Erlang: Running time = 4.08s
+-%integer_sqrt
integer_sqrt(0)->0;
integer_sqrt(1)->1;
integer_sqrt(N) when N < 1000000 -> round(math:sqrt(N));
integer_sqrt(N)->integer_sqrt(1,N div 2,N).
integer_sqrt(A,A,_)->A;
integer_sqrt(A,B,N)->integer_sqrt(B,(B+N div B) div 2,N).
pow(_,0)->1;
pow(1,_)->1;
pow(A,B)->pow(A,B,1).
pow(_,0,Res)->Res;
pow(Mult,B,Res) when B band 1 == 1 ->
pow(Mult*Mult,B bsr 1, Res*Mult);
pow(Mult,B,Res)->pow(Mult*Mult,B bsr 1, Res).
cartesian_product([])->[];
cartesian_product([OneList])->lists:map(fun(X)->[X] end,OneList);
cartesian_product([FirstList|RestLists])->
Others=cartesian_product(RestLists),
lists:append(lists:map(fun(Item)-> lists:map(fun(Rest)->[Item|Rest] end, Others) end,FirstList)).
echo(Message,Sender)->Sender ! Message.
prime_list()->
case whereis(primeList) of
undefined->
Pid=spawn(euler,prime_list,[initialize]),
register(primeList, Pid),
Pid;
Exists->
Exists
end.
prime_list(initialize)->
put(primes,array:from_list([2,3,5,7,11,13,17,19])),
put(total,8),
prime_list(idle);
prime_list(idle)->
Size=get(total),
receive
{get,FromZero,Reply} when FromZero < Size ->
Reply ! {prime,FromZero,array:get(FromZero,get(primes))};
{get,FromZero,Reply} ->
echo({get,FromZero,Reply},self()),
prime_list(gen);
{all_below,What,Reply} ->
case array:get(Size-1,get(primes)) < What of
true->
prime_list(gen),
echo({all_below,What,Reply},self());
false->
Reply ! {primes_below,What,prime_list(below,What,0,[])}
end;
{is_prime,What,Reply}->
Skirt=math:sqrt(What),
Largest=array:get(Size-1,get(primes)),
case Largest < What of
true->
case Largest < Skirt of
true->
prime_list(gen),
echo({is_prime,What,Reply},self());
false->
Reply ! {is_prime,What,prime_list(check_factors,0,What,Skirt)}
end;
false->
Reply ! {is_prime,What,prime_list(binary_search,What,0,Size-1)}
end
end,
prime_list(idle);
prime_list(gen)->
Size=get(total),
Start=array:get(Size-1,get(primes))+2,
End=Start*10+1,
Sqrt=math:sqrt(End),
AsList=array:to_list(get(primes)),
[2|Odds]=AsList,
RelevantOdds=lists:takewhile(fun(N)->N =< Sqrt end,Odds),
Newbs=prime_list(gen,Size,Start,End,RelevantOdds,ordsets:from_list(lists:seq(Start,End,2))),
put(primes,array:from_list(lists:append(AsList,ordsets:to_list(Newbs)))),
put(total,get(total)+ordsets:size(Newbs)).
prime_list(check_factors,NextIndex,N,Sqrt)->
NextPrime=array:get(NextIndex,get(primes)),
case NextPrime > Sqrt of
true->true;
false->
case N rem NextPrime ==0 of
true->false;
false->
prime_list(check_factors,NextIndex+1,N,Sqrt)
end
end;
prime_list(binary_search,What,Low,High) when High-Low < 2 ->
H=array:get(High,get(primes)),
L=array:get(Low,get(primes)),
if
H == What; L == What ->
true;
true->false
end;
prime_list(binary_search,What,Low,High)->
Mid=Low+((High-Low) div 2),
Got=array:get(Mid,get(primes)),
if
What > Got->prime_list(binary_search,What,Mid+1,High);
What < Got->prime_list(binary_search,What,Low,Mid-1);
true->true
end;
prime_list(below,What,Index,SoFar)->
Next=array:get(Index,get(primes)),
if
Next >= What->
lists:reverse(SoFar);
true->
prime_list(below,What,Index+1,[Next|SoFar])
end.
prime_list(gen,_,_,_,[],Survivors)->Survivors;
prime_list(gen,Total,Lowest,Highest,[MyPrime|RestPrimes],Survivors)->
prime_list(gen,Total,Lowest,Highest,RestPrimes,
ordsets:subtract(Survivors,
ordsets:from_list(
lists:seq(Lowest-(Lowest rem MyPrime),Highest,MyPrime)))).