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We've all read excessively long methods or functions, where your eyes end up bleeding when you reach the return statement. We've also seen those one-liner functions that seem pointless...

I just wanted to ask: which do you think is the best average length for a function/method? Having into account that every language has it's own ways, you could specify which one you're referring to in your answer. Thanks!

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42 ! –  Robert Munteanu Jul 23 '09 at 7:41
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import math; math.factorial(42) => 1405006117752879898543142606244511569936384000000000L –  lutz Jul 23 '09 at 7:44

10 Answers 10

up vote 11 down vote accepted

There's no point discussing "average function length". You have to use the rule of the thumb. Function/method has to have a very precise functionality, that should be represented by its name. If you can't define "what does it do" in its name, you should split it. But it length may vary, as some very definite tasks require quite substantial amount of code.

And as you have said, looking at some functions makes your eyes bleed. If they bleed, something is wrong with the function ;)

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Well, I can define my whole program within a single function named runProgram() which does all the things related to running the program :) –  Ionuț G. Stan Jul 23 '09 at 7:51
    
And of course it's a proper function - but traditionally it's called "main" ;) I'd imagine that function "runProgram()" would do exactly what it names relate to: running program, meaning dispatching tasks :) –  leafnode Jul 23 '09 at 8:19
    
Sure it's called main. I just gave it a more meaningful name :). Kidding aside, you're right about naming. It's a very important thing. –  Ionuț G. Stan Jul 23 '09 at 8:47

It's not so much the length that makes a good method implementation. Length is just one aspect among others in judging the quality of a method implementation:

  • Level of Abstraction: The code in a method should keep a homogeneous level of abstraction. I mean, it can make your head spin if you have to read a method with very high level calls sprinkled between blocks that do basic bit shifting, string processing, etc. By following this rule you remove distratctions for those who try to grasp what the method does.
  • Formatting: Code must always be formatted to optimze readability. When you add a block into an existing method you align it to the corrsponding code. Put empty lines between semanticly connected blocks. Respect the team's coding conventions.
  • Comments: Be reluctant to comment what your code does. That's already written in code. If you add comments then focus on why it's done this way.
  • Focus: A method should focus on one specific task. You should be able to describe the implemention in one summarizing sentence.
  • Length: Be reluctant to make a method longer than a monitor page.

Any other quality criteria that I missed?

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A function should never be longer than a screenful.

Functions should be as long as your attention span, so that it is possible to keep the entire meaning of it in your head. The aim should be to express the solution of a problem as clearly as possible.

Having a rule of thumb on the maximum length is a good idea because it gives you a good indication on when you might not have achieved enough clarity. In my opinion, you can be fairly certain that anything longer than a screenful is probably not clear enough, so I use that as a rule of thumb, but I strive to make functions as short and succint as possible.

One line functions are perfectly acceptable if they make the code clearer, i.e. if the code in it doesn't already obviously read what the function does.

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The average attention span of a westener is 13 sentences with at most 13 words. This would limit a function that could be understood by an average person to about 13 commands. We tend to believe that programmers are better then average, but are we? Yet, we can get some more lines out of this: function header and contracts (testing parameter values) do not count, as they are seen in some way as a lead. –  malach Jul 23 '09 at 8:05
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+1 I used to use this, but now we have some developers using 30-inch monitors :( –  butterchicken Jul 23 '09 at 8:12
    
Down voted because I object to the use of "never" in the first sentence. Some algorithms have a natural length greater than "a screenful" - whatever that is. For some types of programming - e.g signal processing - it is difficult to achieve small functions without splitting the code into ill-defined chunks with horrendous interfaces or lots of globals. I also don't want to refactor code because I've bought a widecreen monitor with less vertical resolution. –  Dipstick Jan 12 '10 at 0:31

As Abraham Lincoln said when asked how long a man's leg's should be, "long enough the reach the ground".

Every function/method will be different.

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I think the guys of Object Mentor have thought about this issue for a while. They have a similar question posted some years ago: http://blog.objectmentor.com/articles/2007/10/29/how-big-should-a-function-be

An you can have a look at this great talk, Clean Code III: Functions, http://www.viddler.com/explore/oredev/videos/15/

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It seems Uncle Bob sold Object Mentor and started 8thlight.com, IMNSHO their ways of working should be imitated by the majority of software industry, if we want to diminish bugs considerably. Cleancoders is the way to go now. Check their functions chapter. Love to commet my own answers! –  tomasorti Jul 12 '13 at 17:10

For me it is very hard if a function is longer then a printed page. I also dislike wrapping line in a printout. Does this make me old fashioned or do I give my age away - printing code?

I would also say that if the name of a called function within my code is not telling me what the function does, it often is more cumbersome to jump through several functions to find out what is done. That reminds me of the good ol' COBOL days, where we printed code, spread it out in the hallway, and four guys were trying to follow all the GOTOs. (Now you definitively know that I've been around a while.)

So it is a ballance between length and good naming conventions.

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Trying to define an average method length just for the sake of it is like stating that more lines of code equals better productivity.

Method length is a meaningless number. You measure the quality of a method by its specificity, efficiency, robustness, and readability; not how many lines there are. The number of lines becomes even more meaningless when you consider different coding styles - some people just like to have a lot of whitespace.

If you really really want a guideline, just automatically assume that any method that's longer than one page scroll or two (depending on your resolution) is probably too long.

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Encapsulating complexity is one of the most important roles of functions. It tells the reader that this piece of code can have nothing to do with that piece of code, except through parameter/result values. Complexity is also the reason why side effects should generally be avoided.

Naturally, small functions are easier to read, but if there is no complexity, e.g. setting 200 options in a configuration object, then by all means, have a function with 200 lines.

Splitting functions with low complexity may increase readability for that function but it will also increase global complexity, a little.

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My rule is: It should be obvious by brief inspection (say, 30 seconds or less) that the function's name corresponds to its implementation, assuming that any functions it uses have implementations that correspond to their names.

Practically, this means that my functions are pretty short. Some of them are simple definitions. As a pathological example:

int AdditiveInverse(int x) { return Negate(x); }

If AdditiveInverse and Negate are distinct concepts in my head, and just happen to coincide in the real world. There's nothing wrong with a teeny function if it introduces a new concept.

I've found this rule of thumb is easier to pull off with a pretty high-level programming style. Memory management, separate index passing, etc. hinder the feasibility of this. I find functional languages to be especially amenable to this style: it's an unbreakable guideline to me when I'm writing Haskell, and a loose heuristic when I'm writing C#.

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Shorter methods with a multitude of other method calls just to reduce the code in one particular method does not necessarily signify a "better" method.

What to concern yourself with is not the length, but the complexity, readability, usability, and scalability of the method, and whether the code can be refactored into a simpler, easier to read, less complex version.

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