Mercurial > public > mercurial-scm > hg
view rust/hg-cpython/src/dirstate/dirstate_map.rs @ 48674:f7086f6173f8 stable
dirstate-v2: rename the configuration to enable the format
The rename of the old experimental name was overlooked before the 6.0 release.
We rename everything to use the new name (and keep the released name as an alias
for compatibility).
Differential Revision: https://phab.mercurial-scm.org/D12129
| author | Pierre-Yves David <pierre-yves.david@octobus.net> |
|---|---|
| date | Tue, 01 Feb 2022 16:36:20 +0100 |
| parents | 269ff8978086 |
| children | 434de12918fd |
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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. //! Bindings for the `hg::dirstate::dirstate_map` file provided by the //! `hg-core` package. use std::cell::{RefCell, RefMut}; use std::convert::TryInto; use cpython::{ exc, PyBool, PyBytes, PyClone, PyDict, PyErr, PyList, PyNone, PyObject, PyResult, Python, PythonObject, ToPyObject, UnsafePyLeaked, }; use crate::{ dirstate::copymap::{CopyMap, CopyMapItemsIterator, CopyMapKeysIterator}, dirstate::item::{timestamp, DirstateItem}, pybytes_deref::PyBytesDeref, }; use hg::{ dirstate::StateMapIter, dirstate_tree::dirstate_map::DirstateMap as TreeDirstateMap, dirstate_tree::on_disk::DirstateV2ParseError, dirstate_tree::owning::OwningDirstateMap, revlog::Node, utils::files::normalize_case, utils::hg_path::{HgPath, HgPathBuf}, DirstateEntry, DirstateError, DirstateParents, EntryState, }; // TODO // This object needs to share references to multiple members of its Rust // inner struct, namely `copy_map`, `dirs` and `all_dirs`. // Right now `CopyMap` is done, but it needs to have an explicit reference // to `RustDirstateMap` which itself needs to have an encapsulation for // every method in `CopyMap` (copymapcopy, etc.). // This is ugly and hard to maintain. // The same logic applies to `dirs` and `all_dirs`, however the `Dirs` // `py_class!` is already implemented and does not mention // `RustDirstateMap`, rightfully so. // All attributes also have to have a separate refcount data attribute for // leaks, with all methods that go along for reference sharing. py_class!(pub class DirstateMap |py| { @shared data inner: OwningDirstateMap; /// Returns a `(dirstate_map, parents)` tuple @staticmethod def new_v1( on_disk: PyBytes, ) -> PyResult<PyObject> { let on_disk = PyBytesDeref::new(py, on_disk); let mut map = OwningDirstateMap::new_empty(on_disk); let (on_disk, map_placeholder) = map.get_pair_mut(); let (actual_map, parents) = TreeDirstateMap::new_v1(on_disk) .map_err(|e| dirstate_error(py, e))?; *map_placeholder = actual_map; let map = Self::create_instance(py, map)?; let parents = parents.map(|p| { let p1 = PyBytes::new(py, p.p1.as_bytes()); let p2 = PyBytes::new(py, p.p2.as_bytes()); (p1, p2) }); Ok((map, parents).to_py_object(py).into_object()) } /// Returns a DirstateMap @staticmethod def new_v2( on_disk: PyBytes, data_size: usize, tree_metadata: PyBytes, ) -> PyResult<PyObject> { let dirstate_error = |e: DirstateError| { PyErr::new::<exc::OSError, _>(py, format!("Dirstate error: {:?}", e)) }; let on_disk = PyBytesDeref::new(py, on_disk); let mut map = OwningDirstateMap::new_empty(on_disk); let (on_disk, map_placeholder) = map.get_pair_mut(); *map_placeholder = TreeDirstateMap::new_v2( on_disk, data_size, tree_metadata.data(py), ).map_err(dirstate_error)?; let map = Self::create_instance(py, map)?; Ok(map.into_object()) } def clear(&self) -> PyResult<PyObject> { self.inner(py).borrow_mut().clear(); Ok(py.None()) } def get( &self, key: PyObject, default: Option<PyObject> = None ) -> PyResult<Option<PyObject>> { let key = key.extract::<PyBytes>(py)?; match self .inner(py) .borrow() .get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(entry) => { Ok(Some(DirstateItem::new_as_pyobject(py, entry)?)) }, None => Ok(default) } } def set_dirstate_item( &self, path: PyObject, item: DirstateItem ) -> PyResult<PyObject> { let f = path.extract::<PyBytes>(py)?; let filename = HgPath::new(f.data(py)); self.inner(py) .borrow_mut() .set_entry(filename, item.get_entry(py)) .map_err(|e| v2_error(py, e))?; Ok(py.None()) } def addfile( &self, f: PyBytes, item: