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|
/*
@VaadinApache2LicenseForJavaFiles@
*/
package com.vaadin.ui;
import java.io.Serializable;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.Map;
import java.util.Map.Entry;
import com.vaadin.event.LayoutEvents.LayoutClickEvent;
import com.vaadin.event.LayoutEvents.LayoutClickListener;
import com.vaadin.event.LayoutEvents.LayoutClickNotifier;
import com.vaadin.terminal.LegacyPaint;
import com.vaadin.terminal.PaintException;
import com.vaadin.terminal.PaintTarget;
import com.vaadin.terminal.Vaadin6Component;
import com.vaadin.terminal.gwt.client.Connector;
import com.vaadin.terminal.gwt.client.MouseEventDetails;
import com.vaadin.terminal.gwt.client.ui.GridLayoutConnector.GridLayoutServerRPC;
import com.vaadin.terminal.gwt.client.ui.GridLayoutConnector.GridLayoutState;
import com.vaadin.terminal.gwt.client.ui.LayoutClickEventHandler;
/**
* A layout where the components are laid out on a grid using cell coordinates.
*
* <p>
* The GridLayout also maintains a cursor for adding components in
* left-to-right, top-to-bottom order.
* </p>
*
* <p>
* Each component in a <code>GridLayout</code> uses a defined
* {@link GridLayout.Area area} (column1,row1,column2,row2) from the grid. The
* components may not overlap with the existing components - if you try to do so
* you will get an {@link OverlapsException}. Adding a component with cursor
* automatically extends the grid by increasing the grid height.
* </p>
*
* <p>
* The grid coordinates, which are specified by a row and column index, always
* start from 0 for the topmost row and the leftmost column.
* </p>
*
* @author Vaadin Ltd.
* @version
* @VERSION@
* @since 3.0
*/
@SuppressWarnings("serial")
public class GridLayout extends AbstractLayout implements
Layout.AlignmentHandler, Layout.SpacingHandler, LayoutClickNotifier,
Vaadin6Component {
private GridLayoutServerRPC rpc = new GridLayoutServerRPC() {
public void layoutClick(MouseEventDetails mouseDetails,
Connector clickedConnector) {
fireEvent(LayoutClickEvent.createEvent(GridLayout.this,
mouseDetails, clickedConnector));
}
};
/**
* Cursor X position: this is where the next component with unspecified x,y
* is inserted
*/
private int cursorX = 0;
/**
* Cursor Y position: this is where the next component with unspecified x,y
* is inserted
*/
private int cursorY = 0;
/**
* Contains all items that are placed on the grid. These are components with
* grid area definition.
*/
private final LinkedList<Area> areas = new LinkedList<Area>();
/**
* Mapping from components to their respective areas.
*/
private final LinkedList<Component> components = new LinkedList<Component>();
/**
* Mapping from components to alignments (horizontal + vertical).
*/
private Map<Component, Alignment> componentToAlignment = new HashMap<Component, Alignment>();
private static final Alignment ALIGNMENT_DEFAULT = Alignment.TOP_LEFT;
/**
* Has there been rows inserted or deleted in the middle of the layout since
* the last paint operation.
*/
private boolean structuralChange = false;
private Map<Integer, Float> columnExpandRatio = new HashMap<Integer, Float>();
private Map<Integer, Float> rowExpandRatio = new HashMap<Integer, Float>();
/**
* Constructor for a grid of given size (number of columns and rows).
*
* The grid may grow or shrink later. Grid grows automatically if you add
* components outside its area.
*
* @param columns
* Number of columns in the grid.
* @param rows
* Number of rows in the grid.
*/
public GridLayout(int columns, int rows) {
setColumns(columns);
setRows(rows);
registerRpc(rpc);
}
/**
* Constructs an empty (1x1) grid layout that is extended as needed.
*/
public GridLayout() {
this(1, 1);
}
@Override
public GridLayoutState getState() {
return (GridLayoutState) super.getState();
}
/**
* <p>
* Adds a component to the grid in the specified area. The area is defined
* by specifying the upper left corner (column1, row1) and the lower right
* corner (column2, row2) of the area. The coordinates are zero-based.
* </p>
*
* <p>
* If the area overlaps with any of the existing components already present
* in the grid, the operation will fail and an {@link OverlapsException} is
* thrown.
