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I have to code in APL. And since that code is going to be maintained for long time, I am wondering if there are some papers/books which contain heuristics/tips/samples to help in designing clean and readable APL programs. It is different experience than coding in other programming language. Making function, for example, small will not help: such a function can contain one line of code, which is completely incomprehencible.

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It is a very long time that I coded in APL (several dozens of years). But you should be very careful about comments and naming. And APL tend to be a "write-only" language. At least, comment every tricky part of your code. –  Basile Starynkevitch Oct 16 '12 at 7:43
    
And you might perhaps consider switching to some more readable functional programming language (Ocaml, Haskell, ...). –  Basile Starynkevitch Oct 16 '12 at 10:51
    
Unfortunately, I have a huge APL legacy system to maintain. –  Alexander Nechay Oct 16 '12 at 11:28
    
Good luck. I believe that you should care (more than for other langages) about documentation. –  Basile Starynkevitch Oct 16 '12 at 15:51
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The way I manage any code in APL, is to comment every part of every line. I can often have 3-4 comment lines before each code line, maybe more, the comment lines include the code section and what it is doing. If you have to remember how it is doing what it is doing, as well as what it is doing long-term, it's the only way. That and being as small scale with your functions as possible. –  Orbling Nov 15 '12 at 18:24
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2 Answers 2

First, welcome to the wonderful world of APL.

Writing readable and maintainable APL code is not much different than writing readable and maintainable code in any language. Any good book on writing clean code is as applicable to APL as any other language, perhaps even more so. I recommend Clean Code by Robert C. Martin.

Consider the guideline in this book that all code in a function should be at the same level of abstraction. This applies to APL 100 times over. For example, if you have a function named DoThisBigTask it should have very few APL primitive symbols in it, and certainly no long complex one-liners. It should just be series of calls to other, lower level functions. If these higher-level functions are all well-named and well-defined, the general drift should be easily determined by someone who does not even know APL. The lowest level functions will be nothing but primitives and will be inscrutable to the non-APLer. Depending on how they are written they may even initially appear inscrutable to a seasoned APLer. However, these low level functions should be short, have no side effects, and can easily be re-written rather than modified if the maintaining programmer is unable to understand the original coding technique.

In general, keep your functions short, well-named, well-defined, and to the point. And keep the lines of code even shorter. It is much more important to have well-defined and well-documented functions than it is to have well-written or well document lines of code.

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(I'll use here "A" instead of comment, "'" instead of symbol sign.)


Well, I was developing APL for a year, I have only used Aplusdev.org.

You don't even need more. The trick is to try to think OOP-like. You should have -- if I remember well -- structured fields used as class data, sth like {'attribute1 'attribute2, {value,value2}}, so you can easily pick them out like obj.attribute1 in c++. (here 'attribute Pick object, use only in class functions :) )

Moreover, use namespaced functions:

namespace_classname.method(this, arg1)
namespace_classname._private_method(this, arg1, arg2)

and lots of simple tool functions instead of nifty, long lines. The performance drop is not substantial, you can optimize later for say arrays once you see something could be faster.

And before anything: think matlab and mathematica without for loops! :) It helps a lot.

My suggestions for robust, maintainable code:

  • use extensive set of utility functions instead of trickery with those unreadable symbols to make your code always to the point.

  • try-catch blocks there is a built in exception handling, which can be utilized here,

    try_begin();
    A tried code, maybe in extra brackets not to forget try_end() at the end.

    try_end();
    catch(sth, function_here);

    can be nicely implemented. (You'll see, catching errors is very important)

  • crude type checking : implement a standard and use for not-so-many times called functions... (you can put a function with flexible parameters right after a function definition)
    Syntax:

    function(point2i, ch): {
    typecheck({{'int, [1 2]}, 'char}); A do some assertions in typecheck...
    // your function goes here
    }

  • lambda functions can be very effective, you can do some reflections to achieve lambdas.

  • always declare returns with saying "return"!

  • Unit tests based on try-catch testing each and every function you write.

  • I also used a lot of 'apply' and 'map' from mathematica, implementing my own version, they are very-very effective here.

  • I wrote matlab thinking since you can here have a list of structured fields (=class data) in a variable. You will write lots of those if you wanna keep things for-loop-less (and you wanna, trust me). For that you need to have a standard naming convention say indicate with plurals:

    namespace_class.method(objects, arg1, arg2)

To the end: also, I wrote inputBox and messageBox like the ones in Javascript or VisualBasic, they will make very easy hacking together simple tools or checking states. The only catch of messageBox, that it can't put the function-flow on hold, so you need

 AA documentation of f1
 f1():
 {
     A  do sth

     msgbox.call("Hi there",{'Ok, {'f2}}); 
 }
 f2():
 {
     A  continue doing stuff
 }

You can write auto-docs in bash with a gawk/sed combination to put it into a webpage. Also creating HTML formatted code helps in printing. ;)

I hope this was good outline for a proper build-up. Before writing own tools, try to dig up the available tools from the legacy codebase... functions are often even 4 times implemented with different names due to the mess that time.

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