b                 251 src/decNumber/decNumber.c # define decFinish(a,b,c,d) decFinalize(a,b,c,d)
b                 726 src/decNumber/decNumber.c     Unit a, b;                          // extract units
b                 729 src/decNumber/decNumber.c     if (ub>msub) b=0;
b                 730 src/decNumber/decNumber.c      else b=*ub;
b                 732 src/decNumber/decNumber.c     if (a|b) {                          // maybe 1 bits to examine
b                 737 src/decNumber/decNumber.c         if (a&b&1) *uc=*uc+(Unit)powers[i];  // effect AND
b                 740 src/decNumber/decNumber.c         j|=b%10;
b                 741 src/decNumber/decNumber.c         b=b/10;
b                 839 src/decNumber/decNumber.c   decNumber *a, *b;                // temporary pointers
b                 858 src/decNumber/decNumber.c       b=bufb;
b                 865 src/decNumber/decNumber.c         b=allocbufb;                    // use the allocated space
b                 867 src/decNumber/decNumber.c       decNumberCopy(b, rhs);            // copy content
b                 868 src/decNumber/decNumber.c       b->bits&=~DECNEG;                 // .. and clear the sign
b                 869 src/decNumber/decNumber.c       rhs=b;                            // use copy from here on
b                1272 src/decNumber/decNumber.c   decNumber *b=bufb;               // temporary b
b                1366 src/decNumber/decNumber.c       b=allocbufb;                      // use the allocated space
b                1377 src/decNumber/decNumber.c     decLnOp(b, w, &aset, &ignore);      // b=ln(10)
b                1380 src/decNumber/decNumber.c     decDivideOp(res, a, b, &aset, DIVIDE, &status); // into result
b                1682 src/decNumber/decNumber.c     Unit a, b;                          // extract units
b                1685 src/decNumber/decNumber.c     if (ub>msub) b=0;
b                1686 src/decNumber/decNumber.c      else b=*ub;
b                1688 src/decNumber/decNumber.c     if (a|b) {                          // maybe 1 bits to examine
b                1692 src/decNumber/decNumber.c         if ((a|b)&1) *uc=*uc+(Unit)powers[i];     // effect OR
b                1695 src/decNumber/decNumber.c         j|=b%10;
b                1696 src/decNumber/decNumber.c         b=b/10;
b                2655 src/decNumber/decNumber.c   decNumber *b=bufb;               // intermediate result
b                2733 src/decNumber/decNumber.c       b=allocbufb;            // ..
b                2802 src/decNumber/decNumber.c       decDivideOp(b, f, a, &workset, DIVIDE, &ignore); // b=f/a
b                2803 src/decNumber/decNumber.c       decAddOp(b, b, a, &workset, 0, &ignore);         // b=b+a
b                2804 src/decNumber/decNumber.c       decMultiplyOp(a, b, t, &workset, &ignore);       // a=b*0.5
b                2840 src/decNumber/decNumber.c     decAddOp(b, a, t, &workset, DECNEG, &ignore); // b = a - 0.5 ulp
b                2842 src/decNumber/decNumber.c     decMultiplyOp(b, b, b, &workset, &ignore);    // b = mulru(b, b)
b                2843 src/decNumber/decNumber.c     decCompareOp(b, f, b, &workset, COMPARE, &ignore); // b ? f, reversed
b                2844 src/decNumber/decNumber.c     if (decNumberIsNegative(b)) {                 // f < b [i.e., b > f]
b                2855 src/decNumber/decNumber.c       decAddOp(b, a, t, &workset, 0, &ignore);    // b = a + 0.5 ulp
b                2857 src/decNumber/decNumber.c       decMultiplyOp(b, b, b, &workset, &ignore);  // b = mulrd(b, b)
