++; yyLineNr+=lineCountPrepass; lineCountPrepass=0; comments.clear(); } static CommentInPrepass* locatePrepassComment(int from, int to) { //printf("Locate %d-%d\n", from, to); for(uint i=0; icolumn; //printf("Candidate %d\n", c); if (c>=from && c<=to) { // comment for previous variable or parameter return comments.at(i); } } return NULL; } static void updateVariablePrepassComment(int from, int to) { CommentInPrepass *c = locatePrepassComment(from, to); if (c!=NULL && v_type == V_VARIABLE) { last_entry->brief = c->str; } else if (c!=NULL && v_type == V_PARAMETER) { Argument *parameter = getParameter(argName); if (parameter) parameter->docs = c->str; } } static int getAmpersandAtTheStart(const char *buf, int length) { for(int i=0; i=0) return ampIndex; else return commentIndex; } /* Although comments at the end of continuation line are grabbed by this function, * we still do not know how to use them later in parsing. */ void truncatePrepass(int index) { int length = inputStringPrepass.length(); for (int i=index+1; i1 && column<7) return FALSE; skipLine=TRUE; break; default: if(skipLine) break; if(column==7) return TRUE; return FALSE; } } return FALSE; } /* This function assumes that contents has at least size=length+1 */ static void insertCharacter(char *contents, int length, int pos, char c) { // shift tail by one character for(int i=length; i>pos; i--) contents[i]=contents[i-1]; // set the character contents[pos] = c; } /* change comments and bring line continuation character to previous line */ /* also used to set continuation marks in case of fortran code usage, done here as it is quite complicated code */ const char* prepassFixedForm(const char* contents, int *hasContLine) { int column=0; int prevLineLength=0; int prevLineAmpOrExclIndex=-1; char prevQuote = '\0'; char thisQuote = '\0'; bool emptyLabel=TRUE; bool commented=FALSE; bool inSingle=FALSE; bool inDouble=FALSE; bool inBackslash=FALSE; bool fullCommentLine=TRUE; int newContentsSize = strlen(contents)+3; // \000, \n (when necessary) and one spare character (to avoid reallocation) char* newContents = (char*)malloc(newContentsSize); int curLine = 1; for(int i=0, j=0;;i++,j++) { if(j>=newContentsSize-3) { // check for spare characters, which may be eventually used below (by & and '! ') newContents = (char*)realloc(newContents, newContentsSize+1000); newContentsSize = newContentsSize+1000; } column++; char c = contents[i]; switch(c) { case '\n': if (!fullCommentLine) { prevLineLength=column; prevLineAmpOrExclIndex=getAmpOrExclAtTheEnd(&contents[i-prevLineLength+1], prevLineLength,prevQuote); if (prevLineAmpOrExclIndex == -1) prevLineAmpOrExclIndex = column - 1; } else { prevLineLength+=column; /* Even though a full comment line is not really a comment line it can be seen as one. An empty line is also seen as a comment line (small bonus) */ if (hasContLine) { hasContLine[curLine - 1] = 1; } } fullCommentLine=TRUE; column=0; emptyLabel=TRUE; commented=FALSE; newContents[j]=c; prevQuote = thisQuote; curLine++; break; case ' ': case '\t': newContents[j]=c; break; case '\000': if (hasContLine) { free(newContents); return NULL; } newContents[j]='\000'; newContentsSize = strlen(newContents); if (newContents[newContentsSize - 1] != '\n') { // to be on the safe side newContents = (char*)realloc(newContents, newContentsSize+2); newContents[newContentsSize] = '\n'; newContents[newContentsSize + 1] = '\000'; } return newContents; case '"': case '\'': case '\\': if ((column <= fixedCommentAfter) && (column!=6) && !commented) { // we have some special cases in respect to strings and escaped string characters fullCommentLine=FALSE; newContents[j]=c; if (c == '\\') { inBackslash = !inBackslash; break; } else if (c == '\'') { if (!inDouble) { inSingle = !inSingle; if (inSingle) thisQuote = c; else thisQuote = '\0'; } break; } else if (c == '"') { if (!inSingle) { inDouble = !inDouble; if (inDouble) thisQuote = c; else thisQuote = '\0'; } break; } } inBackslash = FALSE; // fallthrough case 'C': case 'c': case '*': case '!': if ((column <= fixedCommentAfter) && (column!