diff --git a/src/kconfig_compiler/kconfig_compiler.cpp b/src/kconfig_compiler/kconfig_compiler.cpp index 82e66e2..e91e670 100644 --- a/src/kconfig_compiler/kconfig_compiler.cpp +++ b/src/kconfig_compiler/kconfig_compiler.cpp @@ -1,2689 +1,2688 @@ /* This file is part of KDE. Copyright (c) 2003 Cornelius Schumacher Copyright (c) 2003 Waldo Bastian Copyright (c) 2003 Zack Rusin Copyright (c) 2006 MichaĆ«l Larouche Copyright (c) 2008 Allen Winter This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ // Compiling this file with this flag is just crazy #undef QT_NO_CAST_FROM_ASCII #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../../kconfig_version.h" namespace { QTextStream cout(stdout); QTextStream cerr(stderr); } QStringList allNames; QRegExp *validNameRegexp; QString This; QString Const; /** Configuration Compiler Configuration */ class CfgConfig { public: CfgConfig(const QString &codegenFilename) { // Configure the compiler with some settings QSettings codegenConfig(codegenFilename, QSettings::IniFormat); nameSpace = codegenConfig.value(QStringLiteral("NameSpace")).toString(); className = codegenConfig.value(QStringLiteral("ClassName")).toString(); if (className.isEmpty()) { cerr << "Class name missing" << endl; exit(1); } inherits = codegenConfig.value(QStringLiteral("Inherits")).toString(); if (inherits.isEmpty()) { inherits = QStringLiteral("KConfigSkeleton"); } visibility = codegenConfig.value(QStringLiteral("Visibility")).toString(); if (!visibility.isEmpty()) { visibility += ' '; } forceStringFilename = codegenConfig.value(QStringLiteral("ForceStringFilename"), false).toBool(); singleton = codegenConfig.value(QStringLiteral("Singleton"), false).toBool(); staticAccessors = singleton; customAddons = codegenConfig.value(QStringLiteral("CustomAdditions"), false).toBool(); memberVariables = codegenConfig.value(QStringLiteral("MemberVariables")).toString(); dpointer = (memberVariables == QLatin1String("dpointer")); headerIncludes = codegenConfig.value(QStringLiteral("IncludeFiles"), QStringList()).toStringList(); sourceIncludes = codegenConfig.value(QStringLiteral("SourceIncludeFiles"), QStringList()).toStringList(); mutators = codegenConfig.value(QStringLiteral("Mutators"), QStringList()).toStringList(); allMutators = ((mutators.count() == 1) && (mutators.at(0).toLower() == QLatin1String("true"))); itemAccessors = codegenConfig.value(QStringLiteral("ItemAccessors"), false).toBool(); setUserTexts = codegenConfig.value(QStringLiteral("SetUserTexts"), false).toBool(); defaultGetters = codegenConfig.value(QStringLiteral("DefaultValueGetters"), QStringList()).toStringList(); allDefaultGetters = (defaultGetters.count() == 1) && (defaultGetters.at(0).toLower() == QLatin1String("true")); globalEnums = codegenConfig.value(QStringLiteral("GlobalEnums"), false).toBool(); useEnumTypes = codegenConfig.value(QStringLiteral("UseEnumTypes"), false).toBool(); const QString trString = codegenConfig.value(QStringLiteral("TranslationSystem")).toString().toLower(); generateProperties = codegenConfig.value(QStringLiteral("GenerateProperties"), false).toBool(); if (trString == QLatin1String("kde")) { translationSystem = KdeTranslation; translationDomain = codegenConfig.value(QStringLiteral("TranslationDomain")).toString(); } else { if (!trString.isEmpty() && trString != QLatin1String("qt")) { cerr << "Unknown translation system, falling back to Qt tr()" << endl; } translationSystem = QtTranslation; } qCategoryLoggingName = codegenConfig.value(QStringLiteral("CategoryLoggingName"), QString()).toString(); } public: enum TranslationSystem { QtTranslation, KdeTranslation }; // These are read from the .kcfgc configuration file QString nameSpace; // The namespace for the class to be generated QString className; // The class name to be generated QString inherits; // The class the generated class inherits (if empty, from KConfigSkeleton) QString visibility; bool forceStringFilename; bool singleton; // The class will be a singleton bool staticAccessors; // provide or not static accessors bool customAddons; QString memberVariables; QStringList headerIncludes; QStringList sourceIncludes; QStringList mutators; QStringList defaultGetters; QString qCategoryLoggingName; bool allMutators; bool setUserTexts; bool allDefaultGetters; bool dpointer; bool globalEnums; bool useEnumTypes; bool itemAccessors; TranslationSystem translationSystem; QString translationDomain; bool generateProperties; }; struct SignalArguments { QString type; QString variableName; }; class Signal { public: Signal() : modify(false) {} QString name; QString label; QList arguments; bool modify; }; class CfgEntry { public: struct Choice { QString name; QString context; QString label; QString toolTip; QString whatsThis; }; class Choices { public: Choices() {} Choices(const QList &d, const QString &n, const QString &p) : prefix(p), choices(d), mName(n) { int i = n.indexOf(QLatin1String("::")); if (i >= 0) { mExternalQual = n.left(i + 2); } } QString prefix; QList choices; const QString &name() const { return mName; } const QString &externalQualifier() const { return mExternalQual; } bool external() const { return !mExternalQual.isEmpty(); } private: QString mName; QString mExternalQual; }; CfgEntry(const QString &group, const QString &type, const QString &key, const QString &name, const QString &labelContext, const QString &label, const QString &toolTipContext, const QString &toolTip, const QString &whatsThisContext, const QString &whatsThis, const QString &code, const QString &defaultValue, const Choices &choices, const QList &signalList, bool hidden) : mGroup(group), mType(type), mKey(key), mName(name), mLabelContext(labelContext), mLabel(label), mToolTipContext(toolTipContext), mToolTip(toolTip), mWhatsThisContext(whatsThisContext), mWhatsThis(whatsThis), mCode(code), mDefaultValue(defaultValue), mChoices(choices), mSignalList(signalList), mParamMax(0), mHidden(hidden) { } void setGroup(const QString &group) { mGroup = group; } QString group() const { return mGroup; } void setType(const QString &type) { mType = type; } QString type() const { return mType; } void setKey(const QString &key) { mKey = key; } QString key() const { return mKey; } void setName(const QString &name) { mName = name; } QString name() const { return mName; } void setLabelContext(const QString &labelContext) { mLabelContext = labelContext; } QString labelContext() const { return mLabelContext; } void setLabel(const QString &label) { mLabel = label; } QString label() const { return mLabel; } void setToolTipContext(const QString &toolTipContext) { mToolTipContext = toolTipContext; } QString toolTipContext() const { return mToolTipContext; } void setToolTip(const QString &toolTip) { mToolTip = toolTip; } QString toolTip() const { return mToolTip; } void setWhatsThisContext(const QString &whatsThisContext) { mWhatsThisContext = whatsThisContext; } QString whatsThisContext() const { return mWhatsThisContext; } void setWhatsThis(const QString &whatsThis) { mWhatsThis = whatsThis; } QString whatsThis() const { return mWhatsThis; } void setDefaultValue(const QString &d) { mDefaultValue = d; } QString defaultValue() const { return mDefaultValue; } void setCode(const QString &d) { mCode = d; } QString code() const { return mCode; } void setMinValue(const QString &d) { mMin = d; } QString minValue() const { return mMin; } void setMaxValue(const QString &d) { mMax = d; } QString maxValue() const { return mMax; } void setParam(const QString &d) { mParam = d; } QString param() const { return mParam; } void setParamName(const QString &d) { mParamName = d; } QString paramName() const { return mParamName; } void setParamType(const QString &d) { mParamType = d; } QString paramType() const { return mParamType; } void setChoices(const QList &d, const QString &n, const QString &p) { mChoices = Choices(d, n, p); } Choices choices() const { return mChoices; } void setParamValues(const QStringList &d) { mParamValues = d; } QStringList paramValues() const { return mParamValues; } void setParamDefaultValues(const QStringList &d) { mParamDefaultValues = d; } QString paramDefaultValue(int i) const { return mParamDefaultValues[i]; } void setParamMax(int d) { mParamMax = d; } int paramMax() const { return mParamMax; } void setSignalList(const QList &value) { mSignalList = value; } QList signalList() const { return mSignalList; } bool hidden() const { return mHidden; } void dump() const { cerr << "" << endl; cerr << " group: " << mGroup << endl; cerr << " type: " << mType << endl; cerr << " key: " << mKey << endl; cerr << " name: " << mName << endl; cerr << " label context: " << mLabelContext << endl; cerr << " label: " << mLabel << endl; // whatsthis cerr << " code: " << mCode << endl; // cerr << " values: " << mValues.join(":") << endl; if (!param().isEmpty()) { cerr << " param name: " << mParamName << endl; cerr << " param type: " << mParamType << endl; cerr << " paramvalues: " << mParamValues.join(QChar::fromLatin1(':')) << endl; } cerr << " default: " << mDefaultValue << endl; cerr << " hidden: " << mHidden << endl; cerr << " min: " << mMin << endl; cerr << " max: " << mMax << endl; cerr << "" << endl; } private: QString mGroup; QString mType; QString mKey; QString mName; QString mLabelContext; QString mLabel; QString mToolTipContext; QString mToolTip; QString mWhatsThisContext; QString mWhatsThis; QString mCode; QString mDefaultValue; QString mParam; QString mParamName; QString mParamType; Choices mChoices; QList mSignalList; QStringList mParamValues; QStringList mParamDefaultValues; int mParamMax; bool mHidden; QString mMin; QString mMax; }; class Param { public: QString name; QString type; }; // returns the name of an member variable // use itemPath to know the full path // like using d-> in case of dpointer static QString varName(const QString &n, const CfgConfig &cfg) { QString result; if (!cfg.dpointer) { result = QChar::fromLatin1('m') + n; result[1] = result[1].toUpper(); } else { result = n; result[0] = result[0].toLower(); } return result; } static QString varPath(const QString &n, const CfgConfig &cfg) { QString result; if (cfg.dpointer) { result = "d->" + varName(n, cfg); } else { result = varName(n, cfg); } return result; } static QString enumName(const QString &n) { QString result = QLatin1String("Enum") + n; result[4] = result[4].toUpper(); return result; } static QString enumName(const QString &n, const CfgEntry::Choices &c) { QString result = c.name(); if (result.isEmpty()) { result = QLatin1String("Enum") + n; result[4] = result[4].toUpper(); } return result; } static QString enumType(const CfgEntry *e, bool globalEnums) { QString result = e->choices().name(); if (result.isEmpty()) { result = QLatin1String("Enum") + e->name(); if (!globalEnums) { result += QLatin1String("::type"); } result[4] = result[4].toUpper(); } return result; } static QString enumTypeQualifier(const QString &n, const CfgEntry::Choices &c) { QString result = c.name(); if (result.isEmpty()) { result = QLatin1String("Enum") + n + QLatin1String("::"); result[4] = result[4].toUpper(); } else if (c.external()) { result = c.externalQualifier(); } else { result.clear(); } return result; } static QString setFunction(const QString &n, const QString &className = QString()) { QString result = QLatin1String("set") + n; result[3] = result[3].toUpper(); if (!className.isEmpty()) { result = className + QLatin1String("::") + result; } return result; } static QString changeSignalName(const QString &n) { return n+QStringLiteral("Changed"); } static QString getDefaultFunction(const QString &n, const QString &className = QString()) { QString result = QLatin1String("default") + n + QLatin1String("Value"); result[7] = result[7].toUpper(); if (!className.isEmpty()) { result = className + QLatin1String("::") + result; } return result; } static QString getFunction(const QString &n, const QString &className = QString()) { QString result = n; result[0] = result[0].toLower(); if (!className.isEmpty()) { result = className + QLatin1String("::") + result; } return result; } static void addQuotes(QString &s) { if (!s.startsWith(QLatin1Char('"'))) { s.prepend(QLatin1Char('"')); } if (!s.endsWith(QLatin1Char('"'))) { s.append(QLatin1Char('"')); } } static QString quoteString(const QString &s) { QString r = s; r.replace(QLatin1Char('\\'), QLatin1String("\\\\")); r.replace(QLatin1Char('\"'), QLatin1String("\\\"")); r.remove(QLatin1Char('\r')); r.replace(QLatin1Char('\n'), QLatin1String("\\n\"\n\"")); return QLatin1Char('\"') + r + QLatin1Char('\"'); } static QString literalString(const QString &s) { bool isAscii = true; for (int i = s.length(); i--;) if (s[i].unicode() > 127) { isAscii = false; } if (isAscii) { return QLatin1String("QStringLiteral( ") + quoteString(s) + QLatin1String(" )"); } else { return QLatin1String("QString::fromUtf8( ") + quoteString(s) + QLatin1String(" )"); } } static QString dumpNode(const QDomNode &node) { QString msg; QTextStream s(&msg, QIODevice::WriteOnly); node.save(s, 0); msg = msg.simplified(); if (msg.length() > 40) { return msg.left(37) + QLatin1String("..."); } return msg; } static QString filenameOnly(const QString &path) { int i = path.lastIndexOf(QRegExp(QStringLiteral("[/\\]"))); if (i >= 0) { return path.mid(i + 1); } return path; } static QString signalEnumName(const QString &signalName) { QString result; result = QLatin1String("signal") + signalName; result[6] = result[6].toUpper(); return result; } static void preProcessDefault(QString &defaultValue, const QString &name, const QString &type, const CfgEntry::Choices &choices, QString &code, const CfgConfig &cfg) { if (type == QLatin1String("String") && !defaultValue.isEmpty()) { defaultValue = literalString(defaultValue); } else if (type == QLatin1String("Path") && !defaultValue.isEmpty()) { defaultValue = literalString(defaultValue); } else if (type == QLatin1String("Url") && !defaultValue.isEmpty()) { // Use fromUserInput in order to support absolute paths and absolute urls, like KDE4's KUrl(QString) did. defaultValue = QLatin1String("QUrl::fromUserInput( ") + literalString(defaultValue) + QLatin1Char(')'); } else if ((type == QLatin1String("UrlList") || type == QLatin1String("StringList") || type == QLatin1String("PathList")) && !defaultValue.isEmpty()) { QTextStream cpp(&code, QIODevice::WriteOnly | QIODevice::Append); if (!code.isEmpty()) { cpp << endl; } if (type == QLatin1String("UrlList")) { cpp << " QList default" << name << ";" << endl; } else { cpp << " QStringList default" << name << ";" << endl; } const QStringList defaults = defaultValue.split(QLatin1Char(',')); QStringList::ConstIterator it; for (it = defaults.constBegin(); it != defaults.constEnd(); ++it) { cpp << " default" << name << ".append( "; if (type == QLatin1String("UrlList")) { cpp << "QUrl::fromUserInput("; } cpp << "QString::fromUtf8( \"" << *it << "\" ) "; if (type == QLatin1String("UrlList")) { cpp << ") "; } cpp << ");" << endl; } defaultValue = QLatin1String("default") + name; } else if (type == QLatin1String("Color") && !defaultValue.isEmpty()) { QRegExp colorRe(QStringLiteral("\\d+,\\s*\\d+,\\s*\\d+(,\\s*\\d+)?")); if (colorRe.exactMatch(defaultValue)) { defaultValue = QLatin1String("QColor( ") + defaultValue + QLatin1String(" )"); } else { defaultValue = QLatin1String("QColor( \"") + defaultValue + QLatin1String("\" )"); } } else if (type == QLatin1String("Enum")) { QList::ConstIterator it; for (it = choices.choices.constBegin(); it != choices.choices.constEnd(); ++it) { if ((*it).name == defaultValue) { if (cfg.globalEnums && choices.name().isEmpty()) { defaultValue.prepend(choices.prefix); } else { defaultValue.prepend(enumTypeQualifier(name, choices) + choices.prefix); } break; } } } else if (type == QLatin1String("IntList")) { QTextStream cpp(&code, QIODevice::WriteOnly | QIODevice::Append); if (!code.isEmpty()) { cpp << endl; } cpp << " QList default" << name << ";" << endl; if (!defaultValue.isEmpty()) { const QStringList defaults = defaultValue.split(QLatin1Char(',')); QStringList::ConstIterator it; for (it = defaults.constBegin(); it != defaults.constEnd(); ++it) { cpp << " default" << name << ".append( " << *it << " );" << endl; } } defaultValue = QLatin1String("default") + name; } } CfgEntry *parseEntry(const QString &group, const QDomElement &element, const CfgConfig &cfg) { bool defaultCode = false; QString type = element.attribute(QStringLiteral("type")); QString name = element.attribute(QStringLiteral("name")); QString key = element.attribute(QStringLiteral("key")); QString hidden = element.attribute(QStringLiteral("hidden")); QString labelContext; QString label; QString toolTipContext; QString toolTip; QString whatsThisContext; QString whatsThis; QString defaultValue; QString code; QString param; QString paramName; QString paramType; CfgEntry::Choices choices; QList signalList; QStringList paramValues; QStringList paramDefaultValues; QString minValue; QString maxValue; int paramMax = 0; for (QDomElement e = element.