upstream/ipython Files · IPython/utils/py3compat.py

save future compile directives from ipython -i module.py

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      # coding: utf-8

      """Compatibility tricks for Python 3. Mainly to do with unicode."""

      import functools

      import os

      import sys

      import re

      import types

      from .encoding import DEFAULT_ENCODING

      def no_code(x, encoding=None):

          return x

      def decode(s, encoding=None):

          encoding = encoding or DEFAULT_ENCODING

          return s.decode(encoding, "replace")

      def encode(u, encoding=None):

          encoding = encoding or DEFAULT_ENCODING

          return u.encode(encoding, "replace")

      def cast_unicode(s, encoding=None):

          if isinstance(s, bytes):

              return decode(s, encoding)

          return s

      def cast_bytes(s, encoding=None):

          if not isinstance(s, bytes):

              return encode(s, encoding)

          return s

      def _modify_str_or_docstring(str_change_func):

          @functools.wraps(str_change_func)

          def wrapper(func_or_str):

              if isinstance(func_or_str, string_types):

                  func = None

                  doc = func_or_str

              else:

                  func = func_or_str

                  doc = func.__doc__

              doc = str_change_func(doc)

              if func:

                  func.__doc__ = doc

                  return func

              return doc

          return wrapper

      def safe_unicode(e):

          """unicode(e) with various fallbacks. Used for exceptions, which may not be

          safe to call unicode() on.

          """

          try:

              return unicode_type(e)

          except UnicodeError:

              pass

          try:

              return str_to_unicode(str(e))

          except UnicodeError:

              pass

          try:

              return str_to_unicode(repr(e))

          except UnicodeError:

              pass

          return u'Unrecoverably corrupt evalue'

      if sys.version_info[0] >= 3:

          PY3 = True

          # keep reference to builtin_mod because the kernel overrides that value

          # to forward requests to a frontend.

          def input(prompt=''):

              return builtin_mod.input(prompt)

          builtin_mod_name = "builtins"

          import builtins as builtin_mod

          str_to_unicode = no_code

          unicode_to_str = no_code

          str_to_bytes = encode

          bytes_to_str = decode

          cast_bytes_py2 = no_code

          cast_unicode_py2 = no_code

          string_types = (str,)

          unicode_type = str

          def isidentifier(s, dotted=False):

              if dotted:

                  return all(isidentifier(a) for a in s.split("."))

              return s.isidentifier()

          xrange = range

          def iteritems(d): return iter(d.items())

          def itervalues(d): return iter(d.values())

          getcwd = os.getcwd

          MethodType = types.MethodType

          def execfile(fname, glob, loc=None, compiler=None):

              loc = loc if (loc is not None) else glob

              with open(fname, 'rb') as f:

                  compiler = compiler or compile

                  exec(compiler(f.read(), fname, 'exec'), glob, loc)

          # Refactor print statements in doctests.

          _print_statement_re = re.compile(r"\bprint (?P<expr>.*)$", re.MULTILINE)

          def _print_statement_sub(match):

              expr = match.groups('expr')

              return "print(%s)" % expr

          @_modify_str_or_docstring

          def doctest_refactor_print(doc):

              """Refactor 'print x' statements in a doctest to print(x) style. 2to3

              unfortunately doesn't pick up on our doctests.

              Can accept a string or a function, so it can be used as a decorator."""

              return _print_statement_re.sub(_print_statement_sub, doc)

          # Abstract u'abc' syntax:

          @_modify_str_or_docstring

          def u_format(s):

              """"{u}'abc'" --> "'abc'" (Python 3)

              Accepts a string or a function, so it can be used as a decorator."""

              return s.format(u='')

          def get_closure(f):

              """Get a function's closure attribute"""

              return f.__closure__

      else:

          PY3 = False

          # keep reference to builtin_mod because the kernel overrides that value

          # to forward requests to a frontend.

          def input(prompt=''):

              return builtin_mod.raw_input(prompt)

          builtin_mod_name = "__builtin__"

          import __builtin__ as builtin_mod

          str_to_unicode = decode

          unicode_to_str = encode

          str_to_bytes = no_code

          bytes_to_str = no_code

          cast_bytes_py2 = cast_bytes

          cast_unicode_py2 = cast_unicode

          string_types = (str, unicode)

          unicode_type = unicode

          import re

          _name_re = re.compile(r"[a-zA-Z_][a-zA-Z0-9_]*$")

          def isidentifier(s, dotted=False):

              if dotted:

                  return all(isidentifier(a) for a in s.split("."))

              return bool(_name_re.match(s))

          xrange = xrange

          def iteritems(d): return d.iteritems()

          def itervalues(d): return d.itervalues()

          getcwd = os.getcwdu

          def MethodType(func, instance):

              return types.MethodType(func, instance, type(instance))

          def doctest_refactor_print(func_or_str):

              return func_or_str

          def get_closure(f):

              """Get a function's closure attribute"""

              return f.func_closure

          # Abstract u'abc' syntax:

          @_modify_str_or_docstring

          def u_format(s):

