t 1217 src/decNumber/decNumber.c decNumber *t=buft; // .. t 1218 src/decNumber/decNumber.c decNumberFromInt32(t, ae); // lay it out t 1219 src/decNumber/decNumber.c decNumberPlus(res, t, set); // round as necessary t 1263 src/decNumber/decNumber.c Int t; // digits in exponent of A t 1333 src/decNumber/decNumber.c t=6; // it can never be >6 t 1336 src/decNumber/decNumber.c p=(rhs->digits+t>set->digits?rhs->digits+t:set->digits)+3; t 2658 src/decNumber/decNumber.c decNumber *t=buft; // up-to-3-digit constant or work t 2751 src/decNumber/decNumber.c t->bits=0; t->digits=3; t 2755 src/decNumber/decNumber.c t->exponent=-3; t 2758 src/decNumber/decNumber.c t->lsu[0]=259; t 2761 src/decNumber/decNumber.c t->lsu[0]=59; t->lsu[1]=2; t 2764 src/decNumber/decNumber.c t->lsu[0]=9; t->lsu[1]=5; t->lsu[2]=2; t 2772 src/decNumber/decNumber.c t->exponent=-4; t 2775 src/decNumber/decNumber.c t->lsu[0]=819; t 2778 src/decNumber/decNumber.c t->lsu[0]=19; t->lsu[1]=8; t 2781 src/decNumber/decNumber.c t->lsu[0]=9; t->lsu[1]=1; t->lsu[2]=8; t 2787 src/decNumber/decNumber.c decAddOp(a, a, t, &workset, 0, &ignore); // ..+t t 2793 src/decNumber/decNumber.c decNumberZero(t); // set t = 0.5 t 2794 src/decNumber/decNumber.c t->lsu[0]=5; // .. t 2795 src/decNumber/decNumber.c t->exponent=-1; // .. t 2804 src/decNumber/decNumber.c decMultiplyOp(a, b, t, &workset, &ignore); // a=b*0.5 t 2839 src/decNumber/decNumber.c t->exponent=-a->digits-1; // make 0.5 ulp t 2840 src/decNumber/decNumber.c decAddOp(b, a, t, &workset, DECNEG, &ignore); // b = a - 0.5 ulp t 2846 src/decNumber/decNumber.c t->exponent++; // make 1.0 ulp t 2847 src/decNumber/decNumber.c t->lsu[0]=1; // .. t 2848 src/decNumber/decNumber.c decAddOp(a, a, t, &workset, DECNEG, &ignore); // a = a - 1 ulp t 2855 src/decNumber/decNumber.c decAddOp(b, a, t, &workset, 0, &ignore); // b = a + 0.5 ulp t 2860 src/decNumber/decNumber.c t->exponent++; // make 1.0 ulp t 2861 src/decNumber/decNumber.c t->lsu[0]=1; // .. t 2862 src/decNumber/decNumber.c decAddOp(a, a, t, &workset, 0, &ignore); // a = a + 1 ulp t 2894 src/decNumber/decNumber.c decCompareOp(t, b, rhs, &workset, COMPARE, &mstatus); // b ? rhs t 2895 src/decNumber/decNumber.c if (!ISZERO(t)) status|=DEC_Inexact|DEC_Rounded; // not equal t 3756 src/decNumber/decNumber.c const decNumber *t; t 3759 src/decNumber/decNumber.c t=lhs; lhs=rhs; rhs=t; t 4980 src/decNumber/decNumber.c decNumber *t=buft; // term t 5135 src/decNumber/decNumber.c t=allocbuft; // use the allocated space t 5138 src/decNumber/decNumber.c decNumberCopy(t, x); // term=x t 5157 src/decNumber/decNumber.c decAddOp(a, a, t, &aset, 0, status); // a=a+t t 5158 src/decNumber/decNumber.c decMultiplyOp(t, t, x, &tset, &ignore); // t=t*x