/* Copyright 2013 Google Inc. All Rights Reserved. Distributed under MIT license. See file LICENSE for detail or copy at https://opensource.org/licenses/MIT */ /* Bit reading helpers */ #ifndef BROTLI_DEC_BIT_READER_H_ #define BROTLI_DEC_BIT_READER_H_ //#include /* memcpy */ #include #include "../common/types.h" #include "./port.h" #if defined(__cplusplus) || defined(c_plusplus) extern "C" { #endif #if (BROTLI_64_BITS) #define BROTLI_SHORT_FILL_BIT_WINDOW_READ 4 typedef uint64_t reg_t; #else #define BROTLI_SHORT_FILL_BIT_WINDOW_READ 2 typedef uint32_t reg_t; #endif static const uint32_t kBitMask[33] = { 0x0000, 0x00000001, 0x00000003, 0x00000007, 0x0000000F, 0x0000001F, 0x0000003F, 0x0000007F, 0x000000FF, 0x000001FF, 0x000003FF, 0x000007FF, 0x00000FFF, 0x00001FFF, 0x00003FFF, 0x00007FFF, 0x0000FFFF, 0x0001FFFF, 0x0003FFFF, 0x0007FFFF, 0x000FFFFF, 0x001FFFFF, 0x003FFFFF, 0x007FFFFF, 0x00FFFFFF, 0x01FFFFFF, 0x03FFFFFF, 0x07FFFFFF, 0x0FFFFFFF, 0x1FFFFFFF, 0x3FFFFFFF, 0x7FFFFFFF, 0xFFFFFFFF }; static BROTLI_INLINE uint32_t BitMask(uint32_t n) { if (IS_CONSTANT(n) || BROTLI_HAS_UBFX) { /* Masking with this expression turns to a single "Unsigned Bit Field Extract" UBFX instruction on ARM. */ return ~((0xffffffffU) << n); } else { return kBitMask[n]; } } typedef struct { reg_t val_; /* pre-fetched bits */ uint32_t bit_pos_; /* current bit-reading position in val_ */ const uint8_t* next_in; /* the byte we're reading from */ size_t avail_in; } BrotliBitReader; typedef struct { reg_t val_; uint32_t bit_pos_; const uint8_t* next_in; size_t avail_in; } BrotliBitReaderState; /* Initializes the bitreader fields. */ BROTLI_INTERNAL void BrotliInitBitReader(BrotliBitReader* const br); /* Ensures that accumulator is not empty. May consume one byte of input. Returns 0 if data is required but there is no input available. For BROTLI_ALIGNED_READ this function also prepares bit reader for aligned reading. */ BROTLI_INTERNAL BROTLI_BOOL BrotliWarmupBitReader(BrotliBitReader* const br); static BROTLI_INLINE void BrotliBitReaderSaveState( BrotliBitReader* const from, BrotliBitReaderState* to) { to->val_ = from->val_; to->bit_pos_ = from->bit_pos_; to->next_in = from->next_in; to->avail_in = from->avail_in; } static BROTLI_INLINE void BrotliBitReaderRestoreState( BrotliBitReader* const to, BrotliBitReaderState* from) { to->val_ = from->val_; to->bit_pos_ = from->bit_pos_; to->next_in = from->next_in; to->avail_in = from->avail_in; } static BROTLI_INLINE uint32_t BrotliGetAvailableBits( const BrotliBitReader* br) { return (BROTLI_64_BITS ? 64 : 32) - br->bit_pos_; } /* Returns amount of unread bytes the bit reader still has buffered from the BrotliInput, including whole bytes in br->val_. */ static BROTLI_INLINE size_t BrotliGetRemainingBytes(BrotliBitReader* br) { return br->avail_in + (BrotliGetAvailableBits(br) >> 3); } /* Checks if there is at least num bytes left in the input ringbuffer (excluding the bits remaining in br->val_). */ static BROTLI_INLINE BROTLI_BOOL BrotliCheckInputAmount( BrotliBitReader* const br, size_t num) { return TO_BROTLI_BOOL(br->avail_in >= num); } static BROTLI_INLINE uint16_t BrotliLoad16LE(const uint8_t* in) { if (BROTLI_LITTLE_ENDIAN) { return *((const uint16_t*)in); } else if (BROTLI_BIG_ENDIAN) { uint16_t value = *((const uint16_t*)in); return (uint16_t)(((value & 0xFFU) << 8) | ((value & 0xFF00U) >> 8)); } else { return (uint16_t)(in[0] | (in[1] << 8)); } } static BROTLI_INLINE uint32_t BrotliLoad32LE(const uint8_t* in) { if (BROTLI_LITTLE_ENDIAN) { return *((const uint32_t*)in); } else if (BROTLI_BIG_ENDIAN) { uint32_t value = *((const uint32_t*)in); return ((value & 0xFFU) << 24) | ((value & 0xFF00U) << 8) | ((value & 0xFF0000U) >> 8) | ((value & 0xFF000000U) >> 24); } else { uint32_t value = (uint32_t)(*(in++)); value |= (uint32_t)(*(in++)) << 8; value |= (uint32_t)(*(in++)) << 16; value |= (uint32_t)(*(in++)) << 24; return