upstream/mercurial-mirror Files · mercurial/cext/parsers.pyi

cg4: introduce protocol flag to signify the presence of sidedata...

cg4: introduce protocol flag to signify the presence of sidedata We need a way of signaling whether the current revision has sidedata or not, and re-using the revision flags would waste potential revlog flags and mix two normally independent layers. In this change, we add a single byte at the start of the ch4 delta header to set potential protocol flags. We also reclaim the revlog flag for sidedata, since it is no longer used, in its place now lives the (also experimental) copytracing flag. When generating deltas, apply the `CG_FLAG_SIDEDATA` flag if there is sidedata. When applying the deltas, if said flag is present, the next chunk contains the sidedata. Differential Revision: https://phab.mercurial-scm.org/D10343

Joerg Sonnenberger - - Load All Authors

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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, nodelen: int, 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: ...

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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, nodelen: int, 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: ...