upstream/mercurial-mirror Files · rust/hg-core/src/dirstate/dirstate_map.rs

dirstate: Replace dropfile with drop_item_and_copy_source...

dirstate: Replace dropfile with drop_item_and_copy_source Those removing a DirstateItem and a copy source are always done together Differential Revision: https://phab.mercurial-scm.org/D11493

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      // dirstate_map.rs

      //

      // Copyright 2019 Raphaël Gomès <rgomes@octobus.net>

      //

      // This software may be used and distributed according to the terms of the

      // GNU General Public License version 2 or any later version.

      use crate::dirstate::parsers::Timestamp;

      use crate::{

          dirstate::EntryState,

          dirstate::MTIME_UNSET,

          dirstate::SIZE_FROM_OTHER_PARENT,

          dirstate::SIZE_NON_NORMAL,

          dirstate::V1_RANGEMASK,

          pack_dirstate, parse_dirstate,

          utils::hg_path::{HgPath, HgPathBuf},

          CopyMap, DirsMultiset, DirstateEntry, DirstateError, DirstateParents,

          StateMap,

      };

      use micro_timer::timed;

      use std::collections::HashSet;

      use std::iter::FromIterator;

      use std::ops::Deref;

      #[derive(Default)]

      pub struct DirstateMap {

          state_map: StateMap,

          pub copy_map: CopyMap,

          pub dirs: Option<DirsMultiset>,

          pub all_dirs: Option<DirsMultiset>,

          non_normal_set: Option<HashSet<HgPathBuf>>,

          other_parent_set: Option<HashSet<HgPathBuf>>,

      }

      /// Should only really be used in python interface code, for clarity

      impl Deref for DirstateMap {

          type Target = StateMap;

          fn deref(&self) -> &Self::Target {

              &self.state_map

          }

      }

      impl FromIterator<(HgPathBuf, DirstateEntry)> for DirstateMap {

          fn from_iter<I: IntoIterator<Item = (HgPathBuf, DirstateEntry)>>(

              iter: I,

          ) -> Self {

              Self {

                  state_map: iter.into_iter().collect(),

                  ..Self::default()

              }

          }

      }

      impl DirstateMap {

          pub fn new() -> Self {

              Self::default()

          }

          pub fn clear(&mut self) {

              self.state_map = StateMap::default();

              self.copy_map.clear();

              self.non_normal_set = None;

              self.other_parent_set = None;

          }

          pub fn set_entry(&mut self, filename: &HgPath, entry: DirstateEntry) {

              self.state_map.insert(filename.to_owned(), entry);

          }

          /// Add a tracked file to the dirstate

          pub fn add_file(

              &mut self,

              filename: &HgPath,

              entry: DirstateEntry,

              // XXX once the dust settle this should probably become an enum

              added: bool,

              merged: bool,

              from_p2: bool,

              possibly_dirty: bool,

          ) -> Result<(), DirstateError> {

              let state;

              let size;

              let mtime;

              if added {

                  assert!(!possibly_dirty);

                  assert!(!from_p2);

                  state = EntryState::Added;

                  size = SIZE_NON_NORMAL;

                  mtime = MTIME_UNSET;

              } else if merged {

                  assert!(!possibly_dirty);

                  assert!(!from_p2);

                  state = EntryState::Merged;

                  size = SIZE_FROM_OTHER_PARENT;

                  mtime = MTIME_UNSET;

              } else if from_p2 {

                  assert!(!possibly_dirty);

                  state = EntryState::Normal;

                  size = SIZE_FROM_OTHER_PARENT;

                  mtime = MTIME_UNSET;

              } else if possibly_dirty {

                  state = EntryState::Normal;

                  size = SIZE_NON_NORMAL;

                  mtime = MTIME_UNSET;

              } else {

                  state = EntryState::Normal;

                  size = entry.size() & V1_RANGEMASK;

                  mtime = entry.mtime() & V1_RANGEMASK;

              }

              let mode = entry.mode();

              let entry = DirstateEntry::from_v1_data(state, mode, size, mtime);

              let old_state = self.get(filename).map(|e| e.state());

              if old_state.is_none() || old_state == Some(EntryState::Removed) {

                  if let Some(ref mut dirs) = self.dirs {

                      dirs.add_path(filename)?;

                  }

              }

              if old_state.is_none() {

                  if let Some(ref mut all_dirs) = self.all_dirs {

                      all_dirs.add_path(filename)?;

                  }

              }

              self.state_map.insert(filename.to_owned(), entry.to_owned());

              if entry.is_non_normal() {

                  self.get_non_normal_other_parent_entries()

                      .0

                      .insert(filename.to_owned());

              }

              if entry.is_from_other_parent() {

                  self.get_non_normal_other_parent_entries()

                      .1

                      .insert(filename.to_owned());

              }

              Ok(())

          }

          /// Mark a file as removed in the dirstate.

