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/*
 * Copyright (c) 2011, 2013, 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
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package javafx.scene.layout;

import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.DoublePropertyBase;
import javafx.beans.property.ObjectProperty;
import javafx.css.CssMetaData;
import javafx.css.StyleableDoubleProperty;
import javafx.css.StyleableObjectProperty;
import javafx.css.StyleableProperty;
import javafx.geometry.HPos;
import javafx.geometry.Insets;
import javafx.geometry.Orientation;
import javafx.geometry.Pos;
import javafx.geometry.VPos;
import javafx.scene.Node;
import com.sun.javafx.css.converters.EnumConverter;
import com.sun.javafx.css.converters.SizeConverter;
import javafx.css.Styleable;

import static javafx.geometry.Orientation.*;
import javafx.util.Callback;

/**
 * FlowPane lays out its children in a flow that wraps at the flowpane's boundary.
 * 

* A horizontal flowpane (the default) will layout nodes in rows, wrapping at the * flowpane's width. A vertical flowpane lays out nodes in columns, * wrapping at the flowpane's height. If the flowpane has a border and/or padding set, * the content will be flowed within those insets. *

* FlowPane's prefWrapLength property establishes it's preferred width * (for horizontal) or preferred height (for vertical). Applications should set * prefWrapLength if the default value (400) doesn't suffice. Note that prefWrapLength * is used only for calculating the preferred size and may not reflect the actual * wrapping dimension, which tracks the actual size of the flowpane. *

* The alignment property controls how the rows and columns are aligned * within the bounds of the flowpane and defaults to Pos.TOP_LEFT. It is also possible * to control the alignment of nodes within the rows and columns by setting * rowValignment for horizontal or columnHalignment for vertical. *

* Example of a horizontal flowpane: *

     Image images[] = { ... };
 *     FlowPane flow = new FlowPane();
 *     flow.setVgap(8);
 *     flow.setHgap(4);
 *     flow.setPrefWrapLength(300); // preferred width = 300
 *     for (int i = 0; i < images.length; i++) {
 *         flow.getChildren().add(new ImageView(image[i]);
 *     }
 * 
* *

* Example of a vertical flowpane: *

     FlowPane flow = new FlowPane(Orientation.VERTICAL);
 *     flow.setColumnHalignment(HPos.LEFT); // align labels on left
 *     flow.setPrefWrapLength(200); // preferred height = 200
 *     for (int i = 0; i < titles.size(); i++) {
 *         flow.getChildren().add(new Label(titles[i]);
 *     }
 * 
* *

* FlowPane lays out each managed child regardless of the child's visible property value; * unmanaged children are ignored for all layout calculations.

* *

* FlowPane may be styled with backgrounds and borders using CSS. See * {@link javafx.scene.layout.Region Region} superclass for details.

* *

Resizable Range

* * A flowpane's parent will resize the flowpane within the flowpane's resizable range * during layout. By default the flowpane computes this range based on its content * as outlined in the tables below. *

* horizontal: *

* * * * * * * * * *
widthheight
minimumleft/right insets plus largest of children's pref widthstop/bottom insets plus height required to display all children at their preferred heights when wrapped at a specified width
preferredleft/right insets plus prefWrapLengthtop/bottom insets plus height required to display all children at their pref heights when wrapped at a specified width
maximumDouble.MAX_VALUEDouble.MAX_VALUE
*

* vertical: *

* * * * * * * * * *
widthheight
minimumleft/right insets plus width required to display all children at their preferred widths when wrapped at a specified heighttop/bottom insets plus largest of children's pref heights
preferredleft/right insets plus width required to display all children at their pref widths when wrapped at the specified heighttop/bottom insets plus prefWrapLength
maximumDouble.MAX_VALUEDouble.MAX_VALUE
*

* A flowpane's unbounded maximum width and height are an indication to the parent that * it may be resized beyond its preferred size to fill whatever space is assigned to it. *

* FlowPane provides properties for setting the size range directly. These * properties default to the sentinel value Region.USE_COMPUTED_SIZE, however the * application may set them to other values as needed: *


 *     flowpane.setMaxWidth(500);
 * 
* Applications may restore the computed values by setting these properties back * to Region.USE_COMPUTED_SIZE. *

* FlowPane does not clip its content by default, so it is possible that childrens' * bounds may extend outside its own bounds if a child's pref size is larger than * the space flowpane has to allocate for it.

