# Need help understanding function passing in Python

I am trying to teach myself Python by working through some problems I came up with, and I need some help understanding how to pass functions.

Let's say I am trying to predict tomorrow's temperature based on today's and yesterday's temperature, and I have written the following function:

``````def predict_temp(temp_today, temp_yest, k1, k2):
return k1*temp_today + k2*temp_yest
``````

And I have also written an error function to compare a list of predicted temperatures with actual temperatures and return the mean absolute error:

``````def mean_abs_error(predictions, expected):
return sum([abs(x - y) for (x,y) in zip(predictions,expected)]) / float(len(predictions))
``````

Now if I have a list of daily temperatures for some interval in the past, I can see how my prediction function would have done with specific k1 and k2 parameters like this:

``````>>> past_temps = [41, 35, 37, 42, 48, 30, 39, 42, 33]
>>> pred_temps = [predict_temp(past_temps[i-1],past_temps[i-2],0.5,0.5) for i in xrange(2,len(past_temps))]
>>> print pred_temps
[38.0, 36.0, 39.5, 45.0, 39.0, 34.5, 40.5]
>>> print mean_abs_error(pred_temps, past_temps[2:])
6.5
``````

But how do I design a function to minimize my parameters k1 and k2 of my predict_temp function given an error function and my past_temps data?

Specifically I would like to write a function minimize(args*) that takes a prediction function, an error function, some training data, and that uses some search/optimization method (gradient descent for example) to estimate and return the values of k1 and k2 that minimize my error given the data?

I am not asking how to implement the optimization method. Assume I can do that. Rather, I would just like to know how to pass my predict and error functions (and my data) to my minimize function, and how to tell my minimize function that it should optimize the parameters k1 and k2, so that my minimize function can automatically search a bunch of different settings of k1 and k2, applying my prediction function with those parameters each time to the data and computing error (like I did manually for k1=0.5 and k2=0.5 above) and then return the best results.

I would like to be able to pass these functions so I can easily swap in different prediction and error functions (differing by more than just parameter settings that is). Each prediction function might have a different number of free parameters.

My minimize function should look something like this, but I don't know how to proceed:

``````def minimize(prediction_function, which_args_to_optimize, error_function, data):
# 1: guess initial parameters
# 2: apply prediction function with current parameters to data to compute predictions
# 3: use error function to compute error between predictions and data
# 4: if stopping criterion is met, return parameters
# 5: update parameters
# 6: GOTO 2
``````

Edit: It's that easy?? This is no fun. I am going back to Java.

On a more serious note, I think I was also getting hung up on how to use different prediction functions with different numbers of parameters to tune. If I just take all the free parameters in as one tuple I can keep the form of the function the same so it easy to pass and use.

• if you are just asking how you can pass a function as an argument to another function, this question is entirely too long ;)
– user3850
Feb 23, 2009 at 19:14
• Yes I was trying to find a nice balance between asking a general question and giving a concrete example in case some other solution to my problem in context would be better. At that I failed miserably ;) Feb 23, 2009 at 19:20
• BTW, I think you mean args, not args. Feb 24, 2009 at 2:21

Here is an example of how to pass a function into another function. `apply_func_to` will take a function `f` and a number `num` as parameters and `return f(num)`.

``````def my_func(x):
return x*x

def apply_func_to(f, num):
return f(num)

>>>apply_func_to(my_func, 2)
4
``````

If you wanna be clever you can use lambda (anonymous functions too). These allow you to pass functions "on the fly" without having to define them separately

``````>>>apply_func_to(lambda x:x*x, 3)
9
``````

Hope this helps.

Function passing in Python is easy, you just use the name of the function as a variable which contains the function itself.

``````def predict(...):
...

minimize(predict, ..., mean_abs_error, ...)
``````

As for the rest of the question: I'd suggest looking at the way SciPy implements this as a model. Basically, they have a function `leastsq` which minimizes the sum of the squares of the residuals (I presume you know what least-squares minimization is ;-). What you pass to `leastsq` is a function to compute the residuals, initial guesses for the parameters, and an arbitrary parameter which gets passed on to your residual-computing function (the closure), which includes the data:

``````# params will be an array of your k's, i.e. [k1, k2]
def residuals(params, measurements, times):
return predict(params, times) - measurements

leastsq(residuals, initial_parameters, args = (measurements, times))
``````

Note that SciPy doesn't actually concern itself with how you come up with the residuals. The `measurements` array is just passed unaltered to your `residuals` function.

I can look up an example I did recently if you want more information - or you can find examples online, of course, but in my experience they're not quite as clear. The particular bit of code I wrote would relate well to your scenario.

• Thanks for the SciPy info, I will definitely check that out. Feb 23, 2009 at 19:38

As David and and Il-Bhima note, functions can be passed into other functions just like any other type of object. When you pass a function in, you simply call it like you ordinarily would. People sometimes refer to this ability by saying that functions are first class in Python. At a slightly greater level of detail, you should think of functions in Python as being one type of callable object. Another important type of callable object in Python is class objects; in this case, calling a class object creates an instance of that object. This concept is discussed in detail here.

Generically, you will probably want to leverage the positional and/or keyword argument feature of Python, as described here. This will allow you to write a generic minimizer that can minimize prediction functions taking different sets of parameters. I've written an example---it's more complicated than I'd like (uses generators!) but it works for prediction functions with arbitrary parameters. I've glossed over a few details, but this should get you started:

``````def predict(data, k1=None, k2=None):
"""Make the prediction."""
pass

def expected(data):
"""Expected results from data."""
pass

def mean_abs_err(pred, exp):
"""Compute mean absolute error."""
pass

def gen_args(pred_args, args_to_opt):
"""Update prediction function parameters.

pred_args : a dict to update
args_to_opt : a dict of arguments/iterables to apply to pred_args

This is a generator that updates a number of variables
over a given numerical range.  Equivalent to itertools.product.

"""

base_args = pred_args.copy() #don't modify input

argnames = args_to_opt.keys()
argvals = args_to_opt.values()
result = [[]]
# Generate the results
for argv in argvals:
result = [x+[y] for x in result for y in argv]
for prod in result:
base_args.update(zip(argnames, prod))
yield base_args

def minimize(pred_fn, pred_args, args_to_opt, err_fn, data):
"""Minimize pred_fn(data) over a set of parameters.

pred_fn : function used to make predictions
pred_args : dict of keyword arguments to pass to pred_fn
args_to_opt : a dict of arguments/iterables to apply to pred_args
err_fn : function used to compute error
data : data to use in the optimization

Returns a tuple (error, parameters) of the best set of input parameters.
"""
results = []
for new_args in gen_args(pred_args, args_to_opt):
pred = pred_fn(data, **new_args) # Unpack dictionary
err = err_fn(pred, expected(data))
results.append((err, new_args))
return sorted(results)

const_args = {k1: 1}
opt_args = {k2: range(10)}
data = [] # Whatever data you like.
minimize(predict, const_args, opt_args, mean_abs_err, data)
``````