/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui 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 #ifndef QT_NO_SPINBOX #include #include #include #include #include QT_BEGIN_NAMESPACE //#define QSPINBOX_QSBDEBUG #ifdef QSPINBOX_QSBDEBUG # define QSBDEBUG qDebug #else # define QSBDEBUG if (false) qDebug #endif static bool isIntermediateValueHelper(qint64 num, qint64 minimum, qint64 maximum, qint64 *match = 0); class QSpinBoxPrivate : public QAbstractSpinBoxPrivate { Q_DECLARE_PUBLIC(QSpinBox) public: QSpinBoxPrivate(QWidget *parent = 0); void emitSignals(EmitPolicy ep, const QVariant &); virtual QVariant valueFromText(const QString &n) const; virtual QString textFromValue(const QVariant &n) const; QVariant validateAndInterpret(QString &input, int &pos, QValidator::State &state) const; bool isIntermediateValue(const QString &str) const; QChar thousand; inline void init() { setLayoutItemMargins(QStyle::SE_SpinBoxLayoutItem); } }; class QDoubleSpinBoxPrivate : public QAbstractSpinBoxPrivate { Q_DECLARE_PUBLIC(QDoubleSpinBox) public: QDoubleSpinBoxPrivate(QWidget *parent = 0); void emitSignals(EmitPolicy ep, const QVariant &); bool isIntermediateValue(const QString &str) const; virtual QVariant valueFromText(const QString &n) const; virtual QString textFromValue(const QVariant &n) const; QVariant validateAndInterpret(QString &input, int &pos, QValidator::State &state) const; double round(double input) const; // variables int decimals; QChar delimiter, thousand; }; /*! \class QSpinBox \brief The QSpinBox class provides a spin box widget. \ingroup basicwidgets \mainclass QSpinBox is designed to handle integers and discrete sets of values (e.g., month names); use QDoubleSpinBox for floating point values. QSpinBox allows the user to choose a value by clicking the up/down buttons or pressing up/down on the keyboard to increase/decrease the value currently displayed. The user can also type the value in manually. The spin box supports integer values but can be extended to use different strings with validate(), textFromValue() and valueFromText(). Every time the value changes QSpinBox emits the valueChanged() signals. The current value can be fetched with value() and set with setValue(). Clicking the up/down buttons or using the keyboard accelerator's up and down arrows will increase or decrease the current value in steps of size singleStep(). If you want to change this behaviour you can reimplement the virtual function stepBy(). The minimum and maximum value and the step size can be set using one of the constructors, and can be changed later with setMinimum(), setMaximum() and setSingleStep(). Most spin boxes are directional, but QSpinBox can also operate as a circular spin box, i.e. if the range is 0-99 and the current value is 99, clicking "up" will give 0 if wrapping() is set to true. Use setWrapping() if you want circular behavior. The displayed value can be prepended and appended with arbitrary strings indicating, for example, currency or the unit of measurement. See setPrefix() and setSuffix(). The text in the spin box is retrieved with text() (which includes any prefix() and suffix()), or with cleanText() (which has no prefix(), no suffix() and no leading or trailing whitespace). It is often desirable to give the user a special (often default) choice in addition to the range of numeric values. See setSpecialValueText() for how to do this with QSpinBox. \table 100% \row \o \inlineimage windowsxp-spinbox.png Screenshot of a Windows XP spin box \o A spin box shown in the \l{Windows XP Style Widget Gallery}{Windows XP widget style}. \row \o \inlineimage plastique-spinbox.png Screenshot of a Plastique spin box \o A spin box shown in the \l{Plastique Style Widget Gallery}{Plastique widget style}. \row \o \inlineimage macintosh-spinbox.png Screenshot of a Macintosh spin box \o A spin box shown in the \l{Macintosh Style Widget Gallery}{Macintosh widget style}. \endtable \section1 Subclassing QSpinBox If using prefix(), suffix(), and specialValueText() don't provide enough control, you subclass QSpinBox and reimplement valueFromText() and textFromValue(). For example, here's the code for a custom spin box that