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authorAndrew Gallant (Ocelot) <Andrew.Gallant@tufts.edu>2012-05-10 17:01:42 -0400
committerAndrew Gallant (Ocelot) <Andrew.Gallant@tufts.edu>2012-05-10 17:01:42 -0400
commit0c50dc6241fa21712e041cfa2bfb9db4ccaef10a (patch)
tree90a3200414c8ad6df8e7983a8e73fedfbe2b324e /nexgb/xinput/xinput.go
parente239bb3c68a4981a3916534203c2fbd6b96f593c (diff)
downloadhaven-0c50dc6241fa21712e041cfa2bfb9db4ccaef10a.tar.gz
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a huge commit. splitting extensions into their own sub-packages.
Diffstat (limited to 'nexgb/xinput/xinput.go')
-rw-r--r--nexgb/xinput/xinput.go7219
1 files changed, 7219 insertions, 0 deletions
diff --git a/nexgb/xinput/xinput.go b/nexgb/xinput/xinput.go
new file mode 100644
index 0000000..40635f3
--- /dev/null
+++ b/nexgb/xinput/xinput.go
@@ -0,0 +1,7219 @@
+package xinput
+
+/*
+ This file was generated by xinput.xml on May 10 2012 4:20:28pm 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 XInputExtension extension.
+func Init(c *xgb.Conn) error {
+ reply, err := xproto.QueryExtension(c, 15, "XInputExtension").Reply()
+ switch {
+ case err != nil:
+ return err
+ case !reply.Present:
+ return xgb.Errorf("No extension named XInputExtension could be found on on the server.")
+ }
+
+ xgb.ExtLock.Lock()
+ c.Extensions["XInputExtension"] = reply.MajorOpcode
+ for evNum, fun := range xgb.NewExtEventFuncs["XInputExtension"] {
+ xgb.NewEventFuncs[int(reply.FirstEvent)+evNum] = fun
+ }
+ for errNum, fun := range xgb.NewExtErrorFuncs["XInputExtension"] {
+ xgb.NewErrorFuncs[int(reply.FirstError)+errNum] = fun
+ }
+ xgb.ExtLock.Unlock()
+
+ return nil
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"] = make(map[int]xgb.NewEventFun)
+ xgb.NewExtErrorFuncs["XInputExtension"] = make(map[int]xgb.NewErrorFun)
+}
+
+// Skipping definition for base type 'Void'
+
+// Skipping definition for base type 'Byte'
+
+// Skipping definition for base type 'Int8'
+
+// 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'
+
+const (
+ ValuatorModeRelative = 0
+ ValuatorModeAbsolute = 1
+)
+
+const (
+ PropagateModeAddToList = 0
+ PropagateModeDeleteFromList = 1
+)
+
+const (
+ DeviceUseIsXPointer = 0
+ DeviceUseIsXKeyboard = 1
+ DeviceUseIsXExtensionDevice = 2
+ DeviceUseIsXExtensionKeyboard = 3
+ DeviceUseIsXExtensionPointer = 4
+)
+
+const (
+ InputClassKey = 0
+ InputClassButton = 1
+ InputClassValuator = 2
+ InputClassFeedback = 3
+ InputClassProximity = 4
+ InputClassFocus = 5
+ InputClassOther = 6
+)
+
+const (
+ DeviceInputModeAsyncThisDevice = 0
+ DeviceInputModeSyncThisDevice = 1
+ DeviceInputModeReplayThisDevice = 2
+ DeviceInputModeAsyncOtherDevices = 3
+ DeviceInputModeAsyncAll = 4
+ DeviceInputModeSyncAll = 5
+)
+
+const (
+ FeedbackClassKeyboard = 0
+ FeedbackClassPointer = 1
+ FeedbackClassString = 2
+ FeedbackClassInteger = 3
+ FeedbackClassLed = 4
+ FeedbackClassBell = 5
+)
+
+type KeyCode byte
+
+type EventClass uint32
+
+// 'DeviceInfo' struct definition
+// Size: 8
+type DeviceInfo struct {
+ DeviceType xproto.Atom
+ DeviceId byte
+ NumClassInfo byte
+ DeviceUse byte
+ // padding: 1 bytes
+}
+
+// Struct read DeviceInfo
+func DeviceInfoRead(buf []byte, v *DeviceInfo) int {
+ b := 0
+
+ v.DeviceType = xproto.Atom(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.NumClassInfo = buf[b]
+ b += 1
+
+ v.DeviceUse = buf[b]
+ b += 1
+
+ b += 1 // padding
+
+ return b
+}
+
+// Struct list read DeviceInfo
+func DeviceInfoReadList(buf []byte, dest []DeviceInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceInfo{}
+ b += DeviceInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceInfo
+func (v DeviceInfo) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ xgb.Put32(buf[b:], uint32(v.DeviceType))
+ b += 4
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ buf[b] = v.NumClassInfo
+ b += 1
+
+ buf[b] = v.DeviceUse
+ b += 1
+
+ b += 1 // padding
+
+ return buf
+}
+
+// Write struct list DeviceInfo
+func DeviceInfoListBytes(buf []byte, list []DeviceInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'InputInfo' struct definition
+// Size: 2
+type InputInfo struct {
+ ClassId byte
+ Len byte
+}
+
+// Struct read InputInfo
+func InputInfoRead(buf []byte, v *InputInfo) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ return b
+}
+
+// Struct list read InputInfo
+func InputInfoReadList(buf []byte, dest []InputInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = InputInfo{}
+ b += InputInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write InputInfo
+func (v InputInfo) Bytes() []byte {
+ buf := make([]byte, 2)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ return buf
+}
+
+// Write struct list InputInfo
+func InputInfoListBytes(buf []byte, list []InputInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'KeyInfo' struct definition
+// Size: 8
+type KeyInfo struct {
+ ClassId byte
+ Len byte
+ MinKeycode KeyCode
+ MaxKeycode KeyCode
+ NumKeys uint16
+ // padding: 2 bytes
+}
+
+// Struct read KeyInfo
+func KeyInfoRead(buf []byte, v *KeyInfo) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.MinKeycode = KeyCode(buf[b])
+ b += 1
+
+ v.MaxKeycode = KeyCode(buf[b])
+ b += 1
+
+ v.NumKeys = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 2 // padding
+
+ return b
+}
+
+// Struct list read KeyInfo
+func KeyInfoReadList(buf []byte, dest []KeyInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = KeyInfo{}
+ b += KeyInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write KeyInfo
+func (v KeyInfo) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = byte(v.MinKeycode)
+ b += 1
+
+ buf[b] = byte(v.MaxKeycode)
+ b += 1
+
+ xgb.Put16(buf[b:], v.NumKeys)
+ b += 2
+
+ b += 2 // padding
+
+ return buf
+}
+
+// Write struct list KeyInfo
+func KeyInfoListBytes(buf []byte, list []KeyInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'ButtonInfo' struct definition
+// Size: 4
+type ButtonInfo struct {
+ ClassId byte
+ Len byte
+ NumButtons uint16
+}
+
+// Struct read ButtonInfo
+func ButtonInfoRead(buf []byte, v *ButtonInfo) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.NumButtons = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read ButtonInfo
+func ButtonInfoReadList(buf []byte, dest []ButtonInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = ButtonInfo{}