* </p>
*
* @param component
* the component to be added.
* @param column1
* the column of the upper left corner of the area <code>c</code>
* is supposed to occupy. The leftmost column has index 0.
* @param row1
* the row of the upper left corner of the area <code>c</code> is
* supposed to occupy. The topmost row has index 0.
* @param column2
* the column of the lower right corner of the area
* <code>c</code> is supposed to occupy.
* @param row2
* the row of the lower right corner of the area <code>c</code>
* is supposed to occupy.
* @throws OverlapsException
* if the new component overlaps with any of the components
* already in the grid.
* @throws OutOfBoundsException
* if the cells are outside the grid area.
*/
public void addComponent(Component component, int column1, int row1,
int column2, int row2) throws OverlapsException,
OutOfBoundsException {
if (component == null) {
throw new NullPointerException("Component must not be null");
}
// Checks that the component does not already exist in the container
if (components.contains(component)) {
throw new IllegalArgumentException(
"Component is already in the container");
}
// Creates the area
final Area area = new Area(component, column1, row1, column2, row2);
// Checks the validity of the coordinates
if (column2 < column1 || row2 < row1) {
throw new IllegalArgumentException(
"Illegal coordinates for the component");
}
if (column1 < 0 || row1 < 0 || column2 >= getColumns()
|| row2 >= getRows()) {
throw new OutOfBoundsException(area);
}
// Checks that newItem does not overlap with existing items
checkExistingOverlaps(area);
// Inserts the component to right place at the list
// Respect top-down, left-right ordering
// component.setParent(this);
final Iterator<Area> i = areas.iterator();
int index = 0;
boolean done = false;
while (!done && i.hasNext()) {
final Area existingArea = i.next();
if ((existingArea.row1 >= row1 && existingArea.column1 > column1)
|| existingArea.row1 > row1) {
areas.add(index, area);
components.add(index, component);
done = true;
}
index++;
}
if (!done) {
areas.addLast(area);
components.addLast(component);
}
// Attempt to add to super
try {
super.addComponent(component);
} catch (IllegalArgumentException e) {
areas.remove(area);
components.remove(component);
throw e;
}
// update cursor position, if it's within this area; use first position
// outside this area, even if it's occupied
if (cursorX >= column1 && cursorX <= column2 && cursorY >= row1
&& cursorY <= row2) {
// cursor within area
cursorX = column2 + 1; // one right of area
if (cursorX >= getColumns()) {
// overflowed columns
cursorX = 0; // first col
// move one row down, or one row under the area
cursorY = (column1 == 0 ? row2 : row1) + 1;
} else {
cursorY = row1;
}
}
requestRepaint();
}
/**
* Tests if the given area overlaps with any of the items already on the
* grid.
*
* @param area
* the Area to be checked for overlapping.
* @throws OverlapsException
* if <code>area</code> overlaps with any existing area.
*/
private void checkExistingOverlaps(Area area) throws OverlapsException {
for (final Iterator<Area> i = areas.iterator(); i.hasNext();) {
final Area existingArea = i.next();
if (existingArea.overlaps(area)) {
// Component not added, overlaps with existing component
throw new OverlapsException(existingArea);
}
}
}
/**
* Adds the component to the grid in cells column1,row1 (NortWest corner of
* the area.) End coordinates (SouthEast corner of the area) are the same as
* column1,row1. The coordinates are zero-based. Component width and height
* is 1.
*
* @param component
* the component to be added.
* @param column
* the column index, starting from 0.
* @param row
* the row index, starting from 0.
* @throws OverlapsException
* if the new component overlaps with any of the components
* already in the grid.
* @throws OutOfBoundsException
* if the cell is outside the grid area.
*/
public void addComponent(Component component, int column, int row)
throws OverlapsException, OutOfBoundsException {
this.addComponent(component, column, row, column, row);
}
/**
* Forces the next component to be added at the beginning of the next line.
*
* <p>
* Sets the cursor column to 0 and increments the cursor row by one.
* </p>
*
* <p>
* By calling this function you can ensure that no more components are added
* right of the previous component.
* </p>
*
* @see #space()
*/
public void newLine() {
cursorX = 0;
cursorY++;
}
/**
* Moves the cursor forward by one. If the cursor goes out of the right grid
* border, it is moved to the first column of the next row.
