test/std/experimental/filesystem/class.rec.dir.itr/rec.dir.itr.members/move_assign.pass.cpp - llvm-project/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.
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++98, c++03

 // <experimental/filesystem>

 // class recursive_directory_iterator

 // recursive_directory_iterator& operator=(recursive_directory_iterator const&);

 #include <experimental/filesystem>
 #include <type_traits>
 #include <set>
 #include <cassert>

 #include "test_macros.h"
 #include "rapid-cxx-test.hpp"
 #include "filesystem_test_helper.hpp"

 using namespace std::experimental::filesystem;

 TEST_SUITE(recursive_directory_iterator_move_assign_tests)

 recursive_directory_iterator createInterestingIterator()
     // Create an "interesting" iterator where all fields are
     // in a non-default state. The returned 'it' is in a
     // state such that:
     //   it.options() == directory_options::skip_permission_denied
     //   it.depth() == 1
     //   it.recursion_pending() == true
 {
     const path testDir = StaticEnv::Dir;
     const recursive_directory_iterator endIt;
     recursive_directory_iterator it(testDir,
                                     directory_options::skip_permission_denied);
     TEST_ASSERT(it != endIt);
     while (it.depth() != 1) {
         ++it;
         TEST_ASSERT(it != endIt);
     }
     TEST_ASSERT(it.depth() == 1);
     it.disable_recursion_pending();
     return it;
 }

 recursive_directory_iterator createDifferentInterestingIterator()
     // Create an "interesting" iterator where all fields are
     // in a non-default state. The returned 'it' is in a
     // state such that:
     //   it.options() == directory_options::follow_directory_symlink
     //   it.depth() == 2
     //   it.recursion_pending() == false
 {
     const path testDir = StaticEnv::Dir;
     const recursive_directory_iterator endIt;
     recursive_directory_iterator it(testDir,
                                     directory_options::follow_directory_symlink);
     TEST_ASSERT(it != endIt);
     while (it.depth() != 2) {
         ++it;
         TEST_ASSERT(it != endIt);
     }
     TEST_ASSERT(it.depth() == 2);
     return it;
 }


 TEST_CASE(test_assignment_signature)
 {
     using D = recursive_directory_iterator;
     static_assert(std::is_nothrow_move_assignable<D>::value, "");
 }


 TEST_CASE(test_move_to_end_iterator)
 {
     const recursive_directory_iterator endIt;

     recursive_directory_iterator from = createInterestingIterator();
     const recursive_directory_iterator from_copy(from);
     const path entry = *from;

     recursive_directory_iterator to;
     to = std::move(from);
     TEST_REQUIRE(to != endIt);
     TEST_CHECK(*to == entry);
     TEST_CHECK(to.options() == from_copy.options());
     TEST_CHECK(to.depth() == from_copy.depth());
     TEST_CHECK(to.recursion_pending() == from_copy.recursion_pending());
     TEST_CHECK(from == endIt || from == to);
 }


 TEST_CASE(test_move_from_end_iterator)
 {
     recursive_directory_iterator from;
     recursive_directory_iterator to = createInterestingIterator();

     to = std::move(from);
     TEST_REQUIRE(to == from);
     TEST_CHECK(to == recursive_directory_iterator{});
 }

 TEST_CASE(test_move_valid_iterator)
 {
     const recursive_directory_iterator endIt;

     recursive_directory_iterator it = createInterestingIterator();
     const recursive_directory_iterator it_copy(it);
     const path entry = *it;

     recursive_directory_iterator it2 = createDifferentInterestingIterator();
     const recursive_directory_iterator it2_copy(it2);
     TEST_REQUIRE(it2 != it);
     TEST_CHECK(it2.options() != it.options());
     TEST_CHECK(it2.depth() != it.depth());
     TEST_CHECK(it2.recursion_pending() != it.recursion_pending());
     TEST_CHECK(*it2 != entry);

     it2 = std::move(it);
     TEST_REQUIRE(it2 != it2_copy && it2 != endIt);
     TEST_CHECK(it2.options() == it_copy.options());
     TEST_CHECK(it2.depth() == it_copy.depth());
     TEST_CHECK(it2.recursion_pending() == it_copy.recursion_pending());
     TEST_CHECK(*it2 == entry);
     TEST_CHECK(it == endIt || it == it2);
 }

 TEST_CASE(test_returns_reference_to_self)
 {
     recursive_directory_iterator it;
     recursive_directory_iterator it2;
     recursive_directory_iterator& ref = (it2 = std::move(it));
     TEST_CHECK(&ref == &it2);
 }

 TEST_CASE(test_self_move)
 {
     // Create two non-equal iterators that have exactly the same state.
     recursive_directory_iterator it = createInterestingIterator();
     recursive_directory_iterator it2 = createInterestingIterator();
     TEST_CHECK(it != it2);
     TEST_CHECK(it2.options()           == it.options());
     TEST_CHECK(it2.depth()             == it.depth());
     TEST_CHECK(it2.recursion_pending() == it.recursion_pending());
     TEST_CHECK(*it2 == *it);

     it = std::move(it);
     TEST_CHECK(it2.options()           == it.options());
     TEST_CHECK(it2.depth()             == it.depth());
     TEST_CHECK(it2.recursion_pending() == it.recursion_pending());
     TEST_CHECK(*it2 == *it);
 }


