/*
Copyright (C) 1988 Free Software Foundation
written by Doug Lea (dl@rocky.oswego.edu)
This file is part of the GNU C++ Library. This library is free
software; you can redistribute it and/or modify it under the terms of
the GNU Library General Public License as published by the Free
Software Foundation; either version 2 of the License, or (at your
option) any later version. This library 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 Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with this library; if not, write to the Free Software
Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
/*
BitString class implementation
*/
#ifdef __GNUG__
#pragma implementation
#endif
#include <BitString.h>
#include <std.h>
#include <limits.h>
#include <Obstack.h>
#include <AllocRing.h>
#include <new.h>
#include <builtin.h>
#include <strstream.h>
#undef OK
void BitString::error(const char* msg) const
{
(*lib_error_handler)("BitString", msg);
}
// globals
BitStrRep _nilBitStrRep = { 0, 1, {0} };
BitString _nil_BitString;
#define MINBitStrRep_SIZE 8
#define MAXBitStrRep_SIZE ((1 << (sizeof(short)*CHAR_BIT - 1)) - 1)
#ifndef MALLOC_MIN_OVERHEAD
#define MALLOC_MIN_OVERHEAD 4
#endif
#define ONES ((_BS_word)(~0L))
#define MAXBIT (((_BS_word)1) << (BITSTRBITS - 1))
/*
* bit manipulation utilities
*/
// break things up into .s indices and positions
inline static int BitStr_len(int l)
{
return (unsigned)(l) / BITSTRBITS + 1;
}
// mask out low bits
static inline _BS_word lmask(int p)
{
return ONES _BS_RIGHT p;
}
// mask out high bits
static inline _BS_word rmask(int p)
{
int s = BITSTRBITS - 1 - p;
if (s <= 0)
return ONES;
else
return ONES _BS_LEFT s;
}
// mask out unused bits in last word of rep
inline static void check_last(BitStrRep* r)
{
int bit_len_mod = r->len & (BITSTRBITS - 1);
if (bit_len_mod)
r->s[r->len / BITSTRBITS] &= ONES _BS_LEFT (BITSTRBITS - bit_len_mod);
}
// merge bits from next word
static inline _BS_word borrow_hi(const _BS_word a[], int ind,
int maxind, int p)
{
if (p == 0)
return a[ind];
else if (ind < maxind)
return (a[ind] _BS_LEFT p) | (a[ind+1] _BS_RIGHT (BITSTRBITS - p));
else
return (a[ind] _BS_LEFT p);
}
// merge bits from prev word
static inline _BS_word borrow_lo(const _BS_word a[], int ind,
int minind, int p)
{
_BS_word word = a[ind] _BS_RIGHT (BITSTRBITS - 1 - p);
if (ind > minind)
word |= (a[ind-1] _BS_LEFT (p + 1));
return word;
}
// same with bounds check (for masks shorter than patterns)
static inline _BS_word safe_borrow_hi(const _BS_word a[], int ind,
int maxind, int p)
{
if (ind > maxind)
return 0;
else if (p == 0)
return a[ind];
else if (ind == maxind)
return a[ind] _BS_LEFT p;
else
return (a[ind] _BS_LEFT p) | (a[ind+1] _BS_RIGHT (BITSTRBITS - p));
}
// allocate a new rep; pad to near a power of two
inline static BitStrRep* BSnew(int newlen)
{
unsigned int siz = sizeof(BitStrRep) + BitStr_len(newlen) * sizeof(_BS_word)
+ MALLOC_MIN_OVERHEAD;
unsigned int allocsiz = MINBitStrRep_SIZE;;
while (allocsiz < siz) allocsiz <<= 1;
allocsiz -= MALLOC_MIN_OVERHEAD;
if (allocsiz >= MAXBitStrRep_SIZE * sizeof(_BS_word))
(*lib_error_handler)("BitString", "Requested length out of range");
BitStrRep* rep = new (operator new (allocsiz)) BitStrRep;
memset(rep, 0, allocsiz);
rep->sz =
(allocsiz - sizeof(BitStrRep) + sizeof(_BS_word)) / sizeof(_BS_word);
return rep;
}
inline void
copy_bits (_BS_word* pdst, _BS_size_t dstbit,
const _BS_word* psrc, _BS_size_t srcbit,
_BS_size_t length)
{
_BS_NORMALIZE (pdst, dstbit);
_BS_NORMALIZE (psrc, srcbit);
_BS_copy (pdst, dstbit, psrc, srcbit, length);
}
BitStrRep* BStr_alloc(BitStrRep* old, const _BS_word* src,
int startpos, int endp, int newlen)
{
if (old == &_nilBitStrRep) old = 0;
if (newlen < 0) newlen = 0;
int news = BitStr_len(newlen);
BitStrRep* rep;
if (old == 0 || news > old->sz)
rep = BSnew(newlen);
else
rep = old;
