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This localization technique is no longer cost effective. (GH-30818)

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Raymond Hettinger 2022-01-22 20:52:55 -06:00 committed by GitHub
parent 443dec6c9a
commit 7ad52d174a
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1 changed files with 12 additions and 12 deletions
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24
Lib/functools.py
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@ -86,84 +86,84 @@ def wraps(wrapped,
# 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, NotImplemented=NotImplemented):
def _gt_from_lt(self, other):
'Return a > b. Computed by @total_ordering from (not a < b) and (a != b).'
op_result = type(self).__lt__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result and self != other
def _le_from_lt(self, other, NotImplemented=NotImplemented):
def _le_from_lt(self, other):
'Return a <= b. Computed by @total_ordering from (a < b) or (a == b).'
op_result = type(self).__lt__(self, other)
if op_result is NotImplemented:
return op_result
return op_result or self == other
def _ge_from_lt(self, other, NotImplemented=NotImplemented):
def _ge_from_lt(self, other):
'Return a >= b. Computed by @total_ordering from (not a < b).'
op_result = type(self).__lt__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result
def _ge_from_le(self, other, NotImplemented=NotImplemented):
def _ge_from_le(self, other):
'Return a >= b. Computed by @total_ordering from (not a <= b) or (a == b).'
op_result = type(self).__le__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result or self == other
def _lt_from_le(self, other, NotImplemented=NotImplemented):
def _lt_from_le(self, other):
'Return a < b. Computed by @total_ordering from (a <= b) and (a != b).'
op_result = type(self).__le__(self, other)
if op_result is NotImplemented:
return op_result
return op_result and self != other
def _gt_from_le(self, other, NotImplemented=NotImplemented):
def _gt_from_le(self, other):
'Return a > b. Computed by @total_ordering from (not a <= b).'
op_result = type(self).__le__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result
def _lt_from_gt(self, other, NotImplemented=NotImplemented):
def _lt_from_gt(self, other):
'Return a < b. Computed by @total_ordering from (not a > b) and (a != b).'
op_result = type(self).__gt__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result and self != other
def _ge_from_gt(self, other, NotImplemented=NotImplemented):
def _ge_from_gt(self, other):
'Return a >= b. Computed by @total_ordering from (a > b) or (a == b).'
op_result = type(self).__gt__(self, other)
if op_result is NotImplemented:
return op_result
return op_result or self == other
def _le_from_gt(self, other, NotImplemented=NotImplemented):
def _le_from_gt(self, other):
'Return a <= b. Computed by @total_ordering from (not a > b).'
op_result = type(self).__gt__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result
def _le_from_ge(self, other, NotImplemented=NotImplemented):
def _le_from_ge(self, other):
'Return a <= b. Computed by @total_ordering from (not a >= b) or (a == b).'
op_result = type(self).__ge__(self, other)
if op_result is NotImplemented:
return op_result
return not op_result or self == other
def _gt_from_ge(self, other, NotImplemented=NotImplemented):
def _gt_from_ge(self, other):
'Return a > b. Computed by @total_ordering from (a >= b) and (a != b).'
op_result = type(self).__ge__(self, other)
if op_result is NotImplemented:
return op_result
return op_result and self != other
def _lt_from_ge(self, other, NotImplemented=NotImplemented):
def _lt_from_ge(self, other):
'Return a < b. Computed by @total_ordering from (not a >= b).'
op_result = type(self).__ge__(self, other)
if op_result is NotImplemented: