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use std::{collections::HashSet, path::Path};
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use format_bytes::{write_bytes, DisplayBytes};
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use crate::{
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errors::HgError,
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filepatterns::parse_pattern_file_contents,
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matchers::{
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AlwaysMatcher, DifferenceMatcher, IncludeMatcher, Matcher,
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UnionMatcher,
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},
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operations::cat,
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repo::Repo,
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requirements::SPARSE_REQUIREMENT,
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utils::{hg_path::HgPath, SliceExt},
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IgnorePattern, PatternError, PatternFileWarning, PatternSyntax, Revision,
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NULL_REVISION,
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};
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/// Command which is triggering the config read
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#[derive(Copy, Clone, Debug)]
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pub enum SparseConfigContext {
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Sparse,
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Narrow,
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}
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impl DisplayBytes for SparseConfigContext {
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fn display_bytes(
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&self,
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output: &mut dyn std::io::Write,
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) -> std::io::Result<()> {
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match self {
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SparseConfigContext::Sparse => write_bytes!(output, b"sparse"),
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SparseConfigContext::Narrow => write_bytes!(output, b"narrow"),
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}
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}
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}
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/// Possible warnings when reading sparse configuration
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#[derive(Debug, derive_more::From)]
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pub enum SparseWarning {
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/// Warns about improper paths that start with "/"
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RootWarning {
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context: SparseConfigContext,
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line: Vec<u8>,
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},
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/// Warns about a profile missing from the given changelog revision
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ProfileNotFound { profile: Vec<u8>, rev: Revision },
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#[from]
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Pattern(PatternFileWarning),
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}
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/// Parsed sparse config
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#[derive(Debug, Default)]
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pub struct SparseConfig {
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// Line-separated
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pub(crate) includes: Vec<u8>,
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// Line-separated
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pub(crate) excludes: Vec<u8>,
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pub(crate) profiles: HashSet<Vec<u8>>,
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pub(crate) warnings: Vec<SparseWarning>,
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}
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/// All possible errors when reading sparse/narrow config
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#[derive(Debug, derive_more::From)]
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pub enum SparseConfigError {
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IncludesAfterExcludes {
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context: SparseConfigContext,
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},
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EntryOutsideSection {
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context: SparseConfigContext,
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line: Vec<u8>,
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},
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/// Narrow config does not support '%include' directives
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IncludesInNarrow,
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/// An invalid pattern prefix was given to the narrow spec. Includes the
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/// entire pattern for context.
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InvalidNarrowPrefix(Vec<u8>),
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#[from]
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HgError(HgError),
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#[from]
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PatternError(PatternError),
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}
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/// Parse sparse config file content.
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pub(crate) fn parse_config(
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raw: &[u8],
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context: SparseConfigContext,
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) -> Result<SparseConfig, SparseConfigError> {
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let mut includes = vec![];
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let mut excludes = vec![];
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let mut profiles = HashSet::new();
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let mut warnings = vec![];
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#[derive(PartialEq, Eq)]
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enum Current {
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Includes,
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Excludes,
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None,
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}
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let mut current = Current::None;
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let mut in_section = false;
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for line in raw.split(|c| *c == b'\n') {
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let line = line.trim();
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if line.is_empty() || line[0] == b'#' {
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// empty or comment line, skip
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continue;
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}
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if line.starts_with(b"%include ") {
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let profile = line[b"%include ".len()..].trim();
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if !profile.is_empty() {
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profiles.insert(profile.into());
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}
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} else if line == b"[include]" {
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if in_section && current == Current::Includes {
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return Err(SparseConfigError::IncludesAfterExcludes {
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context,
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});
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}
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in_section = true;
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current = Current::Includes;
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continue;
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} else if line == b"[exclude]" {
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in_section = true;
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current = Current::Excludes;
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} else {
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if current == Current::None {
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return Err(SparseConfigError::EntryOutsideSection {
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context,
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line: line.into(),
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});
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}
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if line.trim().starts_with(b"/") {
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warnings.push(SparseWarning::RootWarning {
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context,
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line: line.into(),
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});
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continue;
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}
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match current {
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Current::Includes => {
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includes.push(b'\n');
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includes.extend(line.iter());
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}
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Current::Excludes => {
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excludes.push(b'\n');
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excludes.extend(line.iter());
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}
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Current::None => unreachable!(),
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}
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}
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}
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Ok(SparseConfig {
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includes,
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excludes,
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profiles,
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warnings,
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})
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}
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fn read_temporary_includes(
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repo: &Repo,
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) -> Result<Vec<Vec<u8>>, SparseConfigError> {
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let raw = repo.hg_vfs().try_read("tempsparse")?.unwrap_or_default();
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if raw.is_empty() {
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return Ok(vec![]);
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}
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Ok(raw.split(|c| *c == b'\n').map(ToOwned::to_owned).collect())
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}
