[libc-commits] [libc] 213c498 - [reland][libc][NFC] Implement `FPBits` in terms of `FloatProperties` to reduce clutter (#75196) (#75318)
via libc-commits
libc-commits at lists.llvm.org
Wed Dec 13 03:22:06 PST 2023
Author: Guillaume Chatelet
Date: 2023-12-13T12:22:02+01:00
New Revision: 213c49807fcfbdac2543b1ce16c9ca3ccf81e6fc
URL: https://github.com/llvm/llvm-project/commit/213c49807fcfbdac2543b1ce16c9ca3ccf81e6fc
DIFF: https://github.com/llvm/llvm-project/commit/213c49807fcfbdac2543b1ce16c9ca3ccf81e6fc.diff
LOG: [reland][libc][NFC] Implement `FPBits` in terms of `FloatProperties` to reduce clutter (#75196) (#75318)
Also make type naming consistent by using `UIntType` instead of
`intU_t`.
This patch is a reland of #75196 but does not include the "use `FPBits`
instead of `FPBits_t`, `FPB`" part. This needs more work.
Added:
Modified:
libc/src/__support/FPUtil/FPBits.h
libc/src/__support/FPUtil/generic/FMod.h
libc/src/__support/FPUtil/x86_64/LongDoubleBits.h
libc/src/__support/str_to_float.h
libc/src/math/generic/acoshf.cpp
libc/src/math/generic/asinhf.cpp
libc/src/math/generic/atanhf.cpp
libc/src/math/generic/erff.cpp
libc/src/math/generic/explogxf.h
libc/src/math/generic/inv_trigf_utils.h
libc/src/math/generic/log1p.cpp
libc/src/math/generic/sinhf.cpp
libc/src/math/generic/tanhf.cpp
Removed:
################################################################################
diff --git a/libc/src/__support/FPUtil/FPBits.h b/libc/src/__support/FPUtil/FPBits.h
index 65c53921181a73..bef166e14d72b2 100644
--- a/libc/src/__support/FPUtil/FPBits.h
+++ b/libc/src/__support/FPUtil/FPBits.h
@@ -36,71 +36,74 @@ template <typename T> struct ExponentWidth {
// floating numbers. On x86 platforms however, the 'long double' type maps to
// an x87 floating point format. This format is an IEEE 754 extension format.
// It is handled as an explicit specialization of this class.
-template <typename T> struct FPBits {
+template <typename T> struct FPBits : private FloatProperties<T> {
static_assert(cpp::is_floating_point_v<T>,
"FPBits instantiated with invalid type.");
+ using typename FloatProperties<T>::UIntType;
+ using FloatProperties<T>::BIT_WIDTH;
+ using FloatProperties<T>::EXP_MANT_MASK;
+ using FloatProperties<T>::EXPONENT_MASK;
+ using FloatProperties<T>::EXPONENT_BIAS;
+ using FloatProperties<T>::EXPONENT_WIDTH;
+ using FloatProperties<T>::MANTISSA_MASK;
+ using FloatProperties<T>::MANTISSA_WIDTH;
+ using FloatProperties<T>::QUIET_NAN_MASK;
+ using FloatProperties<T>::SIGN_MASK;
// Reinterpreting bits as an integer value and interpreting the bits of an
// integer value as a floating point value is used in tests. So, a convenient
// type is provided for such reinterpretations.
- using FloatProp = FloatProperties<T>;
- using UIntType = typename FloatProp::UIntType;
-
UIntType bits;
LIBC_INLINE constexpr void set_mantissa(UIntType mantVal) {
- mantVal &= (FloatProp::MANTISSA_MASK);
- bits &= ~(FloatProp::MANTISSA_MASK);
+ mantVal &= MANTISSA_MASK;
+ bits &= ~MANTISSA_MASK;
bits |= mantVal;
}
LIBC_INLINE constexpr UIntType get_mantissa() const {
- return bits & FloatProp::MANTISSA_MASK;
+ return bits & MANTISSA_MASK;
}
LIBC_INLINE constexpr void set_biased_exponent(UIntType expVal) {
- expVal = (expVal << (FloatProp::MANTISSA_WIDTH)) & FloatProp::EXPONENT_MASK;
- bits &= ~(FloatProp::EXPONENT_MASK);
+ expVal = (expVal << MANTISSA_WIDTH) & EXPONENT_MASK;
+ bits &= ~EXPONENT_MASK;
bits |= expVal;
}
LIBC_INLINE constexpr uint16_t get_biased_exponent() const {
- return uint16_t((bits & FloatProp::EXPONENT_MASK) >>
- (FloatProp::MANTISSA_WIDTH));
+ return uint16_t((bits & EXPONENT_MASK) >> MANTISSA_WIDTH);
}
// The function return mantissa with the implicit bit set iff the current
// value is a valid normal number.
