/*
This file is part of KOrganizer.
Copyright (c) 2000,2001 Cornelius Schumacher <schumacher@kde.org>
Copyright (c) 2003 Waldo Bastian <bastian@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "kcoreconfigskeleton.h"
#include "kcoreconfigskeleton_p.h"
#include <QUrl>
static QString obscuredString(const QString &str)
{
QString result;
const QChar *unicode = str.unicode();
for (int i = 0; i < str.length(); ++i)
// yes, no typo. can't encode ' ' or '!' because
// they're the unicode BOM. stupid scrambling. stupid.
result += (unicode[ i ].unicode() <= 0x21) ? unicode[ i ]
: QChar(0x1001F - unicode[ i ].unicode());
return result;
}
KConfigSkeletonItem::KConfigSkeletonItem(const QString &_group,
const QString &_key)
: mGroup(_group)
, mKey(_key)
, d(new KConfigSkeletonItemPrivate)
{
}
KConfigSkeletonItem::~KConfigSkeletonItem()
{
delete d;
}
void KConfigSkeletonItem::setGroup(const QString &_group)
{
mGroup = _group;
}
QString KConfigSkeletonItem::group() const
{
return mGroup;
}
void KConfigSkeletonItem::setKey(const QString &_key)
{
mKey = _key;
}
QString KConfigSkeletonItem::key() const
{
return mKey;
}
void KConfigSkeletonItem::setName(const QString &_name)
{
mName = _name;
}
QString KConfigSkeletonItem::name() const
{
return mName;
}
void KConfigSkeletonItem::setLabel(const QString &l)
{
d->mLabel = l;
}
QString KConfigSkeletonItem::label() const
{
return d->mLabel;
}
void KConfigSkeletonItem::setToolTip(const QString &t)
{
d->mToolTip = t;
}
QString KConfigSkeletonItem::toolTip() const
{
return d->mToolTip;
}
void KConfigSkeletonItem::setWhatsThis(const QString &w)
{
d->mWhatsThis = w;
}
QString KConfigSkeletonItem::whatsThis() const
{
return d->mWhatsThis;
}
QVariant KConfigSkeletonItem::minValue() const
{
return QVariant();
}
QVariant KConfigSkeletonItem::maxValue() const
{
return QVariant();
}
bool KConfigSkeletonItem::isImmutable() const
{
return d->mIsImmutable;
}
void KConfigSkeletonItem::readImmutability(const KConfigGroup &group)
{
d->mIsImmutable = group.isEntryImmutable(mKey);
}
KCoreConfigSkeleton::ItemString::ItemString(const QString &_group, const QString &_key,
QString &reference,
const QString &defaultValue,
Type type)
: KConfigSkeletonGenericItem<QString>(_group, _key, reference, defaultValue),
mType(type)
{
}
void KCoreConfigSkeleton::ItemString::writeConfig(KConfig *config)
{
if (mReference != mLoadedValue) { // WABA: Is this test needed?
KConfigGroup cg(config, mGroup);
if ((mDefault == mReference) && !cg.hasDefault(mKey)) {
cg.revertToDefault(mKey);
} else if (mType == Path) {
cg.writePathEntry(mKey, mReference);
} else if (mType == Password) {
cg.writeEntry(mKey, obscuredString(mReference));
} else {
cg.writeEntry(mKey, mReference);
}
mLoadedValue = mReference;
}
}
void KCoreConfigSkeleton::ItemString::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (mType == Path) {
mReference = cg.readPathEntry(mKey, mDefault);
} else if (mType == Password) {
QString val = cg.readEntry(mKey, obscuredString(mDefault));
mReference = obscuredString(val);
} else {
mReference = cg.readEntry(mKey, mDefault);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemString::setProperty(const QVariant &p)
{
mReference = p.toString();
}
bool KCoreConfigSkeleton::ItemString::isEqual(const QVariant &v) const
{
return mReference == v.toString();
}
QVariant KCoreConfigSkeleton::ItemString::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemPassword::ItemPassword(const QString &_group, const QString &_key,
QString &reference,
const QString &defaultValue)
: ItemString(_group, _key, reference, defaultValue, Password)
{
}
KCoreConfigSkeleton::ItemPath::ItemPath(const QString &_group, const QString &_key,
QString &reference,
const QString &defaultValue)
: ItemString(_group, _key, reference, defaultValue, Path)
{
}
KCoreConfigSkeleton::ItemUrl::ItemUrl(const QString &_group, const QString &_key,
QUrl &reference,
const QUrl &defaultValue)
: KConfigSkeletonGenericItem<QUrl>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemUrl::writeConfig(KConfig *config)
{
if (mReference != mLoadedValue) { // WABA: Is this test needed?