          ///

          /// The `size` parameter is used to store sentinel values that indicate

          /// the file's previous state.  In the future, we should refactor this

          /// to be more explicit about what that state is.

          pub fn remove_file(

              &mut self,

              filename: &HgPath,

              in_merge: bool,

          ) -> Result<(), DirstateError> {

              let old_entry_opt = self.get(filename);

              let old_state = old_entry_opt.map(|e| e.state());

              let mut size = 0;

              if in_merge {

                  // XXX we should not be able to have 'm' state and 'FROM_P2' if not

                  // during a merge. So I (marmoute) am not sure we need the

                  // conditionnal at all. Adding double checking this with assert

                  // would be nice.

                  if let Some(old_entry) = old_entry_opt {

                      // backup the previous state

                      if old_entry.state() == EntryState::Merged {

                          size = SIZE_NON_NORMAL;

                      } else if old_entry.state() == EntryState::Normal

                          && old_entry.size() == SIZE_FROM_OTHER_PARENT

                      {

                          // other parent

                          size = SIZE_FROM_OTHER_PARENT;

                          self.get_non_normal_other_parent_entries()

                              .1

                              .insert(filename.to_owned());

                      }

                  }

              }

              if old_state.is_some() && old_state != Some(EntryState::Removed) {

                  if let Some(ref mut dirs) = self.dirs {

                      dirs.delete_path(filename)?;

                  }

              }

              if old_state.is_none() {

                  if let Some(ref mut all_dirs) = self.all_dirs {

                      all_dirs.add_path(filename)?;

                  }

              }

              if size == 0 {

                  self.copy_map.remove(filename);

              }

              self.state_map

                  .insert(filename.to_owned(), DirstateEntry::new_removed(size));

              self.get_non_normal_other_parent_entries()

                  .0

                  .insert(filename.to_owned());

              Ok(())

          }

          /// Remove a file from the dirstate.

          /// Returns `true` if the file was previously recorded.

          pub fn drop_entry_and_copy_source(

              &mut self,

              filename: &HgPath,

          ) -> Result<(), DirstateError> {

              let old_state = self.get(filename).map(|e| e.state());

              let exists = self.state_map.remove(filename).is_some();

              if exists {

                  if old_state != Some(EntryState::Removed) {

                      if let Some(ref mut dirs) = self.dirs {

                          dirs.delete_path(filename)?;

                      }

                  }

                  if let Some(ref mut all_dirs) = self.all_dirs {

                      all_dirs.delete_path(filename)?;

                  }

              }

              self.get_non_normal_other_parent_entries()

                  .0

                  .remove(filename);

              self.copy_map.remove(filename);

              Ok(())

          }

          pub fn clear_ambiguous_times(

              &mut self,

              filenames: Vec<HgPathBuf>,

              now: i32,

          ) {

              for filename in filenames {

                  if let Some(entry) = self.state_map.get_mut(&filename) {

                      if entry.clear_ambiguous_mtime(now) {

                          self.get_non_normal_other_parent_entries()

                              .0

                              .insert(filename.to_owned());

                      }

                  }

              }

          }

          pub fn non_normal_entries_remove(

              &mut self,

              key: impl AsRef<HgPath>,

          ) -> bool {

              self.get_non_normal_other_parent_entries()

                  .0

                  .remove(key.as_ref())

          }

          pub fn non_normal_entries_add(&mut self, key: impl AsRef<HgPath>) {

              self.get_non_normal_other_parent_entries()

                  .0

                  .insert(key.as_ref().into());

          }

          pub fn non_normal_entries_union(

              &mut self,

              other: HashSet<HgPathBuf>,

          ) -> Vec<HgPathBuf> {

              self.get_non_normal_other_parent_entries()

                  .0

                  .union(&other)

                  .map(ToOwned::to_owned)

                  .collect()

          }

          pub fn get_non_normal_other_parent_entries(

              &mut self,

          ) -> (&mut HashSet<HgPathBuf>, &mut HashSet<HgPathBuf>) {

              self.set_non_normal_other_parent_entries(false);

              (

                  self.non_normal_set.as_mut().unwrap(),

                  self.other_parent_set.as_mut().unwrap(),

              )

          }

          /// Useful to get immutable references to those sets in contexts where

          /// you only have an immutable reference to the `DirstateMap`, like when

          /// sharing references with Python.

