upstream/mercurial-mirror Files · contrib/hgfixes/fix_bytesmod.py

checkheads: take future obsoleted heads into account...

checkheads: take future obsoleted heads into account If we push some successors they will likely create a new head on remote. However as the obsoleted head will disappear after the push we are not really increasing the number of heads. There is several case which will lead to extra being actually pushed. But this first changeset aims to be simple. See the inline comment for details. Without this change, you need to push --force every time you want to push a newer version which is very error prone. The remote side still display +n heads on unbundle because it does not have the obsolete marker at unbundle time.

Renato Cunha - - Load All Authors

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      """Fixer that changes bytes % whatever to a function that actually formats

      it."""

      from lib2to3 import fixer_base

      from lib2to3.fixer_util import is_tuple, Call, Comma, Name, touch_import

      # XXX: Implementing a blacklist in 2to3 turned out to be more troublesome than

      # blacklisting some modules inside the fixers. So, this is what I came with.

      blacklist = ['mercurial/demandimport.py',

                   'mercurial/py3kcompat.py',

                   'mercurial/i18n.py',

                  ]

      def isnumberremainder(formatstr, data):

          try:

              if data.value.isdigit():

                  return True

          except AttributeError:

              return False

      class FixBytesmod(fixer_base.BaseFix):

          # XXX: There's one case (I suppose) I can't handle: when a remainder

          # operation like foo % bar is performed, I can't really know what the

          # contents of foo and bar are. I believe the best approach is to "correct"

          # the to-be-converted code and let bytesformatter handle that case in

          # runtime.

          PATTERN = '''

                    term< formatstr=STRING '%' data=STRING > |

                    term< formatstr=STRING '%' data=atom > |

                    term< formatstr=NAME '%' data=any > |

                    term< formatstr=any '%' data=any >

                    '''

          def transform(self, node, results):

              if self.filename in blacklist:

                  return

              elif self.filename == 'mercurial/util.py':

                  touch_import('.', 'py3kcompat', node=node)

              formatstr = results['formatstr'].clone()

              data = results['data'].clone()

              formatstr.prefix = '' # remove spaces from start

              if isnumberremainder(formatstr, data):

                  return

              # We have two possibilities:

              # 1- An identifier or name is passed, it is going to be a leaf, thus, we

              #    just need to copy its value as an argument to the formatter;

              # 2- A tuple is explicitly passed. In this case, we're gonna explode it

              # to pass to the formatter

              # TODO: Check for normal strings. They don't need to be translated

              if is_tuple(data):

                  args = [formatstr, Comma().clone()] + \

                         [c.clone() for c in data.children[:]]

              else:

                  args = [formatstr, Comma().clone(), data]

              call = Call(Name('bytesformatter', prefix = ' '), args)

              return call

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				"""Fixer that changes bytes % whatever to a function that actually formats
				it."""

				from lib2to3 import fixer_base
				from lib2to3.fixer_util import is_tuple, Call, Comma, Name, touch_import

				# XXX: Implementing a blacklist in 2to3 turned out to be more troublesome than
				# blacklisting some modules inside the fixers. So, this is what I came with.

				blacklist = ['mercurial/demandimport.py',
				'mercurial/py3kcompat.py',
				'mercurial/i18n.py',
				]

				def isnumberremainder(formatstr, data):
				try:
				if data.value.isdigit():
				return True
				except AttributeError:
				return False

				class FixBytesmod(fixer_base.BaseFix):
				# XXX: There's one case (I suppose) I can't handle: when a remainder
				# operation like foo % bar is performed, I can't really know what the
				# contents of foo and bar are. I believe the best approach is to "correct"
				# the to-be-converted code and let bytesformatter handle that case in
				# runtime.
				PATTERN = '''
				term< formatstr=STRING '%' data=STRING > \|
				term< formatstr=STRING '%' data=atom > \|
				term< formatstr=NAME '%' data=any > \|
				term< formatstr=any '%' data=any >
				'''

				def transform(self, node, results):
				if self.filename in blacklist:
				return
				elif self.filename == 'mercurial/util.py':
				touch_import('.', 'py3kcompat', node=node)

				formatstr = results['formatstr'].clone()
				data = results['data'].clone()
				formatstr.prefix = '' # remove spaces from start

				if isnumberremainder(formatstr, data):
				return

				# We have two possibilities:
				# 1- An identifier or name is passed, it is going to be a leaf, thus, we
				# just need to copy its value as an argument to the formatter;
				# 2- A tuple is explicitly passed. In this case, we're gonna explode it
				# to pass to the formatter
				# TODO: Check for normal strings. They don't need to be translated

				if is_tuple(data):
				args = [formatstr, Comma().clone()] + \
				[c.clone() for c in data.children[:]]
				else:
				args = [formatstr, Comma().clone(), data]

				call = Call(Name('bytesformatter', prefix = ' '), args)
				return call