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bitset.h
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bitset.h
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#ifndef BITSET_H_
#define BITSET_H_
#include <iostream>
#include <sstream>
#include <stdint.h>
#include <string.h>
#include <stdexcept>
#include "assert_helpers.h"
#include "threading.h"
#include "btypes.h"
/**
* Given a words array and a size, allocate a new, larger array, moving
* data from the old to the new array, and set all newly-allocated
* words to 0. Return the new, larger array, which can be substituted
* for the old one. The new array is larger than the old by about 50%.
*/
static inline TIndexOffU*
bitsetRealloc(TIndexOffU& sz, TIndexOffU* words, const char *errmsg = NULL) {
TIndexOffU oldsz = sz;
if(sz > 0) {
sz += (sz >> 1) + BITSET_MASK; // Add 50% more elements, plus a bit
sz &= ~BITSET_MASK; // Make sure it's 32-aligned
} else {
sz = 1024; // Start off at 1024 bits to avoid many expansions
}
assert_gt(sz, oldsz);
assert_eq(0, (sz & BITSET_MASK));
TIndexOffU *newwords;
try {
newwords = new TIndexOffU[sz / WORD_SIZE /* convert to words */];
} catch(std::bad_alloc& ba) {
if(errmsg != NULL) {
// Output given error message
std::cerr << errmsg;
}
throw 1;
}
if(oldsz > 0) {
// Move old values into new array
memcpy(newwords, words, oldsz >> 3 /* convert to bytes */);
}
// Initialize all new words to 0
memset(newwords + (oldsz / WORD_SIZE /*convert to words*/), 0,
(sz - oldsz) >> 3 /* convert to bytes */);
return newwords; // return new array
}
/**
* A simple synchronized bitset class.
*/
class SyncBitset {
public:
/**
* Allocate enough words to accommodate 'sz' bits. Output the given
* error message and quit if allocation fails.
*/
SyncBitset(TIndexOffU sz, const char *errmsg = NULL) : _errmsg(errmsg) {
TIndexOffU nwords = (sz / WORD_SIZE)+1; // divide by 32 and add 1
try {
_words = new TIndexOffU[nwords];
} catch(std::bad_alloc& ba) {
if(_errmsg != NULL) {
std::cerr << _errmsg;
}
throw 1;
}
assert(_words != NULL);
memset(_words, 0, nwords * OFF_SIZE /* words to bytes */);
_sz = nwords * WORD_SIZE /* words to bits */;
}
/**
* Free memory for words.
*/
~SyncBitset() {
delete[] _words;
}
/**
* Test whether the given bit is set in an unsynchronized manner.
*/
bool testUnsync(TIndexOffU i) {
if(i < _sz) {
return ((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) != 0;
}
return false;
}
/**
* Test whether the given bit is set in a synchronized manner.
*/
bool test(TIndexOffU i) {
bool ret;
ThreadSafe _ts(&mutex_m);
ret = testUnsync(i);
return ret;
}
/**
* Set a bit in the vector that hasn't been set before. Assert if
* it has been set. Uses synchronization.
*/
void set(TIndexOffU i) {
ThreadSafe _ts(&mutex_m);
while(i >= _sz) {
// Slow path: bitset needs to be expanded before the
// specified bit can be set
ASSERT_ONLY(TIndexOffU oldsz = _sz);
expand();
assert_gt(_sz, oldsz);
}
// Fast path
assert_lt(i, _sz);
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0);
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
/**
* Set a bit in the vector that might have already been set. Uses
* synchronization.
*/
void setOver(TIndexOffU i) {
ThreadSafe _ts(&mutex_m);
while(i >= _sz) {
// Slow path: bitset needs to be expanded before the
// specified bit can be set
ASSERT_ONLY(TIndexOffU oldsz = _sz);
expand();
assert_gt(_sz, oldsz);
}
// Fast path
assert_lt(i, _sz);
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
private:
/**
* Expand the size of the _words array by 50% to accommodate more
* bits.
*/
void expand() {
TIndexOffU *newwords = bitsetRealloc(_sz, _words, _errmsg);
delete[] _words; // delete old array
_words = newwords; // install new array
}
const char *_errmsg; // error message if an allocation fails
TIndexOffU _sz; // size as # of bits
MUTEX_T mutex_m; // mutex
TIndexOffU *_words; // storage
};
/**
* A simple unsynchronized bitset class.