KConfigGroup cg(config, mGroup);
if ((mDefault == mReference) && !cg.hasDefault(mKey)) {
cg.revertToDefault(mKey);
} else {
cg.writeEntry<QString>(mKey, mReference.toString());
}
mLoadedValue = mReference;
}
}
void KCoreConfigSkeleton::ItemUrl::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = QUrl(cg.readEntry<QString>(mKey, mDefault.toString()));
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemUrl::setProperty(const QVariant &p)
{
mReference = qvariant_cast<QUrl>(p);
}
bool KCoreConfigSkeleton::ItemUrl::isEqual(const QVariant &v) const
{
return mReference == qvariant_cast<QUrl>(v);
}
QVariant KCoreConfigSkeleton::ItemUrl::property() const
{
return qVariantFromValue<QUrl>(mReference);
}
KCoreConfigSkeleton::ItemProperty::ItemProperty(const QString &_group,
const QString &_key,
QVariant &reference,
const QVariant &defaultValue)
: KConfigSkeletonGenericItem<QVariant>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemProperty::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemProperty::setProperty(const QVariant &p)
{
mReference = p;
}
bool KCoreConfigSkeleton::ItemProperty::isEqual(const QVariant &v) const
{
//this might cause problems if the QVariants are not of default types
return mReference == v;
}
QVariant KCoreConfigSkeleton::ItemProperty::property() const
{
return mReference;
}
KCoreConfigSkeleton::ItemBool::ItemBool(const QString &_group, const QString &_key,
bool &reference, bool defaultValue)
: KConfigSkeletonGenericItem<bool>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemBool::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemBool::setProperty(const QVariant &p)
{
mReference = p.toBool();
}
bool KCoreConfigSkeleton::ItemBool::isEqual(const QVariant &v) const
{
return mReference == v.toBool();
}
QVariant KCoreConfigSkeleton::ItemBool::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemInt::ItemInt(const QString &_group, const QString &_key,
qint32 &reference, qint32 defaultValue)
: KConfigSkeletonGenericItem<qint32>(_group, _key, reference, defaultValue)
, mHasMin(false), mHasMax(false)
{
}
void KCoreConfigSkeleton::ItemInt::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
if (mHasMin) {
mReference = qMax(mReference, mMin);
}
if (mHasMax) {
mReference = qMin(mReference, mMax);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemInt::setProperty(const QVariant &p)
{
mReference = p.toInt();
}
bool KCoreConfigSkeleton::ItemInt::isEqual(const QVariant &v) const
{
return mReference == v.toInt();
}
QVariant KCoreConfigSkeleton::ItemInt::property() const
{
return QVariant(mReference);
}
QVariant KCoreConfigSkeleton::ItemInt::minValue() const
{
if (mHasMin) {
return QVariant(mMin);
}
return QVariant();
}
QVariant KCoreConfigSkeleton::ItemInt::maxValue() const
{
if (mHasMax) {
return QVariant(mMax);
}
return QVariant();
}
void KCoreConfigSkeleton::ItemInt::setMinValue(qint32 v)
{
mHasMin = true;
mMin = v;
}
void KCoreConfigSkeleton::ItemInt::setMaxValue(qint32 v)
{
mHasMax = true;
mMax = v;
}
KCoreConfigSkeleton::ItemLongLong::ItemLongLong(const QString &_group, const QString &_key,
qint64 &reference, qint64 defaultValue)
: KConfigSkeletonGenericItem<qint64>(_group, _key, reference, defaultValue)
, mHasMin(false), mHasMax(false)
{
}
void KCoreConfigSkeleton::ItemLongLong::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
if (mHasMin) {
mReference = qMax(mReference, mMin);
}
if (mHasMax) {