+ b += ButtonInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write ButtonInfo
+func (v ButtonInfo) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ xgb.Put16(buf[b:], v.NumButtons)
+ b += 2
+
+ return buf
+}
+
+// Write struct list ButtonInfo
+func ButtonInfoListBytes(buf []byte, list []ButtonInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'AxisInfo' struct definition
+// Size: 12
+type AxisInfo struct {
+ Resolution uint32
+ Minimum int32
+ Maximum int32
+}
+
+// Struct read AxisInfo
+func AxisInfoRead(buf []byte, v *AxisInfo) int {
+ b := 0
+
+ v.Resolution = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Minimum = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Maximum = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ return b
+}
+
+// Struct list read AxisInfo
+func AxisInfoReadList(buf []byte, dest []AxisInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = AxisInfo{}
+ b += AxisInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write AxisInfo
+func (v AxisInfo) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ xgb.Put32(buf[b:], v.Resolution)
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Minimum))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Maximum))
+ b += 4
+
+ return buf
+}
+
+// Write struct list AxisInfo
+func AxisInfoListBytes(buf []byte, list []AxisInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'ValuatorInfo' struct definition
+// Size: (8 + xgb.Pad((int(AxesLen) * 12)))
+type ValuatorInfo struct {
+ ClassId byte
+ Len byte
+ AxesLen byte
+ Mode byte
+ MotionSize uint32
+ Axes []AxisInfo // size: xgb.Pad((int(AxesLen) * 12))
+}
+
+// Struct read ValuatorInfo
+func ValuatorInfoRead(buf []byte, v *ValuatorInfo) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.AxesLen = buf[b]
+ b += 1
+
+ v.Mode = buf[b]
+ b += 1
+
+ v.MotionSize = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Axes = make([]AxisInfo, v.AxesLen)
+ b += AxisInfoReadList(buf[b:], v.Axes)
+
+ return b
+}
+
+// Struct list read ValuatorInfo
+func ValuatorInfoReadList(buf []byte, dest []ValuatorInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = ValuatorInfo{}
+ b += ValuatorInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write ValuatorInfo
+func (v ValuatorInfo) Bytes() []byte {
+ buf := make([]byte, (8 + xgb.Pad((int(v.AxesLen) * 12))))
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = v.AxesLen
+ b += 1
+
+ buf[b] = v.Mode
+ b += 1
+
+ xgb.Put32(buf[b:], v.MotionSize)
+ b += 4
+
+ b += AxisInfoListBytes(buf[b:], v.Axes)
+
+ return buf
+}
+
+// Write struct list ValuatorInfo
+func ValuatorInfoListBytes(buf []byte, list []ValuatorInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size ValuatorInfo
+func ValuatorInfoListSize(list []ValuatorInfo) int {
+ size := 0
+ for _, item := range list {
+ size += (8 + xgb.Pad((int(item.AxesLen) * 12)))
+ }
+ return size
+}
+
+// 'InputClassInfo' struct definition
+// Size: 2
+type InputClassInfo struct {
+ ClassId byte
+ EventTypeBase byte
+}
+
+// Struct read InputClassInfo
+func InputClassInfoRead(buf []byte, v *InputClassInfo) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.EventTypeBase = buf[b]
+ b += 1
+
+ return b
+}
+
+// Struct list read InputClassInfo
+func InputClassInfoReadList(buf []byte, dest []InputClassInfo) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = InputClassInfo{}
+ b += InputClassInfoRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write InputClassInfo
+func (v InputClassInfo) Bytes() []byte {
+ buf := make([]byte, 2)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.EventTypeBase
+ b += 1
+
+ return buf
+}
+
+// Write struct list InputClassInfo
+func InputClassInfoListBytes(buf []byte, list []InputClassInfo) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceTimeCoord' struct definition
+// Size: 4
+type DeviceTimeCoord struct {
+ Time xproto.Timestamp
+}
+
+// Struct read DeviceTimeCoord
+func DeviceTimeCoordRead(buf []byte, v *DeviceTimeCoord) int {
+ b := 0
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ return b
+}
+
+// Struct list read DeviceTimeCoord
+func DeviceTimeCoordReadList(buf []byte, dest []DeviceTimeCoord) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceTimeCoord{}
+ b += DeviceTimeCoordRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceTimeCoord
+func (v DeviceTimeCoord) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ return buf
+}
+
+// Write struct list DeviceTimeCoord
+func DeviceTimeCoordListBytes(buf []byte, list []DeviceTimeCoord) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'FeedbackState' struct definition
+// Size: 4
+type FeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+}
+
+// Struct read FeedbackState
+func FeedbackStateRead(buf []byte, v *FeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read FeedbackState
+func FeedbackStateReadList(buf []byte, dest []FeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = FeedbackState{}
+ b += FeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write FeedbackState
+func (v FeedbackState) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ return buf
+}
+
+// Write struct list FeedbackState
+func FeedbackStateListBytes(buf []byte, list []FeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'KbdFeedbackState' struct definition
+// Size: 52
+type KbdFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ Pitch uint16
+ Duration uint16
+ LedMask uint32
+ LedValues uint32
+ GlobalAutoRepeat bool
+ Click byte
+ Percent byte
+ // padding: 1 bytes
+ AutoRepeats []byte // size: 32
+}
+
+// Struct read KbdFeedbackState
+func KbdFeedbackStateRead(buf []byte, v *KbdFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Pitch = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Duration = xgb.Get16(buf[b:])
+ b += 2
+
+ v.LedMask = xgb.Get32(buf[b:])
+ b += 4
+
+ v.LedValues = xgb.Get32(buf[b:])
+ b += 4
+
+ if buf[b] == 1 {
+ v.GlobalAutoRepeat = true
+ } else {
+ v.GlobalAutoRepeat = false
+ }
+ b += 1
+
+ v.Click = buf[b]
+ b += 1
+
+ v.Percent = buf[b]
+ b += 1
+
+ b += 1 // padding
+
+ v.AutoRepeats = make([]byte, 32)
+ copy(v.AutoRepeats[:32], buf[b:])
+ b += xgb.Pad(int(32))
+
+ return b
+}
+
+// Struct list read KbdFeedbackState
+func KbdFeedbackStateReadList(buf []byte, dest []KbdFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = KbdFeedbackState{}
