javafx.scene.control.SpinnerValueFactory Maven / Gradle / Ivy
/*
* Copyright (c) 2014, 2021, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package javafx.scene.control;
import javafx.beans.NamedArg;
import javafx.beans.property.BooleanProperty;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.IntegerProperty;
import javafx.beans.property.LongProperty;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.SimpleBooleanProperty;
import javafx.beans.property.SimpleDoubleProperty;
import javafx.beans.property.SimpleIntegerProperty;
import javafx.beans.property.SimpleLongProperty;
import javafx.beans.property.SimpleObjectProperty;
import javafx.collections.ListChangeListener;
import javafx.collections.ObservableList;
import javafx.collections.WeakListChangeListener;
import javafx.util.StringConverter;
import javafx.util.converter.IntegerStringConverter;
import java.lang.ref.WeakReference;
import java.math.BigDecimal;
import java.text.DecimalFormat;
import java.text.ParseException;
import java.time.Duration;
import java.time.LocalDate;
import java.time.LocalTime;
import java.time.format.DateTimeFormatter;
import java.time.format.FormatStyle;
import java.time.temporal.ChronoUnit;
import java.time.temporal.TemporalUnit;
import java.util.List;
/**
* The SpinnerValueFactory is the model behind the JavaFX
* {@link Spinner Spinner control} - without a value factory installed a
* Spinner is unusable. It is the role of the value factory to handle almost all
* aspects of the Spinner, including:
*
*
* - Representing the current state of the {@link javafx.scene.control.SpinnerValueFactory#valueProperty() value},
* - {@link SpinnerValueFactory#increment(int) Incrementing}
* and {@link SpinnerValueFactory#decrement(int) decrementing} the
* value, with one or more steps per call,
* - {@link javafx.scene.control.SpinnerValueFactory#converterProperty() Converting} text input
* from the user (via the Spinner {@link Spinner#editorProperty() editor},
* - Converting {@link javafx.scene.control.SpinnerValueFactory#converterProperty() objects to user-readable strings}
* for display on screen
*
*
* SpinnerValueFactory classes for some common types are provided with JavaFX, including:
*
*
* - {@link SpinnerValueFactory.IntegerSpinnerValueFactory}
* - {@link SpinnerValueFactory.DoubleSpinnerValueFactory}
* - {@link SpinnerValueFactory.ListSpinnerValueFactory}
*
*
* @param The type of the data this value factory deals with, which must
* coincide with the type of the Spinner that the value factory is set on.
* @see Spinner
* @see SpinnerValueFactory.IntegerSpinnerValueFactory
* @see SpinnerValueFactory.DoubleSpinnerValueFactory
* @see SpinnerValueFactory.ListSpinnerValueFactory
* @since JavaFX 8u40
*/
public abstract class SpinnerValueFactory {
/**
* Creates a default SpinnerValueFactory.
*/
public SpinnerValueFactory() {}
/* *************************************************************************
* *
* Private fields *
* *
**************************************************************************/
/* *************************************************************************
* *
* Abstract methods *
* *
**************************************************************************/
/**
* Attempts to decrement the {@link #valueProperty() value} by the given
* number of steps.
*
* @param steps The number of decrements that should be performed on the value.
*/
public abstract void decrement(int steps);
/**
* Attempts to omcrement the {@link #valueProperty() value} by the given
* number of steps.
*
* @param steps The number of increments that should be performed on the value.
*/
public abstract void increment(int steps);
/* *************************************************************************
* *
* Properties *
* *
**************************************************************************/
// --- value
/**
* Represents the current value of the SpinnerValueFactory, or null if no
* value has been set.
*/
private ObjectProperty value = new SimpleObjectProperty<>(this, "value");
public final T getValue() {
return value.get();
}
public final void setValue(T newValue) {
value.set(newValue);
}
public final ObjectProperty valueProperty() {
return value;
}
// --- converter
/**
* Converts the user-typed input (when the Spinner is
* {@link Spinner#editableProperty() editable}) to an object of type T,
* such that the input may be retrieved via the {@link #valueProperty() value}
* property.
*/
private ObjectProperty> converter = new SimpleObjectProperty<>(this, "converter");
public final StringConverter getConverter() {
return converter.get();
}
public final void setConverter(StringConverter newValue) {
converter.set(newValue);
}
public final ObjectProperty> converterProperty() {
return converter;
}
// --- wrapAround
/**
* The wrapAround property is used to specify whether the value factory should
* be circular. For example, should an integer-based value model increment
* from the maximum value back to the minimum value (and vice versa).