rep->len = newlen;
if (src != 0 && endp > 0 && (src != rep->s || startpos > 0))
copy_bits (rep->s, 0, src, startpos, endp - startpos);
check_last(rep);
if (old != rep && old != 0) delete old;
return rep;
}
BitStrRep* BStr_resize(BitStrRep* old, int newlen)
{
BitStrRep* rep;
if (newlen < 0) newlen = 0;
int news = BitStr_len(newlen);
if (old == 0 || old == &_nilBitStrRep)
{
rep = BSnew(newlen);
}
else if (news > old->sz)
{
rep = BSnew(newlen);
memcpy(rep->s, old->s, BitStr_len(old->len) * sizeof(_BS_word));
delete old;
}
else
rep = old;
rep->len = newlen;
check_last(rep);
return rep;
}
BitStrRep* BStr_copy(BitStrRep* old, const BitStrRep* src)
{
BitStrRep* rep;
if (old == src && old != &_nilBitStrRep) return old;
if (old == &_nilBitStrRep) old = 0;
if (src == &_nilBitStrRep) src = 0;
if (src == 0)
{
if (old == 0)
rep = BSnew(0);
else
rep = old;
rep->len = 0;
}
else
{
int newlen = src->len;
int news = BitStr_len(newlen);
if (old == 0 || news > old->sz)
{
rep = BSnew(newlen);
if (old != 0) delete old;
}
else
rep = old;
memcpy(rep->s, src->s, news * sizeof(_BS_word));
rep->len = newlen;
}
check_last(rep);
return rep;
}
int operator == (const BitString& x, const BitString& y)
{
return x.rep->len == y.rep->len &&
memcmp((void*)x.rep->s, (void*)y.rep->s,
BitStr_len(x.rep->len) * sizeof(_BS_word)) == 0;
}
int operator <= (const BitString& x, const BitString& y)
{
unsigned int xl = x.rep->len;
unsigned int yl = y.rep->len;
if (xl > yl)
return 0;
const _BS_word* xs = x.rep->s;
const _BS_word* topx = &(xs[BitStr_len(xl)]);
const _BS_word* ys = y.rep->s;
while (xs < topx)
{
_BS_word a = *xs++;
_BS_word b = *ys++;
if ((a | b) != b)
return 0;
}
return 1;
}
int operator < (const BitString& x, const BitString& y)
{
unsigned short xl = x.rep->len;
unsigned short yl = y.rep->len;
if (xl > yl)
return 0;
const _BS_word* xs = x.rep->s;
const _BS_word* ys = y.rep->s;
const _BS_word* topx = &(xs[BitStr_len(xl)]);
const _BS_word* topy = &(ys[BitStr_len(yl)]);
int one_diff = 0;
while (xs < topx)
{
_BS_word a = *xs++;
_BS_word b = *ys++;
_BS_word c = a | b;
if (c != b)
return 0;
else if (c != a)
one_diff = 1;
}
if (one_diff)
return 1;
else
{
while (ys < topy)
if (*ys++ != 0)
return 1;
return 0;
}
}
int lcompare(const BitString& x, const BitString& y)
{
return _BS_lcompare_0 (x.rep->s, x.rep->len, y.rep->s, y.rep->len);
}
int BitString::count(unsigned int b) const
{
int count = _BS_count (rep->s, 0, rep->len);
if (!b)
count = rep->len - count;
return count;
}
BitStrRep* cmpl(const BitStrRep* src, BitStrRep* r)
{
r = BStr_copy(r, src);
_BS_word* rs = r->s;
_BS_word* topr = &(rs[BitStr_len(r->len)]);
while (rs < topr)
{
_BS_word cmp = ~(*rs);
*rs++ = cmp;
}
check_last(r);
return r;
}
BitStrRep* and(const BitStrRep* x, const BitStrRep* y, BitStrRep* r)
{
int xrsame = x == r;
int yrsame = y == r;
unsigned int xl = x->len;
unsigned int yl = y->len;
unsigned int rl = (xl <= yl)? xl : yl;
r = BStr_resize(r, rl);
_BS_word* rs = r->s;
_BS_word* topr = &(rs[BitStr_len(rl)]);
const _BS_word* xs = (xrsame)? rs : x->s;
const _BS_word* ys = (yrsame)? rs : y->s;
while (rs < topr) *rs++ = *xs++ & *ys++;
check_last(r);
return r;
}
BitStrRep* or(const BitStrRep* x, const BitStrRep* y, BitStrRep* r)
{
unsigned int xl = x->len;
unsigned int yl = y->len;
unsigned int rl = (xl >= yl)? xl : yl;
int xrsame = x == r;
int yrsame = y == r;
r = BStr_resize(r, rl);
_BS_word* rs = r->s;
const _BS_word* xs = (xrsame)? rs : x->s;
const _BS_word* topx = &(xs[BitStr_len(xl)]);
const _BS_word* ys = (yrsame)? rs : y->s;
const _BS_word* topy = &(ys[BitStr_len(yl)]);
if (xl <= yl)
{
while (xs < topx) *rs++ = *xs++ | *ys++;
if (rs != ys) while (ys < topy) *rs++ = *ys++;
}
else
{
while (ys < topy) *rs++ = *xs++ | *ys++;
if (rs != xs) while (xs < topx) *rs++ = *xs++;
}
check_last(r);
return r;
}
BitStrRep* xor(const BitStrRep* x, const BitStrRep* y, BitStrRep* r)
