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GestureRecognizer Class

Definition

Provides gesture and manipulation recognition, event listeners, and settings.

public ref class GestureRecognizer sealed
/// [Windows.Foundation.Metadata.Activatable(65536, Windows.Foundation.UniversalApiContract)]
/// [Windows.Foundation.Metadata.ContractVersion(Windows.Foundation.UniversalApiContract, 65536)]
/// [Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
class GestureRecognizer final
/// [Windows.Foundation.Metadata.ContractVersion(Windows.Foundation.UniversalApiContract, 65536)]
/// [Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
/// [Windows.Foundation.Metadata.Activatable(65536, "Windows.Foundation.UniversalApiContract")]
class GestureRecognizer final
/// [Windows.Foundation.Metadata.ContractVersion(Windows.Foundation.UniversalApiContract, 65536)]
/// [Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
/// [Windows.Foundation.Metadata.Activatable(65536, "Windows.Foundation.UniversalApiContract")]
/// [Windows.Foundation.Metadata.Threading(Windows.Foundation.Metadata.ThreadingModel.Both)]
class GestureRecognizer final
[Windows.Foundation.Metadata.Activatable(65536, typeof(Windows.Foundation.UniversalApiContract))]
[Windows.Foundation.Metadata.ContractVersion(typeof(Windows.Foundation.UniversalApiContract), 65536)]
[Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
public sealed class GestureRecognizer
[Windows.Foundation.Metadata.ContractVersion(typeof(Windows.Foundation.UniversalApiContract), 65536)]
[Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
[Windows.Foundation.Metadata.Activatable(65536, "Windows.Foundation.UniversalApiContract")]
public sealed class GestureRecognizer
[Windows.Foundation.Metadata.ContractVersion(typeof(Windows.Foundation.UniversalApiContract), 65536)]
[Windows.Foundation.Metadata.MarshalingBehavior(Windows.Foundation.Metadata.MarshalingType.None)]
[Windows.Foundation.Metadata.Activatable(65536, "Windows.Foundation.UniversalApiContract")]
[Windows.Foundation.Metadata.Threading(Windows.Foundation.Metadata.ThreadingModel.Both)]
public sealed class GestureRecognizer
function GestureRecognizer()
Public NotInheritable Class GestureRecognizer
Inheritance
Object Platform::Object IInspectable GestureRecognizer
Attributes

Windows requirements

Device family
Windows 10 (introduced in 10.0.10240.0)
API contract
Windows.Foundation.UniversalApiContract (introduced in v1.0)

Examples

Here we set up a GestureRecognizer object with a collection of input event handlers for processing both pointer and gesture input. For more information on how to listen to and handle Windows Runtime events, see Events and routed events overview. See the Basic input sample for the full implementation.

class ManipulationInputProcessor
{
    GestureRecognizer recognizer;
    UIElement element;
    UIElement reference;
    TransformGroup cumulativeTransform;
    MatrixTransform previousTransform;
    CompositeTransform deltaTransform;

    public ManipulationInputProcessor(GestureRecognizer gestureRecognizer, UIElement target, UIElement referenceFrame)
    {
        recognizer = gestureRecognizer;
        element = target;
        reference = referenceFrame;
        // Initialize the transforms that will be used to manipulate the shape
        InitializeTransforms();
        // The GestureSettings property dictates what manipulation events the
        // Gesture Recognizer will listen to.  This will set it to a limited
        // subset of these events.
        recognizer.GestureSettings = GenerateDefaultSettings();
        // Set up pointer event handlers. These receive input events that are used by the gesture recognizer.
        element.PointerPressed += OnPointerPressed;
        element.PointerMoved += OnPointerMoved;
        element.PointerReleased += OnPointerReleased;
        element.PointerCanceled += OnPointerCanceled;
        // Set up event handlers to respond to gesture recognizer output
        recognizer.ManipulationStarted += OnManipulationStarted;
        recognizer.ManipulationUpdated += OnManipulationUpdated;
        recognizer.ManipulationCompleted += OnManipulationCompleted;
        recognizer.ManipulationInertiaStarting += OnManipulationInertiaStarting;
    }

    public void InitializeTransforms()
    {
        cumulativeTransform = new TransformGroup();
        deltaTransform = new CompositeTransform();
        previousTransform = new MatrixTransform() { Matrix = Matrix.Identity };
        cumulativeTransform.Children.Add(previousTransform);
        cumulativeTransform.Children.Add(deltaTransform);
        element.RenderTransform = cumulativeTransform;
    }

