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268 lines
7.0 KiB
268 lines
7.0 KiB
"""
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Handlers for keys related to number theory: prime, even, odd, etc.
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"""
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from sympy.assumptions import Q, ask
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from sympy.core import Add, Basic, Expr, Float, Mul, Pow, S
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from sympy.core.numbers import (ImaginaryUnit, Infinity, Integer, NaN,
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NegativeInfinity, NumberSymbol, Rational)
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from sympy.functions import Abs, im, re
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from sympy.ntheory import isprime
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from sympy.multipledispatch import MDNotImplementedError
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from ..predicates.ntheory import (PrimePredicate, CompositePredicate,
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EvenPredicate, OddPredicate)
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# PrimePredicate
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def _PrimePredicate_number(expr, assumptions):
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# helper method
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exact = not expr.atoms(Float)
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try:
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i = int(expr.round())
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if (expr - i).equals(0) is False:
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raise TypeError
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except TypeError:
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return False
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if exact:
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return isprime(i)
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# when not exact, we won't give a True or False
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# since the number represents an approximate value
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@PrimePredicate.register(Expr)
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def _(expr, assumptions):
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ret = expr.is_prime
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if ret is None:
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raise MDNotImplementedError
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return ret
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@PrimePredicate.register(Basic)
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def _(expr, assumptions):
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if expr.is_number:
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return _PrimePredicate_number(expr, assumptions)
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@PrimePredicate.register(Mul)
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def _(expr, assumptions):
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if expr.is_number:
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return _PrimePredicate_number(expr, assumptions)
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for arg in expr.args:
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if not ask(Q.integer(arg), assumptions):
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return None
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for arg in expr.args:
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if arg.is_number and arg.is_composite:
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return False
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@PrimePredicate.register(Pow)
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def _(expr, assumptions):
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"""
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Integer**Integer -> !Prime
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"""
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if expr.is_number:
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return _PrimePredicate_number(expr, assumptions)
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if ask(Q.integer(expr.exp), assumptions) and \
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ask(Q.integer(expr.base), assumptions):
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return False
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@PrimePredicate.register(Integer)
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def _(expr, assumptions):
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return isprime(expr)
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@PrimePredicate.register_many(Rational, Infinity, NegativeInfinity, ImaginaryUnit)
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def _(expr, assumptions):
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return False
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@PrimePredicate.register(Float)
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def _(expr, assumptions):
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return _PrimePredicate_number(expr, assumptions)
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@PrimePredicate.register(NumberSymbol)
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def _(expr, assumptions):
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return _PrimePredicate_number(expr, assumptions)
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@PrimePredicate.register(NaN)
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def _(expr, assumptions):
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return None
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# CompositePredicate
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@CompositePredicate.register(Expr)
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def _(expr, assumptions):
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ret = expr.is_composite
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if ret is None:
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raise MDNotImplementedError
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return ret
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@CompositePredicate.register(Basic)
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def _(expr, assumptions):
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_positive = ask(Q.positive(expr), assumptions)
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if _positive:
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_integer = ask(Q.integer(expr), assumptions)
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if _integer:
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_prime = ask(Q.prime(expr), assumptions)
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if _prime is None:
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return
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# Positive integer which is not prime is not
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# necessarily composite
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if expr.equals(1):
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return False
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return not _prime
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else:
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return _integer
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else:
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return _positive
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# EvenPredicate
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def _EvenPredicate_number(expr, assumptions):
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# helper method
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try:
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i = int(expr.round())
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if not (expr - i).equals(0):
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raise TypeError
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except TypeError:
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return False
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if isinstance(expr, (float, Float)):
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return False
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return i % 2 == 0
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@EvenPredicate.register(Expr)
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def _(expr, assumptions):
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ret = expr.is_even
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if ret is None:
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raise MDNotImplementedError
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return ret
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@EvenPredicate.register(Basic)
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def _(expr, assumptions):
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if expr.is_number:
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return _EvenPredicate_number(expr, assumptions)
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@EvenPredicate.register(Mul)
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def _(expr, assumptions):
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"""
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Even * Integer -> Even
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Even * Odd -> Even
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Integer * Odd -> ?
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Odd * Odd -> Odd
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Even * Even -> Even
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Integer * Integer -> Even if Integer + Integer = Odd
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otherwise -> ?
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"""
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if expr.is_number:
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return _EvenPredicate_number(expr, assumptions)
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even, odd, irrational, acc = False, 0, False, 1
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for arg in expr.args:
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# check for all integers and at least one even
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if ask(Q.integer(arg), assumptions):
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if ask(Q.even(arg), assumptions):
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even = True
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elif ask(Q.odd(arg), assumptions):
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odd += 1
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elif not even and acc != 1:
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if ask(Q.odd(acc + arg), assumptions):
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even = True
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elif ask(Q.irrational(arg), assumptions):
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# one irrational makes the result False
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# two makes it undefined
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if irrational:
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break
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irrational = True
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else:
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break
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acc = arg
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else:
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if irrational:
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return False
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if even:
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return True
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if odd == len(expr.args):
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return False
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@EvenPredicate.register(Add)
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def _(expr, assumptions):
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"""
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Even + Odd -> Odd
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Even + Even -> Even
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Odd + Odd -> Even
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"""
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if expr.is_number:
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return _EvenPredicate_number(expr, assumptions)
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_result = True
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for arg in expr.args:
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if ask(Q.even(arg), assumptions):
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pass
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elif ask(Q.odd(arg), assumptions):
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_result = not _result
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else:
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break
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else:
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return _result
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@EvenPredicate.register(Pow)
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def _(expr, assumptions):
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if expr.is_number:
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return _EvenPredicate_number(expr, assumptions)
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if ask(Q.integer(expr.exp), assumptions):
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if ask(Q.positive(expr.exp), assumptions):
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return ask(Q.even(expr.base), assumptions)
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elif ask(~Q.negative(expr.exp) & Q.odd(expr.base), assumptions):
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return False
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elif expr.base is S.NegativeOne:
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return False
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@EvenPredicate.register(Integer)
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def _(expr, assumptions):
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return not bool(expr.p & 1)
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@EvenPredicate.register_many(Rational, Infinity, NegativeInfinity, ImaginaryUnit)
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def _(expr, assumptions):
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return False
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@EvenPredicate.register(NumberSymbol)
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def _(expr, assumptions):
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return _EvenPredicate_number(expr, assumptions)
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@EvenPredicate.register(Abs)
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def _(expr, assumptions):
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if ask(Q.real(expr.args[0]), assumptions):
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return ask(Q.even(expr.args[0]), assumptions)
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@EvenPredicate.register(re)
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def _(expr, assumptions):
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if ask(Q.real(expr.args[0]), assumptions):
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return ask(Q.even(expr.args[0]), assumptions)
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@EvenPredicate.register(im)
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def _(expr, assumptions):
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if ask(Q.real(expr.args[0]), assumptions):
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return True
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@EvenPredicate.register(NaN)
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def _(expr, assumptions):
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return None
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# OddPredicate
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@OddPredicate.register(Expr)
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def _(expr, assumptions):
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ret = expr.is_odd
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if ret is None:
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raise MDNotImplementedError
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return ret
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@OddPredicate.register(Basic)
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def _(expr, assumptions):
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_integer = ask(Q.integer(expr), assumptions)
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if _integer:
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_even = ask(Q.even(expr), assumptions)
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if _even is None:
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return None
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return not _even
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return _integer
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