          ///

          /// TODO, get rid of this along with the other "setter/getter" stuff when

          /// a nice typestate plan is defined.

          ///

          /// # Panics

          ///

          /// Will panic if either set is `None`.

          pub fn get_non_normal_other_parent_entries_panic(

              &self,

          ) -> (&HashSet<HgPathBuf>, &HashSet<HgPathBuf>) {

              (

                  self.non_normal_set.as_ref().unwrap(),

                  self.other_parent_set.as_ref().unwrap(),

              )

          }

          pub fn set_non_normal_other_parent_entries(&mut self, force: bool) {

              if !force

                  && self.non_normal_set.is_some()

                  && self.other_parent_set.is_some()

              {

                  return;

              }

              let mut non_normal = HashSet::new();

              let mut other_parent = HashSet::new();

              for (filename, entry) in self.state_map.iter() {

                  if entry.is_non_normal() {

                      non_normal.insert(filename.to_owned());

                  }

                  if entry.is_from_other_parent() {

                      other_parent.insert(filename.to_owned());

                  }

              }

              self.non_normal_set = Some(non_normal);

              self.other_parent_set = Some(other_parent);

          }

          /// Both of these setters and their uses appear to be the simplest way to

          /// emulate a Python lazy property, but it is ugly and unidiomatic.

          /// TODO One day, rewriting this struct using the typestate might be a

          /// good idea.

          pub fn set_all_dirs(&mut self) -> Result<(), DirstateError> {

              if self.all_dirs.is_none() {

                  self.all_dirs = Some(DirsMultiset::from_dirstate(

                      self.state_map.iter().map(|(k, v)| Ok((k, *v))),

                      false,

                  )?);

              }

              Ok(())

          }

          pub fn set_dirs(&mut self) -> Result<(), DirstateError> {

              if self.dirs.is_none() {

                  self.dirs = Some(DirsMultiset::from_dirstate(

                      self.state_map.iter().map(|(k, v)| Ok((k, *v))),

                      true,

                  )?);

              }

              Ok(())

          }

          pub fn has_tracked_dir(

              &mut self,

              directory: &HgPath,

          ) -> Result<bool, DirstateError> {

              self.set_dirs()?;

              Ok(self.dirs.as_ref().unwrap().contains(directory))

          }

          pub fn has_dir(

              &mut self,

              directory: &HgPath,

          ) -> Result<bool, DirstateError> {

              self.set_all_dirs()?;

              Ok(self.all_dirs.as_ref().unwrap().contains(directory))

          }

          #[timed]

          pub fn read(

              &mut self,

              file_contents: &[u8],

          ) -> Result<Option<DirstateParents>, DirstateError> {

              if file_contents.is_empty() {

                  return Ok(None);

              }

              let (parents, entries, copies) = parse_dirstate(file_contents)?;

              self.state_map.extend(

                  entries

                      .into_iter()

                      .map(|(path, entry)| (path.to_owned(), entry)),

              );

              self.copy_map.extend(

                  copies

                      .into_iter()

                      .map(|(path, copy)| (path.to_owned(), copy.to_owned())),

              );

              Ok(Some(parents.clone()))

          }

          pub fn pack(

              &mut self,

              parents: DirstateParents,

              now: Timestamp,

          ) -> Result<Vec<u8>, DirstateError> {

              let packed =

                  pack_dirstate(&mut self.state_map, &self.copy_map, parents, now)?;

              self.set_non_normal_other_parent_entries(true);

              Ok(packed)

          }

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          #[test]

          fn test_dirs_multiset() {

              let mut map = DirstateMap::new();

              assert!(map.dirs.is_none());

              assert!(map.all_dirs.is_none());

              assert_eq!(map.has_dir(HgPath::new(b"nope")).unwrap(), false);

              assert!(map.all_dirs.is_some());

              assert!(map.dirs.is_none());

              assert_eq!(map.has_tracked_dir(HgPath::new(b"nope")).unwrap(), false);

              assert!(map.dirs.is_some());

