prebuilt/darwin-x86_64/lib/python2.7/lib2to3/fixes/fix_tuple_params.py - toolchain/prebuilts/ndk-darwin/r21 - Git at Google

 """Fixer for function definitions with tuple parameters.

 def func(((a, b), c), d):
     ...

     ->

 def func(x, d):
     ((a, b), c) = x
     ...

 It will also support lambdas:

     lambda (x, y): x + y -> lambda t: t[0] + t[1]

     # The parens are a syntax error in Python 3
     lambda (x): x + y -> lambda x: x + y
 """
 # Author: Collin Winter

 # Local imports
 from .. import pytree
 from ..pgen2 import token
 from .. import fixer_base
 from ..fixer_util import Assign, Name, Newline, Number, Subscript, syms

 def is_docstring(stmt):
     return isinstance(stmt, pytree.Node) and \
            stmt.children[0].type == token.STRING

 class FixTupleParams(fixer_base.BaseFix):
     run_order = 4 #use a lower order since lambda is part of other
                   #patterns
     BM_compatible = True

     PATTERN = """
               funcdef< 'def' any parameters< '(' args=any ')' >
                        ['->' any] ':' suite=any+ >
               |
               lambda=
               lambdef< 'lambda' args=vfpdef< '(' inner=any ')' >
                        ':' body=any
               >
               """

     def transform(self, node, results):
         if "lambda" in results:
             return self.transform_lambda(node, results)

         new_lines = []
         suite = results["suite"]
         args = results["args"]
         # This crap is so "def foo(...): x = 5; y = 7" is handled correctly.
         # TODO(cwinter): suite-cleanup
         if suite[0].children[1].type == token.INDENT:
             start = 2
             indent = suite[0].children[1].value
             end = Newline()
         else:
             start = 0
             indent = u"; "
             end = pytree.Leaf(token.INDENT, u"")

         # We need access to self for new_name(), and making this a method
         #  doesn't feel right. Closing over self and new_lines makes the
         #  code below cleaner.
         def handle_tuple(tuple_arg, add_prefix=False):
             n = Name(self.new_name())
             arg = tuple_arg.clone()
             arg.prefix = u""
             stmt = Assign(arg, n.clone())
             if add_prefix:
                 n.prefix = u" "
             tuple_arg.replace(n)
             new_lines.append(pytree.Node(syms.simple_stmt,
                                          [stmt, end.clone()]))

         if args.type == syms.tfpdef:
             handle_tuple(args)
         elif args.type == syms.typedargslist:
             for i, arg in enumerate(args.children):
                 if arg.type == syms.tfpdef:
                     # Without add_prefix, the emitted code is correct,
                     #  just ugly.
                     handle_tuple(arg, add_prefix=(i > 0))

         if not new_lines:
             return

         # This isn't strictly necessary, but it plays nicely with other fixers.
         # TODO(cwinter) get rid of this when children becomes a smart list
         for line in new_lines:
             line.parent = suite[0]

         # TODO(cwinter) suite-cleanup
         after = start
         if start == 0:
             new_lines[0].prefix = u" "
         elif is_docstring(suite[0].children[start]):
             new_lines[0].prefix = indent
             after = start + 1

         for line in new_lines:
             line.parent = suite[0]
         suite[0].children[after:after] = new_lines
         for i in range(after+1, after+len(new_lines)+1):
             suite[0].children[i].prefix = indent
         suite[0].changed()

     def transform_lambda(self, node, results):
         args = results["args"]
         body = results["body"]
         inner = simplify_args(results["inner"])

         # Replace lambda ((((x)))): x  with lambda x: x
         if inner.type == token.NAME:
             inner = inner.clone()
             inner.prefix = u" "
             args.replace(inner)
             return

         params = find_params(args)
         to_index = map_to_index(params)
         tup_name = self.new_name(tuple_name(params))

         new_param = Name(tup_name, prefix=u" ")
         args.replace(new_param.clone())
         for n in body.post_order():
             if n.type == token.NAME and n.value in to_index:
                 subscripts = [c.clone() for c in to_index[n.value]]
                 new = pytree.Node(syms.power,
                                   [new_param.clone()] + subscripts)
                 new.prefix = n.prefix
                 n.replace(new)


 ### Helper functions for transform_lambda()

 def simplify_args(node):
     if node.type in (syms.vfplist, token.NAME):
         return node
     elif node.type == syms.vfpdef:
         # These look like vfpdef< '(' x ')' > where x is NAME
         # or another vfpdef instance (leading to recursion).
         while node.type == syms.vfpdef:
             node = node.children[1]
         return node
     raise RuntimeError("Received unexpected node %s" % node)

 def find_params(node):
     if node.type == syms.vfpdef:
         return find_params(node.children[1])
     elif node.type == token.NAME:
         return node.value
     return [find_params(c) for c in node.children if c.type != token.COMMA]

 def map_to_index(param_list, prefix=[], d=None):
     if d is None:
         d = {}
     for i, obj in enumerate(param_list):
         trailer = [Subscript(Number(unicode(i)))]
         if isinstance(obj, list):
             map_to_index(obj, trailer, d=d)
         else:
             d[obj] = prefix + trailer
     return d

 def tuple_name(param_list):
     l = []
     for obj in param_list:
         if isinstance(obj, list):
             l.append(tuple_name(obj))
         else:
             l.append(obj)
     return u"_".join(l)
	"""Fixer for function definitions with tuple parameters.

	def func(((a, b), c), d):
	...

