/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the tools applications 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 either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** 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 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "moc.h" #include "generator.h" #include "qdatetime.h" #include "utils.h" #include "outputrevision.h" // for normalizeTypeInternal #include QT_BEGIN_NAMESPACE // only moc needs this function static QByteArray normalizeType(const char *s, bool fixScope = false) { int len = qstrlen(s); char stackbuf[64]; char *buf = (len >= 64 ? new char[len + 1] : stackbuf); char *d = buf; char last = 0; while(*s && is_space(*s)) s++; while (*s) { while (*s && !is_space(*s)) last = *d++ = *s++; while (*s && is_space(*s)) s++; if (*s && ((is_ident_char(*s) && is_ident_char(last)) || ((*s == ':') && (last == '<')))) { last = *d++ = ' '; } } *d = '\0'; QByteArray result; if (strncmp("void", buf, d - buf) != 0) result = normalizeTypeInternal(buf, d, fixScope); if (buf != stackbuf) delete [] buf; return result; } bool Moc::parseClassHead(ClassDef *def) { // figure out whether this is a class declaration, or only a // forward or variable declaration. int i = 0; Token token; do { token = lookup(i++); if (token == COLON || token == LBRACE) break; if (token == SEMIC || token == RANGLE) return false; } while (token); if (!test(IDENTIFIER)) // typedef struct { ... } return false; QByteArray name = lexem(); // support "class IDENT name" and "class IDENT(IDENT) name" if (test(LPAREN)) { until(RPAREN); if (!test(IDENTIFIER)) return false; name = lexem(); } else if (test(IDENTIFIER)) { name = lexem(); } def->qualified += name; while (test(SCOPE)) { def->qualified += lexem(); if (test(IDENTIFIER)) { name = lexem(); def->qualified += name; } } def->classname = name; if (test(COLON)) { do { test(VIRTUAL); FunctionDef::Access access = FunctionDef::Public; if (test(PRIVATE)) access = FunctionDef::Private; else if (test(PROTECTED)) access = FunctionDef::Protected; else test(PUBLIC); test(VIRTUAL); const QByteArray type = parseType().name; // ignore the 'class Foo : BAR(Baz)' case if (test(LPAREN)) { until(RPAREN); } else { def->superclassList += qMakePair(type, access); } } while (test(COMMA)); } if (!test(LBRACE)) return false; def->begin = index - 1; bool foundRBrace = until(RBRACE); def->end = index; index = def->begin + 1; return foundRBrace; } Type Moc::parseType() { Type type; bool hasSignedOrUnsigned = false; bool isVoid = false; type.firstToken = lookup(); for (;;) { switch (next()) { case SIGNED: case UNSIGNED: hasSignedOrUnsigned = true; // fall through case CONST: case VOLATILE: type.name += lexem(); type.name += ' '; if (lookup(0) == VOLATILE) type.isVolatile = true; continue; case Q_MOC_COMPAT_TOKEN: case Q_QT3_SUPPORT_TOKEN: case Q_INVOKABLE_TOKEN: case Q_SCRIPTABLE_TOKEN: case Q_SIGNALS_TOKEN: case Q_SLOTS_TOKEN: case Q_SIGNAL_TOKEN: case Q_SLOT_TOKEN: type.name += lexem(); return type; default: prev(); break; } break; } test(ENUM) || test(CLASS) || test(STRUCT); for(;;) { switch (next()) { case IDENTIFIER: // void mySlot(unsigned myArg) if (hasSignedOrUnsigned) { prev(); break; } case CHAR: case SHORT: case INT: case LONG: type.name += lexem(); // preserve '[unsigned] long long', 'short int', 'long int', 'long double' if (test(LONG) || test(INT) || test(DOUBLE)) { type.name += ' '; prev(); continue; } break; case FLOAT: case DOUBLE: case VOID: case BOOL: type.name += lexem(); isVoid |= (lookup(0) == VOID); break; default: prev(); ; } if (test(LANGLE)) { QByteArray templ = lexemUntil(RANGLE); for (int i = 0; i < templ.size(); ++i) { type.name += templ.at(i); if ((templ.at(i) == '<' && i < templ.size()-1 && templ.at(i+1) == ':') || (templ.at(i) == '>' && i < templ.size()-1 && templ.at(i+1) == '>')) { type.name += ' '; } } } if (test(SCOPE)) { type.name += lexem(); type.isScoped = true; } else { break; } } while (test(CONST) || test(VOLATILE) || test(SIGNED) || test(UNSIGNED) || test(STAR) || test(AND)) { type.name += ' '; type.name += lexem(); if (lookup(0) == AND) type.referenceType = Type::Reference; else if (lookup(0) == STAR) type.referenceType = Type::Pointer; } // transform stupid things like 'const void' or 'void const' into 'void' if (isVoid && type.referenceType == Type::NoReference) { type.name = "void"; } return type; } bool Moc::parseEnum(EnumDef *def) { bool isTypdefEnum = false; // typedef enum { ... } Foo; if (test(IDENTIFIER)) { def->name = lexem(); } else { if (lookup(-1) != TYPEDEF) return false; // anonymous enum isTypdefEnum = true; } if (!test(LBRACE)) return false; do { if (lookup() == RBRACE) // accept trailing comma break; next(IDENTIFIER); def->values += lexem(); } while (test(EQ) ? until(COMMA) : test(COMMA)); next(RBRACE); if (isTypdefEnum) { if (!test(IDENTIFIER)) return false; def->name = lexem(); } return true; } void Moc::parseFunctionArguments(FunctionDef *def) { Q_UNUSED(def); while (hasNext()) { ArgumentDef arg; arg.type = parseType(); if (arg.type.name == "void") break; if (test(IDENTIFIER)) arg.name = lexem(); while (test(LBRACK)) { arg.rightType += lexemUntil(RBRACK); } if (test(CONST) || test(VOLATILE)) { arg.rightType += ' '; arg.rightType += lexem(); } arg.normalizedType = normalizeType(arg.type.name + ' ' + arg.rightType); arg.typeNameForCast = normalizeType(noRef(arg.type.name) + "(*)" + arg.rightType); if (test(EQ)) arg.isDefault = true; def->arguments += arg; if (!until(COMMA)) break; } } bool Moc::testFunctionAttribute(FunctionDef *def) { if (index < symbols.size() && testFunctionAttribute(symbols.at(index).token, def)) { ++index; return true; } return false; } bool Moc::testFunctionAttribute(Token tok, FunctionDef *def) { switch (tok) { case Q_MOC_COMPAT_TOKEN: case Q_QT3_SUPPORT_TOKEN: def->isCompat = true; return true; case Q_INVOKABLE_TOKEN: def->isInvokable = true; return true; case Q_SIGNAL_TOKEN: def->isSignal = true; return true; case Q_SLOT_TOKEN: def->isSlot = true; return true; case Q_SCRIPTABLE_TOKEN: def->isInvokable = def->isScriptable = true; return true; default: break; } return false; } // returns false if the function should be ignored bool Moc::parseFunction(FunctionDef *def, bool inMacro) { def->isVirtual = false; while (test(INLINE) || test(STATIC) || test(VIRTUAL) || testFunctionAttribute(def)) { if (lookup() == VIRTUAL) def->isVirtual = true; } bool templateFunction = (lookup() == TEMPLATE); def->type = parseType(); if (def->type.name.isEmpty()) { if (templateFunction) error("Template function as signal or slot"); else error(); } bool scopedFunctionName = false; if (test(LPAREN)) { def->name = def->type.name; scopedFunctionName = def->type.isScoped; def->type = Type("int"); } else { Type tempType = parseType();; while (!tempType.name.isEmpty() && lookup() != LPAREN) { if (testFunctionAttribute(def->type.firstToken, def)) ; // fine else if (def->type.firstToken == Q_SIGNALS_TOKEN) error(); else if (def->type.firstToken == Q_SLOTS_TOKEN) error(); else { if (!def->tag.isEmpty()) def->tag += ' '; def->tag += def->type.name; } def->type = tempType; tempType = parseType(); } next(LPAREN, "Not a signal or slot declaration"); def->name = tempType.name; scopedFunctionName = tempType.isScoped; } // we don't support references as return types, it's too dangerous if (def->type.referenceType == Type::Reference) def->type = Type("void"); def->normalizedType = normalizeType(def->type.name); if (!test(RPAREN)) { parseFunctionArguments(def); next(RPAREN); } // support optional macros with compiler specific options while (test(IDENTIFIER)) ; def->isConst = test(CONST); while (test(IDENTIFIER)) ; if (inMacro) { next(RPAREN); prev(); } else { if (test(THROW)) { next(LPAREN); until(RPAREN); } if (test(SEMIC)) ; else if ((def->inlineCode = test(LBRACE))) until(RBRACE); else if ((def->isAbstract = test(EQ))) until(SEMIC); else error(); } if (scopedFunctionName) { QByteArray msg("Function declaration "); msg += def->name; msg += " contains extra qualification. Ignoring as signal or slot."; warning(msg.constData()); return false; } return true; } // like parseFunction, but never aborts with an error bool Moc::parseMaybeFunction(const ClassDef *cdef, FunctionDef *def) { def->isVirtual = false; while (test(EXPLICIT) || test(INLINE) || test(STATIC) || test(VIRTUAL) || testFunctionAttribute(def)) { if (lookup() == VIRTUAL) def->isVirtual = true; } bool tilde = test(TILDE); def->type = parseType(); if (def->type.name.isEmpty()) return false; bool scopedFunctionName = false; if (test(LPAREN)) { def->name = def->type.name; scopedFunctionName = def->type.isScoped; if (def->name == cdef->classname) { def->isDestructor = tilde; def->isConstructor = !tilde; def->type = Type(); } else { def->type = Type("int"); } } else { Type tempType = parseType();; while (!tempType.name.isEmpty() && lookup() != LPAREN) { if (testFunctionAttribute(def->type.firstToken, def)) ; // fine else if (def->type.name == "Q_SIGNAL") def->isSignal = true; else if (def->type.name == "Q_SLOT") def->isSlot = true; else { if (!def->tag.isEmpty()) def->tag += ' '; def->tag += def->type.name; } def->type = tempType; tempType = parseType(); } if (!test(LPAREN)) return false; def->name = tempType.name; scopedFunctionName = tempType.isScoped; } // we don't support references as return types, it's too dangerous if (def->type.referenceType == Type::Reference) def->type = Type("void"); def->normalizedType = normalizeType(def->type.name); if (!test(RPAREN)) { parseFunctionArguments(def); if (!test(RPAREN)) return false; } def->isConst = test(CONST); if (scopedFunctionName && (def->isSignal || def->isSlot || def->isInvokable)) { QByteArray msg("parsemaybe: Function declaration "); msg += def->name; msg += " contains extra qualification. Ignoring as signal or slot."; warning(msg.constData()); return false; } return true; } void Moc::parse() { QList namespaceList; bool templateClass = false; while (hasNext()) { Token t = next(); switch (t) { case NAMESPACE: { int rewind = index; if (test(IDENTIFIER)) { if (test(EQ)) { // namespace Foo = Bar::Baz; until(SEMIC); } else if (!test(SEMIC)) { NamespaceDef def; def.name = lexem(); next(LBRACE); def.begin = index - 1; until(RBRACE); def.end = index; index = def.begin + 1; namespaceList += def; index = rewind; } } break; } case SEMIC: case RBRACE: templateClass = false; break; case TEMPLATE: templateClass = true; break; case MOC_INCLUDE_BEGIN: currentFilenames.push(symbol().unquotedLexem()); break; case MOC_INCLUDE_END: currentFilenames.pop(); break; case Q_DECLARE_INTERFACE_TOKEN: parseDeclareInterface(); break; case Q_DECLARE_METATYPE_TOKEN: parseDeclareMetatype(); break; case USING: if (test(NAMESPACE)) { while (test(SCOPE) || test(IDENTIFIER)) ; next(SEMIC); } break; case CLASS: case STRUCT: { if (currentFilenames.size() <= 1) break; ClassDef def; if (!parseClassHead(&def)) continue; while (inClass(&def) && hasNext()) { if (next() == Q_OBJECT_TOKEN) { def.hasQObject = true; break; } } if (!def.hasQObject) continue; for (int i = namespaceList.size() - 1; i >= 0; --i) if (inNamespace(&namespaceList.at(i))) def.qualified.prepend(namespaceList.at(i).name + "::"); knownQObjectClasses.insert(def.classname); knownQObjectClasses.insert(def.qualified); continue; } default: break; } if ((t != CLASS && t != STRUCT)|| currentFilenames.size() > 1) continue; ClassDef def; if (parseClassHead(&def)) { FunctionDef::Access access = FunctionDef::Private; for (int i = namespaceList.size() - 1; i >= 0; --i) if (inNamespace(&namespaceList.at(i))) def.qualified.prepend(namespaceList.at(i).name + "::"); while (inClass(&def) && hasNext()) { switch ((t = next())) { case PRIVATE: access = FunctionDef::Private; if (test(Q_SIGNALS_TOKEN)) error("Signals cannot have access specifier"); break; case PROTECTED: access = FunctionDef::Protected; if (test(Q_SIGNALS_TOKEN)) error("Signals cannot have access specifier"); break; case PUBLIC: access = FunctionDef::Public; if (test(Q_SIGNALS_TOKEN)) error("Signals cannot have access specifier"); break; case CLASS: { ClassDef nestedDef; if (parseClassHead(&nestedDef)) { while (inClass(&nestedDef) && inClass(&def)) { t = next(); if (t >= Q_META_TOKEN_BEGIN && t < Q_META_TOKEN_END) error("Meta object features not supported for nested classes"); } } } break; case Q_SIGNALS_TOKEN: parseSignals(&def); break; case Q_SLOTS_TOKEN: switch (lookup(-1)) { case PUBLIC: case PROTECTED: case PRIVATE: parseSlots(&def, access); break; default: error("Missing access specifier for slots"); } break; case Q_OBJECT_TOKEN: def.hasQObject = true; if (templateClass) error("Template classes not supported by Q_OBJECT"); if (def.classname != "Qt" && def.classname != "QObject" && def.superclassList.isEmpty()) error("Class contains Q_OBJECT macro but does not inherit from QObject"); break; case Q_GADGET_TOKEN: def.hasQGadget = true; if (templateClass) error("Template classes not supported by Q_GADGET"); break; case Q_PROPERTY_TOKEN: parseProperty(&def); break; case Q_ENUMS_TOKEN: parseEnumOrFlag(&def, false); break; case Q_FLAGS_TOKEN: parseEnumOrFlag(&def, true); break; case Q_DECLARE_FLAGS_TOKEN: parseFlag(&def); break; case Q_CLASSINFO_TOKEN: parseClassInfo(&def); break; case Q_INTERFACES_TOKEN: parseInterfaces(&def); break; case Q_PRIVATE_SLOT_TOKEN: parseSlotInPrivate(&def, access); break; case ENUM: { EnumDef enumDef; if (parseEnum(&enumDef)) def.enumList += enumDef; } break; default: FunctionDef funcDef; funcDef.access = access; int rewind = index; if (parseMaybeFunction(&def, &funcDef)) { if (funcDef.isConstructor) { if ((access == FunctionDef::Public) && funcDef.isInvokable) { def.constructorList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def.constructorList += funcDef; } } } else if (funcDef.isDestructor) { // don't care about destructors } else { if (access == FunctionDef::Public) def.publicList += funcDef; if (funcDef.isSlot) { def.slotList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def.slotList += funcDef; } } else if (funcDef.isSignal) { def.signalList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def.signalList += funcDef; } } else if (funcDef.isInvokable) { def.methodList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def.methodList += funcDef; } } } } else { index = rewind; } } } next(RBRACE); if (!def.hasQObject && !def.hasQGadget && def.signalList.isEmpty() && def.slotList.isEmpty() && def.propertyList.isEmpty() && def.enumDeclarations.isEmpty()) continue; // no meta object code required if (!def.hasQObject && !def.hasQGadget) error("Class declarations lacks Q_OBJECT macro."); checkSuperClasses(&def); classList += def; knownQObjectClasses.insert(def.classname); knownQObjectClasses.insert(def.qualified); } } } void Moc::generate(FILE *out) { QDateTime dt = QDateTime::currentDateTime(); QByteArray dstr = dt.toString().toLatin1(); QByteArray fn = filename; int i = filename.length()-1; while (i>0 && filename[i-1] != '/' && filename[i-1] != '\\') --i; // skip path if (i >= 0) fn = filename.mid(i); fprintf(out, "/****************************************************************************\n" "** Meta object code from reading C++ file '%s'\n**\n" , (const char*)fn); fprintf(out, "** Created: %s\n" "** by: The Qt Meta Object Compiler version %d (Qt %s)\n**\n" , dstr.data(), mocOutputRevision, QT_VERSION_STR); fprintf(out, "** WARNING! All changes made in this file will be lost!\n" "*****************************************************************************/\n\n"); if (!noInclude) { if (includePath.size() && !includePath.endsWith('/')) includePath += '/'; for (int i = 0; i < includeFiles.size(); ++i) { QByteArray inc = includeFiles.at(i); if (inc[0] != '<' && inc[0] != '"') { if (includePath.size() && includePath != "./") inc.prepend(includePath); inc = '\"' + inc + '\"'; } fprintf(out, "#include %s\n", inc.constData()); } } if (classList.size() && classList.first().classname == "Qt") fprintf(out, "#include \n"); fprintf(out, "#if !defined(Q_MOC_OUTPUT_REVISION)\n" "#error \"The header file '%s' doesn't include .\"\n", (const char *)fn); fprintf(out, "#elif Q_MOC_OUTPUT_REVISION != %d\n", mocOutputRevision); fprintf(out, "#error \"This file was generated using the moc from %s." " It\"\n#error \"cannot be used with the include files from" " this version of Qt.\"\n#error \"(The moc has changed too" " much.)\"\n", QT_VERSION_STR); fprintf(out, "#endif\n\n"); fprintf(out, "QT_BEGIN_MOC_NAMESPACE\n"); for (i = 0; i < classList.size(); ++i) { Generator generator(&classList[i], metaTypes, out); generator.generateCode(); } fprintf(out, "QT_END_MOC_NAMESPACE\n"); } QList Moc::generate(bool ignoreProperties) { QList result; for (int i = 0; i < classList.size(); ++i) { Generator generator(&classList[i], metaTypes); result << generator.generateMetaObject(ignoreProperties); } return result; } void Moc::parseSlots(ClassDef *def, FunctionDef::Access access) { next(COLON); while (inClass(def) && hasNext()) { switch (next()) { case PUBLIC: case PROTECTED: case PRIVATE: case Q_SIGNALS_TOKEN: case Q_SLOTS_TOKEN: prev(); return; case SEMIC: continue; case FRIEND: until(SEMIC); continue; case USING: error("'using' directive not supported in 'slots' section"); default: prev(); } FunctionDef funcDef; funcDef.access = access; if (!parseFunction(&funcDef)) continue; def->slotList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def->slotList += funcDef; } } } void Moc::parseSignals(ClassDef *def) { next(COLON); while (inClass(def) && hasNext()) { switch (next()) { case PUBLIC: case PROTECTED: case PRIVATE: case Q_SIGNALS_TOKEN: case Q_SLOTS_TOKEN: prev(); return; case SEMIC: continue; case FRIEND: until(SEMIC); continue; case USING: error("'using' directive not supported in 'signals' section"); default: prev(); } FunctionDef funcDef; funcDef.access = FunctionDef::Protected; parseFunction(&funcDef); if (funcDef.isVirtual) error("Signals cannot be declared virtual"); if (funcDef.inlineCode) error("Not a signal declaration"); def->signalList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def->signalList += funcDef; } } } void Moc::parseProperty(ClassDef *def) { next(LPAREN); PropertyDef propDef; QByteArray type = parseType().name; if (type.isEmpty()) error(); propDef.designable = propDef.scriptable = propDef.stored = "true"; propDef.user = "false"; /* The Q_PROPERTY