div
div_t div(int, int) __pure2;
uint8_t div = 0;
div = (fmt >> HDA_CODEC_FMT_DIV_SHIFT) & HDA_CODEC_FMT_DIV_MASK;
params->rate /= (div + 1);
L_DECL(div);
mp_err s_mp_div(mp_int *rem, mp_int *div, mp_int *quot); /* magnitude div */
mp_int *div, /* i: divisor */
if(mp_cmp_z(div) == 0)
if((ix = s_mp_ispow2(div)) >= 0) {
MP_SIGN(div) = ZPOS;
MP_CHECKOK( s_mp_norm(rem, div, &d) );
while (MP_USED(rem) > MP_USED(div) || s_mp_cmp(rem, div) >= 0) {
unusedRem = MP_USED(rem) - MP_USED(div);
MP_USED(&part) = MP_USED(div);
if (s_mp_cmp(&part, div) < 0) {
div_msd = MP_DIGIT(div, MP_USED(div) - 1);
mp_copy(div, &t);
s_mp_sub(&t, div); /* t -= div */
unsigned short div = 0;
div = divisor_tab[i].div;
if (div == 0)
outb (port + UART_DLL, div & 0xFF);
outb (port + UART_DLH, div >> 8);
unsigned short div;
extern div_t div(int, int);
using std::div;
return (div(numer, denom));
dl_t div;
div = lzero;
div = lshiftl(div, 1);
div.dl_lop |= 1;
tmp = lsub(div, rop);
div = tmp;
fprem1(long double idend, long double div)
__asm__ __volatile__("fprem1" : "+t" (div) : "u" (idend) : "cc");
return (div);
fprem(long double idend, long double div)
__asm__ __volatile__("fprem" : "+t" (div) : "u" (idend) : "cc");
return (div);
struct expression *div = expr;
div->op = '/';
div->left = sub;
div->right = val;
struct statistics_div div;
int i, ant, div, delta;
div = (sc->hw_type == IWN_HW_REV_TYPE_6050) ? 20 : 30;
delta = (calib->noise[ant] - calib->noise[i]) / div;
uint16_t div;
div = 1;
if (div > 0x80)
div <<= 1; /* divider goes up by one */
div >>= 1; /* 0 == divide by 1, 1 = divide by 2 */
(div << CLOCK_CONTROL_FREQ_SHIFT) | CLOCK_CONTROL_INT_CLOCK_EN);
__asm div d32 \
#define SSC050_FAN_SPEED(div, count) (1200000 / ((count) * (1<<(div))))