[][src]Struct conrod_core::position::range::Range

pub struct Range {
    pub start: Scalar,
    pub end: Scalar,
}

Some start and end position along a single axis.

As an example, a Rect is made up of two Ranges; one along the x axis, and one along the y axis.

Fields

start: Scalar

The start of some Range along an axis.

end: Scalar

The end of some Range along an axis.

Implementations

impl Range[src]

pub fn new(start: Scalar, end: Scalar) -> Range[src]

Construct a new Range from a given range, i.e. Range::new(start, end).

Examples

use conrod_core::Range;

assert_eq!(Range { start: 0.0, end: 10.0 }, Range::new(0.0, 10.0));

pub fn from_pos_and_len(pos: Scalar, len: Scalar) -> Range[src]

Construct a new Range from a given length and its centered position.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 10.0), Range::from_pos_and_len(5.0, 10.0));
assert_eq!(Range::new(-5.0, 1.0), Range::from_pos_and_len(-2.0, 6.0));
assert_eq!(Range::new(-100.0, 200.0), Range::from_pos_and_len(50.0, 300.0));

pub fn magnitude(&self) -> Scalar[src]

The start value subtracted from the end value.

Examples

use conrod_core::Range;

assert_eq!(Range::new(-5.0, 5.0).magnitude(), 10.0);
assert_eq!(Range::new(5.0, -5.0).magnitude(), -10.0);
assert_eq!(Range::new(15.0, 10.0).magnitude(), -5.0);

pub fn len(&self) -> Scalar[src]

The absolute length of the Range aka the absolute magnitude.

Examples

use conrod_core::Range;

assert_eq!(Range::new(-5.0, 5.0).len(), 10.0);
assert_eq!(Range::new(5.0, -5.0).len(), 10.0);
assert_eq!(Range::new(15.0, 10.0).len(), 5.0);

pub fn middle(&self) -> Scalar[src]

Return the value directly between the start and end values.

Examples

use conrod_core::Range;

assert_eq!(Range::new(-5.0, 5.0).middle(), 0.0);
assert_eq!(Range::new(5.0, -5.0).middle(), 0.0);
assert_eq!(Range::new(10.0, 15.0).middle(), 12.5);
assert_eq!(Range::new(20.0, 40.0).middle(), 30.0);
assert_eq!(Range::new(20.0, -40.0).middle(), -10.0);

pub fn invert(self) -> Range[src]

The current range with its start and end values swapped.

Examples

use conrod_core::Range;

assert_eq!(Range::new(-5.0, 5.0).invert(), Range::new(5.0, -5.0));
assert_eq!(Range::new(-10.0, 10.0).invert(), Range::new(10.0, -10.0));
assert_eq!(Range::new(0.0, 7.25).invert(), Range::new(7.25, 0.0));
assert_eq!(Range::new(5.0, 1.0).invert(), Range::new(1.0, 5.0));

pub fn map_value_to(&self, value: Scalar, other: &Range) -> Scalar[src]

Map the given Scalar from Self to some other given Range.

Examples

use conrod_core::Range;

let a = Range::new(0.0, 5.0);

let b = Range::new(0.0, 10.0);
assert_eq!(a.map_value_to(2.5, &b), 5.0);
assert_eq!(a.map_value_to(0.0, &b), 0.0);
assert_eq!(a.map_value_to(5.0, &b), 10.0);
assert_eq!(a.map_value_to(-5.0, &b), -10.0);
assert_eq!(a.map_value_to(10.0, &b), 20.0);

let c = Range::new(10.0, -10.0);
assert_eq!(a.map_value_to(2.5, &c), 0.0);
assert_eq!(a.map_value_to(0.0, &c), 10.0);
assert_eq!(a.map_value_to(5.0, &c), -10.0);
assert_eq!(a.map_value_to(-5.0, &c), 30.0);
assert_eq!(a.map_value_to(10.0, &c), -30.0);

pub fn shift(self, amount: Scalar) -> Range[src]

