p := list;
while (p <> nil) and (p^.key = x) do p := p^.next;
found := p.key = x
result := list.IndexOf(x) <> -1;
result := false;
for e in list do
if e=x then
begin
result := true;
break;
end
Result := List.Contains (X);
bool contains(int x, int* list, size_t list_len) {
for (int i=0 ; i<list_len ; i++)
if (list[i] == x)
return true;
return false;
}
(some (partial = x) list)
bool Contains(const std::vector<int> &list, int x)
{
return std::find(list.begin(), list.end(), x) != list.end();
}
auto contains(auto list, auto x) -> bool {
return std::ranges::find(list, x) != std::ranges::end(list);
}
bool here = canFind(items, x);
member(_, []) -> false;
member(Value, [H|T]) ->
case H of
Value -> true;
_ -> member(T)
end.
member(_, []) -> false;
member(Value, [H|_]) where Value =:= H -> true;
member(Value, [_|T]) -> member(Value, T).
if (findloc (list, x, 1) != 0) then
func Contains(list []T, x T) bool {
for _, item := range list {
if item == x {
return true
}
}
return false
}
find _ [] = False
find n (x:xs)
| x == n = True
| otherwise = find n xs
return list.indexOf(x) !== -1;
boolean contains(int[] list, int x){
for(int y:list)
if( y==x )
return true;
return false;
}
asList(list).contains(x);
boolean <T> contains(T[] list, T x){
if( x==null){
for(T y:list)
if( y==null )
return true;
}else{
for(T y:list)
if( x.equals(y) )
return true;
}
return false;
}
(find x list :test #'equal)
function contains(list, x)
for _, v in ipairs(list) do
if v == x then return true end
end
return false
end
in_array($x, $list, true);
print "ok\n" if first {$_ eq $x} @list;
print "Found 'foo'\n" if grep {$_ eq $x} @list;
(&list).into_iter().any(|v| v == &x)
list.binary_search(&x).is_ok()
list.iter().any(|v| v == &x)
(define (contains list x)
(cond [(null? list) #f]
[(equal? (car list) x) #t]
[else (contains (cdr list) x)]))