pub enum Align {
Min,
Center,
Max,
}Expand description
left/center/right or top/center/bottom alignment for e.g. anchors and layouts.
Variants§
Implementations§
source§impl Align
impl Align
sourcepub fn align_size_within_range(
self,
size: f32,
range: RangeInclusive<f32>
) -> RangeInclusive<f32>
pub fn align_size_within_range(
self,
size: f32,
range: RangeInclusive<f32>
) -> RangeInclusive<f32>
Returns a range of given size within a specified range.
If the requested size is bigger than the size of range, then the returned
range will not fit into the available range. The extra space will be allocated
from:
| Align | Side |
|---|---|
| Min | right (end) |
| Center | both |
| Max | left (start) |
Examples
use std::f32::{INFINITY, NEG_INFINITY};
use emath::Align::*;
// The size is smaller than a range
assert_eq!(Min .align_size_within_range(2.0, 10.0..=20.0), 10.0..=12.0);
assert_eq!(Center.align_size_within_range(2.0, 10.0..=20.0), 14.0..=16.0);
assert_eq!(Max .align_size_within_range(2.0, 10.0..=20.0), 18.0..=20.0);
// The size is bigger than a range
assert_eq!(Min .align_size_within_range(20.0, 10.0..=20.0), 10.0..=30.0);
assert_eq!(Center.align_size_within_range(20.0, 10.0..=20.0), 5.0..=25.0);
assert_eq!(Max .align_size_within_range(20.0, 10.0..=20.0), 0.0..=20.0);
// The size is infinity, but range is finite - a special case of a previous example
assert_eq!(Min .align_size_within_range(INFINITY, 10.0..=20.0), 10.0..=INFINITY);
assert_eq!(Center.align_size_within_range(INFINITY, 10.0..=20.0), NEG_INFINITY..=INFINITY);
assert_eq!(Max .align_size_within_range(INFINITY, 10.0..=20.0), NEG_INFINITY..=20.0);The infinity-sized ranges can produce a surprising results, if the size is also infinity, use such ranges with carefully!
use std::f32::{INFINITY, NEG_INFINITY};
use emath::Align::*;
// Allocating a size aligned for infinity bound will lead to empty ranges!
assert_eq!(Min .align_size_within_range(2.0, 10.0..=INFINITY), 10.0..=12.0);
assert_eq!(Center.align_size_within_range(2.0, 10.0..=INFINITY), INFINITY..=INFINITY);// (!)
assert_eq!(Max .align_size_within_range(2.0, 10.0..=INFINITY), INFINITY..=INFINITY);// (!)
assert_eq!(Min .align_size_within_range(2.0, NEG_INFINITY..=20.0), NEG_INFINITY..=NEG_INFINITY);// (!)
assert_eq!(Center.align_size_within_range(2.0, NEG_INFINITY..=20.0), NEG_INFINITY..=NEG_INFINITY);// (!)
assert_eq!(Max .align_size_within_range(2.0, NEG_INFINITY..=20.0), 18.0..=20.0);
// The infinity size will always return the given range if it has at least one infinity bound
assert_eq!(Min .align_size_within_range(INFINITY, 10.0..=INFINITY), 10.0..=INFINITY);
assert_eq!(Center.align_size_within_range(INFINITY, 10.0..=INFINITY), 10.0..=INFINITY);
assert_eq!(Max .align_size_within_range(INFINITY, 10.0..=INFINITY), 10.0..=INFINITY);
assert_eq!(Min .align_size_within_range(INFINITY, NEG_INFINITY..=20.0), NEG_INFINITY..=20.0);
assert_eq!(Center.align_size_within_range(INFINITY, NEG_INFINITY..=20.0), NEG_INFINITY..=20.0);
assert_eq!(Max .align_size_within_range(INFINITY, NEG_INFINITY..=20.0), NEG_INFINITY..=20.0);Trait Implementations§
source§impl<'de> Deserialize<'de> for Align
impl<'de> Deserialize<'de> for Align
source§fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
fn deserialize<__D>(__deserializer: __D) -> Result<Self, __D::Error>where
__D: Deserializer<'de>,
Deserialize this value from the given Serde deserializer. Read more