haven/nexgb/sync/sync.go
2012-05-26 18:24:52 -04:00

2131 lines
58 KiB
Go

// Package sync is the X client API for the SYNC extension.
package sync
/*
This file was generated by sync.xml on May 26 2012 6:23:13pm EDT.
This file is automatically generated. Edit at your peril!
*/
import (
"github.com/BurntSushi/xgb"
"github.com/BurntSushi/xgb/xproto"
)
// Init must be called before using the SYNC extension.
func Init(c *xgb.Conn) error {
reply, err := xproto.QueryExtension(c, 4, "SYNC").Reply()
switch {
case err != nil:
return err
case !reply.Present:
return xgb.Errorf("No extension named SYNC could be found on on the server.")
}
xgb.ExtLock.Lock()
c.Extensions["SYNC"] = reply.MajorOpcode
for evNum, fun := range xgb.NewExtEventFuncs["SYNC"] {
xgb.NewEventFuncs[int(reply.FirstEvent)+evNum] = fun
}
for errNum, fun := range xgb.NewExtErrorFuncs["SYNC"] {
xgb.NewErrorFuncs[int(reply.FirstError)+errNum] = fun
}
xgb.ExtLock.Unlock()
return nil
}
func init() {
xgb.NewExtEventFuncs["SYNC"] = make(map[int]xgb.NewEventFun)
xgb.NewExtErrorFuncs["SYNC"] = make(map[int]xgb.NewErrorFun)
}
// Skipping definition for base type 'Card16'
// Skipping definition for base type 'Char'
// Skipping definition for base type 'Card32'
// Skipping definition for base type 'Double'
// Skipping definition for base type 'Bool'
// Skipping definition for base type 'Float'
// Skipping definition for base type 'Card8'
// Skipping definition for base type 'Int16'
// Skipping definition for base type 'Int32'
// Skipping definition for base type 'Void'
// Skipping definition for base type 'Byte'
// Skipping definition for base type 'Int8'
const (
AlarmstateActive = 0
AlarmstateInactive = 1
AlarmstateDestroyed = 2
)
const (
TesttypePositiveTransition = 0
TesttypeNegativeTransition = 1
TesttypePositiveComparison = 2
TesttypeNegativeComparison = 3
)
const (
ValuetypeAbsolute = 0
ValuetypeRelative = 1
)
const (
CaCounter = 1
CaValueType = 2
CaValue = 4
CaTestType = 8
CaDelta = 16
CaEvents = 32
)
type Alarm uint32
func NewAlarmId(c *xgb.Conn) (Alarm, error) {
id, err := c.NewId()
if err != nil {
return 0, err
}
return Alarm(id), nil
}
type Counter uint32
func NewCounterId(c *xgb.Conn) (Counter, error) {
id, err := c.NewId()
if err != nil {
return 0, err
}
return Counter(id), nil
}
type Fence uint32
func NewFenceId(c *xgb.Conn) (Fence, error) {
id, err := c.NewId()
if err != nil {
return 0, err
}
return Fence(id), nil
}
type Int64 struct {
Hi int32
Lo uint32
}
// Int64Read reads a byte slice into a Int64 value.
func Int64Read(buf []byte, v *Int64) int {
b := 0
v.Hi = int32(xgb.Get32(buf[b:]))
b += 4
v.Lo = xgb.Get32(buf[b:])
b += 4
return b
}
// Int64ReadList reads a byte slice into a list of Int64 values.
func Int64ReadList(buf []byte, dest []Int64) int {
b := 0
for i := 0; i < len(dest); i++ {
dest[i] = Int64{}
b += Int64Read(buf[b:], &dest[i])
}
return xgb.Pad(b)
}
// Bytes writes a Int64 value to a byte slice.
func (v Int64) Bytes() []byte {
buf := make([]byte, 8)
b := 0
xgb.Put32(buf[b:], uint32(v.Hi))
b += 4
xgb.Put32(buf[b:], v.Lo)
b += 4
return buf
}
// Int64ListBytes writes a list of Int64 values to a byte slice.
func Int64ListBytes(buf []byte, list []Int64) int {
b := 0
var structBytes []byte
for _, item := range list {
structBytes = item.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return b
}
type Systemcounter struct {
Counter Counter
Resolution Int64
NameLen uint16
Name string // size: xgb.Pad((int(NameLen) * 1))
}
// SystemcounterRead reads a byte slice into a Systemcounter value.
func SystemcounterRead(buf []byte, v *Systemcounter) int {
b := 0
v.Counter = Counter(xgb.Get32(buf[b:]))
b += 4
v.Resolution = Int64{}
b += Int64Read(buf[b:], &v.Resolution)
v.NameLen = xgb.Get16(buf[b:])
b += 2
{
byteString := make([]byte, v.NameLen)
copy(byteString[:v.NameLen], buf[b:])
v.Name = string(byteString)
b += xgb.Pad(int(v.NameLen))
}
return b
}
// SystemcounterReadList reads a byte slice into a list of Systemcounter values.
func SystemcounterReadList(buf []byte, dest []Systemcounter) int {
b := 0
for i := 0; i < len(dest); i++ {
dest[i] = Systemcounter{}
b += SystemcounterRead(buf[b:], &dest[i])
}
return xgb.Pad(b)
}
// Bytes writes a Systemcounter value to a byte slice.
