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

abort: added logic for of hg abort...

abort: added logic for of hg abort This is part of `GSoC19` project `Implement abort and continue commands`. This patch is part of the `abort plan`. This adds the basic logic for `hg abort`. This command aborts an multistep operation like graft, histedit, rebase, merge and unshelve if they are in an unfinished state. The first part of the logic is determining the unfinished operation from the state detection API under `statemod`. This API is extended to support `hg abort` by adding a method to register the abort logic as a function (here `abortfunc`). Once the unfinished operation is determined the registered logic is used to abort the command. The benefit of this kind of framework is that any new extension developed can support `hg abort` by registering the command and logic under statedetection API. `hg abort` currently supports `--dry-run/-n` flag only. It is used to dry run `hg abort` Further patches sequentially add support for `graft`, `rebase`, `unshelve`, `histedit` and `merge`. Differential Revision: https://phab.mercurial-scm.org/D6566

Georges Racinet - - Load All Authors

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      // discovery.rs

      //

      // Copyright 2019 Georges Racinet <georges.racinet@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.

      //! Discovery operations

      //!

      //! This is a Rust counterpart to the `partialdiscovery` class of

      //! `mercurial.setdiscovery`

      use super::{Graph, GraphError, Revision};

      use crate::ancestors::MissingAncestors;

      use crate::dagops;

      use std::collections::HashSet;

      pub struct PartialDiscovery<G: Graph + Clone> {

          target_heads: Option<Vec<Revision>>,

          graph: G, // plays the role of self._repo

          common: MissingAncestors<G>,

          undecided: Option<HashSet<Revision>>,

          missing: HashSet<Revision>,

      }

      pub struct DiscoveryStats {

          pub undecided: Option<usize>,

      }

      impl<G: Graph + Clone> PartialDiscovery<G> {

          /// Create a PartialDiscovery object, with the intent

          /// of comparing our `::<target_heads>` revset to the contents of another

          /// repo.

          ///

          /// For now `target_heads` is passed as a vector, and will be used

          /// at the first call to `ensure_undecided()`.

          ///

          /// If we want to make the signature more flexible,

          /// we'll have to make it a type argument of `PartialDiscovery` or a trait

          /// object since we'll keep it in the meanwhile

          pub fn new(graph: G, target_heads: Vec<Revision>) -> Self {

              PartialDiscovery {

                  undecided: None,

                  target_heads: Some(target_heads),

                  graph: graph.clone(),

                  common: MissingAncestors::new(graph, vec![]),

                  missing: HashSet::new(),

              }

          }

          /// Register revisions known as being common

          pub fn add_common_revisions(

              &mut self,

              common: impl IntoIterator<Item = Revision>,

          ) -> Result<(), GraphError> {

              self.common.add_bases(common);

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

                  self.common.remove_ancestors_from(undecided)?;

              }

              Ok(())

          }

          /// Register revisions known as being missing

          pub fn add_missing_revisions(

              &mut self,

              missing: impl IntoIterator<Item = Revision>,

          ) -> Result<(), GraphError> {

              self.ensure_undecided()?;

              let range = dagops::range(

                  &self.graph,

                  missing,

                  self.undecided.as_ref().unwrap().iter().cloned(),

              )?;

              let undecided_mut = self.undecided.as_mut().unwrap();

              for missrev in range {

                  self.missing.insert(missrev);

                  undecided_mut.remove(&missrev);

              }

              Ok(())

          }

          /// Do we have any information about the peer?

          pub fn has_info(&self) -> bool {

              self.common.has_bases()

          }

          /// Did we acquire full knowledge of our Revisions that the peer has?

          pub fn is_complete(&self) -> bool {

              self.undecided.as_ref().map_or(false, |s| s.is_empty())

          }

          /// Return the heads of the currently known common set of revisions.

          ///

          /// If the discovery process is not complete (see `is_complete()`), the

          /// caller must be aware that this is an intermediate state.

          ///

          /// On the other hand, if it is complete, then this is currently

          /// the only way to retrieve the end results of the discovery process.

          ///

          /// We may introduce in the future an `into_common_heads` call that

          /// would be more appropriate for normal Rust callers, dropping `self`

          /// if it is complete.

          pub fn common_heads(&self) -> Result<HashSet<Revision>, GraphError> {

              self.common.bases_heads()

          }

          /// Force first computation of `self.undecided`

          ///

          /// After this, `self.undecided.as_ref()` and `.as_mut()` can be

          /// unwrapped to get workable immutable or mutable references without

          /// any panic.