    // Return the default GestureSettings for this sample
    GestureSettings GenerateDefaultSettings()
    {
        return GestureSettings.ManipulationTranslateX |
            GestureSettings.ManipulationTranslateY |
            GestureSettings.ManipulationRotate |
            GestureSettings.ManipulationTranslateInertia |
            GestureSettings.ManipulationRotateInertia;
    }

    // Route the pointer pressed event to the gesture recognizer.
    // The points are in the reference frame of the canvas that contains the rectangle element.
    void OnPointerPressed(object sender, PointerRoutedEventArgs args)
    {
        // Set the pointer capture to the element being interacted with so that only it
        // will fire pointer-related events
        element.CapturePointer(args.Pointer);
        // Feed the current point into the gesture recognizer as a down event
        recognizer.ProcessDownEvent(args.GetCurrentPoint(reference));
    }

    // Route the pointer moved event to the gesture recognizer.
    // The points are in the reference frame of the canvas that contains the rectangle element.
    void OnPointerMoved(object sender, PointerRoutedEventArgs args)
    {
        // Feed the set of points into the gesture recognizer as a move event
        recognizer.ProcessMoveEvents(args.GetIntermediatePoints(reference));
    }

    // Route the pointer released event to the gesture recognizer.
    // The points are in the reference frame of the canvas that contains the rectangle element.
    void OnPointerReleased(object sender, PointerRoutedEventArgs args)
    {
        // Feed the current point into the gesture recognizer as an up event
        recognizer.ProcessUpEvent(args.GetCurrentPoint(reference));
        // Release the pointer
        element.ReleasePointerCapture(args.Pointer);
    }

    // Route the pointer canceled event to the gesture recognizer.
    // The points are in the reference frame of the canvas that contains the rectangle element.
    void OnPointerCanceled(object sender, PointerRoutedEventArgs args)
    {
        recognizer.CompleteGesture();
        element.ReleasePointerCapture(args.Pointer);
    }

    // When a manipulation begins, change the color of the object to reflect
    // that a manipulation is in progress
    void OnManipulationStarted(object sender, ManipulationStartedEventArgs e)
    {
        Border b = element as Border;
        b.Background = new SolidColorBrush(Windows.UI.Colors.DeepSkyBlue);
    }

    // Process the change resulting from a manipulation
    void OnManipulationUpdated(object sender, ManipulationUpdatedEventArgs e)
    {
        previousTransform.Matrix = cumulativeTransform.Value;
        // Get the center point of the manipulation for rotation
        Point center = new Point(e.Position.X, e.Position.Y);
        deltaTransform.CenterX = center.X;
        deltaTransform.CenterY = center.Y;
        // Look at the Delta property of the ManipulationDeltaRoutedEventArgs to retrieve
        // the rotation, X, and Y changes
        deltaTransform.Rotation = e.Delta.Rotation;
        deltaTransform.TranslateX = e.Delta.Translation.X;
        deltaTransform.TranslateY = e.Delta.Translation.Y;
    }

    // When a manipulation that's a result of inertia begins, change the color of the
    // the object to reflect that inertia has taken over
    void OnManipulationInertiaStarting(object sender, ManipulationInertiaStartingEventArgs e)
    {
        Border b = element as Border;
        b.Background = new SolidColorBrush(Windows.UI.Colors.RoyalBlue);
    }

    // When a manipulation has finished, reset the color of the object
    void OnManipulationCompleted(object sender, ManipulationCompletedEventArgs e)
    {
        Border b = element as Border;
        b.Background = new SolidColorBrush(Windows.UI.Colors.LightGray);
    }

    // Modify the GestureSettings property to only allow movement on the X axis
    public void LockToXAxis()
    {
        recognizer.CompleteGesture();
        recognizer.GestureSettings |= GestureSettings.ManipulationTranslateY | GestureSettings.ManipulationTranslateX;
        recognizer.GestureSettings ^= GestureSettings.ManipulationTranslateY;
    }

    // Modify the GestureSettings property to only allow movement on the Y axis
    public void LockToYAxis()
    {
        recognizer.CompleteGesture();
        recognizer.GestureSettings |= GestureSettings.ManipulationTranslateY | GestureSettings.ManipulationTranslateX;
        recognizer.GestureSettings ^= GestureSettings.ManipulationTranslateX;
    }

