import numbers
import re
+from collections import OrderedDict
from fractions import Fraction, gcd
__all__ = [
'Expression',
- 'Symbol', 'symbols',
+ 'Symbol', 'symbols', 'symbolname', 'symbolnames',
'Constant',
]
'_constant',
'_symbols',
'_dimension',
+ '_hash',
)
def __new__(cls, coefficients=None, constant=0):
self = object().__new__(cls)
self._coefficients = {}
for symbol, coefficient in coefficients:
- if isinstance(symbol, Symbol):
- symbol = symbol.name
- elif not isinstance(symbol, str):
- raise TypeError('symbols must be strings or Symbol instances')
+ symbol = symbolname(symbol)
if isinstance(coefficient, Constant):
coefficient = coefficient.constant
if not isinstance(coefficient, numbers.Rational):
raise TypeError('coefficients must be rational numbers '
'or Constant instances')
self._coefficients[symbol] = coefficient
+ self._coefficients = OrderedDict(sorted(self._coefficients.items()))
if isinstance(constant, Constant):
constant = constant.constant
if not isinstance(constant, numbers.Rational):
raise TypeError('constant must be a rational number '
'or a Constant instance')
self._constant = constant
- self._symbols = tuple(sorted(self._coefficients))
+ self._symbols = tuple(self._coefficients)
self._dimension = len(self._symbols)
+ self._hash = hash((tuple(self._coefficients.items()), self._constant))
return self
def coefficient(self, symbol):
- if isinstance(symbol, Symbol):
- symbol = str(symbol)
- elif not isinstance(symbol, str):
- raise TypeError('symbol must be a string or a Symbol instance')
+ symbol = symbolname(symbol)
try:
return self._coefficients[symbol]
except KeyError:
__getitem__ = coefficient
def coefficients(self):
- for symbol in self.symbols:
- yield symbol, self.coefficient(symbol)
+ yield from self._coefficients.items()
@property
def constant(self):
def dimension(self):
return self._dimension
+ def __hash__(self):
+ return self._hash
+
def isconstant(self):
return False
from .polyhedra import Gt
return Gt(self, other)
- def __hash__(self):
- return hash((tuple(sorted(self._coefficients.items())), self._constant))
-
def _toint(self):
lcm = functools.reduce(lambda a, b: a*b // gcd(a, b),
[value.denominator for value in self.values()])
class Symbol(Expression):
- __slots__ = Expression.__slots__ + (
+ __slots__ = (
'_name',
+ '_hash',
)
def __new__(cls, name):
- if isinstance(name, Symbol):
- name = name.name
- elif not isinstance(name, str):
- raise TypeError('name must be a string or a Symbol instance')
- name = name.strip()
+ name = symbolname(name)
self = object().__new__(cls)
- self._coefficients = {name: 1}
- self._constant = 0
- self._symbols = tuple(name)
self._name = name
- self._dimension = 1
+ self._hash = hash(self._name)
return self
@property
def name(self):
return self._name
+ def __hash__(self):
+ return self._hash
+
+ def coefficient(self, symbol):
+ symbol = symbolname(symbol)
+ if symbol == self.name:
+ return 1
+ else:
+ return 0
+
+ def coefficients(self):
+ yield self.name, 1
+
+ @property
+ def constant(self):
+ return 0
+
+ @property
+ def symbols(self):
+ return self.name,
+
+ @property
+ def dimension(self):
+ return 1
+
def issymbol(self):
return True
+ def __eq__(self, other):
+ return isinstance(other, Symbol) and self.name == other.name
+
@classmethod
def _fromast(cls, node):
if isinstance(node, ast.Module) and len(node.body) == 1:
names = names.replace(',', ' ').split()
return (Symbol(name) for name in names)
+def symbolname(symbol):
+ if isinstance(symbol, str):
+ return symbol.strip()
+ elif isinstance(symbol, Symbol):
+ return symbol.name
+ else:
+ raise TypeError('symbol must be a string or a Symbol instance')
+
+def symbolnames(symbols):
+ if isinstance(symbols, str):
+ return symbols.replace(',', ' ').split()
+ return (symbolname(symbol) for symbol in symbols)
+
class Constant(Expression):
+ __slots__ = (
+ '_constant',
+ '_hash',
+ )
+
def __new__(cls, numerator=0, denominator=None):
self = object().__new__(cls)
if denominator is None and isinstance(numerator, Constant):
self._constant = numerator.constant
else:
self._constant = Fraction(numerator, denominator)
- self._coefficients = {}
- self._symbols = ()
- self._dimension = 0
+ self._hash = hash(self._constant)
return self
+ def __hash__(self):
+ return self._hash
+
+ def coefficient(self, symbol):
+ symbol = symbolname(symbol)
+ return 0
+
+ def coefficients(self):
+ yield from []
+
+ @property
+ def symbols(self):
+ return ()
+
+ @property
+ def dimension(self):
+ return 0
+
def isconstant(self):
return True
+ @_polymorphic
+ def __eq__(self, other):
+ return isinstance(other, Constant) and self.constant == other.constant
+
def __bool__(self):
return self.constant != 0