/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt Linguist of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "lupdate.h" #include #include #include #include #include #include #include #include #include // for isXXX() QT_BEGIN_NAMESPACE /* qmake ignore Q_OBJECT */ static QString MagicComment(QLatin1String("TRANSLATOR")); #define STRING(s) static QString str##s(QLatin1String(#s)) //#define DIAGNOSE_RETRANSLATABILITY // FIXME: should make a runtime option of this class HashString { public: HashString() : m_hashed(false) {} explicit HashString(const QString &str) : m_str(str), m_hashed(false) {} void setValue(const QString &str) { m_str = str; m_hashed = false; } const QString &value() const { return m_str; } bool operator==(const HashString &other) const { return m_str == other.m_str; } private: QString m_str; mutable uint m_hash; mutable bool m_hashed; friend uint qHash(const HashString &str); }; uint qHash(const HashString &str) { if (!str.m_hashed) { str.m_hashed = true; str.m_hash = qHash(str.m_str); } return str.m_hash; } class HashStringList { public: explicit HashStringList(const QList &list) : m_list(list), m_hashed(false) {} const QList &value() const { return m_list; } bool operator==(const HashStringList &other) const { return m_list == other.m_list; } private: QList m_list; mutable uint m_hash; mutable bool m_hashed; friend uint qHash(const HashStringList &list); }; uint qHash(const HashStringList &list) { if (!list.m_hashed) { list.m_hashed = true; uint hash = 0; foreach (const HashString &qs, list.m_list) { hash ^= qHash(qs) ^ 0xa09df22f; hash = (hash << 13) | (hash >> 19); } list.m_hash = hash; } return list.m_hash; } typedef QList NamespaceList; struct Namespace { Namespace() : classDef(this), hasTrFunctions(false), complained(false) {} ~Namespace() { qDeleteAll(children); } QHash children; QHash aliases; QList usings; // Class declarations set no flags and create no namespaces, so they are ignored. // Class definitions may appear multiple times - but only because we are trying to // "compile" all sources irrespective of build configuration. // Nested classes may be forward-declared inside a definition, and defined in another file. // The latter will detach the class' child list, so clones need a backlink to the original // definition (either one in case of multiple definitions). // Namespaces can have tr() functions as well, so we need to track parent definitions for // them as well. The complication is that we may have to deal with a forrest instead of // a tree - in that case the parent will be arbitrary. However, it seem likely that // Q_DECLARE_TR_FUNCTIONS would be used either in "class-like" namespaces with a central // header or only locally in a file. Namespace *classDef; QString trQualification; bool hasTrFunctions; bool complained; // ... that tr functions are missing. }; static int nextFileId; class VisitRecorder { public: VisitRecorder() { m_ba.resize(nextFileId); } bool tryVisit(int fileId) { if (m_ba.at(fileId)) return false; m_ba[fileId] = true; return true; } private: QBitArray m_ba; }; struct ParseResults { int fileId; Namespace rootNamespace; QSet includes; }; typedef QHash ParseResultHash; typedef QHash TranslatorHash; class CppFiles { public: static const ParseResults *getResults(const QString &cleanFile); static void setResults(const QString &cleanFile, const ParseResults *results); static const Translator *getTranslator(const QString &cleanFile); static void setTranslator(const QString &cleanFile, const Translator *results); static bool isBlacklisted(const QString &cleanFile); static void setBlacklisted(const QString &cleanFile); private: static ParseResultHash &parsedFiles(); static TranslatorHash &translatedFiles(); static QSet &blacklistedFiles(); }; class CppParser { public: CppParser(ParseResults *results = 0); void setInput(const QString &in); void setInput(QTextStream &ts, const QString &fileName); void setTranslator(Translator *_tor) { tor = _tor; } void parse(const QString &initialContext, ConversionData &cd, QSet &inclusions); void parseInternal(ConversionData &cd, QSet &inclusions); const ParseResults *recordResults(bool isHeader); void deleteResults() { delete results; } struct SavedState { NamespaceList namespaces; QStack namespaceDepths; NamespaceList functionContext; QString functionContextUnresolved; QString pendingContext; }; private: struct IfdefState { IfdefState() {} IfdefState(int _braceDepth, int _parenDepth) : braceDepth(_braceDepth), parenDepth(_parenDepth), elseLine(-1) {} SavedState state; int braceDepth, braceDepth1st; int parenDepth, parenDepth1st; int elseLine; }; uint getChar(); uint getToken(); bool getMacroArgs(); bool match(uint t); bool matchString(QString *s); bool matchEncoding(bool *utf8); bool matchStringOrNull(QString *s); bool matchExpression(); QString transcode(const QString &str, bool utf8); void recordMessage( int line, const QString &context, const QString &text, const QString &comment, const QString &extracomment, const QString &msgid, const TranslatorMessage::ExtraData &extra, bool utf8, bool plural); void processInclude(const QString &file, ConversionData &cd, QSet &inclusions); void saveState(SavedState *state); void loadState(const SavedState *state); static QString stringifyNamespace(const NamespaceList &namespaces); static QStringList stringListifyNamespace(const NamespaceList &namespaces); typedef bool (CppParser::*VisitNamespaceCallback)(const Namespace *ns, void *context) const; bool visitNamespace(const NamespaceList &namespaces, int nsCount, VisitNamespaceCallback callback, void *context, VisitRecorder &vr, const ParseResults *rslt) const; bool visitNamespace(const NamespaceList &namespaces, int nsCount, VisitNamespaceCallback callback, void *context) const; static QStringList stringListifySegments(const QList &namespaces); bool qualifyOneCallbackOwn(const Namespace *ns, void *context) const; bool qualifyOneCallbackUsing(const Namespace *ns, void *context) const; bool qualifyOne(const NamespaceList &namespaces, int nsCnt, const HashString &segment, NamespaceList *resolved) const; bool fullyQualify(const NamespaceList &namespaces, int nsCnt, const QList &segments, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const; bool fullyQualify(const NamespaceList &namespaces, const QList &segments, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const; bool fullyQualify(const NamespaceList &namespaces, const QString &segments, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const; bool findNamespaceCallback(const Namespace *ns, void *context) const; const Namespace *findNamespace(const NamespaceList &namespaces, int nsCount = -1) const; void enterNamespace(NamespaceList *namespaces, const HashString &name); void truncateNamespaces(NamespaceList *namespaces, int lenght); Namespace *modifyNamespace(NamespaceList *namespaces, bool haveLast = true); enum { Tok_Eof, Tok_class, Tok_friend, Tok_namespace, Tok_using, Tok_return, Tok_tr = 10, Tok_trUtf8, Tok_translate, Tok_translateUtf8, Tok_trid, Tok_Q_OBJECT = 20, Tok_Q_DECLARE_TR_FUNCTIONS, Tok_Ident, Tok_Comment, Tok_String, Tok_Arrow, Tok_Colon, Tok_ColonColon, Tok_Equals, Tok_LeftBrace = 30, Tok_RightBrace, Tok_LeftParen, Tok_RightParen, Tok_Comma, Tok_Semicolon, Tok_Null = 40, Tok_Integer, Tok_QuotedInclude = 50, Tok_AngledInclude, Tok_Other = 99 }; // Tokenizer state QString yyFileName; int yyCh; bool yyAtNewline; bool yyCodecIsUtf8; bool yyForceUtf8; QString yyWord; qlonglong yyInteger; QStack yyIfdefStack; int yyBraceDepth; int yyParenDepth; int yyLineNo; int yyCurLineNo; int yyBraceLineNo; int yyParenLineNo; // the string to read from and current position in the string QTextCodec *yySourceCodec; bool yySourceIsUnicode; QString yyInStr; const ushort *yyInPtr; // Parser state uint yyTok; NamespaceList namespaces; QStack namespaceDepths; NamespaceList functionContext; QString functionContextUnresolved; QString prospectiveContext; QString pendingContext; ParseResults *results; Translator *tor; bool directInclude; SavedState savedState; int yyMinBraceDepth; bool inDefine; }; CppParser::CppParser(ParseResults *_results) { tor = 0; if (_results) { results = _results; directInclude = true; } else { results = new ParseResults; directInclude = false; } yyBraceDepth = 0; yyParenDepth = 0; yyCurLineNo = 1; yyBraceLineNo = 1; yyParenLineNo = 1; yyAtNewline = true; yyMinBraceDepth = 0; inDefine = false; } void CppParser::setInput(const QString &in) { yyInStr = in; yyFileName = QString(); yySourceCodec = 0; yySourceIsUnicode = true; yyForceUtf8 = true; } void CppParser::setInput(QTextStream &ts, const QString &fileName) { yyInStr = ts.readAll(); yyFileName = fileName; yySourceCodec = ts.codec(); yySourceIsUnicode = yySourceCodec->name().startsWith("UTF-"); yyForceUtf8 = false; } /* The first part of this source file is the C++ tokenizer. We skip most of C++; the only tokens that interest us are defined here. Thus, the code fragment int main() { printf("Hello, world!\n"); return 0; } is broken down into the following tokens (Tok_ omitted): Ident Ident LeftParen RightParen LeftBrace Ident LeftParen String RightParen Semicolon return Semicolon RightBrace. The 0 doesn't produce any token. */ uint CppParser::getChar() { const ushort *uc = yyInPtr; forever { ushort c = *uc; if (!c) { yyInPtr = uc; return EOF; } ++uc; if (c == '\\') { ushort cc = *uc; if (cc == '\n') { ++yyCurLineNo; ++uc; continue; } if (cc == '\r') { ++yyCurLineNo; ++uc; if (*uc == '\n') ++uc; continue; } } if (c == '\r') { if (*uc == '\n') ++uc; c = '\n'; ++yyCurLineNo; yyAtNewline = true; } else if (c == '\n') { ++yyCurLineNo; yyAtNewline = true; } else if (c != ' ' && c != '\t' && c != '#') { yyAtNewline = false; } yyInPtr = uc; return c; } } // This ignores commas, parens and comments. // IOW, it understands only a single, simple argument. bool CppParser::getMacroArgs() { // Failing this assertion would mean losing the preallocated buffer. Q_ASSERT(yyWord.isDetached()); yyWord.resize(0); while (isspace(yyCh)) yyCh = getChar(); if (yyCh != '(') return false; do { yyCh = getChar(); } while (isspace(yyCh)); ushort *ptr = (ushort *)yyWord.unicode(); while (yyCh != ')') { if (yyCh == EOF) return false; *ptr++ = yyCh; yyCh = getChar(); } yyCh = getChar(); for (; ptr != (ushort *)yyWord.unicode() && isspace(*(ptr - 1)); --ptr) ; yyWord.resize(ptr - (ushort *)yyWord.unicode()); return true; } STRING(Q_OBJECT); STRING(Q_DECLARE_TR_FUNCTIONS); STRING(QT_TR_NOOP); STRING(QT_TRID_NOOP); STRING(QT_TRANSLATE_NOOP); STRING(QT_TRANSLATE_NOOP3); STRING(QT_TR_NOOP_UTF8); STRING(QT_TRANSLATE_NOOP_UTF8); STRING(QT_TRANSLATE_NOOP3_UTF8); STRING(class); // QTranslator::findMessage() has the same parameters as QApplication::translate() STRING(findMessage); STRING(friend); STRING(namespace); STRING(qtTrId); STRING(return); STRING(struct); STRING(TR); STRING(Tr); STRING(tr); STRING(trUtf8); STRING(translate); STRING(using); uint CppParser::getToken() { restart: // Failing this assertion would mean losing the preallocated buffer. Q_ASSERT(yyWord.isDetached()); yyWord.resize(0); while (yyCh != EOF) { yyLineNo = yyCurLineNo; if (yyCh == '#' && yyAtNewline) { /* Early versions of lupdate complained about unbalanced braces in the following code: #ifdef ALPHA while (beta) { #else while (gamma) { #endif delta; } The code contains, indeed, two opening braces for one closing brace; yet there's no reason to panic. The solution is to remember yyBraceDepth as it was when #if, #ifdef or #ifndef was met, and to set yyBraceDepth to that value when meeting #elif or #else. */ do { yyCh = getChar(); } while (isspace(yyCh) && yyCh != '\n'); switch (yyCh) { case 'd': // define // Skip over the name of the define to avoid it being interpreted as c++ code do { // Rest of "define" yyCh = getChar(); if (yyCh == EOF) return Tok_Eof; if (yyCh == '\n') goto restart; } while (!isspace(yyCh)); do { // Space beween "define" and macro name yyCh = getChar(); if (yyCh == EOF) return Tok_Eof; if (yyCh == '\n') goto restart; } while (isspace(yyCh)); do { // Macro name if (yyCh == '(') { // Argument list. Follows the name without a space, and no // paren nesting is possible. do { yyCh = getChar(); if (yyCh == EOF) return Tok_Eof; if (yyCh == '\n') goto restart; } while (yyCh != ')'); break; } yyCh = getChar(); if (yyCh == EOF) return Tok_Eof; if (yyCh == '\n') goto restart; } while (!isspace(yyCh)); do { // Shortcut the immediate newline case if no comments follow. yyCh = getChar(); if (yyCh == EOF) return Tok_Eof; if (yyCh == '\n') goto restart; } while (isspace(yyCh)); saveState(&savedState); yyMinBraceDepth = yyBraceDepth; inDefine = true; goto restart; case 'i': yyCh = getChar(); if (yyCh == 'f') { // if, ifdef, ifndef yyIfdefStack.push(IfdefState(yyBraceDepth, yyParenDepth)); yyCh = getChar(); } else if (yyCh == 'n') { // include do { yyCh = getChar(); } while (yyCh != EOF && !isspace(yyCh)); do { yyCh = getChar(); } while (isspace(yyCh)); int tChar; if (yyCh == '"') tChar = '"'; else if (yyCh == '<') tChar = '>'; else break; ushort *ptr = (ushort *)yyWord.unicode(); forever { yyCh = getChar(); if (yyCh == EOF || yyCh == '\n') break; if (yyCh == tChar) { yyCh = getChar(); break; } *ptr++ = yyCh; } yyWord.resize(ptr - (ushort *)yyWord.unicode()); return (tChar == '"') ? Tok_QuotedInclude : Tok_AngledInclude; } break; case 'e': yyCh = getChar(); if (yyCh == 'l') { // elif, else if (!yyIfdefStack.isEmpty()) { IfdefState &is = yyIfdefStack.top(); if (is.elseLine != -1) { if (yyBraceDepth != is.braceDepth1st || yyParenDepth != is.parenDepth1st) qWarning("%s:%d: Parenthesis/brace mismatch between " "#if and #else branches; using #if branch\n", qPrintable(yyFileName), is.elseLine); } else { is.braceDepth1st = yyBraceDepth; is.parenDepth1st = yyParenDepth; saveState(&is.state); } is.elseLine = yyLineNo; yyBraceDepth = is.braceDepth; yyParenDepth = is.parenDepth; } yyCh = getChar(); } else if (yyCh == 'n') { // endif if (!yyIfdefStack.isEmpty()) { IfdefState is = yyIfdefStack.pop(); if (is.elseLine != -1) { if (yyBraceDepth != is.braceDepth1st || yyParenDepth != is.parenDepth1st) qWarning("%s:%d: Parenthesis/brace mismatch between " "#if and #else branches; using #if branch\n", qPrintable(yyFileName), is.elseLine); yyBraceDepth = is.braceDepth1st; yyParenDepth = is.parenDepth1st; loadState(&is.state); } } yyCh = getChar(); } break; } // Optimization: skip over rest of preprocessor directive do { if (yyCh == '/') { yyCh = getChar(); if (yyCh == '/') { do { yyCh = getChar(); } while (yyCh != EOF && yyCh != '\n'); break; } else if (yyCh == '*') { bool metAster = false; forever { yyCh = getChar(); if (yyCh == EOF) { qWarning("%s:%d: Unterminated C++ comment\n", qPrintable(yyFileName), yyLineNo); break; } if (yyCh == '*') { metAster = true; } else if (metAster && yyCh == '/') { yyCh = getChar(); break; } else { metAster = false; } } } } else { yyCh = getChar(); } } while (yyCh != '\n' && yyCh != EOF); yyCh = getChar(); } else if ((yyCh >= 'A' && yyCh <= 'Z') || (yyCh >= 'a' && yyCh <= 'z') || yyCh == '_') { ushort *ptr = (ushort *)yyWord.unicode(); do { *ptr++ = yyCh; yyCh = getChar(); } while ((yyCh >= 'A' && yyCh <= 'Z') || (yyCh >= 'a' && yyCh <= 'z') || (yyCh >= '0' && yyCh <= '9') || yyCh == '_'); yyWord.resize(ptr - (ushort *)yyWord.unicode()); //qDebug() << "IDENT: " << yyWord; switch (yyWord.unicode()[0].unicode()) { case 'Q': if (yyWord == strQ_OBJECT) return Tok_Q_OBJECT; if (yyWord == strQ_DECLARE_TR_FUNCTIONS) return Tok_Q_DECLARE_TR_FUNCTIONS; if (yyWord == strQT_TR_NOOP) return Tok_tr; if (yyWord == strQT_TRID_NOOP) return Tok_trid; if (yyWord == strQT_TRANSLATE_NOOP) return Tok_translate; if (yyWord == strQT_TRANSLATE_NOOP3) return Tok_translate; if (yyWord == strQT_TR_NOOP_UTF8) return Tok_trUtf8; if (yyWord == strQT_TRANSLATE_NOOP_UTF8) return Tok_translateUtf8; if (yyWord == strQT_TRANSLATE_NOOP3_UTF8) return Tok_translateUtf8; break; case 'T': // TR() for when all else fails if (yyWord == strTR || yyWord == strTr) return Tok_tr; break; case 'c': if (yyWord == strclass) return Tok_class; break; case 'f': /* QTranslator::findMessage() has the same parameters as QApplication::translate(). */ if (yyWord == strfindMessage) return Tok_translate; if (yyWord == strfriend) return Tok_friend; break; case 'n': if (yyWord == strnamespace) return Tok_namespace; break; case 'q': if (yyWord == strqtTrId) return Tok_trid; break; case 'r': if (yyWord == strreturn) return Tok_return; break; case 's': if (yyWord == strstruct) return Tok_class; break; case 't': if (yyWord == strtr) return Tok_tr; if (yyWord == strtrUtf8) return Tok_trUtf8; if (yyWord == strtranslate) return Tok_translate; break; case 'u': if (yyWord == strusing) return Tok_using; break; } return Tok_Ident; } else { switch (yyCh) { case '\n': if (inDefine) { loadState(&savedState); prospectiveContext.clear(); yyBraceDepth = yyMinBraceDepth; yyMinBraceDepth = 0; inDefine = false; } yyCh = getChar(); break; case '/': yyCh = getChar(); if (yyCh == '/') { ushort *ptr = (ushort *)yyWord.unicode() + yyWord.length(); do { yyCh = getChar(); if (yyCh == EOF) break; *ptr++ = yyCh; } while (yyCh != '\n'); yyWord.resize(ptr - (ushort *)yyWord.unicode()); } else if (yyCh == '*') { bool metAster = false; ushort *ptr = (ushort *)yyWord.unicode() + yyWord.length(); forever { yyCh = getChar(); if (yyCh == EOF) { qWarning("%s:%d: Unterminated C++ comment\n", qPrintable(yyFileName), yyLineNo); break; } *ptr++ = yyCh; if (yyCh == '*') metAster = true; else if (metAster && yyCh == '/') break; else metAster = false; } yyWord.resize(ptr - (ushort *)yyWord.unicode() - 2); yyCh = getChar(); } return Tok_Comment; case '"': { ushort *ptr = (ushort *)yyWord.unicode() + yyWord.length(); yyCh = getChar(); while (yyCh != EOF && yyCh != '\n' && yyCh != '"') { if (yyCh == '\\') { yyCh = getChar(); if (yyCh == EOF || yyCh == '\n') break; *ptr++ = '\\'; } *ptr++ = yyCh; yyCh = getChar(); } yyWord.resize(ptr - (ushort *)yyWord.unicode()); if (yyCh != '"') qWarning("%s:%d: Unterminated C++ string\n", qPrintable(yyFileName), yyLineNo); else yyCh = getChar(); return Tok_String; } case '-': yyCh = getChar(); if (yyCh == '>') { yyCh = getChar(); return Tok_Arrow; } break; case ':': yyCh = getChar(); if (yyCh == ':') { yyCh = getChar(); return Tok_ColonColon; } return Tok_Colon; // Incomplete: '<' might be part of '<=' or of template syntax. // The main intent of not completely ignoring it is to break // parsing of things like std::cout << QObject::tr() as // context std::cout::QObject (see Task 161106) case '=': yyCh = getChar(); return Tok_Equals; case '>': case '<': yyCh = getChar(); return Tok_Other; case '\'': yyCh = getChar(); if (yyCh == '\\') yyCh = getChar(); forever { if (yyCh == EOF || yyCh == '\n') { qWarning("%s:%d: Unterminated C++ character\n", qPrintable(yyFileName), yyLineNo); break; } yyCh = getChar(); if (yyCh == '\'') { yyCh = getChar(); break; } } break; case '{': if (yyBraceDepth == 0) yyBraceLineNo = yyCurLineNo; yyBraceDepth++; yyCh = getChar(); return Tok_LeftBrace; case '}': if (yyBraceDepth == yyMinBraceDepth) { if (!inDefine) qWarning("%s:%d: Excess closing brace in C++ code" " (or abuse of the C++ preprocessor)\n", qPrintable(yyFileName), yyCurLineNo); // Avoid things getting messed up even more yyCh = getChar(); return Tok_Semicolon; } yyBraceDepth--; yyCh = getChar(); return Tok_RightBrace; case '(': if (yyParenDepth == 0) yyParenLineNo = yyCurLineNo; yyParenDepth++; yyCh = getChar(); return Tok_LeftParen; case ')': if (yyParenDepth == 0) qWarning("%s:%d: Excess closing parenthesis in C++ code" " (or abuse of the C++ preprocessor)\n", qPrintable(yyFileName), yyCurLineNo); else yyParenDepth--; yyCh = getChar(); return Tok_RightParen; case ',': yyCh = getChar(); return Tok_Comma; case ';': yyCh = getChar(); return Tok_Semicolon; case '0': yyCh = getChar(); if (yyCh == 'x') { do { yyCh = getChar(); } while ((yyCh >= '0' && yyCh <= '9') || (yyCh >= 'a' && yyCh <= 'f') || (yyCh >= 'A' && yyCh <= 'F')); return Tok_Integer; } if (yyCh < '0' || yyCh > '9') return Tok_Null; // Fallthrough case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': do { yyCh = getChar(); } while (yyCh >= '0' && yyCh <= '9'); return Tok_Integer; default: yyCh = getChar(); break; } } } return Tok_Eof; } /* The second part of this source file are namespace/class related utilities for the third part. */ void CppParser::saveState(SavedState *state) { state->namespaces = namespaces; state->namespaceDepths = namespaceDepths; state->functionContext = functionContext; state->functionContextUnresolved = functionContextUnresolved; state->pendingContext = pendingContext; } void CppParser::loadState(const SavedState *state) { namespaces = state->namespaces; namespaceDepths = state->namespaceDepths; functionContext = state->functionContext; functionContextUnresolved = state->functionContextUnresolved; pendingContext = state->pendingContext; } Namespace *CppParser::modifyNamespace(NamespaceList *namespaces, bool haveLast) { Namespace *pns, *ns = &results->rootNamespace; for (int i = 1; i < namespaces->count(); ++i) { pns = ns; if (!(ns = pns->children.value(namespaces->at(i)))) { do { ns = new Namespace; if (haveLast || i < namespaces->count() - 1) if (const Namespace *ons = findNamespace(*namespaces, i + 1)) ns->classDef = ons->classDef; pns->children.insert(namespaces->at(i), ns); pns = ns; } while (++i < namespaces->count()); break; } } return ns; } QString CppParser::stringifyNamespace(const NamespaceList &namespaces) { QString ret; for (int i = 1; i < namespaces.count(); ++i) { if (i > 1) ret += QLatin1String("::"); ret += namespaces.at(i).value(); } return ret; } QStringList CppParser::stringListifyNamespace(const NamespaceList &namespaces) { QStringList ret; for (int i = 1; i < namespaces.count(); ++i) ret << namespaces.at(i).value(); return ret; } bool CppParser::visitNamespace(const NamespaceList &namespaces, int nsCount, VisitNamespaceCallback callback, void *context, VisitRecorder &vr, const ParseResults *rslt) const { const Namespace *ns = &rslt->rootNamespace; for (int i = 1; i < nsCount; ++i) if (!(ns = ns->children.value(namespaces.at(i)))) goto supers; if ((this->*callback)(ns, context)) return true; supers: foreach (const ParseResults *sup, rslt->includes) if (vr.tryVisit(sup->fileId) && visitNamespace(namespaces, nsCount, callback, context, vr, sup)) return true; return false; } bool CppParser::visitNamespace(const NamespaceList &namespaces, int nsCount, VisitNamespaceCallback callback, void *context) const { VisitRecorder vr; return visitNamespace(namespaces, nsCount, callback, context, vr, results); } QStringList CppParser::stringListifySegments(const QList &segments) { QStringList ret; for (int i = 0; i < segments.count(); ++i) ret << segments.at(i).value(); return ret; } struct QualifyOneData { QualifyOneData(const NamespaceList &ns, int nsc, const HashString &seg, NamespaceList *rslvd) : namespaces(ns), nsCount(nsc), segment(seg), resolved(rslvd) {} const NamespaceList &namespaces; int nsCount; const HashString &segment; NamespaceList *resolved; QSet visitedUsings; }; bool CppParser::qualifyOneCallbackOwn(const Namespace *ns, void *context) const { QualifyOneData *data = (QualifyOneData *)context; if (ns->children.contains(data->segment)) { *data->resolved = data->namespaces.mid(0, data->nsCount); *data->resolved << data->segment; return true; } QHash::ConstIterator nsai = ns->aliases.constFind(data->segment); if (nsai != ns->aliases.constEnd()) { const NamespaceList &nsl = *nsai; if (nsl.last().value().isEmpty()) { // Delayed alias resolution NamespaceList &nslIn = *const_cast(&nsl); nslIn.removeLast(); NamespaceList nslOut; if (!fullyQualify(data->namespaces, data->nsCount, nslIn, false, &nslOut, 0)) { const_cast(ns)->aliases.remove(data->segment); return false; } nslIn = nslOut; } *data->resolved = nsl; return true; } return false; } bool CppParser::qualifyOneCallbackUsing(const Namespace *ns, void *context) const { QualifyOneData *data = (QualifyOneData *)context; foreach (const HashStringList &use, ns->usings) if (!data->visitedUsings.contains(use)) { data->visitedUsings.insert(use); if (qualifyOne(use.value(), use.value().count(), data->segment, data->resolved)) return true; } return false; } bool CppParser::qualifyOne(const NamespaceList &namespaces, int nsCnt, const HashString &segment, NamespaceList *resolved) const { QualifyOneData data(namespaces, nsCnt, segment, resolved); if (visitNamespace(namespaces, nsCnt, &CppParser::qualifyOneCallbackOwn, &data)) return true; return visitNamespace(namespaces, nsCnt, &CppParser::qualifyOneCallbackUsing, &data); } bool CppParser::fullyQualify(const NamespaceList &namespaces, int nsCnt, const QList &segments, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const { int nsIdx; int initSegIdx; if (segments.first().value().isEmpty()) { // fully qualified if (segments.count() == 1) { resolved->clear(); *resolved << HashString(QString()); return true; } initSegIdx = 1; nsIdx = 0; } else { initSegIdx = 0; nsIdx = nsCnt - 1; } do { if (qualifyOne(namespaces, nsIdx + 1, segments[initSegIdx], resolved)) { int segIdx = initSegIdx; while (++segIdx < segments.count()) { if (!qualifyOne(*resolved, resolved->count(), segments[segIdx], resolved)) { if (unresolved) *unresolved = stringListifySegments(segments.mid(segIdx)); return false; } } return true; } } while (!isDeclaration && --nsIdx >= 0); resolved->clear(); *resolved << HashString(QString()); if (unresolved) *unresolved = stringListifySegments(segments.mid(initSegIdx)); return false; } bool CppParser::fullyQualify(const NamespaceList &namespaces, const QList &segments, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const { return