+ b += KbdFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write KbdFeedbackState
+func (v KbdFeedbackState) Bytes() []byte {
+ buf := make([]byte, 52)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Pitch)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Duration)
+ b += 2
+
+ xgb.Put32(buf[b:], v.LedMask)
+ b += 4
+
+ xgb.Put32(buf[b:], v.LedValues)
+ b += 4
+
+ if v.GlobalAutoRepeat {
+ buf[b] = 1
+ } else {
+ buf[b] = 0
+ }
+ b += 1
+
+ buf[b] = v.Click
+ b += 1
+
+ buf[b] = v.Percent
+ b += 1
+
+ b += 1 // padding
+
+ copy(buf[b:], v.AutoRepeats[:32])
+ b += xgb.Pad(int(32))
+
+ return buf
+}
+
+// Write struct list KbdFeedbackState
+func KbdFeedbackStateListBytes(buf []byte, list []KbdFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size KbdFeedbackState
+func KbdFeedbackStateListSize(list []KbdFeedbackState) int {
+ size := 0
+ for _ = range list {
+ size += 52
+ }
+ return size
+}
+
+// 'PtrFeedbackState' struct definition
+// Size: 12
+type PtrFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ // padding: 2 bytes
+ AccelNum uint16
+ AccelDenom uint16
+ Threshold uint16
+}
+
+// Struct read PtrFeedbackState
+func PtrFeedbackStateRead(buf []byte, v *PtrFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 2 // padding
+
+ v.AccelNum = xgb.Get16(buf[b:])
+ b += 2
+
+ v.AccelDenom = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Threshold = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read PtrFeedbackState
+func PtrFeedbackStateReadList(buf []byte, dest []PtrFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = PtrFeedbackState{}
+ b += PtrFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write PtrFeedbackState
+func (v PtrFeedbackState) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ b += 2 // padding
+
+ xgb.Put16(buf[b:], v.AccelNum)
+ b += 2
+
+ xgb.Put16(buf[b:], v.AccelDenom)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Threshold)
+ b += 2
+
+ return buf
+}
+
+// Write struct list PtrFeedbackState
+func PtrFeedbackStateListBytes(buf []byte, list []PtrFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'IntegerFeedbackState' struct definition
+// Size: 16
+type IntegerFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ Resolution uint32
+ MinValue int32
+ MaxValue int32
+}
+
+// Struct read IntegerFeedbackState
+func IntegerFeedbackStateRead(buf []byte, v *IntegerFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Resolution = xgb.Get32(buf[b:])
+ b += 4
+
+ v.MinValue = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MaxValue = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ return b
+}
+
+// Struct list read IntegerFeedbackState
+func IntegerFeedbackStateReadList(buf []byte, dest []IntegerFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = IntegerFeedbackState{}
+ b += IntegerFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write IntegerFeedbackState
+func (v IntegerFeedbackState) Bytes() []byte {
+ buf := make([]byte, 16)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.Resolution)
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MinValue))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MaxValue))
+ b += 4
+
+ return buf
+}
+
+// Write struct list IntegerFeedbackState
+func IntegerFeedbackStateListBytes(buf []byte, list []IntegerFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'StringFeedbackState' struct definition
+// Size: (8 + xgb.Pad((int(NumKeysyms) * 4)))
+type StringFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ MaxSymbols uint16
+ NumKeysyms uint16
+ Keysyms []xproto.Keysym // size: xgb.Pad((int(NumKeysyms) * 4))
+}
+
+// Struct read StringFeedbackState
+func StringFeedbackStateRead(buf []byte, v *StringFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.MaxSymbols = xgb.Get16(buf[b:])
+ b += 2
+
+ v.NumKeysyms = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Keysyms = make([]xproto.Keysym, v.NumKeysyms)
+ for i := 0; i < int(v.NumKeysyms); i++ {
+ v.Keysyms[i] = xproto.Keysym(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return b
+}
+
+// Struct list read StringFeedbackState
+func StringFeedbackStateReadList(buf []byte, dest []StringFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = StringFeedbackState{}
+ b += StringFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write StringFeedbackState
+func (v StringFeedbackState) Bytes() []byte {
+ buf := make([]byte, (8 + xgb.Pad((int(v.NumKeysyms) * 4))))
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put16(buf[b:], v.MaxSymbols)
+ b += 2
+
+ xgb.Put16(buf[b:], v.NumKeysyms)
+ b += 2
+
+ for i := 0; i < int(v.NumKeysyms); i++ {
+ xgb.Put32(buf[b:], uint32(v.Keysyms[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Write struct list StringFeedbackState
+func StringFeedbackStateListBytes(buf []byte, list []StringFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size StringFeedbackState
+func StringFeedbackStateListSize(list []StringFeedbackState) int {
+ size := 0
+ for _, item := range list {
+ size += (8 + xgb.Pad((int(item.NumKeysyms) * 4)))
+ }
+ return size
+}
+
+// 'BellFeedbackState' struct definition
+// Size: 12
+type BellFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ Percent byte
+ // padding: 3 bytes
+ Pitch uint16
+ Duration uint16
+}
+
+// Struct read BellFeedbackState
+func BellFeedbackStateRead(buf []byte, v *BellFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Percent = buf[b]
+ b += 1
+
+ b += 3 // padding
+
+ v.Pitch = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Duration = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read BellFeedbackState
+func BellFeedbackStateReadList(buf []byte, dest []BellFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = BellFeedbackState{}
+ b += BellFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write BellFeedbackState
+func (v BellFeedbackState) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.Percent
+ b += 1
+
+ b += 3 // padding
+
+ xgb.Put16(buf[b:], v.Pitch)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Duration)
+ b += 2
+
+ return buf
+}
+
+// Write struct list BellFeedbackState
+func BellFeedbackStateListBytes(buf []byte, list []BellFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'LedFeedbackState' struct definition
+// Size: 12
+type LedFeedbackState struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ LedMask uint32
