/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (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 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 "generator.h" #include "outputrevision.h" #include "utils.h" #include #include #include //for the flags. QT_BEGIN_NAMESPACE uint qvariant_nameToType(const char* name) { if (!name) return 0; if (strcmp(name, "QVariant") == 0) return 0xffffffff; if (strcmp(name, "QCString") == 0) return QMetaType::QByteArray; if (strcmp(name, "Q_LLONG") == 0) return QMetaType::LongLong; if (strcmp(name, "Q_ULLONG") == 0) return QMetaType::ULongLong; if (strcmp(name, "QIconSet") == 0) return QMetaType::QIcon; uint tp = QMetaType::type(name); return tp < QMetaType::User ? tp : 0; } /* Returns true if the type is a QVariant types. */ bool isVariantType(const char* type) { return qvariant_nameToType(type) != 0; } /*! Returns true if the type is qreal. */ static bool isQRealType(const char *type) { return strcmp(type, "qreal") == 0; } Generator::Generator(ClassDef *classDef, const QList &metaTypes, FILE *outfile) : out(outfile), cdef(classDef), metaTypes(metaTypes) { if (cdef->superclassList.size()) purestSuperClass = cdef->superclassList.first().first; } static inline int lengthOfEscapeSequence(const QByteArray &s, int i) { if (s.at(i) != '\\' || i >= s.length() - 1) return 1; const int startPos = i; ++i; char ch = s.at(i); if (ch == 'x') { ++i; while (i < s.length() && is_hex_char(s.at(i))) ++i; } else if (is_octal_char(ch)) { while (i < startPos + 4 && i < s.length() && is_octal_char(s.at(i))) { ++i; } } else { // single character escape sequence i = qMin(i + 1, s.length()); } return i - startPos; } int Generator::strreg(const char *s) { int idx = 0; if (!s) s = ""; for (int i = 0; i < strings.size(); ++i) { const QByteArray &str = strings.at(i); if (str == s) return idx; idx += str.length() + 1; for (int i = 0; i < str.length(); ++i) { if (str.at(i) == '\\') { int cnt = lengthOfEscapeSequence(str, i) - 1; idx -= cnt; i += cnt; } } } strings.append(s); return idx; } void Generator::generateCode() { bool isQt = (cdef->classname == "Qt"); bool isQObject = (cdef->classname == "QObject"); bool isConstructible = !cdef->constructorList.isEmpty(); // // build the data array // int i = 0; // filter out undeclared enumerators and sets { QList enumList; for (i = 0; i < cdef->enumList.count(); ++i) { EnumDef def = cdef->enumList.at(i); if (cdef->enumDeclarations.contains(def.name)) { enumList += def; } QByteArray alias = cdef->flagAliases.value(def.name); if (cdef->enumDeclarations.contains(alias)) { def.name = alias; enumList += def; } } cdef->enumList = enumList; } QByteArray qualifiedClassNameIdentifier = cdef->qualified; qualifiedClassNameIdentifier.replace(':', '_'); int index = 14; fprintf(out, "static const uint qt_meta_data_%s[] = {\n", qualifiedClassNameIdentifier.constData()); fprintf(out, "\n // content:\n"); fprintf(out, " %4d, // revision\n", 5); fprintf(out, " %4d, // classname\n", strreg(cdef->qualified)); fprintf(out, " %4d, %4d, // classinfo\n", cdef->classInfoList.count(), cdef->classInfoList.count() ? index : 0); index += cdef->classInfoList.count() * 2; int methodCount = cdef->signalList.count() + cdef->slotList.count() + cdef->methodList.count(); fprintf(out, " %4d, %4d, // methods\n", methodCount, methodCount ? index : 0); index += methodCount * 5; if (cdef->revisionedMethods) index += methodCount; fprintf(out, " %4d, %4d, // properties\n", cdef->propertyList.count(), cdef->propertyList.count() ? index : 0); index += cdef->propertyList.count() * 3; if(cdef->notifyableProperties) index += cdef->propertyList.count(); if (cdef->revisionedProperties) index += cdef->propertyList.count(); fprintf(out, " %4d, %4d, // enums/sets\n", cdef->enumList.count(), cdef->enumList.count() ? index : 0); int enumsIndex = index; for (i = 0; i < cdef->enumList.count(); ++i) index += 4 + (cdef->enumList.at(i).values.count() * 2); fprintf(out, " %4d, %4d, // constructors\n", isConstructible ? cdef->constructorList.count() : 0, isConstructible ? index : 0); fprintf(out, " %4d, // flags\n", 0); fprintf(out, " %4d, // signalCount\n", cdef->signalList.count()); // // Build classinfo array // generateClassInfos(); // // Build signals array first, otherwise the signal indices would be wrong // generateFunctions(cdef->signalList, "signal", MethodSignal); // // Build slots array // generateFunctions(cdef->slotList, "slot", MethodSlot); // // Build method array // generateFunctions(cdef->methodList, "method", MethodMethod); // // Build method version arrays // if (cdef->revisionedMethods) { generateFunctionRevisions(cdef->signalList, "signal"); generateFunctionRevisions(cdef->slotList, "slot"); generateFunctionRevisions(cdef->methodList, "method"); } // // Build property array // generateProperties(); // // Build enums array // generateEnums(enumsIndex); // // Build constructors array // if (isConstructible) generateFunctions(cdef->constructorList, "constructor", MethodConstructor); // // Terminate data array // fprintf(out, "\n 0 // eod\n};\n\n"); // // Build stringdata array // fprintf(out, "static const char qt_meta_stringdata_%s[] = {\n", qualifiedClassNameIdentifier.constData()); fprintf(out, " \""); int col = 0; int len = 0; for (i = 0; i < strings.size(); ++i) { QByteArray s = strings.at(i); len = s.length(); if (col && col + len >= 72) { fprintf(out, "\"\n \""); col = 0; } else if (len && s.at(0) >= '0' && s.at(0) <= '9') { fprintf(out, "\"\""); len += 2; } int idx = 0; while (idx < s.length()) { if (idx > 0) { col = 0; fprintf(out, "\"\n \""); } int spanLen = qMin(70, s.length() - idx); // don't cut escape sequences at the end of a line int backSlashPos = s.lastIndexOf('\\', idx + spanLen - 1); if (backSlashPos >= idx) { int escapeLen = lengthOfEscapeSequence(s, backSlashPos); spanLen = qBound(spanLen, backSlashPos + escapeLen - idx, s.length() - idx); } fwrite(s.constData() + idx, 1, spanLen, out); idx += spanLen; col += spanLen; } fputs("\\0", out); col += len + 2; } fprintf(out, "\"\n};\n\n"); // // Generate internal qt_static_metacall() function // if (isConstructible) generateStaticMetacall(qualifiedClassNameIdentifier); // // Build extra array // QList extraList; for (int i = 0; i < cdef->propertyList.count(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); if (!isVariantType(p.type) && !metaTypes.contains(p.type) && !p.type.contains('*') && !p.type.contains('<') && !p.type.contains('>')) { int s = p.type.lastIndexOf("::"); if (s > 0) { QByteArray scope = p.type.left(s); if (scope != "Qt" && scope != cdef->classname && !extraList.contains(scope)) extraList += scope; } } } if (!extraList.isEmpty()) { fprintf(out, "#ifdef Q_NO_DATA_RELOCATION\n"); fprintf(out, "static const QMetaObjectAccessor qt_meta_extradata_%s[] = {\n ", qualifiedClassNameIdentifier.constData()); for (int i = 0; i < extraList.count(); ++i) { fprintf(out, " %s::getStaticMetaObject,\n", extraList.at(i).constData()); } fprintf(out, "#else\n"); fprintf(out, "static const QMetaObject *qt_meta_extradata_%s[] = {\n ", qualifiedClassNameIdentifier.constData()); for (int i = 0; i < extraList.count(); ++i) { fprintf(out, " &%s::staticMetaObject,\n", extraList.at(i).constData()); } fprintf(out, "#endif //Q_NO_DATA_RELOCATION\n"); fprintf(out, " 0\n};\n\n"); } if (isConstructible || !extraList.isEmpty()) { fprintf(out, "static const QMetaObjectExtraData qt_meta_extradata2_%s = {\n ", qualifiedClassNameIdentifier.constData()); if (extraList.isEmpty()) fprintf(out, "0, "); else fprintf(out, "qt_meta_extradata_%s, ", qualifiedClassNameIdentifier.constData()); if (!isConstructible) fprintf(out, "0"); else fprintf(out, "%s_qt_static_metacall", qualifiedClassNameIdentifier.constData()); fprintf(out, " \n};\n\n"); } // // Finally create and initialize the static meta object // if (isQt) fprintf(out, "const QMetaObject QObject::staticQtMetaObject = {\n"); else fprintf(out, "const QMetaObject %s::staticMetaObject = {\n", cdef->qualified.constData()); if (isQObject) fprintf(out, " { 0, "); else if (cdef->superclassList.size()) fprintf(out, " { &%s::staticMetaObject, ", purestSuperClass.constData()); else fprintf(out, " { 0, "); fprintf(out, "qt_meta_stringdata_%s,\n qt_meta_data_%s, ", qualifiedClassNameIdentifier.constData(), qualifiedClassNameIdentifier.constData()); if (!isConstructible && extraList.isEmpty()) fprintf(out, "0 }\n"); else fprintf(out, "&qt_meta_extradata2_%s }\n", qualifiedClassNameIdentifier.constData()); fprintf(out, "};\n"); if(isQt) return; // // Generate static meta object accessor (needed for symbian, because DLLs do not support data imports. // fprintf(out, "\n#ifdef Q_NO_DATA_RELOCATION\n"); fprintf(out, "const QMetaObject &%s::getStaticMetaObject() { return staticMetaObject; }\n", cdef->qualified.constData()); fprintf(out, "#endif //Q_NO_DATA_RELOCATION\n"); if (!cdef->hasQObject) return; fprintf(out, "\nconst QMetaObject *%s::metaObject() const\n{\n return QObject::d_ptr->metaObject ? QObject::d_ptr->metaObject : &staticMetaObject;\n}\n", cdef->qualified.constData()); // // Generate smart cast function // fprintf(out, "\nvoid *%s::qt_metacast(const char *_clname)\n{\n", cdef->qualified.constData()); fprintf(out, " if (!_clname) return 0;\n"); fprintf(out, " if (!strcmp(_clname, qt_meta_stringdata_%s))\n" " return static_cast(const_cast< %s*>(this));\n", qualifiedClassNameIdentifier.constData(), cdef->classname.constData()); for (int i = 1; i < cdef->superclassList.size(); ++i) { // for all superclasses but the first one if (cdef->superclassList.at(i).second == FunctionDef::Private) continue; const char *cname = cdef->superclassList.at(i).first; fprintf(out, " if (!strcmp(_clname, \"%s\"))\n return static_cast< %s*>(const_cast< %s*>(this));\n", cname, cname, cdef->classname.constData()); } for (int i = 0; i < cdef->interfaceList.size(); ++i) { const QList &iface = cdef->interfaceList.at(i); for (int j = 0; j < iface.size(); ++j) { fprintf(out, " if (!strcmp(_clname, %s))\n return ", iface.at(j).interfaceId.constData()); for (int k = j; k >= 0; --k) fprintf(out, "static_cast< %s*>(", iface.at(k).className.constData()); fprintf(out, "const_cast< %s*>(this)%s;\n", cdef->classname.constData(), QByteArray(j+1, ')').constData()); } } if (!purestSuperClass.isEmpty() && !isQObject) { QByteArray superClass = purestSuperClass; // workaround for VC6 if (superClass.contains("::")) { fprintf(out, " typedef %s QMocSuperClass;\n", superClass.constData()); superClass = "QMocSuperClass"; } fprintf(out, " return %s::qt_metacast(_clname);\n", superClass.constData()); } else { fprintf(out, " return 0;\n"); } fprintf(out, "}\n"); // // Generate internal qt_metacall() function // generateMetacall(); // // Generate internal signal functions // for (int signalindex = 0; signalindex < cdef->signalList.size(); ++signalindex) generateSignal(&cdef->signalList[signalindex], signalindex); } void Generator::generateClassInfos() { if (cdef->classInfoList.isEmpty()) return; fprintf(out, "\n // classinfo: key, value\n"); for (int i = 0; i < cdef->classInfoList.size(); ++i) { const ClassInfoDef &c = cdef->classInfoList.at(i); fprintf(out, " %4d, %4d,\n", strreg(c.name), strreg(c.value)); } } void Generator::generateFunctions(QList& list, const char *functype, int type) { if (list.isEmpty()) return; fprintf(out, "\n // %ss: signature, parameters, type, tag, flags\n", functype); for (int i = 0; i < list.count(); ++i) { const FunctionDef &f = list.at(i); QByteArray sig = f.name + '('; QByteArray arguments; for (int j = 0; j < f.arguments.count(); ++j) { const ArgumentDef &a = f.arguments.at(j); if (j) { sig += ","; arguments += ","; } sig += a.normalizedType; arguments += a.name; } sig += ')'; unsigned char flags = type; if (f.access == FunctionDef::Private) flags |= AccessPrivate; else if (f.access == FunctionDef::Public) flags |= AccessPublic; else if (f.access == FunctionDef::Protected) flags |= AccessProtected; if (f.access == FunctionDef::Private) flags |= AccessPrivate; else if (f.access == FunctionDef::Public) flags |= AccessPublic; else if (f.access == FunctionDef::Protected) flags |= AccessProtected; if (f.isCompat) flags |= MethodCompatibility; if (f.wasCloned) flags |= MethodCloned; if (f.isScriptable) flags |= MethodScriptable; if (f.revision > 0) flags |= MethodRevisioned; fprintf(out, " %4d, %4d, %4d, %4d, 0x%02x,\n", strreg(sig), strreg(arguments), strreg(f.normalizedType), strreg(f.tag), flags); } } void Generator::generateFunctionRevisions(QList& list, const char *functype) { if (list.count()) fprintf(out, "\n // %ss: revision\n", functype); for (int i = 0; i < list.count(); ++i) { const FunctionDef &f = list.at(i); fprintf(out, " %4d,\n", f.revision); } } void Generator::generateProperties() { // // Create meta data // if (cdef->propertyList.count()) fprintf(out, "\n // properties: name, type, flags\n"); for (int i = 0; i < cdef->propertyList.count(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); uint flags = Invalid; if (!isVariantType(p.type)) { flags |= EnumOrFlag; } else if (!isQRealType(p.type)) { flags |= qvariant_nameToType(p.type) << 24; } if (!p.read.isEmpty()) flags |= Readable; if (!p.write.isEmpty()) { flags |= Writable; if (p.stdCppSet()) flags |= StdCppSet; } if (!p.reset.isEmpty()) flags |= Resettable; // if (p.override) // flags |= Override; if (p.designable.isEmpty()) flags |= ResolveDesignable; else if (p.designable != "false") flags |= Designable; if (p.scriptable.isEmpty()) flags |= ResolveScriptable; else if (p.scriptable != "false") flags |= Scriptable; if (p.stored.isEmpty()) flags |= ResolveStored; else if (p.stored != "false") flags |= Stored; if (p.editable.isEmpty()) flags |= ResolveEditable; else if (p.editable != "false") flags |= Editable; if (p.user.isEmpty()) flags |= ResolveUser; else if (p.user != "false") flags |= User; if (p.notifyId != -1) flags |= Notify; if (p.revision > 0) flags |= Revisioned; if (p.constant) flags |= Constant; if (p.final) flags |= Final; fprintf(out, " %4d, %4d, ", strreg(p.name), strreg(p.type)); if (!(flags >> 24) && isQRealType(p.type)) fprintf(out, "(QMetaType::QReal << 24) | "); fprintf(out, "0x%.8x,\n", flags); } if(cdef->notifyableProperties) { fprintf(out, "\n // properties: notify_signal_id\n"); for (int i = 0; i < cdef->propertyList.count(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); if(p.notifyId == -1) fprintf(out, " %4d,\n", 0); else fprintf(out, " %4d,\n", p.notifyId); } } if (cdef->revisionedProperties) { fprintf(out, "\n // properties: revision\n"); for (int i = 0; i < cdef->propertyList.count(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); fprintf(out, " %4d,\n", p.revision); } } } void Generator::generateEnums(int index) { if (cdef->enumDeclarations.isEmpty()) return; fprintf(out, "\n // enums: name, flags, count, data\n"); index += 4 * cdef->enumList.count(); int i; for (i = 0; i < cdef->enumList.count(); ++i) { const EnumDef &e = cdef->enumList.at(i); fprintf(out, " %4d, 0x%.1x, %4d, %4d,\n", strreg(e.name), cdef->enumDeclarations.value(e.name) ? 1 : 0, e.values.count(), index); index += e.values.count() * 2; } fprintf(out, "\n // enum data: key, value\n"); for (i = 0; i < cdef->enumList.count(); ++i) { const EnumDef &e = cdef->enumList.at(i); for (int j = 0; j < e.values.count(); ++j) { const QByteArray &val = e.values.at(j); fprintf(out, " %4d, uint(%s::%s),\n", strreg(val), cdef->qualified.constData(), val.constData()); } } } void Generator::generateMetacall() { bool isQObject = (cdef->classname == "QObject"); fprintf(out, "\nint %s::qt_metacall(QMetaObject::Call _c, int _id, void **_a)\n{\n", cdef->qualified.constData()); if (!purestSuperClass.isEmpty() && !isQObject) { QByteArray superClass = purestSuperClass; // workaround for VC6 if (superClass.contains("::")) { fprintf(out, " typedef %s QMocSuperClass;\n", superClass.constData()); superClass = "QMocSuperClass"; } fprintf(out, " _id = %s::qt_metacall(_c, _id, _a);\n", superClass.constData()); } fprintf(out, " if (_id < 0)\n return _id;\n"); fprintf(out, " "); bool needElse = false; QList methodList; methodList += cdef->signalList; methodList += cdef->slotList; methodList += cdef->methodList; if (methodList.size()) { needElse = true; fprintf(out, "if (_c == QMetaObject::InvokeMetaMethod) {\n "); fprintf(out, "switch (_id) {\n"); for (int methodindex = 0; methodindex < methodList.size(); ++methodindex) { const FunctionDef &f = methodList.at(methodindex); fprintf(out, " case %d: ", methodindex); if (f.normalizedType.size()) fprintf(out, "{ %s _r = ", noRef(f.normalizedType).constData()); if (f.inPrivateClass.size()) fprintf(out, "%s->", f.inPrivateClass.constData()); fprintf(out, "%s(", f.name.constData()); int offset = 1; for (int j = 0; j < f.arguments.count(); ++j) { const ArgumentDef &a = f.arguments.at(j); if (j) fprintf(out, ","); fprintf(out, "(*reinterpret_cast< %s>(_a[%d]))",a.typeNameForCast.constData(), offset++); } fprintf(out, ");"); if (f.normalizedType.size()) fprintf(out, "\n if (_a[0]) *reinterpret_cast< %s*>(_a[0]) = _r; } ", noRef(f.normalizedType).constData()); fprintf(out, " break;\n"); } fprintf(out, " default: ;\n"); fprintf(out, " }\n"); } if (methodList.size()) fprintf(out, " _id -= %d;\n }", methodList.size()); if (cdef->propertyList.size()) { bool needGet = false; bool needTempVarForGet = false; bool needSet = false; bool needReset = false; bool needDesignable = false; bool needScriptable = false; bool needStored = false; bool needEditable = false; bool needUser = false; for (int i = 0; i < cdef->propertyList.size(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); needGet |= !p.read.isEmpty(); if (!p.read.isEmpty()) needTempVarForGet |= (p.gspec != PropertyDef::PointerSpec && p.gspec != PropertyDef::ReferenceSpec); needSet |= !p.write.isEmpty(); needReset |= !p.reset.isEmpty(); needDesignable |= p.designable.endsWith(')'); needScriptable |= p.scriptable.endsWith(')'); needStored |= p.stored.endsWith(')'); needEditable |= p.editable.endsWith(')'); needUser |= p.user.endsWith(')'); } fprintf(out, "\n#ifndef QT_NO_PROPERTIES\n "); if (needElse) fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::ReadProperty) {\n"); if (needGet) { if (needTempVarForGet) fprintf(out, " void *_v = _a[0];\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (p.read.isEmpty()) continue; QByteArray prefix; if (p.inPrivateClass.size()) { prefix = p.inPrivateClass; prefix.append("->"); } if (p.gspec == PropertyDef::PointerSpec) fprintf(out, " case %d: _a[0] = const_cast(reinterpret_cast(%s%s())); break;\n", propindex, prefix.constData(), p.read.constData()); else if (p.gspec == PropertyDef::ReferenceSpec) fprintf(out, " case %d: _a[0] = const_cast(reinterpret_cast(&%s%s())); break;\n", propindex, prefix.constData(), p.read.constData()); else if (cdef->enumDeclarations.value(p.type, false)) fprintf(out, " case %d: *reinterpret_cast(_v) = QFlag(%s%s()); break;\n", propindex, prefix.constData(), p.read.constData()); else fprintf(out, " case %d: *reinterpret_cast< %s*>(_v) = %s%s(); break;\n", propindex, p.type.constData(), prefix.constData(), p.read.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::WriteProperty) {\n"); if (needSet) { fprintf(out, " void *_v = _a[0];\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (p.write.isEmpty()) continue; QByteArray prefix; if (p.inPrivateClass.size()) { prefix = p.inPrivateClass; prefix.append("->"); } if (cdef->enumDeclarations.value(p.type, false)) { fprintf(out, " case %d: %s%s(QFlag(*reinterpret_cast(_v))); break;\n", propindex, prefix.constData(), p.write.constData()); } else { fprintf(out, " case %d: %s%s(*reinterpret_cast< %s*>(_v)); break;\n", propindex, prefix.constData(), p.write.constData(), p.type.constData()); } } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::ResetProperty) {\n"); if (needReset) { fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.reset.endsWith(')')) continue; QByteArray prefix; if (p.inPrivateClass.size()) { prefix = p.inPrivateClass; prefix.append("->"); } fprintf(out, " case %d: %s%s; break;\n", propindex, prefix.constData(), p.reset.