test/std/containers/sequences/vector/vector.cons/construct_iter_iter.pass.cpp - third_party/libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 //                     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.
 //
 //===----------------------------------------------------------------------===//

 // <vector>

 // template <class InputIter> vector(InputIter first, InputIter last);

 #include <vector>
 #include <cassert>
 #include <cstddef>

 #include "test_macros.h"
 #include "test_iterators.h"
 #include "test_allocator.h"
 #include "min_allocator.h"
 #include "asan_testing.h"
 #if TEST_STD_VER >= 11
 #include "emplace_constructible.h"
 #include "container_test_types.h"
 #endif

 template <class C, class Iterator>
 void test(Iterator first, Iterator last) {
   C c(first, last);
   LIBCPP_ASSERT(c.__invariants());
   assert(c.size() == static_cast<std::size_t>(std::distance(first, last)));
   LIBCPP_ASSERT(is_contiguous_container_asan_correct(c));
   for (typename C::const_iterator i = c.cbegin(), e = c.cend(); i != e;
        ++i, ++first)
     assert(*i == *first);
 }

 static void basic_test_cases() {
   int a[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 8, 7, 6, 5, 4, 3, 1, 0};
   int* an = a + sizeof(a) / sizeof(a[0]);
   test<std::vector<int> >(input_iterator<const int*>(a),
                           input_iterator<const int*>(an));
   test<std::vector<int> >(forward_iterator<const int*>(a),
                           forward_iterator<const int*>(an));
   test<std::vector<int> >(bidirectional_iterator<const int*>(a),
                           bidirectional_iterator<const int*>(an));
   test<std::vector<int> >(random_access_iterator<const int*>(a),
                           random_access_iterator<const int*>(an));
   test<std::vector<int> >(a, an);

   test<std::vector<int, limited_allocator<int, 63> > >(
       input_iterator<const int*>(a), input_iterator<const int*>(an));
   // Add 1 for implementations that dynamically allocate a container proxy.
   test<std::vector<int, limited_allocator<int, 18 + 1> > >(
       forward_iterator<const int*>(a), forward_iterator<const int*>(an));
   test<std::vector<int, limited_allocator<int, 18 + 1> > >(
       bidirectional_iterator<const int*>(a),
       bidirectional_iterator<const int*>(an));
   test<std::vector<int, limited_allocator<int, 18 + 1> > >(
       random_access_iterator<const int*>(a),
       random_access_iterator<const int*>(an));
   test<std::vector<int, limited_allocator<int, 18 + 1> > >(a, an);
 #if TEST_STD_VER >= 11
   test<std::vector<int, min_allocator<int> > >(input_iterator<const int*>(a),
                                                input_iterator<const int*>(an));
   test<std::vector<int, min_allocator<int> > >(
       forward_iterator<const int*>(a), forward_iterator<const int*>(an));
   test<std::vector<int, min_allocator<int> > >(
       bidirectional_iterator<const int*>(a),
       bidirectional_iterator<const int*>(an));
   test<std::vector<int, min_allocator<int> > >(
       random_access_iterator<const int*>(a),
       random_access_iterator<const int*>(an));
   test<std::vector<int> >(a, an);
 #endif
 }

 void emplaceable_concept_tests() {
 #if TEST_STD_VER >= 11
   int arr1[] = {42};
   int arr2[] = {1, 101, 42};
   {
     using T = EmplaceConstructible<int>;
     using It = forward_iterator<int*>;
     {
       std::vector<T> v(It(arr1), It(std::end(arr1)));
       assert(v[0].value == 42);
     }
     {
       std::vector<T> v(It(arr2), It(std::end(arr2)));
       assert(v[0].value == 1);
       assert(v[1].value == 101);
       assert(v[2].value == 42);
     }
   }
   {
     using T = EmplaceConstructibleAndMoveInsertable<int>;
     using It = input_iterator<int*>;
     {
       std::vector<T> v(It(arr1), It(std::end(arr1)));
       assert(v[0].copied == 0);
       assert(v[0].value == 42);
     }
     {
       std::vector<T> v(It(arr2), It(std::end(arr2)));
       //assert(v[0].copied == 0);
       assert(v[0].value == 1);
       //assert(v[1].copied == 0);
       assert(v[1].value == 101);
       assert(v[2].copied == 0);
       assert(v[2].value == 42);
     }
   }
 #endif
 }

 void test_ctor_under_alloc() {
 #if TEST_STD_VER >= 11
   int arr1[] = {42};
   int arr2[] = {1, 101, 42};
   {
     using C = TCT::vector<>;
     using T = typename C::value_type;
     using It = forward_iterator<int*>;
     {
       ExpectConstructGuard<int&> G(1);
       C v(It(arr1), It(std::end(arr1)));
     }
     {
       ExpectConstructGuard<int&> G(3);
       C v(It(arr2), It(std::end(arr2)));
     }
   }
   {
     using C = TCT::vector<>;
     using T = typename C::value_type;
     using It = input_iterator<int*>;
     {
       ExpectConstructGuard<int&> G(1);
       C v(It(arr1), It(std::end(arr1)));
     }
     {
       //ExpectConstructGuard<int&> G(3);
       //C v(It(arr2), It(std::end(arr2)), a);
     }
   }
 #endif
 }


 int main() {
   basic_test_cases();
   emplaceable_concept_tests(); // See PR34898
   test_ctor_under_alloc();
 }
	//===----------------------------------------------------------------------===//
	//
	// 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.
	//
	//===----------------------------------------------------------------------===//

