I have a sumranges() function, which sums all the ranges of consecutive numbers found in a tuple of tuples. To illustrate:

```
def sumranges(nums):
return sum([sum([1 for j in range(len(nums[i])) if
nums[i][j] == 0 or
nums[i][j - 1] + 1 != nums[i][j]]) for
i in range(len(nums))])
>>> nums = ((1, 2, 3, 4), (1, 5, 6), (19, 20, 24, 29, 400))
>>> print sumranges(nums)
7
```

As you can see, it returns the number of ranges of consecutive digits within the tuple, that is: len((1, 2, 3, 4), (1), (5, 6), (19, 20), (24), (29), (400)) = 7. The tuples are always ordered.

My problem is that my sumranges() is terrible. I hate looking at it. I'm currently just iterating through the tuple and each subtuple, assigning a 1 if the number is not (1 + previous number), and summing the total. I feel like I am missing a much easier way to accomplish my stated objective. Does anyone know a more pythonic way to do this?

Edit: I have benchmarked all the answers given thus far. Thanks to all of you for your answers.

The benchmarking code is as follows, using a sample size of 100K:

```
from time import time
from random import randrange
nums = [sorted(list(set(randrange(1, 10) for i in range(10)))) for
j in range(100000)]
for func in sumranges, alex, matt, redglyph, ephemient, ferdinand:
start = time()
result = func(nums)
end = time()
print ', '.join([func.__name__, str(result), str(end - start) + ' s'])
```

Results are as follows. Actual answer shown to verify that all functions return the correct answer:

```
sumranges, 250281, 0.54171204567 s
alex, 250281, 0.531121015549 s
matt, 250281, 0.843333005905 s
redglyph, 250281, 0.366822004318 s
ephemient, 250281, 0.805964946747 s
ferdinand, 250281, 0.405596971512 s
```

RedGlyph does edge out in terms of speed, but the simplest answer is probably Ferdinand's, and probably wins for most pythonic.