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::QueryPropertyDesignable) {\n"); if (needDesignable) { fprintf(out, " bool *_b = reinterpret_cast(_a[0]);\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.designable.endsWith(')')) continue; fprintf(out, " case %d: *_b = %s; break;\n", propindex, p.designable.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::QueryPropertyScriptable) {\n"); if (needScriptable) { fprintf(out, " bool *_b = reinterpret_cast(_a[0]);\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.scriptable.endsWith(')')) continue; fprintf(out, " case %d: *_b = %s; break;\n", propindex, p.scriptable.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::QueryPropertyStored) {\n"); if (needStored) { fprintf(out, " bool *_b = reinterpret_cast(_a[0]);\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.stored.endsWith(')')) continue; fprintf(out, " case %d: *_b = %s; break;\n", propindex, p.stored.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::QueryPropertyEditable) {\n"); if (needEditable) { fprintf(out, " bool *_b = reinterpret_cast(_a[0]);\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.editable.endsWith(')')) continue; fprintf(out, " case %d: *_b = %s; break;\n", propindex, p.editable.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, " else "); fprintf(out, "if (_c == QMetaObject::QueryPropertyUser) {\n"); if (needUser) { fprintf(out, " bool *_b = reinterpret_cast(_a[0]);\n"); fprintf(out, " switch (_id) {\n"); for (int propindex = 0; propindex < cdef->propertyList.size(); ++propindex) { const PropertyDef &p = cdef->propertyList.at(propindex); if (!p.user.endsWith(')')) continue; fprintf(out, " case %d: *_b = %s; break;\n", propindex, p.user.constData()); } fprintf(out, " }\n"); } fprintf(out, " _id -= %d;\n" " }", cdef->propertyList.count()); fprintf(out, "\n#endif // QT_NO_PROPERTIES"); } if (methodList.size() || cdef->signalList.size() || cdef->propertyList.size()) fprintf(out, "\n "); fprintf(out,"return _id;\n}\n"); } void Generator::generateStaticMetacall(const QByteArray &prefix) { bool isQObject = (cdef->classname == "QObject"); fprintf(out, "static int %s_qt_static_metacall(QMetaObject::Call _c, int _id, void **_a)\n{\n", prefix.constData()); fprintf(out, " if (_c == QMetaObject::CreateInstance) {\n"); fprintf(out, " switch (_id) {\n"); for (int ctorindex = 0; ctorindex < cdef->constructorList.count(); ++ctorindex) { fprintf(out, " case %d: { %s *_r = new %s(", ctorindex, cdef->qualified.constData(), cdef->qualified.constData()); const FunctionDef &f = cdef->constructorList.at(ctorindex); int offset = 1; for (int j = 0; j < f.arguments.count(); ++j) { const ArgumentDef &a = f.arguments.at(j); if (j) fprintf(out, ","); fprintf(out, "(*reinterpret_cast< %s>(_a[%d]))", a.typeNameForCast.constData(), offset++); } fprintf(out, ");\n"); fprintf(out, " if (_a[0]) *reinterpret_cast(_a[0]) = _r; } break;\n"); } fprintf(out, " }\n"); fprintf(out, " _id -= %d;\n", cdef->constructorList.count()); fprintf(out, " return _id;\n"); fprintf(out, " }\n"); if (!isQObject) fprintf(out, " _id = %s::staticMetaObject.superClass()->static_metacall(_c, _id, _a);\n", cdef->qualified.constData()); fprintf(out, " if (_id < 0)\n return _id;\n"); fprintf(out, " return _id;\n"); fprintf(out, "}\n\n"); } void Generator::generateSignal(FunctionDef *def,int index) { if (def->wasCloned || def->isAbstract) return; fprintf(out, "\n// SIGNAL %d\n%s %s::%s(", index, def->type.name.constData(), cdef->qualified.constData(), def->name.constData()); QByteArray thisPtr = "this"; const char *constQualifier = ""; if (def->isConst) { thisPtr = "const_cast< "; thisPtr += cdef->qualified; thisPtr += " *>(this)"; constQualifier = "const"; } if (def->arguments.isEmpty() && def->normalizedType.isEmpty()) { fprintf(out, ")%s\n{\n" " QMetaObject::activate(%s, &staticMetaObject, %d, 0);\n" "}\n", constQualifier, thisPtr.constData(), index); return; } int offset = 1; for (int j = 0; j < def->arguments.count(); ++j) { const ArgumentDef &a = def->arguments.at(j); if (j) fprintf(out, ", "); fprintf(out, "%s _t%d%s", a.type.name.constData(), offset++, a.rightType.constData()); } fprintf(out, ")%s\n{\n", constQualifier); if (def->type.name.size() && def->normalizedType.size()) fprintf(out, " %s _t0;\n", noRef(def->normalizedType).constData()); fprintf(out, " void *_a[] = { "); if (def->normalizedType.isEmpty()) { fprintf(out, "0"); } else { if (def->returnTypeIsVolatile) fprintf(out, "const_cast(reinterpret_cast(&_t0))"); else fprintf(out, "const_cast(reinterpret_cast(&_t0))"); } int i; for (i = 1; i < offset; ++i) if (def->arguments.at(i - 1).type.isVolatile) fprintf(out, ", const_cast(reinterpret_cast(&_t%d))", i); else fprintf(out, ", const_cast(reinterpret_cast(&_t%d))", i); fprintf(out, " };\n"); fprintf(out, " QMetaObject::activate(%s, &staticMetaObject, %d, _a);\n", thisPtr.constData(), index); if (def->normalizedType.size()) fprintf(out, " return _t0;\n"); fprintf(out, "}\n"); } // // Functions used when generating QMetaObject directly // // Much of this code is copied from the corresponding // C++ code-generating functions; we can change the // two generators so that more of the code is shared. // The key difference from the C++ code generator is // that instead of calling fprintf(), we append bytes // to a buffer. // QMetaObject *Generator::generateMetaObject(bool ignoreProperties) { // // build the data array // // filter out undeclared enumerators and sets { QList enumList; for (int i = 0; i < cdef->enumList.count(); ++i) { EnumDef def = cdef->enumList.at(i); if (cdef->enumDeclarations.contains(def.name)) { enumList += def; } QByteArray alias = cdef->flagAliases.value(def.name); if (cdef->enumDeclarations.contains(alias)) { def.name = alias; enumList += def; } } cdef->enumList = enumList; } int index = 10; meta_data << 1 // revision << strreg(cdef->qualified) // classname << cdef->classInfoList.count() << (cdef->classInfoList.count() ? index : 0) // classinfo ; index += cdef->classInfoList.count() * 2; int methodCount = cdef->signalList.count() + cdef->slotList.count() + cdef->methodList.count(); meta_data << methodCount << (methodCount ? index : 0); // methods index += methodCount * 5; if (!ignoreProperties) { meta_data << cdef->propertyList.count() << (cdef->propertyList.count() ? index : 0); // properties index += cdef->propertyList.count() * 3; } else { meta_data << 0 << 0; // properties } meta_data << cdef->enumList.count() << (cdef->enumList.count() ? index : 0); // enums/sets // // Build classinfo array // _generateClassInfos(); // // Build signals array first, otherwise the signal indices would be wrong // _generateFunctions(cdef->signalList, MethodSignal); // // Build slots array // _generateFunctions(cdef->slotList, MethodSlot); // // Build method array // _generateFunctions(cdef->methodList, MethodMethod); // // Build property array // if (!ignoreProperties) _generateProperties(); // // Build enums array // _generateEnums(index); // // Terminate data array // meta_data << 0; // // Build stringdata array // QVector string_data; for (int i = 0; i < strings.size(); ++i) { const char *s = strings.at(i).constData(); char c; do { c = *(s++); string_data << c; } while (c != '\0'); } // // Finally create and initialize the static meta object // const int meta_object_offset = 0; const int meta_object_size = sizeof(QMetaObject); const int meta_data_offset = meta_object_offset + meta_object_size; const int meta_data_size = meta_data.count() * sizeof(uint); const int string_data_offset = meta_data_offset + meta_data_size; const int string_data_size = string_data.count(); const int total_size = string_data_offset + string_data_size; char *blob = new char[total_size]; char *string_data_output = blob + string_data_offset; const char *string_data_src = string_data.constData(); for (int i = 0; i < string_data.count(); ++i) string_data_output[i] = string_data_src[i]; uint *meta_data_output = reinterpret_cast(blob + meta_data_offset); const uint *meta_data_src = meta_data.constData(); for (int i = 0; i < meta_data.count(); ++i) meta_data_output[i] = meta_data_src[i]; QMetaObject *meta_object = new (blob + meta_object_offset)QMetaObject; meta_object->d.superdata = 0; meta_object->d.stringdata = string_data_output; meta_object->d.data = meta_data_output; meta_object->d.extradata = 0; return meta_object; } void Generator::_generateClassInfos() { for (int i = 0; i < cdef->classInfoList.size(); ++i) { const ClassInfoDef &c = cdef->classInfoList.at(i); meta_data << strreg(c.name) << strreg(c.value); } } void Generator::_generateFunctions(QList &list, int type) { for (int i = 0; i < list.count(); ++i) { const FunctionDef &f = list.at(i); QByteArray sig = f.name + '('; QByteArray arguments; for (int j = 0; j < f.arguments.count(); ++j) { const ArgumentDef &a = f.arguments.at(j); if (j) { sig += ','; arguments += ','; } sig += a.normalizedType; arguments += a.name; } sig += ')'; char flags = type; if (f.access == FunctionDef::Private) flags |= AccessPrivate; else if (f.access == FunctionDef::Public) flags |= AccessPublic; else if (f.access == FunctionDef::Protected) flags |= AccessProtected; if (f.access == FunctionDef::Private) flags |= AccessPrivate; else if (f.access == FunctionDef::Public) flags |= AccessPublic; else if (f.access == FunctionDef::Protected) flags |= AccessProtected; if (f.isCompat) flags |= MethodCompatibility; if (f.wasCloned) flags |= MethodCloned; if (f.isScriptable) flags |= MethodScriptable; meta_data << strreg(sig) << strreg(arguments) << strreg(f.normalizedType) << strreg(f.tag) << flags; } } void Generator::_generateEnums(int index) { index += 4 * cdef->enumList.count(); int i; for (i = 0; i < cdef->enumList.count(); ++i) { const EnumDef &e = cdef->enumList.at(i); meta_data << strreg(e.name) << (cdef->enumDeclarations.value(e.name) ? 1 : 0) << e.values.count() << index; index += e.values.count() * 2; } for (i = 0; i < cdef->enumList.count(); ++i) { const EnumDef &e = cdef->enumList.at(i); for (int j = 0; j < e.values.count(); ++j) { const QByteArray &val = e.values.at(j); meta_data << strreg(val) << 0; // we don't know the value itself } } } void Generator::_generateProperties() { // // specify get function, for compatibiliy we accept functions // returning pointers, or const char * for QByteArray. // for (int i = 0; i < cdef->propertyList.count(); ++i) { PropertyDef &p = cdef->propertyList[i]; if (p.read.isEmpty()) continue; for (int j = 0; j < cdef->publicList.count(); ++j) { const FunctionDef &f = cdef->publicList.at(j); if (f.name != p.read) continue; if (!f.isConst) // get functions must be const continue; if (f.arguments.size()) // and must not take any arguments continue; PropertyDef::Specification spec = PropertyDef::ValueSpec; QByteArray tmp = f.normalizedType; if (p.type == "QByteArray" && tmp == "const char *") tmp = "QByteArray"; if (tmp.left(6) == "const ") tmp = tmp.mid(6); if (p.type != tmp && tmp.endsWith('*')) { tmp.chop(1); spec = PropertyDef::PointerSpec; } else if (f.type.name.endsWith('&')) { // raw type, not normalized type spec = PropertyDef::ReferenceSpec; } if (p.type != tmp) continue; p.gspec = spec; break; } } // // Create meta data // for (int i = 0; i < cdef->propertyList.count(); ++i) { const PropertyDef &p = cdef->propertyList.at(i); uint flags = Invalid; if (!isVariantType(p.type)) { flags |= EnumOrFlag; } else { flags |= qvariant_nameToType(p.type) << 24; } if (!p.read.isEmpty()) flags |= Readable; if (!p.write.isEmpty()) { flags |= Writable; if (p.stdCppSet()) flags |= StdCppSet; } if (!p.reset.isEmpty()) flags |= Resettable; // if (p.override) // flags |= Override; if (p.designable.isEmpty()) flags |= ResolveDesignable; else if (p.designable != "false") flags |= Designable; if (p.scriptable.isEmpty()) flags |= ResolveScriptable; else if (p.scriptable != "false") flags |= Scriptable; if (p.stored.isEmpty()) flags |= ResolveStored; else if (p.stored != "false") flags |= Stored; if (p.editable.isEmpty()) flags |= ResolveEditable; else if (p.editable != "false") flags |= Editable; if (p.user.isEmpty()) flags |= ResolveUser; else if (p.user != "false") flags |= User; meta_data << strreg(p.name) << strreg(p.type) << flags; } } QT_END_NAMESPACE