          ///

          /// This is an imperative call instead of an access with added lazyness

          /// to reduce easily the scope of mutable borrow for the caller,

          /// compared to undecided(&'a mut self) -> &'a… that would keep it

          /// as long as the resulting immutable one.

          fn ensure_undecided(&mut self) -> Result<(), GraphError> {

              if self.undecided.is_some() {

                  return Ok(());

              }

              let tgt = self.target_heads.take().unwrap();

              self.undecided =

                  Some(self.common.missing_ancestors(tgt)?.into_iter().collect());

              Ok(())

          }

          /// Provide statistics about the current state of the discovery process

          pub fn stats(&self) -> DiscoveryStats {

              DiscoveryStats {

                  undecided: self.undecided.as_ref().map(|s| s.len()),

              }

          }

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          use crate::testing::SampleGraph;

          /// A PartialDiscovery as for pushing all the heads of `SampleGraph`

          fn full_disco() -> PartialDiscovery<SampleGraph> {

              PartialDiscovery::new(SampleGraph, vec![10, 11, 12, 13])

          }

          fn sorted_undecided(

              disco: &PartialDiscovery<SampleGraph>,

          ) -> Vec<Revision> {

              let mut as_vec: Vec<Revision> =

                  disco.undecided.as_ref().unwrap().iter().cloned().collect();

              as_vec.sort();

              as_vec

          }

          fn sorted_missing(disco: &PartialDiscovery<SampleGraph>) -> Vec<Revision> {

              let mut as_vec: Vec<Revision> =

                  disco.missing.iter().cloned().collect();

              as_vec.sort();

              as_vec

          }

          fn sorted_common_heads(

              disco: &PartialDiscovery<SampleGraph>,

          ) -> Result<Vec<Revision>, GraphError> {

              let mut as_vec: Vec<Revision> =

                  disco.common_heads()?.iter().cloned().collect();

              as_vec.sort();

              Ok(as_vec)

          }

          #[test]

          fn test_add_common_get_undecided() -> Result<(), GraphError> {

              let mut disco = full_disco();

              assert_eq!(disco.undecided, None);

              assert!(!disco.has_info());

              assert_eq!(disco.stats().undecided, None);

              disco.add_common_revisions(vec![11, 12])?;

              assert!(disco.has_info());

              assert!(!disco.is_complete());

              assert!(disco.missing.is_empty());

              // add_common_revisions did not trigger a premature computation

              // of `undecided`, let's check that and ask for them

              assert_eq!(disco.undecided, None);

              disco.ensure_undecided()?;

              assert_eq!(sorted_undecided(&disco), vec![5, 8, 10, 13]);

              assert_eq!(disco.stats().undecided, Some(4));

              Ok(())

          }

          /// in this test, we pretend that our peer misses exactly (8+10)::

          /// and we're comparing all our repo to it (as in a bare push)

          #[test]

          fn test_discovery() -> Result<(), GraphError> {

              let mut disco = full_disco();

              disco.add_common_revisions(vec![11, 12])?;

              disco.add_missing_revisions(vec![8, 10])?;

              assert_eq!(sorted_undecided(&disco), vec![5]);

              assert_eq!(sorted_missing(&disco), vec![8, 10, 13]);

              assert!(!disco.is_complete());

              disco.add_common_revisions(vec![5])?;

              assert_eq!(sorted_undecided(&disco), vec![]);

              assert_eq!(sorted_missing(&disco), vec![8, 10, 13]);

              assert!(disco.is_complete());

              assert_eq!(sorted_common_heads(&disco)?, vec![5, 11, 12]);

              Ok(())

          }

      }

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				// discovery.rs
				//
				// Copyright 2019 Georges Racinet <georges.racinet@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.

				//! Discovery operations
				//!
				//! This is a Rust counterpart to the `partialdiscovery` class of
				//! `mercurial.setdiscovery`

				use super::{Graph, GraphError, Revision};
				use crate::ancestors::MissingAncestors;
				use crate::dagops;
				use std::collections::HashSet;

				pub struct PartialDiscovery<G: Graph + Clone> {
				target_heads: Option<Vec<Revision>>,
				graph: G, // plays the role of self._repo
				common: MissingAncestors<G>,
				undecided: Option<HashSet<Revision>>,
				missing: HashSet<Revision>,
				}

				pub struct DiscoveryStats {
				pub undecided: Option<usize>,
				}

				impl<G: Graph + Clone> PartialDiscovery<G> {
				/// Create a PartialDiscovery object, with the intent
				/// of comparing our `::<target_heads>` revset to the contents of another
				/// repo.
				///
				/// For now `target_heads` is passed as a vector, and will be used
				/// at the first call to `ensure_undecided()`.
				///
				/// If we want to make the signature more flexible,
				/// we'll have to make it a type argument of `PartialDiscovery` or a trait
				/// object since we'll keep it in the meanwhile
				pub fn new(graph: G, target_heads: Vec<Revision>) -> Self {
				PartialDiscovery {
				undecided: None,
				target_heads: Some(target_heads),
				graph: graph.clone(),
				common: MissingAncestors::new(graph, vec![]),
				missing: HashSet::new(),
				}
				}

				/// Register revisions known as being common
				pub fn add_common_revisions(
				&mut self,
				common: impl IntoIterator<Item = Revision>,
				) -> Result<(), GraphError> {
				self.common.add_bases(common);
				if let Some(ref mut undecided) = self.undecided {
				self.common.remove_ancestors_from(undecided)?;
				}
				Ok(())
				}