LIBC_INLINE constexpr UIntType get_explicit_mantissa() {
return ((get_biased_exponent() > 0 && !is_inf_or_nan())
- ? (FloatProp::MANTISSA_MASK + 1)
+ ? (MANTISSA_MASK + 1)
: 0) |
- (FloatProp::MANTISSA_MASK & bits);
+ (MANTISSA_MASK & bits);
}
LIBC_INLINE constexpr void set_sign(bool signVal) {
- bits |= FloatProp::SIGN_MASK;
+ bits |= SIGN_MASK;
if (!signVal)
- bits -= FloatProp::SIGN_MASK;
+ bits -= SIGN_MASK;
}
LIBC_INLINE constexpr bool get_sign() const {
- return (bits & FloatProp::SIGN_MASK) != 0;
+ return (bits & SIGN_MASK) != 0;
}
static_assert(sizeof(T) == sizeof(UIntType),
"Data type and integral representation have
diff erent sizes.");
- static constexpr int EXPONENT_BIAS = (1 << (ExponentWidth<T>::VALUE - 1)) - 1;
- static constexpr int MAX_EXPONENT = (1 << ExponentWidth<T>::VALUE) - 1;
+ static constexpr int MAX_EXPONENT = (1 << EXPONENT_WIDTH) - 1;
static constexpr UIntType MIN_SUBNORMAL = UIntType(1);
- static constexpr UIntType MAX_SUBNORMAL =
- (UIntType(1) << MantissaWidth<T>::VALUE) - 1;
- static constexpr UIntType MIN_NORMAL =
- (UIntType(1) << MantissaWidth<T>::VALUE);
+ static constexpr UIntType MAX_SUBNORMAL = (UIntType(1) << MANTISSA_WIDTH) - 1;
+ static constexpr UIntType MIN_NORMAL = (UIntType(1) << MANTISSA_WIDTH);
static constexpr UIntType MAX_NORMAL =
- ((UIntType(MAX_EXPONENT) - 1) << MantissaWidth<T>::VALUE) | MAX_SUBNORMAL;
+ ((UIntType(MAX_EXPONENT) - 1) << MANTISSA_WIDTH) | MAX_SUBNORMAL;
// We don't want accidental type promotions/conversions, so we require exact
// type match.
@@ -151,32 +154,29 @@ template <typename T> struct FPBits {
}
LIBC_INLINE constexpr bool is_inf() const {
- return (bits & FloatProp::EXP_MANT_MASK) == FloatProp::EXPONENT_MASK;
+ return (bits & EXP_MANT_MASK) == EXPONENT_MASK;
}
LIBC_INLINE constexpr bool is_nan() const {
- return (bits & FloatProp::EXP_MANT_MASK) > FloatProp::EXPONENT_MASK;
+ return (bits & EXP_MANT_MASK) > EXPONENT_MASK;
}
LIBC_INLINE constexpr bool is_quiet_nan() const {
- return (bits & FloatProp::EXP_MANT_MASK) ==
- (FloatProp::EXPONENT_MASK | FloatProp::QUIET_NAN_MASK);
+ return (bits & EXP_MANT_MASK) == (EXPONENT_MASK | QUIET_NAN_MASK);
}
LIBC_INLINE constexpr bool is_inf_or_nan() const {
- return (bits & FloatProp::EXPONENT_MASK) == FloatProp::EXPONENT_MASK;
+ return (bits & EXPONENT_MASK) == EXPONENT_MASK;
}
LIBC_INLINE static constexpr T zero(bool sign = false) {
- return FPBits(sign ? FloatProp::SIGN_MASK : UIntType(0)).get_val();
+ return FPBits(sign ? SIGN_MASK : UIntType(0)).get_val();
}
LIBC_INLINE static constexpr T neg_zero() { return zero(true); }
LIBC_INLINE static constexpr T inf(bool sign = false) {
- return FPBits((sign ? FloatProp::SIGN_MASK : UIntType(0)) |
- FloatProp::EXPONENT_MASK)
- .get_val();
+ return FPBits((sign ? SIGN_MASK : UIntType(0)) | EXPONENT_MASK).get_val();
}
LIBC_INLINE static constexpr T neg_inf() { return inf(true); }
@@ -204,7 +204,7 @@ template <typename T> struct FPBits {
}
LIBC_INLINE static constexpr T build_quiet_nan(UIntType v) {
- return build_nan(FloatProp::QUIET_NAN_MASK | v);
+ return build_nan(QUIET_NAN_MASK | v);
}
// The function convert integer number and unbiased exponent to proper float
@@ -220,7 +220,7 @@ template <typename T> struct FPBits {
LIBC_INLINE static constexpr FPBits<T> make_value(UIntType number, int ep) {
