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aria2/src/BitfieldMan.h

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/* <!-- copyright */
/*
* aria2 - The high speed download utility
*
* Copyright (C) 2006 Tatsuhiro Tsujikawa
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* In addition, as a special exception, the copyright holders give
* permission to link the code of portions of this program with the
* OpenSSL library under certain conditions as described in each
* individual source file, and distribute linked combinations
* including the two.
* You must obey the GNU General Public License in all respects
* for all of the code used other than OpenSSL. If you modify
* file(s) with this exception, you may extend this exception to your
* version of the file(s), but you are not obligated to do so. If you
* do not wish to do so, delete this exception statement from your
* version. If you delete this exception statement from all source
* files in the program, then also delete it here.
*/
/* copyright --> */
#ifndef _D_BITFIELD_MAN_H_
#define _D_BITFIELD_MAN_H_
#include "common.h"
#include "SharedHandle.h"
#include <deque>
namespace aria2 {
class Randomizer;
class BitfieldMan {
private:
size_t blockLength;
uint64_t totalLength;
size_t bitfieldLength;
size_t blocks;
bool filterEnabled;
unsigned char* bitfield;
unsigned char* useBitfield;
unsigned char* filterBitfield;
SharedHandle<Randomizer> randomizer;
// for caching
size_t cachedNumMissingBlock;
size_t cachedNumFilteredBlock;
uint64_t cachedCompletedLength;
uint64_t cachedFilteredComletedLength;
uint64_t cachedFilteredTotalLength;
size_t getNthBitIndex(const unsigned char bit, size_t nth) const;
bool getMissingIndexRandomly(size_t& index, const unsigned char* bitfield, size_t len) const;
template<typename Array>
bool getMissingIndexRandomly(size_t& index, const Array& bitfield,
size_t bitfieldLength) const;
template<typename Array>
bool getFirstMissingIndex(size_t& index, const Array& bitfield, size_t bitfieldLength) const;
template<typename Array>
bool getAllMissingIndexes(std::deque<size_t>& indexes,
const Array& bitfield,
size_t bitfieldLength) const;
bool setBitInternal(unsigned char* bitfield, size_t index, bool on);
bool setFilterBit(size_t index);
size_t getStartIndex(size_t index) const;
size_t getEndIndex(size_t index) const;
uint64_t getCompletedLength(bool useFilter) const;
// If filterBitfield is 0, allocate bitfieldLength bytes to it and
// set 0 to all bytes.
void ensureFilterBitfield();
public:
// [startIndex, endIndex)
class Range {
public:
size_t startIndex;
size_t endIndex;
Range(size_t startIndex = 0, size_t endIndex = 0):startIndex(startIndex),
endIndex(endIndex) {}
size_t getSize() const {
return endIndex-startIndex;
}
size_t getMidIndex() const {
return (endIndex-startIndex)/2+startIndex;
}
bool operator<(const Range& range) const {
return getSize() < range.getSize();
}
};
public:
BitfieldMan(size_t blockLength, uint64_t totalLength);
BitfieldMan(const BitfieldMan& bitfieldMan);
~BitfieldMan();
BitfieldMan& operator=(const BitfieldMan& bitfieldMan);
size_t getBlockLength() const
{
return blockLength;
}
size_t getLastBlockLength() const
{
return totalLength-blockLength*(blocks-1);
}
size_t getBlockLength(size_t index) const;
uint64_t getTotalLength() const { return totalLength; }
/**
* affected by filter
*/
bool hasMissingPiece(const unsigned char* bitfield, size_t len) const;
/**
* affected by filter
*/
bool getMissingIndex(size_t& index, const unsigned char* bitfield, size_t len) const;
/**
* affected by filter
*/
bool getMissingIndex(size_t& index) const;
/**
* affected by filter
*/
bool getFirstMissingUnusedIndex(size_t& index, const unsigned char* bitfield, size_t len) const;
/**
* affected by filter
*/
bool getFirstMissingUnusedIndex(size_t& index) const;
/**
* affected by filter
*/
bool getFirstMissingIndex(size_t& index) const;
/**
* affected by filter
*/
bool getMissingUnusedIndex(size_t& index, const unsigned char* bitfield, size_t len) const;
/**
* affected by filter
*/
bool getMissingUnusedIndex(size_t& index) const;
/**
* affected by filter
*/
bool getSparseMissingUnusedIndex
(size_t& index,
const unsigned char* ignoreBitfield,
size_t ignoreBitfieldLength) const;
/**
* affected by filter
*/
bool getAllMissingIndexes(unsigned char* misbitfield, size_t mislen) const;
/**
* affected by filter
*/
bool getAllMissingIndexes(unsigned char* misbitfield, size_t mislen,
const unsigned char* bitfield, size_t len) const;
/**
* affected by filter
*/
bool getAllMissingUnusedIndexes(unsigned char* misbitfield, size_t mislen,
const unsigned char* bitfield,
size_t len) const;
/**
* affected by filter
*/
size_t countMissingBlock() const;
/**
* affected by filter
*/
size_t countMissingBlockNow() const;
bool setUseBit(size_t index);
bool unsetUseBit(size_t index);
bool setBit(size_t index);
bool unsetBit(size_t index);
bool isBitSet(size_t index) const;
bool isUseBitSet(size_t index) const;
/**
* affected by filter
*/
bool isFilteredAllBitSet() const;
bool isAllBitSet() const;
bool isAllFilterBitSet() const;
const unsigned char* getBitfield() const
{
return bitfield;
}
size_t getBitfieldLength() const
{
return bitfieldLength;
}
/**
* affected by filter
*/
size_t countFilteredBlock() const
{
return cachedNumFilteredBlock;
}
size_t countBlock() const
{
return blocks;
}
/**
* affected by filter
*/
size_t countFilteredBlockNow() const;
size_t getMaxIndex() const
{
return blocks-1;
}
void setBitfield(const unsigned char* bitfield, size_t bitfieldLength);
void clearAllBit();
void setAllBit();
void clearAllUseBit();
void setAllUseBit();
void addFilter(uint64_t offset, uint64_t length);
void removeFilter(uint64_t offset, uint64_t length);
// Add filter not in the range of [offset, offset+length) bytes
void addNotFilter(uint64_t offset, uint64_t length);
/**
* Clears filter and disables filter
*/
void clearFilter();
void enableFilter();
void disableFilter();
bool isFilterEnabled() const
{
return filterEnabled;
}
/**
* affected by filter
*/
uint64_t getFilteredTotalLength() const
{
return cachedFilteredTotalLength;
}
/**
* affected by filter
*/
uint64_t getFilteredTotalLengthNow() const;
uint64_t getCompletedLength() const
{
return cachedCompletedLength;
}
uint64_t getCompletedLengthNow() const;
/**
* affected by filter
*/
uint64_t getFilteredCompletedLength() const
{
return cachedFilteredComletedLength;
}
/**
* affected by filter
*/
uint64_t getFilteredCompletedLengthNow() const;
void setRandomizer(const SharedHandle<Randomizer>& randomizer);
const SharedHandle<Randomizer>& getRandomizer() const
{
return randomizer;
}
void updateCache();
bool isBitRangeSet(size_t startIndex, size_t endIndex) const;
void unsetBitRange(size_t startIndex, size_t endIndex);
void setBitRange(size_t startIndex, size_t endIndex);
bool isBitSetOffsetRange(uint64_t offset, uint64_t length) const;
uint64_t getMissingUnusedLength(size_t startingIndex) const;
const unsigned char* getFilterBitfield() const
{
return filterBitfield;
}
};
} // namespace aria2
#endif // _D_BITFIELD_MAN_H_
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