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 found myself in the position of needing to increment a value which was deeply nested in a series of erlang records. My first attempts at doing this with list comprehensions were dismal failures. Originally, the list contained a number of records where the target value would be absent because the record that contained it would, at some level, be undefined.

I dealt with that easily enough by using lists:partition to filter out only those entries that actually needed incrementing, but I was still unable to come up with a list comprehension that would do such a simple operation.

The code sample below probably doesn't compile - it is simply to demonstrate what I was trying to accomplish. I put the "case (blah) of undefined" sections to illustrate my original problem:

-record(l3, {key, value}).
-record(l2, {foo, bar, a_thing_of_type_l3}).
-record(l1, {foo, bar, a_thing_of_type_l2}).

increment_values_recursive([], Acc
increment_values_recursive([L1 | L1s], Acc) ->
    case L1#l1.a_thing_of_type_l2 of
        undefined -> NewRecord = L1;
        L2        ->
            case L2#l2.a_thing_of_type_l3 of
                undefined    -> NewRecord = L2;
                {Key, Value} ->
                    NewRecord = L1#l1{l2 = L2#l2{l3 = {Key, Value + 1}}}
            end
    end,

    increment_values_recursive(L1s, [NewRecord | Acc]).

increment_values(L1s) ->
    lists:reverse(increment_values_recursive(L1s, [])).

........

NewList = increment_values(OldList).

That was what I started with, but I'd be happy to see a list comprehension that would process this when the list didn't have to check for undefined members. Something like this, really:

increment_values_recursive([], Acc
increment_values_recursive([L1 | L1s], Acc) ->
    %I'm VERY SURE that this doesn't actually compile:
    #l1{l2 = #l2{l3 = #l3{_Key, Value} = L3} = L2} = L1, 
    %same here:
    NewRecord = L1#l1{l2=L2#l2{l3=L3#l3{value = Value+1}}},  
    increment_values_recursive(L1s, [NewRecord | Acc]).

increment_values(L1s) ->
    lists:reverse(increment_values_recursive(L1s, [])).

AKA:

typedef struct { int key, value; } l3;
typedef struct { int foo, bar; l3 m_l3 } l2;
typedef struct { int foo, bar; l2 m_l2 } l1;

for (int i=0; i<NUM_IN_LIST; i++)
{
    objs[i].m_l2.m_l3.value++;
}
share|improve this question

4 Answers 4

up vote 1 down vote accepted

It is not as hard as it seems. @Peer Stritzinger gave a good answer, but here is my take, with a clean list comprehension:

-record(l3, {key, value}).
-record(l2, {foo=foo, bar=bar, al3}).
-record(l1, {foo=foo, bar=bar, al2}).

increment(#l1{al2 = Al2}=L1) -> L1#l1{al2 = increment(Al2)};
increment(#l2{al3 = Al3}=L2) -> L2#l2{al3 = increment(Al3)};
increment(#l3{value = V}=L3) -> L3#l3{value = V + 1}.

test() ->
  List =
    [ #l1{al2=#l2{al3=#l3{key=0, value = 100}}}
    , #l1{al2=#l2{al3=#l3{key=1, value = 200}}}
    , #l1{al2=#l2{al3=#l3{key=2, value = 300}}}
    , #l1{al2=#l2{al3=#l3{key=3, value = 400}}}],
  [increment(L) || L <- List].
share|improve this answer

This is waaaay messier than it would be in a language with destructive mutation, but it is definitely possible. Here's the dirt:

increment(Records) ->
    [L1#l1{l2 = (L1#l1.l2)#l2{l3 = ((L1#l1.l2)#l2.l3)#l3{value = ((L1#l1.l2)#l2.l3)#l3.value + 1}}} || L1 <- Records].

As you can see, this is ugly as hell; furthermore, it's difficult to immediately apprehend what this comprehension is doing. It's straightforward to figure out what's going on, but I'd have a talk with anyone in my shop who wrote something like this. Much better to simply accumulate and reverse - the Erlang compiler and runtime are very good at optimizing this sort of pattern.

share|improve this answer
1  
Using helper functions as @Peer Stritzinger makes this very readable. If you don't want to define a function for it use a fun instead. In this case I don't really see any need to accumulate and reverse. –  rvirding Aug 20 '11 at 16:45
    
You're absolutely correct - with a helper function or two, this becomes both trivial and readable. I suppose I read more in to the question than was written; here I had assumed that reducing the bindings and function calls to a minimum was a goal. –  Ben Aug 20 '11 at 21:41

You can use a list comprehension and even don't need to filter out records that don't have the nesting.

To avoid readability problems I shortened your record definition.

-record(l3, {key, value}).
-record(l2, {foo, bar, al3}).
-record(l1, {foo, bar, al2}).

Define a helper function to increment the value:

inc_value(#l1{al2=#l2{al3=#l3{value=Value}=L3}=L2}=L1) ->
    L1#l1{al2=L2#l2{al3=L3#l3{value=Value+1}}};
inc_value(R) ->
    R.

Note the last clause that maps any other stuff that doesn't match the pattern to itself.

Lets define example records to try this out:

1> R=#l1{foo=1, bar=2}.
#l1{foo = 1,bar = 2,al2 = undefined}

This is a record that doesn't have the full nesting defined.

2>  R1=#l1{foo=1, bar=2, al2=#l2{foo=3, bar=4, al3=#l3{key=mykey, value=10}}}.
#l1{foo = 1,bar = 2,
    al2 = #l2{foo = 3,bar = 4,
              al3 = #l3{key = mykey,value = 10}}}

Another one that has the full structure.

Try out the helper function:

4> inc_value(R). 
#l1{foo = 1,bar = 2,al2 = undefined}

It leaves alone the not fully nested record.

3> inc_value(R1).
#l1{foo = 1,bar = 2,
    al2 = #l2{foo = 3,bar = 4,
              al3 = #l3{key = mykey,value = 11}}}

It increments the fully nested record ok.

Now the list comprehension is simple and readable:

5> [ inc_value(X) || X <- [R, R1] ].
[#l1{foo = 1,bar = 2,al2 = undefined},
 #l1{foo = 1,bar = 2,
     al2 = #l2{foo = 3,bar = 4,
               al3 = #l3{key = mykey,value = 11}}}]
share|improve this answer

The best solution is probably to look into the concept of lenses in functional programming. A lens is a functional getter and setter for mutation of records. Done correctly, you can then write higher-order lenses which compose primitive lenses.

The result is that you can construct a mutator for your purpose and then run the mutator through all the records by a comprehension.

It is one of those things I wanna write some day for Erlang but never really got the time to write up :)

share|improve this answer

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.