upstream/mercurial-mirror Files · rust/hg-cpython/src/ancestors.rs

narrow: reuse narrowspec.updateworkingcopy() when narrowing...

narrow: reuse narrowspec.updateworkingcopy() when narrowing Similar to the previous patch for widening, but here we also need to teach updateworkingcopy() to forcefully delete files that are not recorded in the dirstate as clean. That should be safe because the narrowing command (e.g. `hg tracked --removeinclude`) has already checked that the working copy is clean. Differential Revision: https://phab.mercurial-scm.org/D5511

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      // ancestors.rs

      //

      // Copyright 2018 Georges Racinet <gracinet@anybox.fr>

      //

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

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

      //! Bindings for the `hg::ancestors` module provided by the

      //! `hg-core` crate. From Python, this will be seen as `rustext.ancestor`

      //! and can be used as replacement for the the pure `ancestor` Python module.

      //!

      //! # Classes visible from Python:

      //! - [`LazyAncestors`] is the Rust implementation of

      //!   `mercurial.ancestor.lazyancestors`.

      //!   The only difference is that it is instantiated with a C `parsers.index`

      //!   instance instead of a parents function.

      //!

      //! - [`MissingAncestors`] is the Rust implementation of

      //!   `mercurial.ancestor.incrementalmissingancestors`.

      //!

      //!   API differences:

      //!    + it is instantiated with a C `parsers.index`

      //!      instance instead of a parents function.

      //!    + `MissingAncestors.bases` is a method returning a tuple instead of

      //!      a set-valued attribute. We could return a Python set easily if our

      //!      [PySet PR](https://github.com/dgrunwald/rust-cpython/pull/165)

      //!      is accepted.

      //!

      //! - [`AncestorsIterator`] is the Rust counterpart of the

      //!   `ancestor._lazyancestorsiter` Python generator.

      //!   From Python, instances of this should be mainly obtained by calling

      //!   `iter()` on a [`LazyAncestors`] instance.

      //!

      //! [`LazyAncestors`]: struct.LazyAncestors.html

      //! [`MissingAncestors`]: struct.MissingAncestors.html

      //! [`AncestorsIterator`]: struct.AncestorsIterator.html

      use cindex::Index;

      use cpython::{

          ObjectProtocol, PyClone, PyDict, PyList, PyModule, PyObject,

          PyResult, PyTuple, Python, PythonObject, ToPyObject,

      };

      use exceptions::GraphError;

      use hg::Revision;

      use hg::{

          AncestorsIterator as CoreIterator, LazyAncestors as CoreLazy,

          MissingAncestors as CoreMissing,

      };

      use std::cell::RefCell;

      use std::iter::FromIterator;

      use std::collections::HashSet;

      /// Utility function to convert a Python iterable into various collections

      ///

      /// We need this in particular to feed to various methods of inner objects

      /// with `impl IntoIterator<Item=Revision>` arguments, because

      /// a `PyErr` can arise at each step of iteration, whereas these methods

      /// expect iterables over `Revision`, not over some `Result<Revision, PyErr>`

      fn rev_pyiter_collect<C>(py: Python, revs: &PyObject) -> PyResult<C>

      where

          C: FromIterator<Revision>,

      {

          revs.iter(py)?

              .map(|r| r.and_then(|o| o.extract::<Revision>(py)))

              .collect()

      }

      py_class!(pub class AncestorsIterator |py| {

          data inner: RefCell<Box<CoreIterator<Index>>>;

          def __next__(&self) -> PyResult<Option<Revision>> {

              match self.inner(py).borrow_mut().next() {

                  Some(Err(e)) => Err(GraphError::pynew(py, e)),

                  None => Ok(None),

                  Some(Ok(r)) => Ok(Some(r)),

              }

          }

          def __contains__(&self, rev: Revision) -> PyResult<bool> {

              self.inner(py).borrow_mut().contains(rev)

                  .map_err(|e| GraphError::pynew(py, e))

          }

          def __iter__(&self) -> PyResult<Self> {

              Ok(self.clone_ref(py))