				/// Register revisions known as being missing
				pub fn add_missing_revisions(
				&mut self,
				missing: impl IntoIterator<Item = Revision>,
				) -> Result<(), GraphError> {
				self.ensure_undecided()?;
				let range = dagops::range(
				&self.graph,
				missing,
				self.undecided.as_ref().unwrap().iter().cloned(),
				)?;
				let undecided_mut = self.undecided.as_mut().unwrap();
				for missrev in range {
				self.missing.insert(missrev);
				undecided_mut.remove(&missrev);
				}
				Ok(())
				}

				/// Do we have any information about the peer?
				pub fn has_info(&self) -> bool {
				self.common.has_bases()
				}

				/// Did we acquire full knowledge of our Revisions that the peer has?
				pub fn is_complete(&self) -> bool {
				self.undecided.as_ref().map_or(false, \|s\| s.is_empty())
				}

				/// Return the heads of the currently known common set of revisions.
				///
				/// If the discovery process is not complete (see `is_complete()`), the
				/// caller must be aware that this is an intermediate state.
				///
				/// On the other hand, if it is complete, then this is currently
				/// the only way to retrieve the end results of the discovery process.
				///
				/// We may introduce in the future an `into_common_heads` call that
				/// would be more appropriate for normal Rust callers, dropping `self`
				/// if it is complete.
				pub fn common_heads(&self) -> Result<HashSet<Revision>, GraphError> {
				self.common.bases_heads()
				}

				/// Force first computation of `self.undecided`
				///
				/// After this, `self.undecided.as_ref()` and `.as_mut()` can be
				/// unwrapped to get workable immutable or mutable references without
				/// any panic.
				///
				/// This is an imperative call instead of an access with added lazyness
				/// to reduce easily the scope of mutable borrow for the caller,
				/// compared to undecided(&'a mut self) -> &'a… that would keep it
				/// as long as the resulting immutable one.
				fn ensure_undecided(&mut self) -> Result<(), GraphError> {
				if self.undecided.is_some() {
				return Ok(());
				}
				let tgt = self.target_heads.take().unwrap();
				self.undecided =
				Some(self.common.missing_ancestors(tgt)?.into_iter().collect());
				Ok(())
				}

				/// Provide statistics about the current state of the discovery process
				pub fn stats(&self) -> DiscoveryStats {
				DiscoveryStats {
				undecided: self.undecided.as_ref().map(\|s\| s.len()),
				}
				}
				}

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

				/// A PartialDiscovery as for pushing all the heads of `SampleGraph`
				fn full_disco() -> PartialDiscovery<SampleGraph> {
				PartialDiscovery::new(SampleGraph, vec![10, 11, 12, 13])
				}

				fn sorted_undecided(
				disco: &PartialDiscovery<SampleGraph>,
				) -> Vec<Revision> {
				let mut as_vec: Vec<Revision> =
				disco.undecided.as_ref().unwrap().iter().cloned().collect();
				as_vec.sort();
				as_vec
				}

				fn sorted_missing(disco: &PartialDiscovery<SampleGraph>) -> Vec<Revision> {
				let mut as_vec: Vec<Revision> =
				disco.missing.iter().cloned().collect();
				as_vec.sort();
				as_vec
				}

				fn sorted_common_heads(
				disco: &PartialDiscovery<SampleGraph>,
				) -> Result<Vec<Revision>, GraphError> {
				let mut as_vec: Vec<Revision> =
				disco.common_heads()?.iter().cloned().collect();
				as_vec.sort();
				Ok(as_vec)
				}

				#[test]
				fn test_add_common_get_undecided() -> Result<(), GraphError> {
				let mut disco = full_disco();
				assert_eq!(disco.undecided, None);
				assert!(!disco.has_info());
				assert_eq!(disco.stats().undecided, None);

				disco.add_common_revisions(vec![11, 12])?;
				assert!(disco.has_info());
				assert!(!disco.is_complete());
				assert!(disco.missing.is_empty());

				// add_common_revisions did not trigger a premature computation
				// of `undecided`, let's check that and ask for them
				assert_eq!(disco.undecided, None);
				disco.ensure_undecided()?;
				assert_eq!(sorted_undecided(&disco), vec![5, 8, 10, 13]);
				assert_eq!(disco.stats().undecided, Some(4));
				Ok(())
				}

				/// in this test, we pretend that our peer misses exactly (8+10)::
				/// and we're comparing all our repo to it (as in a bare push)
				#[test]
				fn test_discovery() -> Result<(), GraphError> {
				let mut disco = full_disco();
				disco.add_common_revisions(vec![11, 12])?;
				disco.add_missing_revisions(vec![8, 10])?;
				assert_eq!(sorted_undecided(&disco), vec![5]);
				assert_eq!(sorted_missing(&disco), vec![8, 10, 13]);
				assert!(!disco.is_complete());

				disco.add_common_revisions(vec![5])?;
				assert_eq!(sorted_undecided(&disco), vec![]);
				assert_eq!(sorted_missing(&disco), vec![8, 10, 13]);
				assert!(disco.is_complete());
				assert_eq!(sorted_common_heads(&disco)?, vec![5, 11, 12]);
				Ok(())
				}
				}