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So I've wrote a small script to download pictures from a website. It goes through a 7 alpha charactor value, where the first char is always a number. The problem is if I want to stop the script and start it up again I have to start all over.

Can I seed itertools.product somehow with the last value I got so I don't have to go through them all again.

Thanks for any input.

here is part of the code:

numbers = '0123456789'
alnum = numbers + 'abcdefghijklmnopqrstuvwxyz'

len7 = itertools.product(numbers, alnum, alnum, alnum, alnum, alnum, alnum) # length 7

for p in itertools.chain(len7):
    currentid = ''.join(p) 

    #semi static vars
    url = ''
    url += currentid

    #Need to get the real url cause the redirect
    print "Trying " + url
    req = urllib2.Request(url)
    res = openaurl(req)
    if res == "continue": continue
    finalurl = res.geturl()

    #ok we have the full url now time to if it is real
    try: file = urllib2.urlopen(finalurl)
    except urllib2.HTTPError, e:
        print e.code

    im = cStringIO.StringIO(
    img =
share|improve this question
Not an answer to your problem, but you can write it as product(numbers, *[alnum] * 6), and you could use string.digits instead of numbers and string.ascii_lowercase + string.digits instead of alnum. – agf Mar 25 '12 at 23:10
Nice, thank you. Still trying to become familiar with Python. – Ryan Mar 25 '12 at 23:18
up vote 3 down vote accepted

here's a solution based on pypy's library code (thanks to agf's suggestion in the comments).

the state is available via the .state attribute and can be reset via .goto(state) where state is an index into the sequence (starting at 0). there's a demo at the end (you need to scroll down, i'm afraid).

this is way faster than discarding values.

> cat 

class product(object):

    def __init__(self, *args, **kw):
        if len(kw) > 1:
            raise TypeError("product() takes at most 1 argument (%d given)" %
        self.repeat = kw.get('repeat', 1)
        self.gears = [x for x in args] * self.repeat
        self.num_gears = len(self.gears)

    def reset(self):
        # initialization of indicies to loop over
        self.indicies = [(0, len(self.gears[x]))
                         for x in range(0, self.num_gears)]
        self.cont = True
        self.state = 0

    def goto(self, n):
        self.state = n
        x = self.num_gears
        while n > 0 and x > 0:
            x -= 1
            n, m = divmod(n, len(self.gears[x]))
            self.indicies[x] = (m, self.indicies[x][1])
        if n > 0:
            raise ValueError("state exceeded")

    def roll_gears(self):
        # Starting from the end of the gear indicies work to the front
        # incrementing the gear until the limit is reached. When the limit
        # is reached carry operation to the next gear
        self.state += 1
        should_carry = True
        for n in range(0, self.num_gears):
            nth_gear = self.num_gears - n - 1
            if should_carry:
                count, lim = self.indicies[nth_gear]
                count += 1
                if count == lim and nth_gear == 0:
                    self.cont = False
                if count == lim:
                    should_carry = True
                    count = 0
                    should_carry = False
                self.indicies[nth_gear] = (count, lim)

    def __iter__(self):
        return self

    def next(self):
        if not self.cont:
            raise StopIteration
        l = []
        for x in range(0, self.num_gears):
            index, limit = self.indicies[x]
        return tuple(l)

p = product('abc', '12')
print list(p)
print list(p)
print list(p)
print list(p)
> python 
[('a', '1'), ('a', '2'), ('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('a', '1'), ('a', '2'), ('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('b', '1'), ('b', '2'), ('c', '1'), ('c', '2')]
[('c', '1'), ('c', '2')]

you should test it more - i may have made a dumb mistake - but the idea is quite simple, so you should be able to fix it :o) you're free to use my changes; no idea what the original pypy licence is.

also state isn't really the full state - it doesn't include the original arguments - it's just an index into the sequence. maybe it would have been better to call it index, but there are already indici[sic]es in the code...


here's a simpler version that is the same idea but works by transforming a sequence of numbers. so you just imap it over count(n) to get the sequence offset by n.

> cat 

from itertools import count, imap

def make_product(*values):
    def fold((n, l), v):
        (n, m) = divmod(n, len(v))
        return (n, l + [v[m]])
    def product(n):
        (n, l) = reduce(fold, values, (n, []))
        if n > 0: raise StopIteration
        return tuple(l)
    return product

print list(imap(make_product(['a','b','c'], [1,2,3]), count()))
print list(imap(make_product(['a','b','c'], [1,2,3]), count(3)))

def product_from(n, *values):
    return imap(make_product(*values), count(n))

print list(product_from(4, ['a','b','c'], [1,2,3]))

> python 
[('a', 1), ('b', 1), ('c', 1), ('a', 2), ('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]
[('a', 2), ('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]
[('b', 2), ('c', 2), ('a', 3), ('b', 3), ('c', 3)]

(the downside here is that if you want to stop and restart you need to have kept track yourself of how many you have used)

share|improve this answer
This looks great so far. However I can't figure out how the class is working. Any trying to print something with 103 octillion combinations takes a while ;) It brings up the next problem of computing the index now. – Ryan Mar 26 '12 at 0:42
the program works like the mileometer in a car. each call to roll_gears moves the end (left-most in this case, but right-most in a mileometer) number one. if that ticks over to 0 then it moves the next number up one, etc etc. – andrew cooke Mar 26 '12 at 1:03
Makes sense. And its is now working!!! Had to add code for base 36 math. Thank you and thanks you to agf for pointing out PyPy – Ryan Mar 26 '12 at 1:39
This is cool. If you combine it with my answer, then goto could take a state, calculate the offset (assuming no duplicate values within an input sequence), and then move to that state. – agf Mar 26 '12 at 1:42
i just posted a simpler version (see "update") that might be easier to understand/adapt. – andrew cooke Mar 26 '12 at 2:50

Once you get a fair way along the iterator, it's going to take a while to get to the spot using dropwhile.

You probably should adapt a recipe like this so that you can save the state with a pickle between runs.

Make sure that your script can only run once at a time, or you will need something more elaborate, such as a server process that hands out the ids to the scripts

share|improve this answer
Or something like the PyPy implementation would be faster, pickleable, and you could probably even figure out how to skip it forward to a starting value much more quickly than with dropwhile. – agf Mar 25 '12 at 23:25
@agf, using version from pypy is a great idea – John La Rooy Mar 25 '12 at 23:42
I came up with something that should be faster than dropwhile for itertools.product if none of the input sequences have any duplicate values. – agf Mar 25 '12 at 23:58
Look however its beyond me how I can actually use this. – Ryan Mar 26 '12 at 0:19

If your input sequences don't have any duplicate values, this may be faster than dropwhile to advance product as it doesn't require you to compare all of the dropped values by calculating the correct point to resume iteration.

from itertools import product, islice
from operator import mul

def resume_product(state, *sequences):
    start = 0
    seqlens = map(len, sequences)
    if any(len(set(seq)) != seqlen for seq, seqlen in zip(sequences, seqlens)):
        raise ValueError("One of your sequences contains duplicate values")
    current = end = reduce(mul, seqlens)
    for i, seq, seqlen in zip(state, sequences, seqlens):
        current /= seqlen
        start += seq.index(i) * current
    return islice(product(*sequences), start + 1, end)

seqs = '01', '23', '45', '678'        

# if I want to resume after '1247':
for i in resume_product('1247', *seqs):
    # blah blah
share|improve this answer

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