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517 lines
18 KiB
517 lines
18 KiB
/****************************************************************************
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**
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** Explanation of the layout subsystem
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**
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** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of the TQt GUI Toolkit.
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**
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** This file may be used under the terms of the GNU General
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** Public License versions 2.0 or 3.0 as published by the Free
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** Software Foundation and appearing in the files LICENSE.GPL2
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** and LICENSE.GPL3 included in the packaging of this file.
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** Alternatively you may (at your option) use any later version
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** of the GNU General Public License if such license has been
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** publicly approved by Trolltech ASA (or its successors, if any)
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** and the KDE Free TQt Foundation.
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**
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** Please review the following information to ensure GNU General
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** Public Licensing requirements will be met:
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** http://trolltech.com/products/qt/licenses/licensing/opensource/.
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** If you are unsure which license is appropriate for your use, please
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** review the following information:
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** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
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** or contact the sales department at sales@trolltech.com.
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**
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** This file may be used under the terms of the Q Public License as
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** defined by Trolltech ASA and appearing in the file LICENSE.QPL
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** included in the packaging of this file. Licensees holding valid Qt
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** Commercial licenses may use this file in accordance with the Qt
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** Commercial License Agreement provided with the Software.
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**
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** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
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** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
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** herein.
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**
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**********************************************************************/
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/*!
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\page layout.html
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\title Layout Classes
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The TQt layout system provides a simple and powerful way of specifying
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the layout of child widgets.
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By specifying the logical layout once, you get the following benefits:
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\list
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\i Positioning of child widgets.
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\i Sensible default sizes for top-level widgets.
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\i Sensible minimum sizes for top-level widgets.
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\i Resize handling.
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\i Automatic update when contents change:
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\list
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\i Font size, text or other contents of subwidgets.
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\i Hiding or showing a subwidget.
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\i Removal of subwidget.
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\endlist
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\endlist
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Qt's layout classes were designed for hand-written C++ code, so
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they're easy to understand and use.
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The disadvantage of hand-written layout code is that it isn't very
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convenient when you're experimenting with the design of a form and you
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have to go through the compile, link and run cycle for each change.
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Our solution is \link designer-manual.book TQt Designer\endlink, a GUI
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visual design tool which makes it fast and easy to experiment with
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layouts and which generates the C++ layout code for you.
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\section1 Layout Widgets
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The easiest way to give your widgets a good layout is to use the
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layout widgets: \l QHBox, \l QVBox and \l QGrid. A layout widget
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automatically lays out its child widgets in the order they are
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constructed. To create more complex layouts, you can nest layout
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widgets inside each other. (Note that \l TQWidget does not have a
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layout by default, you must add one if you want to lay out widgets
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inside a \l TQWidget.)
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\list
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\i A \l QHBox lays out its child widgets in a horizontal row, left to right.
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\img qhbox-m.png Horizontal box with five child widgets
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\i A \l QVBox lays out its child widgets in a vertical column, top to bottom.
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\img qvbox-m.png Vertical box with five child widgets
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\i A \l QGrid lays out its child widgets in a two dimensional grid.
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You can specify how many columns the grid has, and it is populated left to
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right, beginning a new row when the previous row is full. The grid is
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fixed; the child widgets will not flow to other rows as the widget is
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resized.
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\endlist
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\img qgrid-m.png Two-column grid with five child widgets
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The grid shown above can be produced by the following code:
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\code
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QGrid *mainGrid = new QGrid( 2 ); // a 2 x n grid
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new TQLabel( "One", mainGrid );
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new TQLabel( "Two", mainGrid );
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new TQLabel( "Three", mainGrid );
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new TQLabel( "Four", mainGrid );
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new TQLabel( "Five", mainGrid );
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\endcode
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You can adjust the layout to some extent by calling
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TQWidget::setMinimumSize() or TQWidget::setFixedSize() on the child widgets.
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\section1 Adding Widgets to a Layout
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When you add widgets to a layout the layout process works as follows:
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\list 1
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\i All the widgets will initially be allocated an amount of space in
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accordance with their TQWidget::sizePolicy().
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\i If any of the widgets have stretch factors set, with a value
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greater than zero, then they are allocated space in proportion to
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their \link #stretch stretch factor\endlink.
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\i If any of the widgets have stretch factors set to zero they will
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only get more space if no other widgets want the space. Of these,
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space is allocated to widgets with an \c Expanding size policy first.