* * @since JavaFX 2.0 */ public class FlowPane extends Pane { /******************************************************************** * BEGIN static methods ********************************************************************/ private static final String MARGIN_CONSTRAINT = "flowpane-margin"; /** * Sets the margin for the child when contained by a flowpane. * If set, the flowpane will layout it out with the margin space around it. * Setting the value to null will remove the constraint. * @param child the child node of a flowpane * @param value the margin of space around the child */ public static void setMargin(Node child, Insets value) { setConstraint(child, MARGIN_CONSTRAINT, value); } /** * Returns the child's margin constraint if set. * @param child the child node of a flowpane * @return the margin for the child or null if no margin was set */ public static Insets getMargin(Node child) { return (Insets)getConstraint(child, MARGIN_CONSTRAINT); } private static final Callback marginAccessor = new Callback() { public Insets call(Node n) { return getMargin(n); } }; /** * Removes all flowpane constraints from the child node. * @param child the child node */ public static void clearConstraints(Node child) { setMargin(child, null); } /******************************************************************** * END static methods ********************************************************************/ /** * Creates a horizontal FlowPane layout with hgap/vgap = 0. */ public FlowPane() { super(); } /** * Creates a FlowPane layout with the specified orientation and hgap/vgap = 0. * @param orientation the direction the tiles should flow & wrap */ public FlowPane(Orientation orientation) { this(); setOrientation(orientation); } /** * Creates a horizontal FlowPane layout with the specified hgap/vgap. * @param hgap the amount of horizontal space between each tile * @param vgap the amount of vertical space between each tile */ public FlowPane(double hgap, double vgap) { this(); setHgap(hgap); setVgap(vgap); } /** * Creates a FlowPane layout with the specified orientation and hgap/vgap. * @param orientation the direction the tiles should flow & wrap * @param hgap the amount of horizontal space between each tile * @param vgap the amount of vertical space between each tile */ public FlowPane(Orientation orientation, double hgap, double vgap) { this(); setOrientation(orientation); setHgap(hgap); setVgap(vgap); } /** * Creates a horizontal FlowPane layout with hgap/vgap = 0. * @param children The initial set of children for this pane. * @since JavaFX 8.0 */ public FlowPane(Node... children) { super(); getChildren().addAll(children); } /** * Creates a FlowPane layout with the specified orientation and hgap/vgap = 0. * @param orientation the direction the tiles should flow & wrap * @param children The initial set of children for this pane. * @since JavaFX 8.0 */ public FlowPane(Orientation orientation, Node... children) { this(); setOrientation(orientation); getChildren().addAll(children); } /** * Creates a horizontal FlowPane layout with the specified hgap/vgap. * @param hgap the amount of horizontal space between each tile * @param vgap the amount of vertical space between each tile * @param children The initial set of children for this pane. * @since JavaFX 8.0 */ public FlowPane(double hgap, double vgap, Node... children) { this(); setHgap(hgap); setVgap(vgap); getChildren().addAll(children); } /** * Creates a FlowPane layout with the specified orientation and hgap/vgap. * @param orientation the direction the tiles should flow & wrap * @param hgap the amount of horizontal space between each tile * @param vgap the amount of vertical space between each tile * @param children The initial set of children for this pane. * @since JavaFX 8.0 */ public FlowPane(Orientation orientation, double hgap, double vgap, Node... children) { this(); setOrientation(orientation); setHgap(hgap); setVgap(vgap); getChildren().addAll(children); } /** * The orientation of this flowpane. * A horizontal flowpane lays out children left to right, wrapping at the * flowpane's width boundary. A vertical flowpane lays out children top to * bottom, wrapping at the flowpane's height. * The default is horizontal. */ public final ObjectProperty orientationProperty() { if (orientation == null) { orientation = new StyleableObjectProperty(HORIZONTAL) { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.ORIENTATION; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "orientation"; } }; } return orientation; } private ObjectProperty orientation; public final void setOrientation(Orientation value) { orientationProperty().set(value); } public final Orientation getOrientation() { return orientation == null ? HORIZONTAL : orientation.get(); } /** * The amount of horizontal space between each node in a horizontal flowpane * or the space between columns in a vertical flowpane. */ public final DoubleProperty hgapProperty() { if (hgap == null) { hgap = new StyleableDoubleProperty() { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.HGAP; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "hgap"; } }; } return hgap; } private DoubleProperty hgap; public final void setHgap(double value) { hgapProperty().set(value); } public final double getHgap() { return hgap == null ? 0 : hgap.get(); } /** * The amount of vertical space between each node in a vertical flowpane * or the space between rows in a horizontal flowpane. */ public final DoubleProperty vgapProperty() { if (vgap == null) { vgap = new StyleableDoubleProperty() { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.VGAP; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "vgap"; } }; } return vgap; } private DoubleProperty vgap; public final void setVgap(double value) { vgapProperty().set(value); } public final double getVgap() { return vgap == null ? 0 : vgap.get(); } /** * The preferred width where content should wrap in a horizontal flowpane or * the preferred height where content should wrap in a vertical flowpane. *

