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/*!
    \page quick-states.html
    \if defined(qtdesignstudio)
    \previouspage quick-property-bindings.html
    \else
    \previouspage quick-connections-backend.html
    \endif
    \nextpage qmldesigner-pathview-editor.html

    \title Adding States

    User interfaces are designed to present different interface configurations
    in different scenarios, or to modify their appearances in response to user
    interaction. Often, there are a set of changes that are made concurrently,
    such that the interface could be seen to be internally changing from one
    \e state to another.

    This applies generally to interfaces regardless of their complexity. A photo
    viewer may initially present images in a grid, and when an image is clicked,
    change to a detailed state where the individual image is expanded and the
    interface is changed to present new options for image editing. At the other
    end of the scale, when a button is pressed, it may change to a
    \e pressed state in which its color and position are modified so that it
    appears to be pressed down.

    In QML, any item can change between different states to apply sets of
    changes that modify the properties of relevant items. Each state can
    present a different configuration that can, for example:

    \list
        \li Show some UI items and hide others.
        \li Present different available actions to the user.
        \li Start, stop or pause animations.
        \li Execute some script required in the new state.
        \li Change a property value for a particular item.
        \li Show a different view.
    \endlist

    The \uicontrol States view displays the different \l{State}{states}
    of the component in the Design mode. The \uicontrol States view is
    collapsed by default to save space. Select \uicontrol Expand in
    the context menu to view the whole view.

    \image qmldesigner-transitions.png "States view"

    To add states, click the \inlineimage plus.png
    button. Then modify the new state in the editor. For example, to change the
    appearance of a button, you can hide the button image and show another image
    in its place. Or, to add movement to the view, you can change the position
    of an object on the canvas and then add animation to the change between the
    states.

    To determine when the state should be applied, select
    \uicontrol {Set when Condition} in the menu and specify a
    \l [QtQuick]{State::when}{when} property for the state.
    Set the value of the property to an expression that
    evaluates to \c true when you want the state to be applied.
    In the binding editor, select the component and property to
    create the expression. For example, to change the state when
    a button is pressed, you could select a button component and
    its pressed property.

    \image qtquick-states-binding-editor.png "Binding editor in States view"

    You can preview the states in the \uicontrol States view and click them to
    switch between states on the canvas.

    \section1 Using States

    QML states typically describe user interface configurations, such as the UI
    controls, their properties and behavior and the available actions. For
    example, you can use states to create two views.

    To add states, click the empty slot in the \uicontrol States view.
    Then modify the new state in the \uicontrol {Form Editor} or the
    \uicontrol Properties view.

    \image qmldesigner-states.png "States view"

    The properties that you change in a state are highlighted with blue color.
    In the \uicontrol {Text Editor}, you can see the changes recorded as changes
    to the base state.

    To keep the QML code clean, you should create a base state that contains all
    the types you will need in the application. You can then create states,
    in which you hide and show a set of items and modify their properties.
    This allows you to:

    \list
        \li Align items on different views with each other.
        \li Avoid excessive property changes. If an item is invisible in the
            base state, you must define all changes to its child types as
            property changes, which leads to complicated QML code.
        \li Minimize the differences between the base state and the other states
            to keep the QML code short and readable and to improve performance.
        \li Avoid problems when using transitions and animation when changing
            states.
    \endlist

    To create views for an application by using states:

    \list 1
        \li In the base state, add all items you will need in the application
            (1). While you work on one view, you can click the
            \inlineimage eye_open.png
            icon to hide items on the canvas that are not part of a view.
        \li In the \uicontrol States view, click the empty slot to create a
            new state and give it a name. For example, \c Normal.
        \li In the \uicontrol Properties view (2), deselect the
            \uicontrol Visibility check box or set \uicontrol Opacity to 0
            for each item that is not needed in this view. If you specify
            the setting for the parent item, all child items inherit it and
            are also hidden.
            \image qmldesigner-screen-design.png "Designing views"
        \li Create additional states for each view and set the visibility
            or opacity of the items in the view.
        \li To determine which view opens when the application starts, use the
            \uicontrol {Text Editor} to set the state of the root item of the
           .qml file, as specified by the following code snippet:
            \qml
            Item {
                state: "Normal"
            }
            \endqml
        \endlist

    \if defined(qtcreator)
    \include qtquick-states-scxml.qdocinc scxml state machines
    \endif

    \section1 Animating Transitions Between States

    To make movement between states smooth, you can animate transitions.
    Animations are created by applying animation types to property values.
    Animation types interpolate property values to create smooth transitions.
    As well, state transitions may assign animations to state changes.

    To create an animation, use an appropriate animation type for the type of
    the property that is to be animated, and apply the animation depending on
    the type of behavior that is required.

    You can drag and drop the following QML types from \uicontrol Library
    > \uicontrol {QML Types} > \uicontrol {Qt Quick - Animation} to the
    \uicontrol Navigator or \uicontrol {Form Editor}:

    \list
        \li \l [QML] {ColorAnimation}{Color Animation} is a specialized
            property animation that defines an animation to be applied when a
            color value changes.
        \li \l [QML] {NumberAnimation}{Number Animation} is a specialized
            property animation that defines an animation to be applied when a
            numerical value changes.
        \li \l [QML] {ParallelAnimation}{Parallel Animation} enables
            animations to be run in parallel.
        \li \l [QML] {PauseAnimation}{Pause Animation} is used in a
            sequential animation to create a step where nothing happens, for
            a specified duration.
        \li \l [QML] {PropertyAction}{Property Action} immediately changes
             a propertyvalue during an animation, without animating the property
             change.
        \li \l [QML] {PropertyAnimation}{Property Animation} animates
             changes in thevalue of a property.
        \li \l [QML] {ScriptAction}{Script Action} defines scripts to be
            run during an animation.
        \li \l [QML] {SequentialAnimation}{Sequential Animation} enables
            animations to be run sequentially.
    \endlist

    For more information, see \l{Animation and Transitions in Qt Quick}.

    \if defined(qtcreator)
    For an example of assigning number animations to states, see
    \l {Creating a Qt Quick Application}.
    \endif


    Alternatively, you can use the \uicontrol Timeline view to animate the
    properties of UI components and to bind the animations to states. For more
    information, see \l {Binding Animations to States}.
*/