allows the user to enter icon sizes (e.g., "32 x 32"): \snippet examples/widgets/icons/iconsizespinbox.cpp 1 \codeline \snippet examples/widgets/icons/iconsizespinbox.cpp 2 See the \l{widgets/icons}{Icons} example for the full source code. \sa QDoubleSpinBox, QDateTimeEdit, QSlider, {Spin Boxes Example} */ /*! \fn void QSpinBox::valueChanged(int i) This signal is emitted whenever the spin box's value is changed. The new value's integer value is passed in \a i. */ /*! \fn void QSpinBox::valueChanged(const QString &text) \overload The new value is passed literally in \a text with no prefix() or suffix(). */ /*! Constructs a spin box with 0 as minimum value and 99 as maximum value, a step value of 1. The value is initially set to 0. It is parented to \a parent. \sa setMinimum(), setMaximum(), setSingleStep() */ QSpinBox::QSpinBox(QWidget *parent) : QAbstractSpinBox(*new QSpinBoxPrivate(parent), parent) { Q_D(QSpinBox); d->init(); } #ifdef QT3_SUPPORT /*! Use one of the constructors that doesn't take the \a name argument and then use setObjectName() instead. */ QSpinBox::QSpinBox(QWidget *parent, const char *name) : QAbstractSpinBox(*new QSpinBoxPrivate(parent), parent) { Q_D(QSpinBox); setObjectName(QString::fromAscii(name)); d->init(); } /*! Use one of the constructors that doesn't take the \a name argument and then use setObjectName() instead. */ QSpinBox::QSpinBox(int minimum, int maximum, int step, QWidget *parent, const char *name) : QAbstractSpinBox(*new QSpinBoxPrivate(parent), parent) { Q_D(QSpinBox); d->minimum = QVariant(qMin(minimum, maximum)); d->maximum = QVariant(qMax(minimum, maximum)); d->singleStep = QVariant(step); setObjectName(QString::fromAscii(name)); d->init(); } #endif /*! \property QSpinBox::value \brief the value of the spin box setValue() will emit valueChanged() if the new value is different from the old one. */ int QSpinBox::value() const { Q_D(const QSpinBox); return d->value.toInt(); } void QSpinBox::setValue(int value) { Q_D(QSpinBox); d->setValue(QVariant(value), EmitIfChanged); } /*! \property QSpinBox::prefix \brief the spin box's prefix The prefix is prepended to the start of the displayed value. Typical use is to display a unit of measurement or a currency symbol. For example: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 0 To turn off the prefix display, set this property to an empty string. The default is no prefix. The prefix is not displayed when value() == minimum() and specialValueText() is set. If no prefix is set, prefix() returns an empty string. \sa suffix(), setSuffix(), specialValueText(), setSpecialValueText() */ QString QSpinBox::prefix() const { Q_D(const QSpinBox); return d->prefix; } void QSpinBox::setPrefix(const QString &prefix) { Q_D(QSpinBox); d->prefix = prefix; d->updateEdit(); } /*! \property QSpinBox::suffix \brief the suffix of the spin box The suffix is appended to the end of the displayed value. Typical use is to display a unit of measurement or a currency symbol. For example: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 1 To turn off the suffix display, set this property to an empty string. The default is no suffix. The suffix is not displayed for the minimum() if specialValueText() is set. If no suffix is set, suffix() returns an empty string. \sa prefix(), setPrefix(), specialValueText(), setSpecialValueText() */ QString QSpinBox::suffix() const { Q_D(const QSpinBox); return d->suffix; } void QSpinBox::setSuffix(const QString &suffix) { Q_D(QSpinBox); d->suffix = suffix; d->updateEdit(); } /*! \property QSpinBox::cleanText \brief the text of the spin box excluding any prefix, suffix, or leading or trailing whitespace. \sa text, QSpinBox::prefix, QSpinBox::suffix */ QString QSpinBox::cleanText() const { Q_D(const QSpinBox); return d->stripped(d->edit->displayText()); } /*! \property QSpinBox::singleStep \brief the step value When the user uses the arrows to change the spin box's value the value will be incremented/decremented by the amount of the singleStep. The default value is 1. Setting a singleStep value of less than 0 does nothing. */ int QSpinBox::singleStep() const { Q_D(const QSpinBox); return d->singleStep.toInt(); } void