FPBits<T> result;
// offset: +1 for sign, but -1 for implicit first bit
- int lz = cpp::countl_zero(number) - FloatProp::EXPONENT_WIDTH;
+ int lz = cpp::countl_zero(number) - EXPONENT_WIDTH;
number <<= lz;
ep -= lz;
diff --git a/libc/src/__support/FPUtil/generic/FMod.h b/libc/src/__support/FPUtil/generic/FMod.h
index 7502660c88a133..f30586f9d7f341 100644
--- a/libc/src/__support/FPUtil/generic/FMod.h
+++ b/libc/src/__support/FPUtil/generic/FMod.h
@@ -167,11 +167,11 @@ template <typename T> struct FModFastMathWrapper {
template <typename T> class FModDivisionSimpleHelper {
private:
- using intU_t = typename FPBits<T>::UIntType;
+ using UIntType = typename FPBits<T>::UIntType;
public:
- LIBC_INLINE constexpr static intU_t
- execute(int exp_
diff , int sides_zeroes_count, intU_t m_x, intU_t m_y) {
+ LIBC_INLINE constexpr static UIntType
+ execute(int exp_
diff , int sides_zeroes_count, UIntType m_x, UIntType m_y) {
while (exp_
diff > sides_zeroes_count) {
exp_
diff -= sides_zeroes_count;
m_x <<= sides_zeroes_count;
@@ -186,23 +186,22 @@ template <typename T> class FModDivisionSimpleHelper {
template <typename T> class FModDivisionInvMultHelper {
private:
using FPB = FPBits<T>;
- using intU_t = typename FPB::UIntType;
+ using UIntType = typename FPB::UIntType;
public:
- LIBC_INLINE constexpr static intU_t
- execute(int exp_
diff , int sides_zeroes_count, intU_t m_x, intU_t m_y) {
+ LIBC_INLINE constexpr static UIntType
+ execute(int exp_
diff , int sides_zeroes_count, UIntType m_x, UIntType m_y) {
if (exp_
diff > sides_zeroes_count) {
- intU_t inv_hy = (cpp::numeric_limits<intU_t>::max() / m_y);
+ UIntType inv_hy = (cpp::numeric_limits<UIntType>::max() / m_y);
while (exp_
diff > sides_zeroes_count) {
exp_
diff -= sides_zeroes_count;
- intU_t hd =
- (m_x * inv_hy) >> (FPB::FloatProp::BIT_WIDTH - sides_zeroes_count);
+ UIntType hd = (m_x * inv_hy) >> (FPB::BIT_WIDTH - sides_zeroes_count);
m_x <<= sides_zeroes_count;
m_x -= hd * m_y;
while (LIBC_UNLIKELY(m_x > m_y))
m_x -= m_y;
}
- intU_t hd = (m_x * inv_hy) >> (FPB::FloatProp::BIT_WIDTH - exp_
diff );
+ UIntType hd = (m_x * inv_hy) >> (FPB::BIT_WIDTH - exp_
diff );
m_x <<= exp_
diff ;
m_x -= hd * m_y;
while (LIBC_UNLIKELY(m_x > m_y))
@@ -223,7 +222,7 @@ class FMod {
private:
using FPB = FPBits<T>;
- using intU_t = typename FPB::UIntType;
+ using UIntType = typename FPB::UIntType;
LIBC_INLINE static constexpr FPB eval_internal(FPB sx, FPB sy) {
@@ -237,11 +236,11 @@ class FMod {
int e_y = sy.get_biased_exponent();
// Most common case where |y| is "very normal" and |x/y| < 2^EXPONENT_WIDTH
- if (LIBC_LIKELY(e_y > int(FPB::FloatProp::MANTISSA_WIDTH) &&
- e_x - e_y <= int(FPB::FloatProp::EXPONENT_WIDTH))) {
- intU_t m_x = sx.get_explicit_mantissa();
- intU_t m_y = sy.get_explicit_mantissa();
- intU_t d = (e_x == e_y) ? (m_x - m_y) : (m_x << (e_x - e_y)) % m_y;
+ if (LIBC_LIKELY(e_y > int(FPB::MANTISSA_WIDTH) &&
+ e_x - e_y <= int(FPB::EXPONENT_WIDTH))) {
+ UIntType m_x = sx.get_explicit_mantissa();
+ UIntType m_y = sy.get_explicit_mantissa();
+ UIntType d = (e_x == e_y) ? (m_x - m_y) : (m_x << (e_x - e_y)) % m_y;
if (d == 0)
return FPB(FPB::zero());
// iy - 1 because of "zero power" for number with power 1
@@ -255,11 +254,11 @@ class FMod {
}
// Note that hx is not subnormal by conditions above.