*/
class Bitset {
public:
Bitset(TIndexOffU sz, const char *errmsg = NULL) : _errmsg(errmsg) {
TIndexOffU nwords = (sz / WORD_SIZE)+1;
try {
_words = new TIndexOffU[nwords];
} catch(std::bad_alloc& ba) {
if(_errmsg != NULL) {
std::cerr << _errmsg;
}
throw 1;
}
assert(_words != NULL);
memset(_words, 0, nwords * OFF_SIZE);
_sz = nwords * WORD_SIZE;
_cnt = 0;
}
Bitset(const Bitset& o) : _words(NULL) {
this->operator=(o);
}
~Bitset() {
delete[] _words;
}
/**
* Test whether the given bit is set.
*/
bool test(TIndexOffU i) const {
bool ret = false;
if(i < _sz) {
ret = ((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) != 0;
}
return ret;
}
/**
* Set a bit in the vector that hasn't been set before. Assert if
* it has been set.
*/
void set(TIndexOffU i) {
while(i >= _sz) {
// Slow path: bitset needs to be expanded before the
// specified bit can be set
ASSERT_ONLY(TIndexOffU oldsz = _sz);
expand();
assert_gt(_sz, oldsz);
}
// Fast path
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0);
_cnt++;
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
/**
* Set a bit in the vector that might have already been set.
*/
void setOver(TIndexOffU i) {
while(i >= _sz) {
// Slow path: bitset needs to be expanded before the
// specified bit can be set
ASSERT_ONLY(TIndexOffU oldsz = _sz);
expand();
assert_gt(_sz, oldsz);
}
// Fast path
if(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0) _cnt++;
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
/**
* Unset all entries. Don't adjust size.
*/
void clear() {
for(size_t i = 0; i < ((_sz+BITSET_MASK) / WORD_SIZE); i++) {
_words[i] = 0;
}
_cnt = 0;
}
/**
* Return the number of set bits.
*/
TIndexOffU count() const {
return _cnt;
}
/**
* Return true iff no bits are set.
*/
bool empty() const {
return _cnt == 0;
}
/**
* Deep copy from given Bitset to this one.
*/
Bitset& operator=(const Bitset& o) {
_errmsg = o._errmsg;
_sz = o._sz;
_cnt = o._cnt;
if(_words != NULL) delete[] _words;
_words = new TIndexOffU[(_sz+BITSET_MASK) / WORD_SIZE];
for(size_t i = 0; i < (_sz+BITSET_MASK) / WORD_SIZE; i++) {
_words[i] = o._words[i];
}
return *this;
}
private:
/**
* Expand the size of the _words array by 50% to accommodate more
* bits.
*/
void expand() {
TIndexOffU *newwords = bitsetRealloc(_sz, _words, _errmsg);
delete[] _words; // delete old array
_words = newwords; // install new array
}
TIndexOffU _cnt; // number of set bits
const char *_errmsg; // error message if an allocation fails
TIndexOffU _sz; // size as # of bits
TIndexOffU *_words; // storage
};
/**
* A simple fixed-length unsynchronized bitset class.
*/
template<int LEN>
class FixedBitset {
public:
FixedBitset() : _cnt(0), _size(0) {
memset(_words, 0, ((LEN / WORD_SIZE)+1) * OFF_SIZE);
}
/**
* Unset all bits.
*/
void clear() {
memset(_words, 0, ((LEN / WORD_SIZE)+1) * OFF_SIZE);
}
/**
* Return true iff the bit at offset i has been set.
*/
bool test(TIndexOffU i) const {
bool ret = false;
assert_lt(i, LEN);
ret = ((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) != 0;
return ret;
}
/**
* Set the bit at offset i. Assert if the bit was already set.
*/
void set(TIndexOffU i) {
// Fast path
assert_lt(i, LEN);
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0);
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
_cnt++;
if(i >= _size) {
_size = i+1;
}
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
/**
* Set the bit at offset i. Do not assert if the bit was already
* set.
