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/** Copyright (c) 1995, 2013, Oracle and/or its affiliates. All rights reserved.* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.*********************/package java.awt;/*** The <code>GridLayout</code> class is a layout manager that* lays out a container's components in a rectangular grid.* The container is divided into equal-sized rectangles,* and one component is placed in each rectangle.* For example, the following is an applet that lays out six buttons* into three rows and two columns:** <hr><blockquote>* <pre>* import java.awt.*;* import java.applet.Applet;* public class ButtonGrid extends Applet {* public void init() {* setLayout(new GridLayout(3,2));* add(new Button("1"));* add(new Button("2"));* add(new Button("3"));* add(new Button("4"));* add(new Button("5"));* add(new Button("6"));* }* }* </pre></blockquote><hr>* <p>* If the container's <code>ComponentOrientation</code> property is horizontal* and left-to-right, the above example produces the output shown in Figure 1.* If the container's <code>ComponentOrientation</code> property is horizontal* and right-to-left, the example produces the output shown in Figure 2.** <table style="float:center" WIDTH=600 summary="layout">* <tr ALIGN=CENTER>* <td><img SRC="doc-files/GridLayout-1.gif"* alt="Shows 6 buttons in rows of 2. Row 1 shows buttons 1 then 2.* Row 2 shows buttons 3 then 4. Row 3 shows buttons 5 then 6.">* </td>** <td ALIGN=CENTER><img SRC="doc-files/GridLayout-2.gif"* alt="Shows 6 buttons in rows of 2. Row 1 shows buttons 2 then 1.* Row 2 shows buttons 4 then 3. Row 3 shows buttons 6 then 5.">* </td>* </tr>** <tr ALIGN=CENTER>* <td>Figure 1: Horizontal, Left-to-Right</td>** <td>Figure 2: Horizontal, Right-to-Left</td>* </tr>* </table>* <p>* When both the number of rows and the number of columns have* been set to non-zero values, either by a constructor or* by the <tt>setRows</tt> and <tt>setColumns</tt> methods, the number of* columns specified is ignored. Instead, the number of* columns is determined from the specified number of rows* and the total number of components in the layout. So, for* example, if three rows and two columns have been specified* and nine components are added to the layout, they will* be displayed as three rows of three columns. Specifying* the number of columns affects the layout only when the* number of rows is set to zero.** @author Arthur van Hoff* @since JDK1.0*/public class GridLayout implements LayoutManager, java.io.Serializable {/** serialVersionUID*/private static final long serialVersionUID = -7411804673224730901L;/*** This is the horizontal gap (in pixels) which specifies the space* between columns. They can be changed at any time.* This should be a non-negative integer.** @serial* @see #getHgap()* @see #setHgap(int)*/int hgap;/*** This is the vertical gap (in pixels) which specifies the space* between rows. They can be changed at any time.* This should be a non negative integer.** @serial* @see #getVgap()* @see #setVgap(int)*/int vgap;/*** This is the number of rows specified for the grid. The number* of rows can be changed at any time.* This should be a non negative integer, where '0' means* 'any number' meaning that the number of Rows in that* dimension depends on the other dimension.** @serial* @see #getRows()* @see #setRows(int)*/int rows;/*** This is the number of columns specified for the grid. The number* of columns can be changed at any time.* This should be a non negative integer, where '0' means* 'any number' meaning that the number of Columns in that* dimension depends on the other dimension.** @serial* @see #getColumns()* @see #setColumns(int)*/int cols;/*** Creates a grid layout with a default of one column per component,* in a single row.* @since JDK1.1*/public GridLayout() {this(1, 0, 0, 0);}/*** Creates a grid layout with the specified number of rows and* columns. All components in the layout are given equal size.* <p>* One, but not both, of <code>rows</code> and <code>cols</code> can* be zero, which means that any number of objects can be placed in a* row or in a column.* @param rows the rows, with the value zero meaning* any number of rows.* @param cols the columns, with the value zero meaning* any number of columns.*/public GridLayout(int rows, int cols) {this(rows, cols, 0, 0);}/*** Creates a grid layout with the specified number of rows and* columns. All components in the layout are given equal size.* <p>* In addition, the horizontal and vertical gaps are set to the* specified values. Horizontal gaps are placed between each* of the columns. Vertical gaps are placed between each of* the rows.