pub trait FiniteRangeExt<T: FiniteFloat> {
// Required methods
fn into_primitive_range(self) -> RangeInclusive<T>;
fn into_primitive_inner(self) -> (T, T);
}Expand description
Extension trait for converting an inclusive Finite range into an inclusive primitive
range (or a (start, end) primitive tuple).
Required Methods§
Sourcefn into_primitive_range(self) -> RangeInclusive<T>
fn into_primitive_range(self) -> RangeInclusive<T>
Converts an inclusive Finite range into an inclusive primitive range.
“Primitive” here means Rust’s built-in float type (e.g. f64).
This is the reverse of Finite::from_primitive_range.
§Examples
use range_set_blaze::FiniteF64;
use range_set_blaze::finite::FiniteRangeExt;
let range = FiniteF64::new(3.0)..=FiniteF64::new(5.0);
assert_eq!(range.into_primitive_range(), 3.0..=5.0);Sourcefn into_primitive_inner(self) -> (T, T)
fn into_primitive_inner(self) -> (T, T)
Converts an inclusive Finite range into a (start, end) tuple of primitive values.
“Primitive” here means Rust’s built-in float type (e.g. f64).
Mirrors RangeInclusive::into_inner from the standard library, which unwraps a
range into its (start, end) tuple; this additionally converts each endpoint to its
primitive type.
§Examples
use range_set_blaze::FiniteF64;
use range_set_blaze::finite::FiniteRangeExt;
let range = FiniteF64::new(3.0)..=FiniteF64::new(5.0);
assert_eq!(range.into_primitive_inner(), (3.0, 5.0));Dyn Compatibility§
This trait is dyn compatible.
In older versions of Rust, dyn compatibility was called "object safety".