- intU_t m_x = sx.get_explicit_mantissa();
+ UIntType m_x = sx.get_explicit_mantissa();
e_x--;
- intU_t m_y = sy.get_explicit_mantissa();
- int lead_zeros_m_y = FPB::FloatProp::EXPONENT_WIDTH;
+ UIntType m_y = sy.get_explicit_mantissa();
+ int lead_zeros_m_y = FPB::EXPONENT_WIDTH;
if (LIBC_LIKELY(e_y > 0)) {
e_y--;
} else {
@@ -282,9 +281,8 @@ class FMod {
{
// Shift hx left until the end or n = 0
- int left_shift = exp_
diff < int(FPB::FloatProp::EXPONENT_WIDTH)
- ? exp_
diff
- : FPB::FloatProp::EXPONENT_WIDTH;
+ int left_shift =
+ exp_
diff < int(FPB::EXPONENT_WIDTH) ? exp_
diff : FPB::EXPONENT_WIDTH;
m_x <<= left_shift;
exp_
diff -= left_shift;
}
diff --git a/libc/src/__support/FPUtil/x86_64/LongDoubleBits.h b/libc/src/__support/FPUtil/x86_64/LongDoubleBits.h
index f1ef928f230819..f682f171bcab63 100644
--- a/libc/src/__support/FPUtil/x86_64/LongDoubleBits.h
+++ b/libc/src/__support/FPUtil/x86_64/LongDoubleBits.h
@@ -26,10 +26,18 @@
namespace LIBC_NAMESPACE {
namespace fputil {
-template <> struct FPBits<long double> {
- using UIntType = UInt128;
+template <> struct FPBits<long double> : private FloatProperties<long double> {
+ using typename FloatProperties<long double>::UIntType;
+ using FloatProperties<long double>::BIT_WIDTH;
+ using FloatProperties<long double>::EXP_MANT_MASK;
+ using FloatProperties<long double>::EXPONENT_MASK;
+ using FloatProperties<long double>::EXPONENT_BIAS;
+ using FloatProperties<long double>::EXPONENT_WIDTH;
+ using FloatProperties<long double>::MANTISSA_MASK;
+ using FloatProperties<long double>::MANTISSA_WIDTH;
+ using FloatProperties<long double>::QUIET_NAN_MASK;
+ using FloatProperties<long double>::SIGN_MASK;
- static constexpr int EXPONENT_BIAS = 0x3FFF;
static constexpr int MAX_EXPONENT = 0x7FFF;
static constexpr UIntType MIN_SUBNORMAL = UIntType(1);
// Subnormal numbers include the implicit bit in x86 long double formats.
@@ -41,59 +49,52 @@ template <> struct FPBits<long double> {
(UIntType(MAX_EXPONENT - 1) << (MantissaWidth<long double>::VALUE + 1)) |
(UIntType(1) << MantissaWidth<long double>::VALUE) | MAX_SUBNORMAL;
- using FloatProp = FloatProperties<long double>;
-
UIntType bits;
LIBC_INLINE constexpr void set_mantissa(UIntType mantVal) {
- mantVal &= (FloatProp::MANTISSA_MASK);
- bits &= ~(FloatProp::MANTISSA_MASK);
+ mantVal &= MANTISSA_MASK;
+ bits &= ~MANTISSA_MASK;
bits |= mantVal;
}
LIBC_INLINE constexpr UIntType get_mantissa() const {
- return bits & FloatProp::MANTISSA_MASK;
+ return bits & MANTISSA_MASK;
}
LIBC_INLINE constexpr UIntType get_explicit_mantissa() const {
// The x86 80 bit float represents the leading digit of the mantissa
// explicitly. This is the mask for that bit.