+ LedValues uint32
+}
+
+// Struct read LedFeedbackState
+func LedFeedbackStateRead(buf []byte, v *LedFeedbackState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.LedMask = xgb.Get32(buf[b:])
+ b += 4
+
+ v.LedValues = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read LedFeedbackState
+func LedFeedbackStateReadList(buf []byte, dest []LedFeedbackState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = LedFeedbackState{}
+ b += LedFeedbackStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write LedFeedbackState
+func (v LedFeedbackState) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.LedMask)
+ b += 4
+
+ xgb.Put32(buf[b:], v.LedValues)
+ b += 4
+
+ return buf
+}
+
+// Write struct list LedFeedbackState
+func LedFeedbackStateListBytes(buf []byte, list []LedFeedbackState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'FeedbackCtl' struct definition
+// Size: 4
+type FeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+}
+
+// Struct read FeedbackCtl
+func FeedbackCtlRead(buf []byte, v *FeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read FeedbackCtl
+func FeedbackCtlReadList(buf []byte, dest []FeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = FeedbackCtl{}
+ b += FeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write FeedbackCtl
+func (v FeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ return buf
+}
+
+// Write struct list FeedbackCtl
+func FeedbackCtlListBytes(buf []byte, list []FeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'KbdFeedbackCtl' struct definition
+// Size: 20
+type KbdFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ Key KeyCode
+ AutoRepeatMode byte
+ KeyClickPercent int8
+ BellPercent int8
+ BellPitch int16
+ BellDuration int16
+ LedMask uint32
+ LedValues uint32
+}
+
+// Struct read KbdFeedbackCtl
+func KbdFeedbackCtlRead(buf []byte, v *KbdFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Key = KeyCode(buf[b])
+ b += 1
+
+ v.AutoRepeatMode = buf[b]
+ b += 1
+
+ v.KeyClickPercent = int8(buf[b])
+ b += 1
+
+ v.BellPercent = int8(buf[b])
+ b += 1
+
+ v.BellPitch = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.BellDuration = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.LedMask = xgb.Get32(buf[b:])
+ b += 4
+
+ v.LedValues = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read KbdFeedbackCtl
+func KbdFeedbackCtlReadList(buf []byte, dest []KbdFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = KbdFeedbackCtl{}
+ b += KbdFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write KbdFeedbackCtl
+func (v KbdFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 20)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = byte(v.Key)
+ b += 1
+
+ buf[b] = v.AutoRepeatMode
+ b += 1
+
+ buf[b] = byte(v.KeyClickPercent)
+ b += 1
+
+ buf[b] = byte(v.BellPercent)
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(v.BellPitch))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.BellDuration))
+ b += 2
+
+ xgb.Put32(buf[b:], v.LedMask)
+ b += 4
+
+ xgb.Put32(buf[b:], v.LedValues)
+ b += 4
+
+ return buf
+}
+
+// Write struct list KbdFeedbackCtl
+func KbdFeedbackCtlListBytes(buf []byte, list []KbdFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'PtrFeedbackCtl' struct definition
+// Size: 12
+type PtrFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ // padding: 2 bytes
+ Num int16
+ Denom int16
+ Threshold int16
+}
+
+// Struct read PtrFeedbackCtl
+func PtrFeedbackCtlRead(buf []byte, v *PtrFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 2 // padding
+
+ v.Num = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.Denom = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.Threshold = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ return b
+}
+
+// Struct list read PtrFeedbackCtl
+func PtrFeedbackCtlReadList(buf []byte, dest []PtrFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = PtrFeedbackCtl{}
+ b += PtrFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write PtrFeedbackCtl
+func (v PtrFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ b += 2 // padding
+
+ xgb.Put16(buf[b:], uint16(v.Num))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.Denom))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.Threshold))
+ b += 2
+
+ return buf
+}
+
+// Write struct list PtrFeedbackCtl
+func PtrFeedbackCtlListBytes(buf []byte, list []PtrFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'IntegerFeedbackCtl' struct definition
+// Size: 8
+type IntegerFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ IntToDisplay int32
+}
+
+// Struct read IntegerFeedbackCtl
+func IntegerFeedbackCtlRead(buf []byte, v *IntegerFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.IntToDisplay = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ return b
+}
+
+// Struct list read IntegerFeedbackCtl
+func IntegerFeedbackCtlReadList(buf []byte, dest []IntegerFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = IntegerFeedbackCtl{}
+ b += IntegerFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write IntegerFeedbackCtl
+func (v IntegerFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], uint32(v.IntToDisplay))
+ b += 4
+
+ return buf
+}
+
+// Write struct list IntegerFeedbackCtl
+func IntegerFeedbackCtlListBytes(buf []byte, list []IntegerFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'StringFeedbackCtl' struct definition
+// Size: (8 + xgb.Pad((int(NumKeysyms) * 4)))
+type StringFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ // padding: 2 bytes
+ NumKeysyms uint16
+ Keysyms []xproto.Keysym // size: xgb.Pad((int(NumKeysyms) * 4))
+}
+
+// Struct read StringFeedbackCtl
+func StringFeedbackCtlRead(buf []byte, v *StringFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 2 // padding
+
+ v.NumKeysyms = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Keysyms = make([]xproto.Keysym, v.NumKeysyms)
+ for i := 0; i < int(v.NumKeysyms); i++ {
+ v.Keysyms[i] = xproto.Keysym(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return b
+}
+
+// Struct list read StringFeedbackCtl
+func StringFeedbackCtlReadList(buf []byte, dest []StringFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = StringFeedbackCtl{}
+ b += StringFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write StringFeedbackCtl
