v_integer
args[1].v_integer = 1;
args[2].v_integer = 3;
res.v_package[0]->v_integer < 23)
res.v_package[1]->v_integer != 3)
sc->sc_highest_perf = res.v_package[2]->v_integer;
sc->sc_nominal_perf = res.v_package[3]->v_integer;
sc->sc_lowest_perf = res.v_package[5]->v_integer;
sc->sc_lowest_freq = res.v_package[21]->v_integer;
sc->sc_nominal_freq = res.v_package[22]->v_integer;
addr = val->v_package[0]->v_integer;
pin = val->v_package[1]->v_integer;
source = val->v_package[2]->v_integer;
index = val->v_package[3]->v_integer;
arg[0].v_integer = ACPI_OPREG_GPIO;
arg[1].v_integer = 1;
arg[0].v_integer = ACPI_OPREG_GSB;
arg[1].v_integer = 1;
wq->q_gpe = wq->q_wakepkg->v_package[0]->v_integer;
wq->q_state = wq->q_wakepkg->v_package[1]->v_integer;
return val->v_integer;
if (res.v_package[0]->v_integer == class &&
res.v_package[1]->v_integer == subclass &&
res.v_package[2]->v_integer == interface)
return val->v_integer;
evt.v_integer = pin;
cmd.v_integer = 0x40; /* Disable ASL display switching. */
cmd.v_integer = ASUS_SDSP_LCD;
val.v_integer = psw;
arg.v_integer = sc->sc_backlight;
osc_cmd[1].v_integer = 1;
osc_cmd[2].v_integer = 2;
osc_cmd[1].v_integer = 1;
osc_cmd[2].v_integer = 2;
state = val->v_package[1]->v_integer;
val->v_package[2]->v_integer, val->v_package[3]->v_integer, addr);
val->length != val->v_package[0]->v_integer ||
val->v_package[1]->v_integer != 0) {
num_proc = val->v_package[4]->v_integer;
coord_type = val->v_package[3]->v_integer;
domain = val->v_package[2]->v_integer;
cindex = val->v_package[5]->v_integer;
db_printf("integer: %llx\n", value->v_integer);
db_printf("mutex : %llx\n", value->v_integer);
cmd.v_integer = lock;
cmd.v_integer = dock;
cmd.v_integer = 1;
sc->sc_glk = res.v_integer ? 1 : 0;
arg[0].v_integer = ACPI_OPREG_EC;
arg[1].v_integer = 1;
cmd.v_integer = irq;
if (hid->v_package[0]->v_integer != 1)
if (hid->v_package[1]->v_integer < 0 ||
hid->v_package[1]->v_integer >= sc->sc_ngpios)
idx = hid->v_package[1]->v_integer;
sc->sc_gpios[idx].ag_usage_page = hid->v_package[3]->v_integer;
sc->sc_gpios[idx].ag_usage_id = hid->v_package[4]->v_integer;
arg.v_integer = 1;
arg.v_integer = 1;
arg.v_integer = 0xffff;
arg.v_integer = 0x04;
arg.v_integer = 0x02;
arg.v_integer = 0x10;
arg.v_integer = 0x00;
arg.v_integer = 0x02;
arg.v_integer = 0x101;
for (arg.v_integer = 0x20; arg.v_integer < 0x30; arg.v_integer++) {
return arg.v_integer - 0x20;
arg.v_integer = off | val;
arg.v_integer = level;
arg.v_integer = (battery << THINKPAD_BATTERY_SHIFT) | stop;
arg.v_integer = 1;
args[0].v_integer = i + 1;
args[1].v_integer = (((1 << i) & mask) != 0);
arg.v_integer = 1;
arg.v_integer = bluetooth ^ THINKPAD_BLUETOOTH_ENABLED;
arg.v_integer = wan ^ THINKPAD_WAN_ENABLED;