b                2858 src/decNumber/decNumber.c       decCompareOp(b, b, f, &workset, COMPARE, &ignore);   // b ? f
b                2859 src/decNumber/decNumber.c       if (decNumberIsNegative(b)) {               // b < f
b                2877 src/decNumber/decNumber.c     decNumberCopy(b, a);
b                2878 src/decNumber/decNumber.c     decTrim(b, set, 1, 1, &dropped);         // [drops trailing zeros]
b                2884 src/decNumber/decNumber.c     if (b->digits*2-1 > workp) {             // cannot fit
b                2889 src/decNumber/decNumber.c       decMultiplyOp(b, b, b, &workset, &mstatus); // try the multiply
b                2894 src/decNumber/decNumber.c         decCompareOp(t, b, rhs, &workset, COMPARE, &mstatus); // b ? rhs
b                3065 src/decNumber/decNumber.c     Unit a, b;                          // extract units
b                3068 src/decNumber/decNumber.c     if (ub>msub) b=0;
b                3069 src/decNumber/decNumber.c      else b=*ub;
b                3071 src/decNumber/decNumber.c     if (a|b) {                          // maybe 1 bits to examine
b                3075 src/decNumber/decNumber.c         if ((a^b)&1) *uc=*uc+(Unit)powers[i];     // effect XOR
b                3078 src/decNumber/decNumber.c         j|=b%10;
b                3079 src/decNumber/decNumber.c         b=b/10;
b                5318 src/decNumber/decNumber.c   decNumber *b=bufb;               // adjustment/work
b                5394 src/decNumber/decNumber.c       b=allocbufb;                    // use the allocated space
b                5409 src/decNumber/decNumber.c     decNumberFromInt32(b, 2302585);     // b=ln(10) (2.302585)
b                5410 src/decNumber/decNumber.c     b->exponent=-6;                     //  ..
b                5411 src/decNumber/decNumber.c     decMultiplyOp(a, a, b, &aset, &ignore);  // a=a*b
b                5416 src/decNumber/decNumber.c     decCopyFit(b, rhs, &aset, &residue, &ignore); // copy & shorten
b                5417 src/decNumber/decNumber.c     b->exponent=0;                      // make integer
b                5418 src/decNumber/decNumber.c     t=decGetInt(b);                     // [cannot fail]
b                5426 src/decNumber/decNumber.c     decNumberFromInt32(b, t>>2);        // b=ln(b) coefficient
b                5427 src/decNumber/decNumber.c     b->exponent=-(t&3)-3;               // set exponent
b                5428 src/decNumber/decNumber.c     b->bits=DECNEG;                     // ln(0.10)->ln(0.99) always -ve
b                5430 src/decNumber/decNumber.c     decAddOp(a, a, b, &aset, 0, &ignore); // acc=a+b
b                5465 src/decNumber/decNumber.c       decExpOp(b, a, &bset, &ignore);   // b=exp(-a)
b                5468 src/decNumber/decNumber.c       decMultiplyOp(b, b, rhs, &bset, &ignore);        // b=b*rhs
b                5469 src/decNumber/decNumber.c       decAddOp(b, b, &numone, &bset, DECNEG, &ignore); // b=b-1
b                5479 src/decNumber/decNumber.c       if (decNumberIsZero(b) ||
b                5480 src/decNumber/decNumber.c           (a->digits+a->exponent)>=(b->digits+b->exponent+set->digits+1)) {
b                5489 src/decNumber/decNumber.c         if (decNumberIsZero(b)) b->exponent=a->exponent-p;
b                5493 src/decNumber/decNumber.c       decAddOp(a, a, b, &aset, 0, &ignore);  // a=a+b for next estimate
b                5938 src/decNumber/decNumber.c                           const Unit *b, Int blength, Int exp) {