+func (v StringFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, (8 + xgb.Pad((int(v.NumKeysyms) * 4))))
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ b += 2 // padding
+
+ xgb.Put16(buf[b:], v.NumKeysyms)
+ b += 2
+
+ for i := 0; i < int(v.NumKeysyms); i++ {
+ xgb.Put32(buf[b:], uint32(v.Keysyms[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Write struct list StringFeedbackCtl
+func StringFeedbackCtlListBytes(buf []byte, list []StringFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size StringFeedbackCtl
+func StringFeedbackCtlListSize(list []StringFeedbackCtl) int {
+ size := 0
+ for _, item := range list {
+ size += (8 + xgb.Pad((int(item.NumKeysyms) * 4)))
+ }
+ return size
+}
+
+// 'BellFeedbackCtl' struct definition
+// Size: 12
+type BellFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ Percent int8
+ // padding: 3 bytes
+ Pitch int16
+ Duration int16
+}
+
+// Struct read BellFeedbackCtl
+func BellFeedbackCtlRead(buf []byte, v *BellFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Percent = int8(buf[b])
+ b += 1
+
+ b += 3 // padding
+
+ v.Pitch = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.Duration = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ return b
+}
+
+// Struct list read BellFeedbackCtl
+func BellFeedbackCtlReadList(buf []byte, dest []BellFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = BellFeedbackCtl{}
+ b += BellFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write BellFeedbackCtl
+func (v BellFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = byte(v.Percent)
+ b += 1
+
+ b += 3 // padding
+
+ xgb.Put16(buf[b:], uint16(v.Pitch))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.Duration))
+ b += 2
+
+ return buf
+}
+
+// Write struct list BellFeedbackCtl
+func BellFeedbackCtlListBytes(buf []byte, list []BellFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'LedFeedbackCtl' struct definition
+// Size: 12
+type LedFeedbackCtl struct {
+ ClassId byte
+ Id byte
+ Len uint16
+ LedMask uint32
+ LedValues uint32
+}
+
+// Struct read LedFeedbackCtl
+func LedFeedbackCtlRead(buf []byte, v *LedFeedbackCtl) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Id = buf[b]
+ b += 1
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.LedMask = xgb.Get32(buf[b:])
+ b += 4
+
+ v.LedValues = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read LedFeedbackCtl
+func LedFeedbackCtlReadList(buf []byte, dest []LedFeedbackCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = LedFeedbackCtl{}
+ b += LedFeedbackCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write LedFeedbackCtl
+func (v LedFeedbackCtl) Bytes() []byte {
+ buf := make([]byte, 12)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Id
+ b += 1
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.LedMask)
+ b += 4
+
+ xgb.Put32(buf[b:], v.LedValues)
+ b += 4
+
+ return buf
+}
+
+// Write struct list LedFeedbackCtl
+func LedFeedbackCtlListBytes(buf []byte, list []LedFeedbackCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'InputState' struct definition
+// Size: 3
+type InputState struct {
+ ClassId byte
+ Len byte
+ NumItems byte
+}
+
+// Struct read InputState
+func InputStateRead(buf []byte, v *InputState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.NumItems = buf[b]
+ b += 1
+
+ return b
+}
+
+// Struct list read InputState
+func InputStateReadList(buf []byte, dest []InputState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = InputState{}
+ b += InputStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write InputState
+func (v InputState) Bytes() []byte {
+ buf := make([]byte, 3)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = v.NumItems
+ b += 1
+
+ return buf
+}
+
+// Write struct list InputState
+func InputStateListBytes(buf []byte, list []InputState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'KeyState' struct definition
+// Size: 36
+type KeyState struct {
+ ClassId byte
+ Len byte
+ NumKeys byte
+ // padding: 1 bytes
+ Keys []byte // size: 32
+}
+
+// Struct read KeyState
+func KeyStateRead(buf []byte, v *KeyState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.NumKeys = buf[b]
+ b += 1
+
+ b += 1 // padding
+
+ v.Keys = make([]byte, 32)
+ copy(v.Keys[:32], buf[b:])
+ b += xgb.Pad(int(32))
+
+ return b
+}
+
+// Struct list read KeyState
+func KeyStateReadList(buf []byte, dest []KeyState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = KeyState{}
+ b += KeyStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write KeyState
+func (v KeyState) Bytes() []byte {
+ buf := make([]byte, 36)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = v.NumKeys
+ b += 1
+
+ b += 1 // padding
+
+ copy(buf[b:], v.Keys[:32])
+ b += xgb.Pad(int(32))
+
+ return buf
+}
+
+// Write struct list KeyState
+func KeyStateListBytes(buf []byte, list []KeyState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size KeyState
+func KeyStateListSize(list []KeyState) int {
+ size := 0
+ for _ = range list {
+ size += 36
+ }
+ return size
+}
+
+// 'ButtonState' struct definition
+// Size: 36
+type ButtonState struct {
+ ClassId byte
+ Len byte
+ NumButtons byte
+ // padding: 1 bytes
+ Buttons []byte // size: 32
+}
+
+// Struct read ButtonState
+func ButtonStateRead(buf []byte, v *ButtonState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.NumButtons = buf[b]
+ b += 1
+
+ b += 1 // padding
+
+ v.Buttons = make([]byte, 32)
+ copy(v.Buttons[:32], buf[b:])
+ b += xgb.Pad(int(32))
+
+ return b
+}
+
+// Struct list read ButtonState
+func ButtonStateReadList(buf []byte, dest []ButtonState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = ButtonState{}
+ b += ButtonStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write ButtonState
+func (v ButtonState) Bytes() []byte {
+ buf := make([]byte, 36)
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = v.NumButtons
+ b += 1
+
+ b += 1 // padding
+
+ copy(buf[b:], v.Buttons[:32])
+ b += xgb.Pad(int(32))
+
+ return buf
+}
+
+// Write struct list ButtonState
+func ButtonStateListBytes(buf []byte, list []ButtonState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size ButtonState
+func ButtonStateListSize(list []ButtonState) int {
+ size := 0
+ for _ = range list {
+ size += 36
+ }
+ return size
+}
+
+// 'ValuatorState' struct definition
+// Size: (4 + xgb.Pad((int(NumValuators) * 4)))
+type ValuatorState struct {
