test/std/numerics/numeric.ops/numeric.ops.gcd/gcd.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.
 //
 //===----------------------------------------------------------------------===//
 //
 // UNSUPPORTED: c++98, c++03, c++11, c++14

 // <numeric>

 // template<class _M, class _N>
 // constexpr common_type_t<_M,_N> gcd(_M __m, _N __n)

 #include <numeric>
 #include <cassert>
 #include <climits>
 #include <cstdint>
 #include <cstdlib>    // for rand()
 #include <type_traits>

 constexpr struct {
   int x;
   int y;
   int expect;
 } Cases[] = {
     {0, 0, 0},
     {1, 0, 1},
     {0, 1, 1},
     {1, 1, 1},
     {2, 3, 1},
     {2, 4, 2},
     {36, 17, 1},
     {36, 18, 18}
 };


 template <typename Input1, typename Input2, typename Output>
 constexpr bool test0(int in1, int in2, int out)
 {
     auto value1 = static_cast<Input1>(in1);
     auto value2 = static_cast<Input2>(in2);
     static_assert(std::is_same_v<Output, decltype(std::gcd(value1, value2))>, "");
     static_assert(std::is_same_v<Output, decltype(std::gcd(value2, value1))>, "");
     assert(static_cast<Output>(out) == std::gcd(value1, value2));
     return true;
 }


 template <typename Input1, typename Input2 = Input1>
 constexpr bool do_test(int = 0)
 {
     using S1 = std::make_signed_t<Input1>;
     using S2 = std::make_signed_t<Input2>;
     using U1 = std::make_unsigned_t<Input1>;
     using U2 = std::make_unsigned_t<Input2>;
     bool accumulate = true;
     for (auto TC : Cases) {
         { // Test with two signed types
             using Output = std::common_type_t<S1, S2>;
             accumulate &= test0<S1, S2, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<S1, S2, Output>(-TC.x, TC.y, TC.expect);
             accumulate &= test0<S1, S2, Output>(TC.x, -TC.y, TC.expect);
             accumulate &= test0<S1, S2, Output>(-TC.x, -TC.y, TC.expect);
             accumulate &= test0<S2, S1, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<S2, S1, Output>(-TC.x, TC.y, TC.expect);
             accumulate &= test0<S2, S1, Output>(TC.x, -TC.y, TC.expect);
             accumulate &= test0<S2, S1, Output>(-TC.x, -TC.y, TC.expect);
         }
         { // test with two unsigned types
             using Output = std::common_type_t<U1, U2>;
             accumulate &= test0<U1, U2, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<U2, U1, Output>(TC.x, TC.y, TC.expect);
         }
         { // Test with mixed signs
             using Output = std::common_type_t<S1, U2>;
             accumulate &= test0<S1, U2, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<U2, S1, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<S1, U2, Output>(-TC.x, TC.y, TC.expect);
             accumulate &= test0<U2, S1, Output>(TC.x, -TC.y, TC.expect);
         }
         { // Test with mixed signs
             using Output = std::common_type_t<S2, U1>;
             accumulate &= test0<S2, U1, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<U1, S2, Output>(TC.x, TC.y, TC.expect);
             accumulate &= test0<S2, U1, Output>(-TC.x, TC.y, TC.expect);
             accumulate &= test0<U1, S2, Output>(TC.x, -TC.y, TC.expect);
         }
     }
     return accumulate;
 }

 int main()
 {
     auto non_cce = std::rand(); // a value that can't possibly be constexpr

     static_assert(do_test<signed char>(), "");
     static_assert(do_test<short>(), "");
     static_assert(do_test<int>(), "");
     static_assert(do_test<long>(), "");
     static_assert(do_test<long long>(), "");

     assert(do_test<signed char>(non_cce));
     assert(do_test<short>(non_cce));
     assert(do_test<int>(non_cce));
     assert(do_test<long>(non_cce));
     assert(do_test<long long>(non_cce));

     static_assert(do_test<std::int8_t>(), "");
     static_assert(do_test<std::int16_t>(), "");
     static_assert(do_test<std::int32_t>(), "");
     static_assert(do_test<std::int64_t>(), "");

     assert(do_test<std::int8_t>(non_cce));
     assert(do_test<std::int16_t>(non_cce));
     assert(do_test<std::int32_t>(non_cce));
     assert(do_test<std::int64_t>(non_cce));

     static_assert(do_test<signed char, int>(), "");
     static_assert(do_test<int, signed char>(), "");
     static_assert(do_test<short, int>(), "");
     static_assert(do_test<int, short>(), "");
     static_assert(do_test<int, long>(), "");
     static_assert(do_test<long, int>(), "");
     static_assert(do_test<int, long long>(), "");
     static_assert(do_test<long long, int>(), "");

     assert((do_test<signed char, int>(non_cce)));
     assert((do_test<int, signed char>(non_cce)));
     assert((do_test<short, int>(non_cce)));
     assert((do_test<int, short>(non_cce)));
     assert((do_test<int, long>(non_cce)));
     assert((do_test<long, int>(non_cce)));
     assert((do_test<int, long long>(non_cce)));
     assert((do_test<long long, int>(non_cce)));

 //  LWG#2837
     {
     auto res = std::gcd(static_cast<std::int64_t>(1234), INT32_MIN);
     static_assert(std::is_same_v<decltype(res), std::int64_t>, "");
     assert(res == 2);
     }
 }
	//===----------------------------------------------------------------------===//
	//
	// 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, c++11, c++14