* <p>* One, but not both, of <code>rows</code> and <code>cols</code> can* be zero, which means that any number of objects can be placed in a* row or in a column.* <p>* All <code>GridLayout</code> constructors defer to this one.* @param rows the rows, with the value zero meaning* any number of rows* @param cols the columns, with the value zero meaning* any number of columns* @param hgap the horizontal gap* @param vgap the vertical gap* @exception IllegalArgumentException if the value of both* <code>rows</code> and <code>cols</code> is* set to zero*/public GridLayout(int rows, int cols, int hgap, int vgap) {if ((rows == 0) && (cols == 0)) {throw new IllegalArgumentException("rows and cols cannot both be zero");}this.rows = rows;this.cols = cols;this.hgap = hgap;this.vgap = vgap;}/*** Gets the number of rows in this layout.* @return the number of rows in this layout* @since JDK1.1*/public int getRows() {return rows;}/*** Sets the number of rows in this layout to the specified value.* @param rows the number of rows in this layout* @exception IllegalArgumentException if the value of both* <code>rows</code> and <code>cols</code> is set to zero* @since JDK1.1*/public void setRows(int rows) {if ((rows == 0) && (this.cols == 0)) {throw new IllegalArgumentException("rows and cols cannot both be zero");}this.rows = rows;}/*** Gets the number of columns in this layout.* @return the number of columns in this layout* @since JDK1.1*/public int getColumns() {return cols;}/*** Sets the number of columns in this layout to the specified value.* Setting the number of columns has no affect on the layout* if the number of rows specified by a constructor or by* the <tt>setRows</tt> method is non-zero. In that case, the number* of columns displayed in the layout is determined by the total* number of components and the number of rows specified.* @param cols the number of columns in this layout* @exception IllegalArgumentException if the value of both* <code>rows</code> and <code>cols</code> is set to zero* @since JDK1.1*/public void setColumns(int cols) {if ((cols == 0) && (this.rows == 0)) {throw new IllegalArgumentException("rows and cols cannot both be zero");}this.cols = cols;}/*** Gets the horizontal gap between components.* @return the horizontal gap between components* @since JDK1.1*/public int getHgap() {return hgap;}/*** Sets the horizontal gap between components to the specified value.* @param hgap the horizontal gap between components* @since JDK1.1*/public void setHgap(int hgap) {this.hgap = hgap;}/*** Gets the vertical gap between components.* @return the vertical gap between components* @since JDK1.1*/public int getVgap() {return vgap;}/*** Sets the vertical gap between components to the specified value.* @param vgap the vertical gap between components* @since JDK1.1*/public void setVgap(int vgap) {this.vgap = vgap;}/*** Adds the specified component with the specified name to the layout.* @param name the name of the component* @param comp the component to be added*/public void addLayoutComponent(String name, Component comp) {}/*** Removes the specified component from the layout.* @param comp the component to be removed*/public void removeLayoutComponent(Component comp) {}/*** Determines the preferred size of the container argument using* this grid layout.* <p>* The preferred width of a grid layout is the largest preferred* width of all of the components in the container times the number of* columns, plus the horizontal padding times the number of columns* minus one, plus the left and right insets of the target container.* <p>* The preferred height of a grid layout is the largest preferred* height of all of the components in the container times the number of* rows, plus the vertical padding times the number of rows minus one,* plus the top and bottom insets of the target container.** @param parent the container in which to do the layout* @return the preferred dimensions to lay out the* subcomponents of the specified container* @see java.awt.GridLayout#minimumLayoutSize* @see java.awt.Container#getPreferredSize()*/public Dimension preferredLayoutSize(Container parent) {synchronized (parent.getTreeLock()) {Insets insets = parent.getInsets();int ncomponents = parent.getComponentCount();int nrows = rows;int ncols = cols;if (nrows > 0) {ncols = (ncomponents + nrows - 1) / nrows;} else {nrows = (ncomponents + ncols - 1) / ncols;}int w = 0;int h = 0;for (int i = 0 ; i < ncomponents ; i++) {Component comp = parent.getComponent(i);Dimension d = comp.getPreferredSize();if (w < d.width) {w = d.width;}if (h < d.height) {h = d.height;}}return new Dimension(insets.left + insets.right + ncols*w + (ncols-1)*hgap,insets.top + insets.bottom + nrows*h + (nrows-1)*vgap);}}/*** Determines the minimum size of the container argument using this* grid layout.