mReference = qMin(mReference, mMax);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemLongLong::setProperty(const QVariant &p)
{
mReference = p.toLongLong();
}
bool KCoreConfigSkeleton::ItemLongLong::isEqual(const QVariant &v) const
{
return mReference == v.toLongLong();
}
QVariant KCoreConfigSkeleton::ItemLongLong::property() const
{
return QVariant(mReference);
}
QVariant KCoreConfigSkeleton::ItemLongLong::minValue() const
{
if (mHasMin) {
return QVariant(mMin);
}
return QVariant();
}
QVariant KCoreConfigSkeleton::ItemLongLong::maxValue() const
{
if (mHasMax) {
return QVariant(mMax);
}
return QVariant();
}
void KCoreConfigSkeleton::ItemLongLong::setMinValue(qint64 v)
{
mHasMin = true;
mMin = v;
}
void KCoreConfigSkeleton::ItemLongLong::setMaxValue(qint64 v)
{
mHasMax = true;
mMax = v;
}
KCoreConfigSkeleton::ItemEnum::ItemEnum(const QString &_group, const QString &_key,
qint32 &reference,
const QList<Choice> &choices,
qint32 defaultValue)
: ItemInt(_group, _key, reference, defaultValue), mChoices(choices)
{
}
void KCoreConfigSkeleton::ItemEnum::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (!cg.hasKey(mKey)) {
mReference = mDefault;
} else {
int i = 0;
mReference = -1;
QString tmp = cg.readEntry(mKey, QString()).toLower();
for (QList<Choice>::ConstIterator it = mChoices.constBegin();
it != mChoices.constEnd(); ++it, ++i) {
if ((*it).name.toLower() == tmp) {
mReference = i;
break;
}
}
if (mReference == -1) {
mReference = cg.readEntry(mKey, mDefault);
}
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemEnum::writeConfig(KConfig *config)
{
if (mReference != mLoadedValue) { // WABA: Is this test needed?
KConfigGroup cg(config, mGroup);
if ((mDefault == mReference) && !cg.hasDefault(mKey)) {
cg.revertToDefault(mKey);
} else if ((mReference >= 0) && (mReference < (int) mChoices.count())) {
cg.writeEntry(mKey, mChoices[mReference].name);
} else {
cg.writeEntry(mKey, mReference);
}
mLoadedValue = mReference;
}
}
QList<KCoreConfigSkeleton::ItemEnum::Choice> KCoreConfigSkeleton::ItemEnum::choices() const
{
return mChoices;
}
QList<KCoreConfigSkeleton::ItemEnum::Choice> KCoreConfigSkeleton::ItemEnum::choices2() const
{
return mChoices;
}
KCoreConfigSkeleton::ItemUInt::ItemUInt(const QString &_group, const QString &_key,
quint32 &reference,
quint32 defaultValue)
: KConfigSkeletonGenericItem<quint32>(_group, _key, reference, defaultValue)
, mHasMin(false), mHasMax(false)
{
}
void KCoreConfigSkeleton::ItemUInt::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
if (mHasMin) {
mReference = qMax(mReference, mMin);
}
if (mHasMax) {
mReference = qMin(mReference, mMax);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemUInt::setProperty(const QVariant &p)
{
mReference = p.toUInt();
}
bool KCoreConfigSkeleton::ItemUInt::isEqual(const QVariant &v) const
{
return mReference == v.toUInt();
}
QVariant KCoreConfigSkeleton::ItemUInt::property() const
{
return QVariant(mReference);
}
QVariant KCoreConfigSkeleton::ItemUInt::minValue() const
{
if (mHasMin) {
return QVariant(mMin);
}
return QVariant();
}
QVariant KCoreConfigSkeleton::ItemUInt::maxValue() const
{
if (mHasMax) {
return QVariant(mMax);
}
return QVariant();
}
void KCoreConfigSkeleton::ItemUInt::setMinValue(quint32 v)
{
mHasMin = true;
mMin = v;
}
void KCoreConfigSkeleton::ItemUInt::setMaxValue(quint32 v)
{
mHasMax = true;
mMax = v;
}
KCoreConfigSkeleton::ItemULongLong::ItemULongLong(const QString &_group, const QString &_key,
