# parsing a conditional from a string

I have two numpy arrays a, b and a string of the form `s = "1.5 * b if 2*a > 7 else a + b"`

I would like to create an array c, which will evaluate the string on the arrays in an efficient manner.

Example of a desired behavior:

``````a = np.array([1, 4])
b = np.array([3, 1])
s = "1.5 * b if 2*a > 7 else a + b"
print(my_eval(a, b, s))

[4, 1.5]
``````

Was thinking of something like `f = np.vectorize(eval(s)); map(a, b, f)`

What's the best way to do it? The number of arrays in the expression can be larger (but bounded by something reasonable.

• Yes, but I don't think the solution will differ much either way Commented May 23, 2022 at 17:57
• `python2.x` isn't supported by `numpy` versions for 3+ years. There are not many users that can test with `python2`. `np.fromiter((eval(s) for a, b in zip(a1, b1)), dtype=float)` works with renamed arrays (`python3`). The code in the string does not work with `np.arrays`. I don't think there is a simple way without parsing the string. Commented May 23, 2022 at 18:05
• I've added the parenthesis around print, since you guys feel so strongly about it :) Commented May 23, 2022 at 18:12
• The problem is that conditions are ambiguous with arrays, there is not one boolean result but an array of booleans (you can read more about it in one of the 4300 posts on stackoverflow (4.3% of all `numpy` questions? Interesting)). Commented May 23, 2022 at 18:31
• Please fix "stRing" spelling in question title, it will improve "searchability" Commented May 23, 2022 at 18:50

I can't speak for the efficiency, but you could use the given string expression `s` in a function definition template string, execute it into a local dictionary with `exec`, vectorize it for non-ufunc expressions, and then call it within the proposed `my_eval` function:

``````import numpy as np

def my_eval(s, a, b):

locals_dict = {}

# Generates source code to define a new function from the given string.
source = f"def f(a, b): return {s}"

# Executes the function definition script into locals_dict.
exec(source, globals(), locals_dict)

# Defines a vectorized version of the newly defined function.
f = np.vectorize(locals_dict["f"])

# Applies the function.
return f(a, b)

s = "1.5 * b if 2 * a > 7 else a + b"
a = np.array([1, 4]).astype(float)
b = np.array([3, 1]).astype(float)
c = my_eval(s, a, b)

print(c)
``````

This can modified to handle variable numbers of input arguments. For example, something like the following could handle up to 26 different input arrays, one for each letter of the alphabet:

``````import numpy as np
from string import ascii_lowercase

def my_eval(s, *args):

locals_dict = {}

# Generates source code to define a new function from the given string.
params = ", ".join(list(ascii_lowercase[0:len(args)]))
source = f"def f(*args): {params} = args; return {s}"

# Executes the function definition script into locals_dict.
exec(source, globals(), locals_dict)

# Defines a vectorized version of the newly defined function.
f = np.vectorize(locals_dict["f"])

# Applies the function.
return f(*args)
``````