/* This file is part of the KDE libraries SPDX-FileCopyrightText: 2003 Cornelius Schumacher SPDX-FileCopyrightText: 2003 Waldo Bastian SPDX-FileCopyrightText: 2003 Zack Rusin SPDX-FileCopyrightText: 2006 Michaël Larouche SPDX-FileCopyrightText: 2008 Allen Winter SPDX-FileCopyrightText: 2020 Tomaz Cananbrava SPDX-License-Identifier: LGPL-2.0-or-later */ #include "KConfigXmlParser.h" #include #include #include #include #include #include #include #include // TODO: Move preprocessDefault to Header / CPP implementation. // it makes no sense for a parser to process those values and generate code. static void preProcessDefault(QString &defaultValue, const QString &name, const QString &type, const CfgEntry::Choices &cfgChoices, QString &code, const KConfigParameters &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 << '\n'; } if (type == QLatin1String("UrlList")) { cpp << " QList default" << name << ";\n"; } else { cpp << " QStringList default" << name << ";\n"; } const QStringList defaults = defaultValue.split(QLatin1Char(',')); for (const auto &val : defaults) { cpp << " default" << name << ".append( "; if (type == QLatin1String("UrlList")) { cpp << "QUrl::fromUserInput("; } cpp << "QString::fromUtf8( \"" << val << "\" ) "; if (type == QLatin1String("UrlList")) { cpp << ") "; } cpp << ");\n"; } defaultValue = QLatin1String("default") + name; } else if (type == QLatin1String("Color") && !defaultValue.isEmpty()) { static const QRegularExpression colorRe(QRegularExpression::anchoredPattern(QStringLiteral("\\d+,\\s*\\d+,\\s*\\d+(,\\s*\\d+)?"))); if (colorRe.match(defaultValue).hasMatch()) { defaultValue = QLatin1String("QColor( ") + defaultValue + QLatin1String(" )"); } else { defaultValue = QLatin1String("QColor( \"") + defaultValue + QLatin1String("\" )"); } } else if (type == QLatin1String("Enum")) { for (const auto &choice : cfgChoices.choices) { if (choice.name == defaultValue) { if (cfg.globalEnums && cfgChoices.name().isEmpty()) { defaultValue.prepend(cfgChoices.prefix); } else { defaultValue.prepend(enumTypeQualifier(name, cfgChoices) + cfgChoices.prefix); } break; } } } else if (type == QLatin1String("IntList")) { QTextStream cpp(&code, QIODevice::WriteOnly | QIODevice::Append); if (!code.isEmpty()) { cpp << '\n'; } cpp << " QList default" << name << ";\n"; if (!defaultValue.isEmpty()) { const QStringList defaults = defaultValue.split(QLatin1Char(',')); for (const auto &defaultVal : defaults) { cpp << " default" << name << ".append( " << defaultVal << " );\n"; } } defaultValue = QLatin1String("default") + name; } } 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; } void KConfigXmlParser::readParameterFromEntry(CfgEntry &readEntry, const QDomElement &e) { readEntry.param = e.attribute(QStringLiteral("name")); readEntry.paramType = e.attribute(QStringLiteral("type")); if (readEntry.param.isEmpty()) { std::cerr << "Parameter must have a name: " << qPrintable(dumpNode(e)) << std::endl; exit(1); } if (readEntry.paramType.isEmpty()) { std::cerr << "Parameter must have a type: " << qPrintable(dumpNode(e)) << std::endl; exit(1); } if ((readEntry.paramType == QLatin1String("Int")) || (readEntry.paramType == QLatin1String("UInt"))) { bool ok; readEntry.paramMax = e.attribute(QStringLiteral("max")).toInt(&ok); if (!ok) { std::cerr << "Integer parameter must have a maximum (e.g. max=\"0\"): " << qPrintable(dumpNode(e)) << std::endl; exit(1); } } else if (readEntry.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")) { readEntry.paramValues.append(e3.text()); } } break; } } if (readEntry.paramValues.isEmpty()) { std::cerr << "No values specified for parameter '" << qPrintable(readEntry.param) << "'." << std::endl; exit(1); } readEntry.paramMax = readEntry.paramValues.count() - 1; } else { std::cerr << "Parameter '" << qPrintable(readEntry.param) << "' has type " << qPrintable(readEntry.paramType) << " but must be of type int, uint or Enum." << std::endl; exit(1); } } bool KConfigXmlParser::hasDefaultCode(CfgEntry &readEntry, const QDomElement &element) { Q_UNUSED(readEntry) for (QDomElement e = element.