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authorRaymond Hettinger <python@rcn.com>2015-01-06 06:00:08 (GMT)
committerRaymond Hettinger <python@rcn.com>2015-01-06 06:00:08 (GMT)
commit57a3786a62394cb54ea78b58861c221287b4b895 (patch)
tree7c1e00b699f9d9bc1f0ba7fca4c7da97093bbd92
parent4ae5467134b49581f3a8e33f1ed4f33ff19cfa8b (diff)
parent0603d3049e79d59d1fb16d5a8e0bffcfc85c442c (diff)
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merge
-rw-r--r--Lib/functools.py157
1 files changed, 81 insertions, 76 deletions
diff --git a/Lib/functools.py b/Lib/functools.py
index db8cc82..6f79472 100644
--- a/Lib/functools.py
+++ b/Lib/functools.py
@@ -89,110 +89,115 @@ def wraps(wrapped,
### total_ordering class decorator
################################################################################
-# The correct way to indicate that a comparison operation doesn't
-# recognise the other type is to return NotImplemented and let the
-# interpreter handle raising TypeError if both operands return
-# NotImplemented from their respective comparison methods
-#
-# This makes the implementation of total_ordering more complicated, since
-# we need to be careful not to trigger infinite recursion when two
-# different types that both use this decorator encounter each other.
-#
-# For example, if a type implements __lt__, it's natural to define
-# __gt__ as something like:
-#
-# lambda self, other: not self < other and not self == other
-#
-# However, using the operator syntax like that ends up invoking the full
-# type checking machinery again and means we can end up bouncing back and
-# forth between the two operands until we run out of stack space.
-#
-# The solution is to define helper functions that invoke the appropriate
-# magic methods directly, ensuring we only try each operand once, and
-# return NotImplemented immediately if it is returned from the
-# underlying user provided method. Using this scheme, the __gt__ derived
-# from a user provided __lt__ becomes:
-#
-# 'def __gt__(self, other):' + _not_op_and_not_eq % '__lt__'
-
-# "not a < b" handles "a >= b"
-# "not a <= b" handles "a > b"
-# "not a >= b" handles "a < b"
-# "not a > b" handles "a <= b"
-_not_op = '''
- op_result = self.%s(other)
+# The total ordering functions all invoke the root magic method directly
+# rather than using the corresponding operator. This avoids possible
+# infinite recursion that could occur when the operator dispatch logic
+# detects a NotImplemented result and then calls a reflected method.
+
+def _gt_from_lt(self, other):
+ 'Return a > b. Computed by @total_ordering from (not a < b) and (a != b).'
+ op_result = self.__lt__(other)
+ if op_result is NotImplemented:
+ return NotImplemented
+ return not op_result and self != other
+
+def _le_from_lt(self, other):
+ 'Return a <= b. Computed by @total_ordering from (a < b) or (a == b).'
+ op_result = self.__lt__(other)
+ return op_result or self == other
+
+def _ge_from_lt(self, other):
+ 'Return a >= b. Computed by @total_ordering from (not a < b).'
+ op_result = self.__lt__(other)
if op_result is NotImplemented:
return NotImplemented
return not op_result
-'''
-# "a > b or a == b" handles "a >= b"
-# "a < b or a == b" handles "a <= b"
-_op_or_eq = '''
- op_result = self.%s(other)
+def _ge_from_le(self, other):
+ 'Return a >= b. Computed by @total_ordering from (not a <= b) or (a == b).'
+ op_result = self.__le__(other)
if op_result is NotImplemented:
return NotImplemented
- return op_result or self == other
-'''
-
-# "not (a < b or a == b)" handles "a > b"
-# "not a < b and a != b" is equivalent
-# "not (a > b or a == b)" handles "a < b"
-# "not a > b and a != b" is equivalent
-_not_op_and_not_eq = '''
- op_result = self.%s(other)
+ return not op_result or self == other
+
+def _lt_from_le(self, other):
+ 'Return a < b. Computed by @total_ordering from (a <= b) and (a != b).'
+ op_result = self.__le__(other)
+ if op_result is NotImplemented:
+ return NotImplemented
+ return op_result and self != other
+
+def _gt_from_le(self, other):
+ 'Return a > b. Computed by @total_ordering from (not a <= b).'
