-module(life_time). -behaviour(gen_server). %% API -export([start_link/3 ,report_state/3 ]). %% Callbacks -export([init/1 ,handle_call/3 ,handle_cast/2 ,handle_info/2 ,terminate/2 ,code_change/3 ]). -define(INTERVAL, 100). % In milliseconds -define(CHAR_DEAD, 32). % Space -define(CHAR_ALIVE, 111). % o -define(CHAR_BAR, 45). % - -record(state, {x :: integer() ,y :: integer() ,cells :: list(atom()) ,num_cells :: integer() ,state_pairs :: list(tuple(integer(), integer())) | [] ,replies_pending :: integer() ,gen_id :: integer() }). %% ============================================================================ %% API %% ============================================================================ start_link(X, Y, Cells) -> ServerName = {local, ?MODULE}, Args = [X, Y, Cells], Opts = [], gen_server:start_link(ServerName, ?MODULE, Args, Opts). report_state(CellID, GenID, CellState) -> gen_server:cast(?MODULE, {report_state, {CellID, GenID, CellState}}). %% ============================================================================ %% Callbacks %% ============================================================================ init([X, Y, Cells]) -> State = #state{x = X ,y = Y ,cells = Cells ,num_cells = length(Cells) ,state_pairs = [] ,replies_pending = 0 ,gen_id = 0 }, ok = schedule_next_gen(), {ok, State}. terminate(_Reason, State) -> {ok, State}. code_change(_Old, State, _Other) -> {ok, State}. handle_call(_Msg, _From, State) -> {reply, ok, State}. handle_cast(next_gen, #state{cells=Cells ,num_cells=NumCells ,state_pairs=[] ,gen_id=GenID }=State) -> NewGenID = GenID + 1, ok = cast_all(Cells, {next_gen, NewGenID}), {noreply, State#state{replies_pending=NumCells, gen_id=NewGenID}}; handle_cast({report_state, {CellID, GenID, CellState}}, #state{x=X ,y=Y ,state_pairs=StatePairs ,replies_pending=RepliesPending ,gen_id=GenID ,num_cells=NumCells }=State) -> NewStatePairs = [{CellID, CellState} | StatePairs], NewRepliesPending = RepliesPending - 1, NewState = State#state{replies_pending=NewRepliesPending}, case NewRepliesPending of 0 -> SortedStatePairs = lists:sort( fun({A, _}, {B, _}) -> A < B end, NewStatePairs ), StateChars = [state_to_char(S) || {_, S} <- SortedStatePairs], ok = io:format( "X: ~b Y: ~b CELLS: ~b GENERATION: ~b~n", [X, Y, NumCells, GenID] ), ok = do_print_bar(X), ok = do_print_state_chars(X, StateChars), ok = timer:sleep(?INTERVAL), ok = schedule_next_gen(), {noreply, NewState#state{state_pairs=[]}}; _N -> {noreply, NewState#state{state_pairs=NewStatePairs}} end; handle_cast(_Msg, State) -> {noreply, State}. handle_info(_Msg, State) -> {noreply, State}. %% ============================================================================ %% Internal %% ============================================================================ schedule_next_gen() -> ok = gen_server:cast(?MODULE, next_gen). cast_all([], _) -> ok; cast_all([Server | Servers], Msg) -> ok = gen_server:cast(Server, Msg), cast_all(Servers, Msg). state_to_char(0) -> ?CHAR_DEAD; state_to_char(1) -> ?CHAR_ALIVE. do_print_state_chars(_, []) -> ok; do_print_state_chars(X, Chars) -> {XChars, RestChars} = lists:split(X, Chars), ok = io:format([XChars, $\n]), do_print_state_chars(X, RestChars). do_print_bar(X) -> io:format("~s~n", [[?CHAR_BAR || _ <- lists:seq(1, X - 1)]]).