=6)) { emptyLabel=FALSE; if(column==1) { newContents[j]='!'; commented = TRUE; } else if ((c == '!') && !inDouble && !inSingle) { newContents[j]=c; commented = TRUE; } else { if (!commented) fullCommentLine=FALSE; newContents[j]=c; } break; } // fallthrough default: if ((column < 6) && ((c - '0') >= 0) && ((c - '0') <= 9)) { // remove numbers, i.e. labels from first 5 positions. newContents[j]=' '; } else if(column==6 && emptyLabel) { // continuation if (!commented) fullCommentLine=FALSE; if (c != '0') { // 0 not allowed as continuation character, see f95 standard paragraph 3.3.2.3 newContents[j]=' '; if(prevLineAmpOrExclIndex==-1) { // add & just before end of previous line /* first line is not a continuation line in code, just in snippets etc. */ if (curLine != 1) insertCharacter(newContents, j+1, (j+1)-6-1, '&'); j++; } else { // add & just before end of previous line comment /* first line is not a continuation line in code, just in snippets etc. */ if (curLine != 1) insertCharacter(newContents, j+1, (j+1)-6-prevLineLength+prevLineAmpOrExclIndex, '&'); j++; } if (hasContLine) hasContLine[curLine - 1] = 1; } else { newContents[j]=c; // , just handle like space } prevLineLength=0; } else if ((column > fixedCommentAfter) && !commented) { // first non commented non blank character after position fixedCommentAfter if (c != '!') { // I'm not a possible start of doxygen comment newContents[j++]='!'; newContents[j++]=' '; // so that '<' and '>' as first character are not converted to doxygen comment } newContents[j]=c; commented = TRUE; } else { if (!commented) fullCommentLine=FALSE; newContents[j]=c; emptyLabel=FALSE; } break; } } if (hasContLine) { free(newContents); return NULL; } newContentsSize = strlen(newContents); if (newContents[newContentsSize - 1] != '\n') { // to be on the safe side newContents = (char*)realloc(newContents, newContentsSize+2); newContents[newContentsSize] = '\n'; newContents[newContentsSize + 1] = '\000'; } return newContents; } static void pushBuffer(QCString& buffer) { if (include_stack_cnt <= include_stack_ptr) { include_stack_cnt++; include_stack = (YY_BUFFER_STATE *)realloc(include_stack, include_stack_cnt * sizeof(YY_BUFFER_STATE)); } include_stack[include_stack_ptr++] = YY_CURRENT_BUFFER; yy_switch_to_buffer(yy_scan_string(buffer)); DBG_CTX((stderr, "--PUSH--%s", (const char *)buffer)); buffer = NULL; } static void popBuffer() { DBG_CTX((stderr, "--POP--")); include_stack_ptr --; yy_delete_buffer( YY_CURRENT_BUFFER ); yy_switch_to_buffer( include_stack[include_stack_ptr] ); } /** used to copy entry to an interface module procedure */ static void copyEntry(Entry *dest, Entry *src) { dest->type = src->type; dest->fileName = src->fileName; dest->startLine = src->startLine; dest->bodyLine = src->bodyLine; dest->endBodyLine = src->endBodyLine; dest->args = src->args; dest->argList = new ArgumentList(*src->argList); dest->doc = src->doc; dest->brief = src->brief; } /** fill empty interface module procedures with info from corresponding module subprogs @TODO: handle procedures in used modules */ void resolveModuleProcedures(QList &moduleProcedures, Entry *current_root) { if (moduleProcedures.isEmpty()) return; EntryListIterator eli1(moduleProcedures); // for all module procedures for (Entry *ce1; (ce1=eli1.current()); ++eli1) { // check all entries in this module EntryListIterator eli2(*current_root->children()); for (Entry *ce2; (ce2=eli2.current()); ++eli2) { if (ce1->name == ce2->name) { copyEntry(ce1, ce2); } } // for procedures in current module } // for all interface module procedures moduleProcedures.clear(); } #if 0 static bool isTypeName(QCString name) { name = name.lower(); return name=="integer" || name == "real" || name=="complex" || name == "logical"; } #endif /*! Extracts string which resides within parentheses of provided string. */ static QCString extractFromParens(const QCString name) { QCString extracted = name; int start = extracted.find("("); if (start != -1) { extracted.remove(0, start+1); } int end = extracted.findRev(")"); if (end != -1) { int length = extracted.length(); extracted.remove(end, length); } extracted = extracted.stripWhiteSpace(); return extracted; } /*! Adds passed modifiers to these modifiers.