B_UINT8_TYPE
message->AddData("states", B_UINT8_TYPE, states, 16);
msg->AddData("states", B_UINT8_TYPE, states, 16);
msg->AddData("states", B_UINT8_TYPE, fNewState.keys, 16);
msg->AddData("states", B_UINT8_TYPE, fNewState.keys, 16);
temp.AddData("states", B_UINT8_TYPE, &fStates[i * 16], 16, true, 16);
{ I2C_BUS_PATH_ID_ITEM, B_UINT8_TYPE, { .ui8 = (uint8)pathID }},
{ "mmc/month", B_UINT8_TYPE, {.ui8 = month}},
{ kMmcTypeAttribute, B_UINT8_TYPE, {.ui8 = cardType}},
{B_PCI_DEVICE_DOMAIN, B_UINT8_TYPE, {.ui8 = domain}},
{B_PCI_DEVICE_BUS, B_UINT8_TYPE, {.ui8 = bus}},
{B_PCI_DEVICE_DEVICE, B_UINT8_TYPE, {.ui8 = device}},
{B_PCI_DEVICE_FUNCTION, B_UINT8_TYPE, {.ui8 = function}},
{B_PCI_DEVICE_DOMAIN, B_UINT8_TYPE, {.ui8 = domain}},
{B_PCI_DEVICE_BUS, B_UINT8_TYPE, {.ui8 = bus}},
{B_PCI_DEVICE_DEVICE, B_UINT8_TYPE, {.ui8 = device}},
{B_PCI_DEVICE_FUNCTION, B_UINT8_TYPE, {.ui8 = function}},
{B_PCI_DEVICE_DOMAIN, B_UINT8_TYPE, {.ui8 = dev->domain}},
{B_PCI_DEVICE_BUS, B_UINT8_TYPE, {.ui8 = dev->bus}},
{B_PCI_DEVICE_DEVICE, B_UINT8_TYPE, {.ui8 = info.device}},
{B_PCI_DEVICE_FUNCTION, B_UINT8_TYPE, {.ui8 = info.function}},
{ SCSI_DEVICE_TARGET_ID_ITEM, B_UINT8_TYPE, { .ui8 = target_id }},
{ SCSI_DEVICE_TARGET_LUN_ITEM, B_UINT8_TYPE, { .ui8 = target_lun }},
{ SCSI_DEVICE_TYPE_ITEM, B_UINT8_TYPE, { .ui8 = inquiry_data->device_type }},
{ SCSI_DEVICE_IS_ATAPI_ITEM, B_UINT8_TYPE, { .ui8 = is_atapi }},
{ SCSI_DEVICE_MANUAL_AUTOSENSE_ITEM, B_UINT8_TYPE, { .ui8 = manual_autosense }},
{ SCSI_DEVICE_TARGET_ID_ITEM, B_UINT8_TYPE, { .ui8 = target_id }},
{ SCSI_DEVICE_TARGET_LUN_ITEM, B_UINT8_TYPE, { .ui8 = target_lun }},
{ SCSI_BUS_PATH_ID_ITEM, B_UINT8_TYPE, { .ui8 = (uint8)pathID }},
attrs[attrCount].type = B_UINT8_TYPE;
attrs[attrCount].type = B_UINT8_TYPE;
attrs[attrCount].type = B_UINT8_TYPE;
attrs[attrCount].type = B_UINT8_TYPE;
attrs[attrCount].type = B_UINT8_TYPE;
attrs[attrCount].type = B_UINT8_TYPE;
{ ATA_CONTROLLER_MAX_DEVICES_ITEM, B_UINT8_TYPE, { .ui8 = 2 }},
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = 0 }},
{ ATA_ISA_INTNUM, B_UINT8_TYPE, { .ui8 = intnum }},
{ ATA_CONTROLLER_MAX_DEVICES_ITEM, B_UINT8_TYPE, { .ui8 = 2 }},
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = 1 }},
{ ATA_ADAPTER_INTNUM, B_UINT8_TYPE, { .ui8 = intnum }},
{ ATA_CONTROLLER_MAX_DEVICES_ITEM, B_UINT8_TYPE,
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = true }},
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = true }},
{ SLOT_NUMBER, B_UINT8_TYPE, { .ui8 = slot} },
{ BAR_INDEX, B_UINT8_TYPE, { .ui8 = bar} },
{ VIRTIO_VERSION_ITEM, B_UINT8_TYPE,
return B_UINT8_TYPE;
*_type = B_UINT8_TYPE;
{"removable", B_UINT8_TYPE, {.ui8 = deviceInquiry->removable_medium}},
{"removable", B_UINT8_TYPE, {.ui8 = deviceInquiry->removable_medium}},
if (attr->type != B_UINT8_TYPE)