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { QString tag = e.tagName(); if (tag == QLatin1String("label")) { label = e.text(); labelContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("tooltip")) { toolTip = e.text(); toolTipContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("whatsthis")) { whatsThis = e.text(); whatsThisContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("min")) { minValue = e.text(); } else if (tag == QLatin1String("max")) { maxValue = e.text(); } else if (tag == QLatin1String("code")) { code = e.text(); } else if (tag == QLatin1String("parameter")) { param = e.attribute(QStringLiteral("name")); paramType = e.attribute(QStringLiteral("type")); if (param.isEmpty()) { cerr << "Parameter must have a name: " << dumpNode(e) << endl; return nullptr; } if (paramType.isEmpty()) { cerr << "Parameter must have a type: " << dumpNode(e) << endl; return nullptr; } if ((paramType == QLatin1String("Int")) || (paramType == QLatin1String("UInt"))) { bool ok; paramMax = e.attribute(QStringLiteral("max")).toInt(&ok); if (!ok) { cerr << "Integer parameter must have a maximum (e.g. max=\"0\"): " << dumpNode(e) << endl; return nullptr; } } else if (paramType == QLatin1String("Enum")) { for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() == QLatin1String("values")) { for (QDomElement e3 = e2.firstChildElement(); !e3.isNull(); e3 = e3.nextSiblingElement()) { if (e3.tagName() == QLatin1String("value")) { paramValues.append(e3.text()); } } break; } } if (paramValues.isEmpty()) { cerr << "No values specified for parameter '" << param << "'." << endl; return nullptr; } paramMax = paramValues.count() - 1; } else { cerr << "Parameter '" << param << "' has type " << paramType << " but must be of type int, uint or Enum." << endl; return nullptr; } } else if (tag == QLatin1String("default")) { if (e.attribute(QStringLiteral("param")).isEmpty()) { defaultValue = e.text(); if (e.attribute(QStringLiteral("code")) == QLatin1String("true")) { defaultCode = true; } } } else if (tag == QLatin1String("choices")) { QString name = e.attribute(QStringLiteral("name")); QString prefix = e.attribute(QStringLiteral("prefix")); QList chlist; for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() == QLatin1String("choice")) { CfgEntry::Choice choice; choice.name = e2.attribute(QStringLiteral("name")); if (choice.name.isEmpty()) { cerr << "Tag requires attribute 'name'." << endl; } for (QDomElement e3 = e2.firstChildElement(); !e3.isNull(); e3 = e3.nextSiblingElement()) { if (e3.tagName() == QLatin1String("label")) { choice.label = e3.text(); choice.context = e3.attribute(QStringLiteral("context")); } if (e3.tagName() == QLatin1String("tooltip")) { choice.toolTip = e3.text(); choice.context = e3.attribute(QStringLiteral("context")); } if (e3.tagName() == QLatin1String("whatsthis")) { choice.whatsThis = e3.text(); choice.context = e3.attribute(QStringLiteral("context")); } } chlist.append(choice); } } choices = CfgEntry::Choices(chlist, name, prefix); } else if (tag == QLatin1String("emit")) { - QDomNode signalNode; Signal signal; signal.name = e.attribute(QStringLiteral("signal")); signalList.append(signal); } } if (cfg.generateProperties && (cfg.allMutators || cfg.mutators.contains(name))) { Signal s; s.name = changeSignalName(name); s.modify = true; signalList.append(s); } bool nameIsEmpty = name.isEmpty(); if (nameIsEmpty && key.isEmpty()) { cerr << "Entry must have a name or a key: " << dumpNode(element) << endl; return nullptr; } if (key.isEmpty()) { key = name; } if (nameIsEmpty) { name = key; name.remove(' '); } else if (name.contains(' ')) { cout << "Entry '" << name << "' contains spaces! elements can not contain spaces!" << endl; name.remove(' '); } if (name.contains(QStringLiteral("$("))) { if (param.isEmpty()) { cerr << "Name may not be parameterized: " << name << endl; return nullptr; } } else { if (!param.isEmpty()) { cerr << "Name must contain '$(" << param << ")': " << name << endl; return nullptr; } } if (label.isEmpty()) { label = key; } if (type.isEmpty()) { type = QStringLiteral("String"); // XXX : implicit type might be bad } if (!param.isEmpty()) { // Adjust name paramName = name; name.remove("$(" + param + ')'); // Lookup defaults for indexed entries for (int i = 0; i <= paramMax; i++) { paramDefaultValues.append(QString()); } for (QDomElement e = element.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { QString tag = e.tagName(); if (tag == QLatin1String("default")) { QString index = e.attribute(QStringLiteral("param")); if (index.isEmpty()) { continue; } bool ok; int i = index.toInt(&ok); if (!ok) { i = paramValues.indexOf(index); if (i == -1) { cerr << "Index '" << index << "' for default value is unknown." << endl; return nullptr; } } if ((i < 0) || (i > paramMax)) { cerr << "Index '" << i << "' for default value is out of range [0, " << paramMax << "]." << endl; return nullptr; } QString tmpDefaultValue = e.text(); if (e.attribute(QStringLiteral("code")) != QLatin1String("true")) { preProcessDefault(tmpDefaultValue, name, type, choices, code, cfg); } paramDefaultValues[i] = tmpDefaultValue; } } } if (!validNameRegexp->exactMatch(name)) { if (nameIsEmpty) cerr << "The key '" << key << "' can not be used as name for the entry because " "it is not a valid name. You need to specify a valid name for this entry." << endl; else { cerr << "The name '" << name << "' is not a valid name for an entry." << endl; } return nullptr; } if (allNames.contains(name)) { if (nameIsEmpty) cerr << "The key '" << key << "' can not be used as name for the entry because " "it does not result in a unique name. You need to specify a unique name for this entry." << endl; else { cerr << "The name '" << name << "' is not unique." << endl; } return nullptr; } allNames.append(name); if (!defaultCode) { preProcessDefault(defaultValue, name, type, choices, code, cfg); } CfgEntry *result = new CfgEntry(group, type, key, name, labelContext, label, toolTipContext, toolTip, whatsThisContext, whatsThis, code, defaultValue, choices, signalList, hidden == QLatin1String("true")); if (!param.isEmpty()) { result->setParam(param); result->setParamName(paramName); result->setParamType(paramType); result->setParamValues(paramValues); result->setParamDefaultValues(paramDefaultValues); result->setParamMax(paramMax); } result->setMinValue(minValue); result->setMaxValue(maxValue); return result; } static bool isUnsigned(const QString &type) { if (type == QLatin1String("UInt")) { return true; } if (type == QLatin1String("ULongLong")) { return true; } return false; } /** Return parameter declaration for given type. */ QString param(const QString &t) { const QString type = t.toLower(); if (type == QLatin1String("string")) { return QStringLiteral("const QString &"); } else if (type == QLatin1String("stringlist")) { return QStringLiteral("const QStringList &"); } else if (type == QLatin1String("font")) { return QStringLiteral("const QFont &"); } else if (type == QLatin1String("rect")) { return QStringLiteral("const QRect &"); } else if (type == QLatin1String("size")) { return QStringLiteral("const QSize &"); } else if (type == QLatin1String("color")) { return QStringLiteral("const QColor &"); } else if (type == QLatin1String("point")) { return QStringLiteral("const QPoint &"); } else if (type == QLatin1String("int")) { return QStringLiteral("int"); } else if (type == QLatin1String("uint")) { return QStringLiteral("uint"); } else if (type == QLatin1String("bool")) { return QStringLiteral("bool"); } else if (type == QLatin1String("double")) { return QStringLiteral("double"); } else if (type == QLatin1String("datetime")) { return QStringLiteral("const QDateTime &"); } else if (type == QLatin1String("longlong")) { return QStringLiteral("qint64"); } else if (type == QLatin1String("ulonglong")) { return QStringLiteral("quint64"); } else if (type == QLatin1String("intlist")) { return QStringLiteral("const QList &"); } else if (type == QLatin1String("enum")) { return QStringLiteral("int"); } else if (type == QLatin1String("path")) { return QStringLiteral("const QString &"); } else if (type == QLatin1String("pathlist")) { return QStringLiteral("const QStringList &"); } else if (type == QLatin1String("password")) { return QStringLiteral("const QString &"); } else if (type == QLatin1String("url")) { return QStringLiteral("const QUrl &"); } else if (type == QLatin1String("urllist")) { return QStringLiteral("const QList &"); } else { cerr << "kconfig_compiler_kf5 does not support type \"" << type << "\"" << endl; return QStringLiteral("QString"); //For now, but an assert would be better } } /** Actual C++ storage type for given type. */ QString cppType(const QString &t) { const QString type = t.toLower(); if (type == QLatin1String("string")) { return QStringLiteral("QString"); } else if (type == QLatin1String("stringlist")) { return QStringLiteral("QStringList"); } else if (type == QLatin1String("font")) { return QStringLiteral("QFont"); } else if (type == QLatin1String("rect")) { return QStringLiteral("QRect"); } else if (type == QLatin1String("size")) { return QStringLiteral("QSize"); } else if (type == QLatin1String("color")) { return QStringLiteral("QColor"); } else if (type == QLatin1String("point")) { return QStringLiteral("QPoint"); } else if (type == QLatin1String("int")) { return QStringLiteral("int"); } else if (type == QLatin1String("uint")) { return QStringLiteral("uint"); } else if (type == QLatin1String("bool")) { return QStringLiteral("bool"); } else if (type == QLatin1String("double")) { return QStringLiteral("double"); } else if (type == QLatin1String("datetime")) { return QStringLiteral("QDateTime"); } else if (type == QLatin1String("longlong")) { return QStringLiteral("qint64"); } else if (type == QLatin1String("ulonglong")) { return QStringLiteral("quint64"); } else if (type == QLatin1String("intlist")) { return QStringLiteral("QList"); } else if (type == QLatin1String("enum")) { return QStringLiteral("int"); } else if (type == QLatin1String("path")) { return QStringLiteral("QString"); } else if (type == QLatin1String("pathlist")) { return