- constexpr UIntType EXPLICIT_BIT_MASK =
- (UIntType(1) << FloatProp::MANTISSA_WIDTH);
- return bits & (FloatProp::MANTISSA_MASK | EXPLICIT_BIT_MASK);
+ constexpr UIntType EXPLICIT_BIT_MASK = UIntType(1) << MANTISSA_WIDTH;
+ return bits & (MANTISSA_MASK | EXPLICIT_BIT_MASK);
}
LIBC_INLINE constexpr void set_biased_exponent(UIntType expVal) {
- expVal =
- (expVal << (FloatProp::BIT_WIDTH - 1 - FloatProp::EXPONENT_WIDTH)) &
- FloatProp::EXPONENT_MASK;
- bits &= ~(FloatProp::EXPONENT_MASK);
+ expVal = (expVal << (BIT_WIDTH - 1 - EXPONENT_WIDTH)) & EXPONENT_MASK;
+ bits &= ~EXPONENT_MASK;
bits |= expVal;
}
LIBC_INLINE constexpr uint16_t get_biased_exponent() const {
- return uint16_t((bits & FloatProp::EXPONENT_MASK) >>
- (FloatProp::BIT_WIDTH - 1 - FloatProp::EXPONENT_WIDTH));
+ return uint16_t((bits & EXPONENT_MASK) >> (BIT_WIDTH - 1 - EXPONENT_WIDTH));
}
LIBC_INLINE constexpr void set_implicit_bit(bool implicitVal) {
- bits &= ~(UIntType(1) << FloatProp::MANTISSA_WIDTH);
- bits |= (UIntType(implicitVal) << FloatProp::MANTISSA_WIDTH);
+ bits &= ~(UIntType(1) << MANTISSA_WIDTH);
+ bits |= (UIntType(implicitVal) << MANTISSA_WIDTH);
}
LIBC_INLINE constexpr bool get_implicit_bit() const {
- return bool((bits & (UIntType(1) << FloatProp::MANTISSA_WIDTH)) >>
- FloatProp::MANTISSA_WIDTH);
+ return bool((bits & (UIntType(1) << MANTISSA_WIDTH)) >> MANTISSA_WIDTH);
}
LIBC_INLINE constexpr void set_sign(bool signVal) {
- bits &= ~(FloatProp::SIGN_MASK);
- UIntType sign1 = UIntType(signVal) << (FloatProp::BIT_WIDTH - 1);
+ bits &= ~SIGN_MASK;
+ UIntType sign1 = UIntType(signVal) << (BIT_WIDTH - 1);
bits |= sign1;
}
LIBC_INLINE constexpr bool get_sign() const {
- return bool((bits & FloatProp::SIGN_MASK) >> (FloatProp::BIT_WIDTH - 1));
+ return bool((bits & SIGN_MASK) >> (BIT_WIDTH - 1));
}
LIBC_INLINE constexpr FPBits() : bits(0) {}
@@ -117,7 +118,7 @@ template <> struct FPBits<long double> {
LIBC_INLINE constexpr UIntType uintval() {
// We zero the padding bits as they can contain garbage.
- return bits & FloatProp::FP_MASK;
+ return bits & FP_MASK;
}
LIBC_INLINE constexpr long double get_val() const {
@@ -196,7 +197,7 @@ template <> struct FPBits<long double> {
}
LIBC_INLINE static constexpr long double build_quiet_nan(UIntType v) {
- return build_nan(FloatProp::QUIET_NAN_MASK | v);
+ return build_nan(QUIET_NAN_MASK | v);
}
LIBC_INLINE static constexpr long double min_normal() {
diff --git a/libc/src/__support/str_to_float.h b/libc/src/__support/str_to_float.h
index 2a6f15c018f1ec..3807d3ff572162 100644
--- a/libc/src/__support/str_to_float.h
+++ b/libc/src/__support/str_to_float.h
@@ -71,7 +71,7 @@ LIBC_INLINE cpp::optional<ExpandedFloat<T>>
eisel_lemire(ExpandedFloat<T> init_num,
RoundDirection round = RoundDirection::Nearest) {
using FPBits = typename fputil::FPBits<T>;
- using FloatProp = typename FPBits::FloatProp;
+ using FloatProp = typename fputil::FloatProperties<T>;
using UIntType = typename FPBits::UIntType;
UIntType mantissa = init_num.mantissa;