*/
private BooleanProperty wrapAround;
public final void setWrapAround(boolean value) {
wrapAroundProperty().set(value);
}
public final boolean isWrapAround() {
return wrapAround == null ? false : wrapAround.get();
}
public final BooleanProperty wrapAroundProperty() {
if (wrapAround == null) {
wrapAround = new SimpleBooleanProperty(this, "wrapAround", false);
}
return wrapAround;
}
/* *************************************************************************
* *
* Subclasses of SpinnerValueFactory *
* *
**************************************************************************/
/**
* A {@link javafx.scene.control.SpinnerValueFactory} implementation designed to iterate through
* a list of values.
*
* Note that the default {@link #converterProperty() converter} is implemented
* simply as shown below, which may be adequate in many cases, but it is important
* for users to ensure that this suits their needs (and adjust when necessary):
*
*
* setConverter(new StringConverter<T>() {
* @Override public String toString(T value) {
* if (value == null) {
* return "";
* }
* return value.toString();
* }
*
* @Override public T fromString(String string) {
* return (T) string;
* }
* });
*
* @param The type of the elements in the {@link java.util.List}.
* @since JavaFX 8u40
*/
public static class ListSpinnerValueFactory extends SpinnerValueFactory {
/* *********************************************************************
* *
* Private fields *
* *
**********************************************************************/
private int currentIndex = 0;
private final ListChangeListener itemsContentObserver = c -> {
// the items content has changed. We do not try to find the current
// item, instead we remain at the currentIndex, if possible, or else
// we go back to index 0, and if that fails, we go to null
updateCurrentIndex();
};
private WeakListChangeListener weakItemsContentObserver =
new WeakListChangeListener(itemsContentObserver);
/* *********************************************************************
* *
* Constructors *
* *
**********************************************************************/
/**
* Creates a new instance of the ListSpinnerValueFactory with the given
* list used as the list to step through.
*
* @param items The list of items to step through with the Spinner.
*/
public ListSpinnerValueFactory(@NamedArg("items") ObservableList items) {
setItems(items);
setConverter(new StringConverter() {
@Override public String toString(T value) {
if (value == null) {
return "";
}
return value.toString();
}
@Override public T fromString(String string) {
return (T) string;
}
});
valueProperty().addListener((o, oldValue, newValue) -> {
// when the value is set, we need to react to ensure it is a
// valid value (and if not, blow up appropriately)
int newIndex = -1;
if (items.contains(newValue)) {
newIndex = items.indexOf(newValue);
} else {
// add newValue to list
items.add(newValue);
newIndex = items.indexOf(newValue);
}
currentIndex = newIndex;
});
setValue(_getValue(currentIndex));
}
/* *********************************************************************
* *
* Properties *
* *
**********************************************************************/
// --- Items
private ObjectProperty> items;
/**
* Sets the underlying data model for the ListSpinnerValueFactory. Note that it has a generic
* type that must match the type of the Spinner itself.
* @param value the list of items
*/
public final void setItems(ObservableList value) {
itemsProperty().set(value);
}
/**
* Returns an {@link javafx.collections.ObservableList} that contains the items currently able
* to be iterated through by the user. This may be null if
* {@link #setItems(javafx.collections.ObservableList)} has previously been
* called, however, by default it is an empty ObservableList.
*
* @return An ObservableList containing the items to be shown to the user, or
* null if the items have previously been set to null.
*/
public final ObservableList getItems() {
return items == null ? null : items.get();
}
/**
* The underlying data model for the ListView. Note that it has a generic
* type that must match the type of the ListView itself.
