Erlang (programming language)/Tutorials: Difference between revisions
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imported>Eric Evers |
imported>Eric Evers |
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===Autonomous Agents=== | ===Autonomous Agents=== | ||
[[Autonomous Agent]] | |||
====Dynamic timeout based initiative switching==== | ====Dynamic timeout based initiative switching==== | ||
Revision as of 18:06, 12 April 2008
Erlang Language Programming Tutorials
Overview
Simple Types
Advanced Types
Examples
Hello World (serial)
Hello World (parallel)
Prime Sieve (parallel with linda type coordination)
Prime Sieve Program (parallel)
-module(primes).
% This is a simple linda tuplespace. Here we use it to find primes numbers. % This tuple-space can not have duplicate tuples, but with a prime sieve it does % not matter.
-compile(export_all).
start() -> start(100). % defualt value for max is 100
start(Max) ->
io:format(" Loading ~w numbers into matrix (+N) \n ", [ Max ] ),
Lid = spawn_link( primes, linda, [Max, [], [] ]),
Sqrt = round(math:sqrt(Max)+0.5),
io:format(" Sqrt(~w) + 1 = ~w \n " , [Max,Sqrt] ),
io:format(" Tuple space is started ~n ",[]),
io:format(" ~w sieves are spawning (+PN) ~n ", [Sqrt] ),
io:format(" Non prime sieves are being halted (-PN) ~n ", [] ),
% load numbers into tuplespace
% and spawn seive process
spawn( primes, put_it, [Max, Max, Lid] ).
sleep(N) ->
receive
after N -> time_is_up
end.
start_sieves(Lid) ->
Lid ! {self(), get, all, pids},
receive
{lindagram, pids, Pids} -> done
end,
start_sieve_loop(Pids).
start_sieve_loop([]) -> done;
start_sieve_loop([Pid|Pids]) ->
receive
after 100 -> done
end,
Pid ! {start},
start_sieve_loop(Pids).
spawn_sieves( _Max, Sqrt, _Lid, Sqrt ) -> done;
spawn_sieves( Max, Inc, Lid, Sqrt ) ->
T = 1000,
Pid = spawn( primes, sieve, [ Max, Inc+Inc, Inc, Lid, T ]),
Name = list_to_atom("P" ++ integer_to_list(Inc)),
Lid ! {put, pid, Name},
register( Name, Pid),
io:format(" +~s ", [atom_to_list(Name)]),
spawn_sieves( Max, Inc+1, Lid, Sqrt ).
put_it(Max, N, Lid) when N =< 1 ->
Sqrt = round(math:sqrt(Max)+0.5),
spawn_sieves( Max, 2, Lid, Sqrt );
put_it(Max, N,Lid) when N > 1 ->
receive
after 0 ->
Lid ! {put, N, N},
if
N rem 1000 == 0 ->
io:format(" +~w ", [N]);
true -> done
end,
put_it(Max, N-1,Lid)
end.
% the 2 sieve starts last and has the most to do so it finishes last
sieve(Max, N, 2, Lid, _T) when N > Max ->
io:format("final sieve ~w done, ~n", [2] ),
Lid ! {dump,output};
sieve(Max, N, Inc, _Lid, _T) when N > Max ->
io:format("sieve ~w done ", [Inc] );
sieve(Max, N, Inc, Lid, T) when N =< Max ->
receive
after
T -> NT = 0
end,
receive
{lindagram,Number} when Number =/= undefined ->
clearing_the_queue;
{exit} -> exit(normal)
after
1 -> done
end,
% remove multiple of number from tuple-space
Lid ! {self(), get, N},
Some_time = (N rem 1000)==0,
if Some_time -> io:format("."); true -> done end,
% remove (multiple of Inc) from sieve-process space
Name = list_to_atom("P" ++ integer_to_list(N)),
Exists = lists:member( Name, registered()),
if
Exists ->
Name ! {exit},
io:format(" -~s ", [atom_to_list(Name)] );
true -> done
end,
sieve(Max, N+Inc, Inc, Lid, NT). % next multiple
%% linda is a simple tutple space
%% if it receives no messages for 2 whole seconds it dumps its contents
%% as output and halts
linda(Max, Keys, Pids) ->
receive
{put, pid, Pid} ->
linda(Max, Keys, Pids++[Pid]);
{put, Name, Value} ->
put( Name, Value),
linda(Max, Keys++[Name], Pids);
{From, get, Name} ->
From ! {lindagram, get( Name)},
erase( Name ), % get is a desructive read
linda(Max, Keys--[Name],Pids);
{From, get, all, pids} ->
From ! {lindagram, pids, Pids},
linda(Max, Keys, Pids );
{From, get, pid, Pid} ->
L1 = length( Pids ),
L2 = length( Pids -- [Pid]),
if
L1 > L2 -> % if it exists
From ! {lindagram, pid, Pid};
true ->
From ! {lindagram, pid, undefined}
end,
linda(Max, Keys, Pids );
{dump,output} ->
io:format(" ~w final primes remain: ~w ~n ", [length(Keys), lists:sort(Keys) ])
after (100*Max) -> % if there is not tuple action after some time then print the results
io:format(" ~w primes remain: ~w ~n ", [length(Keys), lists:sort(Keys) ])
end.
