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Consider languages like Python or JavaScript that allow functions to be nested like this:

print(vector(a * b),(a * c),(b * c)))

or flat like this:

i = (a * b)
j = (a * c)
k = (b * c)
V = vector(i,j,k)

How much does the different format affect performance? Can valid generalizations be made, or does it vary a lot by language?

I expect that an optimizing compiler would do inlining and output approximately the same machine code for both. So perhaps this would be just an issue for interpreted languages?

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What makes you think nesting effects performance at all? – Assaf Lavie Jul 26 '10 at 18:39
Are you talking about nesting of function invocations, or nesting of function definitions? E.g. (+ (* (- 1 2) 3) 4) <- invocations. Or function() outer { function inner() { alert('hi'); } } – Jamie Wong Jul 26 '10 at 18:42
is readability at stake? – Rainer Joswig Jul 26 '10 at 18:50
It would be helpful for you to show us a code sample that you are concerned about. – Ned Batchelder Jul 26 '10 at 18:56
@PeterK: I honestly didn't realize that was a motivating factor for people. Thanks for pointing that out. :-) – user287424 Jul 26 '10 at 21:31
up vote 3 down vote accepted

Any function call adds a small number of machine instructions, including more for more parameters, compared to the same code being present inline, or the compile treating the function as inline.

However, it is a VERY small number of machine instructions. So, in most cases you can easily make that back by for any non-trivial sized input by choosing and implementing a more efficient algorithm.

If you are really on the BLAZING EDGE of performance, (chances are you are not, unless you're working on device drivers) then you can start inlining functions or switching to assembly.

But in any case, write the clearest code possible first, then measure before you start worrying about performance. By doing so you'll have fewer bugs and thus more time to optimize your correctly working code.

Edit: if you're referring to such things as anonymous functions, they cause a performance hit, but, as always, measure first, optimize second.

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... and if you are on the blazing edge of performance, you probably know enough about the problem not to have to ask the question in the first place. – Bryan Oakley Jul 26 '10 at 19:09
how does the number of function calls differ? – Rainer Joswig Jul 26 '10 at 19:35
@Bryan Oakley. People who are new to the blazing edge do not know enough about the problem - hence they ask questions. – phkahler Jul 26 '10 at 20:05
@Rainer not the number of function calls, the number of Machine Instructions. Each parameter means one more "Push onto stack" instruction in the cpu. Its easy to overcome with other optimizations because its at such a low level. I'll update my answer to make this more clear. – Willful Wizard Jul 26 '10 at 21:35
Each assignment of a value to a variable and moving that to the next call usually is also some instructions. – Rainer Joswig Jul 27 '10 at 8:08

In the Pascal implementations I've seen, where a nested function is allowed access variables in the outer function's scope, the compiler has to maintain an extra frame pointer for each level of nesting, and dereference it any time the nested function accesses something from the outer scope. The only time I would expect this would be an issue would be if a nested function used an outer function's variable within a tight loop. In that case, performance might be impaired by the extra dereferencing operation; copying the variable to the inner scope outside the loop would avoid that extra overhead.

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