QStringLiteral("QStringList"); } else if (type == QLatin1String("password")) { return QStringLiteral("QString"); } else if (type == QLatin1String("url")) { return QStringLiteral("QUrl"); } else if (type == QLatin1String("urllist")) { return QStringLiteral("QList"); } else { cerr << "kconfig_compiler_kf5 does not support type \"" << type << "\"" << endl; return QStringLiteral("QString"); //For now, but an assert would be better } } QString defaultValue(const QString &t) { const QString type = t.toLower(); if (type == QLatin1String("string")) { return QStringLiteral("\"\""); // Use empty string, not null string! } else if (type == QLatin1String("stringlist")) { return QStringLiteral("QStringList()"); } else if (type == QLatin1String("font")) { return QStringLiteral("QFont()"); } else if (type == QLatin1String("rect")) { return QStringLiteral("QRect()"); } else if (type == QLatin1String("size")) { return QStringLiteral("QSize()"); } else if (type == QLatin1String("color")) { return QStringLiteral("QColor(128, 128, 128)"); } else if (type == QLatin1String("point")) { return QStringLiteral("QPoint()"); } else if (type == QLatin1String("int")) { return QStringLiteral("0"); } else if (type == QLatin1String("uint")) { return QStringLiteral("0"); } else if (type == QLatin1String("bool")) { return QStringLiteral("false"); } else if (type == QLatin1String("double")) { return QStringLiteral("0.0"); } else if (type == QLatin1String("datetime")) { return QStringLiteral("QDateTime()"); } else if (type == QLatin1String("longlong")) { return QStringLiteral("0"); } else if (type == QLatin1String("ulonglong")) { return QStringLiteral("0"); } else if (type == QLatin1String("intlist")) { return QStringLiteral("QList()"); } else if (type == QLatin1String("enum")) { return QStringLiteral("0"); } else if (type == QLatin1String("path")) { return QStringLiteral("\"\""); // Use empty string, not null string! } else if (type == QLatin1String("pathlist")) { return QStringLiteral("QStringList()"); } else if (type == QLatin1String("password")) { return QStringLiteral("\"\""); // Use empty string, not null string! } else if (type == QLatin1String("url")) { return QStringLiteral("QUrl()"); } else if (type == QLatin1String("urllist")) { return QStringLiteral("QList()"); } else { cerr << "Error, kconfig_compiler_kf5 does not support the \"" << type << "\" type!" << endl; return QStringLiteral("QString"); //For now, but an assert would be better } } QString itemType(const QString &type) { QString t; t = type; t.replace(0, 1, t.left(1).toUpper()); return t; } static QString itemDeclaration(const CfgEntry *e, const CfgConfig &cfg) { if (cfg.itemAccessors) { return QString(); } QString type; if (!e->signalList().isEmpty()) { type = QStringLiteral("KConfigCompilerSignallingItem"); } else { type = cfg.inherits + "::Item" + itemType(e->type()); } QString fCap = e->name(); fCap[0] = fCap[0].toUpper(); return " " + type + " *item" + fCap + ( (!e->param().isEmpty())?(QStringLiteral("[%1]").arg(e->paramMax()+1)) : QString()) + ";\n"; } // returns the name of an item variable // use itemPath to know the full path // like using d-> in case of dpointer static QString itemVar(const CfgEntry *e, const CfgConfig &cfg) { QString result; if (cfg.itemAccessors) { if (!cfg.dpointer) { result = 'm' + e->name() + "Item"; result[1] = result[1].toUpper(); } else { result = e->name() + "Item"; result[0] = result[0].toLower(); } } else { result = "item" + e->name(); result[4] = result[4].toUpper(); } return result; } static QString itemPath(const CfgEntry *e, const CfgConfig &cfg) { QString result; if (cfg.dpointer) { result = "d->" + itemVar(e, cfg); } else { result = itemVar(e, cfg); } return result; } QString newItem(const CfgEntry* entry, const QString &key, const QString& defaultValue, const CfgConfig &cfg, const QString ¶m = QString()) { QList sigs = entry->signalList(); QString t; if (!sigs.isEmpty()) { t += QLatin1String("new KConfigCompilerSignallingItem("); } t += "new "+ cfg.inherits + "::Item" + itemType(entry->type()) + "( currentGroup(), " + key + ", " + varPath( entry->name(), cfg ) + param; if (entry->type() == QLatin1String("Enum")) { t += ", values" + entry->name(); } if (!defaultValue.isEmpty()) { t += QLatin1String(", ") + defaultValue; } t += QLatin1String(" )"); if (!sigs.isEmpty()) { t += QLatin1String(", this, notifyFunction, "); //append the signal flags for (int i = 0; i < sigs.size(); ++i) { if (i != 0) t += QLatin1String(" | "); t += signalEnumName(sigs[i].name); } t += QLatin1String(")"); } t += QLatin1String(";"); return t; } QString paramString(const QString &s, const CfgEntry *e, int i) { QString result = s; QString needle = "$(" + e->param() + ')'; if (result.contains(needle)) { QString tmp; if (e->paramType() == QLatin1String("Enum")) { tmp = e->paramValues().at(i); } else { tmp = QString::number(i); } result.replace(needle, tmp); } return result; } QString paramString(const QString &group, const QList ¶meters) { QString paramString = group; QString arguments; int i = 1; for (QList::ConstIterator it = parameters.constBegin(); it != parameters.constEnd(); ++it) { if (paramString.contains("$(" + (*it).name + ')')) { QString tmp; tmp.sprintf("%%%d", i++); paramString.replace("$(" + (*it).name + ')', tmp); arguments += ".arg( mParam" + (*it).name + " )"; } } if (arguments.isEmpty()) { return "QStringLiteral( \"" + group + "\" )"; } return "QStringLiteral( \"" + paramString + "\" )" + arguments; } QString translatedString(const CfgConfig &cfg, const QString &string, const QString &context = QString(), const QString ¶m = QString(), const QString ¶mValue = QString()) { QString result; switch (cfg.translationSystem) { case CfgConfig::QtTranslation: if (!context.isEmpty()) { result += "/*: " + context + " */ QCoreApplication::translate(\""; } else { result += QLatin1String("QCoreApplication::translate(\""); } result += cfg.className + "\", "; break; case CfgConfig::KdeTranslation: if (!cfg.translationDomain.isEmpty() && !context.isEmpty()) { result += "i18ndc(" + quoteString(cfg.translationDomain) + ", " + quoteString(context) + ", "; } else if (!cfg.translationDomain.isEmpty()) { result += "i18nd(" + quoteString(cfg.translationDomain) + ", "; } else if (!context.isEmpty()) { result += "i18nc(" + quoteString(context) + ", "; } else { result += QLatin1String("i18n("); } break; } if (!param.isEmpty()) { QString resolvedString = string; resolvedString.replace("$(" + param + ')', paramValue); result += quoteString(resolvedString); } else { result += quoteString(string); } result += ')'; return result; } /* int i is the value of the parameter */ QString userTextsFunctions(CfgEntry *e, const CfgConfig &cfg, QString itemVarStr = QString(), const QString &i = QString()) { QString txt; if (itemVarStr.isNull()) { itemVarStr = itemPath(e, cfg); } if (!e->label().isEmpty()) { txt += " " + itemVarStr + "->setLabel( "; txt += translatedString(cfg, e->label(), e->labelContext(), e->param(), i); txt += QLatin1String(" );\n"); } if (!e->toolTip().isEmpty()) { txt += " " + itemVarStr + "->setToolTip( "; txt += translatedString(cfg, e->toolTip(), e->toolTipContext(), e->param(), i); txt += QLatin1String(" );\n"); } if (!e->whatsThis().isEmpty()) { txt += " " + itemVarStr + "->setWhatsThis( "; txt += translatedString(cfg, e->whatsThis(), e->whatsThisContext(), e->param(), i); txt += QLatin1String(" );\n"); } return txt; } // returns the member accesor implementation // which should go in the h file if inline // or the cpp file if not inline QString memberAccessorBody(CfgEntry *e, bool globalEnums, const CfgConfig &cfg) { QString result; QTextStream out(&result, QIODevice::WriteOnly); QString n = e->name(); QString t = e->type(); bool useEnumType = cfg.useEnumTypes && t == QLatin1String("Enum"); out << "return "; if (useEnumType) { out << "static_cast<" << enumType(e, globalEnums) << ">("; } out << This << varPath(n, cfg); if (!e->param().isEmpty()) { out << "[i]"; } if (useEnumType) { out << ")"; } out << ";" << endl; return result; } // returns the member mutator implementation // which should go in the h file if inline // or the cpp file if not inline void addDebugMethod(QTextStream &out, const CfgConfig &cfg, const QString &n) { if (cfg.qCategoryLoggingName.isEmpty()) { out << " qDebug() << \"" << setFunction(n); } else { out << " qCDebug(" << cfg.qCategoryLoggingName << ") << \"" << setFunction(n); } } QString memberMutatorBody(CfgEntry *e, const CfgConfig &cfg) { QString result; QTextStream out(&result, QIODevice::WriteOnly); QString n = e->name(); QString t = e->type(); if (!e->minValue().isEmpty()) { if (e->minValue() != QLatin1String("0") || !isUnsigned(t)) { // skip writing "if uint<0" (#187579) out << "if (v < " << e->minValue() << ")" << endl; out << "{" << endl; addDebugMethod(out, cfg, n); out << ": value \" << v << \" is less than the minimum value of "; out << e->minValue() << "\";" << endl; out << " v = " << e->minValue() << ";" << endl; out << "}" << endl; } } if (!e->maxValue().isEmpty()) { out << endl << "if (v > " << e->maxValue() << ")" << endl; out << "{" << endl; addDebugMethod(out, cfg, n); out << ": value \" << v << \" is greater than the maximum value of "; out << e->maxValue() << "\";" << endl; out << " v = " << e->maxValue() << ";" << endl; out << "}" << endl << endl; } const QString varExpression = This + varPath(n, cfg) + (e->param().isEmpty() ? QString() : QStringLiteral("[i]")); const bool hasBody = !e->signalList().empty() || cfg.generateProperties; out << "if ("; if (hasBody) { out << "v != " << varExpression << " && "; } out << "!" << This << "isImmutable( QStringLiteral( \""; if (!e->param().isEmpty()) { out << e->paramName().replace("$(" + e->param() + ")", QLatin1String("%1")) << "\" ).arg( "; if (e->paramType() == QLatin1String("Enum")) { out << "QLatin1String( "; if (cfg.globalEnums) { out << enumName(e->param()) << "ToString[i]"; } else { out << enumName(e->param()) << "::enumToString[i]"; } out << " )"; } else { out << "i"; } out << " )"; } else { out << n << "\" )"; } out << " ))" << (hasBody ? " {" : "") << endl; out << " " << varExpression << " = v;" << endl; Q_FOREACH (const Signal &signal, e->signalList()) { if (signal.modify) { out << " Q_EMIT " << This << signal.name << "();" << endl; } else { out << " " << This << varPath(QStringLiteral("settingsChanged"), cfg) << " |= " << signalEnumName(signal.name) << ";" << endl; } } if (hasBody) { out << "}" << endl; } return result; } // returns the member get default implementation // which should go in the h file if inline // or the cpp file if not inline QString memberGetDefaultBody(CfgEntry *e) { QString result = e->code(); QTextStream out(&result, QIODevice::WriteOnly); out << endl; if (!e->param().isEmpty()) { out << " switch (i) {" << endl; for (int i = 0; i <= e->paramMax(); ++i) { if (!e->paramDefaultValue(i).isEmpty()) { out << " case " << i << ": return " << e->paramDefaultValue(i) << ';' << endl; } } out << " default:" << endl; out << " return " << e->defaultValue().replace("$(" + e->param() + ')', QLatin1String("i")) << ';' << endl; out << " }" << endl; } else { out << " return " << e->defaultValue() << ';'; } return result; } // returns the item accesor implementation // which should go in the h file if inline // or the cpp file if not inline QString itemAccessorBody(CfgEntry *e, const CfgConfig &cfg) { QString result; QTextStream out(&result, QIODevice::WriteOnly); out << "return " << itemPath(e, cfg); if (!e->param().isEmpty()) { out << "[i]"; } out << ";" << endl; return result; } //indents text adding X spaces per line QString indent(QString text, int spaces) { QString result; QTextStream out(&result, QIODevice::WriteOnly); QTextStream in(&text, QIODevice::ReadOnly); QString currLine; while (!in.atEnd()) { currLine = in.readLine(); if (!currLine.isEmpty()) for (int i = 0; i < spaces; i++) { out << " "; } out << currLine << endl; } return result; } // adds as many 'namespace foo {' lines to p_out as // there are namespaces in p_ns void beginNamespaces(const QString &p_ns, QTextStream &p_out) { if (!p_ns.isEmpty()) { const QStringList nameSpaces = p_ns.split(QStringLiteral("::")); foreach (const QString &ns, nameSpaces) { p_out << "namespace " << ns << " {" << endl; } p_out << endl; } } // adds as many '}' lines to p_out as // there are namespaces in p_ns void endNamespaces(const QString &p_ns, QTextStream &p_out) { if (!p_ns.isEmpty()) { const int namespaceCount = p_ns.count(QStringLiteral("::")) + 1; for (int i = 0; i < namespaceCount; ++i) { p_out << "}" << endl; } p_out << endl; } } int main(int argc, char **argv) { QCoreApplication app(argc, argv); app.setApplicationName(QStringLiteral("kconfig_compiler")); app.setApplicationVersion(QStringLiteral(KCONFIG_VERSION_STRING)); validNameRegexp = new QRegExp(QStringLiteral("[a-zA-Z_][a-zA-Z0-9_]*")); QString inputFilename, codegenFilename; QCommandLineParser parser; parser.addPositionalArgument(QStringLiteral("file.kcfg"), QStringLiteral("Input kcfg XML file")); parser.addPositionalArgument(QStringLiteral("file.kcfgc"), QStringLiteral("Code generation options file")); QCommandLineOption targetDirectoryOption(QStringList() << QStringLiteral("d") << QStringLiteral("directory"), QCoreApplication::translate("main", "Directory to generate files in [.]"), QCoreApplication::translate("main", "directory"), QStringLiteral(".")); parser.addOption(targetDirectoryOption); QCommandLineOption licenseOption (QStringList() << QStringLiteral("l") << QStringLiteral("license"), QCoreApplication::translate("main", "Display software license.")); parser.addOption (licenseOption); parser.addVersionOption(); parser.addHelpOption(); parser.process(app); if (parser.isSet(licenseOption)) { cout << "Copyright 2003 Cornelius Schumacher, Waldo Bastian, Zack Rusin," << endl; cout << " Reinhold Kainhofer, Duncan Mac-Vicar P., Harald Fernengel" << endl; cout << "This program comes with ABSOLUTELY NO WARRANTY." << endl; cout << "You may redistribute copies of this program" << endl; cout << "under the terms of the GNU Library Public License." << endl; cout << "For more information about these matters, see the file named COPYING." << endl; return 0; } const QStringList args = parser.positionalArguments(); if (args.count() < 2) { cerr << "Too few arguments." << endl; return 1; } if (args.count() > 2) { cerr << "Too many arguments." << endl; return 1; } inputFilename = args.at(0); codegenFilename = args.at(1); QString baseDir = parser.value(targetDirectoryOption); #ifdef Q_OS_WIN if (!baseDir.endsWith('/') && !baseDir.endsWith('\\')) #else if (!baseDir.endsWith('/')) #endif baseDir.append("/"); if (!codegenFilename.endsWith(QLatin1String(".kcfgc"))) { cerr << "Codegen options file must have extension .kcfgc" << endl; return 1; } QString baseName = QFileInfo(codegenFilename).fileName(); baseName = baseName.left(baseName.length() - 6); CfgConfig cfg = CfgConfig(codegenFilename); QFile input(inputFilename); QDomDocument doc; QString errorMsg; int errorRow; int errorCol; if (!doc.setContent(&input, &errorMsg, &errorRow, &errorCol)) { cerr << "Unable to load document." << endl; cerr << "Parse error in " << inputFilename << ", line " << errorRow << ", col " << errorCol << ": " << errorMsg << endl; return 1; } QDomElement cfgElement = doc.documentElement(); if (cfgElement.isNull()) { cerr << "No document in kcfg file" << endl; return 1; } QString cfgFileName; bool cfgFileNameArg = false; QList parameters; QList signalList; QStringList includes; QList entries; for (QDomElement e = cfgElement.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { QString tag = e.tagName(); if (tag == QLatin1String("include")) { QString includeFile = e.text(); if (!includeFile.isEmpty()) { includes.append(includeFile); } } else if (tag == QLatin1String("kcfgfile")) { cfgFileName = e.attribute(QStringLiteral("name")); cfgFileNameArg = e.attribute(QStringLiteral("arg")).toLower() == QLatin1String("true"); for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() == QLatin1String("parameter")) { Param p; p.name = e2.attribute(QStringLiteral("name")); p.type = e2.attribute(QStringLiteral("type")); if (p.type.isEmpty()) { p.type = QStringLiteral("String"); } parameters.append(p); } } } else if (tag == QLatin1String("group")) { QString group = e.attribute(QStringLiteral("name")); if (group.isEmpty()) { cerr << "Group without name" << endl; return 1; } for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() != QLatin1String("entry")) { continue; } CfgEntry *entry = parseEntry(group, e2, cfg); if (entry) { entries.append(entry); } else { cerr << "Can not parse entry." << endl; return 1; } } } else if (tag == QLatin1String("signal")) { QString signalName = e.attribute(QStringLiteral("name")); if (signalName.isEmpty()) { cerr << "Signal without name." << endl; return 1; } Signal theSignal; theSignal.name = signalName; for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() == QLatin1String("argument")) { SignalArguments argument; argument.type = e2.attribute(QStringLiteral("type")); if (argument.type.isEmpty()) { cerr << "Signal argument without type." << endl; return 1; } argument.variableName = e2.text(); theSignal.arguments.append(argument); } else if (e2.tagName() == QLatin1String("label")) { theSignal.label = e2.text(); } } signalList.append(theSignal); } } if (cfg.className.isEmpty()) { cerr << "Class name missing" << endl; return 1; } if (cfg.singleton && !parameters.isEmpty()) { cerr << "Singleton class can not have parameters" << endl; return 1; } if (!cfgFileName.isEmpty() && cfgFileNameArg) { cerr << "Having both a fixed filename and a filename as argument is not possible." << endl; return 1; } if (entries.isEmpty()) { cerr << "No entries." << endl; } #if 0 CfgEntry *cfg; for (cfg = entries.first(); cfg; cfg = entries.next()) { cfg->dump(); } #endif QString headerFileName = baseName + ".h"; QString implementationFileName = baseName + ".cpp"; QString mocFileName = baseName + ".moc"; QString cppPreamble; // code to be inserted at the beginnin of the cpp file, e.g. initialization of static