/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the documentation of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \page designer-manual.html \title Qt Designer Manual \ingroup qttools \keyword Qt Designer \QD is Qt's tool for designing and building graphical user interfaces (GUIs) from Qt components. You can compose and customize your widgets or dialogs in a what-you-see-is-what-you-get (WYSIWYG) manner, and test them using different styles and resolutions. Widgets and forms created with \QD integrated seamlessly with programmed code, using Qt's signals and slots mechanism, that lets you easily assign behavior to graphical elements. All properties set in \QD can be changed dynamically within the code. Furthermore, features like widget promotion and custom plugins allow you to use your own components with \QD. If you are new to \QD, you can take a look at the \l{Getting To Know Qt Designer} document. For a quick tutorial on how to use \QD, refer to \l{A Quick Start to Qt Designer}. \image designer-multiple-screenshot.png For more information on using \QD, you can take a look at the following links: \list \o \l{Qt Designer's Editing Modes} \list \o \l{Qt Designer's Widget Editing Mode}{Widget Editing Mode} \o \l{Qt Designer's Signals and Slots Editing Mode} {Signals and Slots Editing Mode} \o \l{Qt Designer's Buddy Editing Mode} {Buddy Editing Mode} \o \l{Qt Designer's Tab Order Editing Mode} {Tab Order Editing Mode} \endlist \o \l{Using Layouts in Qt Designer} \o \l{Saving, Previewing and Printing Forms in Qt Designer} \o \l{Using Containers in Qt Designer} \o \l{Creating Main Windows in Qt Designer} \o \l{Editing Resources with Qt Designer} \o \l{Using Stylesheets with Qt Designer} \o \l{Using a Designer UI File in Your Application} \endlist For advanced usage of \QD, you can refer to these links: \list \o \l{Customizing Qt Designer Forms} \o \l{Using Custom Widgets with Qt Designer} \o \l{Creating Custom Widgets for Qt Designer} \o \l{Creating Custom Widget Extensions} \o \l{Qt Designer's UI File Format} \endlist \section1 Legal Notices Some source code in \QD is licensed under specific highly permissive licenses from the original authors. The Qt team gratefully acknowledges these contributions to \QD and all uses of \QD should also acknowledge these contributions and quote the following license statements in an appendix to the documentation. \list \i \l{Implementation of the Recursive Shadow Casting Algorithm in Qt Designer} \endlist */ /*! \page designer-to-know.html \contentspage {Qt Designer Manual}{Contents} \title Getting to Know Qt Designer \tableofcontents \image designer-screenshot.png \section1 Launching Designer The way that you launch \QD depends on your platform: \list \i On Windows, click the Start button, under the \gui Programs submenu, open the \gui{Qt 4} submenu and click \gui Designer. \i On Unix or Linux, you might find a \QD icon on the desktop background or in the desktop start menu under the \gui Programming or \gui Development submenus. You can launch \QD from this icon. Alternatively, you can type \c{designer} in a terminal window. \i On Mac OS X, double click on \QD in \gui Finder. \endlist \section1 The User Interface When used as a standalone application, \QD's user interface can be configured to provide either a multi-window user interface (the default mode), or it can be used in docked window mode. When used from within an integrated development environment (IDE) only the multi-window user interface is available. You can switch modes in the \gui Preferences dialog from the \gui Edit menu. In multi-window mode, you can arrange each of the tool windows to suit your working style. The main window consists of a menu bar, a tool bar, and a widget box that contains the widgets you can use to create your user interface. \target MainWindow \table \row \i \inlineimage designer-main-window.png \i \bold{Qt Designer's Main Window} The menu bar provides all the standard actions for managing forms, using the clipboard, and accessing application-specific help. The current editing mode, the tool windows, and the forms in use can also be accessed via the menu bar. The tool bar displays common actions that are used when editing a form. These are also available via the main menu. The widget box provides common widgets and layouts that are used to design components. These are grouped into categories that reflect their uses or features. \endtable Most features of \QD are accessible via the menu bar, the tool bar, or the widget box. Some features are also available through context menus that can be opened over the form windows. On most platforms, the right mouse is used to open context menus. \target WidgetBox \table \row \i \inlineimage designer-widget-box.png \i \bold{Qt Designer's Widget Box} The widget box provides a selection of standard Qt widgets, layouts, and other objects that can be used to create user interfaces on forms. Each of the categories in the widget box contain widgets with similar uses or related features. \note Since Qt 4.4, new widgets have been included, e.g., QPlainTextEdit, QCommandLinkButton, QScrollArea, QMdiArea, and QWebView. You can display all of the available objects in a category by clicking on the handle next to the category label. When in \l{Qt Designer's Widget Editing Mode}{Widget Editing Mode}, you can add objects to a form by dragging the appropriate items from the widget box onto the form, and dropping them in the required locations. \QD provides a scratch pad feature that allows you to collect frequently used objects in a separate category. The scratch pad category can be filled with any widget currently displayed in a form by dragging them from the form and dropping them onto the widget box. These widgets can be used in the same way as any other widgets, but they can also contain child widgets. Open a context menu over a widget to change its name or remove it from the scratch pad. \endtable \section1 The Concept of Layouts in Qt A layout is used to arrange and manage the elements that make up a user interface. Qt