Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I want to write a function to replace a specific atom with the given atom in an input list. But I want to do it using pattern matching and not using conditional statements. Any idea?

And also I want to write a function to return unique atoms in an expression. e.g.


[a, b, c, a, b]   




[b, b, b, r, t, y, y]   


[t, r]
share|improve this question
It's rather bad form to ask two completely different questions as one question. –  Dustin Apr 29 '11 at 17:35
Please accept the answer that best answers your question, thanks. –  Adam Lindberg May 25 '11 at 7:20

2 Answers 2

One way I'm looking for solving your first question would be to use guards, instead of if statements. Using only pattern matching doesn't seem possible (or desirable, even if you can do it).

So, for instance, you could do something like:

my_replace([H|T], ToReplace, Replacement, Accum) when H == ToReplace ->
    my_replace(T, ToReplace, Replacement, [Replacement|Accum]);

my_replace([H|T], ToReplace, Replacement, Accum) ->
    my_replace(T, ToReplace, Replacement, [H|Accum]);

my_replace([], ToReplace, Replacement, Accum) ->

EDIT: Edited for simplicity and style, thanks for the comments. :)

For the second part of your question, what do you consider an "expression"?

EDIT: Nevermind that, usort doesn't completely remove duplicates, sorry.

share|improve this answer
you can switch first and second clauses and remove "when H /= To_replace" - it's quite obvious that if == didnt match then you dont have to replace that element –  keymone Apr 29 '11 at 12:10
also do not mix naming conventions - To_replace is ugly, ToReplace is beautiful. –  keymone Apr 29 '11 at 12:11
Yes, I'm still kind of new to Erlang so I still fumble a bit. Thanks! Will edit –  João Neves Apr 29 '11 at 13:05
@keymore: To_replace is not mixing naming conventions, since for atoms and functions and modules and such Erlang uses this_naming_convention it is a matter of taste if you want to keep this naming convention for variables and only capitalize the first letter (note for the non Erlang reader: which is enforced by the language syntax) or to switch to CamelSyntax for variables which has the disadvantage of having totally different naming conventions for variables to the rest of the language. Either way is some compromise. –  Peer Stritzinger Apr 29 '11 at 13:26
BTW most of the Erlang code avoids this naming thing anyway by having short one-word (or letter) varnames, which is Ok since scope is only one function and these should be short and being set only once also helps. –  Peer Stritzinger Apr 29 '11 at 13:28

Assuming you want to replace all instances and keep the order of the list (works with all terms):

replace(Old, New, List) -> replace(Old, New, List, []).

replace(_Old, _New, [],           Acc) -> lists:reverse(Acc);
replace(Old,  New,  [Old|List],   Acc) -> replace(Old, New, List, [New|Acc]);
replace(Old,  New,  [Other|List], Acc) -> replace(Old, New, List, [Other|Acc]).

For the unique elements filter, you need to keep a state of which elements you have looked at already.

It would be really awkward to implement such a function using only pattern matching in the function headers and you would not really gain anything (performance) from it. The awkwardness would come from having to loop through both the list in question and the list(s) keeping your state of already parsed elements. You would also loose a lot of readability.

I would recommend going for something simpler (works with all terms, not just atoms):

unique(List) -> unique(List, []).

unique([], Counts) ->
    lists:foldl(fun({E, 1}, Acc) -> [E|Acc];
                   (_,      Acc) -> Acc
                end, [], Counts);
unique([E|List], Counts) ->
    unique(List, count(E, Counts).

count(E, [])            -> [{E, 1}];
count(E, [{E, N}|Rest]) -> [{E, N + 1}|Rest];
count(E, [{X, N}|Rest]) -> [{X, N}|count(E, Rest)].
share|improve this answer

Your Answer


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.