Assume¶
A module which implements predicates and assumption context.
- class sympy.assumptions.assume.AppliedPredicate(predicate, *args)[source]¶
The class of expressions resulting from applying
Predicate
to the arguments.AppliedPredicate
merely wraps its argument and remain unevaluated. To evaluate it, use theask()
function.Examples
>>> from sympy import Q, ask >>> Q.integer(1) Q.integer(1)
The
function
attribute returns the predicate, and thearguments
attribute returns the tuple of arguments.>>> type(Q.integer(1)) <class 'sympy.assumptions.assume.AppliedPredicate'> >>> Q.integer(1).function Q.integer >>> Q.integer(1).arguments (1,)
Applied predicates can be evaluated to a boolean value with
ask
:>>> ask(Q.integer(1)) True
- property arg¶
Return the expression used by this assumption.
Examples
>>> from sympy import Q, Symbol >>> x = Symbol('x') >>> a = Q.integer(x + 1) >>> a.arg x + 1
- property arguments¶
Return the arguments which are applied to the predicate.
- property function¶
Return the predicate.
- class sympy.assumptions.assume.AssumptionsContext[source]¶
Set containing default assumptions which are applied to the
ask()
function.Explanation
This is used to represent global assumptions, but you can also use this class to create your own local assumptions contexts. It is basically a thin wrapper to Python’s set, so see its documentation for advanced usage.
Examples
The default assumption context is
global_assumptions
, which is initially empty:>>> from sympy import ask, Q >>> from sympy.assumptions import global_assumptions >>> global_assumptions AssumptionsContext()
You can add default assumptions:
>>> from sympy.abc import x >>> global_assumptions.add(Q.real(x)) >>> global_assumptions AssumptionsContext({Q.real(x)}) >>> ask(Q.real(x)) True
And remove them:
>>> global_assumptions.remove(Q.real(x)) >>> print(ask(Q.real(x))) None
The
clear()
method removes every assumption:>>> global_assumptions.add(Q.positive(x)) >>> global_assumptions AssumptionsContext({Q.positive(x)}) >>> global_assumptions.clear() >>> global_assumptions AssumptionsContext()
See also
- class sympy.assumptions.assume.Predicate(*args, **kwargs)[source]¶
Base class for mathematical predicates. It also serves as a constructor for undefined predicate objects.
Explanation
Predicate is a function that returns a boolean value [1].
Predicate function is object, and it is instance of predicate class. When a predicate is applied to arguments,
AppliedPredicate
instance is returned. This merely wraps the argument and remain unevaluated. To obtain the truth value of applied predicate, use the functionask
.Evaluation of predicate is done by multiple dispatching. You can register new handler to the predicate to support new types.
Every predicate in SymPy can be accessed via the property of
Q
. For example,Q.even
returns the predicate which checks if the argument is even number.To define a predicate which can be evaluated, you must subclass this class, make an instance of it, and register it to
Q
. After then, dispatch the handler by argument types.If you directly construct predicate using this class, you will get
UndefinedPredicate
which cannot be dispatched. This is useful when you are building boolean expressions which do not need to be evaluated.Examples
Applying and evaluating to boolean value:
>>> from sympy import Q, ask >>> ask(Q.prime(7)) True
You can define a new predicate by subclassing and dispatching. Here, we define a predicate for sexy primes [2] as an example.
>>> from sympy import Predicate, Integer >>> class SexyPrimePredicate(Predicate): ... name = "sexyprime" >>> Q.sexyprime = SexyPrimePredicate() >>> @Q.sexyprime.register(Integer, Integer) ... def _(int1, int2, assumptions): ... args = sorted([int1, int2]) ... if not all(ask(Q.prime(a), assumptions) for a in args): ... return False ... return args[1] - args[0] == 6 >>> ask(Q.sexyprime(5, 11)) True
Direct constructing returns
UndefinedPredicate
, which can be applied but cannot be dispatched.>>> from sympy import Predicate, Integer >>> Q.P = Predicate("P") >>> type(Q.P) <class 'sympy.assumptions.assume.UndefinedPredicate'> >>> Q.P(1) Q.P(1) >>> Q.P.register(Integer)(lambda expr, assump: True) Traceback (most recent call last): ... TypeError: <class 'sympy.assumptions.assume.UndefinedPredicate'> cannot be dispatched.
References
- eval(args, assumptions=True)[source]¶
Evaluate
self(*args)
under the given assumptions.This uses only direct resolution methods, not logical inference.
- handler = <dispatched AskPredicateHandler>¶
- class sympy.assumptions.assume.UndefinedPredicate(name, handlers=None)[source]¶
Predicate without handler.
Explanation
This predicate is generated by using
Predicate
directly for construction. It does not have a handler, and evaluating this with arguments is done by SAT solver.Examples
>>> from sympy import Predicate, Q >>> Q.P = Predicate('P') >>> Q.P.func <class 'sympy.assumptions.assume.UndefinedPredicate'> >>> Q.P.name Str('P')