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138

Let's start with a code example: foob :: forall a b. (b -> b) -> b -> (a -> b) -> Maybe a -> b foob postProcess onNothin onJust mval = postProcess val where val :: b val = maybe onNothin onJust mval This code doesn't compile (syntax error) in plain Haskell 98. It requires an extension to support the forall ...


83

Can anybody completely explain the forall keyword in clear, plain English? No. (Well, maybe Don Stewart can.) Here are the barriers to a simple, clear explanation or forall: It's a quantifier. You have a to have at least a little logic (predicate calculus) to have seen a universal or existential quantifier. If you've never seen predicate calculus ...


49

As @Michael Kohl commented, this use of forall in Haskell is an existential type and can be exactly replicted in Scala using either the forSome construct or a wildcard. That means that @paradigmatic's answer is largely correct. Nevertheless there's something missing there relative to the Haskell original which is that instances of its ShowBox type also ...


35

My original answer: Can anybody completely explain the forall keyword in clear, plain English As Norman indicates, it is very hard to give a clear, plain English explanation of a technical term from type theory. We're all trying though. There is only really one thing to remember about 'forall': it binds types to some scope. Once you understand that, ...


24

The ShowBox example you gave involves an existential type. I'm renaming the ShowBox data constructor to SB to distinguish it from the type: data ShowBox = forall s. Show s => SB s We say s is "existential", but the forall here is a universal quantifier that pertains to the SB data constructor. If we ask for the type of the SB constructor with ...


22

They're densely packed with assumptions that I've read the latest in whatever branch of discrete math, category theory or abstract algebra is popular this week. (If I never read the words "consult the paper whatever for details of implementation" again, it will be too soon.) Er, and what about simple first-order logic? forall is pretty clearly in ...


18

A use of existential types that I've run into is with my code for mediating a game of Clue. My mediation code sort of acts like a dealer. It doesn't care what the types of the players are - all it cares about is that all the players implement the hooks given in the Player typeclass. class Player p m where -- deal them in to a particular game dealIn ...


17

Here is a quick and dirty explanation in plain terms that you're likely to be already familiar with. The forall keyword is really only used in one way in Haskell. It always means the same thing when you see it. Universal quantification A universally quantified type is a type of the form forall a. f a. A value of that type can be thought of as a function ...


11

When I say, forall a . a -> Int, it means (in my understanding, the incorrect one, I guess) "for every (type) a, there is a function of a type a -> Int": Close, but not quite. It means "for every type a, this function can be considered to have type a -> Int". So a can be specialized to any type of the caller's choosing. In the "exists" case, ...


10

My background: I don't really understand forall or when Haskell has them implicitly. Okay, consider the type of id, a -> a. What does a mean, and where does it come from? When you define a value, you can't just use arbitrary variables that aren't defined anywhere. You need a top-level definition, or a function argument, or a where clause, &c. In ...


7

The Code Contracts User Manual states, "The static contract checker does not yet deal with quantiers ForAll or Exists." Until it does, it seems to me the options are: Ignore the warning. Add Contract.Assume(subGroup != null) before the call to AddRequested(). Add a check before the call to AddRequested(). Maybe if (subGroup == null) throw new ...


7

FORALL is not a "loop command", it is part of the syntax for a bulk insert statement. So the correct solution is to write the FORALL clause with each insert: FORALL i IN 1..var_avl_web_details.COUNT insert into available_web_details values var_avl_web_details(i); FORALL i IN 1..var_avl_web_details.COUNT insert into web_ap_ca_co_do_ur_us_5min ...


6

I don't think a 1-to-1 translation from Haskell to Scala is possible here. But why don't you want to use subtyping? If the types you want to use (such as Int) lack a show method, you can still add this via implicit conversions. scala> trait Showable { def show:String } defined trait Showable scala> implicit def showableInt(i:Int) = new Showable{ def ...


6

This looks very similar to some of the examples (in particular the Vector one) in the GHC wiki Roles2 page of things that don't work with the current role system, alas. Basically the problem is that in class PersistField a => PersistFieldSql a where sqlType :: Monad m => m a -> SqlType the monad m might be instantiated with a type ...


