# How to write this statement more compactly without a ++ operator?

Here's what I want to write:

``````groups[m][n] = groups[m - 1][n] or ++gid
``````

Here's what I have to write:

``````g = groups[m - 1][n]
if g:
groups[m,n] = g
else:
gid += 1
groups[m][n] = gid
``````

Is there no more compact way of writing that in Python simply because it lacks a `++` operator?

A larger sample from a method I'm working on:

``````groups = [[0] * self.columns] * self.rows
gid = 0
for m in xrange(self.rows):
for n in xrange(self.columns):
stone = self[m, n]
if stone == self[m - 1, n]:
if groups[m - 1][n]:
groups[m][n] = groups[m - 1][n]
else:
gid += 1
groups[m][n] = gid
elif stone == self[m, n - 1]:
if groups[m][n - 1]:
groups[m][n] = groups[m][n - 1]
else:
gid += 1
groups[m][n] = gid
``````

I think it's a lot harder to read when I have to blow it out like that, plus I'm evaluating `m-1` twice... I'm not sure how I can condense it though.

This is what I came up with:

I created a wrapper class around `int`:

``````class Int(object):
def __init__(self, i):
self.i = i

def pre(self, a=1):
self.i += a
return Int(self.i)

def post(self, a=1):
cpy = Int(self.i)
self.i += a
return cpy

def __repr__(self):
return str(self.i)

def __nonzero__(self):
return self.i != 0
``````

Which can be used like this:

``````def group_stones(self):
groups = [[None for _ in xrange(self.cols)] for _ in xrange(self.rows)]
gid = Int(0)
for m in xrange(self.rows):
for n in xrange(self.cols):
stone = self[m, n]
if stone == self[m - 1, n]:
groups[m][n] = groups[m - 1][n] or gid.pre()
elif stone == self[m, n - 1]:
groups[m][n] = groups[m][n - 1] or gid.pre()
else:
groups[m][n] = gid.pre()
``````

Much like I would do in other languages.

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What's the purpose of writing this more compactly? Write a function. –  Greg Hewgill Jul 1 '12 at 6:58
@GregHewgill: How? I can't pass by reference either. –  Mark Jul 1 '12 at 7:02
Numbers in Python are immutable! `num += 1` it is just `num = num + 1`, and `num` on the left side is link to the new object. –  astynax Jul 1 '12 at 7:08
@astynax: Well, x+=1 works, but it doesn't return the new value, which is what I'd need. –  Mark Jul 1 '12 at 7:10

``````gid = [0] # list - mutable object

def incremented(gid):
gid[0] += 1
return gid[0]

groups[m][n] = groups[m - 1][n] or incremented(gid)
``````

``````class C(object):
...
self.i += other
return self.__class__(self.i)
cpy = self.__class__(self.i)
self.i += other
return cpy

>>> print Int(2) + 1 # pre
3
>>> i = Int(2)
>>> print 1 + i # post
2
>>> print i
3
``````
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Ah.. I believe the concept is called boxing. Python doesn't have an `Integer` class that is better suited for this? –  Mark Jul 1 '12 at 7:17
@Mark, numbers in Python - immutable objects. Once instantiated Number cannot be changed. Any operation with numbers produces new number-object. –  astynax Jul 1 '12 at 7:23
Yes, but how does that conflict with what I just said? The integer is immutable, that's why you're "boxing" it (putting it inside a mutable class). I'm asking if there isn't one built-in, rather than abusing a list object? –  Mark Jul 1 '12 at 7:27
@Mark, All number types in Python are immutable by the concept, same as a strings and tuples. There are no mutable number classes (out of the box). –  astynax Jul 1 '12 at 7:37
@Mark, sorry for my english... Answer is "no". Your wrapper is quite good –  astynax Jul 1 '12 at 8:03

Technically more compact, but not really more readable nor less DRY:

``````groups[m][n], gid = (groups[m-1][n], gid) if groups[m-1][n] else (gid+1, gid+1)
``````

Less compact (for a single usage, at least), more readable:

``````def test_or_inc(val, accum):
return (val, accum) if val else (accum+1, accum+1)

groups[m][n], gid = test_or_inc(groups[m-1][n], gid)
``````

Another option is to make `gid` something you can pass by reference... such as a property of an object, or an item in a list.

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I thought for a second you weren't actually incrementing the variable, but then I saw you did a list-assign...sneaky, but you're right, it's kind of ugly. –  Mark Jul 1 '12 at 7:08

If you put the gid generation in a function you can do that. For example (using the global scope):

``````gid = 0
def newgid(): global gid; gid += 1; return gid
``````

Now you can write:

``````groups[m][n] = groups[m - 1][n] or newgid()
``````

Of course it would be better to put the gid and newgid in its own class or in the class where your other methods are.

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