* <p>* The minimum width of a grid layout is the largest minimum width* of all of the components in the container times the number of columns,* plus the horizontal padding times the number of columns minus one,* plus the left and right insets of the target container.* <p>* The minimum height of a grid layout is the largest minimum height* of all of the components in the container times the number of rows,* plus the vertical padding times the number of rows minus one, plus* the top and bottom insets of the target container.** @param parent the container in which to do the layout* @return the minimum dimensions needed to lay out the* subcomponents of the specified container* @see java.awt.GridLayout#preferredLayoutSize* @see java.awt.Container#doLayout*/public Dimension minimumLayoutSize(Container parent) {synchronized (parent.getTreeLock()) {Insets insets = parent.getInsets();int ncomponents = parent.getComponentCount();int nrows = rows;int ncols = cols;if (nrows > 0) {ncols = (ncomponents + nrows - 1) / nrows;} else {nrows = (ncomponents + ncols - 1) / ncols;}int w = 0;int h = 0;for (int i = 0 ; i < ncomponents ; i++) {Component comp = parent.getComponent(i);Dimension d = comp.getMinimumSize();if (w < d.width) {w = d.width;}if (h < d.height) {h = d.height;}}return new Dimension(insets.left + insets.right + ncols*w + (ncols-1)*hgap,insets.top + insets.bottom + nrows*h + (nrows-1)*vgap);}}/*** Lays out the specified container using this layout.* <p>* This method reshapes the components in the specified target* container in order to satisfy the constraints of the* <code>GridLayout</code> object.* <p>* The grid layout manager determines the size of individual* components by dividing the free space in the container into* equal-sized portions according to the number of rows and columns* in the layout. The container's free space equals the container's* size minus any insets and any specified horizontal or vertical* gap. All components in a grid layout are given the same size.** @param parent the container in which to do the layout* @see java.awt.Container* @see java.awt.Container#doLayout*/public void layoutContainer(Container parent) {synchronized (parent.getTreeLock()) {Insets insets = parent.getInsets();int ncomponents = parent.getComponentCount();int nrows = rows;int ncols = cols;boolean ltr = parent.getComponentOrientation().isLeftToRight();if (ncomponents == 0) {return;}if (nrows > 0) {ncols = (ncomponents + nrows - 1) / nrows;} else {nrows = (ncomponents + ncols - 1) / ncols;}// 4370316. To position components in the center we should:// 1. get an amount of extra space within Container// 2. incorporate half of that value to the left/top position// Note that we use trancating division for widthOnComponent// The reminder goes to extraWidthAvailableint totalGapsWidth = (ncols - 1) * hgap;int widthWOInsets = parent.width - (insets.left + insets.right);int widthOnComponent = (widthWOInsets - totalGapsWidth) / ncols;int extraWidthAvailable = (widthWOInsets - (widthOnComponent * ncols + totalGapsWidth)) / 2;int totalGapsHeight = (nrows - 1) * vgap;int heightWOInsets = parent.height - (insets.top + insets.bottom);int heightOnComponent = (heightWOInsets - totalGapsHeight) / nrows;int extraHeightAvailable = (heightWOInsets - (heightOnComponent * nrows + totalGapsHeight)) / 2;if (ltr) {for (int c = 0, x = insets.left + extraWidthAvailable; c < ncols ; c++, x += widthOnComponent + hgap) {for (int r = 0, y = insets.top + extraHeightAvailable; r < nrows ; r++, y += heightOnComponent + vgap) {int i = r * ncols + c;if (i < ncomponents) {parent.getComponent(i).setBounds(x, y, widthOnComponent, heightOnComponent);}}}} else {for (int c = 0, x = (parent.width - insets.right - widthOnComponent) - extraWidthAvailable; c < ncols ; c++, x -= widthOnComponent + hgap) {for (int r = 0, y = insets.top + extraHeightAvailable; r < nrows ; r++, y += heightOnComponent + vgap) {int i = r * ncols + c;if (i < ncomponents) {parent.getComponent(i).setBounds(x, y, widthOnComponent, heightOnComponent);}}}}}}/*** Returns the string representation of this grid layout's values.* @return a string representation of this grid layout*/public String toString() {return getClass().getName() + "[hgap=" + hgap + ",vgap=" + vgap +",rows=" + rows + ",cols=" + cols + "]";}}
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