Mercurial > hg
view rust/hg-core/src/copy_tracing.rs @ 49342:67b210bb5ce2
auto-upgrade: add an option to silence the tracked-hint message
For well tested case, the message can get in the way, so we add a way to disable
it.
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Tue, 14 Jun 2022 15:22:05 +0200 |
parents | fa21633af201 |
children | 321e2b7bc95c |
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#[cfg(test)] #[macro_use] mod tests_support; #[cfg(test)] mod tests; use crate::utils::hg_path::HgPath; use crate::utils::hg_path::HgPathBuf; use crate::Revision; use crate::NULL_REVISION; use bytes_cast::{unaligned, BytesCast}; use im_rc::ordmap::Entry; use im_rc::ordmap::OrdMap; use im_rc::OrdSet; use std::cmp::Ordering; use std::collections::HashMap; pub type PathCopies = HashMap<HgPathBuf, HgPathBuf>; type PathToken = usize; #[derive(Clone, Debug)] struct CopySource { /// revision at which the copy information was added rev: Revision, /// the copy source, (Set to None in case of deletion of the associated /// key) path: Option<PathToken>, /// a set of previous `CopySource.rev` value directly or indirectly /// overwritten by this one. overwritten: OrdSet<Revision>, } impl CopySource { /// create a new CopySource /// /// Use this when no previous copy source existed. fn new(rev: Revision, path: Option<PathToken>) -> Self { Self { rev, path, overwritten: OrdSet::new(), } } /// create a new CopySource from merging two others /// /// Use this when merging two InternalPathCopies requires active merging of /// some entries. fn new_from_merge(rev: Revision, winner: &Self, loser: &Self) -> Self { let mut overwritten = OrdSet::new(); overwritten.extend(winner.overwritten.iter().copied()); overwritten.extend(loser.overwritten.iter().copied()); overwritten.insert(winner.rev); overwritten.insert(loser.rev); Self { rev, path: winner.path, overwritten: overwritten, } } /// Update the value of a pre-existing CopySource /// /// Use this when recording copy information from parent → child edges fn overwrite(&mut self, rev: Revision, path: Option<PathToken>) { self.overwritten.insert(self.rev); self.rev = rev; self.path = path; } /// Mark pre-existing copy information as "dropped" by a file deletion /// /// Use this when recording copy information from parent → child edges fn mark_delete(&mut self, rev: Revision) { self.overwritten.insert(self.rev); self.rev = rev; self.path = None; } /// Mark pre-existing copy information as "dropped" by a file deletion /// /// Use this when recording copy information from parent → child edges fn mark_delete_with_pair(&mut self, rev: Revision, other: &Self) { self.overwritten.insert(self.rev); if other.rev != rev { self.overwritten.insert(other.rev); } self.overwritten.extend(other.overwritten.iter().copied()); self.rev = rev; self.path = None; } fn is_overwritten_by(&self, other: &Self) -> bool { other.overwritten.contains(&self.rev) } } // For the same "dest", content generated for a given revision will always be // the same. impl PartialEq for CopySource { fn eq(&self, other: &Self) -> bool { #[cfg(debug_assertions)] { if self.rev == other.rev { debug_assert!(self.path == other.path); debug_assert!(self.overwritten == other.overwritten); } } self.rev == other.rev } } /// maps CopyDestination to Copy Source (+ a "timestamp" for the operation) type InternalPathCopies = OrdMap<PathToken, CopySource>; /// Represent active changes that affect the copy tracing. enum Action<'a> { /// The parent ? children edge is removing a file /// /// (actually, this could be the edge from the other parent, but it does /// not matters) Removed(&'a HgPath), /// The parent ? children edge introduce copy information between (dest, /// source) CopiedFromP1(&'a HgPath, &'a HgPath), CopiedFromP2(&'a HgPath, &'a HgPath), } /// This express the possible "special" case we can get in a merge /// /// See mercurial/metadata.py for details on these values. #[derive(PartialEq)] enum MergeCase { /// Merged: file had history on both side that needed to be merged Merged, /// Salvaged: file was candidate for deletion, but survived the merge Salvaged, /// Normal: Not one of the two cases above Normal, } const COPY_MASK: u8 = 3; const P1_COPY: u8 = 2; const P2_COPY: u8 = 3; const ACTION_MASK: u8 = 28; const REMOVED: u8 = 12; const MERGED: u8 = 8; const SALVAGED: u8 = 16; #[derive(BytesCast)] #[repr(C)] struct ChangedFilesIndexEntry { flags: u8, /// Only the end position is stored. The start is at the end of the /// previous entry. destination_path_end_position: