/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtCore module 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 #include "qplatformdefs.h" #include "qsettings.h" #ifndef QT_NO_SETTINGS #include "qsettings_p.h" #include "qcache.h" #include "qfile.h" #include "qdir.h" #include "qfileinfo.h" #include "qmutex.h" #include "qlibraryinfo.h" #include "qtemporaryfile.h" #ifndef QT_NO_TEXTCODEC # include "qtextcodec.h" #endif #ifndef QT_NO_GEOM_VARIANT #include "qsize.h" #include "qpoint.h" #include "qrect.h" #endif // !QT_NO_GEOM_VARIANT #ifndef QT_NO_QOBJECT #include "qcoreapplication.h" #ifdef Q_OS_WIN // for homedirpath reading from registry #include "qt_windows.h" #include #endif // Q_OS_WIN #endif // QT_NO_QOBJECT #ifdef Q_OS_VXWORKS # include #endif #include #ifndef CSIDL_COMMON_APPDATA #define CSIDL_COMMON_APPDATA 0x0023 // All Users\Application Data #endif #ifndef CSIDL_APPDATA #define CSIDL_APPDATA 0x001a // \Application Data #endif // ************************************************************************ // QConfFile /* QConfFile objects are explicitly shared within the application. This ensures that modification to the settings done through one QSettings object are immediately reflected in other setting objects of the same application. */ QT_BEGIN_NAMESPACE struct QConfFileCustomFormat { QString extension; QSettings::ReadFunc readFunc; QSettings::WriteFunc writeFunc; Qt::CaseSensitivity caseSensitivity; }; typedef QHash ConfFileHash; typedef QCache ConfFileCache; typedef QHash PathHash; typedef QVector CustomFormatVector; Q_GLOBAL_STATIC(ConfFileHash, usedHashFunc) Q_GLOBAL_STATIC(ConfFileCache, unusedCacheFunc) Q_GLOBAL_STATIC(PathHash, pathHashFunc) Q_GLOBAL_STATIC(CustomFormatVector, customFormatVectorFunc) Q_GLOBAL_STATIC(QMutex, globalMutex) static QSettings::Format globalDefaultFormat = QSettings::NativeFormat; #ifndef Q_OS_WIN inline bool qt_isEvilFsTypeName(const char *name) { return (qstrncmp(name, "nfs", 3) == 0 || qstrncmp(name, "autofs", 6) == 0 || qstrncmp(name, "cachefs", 7) == 0); } #if defined(Q_OS_BSD4) && !defined(Q_OS_NETBSD) QT_BEGIN_INCLUDE_NAMESPACE # include # include QT_END_INCLUDE_NAMESPACE static bool isLikelyToBeNfs(int handle) { struct statfs buf; if (fstatfs(handle, &buf) != 0) return false; return qt_isEvilFsTypeName(buf.f_fstypename); } #elif defined(Q_OS_LINUX) || defined(Q_OS_HURD) QT_BEGIN_INCLUDE_NAMESPACE # include # ifdef QT_LINUXBASE // LSB 3.2 has fstatfs in sys/statfs.h, sys/vfs.h is just an empty dummy header # include # endif QT_END_INCLUDE_NAMESPACE # ifndef NFS_SUPER_MAGIC # define NFS_SUPER_MAGIC 0x00006969 # endif # ifndef AUTOFS_SUPER_MAGIC # define AUTOFS_SUPER_MAGIC 0x00000187 # endif # ifndef AUTOFSNG_SUPER_MAGIC # define AUTOFSNG_SUPER_MAGIC 0x7d92b1a0 # endif static bool isLikelyToBeNfs(int handle) { struct statfs buf; if (fstatfs(handle, &buf) != 0) return false; return buf.f_type == NFS_SUPER_MAGIC || buf.f_type == AUTOFS_SUPER_MAGIC || buf.f_type == AUTOFSNG_SUPER_MAGIC; } #elif defined(Q_OS_SOLARIS) || defined(Q_OS_IRIX) || defined(Q_OS_AIX) || defined(Q_OS_HPUX) \ || defined(Q_OS_OSF) || defined(Q_OS_QNX) || defined(Q_OS_SCO) \ || defined(Q_OS_UNIXWARE) || defined(Q_OS_RELIANT) || defined(Q_OS_NETBSD) QT_BEGIN_INCLUDE_NAMESPACE # include QT_END_INCLUDE_NAMESPACE static bool isLikelyToBeNfs(int handle) { struct statvfs buf; if (fstatvfs(handle, &buf) != 0) return false; #if defined(Q_OS_NETBSD) return qt_isEvilFsTypeName(buf.f_fstypename); #else return qt_isEvilFsTypeName(buf.f_basetype); #endif } #else static inline bool isLikelyToBeNfs(int /* handle */) { return true; } #endif static bool unixLock(int handle, int lockType) { /* NFS hangs on the fcntl() call below when statd or lockd isn't running. There's no way to detect this. Our work-around for now is to disable locking when we detect NFS (or AutoFS or CacheFS, which are probably wrapping NFS). */ if (isLikelyToBeNfs(handle)) return false; struct flock fl; fl.l_whence = SEEK_SET; fl.l_start = 0; fl.l_len = 0; fl.l_type = lockType; return fcntl(handle, F_SETLKW, &fl) == 0; } #endif QConfFile::QConfFile(const QString &fileName, bool _userPerms) : name(fileName), size(0), ref(1), userPerms(_userPerms) { usedHashFunc()->insert(name, this); } QConfFile::~QConfFile() { if (usedHashFunc()) usedHashFunc()->remove(name); } ParsedSettingsMap QConfFile::mergedKeyMap() const { ParsedSettingsMap result = originalKeys; ParsedSettingsMap::const_iterator i; for (i = removedKeys.begin(); i != removedKeys.end(); ++i) result.remove(i.key()); for (i = addedKeys.begin(); i != addedKeys.end(); ++i) result.insert(i.key(), i.value()); return result; } bool QConfFile::isWritable() const { QFileInfo fileInfo(name); #ifndef QT_NO_TEMPORARYFILE if (fileInfo.exists()) { #endif QFile file(name); return file.open(QFile::ReadWrite); #ifndef QT_NO_TEMPORARYFILE } else { // Create the directories to the file. QDir dir(fileInfo.absolutePath()); if (dir.exists() && dir.isReadable()) { return true; } else { if (!dir.mkpath(dir.absolutePath())) return false; } // we use a temporary file to avoid race conditions QTemporaryFile file(name); return file.open(); } #endif } QConfFile *QConfFile::fromName(const QString &fileName, bool _userPerms) { QString absPath = QFileInfo(fileName).absoluteFilePath(); ConfFileHash *usedHash = usedHashFunc(); ConfFileCache *unusedCache = unusedCacheFunc(); QConfFile *confFile = 0; QMutexLocker locker(globalMutex()); if (!(confFile = usedHash->value(absPath))) { if ((confFile = unusedCache->take(absPath))) usedHash->insert(absPath, confFile); } if (confFile) { confFile->ref.ref(); return confFile; } return new QConfFile(absPath, _userPerms); } void QConfFile::clearCache() { QMutexLocker locker(globalMutex()); unusedCacheFunc()->clear(); } // ************************************************************************ // QSettingsPrivate QSettingsPrivate::QSettingsPrivate(QSettings::Format format) : format(format), scope(QSettings::UserScope /* nothing better to put */), iniCodec(0), spec(0), fallbacks(true), pendingChanges(false), status(QSettings::NoError) { } QSettingsPrivate::QSettingsPrivate(QSettings::Format format, QSettings::Scope scope, const QString &organization, const QString &application) : format(format), scope(scope), organizationName(organization), applicationName(application), iniCodec(0), spec(0), fallbacks(true), pendingChanges(false), status(QSettings::NoError) { } QSettingsPrivate::~QSettingsPrivate() { } QString QSettingsPrivate::actualKey(const QString &key) const { QString n = normalizedKey(key); Q_ASSERT_X(!n.isEmpty(), "QSettings", "empty key"); n.prepend(groupPrefix); return n; } /* Returns a string that never starts nor ends with a slash (or an empty string). Examples: "foo" becomes "foo" "/foo//bar///" becomes "foo/bar" "///" becomes "" This function is optimized to avoid a QString deep copy in the common case where the key is already normalized. */ QString QSettingsPrivate::normalizedKey(const QString &key) { QString result = key; int i = 0; while (i < result.size()) { while (result.at(i) == QLatin1Char('/')) { result.remove(i, 1); if (i == result.size()) goto after_loop; } while (result.at(i) != QLatin1Char('/')) { ++i; if (i == result.size()) return result; } ++i; // leave the slash alone } after_loop: if (!result.isEmpty()) result.truncate(i - 1); // remove the trailing slash return result; } // see also qsettings_win.cpp and qsettings_mac.cpp #if !defined(Q_OS_WIN) && !defined(Q_OS_MAC) QSettingsPrivate *QSettingsPrivate::create(QSettings::Format format, QSettings::Scope scope, const QString &organization, const QString &application) { return new QConfFileSettingsPrivate(format, scope, organization, application); } #endif #if !defined(Q_OS_WIN) QSettingsPrivate *QSettingsPrivate::create(const QString &fileName, QSettings::Format format) { return new QConfFileSettingsPrivate(fileName, format); } #endif void QSettingsPrivate::processChild(QString key, ChildSpec spec, QMap &result) { if (spec != AllKeys) { int slashPos = key.indexOf(QLatin1Char('/')); if (slashPos == -1) { if (spec != ChildKeys) return; } else { if (spec != ChildGroups) return; key.truncate(slashPos); } } result.insert(key, QString()); } void QSettingsPrivate::beginGroupOrArray(const QSettingsGroup &group) { groupStack.push(group); if (!group.name().isEmpty()) { groupPrefix += group.name(); groupPrefix += QLatin1Char('/'); } } /* We only set an error if there isn't one set already. This way the user always gets the first error that occurred. We always allow clearing errors. */ void QSettingsPrivate::setStatus(QSettings::Status status) const { if (status == QSettings::NoError || this->status == QSettings::NoError) this->status = status; } void QSettingsPrivate::update() { flush(); pendingChanges = false; } void QSettingsPrivate::requestUpdate() { if (!pendingChanges) { pendingChanges = true; #ifndef QT_NO_QOBJECT Q_Q(QSettings); QCoreApplication::postEvent(q, new QEvent(QEvent::UpdateRequest)); #else update(); #endif } } QStringList QSettingsPrivate::variantListToStringList(const QVariantList &l) { QStringList result; QVariantList::const_iterator it = l.constBegin(); for (; it != l.constEnd(); ++it) result.append(variantToString(*it)); return result; } QVariant QSettingsPrivate::stringListToVariantList(const QStringList &l) { QStringList outStringList = l; for (int i = 0; i < outStringList.count(); ++i) { const QString &str = outStringList.at(i); if (str.startsWith(QLatin1Char('@'))) { if (str.length() >= 2 && str.at(1) == QLatin1Char('@')) { outStringList[i].remove(0, 1); } else { QVariantList variantList; for (int j = 0; j < l.count(); ++j) variantList.append(stringToVariant(l.at(j))); return variantList; } } } return outStringList; } QString QSettingsPrivate::variantToString(const QVariant &v) { QString result; switch (v.type()) { case QVariant::Invalid: result = QLatin1String("@Invalid()"); break; case QVariant::ByteArray: { QByteArray a = v.toByteArray(); result = QLatin1String("@ByteArray("); result += QString::fromLatin1(a.constData(), a.size()); result += QLatin1Char(')'); break; } case QVariant::String: case QVariant::LongLong: case QVariant::ULongLong: case QVariant::Int: case QVariant::UInt: case QVariant::Bool: case QVariant::Double: case QVariant::KeySequence: { result = v.toString(); if (result.startsWith(QLatin1Char('@'))) result.prepend(QLatin1Char('@')); break; } #ifndef QT_NO_GEOM_VARIANT case QVariant::Rect: { QRect r = qvariant_cast(v); result += QLatin1String("@Rect("); result += QString::number(r.x()); result += QLatin1Char(' '); result += QString::number(r.y()); result += QLatin1Char(' '); result += QString::number(r.width()); result += QLatin1Char(' '); result += QString::number(r.height()); result += QLatin1Char(')'); break; } case QVariant::Size: { QSize s = qvariant_cast(v); result += QLatin1String("@Size("); result += QString::number(s.width()); result += QLatin1Char(' '); result += QString::number(s.height()); result += QLatin1Char(')'); break; } case QVariant::Point: { QPoint p = qvariant_cast(v); result += QLatin1String("@Point("); result += QString::number(p.x()); result += QLatin1Char(' '); result += QString::number(p.y()); result += QLatin1Char(')'); break; } #endif // !QT_NO_GEOM_VARIANT default: { #ifndef QT_NO_DATASTREAM QByteArray a; { QDataStream s(&a, QIODevice::WriteOnly); s.setVersion(QDataStream::Qt_4_0); s << v; } result = QLatin1String("@Variant("); result += QString::fromLatin1(a.constData(), a.size()); result += QLatin1Char(')'); #else Q_ASSERT(!"QSettings: Cannot save custom types without QDataStream support"); #endif break; } } return result; } QVariant QSettingsPrivate::stringToVariant(const QString &s) { if (s.startsWith(QLatin1Char('@'))) { if (s.endsWith(QLatin1Char(')'))) { if (s.startsWith(QLatin1String("@ByteArray("))) { return QVariant(s.toLatin1().mid(11, s.size() - 12)); } else if (s.startsWith(QLatin1String("@Variant("))) { #ifndef QT_NO_DATASTREAM QByteArray a(s.toLatin1().mid(9)); QDataStream stream(&a, QIODevice::ReadOnly); stream.setVersion(QDataStream::Qt_4_0); QVariant result; stream >> result; return result; #else Q_ASSERT(!"QSettings: Cannot load custom types without QDataStream support"); #endif #ifndef QT_NO_GEOM_VARIANT } else if (s.startsWith(QLatin1String("@Rect("))) { QStringList args = QSettingsPrivate::splitArgs(s, 5); if (args.size() == 4) return QVariant(QRect(args[0].toInt(), args[1].toInt(), args[2].toInt(), args[3].toInt())); } else if (s.startsWith(QLatin1String("@Size("))) { QStringList args = QSettingsPrivate::splitArgs(s, 5); if (args.size() == 2) return QVariant(QSize(args[0].toInt(), args[1].toInt())); } else if (s.startsWith(QLatin1String("@Point("))) { QStringList args = QSettingsPrivate::splitArgs(s, 6); if (args.size() == 2) return QVariant(QPoint(args[0].toInt(), args[1].toInt())); #endif } else if (s == QLatin1String("@Invalid()")) { return QVariant(); } } if (s.startsWith(QLatin1String("@@"))) return QVariant(s.mid(1)); } return QVariant(s); } static const char hexDigits[] = "0123456789ABCDEF"; void QSettingsPrivate::iniEscapedKey(const QString &key, QByteArray &result) { result.reserve(result.length() + key.length() * 3 / 2); for (int i = 0; i < key.size(); ++i) { uint ch = key.at(i).unicode(); if (ch == '/') { result += '\\'; } else if ((ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') || (ch >= '0' && ch <= '9') || ch == '_' || ch == '-' || ch == '.') { result += (char)ch; } else if (ch <= 0xFF) { result += '%'; result += hexDigits[ch / 16]; result += hexDigits[ch % 16]; } else { result += "%U"; QByteArray hexCode; for (int i = 0; i < 4; ++i) { hexCode.prepend(hexDigits[ch % 16]); ch >>= 4; } result += hexCode; } } } bool QSettingsPrivate::iniUnescapedKey(const QByteArray &key, int from, int to, QString &result) { bool lowercaseOnly = true; int i = from; result.reserve(result.length() + (to - from)); while (i < to) { int ch = (uchar)key.at(i); if (ch == '\\') { result += QLatin1Char('/'); ++i; continue; } if (ch != '%' || i == to - 1) { if (uint(ch - 'A') <= 'Z' - 'A') // only for ASCII lowercaseOnly = false; result += QLatin1Char(ch); ++i; continue; } int numDigits = 2; int firstDigitPos = i + 1; ch = key.at(i + 1); if (ch == 'U') { ++firstDigitPos; numDigits = 4; } if (firstDigitPos + numDigits > to) { result += QLatin1Char('%'); // ### missing U ++i; continue; } bool ok; ch = key.mid(firstDigitPos, numDigits).toInt(&ok, 16); if (!ok) { result += QLatin1Char('%'); // ### missing U ++i; continue; } QChar qch(ch); if (qch.isUpper()) lowercaseOnly = false; result += qch; i = firstDigitPos + numDigits; } return lowercaseOnly; } void QSettingsPrivate::iniEscapedString(const QString &str, QByteArray &result, QTextCodec *codec) { bool needsQuotes = false; bool escapeNextIfDigit = false; int i; int startPos = result.size(); result.reserve(startPos + str.size() * 3 / 2); for (i = 0; i < str.size(); ++i) { uint ch = str.at(i).unicode(); if (ch == ';' || ch == ',' || ch == '=') needsQuotes = true; if (escapeNextIfDigit && ((ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F'))) { result += "\\x"; result += QByteArray::number(ch, 16); continue; } escapeNextIfDigit = false; switch (ch) { case '\0': result += "\\0"; escapeNextIfDigit = true; break; case '\a': result += "\\a"; break; case '\b': result += "\\b"; break; case '\f': result += "\\f"; break; case '\n': result += "\\n"; break; case '\r': result += "\\r"; break; case '\t': result += "\\t"; break; case '\v': result += "\\v"; break; case '"': case '\\': result += '\\'; result += (char)ch; break; default: if (ch <= 0x1F || (ch >= 0x7F && !codec)) { result += "\\x"; result += QByteArray::number(ch, 16); escapeNextIfDigit = true; #ifndef QT_NO_TEXTCODEC } else if (codec) { // slow result += codec->fromUnicode(str.at(i)); #endif } else { result += (char)ch; } } } if (needsQuotes || (startPos < result.size() && (result.at(startPos) == ' ' || result.at(result.size() - 1) == ' '))) { result.insert(startPos, '"'); result += '"'; } } inline static void iniChopTrailingSpaces(QString &str) { int n = str.size() - 1; QChar ch; while (n >= 0 && ((ch = str.at(n)) == QLatin1Char(' ') || ch == QLatin1Char('\t'))) str.truncate(n--); } void QSettingsPrivate::iniEscapedStringList(const QStringList &strs, QByteArray &result, QTextCodec *codec) { if (strs.isEmpty()) { /* We need to distinguish between empty lists and one-item lists that contain an empty string. Ideally, we'd have a @EmptyList() symbol but that would break compatibility with Qt 4.0. @Invalid() stands for QVariant(), and QVariant().toStringList() returns an empty QStringList, so we're in good shape. ### Qt 5: Use a nicer syntax, e.g. @List, for variant lists */ result += "@Invalid()"; } else { for (int i = 0; i < strs.size(); ++i) { if (i != 0) result += ", "; iniEscapedString(strs.at(i), result, codec); } } } bool QSettingsPrivate::iniUnescapedStringList(const QByteArray &str, int from, int to, QString &stringResult, QStringList &stringListResult, QTextCodec *codec) { static const char escapeCodes[][2] = { { 'a', '\a' }, { 'b', '\b' }, { 'f', '\f' }, { 'n', '\n' }, { 'r', '\r' }, { 't', '\t' }, { 'v', '\v' }, { '"', '"' }, { '?', '?' }, { '\'', '\'' }, { '\\', '\\' } }; static const int numEscapeCodes = sizeof(escapeCodes) / sizeof(escapeCodes[0]); bool isStringList = false; bool inQuotedString = false; bool currentValueIsQuoted = false; int escapeVal = 0; int i = from; char ch; StSkipSpaces: while (i < to && ((ch = str.at(i)) == ' ' || ch == '\t')) ++i; // fallthrough StNormal: while (i < to) { switch (str.at(i)) { case '\\': ++i; if (i >= to) goto end; ch = str.at(i++); for (int j = 0; j < numEscapeCodes; ++j) { if (ch == escapeCodes[j][0]) { stringResult += QLatin1Char(escapeCodes[j][1]); goto StNormal; } } if (ch == 'x') { escapeVal = 0; if (i >= to) goto end; ch = str.at(i); if ((ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'F') || (ch >= 'a' && ch <= 'f')) goto StHexEscape; } else if (ch >= '0' && ch <= '7') { escapeVal = ch - '0'; goto StOctEscape; } else if (ch == '\n' || ch == '\r') { if (i < to) { char ch2 = str.at(i); // \n, \r, \r\n, and \n\r are legitimate line terminators in INI files if ((ch2 == '\n' || ch2 == '\r') && ch2 != ch) ++i; } } else { // the character is skipped } break; case '"': ++i; currentValueIsQuoted = true; inQuotedString = !inQuotedString; if (!inQuotedString) goto StSkipSpaces; break; case ',': if (!inQuotedString) { if (!currentValueIsQuoted) iniChopTrailingSpaces(stringResult); if (!isStringList) { isStringList = true; stringListResult.clear(); stringResult.squeeze(); } stringListResult.append(stringResult); stringResult.clear(); currentValueIsQuoted = false; ++i; goto StSkipSpaces; } // fallthrough default: { int j = i + 1; while (j < to) { ch = str.at(j); if (ch == '\\' || ch == '"' || ch == ',') break; ++j; } #ifndef QT_NO_TEXTCODEC if (codec) { stringResult += codec->toUnicode(str.constData() + i, j - i); } else #endif { int n = stringResult.size(); stringResult.resize(n + (j - i)); QChar *resultData = stringResult.data() + n; for (int k = i; k < j; ++k) *resultData++ = QLatin1Char(str.at(k)); } i = j; } } } goto end; StHexEscape: if (i >= to) { stringResult += QChar(escapeVal); goto end; } ch = str.at(i); if (ch >= 'a') ch -= 'a' - 'A'; if ((ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'F')) { escapeVal <<= 4; escapeVal += strchr(hexDigits, ch) - hexDigits; ++i; goto StHexEscape; } else { stringResult += QChar(escapeVal); goto StNormal; } StOctEscape: if (i >= to) { stringResult += QChar(escapeVal); goto end; } ch = str.at(i); if (ch >= '0' && ch <= '7') { escapeVal <<= 3; escapeVal += ch - '0'; ++i; goto StOctEscape; } else { stringResult += QChar(escapeVal); goto StNormal; } end: if (!currentValueIsQuoted) iniChopTrailingSpaces(stringResult); if (isStringList) stringListResult.append(stringResult); return isStringList; } QStringList QSettingsPrivate::splitArgs(const QString &s, int idx) { int l = s.length(); Q_ASSERT(l > 0); Q_ASSERT(s.at(idx) == QLatin1Char('(')); Q_ASSERT(s.at(l - 1) == QLatin1Char(')')); QStringList result; QString item; for (++idx; idx < l; ++idx) { QChar c = s.at(idx); if (c == QLatin1Char(')')) { Q_ASSERT(idx == l - 1); result.append(item); } else if (c == QLatin1Char(' ')) { result.append(item); item.clear(); } else { item.append(c); } } return result; } // ************************************************************************ // QConfFileSettingsPrivate /* If we don't have the permission to read the file, returns false. If the file doesn't exist, returns true. */ static bool checkAccess(const QString &name) { QFileInfo fileInfo(name); if (fileInfo.exists()) { QFile file(name); // if the file exists but we can't open it, report an error return file.open(QFile::ReadOnly); } else { return true; } } void QConfFileSettingsPrivate::initFormat() { extension = (format == QSettings::NativeFormat) ? QLatin1String(".conf") : QLatin1String(".ini"); readFunc = 0; writeFunc = 0; #if defined(Q_OS_MAC) caseSensitivity = (format == QSettings::NativeFormat) ? Qt::CaseSensitive : Qt::CaseInsensitive; #else caseSensitivity = IniCaseSensitivity; #endif if (format > QSettings::IniFormat) { QMutexLocker locker(globalMutex()); const CustomFormatVector *customFormatVector = customFormatVectorFunc(); int i = (int)format - (int)QSettings::CustomFormat1; if (i >= 0 && i < customFormatVector->size()) { QConfFileCustomFormat info = customFormatVector->at(i); extension = info.extension; readFunc = info.readFunc; writeFunc = info.writeFunc; caseSensitivity = info.caseSensitivity; } } } void QConfFileSettingsPrivate::initAccess() { bool readAccess = false; if (confFiles[spec]) { readAccess = checkAccess(confFiles[spec]->name); if (format > QSettings::IniFormat) { if (!readFunc) readAccess = false; } } if (!readAccess) setStatus(QSettings::AccessError); sync(); // loads the files the first time } #ifdef Q_OS_WIN static QString windowsConfigPath(int type) { QString result; #ifndef QT_NO_QOBJECT // We can't use QLibrary if there is QT_NO_QOBJECT is defined // This only happens when bootstrapping qmake. #ifndef Q_OS_WINCE QSystemLibrary library(QLatin1String("shell32")); #else QSystemLibrary library(QLatin1String("coredll")); #endif // Q_OS_WINCE typedef BOOL (WINAPI*GetSpecialFolderPath)(HWND, LPWSTR, int, BOOL); GetSpecialFolderPath SHGetSpecialFolderPath = (GetSpecialFolderPath)library.resolve("SHGetSpecialFolderPathW"); if (SHGetSpecialFolderPath) { wchar_t path[MAX_PATH]; SHGetSpecialFolderPath(0, path, type, FALSE); result = QString::fromWCharArray(path); } #endif // QT_NO_QOBJECT if (result.isEmpty()) { switch (type) { #ifndef Q_OS_WINCE case CSIDL_COMMON_APPDATA: result = QLatin1String("C:\\temp\\qt-common"); break; case CSIDL_APPDATA: result = QLatin1String("C:\\temp\\qt-user"); break; #else case CSIDL_COMMON_APPDATA: result = QLatin1String("\\Temp\\qt-common"); break; case CSIDL_APPDATA: result = QLatin1String("\\Temp\\qt-user"); break; #endif default: ; } } return result; } #endif // Q_OS_WIN static inline int pathHashKey(QSettings::Format format, QSettings::Scope scope) { return int((uint(format) << 1) | uint(scope == QSettings::SystemScope)); } static void initDefaultPaths(QMutexLocker *locker) { PathHash *pathHash = pathHashFunc(); QString homePath = QDir::homePath(); QString systemPath; locker->unlock(); /* QLibraryInfo::location() uses QSettings, so in order to avoid a dead-lock, we can't hold the global mutex while calling it. */ systemPath = QLibraryInfo::location(QLibraryInfo::SettingsPath); systemPath += QLatin1Char('/'); locker->relock(); if (pathHash->isEmpty()) { /* Lazy initialization of pathHash. We initialize the IniFormat paths and (on Unix) the NativeFormat paths. (The NativeFormat paths are not configurable for the Windows registry and the Mac CFPreferences.) */ #ifdef Q_OS_WIN pathHash->insert(pathHashKey(QSettings::IniFormat, QSettings::UserScope), windowsConfigPath(CSIDL_APPDATA) + QDir::separator()); pathHash->insert(pathHashKey(QSettings::IniFormat, QSettings::SystemScope), windowsConfigPath(CSIDL_COMMON_APPDATA) + QDir::separator()); #else QString userPath; char *env = getenv("XDG_CONFIG_HOME"); if (env == 0) { userPath = homePath; userPath += QLatin1Char('/'); #ifdef Q_WS_QWS userPath += QLatin1String("Settings"); #else userPath += QLatin1String(".config"); #endif } else if (*env == '/') { userPath = QLatin1String(env); } else { userPath = homePath; userPath += QLatin1Char('/'); userPath += QLatin1String(env); } userPath += QLatin1Char('/'); pathHash->insert(pathHashKey(QSettings::IniFormat, QSettings::UserScope), userPath); pathHash->insert(pathHashKey(QSettings::IniFormat, QSettings::SystemScope), systemPath); #ifndef Q_OS_MAC pathHash->insert(pathHashKey(QSettings::NativeFormat, QSettings::UserScope), userPath); pathHash->insert(pathHashKey(QSettings::NativeFormat, QSettings::SystemScope), systemPath); #endif #endif } } static QString getPath(QSettings::Format format, QSettings::Scope scope) { Q_ASSERT((int)QSettings::NativeFormat == 0); Q_ASSERT((int)QSettings::IniFormat == 1); QMutexLocker locker(globalMutex()); PathHash *pathHash = pathHashFunc(); if (pathHash->isEmpty()) initDefaultPaths(&locker); QString result = pathHash->value(pathHashKey(format, scope)); if (!result.isEmpty()) return result; // fall back on INI path return pathHash->value(pathHashKey(QSettings::IniFormat, scope)); } QConfFileSettingsPrivate::QConfFileSettingsPrivate(QSettings::Format format, QSettings::Scope scope, const QString &organization, const QString &application) : QSettingsPrivate(format, scope, organization, application), nextPosition(0x40000000) // big positive number { int i; initFormat(); QString org = organization; if (org.isEmpty()) { setStatus(QSettings::AccessError); org = QLatin1String("Unknown Organization"); } QString appFile = org + QDir::separator() + application + extension; QString orgFile = org + extension; if (scope == QSettings::UserScope) { QString userPath = getPath(format, QSettings::UserScope); if (!application.isEmpty()) confFiles[F_User | F_Application].reset(QConfFile::fromName(userPath + appFile, true)); confFiles[F_User | F_Organization].reset(QConfFile::fromName(userPath + orgFile, true)); } QString systemPath = getPath(format, QSettings::SystemScope); if (!application.isEmpty()) confFiles[F_System | F_Application].reset(QConfFile::fromName(systemPath + appFile, false)); confFiles[F_System | F_Organization].reset(QConfFile::fromName(systemPath + orgFile, false)); for (i = 0; i < NumConfFiles; ++i) { if (confFiles[i]) { spec = i; break; } } initAccess(); } QConfFileSettingsPrivate::QConfFileSettingsPrivate(const QString &fileName, QSettings::Format format) : QSettingsPrivate(format), nextPosition(0x40000000) // big positive number { initFormat(); confFiles[0].reset(QConfFile::fromName(fileName, true)); initAccess(); } QConfFileSettingsPrivate::~QConfFileSettingsPrivate() { QMutexLocker locker(globalMutex()); ConfFileHash *usedHash = usedHashFunc(); ConfFileCache *unusedCache = unusedCacheFunc(); for (int i = 0; i < NumConfFiles; ++i) { if (confFiles[i] && !confFiles[i]->ref.deref()) { if (confFiles[i]->size == 0) { delete confFiles[i].take(); } else { if (usedHash) usedHash->remove(confFiles[i]->name); if (unusedCache) { QT_TRY { // compute a better size? unusedCache->insert(confFiles[i]->name, confFiles[i].data(), 10 + (confFiles[i]->originalKeys.size() / 4)); confFiles[i].take(); } QT_CATCH(...) { // out of memory. Do not cache the file. delete confFiles[i].take(); } } else { // unusedCache is gone - delete the entry to prevent a memory leak delete confFiles[i].take(); } } } // prevent the ScopedPointer to deref it again. confFiles[i].take(); } } void QConfFileSettingsPrivate::remove(const QString &key) { QConfFile *confFile = confFiles[spec].data(); if (!confFile) return; QSettingsKey theKey(key, caseSensitivity); QSettingsKey prefix(key + QLatin1Char('/'), caseSensitivity); QMutexLocker locker(&confFile->mutex); ensureSectionParsed(confFile, theKey); ensureSectionParsed(confFile, prefix); ParsedSettingsMap::iterator i = confFile->addedKeys.lowerBound(prefix); while (i != confFile->addedKeys.end() && i.key().startsWith(prefix)) i = confFile->addedKeys.erase(i); confFile->addedKeys.remove(theKey); ParsedSettingsMap::const_iterator j = const_cast(&confFile->originalKeys)->lowerBound(prefix); while (j != confFile->originalKeys.constEnd() && j.key().startsWith(prefix)) { confFile->removedKeys.insert(j.key(), QVariant()); ++j; } if (confFile->originalKeys.contains(theKey)) confFile->removedKeys.insert(theKey, QVariant()); } void QConfFileSettingsPrivate::set(const QString &key, const QVariant &value) { QConfFile *confFile = confFiles[spec].data(); if (!confFile) return; QSettingsKey theKey(key, caseSensitivity, nextPosition++); QMutexLocker locker(&confFile->mutex); confFile->removedKeys.remove(theKey); confFile->addedKeys.insert(theKey, value); } bool QConfFileSettingsPrivate::get(const QString &key, QVariant *value) const { QSettingsKey theKey(key, caseSensitivity); ParsedSettingsMap::const_iterator j; bool found = false; for (int i = 0; i < NumConfFiles; ++i) { if (QConfFile *confFile = confFiles[i].data()) { QMutexLocker locker(&confFile->mutex); if (!confFile->addedKeys.isEmpty()) { j = confFile->addedKeys.constFind(theKey); found = (j != confFile->addedKeys.constEnd()); } if (!found) { ensureSectionParsed(confFile, theKey); j = confFile->originalKeys.constFind(theKey); found = (j != confFile->originalKeys.constEnd() && !confFile->removedKeys.contains(theKey)); } if (found && value) *value = *j; if (found) return true; if (!fallbacks) break; } } return false; } QStringList QConfFileSettingsPrivate::children(const QString &prefix, ChildSpec spec) const { QMap result; ParsedSettingsMap::const_iterator j; QSettingsKey thePrefix(prefix, caseSensitivity); int startPos = prefix.size(); for (int i = 0; i < NumConfFiles; ++i) { if (QConfFile *confFile = confFiles[i].data()) { QMutexLocker locker(&confFile->mutex); if (thePrefix.isEmpty()) { ensureAllSectionsParsed(confFile); } else { ensureSectionParsed(confFile, thePrefix); } j = const_cast( &confFile->originalKeys)->lowerBound( thePrefix); while (j != confFile->originalKeys.constEnd() && j.key().startsWith(thePrefix)) { if (!confFile->removedKeys.contains(j.key())) processChild(j.key().originalCaseKey().mid(startPos), spec, result); ++j; } j = const_cast( &confFile->addedKeys)->lowerBound(thePrefix); while (j != confFile->addedKeys.constEnd() && j.key().startsWith(thePrefix)) { processChild(j.key().originalCaseKey().mid(startPos), spec, result); ++j; } if (!fallbacks) break; } } return result.keys(); } void QConfFileSettingsPrivate::clear() { QConfFile *confFile = confFiles[spec].data(); if (!confFile) return; QMutexLocker locker(&confFile->mutex); ensureAllSectionsParsed(confFile); confFile->addedKeys.clear(); confFile->removedKeys = confFile->originalKeys; } void QConfFileSettingsPrivate::sync() { // people probably won't be checking the status a whole lot, so in case of // error we just try to go on and make the best of it for (int i = 0; i < NumConfFiles; ++i) { QConfFile *confFile = confFiles[i].data(); if (confFile) { QMutexLocker locker(&confFile->mutex); syncConfFile(i); } } } void QConfFileSettingsPrivate::flush() { sync(); } QString QConfFileSettingsPrivate::fileName() const { QConfFile *confFile = confFiles[spec].data(); if (!confFile) return QString(); return confFile->name; } bool QConfFileSettingsPrivate::isWritable() const { if (format > QSettings::IniFormat && !writeFunc) return false; QConfFile *confFile = confFiles[spec].data(); if (!confFile) return false; return confFile->isWritable(); } void QConfFileSettingsPrivate::syncConfFile(int confFileNo) { QConfFile *confFile = confFiles[confFileNo].data(); bool readOnly = confFile->addedKeys.isEmpty() && confFile->removedKeys.isEmpty(); bool ok; /* We can often optimize the read-only case, if the file on disk hasn't changed. */ if (readOnly) { QFileInfo fileInfo(confFile->name); if (confFile->size == fileInfo.size() && confFile->timeStamp == fileInfo.lastModified()) return; } /* Open the configuration file and try to use it using a named semaphore on Windows and an advisory lock on Unix-based systems. This protect us against other QSettings instances trying to access the same file from other threads or processes. As it stands now, the locking mechanism doesn't work for .plist files. */ QFile file(confFile->name); bool createFile = !file.exists(); if (!readOnly && confFile->isWritable()) file.open(QFile::ReadWrite); if (!file.isOpen()) file.open(QFile::ReadOnly); #ifdef Q_OS_WIN HANDLE readSemaphore = 0; HANDLE writeSemaphore = 0; static const int FileLockSemMax = 50; int numReadLocks = readOnly ? 1 : FileLockSemMax; if (file.isOpen()) { // Acquire the write lock if we will be writing if (!readOnly) { QString writeSemName = QLatin1String("QSettingsWriteSem "); writeSemName.append(file.fileName()); writeSemaphore = CreateSemaphore(0, 1, 1, reinterpret_cast(writeSemName.utf16())); if (writeSemaphore) { WaitForSingleObject(writeSemaphore, INFINITE); } else { setStatus(QSettings::AccessError); return; } } // Acquire all the read locks if we will be writing, to make sure nobody // reads while we're writing. If we are only reading, acquire a single // read lock. QString readSemName(QLatin1String("QSettingsReadSem ")); readSemName.append(file.fileName()); readSemaphore = CreateSemaphore(0, FileLockSemMax, FileLockSemMax, reinterpret_cast(readSemName.utf16())); if (readSemaphore) { for (int i = 0; i < numReadLocks; ++i) WaitForSingleObject(readSemaphore, INFINITE); } else { setStatus(QSettings::AccessError); if (writeSemaphore != 0) { ReleaseSemaphore(writeSemaphore, 1, 0); CloseHandle(writeSemaphore); } return; } } #else if (file.isOpen()) unixLock(file.handle(), readOnly ? F_RDLCK : F_WRLCK); #endif // If we have created the file, apply the file perms if (file.isOpen()) { if (createFile) { QFile::Permissions perms = file.permissions() | QFile::ReadOwner | QFile::WriteOwner; if (!confFile->userPerms) perms |= QFile::ReadGroup | QFile::ReadOther; file.setPermissions(perms); } } /* We hold the lock. Let's reread the file if it has changed since last time we read it. */ QFileInfo fileInfo(confFile->name); bool mustReadFile = true; if (!readOnly) mustReadFile = (confFile->size != fileInfo.size() || (confFile->size != 0 && confFile->timeStamp != fileInfo.lastModified())); if (mustReadFile) { confFile->unparsedIniSections.clear(); confFile->originalKeys.clear(); /* Files that we can't read (because of permissions or because they don't exist) are treated as empty files. */ if (file.isReadable() && fileInfo.size() != 0) { #ifdef Q_OS_MAC if (format == QSettings::NativeFormat) { ok = readPlistFile(confFile->name, &confFile->originalKeys); } else #endif { if (format <= QSettings::IniFormat) { QByteArray data = file.readAll(); ok = readIniFile(data, &confFile->unparsedIniSections); } else { if (readFunc) { QSettings::SettingsMap tempNewKeys; ok = readFunc(file, tempNewKeys); if (ok) { QSettings::SettingsMap::const_iterator i = tempNewKeys.constBegin(); while (i != tempNewKeys.constEnd()) { confFile->originalKeys.insert(QSettingsKey(i.key(), caseSensitivity), i.value()); ++i; } } } else { ok = false; } } } if (!ok) setStatus(QSettings::FormatError); } confFile->size = fileInfo.size(); confFile->timeStamp = fileInfo.lastModified(); } /* We also need to save the file. We still hold the file lock, so everything is under control. */ if (!readOnly) { ensureAllSectionsParsed(confFile); ParsedSettingsMap mergedKeys = confFile->mergedKeyMap(); if (file.isWritable()) { #ifdef Q_OS_MAC if (format == QSettings::NativeFormat) { ok = writePlistFile(confFile->name, mergedKeys); } else #endif { file.seek(0); file.resize(0); if (format <= QSettings::IniFormat) { ok = writeIniFile(file, mergedKeys); if (!ok) { // try to restore old data; might work if the disk was full and the new data // was larger than the old data file.seek(0); file.resize(0); writeIniFile(file, confFile->originalKeys); } } else { if (writeFunc) { QSettings::SettingsMap tempOriginalKeys; ParsedSettingsMap::const_iterator i = mergedKeys.constBegin(); while (i != mergedKeys.constEnd()) { tempOriginalKeys.insert(i.key(), i.value()); ++i; } ok = writeFunc(file, tempOriginalKeys); } else { ok = false; } } } } else { ok = false; } if (ok) { confFile->unparsedIniSections.clear(); confFile->originalKeys = mergedKeys; confFile->addedKeys.clear(); confFile->removedKeys.clear(); QFileInfo fileInfo(confFile->name); confFile->size = fileInfo.size(); confFile->timeStamp = fileInfo.lastModified(); } else { setStatus(QSettings::AccessError); } } /* Release the file lock. */ #ifdef Q_OS_WIN if (readSemaphore != 0) { ReleaseSemaphore(readSemaphore, numReadLocks, 0); CloseHandle(readSemaphore); } if (writeSemaphore != 0) { ReleaseSemaphore(writeSemaphore, 1, 0); CloseHandle(writeSemaphore); } #endif } enum { Space = 0x1, Special = 0x2 }; static const char charTraits[256] = { // Space: '\t', '\n', '\r', ' ' // Special: '\n', '\r', '"', ';', '=', '\\' 0, 0, 0, 0, 0, 0, 0, 0, 0, Space, Space | Special, 0, 0, Space | Special, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, Space, 0, Special, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, Special, 0, Special, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, Special, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; bool QConfFileSettingsPrivate::readIniLine(const QByteArray &data, int &dataPos, int &lineStart, int &lineLen, int &equalsPos) { int dataLen = data.length(); bool inQuotes = false; equalsPos = -1; lineStart = dataPos; while (lineStart < dataLen && (charTraits[uint(uchar(data.at(lineStart)))] & Space)) ++lineStart; int i = lineStart; while (i < dataLen) { while (!