5

It means precisely "there exists a type a for which I can provide values of the following types in my constructor." Note that this is different from saying "the value of a is Int in my constructor"; in the latter case, I know what the type is, and I could use my own function that takes Ints as arguments to do something else to the values in the data type. ...


5

FORALL is an assignment construct, not a looping construct. The semantics of FORALL state that the expression on the right hand side (RHS) of each assignment within the FORALL is evaluated completely before it is assigned to the left hand side (LHS). This has to be done no matter how complex the operations on the RHS, including cases where the RHS and the ...


5

Why are you bothering to use cursors, arrays etc in the first place? Why can't you just do a simple insert as select? Problems with your procedure as listed above: You don't declare procedures like Procedure abc () - for a standalone procedure, you would do create or replace procedure abc as, or in a package: procedure abc is You reference a variable ...


4

If you use Intel Fortran Compiler, you can use a command line switch to turn on/increase the compliler's verbosity level for parallelization/vectorization. This way during compilation/linking you will be shown something like: FORALL loop at line X in file Y has been vectorized I admit that it has been a few of years since the last time I used it, so the ...


4

You have to explicitly commit after a FORALL. After all, you are performing high speed DML using FORALL, and as you (should) know, DML does not commit automatically. Also, even hough FORALL iterates through all the rows of a collection, it is not a loop, it is a statement. It has neither a LOOP nor an END LOOP statement.


4

I have found the answer at this link, but not exactly what I want. Then I have pushed the kernel repository as a separate project (without using repo forall -c"git push ...). $ repo forall -c'git push ssh://username@myserver/my-aosp-project/$REPO_PROJECT HEAD:refs/heads/master' $ git push ssh://username@myserver/my-aosp-project/kernel.git ...


4

Not sure if I understand the initial code correctly, but here is an idea: val results = List(a, b).map(r => Seq(r.p4, r.p5, r.p6).flatten) val isOT = results.exists(_.nonEmpty) val labels = IndexedSeq("", "Double ", "Triple ") results.map(p => labels(p.size - 1) + "OT") Turning score column to flat list in first line is crucial here. You have ...


4

Haskell's forall-s can be viewed as restricted dependent function types, which I think is the conceptually most enlightening approach and also most amenable to set-theoretic or logical interpretations. In a dependent language one can bind the values of arguments in function types, and mention those values in the return types. -- Idris id : (a : Type) ...


4

This can be done in a single update statement: UPDATE inventory SET buy_more_shoes = CASE WHEN pair_of_shoes_left <= 100 THEN 'Yes' ELSE NULL END , buy_more_bananas = CASE WHEN weight_of_bananas_left <= 200 THEN 'Yes' ...


3

Check the memocombinators.cabal file: http://hackage.haskell.org/packages/archive/data-memocombinators/0.4.1/data-memocombinators.cabal


3

A FORALL statement is standard DML: it is just a batch of individual statements. You should therefore follow the standard rules for deciding if you need to commit: Only commit at the end of your transaction when you have achieved a consistent state, never before. There is no reason to commit 3 times if you have 3 FORALL statements except when each statement ...


3

Well, I can tell you right now that modifying the rows of a DataTable in parallel is not Kosher (from the MSDN documentation on the DataTable class): This type is safe for multithreaded read operations. You must synchronize any write operations. So while I'm not sure exactly what's causing the particular exception you mention, I know that you ...


3

UHC implements the exists keyword. Here's an example from its documentation x2 :: exists a . (a, a -> Int) x2 = (3 :: Int, id) xapp :: (exists b . (b,b -> a)) -> a xapp (v,f) = f v x2app = xapp x2 And another: mkx :: Bool -> exists a . (a, a -> Int) mkx b = if b then x2 else ('a',ord) y1 = mkx True -- y1 :: (C_3_225_0_0,C_3_225_0_0 ...


3

Depending on what you're trying to achieve, there may be a better solution. But what you're asking is also possible, using the constraints package. {-# LANGUAGE FlexibleContexts, ConstraintKinds, MultiParamTypeClasses #-} import Data.Constraint.Forall class Test a b test :: Forall (Test a) => a -> a test = undefined



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