//===-- Unittests for expm1f-----------------------------------------------===// // // 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/__support/FPUtil/FPBits.h" #include "src/errno/libc_errno.h" #include "src/math/expm1f.h" #include "test/UnitTest/FPMatcher.h" #include "test/UnitTest/Test.h" #include "utils/MPFRWrapper/MPFRUtils.h" #include #include namespace mpfr = __llvm_libc::testing::mpfr; DECLARE_SPECIAL_CONSTANTS(float) TEST(LlvmLibcExpm1fTest, SpecialNumbers) { libc_errno = 0; EXPECT_FP_EQ(aNaN, __llvm_libc::expm1f(aNaN)); EXPECT_MATH_ERRNO(0); EXPECT_FP_EQ(inf, __llvm_libc::expm1f(inf)); EXPECT_MATH_ERRNO(0); EXPECT_FP_EQ(-1.0f, __llvm_libc::expm1f(neg_inf)); EXPECT_MATH_ERRNO(0); EXPECT_FP_EQ(0.0f, __llvm_libc::expm1f(0.0f)); EXPECT_MATH_ERRNO(0); EXPECT_FP_EQ(-0.0f, __llvm_libc::expm1f(-0.0f)); EXPECT_MATH_ERRNO(0); } TEST(LlvmLibcExpm1fTest, Overflow) { libc_errno = 0; EXPECT_FP_EQ_WITH_EXCEPTION( inf, __llvm_libc::expm1f(float(FPBits(0x7f7fffffU))), FE_OVERFLOW); EXPECT_MATH_ERRNO(ERANGE); EXPECT_FP_EQ_WITH_EXCEPTION( inf, __llvm_libc::expm1f(float(FPBits(0x42cffff8U))), FE_OVERFLOW); EXPECT_MATH_ERRNO(ERANGE); EXPECT_FP_EQ_WITH_EXCEPTION( inf, __llvm_libc::expm1f(float(FPBits(0x42d00008U))), FE_OVERFLOW); EXPECT_MATH_ERRNO(ERANGE); } TEST(LlvmLibcExpm1fTest, Underflow) { libc_errno = 0; EXPECT_FP_EQ(-1.0f, __llvm_libc::expm1f(float(FPBits(0xff7fffffU)))); float x = float(FPBits(0xc2cffff8U)); EXPECT_FP_EQ(-1.0f, __llvm_libc::expm1f(x)); x = float(FPBits(0xc2d00008U)); EXPECT_FP_EQ(-1.0f, __llvm_libc::expm1f(x)); } // Test with inputs which are the borders of underflow/overflow but still // produce valid results without setting errno. TEST(LlvmLibcExpm1fTest, Borderline) { float x; libc_errno = 0; x = float(FPBits(0x42affff8U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0x42b00008U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0xc2affff8U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0xc2b00008U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0x3dc252ddU)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0x3e35bec5U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0x942ed494U)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); x = float(FPBits(0xbdc1c6cbU)); ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); EXPECT_MATH_ERRNO(0); } TEST(LlvmLibcExpm1fTest, InFloatRange) { constexpr uint32_t COUNT = 1000000; constexpr uint32_t STEP = UINT32_MAX / COUNT; for (uint32_t i = 0, v = 0; i <= COUNT; ++i, v += STEP) { float x = float(FPBits(v)); if (isnan(x) || isinf(x)) continue; libc_errno = 0; float result = __llvm_libc::expm1f(x); // If the computation resulted in an error or did not produce valid result // in the single-precision floating point range, then ignore comparing with // MPFR result as MPFR can still produce valid results because of its // wider precision. if (isnan(result) || isinf(result) || libc_errno != 0) continue; ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Expm1, x, __llvm_libc::expm1f(x), 0.5); } }