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/// Obtain sparse checkout patterns for the given revision
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fn patterns_for_rev(
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repo: &Repo,
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rev: Revision,
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) -> Result<Option<SparseConfig>, SparseConfigError> {
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if !repo.has_sparse() {
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return Ok(None);
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}
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let raw = repo.hg_vfs().try_read("sparse")?.unwrap_or_default();
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if raw.is_empty() {
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return Ok(None);
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}
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let mut config = parse_config(&raw, SparseConfigContext::Sparse)?;
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if !config.profiles.is_empty() {
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let mut profiles: Vec<Vec<u8>> = config.profiles.into_iter().collect();
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let mut visited = HashSet::new();
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while let Some(profile) = profiles.pop() {
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if visited.contains(&profile) {
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continue;
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}
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visited.insert(profile.to_owned());
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let output =
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cat(repo, &rev.to_string(), vec![HgPath::new(&profile)])
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.map_err(|_| {
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HgError::corrupted(
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"dirstate points to non-existent parent node"
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.to_string(),
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)
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})?;
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if output.results.is_empty() {
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config.warnings.push(SparseWarning::ProfileNotFound {
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profile: profile.to_owned(),
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rev,
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})
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}
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let subconfig = parse_config(
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&output.results[0].1,
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SparseConfigContext::Sparse,
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)?;
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if !subconfig.includes.is_empty() {
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config.includes.push(b'\n');
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config.includes.extend(&subconfig.includes);
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}
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if !subconfig.includes.is_empty() {
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config.includes.push(b'\n');
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config.excludes.extend(&subconfig.excludes);
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}
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config.warnings.extend(subconfig.warnings.into_iter());
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profiles.extend(subconfig.profiles.into_iter());
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}
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config.profiles = visited;
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}
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if !config.includes.is_empty() {
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config.includes.extend(b"\n.hg*");
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}
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Ok(Some(config))
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}
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/// Obtain a matcher for sparse working directories.
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pub fn matcher(
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repo: &Repo,
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) -> Result<(Box<dyn Matcher + Sync>, Vec<SparseWarning>), SparseConfigError> {
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let mut warnings = vec![];
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if !repo.requirements().contains(SPARSE_REQUIREMENT) {
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return Ok((Box::new(AlwaysMatcher), warnings));
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}
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let parents = repo.dirstate_parents()?;
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let mut revs = vec![];
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let p1_rev =
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repo.changelog()?
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.rev_from_node(parents.p1.into())
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.map_err(|_| {
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HgError::corrupted(
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"dirstate points to non-existent parent node".to_string(),
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)
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})?;
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if p1_rev != NULL_REVISION {
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revs.push(p1_rev)
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}
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let p2_rev =
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repo.changelog()?
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.rev_from_node(parents.p2.into())
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.map_err(|_| {
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HgError::corrupted(
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"dirstate points to non-existent parent node".to_string(),
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)
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})?;
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if p2_rev != NULL_REVISION {
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revs.push(p2_rev)
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}
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let mut matchers = vec![];
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for rev in revs.iter() {
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let config = patterns_for_rev(repo, *rev);
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if let Ok(Some(config)) = config {
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warnings.extend(config.warnings);
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let mut m: Box<dyn Matcher + Sync> = Box::new(AlwaysMatcher);
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if !config.includes.is_empty() {
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let (patterns, subwarnings) = parse_pattern_file_contents(
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&config.includes,
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Path::new(""),
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Some(PatternSyntax::Glob),
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false,
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false,
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)?;
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warnings.extend(subwarnings.into_iter().map(From::from));
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m = Box::new(IncludeMatcher::new(patterns)?);
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}
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if !config.excludes.is_empty() {
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let (patterns, subwarnings) = parse_pattern_file_contents(
|
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&config.excludes,
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Path::new(""),
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Some(PatternSyntax::Glob),
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false,
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false,
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)?;
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warnings.extend(subwarnings.into_iter().map(From::from));
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m = Box::new(DifferenceMatcher::new(
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m,
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Box::new(IncludeMatcher::new(patterns)?),
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));
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}
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matchers.push(m);
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}
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}
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let result: Box<dyn Matcher + Sync> = match matchers.len() {
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0 => Box::new(AlwaysMatcher),
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1 => matchers.pop().expect("1 is equal to 0"),
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_ => Box::new(UnionMatcher::new(matchers)),
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};
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|
|
let matcher =
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force_include_matcher(result, &read_temporary_includes(repo)?)?;
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Ok((matcher, warnings))
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}
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|
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|
|
|
/// Returns a matcher that returns true for any of the forced includes before
|
|
|
/// testing against the actual matcher
|
|
|
fn force_include_matcher(
|
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|
result: Box<dyn Matcher + Sync>,
|
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|
temp_includes: &[Vec<u8>],
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|
) -> Result<Box<dyn Matcher + Sync>, PatternError> {
|
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|
if temp_includes.is_empty() {
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return Ok(result);
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|
}
|
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|
let forced_include_matcher = IncludeMatcher::new(
|
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|
temp_includes
|
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|
.iter()
|
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|
.map(|include| {
|
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|
IgnorePattern::new(PatternSyntax::Path, include, Path::new(""))
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|
})
|
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.collect(),
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)?;
|
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Ok(Box::new(UnionMatcher::new(vec![
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Box::new(forced_include_matcher),
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result,
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])))
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}
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|
