[libc-commits] [libc] [llvm] [libc][math] Refactor sinf implementation to header-only in src/__sup… (PR #177963)
Nico Weber via libc-commits
libc-commits at lists.llvm.org
Mon Jan 26 06:09:19 PST 2026
https://github.com/nico created https://github.com/llvm/llvm-project/pull/177963
…port/math folder.
Part of #147386
in preparation for:
https://discourse.llvm.org/t/rfc-make-clang-builtin-math-functions-constexpr-with-llvm-libc-to-support-c-23-constexpr-math-functions/86450
---
I used https://github.com/llvm/llvm-project/pull/177583 to create the initial version of this. (It got a bit confused by the #if/#else/#endif for sinf, but easy to fix up manually.)
>From 62478431a4d53f0660612714ea987c87a2a7461a Mon Sep 17 00:00:00 2001
From: Nico Weber <thakis at chromium.org>
Date: Mon, 26 Jan 2026 09:07:23 -0500
Subject: [PATCH] [libc][math] Refactor sinf implementation to header-only in
src/__support/math folder.
Part of #147386
in preparation for:
https://discourse.llvm.org/t/rfc-make-clang-builtin-math-functions-constexpr-with-llvm-libc-to-support-c-23-constexpr-math-functions/86450
---
libc/shared/math.h | 1 +
libc/shared/math/sinf.h | 23 +++
libc/src/__support/math/CMakeLists.txt | 16 ++
libc/src/__support/math/sinf.h | 194 ++++++++++++++++++
libc/src/math/generic/CMakeLists.txt | 10 +-
libc/src/math/generic/sinf.cpp | 170 +--------------
libc/test/shared/CMakeLists.txt | 1 +
libc/test/shared/shared_math_test.cpp | 1 +
.../llvm-project-overlay/libc/BUILD.bazel | 22 +-
9 files changed, 254 insertions(+), 184 deletions(-)
create mode 100644 libc/shared/math/sinf.h
create mode 100644 libc/src/__support/math/sinf.h
diff --git a/libc/shared/math.h b/libc/shared/math.h
index 5126e46c9772e..9e76e710ecb01 100644
--- a/libc/shared/math.h
+++ b/libc/shared/math.h
@@ -84,6 +84,7 @@
#include "math/rsqrtf.h"
#include "math/rsqrtf16.h"
#include "math/sin.h"
+#include "math/sinf.h"
#include "math/tan.h"
#include "math/tanf.h"
diff --git a/libc/shared/math/sinf.h b/libc/shared/math/sinf.h
new file mode 100644
index 0000000000000..5157b1e2d7cdc
--- /dev/null
+++ b/libc/shared/math/sinf.h
@@ -0,0 +1,23 @@
+//===-- Shared sinf function ------------------------------------*- C++ -*-===//
+//
+// 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
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef LLVM_LIBC_SHARED_MATH_SINF_H
+#define LLVM_LIBC_SHARED_MATH_SINF_H
+
+#include "shared/libc_common.h"
+#include "src/__support/math/sinf.h"
+
+namespace LIBC_NAMESPACE_DECL {
+namespace shared {
+
+using math::sinf;
+
+} // namespace shared
+} // namespace LIBC_NAMESPACE_DECL
+
+#endif // LLVM_LIBC_SHARED_MATH_SINF_H
diff --git a/libc/src/__support/math/CMakeLists.txt b/libc/src/__support/math/CMakeLists.txt
index d18ebc03ba7b8..9fe1eb967d5e0 100644
--- a/libc/src/__support/math/CMakeLists.txt
+++ b/libc/src/__support/math/CMakeLists.txt
@@ -1286,3 +1286,19 @@ add_header_library(
libc.src.__support.FPUtil.polyeval
libc.src.__support.macros.optimization
)
+
+add_header_library(
+ sinf
+ HDRS
+ sinf.h
+ DEPENDS
+ .range_reduction
+ .sincosf_utils
+ libc.src.__support.FPUtil.basic_operations
+ libc.src.__support.FPUtil.fenv_impl
+ libc.src.__support.FPUtil.fma
+ libc.src.__support.FPUtil.fp_bits
+ libc.src.__support.FPUtil.polyeval
+ libc.src.__support.FPUtil.rounding_mode
+ libc.src.__support.macros.optimization
+)
diff --git a/libc/src/__support/math/sinf.h b/libc/src/__support/math/sinf.h
new file mode 100644
index 0000000000000..b07ebba61bcd9
--- /dev/null
+++ b/libc/src/__support/math/sinf.h
@@ -0,0 +1,194 @@
+//===-- Single-precision sin function -------------------------------------===//