(charTraits[uint(uchar(data.at(i)))] & Special)) { if (++i == dataLen) goto break_out_of_outer_loop; } char ch = data.at(i++); if (ch == '=') { if (!inQuotes && equalsPos == -1) equalsPos = i - 1; } else if (ch == '\n' || ch == '\r') { if (i == lineStart + 1) { ++lineStart; } else if (!inQuotes) { --i; goto break_out_of_outer_loop; } } else if (ch == '\\') { if (i < dataLen) { char ch = data.at(i++); if (i < dataLen) { char ch2 = data.at(i); // \n, \r, \r\n, and \n\r are legitimate line terminators in INI files if ((ch == '\n' && ch2 == '\r') || (ch == '\r' && ch2 == '\n')) ++i; } } } else if (ch == '"') { inQuotes = !inQuotes; } else { Q_ASSERT(ch == ';'); if (i == lineStart + 1) { char ch; while (i < dataLen && ((ch = data.at(i) != '\n') && ch != '\r')) ++i; lineStart = i; } else if (!inQuotes) { --i; goto break_out_of_outer_loop; } } } break_out_of_outer_loop: dataPos = i; lineLen = i - lineStart; return lineLen > 0; } /* Returns false on parse error. However, as many keys are read as possible, so if the user doesn't check the status he will get the most out of the file anyway. */ bool QConfFileSettingsPrivate::readIniFile(const QByteArray &data, UnparsedSettingsMap *unparsedIniSections) { #define FLUSH_CURRENT_SECTION() \ { \ QByteArray §ionData = (*unparsedIniSections)[QSettingsKey(currentSection, \ IniCaseSensitivity, \ sectionPosition)]; \ if (!sectionData.isEmpty()) \ sectionData.append('\n'); \ sectionData += data.mid(currentSectionStart, lineStart - currentSectionStart); \ sectionPosition = ++position; \ } QString currentSection; int currentSectionStart = 0; int dataPos = 0; int lineStart; int lineLen; int equalsPos; int position = 0; int sectionPosition = 0; bool ok = true; while (readIniLine(data, dataPos, lineStart, lineLen, equalsPos)) { char ch = data.at(lineStart); if (ch == '[') { FLUSH_CURRENT_SECTION(); // this is a section QByteArray iniSection; int idx = data.indexOf(']', lineStart); if (idx == -1 || idx >= lineStart + lineLen) { ok = false; iniSection = data.mid(lineStart + 1, lineLen - 1); } else { iniSection = data.mid(lineStart + 1, idx - lineStart - 1); } iniSection = iniSection.trimmed(); if (qstricmp(iniSection, "general") == 0) { currentSection.clear(); } else { if (qstricmp(iniSection, "%general") == 0) { currentSection = QLatin1String(iniSection.constData() + 1); } else { currentSection.clear(); iniUnescapedKey(iniSection, 0, iniSection.size(), currentSection); } currentSection += QLatin1Char('/'); } currentSectionStart = dataPos; } ++position; } Q_ASSERT(lineStart == data.length()); FLUSH_CURRENT_SECTION(); return ok; #undef FLUSH_CURRENT_SECTION } bool QConfFileSettingsPrivate::readIniSection(const QSettingsKey §ion, const QByteArray &data, ParsedSettingsMap *settingsMap, QTextCodec *codec) { QStringList strListValue; bool sectionIsLowercase = (section == section.originalCaseKey()); int equalsPos; bool ok = true; int dataPos = 0; int lineStart; int lineLen; int position = section.originalKeyPosition(); while (readIniLine(data, dataPos, lineStart, lineLen, equalsPos)) { char ch = data.at(lineStart); Q_ASSERT(ch != '['); if (equalsPos == -1) { if (ch != ';') ok = false; continue; } int keyEnd = equalsPos; while (keyEnd > lineStart && ((ch = data.at(keyEnd - 1)) == ' ' || ch == '\t')) --keyEnd; int valueStart = equalsPos + 1; QString key = section.originalCaseKey(); bool keyIsLowercase = (iniUnescapedKey(data, lineStart, keyEnd, key) && sectionIsLowercase); QString strValue; strValue.reserve(lineLen - (valueStart - lineStart)); bool isStringList = iniUnescapedStringList(data, valueStart, lineStart + lineLen, strValue, strListValue, codec); QVariant variant; if (isStringList) { variant = stringListToVariantList(strListValue); } else { variant = stringToVariant(strValue); } /* We try to avoid the expensive toLower() call in QSettingsKey by passing Qt::CaseSensitive when the key is already in lowercase. */ settingsMap->insert(QSettingsKey(key, keyIsLowercase ? Qt::CaseSensitive : IniCaseSensitivity, position), variant); ++position; } return ok; } class QSettingsIniKey : public QString { public: inline QSettingsIniKey() : position(-1) {} inline QSettingsIniKey(const QString &str, int pos = -1) : QString(str), position(pos) {} int position; }; static bool operator<(const QSettingsIniKey &k1, const QSettingsIniKey &k2) { if (k1.position != k2.position) return k1.position < k2.position; return static_cast(k1) < static_cast(k2); } typedef QMap IniKeyMap; struct QSettingsIniSection { int position; IniKeyMap keyMap; inline QSettingsIniSection() : position(-1) {} }; typedef QMap IniMap; /* This would be more straightforward if we didn't try to remember the original key order in the .ini file, but we do. */ bool QConfFileSettingsPrivate::writeIniFile(QIODevice &device, const ParsedSettingsMap &map) { IniMap iniMap; IniMap::const_iterator i; #ifdef Q_OS_WIN const char * const eol = "\r\n"; #else const char eol = '\n'; #endif for (ParsedSettingsMap::const_iterator j = map.constBegin(); j != map.constEnd(); ++j) { QString section; QSettingsIniKey key(j.key().originalCaseKey(), j.key().originalKeyPosition()); int slashPos; if ((slashPos = key.indexOf(QLatin1Char('/'))) != -1) { section = key.left(slashPos); key.remove(0, slashPos + 1); } QSettingsIniSection &iniSection = iniMap[section]; // -1 means infinity if (uint(key.position) < uint(iniSection.position)) iniSection.position = key.position; iniSection.keyMap[key] = j.value(); } const int sectionCount = iniMap.size(); QVector sections; sections.reserve(sectionCount); for (i = iniMap.constBegin(); i != iniMap.constEnd(); ++i) sections.append(QSettingsIniKey(i.key(), i.value().position)); qSort(sections); bool writeError = false; for (int j = 0; !writeError && j < sectionCount; ++j) { i = iniMap.constFind(sections.at(j)); Q_ASSERT(i != iniMap.constEnd()); QByteArray realSection; iniEscapedKey(i.key(), realSection); if (realSection.isEmpty()) { realSection = "[General]"; } else if (qstricmp(realSection, "general") == 0) { realSection = "[%General]"; } else { realSection.prepend('['); realSection.append(']'); } if (j != 0) realSection.prepend(eol); realSection += eol; device.write(realSection); const IniKeyMap &ents = i.value().keyMap; for (IniKeyMap::const_iterator j = ents.constBegin(); j != ents.constEnd(); ++j) { QByteArray block; iniEscapedKey(j.key(), block); block += '='; const QVariant &value = j.value(); /* The size() != 1 trick is necessary because QVariant(QString("foo")).toList() returns an empty list, not a list containing "foo". */ if (value.type() == QVariant::StringList || (value.type() == QVariant::List && value.toList().size() != 1)) { iniEscapedStringList(variantListToStringList(value.toList()), block, iniCodec); } else { iniEscapedString(variantToString(value), block, iniCodec); } block += eol; if (device.write(block) == -1) { writeError = true; break; } } } return !writeError; } void QConfFileSettingsPrivate::ensureAllSectionsParsed(QConfFile *confFile) const { UnparsedSettingsMap::const_iterator i = confFile->unparsedIniSections.constBegin(); const UnparsedSettingsMap::const_iterator end = confFile->unparsedIniSections.constEnd(); for (; i != end; ++i) { if (!QConfFileSettingsPrivate::readIniSection(i.key(), i.value(), &confFile->originalKeys, iniCodec)) setStatus(QSettings::FormatError); } confFile->unparsedIniSections.clear(); } void QConfFileSettingsPrivate::ensureSectionParsed(QConfFile *confFile, const QSettingsKey &key) const { if (confFile->unparsedIniSections.isEmpty()) return; UnparsedSettingsMap::iterator i; int indexOfSlash = key.indexOf(QLatin1Char('/')); if (indexOfSlash != -1) { i = confFile->unparsedIniSections.upperBound(key); if (i == confFile->unparsedIniSections.begin()) return; --i; if (i.key().isEmpty() || !key.startsWith(i.key())) return; } else { i = confFile->unparsedIniSections.begin(); if (i == confFile->unparsedIniSections.end() || !i.key().isEmpty()) return; } if (!QConfFileSettingsPrivate::readIniSection(i.key(), i.value(), &confFile->originalKeys, iniCodec)) setStatus(QSettings::FormatError); confFile->unparsedIniSections.erase(i); } /*! \class QSettings \brief The QSettings class provides persistent platform-independent application settings. \ingroup io \reentrant Users normally expect an application to remember its settings (window sizes and positions, options, etc.) across sessions. This information is often stored in the system registry on Windows, and in XML preferences files on Mac OS X. On Unix systems, in the absence of a standard, many applications (including the KDE applications) use INI text files. QSettings is an abstraction around these technologies, enabling you to save and restore application settings in a portable manner. It also supports \l{registerFormat()}{custom storage formats}. QSettings's API is based on QVariant, allowing you to save most value-based types, such as QString, QRect, and QImage, with the minimum of effort. If all you need is a non-persistent memory-based structure, consider using QMap instead. \tableofcontents section1 \section1 Basic Usage When creating a QSettings object, you must pass the name of your company or organization as well as the name of your application. For example, if your product is called Star Runner and your company is called MySoft, you would construct the QSettings object as follows: \snippet doc/src/snippets/settings/settings.cpp 0 QSettings objects can be created either on the stack or on the heap (i.e. using \c new). Constructing and destroying a QSettings object is very fast. If you use QSettings from many places in your application, you might want to specify the organization name and the application name using QCoreApplication::setOrganizationName() and QCoreApplication::setApplicationName(), and then use the default QSettings constructor: \snippet doc/src/snippets/settings/settings.cpp 1 \snippet doc/src/snippets/settings/settings.cpp 2 \snippet doc/src/snippets/settings/settings.cpp 3 \dots \snippet doc/src/snippets/settings/settings.cpp 4 (Here, we also specify the organization's Internet domain. When the Internet domain is set, it is used on Mac OS X instead of the organization name, since Mac OS X applications conventionally use Internet domains to identify themselves. If no domain is set, a fake domain is derived from the organization name. See the \l{Platform-Specific Notes} below for details.) QSettings stores settings. Each setting consists of a QString that specifies the setting's name (the \e key) and a QVariant that stores the data associated with the key. To write a setting, use setValue(). For example: \snippet doc/src/snippets/settings/settings.cpp 5 If there already exists a setting with the same key, the existing value is overwritten by the new value. For efficiency, the changes may not be saved to permanent storage immediately. (You can always call sync() to commit your changes.) You can get a setting's value back using value(): \snippet doc/src/snippets/settings/settings.cpp 6 If there is no setting with the specified name, QSettings returns a null QVariant (which can be converted to the integer 0). You can specify another default value by passing a second argument to value(): \snippet doc/src/snippets/settings/settings.cpp 7 To test whether a given key exists, call contains(). To remove the setting associated with a key, call remove(). To obtain the list of all keys, call allKeys(). To remove all keys, call clear(). \section1 QVariant and GUI Types Because QVariant is part of the \l QtCore library, it cannot provide conversion functions to data types such as QColor, QImage, and QPixmap, which are part of \l QtGui. In other words, there is no \c toColor(), \c toImage(), or \c toPixmap() functions in QVariant. Instead, you can use the QVariant::value() or the qVariantValue() template function. