Arithmetic Sign
(≈+1|-1) to/from arithmetic types such as f64
, i32
utility.
-
From
andTryFrom
: An arithmetic type such asf64
,i32
=(from
/try_from
)>Sign
-
From
: For an integral such asi32
.; It has no infinite pattern. -
TryFrom
: For an float such asf64
.; It has +inf, -inf and NaN infinite patterns.- A finite, +inf, -inf are valid =>
Ok
, nan is invalid =>Err
.
- A finite, +inf, -inf are valid =>
-
-
as_T
:Sign
=(as_T
)> an arithmetic type such asf64
,i32
-
as_uT
: Safety unsigned casting. eg. pos => Ok, neg => Err
-
-
Display
:Sign
=(to_string
)>"-"
or"+"
-
Sign
=(to_string_specified("S", "N")
)>"S"
or"N"
-
-
Mul
andDiv
:Sign * Sign
orSign / Sign
->Sign
; eg. neg * neg => pos, pos / neg => neg -
Neg
andNot
:-Sign
or!Sign
->Sign
; eg. -neg => pos, !pos => neg -
Eq
:Sign
==
|!=
Sign
; eg. neg == neg => true, pos != neg => true -
Ord
:Sign
<
|<=
|>=
|>
Sign
; eg. neg < pos => true, pos >= pos => true, neg > pos => false
- See also: tests/test.rs.
use arithmetic_sign::*;
let _sign = Sign::from( 123 ); // -> Sign::Positive
let _sign = Sign::from( 0 ); // -> Sign::Positive
let _sign = Sign::from( -0 ); // -> Sign::Positive
let _sign = Sign::from( -123 ); // -> Sign::Negative
let _sign_maybe = Sign::try_from( 1.23 ); // -> Ok( Sign::Positive )
let _sign_maybe = Sign::try_from( 0.0 ); // -> Ok( Sign::Positive )
let _sign_maybe = Sign::try_from( -0.0 ); // -> Ok( Sign::Positive )
let _sign_maybe = Sign::try_from( 1.23 ); // -> Ok( Sign::Negative )
let _sign_maybe = Sign::try_from( std::f64::inf() ); // -> Ok( Sign::Positive )
let _sign = Sign::from( -123 ) * Sign::from( 123 ); // -> Sign::Negative
let _sign = !Sign::from( -123 ); // -> Sign::Positive
let _f64 = Sign::Positive.as_f64(); // 1f64
let _i32 = Sign::Negative.as_i32(); // -1i32
let _u8 = Sign::Positive.as_u8().unwrap(); // 1u8
let _u8 = Sign::Negative.as_u8().is_err(); // true
- The std sign features such as
std::{f32|f64}::copysign
orstd::*::signum
s are regard to negative from-0.0
.- But, I author wanted to regard to "not a negative" as "positive" from
0.0
and-0.0
. - And, I author wanted to boolean-like type such as "positive" and "negative" that has only 2-variant.
- And, Infinity is a valid signed value, NaN is not a valid value.
- But, I author wanted to regard to "not a negative" as "positive" from