*/ SymbolModifiers& SymbolModifiers::operator|=(const SymbolModifiers &mdfs) { if (mdfs.protection!=NONE_P) protection = mdfs.protection; if (mdfs.direction!=NONE_D) direction = mdfs.direction; optional |= mdfs.optional; if (!mdfs.dimension.isNull()) dimension = mdfs.dimension; allocatable |= mdfs.allocatable; external |= mdfs.external; intrinsic |= mdfs.intrinsic; protect |= mdfs.protect; parameter |= mdfs.parameter; pointer |= mdfs.pointer; target |= mdfs.target; save |= mdfs.save; deferred |= mdfs.deferred; nonoverridable |= mdfs.nonoverridable; nopass |= mdfs.nopass; pass |= mdfs.pass; passVar = mdfs.passVar; contiguous |= mdfs.contiguous; volat |= mdfs.volat; value |= mdfs.value; return *this; } /*! Extracts and adds passed modifier to these modifiers.*/ SymbolModifiers& SymbolModifiers::operator|=(QCString mdfString) { mdfString = mdfString.lower(); SymbolModifiers newMdf; if (mdfString.find("dimension")==0) { newMdf.dimension=mdfString; } else if (mdfString.contains("intent")) { QCString tmp = extractFromParens(mdfString); bool isin = tmp.contains("in"); bool isout = tmp.contains("out"); if (isin && isout) newMdf.direction = SymbolModifiers::INOUT; else if (isin) newMdf.direction = SymbolModifiers::IN; else if (isout) newMdf.direction = SymbolModifiers::OUT; } else if (mdfString=="public") { newMdf.protection = SymbolModifiers::PUBLIC; } else if (mdfString=="private") { newMdf.protection = SymbolModifiers::PRIVATE; } else if (mdfString=="protected") { newMdf.protect = TRUE; } else if (mdfString=="optional") { newMdf.optional = TRUE; } else if (mdfString=="allocatable") { newMdf.allocatable = TRUE; } else if (mdfString=="external") { newMdf.external = TRUE; } else if (mdfString=="intrinsic") { newMdf.intrinsic = TRUE; } else if (mdfString=="parameter") { newMdf.parameter = TRUE; } else if (mdfString=="pointer") { newMdf.pointer = TRUE; } else if (mdfString=="target") { newMdf.target = TRUE; } else if (mdfString=="save") { newMdf.save = TRUE; } else if (mdfString=="nopass") { newMdf.nopass = TRUE; } else if (mdfString=="deferred") { newMdf.deferred = TRUE; } else if (mdfString=="non_overridable") { newMdf.nonoverridable = TRUE; } else if (mdfString=="contiguous") { newMdf.contiguous = TRUE; } else if (mdfString=="volatile") { newMdf.volat = TRUE; } else if (mdfString=="value") { newMdf.value = TRUE; } else if (mdfString.contains("pass")) { newMdf.pass = TRUE; if (mdfString.contains("(")) newMdf.passVar = extractFromParens(mdfString); else newMdf.passVar = ""; } (*this) |= newMdf; return *this; } /*! For debugging purposes. */ //ostream& operator<<(ostream& out, const SymbolModifiers& mdfs) //{ // out<argList->count(); i++) { Argument *arg = subprog->argList->at(i); if ((!byTypeName && arg->name.lower() == cname) || (byTypeName && arg->type.lower() == cname) ) { return arg; } } return 0; } /*! Find function with given name in \a entry. */ #if 0 static Entry *findFunction(Entry* entry, QCString name) { QCString cname(name.lower()); EntryListIterator eli(*entry->children()); Entry *ce; for (;(ce=eli.current());++eli) { if (ce->section != Entry::FUNCTION_SEC) continue; if (ce->name.lower() == cname) return ce; } return 0; } #endif /*! Apply modifiers stored in \a mdfs to the \a typeName string. */ static QCString applyModifiers(QCString typeName, SymbolModifiers& mdfs) { if (!mdfs.dimension.isNull()) { if (!typeName.isEmpty()) typeName += ", "; typeName += mdfs.dimension; } if (mdfs.direction!