+ ClassId byte
+ Len byte
+ NumValuators byte
+ Mode byte
+ Valuators []uint32 // size: xgb.Pad((int(NumValuators) * 4))
+}
+
+// Struct read ValuatorState
+func ValuatorStateRead(buf []byte, v *ValuatorState) int {
+ b := 0
+
+ v.ClassId = buf[b]
+ b += 1
+
+ v.Len = buf[b]
+ b += 1
+
+ v.NumValuators = buf[b]
+ b += 1
+
+ v.Mode = buf[b]
+ b += 1
+
+ v.Valuators = make([]uint32, v.NumValuators)
+ for i := 0; i < int(v.NumValuators); i++ {
+ v.Valuators[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return b
+}
+
+// Struct list read ValuatorState
+func ValuatorStateReadList(buf []byte, dest []ValuatorState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = ValuatorState{}
+ b += ValuatorStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write ValuatorState
+func (v ValuatorState) Bytes() []byte {
+ buf := make([]byte, (4 + xgb.Pad((int(v.NumValuators) * 4))))
+ b := 0
+
+ buf[b] = v.ClassId
+ b += 1
+
+ buf[b] = v.Len
+ b += 1
+
+ buf[b] = v.NumValuators
+ b += 1
+
+ buf[b] = v.Mode
+ b += 1
+
+ for i := 0; i < int(v.NumValuators); i++ {
+ xgb.Put32(buf[b:], v.Valuators[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Write struct list ValuatorState
+func ValuatorStateListBytes(buf []byte, list []ValuatorState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size ValuatorState
+func ValuatorStateListSize(list []ValuatorState) int {
+ size := 0
+ for _, item := range list {
+ size += (4 + xgb.Pad((int(item.NumValuators) * 4)))
+ }
+ return size
+}
+
+// 'DeviceState' struct definition
+// Size: 4
+type DeviceState struct {
+ ControlId uint16
+ Len uint16
+}
+
+// Struct read DeviceState
+func DeviceStateRead(buf []byte, v *DeviceState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read DeviceState
+func DeviceStateReadList(buf []byte, dest []DeviceState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceState{}
+ b += DeviceStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceState
+func (v DeviceState) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ return buf
+}
+
+// Write struct list DeviceState
+func DeviceStateListBytes(buf []byte, list []DeviceState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceResolutionState' struct definition
+// Size: (((8 + xgb.Pad((int(NumValuators) * 4))) + xgb.Pad((int(NumValuators) * 4))) + xgb.Pad((int(NumValuators) * 4)))
+type DeviceResolutionState struct {
+ ControlId uint16
+ Len uint16
+ NumValuators uint32
+ ResolutionValues []uint32 // size: xgb.Pad((int(NumValuators) * 4))
+ ResolutionMin []uint32 // size: xgb.Pad((int(NumValuators) * 4))
+ ResolutionMax []uint32 // size: xgb.Pad((int(NumValuators) * 4))
+}
+
+// Struct read DeviceResolutionState
+func DeviceResolutionStateRead(buf []byte, v *DeviceResolutionState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.NumValuators = xgb.Get32(buf[b:])
+ b += 4
+
+ v.ResolutionValues = make([]uint32, v.NumValuators)
+ for i := 0; i < int(v.NumValuators); i++ {
+ v.ResolutionValues[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ v.ResolutionMin = make([]uint32, v.NumValuators)
+ for i := 0; i < int(v.NumValuators); i++ {
+ v.ResolutionMin[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ v.ResolutionMax = make([]uint32, v.NumValuators)
+ for i := 0; i < int(v.NumValuators); i++ {
+ v.ResolutionMax[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return b
+}
+
+// Struct list read DeviceResolutionState
+func DeviceResolutionStateReadList(buf []byte, dest []DeviceResolutionState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceResolutionState{}
+ b += DeviceResolutionStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceResolutionState
+func (v DeviceResolutionState) Bytes() []byte {
+ buf := make([]byte, (((8 + xgb.Pad((int(v.NumValuators) * 4))) + xgb.Pad((int(v.NumValuators) * 4))) + xgb.Pad((int(v.NumValuators) * 4))))
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.NumValuators)
+ b += 4
+
+ for i := 0; i < int(v.NumValuators); i++ {
+ xgb.Put32(buf[b:], v.ResolutionValues[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ for i := 0; i < int(v.NumValuators); i++ {
+ xgb.Put32(buf[b:], v.ResolutionMin[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ for i := 0; i < int(v.NumValuators); i++ {
+ xgb.Put32(buf[b:], v.ResolutionMax[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Write struct list DeviceResolutionState
+func DeviceResolutionStateListBytes(buf []byte, list []DeviceResolutionState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size DeviceResolutionState
+func DeviceResolutionStateListSize(list []DeviceResolutionState) int {
+ size := 0
+ for _, item := range list {
+ size += (((8 + xgb.Pad((int(item.NumValuators) * 4))) + xgb.Pad((int(item.NumValuators) * 4))) + xgb.Pad((int(item.NumValuators) * 4)))
+ }
+ return size
+}
+
+// 'DeviceAbsCalibState' struct definition
+// Size: 36
+type DeviceAbsCalibState struct {
+ ControlId uint16
+ Len uint16
+ MinX int32
+ MaxX int32
+ MinY int32
+ MaxY int32
+ FlipX uint32
+ FlipY uint32
+ Rotation uint32
+ ButtonThreshold uint32
+}
+
+// Struct read DeviceAbsCalibState
+func DeviceAbsCalibStateRead(buf []byte, v *DeviceAbsCalibState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.MinX = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MaxX = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MinY = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MaxY = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.FlipX = xgb.Get32(buf[b:])
+ b += 4
+
+ v.FlipY = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Rotation = xgb.Get32(buf[b:])
+ b += 4
+
+ v.ButtonThreshold = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read DeviceAbsCalibState
+func DeviceAbsCalibStateReadList(buf []byte, dest []DeviceAbsCalibState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceAbsCalibState{}
+ b += DeviceAbsCalibStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceAbsCalibState
+func (v DeviceAbsCalibState) Bytes() []byte {
+ buf := make([]byte, 36)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], uint32(v.MinX))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MaxX))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MinY))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MaxY))
+ b += 4
+
+ xgb.Put32(buf[b:], v.FlipX)
+ b += 4
+
