upstream/mercurial-mirror Files · mercurial/cffi/bdiff.py

rust-pyo3: dagop submodule implementation...

rust-pyo3: dagop submodule implementation This is the first demonstration that the passing of objects through the Python interpreter from `rustext` to `pyo3_rustext` actually works. In the Python tests, we conflate the presence of the `pyo3_rustext` package with that of `rustext`, as we do not plan to support building one and not the other (we hope to convert fully to PyO3 soon). The skipping is actually done by the base test class. The implementation of `rank` is as trivial as it was in `hg-cpython`, yet it required to be able to convert exceptions from `vcsgraph`.

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      # bdiff.py - CFFI implementation of bdiff.c

      #

      # Copyright 2016 Maciej Fijalkowski <fijall@gmail.com>

      #

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

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

      from __future__ import annotations

      import struct

      import typing

      from typing import (

          List,

          Optional,

          Tuple,

      )

      from ..pure.bdiff import *

      from ..interfaces import (

          modules as intmod,

      )

      from . import _bdiff  # pytype: disable=import-error

      ffi = _bdiff.ffi

      lib = _bdiff.lib

      def blocks(sa: bytes, sb: bytes) -> List[Tuple[int, int, int, int]]:

          a = ffi.new("struct bdiff_line**")

          b = ffi.new("struct bdiff_line**")

          ac = ffi.new("char[]", bytes(sa))

          bc = ffi.new("char[]", bytes(sb))

          l = ffi.new("struct bdiff_hunk*")

          try:

              an = lib.bdiff_splitlines(ac, len(sa), a)

              bn = lib.bdiff_splitlines(bc, len(sb), b)

              if not a[0] or not b[0]:

                  raise MemoryError

              count = lib.bdiff_diff(a[0], an, b[0], bn, l)

              if count < 0:

                  raise MemoryError

              rl = [(0, 0, 0, 0)] * count

              h = l.next

              i = 0

              while h:

                  rl[i] = (h.a1, h.a2, h.b1, h.b2)

                  h = h.next

                  i += 1

          finally:

              lib.free(a[0])

              lib.free(b[0])

              lib.bdiff_freehunks(l.next)

          return rl

      def bdiff(sa: bytes, sb: bytes) -> bytes:

          a = ffi.new("struct bdiff_line**")

          b = ffi.new("struct bdiff_line**")

          ac = ffi.new("char[]", bytes(sa))

          bc = ffi.new("char[]", bytes(sb))

          l = ffi.new("struct bdiff_hunk*")

          try:

              an = lib.bdiff_splitlines(ac, len(sa), a)

              bn = lib.bdiff_splitlines(bc, len(sb), b)

              if not a[0] or not b[0]:

                  raise MemoryError

              count = lib.bdiff_diff(a[0], an, b[0], bn, l)

              if count < 0:

                  raise MemoryError

              rl = []

              h = l.next

              la = lb = 0

              while h:

                  if h.a1 != la or h.b1 != lb:

                      lgt = (b[0] + h.b1).l - (b[0] + lb).l

                      rl.append(

                          struct.pack(

                              b">lll",

                              (a[0] + la).l - a[0].l,

                              (a[0] + h.a1).l - a[0].l,

                              lgt,

                          )

                      )

                      rl.append(bytes(ffi.buffer((b[0] + lb).l, lgt)))

                  la = h.a2

                  lb = h.b2

                  h = h.next

          finally:

              lib.free(a[0])

              lib.free(b[0])

              lib.bdiff_freehunks(l.next)

          return b"".join(rl)

      # In order to adhere to the module protocol, these functions must be visible to

      # the type checker, though they aren't actually implemented by this

      # implementation of the module protocol.  Callers are responsible for

      # checking that the implementation is available before using them.

      if typing.TYPE_CHECKING:

          xdiffblocks: Optional[intmod.BDiffBlocksFnc] = None

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				# bdiff.py - CFFI implementation of bdiff.c
				#
				# Copyright 2016 Maciej Fijalkowski <fijall@gmail.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import annotations

				import struct
				import typing

				from typing import (
				List,
				Optional,
				Tuple,
				)

				from ..pure.bdiff import *

				from ..interfaces import (
				modules as intmod,
				)

				from . import _bdiff # pytype: disable=import-error

				ffi = _bdiff.ffi
				lib = _bdiff.lib


				def blocks(sa: bytes, sb: bytes) -> List[Tuple[int, int, int, int]]:
				a = ffi.new("struct bdiff_line**")
				b = ffi.new("struct bdiff_line**")
				ac = ffi.new("char[]", bytes(sa))
				bc = ffi.new("char[]", bytes(sb))
				l = ffi.new("struct bdiff_hunk*")
				try:
				an = lib.bdiff_splitlines(ac, len(sa), a)
				bn = lib.bdiff_splitlines(bc, len(sb), b)
				if not a[0] or not b[0]:
				raise MemoryError
				count = lib.bdiff_diff(a[0], an, b[0], bn, l)
				if count < 0:
				raise MemoryError
				rl = [(0, 0, 0, 0)] * count
				h = l.next
				i = 0
				while h:
				rl[i] = (h.a1, h.a2, h.b1, h.b2)
				h = h.next
				i += 1
				finally:
				lib.free(a[0])
				lib.free(b[0])
				lib.bdiff_freehunks(l.next)
				return rl


				def bdiff(sa: bytes, sb: bytes) -> bytes:
				a = ffi.new("struct bdiff_line**")
				b = ffi.new("struct bdiff_line**")
				ac = ffi.new("char[]", bytes(sa))
				bc = ffi.new("char[]", bytes(sb))
				l = ffi.new("struct bdiff_hunk*")
				try:
				an = lib.bdiff_splitlines(ac, len(sa), a)
				bn = lib.bdiff_splitlines(bc, len(sb), b)
				if not a[0] or not b[0]:
				raise MemoryError
				count = lib.bdiff_diff(a[0], an, b[0], bn, l)
				if count < 0:
				raise MemoryError
				rl = []
				h = l.next
				la = lb = 0
				while h:
				if h.a1 != la or h.b1 != lb:
				lgt = (b[0] + h.b1).l - (b[0] + lb).l
				rl.append(
				struct.pack(
				b">lll",
				(a[0] + la).l - a[0].l,
				(a[0] + h.a1).l - a[0].l,
				lgt,
				)
				)
				rl.append(bytes(ffi.buffer((b[0] + lb).l, lgt)))
				la = h.a2
				lb = h.b2
				h = h.next

				finally:
				lib.free(a[0])
				lib.free(b[0])
				lib.bdiff_freehunks(l.next)
				return b"".join(rl)


				# In order to adhere to the module protocol, these functions must be visible to
				# the type checker, though they aren't actually implemented by this
				# implementation of the module protocol. Callers are responsible for
				# checking that the implementation is available before using them.
				if typing.TYPE_CHECKING:
				xdiffblocks: Optional[intmod.BDiffBlocksFnc] = None