Disclaimer: I kept this because some things may be useful to others, however, it does not solve what I had initially tried to do.

Right now, I'm trying to solve the following:

Given something like {a, B, {c, D}} I want to scan through Erlang forms given to parse_transform/2 and find each use of the send operator (!). Then I want to check the message being sent and determine whether it would fit the pattern {a, B, {c, D}}.

Therefore, consider finding the following form:


Since the message being sent is:


which is an encoding of {a, 5, SomeVar}, this would match the original pattern of {a, B, {c, D}}.

I'm not exactly sure how I'm going to go about this but do you know of any API functions which could help?

Turning the given {a, B, {c, D}} into a form is possible by first substituting the variables with something, e.g. strings (and taking a note of this), else they'll be unbound, and then using:

> erl_syntax:revert(erl_syntax:abstract({a, "B", {c, "D"}})).

I was thinking that after getting them in the same format like this, I could analyze them together:

> erl_syntax:type({tuple,0,[{atom,0,a},{string,0,"B"},{tuple,0,[{atom,0,c},string,0,"D"}]}]}).
%% check whether send argument is also a tuple.
%% then, since it's a tuple, use erl_syntax:tuple_elements/1 and keep comparing in this way, matching anything when you come across a string which was a variable...

I think I'll end up missing something out (and for example recognizing some things but not others ... even though they should have matched). Are there any API functions which I could use to ease this task? And as for a pattern match test operator or something along those lines, that does not exist right? (i.e. only suggested here: http://erlang.org/pipermail/erlang-questions/2007-December/031449.html).

Edit: (Explaining things from the beginning this time)

Using erl_types as Daniel suggests below is probably doable if you play around with the erl_type() returned by t_from_term/1 i.e. t_from_term/1 takes a term with no free variables so you'd have to stay changing something like {a, B, {c, D}} into {a, '_', {c, '_'}} (i.e. fill the variables), use t_from_term/1 and then go through the returned data structure and change the '_' atoms to variables using the module's t_var/1 or something.

Before explaining how I ended up going about it, let me state the problem a bit better.


I'm working on a pet project (ErlAOP extension) which I'll be hosting on SourceForge when ready. Basically, another project already exists (ErlAOP) through which one can inject code before/after/around/etc... function calls (see doc if interested).

I wanted to extend this to support injection of code at the send/receive level (because of another project). I've already done this but before hosting the project, I'd like to make some improvements.

Currently, my implementation simply finds each use of the send operator or receive expression and injects a function before/after/around (receive expressions have a little gotcha because of tail recursion). Let's call this function dmfun (dynamic match function).

The user will be specifying that when a message of the form e.g. {a, B, {c, D}} is being sent, then the function do_something/1 should be evaluated before the sending takes place. Therefore, the current implementation injects dmfun before each use of the send op in the source code. Dmfun would then have something like:

case Arg of
    {a, B, {c, D}} -> do_something(Arg);
    _ -> continue

where Arg can simply be passed to dmfun/1 because you have access to the forms generated from the source code.

So the problem is that any send operator will have dmfun/1 injected before it (and the send op's message passed as a parameter). But when sending messages like 50, {a, b}, [6, 4, 3] etc... these messages will certainly not match {a, B, {c, D}}, so injecting dmfun/1 at sends with these messages is a waste.

I want to be able to pick out plausible send operations like e.g. Pid ! {a, 5, SomeVar}, or Pid ! {a, X, SomeVar}. In both of these cases, it makes sense to inject dmfun/1 because if at runtime, SomeVar = {c, 50}, then the user supplied do_something/1 should be evaluated (but if SomeVar = 50, then it should not, because we're interested in {a, B, {c, D}} and 50 does not match {c, D}).

I wrote the following prematurely. It doesn't solve the problem I had. I ended up not including this feature. I left the explanation anyway, but if it were up to me, I'd delete this post entirely... I was still experimenting and I don't think what there is here will be of any use to anyone.

Before the explanation, let:

msg_format = the user supplied message format which will determine which messages being sent/received are interesting (e.g. {a, B, {c, D}}).

msg = the actual message being sent in the source code (e.g. Pid ! {a, X, Y}).

I gave the explanation below in a previous edit, but later found out that it wouldn't match some things it should. E.g. when msg_format = {a, B, {c, D}}, msg = {a, 5, SomeVar} wouldn't match when it should (by "match" I mean that dmfun/1 should be injected.

Let's call the "algorithm" outlined below Alg. The approach I took was to execute Alg(msg_format, msg) and Alg(msg, msg_format). The explanation below only goes through one of these. By repeating the same thing only getting a different matching function (matching_fun(msg_format) instead of matching_fun(msg)), and injecting dmfun/1 only if at least one of Alg(msg_format, msg) or Alg(msg, msg_format) returns true, then the result should be the injection of dmfun/1 where the desired message can actually be generated at runtime.

  1. Take the message form you find in the [Forms] given to parse_transform/2 e.g. lets say you find: {op,24,'!',{var,24,'Pid'},{tuple,24,[{atom,24,a},{var,24,'B'},{var,24,'C'}]}} So you would take {tuple,24,[{atom,24,a},{var,24,'B'},{var,24,'C'}]} which is the message being sent. (bind to Msg).