+//
+// 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
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef LIBC_SRC___SUPPORT_MATH_SINF_H
+#define LIBC_SRC___SUPPORT_MATH_SINF_H
+
+#include "src/__support/FPUtil/BasicOperations.h"
+#include "src/__support/FPUtil/FEnvImpl.h"
+#include "src/__support/FPUtil/FPBits.h"
+#include "src/__support/FPUtil/PolyEval.h"
+#include "src/__support/FPUtil/multiply_add.h"
+#include "src/__support/FPUtil/rounding_mode.h"
+#include "src/__support/macros/config.h"
+#include "src/__support/macros/optimization.h" // LIBC_UNLIKELY
+#include "src/__support/macros/properties/cpu_features.h" // LIBC_TARGET_CPU_HAS_FMA
+
+#if defined(LIBC_MATH_HAS_SKIP_ACCURATE_PASS) && \
+ defined(LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT) && \
+ defined(LIBC_TARGET_CPU_HAS_FMA_FLOAT)
+
+#include "sincosf_float_eval.h"
+
+namespace LIBC_NAMESPACE_DECL {
+
+namespace math {
+
+LIBC_INLINE static float sinf(float x) {
+ return math::sincosf_float_eval::sincosf_eval</*IS_SIN*/ true>(x);
+}
+
+} // namespace math
+
+} // namespace LIBC_NAMESPACE_DECL
+
+#else // !LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT
+
+#include "src/__support/math/sincosf_utils.h"
+
+#ifdef LIBC_TARGET_CPU_HAS_FMA_DOUBLE
+#include "src/__support/math/range_reduction_fma.h"
+#else // !LIBC_TARGET_CPU_HAS_FMA_DOUBLE
+#include "src/__support/math/range_reduction.h"
+#endif // LIBC_TARGET_CPU_HAS_FMA_DOUBLE
+
+namespace LIBC_NAMESPACE_DECL {
+
+namespace math {
+
+LIBC_INLINE static float sinf(float x) {
+ using FPBits = typename fputil::FPBits<float>;
+ FPBits xbits(x);
+
+ uint32_t x_u = xbits.uintval();
+ uint32_t x_abs = x_u & 0x7fff'ffffU;
+ double xd = static_cast<double>(x);
+
+ // Range reduction:
+ // For |x| > pi/32, we perform range reduction as follows:
+ // Find k and y such that:
+ // x = (k + y) * pi/32
+ // k is an integer
+ // |y| < 0.5
+ // For small range (|x| < 2^45 when FMA instructions are available, 2^22
+ // otherwise), this is done by performing:
+ // k = round(x * 32/pi)
+ // y = x * 32/pi - k
+ // For large range, we will omit all the higher parts of 32/pi such that the
+ // least significant bits of their full products with x are larger than 63,
+ // since sin((k + y + 64*i) * pi/32) = sin(x + i * 2pi) = sin(x).
+ //
+ // When FMA instructions are not available, we store the digits of 32/pi in
+ // chunks of 28-bit precision. This will make sure that the products:
+ // x * THIRTYTWO_OVER_PI_28[i] are all exact.
+ // When FMA instructions are available, we simply store the digits of 32/pi in
+ // chunks of doubles (53-bit of precision).
+ // So when multiplying by the largest values of single precision, the
+ // resulting output should be correct up to 2^(-208 + 128) ~ 2^-80. By the
+ // worst-case analysis of range reduction, |y| >= 2^-38, so this should give
+ // us more than 40 bits of accuracy. For the worst-case estimation of range
+ // reduction, see for instances:
+ // Elementary Functions by J-M. Muller, Chapter 11,
+ // Handbook of Floating-Point Arithmetic by J-M. Muller et. al.,
+ // Chapter 10.2.
+ //
+ // Once k and y are computed, we then deduce the answer by the sine of sum
+ // formula:
+ // sin(x) = sin((k + y)*pi/32)
+ // = sin(y*pi/32) * cos(k*pi/32) + cos(y*pi/32) * sin(k*pi/32)
+ // The values of sin(k*pi/32) and cos(k*pi/32) for k = 0..31 are precomputed
+ // and stored using a vector of 32 doubles. Sin(y*pi/32) and cos(y*pi/32) are
+ // computed using degree-7 and degree-6 minimax polynomials generated by
+ // Sollya respectively.
