//===-- Unittests for modff -----------------------------------------------===// // // 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/modff.h" #include "utils/FPUtil/BasicOperations.h" #include "utils/FPUtil/BitPatterns.h" #include "utils/FPUtil/FloatOperations.h" #include "utils/FPUtil/FloatProperties.h" #include "utils/FPUtil/NearestIntegerOperations.h" #include "utils/UnitTest/Test.h" #include using __llvm_libc::fputil::valueAsBits; using __llvm_libc::fputil::valueFromBits; using BitPatterns = __llvm_libc::fputil::BitPatterns; using Properties = __llvm_libc::fputil::FloatProperties; TEST(ModffTest, SpecialNumbers) { float integral; EXPECT_EQ(BitPatterns::aQuietNaN, valueAsBits(__llvm_libc::modff( valueFromBits(BitPatterns::aQuietNaN), &integral))); EXPECT_EQ(BitPatterns::aNegativeQuietNaN, valueAsBits(__llvm_libc::modff( valueFromBits(BitPatterns::aNegativeQuietNaN), &integral))); EXPECT_EQ(BitPatterns::aSignallingNaN, valueAsBits(__llvm_libc::modff( valueFromBits(BitPatterns::aSignallingNaN), &integral))); EXPECT_EQ( BitPatterns::aNegativeSignallingNaN, valueAsBits(__llvm_libc::modff( valueFromBits(BitPatterns::aNegativeSignallingNaN), &integral))); EXPECT_EQ(BitPatterns::zero, valueAsBits(__llvm_libc::modff(valueFromBits(BitPatterns::inf), &integral))); EXPECT_EQ(valueAsBits(integral), BitPatterns::inf); EXPECT_EQ(BitPatterns::negZero, valueAsBits(__llvm_libc::modff(valueFromBits(BitPatterns::negInf), &integral))); EXPECT_EQ(valueAsBits(integral), BitPatterns::negInf); EXPECT_EQ(BitPatterns::zero, valueAsBits(__llvm_libc::modff(valueFromBits(BitPatterns::zero), &integral))); EXPECT_EQ(valueAsBits(integral), BitPatterns::zero); EXPECT_EQ(BitPatterns::negZero, valueAsBits(__llvm_libc::modff(valueFromBits(BitPatterns::negZero), &integral))); EXPECT_EQ(valueAsBits(integral), BitPatterns::negZero); } TEST(ModffTest, Integers) { float integral; EXPECT_EQ(BitPatterns::zero, valueAsBits(__llvm_libc::modff(1.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(1.0f)); EXPECT_EQ(BitPatterns::negZero, valueAsBits(__llvm_libc::modff(-1.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-1.0f)); EXPECT_EQ(BitPatterns::zero, valueAsBits(__llvm_libc::modff(10.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(10.0f)); EXPECT_EQ(BitPatterns::negZero, valueAsBits(__llvm_libc::modff(-10.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-10.0f)); EXPECT_EQ(BitPatterns::zero, valueAsBits(__llvm_libc::modff(12345.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(12345.0f)); EXPECT_EQ(BitPatterns::negZero, valueAsBits(__llvm_libc::modff(-12345.0f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-12345.0f)); } TEST(ModffTest, Fractions) { float integral; EXPECT_EQ(valueAsBits(0.5f), valueAsBits(__llvm_libc::modff(1.5f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(1.0f)); EXPECT_EQ(valueAsBits(-0.5f), valueAsBits(__llvm_libc::modff(-1.5f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-1.0f)); EXPECT_EQ(valueAsBits(0.75f), valueAsBits(__llvm_libc::modff(10.75f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(10.0f)); EXPECT_EQ(valueAsBits(-0.75f), valueAsBits(__llvm_libc::modff(-10.75f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-10.0f)); EXPECT_EQ(valueAsBits(0.125f), valueAsBits(__llvm_libc::modff(100.125f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(100.0f)); EXPECT_EQ(valueAsBits(-0.125f), valueAsBits(__llvm_libc::modff(-100.125f, &integral))); EXPECT_EQ(valueAsBits(integral), valueAsBits(-100.0f)); } TEST(ModffTest, InDoubleRange) { using BitsType = Properties::BitsType; constexpr BitsType count = 10000000; constexpr BitsType step = UINT32_MAX / count; for (BitsType i = 0, v = 0; i <= count; ++i, v += step) { float x = valueFromBits(v); if (isnan(x) || isinf(x) || x == 0.0f) { // These conditions have been tested in other tests. continue; } float integral; float frac = __llvm_libc::modff(x, &integral); ASSERT_TRUE(__llvm_libc::fputil::abs(frac) < 1.0f); ASSERT_TRUE(__llvm_libc::fputil::trunc(x) == integral); ASSERT_TRUE(integral + frac == x); } }