b                5951 src/decNumber/decNumber.c     r=b+alength-1;
b                5980 src/decNumber/decNumber.c   accunits=decUnitAddSub(a, alength, b, blength, expunits, acc,
b                6042 src/decNumber/decNumber.c                          const Unit *b, Int blength, Int bshift,
b                6081 src/decNumber/decNumber.c     carry+=((eInt)*b)*m;                // [special-casing m=1/-1
b                6082 src/decNumber/decNumber.c     b++;                                // here is not a win]
b                6165 src/decNumber/decNumber.c       carry+=((eInt)*b)*m;
b                6166 src/decNumber/decNumber.c       b++;
b                 185 src/decNumber/decNumberLocal.h # define UBTOUS(b)  (memcpy((void *)&uswork, b, 2), uswork)
b                 186 src/decNumber/decNumberLocal.h # define UBTOUI(b)  (memcpy((void *)&uiwork, b, 4), uiwork)
b                 189 src/decNumber/decNumberLocal.h # define UBFROMUS(b, i)  (uswork=(i), memcpy(b, (void *)&uswork, 2))
b                 190 src/decNumber/decNumberLocal.h # define UBFROMUI(b, i)  (uiwork=(i), memcpy(b, (void *)&uiwork, 4))
b                 334 src/dps8/dps8.h #  define max(a,b)   max2((a),(b))
b                 336 src/dps8/dps8.h # define max2(a,b)   ((a) > (b) ? (a) : (b))
b                 337 src/dps8/dps8.h # define max3(a,b,c) max((a), max((b),(c)))
b                 340 src/dps8/dps8.h #  define min(a,b)   min2((a),(b))
b                 342 src/dps8/dps8.h # define min2(a,b)   ((a) < (b) ? (a) : (b))
b                 343 src/dps8/dps8.h # define min3(a,b,c) min((a), min((b),(c)))
b                 378 src/dps8/dps8_absi.c                 for (int b = 0; b < 16; b ++)
b                 379 src/dps8/dps8_absi.c                   (void)fprintf (stderr, "%c", pkt[i] & (1 << (16 - b)) ? '1' : '0');
b                1989 src/dps8/dps8_cpu.h static inline void SET_PR_BITNO (cpu_state_t * restrict cpup, uint n, word6 b)
b                1991 src/dps8/dps8_cpu.h      cpu.PAR[n].PR_BITNO = b;
b                1992 src/dps8/dps8_cpu.h      cpu.PAR[n].AR_BITNO = (b % 9) & MASK4;
b                1993 src/dps8/dps8_cpu.h      cpu.PAR[n].AR_CHAR = (b / 9) & MASK2;
b                1995 src/dps8/dps8_cpu.h #define SET_PR_BITNO(n, b) SET_PR_BITNO(cpup, n, b)
b                1996 src/dps8/dps8_cpu.h static inline void SET_AR_CHAR_BITNO (cpu_state_t * restrict cpup, uint n, word2 c, word4 b)
b                1998 src/dps8/dps8_cpu.h      cpu.PAR[n].PR_BITNO = c * 9 + b;
b                1999 src/dps8/dps8_cpu.h      cpu.PAR[n].AR_BITNO = b & MASK4;
b                2002 src/dps8/dps8_cpu.h #define SET_AR_CHAR_BITNO(n, c, b) SET_AR_CHAR_BITNO(cpup, n, c, b)
b                8887 src/dps8/dps8_eis.c     bool b = getbits36_1 (p->data, (uint) bitPosn) != 0;
b                8891 src/dps8/dps8_eis.c     return b;
b                 191 src/dps8/dps8_hw_consts.h # define SETHI36(a,b)    (((a) &= MASKLO18), ((a) |= ((((word36)(b) & MASKLO18) << 18))))
b                 192 src/dps8/dps8_hw_consts.h # define SETLO36(a,b)    (((a) &= MASKHI18), ((a) |= ((word36)(b) & MASKLO18)))
b                 195 src/dps8/dps8_hw_consts.h # define SETHI(a,b)      SETHI36((a),(b))
b                 196 src/dps8/dps8_hw_consts.h # define SETLO(a,b)      SETLO36((a),(b))
b                 200 src/dps8/dps8_hw_consts.h # define SETHI72(a,b)    ((a) &= MASK36, (a) |= ((((word72)(b) & MASK36)) << 36))
b                 201 src/dps8/dps8_hw_consts.h # define SETLO72(a,b)    ((a) &= MASK36 << 36, (a) |= ((word72)(b) & MASK36))