values QFile header(baseDir + headerFileName); if (!header.open(QIODevice::WriteOnly)) { cerr << "Can not open '" << baseDir << headerFileName << "for writing." << endl; return 1; } QTextStream h(&header); h.setCodec("utf-8"); h << "// This file is generated by kconfig_compiler_kf5 from " << QFileInfo(inputFilename).fileName() << "." << endl; h << "// All changes you do to this file will be lost." << endl; h << "#ifndef " << (!cfg.nameSpace.isEmpty() ? QString(QString(cfg.nameSpace).replace(QLatin1String("::"), QLatin1String("_")).toUpper() + '_') : QLatin1String("")) << cfg.className.toUpper() << "_H" << endl; h << "#define " << (!cfg.nameSpace.isEmpty() ? QString(QString(cfg.nameSpace).replace(QLatin1String("::"), QLatin1String("_")).toUpper() + '_') : QLatin1String("")) << cfg.className.toUpper() << "_H" << endl << endl; // Includes QStringList::ConstIterator it; for (it = cfg.headerIncludes.constBegin(); it != cfg.headerIncludes.constEnd(); ++it) { if ((*it).startsWith('"')) { h << "#include " << *it << endl; } else { h << "#include <" << *it << ">" << endl; } } if (cfg.headerIncludes.count() > 0) { h << endl; } if (!cfg.singleton && parameters.isEmpty()) { h << "#include " << endl; } if (cfg.inherits == QLatin1String("KCoreConfigSkeleton")) { h << "#include " << endl; } else { h << "#include " << endl; } h << "#include " << endl; h << "#include " << endl << endl; // Includes for (it = includes.constBegin(); it != includes.constEnd(); ++it) { if ((*it).startsWith('"')) { h << "#include " << *it << endl; } else { h << "#include <" << *it << ">" << endl; } } beginNamespaces(cfg.nameSpace, h); // Private class declaration if (cfg.dpointer) { h << "class " << cfg.className << "Private;" << endl << endl; } // Class declaration header h << "class " << cfg.visibility << cfg.className << " : public " << cfg.inherits << endl; h << "{" << endl; // Add Q_OBJECT macro if the config need signals. if (!signalList.isEmpty() || cfg.generateProperties) { h << " Q_OBJECT" << endl; } h << " public:" << endl; // enums QList::ConstIterator itEntry; for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { const CfgEntry::Choices &choices = (*itEntry)->choices(); const QList chlist = choices.choices; if (!chlist.isEmpty()) { QStringList values; QList::ConstIterator itChoice; for (itChoice = chlist.constBegin(); itChoice != chlist.constEnd(); ++itChoice) { values.append(choices.prefix + (*itChoice).name); } if (choices.name().isEmpty()) { if (cfg.globalEnums) { h << " enum " << enumName((*itEntry)->name(), (*itEntry)->choices()) << " { " << values.join(QStringLiteral(", ")) << " };" << endl; } else { // Create an automatically named enum h << " class " << enumName((*itEntry)->name(), (*itEntry)->choices()) << endl; h << " {" << endl; h << " public:" << endl; h << " enum type { " << values.join(QStringLiteral(", ")) << ", COUNT };" << endl; h << " };" << endl; } } else if (!choices.external()) { // Create a named enum h << " enum " << enumName((*itEntry)->name(), (*itEntry)->choices()) << " { " << values.join(QStringLiteral(", ")) << " };" << endl; } } const QStringList values = (*itEntry)->paramValues(); if (!values.isEmpty()) { if (cfg.globalEnums) { // ### FIXME!! // make the following string table an index-based string search! // ### h << " enum " << enumName((*itEntry)->param()) << " { " << values.join(QStringLiteral(", ")) << " };" << endl; h << " static const char* const " << enumName((*itEntry)->param()) << "ToString[];" << endl; cppPreamble += "const char* const " + cfg.className + "::" + enumName((*itEntry)->param()) + "ToString[] = { \"" + values.join(QStringLiteral("\", \"")) + "\" };\n"; } else { h << " class " << enumName((*itEntry)->param()) << endl; h << " {" << endl; h << " public:" << endl; h << " enum type { " << values.join(QStringLiteral(", ")) << ", COUNT };" << endl; h << " static const char* const enumToString[];" << endl; h << " };" << endl; cppPreamble += "const char* const " + cfg.className + "::" + enumName((*itEntry)->param()) + "::enumToString[] = { \"" + values.join(QStringLiteral("\", \"")) + "\" };\n"; } } } h << endl; // Constructor or singleton accessor if (!cfg.singleton) { h << " " << cfg.className << "("; if (cfgFileNameArg) { if (cfg.forceStringFilename) h << " const QString &cfgfilename" << (parameters.isEmpty() ? " = QString()" : ", "); else h << " KSharedConfig::Ptr config" << (parameters.isEmpty() ? " = KSharedConfig::openConfig()" : ", "); } for (QList::ConstIterator it = parameters.constBegin(); it != parameters.constEnd(); ++it) { if (it != parameters.constBegin()) { h << ","; } h << " " << param((*it).type) << " " << (*it).name; } h << " );" << endl; } else { h << " static " << cfg.className << " *self();" << endl; if (cfgFileNameArg) { h << " static void instance(const QString& cfgfilename);" << endl; h << " static void instance(KSharedConfig::Ptr config);" << endl; } } // Destructor h << " ~" << cfg.className << "();" << endl << endl; // global variables if (cfg.staticAccessors) { This = QStringLiteral("self()->"); } else { Const = QStringLiteral(" const"); } for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { QString n = (*itEntry)->name(); QString t = (*itEntry)->type(); // Manipulator if (cfg.allMutators || cfg.mutators.contains(n)) { h << " /**" << endl; h << " Set " << (*itEntry)->label() << endl; h << " */" << endl; if (cfg.staticAccessors) { h << " static" << endl; } h << " void " << setFunction(n) << "( "; if (!(*itEntry)->param().isEmpty()) { h << cppType((*itEntry)->paramType()) << " i, "; } if (cfg.useEnumTypes && t == QLatin1String("Enum")) { h << enumType(*itEntry, cfg.globalEnums); } else { h << param(t); } h << " v )"; // function body inline only if not using dpointer // for BC mode if (!cfg.dpointer) { h << endl << " {" << endl; h << indent(memberMutatorBody(*itEntry, cfg), 6); h << " }" << endl; } else { h << ";" << endl; } } h << endl; QString returnType; if (cfg.useEnumTypes && t == QLatin1String("Enum")) { returnType = enumType(*itEntry, cfg.globalEnums); } else { returnType = cppType(t); } if (cfg.generateProperties) { h << " Q_PROPERTY(" << returnType << ' ' << n; h << " READ " << n; if (cfg.allMutators || cfg.mutators.contains(n)) { const QString signal = changeSignalName(n); h << " WRITE " << setFunction(n); h << " NOTIFY " << signal; //If we have the modified signal, we'll also need //the changed signal as well Signal s; s.name = signal; s.modify = true; signalList.append(s); } else { h << " CONSTANT"; } h << ")" << endl; } // Accessor h << " /**" << endl; h << " Get " << (*itEntry)->label() << endl; h << " */" << endl; if (cfg.staticAccessors) { h << " static" << endl; } h << " "; h << returnType; h << " " << getFunction(n) << "("; if (!(*itEntry)->param().isEmpty()) { h << " " << cppType((*itEntry)->paramType()) << " i "; } h << ")" << Const; // function body inline only if not using dpointer // for BC mode if (!cfg.dpointer) { h << endl << " {" << endl; h << indent(memberAccessorBody(*itEntry, cfg.globalEnums, cfg), 6); h << " }" << endl; } else { h << ";" << endl; } // Default value Accessor if ((cfg.allDefaultGetters || cfg.defaultGetters.contains(n)) && !(*itEntry)->defaultValue().isEmpty()) { h << endl; h << " /**" << endl; h << " Get " << (*itEntry)->label() << " default value" << endl; h << " */" << endl; if (cfg.staticAccessors) { h << " static" << endl; } h << " "; if (cfg.useEnumTypes && t == QLatin1String("Enum")) { h << enumType(*itEntry, cfg.globalEnums); } else { h << cppType(t); } h << " " << getDefaultFunction(n) << "("; if (!(*itEntry)->param().isEmpty()) { h << " " << cppType((*itEntry)->paramType()) << " i "; } h << ")" << Const << endl; h << " {" << endl; h << " return "; if (cfg.useEnumTypes && t == QLatin1String("Enum")) { h << "static_cast<" << enumType(*itEntry, cfg.globalEnums) << ">("; } h << getDefaultFunction(n) << "_helper("; if (!(*itEntry)->param().isEmpty()) { h << " i "; } h << ")"; if (cfg.useEnumTypes && t == QLatin1String("Enum")) { h << ")"; } h << ";" << endl; h << " }" << endl; } // Item accessor if (cfg.itemAccessors) { h << endl; h << " /**" << endl; h << " Get Item object corresponding to " << n << "()" << endl; h << " */" << endl; h << " Item" << itemType((*itEntry)->type()) << " *" << getFunction(n) << "Item("; if (!