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 0 The inverse conversion (e.g., from QColor to QVariant) is automatic for all data types supported by QVariant, including GUI-related types: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 1 Custom types registered using qRegisterMetaType() and qRegisterMetaTypeStreamOperators() can be stored using QSettings. \section1 Section and Key Syntax Setting keys can contain any Unicode characters. The Windows registry and INI files use case-insensitive keys, whereas the Carbon Preferences API on Mac OS X uses case-sensitive keys. To avoid portability problems, follow these simple rules: \list 1 \o Always refer to the same key using the same case. For example, if you refer to a key as "text fonts" in one place in your code, don't refer to it as "Text Fonts" somewhere else. \o Avoid key names that are identical except for the case. For example, if you have a key called "MainWindow", don't try to save another key as "mainwindow". \o Do not use slashes ('/' and '\\') in section or key names; the backslash character is used to separate sub keys (see below). On windows '\\' are converted by QSettings to '/', which makes them identical. \endlist You can form hierarchical keys using the '/' character as a separator, similar to Unix file paths. For example: \snippet doc/src/snippets/settings/settings.cpp 8 \snippet doc/src/snippets/settings/settings.cpp 9 \snippet doc/src/snippets/settings/settings.cpp 10 If you want to save or restore many settings with the same prefix, you can specify the prefix using beginGroup() and call endGroup() at the end. Here's the same example again, but this time using the group mechanism: \snippet doc/src/snippets/settings/settings.cpp 11 \codeline \snippet doc/src/snippets/settings/settings.cpp 12 If a group is set using beginGroup(), the behavior of most functions changes consequently. Groups can be set recursively. In addition to groups, QSettings also supports an "array" concept. See beginReadArray() and beginWriteArray() for details. \section1 Fallback Mechanism Let's assume that you have created a QSettings object with the organization name MySoft and the application name Star Runner. When you look up a value, up to four locations are searched in that order: \list 1 \o a user-specific location for the Star Runner application \o a user-specific location for all applications by MySoft \o a system-wide location for the Star Runner application \o a system-wide location for all applications by MySoft \endlist (See \l{Platform-Specific Notes} below for information on what these locations are on the different platforms supported by Qt.) If a key cannot be found in the first location, the search goes on in the second location, and so on. This enables you to store system-wide or organization-wide settings and to override them on a per-user or per-application basis. To turn off this mechanism, call setFallbacksEnabled(false). Although keys from all four locations are available for reading, only the first file (the user-specific location for the application at hand) is accessible for writing. To write to any of the other files, omit the application name and/or specify QSettings::SystemScope (as opposed to QSettings::UserScope, the default). Let's see with an example: \snippet doc/src/snippets/settings/settings.cpp 13 \snippet doc/src/snippets/settings/settings.cpp 14 The table below summarizes which QSettings objects access which location. "\bold{X}" means that the location is the main location associated to the QSettings object and is used both for reading and for writing; "o" means that the location is used as a fallback when reading. \table \header \o Locations \o \c{obj1} \o \c{obj2} \o \c{obj3} \o \c{obj4} \row \o 1. User, Application \o \bold{X} \o \o \o \row \o 2. User, Organization \o o \o \bold{X} \o \o \row \o 3. System, Application \o o \o \o \bold{X} \o \row \o 4. System, Organization \o o \o o \o o \o \bold{X} \endtable The beauty of this mechanism is that it works on all platforms supported by Qt and that it still gives you a lot of flexibility, without requiring you to specify any file names or registry paths. If you want to use INI files on all platforms instead of the native API, you can pass QSettings::IniFormat as the first argument to the QSettings constructor, followed by the scope, the organization name, and the application name: \snippet doc/src/snippets/settings/settings.cpp 15 The \l{tools/settingseditor}{Settings Editor} example lets you experiment with different settings location and with fallbacks turned on or off. \section1 Restoring the State of a GUI Application QSettings is often used to store the state of a GUI application. The following example illustrates how to use QSettings to save and restore the geometry of an application's main window. \snippet doc/src/snippets/settings/settings.cpp 16 \codeline \snippet doc/src/snippets/settings/settings.cpp 17 See \l{Window Geometry} for a discussion on why it is better to call QWidget::resize() and QWidget::move() rather than QWidget::setGeometry() to restore a window's geometry. The \c readSettings() and \c writeSettings() functions must be called from the main window's constructor and close event handler as follows: \snippet doc/src/snippets/settings/settings.cpp 18 \dots \snippet doc/src/snippets/settings/settings.cpp 19 \snippet doc/src/snippets/settings/settings.cpp 20 \codeline \snippet doc/src/snippets/settings/settings.cpp 21 See the \l{mainwindows/application}{Application} example for a self-contained example that uses QSettings. \section1 Accessing Settings from Multiple Threads or Processes Simultaneously QSettings is \l{reentrant}. This means that you can use distinct QSettings object in different threads simultaneously. This guarantee stands even when the QSettings objects refer to the same files on disk (or to the same entries in the system registry). If a setting is modified through one QSettings object, the change will immediately be visible in any other QSettings objects that operate on the same location and that live in the same process. QSettings can safely be used from different processes (which can be different instances of your application running at the same time or different applications altogether) to read and write to the same system locations. It uses advisory file locking and a smart merging algorithm to ensure data integrity. Note that sync() imports changes made by other processes (in addition to writing the changes from this QSettings). \section1 Platform-Specific Notes \section2 Locations Where Application Settings Are Stored As mentioned in the \l{Fallback Mechanism} section, QSettings stores settings for an application in up to four locations, depending on whether the settings are user-specific or system-wide and whether the settings are application-specific or organization-wide. For simplicity, we're assuming the organization is called MySoft and the application is called Star Runner. On Unix systems, if the file format is NativeFormat, the following files are used by default: \list 1 \o \c{$HOME/.config/MySoft/Star Runner.conf} (Qt for Embedded Linux: \c{$HOME/Settings/MySoft/Star Runner.conf}) \o \c{$HOME/.config/MySoft.conf} (Qt for Embedded Linux: \c{$HOME/Settings/MySoft.conf}) \o \c{/etc/xdg/MySoft/Star Runner.conf} \o \c{/etc/xdg/MySoft.conf} \endlist On Mac OS X versions 10.2 and 10.3, these files are used by default: \list 1 \o \c{$HOME/Library/Preferences/com.MySoft.Star Runner.plist} \o \c{$HOME/Library/Preferences/com.MySoft.plist} \o \c{/Library/Preferences/com.MySoft.Star Runner.plist} \o \c{/Library/Preferences/com.MySoft.plist} \endlist On Windows, NativeFormat settings are stored in the following registry paths: \list 1 \o \c{HKEY_CURRENT_USER\Software\MySoft\Star Runner} \o \c{HKEY_CURRENT_USER\Software\MySoft} \o \c{HKEY_LOCAL_MACHINE\Software\MySoft\Star Runner} \o \c{HKEY_LOCAL_MACHINE\Software\MySoft} \endlist \note On Windows, for 32-bit programs running in WOW64 mode, settings are stored in the following registry path: \c{HKEY_LOCAL_MACHINE\Software\WOW6432node}. If the file format is IniFormat, the following files are used on Unix and Mac OS X: \list 1 \o \c{$HOME/.config/MySoft/Star Runner.ini} (Qt for Embedded Linux: \c{$HOME/Settings/MySoft/Star Runner.ini}) \o \c{$HOME/.config/MySoft.ini} (Qt for Embedded Linux: \c{$HOME/Settings/MySoft.ini}) \o \c{/etc/xdg/MySoft/Star Runner.ini} \o \c{/etc/xdg/MySoft.ini} \endlist On Windows, the following files are used: \list 1 \o \c{%APPDATA%\MySoft\Star Runner.ini} \o \c{%APPDATA%\MySoft.ini} \o \c{%COMMON_APPDATA%\MySoft\Star Runner.ini} \o \c{%COMMON_APPDATA%\MySoft.ini} \endlist The \c %APPDATA% path is usually \tt{C:\\Documents and Settings\\\e{User Name}\\Application Data}; the \c %COMMON_APPDATA% path is usually \tt{C:\\Documents and Settings\\All Users\\Application Data}. The paths for the \c .ini and \c .conf files can be changed using setPath(). On Unix and Mac OS X, the user can override them by by setting the \c XDG_CONFIG_HOME environment variable; see setPath() for details. \section2 Accessing INI and .plist Files Directly Sometimes you do want to access settings stored in a specific file or registry path. On all platforms, if you want to read an INI file directly, you can use the QSettings constructor that takes a file name as first argument and pass QSettings::IniFormat as second argument. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 2 You can then use the QSettings object to read and write settings in the file. On Mac OS X, you can access XML-based \c .plist files by passing QSettings::NativeFormat as second argument. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 3 \section2 Accessing the Windows Registry Directly On Windows, QSettings lets you access settings that have been written with QSettings (or settings in a supported format, e.g., string data) in the system registry. This is done by constructing a QSettings object with a path in the registry and QSettings::NativeFormat. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 4 All the registry entries that appear under the specified path can be read or written through the QSettings object as usual (using forward slashes instead of backslashes). For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 5 Note that the backslash character is, as mentioned, used by QSettings to separate subkeys. As a result, you cannot read or write windows registry entries that contain slashes or backslashes; you should use a native windows API if you need to do so. \section2 Accessing Common Registry Settings on Windows On Windows, it is possible for a key to have both a value and subkeys. Its default value is accessed by using "Default" or "." in place of a subkey: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 6 On other platforms than Windows, "Default" and "." would be treated as regular subkeys. \section2 Platform Limitations While QSettings attempts to smooth over the differences between the different supported platforms, there are still a few differences that you should be aware of when porting your application: \list \o The Windows system registry has the following limitations: A subkey may not exceed 255 characters, an entry's value may not exceed 16,383 characters, and all the values of a key may not exceed 65,535 characters. One way to work around these limitations is to store the settings using the IniFormat instead of the NativeFormat. \o On Mac OS X, allKeys() will return some extra keys for global settings that apply to all applications. These keys can be read using value() but cannot be changed, only shadowed. Calling setFallbacksEnabled(false) will hide these global settings. \o On Mac OS X, the CFPreferences API used by QSettings expects Internet domain names rather than organization names. To provide a uniform API, QSettings derives a fake domain name from the organization name (unless the organization name already is a domain name, e.g. OpenOffice.org). The algorithm appends ".com" to the company name and replaces spaces and other illegal characters with hyphens. If you want to specify a different domain name, call QCoreApplication::setOrganizationDomain(), QCoreApplication::setOrganizationName(), and QCoreApplication::setApplicationName() in your \c main() function and then use the default QSettings constructor. Another solution is to use preprocessor directives, for example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 7 \o On Unix and Mac OS X systems, the advisory file locking is disabled if NFS (or AutoFS or CacheFS) is detected to work around a bug in the NFS fcntl() implementation, which hangs forever if statd or lockd aren't running. Also, the locking isn't performed when accessing \c .plist files. \endlist \sa QVariant, QSessionManager, {Settings Editor Example}, {Application Example} */ /*! \enum QSettings::Status The following status values are possible: \value NoError No error occurred. \value AccessError An access error occurred (e.g. trying to write to a read-only file). \value FormatError A format error occurred (e.g. loading a malformed INI file). \sa status() */ /*! \enum QSettings::Format This enum type specifies the storage format used by QSettings. \value NativeFormat Store the settings using the most appropriate storage format for the platform. On Windows, this means the system registry; on Mac OS X, this means the CFPreferences API; on Unix, this means textual configuration files in INI format. \value IniFormat Store the settings in INI files. \value InvalidFormat Special value returned by registerFormat(). \omitvalue CustomFormat1 \omitvalue CustomFormat2 \omitvalue CustomFormat3 \omitvalue CustomFormat4 \omitvalue CustomFormat5 \omitvalue CustomFormat6 \omitvalue CustomFormat7 \omitvalue CustomFormat8 \omitvalue CustomFormat9 \omitvalue CustomFormat10 \omitvalue CustomFormat11 \omitvalue CustomFormat12 \omitvalue CustomFormat13 \omitvalue CustomFormat14 \omitvalue CustomFormat15 \omitvalue CustomFormat16 On Unix, NativeFormat and IniFormat mean the same thing, except that the file extension is different (\c .conf for NativeFormat, \c .ini for IniFormat). The INI file format is a Windows file format that Qt supports on all platforms. In the absence of an INI standard, we try to follow what Microsoft does, with the following exceptions: \list \o If you store types that QVariant can't convert to QString (e.g., QPoint, QRect, and QSize), Qt uses an \c{@}-based syntax to encode the type. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 8 To minimize compatibility issues, any \c @ that doesn't appear at the first position in the value or that isn't followed by a Qt type (\c Point, \c Rect, \c Size, etc.) is treated as a normal character. \o Although backslash is a special character in INI files, most Windows applications don't escape backslashes (\c{\}) in file paths: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 9 QSettings always treats backslash as a special character and provides no API for reading or writing such entries. \o The INI file format has severe restrictions on the syntax of a key. Qt works around this by using \c % as an escape character in keys. In addition, if you save a top-level setting (a key with no slashes in it, e.g., "someKey"), it will appear in the INI file's "General" section. To avoid overwriting other keys, if you save something using the a key such as "General/someKey", the key will be located in the "%General" section, \e not in the "General" section. \o Following the philosophy that we should be liberal in what we accept and conservative in what we generate, QSettings will accept Latin-1 encoded INI files, but generate pure ASCII files, where non-ASCII values are encoded using standard INI escape sequences. To make the INI files more readable (but potentially less compatible), call setIniCodec(). \endlist \sa registerFormat(), setPath() */ /*! \enum QSettings::Scope This enum specifies whether settings are user-specific or shared by all users of the same system. \value UserScope Store settings in a location specific to the current user (e.g., in the user's home directory). \value SystemScope Store settings in a global location, so that all users on the same machine access the same set of settings. \omitvalue User \omitvalue Global \sa setPath() */ #ifndef QT_NO_QOBJECT /*! Constructs a QSettings object for accessing settings of the application called \a application from the organization called \a organization, and with parent \a parent. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 10 The scope is set to QSettings::UserScope, and the format is set to QSettings::NativeFormat (i.e. calling setDefaultFormat() before calling this constructor has no effect). \sa setDefaultFormat(), {Fallback Mechanism} */ QSettings::QSettings(const QString &organization, const QString &application, QObject *parent) : QObject(*QSettingsPrivate::create(NativeFormat, UserScope, organization, application), parent) { } /*! Constructs a QSettings object for accessing settings of the application called \a application from the organization called \a organization, and with parent \a parent. If \a scope is QSettings::UserScope, the QSettings object searches user-specific settings first, before it searches system-wide settings as a fallback. If \a scope is QSettings::SystemScope, the QSettings object ignores user-specific settings and provides access to system-wide settings. The storage format is set to QSettings::NativeFormat (i.e. calling setDefaultFormat() before calling this constructor has no effect). If no application name is given, the QSettings object will only access the organization-wide \l{Fallback Mechanism}{locations}. \sa setDefaultFormat() */ QSettings::QSettings(Scope scope, const QString &organization, const QString &application, QObject *parent) : QObject(*QSettingsPrivate::create(NativeFormat, scope, organization, application), parent) { } /*! Constructs a QSettings object for accessing settings of the application called \a application from the organization called \a organization, and with parent \a parent. If \a scope is QSettings::UserScope, the QSettings object searches user-specific settings first, before it searches system-wide settings as a fallback. If \a scope is QSettings::SystemScope, the QSettings object ignores user-specific settings and provides access to system-wide settings. If \a format is QSettings::NativeFormat, the native API is used for storing settings. If \a format is QSettings::IniFormat, the INI format is used. If no application name is given, the QSettings object will only access the organization-wide \l{Fallback Mechanism}{locations}. */ QSettings::QSettings(Format format, Scope scope, const QString &organization, const QString &application, QObject *parent) : QObject(*QSettingsPrivate::create(format, scope, organization, application), parent) { } /*! Constructs a QSettings object for accessing the settings stored in the file called \a fileName, with parent \a parent. If the file doesn't already exist, it is created. If \a format is QSettings::NativeFormat, the meaning of \a fileName depends on the platform. On Unix, \a fileName is the name of an INI file. On Mac OS X, \a fileName is the name of a \c .plist file. On Windows, \a fileName is a path in the system registry. If \a format is QSettings::IniFormat, \a fileName is the name of an INI file. \warning This function is provided for convenience. It works well for accessing INI or \c .plist files generated by Qt, but might fail on some syntaxes found in such files originated by other programs. In particular, be aware of the following limitations: \list \o QSettings provides no way of reading INI "path" entries, i.e., entries with unescaped slash characters. (This is because these entries are ambiguous and cannot be resolved automatically.) \o In INI files, QSettings uses the \c @ character as a metacharacter in some contexts, to encode Qt-specific data types (e.g., \c @Rect), and might therefore misinterpret it when it occurs in pure INI files. \endlist \sa fileName() */ QSettings::QSettings(const QString &fileName, Format format, QObject *parent) : QObject(*QSettingsPrivate::create(fileName, format), parent) { } /*! Constructs a QSettings object for accessing settings of the application and organization set previously with a call to QCoreApplication::setOrganizationName(), QCoreApplication::setOrganizationDomain(), and QCoreApplication::setApplicationName(). The scope is QSettings::UserScope and the format is defaultFormat() (QSettings::NativeFormat by default). Use setDefaultFormat() before calling this constructor to change the default format used by this constructor. The code \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 11 is equivalent to \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 12 If QCoreApplication::setOrganizationName() and QCoreApplication::setApplicationName() has not been previously called, the QSettings object will not be able to read or write any settings, and status() will return AccessError. On Mac OS X, if both a name and an Internet domain are specified for the organization, the domain is preferred over the name. On other platforms, the name is preferred over the domain. \sa QCoreApplication::setOrganizationName(), QCoreApplication::setOrganizationDomain(), QCoreApplication::setApplicationName(), setDefaultFormat() */ QSettings::QSettings(QObject *parent) : QObject(*QSettingsPrivate::create(globalDefaultFormat, UserScope, #ifdef Q_OS_MAC QCoreApplication::organizationDomain().isEmpty() ? QCoreApplication::organizationName() : QCoreApplication::organizationDomain() #else QCoreApplication::organizationName().isEmpty() ? QCoreApplication::organizationDomain() : QCoreApplication::organizationName() #endif , QCoreApplication::applicationName()), parent) { } #else QSettings::QSettings(const QString &organization, const QString &application) : d_ptr(QSettingsPrivate::create(globalDefaultFormat, QSettings::UserScope, organization, application)) { d_ptr->q_ptr = this; } QSettings::QSettings(Scope scope, const QString &organization, const QString &application) : d_ptr(QSettingsPrivate::create(globalDefaultFormat, scope, organization, application)) { d_ptr->q_ptr = this; } QSettings::QSettings(Format format, Scope scope, const QString &organization, const QString &application) : d_ptr(QSettingsPrivate::create(format, scope, organization, application)) { d_ptr->q_ptr = this; } QSettings::QSettings(const QString &fileName, Format format) : d_ptr(QSettingsPrivate::create(fileName, format)) { d_ptr->q_ptr = this; } #endif /*! Destroys the QSettings object. Any unsaved changes will eventually be written to permanent storage. \sa sync() */ QSettings::~QSettings() { Q_D(QSettings); if (d->pendingChanges) { QT_TRY { d->flush(); } QT_CATCH(...) { ; // ok. then don't flush but at least don't throw in the destructor } } } /*! Removes all entries in the primary location associated to this QSettings object. Entries in fallback locations are not removed. If you only want to remove the entries in the current group(), use remove("") instead. \sa remove(), setFallbacksEnabled() */ void QSettings::clear() { Q_D(QSettings); d->clear(); d->requestUpdate(); } /*! Writes any unsaved changes to permanent storage, and reloads any settings that have been changed in the meantime by another application. This function is called automatically from QSettings's destructor and by the event loop at regular intervals, so you normally don't need to call it yourself. \sa status() */ void QSettings::sync() { Q_D(QSettings); d->sync(); } /*! Returns the path where settings written using this QSettings object are stored. On Windows, if the format is QSettings::NativeFormat, the return value is a system registry path, not a file