  2. Do fill_vars(Msg) where:

    -define(VARIABLE_FILLER, "_").
    -spec fill_vars(erl_parse:abstract_form()) -> erl_parse:abstract_form().
    %% @doc This function takes an abstract_form() and replaces all {var, LineNum, Variable} forms with 
    %% {string, LineNum, ?VARIABLE_FILLER}.
    fill_vars(Form) ->
            fun(DeltaTree) ->
                case erl_syntax:type(DeltaTree) of
                    variable ->
                    _ ->
  3. Do form_to_term/1 on 2's output, where:

    form_to_term(Form) -> element(2, erl_eval:exprs([Form], [])).
  4. Do term_to_str/1 on 3's output, where:

    -define(inject_str(FormatStr, TermList), lists:flatten(io_lib:format(FormatStr, TermList))).
    term_to_str(Term) -> ?inject_str("~p", [Term]).
  5. Do gsub(v(4), "\"_\"", "_"), where v(4) is 4's output and gsub is: (taken from here)

    gsub(Str,Old,New) -> RegExp = "\\Q"++Old++"\\E", re:replace(Str,RegExp,New,[global, multiline, {return, list}]).
  6. Bind a variable (e.g. M) to matching_fun(v(5)), where:

    matching_fun(StrPattern) ->
                    "fun(MsgFormat) ->
                        case MsgFormat of
                            ~s ->
                            _ ->
                    end.", [StrPattern])
    str_to_form(MsgFStr) ->
        {_, Tokens, _} = erl_scan:string(end_with_period(MsgFStr)),
        {_, Exprs} = erl_parse:parse_exprs(Tokens),
    end_with_period(String) ->
        case lists:last(String) of
            $. -> String;
            _ -> String ++ "."
  7. Finally, take the user supplied message format (which is given as a string), e.g. MsgFormat = "{a, B, {c, D}}", and do: MsgFormatTerm = form_to_term(fill_vars(str_to_form(MsgFormat))). Then you can M(MsgFormatTerm).

e.g. with user supplied message format = {a, B, {c, D}}, and Pid ! {a, B, C} found in code:

2> weaver_ext:fill_vars({tuple,24,[{atom,24,a},{var,24,'B'},{var,24,'C'}]}).
3> weaver_ext:form_to_term(v(2)).
4> weaver_ext:term_to_str(v(3)).
5> weaver_ext:gsub(v(4), "\"_\"", "_").
6> M = weaver_ext:matching_fun(v(5)).
7> MsgFormatTerm = weaver_ext:form_to_term(weaver_ext:fill_vars(weaver_ext:str_to_form("{a, B, {c, D}}"))).
8> M(MsgFormatTerm).
9> M({a, 10, 20}).
10> M({b, "_", 20}).
  • How is {tuple,17,[{atom,17,a},{integer,17,5},{var,17,'SomeVar'}]} on the form {a, B, {c, D}}? In particular, why is 'SomeVar' on the form {c, D}? Jun 21, 2012 at 12:08
  • Hi Emil. I'm not sure what u mean by "on the form". Basically, {a,5,SomeVar} is important to me if it's found in the src code because, at runtime, SomeVar could end up being {c,9} for example and so {a,5,{c,9}} would match the original {a,B,{c,D}}. Therefore, from an input of {a,B,{c,D}}, my program needs to recognize that a form like {tuple,17,[{atom,17,a},{integer,17,5},{var,17,'SomeVar'}]} could possibly match at runtime (the aim is to inject code at these points).
    – justin
    Jun 21, 2012 at 14:26

2 Answers 2


There is functionality for this in erl_types (HiPE).

I'm not sure you have the data in the right form for using this module though. I seem to remember that it takes Erlang terms as input. If you figure out the form issue you should be able to do most what you need with erl_types:t_from_term/1 and erl_types:t_is_subtype/2.

It was a long time ago that I last used these and I only ever did my testing runtime, as opposed to compile time. If you want to take a peek at usage pattern from my old code (not working any more) you can find it available at github.

  • Hi Daniel. Thanks for the info :) Sorry for taking so long to answer. Work got in the way of my pet project and I completely forgot I had posted this question ^^; I will take a look at what you suggested before replying or accepting. cheers.
    – justin
    Jun 27, 2012 at 14:48
  • Look at the dates; you answered in less than 24 hours. It was my answer that was delayed. Good luck finding a solution and let me know if I can help. Jun 28, 2012 at 18:16
  • You're right I rushed into that one ^^; Yes, erl_types seems to be able to do the trick (so I accepted this answer)... but that is not what I ended up using. Variables ended up being a prob when converting to Erlang terms. Simply changing them to atoms was giving me false with t_is_subtype/2 on inputs which should have given me true. I edited the question to show the approach I took. Cheers Daniel :)
    – justin
    Jun 29, 2012 at 8:42

I don't think this is possible at compile time in the general case. Consider:

send_msg(Pid, Msg) ->
    Pid ! Msg.

Msg will look like a a var, which is a completely opaque type. You can't tell if it is a tuple or a list or an atom, since anyone could call this function with anything supplied for Msg.

This would be much easier to do at run time instead. Every time you use the ! operator, you'll need to call a wrapper function instead, which tries to match the message you are trying to send, and executes additional processing if the pattern is matched.

  • Hi kjw0188. Yes that is exactly the approach I'm currently taking. What I want to do now is avoid having to inject this function which pattern matches on Msg where it is completely unnecessary. In the case of Pid ! Msg... it would have to be injected, however, if it's Pid ! {something, B} then it definitely would not since I'm looking for something of the form {a, B, {c, D}} and {something, B} can never match. cheers.
    – justin
    Jun 27, 2012 at 14:43

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.