{
unsigned int xl = x->len;
unsigned int yl = y->len;
unsigned int rl = (xl >= yl)? xl : yl;
int xrsame = x == r;
int yrsame = y == r;
r = BStr_resize(r, rl);
_BS_word* rs = r->s;
const _BS_word* xs = (xrsame)? rs : x->s;
const _BS_word* topx = &(xs[BitStr_len(xl)]);
const _BS_word* ys = (yrsame)? rs : y->s;
const _BS_word* topy = &(ys[BitStr_len(yl)]);
if (xl <= yl)
{
while (xs < topx) *rs++ = *xs++ ^ *ys++;
if (rs != ys) while (ys < topy) *rs++ = *ys++;
}
else
{
while (ys < topy) *rs++ = *xs++ ^ *ys++;
if (rs != xs) while (xs < topx) *rs++ = *xs++;
}
check_last(r);
return r;
}
BitStrRep* diff(const BitStrRep* x, const BitStrRep* y, BitStrRep* r)
{
unsigned int xl = x->len;
unsigned int yl = y->len;
int xrsame = x == y;
int yrsame = y == r;
r = BStr_resize(r, xl);
_BS_word* rs = r->s;
const _BS_word* xs = (xrsame)? rs : x->s;
const _BS_word* topx = &(xs[BitStr_len(xl)]);
const _BS_word* ys = (yrsame)? rs : y->s;
const _BS_word* topy = &(ys[BitStr_len(yl)]);
if (xl <= yl)
{
while (xs < topx) *rs++ = *xs++ & ~(*ys++);
}
else
{
while (ys < topy) *rs++ = *xs++ & ~(*ys++);
if (rs != xs) while (xs < topx) *rs++ = *xs++;
}
check_last(r);
return r;
}
BitStrRep* cat(const BitStrRep* x, const BitStrRep* y, BitStrRep* r)
{
unsigned int xl = x->len;
unsigned int yl = y->len;
unsigned int rl = xl + yl;
int xrsame = x == r;
int yrsame = y == r;
if (yrsame)
{
if (xrsame)
{
r = BStr_resize(r, rl);
copy_bits (r->s, xl, r->s, 0, yl);
}
else
{
BitStrRep* tmp = BStr_copy(0, y);
r = BStr_resize(r, rl);
_BS_copy_0(r->s, x->s, xl);
copy_bits (r->s, xl, tmp->s, 0, yl);
delete tmp;
}
}
else
{
r = BStr_resize(r, rl);
if (!xrsame) _BS_copy_0(r->s, x->s, xl);
copy_bits (r->s, xl, y->s, 0, yl);
}
check_last(r);
return r;
}
BitStrRep* cat(const BitStrRep* x, unsigned int bit, BitStrRep* r)
{
unsigned int xl = x->len;
int xrsame = x == r;
r = BStr_resize(r, xl+1);
if (!xrsame)
_BS_copy_0(r->s, x->s, xl);
if (bit)
r->s[BitStr_index(xl)] |= _BS_BITMASK(BitStr_pos(xl));
else
r->s[BitStr_index(xl)] &= ~(_BS_BITMASK(BitStr_pos(xl)));
check_last(r);
return r;
}
BitStrRep* lshift(const BitStrRep* x, int s, BitStrRep* r)
{
int xrsame = x == r;
int xl = x->len;
int rl = xl + s;
if (s == 0)
r = BStr_copy(r, x);
else if (rl <= 0)
{
r = BStr_resize(r, 0);
r->len = 0;
r->s[0] = 0;
}
else if (s > 0)
{
r = BStr_resize(r, rl);
const _BS_word* xs = (xrsame)? r->s : x->s;
copy_bits (r->s, s, xs, 0, xl);
_BS_clear (r->s, 0, s);
}
else if (xrsame)
{
r = BStr_resize(r, xl);
r->len = rl;
copy_bits (r->s, 0, r->s, -s, xl + s);
}
else
{
r = BStr_resize(r, rl);
copy_bits (r->s, 0, x->s, -s, xl + s);
}
check_last(r);
return r;
}
void BitString::set(int p)
{
if (p < 0) error("Illegal bit index");
if ((unsigned)(p) >= rep->len) rep = BStr_resize(rep, p + 1);
rep->s[BitStr_index(p)] |= _BS_BITMASK(BitStr_pos(p));
}
void BitString::assign(int p, unsigned int bit)
{
if (p < 0) error("Illegal bit index");
if ((unsigned)(p) >= rep->len) rep = BStr_resize(rep, p + 1);
if (bit)
rep->s[BitStr_index(p)] |= _BS_BITMASK(BitStr_pos(p));
else
rep->s[BitStr_index(p)] &= ~(_BS_BITMASK(BitStr_pos(p)));
}
void BitString::clear(int p)
{
if (p < 0) error("Illegal bit index");
if ((unsigned)(p) >= rep->len) rep = BStr_resize(rep, p + 1);
rep->s[BitStr_index(p)] &= ~(_BS_BITMASK(BitStr_pos(p)));
}
void BitString::clear()
{
if (rep == &_nilBitStrRep) return;
_BS_clear (rep->s, 0, rep->len);
}
void BitString::set()
{
if (rep == &_nilBitStrRep) return;
_BS_word* s = rep->s;
_BS_word* tops = &(s[BitStr_len(rep->len)]);
while (s < tops) *s++ = ONES;
check_last(rep);
}
void BitString::invert(int p)
{
if (p < 0) error("Illegal bit index");
if ((unsigned)(p) >= rep->len) rep = BStr_resize(rep, p + 1);
rep->s[BitStr_index(p)] ^= _BS_BITMASK(BitStr_pos(p));
}
void BitString::set(int from, int to)
{
if (from < 0 || from > to) error("Illegal bit index");