	// <vector>

	// template <class InputIter> vector(InputIter first, InputIter last);

	#include <vector>
	#include <cassert>
	#include <cstddef>

	#include "test_macros.h"
	#include "test_iterators.h"
	#include "test_allocator.h"
	#include "min_allocator.h"
	#include "asan_testing.h"
	#if TEST_STD_VER >= 11
	#include "emplace_constructible.h"
	#include "container_test_types.h"
	#endif

	template <class C, class Iterator>
	void test(Iterator first, Iterator last) {
	C c(first, last);
	LIBCPP_ASSERT(c.__invariants());
	assert(c.size() == static_cast<std::size_t>(std::distance(first, last)));
	LIBCPP_ASSERT(is_contiguous_container_asan_correct(c));
	for (typename C::const_iterator i = c.cbegin(), e = c.cend(); i != e;
	++i, ++first)
	assert(i == first);
	}

	static void basic_test_cases() {
	int a[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 8, 7, 6, 5, 4, 3, 1, 0};
	int* an = a + sizeof(a) / sizeof(a[0]);
	test<std::vector<int> >(input_iterator<const int*>(a),
	input_iterator<const int*>(an));
	test<std::vector<int> >(forward_iterator<const int*>(a),
	forward_iterator<const int*>(an));
	test<std::vector<int> >(bidirectional_iterator<const int*>(a),
	bidirectional_iterator<const int*>(an));
	test<std::vector<int> >(random_access_iterator<const int*>(a),
	random_access_iterator<const int*>(an));
	test<std::vector<int> >(a, an);

	test<std::vector<int, limited_allocator<int, 63> > >(
	input_iterator<const int>(a), input_iterator<const int>(an));
	// Add 1 for implementations that dynamically allocate a container proxy.
	test<std::vector<int, limited_allocator<int, 18 + 1> > >(
	forward_iterator<const int>(a), forward_iterator<const int>(an));
	test<std::vector<int, limited_allocator<int, 18 + 1> > >(
	bidirectional_iterator<const int*>(a),
	bidirectional_iterator<const int*>(an));
	test<std::vector<int, limited_allocator<int, 18 + 1> > >(
	random_access_iterator<const int*>(a),
	random_access_iterator<const int*>(an));
	test<std::vector<int, limited_allocator<int, 18 + 1> > >(a, an);
	#if TEST_STD_VER >= 11
	test<std::vector<int, min_allocator<int> > >(input_iterator<const int*>(a),
	input_iterator<const int*>(an));
	test<std::vector<int, min_allocator<int> > >(
	forward_iterator<const int>(a), forward_iterator<const int>(an));
	test<std::vector<int, min_allocator<int> > >(
	bidirectional_iterator<const int*>(a),
	bidirectional_iterator<const int*>(an));
	test<std::vector<int, min_allocator<int> > >(
	random_access_iterator<const int*>(a),
	random_access_iterator<const int*>(an));
	test<std::vector<int> >(a, an);
	#endif
	}

	void emplaceable_concept_tests() {
	#if TEST_STD_VER >= 11
	int arr1[] = {42};
	int arr2[] = {1, 101, 42};
	{
	using T = EmplaceConstructible<int>;
	using It = forward_iterator<int*>;
	{
	std::vector<T> v(It(arr1), It(std::end(arr1)));
	assert(v[0].value == 42);
	}
	{
	std::vector<T> v(It(arr2), It(std::end(arr2)));
	assert(v[0].value == 1);
	assert(v[1].value == 101);
	assert(v[2].value == 42);
	}
	}
	{
	using T = EmplaceConstructibleAndMoveInsertable<int>;
	using It = input_iterator<int*>;
	{
	std::vector<T> v(It(arr1), It(std::end(arr1)));
	assert(v[0].copied == 0);
	assert(v[0].value == 42);
	}
	{
	std::vector<T> v(It(arr2), It(std::end(arr2)));
	//assert(v[0].copied == 0);
	assert(v[0].value == 1);
	//assert(v[1].copied == 0);
	assert(v[1].value == 101);
	assert(v[2].copied == 0);
	assert(v[2].value == 42);
	}
	}
	#endif
	}

	void test_ctor_under_alloc() {
	#if TEST_STD_VER >= 11
	int arr1[] = {42};
	int arr2[] = {1, 101, 42};
	{
	using C = TCT::vector<>;
	using T = typename C::value_type;
	using It = forward_iterator<int*>;
	{
	ExpectConstructGuard<int&> G(1);
	C v(It(arr1), It(std::end(arr1)));
	}
	{
	ExpectConstructGuard<int&> G(3);
	C v(It(arr2), It(std::end(arr2)));
	}
	}
	{
	using C = TCT::vector<>;
	using T = typename C::value_type;
	using It = input_iterator<int*>;
	{
	ExpectConstructGuard<int&> G(1);
	C v(It(arr1), It(std::end(arr1)));
	}
	{
	//ExpectConstructGuard<int&> G(3);
	//C v(It(arr2), It(std::end(arr2)), a);
	}
	}
	#endif
	}


	int main() {
	basic_test_cases();
	emplaceable_concept_tests(); // See PR34898
	test_ctor_under_alloc();
	}