side
side = stype ? OPT_SRC : OPT_DST;
rp = find_oldname(fp, np, side);
errs |= note_rename(fp, np, rp, side);
side_t side)
side_t otherside = (side == OPT_SRC) ? OPT_DST : OPT_SRC;
inum = new->f_info[side].f_ino;
maj = new->f_info[side].f_d_maj;
min = new->f_info[side].f_d_min;
size = new->f_info[side].f_size;
if (fp->f_info[side].f_type != 0)
if (fp->f_info[OPT_BASE].f_type != new->f_info[side].f_type)
if (((side == OPT_SRC) ? fp->f_s_inum : fp->f_d_inum) != inum)
if (((side == OPT_SRC) ? fp->f_s_maj : fp->f_d_maj) != maj)
if (((side == OPT_SRC) ? fp->f_s_min : fp->f_d_min) != min)
struct file *old, side_t side)
dir = new->f_info[side].f_type == S_IFDIR;
sidenames[side]);
if (side == OPT_SRC) {
int stype, dtype, btype, side;
endtls(ssl, side)
char *side;
side, r);
tlslogerr(side);
side);
tlslogerr(side);
int side = 0;
side = 1;
old = fault_leds[side];
assert(fdi <= sizeof (fault_leds[side]) * BITSPERBYTE);
fault_leds[side] |= (1<<fdi);
fault_leds[side] &= ~(1<<fdi);
old, side, fault_leds[side]));
if ((old == 0) != (fault_leds[side] == 0) && ok2rem_leds[side] == 0) {
set_front_panel_led(side ? LEFT_DOOR_ATTEN_LED :
fault_leds[side] ? LED_ON : LED_OFF);
int side = 0;
side = 1;
old = ok2rem_leds[side];
assert(fdi <= sizeof (ok2rem_leds[side]) * BITSPERBYTE);
ok2rem_leds[side] |= (1<<fdi);
ok2rem_leds[side] &= ~(1<<fdi);
old, side, ok2rem_leds[side]));
if ((old == 0) != (ok2rem_leds[side] == 0)) {
if (ok2rem_leds[!side] == 0) {
ok2rem_leds[side] ? LED_ON : LED_OFF);
if (fault_leds[side] == 0) {
set_front_panel_led(side ? LEFT_DOOR_ATTEN_LED :
ok2rem_leds[side] ? LED_ON : LED_OFF);
__m_cc_expand(w, y, x, side)
int y, x, side;
if (side < 0)
else if (0 < side)
__m_cc_expand(WINDOW *w, int y, int x, int side)
if (side < 0)
else if (0 < side)
curtype, side, desc);
curtype, side, desc);
check_times(const struct stat *st, check_time_t chk, const char *side,
curtype, side, desc);
curtype, side, desc);
curtype, side, desc);
curtype, side, desc);
if (!insert_sm(avl, &node->lr[side(cmp)], sm))
int side;
side = node->balance <= 0 ? 0 : 1;
shrunk = removeExtremum(&node->lr[side], 1 - side, &replacement);
replacement->balance -= bal(side);
if (!remove_sm(avl, &node->lr[side(cmp)], sm, ret))
static bool removeExtremum(AvlNode **p, int side, AvlNode **ret)
if (node->lr[side] == NULL) {
*p = node->lr[1 - side];
if (!removeExtremum(&node->lr[side], side, ret))
return sway(p, -bal(side)) == 0;
balance(p, side(sway));
static void balance(AvlNode **p, int side)
*child = node->lr[side];
int opposite = 1 - side;
static bool removeExtremum(AvlNode **p, int side, AvlNode **ret);
int bal = bal(side);
node->lr[side] = child->lr[opposite];
node->lr[side] = grandchild->lr[opposite];
child->lr[opposite] = grandchild->lr[side];
grandchild->lr[side] = child;
static void balance(AvlNode **p, int side);
#define bal(side) ((side) == 0 ? -1 : 1)
int side(int a);
int keep(int a) { return side(a) && 0; }
int ippr_ftp_valid(ftp, side, buf, len, ifsftp)
int side;
ftps = &ftp->ftp_side[side];
if (side == 0)
int side, int group, int queue, int *image);
int left, middle, right, extra, side, wheel;
side = PACKET_BIT(6, 3);
side = PACKET_BIT(8, 6);
uwacom_event(usbwcmp, EVT_BTN, BTN_SIDE, side);
#define PCI_OTHER_SIDE(side) ((side) ^ 1)