Shift the Range start and end points by a given Scalar.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 5.0).shift(5.0), Range::new(5.0, 10.0));
assert_eq!(Range::new(0.0, 5.0).shift(-5.0), Range::new(-5.0, 0.0));
assert_eq!(Range::new(5.0, -5.0).shift(-5.0), Range::new(0.0, -10.0));

pub fn direction(&self) -> Scalar[src]

The direction of the Range represented as a normalised scalar.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 5.0).direction(), 1.0);
assert_eq!(Range::new(0.0, 0.0).direction(), 0.0);
assert_eq!(Range::new(0.0, -5.0).direction(), -1.0);

pub fn undirected(self) -> Range[src]

Converts the Range to an undirected Range. By ensuring that start <= end.

If start > end, then the start and end points will be swapped.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 5.0).undirected(), Range::new(0.0, 5.0));
assert_eq!(Range::new(5.0, 1.0).undirected(), Range::new(1.0, 5.0));
assert_eq!(Range::new(10.0, -10.0).undirected(), Range::new(-10.0, 10.0));

pub fn max(self, other: Self) -> Range[src]

The Range that encompasses both self and the given Range.

The returned Range's start will always be <= its end.

Examples

use conrod_core::Range;

let a = Range::new(0.0, 3.0);
let b = Range::new(7.0, 10.0);
assert_eq!(a.max(b), Range::new(0.0, 10.0));

let c = Range::new(-20.0, -30.0);
let d = Range::new(5.0, -7.5);
assert_eq!(c.max(d), Range::new(-30.0, 5.0));

pub fn overlap(self, other: Self) -> Option<Range>[src]

The Range that represents the range of the overlap between two Ranges if there is some.

Note that If one end of self aligns exactly with the opposite end of other, Some Range will be returned with a magnitude of 0.0. This is useful for algorithms that involve calculating the visibility of widgets, as it allows for including widgets whose bounding box may be a one dimensional straight line.

The returned Range's start will always be <= its end.

Examples

use conrod_core::Range;

let a = Range::new(0.0, 6.0);
let b = Range::new(4.0, 10.0);
assert_eq!(a.overlap(b), Some(Range::new(4.0, 6.0)));

let c = Range::new(10.0, -30.0);
let d = Range::new(-5.0, 20.0);
assert_eq!(c.overlap(d), Some(Range::new(-5.0, 10.0)));
 
let e = Range::new(0.0, 2.5);
let f = Range::new(50.0, 100.0);
assert_eq!(e.overlap(f), None);

pub fn max_directed(self, other: Self) -> Range[src]

The Range that encompasses both self and the given Range.

The same as Range::max but retains self's original direction.

Examples

use conrod_core::Range;

let a = Range::new(0.0, 3.0);
let b = Range::new(7.0, 10.0);
assert_eq!(a.max_directed(b), Range::new(0.0, 10.0));

let c = Range::new(-20.0, -30.0);
let d = Range::new(5.0, -7.5);
assert_eq!(c.max_directed(d), Range::new(5.0, -30.0));

pub fn is_over(&self, pos: Scalar) -> bool[src]

Is the given scalar within our range.

Examples

use conrod_core::Range;

let range = Range::new(0.0, 10.0);
assert!(range.is_over(5.0));
assert!(!range.is_over(12.0));
assert!(!range.is_over(-1.0));
assert!(range.is_over(0.0));
assert!(range.is_over(10.0));

pub fn round(self) -> Range[src]

Round the values at both ends of the Range and return the result.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.25, 9.5).round(), Range::new(0.0, 10.0));
assert_eq!(Range::new(4.95, -5.3).round(), Range::new(5.0, -5.0));

pub fn floor(self) -> Range[src]

Floor the values at both ends of the Range and return the result.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.25, 9.5).floor(), Range::new(0.0, 9.0));
assert_eq!(Range::new(4.95, -5.3).floor(), Range::new(4.0, -6.0));

pub fn pad_start(self, pad: Scalar) -> Range[src]

