I would look at that line and pick it apart. You have:

`9 << (1 << 26)`

`(1 << 26)`

is the first expression evaluated, and it produces a really large number. What this line is saying, is that you are going to multiply the number 1 by 2 to the power of 26, effectively producing the number `2 ** 26`

in memory. This is not the problem however. You then shift 9 left by the count of 2 ** 26. This produces a number that is around 50 million digits long in memory (I cant even calculate it exactly!), because the shift left is just too big. Be careful in the future, as shifts by what seems to be small amounts do in fact grow very fast. If it was any larger, your program may have not run at all. Your expression mathematically evaluates to `9 * 2 ** (2 ** 26)`

, if you were curious.

The ambiguity in the comment section is probably actually dealing with how this huge portion of memory is handled by python under the hood, and not IDLE.

EDIT 1:

I thing that what is happening, is that a mathematical expression evaluates to its answer, even when placed inside of a function that isn't called yet, **only if the expression is self sufficient**. This means that if a variable is used in the equation, the equation will be untouched in the byte code, and not evaluated until hard execution. The function has to be interpreted, and in that process, I think that your value is actually computed, resulting in the slower times. I am not sure about this, but I strongly suspect this behavior to be the root cause. Even if it is not so, you got to admit that `9<<(1<<26)`

kicks the computer in the behind, there's not much optimization that can be done there.

```
In[73]: def create_number():
return 9<<(1<<26)
In[74]: #Note that this seems instantaneous, but try calling the function!
In[75]: %timeit create_number()
#Python environment crashes because task is too hard
```

There is a slight deception in this kind of testing however. When trying this with the regular timeit, I got:

```
In[3]: from timeit import timeit
In[4]: timeit(setup = 'from __main__ import create_number', stmt = 'create_number()', number = 1)
Out[4]: .004942887388800443
```

Also keep in mind that printing the value is not do-able, so something like:

`In[102]: 9<<(1<<26)`

should not even be attempted.

**For even more added support:**

I felt like a rebel, so I decided to see what would happen if I timeit the raw execution of the equation:

```
In[107]: %timeit 9<<(1<<26)
10000000 loops, best of 3: 22.8 ns per loop
In[108]: def empty(): pass
In[109]: %timeit empty()
10000000 loops, best of 3: 96.3 ns per loop
```

This is really fishy, because apparently this calculation happens faster than the time it takes Python to call an empty function, which is obviously not the case. I repeat, this is not instantaneous, but probably has something to do with retrieving an already calculated object somewhere in memory, and reusing that value to *calculate* the expression. Anyways, nice question.

`def f(): a = 9<<(1<<26)`

. It makes IDLE lag for me (even without calling the function); does it do that for you? If so, it's probably related to IDLE pre-computing constants or something weird like that. – senshin Jun 14 '14 at 7:49