	// <numeric>

	// template<class _M, class _N>
	// constexpr common_type_t<_M,_N> gcd(_M __m, _N __n)

	#include <numeric>
	#include <cassert>
	#include <climits>
	#include <cstdint>
	#include <cstdlib> // for rand()
	#include <type_traits>

	constexpr struct {
	int x;
	int y;
	int expect;
	} Cases[] = {
	{0, 0, 0},
	{1, 0, 1},
	{0, 1, 1},
	{1, 1, 1},
	{2, 3, 1},
	{2, 4, 2},
	{36, 17, 1},
	{36, 18, 18}
	};


	template <typename Input1, typename Input2, typename Output>
	constexpr bool test0(int in1, int in2, int out)
	{
	auto value1 = static_cast<Input1>(in1);
	auto value2 = static_cast<Input2>(in2);
	static_assert(std::is_same_v<Output, decltype(std::gcd(value1, value2))>, "");
	static_assert(std::is_same_v<Output, decltype(std::gcd(value2, value1))>, "");
	assert(static_cast<Output>(out) == std::gcd(value1, value2));
	return true;
	}


	template <typename Input1, typename Input2 = Input1>
	constexpr bool do_test(int = 0)
	{
	using S1 = std::make_signed_t<Input1>;
	using S2 = std::make_signed_t<Input2>;
	using U1 = std::make_unsigned_t<Input1>;
	using U2 = std::make_unsigned_t<Input2>;
	bool accumulate = true;
	for (auto TC : Cases) {
	{ // Test with two signed types
	using Output = std::common_type_t<S1, S2>;
	accumulate &= test0<S1, S2, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<S1, S2, Output>(-TC.x, TC.y, TC.expect);
	accumulate &= test0<S1, S2, Output>(TC.x, -TC.y, TC.expect);
	accumulate &= test0<S1, S2, Output>(-TC.x, -TC.y, TC.expect);
	accumulate &= test0<S2, S1, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<S2, S1, Output>(-TC.x, TC.y, TC.expect);
	accumulate &= test0<S2, S1, Output>(TC.x, -TC.y, TC.expect);
	accumulate &= test0<S2, S1, Output>(-TC.x, -TC.y, TC.expect);
	}
	{ // test with two unsigned types
	using Output = std::common_type_t<U1, U2>;
	accumulate &= test0<U1, U2, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<U2, U1, Output>(TC.x, TC.y, TC.expect);
	}
	{ // Test with mixed signs
	using Output = std::common_type_t<S1, U2>;
	accumulate &= test0<S1, U2, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<U2, S1, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<S1, U2, Output>(-TC.x, TC.y, TC.expect);
	accumulate &= test0<U2, S1, Output>(TC.x, -TC.y, TC.expect);
	}
	{ // Test with mixed signs
	using Output = std::common_type_t<S2, U1>;
	accumulate &= test0<S2, U1, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<U1, S2, Output>(TC.x, TC.y, TC.expect);
	accumulate &= test0<S2, U1, Output>(-TC.x, TC.y, TC.expect);
	accumulate &= test0<U1, S2, Output>(TC.x, -TC.y, TC.expect);
	}
	}
	return accumulate;
	}

	int main()
	{
	auto non_cce = std::rand(); // a value that can't possibly be constexpr

	static_assert(do_test<signed char>(), "");
	static_assert(do_test<short>(), "");
	static_assert(do_test<int>(), "");
	static_assert(do_test<long>(), "");
	static_assert(do_test<long long>(), "");

	assert(do_test<signed char>(non_cce));
	assert(do_test<short>(non_cce));
	assert(do_test<int>(non_cce));
	assert(do_test<long>(non_cce));
	assert(do_test<long long>(non_cce));

	static_assert(do_test<std::int8_t>(), "");
	static_assert(do_test<std::int16_t>(), "");
	static_assert(do_test<std::int32_t>(), "");
	static_assert(do_test<std::int64_t>(), "");

	assert(do_test<std::int8_t>(non_cce));
	assert(do_test<std::int16_t>(non_cce));
	assert(do_test<std::int32_t>(non_cce));
	assert(do_test<std::int64_t>(non_cce));

	static_assert(do_test<signed char, int>(), "");
	static_assert(do_test<int, signed char>(), "");
	static_assert(do_test<short, int>(), "");
	static_assert(do_test<int, short>(), "");
	static_assert(do_test<int, long>(), "");
	static_assert(do_test<long, int>(), "");
	static_assert(do_test<int, long long>(), "");
	static_assert(do_test<long long, int>(), "");

	assert((do_test<signed char, int>(non_cce)));
	assert((do_test<int, signed char>(non_cce)));
	assert((do_test<short, int>(non_cce)));
	assert((do_test<int, short>(non_cce)));
	assert((do_test<int, long>(non_cce)));
	assert((do_test<long, int>(non_cce)));
	assert((do_test<int, long long>(non_cce)));
	assert((do_test<long long, int>(non_cce)));

	// LWG#2837
	{
	auto res = std::gcd(static_cast<std::int64_t>(1234), INT32_MIN);
	static_assert(std::is_same_v<decltype(res), std::int64_t>, "");
	assert(res == 2);
	}
	}