unaligned::U32Be, source_index_entry_position: unaligned::U32Be, } fn _static_assert_size_of() { let _ = std::mem::transmute::<ChangedFilesIndexEntry, [u8; 9]>; } /// Represents the files affected by a changeset. /// /// This holds a subset of `mercurial.metadata.ChangingFiles` as we do not need /// all the data categories tracked by it. pub struct ChangedFiles<'a> { index: &'a [ChangedFilesIndexEntry], paths: &'a [u8], } impl<'a> ChangedFiles<'a> { pub fn new(data: &'a [u8]) -> Self { let (header, rest) = unaligned::U32Be::from_bytes(data).unwrap(); let nb_index_entries = header.get() as usize; let (index, paths) = ChangedFilesIndexEntry::slice_from_bytes(rest, nb_index_entries) .unwrap(); Self { index, paths } } pub fn new_empty() -> Self { ChangedFiles { index: &[], paths: &[], } } /// Internal function to return the filename of the entry at a given index fn path(&self, idx: usize) -> &HgPath { let start = if idx == 0 { 0 } else { self.index[idx - 1].destination_path_end_position.get() as usize }; let end = self.index[idx].destination_path_end_position.get() as usize; HgPath::new(&self.paths[start..end]) } /// Return an iterator over all the `Action` in this instance. fn iter_actions(&self) -> impl Iterator<Item = Action> { self.index.iter().enumerate().flat_map(move |(idx, entry)| { let path = self.path(idx); if (entry.flags & ACTION_MASK) == REMOVED { Some(Action::Removed(path)) } else if (entry.flags & COPY_MASK) == P1_COPY { let source_idx = entry.source_index_entry_position.get() as usize; Some(Action::CopiedFromP1(path, self.path(source_idx))) } else if (entry.flags & COPY_MASK) == P2_COPY { let source_idx = entry.source_index_entry_position.get() as usize; Some(Action::CopiedFromP2(path, self.path(source_idx))) } else { None } }) } /// return the MergeCase value associated with a filename fn get_merge_case(&self, path: &HgPath) -> MergeCase { if self.index.is_empty() { return MergeCase::Normal; } let mut low_part = 0; let mut high_part = self.index.len(); while low_part < high_part { let cursor = (low_part + high_part - 1) / 2; match path.cmp(self.path(cursor)) { Ordering::Less => low_part = cursor + 1, Ordering::Greater => high_part = cursor, Ordering::Equal => { return match self.index[cursor].flags & ACTION_MASK { MERGED => MergeCase::Merged, SALVAGED => MergeCase::Salvaged, _ => MergeCase::Normal, }; } } } MergeCase::Normal } } /// A small "tokenizer" responsible of turning full HgPath into lighter /// PathToken /// /// Dealing with small object, like integer is much faster, so HgPath input are /// turned into integer "PathToken" and converted back in the end. #[derive(Clone, Debug, Default)] struct TwoWayPathMap { token: HashMap<HgPathBuf, PathToken>, path: Vec<HgPathBuf>, } impl TwoWayPathMap { fn tokenize(&mut self, path: &HgPath) -> PathToken { match self.token.get(path) { Some(a) => *a, None => { let a = self.token.len(); let buf = path.to_owned(); self.path.push(buf.clone()); self.token.insert(buf, a); a } } } fn untokenize(&self, token: PathToken) -> &HgPathBuf { assert!(token < self.path.len(), "Unknown token: {}", token); &self.path[token] } } /// Same as mercurial.copies._combine_changeset_copies, but in Rust. pub struct CombineChangesetCopies { all_copies: HashMap<Revision, InternalPathCopies>, path_map: TwoWayPathMap, children_count: HashMap<Revision, usize>, } impl CombineChangesetCopies { pub fn new(children_count: HashMap<Revision, usize>) -> Self { Self { all_copies: HashMap::new(), path_map: TwoWayPathMap::default(), children_count, } } /// Combined the given `changes` data specific to `rev` with the data /// previously given for its parents (and transitively, its ancestors). pub fn add_revision( &mut self, rev: Revision, p1: Revision, p2: Revision, changes: ChangedFiles<'_>, ) { self.add_revision_inner(rev, p1, p2, changes.iter_actions(), |path| { changes.get_merge_case(path) }) } /// Separated out from `add_revsion` so that unit tests can call this /// without synthetizing a `ChangedFiles` in binary format. fn add_revision_inner<'a>( &mut self, rev: Revision, p1: Revision, p2: Revision, copy_actions: impl Iterator<Item = Action<'a>>, get_merge_case: impl Fn(&HgPath) -> MergeCase + Copy, ) { // Retrieve data computed in a previous iteration let p1_copies = match p1 { NULL_REVISION => None, _ => get_and_clean_parent_copies( &mut self.all_copies, &mut self.children_count, p1, ), // will be None if the vertex is not to be traversed }; let p2_copies = match p2 { NULL_REVISION => None, _ => get_and_clean_parent_copies( &mut