*
* @see #newLine()
*/
public void space() {
cursorX++;
if (cursorX >= getColumns()) {
cursorX = 0;
cursorY++;
}
}
/**
* Adds the component into this container to the cursor position. If the
* cursor position is already occupied, the cursor is moved forwards to find
* free position. If the cursor goes out from the bottom of the grid, the
* grid is automatically extended.
*
* @param component
* the component to be added.
*/
@Override
public void addComponent(Component component) {
// Finds first available place from the grid
Area area;
boolean done = false;
while (!done) {
try {
area = new Area(component, cursorX, cursorY, cursorX, cursorY);
checkExistingOverlaps(area);
done = true;
} catch (final OverlapsException e) {
space();
}
}
// Extends the grid if needed
if (cursorX >= getColumns()) {
setColumns(cursorX + 1);
}
if (cursorY >= getRows()) {
setRows(cursorY + 1);
}
addComponent(component, cursorX, cursorY);
}
/**
* Removes the specified component from the layout.
*
* @param component
* the component to be removed.
*/
@Override
public void removeComponent(Component component) {
// Check that the component is contained in the container
if (component == null || !components.contains(component)) {
return;
}
Area area = null;
for (final Iterator<Area> i = areas.iterator(); area == null
&& i.hasNext();) {
final Area a = i.next();
if (a.getComponent() == component) {
area = a;
}
}
components.remove(component);
if (area != null) {
areas.remove(area);
}
componentToAlignment.remove(component);
super.removeComponent(component);
requestRepaint();
}
/**
* Removes the component specified by its cell coordinates.
*
* @param column
* the component's column, starting from 0.
* @param row
* the component's row, starting from 0.
*/
public void removeComponent(int column, int row) {
// Finds the area
for (final Iterator<Area> i = areas.iterator(); i.hasNext();) {
final Area area = i.next();
if (area.getColumn1() == column && area.getRow1() == row) {
removeComponent(area.getComponent());
return;
}
}
}
/**
* Gets an Iterator for the components contained in the layout. By using the
* Iterator it is possible to step through the contents of the layout.
*
* @return the Iterator of the components inside the layout.
*/
public Iterator<Component> getComponentIterator() {
return Collections.unmodifiableCollection(components).iterator();
}
/**
* Gets the number of components contained in the layout. Consistent with
* the iterator returned by {@link #getComponentIterator()}.
*
* @return the number of contained components
*/
public int getComponentCount() {
return components.size();
}
public void changeVariables(Object source, Map<String, Object> variables) {
// TODO Remove once Vaadin6Component is no longer implemented
}
/**
* Paints the contents of this component.
*
* @param target
* the Paint Event.
* @throws PaintException
* if the paint operation failed.
*/
public void paintContent(PaintTarget target) throws PaintException {
// TODO refactor attribute names in future release.
target.addAttribute("structuralChange", structuralChange);
structuralChange = false;
// Area iterator
final Iterator<Area> areaiterator = areas.iterator();
// Current item to be processed (fetch first item)
Area area = areaiterator.hasNext() ? (Area) areaiterator.next() : null;
// Collects rowspan related information here
final HashMap<Integer, Integer> cellUsed = new HashMap<Integer, Integer>();
// Empty cell collector
int emptyCells = 0;
final String[] alignmentsArray = new String[components.size()];
final Integer[] columnExpandRatioArray = new Integer[getColumns()];
final Integer[] rowExpandRatioArray = new Integer[getRows()];
int realColExpandRatioSum = 0;
float colSum = getExpandRatioSum(columnExpandRatio);
if (colSum == 0) {
// no columns has been expanded, all cols have same expand
// rate
float equalSize = 1 / (float) getColumns();
int myRatio = Math.round(equalSize * 1000);
for (int i = 0; i < getColumns(); i++) {
columnExpandRatioArray[i] = myRatio;
}
realColExpandRatioSum = myRatio * getColumns();
} else {
for (int i = 0; i < getColumns(); i++) {
int myRatio = Math
.round((getColumnExpandRatio(i) / colSum) * 1000);
columnExpandRatioArray[i] = myRatio;
realColExpandRatioSum += myRatio;
}
}
boolean equallyDividedRows = false;
