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/// The stage of an entry, one of 0 = base, 1 = ours, 2 = theirs
pub type Stage = u32;
///
pub mod mode;
mod flags;
pub(crate) use flags::at_rest;
pub use flags::Flags;
///
pub mod stat;
mod write;
use bitflags::bitflags;
// TODO: we essentially treat this as an enum withj the only exception being
// that `FILE_EXECUTABLE.contains(FILE)` works might want to turn this into an
// enum proper
bitflags! {
/// The kind of file of an entry.
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub struct Mode: u32 {
/// directory (only used for sparse checkouts), equivalent to a tree, which is _excluded_ from the index via
/// cone-mode.
const DIR = 0o040000;
/// regular file
const FILE = 0o100644;
/// regular file, executable
const FILE_EXECUTABLE = 0o100755;
/// Symbolic link
const SYMLINK = 0o120000;
/// A git commit for submodules
const COMMIT = 0o160000;
}
}
/// An entry's filesystem stat information.
#[derive(Debug, Default, PartialEq, Eq, Hash, Ord, PartialOrd, Clone, Copy)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub struct Stat {
/// Modification time
pub mtime: stat::Time,
/// Creation time
pub ctime: stat::Time,
/// Device number
pub dev: u32,
/// Inode number
pub ino: u32,
/// User id of the owner
pub uid: u32,
/// Group id of the owning group
pub gid: u32,
/// The size of bytes on disk. Capped to u32 so files bigger than that will need thorough additional checking
pub size: u32,
}
mod access {
use bstr::{BStr, ByteSlice};
use crate::{entry, Entry, State};
impl Entry {
/// Return an entry's path, relative to the repository, which is extracted from its owning `state`.
pub fn path<'a>(&self, state: &'a State) -> &'a BStr {
state.path_backing[self.path.clone()].as_bstr()
}
/// Return an entry's path using the given `backing`.
pub fn path_in<'backing>(&self, backing: &'backing crate::PathStorageRef) -> &'backing BStr {
backing[self.path.clone()].as_bstr()
}
/// Return an entry's stage.
pub fn stage(&self) -> entry::Stage {
self.flags.stage()
}
}
}
mod _impls {
use std::cmp::Ordering;
use bstr::BStr;
use crate::{Entry, State};
impl Entry {
/// Compare one entry to another by their path, by comparing only their common path portion byte by byte, then resorting to
/// entry length and stage.
pub fn cmp(&self, other: &Self, state: &State) -> Ordering {
let lhs = self.path(state);
let rhs = other.path(state);
Entry::cmp_filepaths(lhs, rhs).then_with(|| self.stage().cmp(&other.stage()))
}
/// Compare one entry to another by their path, by comparing only their common path portion byte by byte, then resorting to
/// entry length.
pub fn cmp_filepaths(a: &BStr, b: &BStr) -> Ordering {
let common_len = a.len().min(b.len());
a[..common_len]
.cmp(&b[..common_len])
.then_with(|| a.len().cmp(&b.len()))
}
}
}
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