=SymbolModifiers::NONE_D) { if (!typeName.isEmpty()) typeName += ", "; typeName += directionStrs[mdfs.direction]; } if (mdfs.optional) { if (!typeName.isEmpty()) typeName += ", "; typeName += "optional"; } if (mdfs.allocatable) { if (!typeName.isEmpty()) typeName += ", "; typeName += "allocatable"; } if (mdfs.external) { if (!typeName.contains("external")) { if (!typeName.isEmpty()) typeName += ", "; typeName += "external"; } } if (mdfs.intrinsic) { if (!typeName.isEmpty()) typeName += ", "; typeName += "intrinsic"; } if (mdfs.parameter) { if (!typeName.isEmpty()) typeName += ", "; typeName += "parameter"; } if (mdfs.pointer) { if (!typeName.isEmpty()) typeName += ", "; typeName += "pointer"; } if (mdfs.target) { if (!typeName.isEmpty()) typeName += ", "; typeName += "target"; } if (mdfs.save) { if (!typeName.isEmpty()) typeName += ", "; typeName += "save"; } if (mdfs.deferred) { if (!typeName.isEmpty()) typeName += ", "; typeName += "deferred"; } if (mdfs.nonoverridable) { if (!typeName.isEmpty()) typeName += ", "; typeName += "non_overridable"; } if (mdfs.nopass) { if (!typeName.isEmpty()) typeName += ", "; typeName += "nopass"; } if (mdfs.pass) { if (!typeName.isEmpty()) typeName += ", "; typeName += "pass"; if (!mdfs.passVar.isEmpty()) typeName += "(" + mdfs.passVar + ")"; } if (mdfs.protection == SymbolModifiers::PUBLIC) { if (!typeName.isEmpty()) typeName += ", "; typeName += "public"; } else if (mdfs.protection == SymbolModifiers::PRIVATE) { if (!typeName.isEmpty()) typeName += ", "; typeName += "private"; } if (mdfs.protect) { if (!typeName.isEmpty()) typeName += ", "; typeName += "protected"; } if (mdfs.contiguous) { if (!typeName.isEmpty()) typeName += ", "; typeName += "contiguous"; } if (mdfs.volat) { if (!typeName.isEmpty()) typeName += ", "; typeName += "volatile"; } if (mdfs.value) { if (!typeName.isEmpty()) typeName += ", "; typeName += "value"; } return typeName; } /*! Apply modifiers stored in \a mdfs to the \a arg argument. */ static void applyModifiers(Argument *arg, SymbolModifiers& mdfs) { QCString tmp = arg->type; arg->type = applyModifiers(tmp, mdfs); } /*! Apply modifiers stored in \a mdfs to the \a ent entry. */ static void applyModifiers(Entry *ent, SymbolModifiers& mdfs) { QCString tmp = ent->type; ent->type = applyModifiers(tmp, mdfs); if (mdfs.protection == SymbolModifiers::PUBLIC) ent->protection = Public; else if (mdfs.protection == SymbolModifiers::PRIVATE) ent->protection = Private; } /*! Starts the new scope in fortran program. Consider using this function when * starting module, interface, function or other program block. * \see endScope() */ static void startScope(Entry *scope) { //cout<<"start scope: "<name< mdfMap; modifiers.insert(scope, mdfMap); } /*! Ends scope in fortran program: may update subprogram arguments or module variable attributes. * \see startScope() */ static bool endScope(Entry *scope, bool isGlobalRoot) { if (global_scope == scope) { global_scope = NULL; return TRUE; } if (global_scope == (Entry *) -1) { return TRUE; } //cout<<"end scope: "<name<parent() || isGlobalRoot) { current_root= current_root->parent(); /* end substructure */ } else // if (current_root != scope) { fprintf(stderr,"parse error in end \n"); scanner_abort(); return FALSE; } // update variables or subprogram arguments with modifiers QMap& mdfsMap = modifiers[scope]; if (scope->section == Entry::FUNCTION_SEC) { // iterate all symbol modifiers of the scope for (QMap::Iterator it=mdfsMap.begin(); it!=mdfsMap.end(); it++) { //cout<name.lower()].returnName<name.lower()].returnName.lower(); if (modifiers[scope].contains(returnName)) { scope->type = modifiers[scope][returnName].type; // returning type works applyModifiers(scope, modifiers[scope][returnName]); // returning array works } } if (scope->section == Entry::CLASS_SEC) { // was INTERFACE_SEC if (scope->parent()->section == Entry::FUNCTION_SEC) { // interface within function // iterate functions of interface and // try to find types for dummy(ie. argument) procedures. //cout<<"Search in "<name<children()); Entry *ce; int count = 0; int found = FALSE; for (;(ce=eli.current());++eli) { count++; if (ce->section != Entry::FUNCTION_SEC) continue; Argument *arg = findArgument(scope->parent(), ce->name, TRUE); if (arg != 0) { // set type of dummy procedure argument to interface arg->name = arg->type; arg->type = scope->name; } if (ce->name.lower() == scope->name.lower()) found = TRUE; } if ((count == 1) && found) { // clear all modifiers of the scope modifiers.remove(scope); delete scope->parent()->removeSubEntry(scope); scope = 0; return TRUE; } } } if (scope->section!