test/std/algorithms/alg.nonmodifying/mismatch.pass.cpp - llvm-project/pstl - Git at Google

 // -*- C++ -*-
 //===-- mismatch.pass.cpp -------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++03, c++11, c++14

 #include "support/pstl_test_config.h"

 #include <execution>
 #include <algorithm>

 #include "support/utils.h"

 using namespace TestUtils;

 struct test_mismatch
 {
     template <typename Policy, typename Iterator1, typename Iterator2>
     void
     operator()(Policy&& exec, Iterator1 first1, Iterator1 last1, Iterator2 first2)
     {
         using namespace std;
         typedef typename iterator_traits<Iterator1>::value_type T;
         {
             const auto expected = std::mismatch(first1, last1, first2, std::equal_to<T>());
             const auto res3 = mismatch(exec, first1, last1, first2, std::equal_to<T>());
             EXPECT_TRUE(expected == res3, "wrong return result from mismatch");
             const auto res4 = mismatch(exec, first1, last1, first2);
             EXPECT_TRUE(expected == res4, "wrong return result from mismatch");
         }
     }
     template <typename Policy, typename Iterator1, typename Iterator2>
     void
     operator()(Policy&& exec, Iterator1 first1, Iterator1 last1, Iterator2 first2, Iterator2 last2)
     {
         using namespace std;
         typedef typename iterator_traits<Iterator1>::value_type T;
         {
             const auto expected = mismatch(std::execution::seq, first1, last1, first2, last2, std::equal_to<T>());
             const auto res1 = mismatch(exec, first1, last1, first2, last2, std::equal_to<T>());
             EXPECT_TRUE(expected == res1, "wrong return result from mismatch");
             const auto res2 = mismatch(exec, first1, last1, first2, last2);
             EXPECT_TRUE(expected == res2, "wrong return result from mismatch");
         }
     }
 };

 template <typename T>
 void
 test_mismatch_by_type()
 {
     using namespace std;
     for (size_t size = 0; size <= 100000; size = size <= 16 ? size + 1 : size_t(3.1415 * size))
     {
         const T val = T(-1);
         Sequence<T> in(size, [](size_t v) -> T { return T(v % 100); });
         {
             Sequence<T> in2(in);
             invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin(), in2.end());
             invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin());

             const size_t min_size = 3;
             if (size > min_size)
             {
                 const size_t idx_for_1 = size / min_size;
                 in[idx_for_1] = val, in[idx_for_1 + 1] = val, in[idx_for_1 + 2] = val;
                 invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin(), in2.end());
                 invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin());
             }

             const size_t idx_for_2 = 500;
             if (size >= idx_for_2 - 1)
             {
                 in2[size / idx_for_2] = val;
                 invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
                 invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
             }
         }
         {
             Sequence<T> in2(100, [](size_t v) -> T { return T(v); });
             invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin(), in.end());
             //  We can't call std::mismatch with semantic below when size of second sequence less than size of first sequence
             if (in2.size() <= in.size())
                 invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin());

             const size_t idx = 97;
             in2[idx] = val;
             in2[idx + 1] = val;
             invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
             if (in.size() <= in2.size())
                 invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
         }
         {
             Sequence<T> in2({});
             invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin(), in.end());

             invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
             if (in.size() == 0)
                 invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
         }
     }
 }

 template <typename T>
 struct test_non_const
 {
     template <typename Policy, typename FirstIterator, typename SecondInterator>
     void
     operator()(Policy&& exec, FirstIterator first_iter, SecondInterator second_iter)
     {
         mismatch(exec, first_iter, first_iter, second_iter, second_iter, non_const(std::less<T>()));
     }
 };

 int
 main()
 {

     test_mismatch_by_type<int32_t>();
     test_mismatch_by_type<float64_t>();
     test_mismatch_by_type<Wrapper<int32_t>>();

     test_algo_basic_double<int32_t>(run_for_rnd_fw<test_non_const<int32_t>>());

     std::cout << done() << std::endl;
     return 0;
 }
	// -- C++ --
	//===-- mismatch.pass.cpp -------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	// UNSUPPORTED: c++03, c++11, c++14