if ((unsigned)(to) >= rep->len) rep = BStr_resize(rep, to+1);
_BS_size_t len = to - from + 1;
_BS_word* xs = rep->s;
_BS_NORMALIZE (xs, from);
_BS_invert (xs, from, len);
}
void BitString::clear(int from, int to)
{
if (from < 0 || from > to) error("Illegal bit index");
if ((unsigned)(to) >= rep->len) rep = BStr_resize(rep, to+1);
_BS_size_t len = to - from + 1;
_BS_word* xs = rep->s;
_BS_NORMALIZE (xs, from);
_BS_clear (xs, from, len);
}
void BitString::invert(int from, int to)
{
if (from < 0 || from > to) error("Illegal bit index");
if ((unsigned)(to) >= rep->len) rep = BStr_resize(rep, to+1);
_BS_size_t len = to - from + 1;
_BS_word* xs = rep->s;
_BS_NORMALIZE (xs, from);
_BS_invert (xs, from, len);
}
int BitString::test(int from, int to) const
{
if (from < 0 || from > to || (unsigned)(from) >= rep->len) return 0;
_BS_size_t len = to - from + 1;
_BS_word* xs = rep->s;
_BS_NORMALIZE (xs, from);
return _BS_any (xs, from, len);
}
int BitString::next(int p, unsigned int b) const
{
if ((unsigned)(++p) >= rep->len)
return -1;
int ind = BitStr_index(p);
int pos = BitStr_pos(p);
int l = BitStr_len(rep->len);
int j = ind;
const _BS_word* s = rep->s;
_BS_word a = s[j] >> pos;
int i = pos;
if (b != 0)
{
for (; i < BITSTRBITS && a != 0; ++i)
{
if (a & 1)
return j * BITSTRBITS + i;
a >>= 1;
}
for (++j; j < l; ++j)
{
a = s[j];
for (i = 0; i < BITSTRBITS && a != 0; ++i)
{
if (a & 1)
return j * BITSTRBITS + i;
a >>= 1;
}
}
return -1;
}
else
{
int last = BitStr_pos(rep->len);
if (j == l - 1)
{
for (; i < last; ++i)
{
if ((a & 1) == 0)
return j * BITSTRBITS + i;
a >>= 1;
}
return -1;
}
for (; i < BITSTRBITS; ++i)
{
if ((a & 1) == 0)
return j * BITSTRBITS + i;
a >>= 1;
}
for (++j; j < l - 1; ++j)
{
a = s[j];
if (a != ONES)
{
for (i = 0; i < BITSTRBITS; ++i)
{
if ((a & 1) == 0)
return j * BITSTRBITS + i;
a >>= 1;
}
}
}
a = s[j];
for (i = 0; i < last; ++i)
{
if ((a & 1) == 0)
return j * BITSTRBITS + i;
a >>= 1;
}
return -1;
}
}
int BitString::prev(int p, unsigned int b) const
{
if (--p < 0)
return -1;
int ind = BitStr_index(p);
int pos = BitStr_pos(p);
const _BS_word* s = rep->s;
if ((unsigned)(p) >= rep->len)
{
ind = BitStr_index(rep->len - 1);
pos = BitStr_pos(rep->len - 1);
}
int j = ind;
_BS_word a = s[j];
int i = pos;
_BS_word maxbit = ((_BS_word)1) << pos;
if (b != 0)
{
for (; i >= 0 && a != 0; --i)
{
if (a & maxbit)
return j * BITSTRBITS + i;
a <<= 1;
}
maxbit = ((_BS_word)1) << (BITSTRBITS - 1);
for (--j; j >= 0; --j)
{
a = s[j];
for (i = BITSTRBITS - 1; i >= 0 && a != 0; --i)
{
if (a & maxbit)
return j * BITSTRBITS + i;
a <<= 1;
}
}
return -1;
}
else
{
if (a != ONES)
{
for (; i >= 0; --i)
{
if ((a & maxbit) == 0)
return j * BITSTRBITS + i;
a <<= 1;
}
}
maxbit = ((_BS_word)1) << (BITSTRBITS - 1);
for (--j; j >= 0; --j)
{
a = s[j];
if (a != ONES)
{
for (i = BITSTRBITS - 1; i >= 0; --i)
{
if ((a & maxbit) == 0)
return j * BITSTRBITS + i;
a <<= 1;
}
}
}
return -1;
}
}
int BitString::search(int startx, int lengthx,
const _BS_word* ys, int starty, int lengthy) const
{
const _BS_word* xs = rep->s;
int ylen = lengthy - starty;
int righty = lengthy - 1;
int rev = startx < 0;
if (rev)
{
int leftx = 0;
int rightx = lengthx + startx;
startx = rightx - ylen + 1;
if (ylen == 0) return startx;
if (starty < 0 || righty < 0 || startx < 0 || startx >= lengthx) return -1;
int xind = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int yind = BitStr_index(starty);
int ypos = BitStr_pos(starty);
int rightxind = BitStr_index(rightx);
_BS_word x = borrow_hi(xs, xind, rightxind, xpos);
int rightyind = BitStr_index(righty);
int rightypos = BitStr_pos(righty);
_BS_word y = borrow_hi(ys, yind, rightyind, ypos);
_BS_word ymask;
if (yind == rightyind)
ymask = rmask(rightypos);
else if (yind+1 == rightyind)
ymask = rmask(BITSTRBITS - ypos + rightypos + 1);
else
ymask = ONES;
int p = startx;
for (;;)
{
