/********************************************************************** ** ** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved. ** ** This file is part of TQt Designer. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** Licensees holding valid TQt Commercial licenses may use this file in ** accordance with the TQt Commercial License Agreement provided with ** the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include #include #include #include "yyreg.h" /* First comes the tokenizer. We don't need something that knows much about C++. However, we need something that gives tokens from the end of the file to the start, which is tricky. If you are not familiar with hand-written tokenizers and parsers, you might want to read other simpler parsers written in the same style: $(QTDIR)/src/tools/qregexp.cpp $(QTDIR)/tools/inspector/cppparser.cpp You might also want to read Section 2 in the Dragon Book. */ /* Those are the tokens we are interested in. Tok_Something represents any C++ token that does not interest us, but it's dangerous to ignore tokens completely. */ enum { Tok_Boi, Tok_Ampersand, Tok_Aster, Tok_LeftParen, Tok_RightParen, Tok_Equal, Tok_LeftBrace, Tok_RightBrace, Tok_Semicolon, Tok_Colon, Tok_LeftAngle, Tok_RightAngle, Tok_Comma, Tok_Ellipsis, Tok_Gulbrandsen, Tok_LeftBracket, Tok_RightBracket, Tok_Tilde, Tok_Something, Tok_Comment, Tok_Ident, Tok_char, Tok_const, Tok_double, Tok_int, Tok_long, Tok_operator, Tok_short, Tok_signed, Tok_unsigned }; /* The following variables store the lexical analyzer state. The best way to understand them is to implement a function myGetToken() that calls getToken(), to add some tqDebug() statements in there and then to #define getToken() myGetToken(). */ static TQString *yyIn; // the input stream static int yyPos; // the position of the current token in yyIn static int yyCurPos; // the position of the next lookahead character static char *yyLexBuf; // the lexeme buffer static const int YYLexBufSize = 65536; // big enough for long comments static char *yyLex; // the lexeme itself (a pointer into yyLexBuf) static int yyCh; // the lookbehind character /* Moves back to the previous character in the input stream and updates the tokenizer state. This function is to be used only by getToken(), which provides the right abstraction. */ static inline void readChar() { if ( yyCh == EOF ) return; if ( yyLex > yyLexBuf ) *--yyLex = (char) yyCh; if ( yyCurPos < 0 ) yyCh = EOF; else yyCh = (*yyIn)[yyCurPos].unicode(); yyCurPos--; } /* Sets up the tokenizer. */ static void startTokenizer( const TQString& in ) { yyIn = new TQString; *yyIn = in; yyPos = yyIn->length() - 1; yyCurPos = yyPos; yyLexBuf = new char[YYLexBufSize]; yyLex = yyLexBuf + YYLexBufSize - 1; *yyLex = '\0'; yyCh = '\0'; readChar(); } /* Frees resources allocated by the tokenizer. */ static void stopTokenizer() { delete yyIn; delete[] yyLexBuf; yyLexBuf = 0; } /* These two macros implement quick-and-dirty hashing for telling apart keywords fast. */ #define HASH( ch, len ) ( (ch) | ((len) << 8) ) #define CHECK( target ) \ if ( strcmp((target), yyLex) != 0 ) \ break; /* Returns the previous token in the abstract token stream. The parser deals only with tokens, not with characters. */ static int getToken() { // why "+ 2"? try putting some tqDebug()'s and see yyPos = yyCurPos + 2; for ( ;; ) { /* See if the previous token is interesting. If it isn't, we will loop anyway an go to the token before the previous token, and so on. */ yyLex = yyLexBuf + YYLexBufSize - 1; *yyLex = '\0'; if ( yyCh == EOF ) { break; } else if ( isspace(yyCh) ) { bool metNL = FALSE; do { metNL = ( metNL || yyCh == '\n' ); readChar(); } while ( isspace(yyCh) ); if ( metNL ) { /* C++ style comments are tricky. In left-to-right thinking, C++ comments start with "//" and end with '\n'. In right-to-left thinking, they start with a '\n'; but of course not every '\n' starts a comment. When we meet the '\n', we look behind, on the same line, for a "//", and if there is one we mess around with the tokenizer state to effectively ignore