@@ -184,7 +184,7 @@ LIBC_INLINE cpp::optional<ExpandedFloat<long double>>
eisel_lemire<long double>(ExpandedFloat<long double> init_num,
RoundDirection round) {
using FPBits = typename fputil::FPBits<long double>;
- using FloatProp = typename FPBits::FloatProp;
+ using FloatProp = typename fputil::FloatProperties<long double>;
using UIntType = typename FPBits::UIntType;
UIntType mantissa = init_num.mantissa;
@@ -322,7 +322,7 @@ LIBC_INLINE FloatConvertReturn<T>
simple_decimal_conversion(const char *__restrict numStart,
RoundDirection round = RoundDirection::Nearest) {
using FPBits = typename fputil::FPBits<T>;
- using FloatProp = typename FPBits::FloatProp;
+ using FloatProp = typename fputil::FloatProperties<T>;
using UIntType = typename FPBits::UIntType;
int32_t exp2 = 0;
@@ -516,7 +516,7 @@ LIBC_INLINE cpp::optional<ExpandedFloat<T>>
clinger_fast_path(ExpandedFloat<T> init_num,
RoundDirection round = RoundDirection::Nearest) {
using FPBits = typename fputil::FPBits<T>;
- using FloatProp = typename FPBits::FloatProp;
+ using FloatProp = typename fputil::FloatProperties<T>;
using UIntType = typename FPBits::UIntType;
UIntType mantissa = init_num.mantissa;
@@ -724,7 +724,7 @@ LIBC_INLINE FloatConvertReturn<T> binary_exp_to_float(ExpandedFloat<T> init_num,
bool truncated,
RoundDirection round) {
using FPBits = typename fputil::FPBits<T>;
- using FloatProp = typename FPBits::FloatProp;
+ using FloatProp = typename fputil::FloatProperties<T>;
using UIntType = typename FPBits::UIntType;
UIntType mantissa = init_num.mantissa;
diff --git a/libc/src/math/generic/acoshf.cpp b/libc/src/math/generic/acoshf.cpp
index 9438be1bee74eb..142c17795d083a 100644
--- a/libc/src/math/generic/acoshf.cpp
+++ b/libc/src/math/generic/acoshf.cpp
@@ -34,7 +34,7 @@ LLVM_LIBC_FUNCTION(float, acoshf, (float x)) {
if (LIBC_UNLIKELY(x_u >= 0x4f8ffb03)) {
// Check for exceptional values.
- uint32_t x_abs = x_u & FPBits_t::FloatProp::EXP_MANT_MASK;
+ uint32_t x_abs = x_u & FPBits_t::EXP_MANT_MASK;
if (LIBC_UNLIKELY(x_abs >= 0x7f80'0000U)) {
// x is +inf or NaN.
return x;
diff --git a/libc/src/math/generic/asinhf.cpp b/libc/src/math/generic/asinhf.cpp
index 6bde08d42a429c..5b2f63d3fe144e 100644
--- a/libc/src/math/generic/asinhf.cpp
+++ b/libc/src/math/generic/asinhf.cpp
@@ -21,7 +21,7 @@ LLVM_LIBC_FUNCTION(float, asinhf, (float x)) {
using FPBits_t = typename fputil::FPBits<float>;
FPBits_t xbits(x);
uint32_t x_u = xbits.uintval();
- uint32_t x_abs = x_u & FPBits_t::FloatProp::EXP_MANT_MASK;
+ uint32_t x_abs = x_u & FPBits_t::EXP_MANT_MASK;
// |x| <= 2^-3
if (LIBC_UNLIKELY(x_abs <= 0x3e80'0000U)) {
diff --git a/libc/src/math/generic/atanhf.cpp b/libc/src/math/generic/atanhf.cpp
index 839ef5b076ac35..dfec28e9a44a72 100644
--- a/libc/src/math/generic/atanhf.cpp
+++ b/libc/src/math/generic/atanhf.cpp
@@ -17,7 +17,7 @@ LLVM_LIBC_FUNCTION(float, atanhf, (float x)) {
using FPBits = typename fputil::FPBits<float>;
FPBits xbits(x);
bool sign = xbits.get_sign();
