tl;dr: How do I predict the shape returned by numpy broadcasting across several arrays without having to actually add the arrays?

I have a lot of scripts that make use of numpy (Python) broadcasting rules so that essentially 1D inputs result in a multiple-dimension output. For a basic example, the ideal gas law (pressure = rho * R_d * temperature) might look like

```
def rhoIdeal(pressure,temperature):
rho = np.zeros_like(pressure + temperature)
rho += pressure / (287.05 * temperature)
return rho
```

It's not necessary here, but in more complicated functions it's very useful to initialize the array with the right shape. If pressure and temperature have the same shape, then rho also has that shape. If pressure has shape (n,) and temperature has shape (m,), I can call

```
rhoIdeal(pressure[:,np.newaxis], temperature[np.newaxis,:])
```

to get rho with shape (n,m). This lets me make plots with multiple values of temperature without having to loop over `rhoIdeal`

, while still allowing the script to accept arrays of the same shape and compute the result element-by-element.

My question is: Is there a built-in function to return the shape compatible with several inputs? Something that behaves like

```
def returnShape(list_of_arrays):
return np.zeros_like(sum(list_of_arrays)).shape
```

without actually having to sum the arrays? If there's no built-in function, what would a good implementation look like?