uint32_t 82 src/decNumber/decContext.h uint32_t traps; /* trap-enabler flags */ uint32_t 83 src/decNumber/decContext.h uint32_t status; /* status flags */ uint32_t 240 src/decNumber/decContext.h extern decContext * decContextClearStatus(decContext *, uint32_t); uint32_t 243 src/decNumber/decContext.h extern uint32_t decContextGetStatus(decContext *); uint32_t 244 src/decNumber/decContext.h extern decContext * decContextRestoreStatus(decContext *, uint32_t, uint32_t); uint32_t 245 src/decNumber/decContext.h extern uint32_t decContextSaveStatus(decContext *, uint32_t); uint32_t 247 src/decNumber/decContext.h extern decContext * decContextSetStatus(decContext *, uint32_t); uint32_t 250 src/decNumber/decContext.h extern decContext * decContextSetStatusQuiet(decContext *, uint32_t); uint32_t 253 src/decNumber/decContext.h extern uint32_t decContextTestSavedStatus(uint32_t, uint32_t); uint32_t 254 src/decNumber/decContext.h extern uint32_t decContextTestStatus(decContext *, uint32_t); uint32_t 488 src/decNumber/decDPD.h const uint32_t DPD2BINK[1024]={ 0, 1000, 2000, 3000, 4000, 5000, uint32_t 596 src/decNumber/decDPD.h const uint32_t DPD2BINM[1024]={0, 1000000, 2000000, 3000000, 4000000, uint32_t 51 src/decNumber/decDouble.h uint32_t words[DECDOUBLE_Bytes/4]; uint32_t 67 src/decNumber/decDouble.h extern decDouble * decDoubleFromUInt32(decDouble *, uint32_t); uint32_t 80 src/decNumber/decDouble.h extern uint32_t decDoubleToUInt32(const decDouble *, decContext *, enum rounding); uint32_t 81 src/decNumber/decDouble.h extern uint32_t decDoubleToUInt32Exact(const decDouble *, decContext *, enum rounding); uint32_t 133 src/decNumber/decDouble.h extern uint32_t decDoubleDigits(const decDouble *); uint32_t 134 src/decNumber/decDouble.h extern uint32_t decDoubleIsCanonical(const decDouble *); uint32_t 135 src/decNumber/decDouble.h extern uint32_t decDoubleIsFinite(const decDouble *); uint32_t 136 src/decNumber/decDouble.h extern uint32_t decDoubleIsInfinite(const decDouble *); uint32_t 137 src/decNumber/decDouble.h extern uint32_t decDoubleIsInteger(const decDouble *); uint32_t 138 src/decNumber/decDouble.h extern uint32_t decDoubleIsLogical(const decDouble *); uint32_t 139 src/decNumber/decDouble.h extern uint32_t decDoubleIsNaN(const decDouble *); uint32_t 140 src/decNumber/decDouble.h extern uint32_t decDoubleIsNegative(const decDouble *); uint32_t 141 src/decNumber/decDouble.h extern uint32_t decDoubleIsNormal(const decDouble *); uint32_t 142 src/decNumber/decDouble.h extern uint32_t decDoubleIsPositive(const decDouble *); uint32_t 143 src/decNumber/decDouble.h extern uint32_t decDoubleIsSignaling(const decDouble *); uint32_t 144 src/decNumber/decDouble.h extern uint32_t decDoubleIsSignalling(const decDouble *); uint32_t 145 src/decNumber/decDouble.h extern uint32_t decDoubleIsSigned(const decDouble *); uint32_t 146 src/decNumber/decDouble.h extern uint32_t decDoubleIsSubnormal(const decDouble *); uint32_t 147 src/decNumber/decDouble.h extern uint32_t decDoubleIsZero(const decDouble *); uint32_t 148 src/decNumber/decDouble.h extern uint32_t decDoubleRadix(const decDouble *); uint32_t 149 src/decNumber/decDouble.h extern uint32_t decDoubleSameQuantum(const decDouble *, const decDouble *); uint32_t 65 src/decNumber/decNumber.h # define decNumberUnit uint32_t uint32_t 103 src/decNumber/decNumber.h decNumber * decNumberFromUInt32(decNumber *, uint32_t); uint32_t 107 src/decNumber/decNumber.h uint32_t decNumberToUInt32(const decNumber *, decContext *); uint32_t 110 src/decNumber/decNumber.h decNumber * decNumberSetBCD(decNumber *, const uint8_t *, uint32_t); uint32_t 124 src/decNumber/decNumberLocal.h # define uInt uint32_t uint32_t 52 src/decNumber/decQuad.h uint32_t words[DECQUAD_Bytes/4]; uint32_t 91 src/decNumber/decQuad.h extern decQuad * decQuadFromUInt32(decQuad *, uint32_t); uint32_t 103 src/decNumber/decQuad.h extern uint32_t decQuadToUInt32(const decQuad *, decContext *, enum rounding); uint32_t 104 src/decNumber/decQuad.h extern uint32_t decQuadToUInt32Exact(const decQuad *, decContext *, enum rounding); uint32_t 155 src/decNumber/decQuad.h extern uint32_t decQuadDigits(const decQuad *); uint32_t 156 src/decNumber/decQuad.h extern uint32_t decQuadIsCanonical(const decQuad *); uint32_t 157 src/decNumber/decQuad.h extern uint32_t decQuadIsFinite(const decQuad *); uint32_t 158 src/decNumber/decQuad.h extern uint32_t decQuadIsInteger(const decQuad *); uint32_t 159 src/decNumber/decQuad.h extern uint32_t decQuadIsLogical(const decQuad *); uint32_t 160 src/decNumber/decQuad.h extern uint32_t decQuadIsInfinite(const decQuad *); uint32_t 161 src/decNumber/decQuad.h extern uint32_t decQuadIsNaN(const decQuad *); uint32_t 162 src/decNumber/decQuad.h extern uint32_t decQuadIsNegative(const decQuad *); uint32_t 163 src/decNumber/decQuad.h extern uint32_t decQuadIsNormal(const decQuad *); uint32_t 164 src/decNumber/decQuad.h extern uint32_t decQuadIsPositive(const decQuad *); uint32_t 165 src/decNumber/decQuad.h extern uint32_t decQuadIsSignaling(const decQuad *); uint32_t 166 src/decNumber/decQuad.h extern uint32_t decQuadIsSignalling(const decQuad *); uint32_t 167 src/decNumber/decQuad.h extern uint32_t decQuadIsSigned(const decQuad *); uint32_t 168 src/decNumber/decQuad.h extern uint32_t decQuadIsSubnormal(const decQuad *); uint32_t 169 src/decNumber/decQuad.h extern uint32_t decQuadIsZero(const decQuad *); uint32_t 170 src/decNumber/decQuad.h extern uint32_t decQuadRadix(const decQuad *); uint32_t 171 src/decNumber/decQuad.h extern uint32_t decQuadSameQuantum(const decQuad *, const decQuad *); uint32_t 53 src/decNumber/decSingle.h uint32_t words[DECSINGLE_Bytes/4]; uint32_t 81 src/decNumber/decSingle.h extern uint32_t decSingleRadix(const decSingle *); uint32_t 83 src/decNumber/decimal128.h uint32_t decimal128IsCanonical(const decimal128 *); uint32_t 83 src/decNumber/decimal32.h uint32_t decimal32IsCanonical(const decimal32 *); uint32_t 83 src/decNumber/decimal64.h uint32_t decimal64IsCanonical(const decimal64 *); uint32_t 1948 src/dps8/dps8_fnp2.c static int parse_ipaddr (char * str, uint32_t * addr) uint32_t 1967 src/dps8/dps8_fnp2.c * addr = (uint32_t) ((o1 << 24) | (o2 << 16) | (o3 << 8) | o4); uint32_t 2041 src/dps8/dps8_fnp2.c uint32_t ipaddr; uint32_t 2053 src/dps8/dps8_fnp2.c uint32_t cidr_mask = ((uint32_t)-1) << (32-cidr) & MASK32; uint32_t 326 src/dps8/dps8_fnp2.h uint32_t ipaddr; uint32_t 328 src/dps8/dps8_fnp2.h uint32_t cidr_mask; uint32_t 6793 src/dps8/dps8_ins.c uint32_t remainder; uint32_t 1435 src/dps8/dps8_math.c uint32_t divisor = rshift_128 (m2, 44).l & MASK28; uint32_t 277 src/dps8/dps8_math128.c static void mulmn (uint32_t w[], uint32_t u[], uint32_t 278 src/dps8/dps8_math128.c uint32_t v[], int m, int n) uint32_t 297 