+
+ // |x| <= pi/16
+ if (LIBC_UNLIKELY(x_abs <= 0x3e49'0fdbU)) {
+
+ // |x| < 0x1.d12ed2p-12f
+ if (LIBC_UNLIKELY(x_abs < 0x39e8'9769U)) {
+ if (LIBC_UNLIKELY(x_abs == 0U)) {
+ // For signed zeros.
+ return x;
+ }
+ // When |x| < 2^-12, the relative error of the approximation sin(x) ~ x
+ // is:
+ // |sin(x) - x| / |sin(x)| < |x^3| / (6|x|)
+ // = x^2 / 6
+ // < 2^-25
+ // < epsilon(1)/2.
+ // So the correctly rounded values of sin(x) are:
+ // = x - sign(x)*eps(x) if rounding mode = FE_TOWARDZERO,
+ // or (rounding mode = FE_UPWARD and x is
+ // negative),
+ // = x otherwise.
+ // To simplify the rounding decision and make it more efficient, we use
+ // fma(x, -2^-25, x) instead.
+ // An exhaustive test shows that this formula work correctly for all
+ // rounding modes up to |x| < 0x1.c555dep-11f.
+ // Note: to use the formula x - 2^-25*x to decide the correct rounding, we
+ // do need fma(x, -2^-25, x) to prevent underflow caused by -2^-25*x when
+ // |x| < 2^-125. For targets without FMA instructions, we simply use
+ // double for intermediate results as it is more efficient than using an
+ // emulated version of FMA.
+#if defined(LIBC_TARGET_CPU_HAS_FMA_FLOAT)
+ return fputil::multiply_add(x, -0x1.0p-25f, x);
+#else
+ return static_cast<float>(fputil::multiply_add(xd, -0x1.0p-25, xd));
+#endif // LIBC_TARGET_CPU_HAS_FMA_FLOAT
+ }
+
+ // |x| < pi/16.
+ double xsq = xd * xd;
+
+ // Degree-9 polynomial approximation:
+ // sin(x) ~ x + a_3 x^3 + a_5 x^5 + a_7 x^7 + a_9 x^9
+ // = x (1 + a_3 x^2 + ... + a_9 x^8)
+ // = x * P(x^2)
+ // generated by Sollya with the following commands:
+ // > display = hexadecimal;
+ // > Q = fpminimax(sin(x)/x, [|0, 2, 4, 6, 8|], [|1, D...|], [0, pi/16]);
+ double result =
+ fputil::polyeval(xsq, 1.0, -0x1.55555555554c6p-3, 0x1.1111111085e65p-7,
+ -0x1.a019f70fb4d4fp-13, 0x1.718d179815e74p-19);
+ return static_cast<float>(xd * result);
+ }
+
+#ifndef LIBC_MATH_HAS_SKIP_ACCURATE_PASS
+ if (LIBC_UNLIKELY(x_abs == 0x4619'9998U)) { // x = 0x1.33333p13
+ float r = -0x1.63f4bap-2f;
+ int rounding = fputil::quick_get_round();
+ if ((rounding == FE_DOWNWARD && xbits.is_pos()) ||
+ (rounding == FE_UPWARD && xbits.is_neg()))
+ r = -0x1.63f4bcp-2f;
+ return xbits.is_neg() ? -r : r;
+ }
+#endif // !LIBC_MATH_HAS_SKIP_ACCURATE_PASS
+
+ if (LIBC_UNLIKELY(x_abs >= 0x7f80'0000U)) {
+ if (xbits.is_signaling_nan()) {
+ fputil::raise_except_if_required(FE_INVALID);
+ return FPBits::quiet_nan().get_val();
+ }
+
+ if (x_abs == 0x7f80'0000U) {
+ fputil::set_errno_if_required(EDOM);
+ fputil::raise_except_if_required(FE_INVALID);
+ }
+ return x + FPBits::quiet_nan().get_val();
+ }
+
+ // Combine the results with the sine of sum formula:
+ // sin(x) = sin((k + y)*pi/32)
+ // = sin(y*pi/32) * cos(k*pi/32) + cos(y*pi/32) * sin(k*pi/32)
+ // = sin_y * cos_k + (1 + cosm1_y) * sin_k
+ // = sin_y * cos_k + (cosm1_y * sin_k + sin_k)
+ double sin_k, cos_k, sin_y, cosm1_y;
+
+ sincosf_eval(xd, x_abs, sin_k, cos_k, sin_y, cosm1_y);
+
+ return static_cast<float>(fputil::multiply_add(
+ sin_y, cos_k, fputil::multiply_add(cosm1_y, sin_k, sin_k)));
+}
+
+} // namespace math
+
+} // namespace LIBC_NAMESPACE_DECL
+
+#endif // LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT
+
+#endif // LIBC_SRC___SUPPORT_MATH_SINF_H
diff --git a/libc/src/math/generic/CMakeLists.txt b/libc/src/math/generic/CMakeLists.txt
index 3addfab6c6603..d07ef01567d6f 100644
--- a/libc/src/math/generic/CMakeLists.txt
+++ b/libc/src/math/generic/CMakeLists.txt
@@ -372,16 +372,8 @@ add_entrypoint_object(
HDRS
../sinf.h
DEPENDS
- libc.src.__support.math.range_reduction
- libc.src.__support.math.sincosf_utils
+ libc.src.__support.math.sinf
libc.src.errno.errno
- libc.src.__support.FPUtil.basic_operations
- libc.src.__support.FPUtil.fenv_impl
- libc.src.__support.FPUtil.fp_bits
- libc.src.__support.FPUtil.fma
- libc.src.__support.FPUtil.polyeval
- libc.src.__support.FPUtil.rounding_mode
- libc.src.__support.macros.optimization
)
add_entrypoint_object(
diff --git a/libc/src/math/generic/sinf.cpp b/libc/src/math/generic/sinf.cpp
index c362628fb106c..648d57b82488c 100644
--- a/libc/src/math/generic/sinf.cpp
+++ b/libc/src/math/generic/sinf.cpp
@@ -7,176 +7,10 @@
//===----------------------------------------------------------------------===//
#include "src/math/sinf.h"
-#include "src/__support/FPUtil/BasicOperations.h"
-#include "src/__support/FPUtil/FEnvImpl.h"
-#include "src/__support/FPUtil/FPBits.h"
-#include "src/__support/FPUtil/PolyEval.h"
-#include "src/__support/FPUtil/multiply_add.h"
-#include "src/__support/FPUtil/rounding_mode.h"
-#include "src/__support/common.h"
-#include "src/__support/macros/config.h"
-#include "src/__support/macros/optimization.h" // LIBC_UNLIKELY
-#include "src/__support/macros/properties/cpu_features.h" // LIBC_TARGET_CPU_HAS_FMA
-
-#if defined(LIBC_MATH_HAS_SKIP_ACCURATE_PASS) && \
- defined(LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT) && \
- defined(LIBC_TARGET_CPU_HAS_FMA_FLOAT)
-
-#include "src/__support/math/sincosf_float_eval.h"
+#include "src/__support/math/sinf.h"
namespace LIBC_NAMESPACE_DECL {
-LLVM_LIBC_FUNCTION(float, sinf, (float x)) {
- return math::sincosf_float_eval::sincosf_eval</*IS_SIN*/ true>(x);
-}
-
-} // namespace LIBC_NAMESPACE_DECL
-
-#else // !LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT
-
-#include "src/__support/math/sincosf_utils.h"
-
-#ifdef LIBC_TARGET_CPU_HAS_FMA_DOUBLE
-#include "src/__support/math/range_reduction_fma.h"
-#else // !LIBC_TARGET_CPU_HAS_FMA_DOUBLE
-#include "src/__support/math/range_reduction.h"
-#endif // LIBC_TARGET_CPU_HAS_FMA_DOUBLE
-
-namespace LIBC_NAMESPACE_DECL {
-
-LLVM_LIBC_FUNCTION(float, sinf, (float x)) {
- using FPBits = typename fputil::FPBits<float>;
- FPBits xbits(x);
-
- uint32_t x_u = xbits.uintval();
- uint32_t x_abs = x_u & 0x7fff'ffffU;
- double xd = static_cast<double>(x);
-
- // Range reduction:
- // For |x| > pi/32, we perform range reduction as follows:
- // Find k and y such that:
- // x = (k + y) * pi/32
- // k is an integer
- // |y| < 0.5
- // For small range (|x| < 2^45 when FMA instructions are available, 2^22
- // otherwise), this is done by performing:
- // k = round(x * 32/pi)
- // y = x * 32/pi - k
- // For large range, we will omit all the higher parts of 32/pi such that the
- // least significant bits of their full products with x are larger than 63,
- // since sin((k + y + 64*i) * pi/32) = sin(x + i * 2pi) = sin(x).
