Mercurial > projects > dwt-linux
view dwt/layout/GridLayout.d @ 52:47febc12f0a7
GridData, GridLayout
| author | Frank Benoit <benoit@tionex.de> |
|---|---|
| date | Fri, 11 Jan 2008 11:14:25 +0100 |
| parents | |
| children | 93981635e709 |
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/******************************************************************************* * Copyright (c) 2000, 2007 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * IBM Corporation - initial API and implementation *******************************************************************************/ module dwt.layout.GridLayout; import dwt.layout.GridData; import dwt.SWT; import dwt.graphics.Point; import dwt.graphics.Rectangle; import dwt.widgets.Control; import dwt.widgets.Composite; import dwt.widgets.Layout; import dwt.widgets.Scrollable; import dwt.dwthelper.System; import dwt.dwthelper.Integer; import tango.text.Util; import tango.util.Convert; import Math = tango.math.Math; /** * Instances of this class lay out the control children of a * <code>Composite</code> in a grid. * <p> * <code>GridLayout</code> has a number of configuration fields, and the * controls it lays out can have an associated layout data object, called * <code>GridData</code>. The power of <code>GridLayout</code> lies in the * ability to configure <code>GridData</code> for each control in the layout. * </p> * <p> * The following code creates a shell managed by a <code>GridLayout</code> * with 3 columns: * <pre> * Display display = new Display(); * Shell shell = new Shell(display); * GridLayout gridLayout = new GridLayout(); * gridLayout.numColumns = 3; * shell.setLayout(gridLayout); * </pre> * The <code>numColumns</code> field is the most important field in a * <code>GridLayout</code>. Widgets are laid out in columns from left * to right, and a new row is created when <code>numColumns</code> + 1 * controls are added to the <code>Composite<code>. * </p> * * @see GridData */ public final class GridLayout : Layout { /** * numColumns specifies the number of cell columns in the layout. * If numColumns has a value less than 1, the layout will not * set the size and position of any controls. * * The default value is 1. */ public int numColumns = 1; /** * makeColumnsEqualWidth specifies whether all columns in the layout * will be forced to have the same width. * * The default value is false. */ public bool makeColumnsEqualWidth = false; /** * marginWidth specifies the number of pixels of horizontal margin * that will be placed along the left and right edges of the layout. * * The default value is 5. */ public int marginWidth = 5; /** * marginHeight specifies the number of pixels of vertical margin * that will be placed along the top and bottom edges of the layout. * * The default value is 5. */ public int marginHeight = 5; /** * marginLeft specifies the number of pixels of horizontal margin * that will be placed along the left edge of the layout. * * The default value is 0. * * @since 3.1 */ public int marginLeft = 0; /** * marginTop specifies the number of pixels of vertical margin * that will be placed along the top edge of the layout. * * The default value is 0. * * @since 3.1 */ public int marginTop = 0; /** * marginRight specifies the number of pixels of horizontal margin * that will be placed along the right edge of the layout. * * The default value is 0. * * @since 3.1 */ public int marginRight = 0; /** * marginBottom specifies the number of pixels of vertical margin * that will be placed along the bottom edge of the layout. * * The default value is 0. * * @since 3.1 */ public int marginBottom = 0; /** * horizontalSpacing specifies the number of pixels between the right * edge of one cell and the