Sample Output for Prime Sieve
c(primes). primes:start(1000). Loading 1000 numbers into matrix (+N) Sqrt(1000) + 1 = 32 Tuple space is started 32 sieves are spawning (+PN) Non prime sieves are being halted (-PN) +1000 <0.46.0> +P2 +P3 +P4 +P5 +P6 +P7 +P8 +P9 +P10 +P11 +P12 +P13 +P14 +P15 +P16 +P17 +P18 +P19 +P20 +P21 +P22 +P23 +P24 +P25 +P26 +P27 +P28 +P29 +P30 +P31 -P8 -P6 -P4 -P9 -P12 -P10 -P15 -P15 -P18 -P14 -P21 -P21 -P22 -P26 -P20 -P24 -P25 -P27 -P28 -P30 -P30 -P16 sieve 31 done sieve 29 done sieve 19 done sieve 23 done sieve 11 done sieve 13 done sieve 17 done sieve 7 done .sieve 5 done sieve 3 done .final sieve 2 done, 168 final primes remain: [2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67, 71,73,79,83,89,97, 101,103,107,109,113,127,131,137,139,149,151,157,163, 167,173,179,181,191,193,197,199, 211,223,227,229,233,239,241,251,257,263,269,271,277,281,283,293, 307,311,313,317,331,337,347,349,353,359,367,373,379,383,389,397, 401,409,419,421,431,433,439,443,449,457,461,463,467,479,487,491, 499,503,509,521,523,541,547,557,563,569,571,577,587,593,599, 601,607,613,617,619,631,641,643,647,653,659,661,673,677,683,691, 701,709,719,727,733,739,743,751,757,761,769,773,787,797, 809,811,821,823,827,829,839,853,857,859,863,877,881,883,887, 907,911,919,929,937,941,947,953,967,971,977,983,991,997]
Autonomous Agents
Dynamic timeout based initiative switching
Explanation of the code in jungle.erl
Here we have a simple chat-bot agent called person/4. We create two instances of it called Tarzan and Jane. They talk to each other. Each has a timeout. The timeout is the lenght of time one will wait before they intiate conversation. The initial timeout of Jane is set to 10 seconds. The initial timeout of Tarzan is set to 8 seconds. Because of the initial values, Tarzan will speak first and Jane will respond. Both timeouts start over but keep the same values. Again, Tarzan speaks first and Jane responds. Now things get interesting. The agent can tell if the conversation is repeating. If the conversation repeats then special messages are sent to cause a swap in the relative levels of timeout. Now Tarzan waits longer than Jane and Jane has a chance to speak first. Now, Jane speaks first twice. Then they swap initiative again. Since the processes are autonomous, we need to stop them with a quit program called jungle:quit().
Example program listing: jungle.erl
-module( jungle ).
-compile(export_all).
%% This program shows how chat-bot agents can exchange initiative(lead) while in conversation.
%% Start with start().
%% End with quit().
start() ->
register( tarzan, spawn( jungle, person, [ tarzan, 8000, "", jane ] ) ),
register( jane, spawn( jungle, person, [ jane, 10000, "", tarzan ] ) ),
"Dialog will start in 5ish seconds, stop program with jungle:quit().".
quit() ->
jane ! exit,
tarzan ! exit.
%% Args for person/4
%% Name: name of agent being created/called
%% T: timeout to continue conversation
%% Last: Last thing said
%% Other: name of other agent in conversation
person( Name, T, Last, Other ) ->
receive
"hi" ->
respond( Name, Other, "hi there \n " ),
person( Name, T, "", Other );
"slower" ->
show( Name, "i was told to wait more " ++ integer_to_list(round(T*2/1000))),
person( Name, T*2, "", Other );
"faster" ->
NT = round( T/2 ),
show( Name, "I was told to wait less " ++ integer_to_list(round(NT/1000))),
person( Name, NT, "", Other );
exit ->
exit(normal);
_AnyWord ->
otherwise_empty_the_queue,
person( Name, T, Last, Other )
after T ->
respond( Name, Other, "hi"),
case Last of
"hi" ->
self() ! "slower",
sleep( 2000), % give the other time to print
Other ! "faster",
person( Name, T, "", Other );
_AnyWord ->
person( Name, T, "hi", Other )
end
end.
%
respond( Name, Other, String ) ->
show( Name, String ),
Other ! String.
%
show( Name, String ) ->
sleep(1000),
io:format( " ~s -- ~s \n ", [ Name, String ] ).
%
sleep(T) ->
receive
after T ->
done
end.
% ===========================================================>%
Sample output from: jungle.erl
Sample output:
18> c(jungle).
{ok,jungle}
19> jungle:start().
jane_and_tarzan_will_start_in_5_seconds
tarzan -- hi
jane -- hi there
tarzan -- hi
jane -- hi there
jane -- I was told to wait less: 5
tarzan -- I was told to wait more: 16
jane -- hi
tarzan -- hi there
jane -- hi
tarzan -- hi there
tarzan -- I was told to wait less: 8
jane -- I was told to wait more: 10
tarzan -- hi
jane -- hi there
tarzan -- hi
jane -- hi there
jane -- I was told to wait less: 5
tarzan -- I was told to wait more: 16
jane -- hi
tarzan -- hi there
20> jungle:quit().
exit