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How can I implement a circular range object in Python?

e.g.

Let S is a circular space modulo 2^3 (range [0, 2^3)). I want to generate a range object like this:

crange(3, 7, 2 ** 3) => a range object [3, 4, 5, 6]
crange(7, 3, 2 ** 3) => a range object [7, 0, 1, 2]

I tryed this:

def crange(start, stop, modulo):
    if start > stop:
        return range(start, modulo) or range(stop)
    else:
        return range(start, stop)

But I can't input bigint to crange e.g. crange(8, 2, 2 ** 160).

OverflowError: Python int too large to convert to C ssize_t
  • 2
    What have you tried already? post it so we can help. SO is not a code writing service – kmaork Dec 5 '16 at 8:50
  • 2
    What result do you want for crange(0, 8) in the example you give? – Mark Dickinson Dec 5 '16 at 8:50
  • 1
  • 2
    Interestingly, your code is raising OverflowError because evaluating the truthiness of a large range apparently raises OverflowError (even though the range itself is representable). That's arguably a bug. I've opened bugs.python.org/issue28876 – Mark Dickinson Dec 5 '16 at 9:44
  • 1
    @sira: it is related but it is a different issue (lrange() won't help unless it will define __bool__ method—it is easy but it will break the compatibility with the range() from Python 3). No range() object would generate 7, 0, 1, 2. The specific error is due to bool(range()) being implemented as len(range()) and due to the implementation history len() is limited to C ssize_t size. Here's what Guido said about it in 2008 – jfs Dec 5 '16 at 9:49
1

Try this:

def crange(start, stop, modulo):
    result = []
    index = start
    while index != stop:
        result.append(index)
        index = (index + 1) % modulo
    return result

If you know that your list can be too long, you can use a generator instead that generates the necessage sequence:

def crange(start, stop, modulo):
    index = start
    while index != stop:
        yield index
        index = (index + 1) % modulo
1

You can avoid the use of range and the storage of a huge list in memory by creating your own generator:

def crange(start, end, modulo):
    if start > end:
        while start < modulo:
            yield start
            start += 1
        start = 0

    while start < end:
        yield start
        start += 1

print list(crange(3, 7, 2 ** 3))
print list(crange(7, 3, 2 ** 3))
print next(crange(8, 2, 2 ** 160))

This code outputs:

[3, 4, 5, 6]
[7, 0, 1, 2]
8
  • crange(2, 2 ** 100, 2 ** 160) take up so much memory. How can I fix it? – sira Dec 5 '16 at 9:10
  • It doesn't. The generator doesn't store anything in memory except for the local variables. – kmaork Dec 5 '16 at 9:11
  • I understood. Thank you. – sira Dec 5 '16 at 9:13
1

Thank you very much, everyone.

I implemented crange which I want (in reference to @Ni and @J.F.Sebastian).

import math


class crange:
    def __init__(self, start, stop, step=None, modulo=None):
        if step == 0:
            raise ValueError('crange() arg 3 must not be zero')

        if step is None and modulo is None:
            self.start = 0
            self.stop = start
            self.step = 1
            self.modulo = stop
        else:
            self.start = start
            self.stop = stop
            if modulo is None:
                self.step = 1
                self.modulo = step
            else:
                self.step = step
                self.modulo = modulo

    def __iter__(self):
        n = self.start
        if n > self.stop:
            while n < self.modulo:
                yield n
                n += 1
            n = 0
        while n < self.stop:
            yield n
            n += 1

    def __contains__(self, n):
        if self.start >= self.stop:
            return self.start <= n < self.modulo or 0 <= n < self.stop
        else:
            return self.start <= n < self.stop

I got the following output:

>>> print(list(crange(start=7, stop=3, modulo=2 ** 4)))
[7, 8, 9, 10, 11, 12, 13, 14, 15, 0, 1, 2]
>>> print(3 in crange(start=7, stop=3, modulo=2 ** 4))
False
>>> print(7 in crange(start=7, stop=3, modulo=2 ** 4))
True
>>> print(list(crange(start=3, stop=7, modulo=2 ** 4)))
[3, 4, 5, 6]
>>> print(3 in crange(start=3, stop=7, modulo=2 ** 4))
True
>>> print(7 in crange(start=3, stop=7, modulo=2 ** 4))
False

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