          }

          def __new__(_cls, index: PyObject, initrevs: PyObject, stoprev: Revision,

                      inclusive: bool) -> PyResult<AncestorsIterator> {

              let initvec: Vec<Revision> = rev_pyiter_collect(py, &initrevs)?;

              let ait = CoreIterator::new(

                  Index::new(py, index)?,

                  initvec,

                  stoprev,

                  inclusive,

              )

              .map_err(|e| GraphError::pynew(py, e))?;

              AncestorsIterator::from_inner(py, ait)

          }

      });

      impl AncestorsIterator {

          pub fn from_inner(py: Python, ait: CoreIterator<Index>) -> PyResult<Self> {

              Self::create_instance(py, RefCell::new(Box::new(ait)))

          }

      }

      py_class!(pub class LazyAncestors |py| {

          data inner: RefCell<Box<CoreLazy<Index>>>;

          def __contains__(&self, rev: Revision) -> PyResult<bool> {

              self.inner(py)

                  .borrow_mut()

                  .contains(rev)

                  .map_err(|e| GraphError::pynew(py, e))

          }

          def __iter__(&self) -> PyResult<AncestorsIterator> {

              AncestorsIterator::from_inner(py, self.inner(py).borrow().iter())

          }

          def __bool__(&self) -> PyResult<bool> {

              Ok(!self.inner(py).borrow().is_empty())

          }

          def __new__(_cls, index: PyObject, initrevs: PyObject, stoprev: Revision,

                      inclusive: bool) -> PyResult<Self> {

              let initvec: Vec<Revision> = rev_pyiter_collect(py, &initrevs)?;

              let lazy =

                  CoreLazy::new(Index::new(py, index)?, initvec, stoprev, inclusive)

                      .map_err(|e| GraphError::pynew(py, e))?;

              Self::create_instance(py, RefCell::new(Box::new(lazy)))

              }

      });

      py_class!(pub class MissingAncestors |py| {

          data inner: RefCell<Box<CoreMissing<Index>>>;

          def __new__(_cls, index: PyObject, bases: PyObject) -> PyResult<MissingAncestors> {

              let bases_vec: Vec<Revision> = rev_pyiter_collect(py, &bases)?;

              let inner = CoreMissing::new(Index::new(py, index)?, bases_vec);

              MissingAncestors::create_instance(py, RefCell::new(Box::new(inner)))

          }

          def hasbases(&self) -> PyResult<bool> {

              Ok(self.inner(py).borrow().has_bases())

          }

          def addbases(&self, bases: PyObject) -> PyResult<PyObject> {

              let mut inner = self.inner(py).borrow_mut();

              let bases_vec: Vec<Revision> = rev_pyiter_collect(py, &bases)?;

              inner.add_bases(bases_vec);

              // cpython doc has examples with PyResult<()> but this gives me

              //   the trait `cpython::ToPyObject` is not implemented for `()`

              // so let's return an explicit None

              Ok(py.None())

          }

          def bases(&self) -> PyResult<PyTuple> {

              let inner = self.inner(py).borrow();

              let bases_set = inner.get_bases();

              // convert as Python tuple TODO how to return a proper Python set?

              let mut bases_vec: Vec<PyObject> = Vec::with_capacity(

                  bases_set.len());

              for rev in bases_set {

                  bases_vec.push(rev.to_py_object(py).into_object());

              }

              Ok(PyTuple::new(py, bases_vec.as_slice()))

          }

          def removeancestorsfrom(&self, revs: PyObject) -> PyResult<PyObject> {

              let mut inner = self.inner(py).borrow_mut();

              // this is very lame: we convert to a Rust set, update it in place

              // and then convert back to Python, only to have Python remove the

              // excess (thankfully, Python is happy with a list or even an iterator)

              // Leads to improve this:

              //  - have the CoreMissing instead do something emit revisions to

              //    discard

              //  - define a trait for sets of revisions in the core and implement

              //    it for a Python set rewrapped with the GIL marker

              let mut revs_pyset: HashSet<Revision> = rev_pyiter_collect(py, &revs)?;

              inner.remove_ancestors_from(&mut revs_pyset)