b                  61 src/dps8/dps8_math.c # define ISEQ_128(a,b) iseq_128 (a, b)
b                  64 src/dps8/dps8_math.c # define ISEQ_128(a,b) ((a) == (b))
b                  49 src/dps8/dps8_math128.c bool iseq_128 (uint128 a, uint128 b)
b                  51 src/dps8/dps8_math128.c     return a.h == b.h && a.l == b.l;
b                  54 src/dps8/dps8_math128.c bool isgt_128 (uint128 a, uint128 b)
b                  56 src/dps8/dps8_math128.c     if (a.h > b.h) return true;
b                  57 src/dps8/dps8_math128.c     if (a.h < b.h) return false;
b                  58 src/dps8/dps8_math128.c     if (a.l > b.l) return true;
b                  62 src/dps8/dps8_math128.c bool islt_128 (uint128 a, uint128 b)
b                  64 src/dps8/dps8_math128.c     if (a.h < b.h) return true;
b                  65 src/dps8/dps8_math128.c     if (a.h > b.h) return false;
b                  66 src/dps8/dps8_math128.c     if (a.l < b.l) return true;
b                  70 src/dps8/dps8_math128.c bool isge_128 (uint128 a, uint128 b)
b                  72 src/dps8/dps8_math128.c     if (a.h >  b.h) return true;
b                  73 src/dps8/dps8_math128.c     if (a.h <  b.h) return false;
b                  74 src/dps8/dps8_math128.c     if (a.l >= b.l) return true;
b                  78 src/dps8/dps8_math128.c bool islt_s128 (int128 a, int128 b)
b                  80 src/dps8/dps8_math128.c     if (a.h < b.h) return true;
b                  81 src/dps8/dps8_math128.c     if (a.h > b.h) return false;
b                  82 src/dps8/dps8_math128.c     if (a.l < b.l) return true;
b                  86 src/dps8/dps8_math128.c bool isgt_s128 (int128 a, int128 b)
b                  88 src/dps8/dps8_math128.c     if (a.h > b.h) return true;
b                  89 src/dps8/dps8_math128.c     if (a.h < b.h) return false;
b                  90 src/dps8/dps8_math128.c     if (a.l > b.l) return true;
b                  94 src/dps8/dps8_math128.c uint128 and_128 (uint128 a, uint128 b)
b                  96 src/dps8/dps8_math128.c     return (uint128) {a.h & b.h, a.l & b.l};
b                  99 src/dps8/dps8_math128.c int128 and_s128 (int128 a, uint128 b)
b                 101 src/dps8/dps8_math128.c     return (int128) {a.h & (int64_t)b.h, a.l & b.l};
b                 104 src/dps8/dps8_math128.c uint128 or_128 (uint128 a, uint128 b)
b                 106 src/dps8/dps8_math128.c     return (uint128) {a.h | b.h, a.l | b.l};
b                 109 src/dps8/dps8_math128.c uint128 xor_128 (uint128 a, uint128 b)
b                 111 src/dps8/dps8_math128.c     return (uint128) {a.h ^ b.h, a.l ^ b.l};
b                 119 src/dps8/dps8_math128.c uint128 add_128 (uint128 a, uint128 b)
b                 126 src/dps8/dps8_math128.c     uint64_t bl63 = b.l & MASK63;  // low 63 bits of b
b                 132 src/dps8/dps8_math128.c     unsigned int bl64 = (b.l >> 63) & 1; // bit 64 of b
b                 138 src/dps8/dps8_math128.c     uint64_t h64 = a.h + b.h + c64;      // compute the high
b                 142 src/dps8/dps8_math128.c uint128 subtract_128 (uint128 a, uint128 b)
b                 146 src/dps8/dps8_math128.c     bool borrow = !! (b.l > a.l);
b                 147 src/dps8/dps8_math128.c     uint128 res = construct_128 (a.h - b.h, a.l - b.l);
b                 255 src/dps8/dps8_math128.c         uint64_t b = (h & 1) ? SIGN64 : 0;
b                 260 src/dps8/dps8_math128.c         l |= b;
b                 314 src/dps8/dps8_math128.c         int b = 0;  // Initialize borrow.