func (v Systemcounter) Bytes() []byte {
buf := make([]byte, (14 + xgb.Pad((int(v.NameLen) * 1))))
b := 0
xgb.Put32(buf[b:], uint32(v.Counter))
b += 4
{
structBytes := v.Resolution.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
xgb.Put16(buf[b:], v.NameLen)
b += 2
copy(buf[b:], v.Name[:v.NameLen])
b += xgb.Pad(int(v.NameLen))
return buf
}
// SystemcounterListBytes writes a list of Systemcounter values to a byte slice.
func SystemcounterListBytes(buf []byte, list []Systemcounter) int {
b := 0
var structBytes []byte
for _, item := range list {
structBytes = item.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return b
}
// SystemcounterListSize computes the size (bytes) of a list of Systemcounter values.
func SystemcounterListSize(list []Systemcounter) int {
size := 0
for _, item := range list {
size += (14 + xgb.Pad((int(item.NameLen) * 1)))
}
return size
}
type Trigger struct {
Counter Counter
WaitType uint32
WaitValue Int64
TestType uint32
}
// TriggerRead reads a byte slice into a Trigger value.
func TriggerRead(buf []byte, v *Trigger) int {
b := 0
v.Counter = Counter(xgb.Get32(buf[b:]))
b += 4
v.WaitType = xgb.Get32(buf[b:])
b += 4
v.WaitValue = Int64{}
b += Int64Read(buf[b:], &v.WaitValue)
v.TestType = xgb.Get32(buf[b:])
b += 4
return b
}
// TriggerReadList reads a byte slice into a list of Trigger values.
func TriggerReadList(buf []byte, dest []Trigger) int {
b := 0
for i := 0; i < len(dest); i++ {
dest[i] = Trigger{}
b += TriggerRead(buf[b:], &dest[i])
}
return xgb.Pad(b)
}
// Bytes writes a Trigger value to a byte slice.
func (v Trigger) Bytes() []byte {
buf := make([]byte, 20)
b := 0
xgb.Put32(buf[b:], uint32(v.Counter))
b += 4
xgb.Put32(buf[b:], v.WaitType)
b += 4
{
structBytes := v.WaitValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
xgb.Put32(buf[b:], v.TestType)
b += 4
return buf
}
// TriggerListBytes writes a list of Trigger values to a byte slice.
func TriggerListBytes(buf []byte, list []Trigger) int {
b := 0
var structBytes []byte
for _, item := range list {
structBytes = item.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return b
}
type Waitcondition struct {
Trigger Trigger
EventThreshold Int64
}
// WaitconditionRead reads a byte slice into a Waitcondition value.
func WaitconditionRead(buf []byte, v *Waitcondition) int {
b := 0
v.Trigger = Trigger{}
b += TriggerRead(buf[b:], &v.Trigger)
v.EventThreshold = Int64{}
b += Int64Read(buf[b:], &v.EventThreshold)
return b
}
// WaitconditionReadList reads a byte slice into a list of Waitcondition values.
func WaitconditionReadList(buf []byte, dest []Waitcondition) int {
b := 0
for i := 0; i < len(dest); i++ {
dest[i] = Waitcondition{}
b += WaitconditionRead(buf[b:], &dest[i])
}
return xgb.Pad(b)
}
// Bytes writes a Waitcondition value to a byte slice.
func (v Waitcondition) Bytes() []byte {
buf := make([]byte, 28)
b := 0
{
structBytes := v.Trigger.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
{
structBytes := v.EventThreshold.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return buf
}
// WaitconditionListBytes writes a list of Waitcondition values to a byte slice.
func WaitconditionListBytes(buf []byte, list []Waitcondition) int {
b := 0
var structBytes []byte
for _, item := range list {
structBytes = item.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return b
}
// CounterNotify is the event number for a CounterNotifyEvent.
const CounterNotify = 0
type CounterNotifyEvent struct {
Sequence uint16
Kind byte
Counter Counter
WaitValue Int64
CounterValue Int64
Timestamp xproto.Timestamp
Count uint16
Destroyed bool
// padding: 1 bytes
}
// CounterNotifyEventNew constructs a CounterNotifyEvent value that implements xgb.Event from a byte slice.
func CounterNotifyEventNew(buf []byte) xgb.Event {
v := CounterNotifyEvent{}
b := 1 // don't read event number
v.Kind = buf[b]
b += 1
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Counter = Counter(xgb.Get32(buf[b:]))
b += 4
v.WaitValue = Int64{}
b += Int64Read(buf[b:], &v.WaitValue)
v.CounterValue = Int64{}
b += Int64Read(buf[b:], &v.CounterValue)
v.Timestamp = xproto.Timestamp(xgb.Get32(buf[b:]))
b += 4
v.Count = xgb.Get16(buf[b:])
b += 2
if buf[b] == 1 {
v.Destroyed = true
} else {
v.Destroyed = false
}
b += 1
b += 1 // padding
return v
}
// Bytes writes a CounterNotifyEvent value to a byte slice.
func (v CounterNotifyEvent) Bytes() []byte {
buf := make([]byte, 32)
b := 0
// write event number
buf[b] = 0
b += 1
buf[b] = v.Kind
b += 1
b += 2 // skip sequence number
xgb.Put32(buf[b:], uint32(v.Counter))
b += 4
{
structBytes := v.WaitValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
{
structBytes := v.CounterValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
xgb.Put32(buf[b:], uint32(v.Timestamp))
b += 4
xgb.Put16(buf[b:], v.Count)
b += 2
if v.Destroyed {
buf[b] = 1
} else {
buf[b] = 0
}
b += 1
b += 1 // padding
return buf
}
// SequenceId returns the sequence id attached to the CounterNotify event.