	->

	def func(x, d):
	((a, b), c) = x
	...

	It will also support lambdas:

	lambda (x, y): x + y -> lambda t: t[0] + t[1]

	# The parens are a syntax error in Python 3
	lambda (x): x + y -> lambda x: x + y
	"""
	# Author: Collin Winter

	# Local imports
	from .. import pytree
	from ..pgen2 import token
	from .. import fixer_base
	from ..fixer_util import Assign, Name, Newline, Number, Subscript, syms

	def is_docstring(stmt):
	return isinstance(stmt, pytree.Node) and \
	stmt.children[0].type == token.STRING

	class FixTupleParams(fixer_base.BaseFix):
	run_order = 4 #use a lower order since lambda is part of other
	#patterns
	BM_compatible = True

	PATTERN = """
	funcdef< 'def' any parameters< '(' args=any ')' >
	['->' any] ':' suite=any+ >
	\|
	lambda=
	lambdef< 'lambda' args=vfpdef< '(' inner=any ')' >
	':' body=any
	>
	"""

	def transform(self, node, results):
	if "lambda" in results:
	return self.transform_lambda(node, results)

	new_lines = []
	suite = results["suite"]
	args = results["args"]
	# This crap is so "def foo(...): x = 5; y = 7" is handled correctly.
	# TODO(cwinter): suite-cleanup
	if suite[0].children[1].type == token.INDENT:
	start = 2
	indent = suite[0].children[1].value
	end = Newline()
	else:
	start = 0
	indent = u"; "
	end = pytree.Leaf(token.INDENT, u"")

	# We need access to self for new_name(), and making this a method
	# doesn't feel right. Closing over self and new_lines makes the
	# code below cleaner.
	def handle_tuple(tuple_arg, add_prefix=False):
	n = Name(self.new_name())
	arg = tuple_arg.clone()
	arg.prefix = u""
	stmt = Assign(arg, n.clone())
	if add_prefix:
	n.prefix = u" "
	tuple_arg.replace(n)
	new_lines.append(pytree.Node(syms.simple_stmt,
	[stmt, end.clone()]))

	if args.type == syms.tfpdef:
	handle_tuple(args)
	elif args.type == syms.typedargslist:
	for i, arg in enumerate(args.children):
	if arg.type == syms.tfpdef:
	# Without add_prefix, the emitted code is correct,
	# just ugly.
	handle_tuple(arg, add_prefix=(i > 0))

	if not new_lines:
	return

	# This isn't strictly necessary, but it plays nicely with other fixers.
	# TODO(cwinter) get rid of this when children becomes a smart list
	for line in new_lines:
	line.parent = suite[0]

	# TODO(cwinter) suite-cleanup
	after = start
	if start == 0:
	new_lines[0].prefix = u" "
	elif is_docstring(suite[0].children[start]):
	new_lines[0].prefix = indent
	after = start + 1

	for line in new_lines:
	line.parent = suite[0]
	suite[0].children[after:after] = new_lines
	for i in range(after+1, after+len(new_lines)+1):
	suite[0].children[i].prefix = indent
	suite[0].changed()

	def transform_lambda(self, node, results):
	args = results["args"]
	body = results["body"]
	inner = simplify_args(results["inner"])

	# Replace lambda ((((x)))): x with lambda x: x
	if inner.type == token.NAME:
	inner = inner.clone()
	inner.prefix = u" "
	args.replace(inner)
	return

	params = find_params(args)
	to_index = map_to_index(params)
	tup_name = self.new_name(tuple_name(params))

	new_param = Name(tup_name, prefix=u" ")
	args.replace(new_param.clone())
	for n in body.post_order():
	if n.type == token.NAME and n.value in to_index:
	subscripts = [c.clone() for c in to_index[n.value]]
	new = pytree.Node(syms.power,
	[new_param.clone()] + subscripts)
	new.prefix = n.prefix
	n.replace(new)


	### Helper functions for transform_lambda()

	def simplify_args(node):
	if node.type in (syms.vfplist, token.NAME):
	return node
	elif node.type == syms.vfpdef:
	# These look like vfpdef< '(' x ')' > where x is NAME
	# or another vfpdef instance (leading to recursion).
	while node.type == syms.vfpdef:
	node = node.children[1]
	return node
	raise RuntimeError("Received unexpected node %s" % node)

	def find_params(node):
	if node.type == syms.vfpdef:
	return find_params(node.children[1])
	elif node.type == token.NAME:
	return node.value
	return [find_params(c) for c in node.children if c.type != token.COMMA]

	def map_to_index(param_list, prefix=[], d=None):
	if d is None:
	d = {}
	for i, obj in enumerate(param_list):
	trailer = [Subscript(Number(unicode(i)))]
	if isinstance(obj, list):
	map_to_index(obj, trailer, d=d)
	else:
	d[obj] = prefix + trailer
	return d

	def tuple_name(param_list):
	l = []
	for obj in param_list:
	if isinstance(obj, list):
	l.append(tuple_name(obj))
	else:
	l.append(obj)
	return u"_".join(l)