=Entry::FUNCTION_SEC) { // not function section // iterate variables: get and apply modifiers EntryListIterator eli(*scope->children()); Entry *ce; for (;(ce=eli.current());++eli) { if (ce->section != Entry::VARIABLE_SEC && ce->section != Entry::FUNCTION_SEC) continue; //cout<name<<", "<name.lower())<name.lower())) applyModifiers(ce, mdfsMap[ce->name.lower()]); } } // clear all modifiers of the scope modifiers.remove(scope); return TRUE; } #if 0 //! Return full name of the entry. Sometimes we must combine several names recursively. static QCString getFullName(Entry *e) { QCString name = e->name; if (e->section == Entry::CLASS_SEC // || e->section == Entry::INTERFACE_SEC || !e->parent() || e->parent()->name.isEmpty()) return name; return getFullName(e->parent())+"::"+name; } #endif static int yyread(char *buf,int max_size) { int c=0; while ( c < max_size && inputString[inputPosition] ) { *buf = inputString[inputPosition++] ; c++; buf++; } return c; } static void initParser() { last_entry = 0; } static void initEntry() { if (typeMode) { current->protection = typeProtection; } else { current->protection = defaultProtection; } current->mtype = mtype; current->virt = virt; current->stat = gstat; current->lang = SrcLangExt_Fortran; initGroupInfo(current); } /** adds current entry to current_root and creates new current */ static void addCurrentEntry(int case_insens) { if (case_insens) current->name = current->name.lower(); //printf("===Adding entry %s to %s\n", current->name.data(), current_root->name.data()); current_root->addSubEntry(current); last_entry = current; current = new Entry ; initEntry(); } static int max(int a, int b) {return a>b?a:b;} static void addModule(const char *name, bool isModule) { DBG_CTX((stderr, "0=========> got module %s\n", name)); if (isModule) current->section = Entry::NAMESPACE_SEC; else current->section = Entry::FUNCTION_SEC; if (name!=NULL) { current->name = name; } else { QCString fname = yyFileName; int index = max(fname.findRev('/'), fname.findRev('\\')); fname = fname.right(fname.length()-index-1); fname = fname.prepend("__").append("__"); current->name = fname; } current->type = "program"; current->fileName = yyFileName; current->bodyLine = yyLineNr; // used for source reference current->startLine = yyLineNr; current->protection = Public ; addCurrentEntry(1); startScope(last_entry); } static void addSubprogram(const char *text) { DBG_CTX((stderr,"1=========> got subprog, type: %s\n",text)); subrCurrent.prepend(current); current->section = Entry::FUNCTION_SEC ; QCString subtype = text; subtype=subtype.lower().stripWhiteSpace(); functionLine = (subtype.find("function") != -1); current->type += " " + subtype; current->type = current->type.stripWhiteSpace(); current->fileName = yyFileName; current->bodyLine = yyLineNr; // used for source reference start of body of routine current->startLine = yyLineNr; // used for source reference start of definition current->args.resize(0); current->argList->clear(); docBlock.resize(0); } /*! Adds interface to the root entry. * \note Code was brought to this procedure from the parser, * because there was/is idea to use it in several parts of the parser. */ static void addInterface(QCString name, InterfaceType type) { if (YY_START == Start) { addModule(NULL); yy_push_state(ModuleBody); //anon program } current->section = Entry::CLASS_SEC; // was Entry::INTERFACE_SEC; current->spec = Entry::Interface; current->name = name; switch (type) { case IF_ABSTRACT: current->type = "abstract"; break; case IF_GENERIC: current->type = "generic"; break; case IF_SPECIFIC: case IF_NONE: default: current->type = ""; } /* if type is part of a module, mod name is necessary for output */ if ((current_root) && (current_root->section == Entry::CLASS_SEC || current_root->section == Entry::NAMESPACE_SEC)) { current->name= current_root->name + "::" + current->name; } current->fileName = yyFileName; current->bodyLine = yyLineNr; current->startLine = yyLineNr; addCurrentEntry(1); } //----------------------------------------------------------------------------- /*! Get the argument \a name. */ static Argument* getParameter(const QCString &name) { // std::cout<<"addFortranParameter(): "<argList==0) return 0; ArgumentListIterator ali(*current_root->argList); Argument *a; for (ali.toFirst();(a=ali.current());++ali) { if (a->name.lower()==name.lower()) { ret=a; //printf("parameter found: %s\n",(const char*)name); break; } } // for return ret; } //---------------------------------------------------------------------------- static void startCommentBlock(bool brief) { if (brief) { current->briefFile = yyFileName; current->briefLine = yyLineNr; } else { current->docFile = yyFileName; current->docLine = yyLineNr; } } //---------------------------------------------------------------------------- static void handleCommentBlock(const QCString &doc,bool brief) { bool needsEntry = FALSE; static bool hideInBodyDocs = Config_getBool(HIDE_IN_BODY_DOCS); int position=0; if (docBlockInBody && hideInBodyDocs) { docBlockInBody = FALSE; return; } DBG_CTX((stderr,"call parseCommentBlock [%s]\n",doc.data())); int lineNr = brief ? current->briefLine : current->docLine; while (parseCommentBlock( g_thisParser, docBlockInBody ? subrCurrent.getFirst() : current, doc, // text yyFileName, // file lineNr, docBlockInBody ? FALSE : brief, docBlockInBody ? FALSE : docBlockJavaStyle, docBlockInBody, defaultProtection, position, needsEntry )) { DBG_CTX((stderr,"parseCommentBlock position=%d [%s] needsEntry=%d\n",position,doc.data()+position,needsEntry)); if (needsEntry) addCurrentEntry(0); } DBG_CTX((stderr,"parseCommentBlock position=%d [%s] needsEntry=%d\n",position,doc.data()+position,needsEntry)); if (needsEntry) addCurrentEntry(0); docBlockInBody = FALSE; } //---------------------------------------------------------------------------- /// Handle parameter description as defined after the declaration of the parameter static void subrHandleCommentBlock(const QCString &doc,bool brief) { QCString loc_doc; loc_doc = doc.stripWhiteSpace(); Entry *tmp_entry = current; current = subrCurrent.getFirst(); // temporarily switch to the entry of the subroutine / function // Still in the specification section so no inbodyDocs yet, but parameter documentation current->inbodyDocs = ""; // strip \\param or @param, so we can do some extra checking. We will add it later on again. if (!loc_doc.stripPrefix("\\param") && !loc_doc.stripPrefix("@param") ) (void)loc_doc; // Do nothing work has been done by stripPrefix; (void)loc_doc: to overcome 'empty controlled statement' warning loc_doc.stripWhiteSpace(); // direction as defined with the declaration of the parameter int dir1 = modifiers[current_root][argName.lower()].direction; // in description [in] is specified if (loc_doc.lower().find(directionParam[SymbolModifiers::IN]) == 0) { // check if with the declaration intent(in) or nothing has been specified if ((directionParam[dir1] == directionParam[SymbolModifiers::NONE_D]) || (directionParam[dir1] == directionParam[SymbolModifiers::IN])) { // strip direction loc_doc = loc_doc.right(loc_doc.length()-strlen(directionParam[SymbolModifiers::IN])); loc_doc.stripWhiteSpace(); // in case of empty documentation or (now) just name, consider it as no documemntation if (loc_doc.isEmpty() || (loc_doc.lower() == argName.lower())) { // reset current back to the part inside the routine current=tmp_entry; return; } handleCommentBlock(QCString("\n\n@param ") + directionParam[SymbolModifiers::IN] + " " + argName + " " + loc_doc,brief); } else { // something different specified, give warning and leave error. warn(yyFileName,yyLineNr, "Routine: " + current->name + current->args + " inconsistency between intent attribute and documentation for parameter: " + argName); handleCommentBlock(QCString("\n\n@param ") + directionParam[dir1] + " " + argName + " " + loc_doc,brief); } } // analogous to the [in] case, here [out] direction specified else if (loc_doc.lower().find(directionParam[SymbolModifiers::OUT]) == 0) { if ((directionParam[dir1] == directionParam[SymbolModifiers::NONE_D]) || (directionParam[dir1] == directionParam[SymbolModifiers::OUT])) { loc_doc = loc_doc.right(loc_doc.length()-strlen(directionParam[SymbolModifiers::OUT])); loc_doc.stripWhiteSpace(); if (loc_doc.isEmpty() || (loc_doc.lower() == argName.lower())) { current=tmp_entry; return; } handleCommentBlock(QCString("\n\n@param ") + directionParam[SymbolModifiers::OUT] + " " + argName + " " + loc_doc,brief); } else { warn(yyFileName,yyLineNr, "Routine: " + current->name + current->args + " inconsistency between intent attribute and documentation for parameter: " + argName); handleCommentBlock(QCString("\n\n@param ") + directionParam[dir1] + " " + argName + " " + loc_doc,brief); } } // analogous to the [in] case, here [in,out] direction specified else if (loc_doc.lower().find(directionParam[SymbolModifiers::INOUT]) == 0) { if ((directionParam[dir1] == directionParam[SymbolModifiers::NONE_D]) || (directionParam[dir1] == directionParam[SymbolModifiers::INOUT])) { loc_doc = loc_doc.right(loc_doc.length()-strlen(directionParam[SymbolModifiers::INOUT])); loc_doc.stripWhiteSpace(); if (loc_doc.isEmpty() || (loc_doc.lower() == argName.lower())) { current=tmp_entry; return; } handleCommentBlock(QCString("\n\n@param ") + directionParam[SymbolModifiers::INOUT] + " " + argName + " " + loc_doc,brief); } else { warn(yyFileName,yyLineNr, "Routine: " + current->name + current->args + " inconsistency between intent attribute and documentation for parameter: " + argName); handleCommentBlock(QCString("\n\n@param ") + directionParam[dir1] + " " + argName + " " + loc_doc,brief); } } // analogous to the [in] case; here no direction specified else { if (loc_doc.isEmpty() || (loc_doc.lower() == argName.lower())) { current=tmp_entry; return; } handleCommentBlock(QCString("\n\n@param ") + directionParam[dir1] + " " + argName + " " + loc_doc,brief); } // reset current back to the part inside the routine current=tmp_entry; } //---------------------------------------------------------------------------- /// Handle result description as defined after the declaration of the parameter static void subrHandleCommentBlockResult(const QCString &doc,bool brief) { QCString loc_doc; loc_doc = doc.stripWhiteSpace(); Entry *tmp_entry = current; current = subrCurrent.getFirst(); // temporarily switch to the entry of the subroutine / function // Still in the specification section so no inbodyDocs yet, but parameter documentation current->inbodyDocs = ""; // strip \\returns or @returns. We will add it later on again. if (!loc_doc.stripPrefix("\\returns") && !loc_doc.stripPrefix("\\return") && !loc_doc.stripPrefix("@returns") && !loc_doc.stripPrefix("@return") ) (void)loc_doc; // Do nothing work has been done by stripPrefix; (void)loc_doc: to overcome 'empty controlled statement' warning loc_doc.stripWhiteSpace(); if (loc_doc.isEmpty() || (loc_doc.lower() == argName.lower())) { current=tmp_entry; return; } handleCommentBlock(QCString("\n\n@returns ") + loc_doc,brief); // reset current back to the part inside the routine current=tmp_entry; } //---------------------------------------------------------------------------- #if 0 static int level=0; static void debugCompounds(Entry *rt) // print Entry structure (for debugging) { level++; printf("%d) debugCompounds(%s) line %d\n",level, rt->name.data(), rt->bodyLine); EntryListIterator eli(*rt->children()); Entry *ce; for (;(ce=eli.current());++eli) { debugCompounds(ce); } level--; } #endif static void parseMain(const char *fileName,const char *fileBuf,Entry *rt, FortranFormat format) { char *tmpBuf = NULL; initParser(); defaultProtection = Public; inputString = fileBuf; inputPosition = 0; inputStringPrepass = NULL; inputPositionPrepass = 0; //anonCount = 0; // don't reset per file mtype = Method; gstat = FALSE; virt = Normal; current_root = rt; global_root = rt; inputFile.setName(fileName); if (inputFile.open(IO_ReadOnly)) { isFixedForm = recognizeFixedForm(fileBuf,format); if (isFixedForm) { msg("Prepassing fixed form of %s\n", fileName); //printf("---strlen=%d\n", strlen(fileBuf)); //clock_t start=clock(); //printf("Input fixed form string:\n%s\n", fileBuf); //printf("===========================\n"); inputString = prepassFixedForm(fileBuf, NULL); //printf("Resulting free form string:\n%s\n", inputString); //printf("===========================\n"); //clock_t end=clock(); //printf("CPU time used=%f\n", ((double) (end-start))/CLOCKS_PER_SEC); } else if (inputString[strlen(fileBuf)-1] != '\n') { tmpBuf = (char *)malloc(strlen(fileBuf)+2); strcpy(tmpBuf,fileBuf); tmpBuf[strlen(fileBuf)]= '\n'; tmpBuf[strlen(fileBuf)+1]= '\000'; inputString = tmpBuf; } yyLineNr= 1 ; yyFileName = fileName; msg("Parsing file %s...\n",yyFileName.data()); global_scope = rt; startScope(rt); // implies current_root = rt initParser(); groupEnterFile(yyFileName,yyLineNr); current = new Entry; current->lang = SrcLangExt_Fortran; current->name = yyFileName; current->section = Entry::SOURCE_SEC; current_root->addSubEntry(current); file_root = current; current = new Entry; current->lang = SrcLangExt_Fortran; fortranscannerYYrestart( fortranscannerYYin ); { BEGIN( Start ); } fortranscannerYYlex(); groupLeaveFile(yyFileName,yyLineNr); if (global_scope && global_scope != (Entry *) -1) endScope(current_root, TRUE); // TRUE - global root //debugCompounds(rt); //debug rt->program.resize(0); delete current; current=0; moduleProcedures.clear(); if (tmpBuf) { free((char*)tmpBuf); inputString=NULL; } if (isFixedForm) { free((char*)inputString); inputString=NULL; } inputFile.close(); } } //---------------------------------------------------------------------------- void FortranLanguageScanner::parseInput(const char *fileName, const char *fileBuf, Entry *root, bool /*sameTranslationUnit*/, QStrList & /*filesInSameTranslationUnit*/) { g_thisParser = this; printlex(yy_flex_debug, TRUE, __FILE__, fileName); ::parseMain(fileName,fileBuf,root,m_format); printlex(yy_flex_debug, FALSE, __FILE__, fileName); } void FortranLanguageScanner::parseCode(CodeOutputInterface & codeOutIntf, const char * scopeName, const QCString & input, SrcLangExt /*lang*/, bool isExampleBlock, const char * exampleName, FileDef * fileDef, int startLine, int endLine, bool inlineFragment, MemberDef *memberDef, bool showLineNumbers, Definition *searchCtx, bool collectXRefs ) { ::parseFortranCode(codeOutIntf,scopeName,input,isExampleBlock,exampleName, fileDef,startLine,endLine,inlineFragment,memberDef, showLineNumbers,searchCtx,collectXRefs,m_format); } bool FortranLanguageScanner::needsPreprocessing(const QCString &extension) { return extension!=extension.lower(); // use preprocessor only for upper case extensions } void FortranLanguageScanner::resetCodeParserState() { ::resetFortranCodeParserState(); } void FortranLanguageScanner::parsePrototype(const char *text) { QCString buffer = QCString(text); pushBuffer(buffer); parsingPrototype = TRUE; BEGIN(Prototype); fortranscannerYYlex(); parsingPrototype = FALSE; popBuffer(); } static void scanner_abort() { fprintf(stderr,"********************************************************************\n"); fprintf(stderr,"Error in file %s line: %d, state: %d\n",yyFileName.data(),yyLineNr,YY_START); fprintf(stderr,"********************************************************************\n"); EntryListIterator eli(*global_root->children()); Entry *ce; bool start=FALSE; for (;(ce=eli.current());++eli) { if (ce == file_root) start=TRUE; if (start) ce->reset(); } // dummy call to avoid compiler warning (void)yy_top_state(); return; //exit(-1); } //---------------------------------------------------------------------------- #if !defined(YY_FLEX_SUBMINOR_VERSION) //---------------------------------------------------------------------------- extern "C" { // some bogus code to keep the compiler happy void fortranscannernerYYdummy() { yy_flex_realloc(0,0); } } #endif