//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // template , class Pred = equal_to, // class Alloc = allocator> // class unordered_set // local_iterator begin (size_type n); // local_iterator end (size_type n); // const_local_iterator begin (size_type n) const; // const_local_iterator end (size_type n) const; // const_local_iterator cbegin(size_type n) const; // const_local_iterator cend (size_type n) const; #include #include int main() { { typedef std::unordered_set C; typedef int P; typedef C::local_iterator I; P a[] = { P(1), P(2), P(3), P(4), P(1), P(2) }; C c(a, a + sizeof(a)/sizeof(a[0])); assert(c.bucket_count() >= 5); C::size_type b = c.bucket(0); I i = c.begin(b); I j = c.end(b); assert(std::distance(i, j) == 0); b = c.bucket(1); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 1); b = c.bucket(2); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 2); b = c.bucket(3); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 3); b = c.bucket(4); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 4); } { typedef std::unordered_set C; typedef int P; typedef C::const_local_iterator I; P a[] = { P(1), P(2), P(3), P(4), P(1), P(2) }; const C c(a, a + sizeof(a)/sizeof(a[0])); assert(c.bucket_count() >= 5); C::size_type b = c.bucket(0); I i = c.begin(b); I j = c.end(b); assert(std::distance(i, j) == 0); b = c.bucket(1); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 1); b = c.bucket(2); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 2); b = c.bucket(3); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 3); b = c.bucket(4); i = c.begin(b); j = c.end(b); assert(std::distance(i, j) == 1); assert(*i == 4); } { typedef std::unordered_set C; typedef int P; typedef C::const_local_iterator I; P a[] = { P(1), P(2), P(3), P(4), P(1), P(2) }; C c(a, a + sizeof(a)/sizeof(a[0])); assert(c.bucket_count() >= 5); C::size_type b = c.bucket(0); I i = c.cbegin(b); I j = c.cend(b); assert(std::distance(i, j) == 0); b = c.bucket(1); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 1); b = c.bucket(2); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 2); b = c.bucket(3); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 3); b = c.bucket(4); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 4); } { typedef std::unordered_set C; typedef int P; typedef C::const_local_iterator I; P a[] = { P(1), P(2), P(3), P(4), P(1), P(2) }; const C c(a, a + sizeof(a)/sizeof(a[0])); assert(c.bucket_count() >= 5); C::size_type b = c.bucket(0); I i = c.cbegin(b); I j = c.cend(b); assert(std::distance(i, j) == 0); b = c.bucket(1); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 1); b = c.bucket(2); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 2); b = c.bucket(3); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 3); b = c.bucket(4); i = c.cbegin(b); j = c.cend(b); assert(std::distance(i, j) == 1); assert(*i == 4); } }