    // Modify the GestureSettings property to allow movement on both the X and Y axes
    public void MoveOnXAndYAxes()
    {
        recognizer.CompleteGesture();
        recognizer.GestureSettings |= GestureSettings.ManipulationTranslateX | GestureSettings.ManipulationTranslateY;
    }

    // Modify the GestureSettings property to enable or disable inertia based on the passed-in value
    public void UseInertia(bool inertia)
    {
        if (!inertia)
        {
            recognizer.CompleteGesture();
            recognizer.GestureSettings ^= GestureSettings.ManipulationTranslateInertia | GestureSettings.ManipulationRotateInertia;
        }
        else
        {
            recognizer.GestureSettings |= GestureSettings.ManipulationTranslateInertia | GestureSettings.ManipulationRotateInertia;
        }
    }

    public void Reset()
    {
        element.RenderTransform = null;
        recognizer.CompleteGesture();
        InitializeTransforms();
        recognizer.GestureSettings = GenerateDefaultSettings();
    }
}

Samples

Archived samples

Remarks

You can create a gesture object for each appropriate element when your app starts. However, this approach might not scale well depending on the number of gesture objects you need to create (for example, a jigsaw puzzle with hundreds of pieces).

In this case, you can create gesture objects dynamically on a pointerdown event and destroy them on an MSGestureEnd event. This approach scales well, but does incur some overhead due to creating and releasing these objects.

Alternatively, you can statically allocate and dynamically manage a pool of reusable gesture objects.

Note

This class is not agile, which means that you need to consider its threading model and marshaling behavior. For more info, see Threading and Marshaling (C++/CX) and Using Windows Runtime objects in a multithreaded environment (.NET).

For more detail on how to use cross-slide functionality, see Guidelines for cross-slide. The threshold distances used by the cross-slide interaction are shown in the following diagram.

Screen shot showing the select and drag and drop processes.

The PivotRadius and PivotCenter properties are used only when single pointer input is detected. They have no effect on multiple pointer input. The value for these properties should be updated regularly during the interaction.

Rotation is supported by a GestureRecognizer only when manipulationRotate is set through the GestureSettings property.

Rotation is not supported for single pointer input if the value of PivotRadius is set to 0.

Version history

Windows version SDK version Value added
2004 19041 HoldMaxContactCount
2004 19041 HoldMinContactCount
2004 19041 HoldRadius
2004 19041 HoldStartDelay
2004 19041 TapMaxContactCount
2004 19041 TapMinContactCount
2004 19041 TranslationMaxContactCount
2004 19041 TranslationMinContactCount

Constructors

GestureRecognizer()

Initializes a new instance of a GestureRecognizer object.

Properties

AutoProcessInertia

Gets or sets a value that indicates whether manipulations during inertia are generated automatically.

CrossSlideExact

Gets or sets a value that indicates whether the exact distance from initial contact to end of the cross-slide interaction is reported.By default, a small distance threshold is subtracted from the first position reported by the system for cross-slide interactions. If this flag is set, the distance threshold is not subtracted from the initial position.

Note

This distance threshold is intended to account for any slight movement of the contact after initial detection. It helps the system differentiate between cross-sliding and panning, and helps ensure that a tap gesture is not interpreted as either.

CrossSlideHorizontally

Gets or sets a value that indicates whether the cross-slide axis is horizontal.

CrossSlideThresholds

Gets or sets values that indicate the distance thresholds for a CrossSliding interaction.

GestureSettings

Gets or sets a value that indicates the gesture and manipulation settings supported by an application.

HoldMaxContactCount

Gets or sets the maximum number of contact points needed to recognize a Windows.UI.Input.GestureRecognizer.Holding event.

HoldMinContactCount

Gets or sets the minimum number of contact points needed to recognize a Windows.UI.Input.GestureRecognizer.Holding event.

HoldRadius

Gets or sets the radius of the contact points recognized for the Windows.UI.Input.GestureRecognizer.Holding event.

HoldStartDelay

Gets or sets the time threshold at which the contacts are recognized for the Windows.UI.Input.GestureRecognizer.Holding event.

InertiaExpansion

Gets or sets a value that indicates the relative change in size of an object from the start of inertia to the end of inertia (when resizing, or scaling, is complete).

InertiaExpansionDeceleration

Gets or sets a value that indicates the rate of deceleration from the start of inertia to the end of inertia (when the resizing, or expansion, manipulation is complete).

InertiaRotationAngle

Gets or sets a value that indicates the final angle of rotation of an object at the end of inertia (when the rotation manipulation is complete).