QSpinBox::setSingleStep(int value) { Q_D(QSpinBox); if (value >= 0) { d->singleStep = QVariant(value); d->updateEdit(); } } /*! \property QSpinBox::minimum \brief the minimum value of the spin box When setting this property the \l maximum is adjusted if necessary to ensure that the range remains valid. The default minimum value is 0. \sa setRange() specialValueText */ int QSpinBox::minimum() const { Q_D(const QSpinBox); return d->minimum.toInt(); } void QSpinBox::setMinimum(int minimum) { Q_D(QSpinBox); const QVariant m(minimum); d->setRange(m, (d->variantCompare(d->maximum, m) > 0 ? d->maximum : m)); } /*! \property QSpinBox::maximum \brief the maximum value of the spin box When setting this property the \l minimum is adjusted if necessary, to ensure that the range remains valid. The default maximum value is 99. \sa setRange() specialValueText */ int QSpinBox::maximum() const { Q_D(const QSpinBox); return d->maximum.toInt(); } void QSpinBox::setMaximum(int maximum) { Q_D(QSpinBox); const QVariant m(maximum); d->setRange((d->variantCompare(d->minimum, m) < 0 ? d->minimum : m), m); } /*! Convenience function to set the \a minimum, and \a maximum values with a single function call. \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 2 is equivalent to: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 3 \sa minimum maximum */ void QSpinBox::setRange(int minimum, int maximum) { Q_D(QSpinBox); d->setRange(QVariant(minimum), QVariant(maximum)); } /*! This virtual function is used by the spin box whenever it needs to display the given \a value. The default implementation returns a string containing \a value printed in the standard way using QWidget::locale().toString(). Reimplementations may return anything. (See the example in the detailed description.) Note: QSpinBox does not call this function for specialValueText() and that neither prefix() nor suffix() should be included in the return value. If you reimplement this, you may also need to reimplement valueFromText() and validate() \sa valueFromText(), validate() */ QString QSpinBox::textFromValue(int value) const { Q_D(const QSpinBox); QString str = locale().toString(value); if (qAbs(value) >= 1000 || value == INT_MIN) { str.remove(d->thousand); } return str; } /*! \fn int QSpinBox::valueFromText(const QString &text) const This virtual function is used by the spin box whenever it needs to interpret \a text entered by the user as a value. Subclasses that need to display spin box values in a non-numeric way need to reimplement this function. Note: QSpinBox handles specialValueText() separately; this function is only concerned with the other values. \sa textFromValue(), validate() */ int QSpinBox::valueFromText(const QString &text) const { Q_D(const QSpinBox); QString copy = text; int pos = d->edit->cursorPosition(); QValidator::State state = QValidator::Acceptable; return d->validateAndInterpret(copy, pos, state).toInt(); } /*! \reimp */ QValidator::State QSpinBox::validate(QString &text, int &pos) const { Q_D(const QSpinBox); QValidator::State state; d->validateAndInterpret(text, pos, state); return state; } /*! \reimp */ void QSpinBox::fixup(QString &input) const { Q_D(const QSpinBox); input.remove(d->thousand); } // --- QDoubleSpinBox --- /*! \class QDoubleSpinBox \brief The QDoubleSpinBox class provides a spin box widget that takes doubles. \ingroup basicwidgets \mainclass QDoubleSpinBox allows the user to choose a value by clicking the up and down buttons or by pressing Up or Down on the keyboard to increase or decrease the value currently displayed. The user can also type the value in manually. The spin box supports double values but can be extended to use different strings with validate(), textFromValue() and valueFromText(). Every time the value changes QDoubleSpinBox emits the valueChanged() signal. The current value can be fetched with value() and set with setValue(). Note: QDoubleSpinBox will round numbers so they can be displayed with the current precision. In a QDoubleSpinBox with decimals set to 2, calling setValue(2.555) will cause value() to return 2.56. Clicking the up and down buttons or using the keyboard accelerator's Up and Down arrows will