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259 lines
7.0 KiB
259 lines
7.0 KiB
5 months ago
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"""
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This module contains query handlers responsible for calculus queries:
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infinitesimal, finite, etc.
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"""
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from sympy.assumptions import Q, ask
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from sympy.core import Add, Mul, Pow, Symbol
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from sympy.core.numbers import (NegativeInfinity, GoldenRatio,
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Infinity, Exp1, ComplexInfinity, ImaginaryUnit, NaN, Number, Pi, E,
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TribonacciConstant)
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from sympy.functions import cos, exp, log, sign, sin
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from sympy.logic.boolalg import conjuncts
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from ..predicates.calculus import (FinitePredicate, InfinitePredicate,
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PositiveInfinitePredicate, NegativeInfinitePredicate)
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# FinitePredicate
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@FinitePredicate.register(Symbol)
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def _(expr, assumptions):
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"""
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Handles Symbol.
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"""
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if expr.is_finite is not None:
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return expr.is_finite
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if Q.finite(expr) in conjuncts(assumptions):
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return True
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return None
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@FinitePredicate.register(Add)
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def _(expr, assumptions):
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"""
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Return True if expr is bounded, False if not and None if unknown.
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Truth Table:
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+-------+-----+-----------+-----------+
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| | B | U | ? |
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+-------+-----+---+---+---+---+---+---+
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| | |'+'|'-'|'x'|'+'|'-'|'x'|
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+-------+-----+---+---+---+---+---+---+
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| B | B | U | ? |
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+---+---+-----+---+---+---+---+---+---+
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| |'+'| | U | ? | ? | U | ? | ? |
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| +---+-----+---+---+---+---+---+---+
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| U |'-'| | ? | U | ? | ? | U | ? |
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| +---+-----+---+---+---+---+---+---+
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| |'x'| | ? | ? |
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+---+---+-----+---+---+---+---+---+---+
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| ? | | | ? |
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+-------+-----+-----------+---+---+---+
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* 'B' = Bounded
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* 'U' = Unbounded
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* '?' = unknown boundedness
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* '+' = positive sign
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* '-' = negative sign
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* 'x' = sign unknown
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* All Bounded -> True
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* 1 Unbounded and the rest Bounded -> False
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* >1 Unbounded, all with same known sign -> False
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* Any Unknown and unknown sign -> None
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* Else -> None
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When the signs are not the same you can have an undefined
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result as in oo - oo, hence 'bounded' is also undefined.
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"""
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sign = -1 # sign of unknown or infinite
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result = True
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for arg in expr.args:
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_bounded = ask(Q.finite(arg), assumptions)
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if _bounded:
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continue
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s = ask(Q.extended_positive(arg), assumptions)
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# if there has been more than one sign or if the sign of this arg
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# is None and Bounded is None or there was already
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# an unknown sign, return None
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if sign != -1 and s != sign or \
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s is None and None in (_bounded, sign):
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return None
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else:
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sign = s
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# once False, do not change
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if result is not False:
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result = _bounded
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return result
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@FinitePredicate.register(Mul)
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def _(expr, assumptions):
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"""
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Return True if expr is bounded, False if not and None if unknown.
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Truth Table:
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+---+---+---+--------+
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| | B | U | ? |
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+---+---+---+---+----+
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| | | | s | /s |
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+---+---+---+---+----+
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| B | B | U | ? |
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+---+---+---+---+----+
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| U | | U | U | ? |
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+---+---+---+---+----+
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| ? | | | ? |
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+---+---+---+---+----+
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* B = Bounded
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* U = Unbounded
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* ? = unknown boundedness
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* s = signed (hence nonzero)
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* /s = not signed
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"""
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result = True
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for arg in expr.args:
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_bounded = ask(Q.finite(arg), assumptions)
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if _bounded:
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continue
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elif _bounded is None:
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if result is None:
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return None
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if ask(Q.extended_nonzero(arg), assumptions) is None:
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return None
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if result is not False:
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result = None
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else:
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result = False
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return result
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@FinitePredicate.register(Pow)
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def _(expr, assumptions):
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"""
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* Unbounded ** NonZero -> Unbounded
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* Bounded ** Bounded -> Bounded
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* Abs()<=1 ** Positive -> Bounded
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* Abs()>=1 ** Negative -> Bounded
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* Otherwise unknown
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"""
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if expr.base == E:
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return ask(Q.finite(expr.exp), assumptions)
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base_bounded = ask(Q.finite(expr.base), assumptions)
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exp_bounded = ask(Q.finite(expr.exp), assumptions)
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if base_bounded is None and exp_bounded is None: # Common Case
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return None
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if base_bounded is False and ask(Q.extended_nonzero(expr.exp), assumptions):
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return False
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if base_bounded and exp_bounded:
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return True
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if (abs(expr.base) <= 1) == True and ask(Q.extended_positive(expr.exp), assumptions):
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return True
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if (abs(expr.base) >= 1) == True and ask(Q.extended_negative(expr.exp), assumptions):
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return True
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if (abs(expr.base) >= 1) == True and exp_bounded is False:
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return False
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return None
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@FinitePredicate.register(exp)
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def _(expr, assumptions):
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return ask(Q.finite(expr.exp), assumptions)
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@FinitePredicate.register(log)
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def _(expr, assumptions):
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# After complex -> finite fact is registered to new assumption system,
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# querying Q.infinite may be removed.
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if ask(Q.infinite(expr.args[0]), assumptions):
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return False
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return ask(~Q.zero(expr.args[0]), assumptions)
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@FinitePredicate.register_many(cos, sin, Number, Pi, Exp1, GoldenRatio,
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TribonacciConstant, ImaginaryUnit, sign)
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def _(expr, assumptions):
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return True
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@FinitePredicate.register_many(ComplexInfinity, Infinity, NegativeInfinity)
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def _(expr, assumptions):
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return False
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@FinitePredicate.register(NaN)
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def _(expr, assumptions):
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return None
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# InfinitePredicate
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@InfinitePredicate.register_many(ComplexInfinity, Infinity, NegativeInfinity)
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def _(expr, assumptions):
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return True
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# PositiveInfinitePredicate
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@PositiveInfinitePredicate.register(Infinity)
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def _(expr, assumptions):
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return True
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@PositiveInfinitePredicate.register_many(NegativeInfinity, ComplexInfinity)
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def _(expr, assumptions):
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return False
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# NegativeInfinitePredicate
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@NegativeInfinitePredicate.register(NegativeInfinity)
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def _(expr, assumptions):
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return True
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@NegativeInfinitePredicate.register_many(Infinity, ComplexInfinity)
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def _(expr, assumptions):
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return False
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