* This value is used only to compute the preferred size of the flowpane and may * not reflect the actual width or height, which may change if the flowpane is * resized to something other than its preferred size. *

* Applications should initialize this value to define a reasonable span * for wrapping the content. * */ public final DoubleProperty prefWrapLengthProperty() { if (prefWrapLength == null) { prefWrapLength = new DoublePropertyBase(400) { @Override protected void invalidated() { requestLayout(); } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "prefWrapLength"; } }; } return prefWrapLength; } private DoubleProperty prefWrapLength; public final void setPrefWrapLength(double value) { prefWrapLengthProperty().set(value); } public final double getPrefWrapLength() { return prefWrapLength == null ? 400 : prefWrapLength.get(); } /** * The overall alignment of the flowpane's content within its width and height. *

For a horizontal flowpane, each row will be aligned within the flowpane's width * using the alignment's hpos value, and the rows will be aligned within the * flowpane's height using the alignment's vpos value. *

For a vertical flowpane, each column will be aligned within the flowpane's height * using the alignment's vpos value, and the columns will be aligned within the * flowpane's width using the alignment's hpos value. */ public final ObjectProperty alignmentProperty() { if (alignment == null) { alignment = new StyleableObjectProperty(Pos.TOP_LEFT) { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.ALIGNMENT; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "alignment"; } }; } return alignment; } private ObjectProperty alignment; public final void setAlignment(Pos value) { alignmentProperty().set(value); } public final Pos getAlignment() { return alignment == null ? Pos.TOP_LEFT : alignment.get(); } private Pos getAlignmentInternal() { Pos localPos = getAlignment(); return localPos == null ? Pos.TOP_LEFT : localPos; } /** * The horizontal alignment of nodes within each column of a vertical flowpane. * The property is ignored for horizontal flowpanes. */ public final ObjectProperty columnHalignmentProperty() { if (columnHalignment == null) { columnHalignment = new StyleableObjectProperty(HPos.LEFT) { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.COLUMN_HALIGNMENT; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "columnHalignment"; } }; } return columnHalignment; } private ObjectProperty columnHalignment; public final void setColumnHalignment(HPos value) { columnHalignmentProperty().set(value); } public final HPos getColumnHalignment() { return columnHalignment == null ? HPos.LEFT : columnHalignment.get(); } private HPos getColumnHalignmentInternal() { HPos localPos = getColumnHalignment(); return localPos == null ? HPos.LEFT : localPos; } /** * The vertical alignment of nodes within each row of a horizontal flowpane. * If this property is set to VPos.BASELINE, then the flowpane will always * resize children to their preferred heights, rather than expanding heights * to fill the row height. * The property is ignored for vertical flowpanes. */ public final ObjectProperty rowValignmentProperty() { if (rowValignment == null) { rowValignment = new StyleableObjectProperty(VPos.CENTER) { @Override public void invalidated() { requestLayout(); } @Override public CssMetaData getCssMetaData() { return StyleableProperties.ROW_VALIGNMENT; } @Override public Object getBean() { return FlowPane.this; } @Override public String getName() { return "rowValignment"; } }; } return rowValignment; } private ObjectProperty rowValignment; public final void setRowValignment(VPos value) { rowValignmentProperty().set(value); } public final VPos getRowValignment() { return rowValignment == null ? VPos.CENTER : rowValignment.get(); } private VPos getRowValignmentInternal() { VPos localPos = getRowValignment(); return localPos == null ? VPos.CENTER : localPos; } @Override public Orientation getContentBias() { return getOrientation(); } @Override protected double computeMinWidth(double height) { if (getContentBias() == HORIZONTAL) { double maxPref = 0; final List children = getChildren(); for (int i=0, size=children.size(); i children = getChildren(); for (int i=0, size=children.size(); i hruns = getRuns(maxRunWidth); double w = computeContentWidth(hruns); w = getPrefWrapLength() > w ? getPrefWrapLength() : w; return insets.getLeft() + snapSize(w) + insets.getRight(); } else { // vertical double maxRunHeight = forHeight != -1? forHeight - insets.getTop() - insets.getBottom() : getPrefWrapLength(); List vruns = getRuns(maxRunHeight); return insets.getLeft() + computeContentWidth(vruns) + insets.getRight(); } } @Override protected double computePrefHeight(double forWidth) { final Insets insets = getInsets(); if (getOrientation() == HORIZONTAL) { // horizontal double maxRunWidth = forWidth != -1? forWidth - insets.getLeft() - insets.getRight() : getPrefWrapLength(); List hruns = getRuns(maxRunWidth); return insets.getTop() + computeContentHeight(hruns) + insets.getBottom(); } else { // vertical double maxRunHeight = getPrefWrapLength(); List vruns = getRuns(maxRunHeight); double h = computeContentHeight(vruns); h = getPrefWrapLength() > h ? getPrefWrapLength() : h; return insets.getTop() + snapSize(h) + insets.getBottom(); } } @Override public void requestLayout() { if (!computingRuns) { runs = null; } super.requestLayout(); } private List runs = null; private double lastMaxRunLength = -1; boolean computingRuns = false; private List getRuns(double maxRunLength) { if (runs == null || maxRunLength != lastMaxRunLength) { computingRuns = true; lastMaxRunLength = maxRunLength; runs = new ArrayList(); double runLength = 0; double runOffset = 0; Run run = new Run(); double vgap = snapSpace(this.getVgap()); double hgap = snapSpace(this.getHgap()); final List children = getChildren(); for (int i=0, size=children.size(); i maxRunLength && runLength > 0) { // wrap to next run *unless* its the only node in the run normalizeRun(run, runOffset); if (getOrientation() == HORIZONTAL) { // horizontal runOffset += run.height + vgap; } else { // vertical runOffset += run.width + hgap; } runs.add(run); runLength = 0; run = new Run(); } if (getOrientation() == HORIZONTAL) { // horizontal nodeRect.x = runLength; runLength += nodeRect.width + hgap; } else { // vertical nodeRect.y = runLength; runLength += nodeRect.height + vgap; } run.rects.add(nodeRect); } } // insert last run normalizeRun(run, runOffset); runs.add(run); computingRuns = false; } return runs; } private void normalizeRun(Run run, double runOffset) { if (getOrientation() == HORIZONTAL) { // horizontal ArrayList rownodes = new ArrayList(); run.width = (run.rects.size()-1)*snapSpace(getHgap()); for (int i=0, max=run.rects.size(); i runs) { double cwidth = getOrientation() == HORIZONTAL ? 