postgresql/contrib/bit/varbit.h
2000-04-12 17:17:23 +00:00

74 lines
2.3 KiB
C

#include <stdlib.h>
#include <ctype.h>
#include <errno.h>
#include <float.h> /* faked on sunos4 */
#include <math.h>
#include "postgres.h"
#ifdef HAVE_LIMITS_H
#include <limits.h>
#ifndef MAXINT
#define MAXINT INT_MAX
#endif
#else
#ifdef HAVE_VALUES_H
#include <values.h>
#endif
#endif
#include "fmgr.h"
#include "utils/timestamp.h"
#include "utils/builtins.h"
#define HEXDIG(z) (z)<10 ? ((z)+'0') : ((z)-10+'A')
/* Modeled on struct varlena from postgres.h, bu data type is bits8 */
struct varbita
{
int32 vl_len;
bits8 vl_dat[1];
};
#define BITSPERBYTE 8
#define VARBITHDRSZ sizeof(int32)
/* Number of bits in this bit string */
#define VARBITLEN(PTR) (((struct varbita *)VARDATA(PTR))->vl_len)
/* Pointer tp the first byte containing bit string data */
#define VARBITS(PTR) (((struct varbita *)VARDATA(PTR))->vl_dat)
/* Number of bytes in the data section of a bit string */
#define VARBITBYTES(PTR) (VARSIZE(PTR) - VARHDRSZ - VARBITHDRSZ)
/* Padding of the bit string at the end */
#define VARBITPAD(PTR) (VARBITBYTES(PTR)*BITSPERBYTE - VARBITLEN(PTR))
/* Number of bytes needed to store a bit string of a given length */
#define VARBITDATALEN(BITLEN) (BITLEN/BITSPERBYTE + \
(BITLEN%BITSPERBYTE > 0 ? 1 : 0) + \
VARHDRSZ + VARBITHDRSZ)
/* pointer beyond the end of the bit string (like end() in STL containers) */
#define VARBITEND(PTR) ((bits8 *) (PTR + VARSIZE(PTR)))
/* Mask that will cover exactly one byte, i.e. BITSPERBYTE bits */
#define BITMASK 0xFF
#define BITHIGH 0x80
bits8 *zpbitin(char *s, int dummy, int32 atttypmod);
char *zpbitout(bits8 *s);
char *zpbitsout(bits8 *s);
bits8 *varbitin(char *s, int dummy, int32 atttypmod);
bool biteq(bits8 *arg1, bits8 *arg2);
bool bitne(bits8 *arg1, bits8 *arg2);
bool bitge(bits8 *arg1, bits8 *arg2);
bool bitgt(bits8 *arg1, bits8 *arg2);
bool bitle(bits8 *arg1, bits8 *arg2);
bool bitlt(bits8 *arg1, bits8 *arg2);
int bitcmp(bits8 *arg1, bits8 *arg2);
bits8 *bitand(bits8 *arg1, bits8 *arg2);
bits8 *bitor(bits8 *arg1, bits8 *arg2);
bits8 *bitxor(bits8 *arg1, bits8 *arg2);
bits8 *bitnot(bits8 *arg);
bits8 *bitshiftright(bits8 *arg, int shft);
bits8 *bitshiftleft(bits8 *arg, int shft);
bits8 *bitcat(bits8 *arg1, bits8 *arg2);
bits8 *bitsubstr(bits8 *arg, int32 s, int32 l);