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The following sample code is from Joe Armstrong's Programming Erlang book:

max(N) ->
  Max = erlang:system_info(process_list),
  io:format("Maximum allowed processes:~p~n",[Max]),
  statistics(runtime),
  statistics(wall_clock),
  L = for(1, N, fun() -> spawn(fun() -> wait() end) end),
  {_, Time1} = statistics(runtime),
  {_, Time2} = statistics(wall_clock),
  lists:foreach(fun(Pid) -> Pid ! die end, L),
  U1 = Time1 * 1000 / N,
  U2 = Time2 * 1000 / N,
  io:format("Process spawn time=~p (~p) microseconds~n",
    [U1, U2]).

My question is dealing with Erlang fundamentals. It looks like Joe used for() to spawn processes, followed by a lists:foreach to die them. Is there a reason to use one over the other? Why not use for() again to iterate over the the spawned process list and send them a die message? Is there an efficiency optimization here that I'm missing?

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2 Answers 2

up vote 7 down vote accepted

lists:foreach saves you the trouble of determining the length of the list ahead of time, and of specifying it as an argument. The for invocation needs to know how long to make the list, so it's necessary. for() is usually used as a last resort when there's nothing more appropriate.

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4  
Also, for/3 does not exist in the language so you would have to implement it yourself. Makes it a moot point. –  Adam Lindberg Jul 12 '11 at 7:28

For the record, another way to express for and foreach is as list comprehensions:

for:

[spawn(fun() -> wait() end) || _ <- lists:seq(1, N)]

foreach:

[Pid ! die || Pid <- L]

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