          }

          #[test]

          fn test_add_file() {

              let mut map = DirstateMap::new();

              assert_eq!(0, map.len());

              map.add_file(

                  HgPath::new(b"meh"),

                  DirstateEntry::from_v1_data(EntryState::Normal, 1337, 1337, 1337),

                  false,

                  false,

                  false,

                  false,

              )

              .unwrap();

              assert_eq!(1, map.len());

              assert_eq!(0, map.get_non_normal_other_parent_entries().0.len());

              assert_eq!(0, map.get_non_normal_other_parent_entries().1.len());

          }

          #[test]

          fn test_non_normal_other_parent_entries() {

              let mut map: DirstateMap = [

                  (b"f1", (EntryState::Removed, 1337, 1337, 1337)),

                  (b"f2", (EntryState::Normal, 1337, 1337, -1)),

                  (b"f3", (EntryState::Normal, 1337, 1337, 1337)),

                  (b"f4", (EntryState::Normal, 1337, -2, 1337)),

                  (b"f5", (EntryState::Added, 1337, 1337, 1337)),

                  (b"f6", (EntryState::Added, 1337, 1337, -1)),

                  (b"f7", (EntryState::Merged, 1337, 1337, -1)),

                  (b"f8", (EntryState::Merged, 1337, 1337, 1337)),

                  (b"f9", (EntryState::Merged, 1337, -2, 1337)),

                  (b"fa", (EntryState::Added, 1337, -2, 1337)),

                  (b"fb", (EntryState::Removed, 1337, -2, 1337)),

              ]

              .iter()

              .map(|(fname, (state, mode, size, mtime))| {

                  (

                      HgPathBuf::from_bytes(fname.as_ref()),

                      DirstateEntry::from_v1_data(*state, *mode, *size, *mtime),

                  )

              })

              .collect();

              let mut non_normal = [

                  b"f1", b"f2", b"f4", b"f5", b"f6", b"f7", b"f8", b"f9", b"fa",

                  b"fb",

              ]

              .iter()

              .map(|x| HgPathBuf::from_bytes(x.as_ref()))

              .collect();

              let mut other_parent = HashSet::new();

              other_parent.insert(HgPathBuf::from_bytes(b"f4"));

              let entries = map.get_non_normal_other_parent_entries();

              assert_eq!(

                  (&mut non_normal, &mut other_parent),

                  (entries.0, entries.1)

              );

          }

      }

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				// dirstate_map.rs
				//
				// Copyright 2019 Raphaël Gomès <rgomes@octobus.net>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				use crate::dirstate::parsers::Timestamp;
				use crate::{
				dirstate::EntryState,
				dirstate::MTIME_UNSET,
				dirstate::SIZE_FROM_OTHER_PARENT,
				dirstate::SIZE_NON_NORMAL,
				dirstate::V1_RANGEMASK,
				pack_dirstate, parse_dirstate,
				utils::hg_path::{HgPath, HgPathBuf},
				CopyMap, DirsMultiset, DirstateEntry, DirstateError, DirstateParents,
				StateMap,
				};
				use micro_timer::timed;
				use std::collections::HashSet;
				use std::iter::FromIterator;
				use std::ops::Deref;

				#[derive(Default)]
				pub struct DirstateMap {
				state_map: StateMap,
				pub copy_map: CopyMap,
				pub dirs: Option<DirsMultiset>,
				pub all_dirs: Option<DirsMultiset>,
				non_normal_set: Option<HashSet<HgPathBuf>>,
				other_parent_set: Option<HashSet<HgPathBuf>>,
				}

				/// Should only really be used in python interface code, for clarity
				impl Deref for DirstateMap {
				type Target = StateMap;

				fn deref(&self) -> &Self::Target {
				&self.state_map
				}
				}

				impl FromIterator<(HgPathBuf, DirstateEntry)> for DirstateMap {
				fn from_iter<I: IntoIterator<Item = (HgPathBuf, DirstateEntry)>>(
				iter: I,
				) -> Self {
				Self {
				state_map: iter.into_iter().collect(),
				..Self::default()
				}
				}
				}

				impl DirstateMap {
				pub fn new() -> Self {
				Self::default()
				}

				pub fn clear(&mut self) {
				self.state_map = StateMap::default();
				self.copy_map.clear();
				self.non_normal_set = None;
				self.other_parent_set = None;
				}

				pub fn set_entry(&mut self, filename: &HgPath, entry: DirstateEntry) {
				self.state_map.insert(filename.to_owned(), entry);
				}

