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Aug
29
comment Automatically infer multiparameter instance
Perfect, thanks.
Aug
28
comment Automatically infer multiparameter instance
@bennofs: When I add m to SafeCopy and try to define an instance SafeCopy Person m the same error occurs. I would like to be able to define one instance of SafeCopy for all instances of BuilderS.
Aug
28
comment Automatically infer multiparameter instance
@augustss: Yes, but what can be done (i.e. what constraints/types/etc can be added) so that the type system can figure out which instance of BuilderS to use when putSafe is evaluated?
Aug
22
comment Flexible serialization with MultiParamTypeClasses
So, you have to either specify m or a in BuilderS, but there's no way to help the type system infere both?
Oct
31
comment Simplifying nested Maybe pattern matching
@kqr: as it turns out, I simplified the actual code way too much, if I had to use maybe it would look something like maybe x (\a -> maybe y (maybe ...) (doSomethingWith a)). In comparison, a monadic do block looks quite nice.
Oct
30
comment Simplifying nested Maybe pattern matching
The pointless version is pretty neat!
Oct
30
comment Simplifying nested Maybe pattern matching
I ended up using your maybeE combinator for my needs, but the other answers are very informative too!
Oct
30
comment Simplifying nested Maybe pattern matching
I'm parsing a nested JSON value with a lot of "nullable" types, so that's why there are so many arbitrarily nested Maybes.
Oct
29
comment Simplifying nested Maybe pattern matching
I'm not sure how the Maybe monad would help here, a has a type of Maybe (Maybe (Maybe ...))), and after every Maybe layer I have to return a different value if it evaluates to Nothing, (x y z in the above example).
Sep
11
comment Locally editing a purely functional tree
System.Object() is not referentially transparent, but this could be fixed with a State monad or whatever. I'm afraid though I don't quite get the idea - sounds a bit like difference lists?
May
10
comment Ember.js: OK to avoid this.get('attr')?
@JoLiss: I think that would be the case when you try to read a computed property that depends on other properties, etc.
Mar
23
comment Capturing mouseMove event in ember.js
I ended up adding listeners on the body, works perfectly!
Nov
25
comment O(1) algorithm to determine if node is descendant of another node in a multiway tree?
Unfortunately the tree isn't static, so I can't really preprocess it.
Nov
22
comment Lift Kleisli arrow into IO?
Yes, it would actually make much more sense for them to be just of type Kleisli IO String String and Kleisli IO (FilePath, String) () but then I wouldn't be able to combine them with other arrows of type Kleisli Maybe - is there a way to combine Kleise arrows in different monads?
Aug
5
comment Turn TypeRep into a concrete type representation
Excellent answer! However, what I'm trying to achieve is my original scheme function, because Typeable can be automatically derived. I.e. I would like to be able to do data SomeObject = SomeObject Int String Bool deriving (Data, Typeable) and have schema SomeObject evaluate to Object [Field StringType, Field IntType, Field BoolType]. I'm looking into Template Haskell now since Typeable doesn't seem to be enough.
Aug
3
comment Turn TypeRep into a concrete type representation
splitTyConApp $ typeOf (undefined :: [Int]) returns ([], [Int]), which isn't very helpful (i.e I would expect ([], Int)). Am I missing something?
Aug
3
comment Turn TypeRep into a concrete type representation
If I have an expression expr :: [Int], I want to be able to do schema expr and get Array (Field IntType) as a result. For that, I need to be able to get the type of a polymorphic type [Typeable] (in this case [Int]) and pass that inner type to schema in order to get Field IntType, then wrap it around Array. Does that make sense?
Aug
3
comment Turn TypeRep into a concrete type representation
I would like to go the other way around, i.e ideally: typeOf (undefined :: Typeable a => [a]) and typeOf (undefined :: Typeable a => a)
Jul
9
comment Is there a way to capture the continuations in a do notation?
This is exactly what I was trying to do - existential types were the missing link. Thanks!
Jul
3
comment Tools for analyzing performance of a Haskell program
This looks awesome!