int realRowExpandRatioSum = 0;
float rowSum = getExpandRatioSum(rowExpandRatio);
if (rowSum == 0) {
// no rows have been expanded
equallyDividedRows = true;
float equalSize = 1 / (float) getRows();
int myRatio = Math.round(equalSize * 1000);
for (int i = 0; i < getRows(); i++) {
rowExpandRatioArray[i] = myRatio;
}
realRowExpandRatioSum = myRatio * getRows();
}
int index = 0;
// Iterates every applicable row
for (int cury = 0; cury < getRows(); cury++) {
target.startTag("gr");
if (!equallyDividedRows) {
int myRatio = Math
.round((getRowExpandRatio(cury) / rowSum) * 1000);
rowExpandRatioArray[cury] = myRatio;
realRowExpandRatioSum += myRatio;
}
// Iterates every applicable column
for (int curx = 0; curx < getColumns(); curx++) {
// Checks if current item is located at curx,cury
if (area != null && (area.row1 == cury)
&& (area.column1 == curx)) {
// First check if empty cell needs to be rendered
if (emptyCells > 0) {
target.startTag("gc");
target.addAttribute("x", curx - emptyCells);
target.addAttribute("y", cury);
if (emptyCells > 1) {
target.addAttribute("w", emptyCells);
}
target.endTag("gc");
emptyCells = 0;
}
// Now proceed rendering current item
final int cols = (area.column2 - area.column1) + 1;
final int rows = (area.row2 - area.row1) + 1;
target.startTag("gc");
target.addAttribute("x", curx);
target.addAttribute("y", cury);
if (cols > 1) {
target.addAttribute("w", cols);
}
if (rows > 1) {
target.addAttribute("h", rows);
}
LegacyPaint.paint(area.getComponent(), target);
alignmentsArray[index++] = String
.valueOf(getComponentAlignment(area.getComponent())
.getBitMask());
target.endTag("gc");
// Fetch next item
if (areaiterator.hasNext()) {
area = areaiterator.next();
} else {
area = null;
}
// Updates the cellUsed if rowspan needed
if (rows > 1) {
int spannedx = curx;
for (int j = 1; j <= cols; j++) {
cellUsed.put(new Integer(spannedx), new Integer(
cury + rows - 1));
spannedx++;
}
}
// Skips the current item's spanned columns
if (cols > 1) {
curx += cols - 1;
}
} else {
// Checks against cellUsed, render space or ignore cell
if (cellUsed.containsKey(new Integer(curx))) {
// Current column contains already an item,
// check if rowspan affects at current x,y position
final int rowspanDepth = cellUsed
.get(new Integer(curx)).intValue();
if (rowspanDepth >= cury) {
// ignore cell
// Check if empty cell needs to be rendered
if (emptyCells > 0) {
target.startTag("gc");
target.addAttribute("x", curx - emptyCells);
target.addAttribute("y", cury);
if (emptyCells > 1) {
target.addAttribute("w", emptyCells);
}
target.endTag("gc");
emptyCells = 0;
}
} else {
// empty cell is needed
emptyCells++;
// Removes the cellUsed key as it has become
// obsolete
cellUsed.remove(Integer.valueOf(curx));
}
} else {
// empty cell is needed
emptyCells++;
}
}
} // iterates every column
// Last column handled of current row
// Checks if empty cell needs to be rendered
if (emptyCells > 0) {
target.startTag("gc");
target.addAttribute("x", getColumns() - emptyCells);
target.addAttribute("y", cury);
if (emptyCells > 1) {
target.addAttribute("w", emptyCells);
}
target.endTag("gc");
emptyCells = 0;
}
target.endTag("gr");
} // iterates every row
// Last row handled
// correct possible rounding error
if (rowExpandRatioArray.length > 0) {
rowExpandRatioArray[0] -= realRowExpandRatioSum - 1000;
}
if (columnExpandRatioArray.length > 0) {
columnExpandRatioArray[0] -= realColExpandRatioSum - 1000;
}
target.addAttribute("colExpand", columnExpandRatioArray);
target.addAttribute("rowExpand", rowExpandRatioArray);
// Add child component alignment info to layout tag
target.addAttribute("alignments", alignmentsArray);
}
private float getExpandRatioSum(Map<Integer, Float> ratioMap) {
float sum = 0;
for (Iterator<Entry<Integer, Float>> iterator = ratioMap.entrySet()
.iterator(); iterator.hasNext();) {
sum += iterator.next().getValue();
}
return sum;
}
/*
* (non-Javadoc)
*
* @see com.vaadin.ui.Layout.AlignmentHandler#getComponentAlignment(com
* .vaadin.ui.Component)
*/
public Alignment getComponentAlignment(Component childComponent) {
Alignment alignment = componentToAlignment.get(childComponent);
if (alignment == null) {
return ALIGNMENT_DEFAULT;
} else {
return alignment;
}
}
/**
* Defines a rectangular area of cells in a GridLayout.
