Crates.io | ananas |
lib.rs | ananas |
version | 0.2.0 |
source | src |
created_at | 2021-07-24 01:08:54.462183 |
updated_at | 2021-07-25 18:45:18.794178 |
description | Transform arbitrary data to Not-A-Number (NaN) payloads. |
homepage | |
repository | https://github.com/clavigne/ananas |
max_upload_size | |
id | 426575 |
size | 9,096 |
🍍 Put arbitrary bytes in your NaNs! 🍍
As wikipedia explains,
For example, a bit-wise IEEE 754 single precision (32-bit) NaN would be
s111 1111 1xxx xxxx xxxx xxxx xxxx xxxx
where s is the sign (most often ignored in applications) and the x sequence represents a non-zero number (the value zero encodes infinities). The most significant bit from x is used to determine the type of NaN: "quiet NaN" or "signaling NaN". The remaining bits encode a payload (most often ignored in applications).
--- NaN, Wikipedia (2021) (Emphasis mine)
The NaN payload is ignored no longer! Using ananas you can imbue entirely new meaning to your NaNs. By the way, "ananas" is French for pineapple 🍍, and you can't write ananas without NaN.
A NaN has an (ignored) sign of 0 or 1, an exponent of all 1 and a significand. The first bit of the significand determines if the NaN is signalling or quiet. The remaining 22 bits can be set to anything except 0. We define our special NaNs like so,
i111 1111 1s1nn 0000 xxxx xxxx xxxx xxxx
where i
is the sign (ignored), s
is the signaling bit, n
is a tag for the
number of encoded bytes and x
is our payload. The middle 0000 are unused.
We can put and take out arbitrary bytes into NaNs, encoded as f32. Two bytes are stored in each f32 number,
// Encoding to NaNs
let s = "Hello, world!";
let x = ananas::bytes_to_nan(&s.as_bytes());
println!("{:?}", x); // prints '[NaN, NaN, NaN, NaN, NaN, NaN, NaN]'
// Decoding from NaNs
let y = String::from_utf8(ananas::nan_to_bytes(&x)).unwrap();
assert_eq!(y, s);
This crate provides convenience translators to and from strings.
NaNs are propagated and this maintains the payload,
let x = ananas::str_to_nan("😎");
let y = [x[0] + 10000.0, x[1] / 0.0];
assert!(y[0].is_nan());
assert_eq!(ananas::nan_to_str(&y).unwrap(), "😎");
This can produce strange behaviour when two NaNs meet, such as loss of commutativity,
let x1 = ananas::str_to_nan("nan nan nan nan");
let x2 = ananas::str_to_nan("batman! batman!");
let y1 :Vec<_> = x1.iter().zip(&x2).map(|(a,b)| a*b).collect();
let y2 :Vec<_> = x1.iter().zip(&x2).map(|(a,b)| b * a).collect();
println!("{:?}", ananas::nan_to_str(&y1)); // nan nan nan nan
println!("{:?}", ananas::nan_to_str(&y2)); // batman! batman!
Not sure why you would bother but ananas can be imported in your project by adding
[dependencies]
ananas = 0.2.0
to your project's Cargo.toml
.
¯\_(ツ)_/¯
This code is public domain, under the terms of the Unlicense.