InertiaRotationDeceleration

Gets or sets a value that indicates the rate of deceleration from the start of inertia to the end of inertia (when the rotation manipulation is complete).

InertiaTranslationDeceleration

Gets or sets a value that indicates the rate of deceleration from the start of inertia to the end of inertia (when the translation manipulation is complete).

InertiaTranslationDisplacement

Gets or sets a value that indicates the relative change in the screen location of an object from the start of inertia to the end of inertia (when the translation manipulation is complete).

IsActive

Gets a value that indicates whether an interaction is being processed.

IsInertial

Gets a value that indicates whether a manipulation is still being processed during inertia (no input points are active).

ManipulationExact

Gets or sets a value that indicates whether the exact distance from initial contact to end of the interaction is reported. By default, a small distance threshold is subtracted from the first delta reported by the system. This distance threshold is intended to account for slight movements of the contact when processing a tap gesture. If this flag is set, the distance threshold is not subtracted from the first delta.

MouseWheelParameters

Gets a set of properties that are associated with the wheel button of a mouse device.

PivotCenter

Gets or sets the center point for a rotation interaction when single pointer input is detected.

PivotRadius

Gets or sets the radius, from the PivotCenter to the pointer input, for a rotation interaction when single pointer input is detected.

ShowGestureFeedback

Gets or sets a value that indicates whether visual feedback is displayed during an interaction.

TapMaxContactCount

Gets or sets the maximum number of contact points needed to recognize a Windows.UI.Input.GestureRecognizer.Tapped event.

TapMinContactCount

Gets or sets the minimum number of contact points needed to recognize a Windows.UI.Input.GestureRecognizer.Tapped event.

TranslationMaxContactCount

Gets or sets the maximum number of contact points needed to recognize a translation (or panning) event.

TranslationMinContactCount

Gets or sets the minimum number of contact points needed to recognize a translation (or panning) event.

Methods

CanBeDoubleTap(PointerPoint)

Identifies whether a tap can still be interpreted as the second tap of a double tap gesture.

CompleteGesture()

Causes the gesture recognizer to finalize an interaction.

ProcessDownEvent(PointerPoint)

Processes pointer input and raises the GestureRecognizer events appropriate to a pointer down action for the gestures and manipulations specified by the GestureSettings property.

ProcessInertia()

Performs inertia calculations and raises the various inertia events.

ProcessMouseWheelEvent(PointerPoint, Boolean, Boolean)

Processes pointer input and raises the GestureRecognizer events appropriate to a mouse wheel action for the gestures and manipulations specified by the GestureSettings property.

ProcessMoveEvents(IVector<PointerPoint>)

Processes pointer input and raises the GestureRecognizer events appropriate to a pointer move action for the gestures and manipulations specified by the GestureSettings property.

ProcessUpEvent(PointerPoint)

Processes pointer input and raises the GestureRecognizer events appropriate to a pointer up action for the gestures and manipulations specified by the GestureSettings property.

Events

CrossSliding

Occurs when a user performs a slide or swipe gesture (through a single touch contact) within a content area that supports panning along a single axis only. The gesture must occur in a direction that is perpendicular to this panning axis.

Note

A swipe is a short sliding gesture that results in a selection action while the longer slide gesture crosses a distance threshold and results in a rearrange action. The swipe and slide gestures are demonstrated in the following diagram. Diagram showing the select and drag actions.

Dragging

Occurs when a user performs a slide or swipe gesture with a mouse or pen/stylus (single contact).

Holding

Occurs when a user performs a press and hold gesture (with a single touch, mouse, or pen/stylus contact).

ManipulationCompleted

Occurs when the input points are lifted and all subsequent motion (translation, expansion, or rotation) through inertia has ended.

ManipulationInertiaStarting

Occurs when all contact points are lifted during a manipulation and the velocity of the manipulation is significant enough to initiate inertia behavior (translation, expansion, or rotation continue after the input pointers are lifted).

ManipulationStarted

Occurs when one or more input points have been initiated and subsequent motion (translation, expansion, or rotation) has begun.

ManipulationUpdated

Occurs after one or more input points have been initiated and subsequent motion (translation, expansion, or rotation) is under way.

RightTapped

Occurs when the pointer input is interpreted as a right-tap gesture, regardless of input device.

  • Right mouse button click
  • Pen barrel button click
  • Touch or pen press and hold
Tapped

Occurs when the pointer input is interpreted as a tap gesture.

Applies to

See also