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

tests: enforce the use of `from __future__ import annotations`...

tests: enforce the use of `from __future__ import annotations` A recent MR and a separate recently landed MR that extracted code to a new file overlooked this, so I think it's worth flagging to ensure consistency. We don't enforce the import for empty files (like `__init__.py`). I'd rather this go into `import-checker.py`, but the import of interest only happens at the top of the file, and its `verify_modern_convention()` calls itself recursively as it transits the AST where the annotations might be. After a few hours of hacking on trying to get it to enforce the import, but only if annotations are used in the module (we generally don't have or check annotations in test files, so don't need this import), I gave up and resorted to this. It won't handle multi-line imports, but this isn't something I'd expect to change often, so this is good enough for now.

Matt Harbison - - Load All Authors

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      # bdiff.py - Python implementation of bdiff.c

      #

      # Copyright 2009 Olivia Mackall <olivia@selenic.com> and others

      #

      # 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 difflib

      import re

      import struct

      import typing

      from typing import (

          List,

          Optional,

          Tuple,

      )

      from ..interfaces import (

          modules as intmod,

      )

      def splitnewlines(text: bytes) -> List[bytes]:

          '''like str.splitlines, but only split on newlines.'''

          lines = [l + b'\n' for l in text.split(b'\n')]

          if lines:

              if lines[-1] == b'\n':

                  lines.pop()

              else:

                  lines[-1] = lines[-1][:-1]

          return lines

      def _normalizeblocks(

          a: List[bytes], b: List[bytes], blocks

      ) -> List[Tuple[int, int, int]]:

          prev = None

          r = []

          for curr in blocks:

              if prev is None:

                  prev = curr

                  continue

              shift = 0

              a1, b1, l1 = prev

              a1end = a1 + l1

              b1end = b1 + l1

              a2, b2, l2 = curr

              a2end = a2 + l2

              b2end = b2 + l2

              if a1end == a2:

                  while (

                      a1end + shift < a2end and a[a1end + shift] == b[b1end + shift]

                  ):

                      shift += 1

              elif b1end == b2:

                  while (

                      b1end + shift < b2end and a[a1end + shift] == b[b1end + shift]

                  ):

                      shift += 1

              r.append((a1, b1, l1 + shift))

              prev = a2 + shift, b2 + shift, l2 - shift

          if prev is not None:

              r.append(prev)

          return r

      def bdiff(a: bytes, b: bytes) -> bytes:

          a = bytes(a).splitlines(True)

          b = bytes(b).splitlines(True)

          if not a:

              s = b"".join(b)

              return s and (struct.pack(b">lll", 0, 0, len(s)) + s)

          bin = []

          p = [0]

          for i in a:

              p.append(p[-1] + len(i))

          d = difflib.SequenceMatcher(None, a, b).get_matching_blocks()

          d = _normalizeblocks(a, b, d)

          la = 0

          lb = 0

          for am, bm, size in d:

              s = b"".join(b[lb:bm])

              if am > la or s:

                  bin.append(struct.pack(b">lll", p[la], p[am], len(s)) + s)

              la = am + size

              lb = bm + size

          return b"".join(bin)

      def blocks(a: bytes, b: bytes) -> List[Tuple[int, int, int, int]]:

          an = splitnewlines(a)

          bn = splitnewlines(b)

          d = difflib.SequenceMatcher(None, an, bn).get_matching_blocks()

          d = _normalizeblocks(an, bn, d)

          return [(i, i + n, j, j + n) for (i, j, n) in d]

      def fixws(text: bytes, allws: bool) -> bytes:

          if allws:

              text = re.sub(b'[ \t\r]+', b'', text)

          else:

              text = re.sub(b'[ \t\r]+', b' ', text)

              text = text.replace(b' \n', b'\n')

          return text

      # 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 - Python implementation of bdiff.c
				#
				# Copyright 2009 Olivia Mackall <olivia@selenic.com> and others
				#
				# 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 difflib
				import re
				import struct
				import typing

				from typing import (
				List,
				Optional,
				Tuple,
				)

				from ..interfaces import (
				modules as intmod,
				)


				def splitnewlines(text: bytes) -> List[bytes]:
				'''like str.splitlines, but only split on newlines.'''
				lines = [l + b'\n' for l in text.split(b'\n')]
				if lines:
				if lines[-1] == b'\n':
				lines.pop()
				else:
				lines[-1] = lines[-1][:-1]
				return lines


				def _normalizeblocks(
				a: List[bytes], b: List[bytes], blocks
				) -> List[Tuple[int, int, int]]:
				prev = None
				r = []
				for curr in blocks:
				if prev is None:
				prev = curr
				continue
				shift = 0

				a1, b1, l1 = prev
				a1end = a1 + l1
				b1end = b1 + l1

				a2, b2, l2 = curr
				a2end = a2 + l2
				b2end = b2 + l2
				if a1end == a2:
				while (
				a1end + shift < a2end and a[a1end + shift] == b[b1end + shift]
				):
				shift += 1
				elif b1end == b2:
				while (
				b1end + shift < b2end and a[a1end + shift] == b[b1end + shift]
				):
				shift += 1
				r.append((a1, b1, l1 + shift))
				prev = a2 + shift, b2 + shift, l2 - shift

				if prev is not None:
				r.append(prev)

				return r


				def bdiff(a: bytes, b: bytes) -> bytes:
				a = bytes(a).splitlines(True)
				b = bytes(b).splitlines(True)

				if not a:
				s = b"".join(b)
				return s and (struct.pack(b">lll", 0, 0, len(s)) + s)

				bin = []
				p = [0]
				for i in a:
				p.append(p[-1] + len(i))

				d = difflib.SequenceMatcher(None, a, b).get_matching_blocks()
				d = _normalizeblocks(a, b, d)
				la = 0
				lb = 0
				for am, bm, size in d:
				s = b"".join(b[lb:bm])
				if am > la or s:
				bin.append(struct.pack(b">lll", p[la], p[am], len(s)) + s)
				la = am + size
				lb = bm + size

				return b"".join(bin)


				def blocks(a: bytes, b: bytes) -> List[Tuple[int, int, int, int]]:
				an = splitnewlines(a)
				bn = splitnewlines(b)
				d = difflib.SequenceMatcher(None, an, bn).get_matching_blocks()
				d = _normalizeblocks(an, bn, d)
				return [(i, i + n, j, j + n) for (i, j, n) in d]


				def fixws(text: bytes, allws: bool) -> bytes:
				if allws:
				text = re.sub(b'[ \t\r]+', b'', text)
				else:
				text = re.sub(b'[ \t\r]+', b' ', text)
				text = text.replace(b' \n', b'\n')
				return text


				# 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