DirstateItem, ) -> PyResult<PyNone> { let filename = HgPath::new(f.data(py)); let entry = item.get_entry(py); self.inner(py) .borrow_mut() .add_file(filename, entry) .map_err(|e |dirstate_error(py, e))?; Ok(PyNone) } def removefile( &self, f: PyObject, in_merge: PyObject ) -> PyResult<PyObject> { self.inner(py).borrow_mut() .remove_file( HgPath::new(f.extract::<PyBytes>(py)?.data(py)), in_merge.extract::<PyBool>(py)?.is_true(), ) .or_else(|_| { Err(PyErr::new::<exc::OSError, _>( py, "Dirstate error".to_string(), )) })?; Ok(py.None()) } def drop_item_and_copy_source( &self, f: PyBytes, ) -> PyResult<PyNone> { self.inner(py) .borrow_mut() .drop_entry_and_copy_source(HgPath::new(f.data(py))) .map_err(|e |dirstate_error(py, e))?; Ok(PyNone) } def hastrackeddir(&self, d: PyObject) -> PyResult<PyBool> { let d = d.extract::<PyBytes>(py)?; Ok(self.inner(py).borrow_mut() .has_tracked_dir(HgPath::new(d.data(py))) .map_err(|e| { PyErr::new::<exc::ValueError, _>(py, e.to_string()) })? .to_py_object(py)) } def hasdir(&self, d: PyObject) -> PyResult<PyBool> { let d = d.extract::<PyBytes>(py)?; Ok(self.inner(py).borrow_mut() .has_dir(HgPath::new(d.data(py))) .map_err(|e| { PyErr::new::<exc::ValueError, _>(py, e.to_string()) })? .to_py_object(py)) } def write_v1( &self, p1: PyObject, p2: PyObject, now: (u32, u32) ) -> PyResult<PyBytes> { let now = timestamp(py, now)?; let mut inner = self.inner(py).borrow_mut(); let parents = DirstateParents { p1: extract_node_id(py, &p1)?, p2: extract_node_id(py, &p2)?, }; let result = inner.pack_v1(parents, now); match result { Ok(packed) => Ok(PyBytes::new(py, &packed)), Err(_) => Err(PyErr::new::<exc::OSError, _>( py, "Dirstate error".to_string(), )), } } /// Returns new data together with whether that data should be appended to /// the existing data file whose content is at `self.on_disk` (True), /// instead of written to a new data file (False). def write_v2( &self, now: (u32, u32), can_append: bool, ) -> PyResult<PyObject> { let now = timestamp(py, now)?; let mut inner = self.inner(py).borrow_mut(); let result = inner.pack_v2(now, can_append); match result { Ok((packed, tree_metadata, append)) => { let packed = PyBytes::new(py, &packed); let tree_metadata = PyBytes::new(py, &tree_metadata); let tuple = (packed, tree_metadata, append); Ok(tuple.to_py_object(py).into_object()) }, Err(_) => Err(PyErr::new::<exc::OSError, _>( py, "Dirstate error".to_string(), )), } } def filefoldmapasdict(&self) -> PyResult<PyDict> { let dict = PyDict::new(py); for item in self.inner(py).borrow_mut().iter() { let (path, entry) = item.map_err(|e| v2_error(py, e))?; if entry.state() != EntryState::Removed { let key = normalize_case(path); let value = path; dict.set_item( py, PyBytes::new(py, key.as_bytes()).into_object(), PyBytes::new(py, value.as_bytes()).into_object(), )?; } } Ok(dict) } def __len__(&self) -> PyResult<usize> { Ok(self.inner(py).borrow().len()) } def __contains__(&self, key: PyObject) -> PyResult<bool> { let key = key.extract::<PyBytes>(py)?; self.inner(py) .borrow() .contains_key(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e)) } def __getitem__(&self, key: PyObject) -> PyResult<PyObject> { let key = key.extract::<PyBytes>(py)?; let key = HgPath::new(key.data(py)); match self .inner(py) .borrow() .get(key) .map_err(|e| v2_error(py, e))? { Some(entry) => { Ok(DirstateItem::new_as_pyobject(py, entry)?) }, None => Err(PyErr::new::<exc::KeyError, _>( py, String::from_utf8_lossy(key.as_bytes()), )), } } def keys(&self) -> PyResult<DirstateMapKeysIterator> { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } def items(&self) -> PyResult<DirstateMapItemsIterator> { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapItemsIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } def __iter__(&self) -> PyResult<DirstateMapKeysIterator> { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } // TODO all copymap* methods, see docstring above def copymapcopy(&self) -> PyResult<PyDict> { let dict = PyDict::new(py); for item in self.inner(py).borrow().copy_map_iter() { let (key, value) = item.map_err(|e| v2_error(py, e))?; dict.set_item( py, PyBytes::new(py, key.as_bytes()), PyBytes::new(py, value.as_bytes()), )?; } Ok(dict) } def