+ xgb.Put32(buf[b:], v.FlipY)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Rotation)
+ b += 4
+
+ xgb.Put32(buf[b:], v.ButtonThreshold)
+ b += 4
+
+ return buf
+}
+
+// Write struct list DeviceAbsCalibState
+func DeviceAbsCalibStateListBytes(buf []byte, list []DeviceAbsCalibState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceAbsAreaState' struct definition
+// Size: 28
+type DeviceAbsAreaState struct {
+ ControlId uint16
+ Len uint16
+ OffsetX uint32
+ OffsetY uint32
+ Width uint32
+ Height uint32
+ Screen uint32
+ Following uint32
+}
+
+// Struct read DeviceAbsAreaState
+func DeviceAbsAreaStateRead(buf []byte, v *DeviceAbsAreaState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.OffsetX = xgb.Get32(buf[b:])
+ b += 4
+
+ v.OffsetY = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Width = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Height = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Screen = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Following = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read DeviceAbsAreaState
+func DeviceAbsAreaStateReadList(buf []byte, dest []DeviceAbsAreaState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceAbsAreaState{}
+ b += DeviceAbsAreaStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceAbsAreaState
+func (v DeviceAbsAreaState) Bytes() []byte {
+ buf := make([]byte, 28)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.OffsetX)
+ b += 4
+
+ xgb.Put32(buf[b:], v.OffsetY)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Width)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Height)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Screen)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Following)
+ b += 4
+
+ return buf
+}
+
+// Write struct list DeviceAbsAreaState
+func DeviceAbsAreaStateListBytes(buf []byte, list []DeviceAbsAreaState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceCoreState' struct definition
+// Size: 8
+type DeviceCoreState struct {
+ ControlId uint16
+ Len uint16
+ Status byte
+ Iscore byte
+ // padding: 2 bytes
+}
+
+// Struct read DeviceCoreState
+func DeviceCoreStateRead(buf []byte, v *DeviceCoreState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Status = buf[b]
+ b += 1
+
+ v.Iscore = buf[b]
+ b += 1
+
+ b += 2 // padding
+
+ return b
+}
+
+// Struct list read DeviceCoreState
+func DeviceCoreStateReadList(buf []byte, dest []DeviceCoreState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceCoreState{}
+ b += DeviceCoreStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceCoreState
+func (v DeviceCoreState) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.Status
+ b += 1
+
+ buf[b] = v.Iscore
+ b += 1
+
+ b += 2 // padding
+
+ return buf
+}
+
+// Write struct list DeviceCoreState
+func DeviceCoreStateListBytes(buf []byte, list []DeviceCoreState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceEnableState' struct definition
+// Size: 8
+type DeviceEnableState struct {
+ ControlId uint16
+ Len uint16
+ Enable byte
+ // padding: 3 bytes
+}
+
+// Struct read DeviceEnableState
+func DeviceEnableStateRead(buf []byte, v *DeviceEnableState) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Enable = buf[b]
+ b += 1
+
+ b += 3 // padding
+
+ return b
+}
+
+// Struct list read DeviceEnableState
+func DeviceEnableStateReadList(buf []byte, dest []DeviceEnableState) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceEnableState{}
+ b += DeviceEnableStateRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceEnableState
+func (v DeviceEnableState) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.Enable
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Write struct list DeviceEnableState
+func DeviceEnableStateListBytes(buf []byte, list []DeviceEnableState) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceCtl' struct definition
+// Size: 4
+type DeviceCtl struct {
+ ControlId uint16
+ Len uint16
+}
+
+// Struct read DeviceCtl
+func DeviceCtlRead(buf []byte, v *DeviceCtl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ return b
+}
+
+// Struct list read DeviceCtl
+func DeviceCtlReadList(buf []byte, dest []DeviceCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceCtl{}
+ b += DeviceCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceCtl
+func (v DeviceCtl) Bytes() []byte {
+ buf := make([]byte, 4)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ return buf
+}
+
+// Write struct list DeviceCtl
+func DeviceCtlListBytes(buf []byte, list []DeviceCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceResolutionCtl' struct definition
+// Size: (6 + xgb.Pad((int(NumValuators) * 4)))
+type DeviceResolutionCtl struct {
+ ControlId uint16
+ Len uint16
+ FirstValuator byte
+ NumValuators byte
+ ResolutionValues []uint32 // size: xgb.Pad((int(NumValuators) * 4))
+}
+
+// Struct read DeviceResolutionCtl
+func DeviceResolutionCtlRead(buf []byte, v *DeviceResolutionCtl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.FirstValuator = buf[b]
+ b += 1
+
+ v.NumValuators = buf[b]
+ b += 1
+
+ v.ResolutionValues = make([]uint32, v.NumValuators)
+ for i := 0; i < int(v.NumValuators); i++ {
+ v.ResolutionValues[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return b
+}
+
+// Struct list read DeviceResolutionCtl
+func DeviceResolutionCtlReadList(buf []byte, dest []DeviceResolutionCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceResolutionCtl{}
+ b += DeviceResolutionCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceResolutionCtl
+func (v DeviceResolutionCtl) Bytes() []byte {
+ buf := make([]byte, (6 + xgb.Pad((int(v.NumValuators) * 4))))
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.FirstValuator
+ b += 1
+
+ buf[b] = v.NumValuators
+ b += 1
+
+ for i := 0; i < int(v.NumValuators); i++ {
+ xgb.Put32(buf[b:], v.ResolutionValues[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Write struct list DeviceResolutionCtl
+func DeviceResolutionCtlListBytes(buf []byte, list []DeviceResolutionCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Struct list size DeviceResolutionCtl
+func DeviceResolutionCtlListSize(list []DeviceResolutionCtl) int {
+ size := 0
+ for _, item := range list {
+ size += (6 + xgb.Pad((int(item.NumValuators) * 4)))
+ }
+ return size
+}
+
+// 'DeviceAbsCalibCtl' struct definition
+// Size: 36
+type DeviceAbsCalibCtl struct {