provides a number of classes to automatically handle layouts -- QHBoxLayout, QVBoxLayout, QGridLayout, and QFormLayout. These classes solve the challenge of laying out widgets automatically, providing a user interface that behaves predictably. Fortunately knowledge of the layout classes is not required to arrange widgets with \QD. Instead, select one of the \gui{Lay Out Horizontally}, \gui{Lay Out in a Grid}, etc., options from the context menu. Each Qt widget has a recommended size, known as \l{QWidget::}{sizeHint()}. The layout manager will attempt to resize a widget to meet its size hint. In some cases, there is no need to have a different size. For example, the height of a QLineEdit is always a fixed value, depending on font size and style. In other cases, you may require the size to change, e.g., the width of a QLineEdit or the width and height of item view widgets. This is where the widget size constraints -- \l{QWidget::minimumSize()}{minimumSize} and \l{QWidget::maximumSize()}{maximumSize} constraints come into play. These are properties you can set in the property editor. For example, to override the default \l{QWidget::}{sizeHint()}, simply set \l{QWidget::minimumSize()}{minimumSize} and \l{QWidget::maximumSize()} {maximumSize} to the same value. Alternatively, to use the current size as a size constraint value, choose one of the \gui{Size Constraint} options from the widget's context menu. The layout will then ensure that those constraints are met. To control the size of your widgets via code, you can reimplement \l{QWidget::}{sizeHint()} in your code. The screenshot below shows the breakdown of a basic user interface designed using a grid. The coordinates on the screenshot show the position of each widget within the grid. \image addressbook-tutorial-part3-labeled-layout.png \note Inside the grid, the QPushButton objects are actually nested. The buttons on the right are first placed in a QVBoxLayout; the buttons at the bottom are first placed in a QHBoxLayout. Finally, they are put into coordinates (1,2) and (3,1) of the QGridLayout. To visualize, imagine the layout as a box that shrinks as much as possible, attempting to \e squeeze your widgets in a neat arrangement, and, at the same time, maximize the use of available space. Qt's layouts help when you: \list 1 \i Resize the user face to fit different window sizes. \i Resize elements within the user interface to suit different localizations. \i Arrange elements to adhere to layout guidelines for different platforms. \endlist So, you no longer have to worry about rearranging widgets for different platforms, settings, and languages. The example below shows how different localizations can affect the user interface. When a localization requires more space for longer text strings the Qt layout automatically scales to accommodate this, while ensuring that the user interface looks presentable and still matches the platform guidelines. \table \header \i A Dialog in English \i A Dialog in French \row \i \image designer-english-dialog.png \i \image designer-french-dialog.png \endtable The process of laying out widgets consists of creating the layout hierarchy while setting as few widget size constraints as possible. For a more technical perspective on Qt's layout classes, refer to the \l{Layout Management} documentation. */ /*! \page designer-quick-start.html \contentspage {Qt Designer Manual}{Contents} \title A Quick Start to Qt Designer Using \QD involves \bold four basic steps: \list 1 \o Choose your form and objects \o Lay the objects out on the form \o Connect the signals to the slots \o Preview the form \endlist \image rgbController-screenshot.png Suppose you would like to design a small widget (see screenshot above) that contains the controls needed to manipulate Red, Green and Blue (RGB) values -- a type of widget that can be seen everywhere in image manipulation programs. \table \row \i \inlineimage designer-choosing-form.png \i \bold{Choosing a Form} You start by choosing \gui Widget from the \gui{New Form} dialog. \endtable \table \row \i \inlineimage rgbController-arrangement.png \i \bold{Placing Widgets on a Form} Drag three labels, three spin boxes and three vertical sliders on to your form. To change the label's default text, simply double-click on it. You can arrange them according to how you would like them to be laid out. \endtable To ensure that they are laid out exactly like this in your program, you need to place these widgets into a layout. We will do this in groups of three. Select the "RED" label. Then, hold down \key Ctrl while you select its corresponding spin box and slider. In the \gui{Form} menu, select \gui{Lay Out in a Grid}. \table \row \i \inlineimage rgbController-form-gridLayout.png \i \inlineimage rgbController-selectForLayout.png \endtable Repeat the step for the other two labels along with their corresponding spin boxes and sliders as well. The next step is to combine all three layouts into one \bold{main layout}. The main layout is the top level widget's (in this case, the QWidget) layout. It is important that your top level widget has a layout; otherwise, the widgets on your window will not resize when your window is resized. To set the layout, \gui{Right click} anywhere on your form, outside of the three separate layouts, and select \gui{Lay Out Horizontally}. Alternatively, you could also select \gui{Lay Out in a Grid} -- you will still see the same arrangement (shown below). \image rgbController-final-layout.png \note Main layouts cannot be seen on the form. To check if you have a main layout installed, try resizing your form; your widgets should resize accordingly. Alternatively, you can take a look at \QD's \gui{Object Inspector}. If your top level widget does not have a layout, you will see the broken layout icon next to it, \inlineimage rgbController-no-toplevel-layout.png . When you click on the slider and drag it to a certain value, you want the spin box to display the slider's position. To accomplish this behavior, you need to connect the slider's \l{QAbstractSlider::}{valueChanged()} signal