Struct leafwing_input_manager::user_input::mouse::MouseMove

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pub struct MouseMove { /* private fields */ }
Expand description

Relative changes in position of mouse movement on both axes.

§Behaviors

  • Raw Value: Captures the amount of movement on both axes.
  • Value Processing: Configure a pipeline to modify the raw value before use, see WithDualAxisProcessingPipelineExt for details.
  • Activation: Only if its processed value is non-zero on either axis.
  • Single-Axis Value: Reports the magnitude of the processed value.
use bevy::prelude::*;
use bevy::input::InputPlugin;
use leafwing_input_manager::plugin::{AccumulatorPlugin, CentralInputStorePlugin};
use leafwing_input_manager::prelude::*;
use leafwing_input_manager::user_input::testing_utils::FetchUserInput;

let mut app = App::new();
app.add_plugins((InputPlugin, AccumulatorPlugin, CentralInputStorePlugin));

let input = MouseMove::default();

// Movement on either axis activates the input
MouseMoveAxis::Y.set_value(app.world_mut(), 3.0);
app.update();
assert_eq!(app.read_dual_axis_values(input), Vec2::new(0.0, 3.0));

// You can configure a processing pipeline (e.g., doubling the Y value)
let doubled = MouseMove::default().sensitivity_y(2.0);
assert_eq!(app.read_dual_axis_values(doubled), Vec2::new(0.0, 6.0));

Trait Implementations§

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impl Clone for MouseMove

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fn clone(&self) -> MouseMove

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for MouseMove

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl Default for MouseMove

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fn default() -> MouseMove

Returns the “default value” for a type. Read more
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impl<'de> Deserialize<'de> for MouseMove

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fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>
where __D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl DualAxislike for MouseMove

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fn axis_pair(&self, input_store: &CentralInputStore, _gamepad: Gamepad) -> Vec2

Retrieves the mouse displacement after processing by the associated processors.

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fn set_axis_pair(&self, world: &mut World, value: Vec2)

Sends a MouseMotion event with the specified displacement.

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fn set_axis_pair_as_gamepad( &self, world: &mut World, value: Vec2, _gamepad: Option<Gamepad>, )

Simulate a dual-axis-like input, pretending to be the provided Gamepad. Read more
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impl FromReflect for MouseMove
where Self: Any + Send + Sync, Vec<DualAxisProcessor>: FromReflect + TypePath + RegisterForReflection,

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fn from_reflect(reflect: &dyn Reflect) -> Option<Self>

Constructs a concrete instance of Self from a reflected value.
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fn take_from_reflect( reflect: Box<dyn Reflect>, ) -> Result<Self, Box<dyn Reflect>>

Attempts to downcast the given value to Self using, constructing the value using from_reflect if that fails. Read more
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impl GetTypeRegistration for MouseMove
where Self: Any + Send + Sync, Vec<DualAxisProcessor>: FromReflect + TypePath + RegisterForReflection,

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fn get_type_registration() -> TypeRegistration

Returns the default TypeRegistration for this type.
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fn register_type_dependencies(registry: &mut TypeRegistry)

Registers other types needed by this type. Read more
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impl Hash for MouseMove

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fn hash<__H: Hasher>(&self, state: &mut __H)

Feeds this value into the given Hasher. Read more
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fn hash_slice<H>(data: &[Self], state: &mut H)
where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
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impl PartialEq for MouseMove

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fn eq(&self, other: &MouseMove) -> bool

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl Reflect for MouseMove
where Self: Any + Send + Sync, Vec<DualAxisProcessor>: FromReflect + TypePath + RegisterForReflection,

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fn get_represented_type_info(&self) -> Option<&'static TypeInfo>

Returns the TypeInfo of the type represented by this value. Read more
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fn into_any(self: Box<Self>) -> Box<dyn Any>

Returns the value as a Box<dyn Any>.
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fn as_any(&self) -> &dyn Any

Returns the value as a &dyn Any.
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fn as_any_mut(&mut self) -> &mut dyn Any

Returns the value as a &mut dyn Any.
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fn into_reflect(self: Box<Self>) -> Box<dyn Reflect>

Casts this type to a boxed reflected value.
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fn as_reflect(&self) -> &dyn Reflect

Casts this type to a reflected value.
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fn as_reflect_mut(&mut self) -> &mut dyn Reflect

Casts this type to a mutable reflected value.
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fn clone_value(&self) -> Box<dyn Reflect>

Clones the value as a Reflect trait object. Read more
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fn set(&mut self, value: Box<dyn Reflect>) -> Result<(), Box<dyn Reflect>>