* @return the list of items
*/
public final ObjectProperty> itemsProperty() {
if (items == null) {
items = new SimpleObjectProperty>(this, "items") {
WeakReference> oldItemsRef;
@Override protected void invalidated() {
ObservableList oldItems = oldItemsRef == null ? null : oldItemsRef.get();
ObservableList newItems = getItems();
// update listeners
if (oldItems != null) {
oldItems.removeListener(weakItemsContentObserver);
}
if (newItems != null) {
newItems.addListener(weakItemsContentObserver);
}
// update the current value based on the index
updateCurrentIndex();
oldItemsRef = new WeakReference<>(getItems());
}
};
}
return items;
}
/* *********************************************************************
* *
* Overridden methods *
* *
**********************************************************************/
/** {@inheritDoc} */
@Override public void decrement(int steps) {
final int max = getItemsSize() - 1;
int newIndex = currentIndex - steps;
currentIndex = newIndex >= 0 ? newIndex : (isWrapAround() ? Spinner.wrapValue(newIndex, 0, max + 1) : 0);
setValue(_getValue(currentIndex));
}
/** {@inheritDoc} */
@Override public void increment(int steps) {
final int max = getItemsSize() - 1;
int newIndex = currentIndex + steps;
currentIndex = newIndex <= max ? newIndex : (isWrapAround() ? Spinner.wrapValue(newIndex, 0, max + 1) : max);
setValue(_getValue(currentIndex));
}
/* *********************************************************************
* *
* Private implementation *
* *
**********************************************************************/
private int getItemsSize() {
List items = getItems();
return items == null ? 0 : items.size();
}
private void updateCurrentIndex() {
int itemsSize = getItemsSize();
if (currentIndex < 0 || currentIndex >= itemsSize) {
currentIndex = 0;
}
setValue(_getValue(currentIndex));
}
private T _getValue(int index) {
List items = getItems();
return items == null ? null : (index >= 0 && index < items.size()) ? items.get(index) : null;
}
}
/**
* A {@link javafx.scene.control.SpinnerValueFactory} implementation designed to iterate through
* integer values.
*
* Note that the default {@link #converterProperty() converter} is implemented
* as an {@link javafx.util.converter.IntegerStringConverter} instance.
*
* @since JavaFX 8u40
*/
public static class IntegerSpinnerValueFactory extends SpinnerValueFactory {
/* *********************************************************************
* *
* Constructors *
* *
**********************************************************************/
/**
* Constructs a new IntegerSpinnerValueFactory that sets the initial value
* to be equal to the min value, and a default {@code amountToStepBy} of one.
*
* @param min The minimum allowed integer value for the Spinner.
* @param max The maximum allowed integer value for the Spinner.
*/
public IntegerSpinnerValueFactory(@NamedArg("min") int min,
@NamedArg("max") int max) {
this(min, max, min);
}
/**
* Constructs a new IntegerSpinnerValueFactory with a default
* {@code amountToStepBy} of one.
*
* @param min The minimum allowed integer value for the Spinner.
* @param max The maximum allowed integer value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated, must
* be within the bounds of the min and max arguments, or
* else the min value will be used.
*/
public IntegerSpinnerValueFactory(@NamedArg("min") int min,
@NamedArg("max") int max,
@NamedArg("initialValue") int initialValue) {
this(min, max, initialValue, 1);
}
/**
* Constructs a new IntegerSpinnerValueFactory.
*
* @param min The minimum allowed integer value for the Spinner.
* @param max The maximum allowed integer value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated, must
* be within the bounds of the min and max arguments, or
* else the min value will be used.
* @param amountToStepBy The amount to increment or decrement by, per step.
*/
public IntegerSpinnerValueFactory(@NamedArg("min") int min,
@NamedArg("max") int max,
@NamedArg("initialValue") int initialValue,
@NamedArg("amountToStepBy") int amountToStepBy) {
setMin(min);
setMax(max);
setAmountToStepBy(amountToStepBy);
setConverter(new IntegerStringConverter());
valueProperty().addListener((o, oldValue, newValue) -> {
// when the value is set, we need to react to ensure it is a
// valid value (and if not, blow up appropriately)
if (newValue < getMin()) {
setValue(getMin());
} else if (newValue > getMax()) {
setValue(getMax());
}
});
setValue(initialValue >= min && initialValue <= max ? initialValue : min);
}
/* *********************************************************************
* *
* Properties *
* *
**********************************************************************/
// --- min
private IntegerProperty min = new SimpleIntegerProperty(this, "min") {
@Override protected void invalidated() {
Integer currentValue = IntegerSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
int newMin = get();
if (newMin > getMax()) {
setMin(getMax());
return;
}
if (currentValue < newMin) {
IntegerSpinnerValueFactory.this.setValue(newMin);
}
}
};
public final void setMin(int value) {
min.set(value);
}
public final int getMin() {
return min.get();
}
/**
* Sets the minimum allowable value for this value factory
* @return the minimum allowable value for this value factory
*/
public final IntegerProperty minProperty() {
return min;
}
// --- max
private IntegerProperty max = new SimpleIntegerProperty(this, "max") {
@Override protected void invalidated() {
Integer currentValue = IntegerSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
int newMax = get();
if (newMax < getMin()) {
setMax(getMin());
return;
}
if (currentValue > newMax) {
IntegerSpinnerValueFactory.this.setValue(newMax);
}
}
};
public final void setMax(int value) {
max.set(value);
}
public final int getMax() {
return max.get();
}
/**
* Sets the maximum allowable value for this value factory
* @return the maximum allowable value for this value factory
*/
public final IntegerProperty maxProperty() {
return max;
}
// --- amountToStepBy
private IntegerProperty amountToStepBy = new SimpleIntegerProperty(this, "amountToStepBy");
public final void setAmountToStepBy(int value) {
amountToStepBy.set(value);
}
public final int getAmountToStepBy() {
return amountToStepBy.get();
}
/**
* Sets the amount to increment or decrement by, per step.