b                 317 src/dps8/dps8_math128.c             int t = (int) w[j + m] - (int) v[j] - b;
b                 319 src/dps8/dps8_math128.c             b = (t & 0x40000000) ? 1 : 0;
b                 324 src/dps8/dps8_math128.c         int b = 0;
b                 327 src/dps8/dps8_math128.c             int t = (int) w[i + n] - (int) u[i] - b;
b                 329 src/dps8/dps8_math128.c             b = (t & 0x40000000) ? 1 : 0;
b                 383 src/dps8/dps8_math128.c     const uint32_t b = 65536;   // Number base (16 bits).
b                 399 src/dps8/dps8_math128.c             q[j] = (uint16_t) (((unsigned int) k*b + u[j])/v[0]);    // divisor here.
b                 400 src/dps8/dps8_math128.c             k = (int) (((unsigned int) k*b + u[j]) - q[j]*v[0]);
b                 427 src/dps8/dps8_math128.c         qhat = (un[j+n]*b + un[j+n-1])/vn[n-1];
b                 428 src/dps8/dps8_math128.c         rhat = (un[j+n]*b + un[j+n-1])%vn[n-1];
b                 430 src/dps8/dps8_math128.c         if (qhat >= b || (unsigned)qhat*(unsigned long long)vn[n-2] > b*rhat + un[j+n-2])
b                 434 src/dps8/dps8_math128.c             if (rhat < b) goto cmp_again;
b                 473 src/dps8/dps8_math128.c uint128 multiply_128 (uint128 a, uint128 b)
b                 483 src/dps8/dps8_math128.c     v[3] = (uint32_t) (b.h >> 32);
b                 484 src/dps8/dps8_math128.c     v[2] = (uint32_t)  b.h;
b                 485 src/dps8/dps8_math128.c     v[1] = (uint32_t) (b.l >> 32);
b                 486 src/dps8/dps8_math128.c     v[0] = (uint32_t)  b.l;
b                 493 src/dps8/dps8_math128.c int128 multiply_s128 (int128 a, int128 b)
b                 503 src/dps8/dps8_math128.c     v[3] = (uint32_t) (b.h >> 32);
b                 504 src/dps8/dps8_math128.c     v[2] = (uint32_t)  b.h;
b                 505 src/dps8/dps8_math128.c     v[1] = (uint32_t) (b.l >> 32);
b                 506 src/dps8/dps8_math128.c     v[0] = (uint32_t)  b.l;
b                 514 src/dps8/dps8_math128.c uint128 divide_128 (uint128 a, uint128 b, uint128 * remp)
b                 528 src/dps8/dps8_math128.c     v[0] = (uint16_t)  b.l;
b                 529 src/dps8/dps8_math128.c     v[1] = (uint16_t) (b.l >> 16);
b                 530 src/dps8/dps8_math128.c     v[2] = (uint16_t) (b.l >> 32);
b                 531 src/dps8/dps8_math128.c     v[3] = (uint16_t) (b.l >> 48);
b                 532 src/dps8/dps8_math128.c     v[4] = (uint16_t)  b.h;
b                 533 src/dps8/dps8_math128.c     v[5] = (uint16_t) (b.h >> 16);
b                 534 src/dps8/dps8_math128.c     v[6] = (uint16_t) (b.h >> 32);
b                 535 src/dps8/dps8_math128.c     v[7] = (uint16_t) (b.h >> 48);
b                 569 src/dps8/dps8_math128.c uint128 divide_128_16 (uint128 a, uint16_t b, uint16_t * remp)
b                 583 src/dps8/dps8_math128.c     v[0] = (uint16_t) b;
b                 605 src/dps8/dps8_math128.c uint128 divide_128_32 (uint128 a, uint32_t b, uint32_t * remp)
b                 619 src/dps8/dps8_math128.c     v[0] = (uint16_t) b;
b                 620 src/dps8/dps8_math128.c     v[1] = (uint16_t) (b >> 16);
b                 657 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 658 src/dps8/dps8_math128.c     uint128 r = and_128 (a, b);