if ((x & ymask) == y)
{
int xi = xind;
int yi = yind;
for (;;)
{
if (++yi > rightyind || ++xi > rightxind)
return p;
_BS_word tx = borrow_hi(xs, xi, rightxind, xpos);
_BS_word ty = borrow_hi(ys, yi, rightyind, ypos);
if (yi == rightyind)
tx &= rmask(rightypos);
else if (yi+1 == rightyind)
tx &= rmask(BITSTRBITS - ypos + rightypos + 1);
if (tx != ty)
break;
}
}
if (--p < leftx)
return -1;
if (--xpos < 0)
{
xpos = BITSTRBITS - 1;
--xind;
}
x = borrow_hi(xs, xind, rightxind, xpos);
}
}
else
{
int rightx = lengthx - 1;
if (ylen == 0) return startx;
if (starty < 0 || righty < 0 || startx < 0 || startx >= lengthx) return -1;
int xind = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int yind = BitStr_index(starty);
int ypos = BitStr_pos(starty);
int rightxind = BitStr_index(rightx);
_BS_word x = borrow_hi(xs, xind, rightxind, xpos);
_BS_word nextx = (xind >= rightxind) ? 0 : (xs[xind+1] >> xpos);
int rightyind = BitStr_index(righty);
int rightypos = BitStr_pos(righty);
_BS_word y = borrow_hi(ys, yind, rightyind, ypos);
_BS_word ymask;
if (yind == rightyind)
ymask = rmask(rightypos);
else if (yind+1 == rightyind)
ymask = rmask(BITSTRBITS - ypos + rightypos + 1);
else
ymask = ONES;
int p = startx;
for (;;)
{
if ((x & ymask) == y)
{
int xi = xind;
int yi = yind;
for (;;)
{
if (++yi > rightyind || ++xi > rightxind)
return p;
_BS_word tx = borrow_hi(xs, xi, rightxind, xpos);
_BS_word ty = borrow_hi(ys, yi, rightyind, ypos);
if (yi == rightyind)
tx &= rmask(rightypos);
else if (yi+1 == rightyind)
tx &= rmask(BITSTRBITS - ypos + rightypos + 1);
if (tx != ty)
break;
}
}
if (++p > rightx)
return -1;
if (++xpos == BITSTRBITS)
{
xpos = 0;
x = xs[++xind];
nextx = (xind >= rightxind) ? 0 : xs[xind+1];
}
else
{
x >>= 1;
if (nextx & 1)
x |= MAXBIT;
nextx >>= 1;
}
}
}
}
int BitPattern::search(const _BS_word* xs, int startx, int lengthx) const
{
const _BS_word* ys = pattern.rep->s;
const _BS_word* ms = mask.rep->s;
int righty = pattern.rep->len - 1;
int rightm = mask.rep->len - 1;
int rev = startx < 0;
if (rev)
{
int leftx = 0;
int rightx = lengthx + startx;
startx = rightx - righty;
if (righty < 0) return startx;
if (startx < 0 || startx >= lengthx) return -1;
int xind = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int rightxind = BitStr_index(rightx);
int rightmind = BitStr_index(rightm);
int rightyind = BitStr_index(righty);
_BS_word x = safe_borrow_hi(xs, xind, rightxind, xpos);
_BS_word m = safe_borrow_hi(ms, 0, rightmind, 0);
_BS_word y = safe_borrow_hi(ys, 0, rightyind, 0) & m;
int p = startx;
for (;;)
{
if ((x & m) == y)
{
int xi = xind;
int yi = 0;
for (;;)
{
if (++yi > rightyind || ++xi > rightxind)
return p;
_BS_word tm = safe_borrow_hi(ms, yi, rightmind, 0);
_BS_word ty = safe_borrow_hi(ys, yi, rightyind, 0);
_BS_word tx = safe_borrow_hi(xs, xi, rightxind, xpos);
if ((tx & tm) != (ty & tm))
break;
}
}
if (--p < leftx)
return -1;
if (--xpos < 0)
{
xpos = BITSTRBITS - 1;
--xind;
}
x = safe_borrow_hi(xs, xind, rightxind, xpos);
}
}
else
{
int rightx = lengthx - 1;
if (righty < 0) return startx;
if (startx < 0 || startx >= lengthx) return -1;
int xind = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int rightxind = BitStr_index(rightx);
int rightmind = BitStr_index(rightm);
int rightyind = BitStr_index(righty);
_BS_word x = safe_borrow_hi(xs, xind, rightxind, xpos);
_BS_word m = safe_borrow_hi(ms, 0, rightmind, 0);
_BS_word y = safe_borrow_hi(ys, 0, rightyind, 0) & m;
_BS_word nextx = (xind >= rightxind) ? 0 : (xs[xind+1] >> xpos);
int p = startx;
for (;;)
{
if ((x & m) == y)
{
int xi = xind;
int yi = 0;
for (;;)
{
if (++yi > rightyind || ++xi > rightxind)
return p;
_BS_word tm = safe_borrow_hi(ms, yi, rightmind, 0);
_BS_word ty = safe_borrow_hi(ys, yi, rightyind, 0);
_BS_word tx = safe_borrow_hi(xs, xi, rightxind, xpos);
if ((tx & tm) != (ty & tm))
break;
}
}
if (++p > rightx)