src/dps8/dps8_math128.c w[i + j] = (uint32_t) t; // (i.e., t & 0xFFFF). uint32_t 300 src/dps8/dps8_math128.c w[j + m] = (uint32_t) k; uint32_t 304 src/dps8/dps8_math128.c static void mulmns (uint32_t w[], uint32_t u[], uint32_t 305 src/dps8/dps8_math128.c uint32_t v[], int m, int n) uint32_t 319 src/dps8/dps8_math128.c w[j + m] = (uint32_t) t; uint32_t 329 src/dps8/dps8_math128.c w[i + n] = (uint32_t) t; uint32_t 385 src/dps8/dps8_math128.c const uint32_t b = 65536; // Number base (16 bits). uint32_t 479 src/dps8/dps8_math128.c uint32_t w[l+l], u[l], v[l]; uint32_t 481 src/dps8/dps8_math128.c u[3] = (uint32_t) (a.h >> 32); uint32_t 482 src/dps8/dps8_math128.c u[2] = (uint32_t) a.h; uint32_t 483 src/dps8/dps8_math128.c u[1] = (uint32_t) (a.l >> 32); uint32_t 484 src/dps8/dps8_math128.c u[0] = (uint32_t) a.l; uint32_t 485 src/dps8/dps8_math128.c v[3] = (uint32_t) (b.h >> 32); uint32_t 486 src/dps8/dps8_math128.c v[2] = (uint32_t) b.h; uint32_t 487 src/dps8/dps8_math128.c v[1] = (uint32_t) (b.l >> 32); uint32_t 488 src/dps8/dps8_math128.c v[0] = (uint32_t) b.l; uint32_t 499 src/dps8/dps8_math128.c uint32_t w[l+l], u[l], v[l]; uint32_t 501 src/dps8/dps8_math128.c u[3] = (uint32_t) (a.h >> 32); uint32_t 502 src/dps8/dps8_math128.c u[2] = (uint32_t) a.h; uint32_t 503 src/dps8/dps8_math128.c u[1] = (uint32_t) (a.l >> 32); uint32_t 504 src/dps8/dps8_math128.c u[0] = (uint32_t) a.l; uint32_t 505 src/dps8/dps8_math128.c v[3] = (uint32_t) (b.h >> 32); uint32_t 506 src/dps8/dps8_math128.c v[2] = (uint32_t) b.h; uint32_t 507 src/dps8/dps8_math128.c v[1] = (uint32_t) (b.l >> 32); uint32_t 508 src/dps8/dps8_math128.c v[0] = (uint32_t) b.l; uint32_t 607 src/dps8/dps8_math128.c uint128 divide_128_32 (uint128 a, uint32_t b, uint32_t * remp) uint32_t 628 src/dps8/dps8_math128.c * remp = r [0] | (uint32_t) r[1] << 16; uint32_t 844 src/dps8/dps8_math128.c static void tdiv32 (uint64_t ah, uint64_t al, uint32_t b, uint32_t 846 src/dps8/dps8_math128.c uint32_t remainder) uint32_t 849 src/dps8/dps8_math128.c uint32_t rem; uint32_t 47 src/dps8/dps8_math128.h uint128 divide_128_32 (uint128 a, uint32_t b, uint32_t * rem); uint32_t 125 src/dps8/dps8_mgp.c static inline uint32_t uint32_t 126 src/dps8/dps8_mgp.c hash32s(const void *buf, size_t len, uint32_t h) uint32_t 1158 src/dps8/dps8_mgp.c uint32_t h = 0; /* initial hash value */ uint32_t 462 src/dps8/dps8_socket_dev.c uint32_t addr = * ((uint32_t *) & hostent->h_addr_list[0][0]); uint32_t 510 src/dps8/dps8_socket_dev.c uint32_t addr = (uint32_t) octet[0]; uint32_t 512 src/dps8/dps8_socket_dev.c addr |= (uint32_t) octet[1]; uint32_t 514 src/dps8/dps8_socket_dev.c addr |= (uint32_t) octet[2]; uint32_t 516 src/dps8/dps8_socket_dev.c addr |= (uint32_t) octet[3]; uint32_t 1171 src/dps8/dps8_socket_dev.c uint32_t addr = ntohl (from.sin_addr.s_addr); uint32_t 62 src/dps8/dps8_state.h uint32_t symbolType; uint32_t 63 src/dps8/dps8_state.h uint32_t valueType; uint32_t 64 src/dps8/dps8_state.h uint32_t value; uint32_t 4208 src/dps8/dps8_sys.c static inline uint32_t uint32_t 4209 src/dps8/dps8_sys.c hash32s(const void *buf, size_t len, uint32_t h) uint32_t 4498 src/dps8/dps8_sys.c uint32_t h = 0; /* initial hash value */ uint32_t 1083 src/dps8/fnpuv.c uint32_t ip_addr = (uint32_t) ((oct1 << 24) | (oct2 << 16) | (oct3 << 8) | oct4); uint32_t 153 src/dps8/h316_imp.h uint32_t rxtotal; // total number of