path. \sa isWritable(), format() */ QString QSettings::fileName() const { Q_D(const QSettings); return d->fileName(); } /*! \since 4.4 Returns the format used for storing the settings. \sa defaultFormat(), fileName(), scope(), organizationName(), applicationName() */ QSettings::Format QSettings::format() const { Q_D(const QSettings); return d->format; } /*! \since 4.4 Returns the scope used for storing the settings. \sa format(), organizationName(), applicationName() */ QSettings::Scope QSettings::scope() const { Q_D(const QSettings); return d->scope; } /*! \since 4.4 Returns the organization name used for storing the settings. \sa QCoreApplication::organizationName(), format(), scope(), applicationName() */ QString QSettings::organizationName() const { Q_D(const QSettings); return d->organizationName; } /*! \since 4.4 Returns the application name used for storing the settings. \sa QCoreApplication::applicationName(), format(), scope(), organizationName() */ QString QSettings::applicationName() const { Q_D(const QSettings); return d->applicationName; } #ifndef QT_NO_TEXTCODEC /*! \since 4.5 Sets the codec for accessing INI files (including \c .conf files on Unix) to \a codec. The codec is used for decoding any data that is read from the INI file, and for encoding any data that is written to the file. By default, no codec is used, and non-ASCII characters are encoded using standard INI escape sequences. \warning The codec must be set immediately after creating the QSettings object, before accessing any data. \sa iniCodec() */ void QSettings::setIniCodec(QTextCodec *codec) { Q_D(QSettings); d->iniCodec = codec; } /*! \since 4.5 \overload Sets the codec for accessing INI files (including \c .conf files on Unix) to the QTextCodec for the encoding specified by \a codecName. Common values for \c codecName include "ISO 8859-1", "UTF-8", and "UTF-16". If the encoding isn't recognized, nothing happens. \sa QTextCodec::codecForName() */ void QSettings::setIniCodec(const char *codecName) { Q_D(QSettings); if (QTextCodec *codec = QTextCodec::codecForName(codecName)) d->iniCodec = codec; } /*! \since 4.5 Returns the codec that is used for accessing INI files. By default, no codec is used, so a null pointer is returned. */ QTextCodec *QSettings::iniCodec() const { Q_D(const QSettings); return d->iniCodec; } #endif // QT_NO_TEXTCODEC /*! Returns a status code indicating the first error that was met by QSettings, or QSettings::NoError if no error occurred. Be aware that QSettings delays performing some operations. For this reason, you might want to call sync() to ensure that the data stored in QSettings is written to disk before calling status(). \sa sync() */ QSettings::Status QSettings::status() const { Q_D(const QSettings); return d->status; } /*! Appends \a prefix to the current group. The current group is automatically prepended to all keys specified to QSettings. In addition, query functions such as childGroups(), childKeys(), and allKeys() are based on the group. By default, no group is set. Groups are useful to avoid typing in the same setting paths over and over. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 13 This will set the value of three settings: \list \o \c mainwindow/size \o \c mainwindow/fullScreen \o \c outputpanel/visible \endlist Call endGroup() to reset the current group to what it was before the corresponding beginGroup() call. Groups can be nested. \sa endGroup(), group() */ void QSettings::beginGroup(const QString &prefix) { Q_D(QSettings); d->beginGroupOrArray(QSettingsGroup(d->normalizedKey(prefix))); } /*! Resets the group to what it was before the corresponding beginGroup() call. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 14 \sa beginGroup(), group() */ void QSettings::endGroup() { Q_D(QSettings); if (d->groupStack.isEmpty()) { qWarning("QSettings::endGroup: No matching beginGroup()"); return; } QSettingsGroup group = d->groupStack.pop(); int len = group.toString().size(); if (len > 0) d->groupPrefix.truncate(d->groupPrefix.size() - (len + 1)); if (group.isArray()) qWarning("QSettings::endGroup: Expected endArray() instead"); } /*! Returns the current group. \sa beginGroup(), endGroup() */ QString QSettings::group() const { Q_D(const QSettings); return d->groupPrefix.left(d->groupPrefix.size() - 1); } /*! Adds \a prefix to the current group and starts reading from an array. Returns the size of the array. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 15 Use beginWriteArray() to write the array in the first place. \sa beginWriteArray(), endArray(), setArrayIndex() */ int QSettings::beginReadArray(const QString &prefix) { Q_D(QSettings); d->beginGroupOrArray(QSettingsGroup(d->normalizedKey(prefix), false)); return value(QLatin1String("size")).toInt(); } /*! Adds \a prefix to the current group and starts writing an array of size \a size. If \a size is -1 (the default), it is automatically determined based on the indexes of the entries written. If you have many occurrences of a certain set of keys, you can use arrays to make your life easier. For example, let's suppose that you want to save a variable-length list of user names and passwords. You could then write: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 16 The generated keys will have the form \list \o \c logins/size \o \c logins/1/userName \o \c logins/1/password \o \c logins/2/userName \o \c logins/2/password \o \c logins/3/userName \o \c logins/3/password \o ... \endlist To read back an array, use beginReadArray(). \sa beginReadArray(), endArray(), setArrayIndex() */ void QSettings::beginWriteArray(const QString &prefix, int size) { Q_D(QSettings); d->beginGroupOrArray(QSettingsGroup(d->normalizedKey(prefix), size < 0)); if (size < 0) remove(QLatin1String("size")); else setValue(QLatin1String("size"), size); } /*! Closes the array that was started using beginReadArray() or beginWriteArray(). \sa beginReadArray(), beginWriteArray() */ void QSettings::endArray() { Q_D(QSettings); if (d->groupStack.isEmpty()) { qWarning("QSettings::endArray: No matching beginArray()"); return; } QSettingsGroup group = d->groupStack.top(); int len = group.toString().size(); d->groupStack.pop(); if (len > 0) d->groupPrefix.truncate(d->groupPrefix.size() - (len + 1)); if (group.arraySizeGuess() != -1) setValue(group.name() + QLatin1String("/size"), group.arraySizeGuess()); if (!group.isArray()) qWarning("QSettings::endArray: Expected endGroup() instead"); } /*! Sets the current array index to \a i. Calls to functions such as setValue(), value(), remove(), and contains() will operate on the array entry at that index. You must call beginReadArray() or beginWriteArray() before you can call this function. */ void QSettings::setArrayIndex(int i) { Q_D(QSettings); if (d->groupStack.isEmpty() || !d->groupStack.top().isArray()) { qWarning("QSettings::setArrayIndex: Missing beginArray()"); return; } QSettingsGroup &top = d->groupStack.top(); int len = top.toString().size(); top.setArrayIndex(qMax(i, 0)); d->groupPrefix.replace(d->groupPrefix.size() - len - 1, len, top.toString()); } /*! Returns a list of all keys, including subkeys, that can be read using the QSettings object. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 17 If a group is set using beginGroup(), only the keys in the group are returned, without the group prefix: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 18 \sa childGroups(), childKeys() */ QStringList QSettings::allKeys() const { Q_D(const QSettings); return d->children(d->groupPrefix, QSettingsPrivate::AllKeys); } /*! Returns a list of all top-level keys that can be read using the QSettings object. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 19 If a group is set using beginGroup(), the top-level keys in that group are returned, without the group prefix: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 20 You can navigate through the entire setting hierarchy using childKeys() and childGroups() recursively. \sa childGroups(), allKeys() */ QStringList QSettings::childKeys() const { Q_D(const QSettings); return d->children(d->groupPrefix, QSettingsPrivate::ChildKeys); } /*! Returns a list of all key top-level groups that contain keys that can be read using the QSettings object. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 21 If a group is set using beginGroup(), the first-level keys in that group are returned, without the group prefix. \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 22 You can navigate through the entire setting hierarchy using childKeys() and childGroups() recursively. \sa childKeys(), allKeys() */ QStringList QSettings::childGroups() const { Q_D(const QSettings); return d->children(d->groupPrefix, QSettingsPrivate::ChildGroups); } /*! Returns true if settings can be written using this QSettings object; returns false otherwise. One reason why isWritable() might return false is if QSettings operates on a read-only file. \warning This function is not perfectly reliable, because the file permissions can change at any time. \sa fileName(), status(), sync() */ bool QSettings::isWritable() const { Q_D(const QSettings); return d->isWritable(); } /*! Sets the value of setting \a key to \a value. If the \a key already exists, the previous value is overwritten. Note that the Windows registry and INI files use case-insensitive keys, whereas the Carbon Preferences API on Mac OS X uses case-sensitive keys. To avoid portability problems, see the \l{Section and Key Syntax} rules. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 23 \sa value(), remove(), contains() */ void QSettings::setValue(const QString &key, const QVariant &value) { Q_D(QSettings); QString k = d->actualKey(key); d->set(k, value); d->requestUpdate(); } /*! Removes the setting \a key and any sub-settings of \a key. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 24 Be aware that if one of the fallback locations contains a setting with the same key, that setting will be visible after calling remove(). If \a key is an empty string, all keys in the current group() are removed. For example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 25 Note that the Windows registry and INI files use case-insensitive keys, whereas the Carbon Preferences API on Mac OS X uses case-sensitive keys. To avoid portability problems, see the \l{Section and Key Syntax} rules. \sa setValue(), value(), contains() */ void QSettings::remove(const QString &key) { Q_D(QSettings); /* We cannot use actualKey(), because remove() supports empty keys. The code is also tricky because of slash handling. */ QString theKey = d->normalizedKey(key); if (theKey.isEmpty()) theKey = group(); else theKey.prepend(d->groupPrefix); if (theKey.isEmpty()) { d->clear(); } else { d->remove(theKey); } d->requestUpdate(); } /*! Returns true if there exists a setting called \a key; returns false otherwise. If a group is set using beginGroup(), \a key is taken to be relative to that group. Note that the Windows registry and INI files use case-insensitive keys, whereas the Carbon Preferences API on Mac OS X uses case-sensitive keys. To avoid portability problems, see the \l{Section and Key Syntax} rules. \sa value(), setValue() */ bool QSettings::contains(const QString &key) const { Q_D(const QSettings); QString k = d->actualKey(key); return d->get(k, 0); } /*! Sets whether fallbacks are enabled to \a b. By default, fallbacks are enabled. \sa fallbacksEnabled() */ void QSettings::setFallbacksEnabled(bool b) { Q_D(QSettings); d->fallbacks = !!b; } /*! Returns true if fallbacks are enabled; returns false otherwise. By default, fallbacks are enabled. \sa setFallbacksEnabled() */ bool QSettings::fallbacksEnabled() const { Q_D(const QSettings); return d->fallbacks; } #ifndef QT_NO_QOBJECT /*! \reimp */ bool QSettings::event(QEvent *event) { Q_D(QSettings); if (event->type() == QEvent::UpdateRequest) { d->update(); return true; } return QObject::event(event); } #endif /*! Returns the value for setting \a key. If the setting doesn't exist, returns \a defaultValue. If no default value is specified, a default QVariant is returned. Note that the Windows registry and INI files use case-insensitive keys, whereas the Carbon Preferences API on Mac OS X uses case-sensitive keys. To avoid portability problems, see the \l{Section and Key Syntax} rules. