du
el_init(int du, time_t lb, time_t dt, int nlim)
if ((du < 1) || (dt < 1) || (nlim < 1))
DU = du + 1;
static struct du *adduid(uid_t);
static struct du *lookup(uid_t);
struct du *dp;
struct du **p1 = (struct du **)arg1;
struct du **p2 = (struct du **)arg2;
struct du **dp;
qsort(du, ndu, sizeof (du[0]), qcmp);
for (cnt = 0, dp = &du[0]; dp && cnt != ndu; dp++, cnt++) {
static struct du *
struct du *up;
static struct du *
struct du *up, **uhp;
up = (struct du *)calloc(1, sizeof (struct du));
struct du **dp, *ep;
struct du **hp;
dp = (struct du **)calloc(ndu, sizeof (struct du **));
du = dp;
struct du *ep, *next;
if (du) {
free(du);
du = NULL;
struct du *next;
static struct du **du;
static struct du *duhashtbl[UHASH];
itmc_obj_t *du;
du = malloc_vital(sizeof (itmc_obj_t));
du->type = ITMC_OBJ_DIREC;
du->name = NULL;
du->obj = direc = malloc_vital(sizeof (itm_direc_t));
du->ref[0] = cond;
du->ref[0] = obj_register(ITMC_OBJ_COND, cond_name, NULL, 0,
du->ref[0] = NULL;
du->ref[1] = obj_register(ITMC_OBJ_ACTION, act_name, NULL, 0,
du->ref[1] = obj_register(act->type,
du->ref[2] = NULL;
return (du);
uint32_t du,
if (du < 1 || dt < 1 || nlim < 1) {
DU = du;
ficlStackPush2Unsigned(ficlStack *stack, ficl2Unsigned du)
ficlStackPushUnsigned(stack, FICL_2UNSIGNED_GET_LOW(du));
ficlStackPushUnsigned(stack, FICL_2UNSIGNED_GET_HIGH(du));
ficl2Unsigned du;
FICL_2UNSIGNED_GET_LOW(di), du);
ficlStackPush2Unsigned(stack, du);
Dwarf_Unsigned du = adjusted_length;
(const void *) &du, sizeof(du), offset_size);
Dwarf_Unsigned du = 0;
(const void *) &du, sizeof(du), uwordb_size);
Dwarf_Unsigned du = offset_in_debug_str;
(const void *) &du, sizeof(du), uwordb_size);
Dwarf_Unsigned du = offset;
(const void *) &du, sizeof(du), uwordb_size);
Dwarf_Unsigned du = offset;
(const void *) &du, sizeof(du), uwordb_size);
Dwarf_Unsigned du = 0;
if (sizeof(du) < SIZEOFT32) {
du = val1;
ASNOUT((void *) ptr, du, SIZEOFT32);
if (sizeof(du) < SIZEOFT64) {
du = val1;
ASNOUT((void *) ptr, du, SIZEOFT64);
Dwarf_Unsigned du = 0;
du = 0;
WRITE_UNALIGNED(dbg, (void *) data, (const void *) &du,
sizeof(du), offset_size);
du = prolog_size - sofar - offset_size;
WRITE_UNALIGNED(dbg, (void *) data, (const void *) &du,
sizeof(du), offset_size);
du = curline->dpl_address;
res = write_fixed_size(du,dbg,elfsectno,
du = sum_bytes - OFFSET_PLUS_EXTENSION_SIZE;
(const void *) &du, sizeof(du), offset_size);
Dwarf_Unsigned du = 0;
du = cie_length;
(const void *) &du, sizeof(du), offset_size);
du = DW_CIE_ID;
WRITE_UNALIGNED(dbg, (void *) data, (const void *) &du,
sizeof(du), offset_size);
du = fde_length;
(const void *) &du,
sizeof(du), offset_size);
du = cie_offs[curfde->fde_cie - 1];
(const void *) &du,
sizeof(du), offset_size);
du = curfde->fde_initloc;
(const void *) &du,
sizeof(du), address_size);
du = curfde->fde_addr_range;
(const void *) &du,
sizeof(du), address_size);
Dwarf_Unsigned du = 0;
du = 0; /* length of debug_info, not counting
(const void *) &du, sizeof(du), offset_size);
du = 0;/* offset into abbrev table, not yet known. */
(const void *) &du, sizeof(du), offset_size);
Dwarf_Unsigned du = 0;
du = 0; /* length of debug_info, not counting
(const void *) &du, sizeof(du), offset_size);
du = 0;/* offset into abbrev table, not yet known. */
(const void *) &du, sizeof(du), offset_size);
Dwarf_Unsigned du = 0;
du = curattr->ar_ref_die->di_offset;
(const void *) &du,
sizeof(du), DWARF_64BIT_SIZE);
du = die_off - OFFSET_PLUS_EXTENSION_SIZE;
(const void *) &du, sizeof(du), offset_size);
Dwarf_Unsigned du = 0;
flags, SHN_UNDEF, 0, &du,
dbg->de_sect_name_idx[sect] = du;
du = (double)u;
dr = pow(dsqrt2 * dx, du);
sincospi(dt * du, &ds, &dc);
du = (double)u;
dr = exp(du * dt);
dq = du * dp;
dr = exp(du * dt - dv * dp * dpi);
dq = du * dp + dv * dt * dinvpi;
double dx, dy, du, dv, dt, dc, ds, dp, dq, dr;
du :1; /* du bit */
uchar_t du :1, /* du bit */
du : 1; /* disable update */
uchar_t du : 1, /* disable update */