              """"{u}'abc'" --> "u'abc'" (Python 2)

              Accepts a string or a function, so it can be used as a decorator."""

              return s.format(u='u')

          if sys.platform == 'win32':

              def execfile(fname, glob=None, loc=None, compiler=None):

                  loc = loc if (loc is not None) else glob

                  # The rstrip() is necessary b/c trailing whitespace in files will

                  # cause an IndentationError in Python 2.6 (this was fixed in 2.7,

                  # but we still support 2.6).  See issue 1027.

                  scripttext = builtin_mod.open(fname).read().rstrip() + '\n'

                  # compile converts unicode filename to str assuming

                  # ascii. Let's do the conversion before calling compile

                  if isinstance(fname, unicode):

                      filename = unicode_to_str(fname)

                  else:

                      filename = fname

                  compiler = compiler or compile

                  exec(compiler(scripttext, filename, 'exec'), glob, loc)

          else:

              def execfile(fname, glob=None, loc=None, compiler=None):

                  if isinstance(fname, unicode):

                      filename = fname.encode(sys.getfilesystemencoding())

                  else:

                      filename = fname

                  where = [ns for ns in [glob, loc] if ns is not None]

                  if compiler is None:

                      builtin_mod.execfile(filename, *where)

                  else:

                      scripttext = builtin_mod.open(fname).read().rstrip() + '\n'

                      exec(compiler(scripttext, filename, 'exec'), glob, loc)

      def annotate(**kwargs):

          """Python 3 compatible function annotation for Python 2."""

          if not kwargs:

              raise ValueError('annotations must be provided as keyword arguments')

          def dec(f):

              if hasattr(f, '__annotations__'):

                  for k, v in kwargs.items():

                      f.__annotations__[k] = v

              else:

                  f.__annotations__ = kwargs

              return f

          return dec

      # Parts below taken from six:

      # Copyright (c) 2010-2013 Benjamin Peterson

      #

      # Permission is hereby granted, free of charge, to any person obtaining a copy

      # of this software and associated documentation files (the "Software"), to deal

      # in the Software without restriction, including without limitation the rights

      # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell

      # copies of the Software, and to permit persons to whom the Software is

      # furnished to do so, subject to the following conditions:

      #

      # The above copyright notice and this permission notice shall be included in all

      # copies or substantial portions of the Software.

      #

      # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

      # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

      # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE

      # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

      # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,

      # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE

      # SOFTWARE.

      def with_metaclass(meta, *bases):

          """Create a base class with a metaclass."""

          return meta("_NewBase", bases, {})

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				# coding: utf-8
				"""Compatibility tricks for Python 3. Mainly to do with unicode."""
				import functools
				import os
				import sys
				import re
				import types

				from .encoding import DEFAULT_ENCODING

				def no_code(x, encoding=None):
				return x

				def decode(s, encoding=None):
				encoding = encoding or DEFAULT_ENCODING
				return s.decode(encoding, "replace")

				def encode(u, encoding=None):
				encoding = encoding or DEFAULT_ENCODING
				return u.encode(encoding, "replace")


				def cast_unicode(s, encoding=None):
				if isinstance(s, bytes):
				return decode(s, encoding)
				return s

				def cast_bytes(s, encoding=None):
				if not isinstance(s, bytes):
				return encode(s, encoding)
				return s

				def _modify_str_or_docstring(str_change_func):
				@functools.wraps(str_change_func)
				def wrapper(func_or_str):
				if isinstance(func_or_str, string_types):
				func = None
				doc = func_or_str
				else:
				func = func_or_str
				doc = func.__doc__

				doc = str_change_func(doc)

				if func:
				func.__doc__ = doc
				return func
				return doc
				return wrapper

				def safe_unicode(e):
				"""unicode(e) with various fallbacks. Used for exceptions, which may not be
				safe to call unicode() on.
				"""
				try:
				return unicode_type(e)
				except UnicodeError:
				pass

				try:
				return str_to_unicode(str(e))
				except UnicodeError:
				pass

				try:
				return str_to_unicode(repr(e))
				except UnicodeError:
				pass

				return u'Unrecoverably corrupt evalue'

				if sys.version_info[0] >= 3:
				PY3 = True

				# keep reference to builtin_mod because the kernel overrides that value
				# to forward requests to a frontend.
				def input(prompt=''):
				return builtin_mod.input(prompt)

				builtin_mod_name = "builtins"
				import builtins as builtin_mod

				str_to_unicode = no_code
				unicode_to_str = no_code
				str_to_bytes = encode
				bytes_to_str = decode
				cast_bytes_py2 = no_code
				cast_unicode_py2 = no_code

				string_types = (str,)
				unicode_type = str

				def isidentifier(s, dotted=False):
				if dotted:
				return all(isidentifier(a) for a in s.split("."))
				return s.isidentifier()

				xrange = range
				def iteritems(d): return iter(d.items())
				def itervalues(d): return iter(d.values())
				getcwd = os.getcwd