left edge of its neighbouring cell to * the right. * * The default value is 5. */ public int horizontalSpacing = 5; /** * verticalSpacing specifies the number of pixels between the bottom * edge of one cell and the top edge of its neighbouring cell underneath. * * The default value is 5. */ public int verticalSpacing = 5; /** * Constructs a new instance of this class. */ public this () {} /** * Constructs a new instance of this class given the * number of columns, and whether or not the columns * should be forced to have the same width. * If numColumns has a value less than 1, the layout will not * set the size and position of any controls. * * @param numColumns the number of columns in the grid * @param makeColumnsEqualWidth whether or not the columns will have equal width * * @since 2.0 */ public this (int numColumns, bool makeColumnsEqualWidth) { this.numColumns = numColumns; this.makeColumnsEqualWidth = makeColumnsEqualWidth; } protected Point computeSize (Composite composite, int wHint, int hHint, bool flushCache_) { Point size = layout (composite, false, 0, 0, wHint, hHint, flushCache_); if (wHint !is SWT.DEFAULT) size.x = wHint; if (hHint !is SWT.DEFAULT) size.y = hHint; return size; } protected bool flushCache (Control control) { Object data = control.getLayoutData (); if (data !is null) (cast(GridData) data).flushCache (); return true; } GridData getData (Control [][] grid, int row, int column, int rowCount, int columnCount, bool first) { Control control = grid [row] [column]; if (control !is null) { GridData data = cast(GridData) control.getLayoutData (); int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); int vSpan = Math.max (1, data.verticalSpan); int i = first ? row + vSpan - 1 : row - vSpan + 1; int j = first ? column + hSpan - 1 : column - hSpan + 1; if (0 <= i && i < rowCount) { if (0 <= j && j < columnCount) { if (control is grid [i][j]) return data; } } } return null; } protected void layout (Composite composite, bool flushCache_) { Rectangle rect = composite.getClientArea (); layout (composite, true, rect.x, rect.y, rect.width, rect.height, flushCache_); } Point layout (Composite composite, bool move, int x, int y, int width, int height, bool flushCache_) { if (numColumns < 1) { return new Point (marginLeft + marginWidth * 2 + marginRight, marginTop + marginHeight * 2 + marginBottom); } Control [] children = composite.getChildren (); int count = 0; for (int i=0; i<children.length; i++) { Control control = children [i]; GridData data = cast(GridData) control.getLayoutData (); if (data is null || !data.exclude) { children [count++] = children [i]; } } if (count is 0) { return new Point (marginLeft + marginWidth * 2 + marginRight, marginTop + marginHeight * 2 + marginBottom); } for (int i=0; i<count; i++) { Control child = children [i]; GridData data = cast(GridData) child.getLayoutData (); if (data is null) child.setLayoutData (data = new GridData ()); if (flushCache_) data.flushCache (); data.computeSize (child, data.widthHint, data.heightHint, flushCache_); if (data.grabExcessHorizontalSpace && data.minimumWidth > 0) { if (data.cacheWidth < data.minimumWidth) { int trim = 0; //TEMPORARY CODE if ( auto sa = cast(Scrollable)child ) { Rectangle rect = sa.computeTrim (0, 0, 0, 0); trim = rect.width; } else { trim = child.getBorderWidth () * 2; } data.cacheWidth = data.cacheHeight = SWT.DEFAULT; data.computeSize (child, Math.max (0, data.minimumWidth - trim), data.heightHint, false); } } if (data.grabExcessVerticalSpace && data.minimumHeight > 0) { data.cacheHeight = Math.max (data.cacheHeight, data.minimumHeight); } } /* Build the grid */ int row = 0, column = 0, rowCount = 0, columnCount = numColumns; Control [][] grid = new Control [][]( 4, columnCount ); for (int i=0; i<count; i++) { Control child = children [i]; GridData data = cast(GridData) child.getLayoutData (); int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); int vSpan = Math.max (1, data.verticalSpan); while (true) { int lastRow = row + vSpan; if (lastRow >= grid.length) { Control [][] newGrid = new Control[][]( lastRow + 4, columnCount ); SimpleType!