I've been using J for a few months now, and I find that reading unfamiliar code (e.g. that I didn't write myself) is one of the most challenging aspects of the language, particularly when it's in tacit. After a while, I came up with this strategy:
1) Copy the code segment into a word document
2) Take each operator from (1) and place it on a separate line, so that it reads vertically
3) Replace each operator with its verbal description in the Vocabulary page
4) Do a rough translation from J syntax into English grammar
5) Use the translation to identify conceptually related components and separate them with line breaks
6) Write a description of what each component from (5) is supposed to do, in plain English prose
7) Write a description of what the whole program is supposed to do, based on (6)
8) Write an explanation of why the code from (1) can be said to represent the design concept from (7).
Although I learn a lot from this process, I find it to be rather arduous and time-consuming -- especially if someone designed their program using a concept I never encountered before. So I wonder: do other people in the J community have favorite ways to figure out obscure code? If so, what are the advantages and disadvantages of these methods?
An example of the sort of code I would need to break down is the following:
binconv =: +/@ ((|.@(2^i.@#@])) * ]) @ ((3&#.)^:_1)
I wrote this one myself, so I happen to know that it takes a numerical input, reinterprets it as a ternary array and interprets the result as the representation of a number in base-2 with at most one duplication. (e.g., binconv 5 = (3^1)+2*(3^0) -> 1 2 -> (2^1)+2*(2^0) = 4.) But if I had stumbled upon it without any prior history or documentation, figuring out that this is what it does would be a nontrivial exercise.