| //===----------------------------------------------------------------------===// |
| // |
| // 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. |
| // |
| //===----------------------------------------------------------------------===// |
| #ifndef MAP_ALLOCATOR_REQUIREMENT_TEST_TEMPLATES_H |
| #define MAP_ALLOCATOR_REQUIREMENT_TEST_TEMPLATES_H |
| |
| // <map> |
| // <unordered_map> |
| |
| // class map |
| // class unordered_map |
| |
| // insert(...); |
| // emplace(...); |
| // emplace_hint(...); |
| |
| // UNSUPPORTED: c++98, c++03 |
| |
| #include <cassert> |
| |
| #include "test_macros.h" |
| #include "count_new.hpp" |
| #include "container_test_types.h" |
| #include "assert_checkpoint.h" |
| |
| |
| template <class Container> |
| void testMapInsert() |
| { |
| typedef typename Container::value_type ValueTp; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::insert(const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| assert(c.insert(v).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| assert(c.insert(v2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| assert(c.insert(v).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| assert(c.insert(v2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| assert(c.insert(std::move(v)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| assert(c.insert(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(const value_type&&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| assert(c.insert(std::move(v)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| assert(c.insert(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert({key, value})"); |
| Container c; |
| cc->expect<ValueTp&&>(); |
| assert(c.insert({42, 1}).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| assert(c.insert(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(std::initializer_list<ValueTp>)"); |
| Container c; |
| std::initializer_list<ValueTp> il = { ValueTp(1, 1), ValueTp(2, 1) }; |
| cc->expect<ValueTp const&>(2); |
| c.insert(il); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| c.insert(il); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type const&"); |
| Container c; |
| const ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1), ValueTp(3, 1) }; |
| cc->expect<ValueTp const&>(3); |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type&&"); |
| Container c; |
| ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1) , ValueTp(3, 1) }; |
| cc->expect<ValueTp&&>(3); |
| c.insert(std::move_iterator<ValueTp*>(std::begin(ValueList)), |
| std::move_iterator<ValueTp*>(std::end(ValueList))); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp ValueList2[] = { ValueTp(1, 1), ValueTp(2, 1) , ValueTp(3, 1) }; |
| c.insert(std::move_iterator<ValueTp*>(std::begin(ValueList2)), |
| std::move_iterator<ValueTp*>(std::end(ValueList2))); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type&"); |
| Container c; |
| ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1) , ValueTp(3, 1) }; |
| cc->expect<ValueTp const&>(3); |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| } |
| } |
| } |
| |
| |
| template <class Container> |
| void testMapInsertHint() |
| { |
| typedef typename Container::value_type ValueTp; |
| typedef typename Container::key_type Key; |
| typedef typename Container::mapped_type Mapped; |
| typedef typename std::pair<Key, Mapped> NonConstKeyPair; |
| typedef Container C; |
| typedef typename C::iterator It; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::insert(p, const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| It ret = c.insert(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| It ret2 = c.insert(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp const&>(); |
| It ret = c.insert(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| It ret2 = c.insert(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| It ret = c.insert(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| It ret2 = c.insert(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, {key, value})"); |
| Container c; |
| cc->expect<ValueTp&&>(); |
| It ret = c.insert(c.end(), {42, 1}); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| It ret2 = c.insert(c.begin(), {42, 1}); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, const value_type&&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| It ret = c.insert(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| It ret2 = c.insert(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, pair<Key, Mapped> const&)"); |
| Container c; |
| const NonConstKeyPair v(42, 1); |
| cc->expect<const NonConstKeyPair&>(); |
