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ðŸ“„ __clang_cuda_cmath.h(18.06 KB)
ðŸ“„ __clang_cuda_complex_builtins.h(9.36 KB)
ðŸ“„ __clang_cuda_device_functions.h(56.68 KB)
ðŸ“„ __clang_cuda_intrinsics.h(29.93 KB)
ðŸ“„ __clang_cuda_libdevice_declares.h(21.87 KB)
ðŸ“„ __clang_cuda_math.h(15.99 KB)
ðŸ“„ __clang_cuda_math_forward_declares.h(8.27 KB)
ðŸ“„ __clang_cuda_runtime_wrapper.h(17.61 KB)
ðŸ“„ __clang_cuda_texture_intrinsics.h(31.86 KB)
ðŸ“„ __clang_hip_cmath.h(26.34 KB)
ðŸ“„ __clang_hip_libdevice_declares.h(19.87 KB)
ðŸ“„ __clang_hip_math.h(31.96 KB)
ðŸ“„ __clang_hip_runtime_wrapper.h(4.65 KB)
ðŸ“„ __clang_hip_stdlib.h(1.19 KB)
ðŸ“„ __stddef_max_align_t.h(857 B)
ðŸ“„ __wmmintrin_aes.h(5.15 KB)
ðŸ“„ __wmmintrin_pclmul.h(1.99 KB)
ðŸ“„ adxintrin.h(7.37 KB)
ðŸ“„ altivec.h(697.32 KB)
ðŸ“„ ammintrin.h(7.54 KB)
ðŸ“„ amxcomplexintrin.h(6.81 KB)
ðŸ“„ amxfp16intrin.h(1.82 KB)
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ðŸ“„ arm64intr.h(993 B)
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ðŸ“„ arm_sme_draft_spec_subject_to_change.h(60.2 KB)
ðŸ“„ arm_sve.h(1.51 MB)
ðŸ“„ armintr.h(843 B)
ðŸ“„ avx2intrin.h(186.96 KB)
ðŸ“„ avx512bf16intrin.h(10.51 KB)
ðŸ“„ avx512bitalgintrin.h(2.41 KB)
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ðŸ“„ avx512cdintrin.h(4.12 KB)
ðŸ“„ avx512dqintrin.h(58.75 KB)
ðŸ“„ avx512erintrin.h(11.83 KB)
ðŸ“„ avx512fintrin.h(382.64 KB)
ðŸ“„ avx512fp16intrin.h(156.63 KB)
ðŸ“„ avx512ifmaintrin.h(2.49 KB)
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ðŸ“„ avx512vlbf16intrin.h(19.21 KB)
ðŸ“„ avx512vlbitalgintrin.h(4.23 KB)
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ðŸ“„ avx512vlcdintrin.h(7.66 KB)
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ðŸ“„ avx512vlfp16intrin.h(85.51 KB)
ðŸ“„ avx512vlintrin.h(322.29 KB)
ðŸ“„ avx512vlvbmi2intrin.h(25.72 KB)
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ðŸ“„ avx512vlvp2intersectintrin.h(4.44 KB)
ðŸ“„ avx512vnniintrin.h(4.21 KB)
ðŸ“„ avx512vp2intersectintrin.h(2.9 KB)
ðŸ“„ avx512vpopcntdqintrin.h(2 KB)
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ðŸ“„ avxifmaintrin.h(5.75 KB)
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ðŸ“„ bmi2intrin.h(7.09 KB)
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ðŸ“„ builtins.h(741 B)
ðŸ“„ cet.h(1.49 KB)
ðŸ“„ cetintrin.h(3.27 KB)
ðŸ“„ cldemoteintrin.h(1.18 KB)
ðŸ“„ clflushoptintrin.h(1.17 KB)
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ðŸ“„ clzerointrin.h(1.19 KB)
ðŸ“„ cmpccxaddintrin.h(2.33 KB)
ðŸ“„ cpuid.h(11.01 KB)
ðŸ“„ crc32intrin.h(3.27 KB)