value; } } #if (BROTLI_64_BITS) static BROTLI_INLINE uint64_t BrotliLoad64LE(const uint8_t* in) { if (BROTLI_LITTLE_ENDIAN) { return *((const uint64_t*)in); } else if (BROTLI_BIG_ENDIAN) { uint64_t value = *((const uint64_t*)in); return ((value & 0xFFU) << 56) | ((value & 0xFF00U) << 40) | ((value & 0xFF0000U) << 24) | ((value & 0xFF000000U) << 8) | ((value & 0xFF00000000U) >> 8) | ((value & 0xFF0000000000U) >> 24) | ((value & 0xFF000000000000U) >> 40) | ((value & 0xFF00000000000000U) >> 56); } else { uint64_t value = (uint64_t)(*(in++)); value |= (uint64_t)(*(in++)) << 8; value |= (uint64_t)(*(in++)) << 16; value |= (uint64_t)(*(in++)) << 24; value |= (uint64_t)(*(in++)) << 32; value |= (uint64_t)(*(in++)) << 40; value |= (uint64_t)(*(in++)) << 48; value |= (uint64_t)(*(in++)) << 56; return value; } } #endif /* Guarantees that there are at least n_bits + 1 bits in accumulator. Precondition: accumulator contains at least 1 bit. n_bits should be in the range [1..24] for regular build. For portable non-64-bit little endian build only 16 bits are safe to request. */ static BROTLI_INLINE void BrotliFillBitWindow( BrotliBitReader* const br, uint32_t n_bits) { #if (BROTLI_64_BITS) if (!BROTLI_ALIGNED_READ && IS_CONSTANT(n_bits) && (n_bits <= 8)) { if (br->bit_pos_ >= 56) { br->val_ >>= 56; br->bit_pos_ ^= 56; /* here same as -= 56 because of the if condition */ br->val_ |= BrotliLoad64LE(br->next_in) << 8; br->avail_in -= 7; br->next_in += 7; } } else if (!BROTLI_ALIGNED_READ && IS_CONSTANT(n_bits) && (n_bits <= 16)) { if (br->bit_pos_ >= 48) { br->val_ >>= 48; br->bit_pos_ ^= 48; /* here same as -= 48 because of the if condition */ br->val_ |= BrotliLoad64LE(br->next_in) << 16; br->avail_in -= 6; br->next_in += 6; } } else { if (br->bit_pos_ >= 32) { br->val_ >>= 32; br->bit_pos_ ^= 32; /* here same as -= 32 because of the if condition */ br->val_ |= ((uint64_t)BrotliLoad32LE(br->next_in)) << 32; br->avail_in -= BROTLI_SHORT_FILL_BIT_WINDOW_READ; br->next_in += BROTLI_SHORT_FILL_BIT_WINDOW_READ; } } #else if (!BROTLI_ALIGNED_READ && IS_CONSTANT(n_bits) && (n_bits <= 8)) { if (br->bit_pos_ >= 24) { br->val_ >>= 24; br->bit_pos_ ^= 24; /* here same as -= 24 because of the if condition */ br->val_ |= BrotliLoad32LE(br->next_in) << 8; br->avail_in -= 3; br->next_in += 3; } } else { if (br->bit_pos_ >= 16) { br->val_ >>= 16; br->bit_pos_ ^= 16; /* here same as -= 16 because of the if condition */ br->val_ |= ((uint32_t)BrotliLoad16LE(br->next_in)) << 16; br->avail_in -= BROTLI_SHORT_FILL_BIT_WINDOW_READ; br->next_in += BROTLI_SHORT_FILL_BIT_WINDOW_READ; } } #endif } /* Mosltly like BrotliFillBitWindow, but guarantees only 16 bits and reads no more than BROTLI_SHORT_FILL_BIT_WINDOW_READ bytes of input. */ static BROTLI_INLINE void BrotliFillBitWindow16(BrotliBitReader* const br) { BrotliFillBitWindow(br, 17); } /* Pulls one byte of input to accumulator. */ static BROTLI_INLINE BROTLI_BOOL BrotliPullByte(BrotliBitReader* const br) { if (br->avail_in == 0) { return BROTLI_FALSE; } br->val_ >>= 8; #if (BROTLI_64_BITS) br->val_ |= ((uint64_t)*br->next_in) << 56; #else br->val_ |= ((uint32_t)*br->next_in) << 24; #endif br->bit_pos_ -= 8; --br->avail_in; ++br->next_in; return BROTLI_TRUE; } /* Returns currently available bits. The number of valid bits could be calclulated by BrotliGetAvailableBits. */ static BROTLI_INLINE reg_t BrotliGetBitsUnmasked(BrotliBitReader* const br) { return br->val_ >> br->bit_pos_; } /* Like BrotliGetBits, but does not mask the result. The result contains at least 16 valid bits. */ static BROTLI_INLINE uint32_t BrotliGet16BitsUnmasked( BrotliBitReader* const br) { BrotliFillBitWindow(br, 16); return (uint32_t)BrotliGetBitsUnmasked(br); } /* Returns the specified number of bits from br without advancing bit pos. */ static BROTLI_INLINE uint32_t BrotliGetBits( BrotliBitReader* const br, uint32_t n_bits) { BrotliFillBitWindow(br, n_bits); return (uint32_t)BrotliGetBitsUnmasked(br) & BitMask(n_bits); } /* Tries to peek the specified amount of bits. Returns 0, if there is not enough input. */ static BROTLI_INLINE BROTLI_BOOL BrotliSafeGetBits( BrotliBitReader* const br, uint32_t n_bits, uint32_t* val) { while (BrotliGetAvailableBits(br) < n_bits) { if (!BrotliPullByte(br)) { return BROTLI_FALSE; } } *val = (uint32_t)BrotliGetBitsUnmasked(br) & BitMask(n_bits); return BROTLI_TRUE; } /* Advances the bit pos by n_bits. */ static BROTLI_INLINE void BrotliDropBits( BrotliBitReader* const br, uint32_t n_bits) { br->bit_pos_ += n_bits; } static BROTLI_INLINE void BrotliBitReaderUnload(BrotliBitReader* br) { uint32_t unused_bytes = BrotliGetAvailableBits(br) >> 3; uint32_t unused_bits = unused_bytes << 3; br->avail_in += unused_bytes; br->next_in -= unused_bytes; if (unused_bits == sizeof(br->val_) << 3) { br->val_ = 0; } else { br->val_ <<= unused_bits; } br->bit_pos_ += unused_bits; } /* Reads the specified number of bits from br and advances the bit pos. Precondition: accumulator MUST contain at least n_bits. */ static BROTLI_INLINE void BrotliTakeBits( BrotliBitReader* const br, uint32_t n_bits, uint32_t* val) { *val = (uint32_t)BrotliGetBitsUnmasked(br) & BitMask(n_bits); BROTLI_LOG(("[BrotliReadBits] %d %d %d val: %6x\n", (int)br->avail_in, (int)br->bit_pos_, n_bits, (int)*val)); BrotliDropBits(br, n_bits); } /* Reads the specified number of bits from br and advances the bit pos. Assumes that there is enough input to perform BrotliFillBitWindow. */ static BROTLI_INLINE uint32_t BrotliReadBits( BrotliBitReader* const br, uint32_t n_bits) { if (BROTLI_64_BITS || (n_bits <= 16)) { uint32_t val; BrotliFillBitWindow(br, n_bits); BrotliTakeBits(br, n_bits, &val); return val; } else { uint32_t low_val; uint32_t high_val; BrotliFillBitWindow(br, 16); BrotliTakeBits(br, 16, &low_val); BrotliFillBitWindow(br, 8); BrotliTakeBits(br, n_bits - 16, &high_val); return low_val | (high_val << 16); } } /* Tries to read the specified amount of bits. Returns 0, if there is not enough input. n_bits MUST be positive. */ static BROTLI_INLINE BROTLI_BOOL BrotliSafeReadBits( BrotliBitReader* const br, uint32_t n_bits, uint32_t* val) { while (BrotliGetAvailableBits(br) < n_bits) { if (!BrotliPullByte(br)) { return BROTLI_FALSE; } } BrotliTakeBits(br, n_bits, val); return BROTLI_TRUE; } /* Advances the bit reader position to the next byte boundary and verifies that any skipped bits are set to zero. */ static BROTLI_INLINE BROTLI_BOOL BrotliJumpToByteBoundary(BrotliBitReader* br) { uint32_t pad_bits_count = BrotliGetAvailableBits(br) & 0x7; uint32_t pad_bits = 0; if (pad_bits_count != 0) { BrotliTakeBits(br, pad_bits_count, &pad_bits); } return TO_BROTLI_BOOL(pad_bits == 0); } /* Peeks a byte at specified offset. Precondition: bit reader is parked to a byte boundary. Returns -1 if operation is not feasible. */ static BROTLI_INLINE int BrotliPeekByte(BrotliBitReader* br, size_t offset) { uint32_t available_bits = BrotliGetAvailableBits(br); size_t bytes_left = available_bits >> 3; BROTLI_DCHECK((available_bits & 7) == 0); if (offset < bytes_left) { return (BrotliGetBitsUnmasked(br) >> (unsigned)(offset << 3)) & 0xFF; } offset -= bytes_left; if (offset < br->avail_in) { return br->next_in[offset]; } return -1; } /* Copies remaining input bytes stored in the bit reader to the output. Value num may not be larger than BrotliGetRemainingBytes. The bit reader must be warmed up again after this. */ static BROTLI_INLINE void BrotliCopyBytes(uint8_t* dest, BrotliBitReader* br, size_t num) { while (BrotliGetAvailableBits(br) >= 8 && num > 0) { *dest = (uint8_t)BrotliGetBitsUnmasked(br); BrotliDropBits(br, 8); ++dest; --num; } memcpy(dest, br->next_in, num); br->avail_in -= num; br->next_in += num; } #if defined(__cplusplus) || defined(c_plusplus) } /* extern "C" */ #endif #endif /* BROTLI_DEC_BIT_READER_H_ */