Crates.io | readable |
lib.rs | readable |
version | 0.16.0 |
source | src |
created_at | 2023-03-20 19:29:39.224554 |
updated_at | 2023-12-26 21:38:34.587131 |
description | Human readable strings |
homepage | |
repository | https://github.com/hinto-janai/readable |
max_upload_size | |
id | 815572 |
size | 530,172 |
Human readable strings.
This library:
Most of the strings are implemented as fixed sized stack allocated arrays that are Copy
-able.
In general, readable
types are often used where you need to quickly format some data into a more human-friendly string, display it, then throw it away (although most readable
types are perfectly fine to permanently store).
Creation of readable
types is relatively performant.
use readable::num::*;
assert_eq!(Unsigned::from(1000_u64), "1,000");
use readable::num::*;
assert_eq!(Int::from(-1000), "-1,000");
use readable::num::*;
assert_eq!(Float::from(1000.123), "1,000.123");
use readable::num::*;
assert_eq!(Percent::from(1000.123), "1,000.12%");
use readable::run::*;
assert_eq!(Runtime::from(311.123), "5:11");
assert_eq!(RuntimePad::from(311.123), "00:05:11");
assert_eq!(RuntimeMilli::from(311.123), "00:05:11.123");
use readable::up::*;
assert_eq!(Uptime::from(172799_u32), "1d, 23h, 59m, 59s");
assert_eq!(UptimeFull::from(172799_u32), "1 day, 23 hours, 59 minutes, 59 seconds");
assert_eq!(Htop::from(172799_u32), "1 day, 23:59:59");
use readable::date::*;
assert_eq!(Date::from_ymd(2014, 12, 31).unwrap(), "2014-12-31");
assert_eq!(Nichi::new(2014, 12, 31).unwrap(), "Wed, Dec 31, 2014");
assert_eq!(NichiFull::new(2014, 12, 31).unwrap(), "Wednesday, December 31st, 2014");
use readable::time::*;
assert_eq!(Time::new(86399), "11:59:59 PM");
assert_eq!(Military::new(86399), "23:59:59");
use readable::byte::*;
assert_eq!(Byte::from(1234), "1.234 KB");
All number types implement PartialEq
against str
and their internal numbers.
This is comparing b
's inner String
:
use readable::up::*;
let a = std::time::Duration::from_secs(86399);
let b = UptimeFull::from(a);
assert_eq!(b, "23 hours, 59 minutes, 59 seconds");
This is comparing a
's inner i64
:
use readable::num::*;
let a = Int::from(-1000);
assert_eq!(a, -1000);
This compares both the u64
AND String
inside a
and b
:
use readable::num::*;
let a = Unsigned::from(1000_u64);
let b = Unsigned::from(1000_u64);
assert_eq!(a, b);
All number types implement the common arithmetic operators +
, -
, /
, *
, %
, outputting a new Self
.
+
Additionuse readable::num::*;
let f1 = Float::from(1.0);
let f2 = Float::from(2.0);
assert_eq!(f1 + f2, 3.0);
-
Subtractionuse readable::num::*;
let p50 = Percent::from(50.0);
let p25 = Percent::from(25.0);
assert_eq!(p50 - p25, "25.00%");
/
Divisionuse readable::num::*;
let u100 = Unsigned::from(100_u64);
let u10 = Unsigned::from(10_u64);
assert_eq!(u100 / u10, 10);
*
Multiplicationuse readable::num::*;
let u10 = Unsigned::from(10_u64);
assert_eq!(u10 * u10, Unsigned::from(100_u64));
%
Modulouse readable::num::*;
let u10 = Unsigned::from(10_u64);
assert_eq!(u10 % u10, 0);
These features are for (de)serialization.
Feature Flag | Purpose |
---|---|
serde |
Enables serde 's Serialize & Deserialize |
bincode |
Enables bincode 2.0.0-rc.3 's Encode & Decode |
borsh |
Enables borsh 's BorshSerialize & BorshDeserialize |
The Minimum Supported Rust Version is 1.71.0
.