// Events without a sequence number (KeymapNotify) return 0.
// This is mostly used internally.
func (v CounterNotifyEvent) SequenceId() uint16 {
return v.Sequence
}
// String is a rudimentary string representation of CounterNotifyEvent.
func (v CounterNotifyEvent) String() string {
fieldVals := make([]string, 0, 8)
fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
fieldVals = append(fieldVals, xgb.Sprintf("Kind: %d", v.Kind))
fieldVals = append(fieldVals, xgb.Sprintf("Counter: %d", v.Counter))
fieldVals = append(fieldVals, xgb.Sprintf("Timestamp: %d", v.Timestamp))
fieldVals = append(fieldVals, xgb.Sprintf("Count: %d", v.Count))
fieldVals = append(fieldVals, xgb.Sprintf("Destroyed: %t", v.Destroyed))
return "CounterNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
}
func init() {
xgb.NewExtEventFuncs["SYNC"][0] = CounterNotifyEventNew
}
// AlarmNotify is the event number for a AlarmNotifyEvent.
const AlarmNotify = 1
type AlarmNotifyEvent struct {
Sequence uint16
Kind byte
Alarm Alarm
CounterValue Int64
AlarmValue Int64
Timestamp xproto.Timestamp
State byte
// padding: 3 bytes
}
// AlarmNotifyEventNew constructs a AlarmNotifyEvent value that implements xgb.Event from a byte slice.
func AlarmNotifyEventNew(buf []byte) xgb.Event {
v := AlarmNotifyEvent{}
b := 1 // don't read event number
v.Kind = buf[b]
b += 1
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Alarm = Alarm(xgb.Get32(buf[b:]))
b += 4
v.CounterValue = Int64{}
b += Int64Read(buf[b:], &v.CounterValue)
v.AlarmValue = Int64{}
b += Int64Read(buf[b:], &v.AlarmValue)
v.Timestamp = xproto.Timestamp(xgb.Get32(buf[b:]))
b += 4
v.State = buf[b]
b += 1
b += 3 // padding
return v
}
// Bytes writes a AlarmNotifyEvent value to a byte slice.
func (v AlarmNotifyEvent) Bytes() []byte {
buf := make([]byte, 32)
b := 0
// write event number
buf[b] = 1
b += 1
buf[b] = v.Kind
b += 1
b += 2 // skip sequence number
xgb.Put32(buf[b:], uint32(v.Alarm))
b += 4
{
structBytes := v.CounterValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
{
structBytes := v.AlarmValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
xgb.Put32(buf[b:], uint32(v.Timestamp))
b += 4
buf[b] = v.State
b += 1
b += 3 // padding
return buf
}
// SequenceId returns the sequence id attached to the AlarmNotify event.
// Events without a sequence number (KeymapNotify) return 0.
// This is mostly used internally.
func (v AlarmNotifyEvent) SequenceId() uint16 {
return v.Sequence
}
// String is a rudimentary string representation of AlarmNotifyEvent.
func (v AlarmNotifyEvent) String() string {
fieldVals := make([]string, 0, 7)
fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
fieldVals = append(fieldVals, xgb.Sprintf("Kind: %d", v.Kind))
fieldVals = append(fieldVals, xgb.Sprintf("Alarm: %d", v.Alarm))
fieldVals = append(fieldVals, xgb.Sprintf("Timestamp: %d", v.Timestamp))
fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
return "AlarmNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
}
func init() {
xgb.NewExtEventFuncs["SYNC"][1] = AlarmNotifyEventNew
}
// BadCounter is the error number for a BadCounter.
const BadCounter = 0
type CounterError struct {
Sequence uint16
NiceName string
BadCounter uint32
MinorOpcode uint16
MajorOpcode byte
}
// CounterErrorNew constructs a CounterError value that implements xgb.Error from a byte slice.
func CounterErrorNew(buf []byte) xgb.Error {
v := CounterError{}
v.NiceName = "Counter"
b := 1 // skip error determinant
b += 1 // don't read error number
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.BadCounter = xgb.Get32(buf[b:])
b += 4
v.MinorOpcode = xgb.Get16(buf[b:])
b += 2
v.MajorOpcode = buf[b]
b += 1
return v
}
// SequenceId returns the sequence id attached to the BadCounter error.
// This is mostly used internally.
func (err CounterError) SequenceId() uint16 {
return err.Sequence
}
// BadId returns the 'BadValue' number if one exists for the BadCounter error. If no bad value exists, 0 is returned.
func (err CounterError) BadId() uint32 {
return 0
}
// Error returns a rudimentary string representation of the BadCounter error.
func (err CounterError) Error() string {
fieldVals := make([]string, 0, 3)
fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
fieldVals = append(fieldVals, xgb.Sprintf("BadCounter: %d", err.BadCounter))
fieldVals = append(fieldVals, xgb.Sprintf("MinorOpcode: %d", err.MinorOpcode))
fieldVals = append(fieldVals, xgb.Sprintf("MajorOpcode: %d", err.MajorOpcode))
return "BadCounter {" + xgb.StringsJoin(fieldVals, ", ") + "}"
}
func init() {
xgb.NewExtErrorFuncs["SYNC"][0] = CounterErrorNew
}
// BadAlarm is the error number for a BadAlarm.
const BadAlarm = 1
type AlarmError struct {
Sequence uint16
NiceName string
BadAlarm uint32
MinorOpcode uint16
MajorOpcode byte
}
// AlarmErrorNew constructs a AlarmError value that implements xgb.Error from a byte slice.
func AlarmErrorNew(buf []byte) xgb.Error {
v := AlarmError{}
v.NiceName = "Alarm"
b := 1 // skip error determinant
b += 1 // don't read error number
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.BadAlarm = xgb.Get32(buf[b:])
b += 4
v.MinorOpcode = xgb.Get16(buf[b:])
b += 2
v.MajorOpcode = buf[b]
b += 1
return v
}
// SequenceId returns the sequence id attached to the BadAlarm error.