ðŸ“ cuda_wrappers
ðŸ“„ emmintrin.h(192.64 KB)
ðŸ“„ enqcmdintrin.h(2.12 KB)
ðŸ“„ f16cintrin.h(5.39 KB)
ðŸ“„ float.h(5.63 KB)
ðŸ“„ fma4intrin.h(6.82 KB)
ðŸ“„ fmaintrin.h(28.4 KB)
ðŸ“„ fxsrintrin.h(2.82 KB)
ðŸ“„ gfniintrin.h(7.57 KB)
ðŸ“„ hexagon_circ_brev_intrinsics.h(15.59 KB)
ðŸ“„ hexagon_protos.h(374.42 KB)
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ðŸ“„ hvx_hexagon_protos.h(254.26 KB)
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ðŸ“„ immintrin.h(23.57 KB)
ðŸ“„ intrin.h(28.22 KB)
ðŸ“„ inttypes.h(2.26 KB)
ðŸ“„ invpcidintrin.h(764 B)
ðŸ“„ iso646.h(656 B)
ðŸ“„ keylockerintrin.h(17.98 KB)
ðŸ“„ larchintrin.h(7.8 KB)
ðŸ“„ limits.h(3.61 KB)
ðŸ“ llvm_libc_wrappers
ðŸ“„ lwpintrin.h(5 KB)
ðŸ“„ lzcntintrin.h(3.18 KB)
ðŸ“„ mm3dnow.h(4.5 KB)
ðŸ“„ mm_malloc.h(1.88 KB)
ðŸ“„ mmintrin.h(55.98 KB)
ðŸ“„ module.modulemap(3.33 KB)
ðŸ“„ movdirintrin.h(1.57 KB)
ðŸ“„ msa.h(25.01 KB)
ðŸ“„ mwaitxintrin.h(2.19 KB)
ðŸ“„ nmmintrin.h(709 B)
ðŸ“„ opencl-c-base.h(30.38 KB)
ðŸ“„ opencl-c.h(874.39 KB)
ðŸ“ openmp_wrappers
ðŸ“„ pconfigintrin.h(1.19 KB)
ðŸ“„ pkuintrin.h(934 B)
ðŸ“„ pmmintrin.h(10.5 KB)
ðŸ“„ popcntintrin.h(1.82 KB)
ðŸ“ ppc_wrappers
ðŸ“„ prfchiintrin.h(2.02 KB)
ðŸ“„ prfchwintrin.h(2.06 KB)
ðŸ“„ ptwriteintrin.h(1.05 KB)
ðŸ“„ raointintrin.h(6.59 KB)
ðŸ“„ rdpruintrin.h(1.59 KB)
ðŸ“„ rdseedintrin.h(2.85 KB)
ðŸ“„ riscv_ntlh.h(855 B)
ðŸ“„ rtmintrin.h(1.25 KB)
ðŸ“„ s390intrin.h(604 B)
ðŸ“„ serializeintrin.h(881 B)
ðŸ“„ sgxintrin.h(1.77 KB)
ðŸ“„ sha512intrin.h(5.95 KB)
ðŸ“„ shaintrin.h(7.37 KB)
ðŸ“„ sifive_vector.h(522 B)
ðŸ“„ sm3intrin.h(7.29 KB)
ðŸ“„ sm4intrin.h(8.2 KB)
ðŸ“„ smmintrin.h(99.32 KB)
ðŸ“„ stdalign.h(911 B)
ðŸ“„ stdarg.h(1.66 KB)
ðŸ“„ stdatomic.h(8.3 KB)
ðŸ“„ stdbool.h(1.04 KB)
ðŸ“„ stddef.h(4.16 KB)
ðŸ“„ stdint.h(32.49 KB)
ðŸ“„ stdnoreturn.h(1.17 KB)
ðŸ“„ tbmintrin.h(3.15 KB)
ðŸ“„ tgmath.h(29.68 KB)
ðŸ“„ tmmintrin.h(29.51 KB)
ðŸ“„ tsxldtrkintrin.h(1.97 KB)
ðŸ“„ uintrintrin.h(4.96 KB)
ðŸ“„ unwind.h(11.21 KB)
ðŸ“„ vadefs.h(1.39 KB)
ðŸ“„ vaesintrin.h(2.46 KB)
ðŸ“„ varargs.h(477 B)
ðŸ“„ vecintrin.h(360.82 KB)
ðŸ“„ velintrin.h(2.1 KB)
ðŸ“„ velintrin_approx.h(3.54 KB)
ðŸ“„ velintrin_gen.h(69.06 KB)
ðŸ“„ vpclmulqdqintrin.h(1.06 KB)
ðŸ“„ waitpkgintrin.h(1.33 KB)
ðŸ“„ wasm_simd128.h(76.25 KB)
ðŸ“„ wbnoinvdintrin.h(749 B)
ðŸ“„ wmmintrin.h(659 B)
ðŸ“„ x86gprintrin.h(2.32 KB)
ðŸ“„ x86intrin.h(1.81 KB)
ðŸ“„ xmmintrin.h(106.73 KB)
ðŸ“„ xopintrin.h(19.96 KB)
ðŸ“„ xsavecintrin.h(2.51 KB)
ðŸ“„ xsaveintrin.h(1.64 KB)
ðŸ“„ xsaveoptintrin.h(1 KB)
ðŸ“„ xsavesintrin.h(1.24 KB)
ðŸ“„ xtestintrin.h(873 B)