quint64 &reference, quint64 defaultValue)
: KConfigSkeletonGenericItem<quint64>(_group, _key, reference, defaultValue)
, mHasMin(false), mHasMax(false)
{
}
void KCoreConfigSkeleton::ItemULongLong::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
if (mHasMin) {
mReference = qMax(mReference, mMin);
}
if (mHasMax) {
mReference = qMin(mReference, mMax);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemULongLong::setProperty(const QVariant &p)
{
mReference = p.toULongLong();
}
bool KCoreConfigSkeleton::ItemULongLong::isEqual(const QVariant &v) const
{
return mReference == v.toULongLong();
}
QVariant KCoreConfigSkeleton::ItemULongLong::property() const
{
return QVariant(mReference);
}
QVariant KCoreConfigSkeleton::ItemULongLong::minValue() const
{
if (mHasMin) {
return QVariant(mMin);
}
return QVariant();
}
QVariant KCoreConfigSkeleton::ItemULongLong::maxValue() const
{
if (mHasMax) {
return QVariant(mMax);
}
return QVariant();
}
void KCoreConfigSkeleton::ItemULongLong::setMinValue(quint64 v)
{
mHasMin = true;
mMin = v;
}
void KCoreConfigSkeleton::ItemULongLong::setMaxValue(quint64 v)
{
mHasMax = true;
mMax = v;
}
KCoreConfigSkeleton::ItemDouble::ItemDouble(const QString &_group, const QString &_key,
double &reference, double defaultValue)
: KConfigSkeletonGenericItem<double>(_group, _key, reference, defaultValue)
, mHasMin(false), mHasMax(false)
{
}
void KCoreConfigSkeleton::ItemDouble::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
if (mHasMin) {
mReference = qMax(mReference, mMin);
}
if (mHasMax) {
mReference = qMin(mReference, mMax);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemDouble::setProperty(const QVariant &p)
{
mReference = p.toDouble();
}
bool KCoreConfigSkeleton::ItemDouble::isEqual(const QVariant &v) const
{
return mReference == v.toDouble();
}
QVariant KCoreConfigSkeleton::ItemDouble::property() const
{
return QVariant(mReference);
}
QVariant KCoreConfigSkeleton::ItemDouble::minValue() const
{
if (mHasMin) {
return QVariant(mMin);
}
return QVariant();
}
QVariant KCoreConfigSkeleton::ItemDouble::maxValue() const
{
if (mHasMax) {
return QVariant(mMax);
}
return QVariant();
}
void KCoreConfigSkeleton::ItemDouble::setMinValue(double v)
{
mHasMin = true;
mMin = v;
}
void KCoreConfigSkeleton::ItemDouble::setMaxValue(double v)
{
mHasMax = true;
mMax = v;
}
KCoreConfigSkeleton::ItemRect::ItemRect(const QString &_group, const QString &_key,
QRect &reference,
const QRect &defaultValue)
: KConfigSkeletonGenericItem<QRect>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemRect::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemRect::setProperty(const QVariant &p)
{
mReference = p.toRect();
}
bool KCoreConfigSkeleton::ItemRect::isEqual(const QVariant &v) const
{
return mReference == v.toRect();
}
QVariant KCoreConfigSkeleton::ItemRect::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemPoint::ItemPoint(const QString &_group, const QString &_key,
QPoint &reference,
const QPoint &defaultValue)
: KConfigSkeletonGenericItem<QPoint>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemPoint::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemPoint::setProperty(const QVariant &p)
{
mReference = p.toPoint();
}
bool KCoreConfigSkeleton::ItemPoint::isEqual(const QVariant &v) const
{
return mReference == v.toPoint();
}
QVariant KCoreConfigSkeleton::ItemPoint::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemSize::ItemSize(const QString &_group, const QString &_key,