				/// Add a tracked file to the dirstate
				pub fn add_file(
				&mut self,
				filename: &HgPath,
				entry: DirstateEntry,
				// XXX once the dust settle this should probably become an enum
				added: bool,
				merged: bool,
				from_p2: bool,
				possibly_dirty: bool,
				) -> Result<(), DirstateError> {
				let state;
				let size;
				let mtime;
				if added {
				assert!(!possibly_dirty);
				assert!(!from_p2);
				state = EntryState::Added;
				size = SIZE_NON_NORMAL;
				mtime = MTIME_UNSET;
				} else if merged {
				assert!(!possibly_dirty);
				assert!(!from_p2);
				state = EntryState::Merged;
				size = SIZE_FROM_OTHER_PARENT;
				mtime = MTIME_UNSET;
				} else if from_p2 {
				assert!(!possibly_dirty);
				state = EntryState::Normal;
				size = SIZE_FROM_OTHER_PARENT;
				mtime = MTIME_UNSET;
				} else if possibly_dirty {
				state = EntryState::Normal;
				size = SIZE_NON_NORMAL;
				mtime = MTIME_UNSET;
				} else {
				state = EntryState::Normal;
				size = entry.size() & V1_RANGEMASK;
				mtime = entry.mtime() & V1_RANGEMASK;
				}
				let mode = entry.mode();
				let entry = DirstateEntry::from_v1_data(state, mode, size, mtime);

				let old_state = self.get(filename).map(\|e\| e.state());
				if old_state.is_none() \|\| old_state == Some(EntryState::Removed) {
				if let Some(ref mut dirs) = self.dirs {
				dirs.add_path(filename)?;
				}
				}
				if old_state.is_none() {
				if let Some(ref mut all_dirs) = self.all_dirs {
				all_dirs.add_path(filename)?;
				}
				}
				self.state_map.insert(filename.to_owned(), entry.to_owned());

				if entry.is_non_normal() {
				self.get_non_normal_other_parent_entries()
				.0
				.insert(filename.to_owned());
				}

				if entry.is_from_other_parent() {
				self.get_non_normal_other_parent_entries()
				.1
				.insert(filename.to_owned());
				}
				Ok(())
				}

				/// Mark a file as removed in the dirstate.
				///
				/// The `size` parameter is used to store sentinel values that indicate
				/// the file's previous state. In the future, we should refactor this
				/// to be more explicit about what that state is.
				pub fn remove_file(
				&mut self,
				filename: &HgPath,
				in_merge: bool,
				) -> Result<(), DirstateError> {
				let old_entry_opt = self.get(filename);
				let old_state = old_entry_opt.map(\|e\| e.state());
				let mut size = 0;
				if in_merge {
				// XXX we should not be able to have 'm' state and 'FROM_P2' if not
				// during a merge. So I (marmoute) am not sure we need the
				// conditionnal at all. Adding double checking this with assert
				// would be nice.
				if let Some(old_entry) = old_entry_opt {
				// backup the previous state
				if old_entry.state() == EntryState::Merged {
				size = SIZE_NON_NORMAL;
				} else if old_entry.state() == EntryState::Normal
				&& old_entry.size() == SIZE_FROM_OTHER_PARENT
				{
				// other parent
				size = SIZE_FROM_OTHER_PARENT;
				self.get_non_normal_other_parent_entries()
				.1
				.insert(filename.to_owned());
				}
				}
				}
				if old_state.is_some() && old_state != Some(EntryState::Removed) {
				if let Some(ref mut dirs) = self.dirs {
				dirs.delete_path(filename)?;
				}
				}
				if old_state.is_none() {
				if let Some(ref mut all_dirs) = self.all_dirs {
				all_dirs.add_path(filename)?;
				}
				}
				if size == 0 {
				self.copy_map.remove(filename);
				}

				self.state_map
				.insert(filename.to_owned(), DirstateEntry::new_removed(size));
				self.get_non_normal_other_parent_entries()
				.0
				.insert(filename.to_owned());
				Ok(())
				}

