//===-- InstructionUtils.h --------------------------------------*- 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 LLDB_SOURCE_PLUGINS_PROCESS_UTILITY_INSTRUCTIONUTILS_H #define LLDB_SOURCE_PLUGINS_PROCESS_UTILITY_INSTRUCTIONUTILS_H #include #include // Common utilities for manipulating instruction bit fields. namespace lldb_private { // Return the bit field(s) from the most significant bit (msbit) to the // least significant bit (lsbit) of a 64-bit unsigned value. static inline uint64_t Bits64(const uint64_t bits, const uint32_t msbit, const uint32_t lsbit) { assert(msbit < 64 && lsbit <= msbit); return (bits >> lsbit) & ((1ull << (msbit - lsbit + 1)) - 1); } // Return the bit field(s) from the most significant bit (msbit) to the // least significant bit (lsbit) of a 32-bit unsigned value. static inline uint32_t Bits32(const uint32_t bits, const uint32_t msbit, const uint32_t lsbit) { assert(msbit < 32 && lsbit <= msbit); return (bits >> lsbit) & ((1u << (msbit - lsbit + 1)) - 1); } // Return the bit value from the 'bit' position of a 32-bit unsigned value. static inline uint32_t Bit32(const uint32_t bits, const uint32_t bit) { return (bits >> bit) & 1u; } static inline uint64_t Bit64(const uint64_t bits, const uint32_t bit) { return (bits >> bit) & 1ull; } // Set the bit field(s) from the most significant bit (msbit) to the // least significant bit (lsbit) of a 32-bit unsigned value to 'val'. static inline void SetBits32(uint32_t &bits, const uint32_t msbit, const uint32_t lsbit, const uint32_t val) { assert(msbit < 32 && lsbit < 32 && msbit >= lsbit); uint32_t mask = ((1u << (msbit - lsbit + 1)) - 1); bits &= ~(mask << lsbit); bits |= (val & mask) << lsbit; } // Set the 'bit' position of a 32-bit unsigned value to 'val'. static inline void SetBit32(uint32_t &bits, const uint32_t bit, const uint32_t val) { SetBits32(bits, bit, bit, val); } // Rotate a 32-bit unsigned value right by the specified amount. static inline uint32_t Rotr32(uint32_t bits, uint32_t amt) { assert(amt < 32 && "Invalid rotate amount"); return (bits >> amt) | (bits << ((32 - amt) & 31)); } // Rotate a 32-bit unsigned value left by the specified amount. static inline uint32_t Rotl32(uint32_t bits, uint32_t amt) { assert(amt < 32 && "Invalid rotate amount"); return (bits << amt) | (bits >> ((32 - amt) & 31)); } // Create a mask that starts at bit zero and includes "bit" static inline uint64_t MaskUpToBit(const uint64_t bit) { if (bit >= 63) return -1ll; return (1ull << (bit + 1ull)) - 1ull; } // Return an integer result equal to the number of bits of x that are ones. static inline uint32_t BitCount(uint64_t x) { // c accumulates the total bits set in x uint32_t c; for (c = 0; x; ++c) { x &= x - 1; // clear the least significant bit set } return c; } static inline bool BitIsSet(const uint64_t value, const uint64_t bit) { return (value & (1ull << bit)) != 0; } static inline bool BitIsClear(const uint64_t value, const uint64_t bit) { return (value & (1ull << bit)) == 0; } static inline uint64_t UnsignedBits(const uint64_t value, const uint64_t msbit, const uint64_t lsbit) { uint64_t result = value >> lsbit; result &= MaskUpToBit(msbit - lsbit); return result; } static inline int64_t SignedBits(const uint64_t value, const uint64_t msbit, const uint64_t lsbit) { uint64_t result = UnsignedBits(value, msbit, lsbit); if (BitIsSet(value, msbit)) { // Sign extend result |= ~MaskUpToBit(msbit - lsbit); } return result; } } // namespace lldb_private #endif // LLDB_SOURCE_PLUGINS_PROCESS_UTILITY_INSTRUCTIONUTILS_H