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I have the following setup:

1> rd(rec, {name, value}).
2> L = [#rec{name = a, value = 1}, #rec{name = b, value = 2}, #rec{name = c, value = 3}].
[#rec{name = a,value = 1},
 #rec{name = b,value = 2},
 #rec{name = c,value = 3}]
3> M = [#rec{name = a, value = 111}, #rec{name = c, value = 333}].
[#rec{name = a,value = 111},#rec{name = c,value = 333}]

The elements in list L are unique based on their name. I also don't know the previous values of the elements in list M. What I am trying to do is to update list L with the values in list M, while keeping the elements of L that are not present in M. I did the following:

update_values([], _M, Acc) ->
update_attributes_from_fact([H|T], M, Acc) ->
    case [X#rec.value || X <- M, =:=] of
      [] ->
        update_values(T, M, [H|Acc]);
      [NewValue] ->
        update_values(T, M, [H#rec{value = NewValue}|Acc])

It does the job but I wonder if there is a simpler method that uses bifs.

Thanks a lot.

share|improve this question
I take it that you just want to update one field of the record not the whole record. Your example does this but you don't explicitly say this. – rvirding Oct 8 '11 at 18:29
The name field remains the same, so there is no point in updating it. I could write update_values(T, M, [#rec{name =, value = NewValue}|Acc]) but I believe the other way is clearer of my intentions. – Martin Dimitrov Oct 8 '11 at 19:53
I was more wondering if you wanted a solution for this specific record or for a more general case of a record with more fields than just a key and a value. If the 2nd case then what should happend with the other fields. – rvirding Oct 8 '11 at 21:04
Please, do suggest a solution for a general record where the one of the fields needs to be updated and the rest to remain the same. Thanks. – Martin Dimitrov Oct 8 '11 at 21:14
up vote 3 down vote accepted

There's no existing function that does this for you, since you just want to update the value field rather than replacing the entire record in L (like lists:keyreplace() does). If both L and M can be long, I recommend that if you can, you change L from a list to a dict or gb_tree using as key. Then you can loop over M, and for each element in M, look up the correct entry if there is one and write back the updated record. The loop can be written as a fold. Even if you convert the list L to a dict first and convert it back again after the loop, it will be more efficient than the L*M approach. But if M is always short and you don't want to keep L as a dict in the rest of the code, your current approach is good.

share|improve this answer
lists:keyreplace will do the job because the name field remains the same and I can simply override it. Thanks for the other explanation also. – Martin Dimitrov Oct 8 '11 at 20:02

Pure list comprehensions solution:

[case [X||X=#rec{name=XN}<-M, XN=:=N] of [] -> Y; [#rec{value =V}|_] -> Y#rec{value=V} end || Y=#rec{name=N} <- L].

little bit more effective using lists:keyfind/3:

[case lists:keyfind(N,,M) of false -> Y; #rec{value=V} -> Y#rec{value=V} end || Y=#rec{name=N} <- L].

even more effective for big M:

D = dict:from_list([{, X#rec.value} || X<-M]),
[case dict:find(N,D) of error -> Y; {ok,V} -> Y#rec{value=V} end || Y=#rec{name=N} <- L].

but for really big M this approach can be fastest:

merge_join(lists:keysort(, L), lists:ukeysort(, M)).

merge_join(L, []) -> L;
merge_join([], _) -> [];
merge_join([#rec{name=N}=Y|L], [#rec{name=N, value=V}|_]=M) -> [Y#rec{value=V}|merge_join(L,M)];
merge_join([#rec{name=NL}=Y|L], [#rec{name=NM}|_]=M) when NL<NM -> [Y|merge_join(L,M)];
merge_join(L, [_|M]) -> merge_join(L, M).
share|improve this answer
Thanks for you detailed answer. Much appreciated. – Martin Dimitrov Oct 10 '11 at 10:50

You could use lists:ukeymerge/3:

lists:ukeymerge(, M, L).


returns the sorted list formed by merging TupleList1 and TupleList2. The merge is performed on the Nth element of each tuple. Both TupleList1 and TupleList2 must be key-sorted without duplicates prior to evaluating this function. When two tuples compare equal, the tuple from TupleList1 is picked and the one from TupleList2 deleted.

A record is a tuple and you can use to return the position of the key in a transparent way. Note that I reverted the lists L and M, since the function keeps the value from the first list.

share|improve this answer
I am not absolutely sure I understand your idea. The lists are not sorted in any way and I don't think I can sort them correctly, because M varies in size. – Martin Dimitrov Oct 8 '11 at 15:27
@MartinDimitrov: It is technique well known in database world as merge join. For big sets it is fastest technique even those sets are not sorted yet. If you have M values in lookup and N data using lookup up loop has O(NlogM) + O(MlogM) for building indexes. When using merge join you will get O(M+N) + (O(NlogN) + O(MlogM)) for sorting. But in some cases you can even sort in O(N) so you will got O(M+N) vs O(N*logM) which can be better for comparable big N and M. – Hynek -Pichi- Vychodil Oct 10 '11 at 9:13

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