				/// Remove a file from the dirstate.
				/// Returns `true` if the file was previously recorded.
				pub fn drop_entry_and_copy_source(
				&mut self,
				filename: &HgPath,
				) -> Result<(), DirstateError> {
				let old_state = self.get(filename).map(\|e\| e.state());
				let exists = self.state_map.remove(filename).is_some();

				if exists {
				if old_state != Some(EntryState::Removed) {
				if let Some(ref mut dirs) = self.dirs {
				dirs.delete_path(filename)?;
				}
				}
				if let Some(ref mut all_dirs) = self.all_dirs {
				all_dirs.delete_path(filename)?;
				}
				}
				self.get_non_normal_other_parent_entries()
				.0
				.remove(filename);

				self.copy_map.remove(filename);

				Ok(())
				}

				pub fn clear_ambiguous_times(
				&mut self,
				filenames: Vec<HgPathBuf>,
				now: i32,
				) {
				for filename in filenames {
				if let Some(entry) = self.state_map.get_mut(&filename) {
				if entry.clear_ambiguous_mtime(now) {
				self.get_non_normal_other_parent_entries()
				.0
				.insert(filename.to_owned());
				}
				}
				}
				}

				pub fn non_normal_entries_remove(
				&mut self,
				key: impl AsRef<HgPath>,
				) -> bool {
				self.get_non_normal_other_parent_entries()
				.0
				.remove(key.as_ref())
				}

				pub fn non_normal_entries_add(&mut self, key: impl AsRef<HgPath>) {
				self.get_non_normal_other_parent_entries()
				.0
				.insert(key.as_ref().into());
				}

				pub fn non_normal_entries_union(
				&mut self,
				other: HashSet<HgPathBuf>,
				) -> Vec<HgPathBuf> {
				self.get_non_normal_other_parent_entries()
				.0
				.union(&other)
				.map(ToOwned::to_owned)
				.collect()
				}

				pub fn get_non_normal_other_parent_entries(
				&mut self,
				) -> (&mut HashSet<HgPathBuf>, &mut HashSet<HgPathBuf>) {
				self.set_non_normal_other_parent_entries(false);
				(
				self.non_normal_set.as_mut().unwrap(),
				self.other_parent_set.as_mut().unwrap(),
				)
				}

				/// Useful to get immutable references to those sets in contexts where
				/// you only have an immutable reference to the `DirstateMap`, like when
				/// sharing references with Python.
				///
				/// TODO, get rid of this along with the other "setter/getter" stuff when
				/// a nice typestate plan is defined.
				///
				/// # Panics
				///
				/// Will panic if either set is `None`.
				pub fn get_non_normal_other_parent_entries_panic(
				&self,
				) -> (&HashSet<HgPathBuf>, &HashSet<HgPathBuf>) {
				(
				self.non_normal_set.as_ref().unwrap(),
				self.other_parent_set.as_ref().unwrap(),
				)
				}

				pub fn set_non_normal_other_parent_entries(&mut self, force: bool) {
				if !force
				&& self.non_normal_set.is_some()
				&& self.other_parent_set.is_some()
				{
				return;
				}
				let mut non_normal = HashSet::new();
				let mut other_parent = HashSet::new();

				for (filename, entry) in self.state_map.iter() {
				if entry.is_non_normal() {
				non_normal.insert(filename.to_owned());
				}
				if entry.is_from_other_parent() {
				other_parent.insert(filename.to_owned());
				}
				}
				self.non_normal_set = Some(non_normal);
				self.other_parent_set = Some(other_parent);
				}

				/// Both of these setters and their uses appear to be the simplest way to
				/// emulate a Python lazy property, but it is ugly and unidiomatic.
				/// TODO One day, rewriting this struct using the typestate might be a
				/// good idea.
				pub fn set_all_dirs(&mut self) -> Result<(), DirstateError> {
				if self.all_dirs.is_none() {
				self.all_dirs = Some(DirsMultiset::from_dirstate(
				self.state_map.iter().map(\|(k, v)\| Ok((k, *v))),
				false,
				)?);
				}
				Ok(())
				}

				pub fn set_dirs(&mut self) -> Result<(), DirstateError> {
				if self.dirs.is_none() {
				self.dirs = Some(DirsMultiset::from_dirstate(
				self.state_map.iter().map(\|(k, v)\| Ok((k, *v))),
				true,
				)?);
				}
				Ok(())
				}

				pub fn has_tracked_dir(
				&mut self,
				directory: &HgPath,
				) -> Result<bool, DirstateError> {
				self.set_dirs()?;
				Ok(self.dirs.as_ref().unwrap().contains(directory))
				}

				pub fn has_dir(
				&mut self,
				directory: &HgPath,
				) -> Result<bool, DirstateError> {
				self.set_all_dirs()?;
				Ok(self.all_dirs.as_ref().unwrap().contains(directory))
				}

