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2 points by d0m 5142 days ago | link | parent

(Note: I don't by any means want to be aggressive. I'm still a beginner in the lisp world.. so everything I say here as a big: "Me being a real newbie thinks: " in front :) )

"But then, if it's totally transparent (i.e., same behavior & syntax between the inefficient one and the efficient one), what was the point of the separation to begin with? Just use the efficient one."

Maybe I wasn't clear.. but I never said it needed to be transparent. If I need my strings to be highly optimized, I'd much prefer use a specialized string library and use, say:

  (let optimized-string (create-optimized-string (get-100000-chars))
   (optimized-string-map blah optimized-string))

or maybe a:

  (with/optimized-string
     (let bleh (get-100000-chars)
       (map blah bleh)))
(which would take care of rebinding core high level functions)

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Also, I'm not sure I agree with you on the "(until we needed another sequence type...)." Why another sequence type? Any sequences could be coerce to simple list which work with the core functions. Use map-hash, or map-file, or map-whatever if you need specialized version for other sequences. (Or as I said in the last example)

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Finally, again (sorry), I don't really agree on: "map says the output sequence should be of the same type as the input."

Is it true?

  (map [string "test" _] '(1 2 3)) -> ("test1" "test2" "test3")
  (map [string "test" _] "123")) -> err
It's only for string that the output needs to be the input. (Which is weird at best in my opinion).


1 point by fallintothis 5142 days ago | link

I don't by any means want to be aggressive.

Neither do I. Just trying to be terse (not that I am anyways; I have a problem with conciseness). :)

I never said it needed to be transparent

No, but I was. In my limited experience, using ByteStrings in Haskell is still too much work, as opposed to having the standard Prelude functions work "out of the box". Instead of being able to say

  map (\x -> 'x') "abc"
you wind up needing to

  import qualified Data.Bytestring as B

  B.map (\x -> 'x') (B.pack "abc")
When you need to start changing every string-related function, the reader, the writer, blah blah blah, it gets to be a hassle. Perhaps it's less of a pain in dynamically-typed languages like Arc. I don't know.

Why another sequence type? Any sequences could be coerce to simple list which work with the core functions.

Not everything is a linked list. And forcefully coercing every data structure into a linked list wrecks the time & space complexities that give many data structures their purpose. You'd force ranges (virtual sequences, a la Python) to eat up memory, though you certainly want to (say) map over them. You force arrays to have O(n) random access times. You couldn't have immutable sequences because linked lists are mutable. Etc.

Use map-hash, or map-file, or map-whatever if you need specialized version for other sequences. (Or as I said in the last example)

Frankly, ad-hoc polymorphism is ugly. Take Scheme, for instance, whose (R5RS) standard comparison operators include:

  char=? char<? char>? char<=? char>=? string=? string<? string>? string<=?
  string>=?  = < > <= >=
where overloaded comparisons would do.

I don't really agree on: "map says the output sequence should be of the same type as the input."

  arc> (type '(1 2 3))
  cons
  arc> (type (map [string "test" _] '(1 2 3)))
  cons
  arc> (type "123")
  string
  arc> (type (map inc "123"))
  string

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1 point by d0m 5141 days ago | link

"When you need to start changing every string-related function, the reader, the writer, blah blah blah, it gets to be a hassle. Perhaps it's less of a pain in dynamically-typed languages like Arc. I don't know."

I also don't know :) Maybe advanced arc users could share their opinion on that?

"Not everything is a linked list. And forcefully coercing every data structure into a linked list wrecks the time & space complexities that give many data structures their purpose."

Yes, this is true.

In fact, it's a decision that needs to be taken.. should the core high level function work against different data structure? (As it does with clojure?)

As for now, map does work with string (but has a weird behavior in my opinion) and doesn't work with hash. Is this what we want?

Also, what do you think about multimethods? Do you think it's something useful to be added in Arc?

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About the map input versus output, I get what you mean. However, (map [string "test" _] "123") should work :-/ Maybe the problem lies in the concatenation operator while constructing the new string. i.e.

  (map [coerce _ 'int] "123") could give "116101115116"
 
(I know it's not a good example... however, look at this one) :

  (map [string "(" _ ")"] "test") -> Shouldn't it return "(t)(e)(s)(t)" ?!

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2 points by fallintothis 5140 days ago | link

should the core high level function work against different data structure?

The answer seems to be a resounding yes. Polymorphism was one of Arc's main principles when it was 3 weeks old (http://paulgraham.com/arcll1.html), and one that's been more-or-less preserved to this day -- just clunkily.

doesn't work with hash

I don't care for maptable in Arc. Seems like something that should be done by map. I address the point about hash-tables-as-sequences more in http://arclanguage.org/item?id=12341.

Also, what do you think about multimethods? Do you think it's something useful to be added in Arc?

From what I've seen, generic functions (single dispatch or multimethods) seem a "Lisp-y" way of solving the type-dispatch problem, and you don't really need to go full-blown OO about it. But I don't know much about other options.

However, (map [string "test" _] "123") should work :-/

Oh, I agree. I was just saying, the case could be made. :P

I think my map-as (from your original thread: http://arclanguage.org/item?id=12341) reflects map's intended behavior best, since coerce is really our standard for how types should interact. Not that it should be implemented that way, necessarily. But since coerce will flatten strings, it seems fair to say that

  (map [string "test" _] "123")
and

  (coerce (map1 [string "test" _] (coerce "123" 'cons)) 'string)
should return the same thing. At present, map errors, but

  arc> (coerce (map1 [string "test" _] (coerce "123" 'cons)) 'string)
  "test1test2test3"
The map-as approach would still preserve the input type == output type behavior, but do it by coerce's rules, which happen to play nicely with strings here.

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1 point by akkartik 5140 days ago | link

I've been thinking about the semantics of maptable. Right now it seems misnamed; it iterates over the table before returning it unmodified. But what should the right semantics be? Should it return a table with modified values for the same set of keys? Or should it return a list? Or should each iteration return a (k v) pair so you can get a new table with entirely new keys (I think map-as does this)? All of these could be useful; I think we need a more elaborate language than just map/fold to describe them.

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2 points by rocketnia 5141 days ago | link

(map [string "(" _ ")"] "test")

The function [string "(" _ ")"] returns strings, so if anything, the result of that expression should be a sequence of strings, not a string itself.

Nevertheless, maybe (mappend [string "(" _ ")"] "test") should do what you're thinking.

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