self.all_copies, &mut self.children_count, p2, ), // will be None if the vertex is not to be traversed }; // combine it with data for that revision let (p1_copies, p2_copies) = chain_changes( &mut self.path_map, p1_copies, p2_copies, copy_actions, rev, ); let copies = match (p1_copies, p2_copies) { (None, None) => None, (c, None) => c, (None, c) => c, (Some(p1_copies), Some(p2_copies)) => Some(merge_copies_dict( &self.path_map, rev, p2_copies, p1_copies, get_merge_case, )), }; if let Some(c) = copies { self.all_copies.insert(rev, c); } } /// Drop intermediate data (such as which revision a copy was from) and /// return the final mapping. pub fn finish(mut self, target_rev: Revision) -> PathCopies { let tt_result = self .all_copies .remove(&target_rev) .expect("target revision was not processed"); let mut result = PathCopies::default(); for (dest, tt_source) in tt_result { if let Some(path) = tt_source.path { let path_dest = self.path_map.untokenize(dest).to_owned(); let path_path = self.path_map.untokenize(path).to_owned(); result.insert(path_dest, path_path); } } result } } /// fetch previous computed information /// /// If no other children are expected to need this information, we drop it from /// the cache. /// /// If parent is not part of the set we are expected to walk, return None. fn get_and_clean_parent_copies( all_copies: &mut HashMap<Revision, InternalPathCopies>, children_count: &mut HashMap<Revision, usize>, parent_rev: Revision, ) -> Option<InternalPathCopies> { let count = children_count.get_mut(&parent_rev)?; *count -= 1; if *count == 0 { match all_copies.remove(&parent_rev) { Some(c) => Some(c), None => Some(InternalPathCopies::default()), } } else { match all_copies.get(&parent_rev) { Some(c) => Some(c.clone()), None => Some(InternalPathCopies::default()), } } } /// Combine ChangedFiles with some existing PathCopies information and return /// the result fn chain_changes<'a>( path_map: &mut TwoWayPathMap, base_p1_copies: Option<InternalPathCopies>, base_p2_copies: Option<InternalPathCopies>, copy_actions: impl Iterator<Item = Action<'a>>, current_rev: Revision, ) -> (Option<InternalPathCopies>, Option<InternalPathCopies>) { // Fast path the "nothing to do" case. if let (None, None) = (&base_p1_copies, &base_p2_copies) { return (None, None); } let mut p1_copies = base_p1_copies.clone(); let mut p2_copies = base_p2_copies.clone(); for action in copy_actions { match action { Action::CopiedFromP1(path_dest, path_source) => { match &mut p1_copies { None => (), // This is not a vertex we should proceed. Some(copies) => add_one_copy( current_rev, path_map, copies, base_p1_copies.as_ref().unwrap(), path_dest, path_source, ), } } Action::CopiedFromP2(path_dest, path_source) => { match &mut p2_copies { None => (), // This is not a vertex we should proceed. Some(copies) => add_one_copy( current_rev, path_map, copies, base_p2_copies.as_ref().unwrap(), path_dest, path_source, ), } } Action::Removed(deleted_path) => { // We must drop copy information for removed file. // // We need to explicitly record them as dropped to // propagate this information when merging two // InternalPathCopies object. let deleted = path_map.tokenize(deleted_path); let p1_entry = match &mut p1_copies { None => None, Some(copies) => match copies.entry(deleted) { Entry::Occupied(e) => Some(e), Entry::Vacant(_) => None, }, }; let p2_entry = match &mut p2_copies { None => None, Some(copies) => match copies.entry(deleted) { Entry::Occupied(e) => Some(e), Entry::Vacant(_) => None, }, }; match (p1_entry, p2_entry) { (None, None) => (), (Some(mut e), None) => { e.get_mut().mark_delete(current_rev) } (None, Some(mut e)) => { e.get_mut().mark_delete(current_rev) } (Some(mut e1), Some(mut e2)) => { let cs1 = e1.get_mut(); let cs2 = e2.get(); if cs1 == cs2 { cs1.mark_delete(current_rev); } else { cs1.mark_delete_with_pair(current_rev, &cs2); } e2.insert(cs1.clone()); } } } } } (p1_copies, p2_copies) } // insert one new copy information in an InternalPathCopies // // This deal with chaining and overwrite. fn add_one_copy( current_rev: Revision, path_map: &mut TwoWayPathMap, copies: &mut InternalPathCopies, base_copies: &InternalPathCopies, path_dest: &HgPath, path_source: &HgPath, ) { let dest = path_map.tokenize(path_dest); let source = path_map.tokenize(path_source); let entry; if let Some(v) = base_copies.get(&source) { entry = match &v.path { Some(path) => Some((*(path)).to_owned()), None => Some(source.to_owned()), } } else { entry = Some(source.to_owned()); } // Each new entry is introduced