                  .map_err(|e| GraphError::pynew(py, e))?;

              // convert as Python list

              let mut remaining_pyint_vec: Vec<PyObject> = Vec::with_capacity(

                  revs_pyset.len());

              for rev in revs_pyset {

                  remaining_pyint_vec.push(rev.to_py_object(py).into_object());

              }

              let remaining_pylist = PyList::new(py, remaining_pyint_vec.as_slice());

              revs.call_method(py, "intersection_update", (remaining_pylist, ), None)

          }

          def missingancestors(&self, revs: PyObject) -> PyResult<PyList> {

              let mut inner = self.inner(py).borrow_mut();

              let revs_vec: Vec<Revision> = rev_pyiter_collect(py, &revs)?;

              let missing_vec = match inner.missing_ancestors(revs_vec) {

                  Ok(missing) => missing,

                  Err(e) => {

                      return Err(GraphError::pynew(py, e));

                  }

              };

              // convert as Python list

              let mut missing_pyint_vec: Vec<PyObject> = Vec::with_capacity(

                  missing_vec.len());

              for rev in missing_vec {

                  missing_pyint_vec.push(rev.to_py_object(py).into_object());

              }

              Ok(PyList::new(py, missing_pyint_vec.as_slice()))

          }

      });

      /// Create the module, with __package__ given from parent

      pub fn init_module(py: Python, package: &str) -> PyResult<PyModule> {

          let dotted_name = &format!("{}.ancestor", package);

          let m = PyModule::new(py, dotted_name)?;

          m.add(py, "__package__", package)?;

          m.add(

              py,

              "__doc__",

              "Generic DAG ancestor algorithms - Rust implementation",

          )?;

          m.add_class::<AncestorsIterator>(py)?;

          m.add_class::<LazyAncestors>(py)?;

          m.add_class::<MissingAncestors>(py)?;

          let sys = PyModule::import(py, "sys")?;

          let sys_modules: PyDict = sys.get(py, "modules")?.extract(py)?;

          sys_modules.set_item(py, dotted_name, &m)?;

          // Example C code (see pyexpat.c and import.c) will "give away the

          // reference", but we won't because it will be consumed once the

          // Rust PyObject is dropped.

          Ok(m)

      }

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				// ancestors.rs
				//
				// Copyright 2018 Georges Racinet <gracinet@anybox.fr>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				//! Bindings for the `hg::ancestors` module provided by the
				//! `hg-core` crate. From Python, this will be seen as `rustext.ancestor`
				//! and can be used as replacement for the the pure `ancestor` Python module.
				//!
				//! # Classes visible from Python:
				//! - [`LazyAncestors`] is the Rust implementation of
				//! `mercurial.ancestor.lazyancestors`.
				//! The only difference is that it is instantiated with a C `parsers.index`
				//! instance instead of a parents function.
				//!
				//! - [`MissingAncestors`] is the Rust implementation of
				//! `mercurial.ancestor.incrementalmissingancestors`.
				//!
				//! API differences:
				//! + it is instantiated with a C `parsers.index`
				//! instance instead of a parents function.
				//! + `MissingAncestors.bases` is a method returning a tuple instead of
				//! a set-valued attribute. We could return a Python set easily if our
				//! [PySet PR](https://github.com/dgrunwald/rust-cpython/pull/165)
				//! is accepted.
				//!
				//! - [`AncestorsIterator`] is the Rust counterpart of the
				//! `ancestor._lazyancestorsiter` Python generator.
				//! From Python, instances of this should be mainly obtained by calling
				//! `iter()` on a [`LazyAncestors`] instance.
				//!
				//! [`LazyAncestors`]: struct.LazyAncestors.html
				//! [`MissingAncestors`]: struct.MissingAncestors.html
				//! [`AncestorsIterator`]: struct.AncestorsIterator.html
				use cindex::Index;
				use cpython::{
				ObjectProtocol, PyClone, PyDict, PyList, PyModule, PyObject,
				PyResult, PyTuple, Python, PythonObject, ToPyObject,
				};
				use exceptions::GraphError;
				use hg::Revision;
				use hg::{
				AncestorsIterator as CoreIterator, LazyAncestors as CoreLazy,
				MissingAncestors as CoreMissing,
				};
				use std::cell::RefCell;
				use std::iter::FromIterator;
				use std::collections::HashSet;