copymapgetitem(&self, key: PyObject) -> PyResult<PyBytes> { let key = key.extract::<PyBytes>(py)?; match self .inner(py) .borrow() .copy_map_get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(PyBytes::new(py, copy.as_bytes())), None => Err(PyErr::new::<exc::KeyError, _>( py, String::from_utf8_lossy(key.data(py)), )), } } def copymap(&self) -> PyResult<CopyMap> { CopyMap::from_inner(py, self.clone_ref(py)) } def copymaplen(&self) -> PyResult<usize> { Ok(self.inner(py).borrow().copy_map_len()) } def copymapcontains(&self, key: PyObject) -> PyResult<bool> { let key = key.extract::<PyBytes>(py)?; self.inner(py) .borrow() .copy_map_contains_key(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e)) } def copymapget( &self, key: PyObject, default: Option<PyObject> ) -> PyResult<Option<PyObject>> { let key = key.extract::<PyBytes>(py)?; match self .inner(py) .borrow() .copy_map_get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(Some( PyBytes::new(py, copy.as_bytes()).into_object(), )), None => Ok(default), } } def copymapsetitem( &self, key: PyObject, value: PyObject ) -> PyResult<PyObject> { let key = key.extract::<PyBytes>(py)?; let value = value.extract::<PyBytes>(py)?; self.inner(py) .borrow_mut() .copy_map_insert( HgPathBuf::from_bytes(key.data(py)), HgPathBuf::from_bytes(value.data(py)), ) .map_err(|e| v2_error(py, e))?; Ok(py.None()) } def copymappop( &self, key: PyObject, default: Option<PyObject> ) -> PyResult<Option<PyObject>> { let key = key.extract::<PyBytes>(py)?; match self .inner(py) .borrow_mut() .copy_map_remove(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(Some( PyBytes::new(py, copy.as_bytes()).into_object(), )), None => Ok(default), } } def copymapiter(&self) -> PyResult<CopyMapKeysIterator> { let leaked_ref = self.inner(py).leak_immutable(); CopyMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.copy_map_iter()) }, ) } def copymapitemsiter(&self) -> PyResult<CopyMapItemsIterator> { let leaked_ref = self.inner(py).leak_immutable(); CopyMapItemsIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.copy_map_iter()) }, ) } def tracked_dirs(&self) -> PyResult<PyList> { let dirs = PyList::new(py, &[]); for path in self.inner(py).borrow_mut().iter_tracked_dirs() .map_err(|e |dirstate_error(py, e))? { let path = path.map_err(|e| v2_error(py, e))?; let path = PyBytes::new(py, path.as_bytes()); dirs.append(py, path.into_object()) } Ok(dirs) } def debug_iter(&self, all: bool) -> PyResult<PyList> { let dirs = PyList::new(py, &[]); for item in self.inner(py).borrow().debug_iter(all) { let (path, (state, mode, size, mtime)) = item.map_err(|e| v2_error(py, e))?; let path = PyBytes::new(py, path.as_bytes()); let item = (path, state, mode, size, mtime); dirs.append(py, item.to_py_object(py).into_object()) } Ok(dirs) } }); impl DirstateMap { pub fn get_inner_mut<'a>( &'a self, py: Python<'a>, ) -> RefMut<'a, OwningDirstateMap> { self.inner(py).borrow_mut() } fn translate_key( py: Python, res: Result<(&HgPath, DirstateEntry), DirstateV2ParseError>, ) -> PyResult<Option<PyBytes>> { let (f, _entry) = res.map_err(|e| v2_error(py, e))?; Ok(Some(PyBytes::new(py, f.as_bytes()))) } fn translate_key_value( py: Python, res: Result<(&HgPath, DirstateEntry), DirstateV2ParseError>, ) -> PyResult<Option<(PyBytes, PyObject)>> { let (f, entry) = res.map_err(|e| v2_error(py, e))?; Ok(Some(( PyBytes::new(py, f.as_bytes()), DirstateItem::new_as_pyobject(py, entry)?, ))) } } py_shared_iterator!( DirstateMapKeysIterator, UnsafePyLeaked<StateMapIter<'static>>, DirstateMap::translate_key, Option<PyBytes> ); py_shared_iterator!( DirstateMapItemsIterator, UnsafePyLeaked<StateMapIter<'static>>, DirstateMap::translate_key_value, Option<(PyBytes, PyObject)> ); fn extract_node_id(py: Python, obj: &PyObject) -> PyResult<Node> { let bytes = obj.extract::<PyBytes>(py)?; match bytes.data(py).try_into() { Ok(s) => Ok(s), Err(e) => Err(PyErr::new::<exc::ValueError, _>(py, e.to_string())), } } pub(super) fn v2_error(py: Python<'_>, _: DirstateV2ParseError) -> PyErr { PyErr::new::<exc::ValueError, _>(py, "corrupted dirstate-v2") } fn dirstate_error(py: Python<'_>, e: DirstateError) -> PyErr { PyErr::new::<exc::OSError, _>(py, format!("Dirstate error: {:?}", e)) }