* @return the amount to increment or decrement by, per step
*/
public final IntegerProperty amountToStepByProperty() {
return amountToStepBy;
}
/* *********************************************************************
* *
* Overridden methods *
* *
**********************************************************************/
/** {@inheritDoc} */
@Override public void decrement(int steps) {
final int min = getMin();
final int max = getMax();
final int newIndex = getValue() - steps * getAmountToStepBy();
setValue(newIndex >= min ? newIndex : (isWrapAround() ? Spinner.wrapValue(newIndex, min, max) + 1 : min));
}
/** {@inheritDoc} */
@Override public void increment(int steps) {
final int min = getMin();
final int max = getMax();
final int currentValue = getValue();
final int newIndex = currentValue + steps * getAmountToStepBy();
setValue(newIndex <= max ? newIndex : (isWrapAround() ? Spinner.wrapValue(newIndex, min, max) - 1 : max));
}
}
/**
* A {@link javafx.scene.control.SpinnerValueFactory} implementation designed to iterate through
* double values.
*
* Note that the default {@link #converterProperty() converter} is implemented
* simply as shown below, which may be adequate in many cases, but it is important
* for users to ensure that this suits their needs (and adjust when necessary). The
* main point to note is that this {@link javafx.util.StringConverter} embeds
* within it a {@link java.text.DecimalFormat} instance that shows the Double
* to two decimal places. This is used for both the toString and fromString
* methods:
*
*
* setConverter(new StringConverter<Double>() {
* private final DecimalFormat df = new DecimalFormat("#.##");
*
* @Override public String toString(Double value) {
* // If the specified value is null, return a zero-length String
* if (value == null) {
* return "";
* }
*
* return df.format(value);
* }
*
* @Override public Double fromString(String value) {
* try {
* // If the specified value is null or zero-length, return null
* if (value == null) {
* return null;
* }
*
* value = value.trim();
*
* if (value.length() < 1) {
* return null;
* }
*
* // Perform the requested parsing
* return df.parse(value).doubleValue();
* } catch (ParseException ex) {
* throw new RuntimeException(ex);
* }
* }
* });
*
* @since JavaFX 8u40
*/
public static class DoubleSpinnerValueFactory extends SpinnerValueFactory {
/**
* Constructs a new DoubleSpinnerValueFactory that sets the initial value
* to be equal to the min value, and a default {@code amountToStepBy} of
* one.
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
*/
public DoubleSpinnerValueFactory(@NamedArg("min") double min,
@NamedArg("max") double max) {
this(min, max, min);
}
/**
* Constructs a new DoubleSpinnerValueFactory with a default
* {@code amountToStepBy} of one.
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated, must
* be within the bounds of the min and max arguments, or
* else the min value will be used.
*/
public DoubleSpinnerValueFactory(@NamedArg("min") double min,
@NamedArg("max") double max,
@NamedArg("initialValue") double initialValue) {
this(min, max, initialValue, 1);
}
/**
* Constructs a new DoubleSpinnerValueFactory.
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated, must
* be within the bounds of the min and max arguments, or
* else the min value will be used.
* @param amountToStepBy The amount to increment or decrement by, per step.