The Range with some padding given to the start value.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 10.0).pad_start(2.0), Range::new(2.0, 10.0));
assert_eq!(Range::new(10.0, 0.0).pad_start(2.0), Range::new(8.0, 0.0));

pub fn pad_end(self, pad: Scalar) -> Range[src]

The Range with some padding given to the end value.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 10.0).pad_end(2.0), Range::new(0.0, 8.0));
assert_eq!(Range::new(10.0, 0.0).pad_end(2.0), Range::new(10.0, 2.0));

pub fn pad(self, pad: Scalar) -> Range[src]

The Range with some given padding to be applied to each end.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 10.0).pad(2.0), Range::new(2.0, 8.0));
assert_eq!(Range::new(10.0, 0.0).pad(2.0), Range::new(8.0, 2.0));

pub fn pad_ends(self, start: Scalar, end: Scalar) -> Range[src]

The Range with some padding given for each end.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 10.0).pad_ends(1.0, 2.0), Range::new(1.0, 8.0));
assert_eq!(Range::new(10.0, 0.0).pad_ends(4.0, 3.0), Range::new(6.0, 3.0));

pub fn clamp_value(&self, value: Scalar) -> Scalar[src]

Clamp the given value to the range.

Examples

use conrod_core::Range;

assert_eq!(Range::new(0.0, 5.0).clamp_value(7.0), 5.0);
assert_eq!(Range::new(5.0, -2.5).clamp_value(-3.0), -2.5);
assert_eq!(Range::new(5.0, 10.0).clamp_value(0.0), 5.0);

pub fn stretch_to_value(self, value: Scalar) -> Range[src]

Stretch the end that is closest to the given value only if it lies outside the Range.

The resulting Range will retain the direction of the original range.

Examples

use conrod_core::Range;

let a = Range::new(2.5, 5.0);
assert_eq!(a.stretch_to_value(10.0), Range::new(2.5, 10.0));
assert_eq!(a.stretch_to_value(0.0), Range::new(0.0, 5.0));

let b = Range::new(0.0, -5.0);
assert_eq!(b.stretch_to_value(10.0), Range::new(10.0, -5.0));
assert_eq!(b.stretch_to_value(-10.0), Range::new(0.0, -10.0));

pub fn has_same_direction(self, other: Self) -> bool[src]

Does self have the same direction as other.

Examples

use conrod_core::Range;

assert!(Range::new(0.0, 1.0).has_same_direction(Range::new(100.0, 200.0)));
assert!(Range::new(0.0, -5.0).has_same_direction(Range::new(-2.5, -6.0)));
assert!(!Range::new(0.0, 5.0).has_same_direction(Range::new(2.5, -2.5)));

pub fn align_start_of(self, other: Self) -> Self[src]

Align the start of self to the start of the other Range.

If the direction of other is different to self, self's end will be aligned to the start of other instead.

Examples

use conrod_core::Range;

let a = Range::new(2.5, 7.5);
let b = Range::new(0.0, 10.0);
assert_eq!(a.align_start_of(b), Range::new(0.0, 5.0));
assert_eq!(b.align_start_of(a), Range::new(2.5, 12.5));

let c = Range::new(2.5, -2.5);
let d = Range::new(-5.0, 5.0);
assert_eq!(c.align_start_of(d), Range::new(0.0, -5.0));
assert_eq!(d.align_start_of(c), Range::new(-7.5, 2.5));

pub fn align_end_of(self, other: Self) -> Self[src]

Align the end of self to the end of the other Range.

If the direction of other is different to self, self's start will be aligned to the end of other instead.

