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

dirstate-tree: Make `DirstateMap` borrow from a bytes buffer...

dirstate-tree: Make `DirstateMap` borrow from a bytes buffer … that has the contents of the `.hg/dirstate` file. This only applies to the tree-based flavor of `DirstateMap`. For now only the entire `&[u8]` slice is stored, so this is not useful yet. Adding a lifetime parameter to the `DirstateMap` struct (in hg-core) makes Python bindings non-trivial because we keep that struct in a Python object that has a dynamic lifetime tied to Python’s reference-counting and GC. As long as we keep the `PyBytes` that owns the borrowed bytes buffer next to the borrowing struct, the buffer will live long enough for the borrows to stay valid. However this relationship cannot be expressed in safe Rust code in a way that would statisfy they borrow-checker. We use `unsafe` code to erase that lifetime parameter, and encapsulate it in a safe abstraction similar to the owning-ref crate: https://docs.rs/owning_ref/ Differential Revision: https://phab.mercurial-scm.org/D10557

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             values.rs
        
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             | 2.3 KiB
            
                | 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));
				}