to the spin box's \l{QSpinBox::}{setValue()} slot. You also need to make the reverse connections, e.g., connect the spin box's \l{QSpinBox::} {valueChanged()} signal to the slider's \l{QAbstractSlider::value()} {setValue()} slot. To do this, you have to switch to \gui{Edit Signals/Slots} mode, either by pressing \key{F4} or something \gui{Edit Signals/Slots} from the \gui{Edit} menu. \table \row \i \inlineimage rgbController-signalsAndSlots.png \i \bold{Connecting Signals to Slots} Click on the slider and drag the cursor towards the spin box. The \gui{Configure Connection} dialog, shown below, will pop up. Select the correct signal and slot and click \gui OK. \endtable \image rgbController-configure-connection1.png Repeat the step (in reverse order), clicking on the spin box and dragging the cursor towards the slider, to connect the spin box's \l{QSpinBox::}{valueChanged()} signal to the slider's \l{QAbstractSlider::value()}{setValue()} slot. You can use the screenshot below as a guide to selecting the correct signal and slot. \image rgbController-configure-connection2.png Now that you have successfully connected the objects for the "RED" component of the RGB Controller, do the same for the "GREEN" and "BLUE" components as well. Since RGB values range between 0 and 255, we need to limit the spin box and slider to that particular range. \table \row \i \inlineimage rgbController-property-editing.png \i \bold{Setting Widget Properties} Click on the first spin box. Within the \gui{Property Editor}, you will see \l{QSpinBox}'s properties. Enter "255" for the \l{QSpinBox::}{maximum} property. Then, click on the first vertical slider, you will see \l{QAbstractSlider}'s properties. Enter "255" for the \l{QAbstractSlider::}{maximum} property as well. Repeat this process for the remaining spin boxes and sliders. \endtable Now, we preview your form to see how it would look in your application - press \key{Ctrl + R} or select \gui Preview from the \gui Form menu. Try dragging the slider - the spin box will mirror its value too (and vice versa). Also, you can resize it to see how the layouts that are used to manage the child widgets, respond to different window sizes. */ /*! \page designer-editing-mode.html \previouspage Getting to Know Qt Designer \contentspage {Qt Designer Manual}{Contents} \nextpage Using Layouts in Qt Designer \title Qt Designer's Editing Modes \QD provides four editing modes: \l{Qt Designer's Widget Editing Mode} {Widget Editing Mode}, \l{Qt Designer's Signals and Slots Editing Mode} {Signals and Slots Editing Mode}, \l{Qt Designer's Buddy Editing Mode} {Buddy Editing Mode} and \l{Qt Designer's Tab Order Editing Mode} {Tab Order Editing Mode}. When working with \QD, you will always be in one of these four modes. To switch between modes, simply select it from the \gui{Edit} menu or the toolbar. The table below describes these modes in further detail. \table \header \i \i \bold{Editing Modes} \row \i \inlineimage designer-widget-tool.png \i In \l{Qt Designer's Widget Editing Mode}{Edit} mode, we can change the appearance of the form, add layouts, and edit the properties of each widget. To switch to this mode, press \key{F3}. This is \QD's default mode. \row \i \inlineimage designer-connection-tool.png \i In \l{Qt Designer's Signals and Slots Editing Mode} {Signals and Slots} mode, we can connect widgets together using Qt's signals and slots mechanism. To switch to this mode, press \key{F4}. \row \i \inlineimage designer-buddy-tool.png \i In \l{Qt Designer's Buddy Editing Mode}{Buddy Editing Mode}, buddy widgets can be assigned to label widgets to help them handle keyboard focus correctly. \row \i \inlineimage designer-tab-order-tool.png \i In \l{Qt Designer's Tab Order Editing Mode} {Tab Order Editing Mode}, we can set the order in which widgets receive the keyboard focus. \endtable */ /*! \page designer-widget-mode.html \previouspage Qt Designer's Editing Modes \contentspage {Qt Designer Manual}{Contents} \nextpage Qt Designer's Signals and Slots Editing Mode \title Qt Designer's Widget Editing Mode \image designer-editing-mode.png In the Widget Editing Mode, objects can be dragged from the main window's widget box to a form, edited, resized, dragged around on the form, and even dragged between forms. Object properties can be modified interactively, so that changes can be seen immediately. The editing interface is intuitive for simple operations, yet it still supports Qt's powerful layout facilities. \tableofcontents To create and edit new forms, open the \gui File menu and select \gui{New Form...} or press \key{Ctrl+N}. Existing forms can also be edited by selecting \gui{Open Form...} from the \gui File menu or pressing \key{Ctrl+O}. At any point, you can save your form by selecting the \gui{Save From As...} option from the \gui File menu. The UI files saved by \QD contain information about the objects used, and any details of signal and slot connections between them. \section1 Editing A Form By default, new forms are opened in widget editing mode. To switch to Edit mode from another mode, select \gui{Edit Widgets} from the \gui Edit menu or press the \key F3 key. Objects are added to the form by dragging them from the main widget box and dropping them in the desired location on the form. Once there, they can be moved around simply by dragging them, or using the cursor keys. Pressing the \key Ctrl key at the same time moves the selected widget pixel by pixel, while using the cursor keys alone make the selected widget snap to the grid when it is moved. Objects can be selected by clicking on them with the left mouse button. You can also use the \key Tab key to change the selection. ### Screenshot of widget box, again The widget box contains objects in a number of different categories, all of which can be placed on the form as required. The only objects that require a little more preparation are the \gui Container widgets. These are described in further detail in the \l{Using Containers in Qt Designer} chapter. \target SelectingObjects \table \row \i \inlineimage designer-selecting-widget.png \i \bold{Selecting Objects} Objects on the form are selected by clicking on them with the left mouse button. When an object is selected, resize handles are shown at each corner and the midpoint of each side, indicating that it can be resized. To select additional objects, hold down the \key Shift key and click on them. If more than one object is selected, the current object will be displayed with resize handles of a different color. To move a widget within a layout, hold down \key Shift and \key Control while dragging the widget. This extends the selection to the widget's parent layout. Alternatively, objects can be selected in the \l{The Object Inspector}{Object Inspector}. \endtable When a widget is selected, normal clipboard operations such as cut, copy, and paste can be performed on it. All of these operations can be done and undone, as necessary. The following shortcuts can be used: \target ShortcutsForEditing \table \header \i Action \i Shortcut \i Description \row \i Cut \i \key{Ctrl+X} \i Cuts the selected objects to the clipboard. \row \i Copy \i \key{Ctrl+C} \i Copies the selected objects to the clipboard. \row \i Paste \i \key{Ctrl+V} \i Pastes the objects in the clipboard onto the form. \row \i Delete \i \key Delete \i Deletes the selected objects. \row \i Clone object \i \key{Ctrl+drag} (leftmouse button) \i Makes a copy of the selected object or group of objects. \row \i Preview \i \key{Ctrl+R} \i Shows a preview of the form. \endtable All of the above actions (apart from cloning) can be accessed via both the \gui Edit menu and the form's context menu. These menus also provide funcitons for laying out objects as well as a \gui{Select All} function to select all the objects on the form. Widgets are not unique objects; you can make as many copies of them as you need. To quickly duplicate a widget, you can clone it by holding down the \key Ctrl key and dragging it. This allows widgets to be copied and placed on the form more quickly than with clipboard operations. \target DragAndDrop \table \row \i \inlineimage designer-dragging-onto-form.png \i \bold{Drag and Drop} \QD makes extensive use of the drag and drop facilities provided by Qt. Widgets can be dragged from the widget box and dropped onto the form. Widgets can also be "cloned" on the form: Holding down \key Ctrl and dragging the widget creates a copy of the widget that can be dragged to a new position. It is also possible to drop Widgets onto the \l {The Object Inspector} {Object Inspector} to handle nested layouts easily. \endtable \QD allows selections of objects to be copied, pasted, and dragged between forms. You can use this feature to create more than one copy of the same form, and experiment with different layouts in each of them. \section2 The Property Editor The Property Editor always displays properties of the currently selected object on the form. The available properties depend on the object being edited, but all of the widgets provided have common properties such as \l{QObject::}{objectName}, the object's internal name, and \l{QWidget::}{enabled}, the property that determines whether an object can be interacted with or not. \target EditingProperties \table \row \i \inlineimage designer-property-editor.png \i \bold{Editing Properties} The property editor uses standard Qt input widgets to manage the properties of jbects on the form. Textual properties are shown in line edits, integer properties are displayed in spinboxes, boolean properties are displayed in check boxes, and compound properties such as colors and sizes are presented in drop-down lists of input widgets. Modified properties are indicated with bold labels. To reset them, click the arrow button on the right. Changes in properties are applied to all selected objects that have the same property. \endtable Certain properties are treated specially by the property editor: \list \o Compound properties -- properties that are made up of more than one value -- are represented as nodes that can be expanded, allowing their values to be edited. \o Properties that contain a choice or selection of flags are edited via combo boxes with checkable items. \o Properties that allow access to rich data types, such as QPalette, are modified using dialogs that open when the properties are edited. QLabel and the widgets in the \gui Buttons section of the widget box have a \c text property that can also be edited by double-clicking on the widget or by pressing \gui F2. \QD interprets the backslash (\\) character specially, enabling newline (\\n) characters to be inserted into the text; the \\\\ character sequence is used to insert a single backslash into the text. A context menu can also be opened while editing, providing another way to insert special characters and newlines into the text. \endlist \section2 Dynamic Properties The property editor can also be used to add new \l{QObject#Dynamic Properties}{dynamic properties} to both standard Qt widgets and to forms themselves. Since Qt 4.4, dynamic properties are added and removed via the property editor's toolbar, shown below. \image designer-property-editor-toolbar.png To add a dynamic property, clcik on the \gui Add button \inlineimage designer-property-editor-add-dynamic.png . To remove it, click on the \gui Remove button \inlineimage designer-property-editor-remove-dynamic.png instead. You can also sort the properties alphabetically and change the color groups by clickinig on the \gui Configure button \inlineimage designer-property-editor-configure.png . \section2 The Object Inspector \table \row \i \inlineimage designer-object-inspector.png \i \bold{The Object Inspector} The \gui{Object Inspector} displays a hierarchical list of all the objects on the form that is currently being edited. To show the child objects of a container widget or a layout, click the handle next to the object label. Each object on a form can be selected by clicking on the corresponding item in the \gui{Object Inspector}. Right-clicking opens the form's context menu. These features can be useful