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\i Any widgets that are allocated less space than their minimum size
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(or minimum size hint if no minimum size is specified) are allocated
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this minimum size they require. (Widgets don't have to have a minimum
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size or minimum size hint in which case the strech factor is their
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determining factor.)
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\i Any widgets that are allocated more space than their maximum size
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are allocated the maximum size space they require. (Widgets don't have
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to have a maximum size in which case the strech factor is their
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determining factor.)
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\endlist
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\target stretch
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\section2 Stretch Factors
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\keyword stretch factor
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Widgets are normally created without any stretch factor set. When they
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are laid out in a layout the widgets are given a share of space in
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accordance with their TQWidget::sizePolicy() or their minimum size hint
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whichever is the greater. Stretch factors are used to change how much
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space widgets are given in proportion to one another.
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If we have three widgets laid out using a QHBox with no stretch
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factors set we will get a layout like this:
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\img layout1.png 3 widgets in a row
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If we apply stretch factors to each widget, they will be laid out in
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proportion (but never less than their minimum size hint), e.g.
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\img layout2.png 3 stretch factored widgets in a row
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\section1 QLayout subclassing
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If you need more control over the layout, use a \link QLayout
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QLayout\endlink subclass. The layout classes included in TQt are \link
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QGridLayout QGridLayout\endlink and \link QBoxLayout
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QBoxLayout\endlink. (\link QHBoxLayout QHBoxLayout\endlink and \link
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QVBoxLayout QVBoxLayout\endlink are trivial subclasses of QBoxLayout,
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that are simpler to use and make the code easier to read.)
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When you use a layout, you must insert each child both into its parent
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widget (done in the constructor) and into its layout (typically done
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with a function called addWidget()). This way, you can give layout
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parameters for each widget, specifying properties like alignment,
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stretch, and placement.
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The following code makes a grid like the one above, with a couple of
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improvements:
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\code
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TQWidget *main = new TQWidget;
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// make a 1x1 grid; it will auto-expand
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QGridLayout *grid = new QGridLayout( main, 1, 1 );
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// add the first four widgets with (row, column) addressing
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grid->addWidget( new TQLabel( "One", main ), 0, 0 );
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grid->addWidget( new TQLabel( "Two", main ), 0, 1 );
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grid->addWidget( new TQLabel( "Three", main ), 1, 0 );
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grid->addWidget( new TQLabel( "Four", main ), 1, 1 );
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// add the last widget on row 2, spanning from column 0 to
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// column 1, and center aligned
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grid->addMultiCellWidget( new TQLabel( "Five", main ), 2, 2, 0, 1,
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TQt::AlignCenter );
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// let the ratio between the widths of columns 0 and 1 be 2:3
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grid->setColStretch( 0, 2 );
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grid->setColStretch( 1, 3 );
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\endcode
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You can insert layouts inside a layout by giving the parent layout as
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a parameter in the constructor.
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\code
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TQWidget *main = new TQWidget;
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TQLineEdit *field = new TQLineEdit( main );
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TQPushButton *ok = new TQPushButton( "OK", main );
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TQPushButton *cancel = new TQPushButton( "Cancel", main );
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TQLabel *label = new TQLabel( "Write once, compile everywhere.", main );
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// a layout on a widget
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QVBoxLayout *vbox = new QVBoxLayout( main );
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vbox->addWidget( label );
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vbox->addWidget( field );
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// a layout inside a layout
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QHBoxLayout *buttons = new QHBoxLayout( vbox );
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buttons->addWidget( ok );
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buttons->addWidget( cancel );
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\endcode
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If you are not satisfied with the default placement, you can create
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the layout without a parent and then insert it with addLayout().
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The inner layout then becomes a child of the layout it is inserted
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into.
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\section1 Custom Layouts
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If the built-in layout classes are not sufficient, you can define your
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own. You must make a subclass of \l QLayout that handles resizing and
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size calculations, as well as a subclass of \l QGLayoutIterator to
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iterate over your layout class.
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See the \link customlayout.html Custom Layout \endlink page for an
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in-depth description.
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\section1 Custom Widgets In Layouts
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When you make your own widget class, you should also communicate its
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layout properties. If the widget has a QLayout, this is already taken
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care of. If the widget does not have any child widgets, or uses manual
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layout, you should reimplement the following TQWidget member functions:
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\list
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\i TQWidget::sizeHint() returns the preferred size of the widget.
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\i TQWidget::minimumSizeHint() returns the smallest size the widget can have.