Editing: shaintrin.h

/*===---- shaintrin.h - SHA intrinsics -------------------------------------===
 *
 * 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 __IMMINTRIN_H
#error "Never use <shaintrin.h> directly; include <immintrin.h> instead."
#endif

#ifndef __SHAINTRIN_H
#define __SHAINTRIN_H

/* Define the default attributes for the functions in this file. */
#define __DEFAULT_FN_ATTRS __attribute__((__always_inline__, __nodebug__, __target__("sha"), __min_vector_width__(128)))

/// Performs four iterations of the inner loop of the SHA-1 message digest
///    algorithm using the starting SHA-1 state (A, B, C, D) from the 128-bit
///    vector of [4 x i32] in \a V1 and the next four 32-bit elements of the
///    message from the 128-bit vector of [4 x i32] in \a V2. Note that the
///    SHA-1 state variable E must have already been added to \a V2
///    (\c _mm_sha1nexte_epu32() can perform this step). Returns the updated
///    SHA-1 state (A, B, C, D) as a 128-bit vector of [4 x i32].
///
///    The SHA-1 algorithm has an inner loop of 80 iterations, twenty each
///    with a different combining function and rounding constant. This
///    intrinsic performs four iterations using a combining function and
///    rounding constant selected by \a M[1:0].
///
/// \headerfile <immintrin.h>
///
/// \code
/// __m128i _mm_sha1rnds4_epu32(__m128i V1, __m128i V2, const int M);
/// \endcode
///
/// This intrinsic corresponds to the \c SHA1RNDS4 instruction.
///
/// \param V1
///    A 128-bit vector of [4 x i32] containing the initial SHA-1 state.
/// \param V2
///    A 128-bit vector of [4 x i32] containing the next four elements of
///    the message, plus SHA-1 state variable E.
/// \param M
///    An immediate value where bits [1:0] select among four possible
///    combining functions and rounding constants (not specified here).
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-1 state.
#define _mm_sha1rnds4_epu32(V1, V2, M) \
  __builtin_ia32_sha1rnds4((__v4si)(__m128i)(V1), (__v4si)(__m128i)(V2), (M))