(Control[]).arraycopy (grid, 0, newGrid, 0, grid.length); grid = newGrid; } if (grid [row] is null) { grid [row] = new Control [columnCount]; } while (column < columnCount && grid [row] [column] !is null) { column++; } int endCount = column + hSpan; if (endCount <= columnCount) { int index = column; while (index < endCount && grid [row] [index] is null) { index++; } if (index is endCount) break; column = index; } if (column + hSpan >= columnCount) { column = 0; row++; } } for (int j=0; j<vSpan; j++) { if (grid [row + j] is null) { grid [row + j] = new Control [columnCount]; } for (int k=0; k<hSpan; k++) { grid [row + j] [column + k] = child; } } rowCount = Math.max (rowCount, row + vSpan); column += hSpan; } /* Column widths */ int availableWidth = width - horizontalSpacing * (columnCount - 1) - (marginLeft + marginWidth * 2 + marginRight); int expandCount = 0; int [] widths = new int [columnCount]; int [] minWidths = new int [columnCount]; bool [] expandColumn = new bool [columnCount]; for (int j=0; j<columnCount; j++) { for (int i=0; i<rowCount; i++) { GridData data = getData (grid, i, j, rowCount, columnCount, true); if (data !is null) { int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); if (hSpan is 1) { int w = data.cacheWidth + data.horizontalIndent; widths [j] = Math.max (widths [j], w); if (data.grabExcessHorizontalSpace) { if (!expandColumn [j]) expandCount++; expandColumn [j] = true; } if (!data.grabExcessHorizontalSpace || data.minimumWidth !is 0) { w = !data.grabExcessHorizontalSpace || data.minimumWidth is SWT.DEFAULT ? data.cacheWidth : data.minimumWidth; w += data.horizontalIndent; minWidths [j] = Math.max (minWidths [j], w); } } } } for (int i=0; i<rowCount; i++) { GridData data = getData (grid, i, j, rowCount, columnCount, false); if (data !is null) { int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); if (hSpan > 1) { int spanWidth = 0, spanMinWidth = 0, spanExpandCount = 0; for (int k=0; k<hSpan; k++) { spanWidth += widths [j-k]; spanMinWidth += minWidths [j-k]; if (expandColumn [j-k]) spanExpandCount++; } if (data.grabExcessHorizontalSpace && spanExpandCount is 0) { expandCount++; expandColumn [j] = true; } int w = data.cacheWidth + data.horizontalIndent - spanWidth - (hSpan - 1) * horizontalSpacing; if (w > 0) { if (makeColumnsEqualWidth) { int equalWidth = (w + spanWidth) / hSpan; int remainder = (w + spanWidth) % hSpan, last = -1; for (int k = 0; k < hSpan; k++) { widths [last=j-k] = Math.max (equalWidth, widths [j-k]); } if (last > -1) widths [last] += remainder; } else { if (spanExpandCount is 0) { widths [j] += w; } else { int delta = w / spanExpandCount; int remainder = w % spanExpandCount, last = -1; for (int k = 0; k < hSpan; k++) { if (expandColumn [j-k]) { widths [last=j-k] += delta; } } if (last > -1) widths [last] += remainder; } } } if (!data.grabExcessHorizontalSpace || data.minimumWidth !is 0) { w = !data.grabExcessHorizontalSpace || data.minimumWidth is SWT.DEFAULT ? data.cacheWidth : data.minimumWidth; w += data.horizontalIndent - spanMinWidth - (hSpan - 1) * horizontalSpacing; if (w > 0) { if (spanExpandCount is 0) { minWidths [j] += w; } else { int delta = w / spanExpandCount; int remainder = w % spanExpandCount, last = -1; for (int k = 0; k < hSpan; k++) { if (expandColumn [j-k]) { minWidths [last=j-k] += delta; } } if (last > -1) minWidths [last] += remainder; } } } } } } } if (makeColumnsEqualWidth) { int minColumnWidth = 0; int columnWidth = 0; for (int i=0; i<columnCount; i++) { minColumnWidth = Math.max (minColumnWidth, minWidths [i]); columnWidth = Math.max (columnWidth, widths [i]); } columnWidth = width is SWT.DEFAULT || expandCount is 0 ? columnWidth : Math.max (minColumnWidth, availableWidth / columnCount); for (int i=0; i<columnCount; i++) { expandColumn [i] = expandCount > 0; widths [i] = columnWidth; } } else { if (width !is SWT.DEFAULT && expandCount > 0) { int totalWidth = 0; for (int i=0; i<columnCount; i++) { totalWidth += widths [i]; } int c = expandCount; int delta = (availableWidth - totalWidth) / c; int remainder = (availableWidth - totalWidth) % c; int last = -1; while (totalWidth !is availableWidth) { for (int j=0; j<columnCount; j++) { if (expandColumn [j]) { if (widths [j] + delta > minWidths [j]) { widths [last = j] = widths [j] + delta; } else { widths [j] = minWidths [j]; expandColumn [j] = false; c--; } } } if (last > -1) widths [last] += remainder; for (int j=0; j<columnCount; j++) { for (int i=0; i<rowCount; i++) { GridData data = getData (grid, i, j, rowCount, columnCount, false); if (data !is null) { int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); if (hSpan > 1) { if (!data.grabExcessHorizontalSpace || data.minimumWidth !is 0) { int spanWidth = 0, spanExpandCount = 0; for (int k=0; k<hSpan; k++) { spanWidth += widths [j-k]; if (expandColumn [j-k]) spanExpandCount++; } int w = !data.grabExcessHorizontalSpace || data.minimumWidth is SWT.DEFAULT ? data.cacheWidth : data.minimumWidth; w += data.horizontalIndent - spanWidth - (hSpan - 1) * horizontalSpacing; if (w > 0) { if (spanExpandCount is 0) { widths [j] += w; } else { int delta2 = w / spanExpandCount; int remainder2 = w % spanExpandCount, last2 = -1; for (int k = 0; k < hSpan; k++) { if (expandColumn [j-k]) { widths [last2=j-k] += delta2; } } if (last2 > -1) widths [last2] += remainder2; } } } } } } } if (c is 0) break; totalWidth = 0; for (int i=0; i<columnCount; i++) { totalWidth += widths [i]; } delta = (availableWidth - totalWidth) / c; remainder = (availableWidth - totalWidth) % c; last = -1; } } } /* Wrapping */ GridData [] flush = null; int flushLength = 0; if (width !is SWT.DEFAULT) { for (int j=0; j<columnCount; j++) { for (int i=0; i<rowCount; i++) { GridData data = getData (grid, i, j, rowCount, columnCount, false); if (data !is null) { if (data.heightHint is SWT.DEFAULT) { Control child = grid [i][j]; //TEMPORARY CODE int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); int currentWidth = 0; for (int k=0; k<hSpan; k++) { currentWidth += widths [j-k]; } currentWidth += (hSpan - 1) * horizontalSpacing - data.horizontalIndent; if ((currentWidth !is data.cacheWidth && data.horizontalAlignment is SWT.FILL) || (data.cacheWidth > currentWidth)) { int trim = 0; if ( auto sa = cast(Scrollable)child ) { Rectangle rect = sa.computeTrim (0, 0, 0, 0); trim = rect.width; } else { trim = child.getBorderWidth () * 2; } data.cacheWidth = data.cacheHeight = SWT.DEFAULT; data.computeSize (child, Math.max (0, currentWidth - trim), data.heightHint, false); if (data.grabExcessVerticalSpace && data.minimumHeight > 0) { data.cacheHeight = Math.max (data.cacheHeight, data.minimumHeight); } if (flush is null) flush = new GridData [count]; flush [flushLength++] = data; } } } } } } /* Row heights */ int availableHeight = height - verticalSpacing * (rowCount - 1) - (marginTop + marginHeight * 2 + marginBottom); expandCount = 0; int [] heights = new int [rowCount]; int [] minHeights = new int [rowCount]; bool [] expandRow = new bool [rowCount]; for (int