third_party/llvm-project/libcxx/test/std/containers/sequences/vector/compare.pass.cpp - cobalt - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 // <vector>

 // bool operator==(const vector& lhs, const vector& rhs);
 // bool operator!=(const vector& lhs, const vector& rhs);
 // bool operator< (const vector& lhs, const vector& rhs);
 // bool operator<=(const vector& lhs, const vector& rhs);
 // bool operator> (const vector& lhs, const vector& rhs);
 // bool operator>=(const vector& lhs, const vector& rhs);

 #include <vector>
 #include <cassert>

 #include "test_comparisons.h"

 TEST_CONSTEXPR_CXX20 bool test() {
     {
         const std::vector<int> c1, c2;
         assert(testComparisons(c1, c2, true, false));
     }
     {
         const std::vector<int> c1(1, 1), c2(1, 2);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         const std::vector<int> c1, c2(1, 2);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         int items1[3] = {1, 2, 1};
         int items2[3] = {1, 2, 2};
         const std::vector<int> c1(items1, items1 + 3);
         const std::vector<int> c2(items2, items2 + 3);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         int items1[3] = {3, 2, 3};
         int items2[3] = {3, 1, 3};
         const std::vector<int> c1(items1, items1 + 3);
         const std::vector<int> c2(items2, items2 + 3);

         assert(testComparisons(c1, c2, false, false));
     }
     {
         int items1[2] = {1, 2};
         int items2[3] = {1, 2, 0};
         const std::vector<int> c1(items1, items1 + 2);
         const std::vector<int> c2(items2, items2 + 3);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         int items1[3] = {1, 2, 0};
         const std::vector<int> c1(items1, items1 + 3);
         const std::vector<int> c2(1, 3);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         const std::vector<LessAndEqComp> c1, c2;
         assert(testComparisons(c1, c2, true, false));
     }
     {
         const std::vector<LessAndEqComp> c1(1, LessAndEqComp(1));
         const std::vector<LessAndEqComp> c2(1, LessAndEqComp(1));
         assert(testComparisons(c1, c2, true, false));
     }
     {
         const std::vector<LessAndEqComp> c1(1, LessAndEqComp(1));
         const std::vector<LessAndEqComp> c2(1, LessAndEqComp(2));
         assert(testComparisons(c1, c2, false, true));
     }
     {
         const std::vector<LessAndEqComp> c1;
         const std::vector<LessAndEqComp> c2(1, LessAndEqComp(2));
         assert(testComparisons(c1, c2, false, true));
     }
     {
         LessAndEqComp items1[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(2)};
         LessAndEqComp items2[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(1)};
         const std::vector<LessAndEqComp> c1(items1, items1 + 3);
         const std::vector<LessAndEqComp> c2(items2, items2 + 3);
         assert(testComparisons(c1, c2, false, false));
     }
     {
         LessAndEqComp items1[3] = {LessAndEqComp(3), LessAndEqComp(3), LessAndEqComp(3)};
         LessAndEqComp items2[3] = {LessAndEqComp(3), LessAndEqComp(2), LessAndEqComp(3)};
         const std::vector<LessAndEqComp> c1(items1, items1 + 3);
         const std::vector<LessAndEqComp> c2(items2, items2 + 3);
         assert(testComparisons(c1, c2, false, false));
     }
     {
         LessAndEqComp items1[2] = {LessAndEqComp(1), LessAndEqComp(2)};
         LessAndEqComp items2[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(0)};
         const std::vector<LessAndEqComp> c1(items1, items1 + 2);
         const std::vector<LessAndEqComp> c2(items2, items2 + 3);
         assert(testComparisons(c1, c2, false, true));
     }
     {
         LessAndEqComp items1[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(0)};
         const std::vector<LessAndEqComp> c1(items1, items1 + 3);
         const std::vector<LessAndEqComp> c2(1, LessAndEqComp(3));
         assert(testComparisons(c1, c2, false, true));
     }
     {
         assert((std::vector<int>() == std::vector<int>()));
         assert(!(std::vector<int>() != std::vector<int>()));
         assert(!(std::vector<int>() < std::vector<int>()));
         assert((std::vector<int>() <= std::vector<int>()));
         assert(!(std::vector<int>() > std::vector<int>()));
         assert((std::vector<int>() >= std::vector<int>()));
     }

     return true;
 }

 int main(int, char**) {
     test();
 #if TEST_STD_VER > 17
     static_assert(test());
 #endif

     return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	// <vector>

	// bool operator==(const vector& lhs, const vector& rhs);
	// bool operator!=(const vector& lhs, const vector& rhs);
	// bool operator< (const vector& lhs, const vector& rhs);
	// bool operator<=(const vector& lhs, const vector& rhs);
	// bool operator> (const vector& lhs, const vector& rhs);
	// bool operator>=(const vector& lhs, const vector& rhs);