- //
- // When FMA instructions are not available, we store the digits of 32/pi in
- // chunks of 28-bit precision. This will make sure that the products:
- // x * THIRTYTWO_OVER_PI_28[i] are all exact.
- // When FMA instructions are available, we simply store the digits of 32/pi in
- // chunks of doubles (53-bit of precision).
- // So when multiplying by the largest values of single precision, the
- // resulting output should be correct up to 2^(-208 + 128) ~ 2^-80. By the
- // worst-case analysis of range reduction, |y| >= 2^-38, so this should give
- // us more than 40 bits of accuracy. For the worst-case estimation of range
- // reduction, see for instances:
- // Elementary Functions by J-M. Muller, Chapter 11,
- // Handbook of Floating-Point Arithmetic by J-M. Muller et. al.,
- // Chapter 10.2.
- //
- // Once k and y are computed, we then deduce the answer by the sine of sum
- // formula:
- // sin(x) = sin((k + y)*pi/32)
- // = sin(y*pi/32) * cos(k*pi/32) + cos(y*pi/32) * sin(k*pi/32)
- // The values of sin(k*pi/32) and cos(k*pi/32) for k = 0..31 are precomputed
- // and stored using a vector of 32 doubles. Sin(y*pi/32) and cos(y*pi/32) are
- // computed using degree-7 and degree-6 minimax polynomials generated by
- // Sollya respectively.
-
- // |x| <= pi/16
- if (LIBC_UNLIKELY(x_abs <= 0x3e49'0fdbU)) {
-
- // |x| < 0x1.d12ed2p-12f
- if (LIBC_UNLIKELY(x_abs < 0x39e8'9769U)) {
- if (LIBC_UNLIKELY(x_abs == 0U)) {
- // For signed zeros.
- return x;
- }
- // When |x| < 2^-12, the relative error of the approximation sin(x) ~ x
- // is:
- // |sin(x) - x| / |sin(x)| < |x^3| / (6|x|)
- // = x^2 / 6
- // < 2^-25
- // < epsilon(1)/2.
- // So the correctly rounded values of sin(x) are:
- // = x - sign(x)*eps(x) if rounding mode = FE_TOWARDZERO,
- // or (rounding mode = FE_UPWARD and x is
- // negative),
- // = x otherwise.
- // To simplify the rounding decision and make it more efficient, we use
- // fma(x, -2^-25, x) instead.
- // An exhaustive test shows that this formula work correctly for all
- // rounding modes up to |x| < 0x1.c555dep-11f.
- // Note: to use the formula x - 2^-25*x to decide the correct rounding, we
- // do need fma(x, -2^-25, x) to prevent underflow caused by -2^-25*x when
- // |x| < 2^-125. For targets without FMA instructions, we simply use
- // double for intermediate results as it is more efficient than using an
- // emulated version of FMA.
-#if defined(LIBC_TARGET_CPU_HAS_FMA_FLOAT)
- return fputil::multiply_add(x, -0x1.0p-25f, x);
-#else
- return static_cast<float>(fputil::multiply_add(xd, -0x1.0p-25, xd));
-#endif // LIBC_TARGET_CPU_HAS_FMA_FLOAT
- }
-
- // |x| < pi/16.
- double xsq = xd * xd;
-
- // Degree-9 polynomial approximation:
- // sin(x) ~ x + a_3 x^3 + a_5 x^5 + a_7 x^7 + a_9 x^9
- // = x (1 + a_3 x^2 + ... + a_9 x^8)
- // = x * P(x^2)
- // generated by Sollya with the following commands:
- // > display = hexadecimal;
- // > Q = fpminimax(sin(x)/x, [|0, 2, 4, 6, 8|], [|1, D...|], [0, pi/16]);
- double result =
- fputil::polyeval(xsq, 1.0, -0x1.55555555554c6p-3, 0x1.1111111085e65p-7,
- -0x1.a019f70fb4d4fp-13, 0x1.718d179815e74p-19);
- return static_cast<float>(xd * result);
- }
-
-#ifndef LIBC_MATH_HAS_SKIP_ACCURATE_PASS
- if (LIBC_UNLIKELY(x_abs == 0x4619'9998U)) { // x = 0x1.33333p13
- float r = -0x1.63f4bap-2f;
- int rounding = fputil::quick_get_round();
