Python classes for traversing n-dimensional parameter spaces

I'm learning python, and to train this, I've decided to do some calculations on a parameter space. In order to traverse this parameter space, I'm looking for classes that can help me on this, or help on how to make them myself.

I have already started coding a class to represent a range, and traverse it from one end to the other, but I would like to be able to have a base class defining the range, and then pull something like a generator from it, except I would like to be able to go both forwards and backwards, as well as start from a custom departing point. My current class looks like this:

``````class Range(object):
'''
Represents a range
'''

def __init__(self, low, high, step=1):
'''
Initializes the range
'''

if low >= high:
raise ValueError(
"The low value must be set lower than the high value.")
self._low = low
self._high = high
self._step = step

if (self._high - self._low) % self._step != 0:
raise ValueError("Not possible to hit end value.")

def generator(self):
'''
Walk the range from the low point to the high point
'''

current = self._low
yield current

while current != self._high:
current += self._step
yield current
``````

I plan to use the `Range` class to define the possible values of a parameters in a parameter space. I'm looking for information about things that already exist, which does this, and I should know about, and/or tips on howto make things more 'pythonic'.

I know I could just make a list of all the possible values and use the index, and I might do this for parameters which cannot be defined as a range, but that doesn't work well with very large ranges. The reason why I use a generator is that I need to track multiple points in the parameter space simultaneously, I just need to be able to go backwards as well. Do I really need to make a custom class for this?

* UPDATE *

Alternative implementation of `generator` using `xrange()`:

``````def generator(self):
'''
Walk the range from a departure point to a goal point
'''

for value in xrange(self._low, self._high + self._step, self._step):
yield value
``````
-
you know there's a builtin called "range" that does this? – thyme Feb 7 '13 at 23:06
Yes, and "xrange" too. The problem with "range" is that it, when called, creates a list of all the possible values, which can fill a lot in memory when the number of values is sufficiently large. I know "xrange" can be used instead, and just realized that my "generator" function can be implemented using this as in my update above. So, essentially what I have made is a reusable "xrange". – beruic Feb 7 '13 at 23:29
I should also mention that it is necessary for me to support negative numbers. – beruic Feb 7 '13 at 23:44
`while current != self._high` is a bad idea if the numbers involved are floats. [Although since you're using `range` and `xrange`, maybe they aren't; I don't know how general you're looking to be.] – DSM Feb 7 '13 at 23:50
@DSM: I check in the constructor that `self._low + n * self._step = self._high` is true for some value of `n`. If you're familiar with modular arithmetic you will recognize this in `(self._high - self._low) % self._step != 0`. – beruic Feb 7 '13 at 23:59