upstream/mercurial-mirror Files · mercurial/diffhelper.py

interfaces: make the `peer` mixin not a Protocol to fix Python 3.10 failures...

interfaces: make the `peer` mixin not a Protocol to fix Python 3.10 failures I can't find any documentation on this, but it appears that Protocol class attributes don't get inherited in subclasses that explicitly subclass a Protocol until Python 3.11, which caused a ton of failures in CI on macOS and Windows (which both test using Python 3.9). The problem started with 1df97507c6b8, and typically manifested as most tests failing to access `ui` on various `peer` classes. Here's a short proof of concept: from __future__ import annotations from typing import ( Protocol, ) class peer(Protocol): limitedarguments: bool = False def __init__(self, arg1, arg2, remotehidden: bool = False) -> None: self.arg1 = arg1 self.arg2 = arg2 class subclass(peer): def __init__(self, arg1, arg2): super(subclass, self).__init__(arg1, arg2, False) sub = subclass(1, 2) print("sub.arg1 is %r" % sub.arg1) When run with Python 3.8.10, 3.9.13, and 3.10.11, the result is: $ py -3.8 prot-test.py Traceback (most recent call last): File "prot-test.py", line 20, in <module> print("sub.arg1 is %r" % sub.arg1) AttributeError: 'subclass' object has no attribute 'arg1' On Python 3.11.9, 3.12.7, and 3.13.0, the result is: $ py -3.11 ../prot-test.py sub.arg1 is 1 Explicitly adding annotations to `peer` like `limitedarguments` didn't help.

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      # diffhelper.py - helper routines for patch

      #

      # 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

      from .i18n import _

      from . import (

          error,

      )

      MISSING_NEWLINE_MARKER = b'\\ No newline at end of file\n'

      def addlines(fp, hunk, lena, lenb, a, b):

          """Read lines from fp into the hunk

          The hunk is parsed into two arrays, a and b. a gets the old state of

          the text, b gets the new state. The control char from the hunk is saved

          when inserting into a, but not b (for performance while deleting files.)

          """

          while True:

              todoa = lena - len(a)

              todob = lenb - len(b)

              num = max(todoa, todob)

              if num == 0:

                  break

              for i in range(num):

                  s = fp.readline()

                  if not s:

                      raise error.ParseError(_(b'incomplete hunk'))

                  if s == MISSING_NEWLINE_MARKER:

                      fixnewline(hunk, a, b)

                      continue

                  if s == b'\n' or s == b'\r\n':

                      # Some patches may be missing the control char

                      # on empty lines. Supply a leading space.

                      s = b' ' + s

                  hunk.append(s)

                  if s.startswith(b'+'):

                      b.append(s[1:])

                  elif s.startswith(b'-'):

                      a.append(s)

                  else:

                      b.append(s[1:])

                      a.append(s)

      def fixnewline(hunk, a, b):

          """Fix up the last lines of a and b when the patch has no newline at EOF"""

          l = hunk[-1]

          # tolerate CRLF in last line

          if l.endswith(b'\r\n'):

              hline = l[:-2]

          else:

              hline = l[:-1]

          if hline.startswith((b' ', b'+')):

              b[-1] = hline[1:]

          if hline.startswith((b' ', b'-')):

              a[-1] = hline

          hunk[-1] = hline

      def testhunk(a, b, bstart):

          """Compare the lines in a with the lines in b

          a is assumed to have a control char at the start of each line, this char

          is ignored in the compare.

          """

          alen = len(a)

          blen = len(b)

          if alen > blen - bstart or bstart < 0:

              return False

          for i in range(alen):

              if a[i][1:] != b[i + bstart]:

                  return False

          return True

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				# diffhelper.py - helper routines for patch
				#
				# 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

				from .i18n import _

				from . import (
				error,
				)

				MISSING_NEWLINE_MARKER = b'\\ No newline at end of file\n'


				def addlines(fp, hunk, lena, lenb, a, b):
				"""Read lines from fp into the hunk

				The hunk is parsed into two arrays, a and b. a gets the old state of
				the text, b gets the new state. The control char from the hunk is saved
				when inserting into a, but not b (for performance while deleting files.)
				"""
				while True:
				todoa = lena - len(a)
				todob = lenb - len(b)
				num = max(todoa, todob)
				if num == 0:
				break
				for i in range(num):
				s = fp.readline()
				if not s:
				raise error.ParseError(_(b'incomplete hunk'))
				if s == MISSING_NEWLINE_MARKER:
				fixnewline(hunk, a, b)
				continue
				if s == b'\n' or s == b'\r\n':
				# Some patches may be missing the control char
				# on empty lines. Supply a leading space.
				s = b' ' + s
				hunk.append(s)
				if s.startswith(b'+'):
				b.append(s[1:])
				elif s.startswith(b'-'):
				a.append(s)
				else:
				b.append(s[1:])
				a.append(s)


				def fixnewline(hunk, a, b):
				"""Fix up the last lines of a and b when the patch has no newline at EOF"""
				l = hunk[-1]
				# tolerate CRLF in last line
				if l.endswith(b'\r\n'):
				hline = l[:-2]
				else:
				hline = l[:-1]

				if hline.startswith((b' ', b'+')):
				b[-1] = hline[1:]
				if hline.startswith((b' ', b'-')):
				a[-1] = hline
				hunk[-1] = hline


				def testhunk(a, b, bstart):
				"""Compare the lines in a with the lines in b

				a is assumed to have a control char at the start of each line, this char
				is ignored in the compare.
				"""
				alen = len(a)
				blen = len(b)
				if alen > blen - bstart or bstart < 0:
				return False
				for i in range(alen):
				if a[i][1:] != b[i + bstart]:
				return False
				return True