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/*
LA : linear algebra C + + interface library
Copyright ( C ) 2008 Jiri Pittner < jiri . pittner @ jh - inst . cas . cz > or < jiri @ pittnerovi . com >
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 3 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 , see < http : //www.gnu.org/licenses/>.
*/
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# ifndef _BITVECTOR_H_
# define _BITVECTOR_H_
# include "vec.h"
//compressed storage of large bit vectors
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//any reasonable compiler changes the dividions and modulos to shift/and instructions
typedef unsigned long bitvector_block ; //should be automatically portable and efficiently use wordlength of each machine (32 vs 64)
# define blockbits (8*sizeof(bitvector_block))
inline unsigned int bitvector_rounded ( unsigned int n )
{
return ( ( n + blockbits - 1 ) / blockbits ) * blockbits ;
}
class bitvector : public NRVec < bitvector_block >
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{
private :
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unsigned int modulo ;
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public :
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bitvector ( ) : NRVec < bitvector_block > ( ) { } ;
explicit bitvector ( const unsigned int n ) : NRVec < bitvector_block > ( ( n + blockbits - 1 ) / blockbits ) { modulo = n % blockbits ; } ;
bitvector ( const bitvector_block a , const unsigned int n ) : NRVec < bitvector_block > ( a , ( n + blockbits - 1 ) / blockbits ) { modulo = n % blockbits ; } ;
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bitvector ( const bitvector & rhs ) : NRVec < bitvector_block > ( rhs ) { modulo = rhs . modulo ; } ;
//operator= seems to be correctly synthetized by the compiler
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//override dereferencing to address single bits, is however possible
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//only in the const context (otherwise we would have to define a type which, when assigned to, changes a single bit - possible but probably inefficient)
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void resize ( const unsigned int n ) { NRVec < bitvector_block > : : resize ( ( n + blockbits - 1 ) / blockbits ) ; modulo = n % blockbits ; } ;
unsigned int size ( ) const { return ( nn * blockbits ) - blockbits + ( modulo ? modulo : blockbits ) ; } ;
//arguments must be unsigned to keep the resulting assembly code simple and efficient
const bool operator [ ] ( const unsigned int i ) const { return ( v [ i / blockbits ] > > ( i % blockbits ) ) & 1 ; } ;
void set ( const unsigned int i ) { v [ i / blockbits ] | = ( 1 < < ( i % blockbits ) ) ; } ;
void reset ( const unsigned int i ) { v [ i / blockbits ] & = ~ ( 1 < < ( i % blockbits ) ) ; } ;
const bool get ( const unsigned int i ) { return ( v [ i / blockbits ] > > ( i % blockbits ) ) & 1 ; } ;
const bool assign ( const unsigned int i , const bool r ) { if ( r ) set ( i ) ; else reset ( i ) ; return r ; } ;
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void clear ( ) { copyonwrite ( ) ; memset ( v , 0 , nn * sizeof ( bitvector_block ) ) ; } ;
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void fill ( ) { memset ( v , 0xff , nn * sizeof ( bitvector_block ) ) ; } ;
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bool operator ! = ( const bitvector & rhs ) const ;
bool operator = = ( const bitvector & rhs ) const { return ! ( * this ! = rhs ) ; } ;
bool operator > ( const bitvector & rhs ) const ;
bool operator < ( const bitvector & rhs ) const ;
bool operator > = ( const bitvector & rhs ) const { return ! ( * this < rhs ) ; } ;
bool operator < = ( const bitvector & rhs ) const { return ! ( * this > rhs ) ; } ;
bitvector operator ~ ( ) const ;
bitvector & operator & = ( const bitvector & rhs ) ;
bitvector & operator | = ( const bitvector & rhs ) ;
bitvector & operator ^ = ( const bitvector & rhs ) ;
bitvector operator & ( const bitvector & rhs ) const { return bitvector ( * this ) & = rhs ; } ;
bitvector operator | ( const bitvector & rhs ) const { return bitvector ( * this ) | = rhs ; } ;
bitvector operator ^ ( const bitvector & rhs ) const { return bitvector ( * this ) ^ = rhs ; } ;
unsigned int population ( const unsigned int before = 0 ) const ; //@@@number of 1's
//extended, truncated const i.e. not on *this but return new entity, take care of modulo's bits
//logical shifts <<= >>= << >> not implemented yet
//logical rotations not implemented yet
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} ;
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extern ostream & operator < < ( ostream & s , const bitvector & x ) ;
extern istream & operator > > ( istream & s , bitvector & x ) ;
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# endif