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