QSize &reference,
const QSize &defaultValue)
: KConfigSkeletonGenericItem<QSize>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemSize::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemSize::setProperty(const QVariant &p)
{
mReference = p.toSize();
}
bool KCoreConfigSkeleton::ItemSize::isEqual(const QVariant &v) const
{
return mReference == v.toSize();
}
QVariant KCoreConfigSkeleton::ItemSize::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemDateTime::ItemDateTime(const QString &_group, const QString &_key,
QDateTime &reference,
const QDateTime &defaultValue)
: KConfigSkeletonGenericItem<QDateTime>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemDateTime::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
mReference = cg.readEntry(mKey, mDefault);
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemDateTime::setProperty(const QVariant &p)
{
mReference = p.toDateTime();
}
bool KCoreConfigSkeleton::ItemDateTime::isEqual(const QVariant &v) const
{
return mReference == v.toDateTime();
}
QVariant KCoreConfigSkeleton::ItemDateTime::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemStringList::ItemStringList(const QString &_group, const QString &_key,
QStringList &reference,
const QStringList &defaultValue)
: KConfigSkeletonGenericItem<QStringList>(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemStringList::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (!cg.hasKey(mKey)) {
mReference = mDefault;
} else {
mReference = cg.readEntry(mKey, mDefault);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemStringList::setProperty(const QVariant &p)
{
mReference = p.toStringList();
}
bool KCoreConfigSkeleton::ItemStringList::isEqual(const QVariant &v) const
{
return mReference == v.toStringList();
}
QVariant KCoreConfigSkeleton::ItemStringList::property() const
{
return QVariant(mReference);
}
KCoreConfigSkeleton::ItemPathList::ItemPathList(const QString &_group, const QString &_key,
QStringList &reference,
const QStringList &defaultValue)
: ItemStringList(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemPathList::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (!cg.hasKey(mKey)) {
mReference = mDefault;
} else {
mReference = cg.readPathEntry(mKey, QStringList());
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemPathList::writeConfig(KConfig *config)
{
if (mReference != mLoadedValue) { // WABA: Is this test needed?
KConfigGroup cg(config, mGroup);
if ((mDefault == mReference) && !cg.hasDefault(mKey)) {
cg.revertToDefault(mKey);
} else {
QStringList sl = mReference;
cg.writePathEntry(mKey, sl);
}
mLoadedValue = mReference;
}
}
KCoreConfigSkeleton::ItemUrlList::ItemUrlList(const QString &_group, const QString &_key,
QList<QUrl> &reference,
const QList<QUrl> &defaultValue)
: KConfigSkeletonGenericItem<QList<QUrl> >(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemUrlList::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (!cg.hasKey(mKey)) {
mReference = mDefault;
} else {
QStringList strList;
Q_FOREACH (const QUrl &url, mDefault) {
strList.append(url.toString());
}
mReference.clear();
const QStringList readList = cg.readEntry<QStringList>(mKey, strList);
Q_FOREACH (const QString &str, readList) {
mReference.append(QUrl(str));
}
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemUrlList::writeConfig(KConfig *config)
{
if (mReference != mLoadedValue) { // WABA: Is this test needed?