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 26 \sa setValue(), contains(), remove() */ QVariant QSettings::value(const QString &key, const QVariant &defaultValue) const { Q_D(const QSettings); QVariant result = defaultValue; QString k = d->actualKey(key); d->get(k, &result); return result; } /*! \since 4.4 Sets the default file format to the given \a format, which is used for storing settings for the QSettings(QObject *) constructor. If no default format is set, QSettings::NativeFormat is used. See the documentation for the QSettings constructor you are using to see if that constructor will ignore this function. \sa format() */ void QSettings::setDefaultFormat(Format format) { globalDefaultFormat = format; } /*! \since 4.4 Returns default file format used for storing settings for the QSettings(QObject *) constructor. If no default format is set, QSettings::NativeFormat is used. \sa format() */ QSettings::Format QSettings::defaultFormat() { return globalDefaultFormat; } /*! \obsolete Use setPath() instead. \oldcode setSystemIniPath(path); \newcode setPath(QSettings::NativeFormat, QSettings::SystemScope, path); setPath(QSettings::IniFormat, QSettings::SystemScope, path); \endcode */ void QSettings::setSystemIniPath(const QString &dir) { setPath(IniFormat, SystemScope, dir); #if !defined(Q_OS_WIN) && !defined(Q_OS_MAC) setPath(NativeFormat, SystemScope, dir); #endif } /*! \obsolete Use setPath() instead. */ void QSettings::setUserIniPath(const QString &dir) { setPath(IniFormat, UserScope, dir); #if !defined(Q_OS_WIN) && !defined(Q_OS_MAC) setPath(NativeFormat, UserScope, dir); #endif } /*! \since 4.1 Sets the path used for storing settings for the given \a format and \a scope, to \a path. The \a format can be a custom format. The table below summarizes the default values: \table \header \o Platform \o Format \o Scope \o Path \row \o{1,2} Windows \o{1,2} IniFormat \o UserScope \o \c %APPDATA% \row \o SystemScope \o \c %COMMON_APPDATA% \row \o{1,2} Unix \o{1,2} NativeFormat, IniFormat \o UserScope \o \c $HOME/.config \row \o SystemScope \o \c /etc/xdg \row \o{1,2} Qt for Embedded Linux \o{1,2} NativeFormat, IniFormat \o UserScope \o \c $HOME/Settings \row \o SystemScope \o \c /etc/xdg \row \o{1,2} Mac OS X \o{1,2} IniFormat \o UserScope \o \c $HOME/.config \row \o SystemScope \o \c /etc/xdg \endtable The default UserScope paths on Unix and Mac OS X (\c $HOME/.config or $HOME/Settings) can be overridden by the user by setting the \c XDG_CONFIG_HOME environment variable. The default SystemScope paths on Unix and Mac OS X (\c /etc/xdg) can be overridden when building the Qt library using the \c configure script's \c --sysconfdir flag (see QLibraryInfo for details). Setting the NativeFormat paths on Windows and Mac OS X has no effect. \warning This function doesn't affect existing QSettings objects. \sa registerFormat() */ void QSettings::setPath(Format format, Scope scope, const QString &path) { QMutexLocker locker(globalMutex()); PathHash *pathHash = pathHashFunc(); if (pathHash->isEmpty()) initDefaultPaths(&locker); pathHash->insert(pathHashKey(format, scope), path + QDir::separator()); } /*! \typedef QSettings::SettingsMap Typedef for QMap. \sa registerFormat() */ /*! \typedef QSettings::ReadFunc Typedef for a pointer to a function with the following signature: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 27 \c ReadFunc is used in \c registerFormat() as a pointer to a function that reads a set of key/value pairs. \c ReadFunc should read all the options in one pass, and return all the settings in the \c SettingsMap container, which is initially empty. \sa WriteFunc, registerFormat() */ /*! \typedef QSettings::WriteFunc Typedef for a pointer to a function with the following signature: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 28 \c WriteFunc is used in \c registerFormat() as a pointer to a function that writes a set of key/value pairs. \c WriteFunc is only called once, so you need to output the settings in one go. \sa ReadFunc, registerFormat() */ /*! \since 4.1 \threadsafe Registers a custom storage format. On success, returns a special Format value that can then be passed to the QSettings constructor. On failure, returns InvalidFormat. The \a extension is the file extension associated to the format (without the '.'). The \a readFunc and \a writeFunc parameters are pointers to functions that read and write a set of key/value pairs. The QIODevice parameter to the read and write functions is always opened in binary mode (i.e., without the QIODevice::Text flag). The \a caseSensitivity parameter specifies whether keys are case sensitive or not. This makes a difference when looking up values using QSettings. The default is case sensitive. By default, if you use one of the constructors that work in terms of an organization name and an application name, the file system locations used are the same as for IniFormat. Use setPath() to specify other locations. Example: \snippet doc/src/snippets/code/src_corelib_io_qsettings.cpp 29 \sa setPath() */ QSettings::Format QSettings::registerFormat(const QString &extension, ReadFunc readFunc, WriteFunc writeFunc, Qt::CaseSensitivity caseSensitivity) { #ifdef QT_QSETTINGS_ALWAYS_CASE_SENSITIVE_AND_FORGET_ORIGINAL_KEY_ORDER Q_ASSERT(caseSensitivity == Qt::CaseSensitive); #endif QMutexLocker locker(globalMutex()); CustomFormatVector *customFormatVector = customFormatVectorFunc(); int index = customFormatVector->size(); if (index == 16) // the QSettings::Format enum has room for 16 custom formats return QSettings::InvalidFormat; QConfFileCustomFormat info; info.extension = QLatin1Char('.'); info.extension += extension; info.readFunc = readFunc; info.writeFunc = writeFunc; info.caseSensitivity = caseSensitivity; customFormatVector->append(info); return QSettings::Format((int)QSettings::CustomFormat1 + index); } #ifdef QT3_SUPPORT void QSettings::setPath_helper(Scope scope, const QString &organization, const QString &application) { Q_D(QSettings); if (d->pendingChanges) d->flush(); QSettingsPrivate *oldPriv = d; QSettingsPrivate *newPriv = QSettingsPrivate::create(oldPriv->format, scope, organization, application); static_cast(*newPriv) = static_cast(*oldPriv); // copy the QObject stuff over (hack) d_ptr.reset(newPriv); } /*! \fn bool QSettings::writeEntry(const QString &key, bool value) Sets the value of setting \a key to \a value. Use setValue() instead. */ /*! \fn bool QSettings::writeEntry(const QString &key, double value) \overload */ /*! \fn bool QSettings::writeEntry(const QString &key, int value) \overload */ /*! \fn bool QSettings::writeEntry(const QString &key, const char *value) \overload */ /*! \fn bool QSettings::writeEntry(const QString &key, const QString &value) \overload */ /*! \fn bool QSettings::writeEntry(const QString &key, const QStringList &value) \overload */ /*! \fn bool QSettings::writeEntry(const QString &key, const QStringList &value, QChar separator) \overload Use setValue(\a key, \a value) instead. You don't need \a separator. */ /*! \fn QStringList QSettings::readListEntry(const QString &key, bool *ok = 0) Returns the value of setting \a key converted to a QStringList. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; QStringList list = settings.readListEntry("recentFiles", &ok); \newcode bool ok = settings.contains("recentFiles"); QStringList list = settings.value("recentFiles").toStringList(); \endcode */ /*! \fn QStringList QSettings::readListEntry(const QString &key, QChar separator, bool *ok) Returns the value of setting \a key converted to a QStringList. \a separator is ignored. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; QStringList list = settings.readListEntry("recentFiles", ":", &ok); \newcode bool ok = settings.contains("recentFiles"); QStringList list = settings.value("recentFiles").toStringList(); \endcode */ /*! \fn QString QSettings::readEntry(const QString &key, const QString &defaultValue, bool *ok) Returns the value for setting \a key converted to a QString. If the setting doesn't exist, returns \a defaultValue. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; QString str = settings.readEntry("userName", "administrator", &ok); \newcode bool ok = settings.contains("userName"); QString str = settings.value("userName", "administrator").toString(); \endcode */ /*! \fn int QSettings::readNumEntry(const QString &key, int defaultValue, bool *ok) Returns the value for setting \a key converted to an \c int. If the setting doesn't exist, returns \a defaultValue. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; int max = settings.readNumEntry("maxConnections", 30, &ok); \newcode bool ok = settings.contains("maxConnections"); int max = settings.value("maxConnections", 30).toInt(); \endcode */ /*! \fn double QSettings::readDoubleEntry(const QString &key, double defaultValue, bool *ok) Returns the value for setting \a key converted to a \c double. If the setting doesn't exist, returns \a defaultValue. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; double pi = settings.readDoubleEntry("pi", 3.141592, &ok); \newcode bool ok = settings.contains("pi"); double pi = settings.value("pi", 3.141592).toDouble(); \endcode */ /*! \fn bool QSettings::readBoolEntry(const QString &key, bool defaultValue, bool *ok) Returns the value for setting \a key converted to a \c bool. If the setting doesn't exist, returns \a defaultValue. If \a ok is not 0, *\a{ok} is set to true if the key exists, otherwise *\a{ok} is set to false. Use value() instead. \oldcode bool ok; bool grid = settings.readBoolEntry("showGrid", true, &ok); \newcode bool ok = settings.contains("showGrid"); bool grid = settings.value("showGrid", true).toBool(); \endcode */ /*! \fn bool QSettings::removeEntry(const QString &key) Use remove() instead. */ /*! \enum QSettings::System \compat \value Unix Unix systems (X11 and Embedded Linux) \value Windows Microsoft Windows systems \value Mac Mac OS X systems \sa insertSearchPath(), removeSearchPath() */ /*! \fn void QSettings::insertSearchPath(System system, const QString &path) This function is implemented as a no-op. It is provided for source compatibility with Qt 3. The new QSettings class has no concept of "search path". */ /*! \fn void QSettings::removeSearchPath(System system, const QString &path) This function is implemented as a no-op. It is provided for source compatibility with Qt 3. The new QSettings class has no concept of "search path". */ /*! \fn void QSettings::setPath(const QString &organization, const QString &application, \ Scope scope) Specifies the \a organization, \a application, and \a scope to use by the QSettings object. Use the appropriate constructor instead, with QSettings::UserScope instead of QSettings::User and QSettings::SystemScope instead of QSettings::Global. \oldcode QSettings settings; settings.setPath("twikimaster.com", "Kanooth", QSettings::Global); \newcode QSettings settings(QSettings::SystemScope, "twikimaster.com", "Kanooth"); \endcode */ /*! \fn void QSettings::resetGroup() Sets the current group to be the empty string. Use endGroup() instead (possibly multiple times). \oldcode QSettings settings; settings.beginGroup("mainWindow"); settings.beginGroup("leftPanel"); ... settings.resetGroup(); \newcode QSettings settings; settings.beginGroup("mainWindow"); settings.beginGroup("leftPanel"); ... settings.endGroup(); settings.endGroup(); \endcode */ /*! \fn QStringList QSettings::entryList(const QString &key) const Returns a list of all sub-keys of \a key. Use childKeys() instead. \oldcode QSettings settings; QStringList keys = settings.entryList("cities"); ... \newcode QSettings settings; settings.beginGroup("cities"); QStringList keys = settings.childKeys(); ... settings.endGroup(); \endcode */ /*! \fn QStringList QSettings::subkeyList(const QString &key) const Returns a list of all sub-keys of \a key. Use childGroups() instead. \oldcode QSettings settings; QStringList groups = settings.entryList("cities"); ... \newcode QSettings settings; settings.beginGroup("cities"); QStringList groups = settings.childKeys(); ... settings.endGroup(); \endcode */ #endif QT_END_NAMESPACE #endif // QT_NO_SETTINGS