				/// Utility function to convert a Python iterable into various collections
				///
				/// We need this in particular to feed to various methods of inner objects
				/// with `impl IntoIterator<Item=Revision>` arguments, because
				/// a `PyErr` can arise at each step of iteration, whereas these methods
				/// expect iterables over `Revision`, not over some `Result<Revision, PyErr>`
				fn rev_pyiter_collect<C>(py: Python, revs: &PyObject) -> PyResult<C>
				where
				C: FromIterator<Revision>,
				{
				revs.iter(py)?
				.map(\|r\| r.and_then(\|o\| o.extract::<Revision>(py)))
				.collect()
				}

				py_class!(pub class AncestorsIterator \|py\| {
				data inner: RefCell<Box<CoreIterator<Index>>>;

				def __next__(&self) -> PyResult<Option<Revision>> {
				match self.inner(py).borrow_mut().next() {
				Some(Err(e)) => Err(GraphError::pynew(py, e)),
				None => Ok(None),
				Some(Ok(r)) => Ok(Some(r)),
				}
				}

				def __contains__(&self, rev: Revision) -> PyResult<bool> {
				self.inner(py).borrow_mut().contains(rev)
				.map_err(\|e\| GraphError::pynew(py, e))
				}

				def __iter__(&self) -> PyResult<Self> {
				Ok(self.clone_ref(py))
				}

				def __new__(_cls, index: PyObject, initrevs: PyObject, stoprev: Revision,
				inclusive: bool) -> PyResult<AncestorsIterator> {
				let initvec: Vec<Revision> = rev_pyiter_collect(py, &initrevs)?;
				let ait = CoreIterator::new(
				Index::new(py, index)?,
				initvec,
				stoprev,
				inclusive,
				)
				.map_err(\|e\| GraphError::pynew(py, e))?;
				AncestorsIterator::from_inner(py, ait)
				}

				});

				impl AncestorsIterator {
				pub fn from_inner(py: Python, ait: CoreIterator<Index>) -> PyResult<Self> {
				Self::create_instance(py, RefCell::new(Box::new(ait)))
				}
				}

				py_class!(pub class LazyAncestors \|py\| {
				data inner: RefCell<Box<CoreLazy<Index>>>;

				def __contains__(&self, rev: Revision) -> PyResult<bool> {
				self.inner(py)
				.borrow_mut()
				.contains(rev)
				.map_err(\|e\| GraphError::pynew(py, e))
				}

				def __iter__(&self) -> PyResult<AncestorsIterator> {
				AncestorsIterator::from_inner(py, self.inner(py).borrow().iter())
				}

				def __bool__(&self) -> PyResult<bool> {
				Ok(!self.inner(py).borrow().is_empty())
				}

				def __new__(_cls, index: PyObject, initrevs: PyObject, stoprev: Revision,
				inclusive: bool) -> PyResult<Self> {
				let initvec: Vec<Revision> = rev_pyiter_collect(py, &initrevs)?;

				let lazy =
				CoreLazy::new(Index::new(py, index)?, initvec, stoprev, inclusive)
				.map_err(\|e\| GraphError::pynew(py, e))?;

