Mercurial > hg
view mercurial/cext/parsers.pyi @ 46184:cb8b2ee89a5d
copies: stop attempt to avoid extra dict copies around branching
In the python code, we attempt to avoid unnecessary dict copies when gathering
copy information. However that logic is wobbly and I keep running into case
where independent branches affects each others.
With the current code we can't ensure we are the only "user" of dict when
dealing with merge.
This caused havoc in the next series on tests I am about to introduce.
So for now I am disabling the faulty optimisation. I believe we will need a
dedicated overlay to deal with the "copy on write logic" to have something
correct. I am also hoping to find time to build dedicated test case for this
category of problem instead of relying on side effect in other tests. However
for now I am focussing on another issue.
Differential Revision: https://phab.mercurial-scm.org/D9608
| author | Pierre-Yves David <pierre-yves.david@octobus.net> |
|---|---|
| date | Tue, 15 Dec 2020 00:29:29 +0100 |
| parents | 8dca9051a859 |
| children | 12450fbea288 |
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from typing import ( Callable, Dict, Iterator, List, Optional, Set, Tuple, Union, ) version: int versionerrortext: str class dirstatetuple: __doc__: str def __len__(self) -> int: ... def __getitem__(self, key: int) -> Union[bytes, int]: ... # From dirs.c class dirs: __doc__: str def __init__(self, source, skipchar: bytes): ... def __iter__(self) -> Iterator[bytes]: ... def addpath(self, path: bytes) -> None: ... def delpath(self, path: bytes) -> None: ... # From manifest.c class lazymanifest: def __init__(self, data: bytes): ... def __iter__(self) -> Iterator[bytes]: ... def __len__(self) -> int: ... def __getitem__(self, item: bytes) -> Optional[Tuple[bytes, bytes]]: ... def __setitem__(self, key: bytes, value: Tuple[bytes, bytes]) -> None: ... def __delitem__(self, key: bytes) -> None: ... def iterkeys(self) -> Iterator[bytes]: ... def iterentries(self) -> Iterator[Tuple[bytes, bytes, bytes]]: ... def copy(self) -> lazymanifest: ... def filtercopy(self, matchfn: Callable[[bytes], bool]) -> lazymanifest: ... def diff(self, other: lazymanifest, clean: Optional[bool]) -> Dict[bytes, Tuple[bytes, Tuple]]: ... def text(self) -> bytes: ... # From revlog.c class index: __doc__: str nodemap: Dict[bytes, int] def ancestors(self, *args: int) -> Iterator[int]: ... def commonancestorsheads(self, *args: int) -> List[int]: ... def clearcaches(self) -> None: ... def get(self, value: bytes) -> Optional[int]: ... def get_rev(self, value: bytes) -> Optional[int]: ... def has_node(self, value: Union[int, bytes]) -> bool: ... def rev(self, node: bytes) -> int: ... def computephasesmapsets(self, root: Dict[int, Set[bytes]]) -> Tuple[int, Dict[int, Set[bytes]]]: ... def reachableroots2(self, minroot: int, heads: List[int], roots: List[int], includepath: bool) -> List[int]: ... def headrevs(self, filteredrevs: Optional[List[int]]) -> List[int]: ... def headrevsfiltered(self, filteredrevs: Optional[List[int]]) -> List[int]: ... def issnapshot(self, value: int) -> bool: ... def findsnapshots(self, cache: Dict[int, List[int]], start_rev: int) -> None: ... def deltachain(self, rev: int, stop: int, generaldelta: bool) -> Tuple[List[int], bool]: ... def slicechunktodensity(self, revs: List[int], targetdensity: float, mingapsize: int) -> List[List[int]]: ... def append(self, value: Tuple[int, int, int, int, int, int, int, bytes]) -> None: ... def partialmatch(self, node: bytes) -> bytes: ... def shortest(self, value: bytes) -> int: ... def stats(self) -> Dict[bytes, int]: ... class nodetree: __doc__: str def insert(self, rev: int) -> None: ... def shortest(self, node: bytes) -> int: ...