fullyQualify(namespaces, namespaces.count(), segments, isDeclaration, resolved, unresolved); } bool CppParser::fullyQualify(const NamespaceList &namespaces, const QString &quali, bool isDeclaration, NamespaceList *resolved, QStringList *unresolved) const { static QString strColons(QLatin1String("::")); QList segments; foreach (const QString &str, quali.split(strColons)) // XXX slow, but needs to be fast(?) segments << HashString(str); return fullyQualify(namespaces, segments, isDeclaration, resolved, unresolved); } bool CppParser::findNamespaceCallback(const Namespace *ns, void *context) const { *((const Namespace **)context) = ns; return true; } const Namespace *CppParser::findNamespace(const NamespaceList &namespaces, int nsCount) const { const Namespace *ns = 0; if (nsCount == -1) nsCount = namespaces.count(); visitNamespace(namespaces, nsCount, &CppParser::findNamespaceCallback, &ns); return ns; } void CppParser::enterNamespace(NamespaceList *namespaces, const HashString &name) { *namespaces << name; if (!findNamespace(*namespaces)) modifyNamespace(namespaces, false); } void CppParser::truncateNamespaces(NamespaceList *namespaces, int length) { if (namespaces->count() > length) namespaces->erase(namespaces->begin() + length, namespaces->end()); } /* Functions for processing include files. */ ParseResultHash &CppFiles::parsedFiles() { static ParseResultHash parsed; return parsed; } TranslatorHash &CppFiles::translatedFiles() { static TranslatorHash tors; return tors; } QSet &CppFiles::blacklistedFiles() { static QSet blacklisted; return blacklisted; } const ParseResults *CppFiles::getResults(const QString &cleanFile) { return parsedFiles().value(cleanFile); } void CppFiles::setResults(const QString &cleanFile, const ParseResults *results) { parsedFiles().insert(cleanFile, results); } const Translator *CppFiles::getTranslator(const QString &cleanFile) { return translatedFiles().value(cleanFile); } void CppFiles::setTranslator(const QString &cleanFile, const Translator *tor) { translatedFiles().insert(cleanFile, tor); } bool CppFiles::isBlacklisted(const QString &cleanFile) { return blacklistedFiles().contains(cleanFile); } void CppFiles::setBlacklisted(const QString &cleanFile) { blacklistedFiles().insert(cleanFile); } static bool isHeader(const QString &name) { QString fileExt = QFileInfo(name).suffix(); return fileExt.isEmpty() || fileExt.startsWith(QLatin1Char('h'), Qt::CaseInsensitive); } void CppParser::processInclude(const QString &file, ConversionData &cd, QSet &inclusions) { QString cleanFile = QDir::cleanPath(file); if (inclusions.contains(cleanFile)) { qWarning("%s:%d: circular inclusion of %s\n", qPrintable(yyFileName), yyLineNo, qPrintable(cleanFile)); return; } // If the #include is in any kind of namespace, has been blacklisted previously, // or is not a header file (stdc++ extensionless or *.h*), then really include // it. Otherwise it is safe to process it stand-alone and re-use the parsed // namespace data for inclusion into other files. bool isIndirect = false; if (namespaces.count() == 1 && functionContext.count() == 1 && functionContextUnresolved.isEmpty() && pendingContext.isEmpty() && !CppFiles::isBlacklisted(cleanFile) && isHeader(cleanFile)) { if (const ParseResults *res = CppFiles::getResults(cleanFile)) { results->includes.insert(res); return; } isIndirect = true; } QFile f(cleanFile); if (!f.open(QIODevice::ReadOnly)) { qWarning("%s:%d: Cannot open %s: %s\n", qPrintable(yyFileName), yyLineNo, qPrintable(cleanFile), qPrintable(f.errorString())); return; } QTextStream ts(&f); ts.setCodec(yySourceCodec); ts.setAutoDetectUnicode(true); inclusions.insert(cleanFile); if (isIndirect) { CppParser parser; foreach (const QString &projectRoot, cd.m_projectRoots) if (cleanFile.startsWith(projectRoot)) { parser.setTranslator(new Translator); break; } parser.setInput(ts, cleanFile); parser.parse(cd.m_defaultContext, cd, inclusions); results->includes.insert(parser.recordResults(true)); } else { CppParser parser(results); parser.namespaces = namespaces; parser.functionContext = functionContext; parser.functionContextUnresolved = functionContextUnresolved; parser.pendingContext = pendingContext; parser.setInput(ts, cleanFile); parser.parseInternal(cd, inclusions); // Avoid that messages obtained by direct scanning are used CppFiles::setBlacklisted(cleanFile); } inclusions.remove(cleanFile); } /* The third part of this source file is the parser. It accomplishes a very easy task: It finds all strings inside a tr() or translate() call, and possibly finds out the context of the call. It supports three cases: (1) the context is specified, as in FunnyDialog::tr("Hello") or translate("FunnyDialog", "Hello"); (2) the call appears within an inlined function; (3) the call appears within a function defined outside the class definition. */ bool CppParser::match(uint t) { bool matches = (yyTok == t); if (matches) yyTok = getToken(); return matches; } bool CppParser::matchString(QString *s) { bool matches = false; s->clear(); forever { while (yyTok == Tok_Comment) yyTok = getToken(); if (yyTok != Tok_String) return matches; matches = true; *s += yyWord; s->detach(); yyTok = getToken(); } } STRING(QApplication); STRING(QCoreApplication); STRING(UnicodeUTF8); STRING(DefaultCodec); STRING(CodecForTr); bool CppParser::matchEncoding(bool *utf8) { if (yyTok != Tok_Ident) return false; if (yyWord == strQApplication || yyWord == strQCoreApplication) { yyTok = getToken(); if (yyTok == Tok_ColonColon) yyTok = getToken(); } if (yyWord == strUnicodeUTF8) { *utf8 = true; yyTok = getToken(); return true; } if (yyWord == strDefaultCodec || yyWord == strCodecForTr) { *utf8 = false; yyTok = getToken(); return true; } return false; } bool CppParser::matchStringOrNull(QString *s) { return matchString(s) || match(Tok_Null); } /* * match any expression that can return a number, which can be * 1. Literal number (e.g. '11') * 2. simple identifier (e.g. 'm_count') * 3. simple function call (e.g. 'size()' ) * 4. function call on an object (e.g. 'list.size()') * 5. function call on an object (e.g. 