return -1;
if (++xpos == BITSTRBITS)
{
xpos = 0;
x = xs[++xind];
nextx = (xind >= rightxind) ? 0 : xs[xind+1];
}
else
{
x >>= 1;
if (nextx & 1)
x |= MAXBIT;
nextx >>= 1;
}
}
}
}
int BitString::match(int startx, int lengthx, int exact,
const _BS_word* ys, int starty, int yl) const
{
const _BS_word* xs = rep->s;
int ylen = yl - starty;
int righty = yl - 1;
int rightx;
int rev = startx < 0;
if (rev)
{
rightx = lengthx + startx;
startx = rightx - ylen + 1;
if (exact && startx != 0)
return 0;
}
else
{
rightx = lengthx - 1;
if (exact && rightx - startx != righty)
return 0;
}
if (ylen == 0) return 1;
if (righty < 0 || startx < 0 || startx >= lengthx) return 0;
int xi = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int yi = BitStr_index(starty);
int ypos = BitStr_pos(starty);
int rightxind = BitStr_index(rightx);
int rightyind = BitStr_index(righty);
int rightypos = BitStr_pos(righty);
for (;;)
{
_BS_word x = borrow_hi(xs, xi, rightxind, xpos);
_BS_word y = borrow_hi(ys, yi, rightyind, ypos);
if (yi == rightyind)
x &= rmask(rightypos);
else if (yi+1 == rightyind)
x &= rmask(BITSTRBITS - ypos + rightypos + 1);
if (x != y)
return 0;
else if (++yi > rightyind || ++xi > rightxind)
return 1;
}
}
int BitPattern::match(const _BS_word* xs, int startx,
int lengthx, int exact) const
{
const _BS_word* ys = pattern.rep->s;
int righty = pattern.rep->len - 1;
_BS_word* ms = mask.rep->s;
int rightm = mask.rep->len - 1;
int rightx;
int rev = startx < 0;
if (rev)
{
rightx = lengthx + startx;
startx = rightx - righty;
if (exact && startx != 0)
return 0;
}
else
{
rightx = lengthx - 1;
if (exact && rightx - startx != righty)
return 0;
}
if (righty < 0) return 1;
if (startx < 0 || startx >= lengthx) return 0;
int xind = BitStr_index(startx);
int xpos = BitStr_pos(startx);
int yind = 0;
int rightxind = BitStr_index(rightx);
int rightyind = BitStr_index(righty);
int rightmind = BitStr_index(rightm);
for(;;)
{
_BS_word m = safe_borrow_hi(ms, yind, rightmind, 0);
_BS_word x = safe_borrow_hi(xs, xind, rightxind, xpos) & m;
_BS_word y = safe_borrow_hi(ys, yind, rightyind, 0) & m;
if (x != y)
return 0;
else if (++yind > rightyind || ++xind > rightxind)
return 1;
}
}
BitSubString& BitSubString::operator = (const BitString& y)
{
if (&S == &_nil_BitString)
return *this;
BitStrRep* targ = S.rep;
unsigned int ylen = y.rep->len;
int sl = targ->len - len + ylen;
if (y.rep == targ || ylen > len)
{
BitStrRep* oldtarg = targ;
targ = BStr_alloc(0, 0, 0, 0, sl);
_BS_copy (targ->s, 0, oldtarg->s, 0, pos);
copy_bits (targ->s, pos, y.rep->s, 0, ylen);
copy_bits (targ->s, pos + ylen, oldtarg->s, pos+len, oldtarg->len-pos-len);
delete oldtarg;
}
else if (len == ylen)
copy_bits (targ->s, pos, y.rep->s, 0, len);
else if (ylen < len)
{
copy_bits (targ->s, pos, y.rep->s, 0, ylen);
copy_bits (targ->s, pos + ylen, targ->s, pos + len, targ->len - pos - len);
targ->len = sl;
}
check_last(targ);
S.rep = targ;
return *this;
}
BitSubString& BitSubString::operator = (const BitSubString& y)
{
if (&S == &_nil_BitString)
return *this;
BitStrRep* targ = S.rep;
if (len == 0 || pos >= targ->len)
return *this;
int sl = targ->len - len + y.len;
if (y.S.rep == targ || y.len > len)
{
BitStrRep* oldtarg = targ;
targ = BStr_alloc(0, 0, 0, 0, sl);
_BS_copy_0(targ->s, oldtarg->s, pos);
copy_bits (targ->s, pos, y.S.rep->s, y.pos, y.len);
copy_bits (targ->s, pos + y.len, oldtarg->s, pos+len,
oldtarg->len-pos-len);
delete oldtarg;
}
else if (len == y.len)
copy_bits (targ->s, pos, y.S.rep->s, y.pos, y.len);
else if (y.len < len)
{
copy_bits (targ->s, pos, y.S.rep->s, y.pos, y.len);
copy_bits (targ->s, pos + y.len, targ->s, pos + len,
targ->len - pos - len);
targ->len = sl;
}
check_last(targ);
S.rep = targ;
return *this;
}
BitSubString BitString::at(int first, int len)
{
return _substr(first, len);
}
BitSubString BitString::before(int pos)
{
return _substr(0, pos);