*
* <p>
* Also maintains a reference to the component contained in the area.
* </p>
*
* <p>
* The area is specified by the cell coordinates of its upper left corner
* (column1,row1) and lower right corner (column2,row2). As otherwise with
* GridLayout, the column and row coordinates start from zero.
* </p>
*
* @author Vaadin Ltd.
* @version
* @VERSION@
* @since 3.0
*/
public class Area implements Serializable {
/**
* The column of the upper left corner cell of the area.
*/
private final int column1;
/**
* The row of the upper left corner cell of the area.
*/
private int row1;
/**
* The column of the lower right corner cell of the area.
*/
private final int column2;
/**
* The row of the lower right corner cell of the area.
*/
private int row2;
/**
* Component painted in the area.
*/
private Component component;
/**
* <p>
* Construct a new area on a grid.
* </p>
*
* @param component
* the component connected to the area.
* @param column1
* The column of the upper left corner cell of the area. The
* leftmost column has index 0.
* @param row1
* The row of the upper left corner cell of the area. The
* topmost row has index 0.
* @param column2
* The column of the lower right corner cell of the area. The
* leftmost column has index 0.
* @param row2
* The row of the lower right corner cell of the area. The
* topmost row has index 0.
*/
public Area(Component component, int column1, int row1, int column2,
int row2) {
this.column1 = column1;
this.row1 = row1;
this.column2 = column2;
this.row2 = row2;
this.component = component;
}
/**
* Tests if this Area overlaps with another Area.
*
* @param other
* the other Area that is to be tested for overlap with this
* area
* @return <code>true</code> if <code>other</code> area overlaps with
* this on, <code>false</code> if it does not.
*/
public boolean overlaps(Area other) {
return column1 <= other.getColumn2() && row1 <= other.getRow2()
&& column2 >= other.getColumn1() && row2 >= other.getRow1();
}
/**
* Gets the component connected to the area.
*
* @return the Component.
*/
public Component getComponent() {
return component;
}
/**
* Sets the component connected to the area.
*
* <p>
* This function only sets the value in the data structure and does not
* send any events or set parents.
* </p>
*
* @param newComponent
* the new connected overriding the existing one.
*/
protected void setComponent(Component newComponent) {
component = newComponent;
}
/**
* @deprecated Use {@link #getColumn1()} instead.
*/
@Deprecated
public int getX1() {
return getColumn1();
}
/**
* Gets the column of the top-left corner cell.
*
* @return the column of the top-left corner cell.
*/
public int getColumn1() {
return column1;
}
/**
* @deprecated Use {@link #getColumn2()} instead.
*/
@Deprecated
public int getX2() {
return getColumn2();
}
/**
* Gets the column of the bottom-right corner cell.
*
* @return the column of the bottom-right corner cell.
*/
public int getColumn2() {
return column2;
}
/**
* @deprecated Use {@link #getRow1()} instead.
*/
@Deprecated
public int getY1() {
return getRow1();
}
/**
* Gets the row of the top-left corner cell.
*
* @return the row of the top-left corner cell.
*/
public int getRow1() {
return row1;
}
/**
* @deprecated Use {@link #getRow2()} instead.
*/
@Deprecated
public int getY2() {
return getRow2();
}
/**
* Gets the row of the bottom-right corner cell.
*
* @return the row of the bottom-right corner cell.
*/
public int getRow2() {
return row2;
}
}
/**
* Gridlayout does not support laying components on top of each other. An
* <code>OverlapsException</code> is thrown when a component already exists
* (even partly) at the same space on a grid with the new component.
*
* @author Vaadin Ltd.