// This is mostly used internally.
func (err AlarmError) SequenceId() uint16 {
return err.Sequence
}
// BadId returns the 'BadValue' number if one exists for the BadAlarm error. If no bad value exists, 0 is returned.
func (err AlarmError) BadId() uint32 {
return 0
}
// Error returns a rudimentary string representation of the BadAlarm error.
func (err AlarmError) Error() string {
fieldVals := make([]string, 0, 3)
fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
fieldVals = append(fieldVals, xgb.Sprintf("BadAlarm: %d", err.BadAlarm))
fieldVals = append(fieldVals, xgb.Sprintf("MinorOpcode: %d", err.MinorOpcode))
fieldVals = append(fieldVals, xgb.Sprintf("MajorOpcode: %d", err.MajorOpcode))
return "BadAlarm {" + xgb.StringsJoin(fieldVals, ", ") + "}"
}
func init() {
xgb.NewExtErrorFuncs["SYNC"][1] = AlarmErrorNew
}
// InitializeCookie is a cookie used only for Initialize requests.
type InitializeCookie struct {
*xgb.Cookie
}
// Initialize sends a checked request.
// If an error occurs, it will be returned with the reply by calling InitializeCookie.Reply()
func Initialize(c *xgb.Conn, DesiredMajorVersion byte, DesiredMinorVersion byte) InitializeCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'Initialize' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(initializeRequest(c, DesiredMajorVersion, DesiredMinorVersion), cookie)
return InitializeCookie{cookie}
}
// InitializeUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func InitializeUnchecked(c *xgb.Conn, DesiredMajorVersion byte, DesiredMinorVersion byte) InitializeCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'Initialize' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(initializeRequest(c, DesiredMajorVersion, DesiredMinorVersion), cookie)
return InitializeCookie{cookie}
}
// InitializeReply represents the data returned from a Initialize request.
type InitializeReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
MajorVersion byte
MinorVersion byte
// padding: 22 bytes
}
// Reply blocks and returns the reply data for a Initialize request.
func (cook InitializeCookie) Reply() (*InitializeReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return initializeReply(buf), nil
}
// initializeReply reads a byte slice into a InitializeReply value.
func initializeReply(buf []byte) *InitializeReply {
v := new(InitializeReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
v.MajorVersion = buf[b]
b += 1
v.MinorVersion = buf[b]
b += 1
b += 22 // padding
return v
}
// Write request to wire for Initialize
// initializeRequest writes a Initialize request to a byte slice.
func initializeRequest(c *xgb.Conn, DesiredMajorVersion byte, DesiredMinorVersion byte) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 0 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
buf[b] = DesiredMajorVersion
b += 1
buf[b] = DesiredMinorVersion
b += 1
return buf
}
// ListSystemCountersCookie is a cookie used only for ListSystemCounters requests.
type ListSystemCountersCookie struct {
*xgb.Cookie
}
// ListSystemCounters sends a checked request.
// If an error occurs, it will be returned with the reply by calling ListSystemCountersCookie.Reply()
func ListSystemCounters(c *xgb.Conn) ListSystemCountersCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ListSystemCounters' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(listSystemCountersRequest(c), cookie)
return ListSystemCountersCookie{cookie}
}
// ListSystemCountersUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func ListSystemCountersUnchecked(c *xgb.Conn) ListSystemCountersCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ListSystemCounters' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(listSystemCountersRequest(c), cookie)
return ListSystemCountersCookie{cookie}
}
// ListSystemCountersReply represents the data returned from a ListSystemCounters request.
type ListSystemCountersReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
CountersLen uint32
// padding: 20 bytes
Counters []Systemcounter // size: SystemcounterListSize(Counters)
}
// Reply blocks and returns the reply data for a ListSystemCounters request.
func (cook ListSystemCountersCookie) Reply() (*ListSystemCountersReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return listSystemCountersReply(buf), nil
}
// listSystemCountersReply reads a byte slice into a ListSystemCountersReply value.
func listSystemCountersReply(buf []byte) *ListSystemCountersReply {
v := new(ListSystemCountersReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
v.CountersLen = xgb.Get32(buf[b:])
b += 4
b += 20 // padding
v.Counters = make([]Systemcounter, v.CountersLen)
b += SystemcounterReadList(buf[b:], v.Counters)
return v
}
// Write request to wire for ListSystemCounters
// listSystemCountersRequest writes a ListSystemCounters request to a byte slice.
func listSystemCountersRequest(c *xgb.Conn) []byte {
size := 4
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 1 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
return buf
}
// CreateCounterCookie is a cookie used only for CreateCounter requests.
type CreateCounterCookie struct {
*xgb.Cookie
}
// CreateCounter sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func CreateCounter(c *xgb.Conn, Id Counter, InitialValue Int64) CreateCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(createCounterRequest(c, Id, InitialValue), cookie)
return CreateCounterCookie{cookie}
}
// CreateCounterChecked sends a checked request.