Performs a type-checked assignment of a reflected value to this value. Read more
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fn try_apply(&mut self, value: &dyn Reflect) -> Result<(), ApplyError>

Tries to apply a reflected value to this value. Read more
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fn reflect_kind(&self) -> ReflectKind

Returns a zero-sized enumeration of “kinds” of type. Read more
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fn reflect_ref(&self) -> ReflectRef<'_>

Returns an immutable enumeration of “kinds” of type. Read more
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fn reflect_mut(&mut self) -> ReflectMut<'_>

Returns a mutable enumeration of “kinds” of type. Read more
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fn reflect_owned(self: Box<Self>) -> ReflectOwned

Returns an owned enumeration of “kinds” of type. Read more
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fn reflect_partial_eq(&self, value: &dyn Reflect) -> Option<bool>

Returns a “partial equality” comparison result. Read more
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fn apply(&mut self, value: &(dyn Reflect + 'static))

Applies a reflected value to this value. Read more
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fn reflect_hash(&self) -> Option<u64>

Returns a hash of the value (which includes the type). Read more
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fn debug(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Debug formatter for the value. Read more
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fn serializable(&self) -> Option<Serializable<'_>>

Returns a serializable version of the value. Read more
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fn is_dynamic(&self) -> bool

Indicates whether or not this type is a dynamic type. Read more
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impl<'de> RegisterTypeTag<'de, dyn UserInput> for MouseMove

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fn register_typetag(registry: &mut MapRegistry<dyn UserInput>)

Registers the specified type tag into the MapRegistry.
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impl Serialize for MouseMove

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fn serialize<__S>(&self, __serializer: __S) -> Result<__S::Ok, __S::Error>
where __S: Serializer,

Serialize this value into the given Serde serializer. Read more
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impl Struct for MouseMove
where Self: Any + Send + Sync, Vec<DualAxisProcessor>: FromReflect + TypePath + RegisterForReflection,

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fn field(&self, name: &str) -> Option<&dyn Reflect>

Returns a reference to the value of the field named name as a &dyn Reflect.
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fn field_mut(&mut self, name: &str) -> Option<&mut dyn Reflect>

Returns a mutable reference to the value of the field named name as a &mut dyn Reflect.
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fn field_at(&self, index: usize) -> Option<&dyn Reflect>

Returns a reference to the value of the field with index index as a &dyn Reflect.
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fn field_at_mut(&mut self, index: usize) -> Option<&mut dyn Reflect>

Returns a mutable reference to the value of the field with index index as a &mut dyn Reflect.
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fn name_at(&self, index: usize) -> Option<&str>

Returns the name of the field with index index.
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fn field_len(&self) -> usize

Returns the number of fields in the struct.
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fn iter_fields(&self) -> FieldIter<'_>

Returns an iterator over the values of the reflectable fields for this struct.
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fn clone_dynamic(&self) -> DynamicStruct

Clones the struct into a DynamicStruct.
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impl TypePath for MouseMove
where Self: Any + Send + Sync,

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fn type_path() -> &'static str

Returns the fully qualified path of the underlying type. Read more
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fn short_type_path() -> &'static str

Returns a short, pretty-print enabled path to the type. Read more
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fn type_ident() -> Option<&'static str>

Returns the name of the type, or None if it is anonymous. Read more
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fn crate_name() -> Option<&'static str>

Returns the name of the crate the type is in, or None if it is anonymous. Read more
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fn module_path() -> Option<&'static str>

Returns the path to the module the type is in, or None if it is anonymous. Read more
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impl Typed for MouseMove
where Self: Any + Send + Sync, Vec<DualAxisProcessor>: FromReflect + TypePath + RegisterForReflection,

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fn type_info() -> &'static TypeInfo

Returns the compile-time info for the underlying type.
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impl UpdatableInput for MouseMove

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type SourceData = AccumulatedMouseMovement

The resource data that must be fetched from the world in order to update the user input. Read more
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fn compute( central_input_store: ResMut<'_, CentralInputStore>, source_data: Res<'_, Self::SourceData>, )

A system that updates the central store of user input based on the state of the world. Read more
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impl UserInput for MouseMove

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fn kind(&self) -> InputControlKind

MouseMove acts as a dual-axis input.

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fn decompose(&self) -> BasicInputs

MouseMove represents a composition of four MouseMoveDirections.