b                 673 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 674 src/dps8/dps8_math128.c     uint128 r = or_128 (a, b);
b                 704 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 705 src/dps8/dps8_math128.c     uint128 r = add_128 (a, b);
b                 720 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 721 src/dps8/dps8_math128.c     uint128 r = subtract_128 (a, b);
b                 751 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 753 src/dps8/dps8_math128.c     bool r = isgt_128 (a, b);
b                 797 src/dps8/dps8_math128.c     uint128 b = construct_128 (bh, bl);
b                 798 src/dps8/dps8_math128.c     uint128 r = multiply_128 (a, b);
b                 813 src/dps8/dps8_math128.c     int128 b = construct_s128 (bh, bl);
b                 814 src/dps8/dps8_math128.c     int128 r = multiply_s128 (a, b);
b                 825 src/dps8/dps8_math128.c static void tdiv16 (uint64_t ah, uint64_t al, uint16_t b,
b                 831 src/dps8/dps8_math128.c     uint128 res = divide_128_16 (a, b, & rem);
b                 836 src/dps8/dps8_math128.c                      (unsigned long long)ah,    (unsigned long long)al, b,
b                 842 src/dps8/dps8_math128.c static void tdiv32 (uint64_t ah, uint64_t al, uint32_t b,
b                 848 src/dps8/dps8_math128.c     uint128 res = divide_128_32 (a, b, & rem);
b                 853 src/dps8/dps8_math128.c                      (unsigned long long)ah,    (unsigned long long)al, b,
b                  29 src/dps8/dps8_math128.h bool iseq_128 (uint128 a, uint128 b);
b                  30 src/dps8/dps8_math128.h bool isgt_128 (uint128 a, uint128 b);
b                  31 src/dps8/dps8_math128.h bool islt_128 (uint128 a, uint128 b);
b                  32 src/dps8/dps8_math128.h bool isge_128 (uint128 a, uint128 b);
b                  33 src/dps8/dps8_math128.h bool islt_s128 (int128 a, int128 b);
b                  34 src/dps8/dps8_math128.h bool isgt_s128 (int128 a, int128 b);
b                  35 src/dps8/dps8_math128.h uint128 and_128 (uint128 a, uint128 b);
b                  36 src/dps8/dps8_math128.h int128 and_s128 (int128 a, uint128 b);
b                  37 src/dps8/dps8_math128.h uint128 or_128 (uint128 a, uint128 b);
b                  38 src/dps8/dps8_math128.h uint128 xor_128 (uint128 a, uint128 b);
b                  39 src/dps8/dps8_math128.h uint128 add_128 (uint128 a, uint128 b);
b                  40 src/dps8/dps8_math128.h uint128 subtract_128 (uint128 a, uint128 b);
b                  41 src/dps8/dps8_math128.h uint128 multiply_128 (uint128 a, uint128 b);
b                  42 src/dps8/dps8_math128.h int128 multiply_s128 (int128 a, int128 b);
b                  43 src/dps8/dps8_math128.h uint128 divide_128_16 (uint128 a, uint16_t b, uint16_t * rem);
b                  44 src/dps8/dps8_math128.h uint128 divide_128_32 (uint128 a, uint32_t b, uint32_t * rem);
b                  45 src/dps8/dps8_math128.h uint128 divide_128 (uint128 a, uint128 b, uint128 * rem);
b                1624 src/dps8/dps8_mgp.c           char b[2] = { i, 0 };
b                1628 src/dps8/dps8_mgp.c           if (write(status_conns[1], b, 1) < 0)
b                1670 src/dps8/dps8_mgp.c 
b                1674 src/dps8/dps8_mgp.c 
b                2042 src/dps8/dps8_mgp.c                   char b[2];