'list->size()') * * Other cases: * size(2,4) * list().size() * list(a,b).size(2,4) * etc... */ bool CppParser::matchExpression() { if (match(Tok_Null) || match(Tok_Integer)) return true; int parenlevel = 0; while (match(Tok_Ident) || parenlevel > 0) { if (yyTok == Tok_RightParen) { if (parenlevel == 0) break; --parenlevel; yyTok = getToken(); } else if (yyTok == Tok_LeftParen) { yyTok = getToken(); if (yyTok == Tok_RightParen) { yyTok = getToken(); } else { ++parenlevel; } } else if (yyTok == Tok_Ident) { continue; } else if (yyTok == Tok_Arrow) { yyTok = getToken(); } else if (parenlevel == 0) { return false; } } return true; } QString CppParser::transcode(const QString &str, bool utf8) { static const char tab[] = "abfnrtv"; static const char backTab[] = "\a\b\f\n\r\t\v"; const QString in = (!utf8 || yySourceIsUnicode) ? str : QString::fromUtf8(yySourceCodec->fromUnicode(str).data()); QString out; out.reserve(in.length()); for (int i = 0; i < in.length();) { ushort c = in[i++].unicode(); if (c == '\\') { if (i >= in.length()) break; c = in[i++].unicode(); if (c == '\n') continue; if (c == 'x') { QByteArray hex; while (i < in.length() && isxdigit((c = in[i].unicode()))) { hex += c; i++; } out += hex.toUInt(0, 16); } else if (c >= '0' && c < '8') { QByteArray oct; int n = 0; oct += c; while (n < 2 && i < in.length() && (c = in[i].unicode()) >= '0' && c < '8') { i++; n++; oct += c; } out += oct.toUInt(0, 8); } else { const char *p = strchr(tab, c); out += QChar(QLatin1Char(!p ? c : backTab[p - tab])); } } else { out += c; } } return out; } void CppParser::recordMessage( int line, const QString &context, const QString &text, const QString &comment, const QString &extracomment, const QString &msgid, const TranslatorMessage::ExtraData &extra, bool utf8, bool plural) { TranslatorMessage msg( transcode(context, utf8), transcode(text, utf8), transcode(comment, utf8), QString(), yyFileName, line, QStringList(), TranslatorMessage::Unfinished, plural); msg.setExtraComment(transcode(extracomment.simplified(), utf8)); msg.setId(msgid); msg.setExtras(extra); if ((utf8 || yyForceUtf8) && !yyCodecIsUtf8 && msg.needs8Bit()) msg.setUtf8(true); tor->append(msg); } void CppParser::parse(const QString &initialContext, ConversionData &cd, QSet &inclusions) { if (tor) yyCodecIsUtf8 = (tor->codecName() == "UTF-8"); namespaces << HashString(); functionContext = namespaces; functionContextUnresolved = initialContext; parseInternal(cd, inclusions); } void CppParser::parseInternal(ConversionData &cd, QSet &inclusions) { static QString strColons(QLatin1String("::")); QString context; QString text; QString comment; QString extracomment; QString msgid; QString sourcetext; TranslatorMessage::ExtraData extra; QString prefix; #ifdef DIAGNOSE_RETRANSLATABILITY QString functionName; #endif int line; bool utf8; bool yyTokColonSeen = false; // Start of c'tor's initializer list yyWord.reserve(yyInStr.size()); // Rather insane. That's because we do no length checking. yyInPtr = (const ushort *)yyInStr.unicode(); yyCh = getChar(); yyTok = getToken(); while (yyTok != Tok_Eof) { //qDebug() << "TOKEN: " << yyTok; switch (yyTok) { case Tok_QuotedInclude: { text = QDir(QFileInfo(yyFileName).absolutePath()).absoluteFilePath(yyWord); text.detach(); if (QFileInfo(text).isFile()) { processInclude(text, cd, inclusions); yyTok = getToken(); break; } } /* fall through */ case Tok_AngledInclude: { QStringList cSources = cd.m_allCSources.values(yyWord); if (!cSources.isEmpty()) { foreach (const QString &cSource, cSources) processInclude(cSource, cd, inclusions); goto incOk; } foreach (const QString &incPath, cd.m_includePath) { text = QDir(incPath).absoluteFilePath(yyWord); text.detach(); if (QFileInfo(text).isFile()) { processInclude(text, cd, inclusions); goto incOk; } } incOk: yyTok = getToken(); break; } case Tok_friend: yyTok = getToken(); // These are forward declarations, so ignore them. if (yyTok == Tok_class) yyTok = getToken(); break; case Tok_class: yyTokColonSeen = false; /* Partial support for inlined functions. */ yyTok = getToken(); if (yyBraceDepth == namespaceDepths.count() && yyParenDepth == 0) { QList quali; HashString fct; do { /* This code should execute only once, but we play safe with impure definitions such as 'class Q_EXPORT QMessageBox', in which case 'QMessageBox' is the class name, not 'Q_EXPORT'. */ text = yyWord; text.detach(); fct.setValue(text); yyTok = getToken(); } while (yyTok == Tok_Ident); while (yyTok == Tok_ColonColon) { yyTok = getToken(); if (yyTok != Tok_Ident) break; // Oops ... quali << fct; text = yyWord; text.detach(); fct.setValue(text); yyTok = getToken(); } while (yyTok == Tok_Comment) yyTok = getToken(); if (yyTok == Tok_Colon) { // Skip any token until '{' since we might do things wrong if we find // a '::' token here. do { yyTok = getToken(); } while (yyTok != Tok_LeftBrace && yyTok != Tok_Eof); } else { if (yyTok != Tok_LeftBrace) { // Obviously a forward declaration. We skip those, as they // don't create actually usable namespaces. break; } } if (!quali.isEmpty()) { // Forward-declared class definitions can be namespaced. NamespaceList nsl; if (!fullyQualify(namespaces, quali, true, &nsl, 0)) { qWarning("%s:%d: Ignoring definition of undeclared qualified class\n", qPrintable(yyFileName), yyLineNo); break; } namespaceDepths.push(namespaces.count()); namespaces = nsl; } else { namespaceDepths.push(namespaces.count()); } enterNamespace(&namespaces, fct); functionContext = namespaces; functionContextUnresolved.clear(); // Pointless prospectiveContext.clear(); pendingContext.clear(); } break; case Tok_namespace: yyTokColonSeen = false; yyTok = getToken(); if (yyTok == Tok_Ident) { text = yyWord; text.detach(); HashString ns = HashString(text); yyTok = getToken(); if (yyTok == Tok_LeftBrace) { namespaceDepths.push(namespaces.count()); enterNamespace(&namespaces, ns); yyTok = getToken(); } else if (yyTok == Tok_Equals) { // e.g. namespace Is = OuterSpace::InnerSpace; QList fullName; yyTok = getToken(); if (yyTok == Tok_ColonColon) fullName.append(HashString(QString())); while (yyTok == Tok_ColonColon || yyTok == Tok_Ident) { if (yyTok == Tok_Ident) { text = yyWord; text.detach(); fullName.append(HashString(text)); } yyTok = getToken(); } if (fullName.isEmpty()) break; fullName.append(HashString(QString())); // Mark as unresolved modifyNamespace(&namespaces)->aliases[ns] = fullName; } } else if (yyTok == Tok_LeftBrace) { // Anonymous namespace namespaceDepths.push(namespaces.count()); yyTok = getToken(); } break; case Tok_using: yyTok = getToken(); // XXX this should affect only the current scope, not the entire current namespace if (yyTok == Tok_namespace) { QList fullName; yyTok = getToken(); if (yyTok == Tok_ColonColon) fullName.append(HashString(QString())); while (yyTok == Tok_ColonColon || yyTok == Tok_Ident) { if (yyTok == Tok_Ident) { text = yyWord; text.detach(); fullName.append(HashString(text)); } yyTok = getToken(); } NamespaceList nsl; if (fullyQualify(namespaces, fullName, false, &nsl, 0)) modifyNamespace(&namespaces)->usings << HashStringList(nsl); } else { QList fullName; if (yyTok == Tok_ColonColon) fullName.append(HashString(QString())); while (yyTok == Tok_ColonColon || yyTok == Tok_Ident) { if (yyTok == Tok_Ident) { text = yyWord; text.detach(); fullName.append(HashString(text)); } yyTok = getToken(); } if (fullName.isEmpty()) break; // using-declarations cannot rename classes, so the last element of // fullName is already the resolved name we actually want. // As we do no resolution here, we'll collect useless usings of data // members and methods as well. This is no big deal. HashString &ns = fullName.last(); fullName.append(HashString(QString())); // Mark as unresolved modifyNamespace(&namespaces)->aliases[ns] = fullName; } break; case Tok_tr: case Tok_trUtf8: if (!tor) goto case_default; if (!sourcetext.isEmpty()) qWarning("%s:%d: //%% cannot be used with tr() / QT_TR_NOOP(). Ignoring\n", qPrintable(yyFileName), yyLineNo); utf8 = (yyTok == Tok_trUtf8); line = yyLineNo; yyTok = getToken(); if (match(Tok_LeftParen) && matchString(&text) && !text.isEmpty()) { comment.clear(); bool plural = false; if (match(Tok_RightParen)) { // no comment } else if (match(Tok_Comma) && matchStringOrNull(&comment)) { //comment if (match(Tok_RightParen)) { // ok, } else if (match(Tok_Comma)) { plural = true; } } if (!pendingContext.isEmpty()) { QStringList unresolved; if (!fullyQualify(namespaces, pendingContext, true, &functionContext, &unresolved)) { functionContextUnresolved = unresolved.join(strColons); qWarning("%s:%d: Qualifying with unknown namespace/class %s::%s\n", qPrintable(yyFileName), yyLineNo, qPrintable(stringifyNamespace(functionContext)), qPrintable(unresolved.first())); } pendingContext.clear(); } if (prefix.isEmpty()) { if (functionContextUnresolved.isEmpty()) { int idx = functionContext.length(); if (idx < 2) { qWarning("%s:%d: tr() cannot be called without context\n", qPrintable(yyFileName), yyLineNo); break; } Namespace *fctx; while (!(fctx = findNamespace(functionContext, idx)->classDef)->hasTrFunctions) { if (idx == 1) { context = stringifyNamespace(functionContext); fctx = findNamespace(functionContext)->classDef; if (!fctx->complained) { qWarning("%s:%d: Class '%s' lacks Q_OBJECT macro\n", qPrintable(yyFileName), yyLineNo, qPrintable(context)); fctx->complained = true; } goto gotctx; } --idx; } if (fctx->trQualification.isEmpty()) { context.clear(); for (int i = 1;;) { context += functionContext.at(i).value(); if (++i == idx) break; context += strColons; } fctx->trQualification = context; } else { context = fctx->trQualification; } } else { context = (stringListifyNamespace(functionContext) << functionContextUnresolved).join(strColons); } } else { #ifdef DIAGNOSE_RETRANSLATABILITY int last = prefix.lastIndexOf(strColons); QString className = prefix.mid(last == -1 ? 0 : last + 2); if (!className.isEmpty() && className == functionName) { qWarning("%s::%d: It is not recommended to call tr() from within a constructor '%s::%s' ", qPrintable(yyFileName), yyLineNo, className.constData(), functionName.constData()); } #endif prefix.chop(2); NamespaceList nsl; QStringList unresolved; if (fullyQualify(functionContext, prefix, false, &nsl, &unresolved)) { Namespace *fctx = findNamespace(nsl)->classDef; if (fctx->trQualification.isEmpty()) { context = stringifyNamespace(nsl); fctx->trQualification = context; } else { context = fctx->trQualification; } if (!fctx->hasTrFunctions && !fctx->complained) { qWarning("%s:%d: Class '%s' lacks Q_OBJECT macro\n", qPrintable(yyFileName), yyLineNo, qPrintable(context)); fctx->complained = true; } } else { context = (stringListifyNamespace(nsl) + unresolved).join(strColons); } prefix.clear(); } gotctx: recordMessage(line, context, text, comment, extracomment, msgid, extra, utf8, plural); } extracomment.clear(); msgid.clear(); extra.clear(); break; case Tok_translateUtf8: case Tok_translate: if (!tor) goto case_default; if (!sourcetext.isEmpty()) qWarning("%s:%d: //%% cannot be used with translate() / QT_TRANSLATE_NOOP(). Ignoring\n", qPrintable(yyFileName), yyLineNo); utf8 = (yyTok == Tok_translateUtf8); line = yyLineNo; yyTok = getToken(); if (match(Tok_LeftParen) && matchString(&context) && match(Tok_Comma) && matchString(&text) && !text.isEmpty()) { comment.clear(); bool plural = false; if (!match(Tok_RightParen)) { // look for comment if (match(Tok_Comma) && matchStringOrNull(&comment)) { if (!match(Tok_RightParen)) { // look for encoding if (match(Tok_Comma)) { if (matchEncoding(&utf8)) { if (!match(Tok_RightParen)) { // look for the plural quantifier, // this can be a number, an identifier or // a function call, // so for simplicity we mark it as plural if // we know we have a comma instead of an // right parentheses. plural = match(Tok_Comma); } } else { // This can be a QTranslator::translate("context", // "source", "comment", n) plural translation if (matchExpression() && match(Tok_RightParen)) { plural = true; } else { break; } } } else { break; } } } else { break; } } recordMessage(line, context, text, comment, extracomment, msgid, extra, utf8, plural); } extracomment.clear(); msgid.clear(); extra.clear(); break; case Tok_trid: if (!tor) goto case_default; if (sourcetext.isEmpty()) { yyTok = getToken(); } else { if (!msgid.isEmpty()) qWarning("%s:%d: //= cannot be used with qtTrId() / QT_TRID_NOOP(). Ignoring\n", qPrintable(yyFileName), yyLineNo); //utf8 = false; // Maybe use //%% or something like that line = yyLineNo; yyTok = getToken(); if (match(Tok_LeftParen) && matchString(&msgid) && !msgid.isEmpty()) { bool plural = match(Tok_Comma); recordMessage(line, QString(), sourcetext, QString(), extracomment, msgid, extra, false, plural); } sourcetext.clear(); } extracomment.clear(); msgid.clear(); extra.clear(); break; case Tok_Q_DECLARE_TR_FUNCTIONS: if (getMacroArgs()) { Namespace *ns = modifyNamespace(&namespaces); ns->hasTrFunctions = true; ns->trQualification = yyWord; ns->trQualification.detach(); } yyTok = getToken(); break; case Tok_Q_OBJECT: modifyNamespace(&namespaces)->hasTrFunctions = true; yyTok = getToken(); break; case Tok_Ident: prefix += yyWord; prefix.detach(); yyTok = getToken(); if (yyTok != Tok_ColonColon) { prefix.clear(); if (yyTok == Tok_Ident && !yyParenDepth) prospectiveContext.clear(); } break; case Tok_Comment: { if (!tor) goto case_default; const QChar *ptr = yyWord.unicode(); if (*ptr == QLatin1Char(':') && ptr[1].isSpace()) { yyWord.remove(0, 2); extracomment += yyWord; extracomment.detach(); } else if (*ptr == QLatin1Char('=') && ptr[1].isSpace()) { yyWord.remove(0, 2); msgid = yyWord.simplified(); msgid.detach(); } else if (*ptr == QLatin1Char('~') && ptr[1].isSpace()) { yyWord.remove(0, 2); text = yyWord.trimmed(); int k = text.indexOf(QLatin1Char(' ')); if (k > -1) extra.insert(text.left(k), text.mid(k + 1).trimmed()); text.clear(); } else if (*ptr == QLatin1Char('%') && ptr[1].isSpace()) { sourcetext.reserve(sourcetext.length() + yyWord.length() - 2); ushort *ptr = (ushort *)sourcetext.data() + sourcetext.length(); int p = 2, c; forever { if (p >= yyWord.length()) break; c = yyWord.unicode()[p++].unicode(); if (isspace(c)) continue; if (c != '"') { qWarning("%s:%d: Unexpected character in meta string\n", qPrintable(yyFileName), yyLineNo); break; } forever { if (p >= yyWord.length()) { whoops: qWarning("%s:%d: Unterminated meta string\n", qPrintable(yyFileName), yyLineNo); break; } c = yyWord.unicode()[p++].unicode(); if (c == '"') break; if (c == '\\') { if (p >= yyWord.length()) goto whoops; c = yyWord.unicode()[p++].unicode(); if (c == '\n') goto whoops; *ptr++ = '\\'; } *ptr++ = c; } } sourcetext.resize(ptr - (ushort *)sourcetext.data()); } else { const ushort *uc = (const ushort *)yyWord.unicode(); // Is zero-terminated int idx = 0; ushort c; while ((c = uc[idx]) == ' ' || c == '\t' || c == '\n') ++idx; if (!memcmp(uc + idx, MagicComment.unicode(), MagicComment.length() * 2)) { idx += MagicComment.length(); comment = QString::fromRawData(yyWord.unicode() + idx, yyWord.length() - idx).simplified(); int k = comment.indexOf(QLatin1Char(' ')); if (k == -1) { context = comment; } else { context = comment.left(k); comment.remove(0, k + 1); recordMessage(yyLineNo, context, QString(), comment, extracomment, QString(), TranslatorMessage::ExtraData(), false, false); extracomment.clear(); tor->setExtras(extra); extra.clear(); } } } yyTok = getToken(); break; } case Tok_Arrow: yyTok = getToken(); if (yyTok == Tok_tr || yyTok == Tok_trUtf8) qWarning("%s:%d: Cannot invoke tr() like this\n", qPrintable(yyFileName), yyLineNo); break; case Tok_ColonColon: if (yyBraceDepth == namespaceDepths.count() && yyParenDepth == 0 && !yyTokColonSeen) prospectiveContext = prefix; prefix += strColons; yyTok = getToken(); #ifdef DIAGNOSE_RETRANSLATABILITY if (yyTok == Tok_Ident && yyBraceDepth == namespaceDepths.count() && yyParenDepth == 0) { functionName = yyWord; functionName.detach(); } #endif break; case Tok_RightBrace: if (yyBraceDepth + 1 == namespaceDepths.count()) // class or namespace truncateNamespaces(&namespaces, namespaceDepths.pop()); if (yyBraceDepth == namespaceDepths.count()) { // function, class or namespace if (!yyBraceDepth && !directInclude) { truncateNamespaces(&functionContext, 1); functionContextUnresolved = cd.m_defaultContext; } else { functionContext = namespaces; functionContextUnresolved.clear(); } pendingContext.clear(); } // fallthrough case Tok_Semicolon: prospectiveContext.clear(); prefix.clear(); extracomment.clear(); msgid.clear(); extra.clear(); yyTokColonSeen = false; yyTok = getToken(); break; case Tok_Colon: if (!prospectiveContext.isEmpty() && yyBraceDepth == namespaceDepths.count() && yyParenDepth == 0) pendingContext = prospectiveContext; yyTokColonSeen = true; yyTok = getToken(); break; case Tok_LeftBrace: if (!prospectiveContext.isEmpty() && yyBraceDepth == namespaceDepths.count() + 1 && yyParenDepth == 0) pendingContext = prospectiveContext; // fallthrough case Tok_LeftParen: case Tok_RightParen: yyTokColonSeen = false; yyTok = getToken(); break; default: if (!yyParenDepth) prospectiveContext.clear(); case_default: yyTok = getToken(); break; } } if (yyBraceDepth != 0) qWarning("%s:%d: Unbalanced opening brace in C++ code" " (or abuse of the C++ preprocessor)\n", qPrintable(yyFileName), yyBraceLineNo); else if (yyParenDepth != 0) qWarning("%s:%d: Unbalanced opening parenthesis in C++ code" " (or abuse of the C++ preprocessor)\n", qPrintable(yyFileName), yyParenLineNo); } const ParseResults *CppParser::recordResults(bool isHeader) { if (tor) { if (tor->messageCount()) { CppFiles::setTranslator(yyFileName, tor); } else { delete tor; tor = 0; } } if (isHeader) { const ParseResults *pr; if (!tor && results->includes.count() == 1 && results->rootNamespace.children.isEmpty() && results->rootNamespace.aliases.isEmpty() && results->rootNamespace.usings.isEmpty()) { // This is a forwarding header. Slash it. pr = *results->includes.begin(); delete results; } else { results->fileId = nextFileId++; pr = results; } CppFiles::setResults(yyFileName, pr); return pr; } else { delete results; return 0; } } /* Fetches tr() calls in C++ code in UI files (inside "" tag). This mechanism is obsolete. */ void fetchtrInlinedCpp(const QString &in, Translator &translator, const QString &context) { CppParser parser; parser.setInput(in); ConversionData cd; QSet inclusions; parser.setTranslator(&translator); parser.parse(context, cd, inclusions); parser.deleteResults(); } void loadCPP(Translator &translator, const QStringList &filenames, ConversionData &cd) { QByteArray codecName = cd.m_codecForSource.isEmpty() ? translator.codecName() : cd.m_codecForSource; QTextCodec *codec = QTextCodec::codecForName(codecName); foreach (const QString &filename, filenames) { if (CppFiles::getResults(filename) || CppFiles::isBlacklisted(filename)) continue; QFile file(filename); if (!file.open(QIODevice::ReadOnly)) { cd.appendError(QString::fromLatin1("Cannot open %1: %2") .arg(filename, file.errorString())); continue; } CppParser parser; QTextStream ts(&file); ts.setCodec(codec); ts.setAutoDetectUnicode(true); if (ts.codec()->name() == "UTF-16") translator.setCodecName("System"); parser.setInput(ts, filename); Translator *tor = new Translator; tor->setCodecName(translator.codecName()); parser.setTranslator(tor); QSet inclusions; parser.parse(cd.m_defaultContext, cd, inclusions); parser.recordResults(isHeader(filename)); } foreach (const QString &filename, filenames) if (!CppFiles::isBlacklisted(filename)) if (const Translator *tor = CppFiles::getTranslator(filename)) foreach (const TranslatorMessage &msg, tor->messages()) translator.extend(msg); } QT_END_NAMESPACE