ValueRef

public struct ValueRef : ValueProtocol

AtkValue should be implemented for components which either display a value from a bounded range, or which allow the user to specify a value from a bounded range, or both. For instance, most sliders and range controls, as well as dials, should have AtkObject representations which implement AtkValue on the component’s behalf. AtKValues may be read-only, in which case attempts to alter the value return would fail.

<refsect1 id=“current-value-text”> <title>On the subject of current value text</title> <para> In addition to providing the current value, implementors can optionally provide an end-user-consumable textual description associated with this value. This description should be included when the numeric value fails to convey the full, on-screen representation seen by users. </para>

<example> <title>Password strength</title> A password strength meter whose value changes as the user types their new password. Red is used for values less than 4.0, yellow for values between 4.0 and 7.0, and green for values greater than 7.0. In this instance, value text should be provided by the implementor. Appropriate value text would be “weak”, “acceptable,” and “strong” respectively. </example>

A level bar whose value changes to reflect the battery charge. The color remains the same regardless of the charge and there is no on-screen text reflecting the fullness of the battery. In this case, because the position within the bar is the only indication the user has of the current charge, value text should not be provided by the implementor.

<refsect2 id=“implementor-notes”> <title>Implementor Notes</title> <para> Implementors should bear in mind that assistive technologies will likely prefer the value text provided over the numeric value when presenting a widget’s value. As a result, strings not intended for end users should not be exposed in the value text, and strings which are exposed should be localized. In the case of widgets which display value text on screen, for instance through a separate label in close proximity to the value-displaying widget, it is still expected that implementors will expose the value text using the above API. </para>

<para> AtkValue should NOT be implemented for widgets whose displayed value is not reflective of a meaningful amount. For instance, a progress pulse indicator whose value alternates between 0.0 and 1.0 to indicate that some process is still taking place should not implement AtkValue because the current value does not reflect progress towards completion. </para> </refsect2> </refsect1>

<refsect1 id=“ranges”> <title>On the subject of ranges</title> <para> In addition to providing the minimum and maximum values, implementors can optionally provide details about subranges associated with the widget. These details should be provided by the implementor when both of the following are communicated visually to the end user: </para> <itemizedlist> <listitem>The existence of distinct ranges such as “weak”, “acceptable”, and “strong” indicated by color, bar tick marks, and/or on-screen text.</listitem> <listitem>Where the current value stands within a given subrange, for instance illustrating progression from very “weak” towards nearly “acceptable” through changes in shade and/or position on the bar within the “weak” subrange.</listitem> </itemizedlist> <para> If both of the above do not apply to the widget, it should be sufficient to expose the numeric value, along with the value text if appropriate, to make the widget accessible. </para>

<refsect2 id=“ranges-implementor-notes”> <title>Implementor Notes</title> <para> If providing subrange details is deemed necessary, all possible values of the widget are expected to fall within one of the subranges defined by the implementor. </para> </refsect2> </refsect1>

<refsect1 id=“localization”> <title>On the subject of localization of end-user-consumable text values</title> <para> Because value text and subrange descriptors are human-consumable, implementors are expected to provide localized strings which can be directly presented to end users via their assistive technology. In order to simplify this for implementors, implementors can use atk_value_type_get_localized_name() with the following already-localized constants for commonly-needed values can be used: </para>

<itemizedlist> <listitem>ATK_VALUE_VERY_WEAK</listitem> <listitem>ATK_VALUE_WEAK</listitem> <listitem>ATK_VALUE_ACCEPTABLE</listitem> <listitem>ATK_VALUE_STRONG</listitem> <listitem>ATK_VALUE_VERY_STRONG</listitem> <listitem>ATK_VALUE_VERY_LOW</listitem> <listitem>ATK_VALUE_LOW</listitem> <listitem>ATK_VALUE_MEDIUM</listitem> <listitem>ATK_VALUE_HIGH</listitem> <listitem>ATK_VALUE_VERY_HIGH</listitem> <listitem>ATK_VALUE_VERY_BAD</listitem> <listitem>ATK_VALUE_BAD</listitem> <listitem>ATK_VALUE_GOOD</listitem> <listitem>ATK_VALUE_VERY_GOOD</listitem> <listitem>ATK_VALUE_BEST</listitem> <listitem>ATK_VALUE_SUBSUBOPTIMAL</listitem> <listitem>ATK_VALUE_SUBOPTIMAL</listitem> <listitem>ATK_VALUE_OPTIMAL</listitem> </itemizedlist> <para> Proposals for additional constants, along with their use cases, should be submitted to the GNOME Accessibility Team. </para> </refsect1>

<refsect1 id=“changes”> <title>On the subject of changes</title> <para> Note that if there is a textual description associated with the new numeric value, that description should be included regardless of whether or not it has also changed. </para> </refsect1>

The ValueRef type acts as a lightweight Swift reference to an underlying AtkValue instance. It exposes methods that can operate on this data type through ValueProtocol conformance. Use ValueRef only as an unowned reference to an existing AtkValue instance.

  • ptr
    Untyped pointer to the underlying `AtkValue` instance.
    

    For type-safe access, use the generated, typed pointer value_ptr property instead.

    Declaration

    Swift

    public let ptr: UnsafeMutableRawPointer!

Value Interface

  • Designated initialiser from the underlying C data type

    Declaration

    Swift

    @inlinable
    init(_ p: UnsafeMutablePointer<AtkValue>)
  • Designated initialiser from a constant pointer to the underlying C data type

    Declaration

    Swift

    @inlinable
    init(_ p: UnsafePointer<AtkValue>)
  • Conditional initialiser from an optional pointer to the underlying C data type

    Declaration

    Swift

    @inlinable
    init!(_ maybePointer: UnsafeMutablePointer<AtkValue>?)
  • Conditional initialiser from an optional, non-mutable pointer to the underlying C data type

    Declaration

    Swift

    @inlinable
    init!(_ maybePointer: UnsafePointer<AtkValue>?)
  • Conditional initialiser from an optional gpointer

    Declaration

    Swift

    @inlinable
    init!(gpointer g: gpointer?)
  • Conditional initialiser from an optional, non-mutable gconstpointer

    Declaration

    Swift

    @inlinable
    init!(gconstpointer g: gconstpointer?)
  • Reference intialiser for a related type that implements ValueProtocol

    Declaration

    Swift

    @inlinable
    init<T>(_ other: T) where T : ValueProtocol
  • Unsafe typed initialiser. Do not use unless you know the underlying data type the pointer points to conforms to ValueProtocol.

    Declaration

    Swift

    @inlinable
    init<T>(cPointer: UnsafeMutablePointer<T>)
  • Unsafe typed initialiser. Do not use unless you know the underlying data type the pointer points to conforms to ValueProtocol.

    Declaration

    Swift

    @inlinable
    init<T>(constPointer: UnsafePointer<T>)
  • Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to ValueProtocol.

    Declaration

    Swift

    @inlinable
    init(mutating raw: UnsafeRawPointer)
  • Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to ValueProtocol.

    Declaration

    Swift

    @inlinable
    init(raw: UnsafeMutableRawPointer)
  • Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to ValueProtocol.

    Declaration

    Swift

    @inlinable
    init(opaquePointer: OpaquePointer)