test/src/math/frexpl_test.cpp - llvm-project/libc - Git at Google

 //===-- Unittests for frexpl ----------------------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "src/math/frexpl.h"
 #include "utils/FPUtil/BasicOperations.h"
 #include "utils/FPUtil/FPBits.h"
 #include "utils/MPFRWrapper/MPFRUtils.h"
 #include "utils/UnitTest/Test.h"
 #include <math.h>

 using FPBits = __llvm_libc::fputil::FPBits<long double>;

 namespace mpfr = __llvm_libc::testing::mpfr;

 TEST(LlvmLibcFrexplTest, SpecialNumbers) {
   int exponent;

   EXPECT_TRUE(FPBits::inf() == __llvm_libc::frexpl(FPBits::inf(), &exponent));
   EXPECT_TRUE(FPBits::negInf() ==
               __llvm_libc::frexpl(FPBits::negInf(), &exponent));

   EXPECT_TRUE(FPBits::zero() == __llvm_libc::frexpl(FPBits::zero(), &exponent));
   EXPECT_EQ(exponent, 0);

   EXPECT_TRUE(FPBits::negZero() ==
               __llvm_libc::frexpl(FPBits::negZero(), &exponent));
   EXPECT_EQ(exponent, 0);

   EXPECT_TRUE(
       FPBits(__llvm_libc::frexpl(FPBits::buildNaN(1), &exponent)).isNaN());
 }

 TEST(LlvmLibcFrexplTest, PowersOfTwo) {
   int exponent;

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(1.0l, &exponent));
   EXPECT_EQ(exponent, 1);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-1.0l, &exponent));
   EXPECT_EQ(exponent, 1);

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(2.0l, &exponent));
   EXPECT_EQ(exponent, 2);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-2.0l, &exponent));
   EXPECT_EQ(exponent, 2);

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(4.0l, &exponent));
   EXPECT_EQ(exponent, 3);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-4.0l, &exponent));
   EXPECT_EQ(exponent, 3);

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(8.0l, &exponent));
   EXPECT_EQ(exponent, 4);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-8.0l, &exponent));
   EXPECT_EQ(exponent, 4);

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(16.0l, &exponent));
   EXPECT_EQ(exponent, 5);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-16.0l, &exponent));
   EXPECT_EQ(exponent, 5);

   EXPECT_TRUE(0.5l == __llvm_libc::frexpl(32.0l, &exponent));
   EXPECT_EQ(exponent, 6);
   EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-32.0l, &exponent));
   EXPECT_EQ(exponent, 6);
 }

 TEST(LlvmLibcFrexplTest, SomeIntegers) {
   int exponent;

   EXPECT_TRUE(0.75l == __llvm_libc::frexpl(24.0l, &exponent));
   EXPECT_EQ(exponent, 5);
   EXPECT_TRUE(-0.75l == __llvm_libc::frexpl(-24.0l, &exponent));
   EXPECT_EQ(exponent, 5);

   EXPECT_TRUE(0.625l == __llvm_libc::frexpl(40.0l, &exponent));
   EXPECT_EQ(exponent, 6);
   EXPECT_TRUE(-0.625l == __llvm_libc::frexpl(-40.0l, &exponent));
   EXPECT_EQ(exponent, 6);

   EXPECT_TRUE(0.78125l == __llvm_libc::frexpl(800.0l, &exponent));
   EXPECT_EQ(exponent, 10);
   EXPECT_TRUE(-0.78125l == __llvm_libc::frexpl(-800.0l, &exponent));
   EXPECT_EQ(exponent, 10);
 }

 TEST(LlvmLibcFrexplTest, LongDoubleRange) {
   using UIntType = FPBits::UIntType;
   constexpr UIntType count = 10000000;
   constexpr UIntType step = UIntType(-1) / count;
   for (UIntType i = 0, v = 0; i <= count; ++i, v += step) {
     long double x = static_cast<long double>(FPBits(v));
     if (isnan(x) || isinf(x) || x == 0.0l)
       continue;

     mpfr::BinaryOutput<long double> result;
     result.f = __llvm_libc::frexpl(x, &result.i);

