;; for side effects
(doseq [x (concat items1 items2)]
(println x))
void print_seq(const auto& ...xs)
{
(std::for_each(std::begin(xs), std::end(xs),
[](const auto& x) { std::cout << x; }), ...);
}
std::list xs { "hi", "there", "world" }, ys { "lo" "thar" };
print_seq(xs, ys);
foreach (var item in items1.Concat(items2))
{
Console.WriteLine(item);
}
items1.ForEach(Console.WriteLine);
items2.ForEach(Console.WriteLine);
chain(items1, items2).each!writeln;
items1.forEach(print);
items2.forEach(print);
def main(items1, items2) do
Enum.each(items1, &IO.puts/1)
Enum.each(items2, &IO.puts/1)
end
items1 ++ items2 |> Enum.each(&IO.puts/1)
for _, v := range items1 {
fmt.Println(v)
}
for _, v := range items2 {
fmt.Println(v)
}
mapM_ print $ items1 ++ items2
for (let item of items1) console.log(item)
for (let item of items2) console.log(item)
items1.concat(items2).forEach(console.log)
items1.forEach(System.out::println);
items2.forEach(System.out::println);
for (E e : items1) out.println(e);
for (E e : items2) out.println(e);
Stream.concat(
items1.stream(),
items2.stream()
).forEach(System.out::println);
(map nil #'print (append items1 items))
# beginner style
foreach( $items1 as $item ) print "$item\n";
foreach( $items2 as $item ) print "$item\n";
# five times faster
print implode("\n", $items1)."\n".implode("\n", $items2)."\n" ;
for i := 0 to items1.Count-1 do writeln(items1[i]);
for i := 0 to items2.Count-1 do writeln(items2[i]);
print for @items1, @items2;
for x in items1 + items2:
print(x)
for x in chain(items1, items2): print(x)
items1.chain(items2).each{|item| puts item}
[items1, items2].each{|ar| ar.each{|item| p item }}
for i in item1.iter().chain(item2.iter()) {
print!("{} ", i);
}
(map (lambda (x)
(display x)
(newline))
(append items1 items2))