(*itEntry)->param().isEmpty()) { h << " " << cppType((*itEntry)->paramType()) << " i "; } h << ")"; if (!cfg.dpointer) { h << endl << " {" << endl; h << indent(itemAccessorBody((*itEntry), cfg), 6); h << " }" << endl; } else { h << ";" << endl; } } h << endl; } // Signal definition. const bool hasSignals = !signalList.isEmpty(); bool hasNonModifySignals = false; if (hasSignals) { h << "\n enum {" << endl; unsigned val = 1; QList::ConstIterator it, itEnd = signalList.constEnd(); for (it = signalList.constBegin(); it != itEnd; val <<= 1) { hasNonModifySignals |= !it->modify; if (!val) { cerr << "Too many signals to create unique bit masks" << endl; exit(1); } Signal signal = *it; h << " " << signalEnumName(signal.name) << " = 0x" << hex << val; if (++it != itEnd) { h << ","; } h << endl; } h << " };" << dec << endl << endl; h << " Q_SIGNALS:"; Q_FOREACH (const Signal &signal, signalList) { h << endl; if (!signal.label.isEmpty()) { h << " /**" << endl; h << " " << signal.label << endl; h << " */" << endl; } h << " void " << signal.name << "("; QList::ConstIterator it, itEnd = signal.arguments.constEnd(); for (it = signal.arguments.constBegin(); it != itEnd;) { SignalArguments argument = *it; QString type = param(argument.type); if (cfg.useEnumTypes && argument.type == QLatin1String("Enum")) { for (int i = 0, end = entries.count(); i < end; ++i) { if (entries[i]->name() == argument.variableName) { type = enumType(entries[i], cfg.globalEnums); break; } } } h << type << " " << argument.variableName; if (++it != itEnd) { h << ", "; } } h << ");" << endl; } h << endl; h << " private:" << endl; h << " void itemChanged(quint64 flags);" << endl; h << endl; } h << " protected:" << endl; // Private constructor for singleton if (cfg.singleton) { h << " " << cfg.className << "("; if (cfgFileNameArg) { h << "KSharedConfig::Ptr config"; } h << ");" << endl; h << " friend class " << cfg.className << "Helper;" << endl << endl; } if (hasNonModifySignals) { h << " bool usrSave() override;" << endl; } // Member variables if (!cfg.memberVariables.isEmpty() && cfg.memberVariables != QLatin1String("private") && cfg.memberVariables != QLatin1String("dpointer")) { h << " " << cfg.memberVariables << ":" << endl; } // Class Parameters for (QList::ConstIterator it = parameters.constBegin(); it != parameters.constEnd(); ++it) { h << " " << cppType((*it).type) << " mParam" << (*it).name << ";" << endl; } if (cfg.memberVariables != QLatin1String("dpointer")) { QString group; for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { if ((*itEntry)->group() != group) { group = (*itEntry)->group(); h << endl; h << " // " << group << endl; } h << " " << cppType((*itEntry)->type()) << " " << varName((*itEntry)->name(), cfg); if (!(*itEntry)->param().isEmpty()) { h << QStringLiteral("[%1]").arg((*itEntry)->paramMax() + 1); } h << ";" << endl; if (cfg.allDefaultGetters || cfg.defaultGetters.contains((*itEntry)->name())) { h << " "; if (cfg.staticAccessors) { h << "static "; } h << cppType((*itEntry)->type()) << " " << getDefaultFunction((*itEntry)->name()) << "_helper("; if (!(*itEntry)->param().isEmpty()) { h << " " << cppType((*itEntry)->paramType()) << " i "; } h << ")" << Const << ";" << endl; } } h << endl << " private:" << endl; if (cfg.itemAccessors) { for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { h << " Item" << itemType((*itEntry)->type()) << " *" << itemVar(*itEntry, cfg); if (!(*itEntry)->param().isEmpty()) { h << QStringLiteral("[%1]").arg((*itEntry)->paramMax() + 1); } h << ";" << endl; } } if (hasNonModifySignals) { h << " uint " << varName(QStringLiteral("settingsChanged"), cfg) << ";" << endl; } } else { // use a private class for both member variables and items h << " private:" << endl; for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { if (cfg.allDefaultGetters || cfg.defaultGetters.contains((*itEntry)->name())) { h << " "; if (cfg.staticAccessors) { h << "static "; } h << cppType((*itEntry)->type()) << " " << getDefaultFunction((*itEntry)->name()) << "_helper("; if (!(*itEntry)->param().isEmpty()) { h << " " << cppType((*itEntry)->paramType()) << " i "; } h << ")" << Const << ";" << endl; } } h << " " + cfg.className + "Private *d;" << endl; } if (cfg.customAddons) { h << " // Include custom additions" << endl; h << " #include \"" << filenameOnly(baseName) << "_addons.h\"" << endl; } h << "};" << endl << endl; endNamespaces(cfg.nameSpace, h); h << "#endif" << endl << endl; header.close(); QFile implementation(baseDir + implementationFileName); if (!implementation.open(QIODevice::WriteOnly)) { cerr << "Can not open '" << implementationFileName << "for writing." << endl; return 1; } QTextStream cpp(&implementation); cpp.setCodec("utf-8"); cpp << "// This file is generated by kconfig_compiler_kf5 from " << QFileInfo(inputFilename).fileName() << "." << endl; cpp << "// All changes you do to this file will be lost." << endl << endl; cpp << "#include \"" << headerFileName << "\"" << endl << endl; for (it = cfg.sourceIncludes.constBegin(); it != cfg.sourceIncludes.constEnd(); ++it) { if ((*it).startsWith('"')) { cpp << "#include " << *it << endl; } else { cpp << "#include <" << *it << ">" << endl; } } if (cfg.sourceIncludes.count() > 0) { cpp << endl; } if (cfg.setUserTexts && cfg.translationSystem == CfgConfig::KdeTranslation) { cpp << "#include " << endl << endl; } // Header required by singleton implementation if (cfg.singleton) { cpp << "#include " << endl << "#include " << endl << endl; } if (cfg.singleton && cfgFileNameArg) { cpp << "#include " << endl << endl; } if (!cfg.nameSpace.isEmpty()) { cpp << "using namespace " << cfg.nameSpace << ";" << endl << endl; } QString group; // private class implementation if (cfg.dpointer) { beginNamespaces(cfg.nameSpace, cpp); cpp << "class " << cfg.className << "Private" << endl; cpp << "{" << endl; cpp << " public:" << endl; for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { if ((*itEntry)->group() != group) { group = (*itEntry)->group(); cpp << endl; cpp << " // " << group << endl; } cpp << " " << cppType((*itEntry)->type()) << " " << varName((*itEntry)->name(), cfg); if (!(*itEntry)->param().isEmpty()) { cpp << QStringLiteral("[%1]").arg((*itEntry)->paramMax() + 1); } cpp << ";" << endl; } cpp << endl << " // items" << endl; for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { const QString declType = (*itEntry)->signalList().isEmpty() ? QString(cfg.inherits + "::Item" + itemType((*itEntry)->type())) : QStringLiteral("KConfigCompilerSignallingItem"); cpp << " " << declType << " *" << itemVar( *itEntry, cfg ); if (!(*itEntry)->param().isEmpty()) { cpp << QStringLiteral("[%1]").arg((*itEntry)->paramMax() + 1); } cpp << ";" << endl; } if (hasNonModifySignals) { cpp << " uint " << varName(QStringLiteral("settingsChanged"), cfg) << ";" << endl; } cpp << "};" << endl << endl; endNamespaces(cfg.nameSpace, cpp); } // Singleton implementation if (cfg.singleton) { beginNamespaces(cfg.nameSpace, cpp); cpp << "class " << cfg.className << "Helper" << endl; cpp << '{' << endl; cpp << " public:" << endl; cpp << " " << cfg.className << "Helper() : q(nullptr) {}" << endl; cpp << " ~" << cfg.className << "Helper() { delete q; }" << endl; cpp << " " << cfg.className << " *q;" << endl; cpp << "};" << endl; endNamespaces(cfg.nameSpace, cpp); cpp << "Q_GLOBAL_STATIC(" << cfg.className << "Helper, s_global" << cfg.className << ")" << endl; cpp << cfg.className << " *" << cfg.className << "::self()" << endl; cpp << "{" << endl; if (cfgFileNameArg) { cpp << " if (!s_global" << cfg.className << "()->q)" << endl; cpp << " qFatal(\"you need to call " << cfg.className << "::instance before using\");" << endl; } else { cpp << " if (!s_global" << cfg.className << "()->q) {" << endl; cpp << " new " << cfg.className << ';' << endl; cpp << " s_global" << cfg.className << "()->q->read();" << endl; cpp << " }" << endl << endl; } cpp << " return s_global" << cfg.className << "()->q;" << endl; cpp << "}" << endl << endl; if (cfgFileNameArg) { auto instance = [&cfg, &cpp] (const QString &type, const QString arg, bool wrap) { cpp << "void " << cfg.className << "::instance(" << type << " " << arg << ")" << endl; cpp << "{" << endl; cpp << " if (s_global" << cfg.className << "()->q) {" << endl; cpp << " qDebug() << \"" << cfg.className << "::instance called after the first use - ignoring\";" << endl; cpp << " return;" << endl; cpp << " }" << endl; cpp << " new " << cfg.className << "("; if (wrap) { cpp << "KSharedConfig::openConfig(" << arg << ")"; } else { cpp << arg; } cpp << ");" << endl; cpp << " s_global" << cfg.className << "()->q->read();" << endl; cpp << "}" << endl << endl; }; instance(QStringLiteral("const QString&"), QStringLiteral("cfgfilename"), true); instance(QStringLiteral("KSharedConfig::Ptr"), QStringLiteral("config"), false); } } if (!cppPreamble.isEmpty()) { cpp << cppPreamble << endl; } // Constructor cpp << cfg.className << "::" << cfg.className << "( "; if (cfgFileNameArg) { if (! cfg.forceStringFilename) { cpp << " KSharedConfig::Ptr config"; } else { cpp << " const QString& config"; } cpp << (parameters.isEmpty() ? " " : ", "); } for (QList::ConstIterator it = parameters.constBegin(); it != parameters.constEnd(); ++it) { if (it != parameters.constBegin()) { cpp << ","; } cpp << " " << param((*it).type) << " " << (*it).name; } cpp << " )" << endl; cpp << " : " << cfg.inherits << "("; if (!cfgFileName.isEmpty()) { cpp << " QStringLiteral( \"" << cfgFileName << "\" "; } if (cfgFileNameArg) { cpp << " config "; } if (!cfgFileName.isEmpty()) { cpp << ") "; } cpp << ")" << endl; // Store parameters for (QList::ConstIterator it = parameters.constBegin(); it != parameters.constEnd(); ++it) { cpp << " , mParam" << (*it).name << "(" << (*it).name << ")" << endl; } if (hasNonModifySignals && !cfg.dpointer) { cpp << " , " << varName(QStringLiteral("settingsChanged"), cfg) << "(0)" << endl; } cpp << "{" << endl; if (cfg.dpointer) { cpp << " d = new " + cfg.className + "Private;" << endl; if (hasNonModifySignals) { cpp << " " << varPath(QStringLiteral("settingsChanged"), cfg) << " = 0;" << endl; } } // Needed in case the singleton class is used as baseclass for // another singleton. if (cfg.singleton) { cpp << " Q_ASSERT(!s_global" << cfg.className << "()->q);" << endl; cpp << " s_global" << cfg.className << "()->q = this;" << endl; } group.clear(); if (hasSignals) { // this cast to base-class pointer-to-member is valid C++ // http://stackoverflow.com/questions/4272909/is-it-safe-to-upcast-a-method-pointer-and-use-it-with-base-class-pointer/ cpp << " KConfigCompilerSignallingItem::NotifyFunction notifyFunction =" << " static_cast(&" << cfg.className << "::itemChanged);" << endl << endl; } for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { if ((*itEntry)->group() != group) { if (!group.isEmpty()) { cpp << endl; } group = (*itEntry)->group(); cpp << " setCurrentGroup( " << paramString(group, parameters) << " );" << endl << endl; } QString key = paramString((*itEntry)->key(), parameters); if (!