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author | Eduardo Julian | 2021-08-25 16:47:50 -0400 |
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committer | Eduardo Julian | 2021-08-25 16:47:50 -0400 |
commit | b216900093c905b3b20dd45c69e577b192e2f7a3 (patch) | |
tree | 4d6ac7d257752a8c54ca77dd58df9753ce357ab6 /documentation/book/the_lux_programming_language | |
parent | 36303d6cb2ce3ab9e36d045b9516c997bd461862 (diff) |
Updates to the Lua compiler.
Diffstat (limited to 'documentation/book/the_lux_programming_language')
-rw-r--r-- | documentation/book/the_lux_programming_language/appendix_d.md | 156 |
1 files changed, 156 insertions, 0 deletions
diff --git a/documentation/book/the_lux_programming_language/appendix_d.md b/documentation/book/the_lux_programming_language/appendix_d.md new file mode 100644 index 000000000..5935ac5c3 --- /dev/null +++ b/documentation/book/the_lux_programming_language/appendix_d.md @@ -0,0 +1,156 @@ +# Appendix D: The art of piping + +I'm a big fan of piping. + +No kidding. + +Piping is my favorite way of writing code. + +It's almost like a game to me. + +I try to figure out ways to get my code to be more pipe-sensitive, to see how far I can get while piping my code. + + My personal record is 14 steps. + +## Piping macros in the standard library + +Anyhow, after looking at some of the innovations in Clojure on the piping department, I decided to come up with my own tricks to try to get Lux to become a piping superpower. + +I added the `library/lux/control/pipe` module, which contains several macros meant to be used within the `|>` macro, and which extend it with awesome capabilities. + +Take a look at these babies: + +``` +... Loops for pipes. +... Both the testing and calculating steps are pipes and must be given inside tuples. +(|> 1 + (loop> [(n.< 10)] + [++])) +``` + +`loop>` takes a test _tuple_ and a body _tuple_. + +The reason is that each of those tuples represents the steps on an implicit piping macro (_oh, yeah!_). + +So `[(n.< 10)]` is like `(|> value (n.< 10))`, and `[++]` is like `(|> value ++)`. + +Which value? Whatever has been piped into `loop>` from the underlying `|>` (in this case, the value `1`). + +--- + +``` +... Branching for pipes. +... Both the tests and the bodies are piped-code, and must be given inside a tuple. +... If a last else-pipe isn't given, the piped-argument will be used instead. +(|> 5 + (cond> [i.even?] [(i.* 2)] + [i.odd?] [(i.* 3)] + ... else branch + [(new> -1 [])])) +``` + +We have looping, and now we have branching; with a `cond`-inspired piping macro (complete with _else_ branch, just in case). + +But what's that thing over there? That `new>` thing? + +Well, it's another piping macro. Of course! + +``` +... Ignores the piped argument, and begins a new pipe. +(|> 20 + (i.* 3) + (i.+ 4) + (new> 0 [++])) +``` + +`new>` establishes a new piping sequence that ignores any previous one. + +Useful in certain kinds of situations. + +--- + +``` +... Gives a name to the piped-argument, within the given expression. +(|> 5 + (let> @ (+ @ @))) +``` + +`let>` binds the current value piped into it so you can refer to it multiple times within it's body. + +Pretty nifty, huh? + +--- + +``` +... Pattern-matching for pipes. +... The bodies of each branch are NOT pipes; just regular values. +(|> 5 + (case> 0 "zero" + 1 "one" + 2 "two" + 3 "three" + 4 "four" + 5 "five" + 6 "six" + 7 "seven" + 8 "eight" + 9 "nine" + _ "???")) +``` + +Yeah, that's right! + +I just couldn't resist rolling full-blown pattern-matching into this. + +You'll thank me later. + +--- + +``` +... Monadic pipes. +... Each steps in the monadic computation is a pipe and must be given inside a tuple. +(|> 5 + (do> identity.monad + [(i.* 3)] + [(i.+ 4)] + [+])) +``` + +And just to show you I'm serious, I did the unthinkable. + +Piped macro expressions! + +## How to make your own piping macros + +They're easier to make than pattern-matching macros. + +All you need is a macro that takes anything you want as parameters, but always takes as its last argument _the computation so far_, as it has been constructed by the `|>` macro prior to the call to your piping macro. + +As an example, here's the definition for `let>`: + +``` +(syntax: .public (let> [binding <code>.any + body <code>.any + prev <code>.any]) + (in (list (` (let [(~ binding) (~ prev)] + (~ body)))))) +``` + +--- + +All this looks like madness, but I just couldn't contain myself. + +Piping is one of the few ways of writing code that just amuses me whenever I do it. + +These macros can keep you in the flow while you're writing complex code, so you don't have to switch so much between piping-code and non-piping-code. + +Oh... and did I mention the `|>>` macro? + +It generates for you a single-argument function that will immediately pipe its argument through all the steps you give it? + +``` +(only (|>> (member? forbidden-definitions) + not) + all_definitions) +``` + |