uint32
.uint32 = &cbor_builder_uint32_callback,
.uint32 = cbor_null_uint32_callback,
cbor_int32_callback uint32;
callbacks->uint32(context, _cbor_load_uint32(source + 1));
DEFINE_TYPED_ATTRIBUTE_ACCESSOR_BYVAL(uint32, uint32_t, htonl, ntohl)
message_add_uint32(msg, varbind->data.uint32);
.data.uint32 = 1
.data.uint32 = 1
.data.uint32 = 1
uint32_t uint32;
varbindlist[i].data.uint32 != value->be_numeric)
varbindlist[i].data.uint32 != value->be_numeric)
varbindlist[i].data.uint32 != value->be_numeric)
if ((elm = ober_add_integer(NULL, data->uint32)) == NULL)
if ((elm = ober_add_integer(NULL, data->uint32)) == NULL)
if ((elm = ober_add_integer(NULL, data->uint32)) == NULL)
static void uint32_divmod_uint14(uint32 *q,uint16 *r,uint32 x,uint16 m)
uint32 v = 0x80000000;
uint32 qpart;
uint32 mask;
x += mask&(uint32)m; *q += mask;
static uint16 uint32_mod_uint14(uint32 x,uint16 m)
uint32 q;
uint32 uq,uq2;
uint32 mask;
uint32_divmod_uint14(&uq,&ur,0x80000000+(uint32)x,m);
mask = -(uint32)(ur>>15);
uint32 bottomt[len/2];
uint32 m = M[i]*(uint32) M[i+1];
uint32 r = bottomr[i/2];
uint32 r1;
uint32 m0 = M[i];
uint32 r = R[i]+R[i+1]*m0;
uint32 m = M[i+1]*m0;
uint32 v = u; /* 0, else 1...65535 */
static void Short_fromlist(small *out,const uint32 *in)
uint32 L[p];
for (i = 0;i < w;++i) L[i] = in[i]&(uint32)-2;
for (i = w;i < p;++i) L[i] = (in[i]&(uint32)-3)|1;
static uint32 urandom32(void)
uint32 out[4];
out[0] = (uint32)c[0];
out[1] = ((uint32)c[1])<<8;
out[2] = ((uint32)c[2])<<16;
out[3] = ((uint32)c[3])<<24;
uint32 L[p];
static void Expand(uint32 *L,const unsigned char *k)
uint32 L0 = ((unsigned char *) L)[4*i];
uint32 L1 = ((unsigned char *) L)[4*i+1];
uint32 L2 = ((unsigned char *) L)[4*i+2];
uint32 L3 = ((unsigned char *) L)[4*i+3];
uint32 L[p];
uint32 L[p];
uint32 val;
uint32 i;
uint32 pixel_chunk_bytes = 0;
uint32 min_pixel_chunk_bytes = 0;
uint32 meta_chunk_bytes = 0;
uint32 min_meta_chunk_bytes = 0;
uint32 dpte_group_bytes = 0;
uint32 mpte_group_bytes = 0;
uint32 p1_pixel_chunk_bytes = 0;
uint32 p1_min_pixel_chunk_bytes = 0;
uint32 p1_meta_chunk_bytes = 0;
uint32 p1_min_meta_chunk_bytes = 0;
uint32 p1_dpte_group_bytes = 0;
uint32 p1_mpte_group_bytes = 0;
uint32 absA;
uint32 absA;
uint32 absA;
uint32 float64_to_uint32_round_to_zero( float64 a )
uint32 z;
uint32 float32_to_uint32_round_to_zero( float32 a )
uint32 z;
#define SIVAL(buf,pos,val) SIVALX((buf),(pos),((uint32)(val)))
static void interpret_dos_date(uint32 date,int *year,int *month,int *day,int *hour,int *minute,int *second)
uint32 p0,p1,p2,p3;
uint32 dos_date=0;
uint32 x,x2;