				Self::create_instance(py, RefCell::new(Box::new(lazy)))
				}

				});

				py_class!(pub class MissingAncestors \|py\| {
				data inner: RefCell<Box<CoreMissing<Index>>>;

				def __new__(_cls, index: PyObject, bases: PyObject) -> PyResult<MissingAncestors> {
				let bases_vec: Vec<Revision> = rev_pyiter_collect(py, &bases)?;
				let inner = CoreMissing::new(Index::new(py, index)?, bases_vec);
				MissingAncestors::create_instance(py, RefCell::new(Box::new(inner)))
				}

				def hasbases(&self) -> PyResult<bool> {
				Ok(self.inner(py).borrow().has_bases())
				}

				def addbases(&self, bases: PyObject) -> PyResult<PyObject> {
				let mut inner = self.inner(py).borrow_mut();
				let bases_vec: Vec<Revision> = rev_pyiter_collect(py, &bases)?;
				inner.add_bases(bases_vec);
				// cpython doc has examples with PyResult<()> but this gives me
				// the trait `cpython::ToPyObject` is not implemented for `()`
				// so let's return an explicit None
				Ok(py.None())
				}

				def bases(&self) -> PyResult<PyTuple> {
				let inner = self.inner(py).borrow();
				let bases_set = inner.get_bases();
				// convert as Python tuple TODO how to return a proper Python set?
				let mut bases_vec: Vec<PyObject> = Vec::with_capacity(
				bases_set.len());
				for rev in bases_set {
				bases_vec.push(rev.to_py_object(py).into_object());
				}
				Ok(PyTuple::new(py, bases_vec.as_slice()))
				}

				def removeancestorsfrom(&self, revs: PyObject) -> PyResult<PyObject> {
				let mut inner = self.inner(py).borrow_mut();
				// this is very lame: we convert to a Rust set, update it in place
				// and then convert back to Python, only to have Python remove the
				// excess (thankfully, Python is happy with a list or even an iterator)
				// Leads to improve this:
				// - have the CoreMissing instead do something emit revisions to
				// discard
				// - define a trait for sets of revisions in the core and implement
				// it for a Python set rewrapped with the GIL marker
				let mut revs_pyset: HashSet<Revision> = rev_pyiter_collect(py, &revs)?;
				inner.remove_ancestors_from(&mut revs_pyset)
				.map_err(\|e\| GraphError::pynew(py, e))?;

				// convert as Python list
				let mut remaining_pyint_vec: Vec<PyObject> = Vec::with_capacity(
				revs_pyset.len());
				for rev in revs_pyset {
				remaining_pyint_vec.push(rev.to_py_object(py).into_object());
				}
				let remaining_pylist = PyList::new(py, remaining_pyint_vec.as_slice());
				revs.call_method(py, "intersection_update", (remaining_pylist, ), None)
				}

				def missingancestors(&self, revs: PyObject) -> PyResult<PyList> {
				let mut inner = self.inner(py).borrow_mut();
				let revs_vec: Vec<Revision> = rev_pyiter_collect(py, &revs)?;
				let missing_vec = match inner.missing_ancestors(revs_vec) {
				Ok(missing) => missing,
				Err(e) => {
				return Err(GraphError::pynew(py, e));
				}
				};
				// convert as Python list
				let mut missing_pyint_vec: Vec<PyObject> = Vec::with_capacity(
				missing_vec.len());
				for rev in missing_vec {
				missing_pyint_vec.push(rev.to_py_object(py).into_object());
				}
				Ok(PyList::new(py, missing_pyint_vec.as_slice()))
				}
				});

				/// Create the module, with __package__ given from parent
				pub fn init_module(py: Python, package: &str) -> PyResult<PyModule> {
				let dotted_name = &format!("{}.ancestor", package);
				let m = PyModule::new(py, dotted_name)?;
				m.add(py, "__package__", package)?;
				m.add(
				py,
				"__doc__",
				"Generic DAG ancestor algorithms - Rust implementation",
				)?;
				m.add_class::<AncestorsIterator>(py)?;
				m.add_class::<LazyAncestors>(py)?;
				m.add_class::<MissingAncestors>(py)?;

				let sys = PyModule::import(py, "sys")?;
				let sys_modules: PyDict = sys.get(py, "modules")?.extract(py)?;
				sys_modules.set_item(py, dotted_name, &m)?;
				// Example C code (see pyexpat.c and import.c) will "give away the
				// reference", but we won't because it will be consumed once the
				// Rust PyObject is dropped.
				Ok(m)
				}