 TEST_SUITE_END()
	//===----------------------------------------------------------------------===//
	//
	// 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.
	//
	//===----------------------------------------------------------------------===//

	// UNSUPPORTED: c++98, c++03

	// <experimental/filesystem>

	// class recursive_directory_iterator

	// recursive_directory_iterator& operator=(recursive_directory_iterator const&);

	#include <experimental/filesystem>
	#include <type_traits>
	#include <set>
	#include <cassert>

	#include "test_macros.h"
	#include "rapid-cxx-test.hpp"
	#include "filesystem_test_helper.hpp"

	using namespace std::experimental::filesystem;

	TEST_SUITE(recursive_directory_iterator_move_assign_tests)

	recursive_directory_iterator createInterestingIterator()
	// Create an "interesting" iterator where all fields are
	// in a non-default state. The returned 'it' is in a
	// state such that:
	// it.options() == directory_options::skip_permission_denied
	// it.depth() == 1
	// it.recursion_pending() == true
	{
	const path testDir = StaticEnv::Dir;
	const recursive_directory_iterator endIt;
	recursive_directory_iterator it(testDir,
	directory_options::skip_permission_denied);
	TEST_ASSERT(it != endIt);
	while (it.depth() != 1) {
	++it;
	TEST_ASSERT(it != endIt);
	}
	TEST_ASSERT(it.depth() == 1);
	it.disable_recursion_pending();
	return it;
	}

	recursive_directory_iterator createDifferentInterestingIterator()
	// Create an "interesting" iterator where all fields are
	// in a non-default state. The returned 'it' is in a
	// state such that:
	// it.options() == directory_options::follow_directory_symlink
	// it.depth() == 2
	// it.recursion_pending() == false
	{
	const path testDir = StaticEnv::Dir;
	const recursive_directory_iterator endIt;
	recursive_directory_iterator it(testDir,
	directory_options::follow_directory_symlink);
	TEST_ASSERT(it != endIt);
	while (it.depth() != 2) {
	++it;
	TEST_ASSERT(it != endIt);
	}
	TEST_ASSERT(it.depth() == 2);
	return it;
	}


	TEST_CASE(test_assignment_signature)
	{
	using D = recursive_directory_iterator;
	static_assert(std::is_nothrow_move_assignable<D>::value, "");
	}


	TEST_CASE(test_move_to_end_iterator)
	{
	const recursive_directory_iterator endIt;

	recursive_directory_iterator from = createInterestingIterator();
	const recursive_directory_iterator from_copy(from);
	const path entry = *from;

	recursive_directory_iterator to;
	to = std::move(from);
	TEST_REQUIRE(to != endIt);
	TEST_CHECK(*to == entry);
	TEST_CHECK(to.options() == from_copy.options());
	TEST_CHECK(to.depth() == from_copy.depth());
	TEST_CHECK(to.recursion_pending() == from_copy.recursion_pending());
	TEST_CHECK(from == endIt \|\| from == to);
	}


	TEST_CASE(test_move_from_end_iterator)
	{
	recursive_directory_iterator from;
	recursive_directory_iterator to = createInterestingIterator();

	to = std::move(from);
	TEST_REQUIRE(to == from);
	TEST_CHECK(to == recursive_directory_iterator{});
	}

	TEST_CASE(test_move_valid_iterator)
	{
	const recursive_directory_iterator endIt;

	recursive_directory_iterator it = createInterestingIterator();
	const recursive_directory_iterator it_copy(it);
	const path entry = *it;

	recursive_directory_iterator it2 = createDifferentInterestingIterator();
	const recursive_directory_iterator it2_copy(it2);
	TEST_REQUIRE(it2 != it);
	TEST_CHECK(it2.options() != it.options());
	TEST_CHECK(it2.depth() != it.depth());
	TEST_CHECK(it2.recursion_pending() != it.recursion_pending());
	TEST_CHECK(*it2 != entry);

	it2 = std::move(it);
	TEST_REQUIRE(it2 != it2_copy && it2 != endIt);
	TEST_CHECK(it2.options() == it_copy.options());
	TEST_CHECK(it2.depth() == it_copy.depth());
	TEST_CHECK(it2.recursion_pending() == it_copy.recursion_pending());
	TEST_CHECK(*it2 == entry);
	TEST_CHECK(it == endIt \|\| it == it2);
	}

	TEST_CASE(test_returns_reference_to_self)
	{
	recursive_directory_iterator it;
	recursive_directory_iterator it2;
	recursive_directory_iterator& ref = (it2 = std::move(it));
	TEST_CHECK(&ref == &it2);
	}

	TEST_CASE(test_self_move)
	{
	// Create two non-equal iterators that have exactly the same state.
	recursive_directory_iterator it = createInterestingIterator();
	recursive_directory_iterator it2 = createInterestingIterator();
	TEST_CHECK(it != it2);
	TEST_CHECK(it2.options() == it.options());
	TEST_CHECK(it2.depth() == it.depth());
	TEST_CHECK(it2.recursion_pending() == it.recursion_pending());
	TEST_CHECK(it2 == it);

	it = std::move(it);
	TEST_CHECK(it2.options() == it.options());
	TEST_CHECK(it2.depth() == it.depth());
	TEST_CHECK(it2.recursion_pending() == it.recursion_pending());
	TEST_CHECK(it2 == it);
	}


	TEST_SUITE_END()