upstream/mercurial-mirror Files · rust/hg-core/src/config/values.rs

pyoxidizer: add user-site to `sys.path` on Windows...

pyoxidizer: add user-site to `sys.path` on Windows This is a port of to Windows to allow pip-installed extensions to be loaded without specifying a path. It's a major headache to have an hg.exe on `PATH` that needs to have the path to the extensions specified, because WSL doesn't see the same path. This is only for Windows for now, to match the currently shipping py2 behavior. There is a better solution with using the `site` package, but this needs support in PyOxidizer[1]. [1] https://github.com/indygreg/PyOxidizer/issues/430 Differential Revision: https://phab.mercurial-scm.org/D11308

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             values.rs
        
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                | application/rls-services+xml
            
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             / rust / hg-core / src / config / values.rs
          
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      //! Parsing functions for various type of configuration values.

      //!

      //! Returning `None` indicates a syntax error. Using a `Result` would be more

      //! correct but would take more boilerplate for converting between error types,

      //! compared to using `.ok()` on inner results of various error types to

      //! convert them all to options. The `Config::get_parse` method later converts

      //! those options to results with `ConfigValueParseError`, which contains

      //! details about where the value came from (but omits details of what’s

      //! invalid inside the value).

      pub(super) fn parse_bool(v: &[u8]) -> Option<bool> {

          match v.to_ascii_lowercase().as_slice() {

              b"1" | b"yes" | b"true" | b"on" | b"always" => Some(true),

              b"0" | b"no" | b"false" | b"off" | b"never" => Some(false),

              _ => None,

          }

      }

      pub(super) fn parse_byte_size(value: &[u8]) -> Option<u64> {

          let value = std::str::from_utf8(value).ok()?.to_ascii_lowercase();

          const UNITS: &[(&str, u64)] = &[

              ("g", 1 << 30),

              ("gb", 1 << 30),

              ("m", 1 << 20),

              ("mb", 1 << 20),

              ("k", 1 << 10),

              ("kb", 1 << 10),

              ("b", 1 << 0), // Needs to be last

          ];

          for &(unit, multiplier) in UNITS {

              // TODO: use `value.strip_suffix(unit)` when we require Rust 1.45+

              if value.ends_with(unit) {

                  let value_before_unit = &value[..value.len() - unit.len()];

                  let float: f64 = value_before_unit.trim().parse().ok()?;

                  if float >= 0.0 {

                      return Some((float * multiplier as f64).round() as u64);

                  } else {

                      return None;

                  }

              }

          }

          value.parse().ok()

      }

      #[test]

      fn test_parse_byte_size() {

          assert_eq!(parse_byte_size(b""), None);

          assert_eq!(parse_byte_size(b"b"), None);

          assert_eq!(parse_byte_size(b"12"), Some(12));

          assert_eq!(parse_byte_size(b"12b"), Some(12));

          assert_eq!(parse_byte_size(b"12 b"), Some(12));

          assert_eq!(parse_byte_size(b"12.1 b"), Some(12));

          assert_eq!(parse_byte_size(b"1.1 K"), Some(1126));

          assert_eq!(parse_byte_size(b"1.1 kB"), Some(1126));

          assert_eq!(parse_byte_size(b"-12 b"), None);

          assert_eq!(parse_byte_size(b"-0.1 b"), None);

          assert_eq!(parse_byte_size(b"0.1 b"), Some(0));

          assert_eq!(parse_byte_size(b"12.1 b"), Some(12));

      }

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				//! Parsing functions for various type of configuration values.
				//!
				//! Returning `None` indicates a syntax error. Using a `Result` would be more
				//! correct but would take more boilerplate for converting between error types,
				//! compared to using `.ok()` on inner results of various error types to
				//! convert them all to options. The `Config::get_parse` method later converts
				//! those options to results with `ConfigValueParseError`, which contains
				//! details about where the value came from (but omits details of what’s
				//! invalid inside the value).

				pub(super) fn parse_bool(v: &[u8]) -> Option<bool> {
				match v.to_ascii_lowercase().as_slice() {
				b"1" \| b"yes" \| b"true" \| b"on" \| b"always" => Some(true),
				b"0" \| b"no" \| b"false" \| b"off" \| b"never" => Some(false),
				_ => None,
				}
				}

				pub(super) fn parse_byte_size(value: &[u8]) -> Option<u64> {
				let value = std::str::from_utf8(value).ok()?.to_ascii_lowercase();
				const UNITS: &[(&str, u64)] = &[
				("g", 1 << 30),
				("gb", 1 << 30),
				("m", 1 << 20),
				("mb", 1 << 20),
				("k", 1 << 10),
				("kb", 1 << 10),
				("b", 1 << 0), // Needs to be last
				];
				for &(unit, multiplier) in UNITS {
				// TODO: use `value.strip_suffix(unit)` when we require Rust 1.45+
				if value.ends_with(unit) {
				let value_before_unit = &value[..value.len() - unit.len()];
				let float: f64 = value_before_unit.trim().parse().ok()?;
				if float >= 0.0 {
				return Some((float * multiplier as f64).round() as u64);
				} else {
				return None;
				}
				}
				}
				value.parse().ok()
				}

				#[test]
				fn test_parse_byte_size() {
				assert_eq!(parse_byte_size(b""), None);
				assert_eq!(parse_byte_size(b"b"), None);

				assert_eq!(parse_byte_size(b"12"), Some(12));
				assert_eq!(parse_byte_size(b"12b"), Some(12));
				assert_eq!(parse_byte_size(b"12 b"), Some(12));
				assert_eq!(parse_byte_size(b"12.1 b"), Some(12));
				assert_eq!(parse_byte_size(b"1.1 K"), Some(1126));
				assert_eq!(parse_byte_size(b"1.1 kB"), Some(1126));

				assert_eq!(parse_byte_size(b"-12 b"), None);
				assert_eq!(parse_byte_size(b"-0.1 b"), None);
				assert_eq!(parse_byte_size(b"0.1 b"), Some(0));
				assert_eq!(parse_byte_size(b"12.1 b"), Some(12));
				}