i=0; i<rowCount; i++) { for (int j=0; j<columnCount; j++) { GridData data = getData (grid, i, j, rowCount, columnCount, true); if (data !is null) { int vSpan = Math.max (1, Math.min (data.verticalSpan, rowCount)); if (vSpan is 1) { int h = data.cacheHeight + data.verticalIndent; heights [i] = Math.max (heights [i], h); if (data.grabExcessVerticalSpace) { if (!expandRow [i]) expandCount++; expandRow [i] = true; } if (!data.grabExcessVerticalSpace || data.minimumHeight !is 0) { h = !data.grabExcessVerticalSpace || data.minimumHeight is SWT.DEFAULT ? data.cacheHeight : data.minimumHeight; h += data.verticalIndent; minHeights [i] = Math.max (minHeights [i], h); } } } } for (int j=0; j<columnCount; j++) { GridData data = getData (grid, i, j, rowCount, columnCount, false); if (data !is null) { int vSpan = Math.max (1, Math.min (data.verticalSpan, rowCount)); if (vSpan > 1) { int spanHeight = 0, spanMinHeight = 0, spanExpandCount = 0; for (int k=0; k<vSpan; k++) { spanHeight += heights [i-k]; spanMinHeight += minHeights [i-k]; if (expandRow [i-k]) spanExpandCount++; } if (data.grabExcessVerticalSpace && spanExpandCount is 0) { expandCount++; expandRow [i] = true; } int h = data.cacheHeight + data.verticalIndent - spanHeight - (vSpan - 1) * verticalSpacing; if (h > 0) { if (spanExpandCount is 0) { heights [i] += h; } else { int delta = h / spanExpandCount; int remainder = h % spanExpandCount, last = -1; for (int k = 0; k < vSpan; k++) { if (expandRow [i-k]) { heights [last=i-k] += delta; } } if (last > -1) heights [last] += remainder; } } if (!data.grabExcessVerticalSpace || data.minimumHeight !is 0) { h = !data.grabExcessVerticalSpace || data.minimumHeight is SWT.DEFAULT ? data.cacheHeight : data.minimumHeight; h += data.verticalIndent - spanMinHeight - (vSpan - 1) * verticalSpacing; if (h > 0) { if (spanExpandCount is 0) { minHeights [i] += h; } else { int delta = h / spanExpandCount; int remainder = h % spanExpandCount, last = -1; for (int k = 0; k < vSpan; k++) { if (expandRow [i-k]) { minHeights [last=i-k] += delta; } } if (last > -1) minHeights [last] += remainder; } } } } } } } if (height !is SWT.DEFAULT && expandCount > 0) { int totalHeight = 0; for (int i=0; i<rowCount; i++) { totalHeight += heights [i]; } int c = expandCount; int delta = (availableHeight - totalHeight) / c; int remainder = (availableHeight - totalHeight) % c; int last = -1; while (totalHeight !is availableHeight) { for (int i=0; i<rowCount; i++) { if (expandRow [i]) { if (heights [i] + delta > minHeights [i]) { heights [last = i] = heights [i] + delta; } else { heights [i] = minHeights [i]; expandRow [i] = false; c--; } } } if (last > -1) heights [last] += remainder; for (int i=0; i<rowCount; i++) { for (int j=0; j<columnCount; j++) { GridData data = getData (grid, i, j, rowCount, columnCount, false); if (data !is null) { int vSpan = Math.max (1, Math.min (data.verticalSpan, rowCount)); if (vSpan > 1) { if (!data.grabExcessVerticalSpace || data.minimumHeight !is 0) { int spanHeight = 0, spanExpandCount = 0; for (int k=0; k<vSpan; k++) { spanHeight += heights [i-k]; if (expandRow [i-k]) spanExpandCount++; } int h = !data.grabExcessVerticalSpace || data.minimumHeight is SWT.DEFAULT ? data.cacheHeight : data.minimumHeight; h += data.verticalIndent - spanHeight - (vSpan - 1) * verticalSpacing; if (h > 0) { if (spanExpandCount is 0) { heights [i] += h; } else { int delta2 = h / spanExpandCount; int remainder2 = h % spanExpandCount, last2 = -1; for (int k = 0; k < vSpan; k++) { if (expandRow [i-k]) { heights [last2=i-k] += delta2; } } if (last2 > -1) heights [last2] += remainder2; } } } } } } } if (c is 0) break; totalHeight = 0; for (int i=0; i<rowCount; i++) { totalHeight += heights [i]; } delta = (availableHeight - totalHeight) / c; remainder = (availableHeight - totalHeight) % c; last = -1; } } /* Position the controls */ if (move) { int gridY = y + marginTop + marginHeight; for (int i=0; i<rowCount; i++) { int gridX = x + marginLeft + marginWidth; for (int j=0; j<columnCount; j++) { GridData data = getData (grid, i, j, rowCount, columnCount, true); if (data !is null) { int hSpan = Math.max (1, Math.min (data.horizontalSpan, columnCount)); int vSpan = Math.max (1, data.verticalSpan); int cellWidth = 0, cellHeight = 0; for (int k=0; k<hSpan; k++) { cellWidth += widths [j+k]; } for (int k=0; k<vSpan; k++) { cellHeight += heights [i+k]; } cellWidth += horizontalSpacing * (hSpan - 1); int childX = gridX + data.horizontalIndent; int childWidth = Math.min (data.cacheWidth, cellWidth); switch (data.horizontalAlignment) { case SWT.CENTER: case GridData.CENTER: childX += Math.max (0, (cellWidth - data.horizontalIndent - childWidth) / 2); break; case SWT.RIGHT: case SWT.END: case GridData.END: childX += Math.max (0, cellWidth - data.horizontalIndent - childWidth); break; case SWT.FILL: childWidth = cellWidth - data.horizontalIndent; break; } cellHeight += verticalSpacing * (vSpan - 1); int childY = gridY + data.verticalIndent; int childHeight = Math.min (data.cacheHeight, cellHeight); switch (data.verticalAlignment) { case SWT.CENTER: case GridData.CENTER: childY += Math.max (0, (cellHeight - data.verticalIndent - childHeight) / 2); break; case SWT.BOTTOM: case SWT.END: case GridData.END: childY += Math.max (0, cellHeight - data.verticalIndent - childHeight); break; case SWT.FILL: childHeight = cellHeight - data.verticalIndent; break; } Control child = grid [i][j]; if (child !is null) { child.setBounds (childX, childY, childWidth, childHeight); } } gridX += widths [j] + horizontalSpacing; } gridY += heights [i] + verticalSpacing; } } // clean up cache for (int i = 0; i < flushLength; i++) { flush [i].cacheWidth = flush [i].cacheHeight = -1; } int totalDefaultWidth = 0; int totalDefaultHeight = 0; for (int i=0; i<columnCount; i++) { totalDefaultWidth += widths [i]; } for (int i=0; i<rowCount; i++) { totalDefaultHeight += heights [i]; } totalDefaultWidth += horizontalSpacing * (columnCount - 1) + marginLeft + marginWidth * 2 + marginRight; totalDefaultHeight += verticalSpacing * (rowCount - 1) + marginTop + marginHeight * 2 + marginBottom; return new Point (totalDefaultWidth, totalDefaultHeight); } char[] getName () { char[] string = this.classinfo.name; int index = locatePrior( string, '.'); if (index is string.length ) return string; return string[ index + 1 .. string.length ]; } /** * Returns a string containing a concise, human-readable * description of the receiver. * * @return a string representation of the layout */ public char[] toString () { char[] string = getName ()~" {"; if (numColumns !is 1) string ~= "numColumns="~to!(char[])(numColumns)~" "; if (makeColumnsEqualWidth) string ~= "makeColumnsEqualWidth="~to!(char[])(makeColumnsEqualWidth)~" "; if (marginWidth !is 0) string ~= "marginWidth="~to!(char[])(marginWidth)~" "; if (marginHeight !is 0) string ~= "marginHeight="~to!(char[])(marginHeight)~" "; if (marginLeft !is 0) string ~= "marginLeft="~to!(char[])(marginLeft)~" "; if (marginRight !is 0) string ~= "marginRight="~to!(char[])(marginRight)~" "; if (marginTop !is 0) string ~= "marginTop="~to!(char[])(marginTop)~" "; if (marginBottom !is 0) string ~= "marginBottom="~to!(char[])(marginBottom)~" "; if (horizontalSpacing !is 0) string ~= "horizontalSpacing="~to!(char[])(horizontalSpacing)~" "; if (verticalSpacing !is 0) string ~= "verticalSpacing="~to!(char[])(verticalSpacing)~" "; string = string.trim(); string ~= "}"; return string; } }