| It ret = c.insert(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const NonConstKeyPair v2(42, 1); |
| It ret2 = c.insert(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, pair<Key, Mapped>&&)"); |
| Container c; |
| NonConstKeyPair v(42, 1); |
| cc->expect<NonConstKeyPair&&>(); |
| It ret = c.insert(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| NonConstKeyPair v2(42, 1); |
| It ret2 = c.insert(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| |
| |
| } |
| |
| |
| template <class Container> |
| void testMapEmplace() |
| { |
| typedef typename Container::value_type ValueTp; |
| typedef typename Container::key_type Key; |
| typedef typename Container::mapped_type Mapped; |
| typedef typename std::pair<Key, Mapped> NonConstKeyPair; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::emplace(const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| assert(c.emplace(v).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| assert(c.emplace(v2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&>(); |
| assert(c.emplace(v).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| assert(c.emplace(v2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| assert(c.emplace(std::move(v)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| assert(c.emplace(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(const value_type&&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&&>(); |
| assert(c.emplace(std::move(v)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| assert(c.emplace(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(pair<Key, Mapped> const&)"); |
| Container c; |
| const NonConstKeyPair v(42, 1); |
| cc->expect<const NonConstKeyPair&>(); |
| assert(c.emplace(v).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const NonConstKeyPair v2(42, 1); |
| assert(c.emplace(v2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(pair<Key, Mapped> &&)"); |
| Container c; |
| NonConstKeyPair v(42, 1); |
| cc->expect<NonConstKeyPair&&>(); |
| assert(c.emplace(std::move(v)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| NonConstKeyPair v2(42, 1); |
| assert(c.emplace(std::move(v2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(const Key&, ConvertibleToMapped&&)"); |
| Container c; |
| const Key k(42); |
| cc->expect<Key const&, int&&>(); |
| assert(c.emplace(k, 1).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const Key k2(42); |
| assert(c.emplace(k2, 2).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(Key&, Mapped&)"); |
| Container c; |
| Key k(42); |
| Mapped m(1); |
| cc->expect<Key&, Mapped&>(); |
| assert(c.emplace(k, m).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| Key k2(42); |
| assert(c.emplace(k2, m).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(Key&&, Mapped&&)"); |
| Container c; |
| Key k(42); |
| Mapped m(1); |
| cc->expect<Key&&, Mapped&&>(); |
| assert(c.emplace(std::move(k), std::move(m)).second); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| Key k2(42); |
| Mapped m2(2); |
| assert(c.emplace(std::move(k2), std::move(m2)).second == false); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace(ConvertibleToKey&&, ConvertibleToMapped&&)"); |
| Container c; |
| cc->expect<int&&, int&&>(); |
| assert(c.emplace(42, 1).second); |
| assert(!cc->unchecked()); |
| { |
| // test that emplacing a duplicate item allocates. We cannot optimize |
| // this case because int&& does not match the type of key exactly. |
| cc->expect<int&&, int&&>(); |
| assert(c.emplace(42, 1).second == false); |
| assert(!cc->unchecked()); |
| } |
| } |
| } |
| |
| |
| template <class Container> |
| void testMapEmplaceHint() |
| { |
| typedef typename Container::value_type ValueTp; |
| typedef typename Container::key_type Key; |
| typedef typename Container::mapped_type Mapped; |
| typedef typename std::pair<Key, Mapped> NonConstKeyPair; |
| typedef Container C; |
| typedef typename C::iterator It; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| It ret = c.emplace_hint(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&>(); |
| It ret = c.emplace_hint(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| It ret = c.emplace_hint(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| ValueTp v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, const value_type&&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&&>(); |
| It ret = c.emplace_hint(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const ValueTp v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, pair<Key, Mapped> const&)"); |
| Container c; |
| const NonConstKeyPair v(42, 1); |
| cc->expect<const NonConstKeyPair&>(); |