*/
void setOver(TIndexOffU i) {
// Fast path
assert_lt(i, LEN);
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
_cnt++;
if(i >= _size) {
_size = i+1;
}
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
TIndexOffU count() const { return _cnt; }
TIndexOffU size() const { return _size; }
/**
* Return true iff this FixedBitset has the same bits set as
* FixedBitset 'that'.
*/
bool operator== (const FixedBitset<LEN>& that) const {
for(TIndexOffU i = 0; i < (LEN / WORD_SIZE)+1; i++) {
if(_words[i] != that._words[i]) {
return false;
}
}
return true;
}
/**
* Return true iff this FixedBitset does not have the same bits set
* as FixedBitset 'that'.
*/
bool operator!= (const FixedBitset<LEN>& that) const {
for(TIndexOffU i = 0; i < (LEN / WORD_SIZE)+1; i++) {
if(_words[i] != that._words[i]) {
return true;
}
}
return false;
}
/**
* Return a string-ized version of this FixedBitset.
*/
std::string str() const {
std::ostringstream oss;
for(int i = (int)size()-1; i >= 0; i--) {
oss << (test(i)? "1" : "0");
}
return oss.str();
}
private:
TIndexOffU _cnt;
TIndexOffU _size;
TIndexOffU _words[(LEN / WORD_SIZE)+1]; // storage
};
/**
* A simple fixed-length unsynchronized bitset class.
*/
class FixedBitset2 {
public:
FixedBitset2(TIndexOffU len) : len_(len), _cnt(0), _size(0) {
_words = new TIndexOffU[((len_ / WORD_SIZE)+1)];
memset(_words, 0, ((len_ / WORD_SIZE)+1) * OFF_SIZE);
}
~FixedBitset2() { delete[] _words; }
/**
* Unset all bits.
*/
void clear() {
memset(_words, 0, ((len_ / WORD_SIZE)+1) * OFF_SIZE);
_cnt = 0;
_size = 0;
}
/**
* Return true iff the bit at offset i has been set.
*/
bool test(TIndexOffU i) const {
bool ret = false;
assert_lt(i, len_);
ret = ((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) != 0;
return ret;
}
/**
* Set the bit at offset i. Assert if the bit was already set.
*/
void set(TIndexOffU i) {
// Fast path
assert_lt(i, len_);
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0);
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
_cnt++;
if(i >= _size) {
_size = i+1;
}
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
/**
* Clear the bit at offset i. Assert if the bit was not already set.
*/
void clear(TIndexOffU i) {
// Fast path
assert_lt(i, len_);
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
_words[i / WORD_SIZE] &= ~((TIndexOffU)1 << (i & BITSET_MASK));
_cnt--;
if(i >= _size) {
_size = i+1;
}
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0);
}
/**
* Set the bit at offset i. Do not assert if the bit was already
* set.
*/
void setOver(TIndexOffU i) {
// Fast path
assert_lt(i, len_);
if(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 0) {
_words[i / WORD_SIZE] |= ((TIndexOffU)1 << (i & BITSET_MASK));
_cnt++;
}
if(i >= _size) {
_size = i+1;
}
assert(((_words[i / WORD_SIZE] >> (i & BITSET_MASK)) & 1) == 1);
}
TIndexOffU count() const { return _cnt; }
TIndexOffU size() const { return _size; }
/**
* Return true iff this FixedBitset has the same bits set as
* FixedBitset 'that'.
*/
bool operator== (const FixedBitset2& that) const {
for(TIndexOffU i = 0; i < (len_ / WORD_SIZE)+1; i++) {
if(_words[i] != that._words[i]) {
return false;
}
}
return true;
}
/**
* Return true iff this FixedBitset does not have the same bits set
* as FixedBitset 'that'.
*/
bool operator!= (const FixedBitset2& that) const {
for(TIndexOffU i = 0; i < (len_ / WORD_SIZE)+1; i++) {
if(_words[i] != that._words[i]) {
return true;
}
}
return false;
}
/**
* Return a string-ized version of this FixedBitset.
*/
std::string str() const {
std::ostringstream oss;
for(int i = (int)size()-1; i >= 0; i--) {
oss << (test(i)? "1" : "0");
}
return oss.str();
}
private:
const TIndexOffU len_;
TIndexOffU _cnt;
TIndexOffU _size;
TIndexOffU *_words; // storage
};
#endif /* BITSET_H_ */