// If an error occurs, it can be retrieved using CreateCounterCookie.Check()
func CreateCounterChecked(c *xgb.Conn, Id Counter, InitialValue Int64) CreateCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(createCounterRequest(c, Id, InitialValue), cookie)
return CreateCounterCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook CreateCounterCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for CreateCounter
// createCounterRequest writes a CreateCounter request to a byte slice.
func createCounterRequest(c *xgb.Conn, Id Counter, InitialValue Int64) []byte {
size := 16
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 2 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Id))
b += 4
{
structBytes := InitialValue.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return buf
}
// DestroyCounterCookie is a cookie used only for DestroyCounter requests.
type DestroyCounterCookie struct {
*xgb.Cookie
}
// DestroyCounter sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func DestroyCounter(c *xgb.Conn, Counter Counter) DestroyCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(destroyCounterRequest(c, Counter), cookie)
return DestroyCounterCookie{cookie}
}
// DestroyCounterChecked sends a checked request.
// If an error occurs, it can be retrieved using DestroyCounterCookie.Check()
func DestroyCounterChecked(c *xgb.Conn, Counter Counter) DestroyCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(destroyCounterRequest(c, Counter), cookie)
return DestroyCounterCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook DestroyCounterCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for DestroyCounter
// destroyCounterRequest writes a DestroyCounter request to a byte slice.
func destroyCounterRequest(c *xgb.Conn, Counter Counter) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 6 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Counter))
b += 4
return buf
}
// QueryCounterCookie is a cookie used only for QueryCounter requests.
type QueryCounterCookie struct {
*xgb.Cookie
}
// QueryCounter sends a checked request.
// If an error occurs, it will be returned with the reply by calling QueryCounterCookie.Reply()
func QueryCounter(c *xgb.Conn, Counter Counter) QueryCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(queryCounterRequest(c, Counter), cookie)
return QueryCounterCookie{cookie}
}
// QueryCounterUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func QueryCounterUnchecked(c *xgb.Conn, Counter Counter) QueryCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(queryCounterRequest(c, Counter), cookie)
return QueryCounterCookie{cookie}
}
// QueryCounterReply represents the data returned from a QueryCounter request.
type QueryCounterReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
CounterValue Int64
}
// Reply blocks and returns the reply data for a QueryCounter request.
func (cook QueryCounterCookie) Reply() (*QueryCounterReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return queryCounterReply(buf), nil
}
// queryCounterReply reads a byte slice into a QueryCounterReply value.
func queryCounterReply(buf []byte) *QueryCounterReply {
v := new(QueryCounterReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
v.CounterValue = Int64{}
b += Int64Read(buf[b:], &v.CounterValue)
return v
}
// Write request to wire for QueryCounter
// queryCounterRequest writes a QueryCounter request to a byte slice.
func queryCounterRequest(c *xgb.Conn, Counter Counter) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 5 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Counter))
b += 4
return buf
}
// AwaitCookie is a cookie used only for Await requests.
type AwaitCookie struct {
*xgb.Cookie
}
// Await sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func Await(c *xgb.Conn, WaitList []Waitcondition) AwaitCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'Await' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(awaitRequest(c, WaitList), cookie)
return AwaitCookie{cookie}
}
// AwaitChecked sends a checked request.
// If an error occurs, it can be retrieved using AwaitCookie.Check()
func AwaitChecked(c *xgb.Conn, WaitList []Waitcondition) AwaitCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'Await' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(awaitRequest(c, WaitList), cookie)
return AwaitCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook AwaitCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for Await
// awaitRequest writes a Await request to a byte slice.
func awaitRequest(c *xgb.Conn, WaitList []Waitcondition) []byte {
size := xgb.Pad((4 + xgb.Pad((len(WaitList) * 28))))
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 7 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
b += WaitconditionListBytes(buf[b:], WaitList)
return buf
}
// ChangeCounterCookie is a cookie used only for ChangeCounter requests.
type ChangeCounterCookie struct {
*xgb.Cookie
}
// ChangeCounter sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func ChangeCounter(c *xgb.Conn, Counter Counter, Amount Int64) ChangeCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ChangeCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(changeCounterRequest(c, Counter, Amount), cookie)
return ChangeCounterCookie{cookie}
}
// ChangeCounterChecked sends a checked request.
// If an error occurs, it can be retrieved using ChangeCounterCookie.Check()
func ChangeCounterChecked(c *xgb.Conn, Counter Counter, Amount Int64) ChangeCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ChangeCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(changeCounterRequest(c, Counter, Amount), cookie)
return ChangeCounterCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook ChangeCounterCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for ChangeCounter
// changeCounterRequest writes a ChangeCounter request to a byte slice.
func changeCounterRequest(c *xgb.Conn, Counter Counter, Amount Int64) []byte {
size := 16
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 4 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Counter))
b += 4
{
structBytes := Amount.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return buf
}
// SetCounterCookie is a cookie used only for SetCounter requests.
type SetCounterCookie struct {
*xgb.Cookie
}
// SetCounter sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func SetCounter(c *xgb.Conn, Counter Counter, Value Int64) SetCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'SetCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(setCounterRequest(c, Counter, Value), cookie)
return SetCounterCookie{cookie}
}
// SetCounterChecked sends a checked request.