     ASSERT_TRUE(__llvm_libc::fputil::abs(result.f) < 1.0);
     ASSERT_TRUE(__llvm_libc::fputil::abs(result.f) >= 0.5);
     ASSERT_MPFR_MATCH(mpfr::Operation::Frexp, x, result, 0.0);
   }
 }
	//===-- Unittests for frexpl ----------------------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "src/math/frexpl.h"
	#include "utils/FPUtil/BasicOperations.h"
	#include "utils/FPUtil/FPBits.h"
	#include "utils/MPFRWrapper/MPFRUtils.h"
	#include "utils/UnitTest/Test.h"
	#include <math.h>

	using FPBits = __llvm_libc::fputil::FPBits<long double>;

	namespace mpfr = __llvm_libc::testing::mpfr;

	TEST(LlvmLibcFrexplTest, SpecialNumbers) {
	int exponent;

	EXPECT_TRUE(FPBits::inf() == __llvm_libc::frexpl(FPBits::inf(), &exponent));
	EXPECT_TRUE(FPBits::negInf() ==
	__llvm_libc::frexpl(FPBits::negInf(), &exponent));

	EXPECT_TRUE(FPBits::zero() == __llvm_libc::frexpl(FPBits::zero(), &exponent));
	EXPECT_EQ(exponent, 0);

	EXPECT_TRUE(FPBits::negZero() ==
	__llvm_libc::frexpl(FPBits::negZero(), &exponent));
	EXPECT_EQ(exponent, 0);

	EXPECT_TRUE(
	FPBits(__llvm_libc::frexpl(FPBits::buildNaN(1), &exponent)).isNaN());
	}

	TEST(LlvmLibcFrexplTest, PowersOfTwo) {
	int exponent;

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(1.0l, &exponent));
	EXPECT_EQ(exponent, 1);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-1.0l, &exponent));
	EXPECT_EQ(exponent, 1);

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(2.0l, &exponent));
	EXPECT_EQ(exponent, 2);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-2.0l, &exponent));
	EXPECT_EQ(exponent, 2);

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(4.0l, &exponent));
	EXPECT_EQ(exponent, 3);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-4.0l, &exponent));
	EXPECT_EQ(exponent, 3);

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(8.0l, &exponent));
	EXPECT_EQ(exponent, 4);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-8.0l, &exponent));
	EXPECT_EQ(exponent, 4);

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(16.0l, &exponent));
	EXPECT_EQ(exponent, 5);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-16.0l, &exponent));
	EXPECT_EQ(exponent, 5);

	EXPECT_TRUE(0.5l == __llvm_libc::frexpl(32.0l, &exponent));
	EXPECT_EQ(exponent, 6);
	EXPECT_TRUE(-0.5l == __llvm_libc::frexpl(-32.0l, &exponent));
	EXPECT_EQ(exponent, 6);
	}

	TEST(LlvmLibcFrexplTest, SomeIntegers) {
	int exponent;

	EXPECT_TRUE(0.75l == __llvm_libc::frexpl(24.0l, &exponent));
	EXPECT_EQ(exponent, 5);
	EXPECT_TRUE(-0.75l == __llvm_libc::frexpl(-24.0l, &exponent));
	EXPECT_EQ(exponent, 5);

	EXPECT_TRUE(0.625l == __llvm_libc::frexpl(40.0l, &exponent));
	EXPECT_EQ(exponent, 6);
	EXPECT_TRUE(-0.625l == __llvm_libc::frexpl(-40.0l, &exponent));
	EXPECT_EQ(exponent, 6);

	EXPECT_TRUE(0.78125l == __llvm_libc::frexpl(800.0l, &exponent));
	EXPECT_EQ(exponent, 10);
	EXPECT_TRUE(-0.78125l == __llvm_libc::frexpl(-800.0l, &exponent));
	EXPECT_EQ(exponent, 10);
	}

	TEST(LlvmLibcFrexplTest, LongDoubleRange) {
	using UIntType = FPBits::UIntType;
	constexpr UIntType count = 10000000;
	constexpr UIntType step = UIntType(-1) / count;
	for (UIntType i = 0, v = 0; i <= count; ++i, v += step) {
	long double x = static_cast<long double>(FPBits(v));
	if (isnan(x) \|\| isinf(x) \|\| x == 0.0l)
	continue;

	mpfr::BinaryOutput<long double> result;
	result.f = __llvm_libc::frexpl(x, &result.i);

	ASSERT_TRUE(__llvm_libc::fputil::abs(result.f) < 1.0);
	ASSERT_TRUE(__llvm_libc::fputil::abs(result.f) >= 0.5);
	ASSERT_MPFR_MATCH(mpfr::Operation::Frexp, x, result, 0.0);
	}
	}