libcxx/test/std/numerics/numeric.ops/numeric.ops.sat/mul_sat.pass.cpp - toolchain/llvm-project - 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
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++03, c++11, c++14, c++17, c++20, c++23
 // The test uses "Placeholder variables with no name"

 // <numeric>

 // template<class T>
 // constexpr T mul_sat(T x, T y) noexcept;                     // freestanding

 #include <cassert>
 #include <concepts>
 #include <limits>
 #include <numeric>

 #include "test_macros.h"

 template <typename IntegerT>
 constexpr bool test_signed() {
   constexpr auto minVal = std::numeric_limits<IntegerT>::min();
   constexpr auto maxVal = std::numeric_limits<IntegerT>::max();

   // TODO(LLVM-20) remove [[maybe_unused]] since all supported compilers support "Placeholder variables with no name"
   [[maybe_unused]] std::same_as<IntegerT> decltype(auto) _ = std::mul_sat(minVal, maxVal);

   static_assert(noexcept(std::mul_sat(minVal, maxVal)));

   // clang-format off

   // Limit values (-1, 0, 1, min, max)

   assert(std::mul_sat(IntegerT{-1}, IntegerT{-1}) == IntegerT{ 1});
   assert(std::mul_sat(IntegerT{-1}, IntegerT{ 0}) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{-1}, IntegerT{ 1}) == IntegerT{-1});
   assert(std::mul_sat(IntegerT{-1},       minVal) == maxVal); // saturated
   assert(std::mul_sat(IntegerT{-1},       maxVal) == -maxVal);

   assert(std::mul_sat(IntegerT{ 0}, IntegerT{-1}) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{ 0}, IntegerT{ 0}) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{ 0}, IntegerT{ 1}) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{ 0},       minVal) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{ 0},       maxVal) == IntegerT{ 0});

   assert(std::mul_sat(IntegerT{ 1}, IntegerT{-1}) == IntegerT{-1});
   assert(std::mul_sat(IntegerT{ 1}, IntegerT{ 0}) == IntegerT{ 0});
   assert(std::mul_sat(IntegerT{ 1}, IntegerT{ 1}) == IntegerT{ 1});
   assert(std::mul_sat(IntegerT{ 1},       minVal) == minVal);
   assert(std::mul_sat(IntegerT{ 1},       maxVal) == maxVal);

   assert(std::mul_sat(      minVal, IntegerT{-1}) == maxVal); // saturated
   assert(std::mul_sat(      minVal, IntegerT{ 0}) == IntegerT{ 0});
   assert(std::mul_sat(      minVal, IntegerT{ 1}) == minVal);
   assert(std::mul_sat(      minVal,       minVal) == maxVal); // saturated
   assert(std::mul_sat(      minVal,       maxVal) == minVal); // saturated

   assert(std::mul_sat(      maxVal, IntegerT{-1}) == -maxVal);
   assert(std::mul_sat(      maxVal, IntegerT{ 0}) == IntegerT{ 0});
   assert(std::mul_sat(      maxVal, IntegerT{ 1}) == maxVal); // saturated
   assert(std::mul_sat(      maxVal,       minVal) == minVal); // saturated
   assert(std::mul_sat(      maxVal,       maxVal) == maxVal); // saturated

   // No saturation (no limit values)

   assert(std::mul_sat(IntegerT{27}, IntegerT{ 2}) == IntegerT{54});
   assert(std::mul_sat(IntegerT{ 2}, IntegerT{28}) == IntegerT{56});

   // Saturation (no limit values)

   {
     constexpr IntegerT x = minVal / IntegerT{2} + IntegerT{27};
     constexpr IntegerT y = minVal / IntegerT{2} + IntegerT{28};
     assert(std::mul_sat(x, y) == maxVal); // saturated
   }
   {
     constexpr IntegerT x = minVal / IntegerT{2} + IntegerT{27};
     constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
     assert(std::mul_sat(x, y) == minVal); // saturated
   }
   {
     constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
     constexpr IntegerT y = minVal / IntegerT{2} + IntegerT{28};
     assert(std::mul_sat(x, y) == minVal); // saturated
   }
   {
     constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
     constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
     assert(std::mul_sat(x, y) == maxVal); // saturated
   }

   // clang-format on

   return true;
 }

 template <typename IntegerT>
 constexpr bool test_unsigned() {
   constexpr auto minVal = std::numeric_limits<IntegerT>::min();
   constexpr auto maxVal = std::numeric_limits<IntegerT>::max();

   // TODO(LLVM-20) remove [[maybe_unused]] since all supported compilers support "Placeholder variables with no name"
   [[maybe_unused]] std::same_as<IntegerT> decltype(auto) _ = std::mul_sat(minVal, maxVal);

   static_assert(noexcept(std::mul_sat(minVal, maxVal)));