// If an error occurs, it can be retrieved using SetCounterCookie.Check()
func SetCounterChecked(c *xgb.Conn, Counter Counter, Value Int64) SetCounterCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'SetCounter' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(setCounterRequest(c, Counter, Value), cookie)
return SetCounterCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook SetCounterCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for SetCounter
// setCounterRequest writes a SetCounter request to a byte slice.
func setCounterRequest(c *xgb.Conn, Counter Counter, Value Int64) []byte {
size := 16
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 3 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Counter))
b += 4
{
structBytes := Value.Bytes()
copy(buf[b:], structBytes)
b += xgb.Pad(len(structBytes))
}
return buf
}
// CreateAlarmCookie is a cookie used only for CreateAlarm requests.
type CreateAlarmCookie struct {
*xgb.Cookie
}
// CreateAlarm sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func CreateAlarm(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) CreateAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(createAlarmRequest(c, Id, ValueMask, ValueList), cookie)
return CreateAlarmCookie{cookie}
}
// CreateAlarmChecked sends a checked request.
// If an error occurs, it can be retrieved using CreateAlarmCookie.Check()
func CreateAlarmChecked(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) CreateAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(createAlarmRequest(c, Id, ValueMask, ValueList), cookie)
return CreateAlarmCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook CreateAlarmCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for CreateAlarm
// createAlarmRequest writes a CreateAlarm request to a byte slice.
func createAlarmRequest(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) []byte {
size := xgb.Pad((8 + (4 + xgb.Pad((4 * xgb.PopCount(int(ValueMask)))))))
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 8 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Id))
b += 4
xgb.Put32(buf[b:], ValueMask)
b += 4
for i := 0; i < xgb.PopCount(int(ValueMask)); i++ {
xgb.Put32(buf[b:], ValueList[i])
b += 4
}
b = xgb.Pad(b)
return buf
}
// ChangeAlarmCookie is a cookie used only for ChangeAlarm requests.
type ChangeAlarmCookie struct {
*xgb.Cookie
}
// ChangeAlarm sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func ChangeAlarm(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) ChangeAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ChangeAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(changeAlarmRequest(c, Id, ValueMask, ValueList), cookie)
return ChangeAlarmCookie{cookie}
}
// ChangeAlarmChecked sends a checked request.
// If an error occurs, it can be retrieved using ChangeAlarmCookie.Check()
func ChangeAlarmChecked(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) ChangeAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ChangeAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(changeAlarmRequest(c, Id, ValueMask, ValueList), cookie)
return ChangeAlarmCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook ChangeAlarmCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for ChangeAlarm
// changeAlarmRequest writes a ChangeAlarm request to a byte slice.
func changeAlarmRequest(c *xgb.Conn, Id Alarm, ValueMask uint32, ValueList []uint32) []byte {
size := xgb.Pad((8 + (4 + xgb.Pad((4 * xgb.PopCount(int(ValueMask)))))))
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 9 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Id))
b += 4
xgb.Put32(buf[b:], ValueMask)
b += 4
for i := 0; i < xgb.PopCount(int(ValueMask)); i++ {
xgb.Put32(buf[b:], ValueList[i])
b += 4
}
b = xgb.Pad(b)
return buf
}
// DestroyAlarmCookie is a cookie used only for DestroyAlarm requests.
type DestroyAlarmCookie struct {
*xgb.Cookie
}
// DestroyAlarm sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func DestroyAlarm(c *xgb.Conn, Alarm Alarm) DestroyAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(destroyAlarmRequest(c, Alarm), cookie)
return DestroyAlarmCookie{cookie}
}
// DestroyAlarmChecked sends a checked request.
// If an error occurs, it can be retrieved using DestroyAlarmCookie.Check()
func DestroyAlarmChecked(c *xgb.Conn, Alarm Alarm) DestroyAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(destroyAlarmRequest(c, Alarm), cookie)
return DestroyAlarmCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook DestroyAlarmCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for DestroyAlarm
// destroyAlarmRequest writes a DestroyAlarm request to a byte slice.
func destroyAlarmRequest(c *xgb.Conn, Alarm Alarm) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 11 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Alarm))
b += 4
return buf
}
// QueryAlarmCookie is a cookie used only for QueryAlarm requests.
type QueryAlarmCookie struct {
*xgb.Cookie
}
// QueryAlarm sends a checked request.
// If an error occurs, it will be returned with the reply by calling QueryAlarmCookie.Reply()
func QueryAlarm(c *xgb.Conn, Alarm Alarm) QueryAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(queryAlarmRequest(c, Alarm), cookie)
return QueryAlarmCookie{cookie}
}
// QueryAlarmUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func QueryAlarmUnchecked(c *xgb.Conn, Alarm Alarm) QueryAlarmCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryAlarm' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(queryAlarmRequest(c, Alarm), cookie)
return QueryAlarmCookie{cookie}
}
// QueryAlarmReply represents the data returned from a QueryAlarm request.
type QueryAlarmReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
Trigger Trigger
Delta Int64
Events bool
State byte
// padding: 2 bytes
}
// Reply blocks and returns the reply data for a QueryAlarm request.
func (cook QueryAlarmCookie) Reply() (*QueryAlarmReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return queryAlarmReply(buf), nil
}
// queryAlarmReply reads a byte slice into a QueryAlarmReply value.