(*itEntry)->code().isEmpty()) { cpp << (*itEntry)->code() << endl; } if ((*itEntry)->type() == QLatin1String("Enum")) { cpp << " QList<" + cfg.inherits + "::ItemEnum::Choice> values" << (*itEntry)->name() << ";" << endl; const QList choices = (*itEntry)->choices().choices; QList::ConstIterator it; for (it = choices.constBegin(); it != choices.constEnd(); ++it) { cpp << " {" << endl; cpp << " " + cfg.inherits + "::ItemEnum::Choice choice;" << endl; cpp << " choice.name = QStringLiteral(\"" << (*it).name << "\");" << endl; if (cfg.setUserTexts) { if (!(*it).label.isEmpty()) { cpp << " choice.label = " << translatedString(cfg, (*it).label, (*it).context) << ";" << endl; } if (!(*it).toolTip.isEmpty()) { cpp << " choice.toolTip = " << translatedString(cfg, (*it).toolTip, (*it).context) << ";" << endl; } if (!(*it).whatsThis.isEmpty()) { cpp << " choice.whatsThis = " << translatedString(cfg, (*it).whatsThis, (*it).context) << ";" << endl; } } cpp << " values" << (*itEntry)->name() << ".append( choice );" << endl; cpp << " }" << endl; } } if (!cfg.dpointer) { cpp << itemDeclaration(*itEntry, cfg); } if ((*itEntry)->param().isEmpty()) { // Normal case cpp << " " << itemPath(*itEntry, cfg) << " = " << newItem((*itEntry), key, (*itEntry)->defaultValue(), cfg) << endl; if (!(*itEntry)->minValue().isEmpty()) { cpp << " " << itemPath(*itEntry, cfg) << "->setMinValue(" << (*itEntry)->minValue() << ");" << endl; } if (!(*itEntry)->maxValue().isEmpty()) { cpp << " " << itemPath(*itEntry, cfg) << "->setMaxValue(" << (*itEntry)->maxValue() << ");" << endl; } if (cfg.setUserTexts) { cpp << userTextsFunctions((*itEntry), cfg); } cpp << " addItem( " << itemPath(*itEntry, cfg); QString quotedName = (*itEntry)->name(); addQuotes(quotedName); if (quotedName != key) { cpp << ", QStringLiteral( \"" << (*itEntry)->name() << "\" )"; } cpp << " );" << endl; } else { // Indexed for (int i = 0; i <= (*itEntry)->paramMax(); i++) { QString defaultStr; QString itemVarStr(itemPath(*itEntry, cfg) + QStringLiteral("[%1]").arg(i)); if (!(*itEntry)->paramDefaultValue(i).isEmpty()) { defaultStr = (*itEntry)->paramDefaultValue(i); } else if (!(*itEntry)->defaultValue().isEmpty()) { defaultStr = paramString((*itEntry)->defaultValue(), (*itEntry), i); } else { defaultStr = defaultValue((*itEntry)->type()); } cpp << " " << itemVarStr << " = " << newItem((*itEntry), paramString(key, *itEntry, i), defaultStr, cfg, QStringLiteral("[%1]").arg(i)) << endl; if (cfg.setUserTexts) { cpp << userTextsFunctions(*itEntry, cfg, itemVarStr, (*itEntry)->paramName()); } // Make mutators for enum parameters work by adding them with $(..) replaced by the // param name. The check for isImmutable in the set* functions doesn't have the param // name available, just the corresponding enum value (int), so we need to store the // param names in a separate static list!. cpp << " addItem( " << itemVarStr << ", QStringLiteral( \""; if ((*itEntry)->paramType() == QLatin1String("Enum")) { cpp << (*itEntry)->paramName().replace("$(" + (*itEntry)->param() + ')', QLatin1String("%1")).arg((*itEntry)->paramValues()[i]); } else { cpp << (*itEntry)->paramName().replace("$(" + (*itEntry)->param() + ')', QLatin1String("%1")).arg(i); } cpp << "\" ) );" << endl; } } } cpp << "}" << endl << endl; if (cfg.dpointer) { // setters and getters go in Cpp if in dpointer mode for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { QString n = (*itEntry)->name(); QString t = (*itEntry)->type(); // Manipulator if (cfg.allMutators || cfg.mutators.contains(n)) { cpp << "void " << setFunction(n, cfg.className) << "( "; if (!(*itEntry)->param().isEmpty()) { cpp << cppType((*itEntry)->paramType()) << " i, "; } if (cfg.useEnumTypes && t == QLatin1String("Enum")) { cpp << enumType(*itEntry, cfg.globalEnums); } else { cpp << param(t); } cpp << " v )" << endl; // function body inline only if not using dpointer // for BC mode cpp << "{" << endl; cpp << indent(memberMutatorBody(*itEntry, cfg), 6); cpp << "}" << endl << endl; } // Accessor if (cfg.useEnumTypes && t == QLatin1String("Enum")) { cpp << enumType(*itEntry, cfg.globalEnums); } else { cpp << cppType(t); } cpp << " " << getFunction(n, cfg.className) << "("; if (!(*itEntry)->param().isEmpty()) { cpp << " " << cppType((*itEntry)->paramType()) << " i "; } cpp << ")" << Const << endl; // function body inline only if not using dpointer // for BC mode cpp << "{" << endl; cpp << indent(memberAccessorBody(*itEntry, cfg.globalEnums, cfg), 2); cpp << "}" << endl << endl; // Default value Accessor -- written by the loop below // Item accessor if (cfg.itemAccessors) { cpp << endl; cpp << cfg.inherits + "::Item" << itemType((*itEntry)->type()) << " *" << getFunction(n, cfg.className) << "Item("; if (!(*itEntry)->param().isEmpty()) { cpp << " " << cppType((*itEntry)->paramType()) << " i "; } cpp << ")" << endl; cpp << "{" << endl; cpp << indent(itemAccessorBody(*itEntry, cfg), 2); cpp << "}" << endl; } cpp << endl; } } // default value getters always go in Cpp for (itEntry = entries.constBegin(); itEntry != entries.constEnd(); ++itEntry) { QString n = (*itEntry)->name(); QString t = (*itEntry)->type(); // Default value Accessor, as "helper" function if ((cfg.allDefaultGetters || cfg.defaultGetters.contains(n)) && !(*itEntry)->defaultValue().isEmpty()) { cpp << cppType(t) << " " << getDefaultFunction(n, cfg.className) << "_helper("; if (!(*itEntry)->param().isEmpty()) { cpp << " " << cppType((*itEntry)->paramType()) << " i "; } cpp << ")" << Const << endl; cpp << "{" << endl; cpp << memberGetDefaultBody(*itEntry) << endl; cpp << "}" << endl << endl; } } // Destructor cpp << cfg.className << "::~" << cfg.className << "()" << endl; cpp << "{" << endl; if (cfg.dpointer) { cpp << " delete d;" << endl; } if (cfg.singleton) { cpp << " s_global" << cfg.className << "()->q = nullptr;" << endl; } cpp << "}" << endl << endl; if (hasNonModifySignals) { cpp << "bool " << cfg.className << "::" << "usrSave()" << endl; cpp << "{" << endl; cpp << " const bool res = " << cfg.inherits << "::usrSave();" << endl; cpp << " if (!res) return false;" << endl << endl; Q_FOREACH (const Signal &signal, signalList) { if (signal.modify) { continue; } cpp << " if ( " << varPath(QStringLiteral("settingsChanged"), cfg) << " & " << signalEnumName(signal.name) << " )" << endl; cpp << " Q_EMIT " << signal.name << "("; QList::ConstIterator it, itEnd = signal.arguments.constEnd(); for (it = signal.arguments.constBegin(); it != itEnd;) { SignalArguments argument = *it; bool cast = false; if (cfg.useEnumTypes && argument.type == QLatin1String("Enum")) { for (int i = 0, end = entries.count(); i < end; ++i) { if (entries[i]->name() == argument.variableName) { cpp << "static_cast<" << enumType(entries[i], cfg.globalEnums) << ">("; cast = true; break; } } } cpp << varPath(argument.variableName, cfg); if (cast) { cpp << ")"; } if (++it != itEnd) { cpp << ", "; } } cpp << ");" << endl; } cpp << " " << varPath(QStringLiteral("settingsChanged"), cfg) << " = 0;" << endl; cpp << " return true;" << endl; cpp << "}" << endl; } if (hasSignals) { cpp << endl; cpp << "void " << cfg.className << "::" << "itemChanged(quint64 flags) {" << endl; if (hasNonModifySignals) cpp << " " << varPath(QStringLiteral("settingsChanged"), cfg) << " |= flags;" << endl; if (!signalList.isEmpty()) cpp << endl; Q_FOREACH (const Signal &signal, signalList) { if (signal.modify) { cpp << " if ( flags & " << signalEnumName(signal.name) << " ) {" << endl; cpp << " Q_EMIT " << signal.name << "();" << endl; cpp << " }" << endl; } } cpp << "}" << endl; } if (hasSignals || cfg.generateProperties) { // Add includemoc if they are signals defined. cpp << endl; cpp << "#include \"" << mocFileName << "\"" << endl; cpp << endl; } // clear entries list qDeleteAll(entries); implementation.close(); }