*/
public DoubleSpinnerValueFactory(@NamedArg("min") double min,
@NamedArg("max") double max,
@NamedArg("initialValue") double initialValue,
@NamedArg("amountToStepBy") double amountToStepBy) {
setMin(min);
setMax(max);
setAmountToStepBy(amountToStepBy);
setConverter(new StringConverter() {
private final DecimalFormat df = new DecimalFormat("#.##");
@Override public String toString(Double value) {
// If the specified value is null, return a zero-length String
if (value == null) {
return "";
}
return df.format(value);
}
@Override public Double fromString(String value) {
try {
// If the specified value is null or zero-length, return null
if (value == null) {
return null;
}
value = value.trim();
if (value.length() < 1) {
return null;
}
// Perform the requested parsing
return df.parse(value).doubleValue();
} catch (ParseException ex) {
throw new RuntimeException(ex);
}
}
});
valueProperty().addListener((o, oldValue, newValue) -> {
if (newValue == null) return;
// when the value is set, we need to react to ensure it is a
// valid value (and if not, blow up appropriately)
if (newValue < getMin()) {
setValue(getMin());
} else if (newValue > getMax()) {
setValue(getMax());
}
});
setValue(initialValue >= min && initialValue <= max ? initialValue : min);
}
/* *********************************************************************
* *
* Properties *
* *
**********************************************************************/
// --- min
private DoubleProperty min = new SimpleDoubleProperty(this, "min") {
@Override protected void invalidated() {
Double currentValue = DoubleSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final double newMin = get();
if (newMin > getMax()) {
setMin(getMax());
return;
}
if (currentValue < newMin) {
DoubleSpinnerValueFactory.this.setValue(newMin);
}
}
};
public final void setMin(double value) {
min.set(value);
}
public final double getMin() {
return min.get();
}
/**
* Sets the minimum allowable value for this value factory
* @return the minimum allowable value for this value factory
*/
public final DoubleProperty minProperty() {
return min;
}
// --- max
private DoubleProperty max = new SimpleDoubleProperty(this, "max") {
@Override protected void invalidated() {
Double currentValue = DoubleSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final double newMax = get();
if (newMax < getMin()) {
setMax(getMin());
return;
}
if (currentValue > newMax) {
DoubleSpinnerValueFactory.this.setValue(newMax);
}
}
};
public final void setMax(double value) {
max.set(value);
}
public final double getMax() {
return max.get();
}
/**
* Sets the maximum allowable value for this value factory
* @return the maximum allowable value for this value factory
*/
public final DoubleProperty maxProperty() {
return max;
}
// --- amountToStepBy
private DoubleProperty amountToStepBy = new SimpleDoubleProperty(this, "amountToStepBy");
public final void setAmountToStepBy(double value) {
amountToStepBy.set(value);
}
public final double getAmountToStepBy() {
return amountToStepBy.get();
}
/**
* Sets the amount to increment or decrement by, per step.
* @return the amount to increment or decrement by, per step
*/
public final DoubleProperty amountToStepByProperty() {
return amountToStepBy;
}
/** {@inheritDoc} */
@Override public void decrement(int steps) {
final BigDecimal currentValue = BigDecimal.valueOf(getValue());
final BigDecimal minBigDecimal = BigDecimal.valueOf(getMin());
final BigDecimal maxBigDecimal = BigDecimal.valueOf(getMax());
final BigDecimal amountToStepByBigDecimal = BigDecimal.valueOf(getAmountToStepBy());
BigDecimal newValue = currentValue.subtract(amountToStepByBigDecimal.multiply(BigDecimal.valueOf(steps)));
setValue(newValue.compareTo(minBigDecimal) >= 0 ? newValue.doubleValue() :
(isWrapAround() ? Spinner.wrapValue(newValue, minBigDecimal, maxBigDecimal).doubleValue() : getMin()));
}
/** {@inheritDoc} */
@Override public void increment(int steps) {
final BigDecimal currentValue = BigDecimal.valueOf(getValue());
final BigDecimal minBigDecimal = BigDecimal.valueOf(getMin());
final BigDecimal maxBigDecimal = BigDecimal.valueOf(getMax());
final BigDecimal amountToStepByBigDecimal = BigDecimal.valueOf(getAmountToStepBy());
BigDecimal newValue = currentValue.add(amountToStepByBigDecimal.multiply(BigDecimal.valueOf(steps)));
setValue(newValue.compareTo(maxBigDecimal) <= 0 ? newValue.doubleValue() :
(isWrapAround() ? Spinner.wrapValue(newValue, minBigDecimal, maxBigDecimal).doubleValue() : getMax()));
}
}
/**
* A {@link javafx.scene.control.SpinnerValueFactory} implementation designed to iterate through
* {@link java.time.LocalDate} values.
*
* Note that the default {@link #converterProperty() converter} is implemented
* simply as shown below, which may be adequate in many cases, but it is important
* for users to ensure that this suits their needs (and adjust when necessary):
*
*
* setConverter(new StringConverter<LocalDate>() {
* @Override public String toString(LocalDate object) {
* if (object == null) {
* return "";
* }
* return object.toString();
* }
*
* @Override public LocalDate fromString(String string) {
* return LocalDate.parse(string);
* }
* });
*/
static class LocalDateSpinnerValueFactory extends SpinnerValueFactory {
/**
* Creates a new instance of the LocalDateSpinnerValueFactory, using the
* value returned by calling {@code LocalDate#now()} as the initial value,
* and using a stepping amount of one day.
*/
public LocalDateSpinnerValueFactory() {
this(LocalDate.now());
}
/**
* Creates a new instance of the LocalDateSpinnerValueFactory, using the
* provided initial value, and a stepping amount of one day.
*
* @param initialValue The value of the Spinner when first instantiated.
*/
public LocalDateSpinnerValueFactory(@NamedArg("initialValue") LocalDate initialValue) {
this(LocalDate.MIN, LocalDate.MAX, initialValue);
}
/**
* Creates a new instance of the LocalDateSpinnerValueFactory, using the
* provided initial value, and a stepping amount of one day.
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated.
*/
public LocalDateSpinnerValueFactory(@NamedArg("min") LocalDate min,
@NamedArg("min") LocalDate max,
@NamedArg("initialValue") LocalDate initialValue) {
this(min, max, initialValue, 1, ChronoUnit.DAYS);
}
/**
* Creates a new instance of the LocalDateSpinnerValueFactory, using the
* provided min, max, and initial values, as well as the amount to step
* by and {@link java.time.temporal.TemporalUnit}.
*
* To better understand, here are a few examples:
*
*
* - To step by one day from today: {@code new LocalDateSpinnerValueFactory(LocalDate.MIN, LocalDate.MAX, LocalDate.now(), 1, ChronoUnit.DAYS)}
* - To step by one month from today: {@code new LocalDateSpinnerValueFactory(LocalDate.MIN, LocalDate.MAX, LocalDate.now(), 1, ChronoUnit.MONTHS)}
* - To step by one year from today: {@code new LocalDateSpinnerValueFactory(LocalDate.MIN, LocalDate.MAX, LocalDate.now(), 1, ChronoUnit.YEARS)}
*
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated.
* @param amountToStepBy The amount to increment or decrement by, per step.
* @param temporalUnit The size of each step (e.g. day, week, month, year, etc)
*/
public LocalDateSpinnerValueFactory(@NamedArg("min") LocalDate min,
@NamedArg("min") LocalDate max,
@NamedArg("initialValue") LocalDate initialValue,
@NamedArg("amountToStepBy") long amountToStepBy,
@NamedArg("temporalUnit") TemporalUnit temporalUnit) {
setMin(min);
setMax(max);
setAmountToStepBy(amountToStepBy);
setTemporalUnit(temporalUnit);
setConverter(new StringConverter() {
@Override public String toString(LocalDate object) {
if (object == null) {
return "";
}
return object.toString();
}
@Override public LocalDate fromString(String string) {
return LocalDate.parse(string);
}
});
valueProperty().addListener((o, oldValue, newValue) -> {
// when the value is set, we need to react to ensure it is a
// valid value (and if not, blow up appropriately)
if (getMin() != null && newValue.isBefore(getMin())) {
setValue(getMin());
} else if (getMax() != null && newValue.isAfter(getMax())) {
setValue(getMax());
}
});
setValue(initialValue != null ? initialValue : LocalDate.now());
}
/* *********************************************************************
* *
* Properties *
* *
**********************************************************************/
// --- min
private ObjectProperty min = new SimpleObjectProperty(this, "min") {
@Override protected void invalidated() {
LocalDate currentValue = LocalDateSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final LocalDate newMin = get();
if (newMin.isAfter(getMax())) {
setMin(getMax());
return;
}
if (currentValue.isBefore(newMin)) {
LocalDateSpinnerValueFactory.this.setValue(newMin);
}
}
};
public final void setMin(LocalDate value) {
min.set(value);
}
public final LocalDate getMin() {
return min.get();
}
/**
* Sets the minimum allowable value for this value factory
*/
public final ObjectProperty minProperty() {
return min;
}
// --- max
private ObjectProperty max = new SimpleObjectProperty(this, "max") {
@Override protected void invalidated() {
LocalDate currentValue = LocalDateSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final LocalDate newMax = get();
if (newMax.isBefore(getMin())) {
setMax(getMin());
return;
}
if (currentValue.isAfter(newMax)) {
LocalDateSpinnerValueFactory.this.setValue(newMax);
}
}
};
public final void setMax(LocalDate value) {
max.set(value);
}
public final LocalDate getMax() {
return max.get();
}
/**
* Sets the maximum allowable value for this value factory
*/
public final ObjectProperty maxProperty() {
return max;
}
// --- temporalUnit
private ObjectProperty temporalUnit = new SimpleObjectProperty<>(this, "temporalUnit");
public final void setTemporalUnit(TemporalUnit value) {
temporalUnit.set(value);
}
public final TemporalUnit getTemporalUnit() {
return temporalUnit.get();
}
/**
* The size of each step (e.g. day, week, month, year, etc).