				MethodType = types.MethodType

				def execfile(fname, glob, loc=None, compiler=None):
				loc = loc if (loc is not None) else glob
				with open(fname, 'rb') as f:
				compiler = compiler or compile
				exec(compiler(f.read(), fname, 'exec'), glob, loc)

				# Refactor print statements in doctests.
				_print_statement_re = re.compile(r"\bprint (?P<expr>.*)$", re.MULTILINE)
				def _print_statement_sub(match):
				expr = match.groups('expr')
				return "print(%s)" % expr

				@_modify_str_or_docstring
				def doctest_refactor_print(doc):
				"""Refactor 'print x' statements in a doctest to print(x) style. 2to3
				unfortunately doesn't pick up on our doctests.

				Can accept a string or a function, so it can be used as a decorator."""
				return _print_statement_re.sub(_print_statement_sub, doc)

				# Abstract u'abc' syntax:
				@_modify_str_or_docstring
				def u_format(s):
				""""{u}'abc'" --> "'abc'" (Python 3)

				Accepts a string or a function, so it can be used as a decorator."""
				return s.format(u='')

				def get_closure(f):
				"""Get a function's closure attribute"""
				return f.__closure__

				else:
				PY3 = False

				# keep reference to builtin_mod because the kernel overrides that value
				# to forward requests to a frontend.
				def input(prompt=''):
				return builtin_mod.raw_input(prompt)

				builtin_mod_name = "__builtin__"
				import __builtin__ as builtin_mod

				str_to_unicode = decode
				unicode_to_str = encode
				str_to_bytes = no_code
				bytes_to_str = no_code
				cast_bytes_py2 = cast_bytes
				cast_unicode_py2 = cast_unicode

				string_types = (str, unicode)
				unicode_type = unicode

				import re
				_name_re = re.compile(r"[a-zA-Z_][a-zA-Z0-9_]*$")
				def isidentifier(s, dotted=False):
				if dotted:
				return all(isidentifier(a) for a in s.split("."))
				return bool(_name_re.match(s))

				xrange = xrange
				def iteritems(d): return d.iteritems()
				def itervalues(d): return d.itervalues()
				getcwd = os.getcwdu

				def MethodType(func, instance):
				return types.MethodType(func, instance, type(instance))

				def doctest_refactor_print(func_or_str):
				return func_or_str

				def get_closure(f):
				"""Get a function's closure attribute"""
				return f.func_closure

				# Abstract u'abc' syntax:
				@_modify_str_or_docstring
				def u_format(s):
				""""{u}'abc'" --> "u'abc'" (Python 2)

				Accepts a string or a function, so it can be used as a decorator."""
				return s.format(u='u')

				if sys.platform == 'win32':
				def execfile(fname, glob=None, loc=None, compiler=None):
				loc = loc if (loc is not None) else glob
				# The rstrip() is necessary b/c trailing whitespace in files will
				# cause an IndentationError in Python 2.6 (this was fixed in 2.7,
				# but we still support 2.6). See issue 1027.
				scripttext = builtin_mod.open(fname).read().rstrip() + '\n'
				# compile converts unicode filename to str assuming
				# ascii. Let's do the conversion before calling compile
				if isinstance(fname, unicode):
				filename = unicode_to_str(fname)
				else:
				filename = fname
				compiler = compiler or compile
				exec(compiler(scripttext, filename, 'exec'), glob, loc)

				else:
				def execfile(fname, glob=None, loc=None, compiler=None):
				if isinstance(fname, unicode):
				filename = fname.encode(sys.getfilesystemencoding())
				else:
				filename = fname
				where = [ns for ns in [glob, loc] if ns is not None]
				if compiler is None:
				builtin_mod.execfile(filename, *where)
				else:
				scripttext = builtin_mod.open(fname).read().rstrip() + '\n'
				exec(compiler(scripttext, filename, 'exec'), glob, loc)


				def annotate(**kwargs):
				"""Python 3 compatible function annotation for Python 2."""
				if not kwargs:
				raise ValueError('annotations must be provided as keyword arguments')
				def dec(f):
				if hasattr(f, '__annotations__'):
				for k, v in kwargs.items():
				f.__annotations__[k] = v
				else:
				f.__annotations__ = kwargs
				return f
				return dec


				# Parts below taken from six:
				# Copyright (c) 2010-2013 Benjamin Peterson
				#
				# Permission is hereby granted, free of charge, to any person obtaining a copy
				# of this software and associated documentation files (the "Software"), to deal
				# in the Software without restriction, including without limitation the rights
				# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
				# copies of the Software, and to permit persons to whom the Software is
				# furnished to do so, subject to the following conditions:
				#
				# The above copyright notice and this permission notice shall be included in all
				# copies or substantial portions of the Software.
				#
				# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
				# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
				# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
				# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
				# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
				# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
				# SOFTWARE.

				def with_metaclass(meta, *bases):
				"""Create a base class with a metaclass."""
				return meta("_NewBase", bases, {})