Question

In the spirit of:

* Hidden Features of C#
* Hidden Features of Java
* Hidden Features of ASP.NET
* Hidden Features of Python
* Hidden Features of HTML
* and other Hidden Features questions

What are the hidden features of Erlang that every Erlang developer should be aware of?

One hidden feature per answer, please.

Answer 1

The magic commands in the shell. The full list is in the manual, but the ones I use most are:

• f() - forget all variables
• f(X) - forget X
• v(42) - recall result from line 42
• v(-1) - recall result from previous line
• rr(foo) - read record definitions from module foo
• rr("*/*") - read record definitions from every module in every subdirectory

Answer 2

Inheritance! http://www.erlang.se/euc/07/papers/1700Carlsson.pdf

Parent

-module(parent).
-export([foo/0, bar/0]).

foo() ->
    io:format("parent:foo/0 ~n", []).

bar() ->
    io:format("parent:bar/0 ~n", []).

Child

-module(child).
-extends(parent).
-export([foo/0]).

foo() ->
    io:format("child:foo/0 ~n", []).

Console

23> parent:foo().
parent:foo/0 
ok
24> parent:bar().
parent:bar/0 
ok
25> child:foo().
child:foo/0 
ok
26> child:bar().
parent:bar/0 
ok

Answer 3

user_default.erl - you can build your own shell builtins by having a compiled user_default.beam in your path which can be pretty nifty

Answer 4

beam_lib:chunks can get source code from a beam that was compiled with debug on which can be really usefull

{ok,{_,[{abstract_code,{_,AC}}]}} = beam_lib:chunks(Beam,[abstract_code]).
  io:fwrite("~s~n", [erl_prettypr:format(erl_syntax:form_list(AC))]).

Answer 5

Parameterized Modules! From http://www.lshift.net/blog/2008/05/18/late-binding-with-erlang and http://www.erlang.se/euc/07/papers/1700Carlsson.pdf

-module(myclass, [Instvar1, Instvar2]).
-export([getInstvar1/0, getInstvar2/0]).
getInstvar1() -> Instvar1.
getInstvar2() -> Instvar2.

And

Eshell V5.6  (abort with ^G)
1> Handle = myclass:new(123, 234).
{myclass,123,234}
2> Handle:getInstvar1().
123
3> Handle:getInstvar2().
234

Answer 6

.erlang_hosts gives a nice way to share names across machines

Answer 7

Ports, external or linked-in, accept something called io-lists for sending data to them. An io-list is a binary or a (possibly deep) list of binaries or integers in the range 0..255.

This means that rather than concatenating two lists before sending them to a port, one can just send them as two items in a list. So instead of

"foo" ++ "bar"

one do

["foo", "bar"]

In this example it is of course of miniscule difference. But the iolist in itself allows for convenient programming when creating output data. io_lib:format/2,3 itself returns an io list for example.

The function erlang:list_to_binary/1 accepts io lists, but now we have erlang:iolist_to_binary/1 which convey the intention better. There is also an erlang:iolist_size/1.

Best of all, since files and sockets are implemented as ports, you can send iolists to them. No need to flatten or append.

Answer 8

.erlang can preload libraries and run commands on a shells startup, you can also do specific commands for specific nodes by doing a case statement on node name.

Answer 9

That match specifications can be built using ets:fun2ms(...) where the Erlang fun syntax is used and translated into a match specification with a parse transform.

1> ets:fun2ms(fun({Foo, _, Bar}) when Foo > 0 -> {Foo, Bar} end).
[{{'$1','_','$2'},[{'>','$1',0}],[{{'$1','$2'}}]}]

So no fun-value is ever built, the expression gets replaced with the match-spec at compile-time. The fun may only do things a match expression could do.

Also, ets:fun2ms is available for usage in the shell, so fun-expressions can be tested easily.

Answer 10

The gen___tcp and ssl sockets have a {packet, Type} socket option to aid in decoding a number of protocols. The function erlang:decode_packet/3 has a good description on what the various Type values can be and what they do.

Together with a {active, once} or {active, true} setting, each framed value will be delivered as a single message.

Examples: the packet http mode is used heavily for iserve and the packet fcgi mode for ifastcgi. I can imagine that many of the other http servers use packet http as well.

Answer 11

It is possible to define your own iterator for QLC to use. For example, a result set from an SQL query could be made into a QLC table, and thus benefit from the features of QLC queries.

Besides mnesia tables, dets and ets have the table/1,2 functions to return such a "Query Handle" for them.

Answer 12

Hot code loading. From wiki.

Code is loaded and managed as "module" units, the module is a compilation unit. The system can keep two versions of a module in memory at the same time, and processes can concurrently run code from each.

The versions are referred to the "new" and the "old" version. A process will not move into the new version until it makes an external call to its module.