if you have many overlapping objects. To locate an object in the \gui{Object Inspector}, use \key{Ctrl+F}. Since Qt 4.4, double-clicking on the object's name allows you to change the object's name with the in-place editor. Since Qt 4.5, the \gui{Object Inspector} displays the layout state of the containers. The broken layout icon ###ICON is displayed if there is something wrong with the layouts. \endtable */ /*! \page designer-layouts.html \previouspage Qt Designer's Widget Editing Mode \contentspage \nextpage Qt Designer's Signals and Slots Editing Mode \title Using Layouts in Qt Designer Before a form can be used, the objects on the form need to be placed into layouts. This ensures that the objects will be displayed properly when the form is previewed or used in an application. Placing objects in a layout also ensures that they will be resized correctly when the form is resized. \tableofcontents \section1 Applying and Breaking Layouts The simplest way to manage objects is to apply a layout to a group of existing objects. This is achieved by selecting the objects that you need to manage and applying one of the standard layouts using the main toolbar, the \gui Form menu, or the form's context menu. Once widgets have been inserted into a layout, it is not possible to move and resize them individually because the layout itself controls the geometry of each widget within it, taking account of the hints provided by spacers. Instead, you must either break the layout and adjust each object's geometry manually, or you can influence the widget's geometry by resizing the layout. To break the layout, press \key{Ctrl+0} or choose \gui{Break Layout} from the form's context menu, the \gui Form menu or the main toolbar. You can also add and remove spacers from the layout to influence the geometries of the widgets. \target InsertingObjectsIntoALayout \table \row \i \inlineimage designer-layout-inserting.png \i \bold{Inserting Objects into a Layout} Objects can be inserted into an existing layout by dragging them from their current positions and dropping them at the required location. A blue cursor is displayed in the layout as an object is dragged over it to indicate where the object will be added. \endtable \section2 Setting A Top Level Layout The form's top level layout can be set by clearing the slection (click the left mouse button on the form itself) and applying a layout. A top level layout is necessary to ensure that your widgets will resize correctly when its window is resized. To check if you have set a top level layout, preview your widget and attempt to resize the window by dragging the size grip. \table \row \i \inlineimage designer-set-layout.png \i \bold{Applying a Layout} To apply a layout, you can select your choice of layout from the toolbar shown on the left, or from the context menu shown below. \endtable \image designer-set-layout2.png \section2 Horizontal and Vertical Layouts The simplest way to arrange objects on a form is to place them in a horizontal or vertical layout. Horizontal layouts ensure that the widgets within are aligned horizontally; vertical layouts ensure that they are aligned vertically. Horizontal and vertical layouts can be combined and nested to any depth. However, if you need more control over the placement of objects, consider using the grid layout. \section3 The Grid Layout Complex form layouts can be created by placing objects in a grid layout. This kind of layout gives the form designer much more freedom to arrange widgets on the form, but can result in a much less flexible layout. However, for some kinds of form layout, a grid arrangement is much more suitable than a nested arrangement of horizontal and vertical layouts. \section3 Splitter Layouts Another common way to manage the layout of objects on a form is to place them in a splitter. These splitters arrange the objects horizontally or vertically in the same way as normal layouts, but also allow the user to adjust the amount of space allocated to each object. \image designer-splitter-layout.png Although QSplitter is a container widget, \QD treats splitter objects as layouts that are applied to existing widgets. To place a group of widgets into a splitter, select them \l{Qt Designer's Widget Editing Mode#SelectingObjects}{as described here} then apply the splitter layout by using the appropriate toolbar button, keyboard shortcut, or \gui{Lay out} context menu entry. \section3 The Form Layout Since Qt 4.4, another layout class has been included -- QFormLayout. This class manages widgets in a two-column form; the left column holds labels and the right column holds field widgets such as line edits, spin boxes, etc. The QFormLayout class adheres to various platform look and feel guidelines and supports wrapping for long rows. \image designer-form-layout.png The UI file above results in the previews shown below. \table \header \i Windows XP \i Mac OS X \i Cleanlooks \row \i \inlineimage designer-form-layout-windowsXP.png \i \inlineimage designer-form-layout-macintosh.png \i \inlineimage designer-form-layout-cleanlooks.png \endtable \section2 Shortcut Keys In addition to the standard toolbar and context menu entries, there is also a set of keyboard shortcuts to apply layouts on widgets. \target LayoutShortcuts \table \header \i Layout \i Shortcut \i Description \row \i Horizontal \i \key{Ctrl+1} \i Places the selected objects in a horizontal layout. \row \i Vertical \i \key{Ctrl+2} \i Places the selected objects in a vertical layout. \row \i Grid \i \key{Ctrl+5} \i Places the selected objects in a grid layout. \row \i Form \i \key{Ctrl+6} \i Places the selected objects in a form layout. \row \i Horizontal splitter \i \key{Ctrl+3} \i Creates a horizontal splitter and places the selected objects inside it. \row \i Vertical splitter \i \key{Ctrl+4} \i Creates a vertical splitter and places the selected objects inside it. \row \i Adjust size \i \key{Ctrl+J} \i Adjusts the size of the layout to ensure that each child object has sufficient space to display its contents. See QWidget::adjustSize() for more