func queryAlarmReply(buf []byte) *QueryAlarmReply {
v := new(QueryAlarmReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
v.Trigger = Trigger{}
b += TriggerRead(buf[b:], &v.Trigger)
v.Delta = Int64{}
b += Int64Read(buf[b:], &v.Delta)
if buf[b] == 1 {
v.Events = true
} else {
v.Events = false
}
b += 1
v.State = buf[b]
b += 1
b += 2 // padding
return v
}
// Write request to wire for QueryAlarm
// queryAlarmRequest writes a QueryAlarm request to a byte slice.
func queryAlarmRequest(c *xgb.Conn, Alarm Alarm) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 10 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Alarm))
b += 4
return buf
}
// SetPriorityCookie is a cookie used only for SetPriority requests.
type SetPriorityCookie struct {
*xgb.Cookie
}
// SetPriority sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func SetPriority(c *xgb.Conn, Id uint32, Priority int32) SetPriorityCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'SetPriority' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(setPriorityRequest(c, Id, Priority), cookie)
return SetPriorityCookie{cookie}
}
// SetPriorityChecked sends a checked request.
// If an error occurs, it can be retrieved using SetPriorityCookie.Check()
func SetPriorityChecked(c *xgb.Conn, Id uint32, Priority int32) SetPriorityCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'SetPriority' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(setPriorityRequest(c, Id, Priority), cookie)
return SetPriorityCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook SetPriorityCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for SetPriority
// setPriorityRequest writes a SetPriority request to a byte slice.
func setPriorityRequest(c *xgb.Conn, Id uint32, Priority int32) []byte {
size := 12
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 12 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], Id)
b += 4
xgb.Put32(buf[b:], uint32(Priority))
b += 4
return buf
}
// GetPriorityCookie is a cookie used only for GetPriority requests.
type GetPriorityCookie struct {
*xgb.Cookie
}
// GetPriority sends a checked request.
// If an error occurs, it will be returned with the reply by calling GetPriorityCookie.Reply()
func GetPriority(c *xgb.Conn, Id uint32) GetPriorityCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'GetPriority' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(getPriorityRequest(c, Id), cookie)
return GetPriorityCookie{cookie}
}
// GetPriorityUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func GetPriorityUnchecked(c *xgb.Conn, Id uint32) GetPriorityCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'GetPriority' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(getPriorityRequest(c, Id), cookie)
return GetPriorityCookie{cookie}
}
// GetPriorityReply represents the data returned from a GetPriority request.
type GetPriorityReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
Priority int32
}
// Reply blocks and returns the reply data for a GetPriority request.
func (cook GetPriorityCookie) Reply() (*GetPriorityReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return getPriorityReply(buf), nil
}
// getPriorityReply reads a byte slice into a GetPriorityReply value.
func getPriorityReply(buf []byte) *GetPriorityReply {
v := new(GetPriorityReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
v.Priority = int32(xgb.Get32(buf[b:]))
b += 4
return v
}
// Write request to wire for GetPriority
// getPriorityRequest writes a GetPriority request to a byte slice.
func getPriorityRequest(c *xgb.Conn, Id uint32) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 13 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], Id)
b += 4
return buf
}
// CreateFenceCookie is a cookie used only for CreateFence requests.
type CreateFenceCookie struct {
*xgb.Cookie
}
// CreateFence sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func CreateFence(c *xgb.Conn, Drawable xproto.Drawable, Fence Fence, InitiallyTriggered bool) CreateFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(createFenceRequest(c, Drawable, Fence, InitiallyTriggered), cookie)
return CreateFenceCookie{cookie}
}
// CreateFenceChecked sends a checked request.
// If an error occurs, it can be retrieved using CreateFenceCookie.Check()
func CreateFenceChecked(c *xgb.Conn, Drawable xproto.Drawable, Fence Fence, InitiallyTriggered bool) CreateFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'CreateFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(createFenceRequest(c, Drawable, Fence, InitiallyTriggered), cookie)
return CreateFenceCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook CreateFenceCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for CreateFence
// createFenceRequest writes a CreateFence request to a byte slice.
func createFenceRequest(c *xgb.Conn, Drawable xproto.Drawable, Fence Fence, InitiallyTriggered bool) []byte {
size := 16
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 14 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Drawable))
b += 4
xgb.Put32(buf[b:], uint32(Fence))
b += 4
if InitiallyTriggered {
buf[b] = 1
} else {
buf[b] = 0
}
b += 1
return buf
}
// TriggerFenceCookie is a cookie used only for TriggerFence requests.
type TriggerFenceCookie struct {
*xgb.Cookie
}
// TriggerFence sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func TriggerFence(c *xgb.Conn, Fence Fence) TriggerFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'TriggerFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(triggerFenceRequest(c, Fence), cookie)
return TriggerFenceCookie{cookie}
}
// TriggerFenceChecked sends a checked request.
// If an error occurs, it can be retrieved using TriggerFenceCookie.Check()
func TriggerFenceChecked(c *xgb.Conn, Fence Fence) TriggerFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'TriggerFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(triggerFenceRequest(c, Fence), cookie)
return TriggerFenceCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook TriggerFenceCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for TriggerFence
// triggerFenceRequest writes a TriggerFence request to a byte slice.
func triggerFenceRequest(c *xgb.Conn, Fence Fence) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 15 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Fence))
b += 4
return buf
}
// ResetFenceCookie is a cookie used only for ResetFence requests.
type ResetFenceCookie struct {
*xgb.Cookie
}
// ResetFence sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func ResetFence(c *xgb.Conn, Fence Fence) ResetFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ResetFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(resetFenceRequest(c, Fence), cookie)
return ResetFenceCookie{cookie}
}
// ResetFenceChecked sends a checked request.
