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435 lines
11 KiB
C++
435 lines
11 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is dual licensed under the MIT and the University of Illinois Open
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// Source Licenses. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#ifndef ANY_HELPERS_H
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#define ANY_HELPERS_H
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#include <typeinfo>
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#include <type_traits>
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#include <cassert>
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namespace std { namespace experimental {} }
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#include "test_macros.h"
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#include "type_id.h"
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#if !defined(TEST_HAS_NO_RTTI)
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#define RTTI_ASSERT(X) assert(X)
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#else
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#define RTTI_ASSERT(X)
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#endif
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template <class T>
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struct IsSmallObject
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: public std::integral_constant<bool
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, sizeof(T) <= (sizeof(void*)*3)
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&& std::alignment_of<void*>::value
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% std::alignment_of<T>::value == 0
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&& std::is_nothrow_move_constructible<T>::value
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>
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{};
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template <class T>
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bool containsType(std::any const& a) {
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#if !defined(TEST_HAS_NO_RTTI)
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return a.type() == typeid(T);
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#else
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return a.has_value() && std::any_cast<T>(&a) != nullptr;
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#endif
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}
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// Return 'true' if 'Type' will be considered a small type by 'any'
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template <class Type>
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bool isSmallType() {
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return IsSmallObject<Type>::value;
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}
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// Assert that an object is empty. If the object used to contain an object
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// of type 'LastType' check that it can no longer be accessed.
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template <class LastType = int>
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void assertEmpty(std::any const& a) {
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using namespace std;
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assert(!a.has_value());
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RTTI_ASSERT(a.type() == typeid(void));
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assert(any_cast<LastType const>(&a) == nullptr);
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}
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template <class Type>
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constexpr auto has_value_member(int) -> decltype(std::declval<Type&>().value, true)
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{ return true; }
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template <class> constexpr bool has_value_member(long) { return false; }
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// Assert that an 'any' object stores the specified 'Type' and 'value'.
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template <class Type>
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std::enable_if_t<has_value_member<Type>(0)>
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_LIBCPP_AVAILABILITY_THROW_BAD_ANY_CAST
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assertContains(std::any const& a, int value) {
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assert(a.has_value());
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assert(containsType<Type>(a));
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assert(std::any_cast<Type const &>(a).value == value);
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}
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template <class Type, class Value>
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std::enable_if_t<!has_value_member<Type>(0)>
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_LIBCPP_AVAILABILITY_THROW_BAD_ANY_CAST
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assertContains(std::any const& a, Value value) {
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assert(a.has_value());
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assert(containsType<Type>(a));
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assert(std::any_cast<Type const &>(a) == value);
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}
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// Modify the value of a "test type" stored within an any to the specified
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// 'value'.
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template <class Type>
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_LIBCPP_AVAILABILITY_THROW_BAD_ANY_CAST
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void modifyValue(std::any& a, int value) {
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using namespace std;
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using namespace std::experimental;
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assert(a.has_value());
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assert(containsType<Type>(a));
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any_cast<Type&>(a).value = value;
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}
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// A test type that will trigger the small object optimization within 'any'.
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template <int Dummy = 0>
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struct small_type
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{
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static int count;
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static int copied;
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static int moved;
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static int const_copied;
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static int non_const_copied;
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static void reset() {
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small_type::copied = 0;
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small_type::moved = 0;
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small_type::const_copied = 0;
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small_type::non_const_copied = 0;
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}
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int value;
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explicit small_type(int val = 0) : value(val) {
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++count;
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}
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explicit small_type(int, int val, int) : value(val) {
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++count;
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}
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small_type(std::initializer_list<int> il) : value(*il.begin()) {
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++count;
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}
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small_type(small_type const & other) noexcept {
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value = other.value;
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++count;
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++copied;
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++const_copied;
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}
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small_type(small_type& other) noexcept {
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value = other.value;
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++count;
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++copied;
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++non_const_copied;
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}
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small_type(small_type && other) noexcept {
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value = other.value;
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other.value = 0;
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++count;
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++moved;
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}
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~small_type() {
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value = -1;
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--count;
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}
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private:
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small_type& operator=(small_type const&) = delete;
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small_type& operator=(small_type&&) = delete;
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};
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template <int Dummy>
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int small_type<Dummy>::count = 0;
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template <int Dummy>
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int small_type<Dummy>::copied = 0;
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template <int Dummy>
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int small_type<Dummy>::moved = 0;
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template <int Dummy>
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int small_type<Dummy>::const_copied = 0;
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template <int Dummy>
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int small_type<Dummy>::non_const_copied = 0;
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typedef small_type<> small;
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typedef small_type<1> small1;
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typedef small_type<2> small2;
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// A test type that will NOT trigger the small object optimization in any.