}
BitSubString BitString::after(int pos)
{
return _substr(pos + 1, rep->len - (pos + 1));
}
BitSubString BitString::at(const BitString& y, int startpos)
{
int first = search(startpos, rep->len, y.rep->s, 0, y.rep->len);
return _substr(first, y.rep->len);
}
BitSubString BitString::before(const BitString& y, int startpos)
{
int last = search(startpos, rep->len, y.rep->s, 0, y.rep->len);
return _substr(0, last);
}
BitSubString BitString::after(const BitString& y, int startpos)
{
int first = search(startpos, rep->len, y.rep->s, 0, y.rep->len);
if (first >= 0) first += y.rep->len;
return _substr(first, rep->len - first);
}
BitSubString BitString::at(const BitSubString& y, int startpos)
{
int first = search(startpos, rep->len, y.S.rep->s, y.pos, y.len);
return _substr(first, y.len);
}
BitSubString BitString::before(const BitSubString& y, int startpos)
{
int last = search(startpos, rep->len, y.S.rep->s, y.pos, y.len);
return _substr(0, last);
}
BitSubString BitString::after(const BitSubString& y, int startpos)
{
int first = search(startpos, rep->len, y.S.rep->s, y.pos, y.len);
if (first >= 0) first += y.len;
return _substr(first, rep->len - first);
}
BitSubString BitString::at(const BitPattern& r, int startpos)
{
int first = r.search(rep->s, startpos, rep->len);
return _substr(first, r.pattern.rep->len);
}
BitSubString BitString::before(const BitPattern& r, int startpos)
{
int first = r.search(rep->s, startpos, rep->len);
return _substr(0, first);
}
BitSubString BitString::after(const BitPattern& r, int startpos)
{
int first = r.search(rep->s, startpos, rep->len);
if (first >= 0) first += r.pattern.rep->len;
return _substr(first, rep->len - first);
}
#if defined(__GNUG__) && !defined(_G_NO_NRV)
#define RETURN(r) return
#define RETURNS(r) return r;
#define RETURN_OBJECT(TYPE, NAME) /* nothing */
#define USE_UNSIGNED 1 /* probably correct */
#else /* _G_NO_NRV */
#define RETURN(r) return r
#define RETURNS(r) /* nothing */
#define RETURN_OBJECT(TYPE, NAME) TYPE NAME;
#define USE_UNSIGNED 0 /* probably old bug */
#endif
BitString
common_prefix (const BitString& x, const BitString& y, int startpos)
RETURNS(r)
{
RETURN_OBJECT(BitString, r);
unsigned int xl = x.rep->len;
unsigned int yl = y.rep->len;
unsigned int startx, starty;
if (startpos < 0)
{
startx = xl + startpos;
starty = yl + startpos;
}
else
startx = starty = startpos;
if (startx >= xl || starty >= yl)
RETURN(r);
const _BS_word* xs = &(x.rep->s[BitStr_index(startx)]);
_BS_word a = *xs++;
unsigned int xp = startx;
const _BS_word* ys = &(y.rep->s[BitStr_index(starty)]);
_BS_word b = *ys++;
unsigned int yp = starty;
for(; xp < xl && yp < yl; ++xp, ++yp)
{
_BS_word xbit = ((_BS_word)1) << (BitStr_pos(xp));
_BS_word ybit = ((_BS_word)1) << (BitStr_pos(yp));
if (((a & xbit) == 0) != ((b & ybit) == 0))
break;
if (xbit == MAXBIT)
a = *xs++;
if (ybit == MAXBIT)
b = *ys++;
}
r.rep = BStr_alloc(0, x.rep->s, startx, xp, xp - startx);
RETURN(r);
}
BitString
common_suffix (const BitString& x, const BitString& y, int startpos)
RETURNS(r)
{
RETURN_OBJECT(BitString, r);
unsigned int xl = x.rep->len;
unsigned int yl = y.rep->len;
unsigned int startx, starty;
if (startpos < 0)
{
startx = xl + startpos;
starty = yl + startpos;
}
else
startx = starty = startpos;
if (startx >= xl || starty >= yl)
RETURN(r);
const _BS_word* xs = &(x.rep->s[BitStr_index(startx)]);
_BS_word a = *xs--;
int xp = startx;
const _BS_word* ys = &(y.rep->s[BitStr_index(starty)]);
_BS_word b = *ys--;
int yp = starty;
for(; xp >= 0 && yp >= 0; --xp, --yp)
{
_BS_word xbit = ((_BS_word)1) << (BitStr_pos(xp));
_BS_word ybit = ((_BS_word)1) << (BitStr_pos(yp));
if (((a & xbit) == 0) != ((b & ybit) == 0))
break;
if (xbit == 1)
a = *xs--;
if (ybit == 1)
b = *ys--;
}
r.rep = BStr_alloc(0, x.rep->s, xp+1, startx+1, startx - xp);
RETURN(r);
}
BitString reverse (const BitString& x)