KConfigGroup cg(config, mGroup);
if ((mDefault == mReference) && !cg.hasDefault(mKey)) {
cg.revertToDefault(mKey);
} else {
QStringList strList;
Q_FOREACH (const QUrl &url, mReference) {
strList.append(url.toString());
}
cg.writeEntry<QStringList>(mKey, strList);
}
mLoadedValue = mReference;
}
}
void KCoreConfigSkeleton::ItemUrlList::setProperty(const QVariant &p)
{
mReference = qvariant_cast<QList<QUrl> >(p);
}
bool KCoreConfigSkeleton::ItemUrlList::isEqual(const QVariant &v) const
{
return mReference == qvariant_cast<QList<QUrl> >(v);
}
QVariant KCoreConfigSkeleton::ItemUrlList::property() const
{
return qVariantFromValue<QList<QUrl> >(mReference);
}
KCoreConfigSkeleton::ItemIntList::ItemIntList(const QString &_group, const QString &_key,
QList<int> &reference,
const QList<int> &defaultValue)
: KConfigSkeletonGenericItem<QList<int> >(_group, _key, reference, defaultValue)
{
}
void KCoreConfigSkeleton::ItemIntList::readConfig(KConfig *config)
{
KConfigGroup cg(config, mGroup);
if (!cg.hasKey(mKey)) {
mReference = mDefault;
} else {
mReference = cg.readEntry(mKey, mDefault);
}
mLoadedValue = mReference;
readImmutability(cg);
}
void KCoreConfigSkeleton::ItemIntList::setProperty(const QVariant &p)
{
mReference = qvariant_cast< QList<int> >(p);
}
bool KCoreConfigSkeleton::ItemIntList::isEqual(const QVariant &v) const
{
return mReference == qvariant_cast< QList<int> >(v);
}
QVariant KCoreConfigSkeleton::ItemIntList::property() const
{
return qVariantFromValue< QList<int> >(mReference);
}
//static int kCoreConfigSkeletionDebugArea() { static int s_area = KDebug::registerArea("kdecore (KConfigSkeleton)"); return s_area; }
KCoreConfigSkeleton::KCoreConfigSkeleton(const QString &configname, QObject *parent)
: QObject(parent),
d(new KCoreConfigSkeletonPrivate)
{
//qDebug() << "Creating KCoreConfigSkeleton (" << (void *)this << ")";
d->mConfig = KSharedConfig::openConfig(configname, KConfig::FullConfig);
}
KCoreConfigSkeleton::KCoreConfigSkeleton(KSharedConfig::Ptr pConfig, QObject *parent)
: QObject(parent),
d(new KCoreConfigSkeletonPrivate)
{
//qDebug() << "Creating KCoreConfigSkeleton (" << (void *)this << ")";
d->mConfig = pConfig;
}
KCoreConfigSkeleton::~KCoreConfigSkeleton()
{
delete d;
}
void KCoreConfigSkeleton::setCurrentGroup(const QString &group)
{
d->mCurrentGroup = group;
}
QString KCoreConfigSkeleton::currentGroup() const
{
return d->mCurrentGroup;
}
KConfig *KCoreConfigSkeleton::config()
{
return d->mConfig.data();
}
const KConfig *KCoreConfigSkeleton::config() const
{
return d->mConfig.data();
}
KSharedConfig::Ptr KCoreConfigSkeleton::sharedConfig() const
{
return d->mConfig;
}
void KCoreConfigSkeleton::setSharedConfig(KSharedConfig::Ptr pConfig)
{
d->mConfig = pConfig;
}
KConfigSkeletonItem::List KCoreConfigSkeleton::items() const
{
return d->mItems;
}
bool KCoreConfigSkeleton::useDefaults(bool b)
{
if (b == d->mUseDefaults) {
return d->mUseDefaults;
}
d->mUseDefaults = b;
KConfigSkeletonItem::List::ConstIterator it;
for (it = d->mItems.constBegin(); it != d->mItems.constEnd(); ++it) {
(*it)->swapDefault();
}
usrUseDefaults(b);
return !d->mUseDefaults;
}
void KCoreConfigSkeleton::setDefaults()
{
KConfigSkeletonItem::List::ConstIterator it;
for (it = d->mItems.constBegin(); it != d->mItems.constEnd(); ++it) {
(*it)->setDefault();
}
usrSetDefaults();
}
void KCoreConfigSkeleton::load()
{
d->mConfig->reparseConfiguration();
read();
}
void KCoreConfigSkeleton::read()
{
KConfigSkeletonItem::List::ConstIterator it;
for (it = d->mItems.constBegin(); it != d->mItems.constEnd(); ++it) {
(*it)->readConfig(d->mConfig.data());
}
usrRead();
}
bool KCoreConfigSkeleton::save()
{
//qDebug();
KConfigSkeletonItem::List::ConstIterator it;
for (it = d->mItems.constBegin(); it != d->mItems.constEnd(); ++it) {
(*it)->writeConfig(d->mConfig.data());
}
if (!usrSave()) {
return false;
}
if (d->mConfig->isDirty()) {
if (!d->mConfig->sync()) {
return false;
}
emit configChanged();
}
return true;
}
bool KCoreConfigSkeleton::usrUseDefaults(bool)
{
return false;
}
void KCoreConfigSkeleton::usrSetDefaults()
{
}
#ifdef Q_CC_GNU
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