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template <int Dummy = 0>
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struct large_type
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{
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static int count;
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static int copied;
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static int moved;
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static int const_copied;
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static int non_const_copied;
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static void reset() {
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large_type::copied = 0;
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large_type::moved = 0;
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large_type::const_copied = 0;
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large_type::non_const_copied = 0;
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}
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int value;
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large_type(int val = 0) : value(val) {
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++count;
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data[0] = 0;
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}
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large_type(int, int val, int) : value(val) {
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++count;
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data[0] = 0;
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}
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large_type(std::initializer_list<int> il) : value(*il.begin()) {
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++count;
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}
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large_type(large_type const & other) {
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value = other.value;
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++count;
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++copied;
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++const_copied;
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}
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large_type(large_type & other) {
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value = other.value;
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++count;
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++copied;
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++non_const_copied;
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}
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large_type(large_type && other) {
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value = other.value;
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other.value = 0;
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++count;
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++moved;
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}
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~large_type() {
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value = 0;
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--count;
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}
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private:
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large_type& operator=(large_type const&) = delete;
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large_type& operator=(large_type &&) = delete;
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int data[10];
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};
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template <int Dummy>
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int large_type<Dummy>::count = 0;
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template <int Dummy>
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int large_type<Dummy>::copied = 0;
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template <int Dummy>
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int large_type<Dummy>::moved = 0;
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template <int Dummy>
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int large_type<Dummy>::const_copied = 0;
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template <int Dummy>
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int large_type<Dummy>::non_const_copied = 0;
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typedef large_type<> large;
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typedef large_type<1> large1;
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typedef large_type<2> large2;
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// The exception type thrown by 'small_throws_on_copy', 'large_throws_on_copy'
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// and 'throws_on_move'.
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struct my_any_exception {};
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void throwMyAnyExpression() {
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#if !defined(TEST_HAS_NO_EXCEPTIONS)
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throw my_any_exception();
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#else
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assert(false && "Exceptions are disabled");
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#endif
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}
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// A test type that will trigger the small object optimization within 'any'.
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// this type throws if it is copied.
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struct small_throws_on_copy
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{
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static int count;
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static int copied;
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static int moved;
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static void reset() { count = copied = moved = 0; }
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int value;
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explicit small_throws_on_copy(int val = 0) : value(val) {
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++count;
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}
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explicit small_throws_on_copy(int, int val, int) : value(val) {
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++count;
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}
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small_throws_on_copy(small_throws_on_copy const &) {
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throwMyAnyExpression();
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}
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small_throws_on_copy(small_throws_on_copy && other) throw() {
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value = other.value;
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++count; ++moved;
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}
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~small_throws_on_copy() {
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--count;
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}
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private:
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small_throws_on_copy& operator=(small_throws_on_copy const&) = delete;
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small_throws_on_copy& operator=(small_throws_on_copy &&) = delete;
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};
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int small_throws_on_copy::count = 0;
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int small_throws_on_copy::copied = 0;
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int small_throws_on_copy::moved = 0;
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// A test type that will NOT trigger the small object optimization within 'any'.
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// this type throws if it is copied.