RETURNS(r)
{
RETURN_OBJECT(BitString, r);
unsigned int yl = x.rep->len;
BitStrRep* y = BStr_resize(0, yl);
if (yl > 0)
{
const _BS_word* ls = x.rep->s;
_BS_word lm = 1;
_BS_word* rs = &(y->s[BitStr_index(yl - 1)]);
_BS_word rm = ((_BS_word)1) << (BitStr_pos(yl - 1));
for (unsigned int l = 0; l < yl; ++l)
{
if (*ls & lm)
*rs |= rm;
if (lm == MAXBIT)
{
++ls;
lm = 1;
}
else
lm <<= 1;
if (rm == 1)
{
--rs;
rm = MAXBIT;
}
else
rm >>= 1;
}
}
r.rep = y;
RETURN(r);
}
BitString
atoBitString (const char* s, char f, char t)
RETURNS(res)
{
RETURN_OBJECT(BitString, res);
int sl = strlen(s);
BitStrRep* r = BStr_resize(0, sl);
if (sl != 0)
{
unsigned int rl = 0;
_BS_word* rs = r->s;
_BS_word a = 0;
_BS_word m = 1;
unsigned int i = 0;
for(;;)
{
char ch = s[i];
if (ch != t && ch != f)
{
*rs = a;
break;
}
++rl;
if (ch == t)
a |= m;
if (++i == sl)
{
*rs = a;
break;
}
else if (i % BITSTRBITS == 0)
{
*rs++ = a;
a = 0;
m = 1;
}
else
m <<= 1;
}
r = BStr_resize(r, rl);
}
res.rep = r;
RETURN(res);
}
BitPattern
atoBitPattern (const char* s, char f,char t,char x)
RETURNS(r)
{
RETURN_OBJECT(BitPattern, r);
int sl = strlen(s);
if (sl != 0)
{
unsigned int rl = 0;
r.pattern.rep = BStr_resize(r.pattern.rep, sl);
r.mask.rep = BStr_resize(r.mask.rep, sl);
_BS_word* rs = r.pattern.rep->s;
_BS_word* ms = r.mask.rep->s;
_BS_word a = 0;
_BS_word b = 0;
_BS_word m = 1;
unsigned int i = 0;
for(;;)
{
char ch = s[i];
if (ch != t && ch != f && ch != x)
{
*rs = a;
*ms = b;
break;
}
++rl;
if (ch == t)
{
a |= m;
b |= m;
}
else if (ch == f)
{
b |= m;
}
if (++i == sl)
{
*rs = a;
*ms = b;
break;
}
else if (i % BITSTRBITS == 0)
{
*rs++ = a;
*ms++ = b;
a = 0;
b = 0;
m = 1;
}
else
m <<= 1;
}
r.pattern.rep = BStr_resize(r.pattern.rep, rl);
r.mask.rep = BStr_resize(r.mask.rep, rl);
}
RETURN(r);
}
extern AllocRing _libgxx_fmtq;
void BitString::printon (ostream& os, char f, char t) const
{
unsigned int xl = rep->len;
const _BS_word* ptr = rep->s;
register streambuf *sb = os.rdbuf();
_BS_word a = 0;
for (unsigned int i = 0; i < xl; ++i)
{
if (i % BITSTRBITS == 0)
a = *ptr++;
sb->sputc((a & 1)? t : f);
a >>= 1;
}
}
const char* BitStringtoa(const BitString& x, char f, char t)
{
int wrksiz = x.length() + 2;
char* fmtbase = (char *) _libgxx_fmtq.alloc(wrksiz);
ostrstream stream(fmtbase, wrksiz);
x.printon(stream, f, t);
stream << ends;
return fmtbase;
}
ostream& operator << (ostream& s, const BitString& x)
{
if (s.opfx())
x.printon(s);
return s;
}
const char* BitPatterntoa(const BitPattern& p, char f,char t,char x)
{
unsigned int pl = p.pattern.rep->len;
unsigned int ml = p.mask.rep->len;
unsigned int l = (pl <= ml)? pl : ml;
int wrksiz = l + 2;
char* fmtbase = (char *) _libgxx_fmtq.alloc(wrksiz);
ostrstream stream(fmtbase, wrksiz);
p.printon(stream, f, t, x);
stream << ends;
return fmtbase;
}
void BitPattern::printon(ostream& s, char f,char t,char x) const
{
unsigned int pl = pattern.rep->len;
unsigned int ml = mask.rep->len;
unsigned int l = (pl <= ml)? pl : ml;
register streambuf *sb = s.rdbuf();
const _BS_word* ps = pattern.rep->s;
const _BS_word* ms = mask.rep->s;
_BS_word a = 0;
_BS_word m = 0;
for (unsigned int i = 0; i < l; ++i)
{
if (i % BITSTRBITS == 0)
{
a = *ps++;
m = *ms++;
}
if (m & 1)
sb->sputc((a & 1)? t : f);
else
sb->sputc(x);
a >>= 1;
m >>= 1;
}
}
ostream& operator << (ostream& s, const BitPattern& x)
{
if (s.opfx())
x.printon(s);
return s;
}
int BitString::OK() const
{
int v = rep != 0; // have a rep;
v &= BitStr_len(rep->len) <= rep->sz; // within allocated size
if (!v) error("invariant failure");
return v;
}
int BitSubString::OK() const
{
int v = S.OK(); // valid BitString
v &= pos + len <= S.rep->len; // within bounds of targ
if (!v) S.error("BitSubString invariant failure");
return v;
}
int BitPattern::OK() const
{
int v = pattern.OK() && mask.OK();
if (!v) pattern.error("BitPattern invariant failure");
return v;
}