This recursive approach seems to work.

```
def recursive_bubble_ands_up(expr):
""" Bubble all 'and's in the expression up one level, no matter how nested.
"""
# if the expression is just a single thing, like 'a', just return it.
if is_atomic(expr):
return expr
# if it has an 'and' in one of its subexpressions
# (but the subexpression isn't just the 'and' operator itself)
# rewrite it to bubble the and up
and_clauses = [('and' in subexpr and not is_atomic(subexpr))
for subexpr in expr]
if any(and_clauses):
first_and_clause = and_clauses.index(True)
expr_before_and = expr[:first_and_clause]
expr_after_and = expr[first_and_clause+1:]
and_parts = expr[first_and_clause][1:]
expr = ('and',) + tuple([expr_before_and + (and_part,) + expr_after_and
for and_part in and_parts])
# apply recursive_bubble_ands_up to all the elements and return result
return tuple([recursive_bubble_ands_up(subexpr) for subexpr in expr])
def is_atomic(expr):
""" Return True if expr is an undividable component
(operator or value, like 'and' or 'a'). """
# not sure how this should be implemented in the real case,
# if you're not really just working on strings
return isinstance(expr, str)
```

Works on all your examples:

```
>>> tmp.recursive_bubble_ands_up(('pred', ('and', 'a', 'b'), 'x'))
('and', ('pred', 'a', 'x'), ('pred', 'b', 'x'))
>>> tmp.recursive_bubble_ands_up(( ('and', 'a', 'b'), 'x'))
('and', ('a', 'x'), ('b', 'x'))
>>> tmp.recursive_bubble_ands_up(('not', ('p', ('and', 'a', 'b'), 'x') ))
('not', ('and', ('p', 'a', 'x'), ('p', 'b', 'x')))
```

Note that this isn't aware of any other "special" operators, like `not`

- as I said in my comment, I'm not sure what it should do with that. But it should give you something to start with.

**Edit:** Oh, oops, I just realized this only performs a single "bubble-up" operation, for example:

```
>>> tmp.recursive_bubble_ands_up(((('and', 'a', 'b'), 'x'), 'y' ))
(('and', ('a', 'x'), ('b', 'x')), 'y')
>>> tmp.recursive_bubble_ands_up((('and', ('a', 'x'), ('b', 'x')), 'y'))
('and', (('a', 'x'), 'y'), (('b', 'x'), 'y'))
```

So what you really want is probably to apply it in a while loop until the output is identical to the input, if you want your 'and' to bubble up from however many levels, like this:

```
def repeat_bubble_until_finished(expr):
""" Repeat recursive_bubble_ands_up until there's no change
(i.e. until all possible bubbling has been done).
"""
while True:
old_expr = expr
expr = recursive_bubble_ands_up(old_expr)
if expr == old_expr:
break
return expr
```

On the other hand, doing that shows that actually my program breaks your 'not' example, because it bubbles the 'and' ahead of the 'not', which you said you wanted left alone:

```
>>> tmp.recursive_bubble_ands_up(('not', ('p', ('and', 'a', 'b'), 'x')))
('not', ('and', ('p', 'a', 'x'), ('p', 'b', 'x')))
>>> tmp.repeat_bubble_until_finished(('not', ('p', ('and', 'a', 'b'), 'x')))
('and', ('not', ('p', 'a', 'x')), ('not', ('p', 'b', 'x')))
```

So I suppose you'd have to build in a special case for 'not' into `recursive_bubble_ands_up`

, or just apply your not-handling function before running mine, and insert it before `recursive_bubble_ands_up`

in `repeat_bubble_until_finished`

so they're applied in alternation.

All right, I really should sleep now.

`tuples`

with no real data type to use – jamylak Apr 22 '12 at 6:46`tuples`

– jamylak Apr 22 '12 at 6:51reprI modified to skip the commas in printing. I will fix that now. Thanks. – NHDaly Apr 22 '12 at 6:51`('not',('and','a','b'))`

? Should it become`('and',('not','a'),('not','b'))`

, or`('or',('not','a'),('not','b'))`

, or stay as it is? Are there any other operators (?) with non-standard behavior? (i.e. that behave differently from the`( ('and', 'a', 'b'), 'x')`

case?) – weronika Apr 22 '12 at 7:49