tesseract/ccutil/bitvector.h

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// Copyright 2011 Google Inc. All Rights Reserved.
// Author: rays@google.com (Ray Smith)
///////////////////////////////////////////////////////////////////////
// File: bitvector.h
// Description: Class replacement for BITVECTOR.
// Author: Ray Smith
// Created: Mon Jan 10 17:44:01 PST 2011
//
// (C) Copyright 2011, Google Inc.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
///////////////////////////////////////////////////////////////////////
#ifndef TESSERACT_CCUTIL_BITVECTOR_H__
#define TESSERACT_CCUTIL_BITVECTOR_H__
#include <assert.h>
#include <stdio.h>
#include "host.h"
namespace tesseract {
// Trivial class to encapsulate a fixed-length array of bits, with
// Serialize/DeSerialize. Replaces the old macros.
class BitVector {
public:
// Fast lookup table to get the first least significant set bit in a byte.
// For zero, the table has 255, but since it is a special case, most code
// that uses this table will check for zero before looking up lsb_index_.
static const uinT8 lsb_index_[256];
// Fast lookup table to get the residual bits after zeroing the least
// significant set bit in a byte.
static const uinT8 lsb_eroded_[256];
// Fast lookup table to give the number of set bits in a byte.
static const int hamming_table_[256];
BitVector();
// Initializes the array to length * false.
explicit BitVector(int length);
BitVector(const BitVector& src);
BitVector& operator=(const BitVector& src);
~BitVector();
// Initializes the array to length * false.
void Init(int length);
// Returns the number of bits that are accessible in the vector.
int size() const {
return bit_size_;
}
// Writes to the given file. Returns false in case of error.
bool Serialize(FILE* fp) const;
// Reads from the given file. Returns false in case of error.
// If swap is true, assumes a big/little-endian swap is needed.
bool DeSerialize(bool swap, FILE* fp);
void SetAllFalse();
void SetAllTrue();
// Accessors to set/reset/get bits.
// The range of index is [0, size()-1].
// There is debug-only bounds checking.
void SetBit(int index) {
array_[WordIndex(index)] |= BitMask(index);
}
void ResetBit(int index) {
array_[WordIndex(index)] &= ~BitMask(index);
}
void SetValue(int index, bool value) {
if (value)
SetBit(index);
else
ResetBit(index);
}
bool At(int index) const {
return (array_[WordIndex(index)] & BitMask(index)) != 0;
}
bool operator[](int index) const {
return (array_[WordIndex(index)] & BitMask(index)) != 0;
}
// Returns the index of the next set bit after the given index.
// Useful for quickly iterating through the set bits in a sparse vector.
int NextSetBit(int prev_bit) const;
// Returns the number of set bits in the vector.
int NumSetBits() const;
// Logical in-place operations on whole bit vectors. Tries to do something
// sensible if they aren't the same size, but they should be really.
void operator|=(const BitVector& other);
void operator&=(const BitVector& other);
void operator^=(const BitVector& other);
// Set subtraction *this = v1 - v2.
void SetSubtract(const BitVector& v1, const BitVector& v2);
private:
// Allocates memory for a vector of the given length.
void Alloc(int length);
// Computes the index to array_ for the given index, with debug range
// checking.
int WordIndex(int index) const {
assert(0 <= index && index < bit_size_);
return index / kBitFactor;
}
// Returns a mask to select the appropriate bit for the given index.
uinT32 BitMask(int index) const {
return 1 << (index & (kBitFactor - 1));
}
// Returns the number of array elements needed to represent the current
// bit_size_.
int WordLength() const {
return (bit_size_ + kBitFactor - 1) / kBitFactor;
}
// Returns the number of bytes consumed by the array_.
int ByteLength() const {
return WordLength() * sizeof(*array_);
}
// Number of bits in this BitVector.
inT32 bit_size_;
// Array of words used to pack the bits.
// Bits are stored little-endian by uinT32 word, ie by word first and then
// starting with the least significant bit in each word.
uinT32* array_;
// Number of bits in an array_ element.
static const int kBitFactor = sizeof(uinT32) * 8;
};
} // namespace tesseract.
#endif // TESSERACT_CCUTIL_BITVECTOR_H__