uint
uint npattern; /* Number of non-BEGIN patterns */
uint nfield; /* Number of fields (if splitdone) */
uint fcount; /* Field counter (used by blackfield)*/
uint phase; /* BEGIN, END, or 0 */
uint running = 0; /* Set if not in compile phase */
uint lexlast = '\n'; /* Last lexical token */
uint lineno = 0; /* Current programme line number */
register uint na;
register uint na;
register uint seed;
static uint oldseed = 0;
seed = (uint)time((time_t *)0); else
seed = (uint)exprint(getlist(&np));
register uint n;
register uint na;
register uint na;
uint n;
static uint nargs(NODE *np);
register uint na;
static uint
register uint na;
register uint na;
register uint type;
if ((type = ep->type) > (uint)PLOSS)
register uint na;
retval = krb5_db_get_principal(kdc_context, newp, &assoc, &npr, (uint *)&more);
xfer_cfAfile(int sockfd, char * cfAfile, char * cfAname, uint size)
static int xfer_cfAfile(int, char *, char *, uint);
uint np_cfAfilesize;
if ( (bufoutp = (int *)malloc((uint)size)) == NULL ) {
static int _llseek (uint filedes, ulong hi, ulong lo,
loff_t *res, uint wh);
_syscall5 (int, _llseek, uint, filedes, ulong, hi, ulong, lo,
loff_t *, res, uint, wh);
static int _llseek (uint filedes, ulong hi, ulong lo,
loff_t *res, uint wh);
_syscall5 (int, _llseek, uint, filedes, ulong, hi, ulong, lo,
loff_t *, res, uint, wh);
uint rnd[(128 - sizeof(struct timeval)) / sizeof(uint)];
FIELDOF_OPTSTRINGL(STYPE,DESC,PTRFIELD,uint,LENFIELD,TAG,OPT)
FIELDOF_OPT(krb5_enc_data, uint, kvno, 1, 1),
FIELDOF_OPT(krb5_safe, uint, seq_number, 3, 3),
FIELDOF_OPT(krb5_authenticator, uint, seq_number, 7, 7),
DEFUINTTYPE(uint, unsigned int);
FIELDOF_OPT(krb5_ap_rep_enc_part, uint, seq_number, 3, 3),
FIELDOF_OPT(krb5_priv_enc_part, uint, seq_number, 3, 3),
LEXTERN uint m_binsrch (uint n, int (*cmp)(uint i));
OPT_NUMERIC(uint, unsigned int, strtoul)
DEFINE_CAST(from, uint) \
DEFINE_CASTS(uint)
static int * uint_2_iptr(uint a) { return (int *)a; }
static void * uint_2_vptr(uint a) { return (void *)a; }
static uint int_2_uint(void) { return (uint)123; }
static uint long_2_uint(void) { return (uint)123L; }
static uint ulong_2_uint(void) { return (uint)123UL; }
static uint vptr_2_uint(void) { return (uint)((void*)123); }
static uint iptr_2_uint(void) { return (uint)((int*)128); }
static uint float_2_uint(void) { return (uint)1.123F; }
static uint double_2_uint(void) { return (uint)1.123L; }
static uint ioiii(uint a, uint b, uint c) { return a || b || c; }
static uint iaiii(uint a, uint b, uint c) { return a && b && c; }
static bool boiii(uint a, uint b, uint c) { return a || b || c; }
static bool baiii(uint a, uint b, uint c) { return a && b && c; }
static uint inb(bool a) { return !a; }
static uint iobb(bool a, bool b) { return a || b; }
static uint iabb(bool a, bool b) { return a && b; }
static uint iobbb(bool a, bool b, bool c) { return a || b || c; }
static uint iabbb(bool a, bool b, bool c) { return a && b && c; }
static uint ini(uint a) { return !a; }
static bool bni(uint a) { return !a; }
static uint ioii(uint a, uint b) { return a || b; }
static uint iaii(uint a, uint b) { return a && b; }
static bool boii(uint a, uint b) { return a || b; }
static bool baii(uint a, uint b) { return a && b; }
uint ueq(uint p, uint a) { return (123 == p) ? a : 0; }
uint une(uint p, uint a) { return (123 != p) ? a : 0; }
uint ubt(uint p, uint a) { return (123 > p) ? a : 0; }
uint ube(uint p, uint a) { return (123 >= p) ? a : 0; }
uint uae(uint p, uint a) { return (123 <= p) ? a : 0; }
uint uat(uint p, uint a) { return (123 < p) ? a : 0; }
uint xtc_umul_ytc(uint x, uint y) { return (x * 3) * (y * 2); }
static uint int_2_uint(int a) { return (uint)a; }
static uint long_2_uint(long a) { return (uint)a; }
static uint ulong_2_uint(ulong a) { return (uint)a; }
static uint vptr_2_uint(void *a) { return (uint)a; }
static uint iptr_2_uint(int *a) { return (uint)a; }
static uint float_2_uint(float a) { return (uint)a; }
static uint double_2_uint(double a) { return (uint)a; }
static long uint_2_long(uint a) { return (long)a; }
static ulong uint_2_ulong(uint a) { return (ulong)a; }
static void * uint_2_vptr(uint a) { return (void *)a; }
static int * uint_2_iptr(uint a) { return (int *)a; }
static int uint_2_int(uint a) { return (int)a; }
static float uint_2_float(uint a) { return (float)a; }
static double uint_2_double(uint a) { return (double)a; }
uint##bits##_t \
uint##bits##_t rval; \
rval = *((volatile uint##bits##_t *)addr); \
__DEFINE_XEN_GUEST_HANDLE(uint, unsigned int);
uint alarm_cnt;
getcc##sz(uint##sz##_t x, uint##sz##_t y) \
getaddflags##sz(uint##sz##_t x, uint##sz##_t y) \
getimulflags##sz(uint##sz##_t x, uint##sz##_t y) \
getandflags##sz(uint##sz##_t x, uint##sz##_t y) \
ddi_put##size(tunnel->reg_handle, (uint##size##_t *)sram, \
*((uint##size##_t *)buf))
*(uint##size##_t *)buf = ddi_get##size(tunnel->reg_handle, \
(uint##size##_t *)sram)