- uint32_t x_abs = xbits.uintval() & FPBits::FloatProp::EXP_MANT_MASK;
+ uint32_t x_abs = xbits.uintval() & FPBits::EXP_MANT_MASK;
// |x| >= 1.0
if (LIBC_UNLIKELY(x_abs >= 0x3F80'0000U)) {
diff --git a/libc/src/math/generic/erff.cpp b/libc/src/math/generic/erff.cpp
index a7b0897c3b58cb..d63fb8e31384d2 100644
--- a/libc/src/math/generic/erff.cpp
+++ b/libc/src/math/generic/erff.cpp
@@ -154,7 +154,7 @@ LLVM_LIBC_FUNCTION(float, erff, (float x)) {
double xd = static_cast<double>(x);
double xsq = xd * xd;
- const uint32_t EIGHT = 3 << FPBits::FloatProp::MANTISSA_WIDTH;
+ const uint32_t EIGHT = 3 << FPBits::MANTISSA_WIDTH;
int idx = static_cast<int>(FPBits(x_abs + EIGHT).get_val());
double x4 = xsq * xsq;
diff --git a/libc/src/math/generic/explogxf.h b/libc/src/math/generic/explogxf.h
index 77ec9cb94e0854..3dae5af068b4b0 100644
--- a/libc/src/math/generic/explogxf.h
+++ b/libc/src/math/generic/explogxf.h
@@ -280,12 +280,11 @@ LIBC_INLINE static double log2_eval(double x) {
double result = 0;
result += bs.get_exponent();
- int p1 =
- (bs.get_mantissa() >> (FPB::FloatProp::MANTISSA_WIDTH - LOG_P1_BITS)) &
- (LOG_P1_SIZE - 1);
+ int p1 = (bs.get_mantissa() >> (FPB::MANTISSA_WIDTH - LOG_P1_BITS)) &
+ (LOG_P1_SIZE - 1);
- bs.bits &= FPB::FloatProp::MANTISSA_MASK >> LOG_P1_BITS;
- bs.set_biased_exponent(FPB::FloatProp::EXPONENT_BIAS);
+ bs.bits &= FPB::MANTISSA_MASK >> LOG_P1_BITS;
+ bs.set_biased_exponent(FPB::EXPONENT_BIAS);
double dx = (bs.get_val() - 1.0) * LOG_P1_1_OVER[p1];
// Taylor series for log(2,1+x)
@@ -311,12 +310,11 @@ LIBC_INLINE static double log_eval(double x) {
// p1 is the leading 7 bits of mx, i.e.
// p1 * 2^(-7) <= m_x < (p1 + 1) * 2^(-7).
- int p1 = static_cast<int>(bs.get_mantissa() >>
- (FPB::FloatProp::MANTISSA_WIDTH - 7));
+ int p1 = static_cast<int>(bs.get_mantissa() >> (FPB::MANTISSA_WIDTH - 7));
// Set bs to (1 + (mx - p1*2^(-7))
- bs.bits &= FPB::FloatProp::MANTISSA_MASK >> 7;
- bs.set_biased_exponent(FPB::FloatProp::EXPONENT_BIAS);
+ bs.bits &= FPB::MANTISSA_MASK >> 7;
+ bs.set_biased_exponent(FPB::EXPONENT_BIAS);
// dx = (mx - p1*2^(-7)) / (1 + p1*2^(-7)).
double dx = (bs.get_val() - 1.0) * ONE_OVER_F[p1];
diff --git a/libc/src/math/generic/inv_trigf_utils.h b/libc/src/math/generic/inv_trigf_utils.h
index c88ded20b5bf24..2ecd033ecbed6d 100644
--- a/libc/src/math/generic/inv_trigf_utils.h
+++ b/libc/src/math/generic/inv_trigf_utils.h
@@ -51,7 +51,7 @@ LIBC_INLINE double atan_eval(double x) {
FPB bs(x);
bool sign = bs.get_sign();
- auto x_abs = bs.uintval() & FPB::FloatProp::EXP_MANT_MASK;
+ auto x_abs = bs.uintval() & FPB::EXP_MANT_MASK;
if (x_abs <= umin) {
double pe = LIBC_NAMESPACE::fputil::polyeval(
@@ -64,7 +64,8 @@ LIBC_INLINE double atan_eval(double x) {
double one_over_x2 = one_over_x_m * one_over_x_m;
double pe = LIBC_NAMESPACE::fputil::polyeval(
one_over_x2, ATAN_K[0], ATAN_K[1], ATAN_K[2], ATAN_K[3]);
- return fputil::multiply_add(pe, one_over_x_m, sign ? (-M_MATH_PI_2) : (M_MATH_PI_2));
+ return fputil::multiply_add(pe, one_over_x_m,
