template <class S, class SV>
void
-test(SV sv, unsigned pos, unsigned n)
+test(SV sv, std::size_t pos, std::size_t n)
{
typedef typename S::traits_type T;
typedef typename S::allocator_type A;
+ typedef typename S::size_type Size;
if (pos <= sv.size())
{
- S s2(sv, pos, n);
+ S s2(sv, static_cast<Size>(pos), static_cast<Size>(n));
LIBCPP_ASSERT(s2.__invariants());
assert(pos <= sv.size());
- unsigned rlen = std::min<unsigned>(sv.size() - pos, n);
+ std::size_t rlen = std::min(sv.size() - pos, n);
assert(s2.size() == rlen);
assert(T::compare(s2.data(), sv.data() + pos, rlen) == 0);
assert(s2.get_allocator() == A());
{
try
{
- S s2(sv, pos, n);
+ S s2(sv, static_cast<Size>(pos), static_cast<Size>(n));
assert(false);
}
catch (std::out_of_range&)
template <class S, class SV>
void
-test(SV sv, unsigned pos, unsigned n, const typename S::allocator_type& a)
+test(SV sv, std::size_t pos, std::size_t n, const typename S::allocator_type& a)
{
typedef typename S::traits_type T;
+ typedef typename S::size_type Size;
if (pos <= sv.size())
{
- S s2(sv, pos, n, a);
+ S s2(sv, static_cast<Size>(pos), static_cast<Size>(n), a);
LIBCPP_ASSERT(s2.__invariants());
assert(pos <= sv.size());
- unsigned rlen = std::min<unsigned>(sv.size() - pos, n);
+ std::size_t rlen = std::min(sv.size() - pos, n);
assert(s2.size() == rlen);
assert(T::compare(s2.data(), sv.data() + pos, rlen) == 0);
assert(s2.get_allocator() == a);
{
try
{
- S s2(sv, pos, n, a);
+ S s2(sv, static_cast<Size>(pos), static_cast<Size>(n), a);
assert(false);
}
catch (std::out_of_range&)