construct cannot contain any commas, since commas separate macro arguments. We therefore expect users to type "QMap" instead of "QMap". For coherence, we also expect the same for QValueList, the other template class supported by QVariant. */ type = normalizeType(type); if (type == "QMap") type = "QMap"; else if (type == "QValueList") type = "QValueList"; else if (type == "LongLong") type = "qlonglong"; else if (type == "ULongLong") type = "qulonglong"; propDef.type = type; next(); propDef.name = lexem(); while (test(IDENTIFIER)) { QByteArray l = lexem(); QByteArray v, v2; if (test(LPAREN)) { v = lexemUntil(RPAREN); } else { next(IDENTIFIER); v = lexem(); if (test(LPAREN)) v2 = lexemUntil(RPAREN); else if (v != "true" && v != "false") v2 = "()"; } switch (l[0]) { case 'R': if (l == "READ") propDef.read = v; else if (l == "RESET") propDef.reset = v + v2; else error(2); break; case 'S': if (l == "SCRIPTABLE") propDef.scriptable = v + v2; else if (l == "STORED") propDef.stored = v + v2; else error(2); break; case 'W': if (l != "WRITE") error(2); propDef.write = v; break; case 'D': if (l != "DESIGNABLE") error(2); propDef.designable = v + v2; break; case 'E': if (l != "EDITABLE") error(2); propDef.editable = v + v2; break; case 'N': if (l != "NOTIFY") error(2); propDef.notify = v; break; case 'U': if (l != "USER") error(2); propDef.user = v + v2; break; default: error(2); } } next(RPAREN); if (propDef.read.isNull()) { QByteArray msg; msg += "Property declaration "; msg += propDef.name; msg += " has no READ accessor function. The property will be invalid."; warning(msg.constData()); } if(!propDef.notify.isEmpty()) def->notifyableProperties++; def->propertyList += propDef; } void Moc::parseEnumOrFlag(ClassDef *def, bool isFlag) { next(LPAREN); QByteArray identifier; while (test(IDENTIFIER)) { identifier = lexem(); while (test(SCOPE) && test(IDENTIFIER)) { identifier += "::"; identifier += lexem(); } def->enumDeclarations[identifier] = isFlag; } next(RPAREN); } void Moc::parseFlag(ClassDef *def) { next(LPAREN); QByteArray flagName, enumName; while (test(IDENTIFIER)) { flagName = lexem(); while (test(SCOPE) && test(IDENTIFIER)) { flagName += "::"; flagName += lexem(); } } next(COMMA); while (test(IDENTIFIER)) { enumName = lexem(); while (test(SCOPE) && test(IDENTIFIER)) { enumName += "::"; enumName += lexem(); } } def->flagAliases.insert(enumName, flagName); next(RPAREN); } void Moc::parseClassInfo(ClassDef *def) { next(LPAREN); ClassInfoDef infoDef; next(STRING_LITERAL); infoDef.name = symbol().unquotedLexem(); next(COMMA); if (test(STRING_LITERAL)) { infoDef.value = symbol().unquotedLexem(); } else { // support Q_CLASSINFO("help", QT_TR_NOOP("blah")) next(IDENTIFIER); next(LPAREN); next(STRING_LITERAL); infoDef.value = symbol().unquotedLexem(); next(RPAREN); } next(RPAREN); def->classInfoList += infoDef; } void Moc::parseInterfaces(ClassDef *def) { next(LPAREN); while (test(IDENTIFIER)) { QList iface; iface += ClassDef::Interface(lexem()); while (test(SCOPE)) { iface.last().className += lexem(); next(IDENTIFIER); iface.last().className += lexem(); } while (test(COLON)) { next(IDENTIFIER); iface += ClassDef::Interface(lexem()); while (test(SCOPE)) { iface.last().className += lexem(); next(IDENTIFIER); iface.last().className += lexem(); } } // resolve from classnames to interface ids for (int i = 0; i < iface.count(); ++i) { const QByteArray iid = interface2IdMap.value(iface.at(i).className); if (iid.isEmpty()) error("Undefined interface"); iface[i].interfaceId = iid; } def->interfaceList += iface; } next(RPAREN); } void Moc::parseDeclareInterface() { next(LPAREN); QByteArray interface; next(IDENTIFIER); interface += lexem(); while (test(SCOPE)) { interface += lexem(); next(IDENTIFIER); interface += lexem(); } next(COMMA); QByteArray iid; if (test(STRING_LITERAL)) { iid = lexem(); } else { next(IDENTIFIER); iid = lexem(); } interface2IdMap.insert(interface, iid); next(RPAREN); } void Moc::parseDeclareMetatype() { next(LPAREN); QByteArray typeName = lexemUntil(RPAREN); typeName.remove(0, 1); typeName.chop(1); metaTypes.append(typeName); } void Moc::parseSlotInPrivate(ClassDef *def, FunctionDef::Access access) { next(LPAREN); FunctionDef funcDef; next(IDENTIFIER); funcDef.inPrivateClass = lexem(); // also allow void functions if (test(LPAREN)) { next(RPAREN); funcDef.inPrivateClass += "()"; } next(COMMA); funcDef.access = access; parseFunction(&funcDef, true); def->slotList += funcDef; while (funcDef.arguments.size() > 0 && funcDef.arguments.last().isDefault) { funcDef.wasCloned = true; funcDef.arguments.removeLast(); def->slotList += funcDef; } } QByteArray Moc::lexemUntil(Token target) { int from = index; until(target); QByteArray s; while (from <= index) { QByteArray n = symbols.at(from++-1).lexem(); if (s.size() && n.size() && is_ident_char(s.at(s.size()-1)) && is_ident_char(n.at(0))) s += ' '; s += n; } return s; } bool Moc::until(Token target) { int braceCount = 0; int brackCount = 0; int parenCount = 0; int angleCount = 0; if (index) { switch(symbols.at(index-1).token) { case LBRACE: ++braceCount; break; case LBRACK: ++brackCount; break; case LPAREN: ++parenCount; break; case LANGLE: ++angleCount; break; default: break; } } while (index < symbols.size()) { Token t = symbols.at(index++).token; switch (t) { case LBRACE: ++braceCount; break; case RBRACE: --braceCount; break; case LBRACK: ++brackCount; break; case RBRACK: --brackCount; break; case LPAREN: ++parenCount; break; case RPAREN: --parenCount; break; case LANGLE: ++angleCount; break; case RANGLE: --angleCount; break; case GTGT: angleCount -= 2; t = RANGLE; break; default: break; } if (t == target && braceCount <= 0 && brackCount <= 0 && parenCount <= 0 && (target != RANGLE || angleCount <= 0)) return true; if (braceCount < 0 || brackCount < 0 || parenCount < 0 || (target == RANGLE && angleCount < 0)) { --index; break; } } return false; } void Moc::checkSuperClasses(ClassDef *def) { const QByteArray firstSuperclass = def->superclassList.value(0).first; if (!knownQObjectClasses.contains(firstSuperclass)) { // enable once we /require/ include paths #if 0 QByteArray msg; msg += "Class "; msg += def->className; msg += " contains the Q_OBJECT macro and inherits from "; msg += def->superclassList.value(0); msg += " but that is not a known QObject subclass. You may get compilation errors."; warning(msg.constData()); #endif return; } for (int i = 1; i < def->superclassList.count(); ++i) { const QByteArray superClass = def->superclassList.at(i).first; if (knownQObjectClasses.contains(superClass)) { QByteArray msg; msg += "Class "; msg += def->classname; msg += " inherits from two QObject subclasses "; msg += firstSuperclass; msg += " and "; msg += superClass; msg += ". This is not supported!"; warning(msg.constData()); } if (interface2IdMap.contains(superClass)) { bool registeredInterface = false; for (int i = 0; i < def->interfaceList.count(); ++i) if (def->interfaceList.at(i).first().className == superClass) { registeredInterface = true; break; } if (!registeredInterface) { QByteArray msg; msg += "Class "; msg += def->classname; msg += " implements the interface "; msg += superClass; msg += " but does not list it in Q_INTERFACES. qobject_cast to "; msg += superClass; msg += " will not work!"; warning(msg.constData()); } } } } QT_END_NAMESPACE