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llvm / llvm-project / libc / 13a68c0e21de55c241471fac28bdb6c73cad69f1 / . / test / src / math / sinf_test.cpp
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//===-- Unittests for sinf ------------------------------------------------===//
//
// 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/math/sinf.h"
#include "test/src/math/sdcomp26094.h"
#include "utils/MPFRWrapper/MPFRUtils.h"
#include "utils/UnitTest/FPMatcher.h"
#include "utils/UnitTest/Test.h"
#include <math.h>
#include <errno.h>
#include <stdint.h>
using __llvm_libc::testing::SDCOMP26094_VALUES;
using FPBits = __llvm_libc::fputil::FPBits<float>;
namespace mpfr = __llvm_libc::testing::mpfr;
DECLARE_SPECIAL_CONSTANTS(float)
TEST(LlvmLibcSinfTest, SpecialNumbers) {
errno = 0;
EXPECT_FP_EQ(aNaN, __llvm_libc::sinf(aNaN));
EXPECT_MATH_ERRNO(0);
EXPECT_FP_EQ(0.0f, __llvm_libc::sinf(0.0f));
EXPECT_MATH_ERRNO(0);
EXPECT_FP_EQ(-0.0f, __llvm_libc::sinf(-0.0f));
EXPECT_MATH_ERRNO(0);
EXPECT_FP_EQ(aNaN, __llvm_libc::sinf(inf));
EXPECT_MATH_ERRNO(EDOM);
EXPECT_FP_EQ(aNaN, __llvm_libc::sinf(neg_inf));
EXPECT_MATH_ERRNO(EDOM);
}
TEST(LlvmLibcSinfTest, 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;
ASSERT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, x,
__llvm_libc::sinf(x), 0.5);
}
}
TEST(LlvmLibcSinfTest, SpecificBitPatterns) {
constexpr int N = 36;
constexpr uint32_t INPUTS[N] = {
0x3f06'0a92U, // x = pi/6
0x3f3a'dc51U, // x = 0x1.75b8a2p-1f
0x3f49'0fdbU, // x = pi/4
0x3f86'0a92U, // x = pi/3
0x3fa7'832aU, // x = 0x1.4f0654p+0f
0x3fc9'0fdbU, // x = pi/2
0x4017'1973U, // x = 0x1.2e32e6p+1f
0x4049'0fdbU, // x = pi
0x4096'cbe4U, // x = 0x1.2d97c8p+2f
0x40c9'0fdbU, // x = 2*pi
0x433b'7490U, // x = 0x1.76e92p+7f
0x437c'e5f1U, // x = 0x1.f9cbe2p+7f
0x4619'9998U, // x = 0x1.33333p+13f
0x474d'246fU, // x = 0x1.9a48dep+15f
0x4afd'ece4U, // x = 0x1.fbd9c8p+22f
0x4c23'32e9U, // x = 0x1.4665d2p+25f
0x50a3'e87fU, // x = 0x1.47d0fep+34f
0x5239'47f6U, // x = 0x1.728fecp+37f
0x53b1'46a6U, // x = 0x1.628d4cp+40f
0x55ca'fb2aU, // x = 0x1.95f654p+44f
0x588e'f060U, // x = 0x1.1de0cp+50f
0x5c07'bcd0U, // x = 0x1.0f79ap+57f
0x5ebc'fddeU, // x = 0x1.79fbbcp+62f
0x5fa6'eba7U, // x = 0x1.4dd74ep+64f
0x61a4'0b40U, // x = 0x1.48168p+68f
0x6386'134eU, // x = 0x1.0c269cp+72f
0x6589'8498U, // x = 0x1.13093p+76f
0x6600'0001U, // x = 0x1.000002p+77f
0x664e'46e4U, // x = 0x1.9c8dc8p+77f
0x66b0'14aaU, // x = 0x1.602954p+78f
0x67a9'242bU, // x = 0x1.524856p+80f
0x6a19'76f1U, // x = 0x1.32ede2p+85f
0x6c55'da58U, // x = 0x1.abb4bp+89f
0x6f79'be45U, // x = 0x1.f37c8ap+95f
0x7276'69d4U, // x = 0x1.ecd3a8p+101f
0x7758'4625U, // x = 0x1.b08c4ap+111f
};
for (int i = 0; i < N; ++i) {
float x = float(FPBits(INPUTS[i]));
EXPECT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, x,
__llvm_libc::sinf(x), 0.5);
EXPECT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, -x,
__llvm_libc::sinf(-x), 0.5);
}
}
// For small values, sin(x) is x.
TEST(LlvmLibcSinfTest, SmallValues) {
float x = float(FPBits(0x1780'0000U));
EXPECT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, x, __llvm_libc::sinf(x),
0.5);
x = float(FPBits(0x0040'0000U));
EXPECT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, x, __llvm_libc::sinf(x),
0.5);
}
// SDCOMP-26094: check sinf in the cases for which the range reducer
// returns values furthest beyond its nominal upper bound of pi/4.
TEST(LlvmLibcSinfTest, SDCOMP_26094) {
for (uint32_t v : SDCOMP26094_VALUES) {
float x = float(FPBits((v)));
EXPECT_MPFR_MATCH_ALL_ROUNDING(mpfr::Operation::Sin, x,
__llvm_libc::sinf(x), 0.5);
}
}