t 5159 src/decNumber/decNumber.c decDivideOp(t, t, d, &tset, DIVIDE, &ignore); // t=t/d t 5164 src/decNumber/decNumber.c if (((a->digits+a->exponent)>=(t->digits+t->exponent+p+1)) t 5180 src/decNumber/decNumber.c decNumberZero(t); *t->lsu=1; // acc=1 t 5184 src/decNumber/decNumber.c if (*status&DEC_Overflow || ISZERO(t)) break;} t 5188 src/decNumber/decNumber.c decMultiplyOp(t, t, a, &aset, status); // acc=acc*x t 5192 src/decNumber/decNumber.c decMultiplyOp(t, t, t, &aset, status); // acc=acc*acc [square] t 5195 src/decNumber/decNumber.c a=t; // and carry on using t instead of a t 5309 src/decNumber/decNumber.c Int t; // work t 5418 src/decNumber/decNumber.c t=decGetInt(b); // [cannot fail] t 5420 src/decNumber/decNumber.c if (t<0) t=10; t 5422 src/decNumber/decNumber.c if (t<10) t=X10(t); // adjust single-digit b t 5424 src/decNumber/decNumber.c t=LNnn[t-10]; // look up ln(b) t 5426 src/decNumber/decNumber.c decNumberFromInt32(b, t>>2); // b=ln(b) coefficient t 5427 src/decNumber/decNumber.c b->exponent=-(t&3)-3; // set exponent t 161 src/decNumber/decNumberLocal.h uInt u0, u1, v0, v1, w0, w1, w2, t; \ t 165 src/decNumber/decNumberLocal.h t=u1*v0 + (w0>>16); \ t 166 src/decNumber/decNumberLocal.h w1=t & 0xffff; w2=t>>16; \ t 1042 src/dps8/dps8_append.c static char *str_pct (processor_cycle_type t) t 1044 src/dps8/dps8_append.c switch (t) t 804 src/dps8/dps8_cpu.c long n, s, o, t; t 825 src/dps8/dps8_cpu.c t = strtol (end + 1, & end, 0); t 828 src/dps8/dps8_cpu.c if (t < 0 || t > 30000000) t 833 src/dps8/dps8_cpu.c stall_points[n].time = (unsigned int) t; t 4684 src/dps8/dps8_cpu.c struct timespec t; t 4685 src/dps8/dps8_cpu.c clock_gettime(CLOCK_REALTIME, &t); t 4726 src/dps8/dps8_cpu.c (long long)t.tv_sec, t.tv_nsec/1000, cnt, t 1180 src/dps8/dps8_math.c int128 t = SIGNEXT72_128(m2); t 1181 src/dps8/dps8_math.c uint128 ut = rshift_128 (cast_128 (t), 44); t 161 src/dps8/dps8_math128.c uint128 t = add_128 (complement_128 (cast_128 (a)), construct_128 (0, 1)); t 162 src/dps8/dps8_math128.c return cast_s128 (t); t 196 src/dps8/dps8_math128.c uint128 t = lshift_128 (cast_128 (a), n); t 197 src/dps8/dps8_math128.c return cast_s128 (t); t 268 src/dps8/dps8_math128.c uint128 t = rshift_128 (cast_128 (a), n); t 269 src/dps8/dps8_math128.c return cast_s128 (t); t 283 src/dps8/dps8_math128.c uint64_t k, t; t 294 src/dps8/dps8_math128.c t = (uint64_t) u[i] * (uint64_t) v[j] + (uint64_t) w[i + j] + k; t 296 src/dps8/dps8_math128.c w[i + j] = (uint32_t) t; // (i.e., t & 0xFFFF). t 297 src/dps8/dps8_math128.c k = t >> 32; t 317 src/dps8/dps8_math128.c int t = (int) w[j + m] - (int) v[j] - b; t 318 src/dps8/dps8_math128.c w[j + m] = (uint32_t) t; t 319 src/dps8/dps8_math128.c b = (t & 0x40000000) ? 