Assuming `function`

is the same as `given`

,

```
sum(function.count(x) for x in '1 2 3'.split())
```

The variable name `function`

(and `given`

) is somewhat confusing since the question also says

*the goal is to count all numbers contained in the string*.

So if `function`

is a string and you wish to extend the count to all digits you could use

```
import string
sum(function.count(x) for x in string.digits)
```

This suffices if `function`

is a short string. But note that each call to `count`

requires a full pass through the string `function`

. If `function`

is a very large string, doing 10 passes may be inefficient.

In that case, it may be better to discard characters that are not digits *in one pass*:

```
def onepass(x):
return sum(1 for c in x if c in string.digits)
```

Or, you could remove all the non-digits from the string (using the translate method) and then use `len`

. For example:

```
def drop_nondigits(x):
# The essential idea comes from the translator recipe in Python Cookbook;
# It can also be found here
# http://code.activestate.com/recipes/303342-simple-wrapper-for-stringtranslate/
keep = string.digits
allchars = string.maketrans('', '')
delete = allchars.translate(allchars, keep)
return len(x.translate(allchars, delete))
```

And out of curiosity, let's compare it to using collections.Counter:

```
import collections
def using_counter(x):
counter = collections.Counter(x)
return sum(counter[d] for d in string.digits)
```

It turns out that `drop_nondigits`

is fastest:

```
In [26]: x = 'some very large string 123456' * 1000
In [38]: %timeit using_counter(x)
100 loops, best of 3: 7.26 ms per loop
In [29]: %timeit onepass(x)
100 loops, best of 3: 2.52 ms per loop
In [32]: %timeit drop_nondigits(x)
10000 loops, best of 3: 34.9 us per loop
```

`function`

different than`given`

? – unutbu Oct 2 '12 at 16:57