I am wondering how pattern matching is usually implemented. for example in Erlang do you think its implemented at the byte-code level( there's a byte-code for it so that its done efficiently) or is it generated as a series of instructions (series of byte-codes) by the compiler?

It is such a useful thing that I just have to put it into a toy language I am building.


A very good description of compiling pattern matching is given in "The implementation of functional programming languages" by Simon Peyton Jones. It is a bit old but a very good book. It also contains, amongst other things, a description of compiling list comprehensions.

The Erlang compiler uses both of these algorithms from the book.

  • 1
    thanks. I've had this book downloaded for a while now but never had the time to read it. how do you know that Erlang uses algorithms from it?
    – deepblue
    Mar 14 '09 at 7:23
  • 12
    Sorry for not replying earlier, much earlier. The reason I know is that I implementented compiling pattern matching for the current compiler and this is where I took the algorithm from.
    – rvirding
    Jul 23 '09 at 15:14
  • 3
    that works ;). thanks for working on erlang, its a bit odd but definitelly a breath of fresh air. made my life a better place for sure
    – deepblue
    Sep 30 '10 at 0:41
  • @rvirding Does that include the pattern matcher for binary data? Feb 4 '15 at 0:43
  • 2
    @MartinBerger The pattern matcher for binary data was added later but is part of compiling patterns. It is a little more complex than matching other data types as the patterns can overlap much more in many different ways, for example you can match against different size integers at the start of the binary.
    – rvirding
    Feb 5 '15 at 1:25

You can see what happen if compile some code

match(X) -> {a,Y} = X.

When you want see how looks like core

> c(match, to_core).


$ erlc +to_core match.erl

result is

module 'match' ['match'/1,
    attributes []
'match'/1 =
    %% Line 3
    fun (_cor0) ->
        case _cor0 of
          <{'a',Y}> when 'true' ->
          ( <_cor1> when 'true' ->
                primop 'match_fail'
            -| ['compiler_generated'] )
'module_info'/0 =
    fun () ->
        call 'erlang':'get_module_info'
'module_info'/1 =
    fun (_cor0) ->
        call 'erlang':'get_module_info'
            ('match', _cor0)

If you want see asm code of beam you can do

> c(match, 'S').


$ erlc -S match.erl

and result

{module, match}.  %% version = 0

{exports, [{match,1},{module_info,0},{module_info,1}]}.

{attributes, []}.

{labels, 8}.

{function, match, 1, 2}.

{function, module_info, 0, 5}.

{function, module_info, 1, 7}.

As you can see {test,is_tuple,..., {test,test_arity,..., {get_tuple_element,... and {test,is_eq_exact,... are instruction how this match is performed in beam and it's transformed directly to byte-code of beam.

Erlang compiler is implemented in Erlang itself and you can look at each phase of compilation in source code of compile module and details in depend modules.

  • 1
    wonderful answer, lots of great info here (especially the compilation directives). thank you
    – deepblue
    Feb 25 '09 at 21:26

If you want to build your own pattern matcher there is a paper by Scott and Ramsey and a paper by Luc Maranget which both describe how to compile patterns to efficient decision trees (aka nested switch statements).

  • great. appreciate it, looks like lots of useful stuff
    – deepblue
    Feb 26 '09 at 14:27

The best thing I can suggest is to compile up some test functions and have a look at the generated code.

erlc -S test.erl

generates test.S which is fairly readable.

To answer the question, pattern matches are built up in an efficient way from more primitive operations. Here's part of the code from a function clause matching {X, [H|T]}.


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