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { if (e.attribute(QStringLiteral("param")).isEmpty()) { if (e.attribute(QStringLiteral("code")) == QLatin1String("true")) { return true; } } } return false; } void KConfigXmlParser::readChoicesFromEntry(CfgEntry &readEntry, const QDomElement &e) { QList chlist; const auto choiceNameRegex = QRegularExpression(QStringLiteral("\\w+")); for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() != QLatin1String("choice")) { continue; } CfgEntry::Choice choice; choice.name = e2.attribute(QStringLiteral("name")); if (choice.name.isEmpty()) { std::cerr << "Tag requires attribute 'name'." << std::endl; } else if (!choiceNameRegex.match(choice.name).hasMatch()) { std::cerr << "Tag attribute 'name' must be compatible with Enum naming. name was '" << qPrintable(choice.name) << "'. You can use attribute 'value' to pass any string as the choice value." << std::endl; } choice.val = e2.attribute(QStringLiteral("value")); 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); } QString name = e.attribute(QStringLiteral("name")); QString prefix = e.attribute(QStringLiteral("prefix")); readEntry.choices = CfgEntry::Choices(chlist, name, prefix); } void KConfigXmlParser::readGroupElements(CfgEntry &readEntry, const QDomElement &element) { for (QDomElement e = element.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { QString tag = e.tagName(); if (tag == QLatin1String("label")) { readEntry.label = e.text(); readEntry.labelContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("tooltip")) { readEntry.toolTip = e.text(); readEntry.toolTipContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("whatsthis")) { readEntry.whatsThis = e.text(); readEntry.whatsThisContext = e.attribute(QStringLiteral("context")); } else if (tag == QLatin1String("min")) { readEntry.min = e.text(); } else if (tag == QLatin1String("max")) { readEntry.max = e.text(); } else if (tag == QLatin1String("code")) { readEntry.code = e.text(); } else if (tag == QLatin1String("parameter")) { readParameterFromEntry(readEntry, e); } else if (tag == QLatin1String("default")) { if (e.attribute(QStringLiteral("param")).isEmpty()) { readEntry.defaultValue = e.text(); } } else if (tag == QLatin1String("choices")) { readChoicesFromEntry(readEntry, e); } else if (tag == QLatin1String("emit")) { Signal signal; signal.name = e.attribute(QStringLiteral("signal")); readEntry.signalList.append(signal); } } } void KConfigXmlParser::createChangedSignal(CfgEntry &readEntry) { if (cfg.generateProperties && (cfg.allMutators || cfg.mutators.contains(readEntry.name))) { Signal s; s.name = changeSignalName(readEntry.name); s.modify = true; readEntry.signalList.append(s); } } void KConfigXmlParser::validateNameAndKey(CfgEntry &readEntry, const QDomElement &element) { bool nameIsEmpty = readEntry.name.isEmpty(); if (nameIsEmpty && readEntry.key.isEmpty()) { std::cerr << "Entry must have a name or a key: " << qPrintable(dumpNode(element)) << std::endl; exit(1); } if (readEntry.key.isEmpty()) { readEntry.key = readEntry.name; } if (nameIsEmpty) { readEntry.name = readEntry.key; readEntry.name.remove(QLatin1Char(' ')); } else if (readEntry.name.contains(QLatin1Char(' '))) { std::cout << "Entry '" << qPrintable(readEntry.name) << "' contains spaces! elements can not contain spaces!" << std::endl; readEntry.name.remove(QLatin1Char(' ')); } if (readEntry.name.contains(QStringLiteral("$("))) { if (readEntry.param.isEmpty()) { std::cerr << "Name may not be parameterized: " << qPrintable(readEntry.name) << std::endl; exit(1); } } else { if (!readEntry.param.isEmpty()) { std::cerr << "Name must contain '$(" << qPrintable(readEntry.param) << ")': " << qPrintable(readEntry.name) << std::endl; exit(1); } } } void KConfigXmlParser::readParamDefaultValues(CfgEntry &readEntry, const QDomElement &element) { if (readEntry.param.isEmpty()) { return; } // Adjust name readEntry.paramName = readEntry.name; readEntry.name.remove(QStringLiteral("$(") + readEntry.param + QLatin1Char(')')); // Lookup defaults for indexed entries for (int i = 0; i <= readEntry.paramMax; i++) { readEntry.paramDefaultValues.append(QString()); } for (QDomElement e = element.firstChildElement(); !e.isNull(); e = e.nextSiblingElement()) { QString tag = e.tagName(); if (tag != QLatin1String("default")) { continue; } QString index = e.attribute(QStringLiteral("param")); if (index.isEmpty()) { continue; } bool ok; int i = index.toInt(&ok); if (!ok) { i = readEntry.paramValues.indexOf(index); if (i == -1) { std::cerr << "Index '" << qPrintable(index) << "' for default value is unknown." << std::endl; exit(1); } } if ((i < 0) || (i > readEntry.paramMax)) { std::cerr << "Index '" << i << "' for default value is out of range [0, " << readEntry.paramMax << "]." << std::endl; exit(1); } QString tmpDefaultValue = e.text(); if (e.attribute(QStringLiteral("code")) != QLatin1String("true")) { preProcessDefault(tmpDefaultValue, readEntry.name, readEntry.type, readEntry.choices, readEntry.code, cfg); } readEntry.paramDefaultValues[i] = tmpDefaultValue; } } CfgEntry *KConfigXmlParser::parseEntry(const QString &group, const QString &parentGroup, const QDomElement &element) { CfgEntry readEntry; readEntry.type = element.attribute(QStringLiteral("type")); readEntry.name = element.attribute(QStringLiteral("name")); readEntry.key = element.attribute(QStringLiteral("key")); readEntry.hidden = element.attribute(QStringLiteral("hidden")) == QLatin1String("true"); ; readEntry.group = group; readEntry.parentGroup = parentGroup; const bool nameIsEmpty = readEntry.name.isEmpty(); readGroupElements(readEntry, element); validateNameAndKey(readEntry, element); if (readEntry.label.isEmpty()) { readEntry.label = readEntry.key; } if (readEntry.type.isEmpty()) { readEntry.type = QStringLiteral("String"); // XXX : implicit type might be bad } readParamDefaultValues(readEntry, element); if (!mValidNameRegexp.match(readEntry.name).hasMatch()) { if (nameIsEmpty) std::cerr << "The key '" << qPrintable(readEntry.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." << std::endl; else { std::cerr << "The name '" << qPrintable(readEntry.name) << "' is not a valid name for an entry." << std::endl; } exit(1); } if (mAllNames.contains(readEntry.name)) { if (nameIsEmpty) std::cerr << "The key '" << qPrintable(readEntry.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." << std::endl; else { std::cerr << "The name '" << qPrintable(readEntry.name) << "' is not unique." << std::endl; } exit(1); } mAllNames.append(readEntry.name); if (!hasDefaultCode(readEntry, element)) { // TODO: Move all the options to CfgEntry. preProcessDefault(readEntry.defaultValue, readEntry.name, readEntry.type, readEntry.choices, readEntry.code, cfg); } // TODO: Try to Just return the CfgEntry we populated instead of // creating another one to fill the code. CfgEntry *result = new CfgEntry(); result->group = readEntry.group; result->parentGroup = readEntry.parentGroup; result->type = readEntry.type; result->key = readEntry.key; result->name = readEntry.name; result->labelContext = readEntry.labelContext; result->label = readEntry.label; result->toolTipContext = readEntry.toolTipContext; result->toolTip = readEntry.toolTip; result->whatsThisContext = readEntry.whatsThisContext; result->whatsThis = readEntry.whatsThis; result->code = readEntry.code; result->defaultValue = readEntry.defaultValue; result->choices = readEntry.choices; result->signalList = readEntry.signalList; result->hidden = readEntry.hidden; if (!readEntry.param.isEmpty()) { result->param = readEntry.param; result->paramName = readEntry.paramName; result->paramType = readEntry.paramType; result->paramValues = readEntry.paramValues; result->paramDefaultValues = readEntry.paramDefaultValues; result->paramMax = readEntry.paramMax; } result->min = readEntry.min; result->max = readEntry.max; createChangedSignal(*result); return result; } // TODO: Change the name of the config variable. KConfigXmlParser::KConfigXmlParser(const KConfigParameters &cfg, const QString &inputFileName) : cfg(cfg) , mInputFileName(inputFileName) { mValidNameRegexp.setPattern(QRegularExpression::anchoredPattern(QStringLiteral("[a-zA-Z_][a-zA-Z0-9_]*"))); } void KConfigXmlParser::start() { QFile input(mInputFileName); QDomDocument doc; QString errorMsg; int errorRow; int errorCol; if (!doc.setContent(&input, &errorMsg, &errorRow, &errorCol)) { std::cerr << "Unable to load document." << std::endl; std::cerr << "Parse error in " << qPrintable(mInputFileName) << ", line " << errorRow << ", col " << errorCol << ": " << qPrintable(errorMsg) << std::endl; exit(1); } QDomElement cfgElement = doc.documentElement(); if (cfgElement.isNull()) { std::cerr << "No document in kcfg file" << std::endl; exit(1); } for (QDomElement element = cfgElement.firstChildElement(); !element.isNull(); element = element.nextSiblingElement()) { QString tag = element.tagName(); if (tag == QLatin1String("include")) { readIncludeTag(element); } else if (tag == QLatin1String("kcfgfile")) { readKcfgfileTag(element); } else if (tag == QLatin1String("group")) { readGroupTag(element); } else if (tag == QLatin1String("signal")) { readSignalTag(element); } } } ParseResult KConfigXmlParser::getParseResult() const { return mParseResult; } void KConfigXmlParser::readIncludeTag(const QDomElement &e) { QString includeFile = e.text(); if (!includeFile.isEmpty()) { mParseResult.includes.append(includeFile); } } void KConfigXmlParser::readGroupTag(const QDomElement &e) { QString group = e.attribute(QStringLiteral("name")); if (group.isEmpty()) { std::cerr << "Group without name" << std::endl; exit(1); } const QString parentGroup = e.attribute(QStringLiteral("parentGroupName")); for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() != QLatin1String("entry")) { continue; } CfgEntry *entry = parseEntry(group, parentGroup, e2); if (entry) { mParseResult.entries.append(entry); } else { std::cerr << "Can not parse entry." << std::endl; exit(1); } } } void KConfigXmlParser::readKcfgfileTag(const QDomElement &e) { mParseResult.cfgFileName = e.attribute(QStringLiteral("name")); mParseResult.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"); } mParseResult.parameters.append(p); } } } void KConfigXmlParser::readSignalTag(const QDomElement &e) { QString signalName = e.attribute(QStringLiteral("name")); if (signalName.isEmpty()) { std::cerr << "Signal without name." << std::endl; exit(1); } Signal theSignal; theSignal.name = signalName; for (QDomElement e2 = e.firstChildElement(); !e2.isNull(); e2 = e2.nextSiblingElement()) { if (e2.tagName() == QLatin1String("argument")) { Param argument; argument.type = e2.attribute(QStringLiteral("type")); if (argument.type.isEmpty()) { std::cerr << "Signal argument without type." << std::endl; exit(1); } argument.name = e2.text(); theSignal.arguments.append(argument); } else if (e2.tagName() == QLatin1String("label")) { theSignal.label = e2.text(); } } mParseResult.signalList.append(theSignal); }