1 : 0; t 327 src/dps8/dps8_math128.c int t = (int) w[i + n] - (int) u[i] - b; t 328 src/dps8/dps8_math128.c w[i + n] = (uint32_t) t; t 329 src/dps8/dps8_math128.c b = (t & 0x40000000) ? 1 : 0; t 388 src/dps8/dps8_math128.c int s, i, j, t, k; t 442 src/dps8/dps8_math128.c t = (int32_t) un[i+j] - k - (int32_t) (p & 0xFFFF); t 443 src/dps8/dps8_math128.c un[i+j] = (uint16_t) t; t 444 src/dps8/dps8_math128.c k = (int) (p >> 16) - (t >> 16); t 446 src/dps8/dps8_math128.c t = un[j+n] - k; t 447 src/dps8/dps8_math128.c un[j+n] = (uint16_t) t; t 450 src/dps8/dps8_math128.c if (t < 0) t 456 src/dps8/dps8_math128.c t = un[i+j] + vn[i] + k; t 457 src/dps8/dps8_math128.c un[i+j] = (uint16_t) t; t 458 src/dps8/dps8_math128.c k = t >> 16; t 764 src/dps8/dps8_mgp.c pktype_name(uint t) t 766 src/dps8/dps8_mgp.c if (( t > 0 ) && ( t <= pktype_ORDER )) t 768 src/dps8/dps8_mgp.c return pktype_names[t]; t 770 src/dps8/dps8_mgp.c else if (t == pktype_DATA) t 1172 src/dps8/dps8_mgp.c time_t t = time(0); t 1173 src/dps8/dps8_mgp.c h = hash32s(&t, sizeof(t), h); t 4413 src/dps8/dps8_sys.c time_t t = time(0); t 4414 src/dps8/dps8_sys.c h = hash32s(&t, sizeof(t), h); t 1713 src/dps8/dps8_utils.c t 1714 src/dps8/dps8_utils.c t 166 src/dps8/hdbg.c # define hev(t, tf, filter) \ t 176 src/dps8/hdbg.c hevents[p].type = t; \ t 577 src/dps8/hdbg.c struct hevt * t = hevents; t 590 src/dps8/hdbg.c struct hevt * evtp = t + q; t 77 src/dps8/hdbg.h # define HDBGIEFP(t, s, o, c) hdbgIEFP (t, s, o, c); t 196 src/dps8/libtelnet.c #define _sendu(t, d, s) _send((t), (const char*)(d), (s)) t 501 src/dps8/panelScraper.c time_t t = time (NULL); t 502 src/dps8/panelScraper.c SETL (bank_a, 0+3, (word36) t, 36); t 133 src/dps8/utfile.c time_t t = time(0); t 134 src/dps8/utfile.c h = hash32s(&t, sizeof(t), h); t 8129 src/simh/scp.c int32 t; t 8223 src/simh/scp.c if ((t = get_switches (gbuf)) != 0) { /* try for switches */ t 8224 src/simh/scp.c if (t < 0) { /* err if bad switch */ t 8228 src/simh/scp.c sim_switches = sim_switches | t; /* or in new switches */ t 9131 src/simh/scp.c int32 i, t; t 9137 src/simh/scp.c t = sim_brk_lnt + SIM_BRK_INILNT; /* new size */ t 9138 src/simh/scp.c newp = (BRKTAB **) calloc (t, sizeof (BRKTAB*)); /* new table */ t 9145 src/simh/scp.c sim_brk_lnt = t; t 870 src/simh/sim_tmxr.c time_t t = time(0); t 871 src/simh/sim_tmxr.c h = hash32s(&t, sizeof(t), h); t 3941 src/simh/sim_tmxr.c int32 i, t; t 3945 src/simh/sim_tmxr.c for (i = t = 0; i < mp->lines; i++) t 3948 src/simh/sim_tmxr.c t = t + 1; t 3950 src/simh/sim_tmxr.c fprintf (st, "%d current connection%s", t, (t != 1) ? "s" : ""); t 3952 src/simh/sim_tmxr.c fprintf (st, "%s", (t == 1) ? "connected" : "disconnected");