increase or decrease the current value in steps of size singleStep(). If you want to change this behavior you can reimplement the virtual function stepBy(). The minimum and maximum value and the step size can be set using one of the constructors, and can be changed later with setMinimum(), setMaximum() and setSingleStep(). The spinbox has a default precision of 2 decimal places but this can be changed using setDecimals(). Most spin boxes are directional, but QDoubleSpinBox can also operate as a circular spin box, i.e. if the range is 0.0-99.9 and the current value is 99.9, clicking "up" will give 0 if wrapping() is set to true. Use setWrapping() if you want circular behavior. The displayed value can be prepended and appended with arbitrary strings indicating, for example, currency or the unit of measurement. See setPrefix() and setSuffix(). The text in the spin box is retrieved with text() (which includes any prefix() and suffix()), or with cleanText() (which has no prefix(), no suffix() and no leading or trailing whitespace). It is often desirable to give the user a special (often default) choice in addition to the range of numeric values. See setSpecialValueText() for how to do this with QDoubleSpinBox. \sa QSpinBox, QDateTimeEdit, QSlider, {Spin Boxes Example} */ /*! \fn void QDoubleSpinBox::valueChanged(double d); This signal is emitted whenever the spin box's value is changed. The new value is passed in \a d. */ /*! \fn void QDoubleSpinBox::valueChanged(const QString &text); \overload The new value is passed literally in \a text with no prefix() or suffix(). */ /*! Constructs a spin box with 0.0 as minimum value and 99.99 as maximum value, a step value of 1.0 and a precision of 2 decimal places. The value is initially set to 0.00. The spin box has the given \a parent. \sa setMinimum(), setMaximum(), setSingleStep() */ QDoubleSpinBox::QDoubleSpinBox(QWidget *parent) : QAbstractSpinBox(*new QDoubleSpinBoxPrivate(parent), parent) { } /*! \property QDoubleSpinBox::value \brief the value of the spin box setValue() will emit valueChanged() if the new value is different from the old one. Note: The value will be rounded so it can be displayed with the current setting of decimals. \sa decimals */ double QDoubleSpinBox::value() const { Q_D(const QDoubleSpinBox); return d->value.toDouble(); } void QDoubleSpinBox::setValue(double value) { Q_D(QDoubleSpinBox); QVariant v(d->round(value)); d->setValue(v, EmitIfChanged); } /*! \property QDoubleSpinBox::prefix \brief the spin box's prefix The prefix is prepended to the start of the displayed value. Typical use is to display a unit of measurement or a currency symbol. For example: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 4 To turn off the prefix display, set this property to an empty string. The default is no prefix. The prefix is not displayed when value() == minimum() and specialValueText() is set. If no prefix is set, prefix() returns an empty string. \sa suffix(), setSuffix(), specialValueText(), setSpecialValueText() */ QString QDoubleSpinBox::prefix() const { Q_D(const QDoubleSpinBox); return d->prefix; } void QDoubleSpinBox::setPrefix(const QString &prefix) { Q_D(QDoubleSpinBox); d->prefix = prefix; d->updateEdit(); } /*! \property QDoubleSpinBox::suffix \brief the suffix of the spin box The suffix is appended to the end of the displayed value. Typical use is to display a unit of measurement or a currency symbol. For example: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 5 To turn off the suffix display, set this property to an empty string. The default is no suffix. The suffix is not displayed for the minimum() if specialValueText() is set. If no suffix is set, suffix() returns an empty string. \sa prefix(), setPrefix(), specialValueText(), setSpecialValueText() */ QString QDoubleSpinBox::suffix() const { Q_D(const QDoubleSpinBox); return d->suffix; } void QDoubleSpinBox::setSuffix(const QString &suffix) { Q_D(QDoubleSpinBox); d->suffix = suffix; d->updateEdit(); } /*! \property QDoubleSpinBox::cleanText \brief the text of the spin box excluding any prefix, suffix, or leading or trailing whitespace. \sa text, QDoubleSpinBox::prefix, QDoubleSpinBox::suffix */ QString QDoubleSpinBox::cleanText() const { Q_D(const QDoubleSpinBox); return d->stripped(d->edit->displayText()); } /*! \property QDoubleSpinBox::singleStep \brief the step value When the user uses the arrows to change the spin box's value the value will be incremented/decremented by the amount of the singleStep. The default value is 1.0. Setting a singleStep value of less than 0 does nothing. */ double QDoubleSpinBox::singleStep() const { Q_D(const QDoubleSpinBox); return d->singleStep.toDouble(); } void QDoubleSpinBox::setSingleStep(double value) { Q_D(QDoubleSpinBox); if (value >= 0) { d->singleStep = value; d->updateEdit(); } } /*! \property QDoubleSpinBox::minimum \brief the minimum value of the spin box When setting this property the \l maximum is adjusted if necessary to ensure that the range remains valid. The default minimum value is 0.0. Note: The minimum value will be rounded to match the decimals property. \sa decimals, setRange() specialValueText */ double QDoubleSpinBox::minimum() const { Q_D(const QDoubleSpinBox); return d->minimum.toDouble(); } void QDoubleSpinBox::setMinimum(double minimum) { Q_D(QDoubleSpinBox); const QVariant m(d->round(minimum)); d->setRange(m, (d->variantCompare(d->maximum, m) > 0 ? d->maximum : m)); } /*! \property QDoubleSpinBox::maximum \brief the maximum value of the spin box When setting this property the \l minimum is adjusted if necessary, to ensure that the range remains valid. The default maximum value is 99.99. Note: The maximum value will be rounded to match the decimals property. \sa decimals, setRange() */ double QDoubleSpinBox::maximum() const { Q_D(const QDoubleSpinBox); return d->maximum.toDouble(); } void QDoubleSpinBox::setMaximum(double maximum) { Q_D(QDoubleSpinBox); const QVariant m(d->round(maximum)); d->setRange((d->variantCompare(d->minimum, m) < 0 ? d->minimum : m), m); } /*! Convenience function to set the \a minimum and \a maximum values with a single function call. Note: The maximum and minimum values will be rounded to match the decimals property. \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 6 is equivalent to: \snippet doc/src/snippets/code/src_gui_widgets_qspinbox.cpp 7 \sa minimum maximum */ void QDoubleSpinBox::setRange(double minimum, double maximum) { Q_D(QDoubleSpinBox); d->setRange(QVariant(d->round(minimum)), QVariant(d->round(maximum))); } /*! \property QDoubleSpinBox::decimals \brief the precision of the spin box, in decimals Sets how many decimals the spinbox will use for displaying and interpreting doubles. \warning The results might not be reliable with very high values for \a decimals. Note: The maximum, minimum and value might change as a result of changing this property. */ int QDoubleSpinBox::decimals() const { Q_D(const QDoubleSpinBox); return d->decimals; } void QDoubleSpinBox::setDecimals(int decimals) { Q_D(QDoubleSpinBox); d->decimals = qMax(0, decimals); setRange(minimum(), maximum()); // make sure values are rounded setValue(value()); } /*! This virtual function is used by the spin box whenever it needs to display the given \a value. The default implementation returns a string containing \a value printed using QWidget::locale().toString(\a value, QLatin1Char('f'), decimals()) and will remove the thousand separator. Reimplementations may return anything. Note: QDoubleSpinBox does not call this function for specialValueText() and that neither prefix() nor suffix() should be included in the return value. If you reimplement this, you may also need to reimplement valueFromText(). \sa valueFromText() */ QString QDoubleSpinBox::textFromValue(double value) const { Q_D(const QDoubleSpinBox); QString str = locale().toString(value, 'f', d->decimals); if (qAbs(value) >= 1000.0) { str.remove(d->thousand); } return str; } /*! This virtual function is used by the spin box whenever it needs to interpret \a text entered by the user as a value. Subclasses that need to display spin box values in a non-numeric way need to reimplement this function. Note: QDoubleSpinBox handles specialValueText() separately; this function is only concerned with the other values. \sa textFromValue(), validate() */ double