by the children, we // record this information as we will need it to take // the right decision when merging conflicting copy // information. See merge_copies_dict for details. match copies.entry(dest) { Entry::Vacant(slot) => { let ttpc = CopySource::new(current_rev, entry); slot.insert(ttpc); } Entry::Occupied(mut slot) => { let ttpc = slot.get_mut(); ttpc.overwrite(current_rev, entry); } } } /// merge two copies-mapping together, minor and major /// /// In case of conflict, value from "major" will be picked, unless in some /// cases. See inline documentation for details. fn merge_copies_dict( path_map: &TwoWayPathMap, current_merge: Revision, minor: InternalPathCopies, major: InternalPathCopies, get_merge_case: impl Fn(&HgPath) -> MergeCase + Copy, ) -> InternalPathCopies { use crate::utils::{ordmap_union_with_merge, MergeResult}; ordmap_union_with_merge(minor, major, |&dest, src_minor, src_major| { let (pick, overwrite) = compare_value( current_merge, || get_merge_case(path_map.untokenize(dest)), src_minor, src_major, ); if overwrite { let (winner, loser) = match pick { MergePick::Major | MergePick::Any => (src_major, src_minor), MergePick::Minor => (src_minor, src_major), }; MergeResult::UseNewValue(CopySource::new_from_merge( current_merge, winner, loser, )) } else { match pick { MergePick::Any | MergePick::Major => { MergeResult::UseRightValue } MergePick::Minor => MergeResult::UseLeftValue, } } }) } /// represent the side that should prevail when merging two /// InternalPathCopies #[derive(Debug, PartialEq)] enum MergePick { /// The "major" (p1) side prevails Major, /// The "minor" (p2) side prevails Minor, /// Any side could be used (because they are the same) Any, } /// decide which side prevails in case of conflicting values #[allow(clippy::if_same_then_else)] fn compare_value( current_merge: Revision, merge_case_for_dest: impl Fn() -> MergeCase, src_minor: &CopySource, src_major: &CopySource, ) -> (MergePick, bool) { if src_major == src_minor { (MergePick::Any, false) } else if src_major.rev == current_merge { // minor is different according to per minor == major check earlier debug_assert!(src_minor.rev != current_merge); // The last value comes the current merge, this value -will- win // eventually. (MergePick::Major, true) } else if src_minor.rev == current_merge { // The last value comes the current merge, this value -will- win // eventually. (MergePick::Minor, true) } else if src_major.path == src_minor.path { debug_assert!(src_major.rev != src_major.rev); // we have the same value, but from other source; if src_major.is_overwritten_by(src_minor) { (MergePick::Minor, false) } else if src_minor.is_overwritten_by(src_major) { (MergePick::Major, false) } else { (MergePick::Any, true) } } else { debug_assert!(src_major.rev != src_major.rev); let action = merge_case_for_dest(); if src_minor.path.is_some() && src_major.path.is_none() && action == MergeCase::Salvaged { // If the file is "deleted" in the major side but was // salvaged by the merge, we keep the minor side alive (MergePick::Minor, true) } else if src_major.path.is_some() && src_minor.path.is_none() && action == MergeCase::Salvaged { // If the file is "deleted" in the minor side but was // salvaged by the merge, unconditionnaly preserve the // major side. (MergePick::Major, true) } else if src_minor.is_overwritten_by(src_major) { // The information from the minor version are strictly older than // the major version if action == MergeCase::Merged { // If the file was actively merged, its means some non-copy // activity happened on the other branch. It // mean the older copy information are still relevant. // // The major side wins such conflict. (MergePick::Major, true) } else { // No activity on the minor branch, pick the newer one. (MergePick::Major, false) } } else if src_major.is_overwritten_by(src_minor) { if action == MergeCase::Merged { // If the file was actively merged, its means some non-copy // activity happened on the other branch. It // mean the older copy information are still relevant. // // The major side wins such conflict. (MergePick::Major, true) } else { // No activity on the minor branch, pick the newer one. (MergePick::Minor, false) } } else if src_minor.path.is_none() { // the minor side has no relevant information, pick the alive one (MergePick::Major, true) } else if src_major.path.is_none() { // the major side has no relevant information, pick the alive one (MergePick::Minor, true) } else { // by default the major side wins (MergePick::Major, true) } } }