* @version
* @VERSION@
* @since 3.0
*/
public class OverlapsException extends java.lang.RuntimeException {
private final Area existingArea;
/**
* Constructs an <code>OverlapsException</code>.
*
* @param existingArea
*/
public OverlapsException(Area existingArea) {
this.existingArea = existingArea;
}
@Override
public String getMessage() {
StringBuilder sb = new StringBuilder();
Component component = existingArea.getComponent();
sb.append(component);
sb.append("( type = ");
sb.append(component.getClass().getName());
if (component.getCaption() != null) {
sb.append(", caption = \"");
sb.append(component.getCaption());
sb.append("\"");
}
sb.append(")");
sb.append(" is already added to ");
sb.append(existingArea.column1);
sb.append(",");
sb.append(existingArea.column1);
sb.append(",");
sb.append(existingArea.row1);
sb.append(",");
sb.append(existingArea.row2);
sb.append("(column1, column2, row1, row2).");
return sb.toString();
}
/**
* Gets the area .
*
* @return the existing area.
*/
public Area getArea() {
return existingArea;
}
}
/**
* An <code>Exception</code> object which is thrown when an area exceeds the
* bounds of the grid.
*
* @author Vaadin Ltd.
* @version
* @VERSION@
* @since 3.0
*/
public class OutOfBoundsException extends java.lang.RuntimeException {
private final Area areaOutOfBounds;
/**
* Constructs an <code>OoutOfBoundsException</code> with the specified
* detail message.
*
* @param areaOutOfBounds
*/
public OutOfBoundsException(Area areaOutOfBounds) {
this.areaOutOfBounds = areaOutOfBounds;
}
/**
* Gets the area that is out of bounds.
*
* @return the area out of Bound.
*/
public Area getArea() {
return areaOutOfBounds;
}
}
/**
* Sets the number of columns in the grid. The column count can not be
* reduced if there are any areas that would be outside of the shrunk grid.
*
* @param columns
* the new number of columns in the grid.
*/
public void setColumns(int columns) {
// The the param
if (columns < 1) {
throw new IllegalArgumentException(
"The number of columns and rows in the grid must be at least 1");
}
// In case of no change
if (getColumns() == columns) {
return;
}
// Checks for overlaps
if (getColumns() > columns) {
for (final Iterator<Area> i = areas.iterator(); i.hasNext();) {
final Area area = i.next();
if (area.column2 >= columns) {
throw new OutOfBoundsException(area);
}
}
}
getState().setColumns(columns);
requestRepaint();
}
/**
* Get the number of columns in the grid.
*
* @return the number of columns in the grid.
*/
public int getColumns() {
return getState().getColumns();
}
/**
* Sets the number of rows in the grid. The number of rows can not be
* reduced if there are any areas that would be outside of the shrunk grid.
*
* @param rows
* the new number of rows in the grid.
*/
public void setRows(int rows) {
// The the param
if (rows < 1) {
throw new IllegalArgumentException(
"The number of columns and rows in the grid must be at least 1");
}
// In case of no change
if (getRows() == rows) {
return;
}
// Checks for overlaps
if (getRows() > rows) {
for (final Iterator<Area> i = areas.iterator(); i.hasNext();) {
final Area area = i.next();
if (area.row2 >= rows) {
throw new OutOfBoundsException(area);
}
}
}
getState().setRows(rows);
requestRepaint();
}
/**
* Get the number of rows in the grid.
*
* @return the number of rows in the grid.
*/
public int getRows() {
return getState().getRows();
}
/**
* Gets the current x-position (column) of the cursor.
*
* <p>
* The cursor position points the position for the next component that is
* added without specifying its coordinates (grid cell). When the cursor
* position is occupied, the next component will be added to first free
* position after the cursor.
* </p>
*
* @return the grid column the cursor is on, starting from 0.
*/
public int getCursorX() {
return cursorX;
}
/**
* Sets the current cursor x-position. This is usually handled automatically
* by GridLayout.
*
* @param cursorX
*/
public void setCursorX(int cursorX) {
this.cursorX = cursorX;
}
/**
* Gets the current y-position (row) of the cursor.
*
* <p>
* The cursor position points the position for the next component that is
* added without specifying its coordinates (grid cell). When the cursor
* position is occupied, the next component will be added to the first free
* position after the cursor.