information. \endtable \note \key{Ctrl+0} is used to break a layout. */ /*! \page designer-preview.html \contentspage {Qt Designer Manual}{Contents} \previouspage Using Layouts in Qt Designer \nextpage Qt Designer's Buddy Editing Mode \title Saving, Previewing and Printing Forms in Qt Designer Although \QD's forms are accurate representations of the components being edited, it is useful to preview the final appearance while editing. This feature can be activated by opening the \gui Form menu and selecting \gui Preview, or by pressing \key{Ctrl+R} when in the form. \image designer-dialog-preview.png The preview shows exactly what the final component will look like when used in an application. Since Qt 4.4, it is possible to preview forms with various skins - default skins, skins created with Qt Style Sheets or device skins. This feature simulates the effect of calling \c{QApplication::setStyleSheet()} in the application. To preview your form with skins, open the \gui Edit menu and select \gui{Preferences...} You will see the dialog shown below: \image designer-preview-style.png The \gui{Print/Preview Configuration} checkbox must be checked to activate previews of skins. You can select the styles provided from the \gui{Style} drop-down box. \image designer-preview-style-selection.png Alternatively, you can preview custom style sheet created with Qt Style Sheets. The figure below shows an example of Qt Style Sheet syntax and the corresponding output. \image designer-preview-stylesheet.png Another option would be to preview your form with device skins. A list of generic device skins are available in \QD, however, you may also use other QVFB skins with the \gui{Browse...} option. \image designer-preview-deviceskin-selection.png \section1 Viewing the Form's Code Since Qt 4.4, it is possible to view code generated by the User Interface Compiler (uic) for the \QD form. \image designer-form-viewcode.png Select \gui{View Code...} from the \gui{Form} menu and a dialog with the generated code will be displayed. The screenshot below is an example of code generated by the \c{uic}. \image designer-code-viewer.png \section1 Saving and Printing the Form Forms created in \QD can be saved to an image or printed. \table \row \i \inlineimage designer-file-menu.png \i \bold{Saving Forms} To save a form as an image, choose the \gui{Save Image...} option. The file will be saved in \c{.png} format. \bold{Printing Forms} To print a form, select the \gui{Print...} option. \endtable */ /*! \page designer-connection-mode.html \contentspage {Qt Designer Manual}{Contents} \previouspage Using Layouts in Qt Designer \nextpage Qt Designer's Buddy Editing Mode \title Qt Designer's Signals and Slots Editing Mode \image designer-connection-mode.png In \QD's signals and slots editing mode, you can connect objects in a form together using Qt's signals and slots mechanism. Both widgets and layouts can be connected via an intuitive connection interface, using the menu of compatible signals and slots provided by \QD. When a form is saved, all connections are preserved so that they will be ready for use when your project is built. \tableofcontents For more information on Qt's signals and sltos mechanism, refer to the \l{Signals and Slots} document. \section1 Connecting Objects To begin connecting objects, enter the signals and slots editing mode by opening the \gui Edit menu and selecting \gui{Edit Signals/Slots}, or by pressing the \key F4 key. All widgets and layouts on the form can be connected together. However, spacers just provide spacing hints to layouts, so they cannot be connected to other objects. \target HighlightedObjects \table \row \i \inlineimage designer-connection-highlight.png \i \bold{Highlighted Objects} When the cursor is over an object that can be used in a connection, the object will be highlighted. \endtable To make a connectionn, press the left mouse button and drag the cursor towards the object you want to connect it to. As you do this, a line will extend from the source object to the cursor. If the cursor is over another object on the form, the line will end with an arrow head that points to the destination object. This indicates that a connection will be made between the two objects when you release the mouse button. You can abandon the connection at any point while you are dragging the connection path by pressing \key{Esc}. \target MakingAConnection \table \row \i \inlineimage designer-connection-making.png \i \bold{Making a Connection} The connection path will change its shape as the cursor moves around the form. As it passes over objects, they are highlighted, indicating that they can be used in a signal and slot connection. Release the mouse button to make the connection. \endtable The \gui{Configure Connection} dialog (below) is displayed, showing signals from the source object and slots from the destination object that you can use. \image designer-connection-dialog.png To complete the connection, select a signal from the source object and a slot from the destination object, then click \key OK. Click \key Cancel if you wish to abandon the connection. \note If the \gui{Show all signals and slots} checkbox is selected, all available signals from the source object will be shown. Otherwise, the signals and slots inherited from QWidget will be hidden. You can make as many connections as you like between objects on the form; it is possible to connect signals from objects to slots in the form itself. As a result, the signal and slot connections in many dialogs can be completely configured from within \QD. \target ConnectingToTheForm \table \row \i \inlineimage designer-connection-to-form.png \i \bold{Connecting to a Form} To connect an object to the form itself, simply position the cursor over the form and release the mouse button. The end point of the connection changes to the electrical "ground" symbol. \endtable \section1 Editing and Deleting Connections By default, connection paths are created with two labels that show the signal and slot involved in the connection. These labels are usually