+ op_result = self.__le__(other)
+ if op_result is NotImplemented:
+ return NotImplemented
+ return not op_result
+
+def _lt_from_gt(self, other):
+ 'Return a < b. Computed by @total_ordering from (not a > b) and (a != b).'
+ op_result = self.__gt__(other)
if op_result is NotImplemented:
return NotImplemented
return not op_result and self != other
-'''
-# "not a <= b or a == b" handles "a >= b"
-# "not a >= b or a == b" handles "a <= b"
-_not_op_or_eq = '''
- op_result = self.%s(other)
+def _ge_from_gt(self, other):
+ 'Return a >= b. Computed by @total_ordering from (a > b) or (a == b).'
+ op_result = self.__gt__(other)
+ return op_result or self == other
+
+def _le_from_gt(self, other):
+ 'Return a <= b. Computed by @total_ordering from (not a > b).'
+ op_result = self.__gt__(other)
+ if op_result is NotImplemented:
+ return NotImplemented
+ return not op_result
+
+def _le_from_ge(self, other):
+ 'Return a <= b. Computed by @total_ordering from (not a >= b) or (a == b).'
+ op_result = self.__ge__(other)
if op_result is NotImplemented:
return NotImplemented
return not op_result or self == other
-'''
-# "a <= b and not a == b" handles "a < b"
-# "a >= b and not a == b" handles "a > b"
-_op_and_not_eq = '''
- op_result = self.%s(other)
+def _gt_from_ge(self, other):
+ 'Return a > b. Computed by @total_ordering from (a >= b) and (a != b).'
+ op_result = self.__ge__(other)
if op_result is NotImplemented:
return NotImplemented
return op_result and self != other
-'''
+
+def _lt_from_ge(self, other):
+ 'Return a < b. Computed by @total_ordering from (not a >= b).'
+ op_result = self.__ge__(other)
+ if op_result is NotImplemented:
+ return NotImplemented
+ return not op_result
def total_ordering(cls):
"""Class decorator that fills in missing ordering methods"""
convert = {
- '__lt__': {'__gt__': _not_op_and_not_eq,
- '__le__': _op_or_eq,
- '__ge__': _not_op},
- '__le__': {'__ge__': _not_op_or_eq,
- '__lt__': _op_and_not_eq,
- '__gt__': _not_op},
- '__gt__': {'__lt__': _not_op_and_not_eq,
- '__ge__': _op_or_eq,
- '__le__': _not_op},
- '__ge__': {'__le__': _not_op_or_eq,
- '__gt__': _op_and_not_eq,
- '__lt__': _not_op}
+ '__lt__': [('__gt__', _gt_from_lt),
+ ('__le__', _le_from_lt),
+ ('__ge__', _ge_from_lt)],
+ '__le__': [('__ge__', _ge_from_le),
+ ('__lt__', _lt_from_le),
+ ('__gt__', _gt_from_le)],
+ '__gt__': [('__lt__', _lt_from_gt),
+ ('__ge__', _ge_from_gt),
+ ('__le__', _le_from_gt)],
+ '__ge__': [('__le__', _le_from_ge),
+ ('__gt__', _gt_from_ge),
+ ('__lt__', _lt_from_ge)]
}
# Find user-defined comparisons (not those inherited from object).
roots = [op for op in convert if getattr(cls, op, None) is not getattr(object, op, None)]
if not roots:
raise ValueError('must define at least one ordering operation: < > <= >=')
root = max(roots) # prefer __lt__ to __le__ to __gt__ to __ge__
- for opname, opfunc in convert[root].items():
+ for opname, opfunc in convert[root]:
if opname not in roots:
- namespace = {}
- exec('def %s(self, other):%s' % (opname, opfunc % root), namespace)
- opfunc = namespace[opname]
- opfunc.__qualname__ = '%s.%s' % (cls.__qualname__, opname)
- opfunc.__module__ = cls.__module__
- opfunc.__doc__ = getattr(int, opname).__doc__
+ opfunc.__name__ = opname
setattr(cls, opname, opfunc)
return cls