* </p>
*
* @return the grid row the Cursor is on.
*/
public int getCursorY() {
return cursorY;
}
/**
* Sets the current y-coordinate (row) of the cursor. This is usually
* handled automatically by GridLayout.
*
* @param cursorY
* the row number, starting from 0 for the topmost row.
*/
public void setCursorY(int cursorY) {
this.cursorY = cursorY;
}
/* Documented in superclass */
public void replaceComponent(Component oldComponent, Component newComponent) {
// Gets the locations
Area oldLocation = null;
Area newLocation = null;
for (final Iterator<Area> i = areas.iterator(); i.hasNext();) {
final Area location = i.next();
final Component component = location.getComponent();
if (component == oldComponent) {
oldLocation = location;
}
if (component == newComponent) {
newLocation = location;
}
}
if (oldLocation == null) {
addComponent(newComponent);
} else if (newLocation == null) {
removeComponent(oldComponent);
addComponent(newComponent, oldLocation.getColumn1(),
oldLocation.getRow1(), oldLocation.getColumn2(),
oldLocation.getRow2());
} else {
oldLocation.setComponent(newComponent);
newLocation.setComponent(oldComponent);
requestRepaint();
}
}
/*
* Removes all components from this container.
*
* @see com.vaadin.ui.ComponentContainer#removeAllComponents()
*/
@Override
public void removeAllComponents() {
super.removeAllComponents();
componentToAlignment = new HashMap<Component, Alignment>();
cursorX = 0;
cursorY = 0;
}
/*
* (non-Javadoc)
*
* @see com.vaadin.ui.Layout.AlignmentHandler#setComponentAlignment(com
* .vaadin.ui.Component, int, int)
*/
public void setComponentAlignment(Component childComponent,
int horizontalAlignment, int verticalAlignment) {
componentToAlignment.put(childComponent, new Alignment(
horizontalAlignment + verticalAlignment));
requestRepaint();
}
public void setComponentAlignment(Component childComponent,
Alignment alignment) {
componentToAlignment.put(childComponent, alignment);
requestRepaint();
}
/*
* (non-Javadoc)
*
* @see com.vaadin.ui.Layout.SpacingHandler#setSpacing(boolean)
*/
public void setSpacing(boolean spacing) {
getState().setSpacing(spacing);
requestRepaint();
}
/*
* (non-Javadoc)
*
* @see com.vaadin.ui.Layout.SpacingHandler#isSpacing()
*/
public boolean isSpacing() {
return getState().isSpacing();
}
/**
* Inserts an empty row at the specified position in the grid.
*
* @param row
* Index of the row before which the new row will be inserted.
* The leftmost row has index 0.
*/
public void insertRow(int row) {
if (row > getRows()) {
throw new IllegalArgumentException("Cannot insert row at " + row
+ " in a gridlayout with height " + getRows());
}
for (Iterator<Area> i = areas.iterator(); i.hasNext();) {
Area existingArea = i.next();
// Areas ending below the row needs to be moved down or stretched
if (existingArea.row2 >= row) {
existingArea.row2++;
// Stretch areas that span over the selected row
if (existingArea.row1 >= row) {
existingArea.row1++;
}
}
}
if (cursorY >= row) {
cursorY++;
}
setRows(getRows() + 1);
structuralChange = true;
requestRepaint();
}
/**
* Removes a row and all the components in the row.
*
* <p>
* Components which span over several rows are removed if the selected row
* is on the first row of such a component.
* </p>
*
* <p>
* If the last row is removed then all remaining components will be removed
* and the grid will be reduced to one row. The cursor will be moved to the
* upper left cell of the grid.
* </p>
*
* @param row
* Index of the row to remove. The leftmost row has index 0.
*/
public void removeRow(int row) {
if (row >= getRows()) {
throw new IllegalArgumentException("Cannot delete row " + row
+ " from a gridlayout with height " + getRows());
}
// Remove all components in row
for (int col = 0; col < getColumns(); col++) {
removeComponent(col, row);
}
// Shrink or remove areas in the selected row
for (Iterator<Area> i = areas.iterator(); i.hasNext();) {
Area existingArea = i.next();
if (existingArea.row2 >= row) {
existingArea.row2--;
if (existingArea.row1 > row) {
existingArea.row1--;
}
}
}
if (getRows() == 1) {
/*
* Removing the last row means that the dimensions of the Grid
* layout will be truncated to 1 empty row and the cursor is moved
* to the first cell
*/
cursorX = 0;
cursorY = 0;
} else {
setRows(getRows() - 1);
if (cursorY > row) {
cursorY--;
}
}
structuralChange = true;
requestRepaint();
}
/**
* Sets the expand ratio of given column.
