WORD_BITS         413 src/bignum.c           r = ldexp((double)b->values[1], WORD_BITS) + (double)b->values[0];
WORD_BITS         416 src/bignum.c           r = ldexp((double)b->values[b->size-1], WORD_BITS*(b->size-1))
WORD_BITS         417 src/bignum.c               + ldexp((double)b->values[b->size-2], WORD_BITS*(b->size-2))
WORD_BITS         418 src/bignum.c               + ldexp((double)b->values[b->size-3], WORD_BITS*(b->size-3));
WORD_BITS         755 src/bignum.c       int nwords = amount / WORD_BITS;
WORD_BITS         756 src/bignum.c       int nbits = amount % WORD_BITS;
WORD_BITS         770 src/bignum.c               x = (bx->values[i+1]<<(WORD_BITS-nbits))|(bx->values[i]>>nbits);
WORD_BITS         787 src/bignum.c       nwords = amount / WORD_BITS;
WORD_BITS         788 src/bignum.c       nbits = amount % WORD_BITS;
WORD_BITS         798 src/bignum.c                   bx->values[bx->size-1]>>(WORD_BITS-nbits);
WORD_BITS         801 src/bignum.c               x = (bx->values[i]<<nbits)|(bx->values[i-1]>>(WORD_BITS-nbits));
WORD_BITS         925 src/bignum.c       u_long b = (1L<<(WORD_BITS-1)), c = 0;
WORD_BITS        1108 src/bignum.c           int rsize = SCM_BIGNUM_SIZE(x) + (cnt+WORD_BITS-1)/WORD_BITS;
WORD_BITS        1112 src/bignum.c           int rsize = SCM_BIGNUM_SIZE(x) + cnt/WORD_BITS;
WORD_BITS          51 src/gauche/arith.h #define HALF_BITS          (WORD_BITS/2)
WORD_BITS          55 src/gauche/arith.h #define LONG_MIN           ((long)(1L<<(WORD_BITS-1)))