arg.v_integer = cmd;
arg.v_integer = THINKPAD_ADAPTIVE_MODE_HOME;
arg.v_integer = THINKPAD_ADAPTIVE_MODE_FUNCTION;
arg.v_integer = sc->sc_thinklight & 0x0f;
arg.v_integer = sc->sc_brightness & 0xff;
arg.v_integer = (0xffff << 8) | (battery << 4) | state;
arg.v_integer = (battery << THINKPAD_BATTERY_SHIFT) | state;
arg.v_integer = (battery << THINKPAD_BATTERY_SHIFT) | start;
args[HCI_REG_AX].v_integer = HCI_GET;
args[HCI_REG_BX].v_integer = HCI_REG_SYSTEM_EVENT;
args[HCI_REG_AX].v_integer = HCI_SET;
args[HCI_REG_BX].v_integer = HCI_REG_LCD_BRIGHTNESS;
args[HCI_REG_CX].v_integer = *brightness;
args[HCI_REG_AX].v_integer = HCI_GET;
args[HCI_REG_BX].v_integer = HCI_REG_LCD_BRIGHTNESS;
args[HCI_REG_AX].v_integer = HCI_GET;
args[HCI_REG_BX].v_integer = HCI_REG_VIDEO_OUTPUT;
args[HCI_REG_AX].v_integer = HCI_SET;
args[HCI_REG_BX].v_integer = HCI_REG_VIDEO_OUTPUT;
args[HCI_REG_CX].v_integer = *video_output;
args.v_integer = policy;
args.v_integer = sc->sc_brightness;
input.v_integer = note; /* ??? */
code = res.v_integer & WMI_EVENT_MASK;
params[0].v_integer = instance;
params[1].v_integer = methodid;
rv = res.v_integer;
on.v_integer = 1;
cmd[1].v_integer = 0;
cmd[2].v_integer = func;
#define xaml_intval(v) ((v)->v_integer)
n = v[0]->v_integer;
as->i = ri.v_package[0]->v_integer;
DEVNAME(sc), name, ri.v_package[0]->v_integer);
as->l = ri.v_package[lim1]->v_integer;
as->h = as->l + ri.v_package[lim2]->v_integer;
as->h = ri.v_package[lim2]->v_integer;
ri.v_package[ena]->v_integer);
req.v_integer = i;
*v = res.v_integer;
req.v_integer = i;
snprintf(buffer, sizeof(buffer), "%llx", val->v_integer);
flag = aml_matchtest(tmp->v_integer, v1, op1) &&
aml_matchtest(tmp->v_integer, v2, op2);
&a->v_integer);
memcpy(&c->v_integer, a->v_buffer,
c->v_integer = aml_hextoint(a->v_string);
"0x%llx" : "%lld", a->v_integer);
rc = aml_evalexpr(a1->v_integer, a2->v_integer, opcode);
memcpy(c->v_buffer, &a1->v_integer, a1->length);
memcpy(c->v_buffer+a1->length, &a2->v_integer, a2->length);
_aml_setvalue(val, AML_OBJTYPE_STRING, -1, aml_eisaid(val->v_integer));
arg[0].v_integer = iospace;
arg[1].v_integer = 1;
tbit = &tmp.v_integer;
vbit = &val->v_integer;
vbit = &val->v_integer;
tbit = &tmp.v_integer;
aml_bufcpy(&val->v_integer, 0, ref1->v_buffer,
aml_bufcpy(ref1->v_buffer, fld->v_field.bitpos, &val->v_integer,
lhs->v_integer = rhs->v_integer;
dbprintf(arg,"0x%llx", tmp.v_integer);
ddb->v_integer = 0;
ddb->v_integer = entry->q_id;
opargs[0]->v_integer, NULL);
opargs[0]->v_integer, 0);
ival = aml_evalexpr(opargs[0]->v_integer,
opargs[1]->v_integer, opcode);
if (opargs[1]->v_integer == 0) {
rem = aml_evalexpr(opargs[0]->v_integer,
opargs[1]->v_integer, AMLOP_MOD);
ival = aml_evalexpr(opargs[0]->v_integer,