Examples

use conrod_core::Range;

let a = Range::new(2.5, 7.5);
let b = Range::new(0.0, 10.0);
assert_eq!(a.align_end_of(b), Range::new(5.0, 10.0));
assert_eq!(b.align_end_of(a), Range::new(-2.5, 7.5));

let c = Range::new(2.5, -2.5);
let d = Range::new(-5.0, 5.0);
assert_eq!(c.align_end_of(d), Range::new(5.0, 0.0));
assert_eq!(d.align_end_of(c), Range::new(-2.5, 7.5));

pub fn align_middle_of(self, other: Self) -> Self[src]

Align the middle of self to the middle of the other Range.

Examples

use conrod_core::Range;

let a = Range::new(0.0, 5.0);
let b = Range::new(0.0, 10.0);
assert_eq!(a.align_middle_of(b), Range::new(2.5, 7.5));
assert_eq!(b.align_middle_of(a), Range::new(-2.5, 7.5));

let c = Range::new(2.5, -2.5);
let d = Range::new(-10.0, 0.0);
assert_eq!(c.align_middle_of(d), Range::new(-2.5, -7.5));
assert_eq!(d.align_middle_of(c), Range::new(-5.0, 5.0));

pub fn align_after(self, other: Self) -> Self[src]

Aligns the start of self with the end of other.

If the directions are opposite, aligns the end of self with the end of other.

Examples

use conrod_core::Range;

let a = Range::new(2.5, 7.5);
let b = Range::new(0.0, 10.0);
assert_eq!(a.align_after(b), Range::new(10.0, 15.0));
assert_eq!(b.align_after(a), Range::new(7.5, 17.5));

let c = Range::new(2.5, -2.5);
let d = Range::new(-5.0, 5.0);
assert_eq!(c.align_after(d), Range::new(10.0, 5.0));
assert_eq!(d.align_after(c), Range::new(-12.5, -2.5));

pub fn align_before(self, other: Self) -> Self[src]

Aligns the end of self with the start of other.

If the directions are opposite, aligns the start of self with the start of other.

Examples

use conrod_core::Range;

let a = Range::new(2.5, 7.5);
let b = Range::new(0.0, 10.0);
assert_eq!(a.align_before(b), Range::new(-5.0, 0.0));
assert_eq!(b.align_before(a), Range::new(-7.5, 2.5));

let c = Range::new(2.5, -2.5);
let d = Range::new(-5.0, 5.0);
assert_eq!(c.align_before(d), Range::new(-5.0, -10.0));
assert_eq!(d.align_before(c), Range::new(2.5, 12.5));

pub fn align_to(self, align: Align, other: Self) -> Self[src]

Align self to other along the x axis in accordance with the given Align variant.

pub fn closest_edge(&self, scalar: Scalar) -> Edge[src]

The closest Edge of self to the given scalar.

Returns Start if the distance between both Edges is equal.

Examples

use conrod_core::position::{Edge, Range};

assert_eq!(Range::new(0.0, 10.0).closest_edge(4.0), Edge::Start);
assert_eq!(Range::new(0.0, 10.0).closest_edge(7.0), Edge::End);
assert_eq!(Range::new(0.0, 10.0).closest_edge(5.0), Edge::Start);

Trait Implementations

impl Clone for Range[src]

impl Copy for Range[src]

impl Debug for Range[src]

impl PartialEq<Range> for Range[src]

impl StructuralPartialEq for Range[src]

Auto Trait Implementations

impl RefUnwindSafe for Range

impl Send for Range

impl Sync for Range

impl Unpin for Range

impl UnwindSafe for Range

Blanket Implementations

impl<T> Any for T where
    T: 'static + ?Sized[src]

impl<T> Borrow<T> for T where
    T: ?Sized[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized[src]

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, [src]

impl<T> Style for T where
    T: Any + Debug + PartialEq<T>, [src]

impl<T> ToOwned for T where
    T: Clone[src]

type Owned = T

The resulting type after obtaining ownership.

impl<T, U> TryFrom<U> for T where
    U: Into<T>, [src]

type Error = Infallible

The type returned in the event of a conversion error.

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, [src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.