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\i TQWidget::sizePolicy() returns a \l TQSizePolicy; a value describing
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the space requirements of the widget.
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\endlist
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Call TQWidget::updateGeometry() whenever the size hint, minimum size
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hint or size policy changes. This will cause a layout recalculation.
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Multiple calls to updateGeometry() will only cause one recalculation.
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If the preferred height of your widget depends on its actual width
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(e.g. a label with automatic word-breaking), set the \link
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TQSizePolicy::hasHeightForWidth() hasHeightForWidth\endlink() flag in
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\link TQWidget::sizePolicy() sizePolicy\endlink(), and reimplement \l
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TQWidget::heightForWidth().
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Even if you implement heightForWidth(), it is still necessary to
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provide a good sizeHint(). The sizeHint() provides the preferred width
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of the widget, and it is used by QLayout subclasses that do not
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support heightForWidth() (both QGridLayout and QBoxLayout support it).
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For further guidance when implementing these functions, see their
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implementations in existing TQt classes that have similar layout
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requirements to your new widget.
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\section1 Manual Layout
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If you are making a one-of-a-kind special layout, you can also make a
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custom widget as described above. Reimplement TQWidget::resizeEvent()
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to calculate the required distribution of sizes and call \link
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TQWidget::setGeometry() setGeometry\endlink() on each child.
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The widget will get an event with \link TQEvent::type() type \endlink
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\c LayoutHint when the layout needs to be recalculated. Reimplement
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TQWidget::event() to be notified of \c LayoutHint events.
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\section1 Layout Issues
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The use of rich text in a label widget can introduce some problems to
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the layout of its parent widget. Problems occur due to the way rich text
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is handled by Qt's layout managers when the label is word wrapped.
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In certain cases the parent layout is put into QLayout::FreeResize mode,
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meaning that it will not adapt the layout of its contents to fit inside
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small sized windows, or even prevent the user from making the
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window too small to be usable. This can be overcome by subclassing
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the problematic widgets, and implementing suitable sizeHint() and
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minimumSizeHint() functions.
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*/
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/*! \page customlayout.html
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\title Writing your own layout manager
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Here we present an example in detail. The class CardLayout is inspired
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by the Java layout manager of the same name. It lays out the items
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(widgets or nested layouts) on top of each other, each item offset by
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QLayout::spacing().
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To write your own layout class, you must define the following:
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\list
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\i A data structure to store the items handled by the layout. Each
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item is a \link QLayoutItem QLayoutItem\endlink. We will use a
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TQPtrList in this example.
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\i \link QLayout::addItem() addItem() \endlink, how to add items to
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the layout.
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\i \link QLayout::setGeometry() setGeometry() \endlink, how to perform
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the layout.
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\i \link QLayout::sizeHint() sizeHint() \endlink, the preferred size
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of the layout.
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\i \link QLayout::iterator() iterator() \endlink, how to iterate over
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the layout.
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\endlist
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In most cases, you will also implement \link QLayout::minimumSize()
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minimumSize\endlink().
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\section1 card.h
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\code
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#ifndef CARD_H
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#define CARD_H
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#include <ntqlayout.h>
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#include <tqptrlist.h>
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class CardLayout : public QLayout
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{
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public:
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CardLayout( TQWidget *parent, int dist )
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: QLayout( parent, 0, dist ) {}
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CardLayout( QLayout* parent, int dist)
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: QLayout( parent, dist ) { }
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CardLayout( int dist )
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: QLayout( dist ) {}
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~CardLayout();
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void addItem(QLayoutItem *item);
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TQSize sizeHint() const;
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TQSize minimumSize() const;
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QLayoutIterator iterator();
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void setGeometry(const TQRect &rect);
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private:
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TQPtrList<QLayoutItem> list;
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};
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#endif
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\endcode
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\section2 card.cpp
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\code
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#include "card.h"
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\endcode
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First we define an iterator over the layout. Layout iterators are used
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internally by the layout system to handle deletion of widgets. They
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are also available for application programmers.
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There are two different classes involved: QLayoutIterator is the class
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that is visible to application programmers, it is explicitly shared.
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The QLayoutIterator contains a QGLayoutIterator that does all the
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work. We must create a subclass of QGLayoutIterator that knows how to
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iterate over our layout class.