opargs[1]->v_integer, AMLOP_DIVIDE);
ival = aml_evalexpr(opargs[0]->v_integer, 0, opcode);
ival = aml_evalexpr(my_ret->v_integer, 1, opcode);
ival = aml_evalexpr(opargs[0]->v_integer, 0, opcode);
ival = aml_evalexpr(opargs[0]->v_integer,
opargs[1]->v_integer, opcode);
idx = opargs[1]->v_integer;
opargs[1]->v_integer);
my_ret = aml_mid(opargs[0], opargs[1]->v_integer,
opargs[2]->v_integer);
ival = aml_match(opargs[0], opargs[5]->v_integer,
opargs[1]->v_integer, opargs[2]->v_integer,
opargs[3]->v_integer, opargs[4]->v_integer);
opargs[1]->v_integer);
opargs[1]->v_integer);
rv->v_opregion.iospace = opargs[1]->v_integer;
rv->v_opregion.iobase = opargs[2]->v_integer;
rv->v_opregion.iolen = opargs[3]->v_integer;
rv->v_mtx.synclvl = opargs[1]->v_integer;
rv->v_powerrsrc.pwr_level = opargs[1]->v_integer;
rv->v_powerrsrc.pwr_order = opargs[2]->v_integer;
rv->v_processor.proc_id = opargs[1]->v_integer;
rv->v_processor.proc_addr = opargs[2]->v_integer;
rv->v_processor.proc_len = opargs[3]->v_integer;
rv->v_method.flags = opargs[1]->v_integer;
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer,
opargs[2]->v_integer, NULL, 0, 0);
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer,
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer*8,
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer*8,
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer*8,
aml_createfield(rv, opcode, opargs[0], opargs[1]->v_integer*8,
aml_parsefieldlist(mscope, opcode, opargs[1]->v_integer,
aml_parsefieldlist(mscope, opcode, opargs[2]->v_integer,
aml_parsefieldlist(mscope, opcode, opargs[3]->v_integer,
opargs[0], opargs[1], opargs[2]->v_integer);
acpi_stall(opargs[0]->v_integer);
acpi_sleep(opargs[0]->v_integer, "amlsleep");
opargs[1]->v_integer);
aml_notify(rv->node, opargs[1]->v_integer);
opargs[0]->v_integer, opargs[1]->v_integer,
opargs[2]->v_integer);
if (opargs[0]->v_integer) {
if (opargs[0]->v_integer) {
env.v_integer = val;
printf(" integer: %llx\n", val->v_integer);
ival = rval->v_integer;
lhs->v_integer = ival;
lhs->v_integer = rhs->v_integer;
cmd[1].v_integer = 1;
cmd[2].v_integer = 1; /* HID */
cmd[1].v_integer = 0;
cmd[2].v_integer = func;
cmd[1].v_integer = 1;
cmd[2].v_integer = 0;
pkg.v_integer = arg;
cmd[1].v_integer = 1;
cmd[2].v_integer = idx;
cmd[0].v_integer = arg;
cmd[1].v_integer = QCGPIO_PDC_DSM_REV;
cmd[2].v_integer = QCGPIO_PDC_DSM_FUNC_CIPR;
cmd[3].v_integer = 0;
irq = ref->v_package[2]->v_integer;
pin = ref->v_package[1]->v_integer;
cmd[1].v_integer = QCGPIO_GPIO_DSM_REV;
cmd[2].v_integer = QCGPIO_GPIO_DSM_FUNC_NUM_PINS;
cmd[3].v_integer = 0;
cmd[1].v_integer = 1;
cmd[2].v_integer = 1; /* HID */
args[i].v_integer = params->pointer[i].integer.value;