*
* <p>
* The expand ratio defines how excess space is distributed among columns.
* Excess space means space that is left over from components that are not
* sized relatively. By default, the excess space is distributed evenly.
* </p>
*
* <p>
* Note that the component width of the GridLayout must be defined (fixed or
* relative, as opposed to undefined) for this method to have any effect.
* </p>
*
* @see #setWidth(float, int)
*
* @param columnIndex
* @param ratio
*/
public void setColumnExpandRatio(int columnIndex, float ratio) {
columnExpandRatio.put(columnIndex, ratio);
requestRepaint();
}
/**
* Returns the expand ratio of given column
*
* @see #setColumnExpandRatio(int, float)
*
* @param columnIndex
* @return the expand ratio, 0.0f by default
*/
public float getColumnExpandRatio(int columnIndex) {
Float r = columnExpandRatio.get(columnIndex);
return r == null ? 0 : r.floatValue();
}
/**
* Sets the expand ratio of given row.
*
* <p>
* Expand ratio defines how excess space is distributed among rows. Excess
* space means the space left over from components that are not sized
* relatively. By default, the excess space is distributed evenly.
* </p>
*
* <p>
* Note, that height needs to be defined (fixed or relative, as opposed to
* undefined height) for this method to have any effect.
* </p>
*
* @see #setHeight(float, int)
*
* @param rowIndex
* The row index, starting from 0 for the topmost row.
* @param ratio
*/
public void setRowExpandRatio(int rowIndex, float ratio) {
rowExpandRatio.put(rowIndex, ratio);
requestRepaint();
}
/**
* Returns the expand ratio of given row.
*
* @see #setRowExpandRatio(int, float)
*
* @param rowIndex
* The row index, starting from 0 for the topmost row.
* @return the expand ratio, 0.0f by default
*/
public float getRowExpandRatio(int rowIndex) {
Float r = rowExpandRatio.get(rowIndex);
return r == null ? 0 : r.floatValue();
}
/**
* Gets the Component at given index.
*
* @param x
* The column index, starting from 0 for the leftmost column.
* @param y
* The row index, starting from 0 for the topmost row.
* @return Component in given cell or null if empty
*/
public Component getComponent(int x, int y) {
for (final Iterator<Area> iterator = areas.iterator(); iterator
.hasNext();) {
final Area area = iterator.next();
if (area.getColumn1() <= x && x <= area.getColumn2()
&& area.getRow1() <= y && y <= area.getRow2()) {
return area.getComponent();
}
}
return null;
}
/**
* Returns information about the area where given component is laid in the
* GridLayout.
*
* @param component
* the component whose area information is requested.
* @return an Area object that contains information how component is laid in
* the grid
*/
public Area getComponentArea(Component component) {
for (final Iterator<Area> iterator = areas.iterator(); iterator
.hasNext();) {
final Area area = iterator.next();
if (area.getComponent() == component) {
return area;
}
}
return null;
}
/**
* Sets the component alignment using a shorthand string notation.
*
* @deprecated Replaced by
* {@link #setComponentAlignment(Component, Alignment)}
*
* @param component
* A child component in this layout
* @param alignment
* A short hand notation described in {@link AlignmentUtils}
*/
@Deprecated
public void setComponentAlignment(Component component, String alignment) {
AlignmentUtils.setComponentAlignment(this, component, alignment);
}
public void addListener(LayoutClickListener listener) {
addListener(LayoutClickEventHandler.LAYOUT_CLICK_EVENT_IDENTIFIER,
LayoutClickEvent.class, listener,
LayoutClickListener.clickMethod);
}
public void removeListener(LayoutClickListener listener) {
removeListener(LayoutClickEventHandler.LAYOUT_CLICK_EVENT_IDENTIFIER,
LayoutClickEvent.class, listener);
}
}
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