# python code understanding

I have following code

``````def compare_and_swap(x, a, b):
if x[a] > x[b]:
x[a], x[b] = x[b], x[a]

def oddeven_merge(x, lo, hi, r):
step = r * 2
if step < hi - lo:
oddeven_merge(x, lo, hi, step)
oddeven_merge(x, lo + r, hi, step)
for i in range(lo + r, hi - r, step):
compare_and_swap(x, i, i + r)
else:
compare_and_swap(x, lo, lo + r)

def oddeven_merge_sort_range(x, lo, hi):
""" sort the part of x with indices between lo and hi.

Note: endpoints (lo and hi) are included.
"""
if (hi - lo) >= 1:
# if there is more than one element, split the input
# down the middle and first sort the first and second
# half, followed by merging them.
mid = lo + ((hi - lo) / 2)
oddeven_merge_sort_range(x, lo, mid)
oddeven_merge_sort_range(x, mid + 1, hi)
oddeven_merge(x, lo, hi, 1)

def oddeven_merge_sort(x):
oddeven_merge_sort_range(x, 0, len(x)-1)

>>> data = [4, 3, 5, 6, 1, 7, 8]
>>> oddeven_merge_sort(data)
>>> data
[1, 2, 3, 4, 5, 6, 7, 8]
``````

Everything is clear for me ,but only this line can't understand well

`````` for i in range(lo + r, hi - r, step):
``````

How can I read it using pseudo code?or in other languages for instance C++?

-

This equivalent to

``````for(int i=lo+r;i<(hi-r);i+=step)
``````

in C (or C++, Java, C#, etc.)

(Note: this will only work if `step` is positive. If step is negative - i.e. lo+r>hi-r, you need change the check to `i>(hi-r)`)

What it does is start a counter at `lo+r`, move it by `step` units until the counter equals or steps past `hi-r`.

-
What you have is very dangerous, could loop forever. I don't believe it's equivalent to the python range. –  Mat Oct 23 '11 at 12:23
@Mat: True. It may loop forever, but I can't think of a way that works for both positive and negative `step` in C-like languages. I am updating my answer to work only for the positive case. –  MAK Oct 23 '11 at 12:25
+1 good point about negative step. –  Mark Byers Oct 23 '11 at 12:30
@MAK, you fixed your code but not the description in the final paragraph. –  paxdiablo Oct 23 '11 at 12:37
@paxdiablo: Thanks, fixed it. –  MAK Oct 23 '11 at 12:43

Line

``````for i in range(lo + r, hi - r, step):
``````

is a for loop with i running from `lo+r` to `hi-r` not included, by steps of `step`. Here is an example:

``````>>> for i in range(10, 31, 3):
...     print i
...
10
13
16
19
22
25
28
``````

Note that in `range(start, end, step)`, the start and end values can be ordered in any way and that step can be positive or negative. This makes writing a C version a little cumbersome.

Thus, once you know Python, `for i in range(lo + r, hi - r, step` is the pseudo-code: in fact,

• it is arguably more concise and legible than a while loop with counter initialization, test and increment on three different lines;
• it nicely handles all the cases covered by Python (ordering of the start and end, and sign of the step).
-

How can I read it using pseudo code?

Python is very close to being pseudocode.

``````for i in range(lo + r, hi - r, step):
``````

means exactly what it says: do the following code with each value of `i` in the specified `range`. The first two values are the lower and upper bounds of the range, and the `step` is the distance between values to use. For more information, try `help(range)` at the Python interpreter prompt.

-

You can read that as the following pseudo-code (for positive steps):

``````i = lo + r
while i < hi - r:
# body of loop
i = i + step
``````

For negative steps:

``````i = lo + r
while i > hi - r:
# body of loop
i = i + step
``````

In other words, it iterates the `i` variable from the first value, until it reaches or passes the second value, adjusting it by the third value each time through the loop.

-

Its a loop from `lo + r` (inclusive) to `hi -r` (exclusive) in increments of `step`.

Assuming step is positive, in C-like languages it could be written as:

`````` for (i = lo + r; i < hi - r; i += step) { ... }
``````

Another way to write it in Python:

`````` i = lo + r
while i < hi - r:
# loop body
i += step
``````

If step is negative, the `<` becomes `>` in the above code.

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