case B_UINT8_TYPE:
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = can_dma }},
{ ATA_ADAPTER_INTNUM, B_UINT8_TYPE, { .ui8 = intnum }},
{ ATA_ADAPTER_CHANNEL_INDEX, B_UINT8_TYPE, { .ui8 = channel_index }},
{ ATA_CONTROLLER_MAX_DEVICES_ITEM, B_UINT8_TYPE, { .ui8 = 2 }},
{ ATA_CONTROLLER_CAN_DMA_ITEM, B_UINT8_TYPE, { .ui8 = can_dma }},
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
message.AddData("index", B_UINT8_TYPE,
message.AddData("index", B_UINT8_TYPE, &indexes[i], sizeof(uint8));
message.AddData("index", B_UINT8_TYPE,
message.AddData("index", B_UINT8_TYPE, &indexes[i], sizeof(uint8));
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE: strcpy(str, "B_UINT8_TYPE"); break;
case B_UINT8_TYPE:
} else if (tc == B_UINT8_TYPE) {
case B_UINT8_TYPE:
case B_UINT8_TYPE:
&& attr.type == B_UINT8_TYPE) {
&& attr.type == B_UINT8_TYPE)
&& attr.type == B_UINT8_TYPE)
&& attr.type == B_UINT8_TYPE)
&& attr.type == B_UINT8_TYPE)
&& attr.type == B_UINT8_TYPE)
&& attr.type == B_UINT8_TYPE)
case B_UINT8_TYPE:
case B_UINT8_TYPE:
RETURN_TYPE(B_UINT8_TYPE);
write_raw(name, B_UINT8_TYPE, data, length);
case B_UINT8_TYPE: write_uint8(name, data, length); break;
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
add_builtin_type(B_UINT8_TYPE, "uint8");
case B_UINT8_TYPE:
DEFINE_FUNCTIONS(uint8, UInt8, B_UINT8_TYPE);
case B_UINT8_TYPE:
DEFINE_FUNCTIONS(uint8, UInt8, B_UINT8_TYPE);
DEFINE_SET_GET_FUNCTIONS(uint8, UInt8, B_UINT8_TYPE);
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
typeConstant = isSigned ? B_INT8_TYPE : B_UINT8_TYPE;
typeConstant = B_UINT8_TYPE;
case B_UINT8_TYPE:
valueType = B_UINT8_TYPE;
valueType = B_UINT8_TYPE;
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
return isSigned ? B_INT8_TYPE : B_UINT8_TYPE;
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
if (baseType->TypeConstant() == B_UINT8_TYPE
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
fType = B_UINT8_TYPE;
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
&& type != B_UINT8_TYPE
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
|| message->FindData("states", B_UINT8_TYPE,
message.AddData("states", B_UINT8_TYPE, &fKeyState,
if (event->FindData("states", B_UINT8_TYPE,
if (!event->HasData("states", B_UINT8_TYPE)) {
event->AddData("states", B_UINT8_TYPE, fKeyInfo.key_states,
if (event->FindData("states", B_UINT8_TYPE,
event->AddData("states", B_UINT8_TYPE, fKeyInfo.key_states,
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
device_attr_private* attr = find_attr(node, name, recursive, B_UINT8_TYPE);
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
IS_SWAPPED(B_UINT8_TYPE);
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
case B_UINT8_TYPE:
device_attr_private* attr = find_attr(node, name, recursive, B_UINT8_TYPE);
case B_UINT8_TYPE:
case B_UINT8_TYPE: