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Consider the simple problem of using a mutable map to keep track of occurrences/counts, i.e. with:

val counts = collection.mutable.Map[SomeKeyType, Int]()

My current approach to incrementing a count is:

counts(key) = counts.getOrElse(key, 0) + 1
// or equivalently
counts.update(key, counts.getOrElse(key, 0) + 1)

This somehow feels a bit clumsy, because I have to specify the key twice. In terms of performance, I would also expect that key has to be located twice in the map, which I would like to avoid. Interestingly, this access and update problem would not occur if Int would provide some mechanism to modify itself. Changing from Int to a Counter class that provides an increment function would for instance allow:

// not possible with Int
counts.getOrElseUpdate(key, 0) += 1
// but with a modifiable counter
counts.getOrElseUpdate(key, new Counter).increment

Somehow I'm always expecting to have the following functionality with a mutable map (somewhat similar to transform but without returning a new collection and on a specific key with a default value):

// fictitious use
counts.updateOrElse(key, 0, _ + 1)
// or alternatively
counts.getOrElseUpdate(key, 0).modify(_ + 1)

However as far as I can see, such a functionality does not exist. Wouldn't it make sense in general (performance and syntax wise) to have such a f: A => A in-place modification possibility? Probably I'm just missing something here... I guess there must be some better solution to this problem making such a functionality unnecessary?

Update:

I should have clarified that I'm aware of withDefaultValue but the problem remains the same: performing two lookups is still twice as slow than one, no matter if it is a O(1) operation or not. Frankly, in many situations I would be more than happy to achieve a speed-up of factor 2. And obviously the construction of the modification closure can often be moved outside of the loop, so imho this is not a big issue compared to running an operation unnecessarily twice.

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2  
Key lookup in a standard Map should usually be O(1), so there's not a big penalty in looking it up twice - probably less than is paid by constructing the closure for the function to pass into updateOrElse. –  Impredicative Mar 19 '13 at 16:33
1  
@Impredicative: That's a good point in this example. But the functionality in the trait itself does not make any assumption on that. For instance, Map is also implemented by TreeMap and ListMap which are O(log N) and O(N) respectively. So without making an O(1) assumption, in-place modification would still be desirable in general. –  bluenote10 Mar 20 '13 at 11:28

1 Answer 1

You could create the map with a default value, which would allow you to do the following:

scala> val m = collection.mutable.Map[String, Int]().withDefaultValue(0)
m: scala.collection.mutable.Map[String,Int] = Map()

scala> m.update("a", m("a") + 1)

scala> m
res6: scala.collection.mutable.Map[String,Int] = Map(a -> 1)

As Impredicative mentioned, map lookups are fast so I wouldn't worry about 2 lookups.

Update:

As Debilski pointed out you can do this even more simply by doing the following:

scala> val m = collection.mutable.Map[String, Int]().withDefaultValue(0)
scala> m("a") += 1
scala> m
 res6: scala.collection.mutable.Map[String,Int] = Map(a -> 1)
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1  
Note that m("a") += 1 is sugar(^) for m("a") = m("a") + 1 is sugar for m.update("a", m("a") + 1). (^ or rather sugar by convention, as the += method possibly implemented directly on mutable.Map) –  Debilski Mar 19 '13 at 19:45
    
Thanks! I updated my answer to reflect that! –  coltfred Mar 19 '13 at 20:06
    
I was aware of the default value approach but unfortunately I forgot to mention it in my question. I did not consider it here since my actual concern (the double lookup) is not solved with this approach. Thanks anyway! –  bluenote10 Mar 20 '13 at 11:40
    
Ok, sorry for the misunderstanding. Creating the closure (or any function call) would be worse in terms of performance than 2 Map lookups for HashMap. –  coltfred Mar 20 '13 at 15:25
    
@coltfred: Are you really sure about that? I just had a quick glance at how mutable.HashMap is implemented. The lookup itself calls findEntry from HashTable, which again calls findEntry0 (involving a while loop to deal with collisions) and the index function. The index calculation seems lightweight but also contains a function call to bitCount. I'm wondering: Since a lookup itself involves several function calls, how could it be faster than calling a function like def f(x: Int) = x + 1? I'm even not so sure whether the lookup in total can be faster than creating a closure. –  bluenote10 Mar 20 '13 at 15:52

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