				#[timed]
				pub fn read(
				&mut self,
				file_contents: &[u8],
				) -> Result<Option<DirstateParents>, DirstateError> {
				if file_contents.is_empty() {
				return Ok(None);
				}

				let (parents, entries, copies) = parse_dirstate(file_contents)?;
				self.state_map.extend(
				entries
				.into_iter()
				.map(\|(path, entry)\| (path.to_owned(), entry)),
				);
				self.copy_map.extend(
				copies
				.into_iter()
				.map(\|(path, copy)\| (path.to_owned(), copy.to_owned())),
				);
				Ok(Some(parents.clone()))
				}

				pub fn pack(
				&mut self,
				parents: DirstateParents,
				now: Timestamp,
				) -> Result<Vec<u8>, DirstateError> {
				let packed =
				pack_dirstate(&mut self.state_map, &self.copy_map, parents, now)?;

				self.set_non_normal_other_parent_entries(true);
				Ok(packed)
				}
				}

				#[cfg(test)]
				mod tests {
				use super::*;

				#[test]
				fn test_dirs_multiset() {
				let mut map = DirstateMap::new();
				assert!(map.dirs.is_none());
				assert!(map.all_dirs.is_none());

				assert_eq!(map.has_dir(HgPath::new(b"nope")).unwrap(), false);
				assert!(map.all_dirs.is_some());
				assert!(map.dirs.is_none());

				assert_eq!(map.has_tracked_dir(HgPath::new(b"nope")).unwrap(), false);
				assert!(map.dirs.is_some());
				}

				#[test]
				fn test_add_file() {
				let mut map = DirstateMap::new();

				assert_eq!(0, map.len());

				map.add_file(
				HgPath::new(b"meh"),
				DirstateEntry::from_v1_data(EntryState::Normal, 1337, 1337, 1337),
				false,
				false,
				false,
				false,
				)
				.unwrap();

				assert_eq!(1, map.len());
				assert_eq!(0, map.get_non_normal_other_parent_entries().0.len());
				assert_eq!(0, map.get_non_normal_other_parent_entries().1.len());
				}

				#[test]
				fn test_non_normal_other_parent_entries() {
				let mut map: DirstateMap = [
				(b"f1", (EntryState::Removed, 1337, 1337, 1337)),
				(b"f2", (EntryState::Normal, 1337, 1337, -1)),
				(b"f3", (EntryState::Normal, 1337, 1337, 1337)),
				(b"f4", (EntryState::Normal, 1337, -2, 1337)),
				(b"f5", (EntryState::Added, 1337, 1337, 1337)),
				(b"f6", (EntryState::Added, 1337, 1337, -1)),
				(b"f7", (EntryState::Merged, 1337, 1337, -1)),
				(b"f8", (EntryState::Merged, 1337, 1337, 1337)),
				(b"f9", (EntryState::Merged, 1337, -2, 1337)),
				(b"fa", (EntryState::Added, 1337, -2, 1337)),
				(b"fb", (EntryState::Removed, 1337, -2, 1337)),
				]
				.iter()
				.map(\|(fname, (state, mode, size, mtime))\| {
				(
				HgPathBuf::from_bytes(fname.as_ref()),
				DirstateEntry::from_v1_data(state, mode, size, mtime),
				)
				})
				.collect();

				let mut non_normal = [
				b"f1", b"f2", b"f4", b"f5", b"f6", b"f7", b"f8", b"f9", b"fa",
				b"fb",
				]
				.iter()
				.map(\|x\| HgPathBuf::from_bytes(x.as_ref()))
				.collect();

				let mut other_parent = HashSet::new();
				other_parent.insert(HgPathBuf::from_bytes(b"f4"));
				let entries = map.get_non_normal_other_parent_entries();

				assert_eq!(
				(&mut non_normal, &mut other_parent),
				(entries.0, entries.1)
				);
				}
				}