// yt - A fully featured command line YouTube client // // Copyright (C) 2024 Benedikt Peetz // SPDX-License-Identifier: GPL-3.0-or-later // // This file is part of Yt. // // You should have received a copy of the License along with this program. // If not, see . use std::{fmt::Display, str::FromStr}; use error::BytesError; const B: u64 = 1; const KIB: u64 = 1024 * B; const MIB: u64 = 1024 * KIB; const GIB: u64 = 1024 * MIB; const TIB: u64 = 1024 * GIB; const PIB: u64 = 1024 * TIB; const KB: u64 = 1000 * B; const MB: u64 = 1000 * KB; const GB: u64 = 1000 * MB; const TB: u64 = 1000 * GB; pub mod error; pub mod serde; #[derive(Clone, Copy)] pub struct Bytes(u64); impl Bytes { pub fn as_u64(self) -> u64 { self.0 } pub fn new(v: u64) -> Self { Self(v) } } impl FromStr for Bytes { type Err = BytesError; fn from_str(s: &str) -> Result { let s = s.chars().filter(|s| !s.is_whitespace()).collect::(); let (whole_number, s): (u64, &str) = { let number = s.chars().take_while(|x| x.is_numeric()).collect::(); (number.parse()?, &s[number.len()..]) }; let (decimal_number, s, raise_factor) = { if s.starts_with('.') { let s_str = s .chars() .skip(1) // the decimal point .take_while(|x| x.is_numeric()) .collect::(); let s_num = s_str.parse::()?; (s_num, &s[s_str.len()..], s_str.len() as u32) } else { (0u64, s, 0) } }; let number = (whole_number * (10u64.pow(raise_factor))) + decimal_number; let extension = s.chars().skip_while(|x| x.is_numeric()).collect::(); let output = match extension.to_lowercase().as_str() { "" => number, "b" => number * B, "kib" => number * KIB, "mib" => number * MIB, "gib" => number * GIB, "tib" => number * TIB, "kb" => number * KB, "mb" => number * MB, "gb" => number * GB, "tb" => number * TB, other => return Err(BytesError::NotYetSupported(other.to_owned())), }; Ok(Self(output / (10u64.pow(raise_factor)))) } } impl Display for Bytes { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let num = self.0; match num { 0..KIB => f.write_fmt(format_args!("{} {}", num, "B"))?, KIB..MIB => f.write_fmt(format_args!( "{} {}", precision_f64((num as f64) / (KIB as f64), 3), "KiB" ))?, MIB..GIB => f.write_fmt(format_args!( "{} {}", precision_f64((num as f64) / (MIB as f64), 3), "MiB" ))?, GIB..TIB => f.write_fmt(format_args!( "{} {}", precision_f64((num as f64) / (GIB as f64), 3), "GiB" ))?, TIB..PIB => f.write_fmt(format_args!( "{} {}", precision_f64((num as f64) / (TIB as f64), 3), "TiB" ))?, PIB.. => todo!(), } Ok(()) } } // taken from this stack overflow question: https://stackoverflow.com/a/76572321 /// Round to significant digits (rather than digits after the decimal). /// /// Not implemented for `f32`, because such an implementation showed precision /// glitches (e.g. `precision_f32(12300.0, 2) == 11999.999`), so for `f32` /// floats, convert to `f64` for this function and back as needed. /// /// Examples: /// ``` ///# fn main() { ///# use bytes::precision_f64; /// assert_eq!(precision_f64(1.2300, 2), 1.2f64); /// assert_eq!(precision_f64(1.2300_f64, 2), 1.2f64); /// assert_eq!(precision_f64(1.2300_f32 as f64, 2), 1.2f64); /// assert_eq!(precision_f64(1.2300_f32 as f64, 2) as f32, 1.2f32); ///# } /// ``` pub fn precision_f64(x: f64, decimals: u32) -> f64 { if x == 0. || decimals == 0 { 0. } else { let shift = decimals as i32 - x.abs().log10().ceil() as i32; let shift_factor = 10_f64.powi(shift); (x * shift_factor).round() / shift_factor } } #[cfg(test)] mod tests { use super::{Bytes, GIB}; #[test] fn parsing() { let input: Bytes = "20 GiB".parse().unwrap(); let expected = 20 * GIB; assert_eq!(expected, input.0); } #[test] fn parsing_not_round() { let input: Bytes = "2.34 GiB".parse().unwrap(); let expected = "2.34 GiB"; assert_eq!(expected, input.to_string().as_str()); } #[test] fn round_trip_1kib() { let input = "1 KiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_2kib() { let input = "2 KiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_1mib() { let input = "1 MiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_2mib() { let input = "2 MiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_1gib() { let input = "1 GiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_2gib() { let input = "2 GiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip() { let input = "20 TiB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!(input.to_owned(), parsed.to_string()); } #[test] fn round_trip_decmimal() { let input = "20 TB"; let parsed: Bytes = input.parse().unwrap(); assert_eq!("18.2 TiB", parsed.to_string()); } #[test] fn round_trip_1b() { let input = "1"; let parsed: Bytes = input.parse().unwrap(); assert_eq!("1 B", parsed.to_string()); } }