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denoland-deno/cli/util/display.rs

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use deno_core::error::AnyError;
use deno_core::serde_json;
use std::io::Write;
/// A function that converts a float to a string the represents a human
/// readable version of that number.
pub fn human_size(size: f64) -> String {
let negative = if size.is_sign_positive() { "" } else { "-" };
let size = size.abs();
let units = ["B", "KB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB"];
if size < 1_f64 {
return format!("{}{}{}", negative, size, "B");
}
let delimiter = 1024_f64;
let exponent = std::cmp::min(
(size.ln() / delimiter.ln()).floor() as i32,
(units.len() - 1) as i32,
);
let pretty_bytes = format!("{:.2}", size / delimiter.powi(exponent))
.parse::<f64>()
.unwrap()
* 1_f64;
let unit = units[exponent as usize];
format!("{}{}{}", negative, pretty_bytes, unit)
}
const BYTES_TO_KIB: u64 = 2u64.pow(10);
const BYTES_TO_MIB: u64 = 2u64.pow(20);
/// Gets the size used for downloading data. The total bytes is used to
/// determine the units to use.
pub fn human_download_size(byte_count: u64, total_bytes: u64) -> String {
return if total_bytes < BYTES_TO_MIB {
get_in_format(byte_count, BYTES_TO_KIB, "KiB")
} else {
get_in_format(byte_count, BYTES_TO_MIB, "MiB")
};
fn get_in_format(byte_count: u64, conversion: u64, suffix: &str) -> String {
let converted_value = byte_count / conversion;
let decimal = (byte_count % conversion) * 100 / conversion;
format!("{}.{:0>2}{}", converted_value, decimal, suffix)
}
}
/// A function that converts a milisecond elapsed time to a string that
/// represents a human readable version of that time.
pub fn human_elapsed(elapsed: u128) -> String {
if elapsed < 1_000 {
return format!("{}ms", elapsed);
}
if elapsed < 1_000 * 60 {
return format!("{}s", elapsed / 1000);
}
let seconds = elapsed / 1_000;
let minutes = seconds / 60;
let seconds_remainder = seconds % 60;
format!("{}m{}s", minutes, seconds_remainder)
}
pub fn write_to_stdout_ignore_sigpipe(
bytes: &[u8],
) -> Result<(), std::io::Error> {
use std::io::ErrorKind;
match std::io::stdout().write_all(bytes) {
Ok(()) => Ok(()),
Err(e) => match e.kind() {
ErrorKind::BrokenPipe => Ok(()),
_ => Err(e),
},
}
}
pub fn write_json_to_stdout<T>(value: &T) -> Result<(), AnyError>
where
T: ?Sized + serde::ser::Serialize,
{
let mut writer = std::io::BufWriter::new(std::io::stdout());
serde_json::to_writer_pretty(&mut writer, value)?;
writeln!(&mut writer)?;
Ok(())
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_human_size() {
assert_eq!(human_size(1_f64), "1B");
assert_eq!(human_size((12 * 1024) as f64), "12KB");
assert_eq!(human_size((24_i64 * 1024 * 1024) as f64), "24MB");
assert_eq!(human_size((24_i64 * 1024 * 1024 * 1024) as f64), "24GB");
assert_eq!(
human_size((24_i64 * 1024 * 1024 * 1024 * 1024) as f64),
"24TB"
);
assert_eq!(human_size(0_f64), "0B");
assert_eq!(human_size(-10_f64), "-10B");
}
#[test]
fn test_human_download_size() {
assert_eq!(
human_download_size(BYTES_TO_KIB / 100 - 1, BYTES_TO_KIB),
"0.00KiB"
);
assert_eq!(
human_download_size(BYTES_TO_KIB / 100 + 1, BYTES_TO_KIB),
"0.01KiB"
);
assert_eq!(
human_download_size(BYTES_TO_KIB / 5, BYTES_TO_KIB),
"0.19KiB"
);
assert_eq!(
human_download_size(BYTES_TO_MIB - 1, BYTES_TO_MIB - 1),
"1023.99KiB"
);
assert_eq!(human_download_size(BYTES_TO_MIB, BYTES_TO_MIB), "1.00MiB");
assert_eq!(
human_download_size(BYTES_TO_MIB * 9 - 1523, BYTES_TO_MIB),
"8.99MiB"
);
}
#[test]
fn test_human_elapsed() {
assert_eq!(human_elapsed(1), "1ms");
assert_eq!(human_elapsed(256), "256ms");
assert_eq!(human_elapsed(1000), "1s");
assert_eq!(human_elapsed(1001), "1s");
assert_eq!(human_elapsed(1020), "1s");
assert_eq!(human_elapsed(70 * 1000), "1m10s");
assert_eq!(human_elapsed(86 * 1000 + 100), "1m26s");
}
}