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struct large_throws_on_copy
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{
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static int count;
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static int copied;
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static int moved;
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static void reset() { count = copied = moved = 0; }
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int value = 0;
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explicit large_throws_on_copy(int val = 0) : value(val) {
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data[0] = 0;
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++count;
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}
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explicit large_throws_on_copy(int, int val, int) : value(val) {
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data[0] = 0;
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++count;
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}
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large_throws_on_copy(large_throws_on_copy const &) {
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throwMyAnyExpression();
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}
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large_throws_on_copy(large_throws_on_copy && other) throw() {
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value = other.value;
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++count; ++moved;
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}
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~large_throws_on_copy() {
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--count;
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}
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private:
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large_throws_on_copy& operator=(large_throws_on_copy const&) = delete;
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large_throws_on_copy& operator=(large_throws_on_copy &&) = delete;
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int data[10];
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};
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int large_throws_on_copy::count = 0;
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int large_throws_on_copy::copied = 0;
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int large_throws_on_copy::moved = 0;
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// A test type that throws when it is moved. This object will NOT trigger
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// the small object optimization in 'any'.
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struct throws_on_move
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{
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static int count;
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static int copied;
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static int moved;
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static void reset() { count = copied = moved = 0; }
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int value;
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explicit throws_on_move(int val = 0) : value(val) { ++count; }
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explicit throws_on_move(int, int val, int) : value(val) { ++count; }
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throws_on_move(throws_on_move const & other) {
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value = other.value;
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++count; ++copied;
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}
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throws_on_move(throws_on_move &&) {
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throwMyAnyExpression();
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}
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~throws_on_move() {
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--count;
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}
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private:
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throws_on_move& operator=(throws_on_move const&) = delete;
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throws_on_move& operator=(throws_on_move &&) = delete;
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};
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int throws_on_move::count = 0;
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int throws_on_move::copied = 0;
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int throws_on_move::moved = 0;
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struct small_tracked_t {
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small_tracked_t()
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: arg_types(&makeArgumentID<>()) {}
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small_tracked_t(small_tracked_t const&) noexcept
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: arg_types(&makeArgumentID<small_tracked_t const&>()) {}
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small_tracked_t(small_tracked_t &&) noexcept
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: arg_types(&makeArgumentID<small_tracked_t &&>()) {}
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template <class ...Args>
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explicit small_tracked_t(Args&&...)
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: arg_types(&makeArgumentID<Args...>()) {}
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template <class ...Args>
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explicit small_tracked_t(std::initializer_list<int>, Args&&...)
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: arg_types(&makeArgumentID<std::initializer_list<int>, Args...>()) {}
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TypeID const* arg_types;
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};
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static_assert(IsSmallObject<small_tracked_t>::value, "must be small");
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struct large_tracked_t {
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large_tracked_t()
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: arg_types(&makeArgumentID<>()) { dummy[0] = 42; }
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large_tracked_t(large_tracked_t const&) noexcept
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: arg_types(&makeArgumentID<large_tracked_t const&>()) {}
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large_tracked_t(large_tracked_t &&) noexcept
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: arg_types(&makeArgumentID<large_tracked_t &&>()) {}
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template <class ...Args>
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explicit large_tracked_t(Args&&...)
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: arg_types(&makeArgumentID<Args...>()) {}
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template <class ...Args>
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explicit large_tracked_t(std::initializer_list<int>, Args&&...)
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: arg_types(&makeArgumentID<std::initializer_list<int>, Args...>()) {}
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TypeID const* arg_types;
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int dummy[10];
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};
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static_assert(!IsSmallObject<large_tracked_t>::value, "must be small");
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template <class Type, class ...Args>
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void assertArgsMatch(std::any const& a) {
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using namespace std;
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using namespace std::experimental;
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assert(a.has_value());
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assert(containsType<Type>(a));
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assert(any_cast<Type const &>(a).arg_types == &makeArgumentID<Args...>());
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};
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#endif
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