# Split a file with no more than N chunks but with minimal length

I have a file and suppose I need to split it in up to N smaller files and the smallest chunk should have at least X bytes and all the files should have (almost) the same size:

So using e.g. a string 'abcdefghij' with N=4 and X=3 will return ['abcd', 'efg', 'hij'] because:

``````3 chunks < 4 chunks
4 chars > 3 chars
``````

I wrote a split function, but it sometimes create one extra string so I should probably pass the `x` value instead of calculating there.

``````def split(string, n):
x = len(string)//n
return [string[i:i+x] for i in range(0, len(string), x)]
``````

The real problem is how to calculate the number of chunks to cut the file with a minimum number of bytes.

``````def calculate(length, max_n, min_x):
n, x = ...
return n, x
``````

Is there a simple known algorithm to do this kind of action?

Actually: the files doesn't need to differ in 1 byte because I want to maximize the number of chunks.

-
Your use of `N` isn't consistent. Is it the number of chars or the number of files? –  gnibbler Sep 10 '12 at 21:49
@gnibbler N is the number of files (chunks). X is the number of bytes (chars) –  user1661233 Sep 10 '12 at 22:12
But the title says N is the number of chars –  gnibbler Sep 10 '12 at 23:07
@gnibbler I edited the title. I made it with "string" instead of file in the beginning. –  user1661233 Sep 11 '12 at 0:13

``````def calculate(L, N, X):
n = min(L//X, N)
return n, L//n
``````

Edit:

``````def spread(seq, N=None, X=1):
"""Yield successive subsequences of seq having at least X elements.

If N is specified, the number of subsequences yielded will not exceed N.

The first L % X subsequences yielded (where L = len(seq)) will be longer
by 1 than the remaining ones.

['abcd', 'efg', 'hij']
['abcdefghi', 'jklmnopqr', 'stuvwxyz']

seq    any object supporting len(...) and slice-indexing
N      a positive integer (default: L)
X      a positive integer not greater than L (default: 1)
"""

# All error-checking code omitted

L = len(seq)       # length of seq
assert 0 < X <= L

if N is None: N = L
assert 0 < N

# A total of n subsequences will be yielded, the first r of which will
# have length x + 1, and the remaining ones will have length x.

# if we insist on using calculate()...
# n, x = calculate(L, N, X)
# r = L % n

# ...but this entails separate computations of L//n and L%n; may as well
# do both with a single divmod(L, n)
n = min(L//X, N)
x, r = divmod(L, n)

start = 0
stride = x + 1    # stride will revert to x when i == r
for i in range(n):
if i == r: stride = x
finish = start + stride
yield seq[start:finish]
start = finish
assert start == L
``````
-
I think you're the first to understand the problem. I like that this function finds the right "N" (but not the right "X") so I just have to use the split function written by @JohnGainesJr. –  user1661233 Sep 11 '12 at 15:13
OK, I fixed a bug in the original implementation of `calculate`. Maybe this version produces the `x` you want. –  kjo Sep 11 '12 at 19:02

Not sure about simple or known, but this seems to do the trick. It returns N strings with extra characters allocated to earlier strings in the set.

``````import itertools as it
s = 'abcdefhijklm'
def hunks(s, n):
size, extra = divmod(len(s), n)
i = 0
extras = it.chain(it.repeat(1, extra), it.repeat(0))
while i < len(s):
e = next(extras)
yield s[i:i + size + e]
i += size + e
list(hunks(s, 4))
``````
-
But how can I set the minimal length of each piece. I want to reduce the numbers of pieces if they become too small –  user1661233 Sep 11 '12 at 0:15
As your solution shows, it's a question of division: If `L` is the total length, you can divide it into `n` chunks for any `n < L`. The remainder (necessarily less than n) gives you the number of chunks that will have one more character than the others. E.g., `10 % 3 = 1` so in your example one of the three chunks is longer. But you could divide `10 % 7` (remainder 3), to get seven chunks, of which three are longer (length 2 instead of 1). Or just 10 chunks of length 1, if you are really bent on "maximizing the number of chunks", as you write.
More generally: For any length `m` you specify, choose `N = L // m` and your chunks will have lengths `m` and `m+1` (or just `m`, if `L // m` has no remainder). As I said, it's just a question of division.
The biggest possible number of chunks is always to split a string of length `L` into `L` chunks of length 1. –  alexis Sep 11 '12 at 10:15
Then you need to define your requirements better. If you want them to be at least 10 bytes, use `N = L // 10` and you've got exactly 10 bytes for the short chunks. See it? –  alexis Sep 11 '12 at 16:56