// If an error occurs, it can be retrieved using ResetFenceCookie.Check()
func ResetFenceChecked(c *xgb.Conn, Fence Fence) ResetFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'ResetFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(resetFenceRequest(c, Fence), cookie)
return ResetFenceCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook ResetFenceCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for ResetFence
// resetFenceRequest writes a ResetFence request to a byte slice.
func resetFenceRequest(c *xgb.Conn, Fence Fence) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 16 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Fence))
b += 4
return buf
}
// DestroyFenceCookie is a cookie used only for DestroyFence requests.
type DestroyFenceCookie struct {
*xgb.Cookie
}
// DestroyFence sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func DestroyFence(c *xgb.Conn, Fence Fence) DestroyFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(destroyFenceRequest(c, Fence), cookie)
return DestroyFenceCookie{cookie}
}
// DestroyFenceChecked sends a checked request.
// If an error occurs, it can be retrieved using DestroyFenceCookie.Check()
func DestroyFenceChecked(c *xgb.Conn, Fence Fence) DestroyFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'DestroyFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(destroyFenceRequest(c, Fence), cookie)
return DestroyFenceCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook DestroyFenceCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for DestroyFence
// destroyFenceRequest writes a DestroyFence request to a byte slice.
func destroyFenceRequest(c *xgb.Conn, Fence Fence) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 17 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Fence))
b += 4
return buf
}
// QueryFenceCookie is a cookie used only for QueryFence requests.
type QueryFenceCookie struct {
*xgb.Cookie
}
// QueryFence sends a checked request.
// If an error occurs, it will be returned with the reply by calling QueryFenceCookie.Reply()
func QueryFence(c *xgb.Conn, Fence Fence) QueryFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, true)
c.NewRequest(queryFenceRequest(c, Fence), cookie)
return QueryFenceCookie{cookie}
}
// QueryFenceUnchecked sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func QueryFenceUnchecked(c *xgb.Conn, Fence Fence) QueryFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'QueryFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, true)
c.NewRequest(queryFenceRequest(c, Fence), cookie)
return QueryFenceCookie{cookie}
}
// QueryFenceReply represents the data returned from a QueryFence request.
type QueryFenceReply struct {
Sequence uint16 // sequence number of the request for this reply
Length uint32 // number of bytes in this reply
// padding: 1 bytes
Triggered bool
// padding: 23 bytes
}
// Reply blocks and returns the reply data for a QueryFence request.
func (cook QueryFenceCookie) Reply() (*QueryFenceReply, error) {
buf, err := cook.Cookie.Reply()
if err != nil {
return nil, err
}
if buf == nil {
return nil, nil
}
return queryFenceReply(buf), nil
}
// queryFenceReply reads a byte slice into a QueryFenceReply value.
func queryFenceReply(buf []byte) *QueryFenceReply {
v := new(QueryFenceReply)
b := 1 // skip reply determinant
b += 1 // padding
v.Sequence = xgb.Get16(buf[b:])
b += 2
v.Length = xgb.Get32(buf[b:]) // 4-byte units
b += 4
if buf[b] == 1 {
v.Triggered = true
} else {
v.Triggered = false
}
b += 1
b += 23 // padding
return v
}
// Write request to wire for QueryFence
// queryFenceRequest writes a QueryFence request to a byte slice.
func queryFenceRequest(c *xgb.Conn, Fence Fence) []byte {
size := 8
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 18 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
xgb.Put32(buf[b:], uint32(Fence))
b += 4
return buf
}
// AwaitFenceCookie is a cookie used only for AwaitFence requests.
type AwaitFenceCookie struct {
*xgb.Cookie
}
// AwaitFence sends an unchecked request.
// If an error occurs, it can only be retrieved using xgb.WaitForEvent or xgb.PollForEvent.
func AwaitFence(c *xgb.Conn, FenceList []Fence) AwaitFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'AwaitFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(false, false)
c.NewRequest(awaitFenceRequest(c, FenceList), cookie)
return AwaitFenceCookie{cookie}
}
// AwaitFenceChecked sends a checked request.
// If an error occurs, it can be retrieved using AwaitFenceCookie.Check()
func AwaitFenceChecked(c *xgb.Conn, FenceList []Fence) AwaitFenceCookie {
if _, ok := c.Extensions["SYNC"]; !ok {
panic("Cannot issue request 'AwaitFence' using the uninitialized extension 'SYNC'. sync.Init(connObj) must be called first.")
}
cookie := c.NewCookie(true, false)
c.NewRequest(awaitFenceRequest(c, FenceList), cookie)
return AwaitFenceCookie{cookie}
}
// Check returns an error if one occurred for checked requests that are not expecting a reply.
// This cannot be called for requests expecting a reply, nor for unchecked requests.
func (cook AwaitFenceCookie) Check() error {
return cook.Cookie.Check()
}
// Write request to wire for AwaitFence
// awaitFenceRequest writes a AwaitFence request to a byte slice.
func awaitFenceRequest(c *xgb.Conn, FenceList []Fence) []byte {
size := xgb.Pad((4 + xgb.Pad((len(FenceList) * 4))))
b := 0
buf := make([]byte, size)
buf[b] = c.Extensions["SYNC"]
b += 1
buf[b] = 19 // request opcode
b += 1
xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
b += 2
for i := 0; i < int(len(FenceList)); i++ {
xgb.Put32(buf[b:], uint32(FenceList[i]))
b += 4
}
b = xgb.Pad(b)
return buf
}