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use std::path::{Path, PathBuf};
use bstr::{BStr, ByteSlice};
use gix_glob::search::{pattern, Pattern};
use super::Attributes;
use crate::{
search::{Assignments, MetadataCollection, Outcome, TrackedAssignment, Value},
Search,
};
/// Instantiation and initialization.
impl Search {
/// Create a search instance preloaded with *built-ins* followed by attribute `files` from various global locations.
///
/// See [`Source`][crate::Source] for a way to obtain these paths.
///
/// Note that parsing is lenient and errors are logged.
///
/// * `buf` is used to read `files` from disk which will be ignored if they do not exist.
/// * `collection` will be updated with information necessary to perform lookups later.
pub fn new_globals(
files: impl IntoIterator<Item = impl Into<PathBuf>>,
buf: &mut Vec<u8>,
collection: &mut MetadataCollection,
) -> std::io::Result<Self> {
let mut group = Self::default();
group.add_patterns_buffer(
b"[attr]binary -diff -merge -text",
"[builtin]",
None,
collection,
true, /* allow macros */
);
for path in files.into_iter() {
group.add_patterns_file(path, true, None, buf, collection, true /* allow macros */)?;
}
Ok(group)
}
}
/// Mutation
impl Search {
/// Add the given file at `source` to our patterns if it exists, otherwise do nothing.
/// Update `collection` with newly added attribute names.
/// If a `root` is provided, it's not considered a global file anymore.
/// If `allow_macros` is `true`, macros will be processed like normal, otherwise they will be skipped entirely.
/// Returns `true` if the file was added, or `false` if it didn't exist.
pub fn add_patterns_file(
&mut self,
source: impl Into<PathBuf>,
follow_symlinks: bool,
root: Option<&Path>,
buf: &mut Vec<u8>,
collection: &mut MetadataCollection,
allow_macros: bool,
) -> std::io::Result<bool> {
// TODO: should `Pattern` trait use an instance as first argument to carry this information
// (so no `retain` later, it's slower than skipping)
let was_added = gix_glob::search::add_patterns_file(&mut self.patterns, source, follow_symlinks, root, buf)?;
if was_added {
let last = self.patterns.last_mut().expect("just added");
if !allow_macros {
last.patterns
.retain(|p| !matches!(p.value, Value::MacroAssignments { .. }))
}
collection.update_from_list(last);
}
Ok(was_added)
}
/// Add patterns as parsed from `bytes`, providing their `source` path and possibly their `root` path, the path they
/// are relative to. This also means that `source` is contained within `root` if `root` is provided.
/// If `allow_macros` is `true`, macros will be processed like normal, otherwise they will be skipped entirely.
pub fn add_patterns_buffer(
&mut self,
bytes: &[u8],
source: impl Into<PathBuf>,
root: Option<&Path>,
collection: &mut MetadataCollection,
allow_macros: bool,
) {
self.patterns.push(pattern::List::from_bytes(bytes, source, root));
let last = self.patterns.last_mut().expect("just added");
if !allow_macros {
last.patterns
.retain(|p| !matches!(p.value, Value::MacroAssignments { .. }))
}
collection.update_from_list(last);
}
/// Pop the last attribute patterns list from our queue.
pub fn pop_pattern_list(&mut self) -> Option<gix_glob::search::pattern::List<Attributes>> {
self.patterns.pop()
}
}
/// Access and matching
impl Search {
/// Match `relative_path`, a path relative to the repository, while respective `case`-sensitivity and write them to `out`
/// Return `true` if at least one pattern matched.
pub fn pattern_matching_relative_path<'a, 'b>(
&'a self,
relative_path: impl Into<&'b BStr>,
case: gix_glob::pattern::Case,
out: &mut Outcome,
) -> bool {
let relative_path = relative_path.into();
let basename_pos = relative_path.rfind(b"/").map(|p| p + 1);
let mut has_match = false;
self.patterns.iter().rev().any(|pl| {
has_match |= pattern_matching_relative_path(pl, relative_path, basename_pos, case, out);
out.is_done()
});
has_match
}
/// Return the amount of pattern lists contained in this instance.
pub fn num_pattern_lists(&self) -> usize {
self.patterns.len()
}
}
impl Pattern for Attributes {
type Value = Value;
fn bytes_to_patterns(bytes: &[u8], source: &std::path::Path) -> Vec<pattern::Mapping<Self::Value>> {
fn into_owned_assignments<'a>(
attrs: impl Iterator<Item = Result<crate::AssignmentRef<'a>, crate::name::Error>>,
) -> Option<Assignments> {
let res = attrs
.map(|res| {
res.map(|a| TrackedAssignment {
id: Default::default(),
inner: a.to_owned(),
})
})
.collect::<Result<Assignments, _>>();
match res {
Ok(res) => Some(res),
Err(err) => {
log::warn!("{}", err);
None
}
}
}
crate::parse(bytes)
.filter_map(|res| match res {
Ok(pattern) => Some(pattern),
Err(err) => {
log::warn!("{}: {}", source.display(), err);
None
}
})
.filter_map(|(pattern_kind, assignments, line_number)| {
let (pattern, value) = match pattern_kind {
crate::parse::Kind::Macro(macro_name) => (
gix_glob::Pattern {
text: macro_name.as_str().into(),
mode: macro_mode(),
first_wildcard_pos: None,
},
Value::MacroAssignments {
id: Default::default(),
assignments: into_owned_assignments(assignments)?,
},
),
crate::parse::Kind::Pattern(p) => (
(!p.is_negative()).then_some(p)?,
Value::Assignments(into_owned_assignments(assignments)?),
),
};
pattern::Mapping {
pattern,
value,
sequence_number: line_number,
}
.into()
})
.collect()
}
fn may_use_glob_pattern(pattern: &gix_glob::Pattern) -> bool {
pattern.mode != macro_mode()
}
}
fn macro_mode() -> gix_glob::pattern::Mode {
gix_glob::pattern::Mode::all()
}
/// Append all matches of patterns matching `relative_path` to `out`,
/// providing a pre-computed `basename_pos` which is the starting position of the basename of `relative_path`.
/// `case` specifies whether cases should be folded during matching or not.
/// `is_dir` is true if `relative_path` is a directory.
/// Return `true` if at least one pattern matched.
#[allow(unused_variables)]
fn pattern_matching_relative_path(
list: &gix_glob::search::pattern::List<Attributes>,
relative_path: &BStr,
basename_pos: Option<usize>,
case: gix_glob::pattern::Case,
out: &mut Outcome,
) -> bool {
let (relative_path, basename_start_pos) =
match list.strip_base_handle_recompute_basename_pos(relative_path, basename_pos, case) {
Some(r) => r,
None => return false,
};
let cur_len = out.remaining();
'outer: for pattern::Mapping {
pattern,
value,
sequence_number,
} in list
.patterns
.iter()
.rev()
.filter(|pm| Attributes::may_use_glob_pattern(&pm.pattern))
{
let value: &Value = value;
let attrs = match value {
Value::MacroAssignments { .. } => {
unreachable!("we can't match on macros as they have no pattern")
}
Value::Assignments(attrs) => attrs,
};
if out.has_unspecified_attributes(attrs.iter().map(|attr| attr.id))
&& pattern.matches_repo_relative_path(relative_path, basename_start_pos, None, case)
{
let all_filled = out.fill_attributes(attrs.iter(), pattern, list.source.as_ref(), *sequence_number);
if all_filled {
break 'outer;
}
}
}
cur_len != out.remaining()
}
|