   // clang-format off

   // No saturation (0, 1)

   assert(std::mul_sat(IntegerT{0}, IntegerT{0}) == IntegerT{0});
   assert(std::mul_sat(IntegerT{0}, IntegerT{1}) == IntegerT{0});
   assert(std::mul_sat(IntegerT{0},      minVal) == IntegerT{0});
   assert(std::mul_sat(IntegerT{0},      maxVal) == IntegerT{0});

   assert(std::mul_sat(IntegerT{1}, IntegerT{0}) == IntegerT{0});
   assert(std::mul_sat(IntegerT{1}, IntegerT{1}) == IntegerT{1});
   assert(std::mul_sat(IntegerT{1},      minVal) == minVal);
   assert(std::mul_sat(IntegerT{1},      maxVal) == maxVal);

   assert(std::mul_sat(     minVal, IntegerT{0}) == IntegerT{0});
   assert(std::mul_sat(     minVal, IntegerT{1}) == minVal);
   assert(std::mul_sat(     minVal,      maxVal) == minVal);
   assert(std::mul_sat(     minVal,      maxVal) == minVal);

   assert(std::mul_sat(     maxVal, IntegerT{0}) == IntegerT{0});
   assert(std::mul_sat(     maxVal, IntegerT{1}) == maxVal);
   assert(std::mul_sat(     maxVal,      minVal) == IntegerT{0});
   assert(std::mul_sat(     maxVal,      maxVal) == maxVal); // saturated

   // No saturation (no limit values)

   assert(std::mul_sat(IntegerT{28}, IntegerT{2}) == IntegerT{56});

   // Saturation (no limit values

   {
     constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
     constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
     assert(std::mul_sat(x, y) == maxVal); // saturated
   }

   // clang-format on

   return true;
 }

 constexpr bool test() {
   // Signed
   test_signed<signed char>();
   test_signed<short int>();
   test_signed<int>();
   test_signed<long int>();
   test_signed<long long int>();
 #ifndef TEST_HAS_NO_INT128
   test_signed<__int128_t>();
 #endif
   // Unsigned
   test_unsigned<unsigned char>();
   test_unsigned<unsigned short int>();
   test_unsigned<unsigned int>();
   test_unsigned<unsigned long int>();
   test_unsigned<unsigned long long int>();
 #ifndef TEST_HAS_NO_INT128
   test_unsigned<__uint128_t>();
 #endif

   return true;
 }

 int main(int, char**) {
   test();
   static_assert(test());

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

	// UNSUPPORTED: c++03, c++11, c++14, c++17, c++20, c++23
	// The test uses "Placeholder variables with no name"

	// <numeric>

	// template<class T>
	// constexpr T mul_sat(T x, T y) noexcept; // freestanding

	#include <cassert>
	#include <concepts>
	#include <limits>
	#include <numeric>

	#include "test_macros.h"

	template <typename IntegerT>
	constexpr bool test_signed() {
	constexpr auto minVal = std::numeric_limits<IntegerT>::min();
	constexpr auto maxVal = std::numeric_limits<IntegerT>::max();

	// TODO(LLVM-20) remove [[maybe_unused]] since all supported compilers support "Placeholder variables with no name"
	[[maybe_unused]] std::same_as<IntegerT> decltype(auto) _ = std::mul_sat(minVal, maxVal);

	static_assert(noexcept(std::mul_sat(minVal, maxVal)));

	// clang-format off

	// Limit values (-1, 0, 1, min, max)

	assert(std::mul_sat(IntegerT{-1}, IntegerT{-1}) == IntegerT{ 1});
	assert(std::mul_sat(IntegerT{-1}, IntegerT{ 0}) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{-1}, IntegerT{ 1}) == IntegerT{-1});
	assert(std::mul_sat(IntegerT{-1}, minVal) == maxVal); // saturated
	assert(std::mul_sat(IntegerT{-1}, maxVal) == -maxVal);

	assert(std::mul_sat(IntegerT{ 0}, IntegerT{-1}) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{ 0}, IntegerT{ 0}) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{ 0}, IntegerT{ 1}) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{ 0}, minVal) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{ 0}, maxVal) == IntegerT{ 0});

	assert(std::mul_sat(IntegerT{ 1}, IntegerT{-1}) == IntegerT{-1});
	assert(std::mul_sat(IntegerT{ 1}, IntegerT{ 0}) == IntegerT{ 0});
	assert(std::mul_sat(IntegerT{ 1}, IntegerT{ 1}) == IntegerT{ 1});
	assert(std::mul_sat(IntegerT{ 1}, minVal) == minVal);
	assert(std::mul_sat(IntegerT{ 1}, maxVal) == maxVal);

	assert(std::mul_sat( minVal, IntegerT{-1}) == maxVal); // saturated
	assert(std::mul_sat( minVal, IntegerT{ 0}) == IntegerT{ 0});
	assert(std::mul_sat( minVal, IntegerT{ 1}) == minVal);
	assert(std::mul_sat( minVal, minVal) == maxVal); // saturated
	assert(std::mul_sat( minVal, maxVal) == minVal); // saturated

	assert(std::mul_sat( maxVal, IntegerT{-1}) == -maxVal);
	assert(std::mul_sat( maxVal, IntegerT{ 0}) == IntegerT{ 0});
	assert(std::mul_sat( maxVal, IntegerT{ 1}) == maxVal); // saturated
	assert(std::mul_sat( maxVal, minVal) == minVal); // saturated
	assert(std::mul_sat( maxVal, maxVal) == maxVal); // saturated