QDoubleSpinBox::valueFromText(const QString &text) const { Q_D(const QDoubleSpinBox); QString copy = text; int pos = d->edit->cursorPosition(); QValidator::State state = QValidator::Acceptable; return d->validateAndInterpret(copy, pos, state).toDouble(); } /*! \reimp */ QValidator::State QDoubleSpinBox::validate(QString &text, int &pos) const { Q_D(const QDoubleSpinBox); QValidator::State state; d->validateAndInterpret(text, pos, state); return state; } /*! \reimp */ void QDoubleSpinBox::fixup(QString &input) const { Q_D(const QDoubleSpinBox); input.remove(d->thousand); } // --- QSpinBoxPrivate --- /*! \internal Constructs a QSpinBoxPrivate object */ QSpinBoxPrivate::QSpinBoxPrivate(QWidget *parent) { minimum = QVariant((int)0); maximum = QVariant((int)99); value = minimum; singleStep = QVariant((int)1); type = QVariant::Int; const QString str = (parent ? parent->locale() : QLocale()).toString(4567); if (str.size() == 5) { thousand = QChar(str.at(1)); } } /*! \internal \reimp */ void QSpinBoxPrivate::emitSignals(EmitPolicy ep, const QVariant &old) { Q_Q(QSpinBox); if (ep != NeverEmit) { pendingEmit = false; if (ep == AlwaysEmit || value != old) { emit q->valueChanged(edit->displayText()); emit q->valueChanged(value.toInt()); } } } /*! \internal \reimp */ QString QSpinBoxPrivate::textFromValue(const QVariant &value) const { Q_Q(const QSpinBox); return q->textFromValue(value.toInt()); } /*! \internal \reimp */ QVariant QSpinBoxPrivate::valueFromText(const QString &text) const { Q_Q(const QSpinBox); return QVariant(q->valueFromText(text)); } /*! \internal Return true if str can become a number which is between minimum and maximum or false if this is not possible. */ bool QSpinBoxPrivate::isIntermediateValue(const QString &str) const { const int num = q_func()->locale().toInt(str, 0, 10); const int min = minimum.toInt(); const int max = maximum.toInt(); int numDigits = 0; int digits[10]; int tmp = num; if (tmp == 0) { numDigits = 1; digits[0] = 0; } else { tmp = num; for (int i=0; tmp != 0; ++i) { digits[numDigits++] = qAbs(tmp % 10); tmp /= 10; } } int failures = 0; for (int number=min; /*number<=max*/; ++number) { tmp = number; for (int i=0; tmp != 0;) { if (digits[i] == qAbs(tmp % 10)) { if (++i == numDigits) return true; } tmp /= 10; } if (failures++ == 500000) //upper bound return true; if (number == max) // needed for INT_MAX break; } return false; } /*! \internal Multi purpose function that parses input, sets state to the appropriate state and returns the value it will be interpreted as. */ QVariant QSpinBoxPrivate::validateAndInterpret(QString &input, int &pos, QValidator::State &state) const { if (cachedText == input && !input.isEmpty()) { state = cachedState; QSBDEBUG() << "cachedText was" << "'" << cachedText << "'" << "state was " << state << " and value was " << cachedValue; return cachedValue; } const int max = maximum.toInt(); const int min = minimum.toInt(); QString copy = stripped(input, &pos); QSBDEBUG() << "input" << input << "copy" << copy; state = QValidator::Acceptable; int num = min; if (max != min && (copy.isEmpty() || (min < 0 && copy == QLatin1String("-")) || (min >= 0 && copy == QLatin1String("+")))) { state = QValidator::Intermediate; QSBDEBUG() << __FILE__ << __LINE__<< "num is set to" << num; } else if (copy.startsWith(QLatin1String("-")) && min >= 0) { state = QValidator::Invalid; // special-case -0 will be interpreted as 0 and thus not be invalid with a range from 0-100 } else { bool ok = false; bool removedThousand = false; num = q_func()->locale().toInt(copy, &ok, 10); if (!ok && copy.contains(thousand) && (max >= 1000 || min <= -1000)) { const int s = copy.size(); copy.remove(thousand); pos = qMax(0, pos - (s - copy.size())); removedThousand = true; num = q_func()->locale().toInt(copy, &ok, 10); } QSBDEBUG() << __FILE__ << __LINE__<< "num is set to" << num; if (!ok) { state = QValidator::Invalid; } else if (num >= min && num <= max) { state = removedThousand ? QValidator::Intermediate : QValidator::Acceptable; } else if (max == min) { state = QValidator::Invalid; } else { if ((num >= 0 && num > max) || (num < 0 && num < min)) { state = QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; } else { state = isIntermediateValue(copy) ? QValidator::Intermediate : QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to " << (state == QValidator::Intermediate ? "Intermediate" : "Acceptable"); } } } if (state != QValidator::Acceptable) num = max > 0 ? min : max; input = prefix + copy + suffix; cachedText = input; cachedState = state; cachedValue = QVariant((int)num); QSBDEBUG() << "cachedText is set to '" << cachedText << "' state is set to " << state << " and value is set to " << cachedValue; return cachedValue; } // --- QDoubleSpinBoxPrivate --- /*! \internal Constructs a QSpinBoxPrivate object */ QDoubleSpinBoxPrivate::QDoubleSpinBoxPrivate(QWidget *parent) { minimum = QVariant(0.0); maximum = QVariant(99.99); value = minimum; singleStep = QVariant(1.0); decimals = 2; type = QVariant::Double; const QString str = (parent ? parent->locale() : QLocale()).toString(4567.1); if (str.size() == 6) { delimiter = str.at(4); thousand = QChar((ushort)0); } else if (str.size() == 7) { thousand = str.at(1); delimiter = str.at(5); } Q_ASSERT(!delimiter.isNull()); } /*! \internal \reimp */ void QDoubleSpinBoxPrivate::emitSignals(EmitPolicy ep, const QVariant &old) { Q_Q(QDoubleSpinBox); if (ep != NeverEmit) { pendingEmit = false; if (ep == AlwaysEmit || value != old) { emit q->valueChanged(edit->displayText()); emit q->valueChanged(value.toDouble()); } } } bool QDoubleSpinBoxPrivate::isIntermediateValue(const QString &str) const { QSBDEBUG() << "input is" << str << minimum << maximum; qint64 dec = 1; for (int i=0; i= 0 && max_left < 0 && !str.startsWith(QLatin1Char('-'))) || (left < 0 && min_left >= 0)) { QSBDEBUG("returns false 0"); return false; } qint64 match = min_left; if (doleft && !isIntermediateValueHelper(left, min_left, max_left, &match)) { QSBDEBUG() << __FILE__ << __LINE__ << "returns false"; return false; } if (doright) { QSBDEBUG("match %lld min_left %lld max_left %lld", match, min_left, max_left); if (!doleft) { if (min_left == max_left) { const bool ret = isIntermediateValueHelper(qAbs(left), negative ? max_right : min_right, negative ? min_right : max_right); QSBDEBUG() << __FILE__ << __LINE__ << "returns" << ret; return ret; } else if (qAbs(max_left - min_left) == 1) { const bool ret = isIntermediateValueHelper(qAbs(left), min_right, negative ? 0 : dec) || isIntermediateValueHelper(qAbs(left), negative ? dec : 0, max_right); QSBDEBUG() << __FILE__ << __LINE__ << "returns" << ret; return ret; } else { const bool ret = isIntermediateValueHelper(qAbs(left), 0, dec); QSBDEBUG() << __FILE__ << __LINE__ << "returns" << ret; return ret; } } if (match != min_left) { min_right = negative ? dec : 0; } if (match != max_left) { max_right = negative ? 0 : dec; } qint64 tmpl = negative ? max_right : min_right; qint64 tmpr = negative ? min_right : max_right; const bool ret = isIntermediateValueHelper(right, tmpl, tmpr); QSBDEBUG() << __FILE__ << __LINE__ << "returns" << ret; return ret; } QSBDEBUG() << __FILE__ << __LINE__ << "returns true"; return true; } /*! \internal \reimp */ QVariant QDoubleSpinBoxPrivate::valueFromText(const QString &f) const { Q_Q(const QDoubleSpinBox); return QVariant(q->valueFromText(f)); } /*! \internal Rounds to a double value that is restricted to decimals. E.g. // decimals = 2 round(5.555) => 5.56 */ double QDoubleSpinBoxPrivate::round(double value) const { Q_Q(const QDoubleSpinBox); const QString strDbl = q->locale().toString(value, 'f', decimals); return q->locale().toDouble(strDbl); } /*! \internal Multi purpose function that parses input, sets state to the appropriate state and returns the value it will be interpreted as. */ QVariant QDoubleSpinBoxPrivate::validateAndInterpret(QString &input, int &pos, QValidator::State &state) const { if (cachedText == input && !input.isEmpty()) { state = cachedState; QSBDEBUG() << "cachedText was" << "'" << cachedText << "'" << "state was " << state << " and value was " << cachedValue; return cachedValue; } const double max = maximum.toDouble(); const double min = minimum.toDouble(); QString copy = stripped(input, &pos); QSBDEBUG() << "input" << input << "copy" << copy; int len = copy.size(); double num = min; const bool plus = max >= 0; const