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Jun 29 
comment 
Where do values fit in Category of Hask?
actually...the integers could be regarded as a category in other waysfor example they are a total order. But, there are also ways of regarding all types as categories such that all function are functorial. The most famous is perhaps to to look at the category induced by the partial order of "definedness" on each type (this is the approach of denotational semantics). You might also think of "sets" or "types" as "discrete categories" where all the arrows are identitiesin which case all functions are functors, but then this generalizes to "higher inductive types" a la HoTT. 
Jun 26 
comment 
What are free monads?
@DannoHung fixed. 
Jun 24 
comment 
Complexity of maintaining a sorted list vs inserting all values then sorting
but, downvote retracted regardless 
Jun 24 
comment 
Complexity of maintaining a sorted list vs inserting all values then sorting
I'm pretty sure you get the same space efficeny with an optimal sort: for example a modified quicksort takes only O(n) extra space with worst case n log n performance if you use BFPRT to do the pivot selection (the constant cost of this can be small if you only run a full BFPRT occasionally, say every 100 iterations). 
Jun 24 
comment 
Complexity of maintaining a sorted list vs inserting all values then sorting
that was me and it was because inserting and then sorting is not O(n^2) worst case.

Jun 24 
comment 
Why can't the type of take be changed to use any Integral?
@sepp2k ah, makes sense. 
Jun 23 
comment 
Why can't the type of take be changed to use any Integral?
Have not tried this, but wouldn't this compile with the extended defaulting rules? 
Jun 22 
comment 
Why this simple arithmetic function does not type check?
@missingo they would be though, right? (*2) :: Num a => a > a while 1 :: Num a => a > a after specialization to functions (fromInteger , baby)

Jun 21 
comment 
Why this simple arithmetic function does not type check?
worth pointing out that were you to define a num instance for functions it would do the right thin 
Jun 5 
comment 
Haskell unicode pattern matching
Haskell source is unicode. That extension just lets you use some unicode to replace built in operators. 
May 29 
comment 
How/can this type be made into a Monoid instance
I don't know what a "lax monoid" is, and think you mean "lax monoidal functor." 
May 14 
comment 
Haskell  what is wrong with this function?
instead of fold' (+) 0 why not sum ?

May 7 
comment 
Multiple flatMap methods for a single monad?
this answer is almost perfect, imo. The one further thing I would point out is if you had a function m a > (a > n b) > n b that obeyed monadish laws, you could construct a monad morphism m a > n b by passing it a return as the second argument. Simillarly, a function like m a > (a > n b) > m b can be turned into a monad morphism n a > m b with sligntly more work.

May 2 
comment 
What is this special functor structure called?
The adjective for functors that are some form of Reader (such as fixed length lists) is Naperian. 
May 1 
comment 
Polyvariadic generalised sum
hm, I can't find it right now. But, the basic idea is just use the same structure as printf to build HLists. I'm sure Oleg has it in library somewhere, but I don't know what he called it. 
May 1 
comment 
Polyvariadic generalised sum
I think makeHList and printf are both compelling.

Apr 28 
comment 
“What part of MilnerHindley do you not understand?”
@Cheplyaka actually, no, it has something that looks like a "sequent" but it is not sequent calculus. Haper develops an understanding of this in his text book as a "higher order judgment." This really is natural deduction. 
Apr 26 
comment 
Shared constraint for items of an HList
Easy compared to what this code looked like as of the original Hlist paper! 
Apr 25 
comment 
Risks of using unsafeperformIO on randomIO
NO! You might be able to justify unsafeInterleaveIO but nothing random is pure!

Apr 24 
comment 
Haskell function composition, type of (.)(.) and how it's presented
@RippeR no, id is polymorphic while succ is only defined on enums. Since a > b is not an enum, (.)(.) succ succ succ 3 does not make sense. (.) (.) id = (.)
