Can you assign variables in a lambda?
You can create 2 different lambda functions and pass one to the other. For example,
b = lambda x: 3+2*x
a = lambda y: [my math here using variable b(y)]
You can just pass your lambda an argument which passes it along to another argument if you wish:
>>> b = lambda x: 3 + 2*x
>>> a = lambda y: y * b(y)
>>> a(1)
5
>>> a(2)
14
I've cooked up this recipe for python 3.8+ using PEP572 Assignment Expressions to assign arbitrary variables and execute arbitrary expressions.
# python 3.8b1
lambda a: (
(bool(b:=a**2) or 1)
and (bool(c:=a-b) or 1)
and not print(f'compute: {a} + {b} + {c}')
and (
(ret:=a + b + c) or ret)
)
)
tst(0)
# prints: "compute: 0 + 0 + 0"; returns: 0
tst(1)
# prints: "compute: 1 + 1 + 0"; returns: 2
tst(8)
# prints: "compute: 8 + 64 + -56"; returns: 16
So the pattern is:
lambda: [*vars]: (
(bool(a:=[expr(*vars)]) or 1)
and (bool([expr]) or 1)
and bool([always true expr])
and not bool([always false expr])
and (
# parentheses required so `result:=` doesn't capture the `or result` part
(result:=[result expr]) or result
)
)
This may be simplified if you know the truthiness of any particular expression.
That being said, if you want to assign a variable to reuse inside a lambda, you probably should consider writing a normal function.
Nope, you can't. Only expressions allowed in lambda:
lambda_expr ::= "lambda" [parameter_list]: expression lambda_expr_nocond ::= "lambda" [parameter_list]: expression_nocond
You could, however, define a second lambda inside the lambda and immediately call it with the parameter you want. (Whether that's really better might be another question.)
>>> a = lambda n: ((3+2*n), n*(3+2*n)) # for reference, with repetition
>>> a(42)
(87, 3654)
>>> a2 = lambda n: (lambda b: (b, n*b))(3+2*n) # lambda inside lambda
>>> a2(42)
(87, 3654)
>>> a3 = lambda n: (lambda b=3+2*n: (b, n*b))() # using default parameter
>>> a3(42)
(87, 3654)
Of course, both the outer and the inner lambda can have more than one parameter, i.e. you can define multiple "variables" at once. The benefit of this approach over, e.g., defining a second lambda outside of the first is, that you can still also use the original parameters (not possible if you invoked a with b pre-calculated) and you have to do the calculation for b only once (other than repeatedly invoking a function for the calculation of b within a).
Also, inspired by the top answer to the linked question, you could also define one or more variables as part of a list comprehension or generator within the lambda, and then get the next (first and only) result from that generator or list:
>>> a4 = lambda n: next((b, n*b) for b in [3+2*n])
>>> a4(42)
(87, 3654)
However, I think the intent behind the lambda-in-a-lambda is a bit clearer. Finally, keep in mind that instead of a one-line lambda, you could also just use a much clearer three-line def statement...
Also, starting with Python 3.8, there will be assignment expressions, which should make it possible to write something like this. (Tested with Python 3.8.10.)
>>> a5 = lambda n: ((b := 3+2*n), n*b)