oriented along the line of the connection. You can move them around inside their host widgets by dragging the red square at each end of the connection path. \target ConnectionEditor \table \row \i \inlineimage designer-connection-editor.png \i \bold{The Signal/Slot Editor} The signal and slot used in a connection can be changed after it has been set up. When a connection is configured, it becomes visible in \QD's signal and slot editor where it can be further edited. You can also edit signal/slot connections by double-clicking on the connection path or one of its labels to display the Connection Dialog. \endtable \target DeletingConnections \table \row \i \inlineimage designer-connection-editing.png \i \bold{Deleting Connections} The whole connection can be selected by clicking on any of its path segments. Once selected, a connection can be deleted with the \key Delete key, ensuring that it will not be set up in the UI file. \endtable */ /*! \page designer-buddy-mode.html \contentspage{Qt Designer Manual}{Contents} \previouspage Qt Designer's Signals and Slots Editing Mode \nextpage Qt Designer's Tab Order Editing Mode \title Qt Designer's Buddy Editing Mode \image designer-buddy-mode.png One of the most useful basic features of Qt is the support for buddy widgets. A buddy widget accepts the input focus on behalf of a QLabel when the user types the label's shortcut key combination. The buddy concept is also used in Qt's \l{Model/View Programming}{model/view} framework. \section1 Linking Labels to Buddy Widgets To enter buddy editing mode, open the \gui Edit menu and select \gui{Edit Buddies}. This mode presents the widgets on the form in a similar way to \l{Qt Designer's Signals and Slots Editing Mode}{signals and slots editing mode} but in this mode, connections must start at label widgets. Ideally, you should connect each label widget that provides a shortcut with a suitable input widget, such as a QLineEdit. \target MakingBuddies \table \row \i \inlineimage designer-buddy-making.png \i \bold{Making Buddies} To define a buddy widget for a label, click on the label, drag the connection to another widget on the form, and release the mouse button. The connection shown indicates how input focus is passed to the buddy widget. You can use the form preview to test the connections between each label and its buddy. \endtable \section1 Removing Buddy Connections Only one buddy widget can be defined for each label. To change the buddy used, it is necessary to delete any existing buddy connection before you create a new one. Connections between labels and their buddy widgets can be deleted in the same way as signal-slot connections in signals and slots editing mode: Select the buddy connection by clicking on it and press the \key Delete key. This operation does not modify either the label or its buddy in any way. */ /*! \page designer-tab-order.html \contentspage {Qt Designer Manual}{Contents} \previouspage Qt Designer's Buddy Editing Mode \nextpage Using Containers in Qt Designer \title Qt Designer's Tab Order Editing Mode \image designer-tab-order-mode.png Many users expect to be able to navigate between widgets and controls using only the keyboard. Qt lets the user navigate between input widgets with the \key Tab and \key{Shift+Tab} keyboard shortcuts. The default \e{tab order} is based on the order in which widgets are constructed. Although this order may be sufficient for many users, it is often better to explicitly specify the tab order to make your application easier to use. \section1 Setting the Tab Order To enter tab order editing mode, open the \gui Edit menu and select \gui{Edit Tab Order}. In this mode, each input widget in the form is shown with a number indicating its position in the tab order. So, if the user gives the first input widget the input focus and then presses the tab key, the focus will move to the second input widget, and so on. The tab order is defined by clicking on each of the numbers in the correct order. The first number you click will change to red, indicating the currently edited position in the tab order chain. The widget associated with the number will become the first one in the tab order chain. Clicking on another widget will make it the second in the tab order, and so on. Repeat this process until you are satisfied with the tab order in the form -- you do not need to click every input widget if you see that the remaining widgets are already in the correct order. Numbers, for which you already set the order, change to green, while those which are not clicked yet, remain blue. If you make a mistake, simply double click outside of any number or choose \gui{Restart} from the form's context menu to start again. If you have many widgets on your form and would like to change the tab order in the middle or at the end of the tab order chain, you can edit it at any position. Press \key{Ctrl} and click the number from which you want to start. Alternatively, choose \gui{Start from Here} in the context menu. */ /*! \page designer-using-containers.html \contentspage {Qt Designer Manual}{Contents} \previouspage Qt Designer's Tab Order Editing Mode \nextpage Creating Main Windows in Qt Designer \title Using Containers in Qt Designer Container widgets provide high level control over groups of objects on a form. They can be used to perform a variety of functions, such as managing input widgets, providing paged and tabbed layouts, or just acting as decorative containers for other objects. \image designer-widget-morph.png \QD provides visual feedback to help you place objects inside your containers. When you drag an object from the widget box (or elsewhere) on the form, each container will be highlighted when the cursor is positioned over it. This indicates that you can drop the object inside, making it a child object of the container. This feedback is important because it is easy to place objects close to containers without actually placing them inside. Both widgets and spacers can be used inside containers. Stacked widgets, tab widgets, and toolboxes are handled