//===-- Unittests for sincosf ---------------------------------------------===// // // 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 "include/errno.h" #include "src/errno/llvmlibc_errno.h" #include "src/math/sincosf.h" #include "test/src/math/sdcomp26094.h" #include "utils/CPP/Array.h" #include "utils/FPUtil/BitPatterns.h" #include "utils/FPUtil/ClassificationFunctions.h" #include "utils/FPUtil/FloatOperations.h" #include "utils/FPUtil/FloatProperties.h" #include "utils/MPFRWrapper/MPFRUtils.h" #include "utils/UnitTest/Test.h" #include #include using __llvm_libc::fputil::isNegativeQuietNaN; using __llvm_libc::fputil::isQuietNaN; using __llvm_libc::fputil::valueAsBits; using __llvm_libc::fputil::valueFromBits; using BitPatterns = __llvm_libc::fputil::BitPatterns; using __llvm_libc::testing::sdcomp26094Values; namespace mpfr = __llvm_libc::testing::mpfr; TEST(SinCosfTest, SpecialNumbers) { llvmlibc_errno = 0; float sin, cos; __llvm_libc::sincosf(valueFromBits(BitPatterns::aQuietNaN), &sin, &cos); EXPECT_TRUE(isQuietNaN(cos)); EXPECT_TRUE(isQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, 0); __llvm_libc::sincosf(valueFromBits(BitPatterns::aNegativeQuietNaN), &sin, &cos); EXPECT_TRUE(isNegativeQuietNaN(cos)); EXPECT_TRUE(isNegativeQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, 0); __llvm_libc::sincosf(valueFromBits(BitPatterns::aSignallingNaN), &sin, &cos); EXPECT_TRUE(isQuietNaN(cos)); EXPECT_TRUE(isQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, 0); __llvm_libc::sincosf(valueFromBits(BitPatterns::aNegativeSignallingNaN), &sin, &cos); EXPECT_TRUE(isNegativeQuietNaN(cos)); EXPECT_TRUE(isNegativeQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, 0); __llvm_libc::sincosf(valueFromBits(BitPatterns::zero), &sin, &cos); EXPECT_EQ(BitPatterns::one, valueAsBits(cos)); EXPECT_EQ(BitPatterns::zero, valueAsBits(sin)); EXPECT_EQ(llvmlibc_errno, 0); __llvm_libc::sincosf(valueFromBits(BitPatterns::negZero), &sin, &cos); EXPECT_EQ(BitPatterns::one, valueAsBits(cos)); EXPECT_EQ(BitPatterns::negZero, valueAsBits(sin)); EXPECT_EQ(llvmlibc_errno, 0); llvmlibc_errno = 0; __llvm_libc::sincosf(valueFromBits(BitPatterns::inf), &sin, &cos); EXPECT_TRUE(isQuietNaN(cos)); EXPECT_TRUE(isQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, EDOM); llvmlibc_errno = 0; __llvm_libc::sincosf(valueFromBits(BitPatterns::negInf), &sin, &cos); EXPECT_TRUE(isQuietNaN(cos)); EXPECT_TRUE(isQuietNaN(sin)); EXPECT_EQ(llvmlibc_errno, EDOM); } TEST(SinCosfTest, 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 = valueFromBits(v); if (isnan(x) || isinf(x)) continue; float sin, cos; __llvm_libc::sincosf(x, &sin, &cos); ASSERT_MPFR_MATCH(mpfr::Operation::Cos, x, cos, 1.0); ASSERT_MPFR_MATCH(mpfr::Operation::Sin, x, sin, 1.0); } } // For small values, cos(x) is 1 and sin(x) is x. TEST(SinCosfTest, SmallValues) { uint32_t bits = 0x17800000; float x = valueFromBits(bits); float result_cos, result_sin; __llvm_libc::sincosf(x, &result_sin, &result_cos); EXPECT_MPFR_MATCH(mpfr::Operation::Cos, x, result_cos, 1.0); EXPECT_MPFR_MATCH(mpfr::Operation::Sin, x, result_sin, 1.0); EXPECT_EQ(BitPatterns::one, valueAsBits(result_cos)); EXPECT_EQ(bits, valueAsBits(result_sin)); bits = 0x00400000; x = valueFromBits(bits); __llvm_libc::sincosf(x, &result_sin, &result_cos); EXPECT_MPFR_MATCH(mpfr::Operation::Cos, x, result_cos, 1.0); EXPECT_MPFR_MATCH(mpfr::Operation::Sin, x, result_sin, 1.0); EXPECT_EQ(BitPatterns::one, valueAsBits(result_cos)); EXPECT_EQ(bits, valueAsBits(result_sin)); } // SDCOMP-26094: check sinf in the cases for which the range reducer // returns values furthest beyond its nominal upper bound of pi/4. TEST(SinCosfTest, SDCOMP_26094) { for (uint32_t v : sdcomp26094Values) { float x = valueFromBits(v); float sin, cos; __llvm_libc::sincosf(x, &sin, &cos); EXPECT_MPFR_MATCH(mpfr::Operation::Cos, x, cos, 1.0); EXPECT_MPFR_MATCH(mpfr::Operation::Sin, x, sin, 1.0); } }