*/
public final ObjectProperty temporalUnitProperty() {
return temporalUnit;
}
// --- amountToStepBy
private LongProperty amountToStepBy = new SimpleLongProperty(this, "amountToStepBy");
public final void setAmountToStepBy(long value) {
amountToStepBy.set(value);
}
public final long getAmountToStepBy() {
return amountToStepBy.get();
}
/**
* Sets the amount to increment or decrement by, per step.
*/
public final LongProperty amountToStepByProperty() {
return amountToStepBy;
}
/* *********************************************************************
* *
* Overridden methods *
* *
**********************************************************************/
/** {@inheritDoc} */
@Override public void decrement(int steps) {
final LocalDate currentValue = getValue();
final LocalDate min = getMin();
LocalDate newValue = currentValue.minus(getAmountToStepBy() * steps, getTemporalUnit());
if (min != null && isWrapAround() && newValue.isBefore(min)) {
// we need to wrap around
newValue = getMax();
}
setValue(newValue);
}
/** {@inheritDoc} */
@Override public void increment(int steps) {
final LocalDate currentValue = getValue();
final LocalDate max = getMax();
LocalDate newValue = currentValue.plus(getAmountToStepBy() * steps, getTemporalUnit());
if (max != null && isWrapAround() && newValue.isAfter(max)) {
// we need to wrap around
newValue = getMin();
}
setValue(newValue);
}
}
/**
* A {@link javafx.scene.control.SpinnerValueFactory} implementation designed to iterate through
* {@link java.time.LocalTime} values.
*
* Note that the default {@link #converterProperty() converter} is implemented
* simply as shown below, which may be adequate in many cases, but it is important
* for users to ensure that this suits their needs (and adjust when necessary):
*
*
* setConverter(new StringConverter<LocalTime>() {
* @Override public String toString(LocalTime object) {
* if (object == null) {
* return "";
* }
* return object.toString();
* }
*
* @Override public LocalTime fromString(String string) {
* return LocalTime.parse(string);
* }
* });
*/
static class LocalTimeSpinnerValueFactory extends SpinnerValueFactory {
/**
* Creates a new instance of the LocalTimepinnerValueFactory, using the
* value returned by calling {@code LocalTime#now()} as the initial value,
* and using a stepping amount of one day.
*/
public LocalTimeSpinnerValueFactory() {
this(LocalTime.now());
}
/**
* Creates a new instance of the LocalTimeSpinnerValueFactory, using the
* provided initial value, and a stepping amount of one hour.
*
* @param initialValue The value of the Spinner when first instantiated.
*/
public LocalTimeSpinnerValueFactory(@NamedArg("initialValue") LocalTime initialValue) {
this(LocalTime.MIN, LocalTime.MAX, initialValue);
}
/**
* Creates a new instance of the LocalTimeSpinnerValueFactory, using the
* provided initial value, and a stepping amount of one hour.
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated.
*/
public LocalTimeSpinnerValueFactory(@NamedArg("min") LocalTime min,
@NamedArg("min") LocalTime max,
@NamedArg("initialValue") LocalTime initialValue) {
this(min, max, initialValue, 1, ChronoUnit.HOURS);
}
/**
* Creates a new instance of the LocalTimeSpinnerValueFactory, using the
* provided min, max, and initial values, as well as the amount to step
* by and {@link java.time.temporal.TemporalUnit}.
*
* To better understand, here are a few examples:
*
*
* - To step by one hour from the current time: {@code new LocalTimeSpinnerValueFactory(LocalTime.MIN, LocalTime.MAX, LocalTime.now(), 1, ChronoUnit.HOURS)}
* - To step by one minute from the current time: {@code new LocalTimeSpinnerValueFactory(LocalTime.MIN, LocalTime.MAX, LocalTime.now(), 1, ChronoUnit.MINUTES)}
*
*
* @param min The minimum allowed double value for the Spinner.
* @param max The maximum allowed double value for the Spinner.
* @param initialValue The value of the Spinner when first instantiated.
* @param amountToStepBy The amount to increment or decrement by, per step.
