But, if it is ambiguous to you - the coder - and it must be because you have to ask, then expect it will be at least as ambiguous for the reader and waste a couple octets for clarity.

Relying on precedence rules is great if you happen to be a compiler.

**added responses to comments**:

For the person reading code who encounters an ambiguity that requires outside consultation for assurance, you should assume that the next reader will be less savvy than you and save them the effort and avoidable human error of parsing the same construct and add the parenthesis for them.

As it happens, even the accepted answer was incorrect (in rationale, not effect, see its first comment) which I wasn't aware of and neither were a fraction of those who upvoted it.

As to the statement about basic algebra, the particular example used in the OP is instructive. Regardless of operator precedence the expression `j * (j / m)`

is algebraically identical to `(j * j) / m`

. Unfortunately, Python algebra is only an approximation of "Platonic ideal" algebra which could yield incorrect answers for either form depending on the magnitudes of `j`

and `m`

. For example:

```
>>> m = 1e306
>>> m
1e+306
>>> j = 1e307
>>> j
9.9999999999999999e+306
>>> j / m
10.0
>>> j*j
inf
>>> j * (j / m)
1e+308
>>> (j * j) / m
inf
>>> ((j * j) / m) == (j * (j/m))
False
```

So indeed the identity property of Python's (and my FPU) quasi-algebra doesn't hold. And this may be different on your machine for as the documentation notes:

Floating point numbers are implemented
using double in C. All bets on their
precision are off unless you happen to
know the machine you are working with.

It could be claimed that one has no business working on the hairy edge of overflow, and that's true to some extent, but removed from context the expression is indeterminate given one order of operations and "correct" under another.

`from __future__ import division`

up the front? Should that`/`

be read as and/or changed to`//`

? – John Machin Jul 25 '10 at 22:49