/// Calculates the SHA-1 state variable E from the SHA-1 state variables in
///    the 128-bit vector of [4 x i32] in \a __X, adds that to the next set of
///    four message elements in the 128-bit vector of [4 x i32] in \a __Y, and
///    returns the result.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA1NEXTE instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing the current SHA-1 state.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing the next four elements of the
///    message.
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-1
///    values.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha1nexte_epu32(__m128i __X, __m128i __Y)
{
  return (__m128i)__builtin_ia32_sha1nexte((__v4si)__X, (__v4si)__Y);
}

/// Performs an intermediate calculation for deriving the next four SHA-1
///    message elements using previous message elements from the 128-bit
///    vectors of [4 x i32] in \a __X and \a __Y, and returns the result.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA1MSG1 instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing previous message elements.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing previous message elements.
/// \returns A 128-bit vector of [4 x i32] containing the derived SHA-1
///    elements.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha1msg1_epu32(__m128i __X, __m128i __Y)
{
  return (__m128i)__builtin_ia32_sha1msg1((__v4si)__X, (__v4si)__Y);
}

/// Performs the final calculation for deriving the next four SHA-1 message
///    elements using previous message elements from the 128-bit vectors of
///    [4 x i32] in \a __X and \a __Y, and returns the result.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA1MSG2 instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing an intermediate result.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing previous message values.
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-1
///    values.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha1msg2_epu32(__m128i __X, __m128i __Y)
{
  return (__m128i)__builtin_ia32_sha1msg2((__v4si)__X, (__v4si)__Y);
}

/// Performs two rounds of SHA-256 operation using the following inputs: a
///    starting SHA-256 state (C, D, G, H) from the 128-bit vector of
///    [4 x i32] in \a __X; a starting SHA-256 state (A, B, E, F) from the
///    128-bit vector of [4 x i32] in \a __Y; and a pre-computed sum of the
///    next two message elements (unsigned 32-bit integers) and corresponding
///    rounding constants from the 128-bit vector of [4 x i32] in \a __Z.
///    Returns the updated SHA-256 state (A, B, E, F) as a 128-bit vector of
///    [4 x i32].
///
///    The SHA-256 algorithm has a core loop of 64 iterations. This intrinsic
///    performs two of those iterations.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA256RNDS2 instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing part of the initial SHA-256
///    state.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing part of the initial SHA-256
///    state.
/// \param __Z
///    A 128-bit vector of [4 x i32] containing additional input to the
///    SHA-256 operation.
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-1 state.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha256rnds2_epu32(__m128i __X, __m128i __Y, __m128i __Z)
{
  return (__m128i)__builtin_ia32_sha256rnds2((__v4si)__X, (__v4si)__Y, (__v4si)__Z);
}

/// Performs an intermediate calculation for deriving the next four SHA-256
///    message elements using previous message elements from the 128-bit
///    vectors of [4 x i32] in \a __X and \a __Y, and returns the result.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA256MSG1 instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing previous message elements.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing previous message elements.
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-256
///    values.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha256msg1_epu32(__m128i __X, __m128i __Y)
{
  return (__m128i)__builtin_ia32_sha256msg1((__v4si)__X, (__v4si)__Y);
}

/// Performs the final calculation for deriving the next four SHA-256 message
///    elements using previous message elements from the 128-bit vectors of
///    [4 x i32] in \a __X and \a __Y, and returns the result.
///
/// \headerfile <immintrin.h>
///
/// This intrinsic corresponds to the \c SHA256MSG2 instruction.
///
/// \param __X
///    A 128-bit vector of [4 x i32] containing an intermediate result.
/// \param __Y
///    A 128-bit vector of [4 x i32] containing previous message values.
/// \returns A 128-bit vector of [4 x i32] containing the updated SHA-256
///    values.
static __inline__ __m128i __DEFAULT_FN_ATTRS
_mm_sha256msg2_epu32(__m128i __X, __m128i __Y)
{
  return (__m128i)__builtin_ia32_sha256msg2((__v4si)__X, (__v4si)__Y);
}

#undef __DEFAULT_FN_ATTRS

#endif /* __SHAINTRIN_H */

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