specially in \QD. Normally, when adding pages (tabs, pages, compartments) to these containers in your own code, you need to supply existing widgets, either as placeholders or containing child widgets. In \QD, these are automatically created for you, so you can add child objects to each page straight away. Each container typically allows its child objects to be arranged in one or more layouts. The type of layout management provided depends on each container, although setting the layout is usually just a matter of selecting the container by clicking it, and applying a layout. The table below shows a list of available containers. \table \row \i \inlineimage designer-containers-frame.png \i \bold Frames Frames are used to enclose and group widgets, as well as to provide decoration. They are used as the foundation for more complex containers, but they can also be used as placeholders in forms. The most important properties of frames are \c frameShape, \c frameShadow, \c lineWidth, and \c midLineWidth. These are described in more detail in the QFrame class description. \row \i \inlineimage designer-containers-groupbox.png \i \bold{Group Boxes} Group boxes are usually used to group together collections of checkboxes and radio buttons with similar purposes. Among the significant properties of group boxes are \c title, \c flat, \c checkable, and \c checked. These are demonstrated in the \l{widgets/groupbox}{Group Box} example, and described in the QGroupBox class documentation. Each group box can contain its own layout, and this is necessary if it contains other widgets. To add a layout to the group box, click inside it and apply the layout as usual. \row \i \inlineimage designer-containers-stackedwidget.png \i \bold{Stacked Widgets} Stacked widgets are collections of widgets in which only the topmost layer is visible. Control over the visible layer is usually managed by another widget, such as combobox, using signals and slots. \QD shows arrows in the top-right corner of the stack to allow you to see all the widgets in the stack when designing it. These arrows do not appear in the preview or in the final component. To navigate between pages in the stack, select the stacked widget and use the \gui{Next Page} and \gui{Previous Page} entries from the context menu. The \gui{Insert Page} and \gui{Delete Page} context menu options allow you to add and remove pages. \row \i \inlineimage designer-containers-tabwidget.png \i \bold{Tab Widgets} Tab widgets allow the developer to split up the contents of a widget into different labelled sections, only one of which is displayed at any given time. By default, the tab widget contains two tabs, and these can be deleted or renamed as required. You can also add additional tabs. To delete a tab: \list \o Click on its label to make it the current tab. \o Select the tab widget and open its context menu. \o Select \gui{Delete Page}. \endlist To add a new tab: \list \o Select the tab widget and open its context menu. \o Select \gui{Insert Page}. \o You can add a page before or after the \e current page. \QD will create a new widget for that particular tab and insert it into the tab widget. \o You can set the title of the current tab by changing the \c currentTabText property in the \gui{Property Editor}. \endlist \row \i \inlineimage designer-containers-toolbox.png \i \bold{ToolBox Widgets} Toolbox widgets provide a series of pages or compartments in a toolbox. They are handled in a way similar to stacked widgets. To rename a page in a toolbox, make the toolbox your current pange and change its \c currentItemText property from the \gui{Property Editor}. To add a new page, select \gui{Insert Page} from the toolbox widget's context menu. You can add the page before or after the current page. To delete a page, select \gui{Delete Page} from the toolbox widget's context menu. \row \i \inlineimage designer-containers-dockwidget.png \i \bold{Dock Widgets} Dock widgets are floating panels, often containing input widgets and more complex controls, that are either attached to the edges of the main window in "dock areas", or floated as independent tool windows. Although dock widgets can be added to any type of form, they are typically used with forms created from the \l{Creating Main Windows in Qt Designer}{main window template}. \endtable */ /*! \page designer-creating-mainwindows.html \contentspage {Qt Designer Manual}{Contents} \previouspage Using Containers in Qt Designer \nextpage Editing Resources with Qt Designer \title Creating Main Windows in Qt Designer \QD can be used to create user interfaces for different purposes, and it provides different kinds of form templates for each user interface. The main window template is used to create application windows with menu bars, toolbars, and dock widgets. \omit \image designer-mainwindow-example.png \endomit Create a new main window by opening the \gui File menu and selecting the \gui{New Form...} option, or by pressing \key{Ctrl+N}. Then, select the \gui{Main Window} template. This template provides a main application window containing a menu bar and a toolbar by default -- these can be removed if they are not required. If you remove the menu bar, a new one can be created by selecting the \gui{Create Menu Bar} option from the context menu, obtained by right-clicking within the main window form. An application can have only \bold one menu bar, but \bold several toolbars. \section1 Menus Menus are added to the menu bar by modifying the \gui{Type Here} placeholders. One of these is always present for editing purposes, and will not be displayed in the preview or in the finished window. Once created, the properties of a menu can be accessed using the \l{Qt Designer's Widget Editing Mode#The Property Editor}{Property Editor}, and each menu can be accessed for this purpose via the \l{Qt Designer's Widget Editing Mode#The Object Inspector}{The Object Inspector}. Existing menus can be removed by opening a context menu over the label in the menu bar, and selecting \gui{Remove Menu 'menu_name'}. \target CreatingAMenu \raw HTML