	#include "support/pstl_test_config.h"

	#include <execution>
	#include <algorithm>

	#include "support/utils.h"

	using namespace TestUtils;

	struct test_mismatch
	{
	template <typename Policy, typename Iterator1, typename Iterator2>
	void
	operator()(Policy&& exec, Iterator1 first1, Iterator1 last1, Iterator2 first2)
	{
	using namespace std;
	typedef typename iterator_traits<Iterator1>::value_type T;
	{
	const auto expected = std::mismatch(first1, last1, first2, std::equal_to<T>());
	const auto res3 = mismatch(exec, first1, last1, first2, std::equal_to<T>());
	EXPECT_TRUE(expected == res3, "wrong return result from mismatch");
	const auto res4 = mismatch(exec, first1, last1, first2);
	EXPECT_TRUE(expected == res4, "wrong return result from mismatch");
	}
	}
	template <typename Policy, typename Iterator1, typename Iterator2>
	void
	operator()(Policy&& exec, Iterator1 first1, Iterator1 last1, Iterator2 first2, Iterator2 last2)
	{
	using namespace std;
	typedef typename iterator_traits<Iterator1>::value_type T;
	{
	const auto expected = mismatch(std::execution::seq, first1, last1, first2, last2, std::equal_to<T>());
	const auto res1 = mismatch(exec, first1, last1, first2, last2, std::equal_to<T>());
	EXPECT_TRUE(expected == res1, "wrong return result from mismatch");
	const auto res2 = mismatch(exec, first1, last1, first2, last2);
	EXPECT_TRUE(expected == res2, "wrong return result from mismatch");
	}
	}
	};

	template <typename T>
	void
	test_mismatch_by_type()
	{
	using namespace std;
	for (size_t size = 0; size <= 100000; size = size <= 16 ? size + 1 : size_t(3.1415 * size))
	{
	const T val = T(-1);
	Sequence<T> in(size, [](size_t v) -> T { return T(v % 100); });
	{
	Sequence<T> in2(in);
	invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin(), in2.end());
	invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin());

	const size_t min_size = 3;
	if (size > min_size)
	{
	const size_t idx_for_1 = size / min_size;
	in[idx_for_1] = val, in[idx_for_1 + 1] = val, in[idx_for_1 + 2] = val;
	invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin(), in2.end());
	invoke_on_all_policies(test_mismatch(), in.begin(), in.end(), in2.begin());
	}

	const size_t idx_for_2 = 500;
	if (size >= idx_for_2 - 1)
	{
	in2[size / idx_for_2] = val;
	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
	}
	}
	{
	Sequence<T> in2(100, [](size_t v) -> T { return T(v); });
	invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin(), in.end());
	// We can't call std::mismatch with semantic below when size of second sequence less than size of first sequence
	if (in2.size() <= in.size())
	invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin());

	const size_t idx = 97;
	in2[idx] = val;
	in2[idx + 1] = val;
	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
	if (in.size() <= in2.size())
	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
	}
	{
	Sequence<T> in2({});
	invoke_on_all_policies(test_mismatch(), in2.begin(), in2.end(), in.begin(), in.end());

	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin(), in2.cend());
	if (in.size() == 0)
	invoke_on_all_policies(test_mismatch(), in.cbegin(), in.cend(), in2.cbegin());
	}
	}
	}

	template <typename T>
	struct test_non_const
	{
	template <typename Policy, typename FirstIterator, typename SecondInterator>
	void
	operator()(Policy&& exec, FirstIterator first_iter, SecondInterator second_iter)
	{
	mismatch(exec, first_iter, first_iter, second_iter, second_iter, non_const(std::less<T>()));
	}
	};

	int
	main()
	{

	test_mismatch_by_type<int32_t>();
	test_mismatch_by_type<float64_t>();
	test_mismatch_by_type<Wrapper<int32_t>>();

	test_algo_basic_double<int32_t>(run_for_rnd_fw<test_non_const<int32_t>>());

	std::cout << done() << std::endl;
	return 0;
	}