H316 words received uint32_t 155 src/dps8/h316_imp.h uint32_t txtotal; // total number of H316 words transmitted uint32_t 156 src/dps8/h316_imp.h uint32_t txdelay; // RTC ticks until TX done interrupt uint32_t 161 src/dps8/h316_imp.h uint32_t bps; // simulated line speed or COM port baud rate uint32_t 169 src/dps8/h316_imp.h uint32_t rxtotal; // total host messages received uint32_t 171 src/dps8/h316_imp.h uint32_t txtotal; // total host messages sent uint32_t 189 src/dps8/h316_imp.h # define MKLONG(h,l) ((uint32_t) ( (((h)&0xFFFF) << 16) | ((l)&0xFFFF) )) uint32_t 370 src/dps8/threadz.c tpolicy.computation = (uint32_t)( 5 * mach_clock2abs); uint32_t 371 src/dps8/threadz.c tpolicy.constraint = (uint32_t)(10 * mach_clock2abs); uint32_t 40 src/dps8/tracker.c void trk (unsigned long long cycleCnt, uint16_t segno, uint32_t ic, uint64_t opcode) uint32_t 52 src/dps8/tracker.c uint32_t pic; uint32_t 21 src/dps8/tracker.h void trk (unsigned long long cycleCnt, uint16_t segno, uint32_t ic, uint64_t opcode); uint32_t 100 src/dps8/udplib.c uint32_t rxsequence; // next message sequence number for receive uint32_t 101 src/dps8/udplib.c uint32_t txsequence; // next message sequence number for transmit uint32_t 110 src/dps8/udplib.c # define MAGIC ((uint32_t) (((((('H' << 8) | '3') << 8) | '1') << 8) | '6')) uint32_t 118 src/dps8/udplib.c uint32_t magic; // UDP "magic number" (see above) uint32_t 119 src/dps8/udplib.c uint32_t sequence; // UDP packet sequence number uint32_t 125 src/dps8/udplib.c # define UDP_HEADER_LEN (2*sizeof(uint32_t) + sizeof(uint16_t)) uint32_t 431 src/dps8/udplib.c uint32_t magic, pktseq; uint32_t 69 src/dps8/utfile.c static inline uint32_t uint32_t 70 src/dps8/utfile.c hash32s(const void *buf, size_t len, uint32_t h) uint32_t 152 src/dps8/utfile.c uint32_t h = 0; /* initial hash value */ uint32_t 158 src/dps8/uthash.h HASH_BLOOM_BITSET((tbl)->bloom_bv, (hashv & (uint32_t)((1ULL << (tbl)->bloom_nbits) - 1))) uint32_t 161 src/dps8/uthash.h HASH_BLOOM_BITTEST((tbl)->bloom_bv, (hashv & (uint32_t)((1ULL << (tbl)->bloom_nbits) - 1))) uint32_t 524 src/dps8/uthash.h # define get16bits(d) ((((uint32_t)(((const uint8_t *)(d))[1])) << 8) \ uint32_t 525 src/dps8/uthash.h +(uint32_t)(((const uint8_t *)(d))[0]) ) uint32_t 530 src/dps8/uthash.h uint32_t _sfh_tmp, _sfh_len = keylen; \ uint32_t 539 src/dps8/uthash.h _sfh_tmp = (uint32_t)(get16bits (_sfh_key+2)) << 11 ^ hashv; \ uint32_t 549 src/dps8/uthash.h hashv ^= (uint32_t)(_sfh_key[sizeof (uint16_t)] << 18); \ uint32_t 591 src/dps8/uthash.h # define WP(p) ((uint32_t*)((unsigned long)(p) & ~3UL)) uint32_t 620 src/dps8/uthash.h uint32_t _mur_h1 = 0xf88D5353; \ uint32_t 621 src/dps8/uthash.h uint32_t _mur_c1 = 0xcc9e2d51; \ uint32_t 622 src/dps8/uthash.h uint32_t _mur_c2 = 0x1b873593; \ uint32_t 623 src/dps8/uthash.h uint32_t _mur_k1 = 0; \ uint32_t 625 src/dps8/uthash.h const uint32_t *_mur_blocks = (const uint32_t*)(_mur_data+_mur_nblocks*4); \ uint32_t 1023 src/dps8/uthash.h uint32_t signature; /* used only to find hash tables in external analysis */ uint32_t 1025 src/dps8/uthash.h uint32_t bloom_sig; /* used only to test bloom exists in external analysis */ uint32_t 766 src/simh/sim_tmxr.c static inline uint32_t uint32_t 767 src/simh/sim_tmxr.c hash32s(const void *buf, size_t len, uint32_t h) uint32_t 876 src/simh/sim_tmxr.c uint32_t h = 0; /* initial hash value */