the comment. Beware of off-by-one and off-by-two bugs when you modify this code by adding tqDebug()'s here and there. */ if ( yyCurPos >= 0 ) { int lineStart = yyIn->findRev( TQChar('\n'), yyCurPos ) + 1; TQString line = yyIn->mid( lineStart, yyCurPos - lineStart + 2 ); int commentStart = line.find( TQString("//") ); if ( commentStart != -1 ) { yyCurPos = lineStart + commentStart - 1; yyPos = yyCurPos + 2; readChar(); } } } } else if ( isalnum(yyCh) || yyCh == '_' ) { do { readChar(); } while ( isalnum(yyCh) || yyCh == '_' ); switch ( HASH(yyLex[0], strlen(yyLex)) ) { case HASH( 'c', 4 ): CHECK( "char" ); return Tok_char; case HASH( 'c', 5 ): CHECK( "const" ); return Tok_const; case HASH( 'd', 6 ): CHECK( "double" ); return Tok_double; case HASH( 'i', 3 ): CHECK( "int" ); return Tok_int; case HASH( 'l', 4 ): CHECK( "long" ); return Tok_long; case HASH( 'o', 8 ): CHECK( "operator" ); return Tok_operator; case HASH( 's', 5 ): CHECK( "short" ); return Tok_short; case HASH( 's', 6 ): CHECK( "signed" ); return Tok_signed; case HASH( 'u', 8 ): CHECK( "unsigned" ); return Tok_unsigned; } if ( isdigit(*yyLex) ) return Tok_Something; else return Tok_Ident; } else { int quote; switch ( yyCh ) { case '!': case '%': case '^': case '+': case '-': case '?': case '|': readChar(); return Tok_Something; case '"': case '\'': quote = yyCh; readChar(); while ( yyCh != EOF && yyCh != '\n' ) { if ( yyCh == quote ) { readChar(); if ( yyCh != '\\' ) break; } else { readChar(); } } return Tok_Something; case '&': readChar(); if ( yyCh == '&' ) { readChar(); return Tok_Something; } else { return Tok_Ampersand; } case '(': readChar(); return Tok_LeftParen; case ')': readChar(); return Tok_RightParen; case '*': readChar(); return Tok_Aster; case ',': readChar(); return Tok_Comma; case '.': readChar(); if ( yyCh == '.' ) { do { readChar(); } while ( yyCh == '.' ); return Tok_Ellipsis; } else { return Tok_Something; } case '/': /* C-style comments are symmetric. C++-style comments are handled elsewhere. */ readChar(); if ( yyCh == '*' ) { bool metAster = FALSE; bool metAsterSlash = FALSE; readChar(); while ( !metAsterSlash ) { if ( yyCh == EOF ) break; if ( yyCh == '*' ) metAster = TRUE; else if ( metAster && yyCh == '/' ) metAsterSlash = TRUE; else metAster = FALSE; readChar(); } break; // return Tok_Comment; } else { return Tok_Something; } case ':': readChar(); if ( yyCh == ':' ) { readChar(); return Tok_Gulbrandsen; } else { return Tok_Colon; } case ';': readChar(); return Tok_Semicolon; case '<': readChar(); return Tok_LeftAngle; case '=': readChar(); return Tok_Equal; case '>': readChar(); return Tok_RightAngle; case '[': readChar(); return Tok_LeftBracket; case ']': readChar(); return Tok_RightBracket; case '{': readChar(); return Tok_LeftBrace; case '}': readChar(); return Tok_RightBrace; case '~': readChar(); return Tok_Tilde; default: readChar(); } } } return Tok_Boi; } /* Follow the member function(s) of CppFunction. */ /* Returns the prototype for the C++ function, without the semicolon. */ TQString CppFunction::prototype() const { TQString proto; if ( !returnType().isEmpty() ) proto = returnType() + TQChar( ' ' ); proto += scopedName(); proto += TQChar( '(' ); if ( !parameterList().isEmpty() ) { TQStringList::ConstIterator p = parameterList().begin(); proto += *p; ++p; while ( p != parameterList().end() ) { proto += TQString( ", " ); proto += *p; ++p; } } proto += TQChar( ')' ); if ( isConst() ) proto += TQString( " const" ); return proto; } /* The parser follows. We are not really parsing C++, just trying to find the start and end of function definitions. One important pitfall is that the parsed code needs not be valid. Parsing from right to left helps cope with that, as explained in comments below. In the examples, we will use the symbol @ to stand for the position in the token stream. In "int @ x ;", the lookahead token (yyTok) is 'int'. */ static int yyTok; // the current token /* Returns TRUE if thingy is a constructor or a destructor; otherwise returns FALSE. */ static bool isCtorOrDtor( const TQString& thingy ) { // e.g., Alpha::Beta >::~Beta TQRegExp xtor( TQString( "(?:([A-Z_a-z][0-9A-Z_a-z]*)" // class name "(?:<(?:[^>]|<[^>]*>)*>)*" // template arguments "::)+" // many in a row "~?" // ctor or dtor? "\\1") ); // function has same name as class return xtor.exactMatch( thingy ); } /* Skips over any template arguments with balanced angle brackets, and returns the skipped material as a string. Before: TQMap < TQString , TQValueList < TQString > > @ m ; After: TQMap @ < TQString , TQValueList < TQString > > m ; */ static TQString matchTemplateAngles() { TQString t; if ( yyTok == Tok_RightAngle ) { int depth = 0; do { if ( yyTok == Tok_RightAngle ) depth++; else if ( yyTok == Tok_LeftAngle ) depth--; t.prepend( yyLex ); yyTok = getToken(); } while ( depth > 0 && yyTok != Tok_Boi && yyTok != Tok_LeftBrace ); } return t; } /* Similar to matchTemplateAngles(), but for array brackets in parameter data types (as in "int *argv[]"). */ static TQString matchArrayBrackets() { TQString t; while ( yyTok == Tok_RightBracket ) { t.prepend( yyLex ); yyTok = getToken(); if ( yyTok == Tok_Something ) { t.prepend( yyLex ); yyTok = getToken(); } if ( yyTok != Tok_LeftBracket ) return TQString::null; t.prepend( yyLex ); yyTok = getToken(); } return t; } /* Prepends prefix to *type. This operation is in theory trivial, but for the spacing to look good, we have to do something. The original spacing is lost as the input is tokenized. */ static void prependToType( TQString *type, const TQString& prefix ) { if ( !type->isEmpty() && !prefix.isEmpty() ) { TQChar left = prefix[(int) prefix.length() - 1]; TQChar right = (*type)[0]; if ( left.isLetter() && (right.isLetter() || right == TQChar('*') || right == TQChar('&')) ) type->prepend( TQChar(' ') ); } type->prepend( prefix ); } static bool isModifier( int tok ) { return ( tok == Tok_signed || tok == Tok_unsigned || tok == Tok_short || tok == Tok_long ); } /* Parses a data type (backwards as usual) and returns a textual representation of it. */ static TQString matchDataType() { TQString type; while ( yyTok == Tok_Ampersand || yyTok == Tok_Aster || yyTok == Tok_const ) { prependToType( &type, yyLex ); yyTok = getToken(); } /* This code is really hard to follow... sorry. The loop matches Alpha::Beta::Gamma::...::Omega. */ for ( ;; ) { bool modifierMet = FALSE; prependToType( &type, matchTemplateAngles() ); if ( yyTok != Tok_Ident ) { /* People may write 'const unsigned short' or 'short unsigned const' or any other permutation. */ while ( yyTok == Tok_const || isModifier(yyTok) ) { prependToType( &type, yyLex ); yyTok = getToken(); if ( yyTok != Tok_const ) modifierMet = TRUE; } if ( yyTok == Tok_Tilde ) { prependToType( &type, yyLex ); yyTok = getToken(); } } if ( !modifierMet ) { if ( yyTok == Tok_Ellipsis || yyTok == Tok_Ident || yyTok == Tok_char || yyTok == Tok_int || yyTok == Tok_double ) { prependToType( &type, yyLex ); yyTok = getToken(); } else { return TQString::null; } } else if ( yyTok == Tok_int || yyTok == Tok_char || yyTok == Tok_double ) { prependToType( &type, yyLex ); yyTok = getToken(); } while ( yyTok == Tok_const || isModifier(yyTok) ) { prependToType( &type, yyLex ); yyTok = getToken(); } if ( yyTok == Tok_Gulbrandsen ) { prependToType( &type, yyLex ); yyTok = getToken(); } else { break; } } return type; } /* Parses a function prototype (without the semicolon) and returns an object that stores information about this function. */ static CppFunction matchFunctionPrototype( bool stripParamNames ) { CppFunction func; #if 0 TQString documentation; #endif TQString returnType; TQString scopedName; TQStringList params; TQString qualifier; bool cnst = FALSE; if ( yyTok == Tok_const ) { cnst = TRUE; yyTok = getToken(); } if ( yyTok != Tok_RightParen ) return func; yyTok = getToken(); if ( yyTok != Tok_LeftParen ) { for ( ;; ) { TQString brackets = matchArrayBrackets(); TQString name; if ( yyTok == Tok_Ident ) { name = yyLex; yyTok = getToken(); } TQString type = matchDataType(); if ( type.isEmpty() ) { if ( name.isEmpty() ) return func; type = name; name = TQString::null; } if ( stripParamNames ) name = TQString::null; TQString param = type + TQChar( ' ' ) + name + brackets; params.prepend( param.stripWhiteSpace() ); if ( yyTok != Tok_Comma ) break; yyTok = getToken(); } if ( yyTok != Tok_LeftParen ) return func; } yyTok = getToken(); for ( ;; ) { scopedName.prepend( matchTemplateAngles() ); if ( yyTok != Tok_Ident ) { // the operator keyword should be close int i = 0; while ( i < 4 && yyTok != Tok_operator ) { scopedName.prepend( yyLex ); i++; } if ( yyTok != Tok_operator ) return func; } scopedName.prepend( yyLex ); yyTok = getToken(); if ( yyTok != Tok_Gulbrandsen ) break; scopedName.prepend( yyLex ); yyTok = getToken(); } if ( !isCtorOrDtor(scopedName) ) { returnType = matchDataType(); if ( returnType.isEmpty() ) return func; } /* The documentation feature is unused so far, since we cannot really distinguist between a normal comment between two functions and one that relates to the following function. One good heuristic is to assume that a comment immediately followed by a function with no blank line in between relates to the function, but there's no easy way to find that out with a tokenizer. */ #if 0 if ( yyTok == Tok_Comment ) { documentation = yyLex; yyTok = getToken(); } func.setDocumentation( documentation ); #endif func.setReturnType( returnType ); func.setScopedName( scopedName ); func.setParameterList( params ); func.setConst( cnst ); return func; } /* Try to set the body. It's not sufficient to call func->setBody(somewhatBody), as the somewhatBody might be too large. Case in point: void foo() { printf( "Hello" ); } int n; void bar() { printf( " world!\n" ); } The parser first finds bar(). Then it finds "void foo() {" and naively expects the body to extend up to "void bar()". This function's job is to count braces and make sure "int n;" is not counted as part of the body. Cases where the closing brace of the body is missing require no special processing. */ static void setBody( CppFunction *func, const TQString& somewhatBody ) { TQString body = somewhatBody; int braceDepth = 0; int i = 0; while ( i < (int) body.length() ) { if ( body[i] == TQChar('{') ) { braceDepth++; } else if ( body[i] == TQChar('}') ) { braceDepth--; if ( braceDepth == 0 ) { body.truncate( i + 1 ); break; } } i++; } func->setBody( body ); } /* Parses a whole C++ file, looking for function definitions. Case in point: void foo() { printf( "Hello" ); void bar() { printf( " world!\n" ); } The parser looks for left braces and tries to parse a function prototype backwards. First it finds "void bar() {". Then it works up and finds "void foo() {". */ static void matchTranslationUnit( TQValueList *flist ) { int endBody = -1; int startBody; for ( ;; ) { if ( endBody == -1 ) endBody = yyPos; while ( yyTok != Tok_Boi && yyTok != Tok_LeftBrace ) yyTok = getToken(); if ( yyTok == Tok_Boi ) break; // found a left brace yyTok = getToken(); startBody = yyPos; CppFunction func = matchFunctionPrototype( FALSE ); if ( !func.scopedName().isEmpty() ) { TQString body = yyIn->mid( startBody, endBody - startBody ); setBody( &func, body ); body = func.body(); // setBody() can change the body /* Compute important line numbers. */ int functionStartLineNo = 1 + TQConstString( yyIn->unicode(), yyPos ) .string().contains( TQChar('\n') ); int startLineNo = functionStartLineNo + TQConstString( yyIn->unicode() + yyPos, startBody - yyPos ) .string().contains( TQChar('\n') ); int endLineNo = startLineNo + body.contains( TQChar('\n') ); func.setLineNums( functionStartLineNo, startLineNo, endLineNo ); flist->prepend( func ); endBody = -1; } } } /* Extracts C++ function from source code and put them in a list. */ void extractCppFunctions( const TQString& code, TQValueList *flist ) { startTokenizer( code ); yyTok = getToken(); matchTranslationUnit( flist ); stopTokenizer(); } /* Returns the prototype with the parameter names removed. */ TQString canonicalCppProto( const TQString& proto ) { startTokenizer( proto ); yyTok = getToken(); CppFunction func = matchFunctionPrototype( TRUE ); stopTokenizer(); return func.prototype(); }