* @param temporalUnit The size of each step (e.g. day, week, month, year, etc)
*/
public LocalTimeSpinnerValueFactory(@NamedArg("min") LocalTime min,
@NamedArg("min") LocalTime max,
@NamedArg("initialValue") LocalTime initialValue,
@NamedArg("amountToStepBy") long amountToStepBy,
@NamedArg("temporalUnit") TemporalUnit temporalUnit) {
setMin(min);
setMax(max);
setAmountToStepBy(amountToStepBy);
setTemporalUnit(temporalUnit);
setConverter(new StringConverter() {
private DateTimeFormatter dtf = DateTimeFormatter.ofLocalizedTime(FormatStyle.SHORT);
@Override public String toString(LocalTime localTime) {
if (localTime == null) {
return "";
}
return localTime.format(dtf);
}
@Override public LocalTime fromString(String string) {
return LocalTime.parse(string);
}
});
valueProperty().addListener((o, oldValue, newValue) -> {
// when the value is set, we need to react to ensure it is a
// valid value (and if not, blow up appropriately)
if (getMin() != null && newValue.isBefore(getMin())) {
setValue(getMin());
} else if (getMax() != null && newValue.isAfter(getMax())) {
setValue(getMax());
}
});
setValue(initialValue != null ? initialValue : LocalTime.now());
}
/* *********************************************************************
* *
* Properties *
* *
**********************************************************************/
// --- min
private ObjectProperty min = new SimpleObjectProperty(this, "min") {
@Override protected void invalidated() {
LocalTime currentValue = LocalTimeSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final LocalTime newMin = get();
if (newMin.isAfter(getMax())) {
setMin(getMax());
return;
}
if (currentValue.isBefore(newMin)) {
LocalTimeSpinnerValueFactory.this.setValue(newMin);
}
}
};
public final void setMin(LocalTime value) {
min.set(value);
}
public final LocalTime getMin() {
return min.get();
}
/**
* Sets the minimum allowable value for this value factory
*/
public final ObjectProperty minProperty() {
return min;
}
// --- max
private ObjectProperty max = new SimpleObjectProperty(this, "max") {
@Override protected void invalidated() {
LocalTime currentValue = LocalTimeSpinnerValueFactory.this.getValue();
if (currentValue == null) {
return;
}
final LocalTime newMax = get();
if (newMax.isBefore(getMin())) {
setMax(getMin());
return;
}
if (currentValue.isAfter(newMax)) {
LocalTimeSpinnerValueFactory.this.setValue(newMax);
}
}
};
public final void setMax(LocalTime value) {
max.set(value);
}
public final LocalTime getMax() {
return max.get();
}
/**
* Sets the maximum allowable value for this value factory
*/
public final ObjectProperty maxProperty() {
return max;
}
// --- temporalUnit
private ObjectProperty temporalUnit = new SimpleObjectProperty<>(this, "temporalUnit");
public final void setTemporalUnit(TemporalUnit value) {
temporalUnit.set(value);
}
public final TemporalUnit getTemporalUnit() {
return temporalUnit.get();
}
/**
* The size of each step (e.g. day, week, month, year, etc).
*/
public final ObjectProperty temporalUnitProperty() {
return temporalUnit;
}
// --- amountToStepBy
private LongProperty amountToStepBy = new SimpleLongProperty(this, "amountToStepBy");
public final void setAmountToStepBy(long value) {
amountToStepBy.set(value);
}
public final long getAmountToStepBy() {
return amountToStepBy.get();
}
/**
* Sets the amount to increment or decrement by, per step.
*/
public final LongProperty amountToStepByProperty() {
return amountToStepBy;
}
/* *********************************************************************
* *
* Overridden methods *
* *
**********************************************************************/
/** {@inheritDoc} */
@Override public void decrement(int steps) {
final LocalTime currentValue = getValue();
final LocalTime min = getMin();
final Duration duration = Duration.of(getAmountToStepBy() * steps, getTemporalUnit());
final long durationInSeconds = duration.toMinutes() * 60;
final long currentValueInSeconds = currentValue.toSecondOfDay();
if (! isWrapAround() && durationInSeconds > currentValueInSeconds) {
setValue(min == null ? LocalTime.MIN : min);
} else {
setValue(currentValue.minus(duration));
}
}
/** {@inheritDoc} */
@Override public void increment(int steps) {
final LocalTime currentValue = getValue();
final LocalTime max = getMax();
final Duration duration = Duration.of(getAmountToStepBy() * steps, getTemporalUnit());
final long durationInSeconds = duration.toMinutes() * 60;
final long currentValueInSeconds = currentValue.toSecondOfDay();
if (! isWrapAround() && durationInSeconds > (LocalTime.MAX.toSecondOfDay() - currentValueInSeconds)) {
setValue(max == null ? LocalTime.MAX : max);
} else {
setValue(currentValue.plus(duration));
}
}
}
}