bool minus = min <= 0; switch (len) { case 0: state = max != min ? QValidator::Intermediate : QValidator::Invalid; goto end; case 1: if (copy.at(0) == delimiter || (plus && copy.at(0) == QLatin1Char('+')) || (minus && copy.at(0) == QLatin1Char('-'))) { state = QValidator::Intermediate; goto end; } break; case 2: if (copy.at(1) == delimiter && ((plus && copy.at(0) == QLatin1Char('+')) || (minus && copy.at(0) == QLatin1Char('-')))) { state = QValidator::Intermediate; goto end; } break; default: break; } if (copy.at(0) == thousand) { QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; state = QValidator::Invalid; goto end; } else if (len > 1) { const int dec = copy.indexOf(delimiter); if (dec != -1) { if (dec + 1 < copy.size() && copy.at(dec + 1) == delimiter && pos == dec + 1) { copy.remove(dec + 1, 1); // typing a delimiter when you are on the delimiter } // should be treated as typing right arrow if (copy.size() - dec > decimals + 1) { QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; state = QValidator::Invalid; goto end; } for (int i=dec + 1; ilocale()); num = loc.toDouble(copy, &ok); QSBDEBUG() << __FILE__ << __LINE__ << loc << copy << num << ok; bool notAcceptable = false; if (!ok) { if (thousand.isPrint()) { if (max < 1000 && min > -1000 && copy.contains(thousand)) { state = QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; goto end; } const int len = copy.size(); for (int i=0; i= min && num <= max) { state = notAcceptable ? QValidator::Intermediate : QValidator::Acceptable; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to " << (state == QValidator::Intermediate ? "Intermediate" : "Acceptable"); } else if (max == min) { // when max and min is the same the only non-Invalid input is max (or min) state = QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; } else { if ((num >= 0 && num > max) || (num < 0 && num < min)) { state = QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to Invalid"; } else { state = isIntermediateValue(copy) ? QValidator::Intermediate : QValidator::Invalid; QSBDEBUG() << __FILE__ << __LINE__<< "state is set to " << (state == QValidator::Intermediate ? "Intermediate" : "Acceptable"); } } } end: if (state != QValidator::Acceptable) { num = max > 0 ? min : max; } input = prefix + copy + suffix; cachedText = input; cachedState = state; cachedValue = QVariant(num); return QVariant(num); } /* \internal \reimp */ QString QDoubleSpinBoxPrivate::textFromValue(const QVariant &f) const { Q_Q(const QDoubleSpinBox); return q->textFromValue(f.toDouble()); } /*! \fn void QSpinBox::setLineStep(int step) Use setSingleStep() instead. */ /*! \fn void QSpinBox::setMaxValue(int value) Use setMaximum() instead. */ /*! \fn void QSpinBox::setMinValue(int value) Use setMinimum() instead. */ /*! \fn int QSpinBox::maxValue() const Use maximum() instead. */ /*! \fn int QSpinBox::minValue() const Use minimum() instead. */ /*! \internal Returns whether \a str is a string which value cannot be parsed but still might turn into something valid. */ static bool isIntermediateValueHelper(qint64 num, qint64 min, qint64 max, qint64 *match) { QSBDEBUG("%lld %lld %lld", num, min, max); if (num >= min && num <= max) { if (match) *match = num; QSBDEBUG("returns true 0"); return true; } qint64 tmp = num; int numDigits = 0; int digits[10]; if (tmp == 0) { numDigits = 1; digits[0] = 0; } else { tmp = qAbs(num); for (int i=0; tmp > 0; ++i) { digits[numDigits++] = tmp % 10; tmp /= 10; } } int failures = 0; qint64 number; for (number=max; number>=min; --number) { tmp = qAbs(number); for (int i=0; tmp > 0;) { if (digits[i] == (tmp % 10)) { if (++i == numDigits) { if (match) *match = number; QSBDEBUG("returns true 1"); return true; } } tmp /= 10; } if (failures++ == 500000) { //upper bound if (match) *match = num; QSBDEBUG("returns true 2"); return true; } } QSBDEBUG("returns false"); return false; } /*! \reimp */ bool QSpinBox::event(QEvent *event) { Q_D(QSpinBox); if (event->type() == QEvent::StyleChange #ifdef Q_WS_MAC || event->type() == QEvent::MacSizeChange #endif ) d->setLayoutItemMargins(QStyle::SE_SpinBoxLayoutItem); return QAbstractSpinBox::event(event); } QT_END_NAMESPACE #endif // QT_NO_SPINBOX