- if ((rounding == FE_DOWNWARD && xbits.is_pos()) ||
- (rounding == FE_UPWARD && xbits.is_neg()))
- r = -0x1.63f4bcp-2f;
- return xbits.is_neg() ? -r : r;
- }
-#endif // !LIBC_MATH_HAS_SKIP_ACCURATE_PASS
-
- if (LIBC_UNLIKELY(x_abs >= 0x7f80'0000U)) {
- if (xbits.is_signaling_nan()) {
- fputil::raise_except_if_required(FE_INVALID);
- return FPBits::quiet_nan().get_val();
- }
-
- if (x_abs == 0x7f80'0000U) {
- fputil::set_errno_if_required(EDOM);
- fputil::raise_except_if_required(FE_INVALID);
- }
- return x + FPBits::quiet_nan().get_val();
- }
-
- // Combine the results with the sine of sum formula:
- // sin(x) = sin((k + y)*pi/32)
- // = sin(y*pi/32) * cos(k*pi/32) + cos(y*pi/32) * sin(k*pi/32)
- // = sin_y * cos_k + (1 + cosm1_y) * sin_k
- // = sin_y * cos_k + (cosm1_y * sin_k + sin_k)
- double sin_k, cos_k, sin_y, cosm1_y;
-
- sincosf_eval(xd, x_abs, sin_k, cos_k, sin_y, cosm1_y);
-
- return static_cast<float>(fputil::multiply_add(
- sin_y, cos_k, fputil::multiply_add(cosm1_y, sin_k, sin_k)));
-}
+LLVM_LIBC_FUNCTION(float, sinf, (float x)) { return math::sinf(x); }
} // namespace LIBC_NAMESPACE_DECL
-#endif // LIBC_MATH_HAS_INTERMEDIATE_COMP_IN_FLOAT
diff --git a/libc/test/shared/CMakeLists.txt b/libc/test/shared/CMakeLists.txt
index dabf5f6b168cc..e3c9fa097f638 100644
--- a/libc/test/shared/CMakeLists.txt
+++ b/libc/test/shared/CMakeLists.txt
@@ -82,4 +82,5 @@ add_fp_unittest(
libc.src.__support.math.sin
libc.src.__support.math.tan
libc.src.__support.math.tanf
+ libc.src.__support.math.sinf
)
diff --git a/libc/test/shared/shared_math_test.cpp b/libc/test/shared/shared_math_test.cpp
index cd389c41cb7b2..4c107d786d3a7 100644
--- a/libc/test/shared/shared_math_test.cpp
+++ b/libc/test/shared/shared_math_test.cpp
@@ -89,6 +89,7 @@ TEST(LlvmLibcSharedMathTest, AllFloat) {
EXPECT_EQ(long(0), LIBC_NAMESPACE::shared::llogbf(1.0f));
EXPECT_FP_EQ(0x0p+0f, LIBC_NAMESPACE::shared::logbf(1.0f));
EXPECT_FP_EQ(0x1p+0f, LIBC_NAMESPACE::shared::rsqrtf(1.0f));
+ EXPECT_FP_EQ(0.0f, LIBC_NAMESPACE::shared::sinf(0.0f));
EXPECT_FP_EQ(0.0f, LIBC_NAMESPACE::shared::tanf(0.0f));
}
diff --git a/utils/bazel/llvm-project-overlay/libc/BUILD.bazel b/utils/bazel/llvm-project-overlay/libc/BUILD.bazel
index 346864d2276c0..66e87df60135d 100644
--- a/utils/bazel/llvm-project-overlay/libc/BUILD.bazel
+++ b/utils/bazel/llvm-project-overlay/libc/BUILD.bazel
@@ -3455,6 +3455,20 @@ libc_support_library(
],
)
+libc_support_library(
+ name = "__support_math_sinf",
+ hdrs = ["src/__support/math/sinf.h"],
+ deps = [
+ ":__support_fputil_fma",
+ ":__support_fputil_polyeval",
+ ":__support_fputil_rounding_mode",
+ ":__support_macros_optimization",
+ ":__support_macros_properties_cpu_features",
+ ":__support_range_reduction",
+ ":__support_sincosf_utils",
+ ],
+)
+
libc_support_library(
name = "__support_math_sinhfcoshf_utils",
hdrs = ["src/__support/math/sinhfcoshf_utils.h"],
@@ -5058,13 +5072,7 @@ libc_math_function(
libc_math_function(
name = "sinf",
additional_deps = [
- ":__support_fputil_fma",
- ":__support_fputil_polyeval",
- ":__support_fputil_rounding_mode",
- ":__support_macros_optimization",
- ":__support_macros_properties_cpu_features",
- ":__support_range_reduction",
- ":__support_sincosf_utils",
+ ":__support_math_sinf",
],
)
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