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Cosmetic changes in documentation
[linpy.git]
/
linpy
/
linexprs.py
diff --git
a/linpy/linexprs.py
b/linpy/linexprs.py
index
d62c671
..
a0be583
100644
(file)
--- a/
linpy/linexprs.py
+++ b/
linpy/linexprs.py
@@
-247,26
+247,28
@@
class LinExpr:
"""
Test whether two linear expressions are equal.
"""
"""
Test whether two linear expressions are equal.
"""
- if isinstance(other, LinExpr):
- return self._coefficients == other._coefficients and \
- self._constant == other._constant
- return NotImplemented
-
- def __le__(self, other):
- from .polyhedra import Le
- return Le(self, other)
+ return self._coefficients == other._coefficients and \
+ self._constant == other._constant
+ @_polymorphic
def __lt__(self, other):
def __lt__(self, other):
- from .polyhedra import
Lt
- return
Lt(self, other
)
+ from .polyhedra import
Polyhedron
+ return
Polyhedron([], [other - self - 1]
)
+ @_polymorphic
+ def __le__(self, other):
+ from .polyhedra import Polyhedron
+ return Polyhedron([], [other - self])
+
+ @_polymorphic
def __ge__(self, other):
def __ge__(self, other):
- from .polyhedra import
Ge
- return
Ge(self, other
)
+ from .polyhedra import
Polyhedron
+ return
Polyhedron([], [self - other]
)
+ @_polymorphic
def __gt__(self, other):
def __gt__(self, other):
- from .polyhedra import
Gt
- return
Gt(self, other
)
+ from .polyhedra import
Polyhedron
+ return
Polyhedron([], [self - other - 1]
)
def scaleint(self):
"""
def scaleint(self):
"""
@@
-339,7
+341,7
@@
class LinExpr:
Create an expression from a string. Raise SyntaxError if the string is
not properly formatted.
"""
Create an expression from a string. Raise SyntaxError if the string is
not properly formatted.
"""
- #
add implicit multiplication operators, e.g. '5x' -> '5*x'
+ #
Add implicit multiplication operators, e.g. '5x' -> '5*x'.
string = LinExpr._RE_NUM_VAR.sub(r'\1*\2', string)
tree = ast.parse(string, 'eval')
expr = cls._fromast(tree)
string = LinExpr._RE_NUM_VAR.sub(r'\1*\2', string)
tree = ast.parse(string, 'eval')
expr = cls._fromast(tree)
@@
-405,7
+407,7
@@
class LinExpr:
@classmethod
def fromsympy(cls, expr):
"""
@classmethod
def fromsympy(cls, expr):
"""
- Create a linear expression from a
symp
y expression. Raise TypeError is
+ Create a linear expression from a
SymP
y expression. Raise TypeError is
the sympy expression is not linear.
"""
import sympy
the sympy expression is not linear.
"""
import sympy
@@
-416,7
+418,8
@@
class LinExpr:
if symbol == sympy.S.One:
constant = coefficient
elif isinstance(symbol, sympy.Dummy):
if symbol == sympy.S.One:
constant = coefficient
elif isinstance(symbol, sympy.Dummy):
- # we cannot properly convert dummy symbols
+ # We cannot properly convert dummy symbols with respect to
+ # symbol equalities.
raise TypeError('cannot convert dummy symbols')
elif isinstance(symbol, sympy.Symbol):
symbol = Symbol(symbol.name)
raise TypeError('cannot convert dummy symbols')
elif isinstance(symbol, sympy.Symbol):
symbol = Symbol(symbol.name)
@@
-430,7
+433,7
@@
class LinExpr:
def tosympy(self):
"""
def tosympy(self):
"""
- Convert the linear expression to a
symp
y expression.
+ Convert the linear expression to a
SymP
y expression.
"""
import sympy
expr = 0
"""
import sympy
expr = 0
@@
-450,6
+453,13
@@
class Symbol(LinExpr):
Two instances of Symbol are equal if they have the same name.
"""
Two instances of Symbol are equal if they have the same name.
"""
+ __slots__ = (
+ '_name',
+ '_constant',
+ '_symbols',
+ '_dimension',
+ )
+
def __new__(cls, name):
"""
Return a symbol with the name string given in argument.
def __new__(cls, name):
"""
Return a symbol with the name string given in argument.
@@
-470,6
+480,8
@@
class Symbol(LinExpr):
@property
def _coefficients(self):
@property
def _coefficients(self):
+ # This is not implemented as an attribute, because __hash__ is not
+ # callable in __new__ in class Dummy.
return {self: Fraction(1)}
@property
return {self: Fraction(1)}
@property
@@
-582,6
+594,13
@@
class Rational(LinExpr, Fraction):
fractions.Fraction classes.
"""
fractions.Fraction classes.
"""
+ __slots__ = (
+ '_coefficients',
+ '_constant',
+ '_symbols',
+ '_dimension',
+ ) + Fraction.__slots__
+
def __new__(cls, numerator=0, denominator=None):
self = object().__new__(cls)
self._coefficients = {}
def __new__(cls, numerator=0, denominator=None):
self = object().__new__(cls)
self._coefficients = {}