# How to generate exponentially increasing range in Python

I want to test the performance of some code using an exponentially increasing value. So that as an extra digit is added to the numbers_size the increment is multiplied by 10. This is how I'm doing it so far but it looks a bit hacky. Suggestions for improvements without introducing non-standard libraries?

``````numbers_size = 100
increment = 100
numbers_range = 1000000000
while numbers_size < numbers_range:
t = time.time()
test( numbers_size )
taken_t = time.time() - t
print numbers_size, test, taken_t

increment = 10 ** (len(str(numbers_size))-1)
numbers_size += increment
``````
• To see the difference of searching lists and dictionaries for a talk I'm giving on Python performance tips. Commented Jul 20, 2012 at 9:54

If you consider numpy as one of the standards ;), you may use numpy.logspace since that is what it is supposed to do.... (note: 100=10^2, 1000000000=10^9)

``````for n in numpy.logspace(2,9,num=9-2, endpoint=False):
test(n)
``````

example 2 (note: 100=10^2, 1000000000=10^9, want to go at a step 10x, it is 9-2+1 points...):

``````In[14]: np.logspace(2,9,num=9-2+1,base=10,dtype='int')
Out[14]:
array([       100,       1000,      10000,     100000,    1000000,
10000000,  100000000, 1000000000])
``````

example 3:

``````In[10]: np.logspace(2,9,dtype='int')
Out[10]:
array([       100,        138,        193,        268,        372,
517,        719,       1000,       1389,       1930,
2682,       3727,       5179,       7196,      10000,
13894,      19306,      26826,      37275,      51794,
71968,     100000,     138949,     193069,     268269,
372759,     517947,     719685,    1000000,    1389495,
1930697,    2682695,    3727593,    5179474,    7196856,
10000000,   13894954,   19306977,   26826957,   37275937,
51794746,   71968567,  100000000,  138949549,  193069772,
268269579,  372759372,  517947467,  719685673, 1000000000])
``````

on your case, we use `endpoint=False` since you want not to include the endpoint... (e.g. `np.logspace(2,9,num=9-2, endpoint=False)` )

• If it's fractional, this won't work. Use, e.g.: `np.geomspace(1e-8, 10, 10, dtype=float)`
– Sam
Commented Feb 20 at 9:27

Why not

``````for exponent in range(2, 10):
test(10 ** exponent)
``````

To produce the same numbers as your code:

``````numbers_sizes = (i*10**exp for exp in range(2, 9) for i in range(1, 10))
for n in numbers_sizes:
test(n)
``````

The simplest thing to do is to use a linear sequence of exponents:

``````for e in range(1, 90):
i = int(10**(e/10.0))
test(i)
``````

You can abstract the sequence into its own generator:

``````def exponent_range(max, nsteps):
max_e = math.log10(max)
for e in xrange(1, nsteps+1):
yield int(10**(e*max_e/nsteps))

for i in exponent_range(10**9, nsteps=100):
test(i)
``````

I like Ned Batcheldor's answer, but I would make it a bit more general:

``````def exp_range(start, end, mul):
while start < end:
yield start
start *= mul
``````

``````for sz in exp_range(100, 1000000000, 10):
t = time.time()
test(sz)
print sz, test(sz), time.time()-t
``````

Using a generator expression:

``````max_exponent = 100
for i in (10**n for n in xrange(1, max_exponent)):
test(i)
``````

OP wrote "Suggestions for improvements without introducing non-standard libraries?"

Just for completeness, here's a recipe for generating exponential ranges - each element is a fixed factor bigger than the previous:

``````from math import exp
from math import log

def frange(start, stop, numelements):
"""range function for floats"""
incr = (stop - start) / numelements
return (start + x * incr for x in range(numelements))

def exprange(start, stop, numelements):
"""exponential range - each element is a fixed factor bigger than the previous"""
return (exp(x) for x in frange(log(start), log(stop), numelements))
``````

Test:

``````print(", ".join("%.3f" % x for x in exprange(3,81,6)))
``````

Output:

``````3.000, 5.196, 9.000, 15.588, 27.000, 46.765
``````

In case you don't want to use any libraries or extra function definitions:

``````for n in [10**m for m in range(d)]:
print(n)
``````

This list comprehension will do what you want.

`d` is a number of digits. Convert to string and calculate the length if needed.

``````d = len(str(numbers_range))
``````

example of 'NOT reading the question properly' and 'NOT how to do it'

``````for i in xrange(100, 1000000000, 100):
# timer
test(i)
# whatever
``````

Is about as simple as it gets... adjust `xrange` accordingly

• this was downvoted (though not by me) presumably because your range is linear, not exponential.
– msw
Commented Jul 12, 2012 at 1:14
• @msw Fair point and well made - thank you, I'll stick by my mistake (the read the question properly and not how to do it) though so it stays in the community for reference purposes. Commented Jul 12, 2012 at 1:23
• I serially upvoted some of your older answers that I thought merited it for two reasons: mostly I hate "drive-by" downvoters who don't bother explaining and I appreciate newcomers who contribute. As to why the OP is doing it the really hard way, I share your puzzlement but don't expect we'll hear back on that one.
– msw
Commented Jul 12, 2012 at 3:28
• @msw Much appreciated - although unnecessary of course :) I only discovered SO because I wanted to ask a question on pandas, and there was no mailing list/contact I could find apart from here. Then, kinda got hooked, and it's always a pleasure to share what I know, and great to learn things I didn't know :) And if I get it wrong, fine, I get it wrong -- I'll take it on the chin - I don't take it personally anyway... but thanks :) Commented Jul 12, 2012 at 3:39