void KCoreConfigSkeleton::usrRead()
{
usrReadConfig();
}
#ifdef Q_CC_GNU
#pragma GCC diagnostic pop
#endif
void KCoreConfigSkeleton::usrReadConfig()
{
}
#ifdef Q_CC_GNU
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
bool KCoreConfigSkeleton::usrSave()
{
return usrWriteConfig();
}
#ifdef Q_CC_GNU
#pragma GCC diagnostic pop
#endif
bool KCoreConfigSkeleton::usrWriteConfig()
{
return true;
}
void KCoreConfigSkeleton::addItem(KConfigSkeletonItem *item, const QString &name)
{
if (d->mItems.contains(item)) {
if (item->name() == name ||
(name.isEmpty() && item->name() == item->key())) {
// nothing to do -> it is already in our collection
// and the name isn't changing
return;
}
d->mItemDict.remove(item->name());
} else {
d->mItems.append(item);
}
item->setName(name.isEmpty() ? item->key() : name);
d->mItemDict.insert(item->name(), item);
item->readDefault(d->mConfig.data());
item->readConfig(d->mConfig.data());
}
void KCoreConfigSkeleton::removeItem(const QString &name)
{
KConfigSkeletonItem *item = d->mItemDict.value(name);
if (item) {
d->mItems.removeAll(item);
d->mItemDict.remove(item->name());
delete item;
}
}
void KCoreConfigSkeleton::clearItems()
{
KConfigSkeletonItem::List items = d->mItems;
d->mItems.clear();
d->mItemDict.clear();
qDeleteAll(items);
}
KCoreConfigSkeleton::ItemString *KCoreConfigSkeleton::addItemString(const QString &name, QString &reference,
const QString &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemString *item;
item = new KCoreConfigSkeleton::ItemString(d->mCurrentGroup, key.isEmpty() ? name : key,
reference, defaultValue,
KCoreConfigSkeleton::ItemString::Normal);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemPassword *KCoreConfigSkeleton::addItemPassword(const QString &name, QString &reference,
const QString &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemPassword *item;
item = new KCoreConfigSkeleton::ItemPassword(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemPath *KCoreConfigSkeleton::addItemPath(const QString &name, QString &reference,
const QString &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemPath *item;
item = new KCoreConfigSkeleton::ItemPath(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemProperty *KCoreConfigSkeleton::addItemProperty(const QString &name, QVariant &reference,
const QVariant &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemProperty *item;
item = new KCoreConfigSkeleton::ItemProperty(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemBool *KCoreConfigSkeleton::addItemBool(const QString &name, bool &reference,
bool defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemBool *item;
item = new KCoreConfigSkeleton::ItemBool(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemInt *KCoreConfigSkeleton::addItemInt(const QString &name, qint32 &reference,
qint32 defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemInt *item;
item = new KCoreConfigSkeleton::ItemInt(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemUInt *KCoreConfigSkeleton::addItemUInt(const QString &name, quint32 &reference,
quint32 defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemUInt *item;
item = new KCoreConfigSkeleton::ItemUInt(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemLongLong *KCoreConfigSkeleton::addItemLongLong(const QString &name, qint64 &reference,
qint64 defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemLongLong *item;
item = new KCoreConfigSkeleton::ItemLongLong(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
#ifndef KDE_NO_DEPRECATED
KCoreConfigSkeleton::ItemLongLong *KCoreConfigSkeleton::addItemInt64(
const QString &name,
qint64 &reference,
qint64 defaultValue,
const QString &key)
{
return addItemLongLong(name, reference, defaultValue, key);
}
#endif
KCoreConfigSkeleton::ItemULongLong *KCoreConfigSkeleton::addItemULongLong(const QString &name, quint64 &reference,
quint64 defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemULongLong *item;
item = new KCoreConfigSkeleton::ItemULongLong(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
#ifndef KDE_NO_DEPRECATED
KCoreConfigSkeleton::ItemULongLong *KCoreConfigSkeleton::addItemUInt64(