0 : (runs.size()-1)*snapSpace(getHgap()); for (int i=0, max=runs.size(); i runs) { double cheight = getOrientation() == VERTICAL ? 0 : (runs.size()-1)*snapSpace(getVgap()); for (int i=0, max=runs.size(); i runs = getRuns(getOrientation() == HORIZONTAL ? insideWidth : insideHeight); // Now that the nodes are broken into runs, figure out alignments for (int i=0, max=runs.size(); i(Pos.class), Pos.TOP_LEFT) { @Override public boolean isSettable(FlowPane node) { return node.alignment == null || !node.alignment.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.alignmentProperty(); } }; private static final CssMetaData COLUMN_HALIGNMENT = new CssMetaData("-fx-column-halignment", new EnumConverter(HPos.class), HPos.LEFT) { @Override public boolean isSettable(FlowPane node) { return node.columnHalignment == null || !node.columnHalignment.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.columnHalignmentProperty(); } }; private static final CssMetaData HGAP = new CssMetaData("-fx-hgap", SizeConverter.getInstance(), 0.0){ @Override public boolean isSettable(FlowPane node) { return node.hgap == null || !node.hgap.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.hgapProperty(); } }; private static final CssMetaData ROW_VALIGNMENT = new CssMetaData("-fx-row-valignment", new EnumConverter(VPos.class), VPos.CENTER) { @Override public boolean isSettable(FlowPane node) { return node.rowValignment == null || !node.rowValignment.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.rowValignmentProperty(); } }; private static final CssMetaData ORIENTATION = new CssMetaData("-fx-orientation", new EnumConverter(Orientation.class), Orientation.HORIZONTAL) { @Override public Orientation getInitialValue(FlowPane node) { // A vertical flow pane should remain vertical return node.getOrientation(); } @Override public boolean isSettable(FlowPane node) { return node.orientation == null || !node.orientation.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.orientationProperty(); } }; private static final CssMetaData VGAP = new CssMetaData("-fx-vgap", SizeConverter.getInstance(), 0.0){ @Override public boolean isSettable(FlowPane node) { return node.vgap == null || !node.vgap.isBound(); } @Override public StyleableProperty getStyleableProperty(FlowPane node) { return (StyleableProperty)node.vgapProperty(); } }; private static final List> STYLEABLES; static { final List> styleables = new ArrayList>(Region.getClassCssMetaData()); styleables.add(ALIGNMENT); styleables.add(COLUMN_HALIGNMENT); styleables.add(HGAP); styleables.add(ROW_VALIGNMENT); styleables.add(ORIENTATION); styleables.add(VGAP); STYLEABLES = Collections.unmodifiableList(styleables); } } /** * @return The CssMetaData associated with this class, which may include the * CssMetaData of its super classes. * @since JavaFX 8.0 */ public static List> getClassCssMetaData() { return StyleableProperties.STYLEABLES; } /** * {@inheritDoc} * * @since JavaFX 8.0 */ @Override public List> getCssMetaData() { return getClassCssMetaData(); } //REMIND(aim); replace when we get mutable rects private static class LayoutRect { public Node node; double x; double y; double width; double height; @Override public String toString() { return "LayoutRect node id="+node.getId()+" "+x+","+y+" "+width+"x"+height; } } private static class Run { ArrayList rects = new ArrayList(); double width; double height; double baselineOffset; } }





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