	// No saturation (no limit values)

	assert(std::mul_sat(IntegerT{27}, IntegerT{ 2}) == IntegerT{54});
	assert(std::mul_sat(IntegerT{ 2}, IntegerT{28}) == IntegerT{56});

	// Saturation (no limit values)

	{
	constexpr IntegerT x = minVal / IntegerT{2} + IntegerT{27};
	constexpr IntegerT y = minVal / IntegerT{2} + IntegerT{28};
	assert(std::mul_sat(x, y) == maxVal); // saturated
	}
	{
	constexpr IntegerT x = minVal / IntegerT{2} + IntegerT{27};
	constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
	assert(std::mul_sat(x, y) == minVal); // saturated
	}
	{
	constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
	constexpr IntegerT y = minVal / IntegerT{2} + IntegerT{28};
	assert(std::mul_sat(x, y) == minVal); // saturated
	}
	{
	constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
	constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
	assert(std::mul_sat(x, y) == maxVal); // saturated
	}

	// clang-format on

	return true;
	}

	template <typename IntegerT>
	constexpr bool test_unsigned() {
	constexpr auto minVal = std::numeric_limits<IntegerT>::min();
	constexpr auto maxVal = std::numeric_limits<IntegerT>::max();

	// TODO(LLVM-20) remove [[maybe_unused]] since all supported compilers support "Placeholder variables with no name"
	[[maybe_unused]] std::same_as<IntegerT> decltype(auto) _ = std::mul_sat(minVal, maxVal);

	static_assert(noexcept(std::mul_sat(minVal, maxVal)));

	// clang-format off

	// No saturation (0, 1)

	assert(std::mul_sat(IntegerT{0}, IntegerT{0}) == IntegerT{0});
	assert(std::mul_sat(IntegerT{0}, IntegerT{1}) == IntegerT{0});
	assert(std::mul_sat(IntegerT{0}, minVal) == IntegerT{0});
	assert(std::mul_sat(IntegerT{0}, maxVal) == IntegerT{0});

	assert(std::mul_sat(IntegerT{1}, IntegerT{0}) == IntegerT{0});
	assert(std::mul_sat(IntegerT{1}, IntegerT{1}) == IntegerT{1});
	assert(std::mul_sat(IntegerT{1}, minVal) == minVal);
	assert(std::mul_sat(IntegerT{1}, maxVal) == maxVal);

	assert(std::mul_sat( minVal, IntegerT{0}) == IntegerT{0});
	assert(std::mul_sat( minVal, IntegerT{1}) == minVal);
	assert(std::mul_sat( minVal, maxVal) == minVal);
	assert(std::mul_sat( minVal, maxVal) == minVal);

	assert(std::mul_sat( maxVal, IntegerT{0}) == IntegerT{0});
	assert(std::mul_sat( maxVal, IntegerT{1}) == maxVal);
	assert(std::mul_sat( maxVal, minVal) == IntegerT{0});
	assert(std::mul_sat( maxVal, maxVal) == maxVal); // saturated

	// No saturation (no limit values)

	assert(std::mul_sat(IntegerT{28}, IntegerT{2}) == IntegerT{56});

	// Saturation (no limit values

	{
	constexpr IntegerT x = maxVal / IntegerT{2} + IntegerT{27};
	constexpr IntegerT y = maxVal / IntegerT{2} + IntegerT{28};
	assert(std::mul_sat(x, y) == maxVal); // saturated
	}

	// clang-format on

	return true;
	}

	constexpr bool test() {
	// Signed
	test_signed<signed char>();
	test_signed<short int>();
	test_signed<int>();
	test_signed<long int>();
	test_signed<long long int>();
	#ifndef TEST_HAS_NO_INT128
	test_signed<__int128_t>();
	#endif
	// Unsigned
	test_unsigned<unsigned char>();
	test_unsigned<unsigned short int>();
	test_unsigned<unsigned int>();
	test_unsigned<unsigned long int>();
	test_unsigned<unsigned long long int>();
	#ifndef TEST_HAS_NO_INT128
	test_unsigned<__uint128_t>();
	#endif

	return true;
	}

	int main(int, char**) {
	test();
	static_assert(test());

	return 0;
	}