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In this case, we choose a simple implementation: we store an integer
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index into the list and a pointer to the list. Every \l
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QGLayoutIterator subclass must implement \link
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QGLayoutIterator::current() current\endlink(), \link
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QGLayoutIterator::next() next\endlink() and \link
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QGLayoutIterator::takeCurrent() takeCurrent\endlink(), as well as a
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constructor. In our example we do not need a destructor.
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\code
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class CardLayoutIterator : public QGLayoutIterator
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{
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public:
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CardLayoutIterator( TQPtrList<QLayoutItem> *l )
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: idx( 0 ), list( l ) {}
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QLayoutItem *current()
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{ return idx < int(list->count()) ? list->at(idx) : 0; }
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QLayoutItem *next()
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{ idx++; return current(); }
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QLayoutItem *takeCurrent()
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{ return list->take( idx ); }
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private:
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int idx;
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TQPtrList<QLayoutItem> *list;
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};
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\endcode
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We must implement QLayout:iterator() to return a QLayoutIterator over
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this layout.
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\code
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QLayoutIterator CardLayout::iterator()
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{
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return QLayoutIterator( new CardLayoutIterator(&list) );
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}
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\endcode
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addItem() implements the default placement strategy for layout items.
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It must be implemented. It is used by QLayout::add(), by the QLayout
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constructor that takes a layout as parent, and it is used to implement
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the \link QLayout::autoAdd() auto-add\endlink feature. If your layout
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has advanced placement options that require parameters, you must
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provide extra access functions such as \l QGridLayout::addMultiCell().
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\code
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void CardLayout::addItem( QLayoutItem *item )
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{
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list.append( item );
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}
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\endcode
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The layout takes over responsibility of the items added. Since
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QLayoutItem does not inherit TQObject, we must delete the items
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manually. The function QLayout::deleteAllItems() uses the iterator we
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defined above to delete all the items in the layout.
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\code
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CardLayout::~CardLayout()
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{
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deleteAllItems();
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}
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\endcode
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The setGeometry() function actually performs the layout. The rectangle
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supplied as an argument does not include margin(). If relevant, use
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spacing() as the distance between items.
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\code
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void CardLayout::setGeometry( const TQRect &rect )
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{
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QLayout::setGeometry( rect );
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TQPtrListIterator<QLayoutItem> it( list );
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if (it.count() == 0)
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return;
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QLayoutItem *item;
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int i = 0;
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int w = rect.width() - ( list.count() - 1 ) * spacing();
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int h = rect.height() - ( list.count() - 1 ) * spacing();
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while ( (item = it.current()) != 0 ) {
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++it;
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TQRect geom( rect.x() + i * spacing(), rect.y() + i * spacing(),
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w, h );
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item->setGeometry( geom );
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++i;
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}
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}
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\endcode
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sizeHint() and minimumSize() are normally very similar in
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implementation. The sizes returned by both functions should include
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spacing(), but not margin().
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\code
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TQSize CardLayout::sizeHint() const
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{
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TQSize s( 0, 0 );
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int n = list.count();
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if ( n > 0 )
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s = TQSize( 100, 70 ); // start with a nice default size
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TQPtrListIterator<QLayoutItem> it( list );
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QLayoutItem *item;
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while ( (item = it.current()) != 0 ) {
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++it;
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s = s.expandedTo( item->minimumSize() );
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}
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return s + n * TQSize( spacing(), spacing() );
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}
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TQSize CardLayout::minimumSize() const
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{
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TQSize s( 0, 0 );
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int n = list.count();
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TQPtrListIterator<QLayoutItem> it( list );
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QLayoutItem *item;
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while ( (item = it.current()) != 0 ) {
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++it;
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s = s.expandedTo( item->minimumSize() );
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}
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return s + n * TQSize( spacing(), spacing() );
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}
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\endcode
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\section1 Further Notes
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This layout does not implement heightForWidth().
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We ignore QLayoutItem::isEmpty(), this means that the layout will
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treat hidden widgets as visible.
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For complex layouts, speed can be greatly increased by caching
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calculated values. In that case, implement QLayoutItem::invalidate()
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to mark the cached data as dirty.
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Calling QLayoutItem::sizeHint(), etc. may be expensive, so you should
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store the value in a local variable if you need it again later in the
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same function.
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You should not call QLayoutItem::setGeometry() twice on the same item
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in the same function. That can be very expensive if the item has
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several child widgets, because it will have to do a complete layout
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every time. Instead, calculate the geometry and then set it. (This
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doesn't only apply to layouts, you should do the same if you implement
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your own resizeEvent().)
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*/
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