| It ret = c.emplace_hint(c.end(), v); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const NonConstKeyPair v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), v2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, pair<Key, Mapped>&&)"); |
| Container c; |
| NonConstKeyPair v(42, 1); |
| cc->expect<NonConstKeyPair&&>(); |
| It ret = c.emplace_hint(c.end(), std::move(v)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| NonConstKeyPair v2(42, 1); |
| It ret2 = c.emplace_hint(c.begin(), std::move(v2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, const Key&, ConvertibleToMapped&&)"); |
| Container c; |
| const Key k(42); |
| cc->expect<Key const&, int&&>(); |
| It ret = c.emplace_hint(c.end(), k, 42); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| const Key k2(42); |
| It ret2 = c.emplace_hint(c.begin(), k2, 1); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, Key&, Mapped&)"); |
| Container c; |
| Key k(42); |
| Mapped m(1); |
| cc->expect<Key&, Mapped&>(); |
| It ret = c.emplace_hint(c.end(), k, m); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| Key k2(42); |
| Mapped m2(2); |
| It ret2 = c.emplace_hint(c.begin(), k2, m2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, Key&&, Mapped&&)"); |
| Container c; |
| Key k(42); |
| Mapped m(1); |
| cc->expect<Key&&, Mapped&&>(); |
| It ret = c.emplace_hint(c.end(), std::move(k), std::move(m)); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| DisableAllocationGuard g; |
| Key k2(42); |
| Mapped m2(2); |
| It ret2 = c.emplace_hint(c.begin(), std::move(k2), std::move(m2)); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| } |
| } |
| { |
| CHECKPOINT("Testing C::emplace_hint(p, ConvertibleToKey&&, ConvertibleToMapped&&)"); |
| Container c; |
| cc->expect<int&&, int&&>(); |
| It ret = c.emplace_hint(c.end(), 42, 1); |
| assert(ret != c.end()); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| { |
| cc->expect<int&&, int&&>(); |
| It ret2 = c.emplace_hint(c.begin(), 42, 2); |
| assert(&(*ret2) == &(*ret)); |
| assert(c.size() == 1); |
| assert(!cc->unchecked()); |
| } |
| } |
| |
| } |
| |
| |
| template <class Container> |
| void testMultimapInsert() |
| { |
| typedef typename Container::value_type ValueTp; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::insert(const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| c.insert(v); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&>(); |
| c.insert(v); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| c.insert(std::move(v)); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert({key, value})"); |
| Container c; |
| cc->expect<ValueTp&&>(); |
| c.insert({42, 1}); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(std::initializer_list<ValueTp>)"); |
| Container c; |
| std::initializer_list<ValueTp> il = { ValueTp(1, 1), ValueTp(2, 1) }; |
| cc->expect<ValueTp const&>(2); |
| c.insert(il); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type const&"); |
| Container c; |
| const ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1), ValueTp(3, 1) }; |
| cc->expect<ValueTp const&>(3); |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type&&"); |
| Container c; |
| ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1) , ValueTp(3, 1) }; |
| cc->expect<ValueTp&&>(3); |
| c.insert(std::move_iterator<ValueTp*>(std::begin(ValueList)), |
| std::move_iterator<ValueTp*>(std::end(ValueList))); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(Iter, Iter) for *Iter = value_type&"); |
| Container c; |
| ValueTp ValueList[] = { ValueTp(1, 1), ValueTp(2, 1) , ValueTp(3, 1) }; |
| cc->expect<ValueTp&>(3); |
| c.insert(std::begin(ValueList), std::end(ValueList)); |
| assert(!cc->unchecked()); |
| } |
| } |
| |
| |
| template <class Container> |
| void testMultimapInsertHint() |
| { |
| typedef typename Container::value_type ValueTp; |
| ConstructController* cc = getConstructController(); |
| cc->reset(); |
| { |
| CHECKPOINT("Testing C::insert(p, const value_type&)"); |
| Container c; |
| const ValueTp v(42, 1); |
| cc->expect<const ValueTp&>(); |
| c.insert(c.begin(), v); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, value_type&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&>(); |
| c.insert(c.begin(), v); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, value_type&&)"); |
| Container c; |
| ValueTp v(42, 1); |
| cc->expect<ValueTp&&>(); |
| c.insert(c.begin(), std::move(v)); |
| assert(!cc->unchecked()); |
| } |
| { |
| CHECKPOINT("Testing C::insert(p, {key, value})"); |
| Container c; |
| cc->expect<ValueTp&&>(); |
| c.insert(c.begin(), {42, 1}); |
| assert(!cc->unchecked()); |
| } |
| } |
| |
| #endif |