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impl WithDualAxisProcessingPipelineExt for MouseMove

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fn reset_processing_pipeline(self) -> Self

Resets the processing pipeline, removing any currently applied processors.
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fn replace_processing_pipeline( self, processor: impl IntoIterator<Item = DualAxisProcessor>, ) -> Self

Replaces the current processing pipeline with the given DualAxisProcessors.
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fn with_processor(self, processor: impl Into<DualAxisProcessor>) -> Self

Appends the given DualAxisProcessor as the next processing step.
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fn digital(self) -> Self

Appends an DualAxisProcessor::Digital processor as the next processing step, similar to Vec2::signum but returning 0.0 for zero values.
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fn inverted(self) -> Self

Appends a DualAxisInverted::ALL processor as the next processing step, flipping the sign of values on both axes.
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fn inverted_x(self) -> Self

Appends a DualAxisInverted::ONLY_X processor as the next processing step, only flipping the sign of the X-axis values.
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fn inverted_y(self) -> Self

Appends a DualAxisInverted::ONLY_Y processor as the next processing step, only flipping the sign of the Y-axis values.
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fn sensitivity(self, sensitivity: f32) -> Self

Appends a DualAxisSensitivity processor as the next processing step, multiplying values on both axes with the given sensitivity factor.
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fn sensitivity_x(self, sensitivity: f32) -> Self

Appends a DualAxisSensitivity processor as the next processing step, only multiplying the X-axis values with the given sensitivity factor.
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fn sensitivity_y(self, sensitivity: f32) -> Self

Appends a DualAxisSensitivity processor as the next processing step, only multiplying the Y-axis values with the given sensitivity factor.
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fn with_bounds(self, min: f32, max: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, restricting values within the same range [min, max] on both axes.
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fn with_bounds_symmetric(self, threshold: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, restricting values within the same range [-threshold, threshold] on both axes.
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fn with_bounds_x(self, min: f32, max: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, only restricting values within the range [min, max] on the X-axis.
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fn with_bounds_x_symmetric(self, threshold: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, restricting values within the range [-threshold, threshold] on the X-axis.
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fn with_bounds_y(self, min: f32, max: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, only restricting values within the range [min, max] on the Y-axis.
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fn with_bounds_y_symmetric(self, threshold: f32) -> Self

Appends a DualAxisBounds processor as the next processing step, restricting values within the range [-threshold, threshold] on the Y-axis.
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fn with_circle_bounds(self, max: f32) -> Self

Appends a CircleBounds processor as the next processing step, restricting values to a max magnitude.
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fn with_deadzone(self, min: f32, max: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the dead zone range [min, max] on both axes, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_deadzone_symmetric(self, threshold: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the dead zone range [-threshold, threshold] on both axes, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_deadzone_x(self, min: f32, max: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the dead zone range [min, max] on the X-axis, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_deadzone_x_symmetric(self, threshold: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the dead zone range [-threshold, threshold] on the X-axis, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_deadzone_y(self, min: f32, max: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the dead zone range [min, max] on the Y-axis, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_deadzone_y_symmetric(self, threshold: f32) -> Self

Appends a DualAxisDeadZone processor as the next processing step, excluding values within the deadzone range [-threshold, threshold] on the Y-axis, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the DualAxisBounds::symmetric_all(1.0) after dead zone exclusion.
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fn with_circle_deadzone(self, min: f32) -> Self

Appends a CircleDeadZone processor as the next processing step, ignoring values below a min magnitude, treating them as zeros, then normalizing non-excluded input values into the “live zone”, the remaining range within the CircleBounds::new(1.0) after dead zone exclusion.
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fn with_deadzone_unscaled(self, min: f32, max: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, ignoring values within the dead zone range [min, max] on both axes, treating them as zeros.
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fn with_deadzone_symmetric_unscaled(self, threshold: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, ignoring values within the dead zone range [-threshold, threshold] on both axes, treating them as zeros.
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fn with_deadzone_x_unscaled(self, min: f32, max: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, only ignoring values within the dead zone range [min, max] on the X-axis, treating them as zeros.
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fn with_deadzone_x_symmetric_unscaled(self, threshold: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, only ignoring values within the dead zone range [-threshold, threshold] on the X-axis, treating them as zeros.
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fn with_deadzone_y_unscaled(self, min: f32, max: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, only ignoring values within the dead zone range [min, max] on the Y-axis, treating them as zeros.
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fn with_deadzone_y_symmetric_unscaled(self, threshold: f32) -> Self

Appends a DualAxisExclusion processor as the next processing step, only ignoring values within the dead zone range [-threshold, threshold] on the Y-axis, treating them as zeros.
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fn with_circle_deadzone_unscaled(self, min: f32) -> Self

Appends a CircleExclusion processor as the next processing step, ignoring values below a min magnitude, treating them as zeros.
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impl Eq for MouseMove

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impl StructuralPartialEq for MouseMove

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