const QString &name,
quint64 &reference,
quint64 defaultValue,
const QString &key)
{
return addItemULongLong(name, reference, defaultValue, key);
}
#endif
KCoreConfigSkeleton::ItemDouble *KCoreConfigSkeleton::addItemDouble(const QString &name, double &reference,
double defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemDouble *item;
item = new KCoreConfigSkeleton::ItemDouble(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemRect *KCoreConfigSkeleton::addItemRect(const QString &name, QRect &reference,
const QRect &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemRect *item;
item = new KCoreConfigSkeleton::ItemRect(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemPoint *KCoreConfigSkeleton::addItemPoint(const QString &name, QPoint &reference,
const QPoint &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemPoint *item;
item = new KCoreConfigSkeleton::ItemPoint(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemSize *KCoreConfigSkeleton::addItemSize(const QString &name, QSize &reference,
const QSize &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemSize *item;
item = new KCoreConfigSkeleton::ItemSize(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemDateTime *KCoreConfigSkeleton::addItemDateTime(const QString &name, QDateTime &reference,
const QDateTime &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemDateTime *item;
item = new KCoreConfigSkeleton::ItemDateTime(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemStringList *KCoreConfigSkeleton::addItemStringList(const QString &name, QStringList &reference,
const QStringList &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemStringList *item;
item = new KCoreConfigSkeleton::ItemStringList(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
KCoreConfigSkeleton::ItemIntList *KCoreConfigSkeleton::addItemIntList(const QString &name, QList<int> &reference,
const QList<int> &defaultValue, const QString &key)
{
KCoreConfigSkeleton::ItemIntList *item;
item = new KCoreConfigSkeleton::ItemIntList(d->mCurrentGroup, key.isNull() ? name : key,
reference, defaultValue);
addItem(item, name);
return item;
}
bool KCoreConfigSkeleton::isImmutable(const QString &name) const
{
KConfigSkeletonItem *item = findItem(name);
return !item || item->isImmutable();
}
KConfigSkeletonItem *KCoreConfigSkeleton::findItem(const QString &name) const
{
return d->mItemDict.value(name);
}
KConfigCompilerSignallingItem::KConfigCompilerSignallingItem(KConfigSkeletonItem* item, QObject* object,
KConfigCompilerSignallingItem::NotifyFunction targetFunction, quint64 userData)
: KConfigSkeletonItem(item->group(), item->key()), mItem(item), mTargetFunction(targetFunction),
mObject(object), mUserData(userData)
{
Q_ASSERT(mTargetFunction);
Q_ASSERT(mItem);
Q_ASSERT(mObject);
}
KConfigCompilerSignallingItem::~KConfigCompilerSignallingItem()
{
}
bool KConfigCompilerSignallingItem::isEqual(const QVariant& p) const
{
return mItem->isEqual(p);
}
QVariant KConfigCompilerSignallingItem::property() const
{
return mItem->property();
}
void KConfigCompilerSignallingItem::readConfig(KConfig* c)
{
QVariant oldValue = mItem->property();
mItem->readConfig(c);
//readConfig() changes mIsImmutable, update it here as well
KConfigGroup cg(c, mGroup );
readImmutability(cg);
if (!mItem->isEqual(oldValue)) {
invokeNotifyFunction();
}
}
void KConfigCompilerSignallingItem::readDefault(KConfig* c)
{
mItem->readDefault(c);
//readDefault() changes mIsImmutable, update it here as well
KConfigGroup cg(c, mGroup );
readImmutability(cg);
}
void KConfigCompilerSignallingItem::writeConfig(KConfig* c)
{
mItem->writeConfig(c);
}
void KConfigCompilerSignallingItem::setDefault()
{
QVariant oldValue = mItem->property();
mItem->setDefault();
if (!mItem->isEqual(oldValue)) {
invokeNotifyFunction();
}
}
void KConfigCompilerSignallingItem::setProperty(const QVariant& p)
{
if (!mItem->isEqual(p)) {
mItem->setProperty(p);
invokeNotifyFunction();
}
}
void KConfigCompilerSignallingItem::swapDefault()
{
QVariant oldValue = mItem->property();
mItem->swapDefault();
if (!mItem->isEqual(oldValue)) {
invokeNotifyFunction();
}
}