Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I want to check the condition of the previous if condition to determine the next if condition is to be executed or not. Each if condition may return a value.

Edit: Sorry for that the example I provided before look a bit odd...:( This is my real example, and I want to simplify the if-then-else for goingToMove

goingToMove p routes points w h = 
                        if canMove p points
                            -- the point can be moved in the map 
                            then let r = routes ++ [p]
                                     l = remainList p points
                                in move p r l w h
                            -- the point cannot be moved in the maps
                            else []

move p routes points w h = 
            if (length routes) == 2 
                then routes
                else let one = goingToMove (tallRightCorner p) routes points w h in
                    if (null one)
                        then let two = goingToMove(tallRightBCorner p) routes points w h in
                            if (null two)
                                then let three = goingToMove (tallLeftBCorner p ) routes points w h in
                                    if (null three)
                                        then ....
                                        ...... -- until, let eight = ..
                                        else three
                                else two
                        else one 

Edit:Bad example When this thing is written in java, I may use a mutable boolean flag, and return a mutable data.

public String move (int number){
        // base case
        if (number == 0){
            return "Finished the recursion";
        }
        // general case
        else {
            String result;
            boolean isNull = false;

            if ((result = move(3)) == null){
                isNull = true;
            }
            else {
                return result;
            }

            // continue to execute the if-conditions if the previous condition failed
            if (isNull){
                if((result = move(2)) == null){
                    isNull = true;
                }
                else {
                    return result;
                }
            }

            if (isNull){
                if((result = move(1)) == null){
                    isNull = true;
                }
                else {
                    return result;
                }
            }

            return null;
        }
    }

But in Haskell, there is no mutable data, and only if-then-else condition. Then the code will looks like this, and I want to simplify this because in my real work, there are 8 levels of if-then-else which look terrible and messy....

move 0 = "Finished the recursion"
move n = 
    let one = move 3 in
    if null one
        then let two = move 2 in
            if null two
                then let three = move 1 in
                        then null
                        else three
                else two
        else one
share|improve this question
    
Is the move you're calling in your Java code the same as the move you're defining? If so, I don't see how it doesn't loop infinitely for non-zero input. move(3) calls move(3) calls move(3) ... –  rampion Feb 6 '13 at 18:41
    
The haskell code you provide has the wrong type, too. You're explicitly returning null at some point in the java code, which means the haskell code should be Int -> Maybe String, even if it wasn't an infinite loop. Oh, and the haskell code you suggest also has a syntax error (missing a line with an if in it?) making it hard to figure out exactly what you're up to. –  Carl Feb 6 '13 at 18:44
    
I have supplied a real example :( sorry –  code4j Feb 6 '13 at 19:33
1  
You should start by using a lot more pattern matching and fewer conditionals. You also have a bunch of superfluous lets and you don't need to parenthesize the condition of an if expression. –  C. A. McCann Feb 6 '13 at 19:39

5 Answers 5

up vote 16 down vote accepted

In Java if I wanted to do the following:

result = func1(arg);
if (result == null){
  result = func2(arg);
  if (result == null){
    result = func3(arg);
    if (result == null){
      result = func4(arg);
    }
  }
}
return result;

What I'm essentially doing is finding the first result from func1(args), func2(args), func3(args), func4(args) that returns non-null.

In Haskell, I'd model func1, func2, func3, and func4 as functions that returned a Maybe a value, so that they could return Nothing if they failed.

func1, func2, func3, func4 :: Int -> Maybe Result

Then I can use the <|> operator (from Control.Applicative), which has the following definition for Maybe a:

Nothing <|> x = x
x       <|> _ = x

So I can convert the above Java to

func1 arg <|> func2 arg <|> func3 arg <|> func4 arg

And due to the miracle of lazy evaluation, func2 arg is only evaluated if func1 arg returns Nothing, same as in the Java example.

share|improve this answer
    
it looks nice, does Nothing means nil? –  code4j Feb 6 '13 at 19:35
    
Maybe a is a data type that has two constructors: Nothing :: Maybe a and Just :: a -> Maybe a. It can be defined as data Maybe a = Nothing | Just a. –  rampion Feb 6 '13 at 20:02
    
Beautiful. Mmmmmm. –  AndrewC Feb 6 '13 at 22:28
1  
This is very nice, but you could also use MonadPlus: msum [func1 arg, func2 arg], or even msum $ map ($ arg) [func1, func2, func3, func4]. This is especially useful when you're getting the list of functions from somewhere else. I don't like it quite so much for defining control flow though. –  John L Feb 7 '13 at 13:15

An option without Maybe could be to add a flag to the recursion (in the example below, you would call the function with the flag set to one):

move p routes points w h 1

move p routes points w h flag 
  | (length routes) == 2 = routes
  | otherwise = 
      if null result then move p routes points w h (flag+1)
      else result
        where result = case flag of 
                        1 -> goingToMove (tallRightCorner p) routes points w h
                        2 -> goingToMove (tallRightBCorner p) routes points w h
                        3 -> goingToMove (tallLeftBCorner p) routes points w h
                        --...etc.
                        _ -> []
share|improve this answer

You want routes if its length is 2 or the first non-null result from a series of applications of goingToMove that vary by which corner function is applied to p.

move p routes points w h
  | length routes == 2 = routes
  | otherwise = head
              $ filter (not . null)
              $ map tryMove corners
    where tryMove f = goingToMove (f p) routes points w h
          corners = [ tallRightCorner
                    , tallRightBCorner
                    , tallLeftBCorner
                    -- et cetera
                    ]
share|improve this answer

edit: Here's some code for the new example:

move p routes points w h 
     | length routes == 2 = routes
     | otherwise = find (not . null) . map gtm [tallRightCorner, tallRightBCorner, tallLeftBCorner]
    where gtm f = goingToMove (f p) routes points w h

Note that this returns a maybe. You can use fromMaybe to stick in a default case.

Here's the old (but typechecking) code from the first proposed example

move 0 = "Finished the recursion"
move n = concat . maybeToList . msum $ map move' [3,2,1]
  where move' x = let mx = move x in if null mx then Nothing else Just mx
share|improve this answer
2  
This doesn't compile (though the code in the question doesn't compile either, so...) –  Chris Taylor Feb 6 '13 at 18:48
    
whoops that's what i get for relying on my mental typechecker. –  sclv Feb 6 '13 at 19:18
    
I have supplied a real example :( sorry –  code4j Feb 6 '13 at 19:34

Apart from the nice employment of <|> that rampion gave and the similar suggestion of sclv, another common way is to use guards, and exploit laziness,

move :: Int -> Maybe String
move n
    | n == 0       = Just "Finished the recursion"
    | isJust move3 = move3
    | isJust move2 = move2
    | isJust move1 = move1
    | otherwise    = Nothing
      where
        move3 = move 3
        move2 = move 2
        move1 = move 1

Due to laziness, move i (i = 3, 2, 1) is only evaluated if it's needed.

In the given case, move 3 <|> move 2 <|> move 1 is much nicer, but in cases where the conditions require evaluating different functions with different return types, the use of guards and lazy bindings in a where clause can be the natural solution to avoid awkward nested ifs.

share|improve this answer
    
what is the meaning of Just and isJust ????? –  code4j Feb 6 '13 at 19:37
1  
Just is a value constructor of Maybe a. Since you return and check for null in your Java, having the Haskell version return a Maybe String is the proper analogy. isJust (available from the Data.Maybe module) tests whether a Maybe a value is a Just a or Nothing, so isJust move3 corresponds to if ((result = move(3)) != null) [flipping your if/elses]. –  Daniel Fischer Feb 6 '13 at 19:41

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.