b                2046 src/dps8/dps8_mgp.c                   int s = read(status_conns[0], b, 1);
b                2063 src/dps8/dps8_mgp.c                          __func__, b[0]);
b                2065 src/dps8/dps8_mgp.c                       statusconn = b[0];
b                 375 src/dps8/dps8_prt.c static word9 gc (word36 * b, uint os)
b                 379 src/dps8/dps8_prt.c     return (word9) getbits36_9 (b[wordno], charno * 9);
b                 391 src/dps8/dps8_prt.c static int parseID (word36 * b, uint tally, char * qno, char * name)
b                 395 src/dps8/dps8_prt.c     if (gc (b, 0) != 040)
b                 397 src/dps8/dps8_prt.c     if (gc (b, 1) != 040)
b                 402 src/dps8/dps8_prt.c         word9 ch = gc (b, 2 + i);
b                 408 src/dps8/dps8_prt.c     if (gc (b, 7) != 037)
b                 414 src/dps8/dps8_prt.c         word9 ch = gc (b, 9 + i);
b                  41 src/dps8/dps8_socket_dev.c # define bzero(b,len) ((void)memset((b), '\0', (len)), (void) 0)
b                3655 src/dps8/dps8_sys.c static int dbgevent_compar (const void * a, const void * b)
b                3658 src/dps8/dps8_sys.c     struct dbgevent_t * eb = (struct dbgevent_t *) b;
b                 131 src/dps8/ucache.c # define pct(a, b) ((b) ? (a) * 100.0 / ((a) + (b)) : 0)
b                 132 src/dps8/ucache.c # define args(a, b, c) a, b, c, pct (a, (b + c))
b                 701 src/dps8/udplib.c                 for (int b = 0; b < 16; b ++)
b                 702 src/dps8/udplib.c                   (void)fprintf (stderr, "%c", pkt [i] & (1 << b) ? '1' : '0');
b                 575 src/libsir/include/sir.h sir_textcolor sir_makergb(sir_textcolor r, sir_textcolor g, sir_textcolor b);
b                 167 src/libsir/include/sir/helpers.h # define _sir_eqland(b, expr) ((b) = (expr) && (b))
b                 310 src/libsir/include/sir/helpers.h sir_textcolor _sir_makergb(sir_textcolor r, sir_textcolor g, sir_textcolor b) {
b                 314 src/libsir/include/sir/helpers.h     _sir_setblueincolor(retval, b);
b                 185 src/libsir/src/sir.c sir_textcolor sir_makergb(sir_textcolor r, sir_textcolor g, sir_textcolor b) {
b                 186 src/libsir/src/sir.c     return _sir_makergb(r, g, b);
b                 602 src/simh/linehistory.c   char *b;
b                 609 src/simh/linehistory.c   ab->b = NULL;
b                 621 src/simh/linehistory.c   char *new = realloc(ab->b, 1 + ab->len + len);
b                 629 src/simh/linehistory.c   ab->b    = new;
b                 636 src/simh/linehistory.c   free(ab->b); /* X-LINTED: FREE */
b                 757 src/simh/linehistory.c   if (write(fd, ab.b, ab.len) == -1)
b                 880 src/simh/linehistory.c   if (write(fd, ab.b, ab.len) == -1)
b                 191 src/simh/scp.c #define MAX(a,b)  (((a) >= (b)) ? (a) : (b))
b                2243 src/simh/scp.c CTAB * const *b = (CTAB * const *)pb;
b                2245 src/simh/scp.c return strcmp((*a)->name, (*b)->name);
b                  43 src/simh/sim_fio.h # define fxread(a,b,c,d)  sim_fread (a, b, c, d)
b                  44 src/simh/sim_fio.h # define fxwrite(a,b,c,d) sim_fwrite (a, b, c, d)
b                  63 src/simh/sim_timer.c #define MIN(a,b)  (((a) < (b)) ? (a) : (b))
b                  68 src/simh/sim_timer.c #define MAX(a,b)  (((a) > (b)) ? (a) : (b))