	#include <vector>
	#include <cassert>

	#include "test_comparisons.h"

	TEST_CONSTEXPR_CXX20 bool test() {
	{
	const std::vector<int> c1, c2;
	assert(testComparisons(c1, c2, true, false));
	}
	{
	const std::vector<int> c1(1, 1), c2(1, 2);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	const std::vector<int> c1, c2(1, 2);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	int items1[3] = {1, 2, 1};
	int items2[3] = {1, 2, 2};
	const std::vector<int> c1(items1, items1 + 3);
	const std::vector<int> c2(items2, items2 + 3);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	int items1[3] = {3, 2, 3};
	int items2[3] = {3, 1, 3};
	const std::vector<int> c1(items1, items1 + 3);
	const std::vector<int> c2(items2, items2 + 3);

	assert(testComparisons(c1, c2, false, false));
	}
	{
	int items1[2] = {1, 2};
	int items2[3] = {1, 2, 0};
	const std::vector<int> c1(items1, items1 + 2);
	const std::vector<int> c2(items2, items2 + 3);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	int items1[3] = {1, 2, 0};
	const std::vector<int> c1(items1, items1 + 3);
	const std::vector<int> c2(1, 3);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	const std::vector<LessAndEqComp> c1, c2;
	assert(testComparisons(c1, c2, true, false));
	}
	{
	const std::vector<LessAndEqComp> c1(1, LessAndEqComp(1));
	const std::vector<LessAndEqComp> c2(1, LessAndEqComp(1));
	assert(testComparisons(c1, c2, true, false));
	}
	{
	const std::vector<LessAndEqComp> c1(1, LessAndEqComp(1));
	const std::vector<LessAndEqComp> c2(1, LessAndEqComp(2));
	assert(testComparisons(c1, c2, false, true));
	}
	{
	const std::vector<LessAndEqComp> c1;
	const std::vector<LessAndEqComp> c2(1, LessAndEqComp(2));
	assert(testComparisons(c1, c2, false, true));
	}
	{
	LessAndEqComp items1[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(2)};
	LessAndEqComp items2[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(1)};
	const std::vector<LessAndEqComp> c1(items1, items1 + 3);
	const std::vector<LessAndEqComp> c2(items2, items2 + 3);
	assert(testComparisons(c1, c2, false, false));
	}
	{
	LessAndEqComp items1[3] = {LessAndEqComp(3), LessAndEqComp(3), LessAndEqComp(3)};
	LessAndEqComp items2[3] = {LessAndEqComp(3), LessAndEqComp(2), LessAndEqComp(3)};
	const std::vector<LessAndEqComp> c1(items1, items1 + 3);
	const std::vector<LessAndEqComp> c2(items2, items2 + 3);
	assert(testComparisons(c1, c2, false, false));
	}
	{
	LessAndEqComp items1[2] = {LessAndEqComp(1), LessAndEqComp(2)};
	LessAndEqComp items2[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(0)};
	const std::vector<LessAndEqComp> c1(items1, items1 + 2);
	const std::vector<LessAndEqComp> c2(items2, items2 + 3);
	assert(testComparisons(c1, c2, false, true));
	}
	{
	LessAndEqComp items1[3] = {LessAndEqComp(1), LessAndEqComp(2), LessAndEqComp(0)};
	const std::vector<LessAndEqComp> c1(items1, items1 + 3);
	const std::vector<LessAndEqComp> c2(1, LessAndEqComp(3));
	assert(testComparisons(c1, c2, false, true));
	}
	{
	assert((std::vector<int>() == std::vector<int>()));
	assert(!(std::vector<int>() != std::vector<int>()));
	assert(!(std::vector<int>() < std::vector<int>()));
	assert((std::vector<int>() <= std::vector<int>()));
	assert(!(std::vector<int>() > std::vector<int>()));
	assert((std::vector<int>() >= std::vector<int>()));
	}

	return true;
	}

	int main(int, char**) {
	test();
	#if TEST_STD_VER > 17
	static_assert(test());
	#endif

	return 0;
	}