//===-- Implementation of memcmp ------------------------------------------===// // // 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_SRC_STRING_MEMORY_UTILS_MEMCMP_IMPLEMENTATIONS_H #define LLVM_LIBC_SRC_STRING_MEMORY_UTILS_MEMCMP_IMPLEMENTATIONS_H #include "src/__support/common.h" #include "src/__support/macros/optimization.h" // LIBC_UNLIKELY LIBC_LOOP_NOUNROLL #include "src/__support/macros/properties/architectures.h" #include "src/string/memory_utils/op_generic.h" #include "src/string/memory_utils/utils.h" // CPtr MemcmpReturnType #include // size_t #if defined(LIBC_TARGET_ARCH_IS_X86) #include "src/string/memory_utils/x86_64/memcmp_implementations.h" #elif defined(LIBC_TARGET_ARCH_IS_AARCH64) #include "src/string/memory_utils/aarch64/memcmp_implementations.h" #endif namespace __llvm_libc { [[maybe_unused]] LIBC_INLINE MemcmpReturnType inline_memcmp_byte_per_byte(CPtr p1, CPtr p2, size_t offset, size_t count) { LIBC_LOOP_NOUNROLL for (; offset < count; ++offset) if (auto value = generic::Memcmp<1>::block(p1 + offset, p2 + offset)) return value; return MemcmpReturnType::ZERO(); } [[maybe_unused]] LIBC_INLINE MemcmpReturnType inline_memcmp_aligned_access_64bit(CPtr p1, CPtr p2, size_t count) { constexpr size_t kAlign = sizeof(uint64_t); if (count <= 2 * kAlign) return inline_memcmp_byte_per_byte(p1, p2, 0, count); size_t bytes_to_p1_align = distance_to_align_up(p1); if (auto value = inline_memcmp_byte_per_byte(p1, p2, 0, bytes_to_p1_align)) return value; size_t offset = bytes_to_p1_align; size_t p2_alignment = distance_to_align_down(p2 + offset); for (; offset < count - kAlign; offset += kAlign) { uint64_t b; if (p2_alignment == 0) b = load64_aligned(p2, offset); else if (p2_alignment == 4) b = load64_aligned(p2, offset); else if (p2_alignment == 2) b = load64_aligned(p2, offset); else b = load64_aligned( p2, offset); uint64_t a = load64_aligned(p1, offset); if (a != b) { // TODO use cmp_neq_uint64_t from D148717 once it's submitted. return Endian::to_big_endian(a) < Endian::to_big_endian(b) ? -1 : 1; } } return inline_memcmp_byte_per_byte(p1, p2, offset, count); } [[maybe_unused]] LIBC_INLINE MemcmpReturnType inline_memcmp_aligned_access_32bit(CPtr p1, CPtr p2, size_t count) { constexpr size_t kAlign = sizeof(uint32_t); if (count <= 2 * kAlign) return inline_memcmp_byte_per_byte(p1, p2, 0, count); size_t bytes_to_p1_align = distance_to_align_up(p1); if (auto value = inline_memcmp_byte_per_byte(p1, p2, 0, bytes_to_p1_align)) return value; size_t offset = bytes_to_p1_align; size_t p2_alignment = distance_to_align_down(p2 + offset); for (; offset < count - kAlign; offset += kAlign) { uint32_t b; if (p2_alignment == 0) b = load32_aligned(p2, offset); else if (p2_alignment == 2) b = load32_aligned(p2, offset); else b = load32_aligned(p2, offset); uint32_t a = load32_aligned(p1, offset); if (a != b) { // TODO use cmp_uint32_t from D148717 once it's submitted. // We perform the difference as an uint64_t. const int64_t diff = static_cast(Endian::to_big_endian(a)) - static_cast(Endian::to_big_endian(b)); // And reduce the uint64_t into an uint32_t. return static_cast((diff >> 1) | (diff & 0xFFFF)); } } return inline_memcmp_byte_per_byte(p1, p2, offset, count); } LIBC_INLINE MemcmpReturnType inline_memcmp(CPtr p1, CPtr p2, size_t count) { #if defined(LIBC_TARGET_ARCH_IS_X86) return inline_memcmp_x86(p1, p2, count); #elif defined(LIBC_TARGET_ARCH_IS_AARCH64) return inline_memcmp_aarch64(p1, p2, count); #elif defined(LIBC_TARGET_ARCH_IS_RISCV64) return inline_memcmp_aligned_access_64bit(p1, p2, count); #elif defined(LIBC_TARGET_ARCH_IS_RISCV32) return inline_memcmp_aligned_access_32bit(p1, p2, count); #else return inline_memcmp_byte_per_byte(p1, p2, 0, count); #endif } LIBC_INLINE int inline_memcmp(const void *p1, const void *p2, size_t count) { return static_cast(inline_memcmp(reinterpret_cast(p1), reinterpret_cast(p2), count)); } } // namespace __llvm_libc #endif // LLVM_LIBC_SRC_STRING_MEMORY_UTILS_MEMCMP_IMPLEMENTATIONS_H