+ sign ? (-M_MATH_PI_2) : (M_MATH_PI_2));
}
double pos_x = FPB(x_abs).get_val();
diff --git a/libc/src/math/generic/log1p.cpp b/libc/src/math/generic/log1p.cpp
index c8b45fd57b42f8..757f2793cb9cf7 100644
--- a/libc/src/math/generic/log1p.cpp
+++ b/libc/src/math/generic/log1p.cpp
@@ -873,8 +873,8 @@ LIBC_INLINE double log1p_accurate(int e_x, int index,
LLVM_LIBC_FUNCTION(double, log1p, (double x)) {
using FPBits_t = typename fputil::FPBits<double>;
constexpr int EXPONENT_BIAS = FPBits_t::EXPONENT_BIAS;
- constexpr int MANTISSA_WIDTH = FPBits_t::FloatProp::MANTISSA_WIDTH;
- constexpr uint64_t MANTISSA_MASK = FPBits_t::FloatProp::MANTISSA_MASK;
+ constexpr int MANTISSA_WIDTH = FPBits_t::MANTISSA_WIDTH;
+ constexpr uint64_t MANTISSA_MASK = FPBits_t::MANTISSA_MASK;
FPBits_t xbits(x);
uint64_t x_u = xbits.uintval();
@@ -969,7 +969,7 @@ LLVM_LIBC_FUNCTION(double, log1p, (double x)) {
// Scaling factior = 2^(-xh_bits.get_exponent())
uint64_t s_u =
(static_cast<uint64_t>(EXPONENT_BIAS) << (MANTISSA_WIDTH + 1)) -
- (x_u & FPBits_t::FloatProp::EXPONENT_MASK);
+ (x_u & FPBits_t::EXPONENT_MASK);
// When the exponent of x is 2^1023, its inverse, 2^(-1023), is subnormal.
const double EXPONENT_CORRECTION[2] = {0.0, 0x1.0p-1023};
double scaling = FPBits_t(s_u).get_val() + EXPONENT_CORRECTION[s_u == 0];
diff --git a/libc/src/math/generic/sinhf.cpp b/libc/src/math/generic/sinhf.cpp
index 2f48ddbc0f88d3..db6794620b068c 100644
--- a/libc/src/math/generic/sinhf.cpp
+++ b/libc/src/math/generic/sinhf.cpp
@@ -17,7 +17,7 @@ namespace LIBC_NAMESPACE {
LLVM_LIBC_FUNCTION(float, sinhf, (float x)) {
using FPBits = typename fputil::FPBits<float>;
FPBits xbits(x);
- uint32_t x_abs = xbits.uintval() & FPBits::FloatProp::EXP_MANT_MASK;
+ uint32_t x_abs = xbits.uintval() & FPBits::EXP_MANT_MASK;
// When |x| >= 90, or x is inf or nan
if (LIBC_UNLIKELY(x_abs >= 0x42b4'0000U || x_abs <= 0x3da0'0000U)) {
@@ -57,8 +57,7 @@ LLVM_LIBC_FUNCTION(float, sinhf, (float x)) {
int rounding = fputil::quick_get_round();
if (sign) {
if (LIBC_UNLIKELY(rounding == FE_UPWARD || rounding == FE_TOWARDZERO))
- return FPBits(FPBits::MAX_NORMAL | FPBits::FloatProp::SIGN_MASK)
- .get_val();
+ return FPBits(FPBits::MAX_NORMAL | FPBits::SIGN_MASK).get_val();
} else {
if (LIBC_UNLIKELY(rounding == FE_DOWNWARD || rounding == FE_TOWARDZERO))
return FPBits(FPBits::MAX_NORMAL).get_val();
diff --git a/libc/src/math/generic/tanhf.cpp b/libc/src/math/generic/tanhf.cpp
index 7d9f86cf9044b2..a0046d3dabc62d 100644
--- a/libc/src/math/generic/tanhf.cpp
+++ b/libc/src/math/generic/tanhf.cpp
@@ -24,7 +24,7 @@ LLVM_LIBC_FUNCTION(float, tanhf, (float x)) {
using FPBits = typename fputil::FPBits<float>;
FPBits xbits(x);
uint32_t x_u = xbits.uintval();
- uint32_t x_abs = x_u & FPBits::FloatProp::EXP_MANT_MASK;
+ uint32_t x_abs = x_u & FPBits::EXP_MANT_MASK;
// When |x| >= 15, or x is inf or nan, or |x| <= 0.078125
if (LIBC_UNLIKELY((x_abs >= 0x4170'0000U) || (x_abs <= 0x3da0'0000U))) {
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