+ ControlId uint16
+ Len uint16
+ MinX int32
+ MaxX int32
+ MinY int32
+ MaxY int32
+ FlipX uint32
+ FlipY uint32
+ Rotation uint32
+ ButtonThreshold uint32
+}
+
+// Struct read DeviceAbsCalibCtl
+func DeviceAbsCalibCtlRead(buf []byte, v *DeviceAbsCalibCtl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.MinX = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MaxX = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MinY = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.MaxY = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.FlipX = xgb.Get32(buf[b:])
+ b += 4
+
+ v.FlipY = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Rotation = xgb.Get32(buf[b:])
+ b += 4
+
+ v.ButtonThreshold = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read DeviceAbsCalibCtl
+func DeviceAbsCalibCtlReadList(buf []byte, dest []DeviceAbsCalibCtl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceAbsCalibCtl{}
+ b += DeviceAbsCalibCtlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceAbsCalibCtl
+func (v DeviceAbsCalibCtl) Bytes() []byte {
+ buf := make([]byte, 36)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], uint32(v.MinX))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MaxX))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MinY))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.MaxY))
+ b += 4
+
+ xgb.Put32(buf[b:], v.FlipX)
+ b += 4
+
+ xgb.Put32(buf[b:], v.FlipY)
+ b += 4
+
+ xgb.Put32(buf[b:], v.Rotation)
+ b += 4
+
+ xgb.Put32(buf[b:], v.ButtonThreshold)
+ b += 4
+
+ return buf
+}
+
+// Write struct list DeviceAbsCalibCtl
+func DeviceAbsCalibCtlListBytes(buf []byte, list []DeviceAbsCalibCtl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceAbsAreaCtrl' struct definition
+// Size: 28
+type DeviceAbsAreaCtrl struct {
+ ControlId uint16
+ Len uint16
+ OffsetX uint32
+ OffsetY uint32
+ Width int32
+ Height int32
+ Screen int32
+ Following uint32
+}
+
+// Struct read DeviceAbsAreaCtrl
+func DeviceAbsAreaCtrlRead(buf []byte, v *DeviceAbsAreaCtrl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.OffsetX = xgb.Get32(buf[b:])
+ b += 4
+
+ v.OffsetY = xgb.Get32(buf[b:])
+ b += 4
+
+ v.Width = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Height = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Screen = int32(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Following = xgb.Get32(buf[b:])
+ b += 4
+
+ return b
+}
+
+// Struct list read DeviceAbsAreaCtrl
+func DeviceAbsAreaCtrlReadList(buf []byte, dest []DeviceAbsAreaCtrl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceAbsAreaCtrl{}
+ b += DeviceAbsAreaCtrlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceAbsAreaCtrl
+func (v DeviceAbsAreaCtrl) Bytes() []byte {
+ buf := make([]byte, 28)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ xgb.Put32(buf[b:], v.OffsetX)
+ b += 4
+
+ xgb.Put32(buf[b:], v.OffsetY)
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Width))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Height))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Screen))
+ b += 4
+
+ xgb.Put32(buf[b:], v.Following)
+ b += 4
+
+ return buf
+}
+
+// Write struct list DeviceAbsAreaCtrl
+func DeviceAbsAreaCtrlListBytes(buf []byte, list []DeviceAbsAreaCtrl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceCoreCtrl' struct definition
+// Size: 8
+type DeviceCoreCtrl struct {
+ ControlId uint16
+ Len uint16
+ Status byte
+ // padding: 3 bytes
+}
+
+// Struct read DeviceCoreCtrl
+func DeviceCoreCtrlRead(buf []byte, v *DeviceCoreCtrl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Status = buf[b]
+ b += 1
+
+ b += 3 // padding
+
+ return b
+}
+
+// Struct list read DeviceCoreCtrl
+func DeviceCoreCtrlReadList(buf []byte, dest []DeviceCoreCtrl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceCoreCtrl{}
+ b += DeviceCoreCtrlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceCoreCtrl
+func (v DeviceCoreCtrl) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.Status
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Write struct list DeviceCoreCtrl
+func DeviceCoreCtrlListBytes(buf []byte, list []DeviceCoreCtrl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// 'DeviceEnableCtrl' struct definition
+// Size: 8
+type DeviceEnableCtrl struct {
+ ControlId uint16
+ Len uint16
+ Enable byte
+ // padding: 3 bytes
+}
+
+// Struct read DeviceEnableCtrl
+func DeviceEnableCtrlRead(buf []byte, v *DeviceEnableCtrl) int {
+ b := 0
+
+ v.ControlId = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Len = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Enable = buf[b]
+ b += 1
+
+ b += 3 // padding
+
+ return b
+}
+
+// Struct list read DeviceEnableCtrl
+func DeviceEnableCtrlReadList(buf []byte, dest []DeviceEnableCtrl) int {
+ b := 0
+ for i := 0; i < len(dest); i++ {
+ dest[i] = DeviceEnableCtrl{}
+ b += DeviceEnableCtrlRead(buf[b:], &dest[i])
+ }
+ return xgb.Pad(b)
+}
+
+// Struct write DeviceEnableCtrl
+func (v DeviceEnableCtrl) Bytes() []byte {
+ buf := make([]byte, 8)
+ b := 0
+
+ xgb.Put16(buf[b:], v.ControlId)
+ b += 2
+
+ xgb.Put16(buf[b:], v.Len)
+ b += 2
+
+ buf[b] = v.Enable
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Write struct list DeviceEnableCtrl
+func DeviceEnableCtrlListBytes(buf []byte, list []DeviceEnableCtrl) int {
+ b := 0
+ var structBytes []byte
+ for _, item := range list {
+ structBytes = item.Bytes()
+ copy(buf[b:], structBytes)
+ b += xgb.Pad(len(structBytes))
+ }
+ return b
+}
+
+// Event definition DeviceValuator (0)
+// Size: 32
+
+const DeviceValuator = 0
+
+type DeviceValuatorEvent struct {
+ Sequence uint16
+ DeviceId byte
+ DeviceState uint16
+ NumValuators byte
+ FirstValuator byte
+ Valuators []int32 // size: 24
+}
+
+// Event read DeviceValuator
+func DeviceValuatorEventNew(buf []byte) xgb.Event {
+ v := DeviceValuatorEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.DeviceState = xgb.Get16(buf[b:])
+ b += 2
+
+ v.NumValuators = buf[b]
+ b += 1
+
+ v.FirstValuator = buf[b]
+ b += 1
+
+ v.Valuators = make([]int32, 6)
+ for i := 0; i < int(6); i++ {
+ v.Valuators[i] = int32(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return v
+}
+
+// Event write DeviceValuator
+func (v DeviceValuatorEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 0
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ xgb.Put16(buf[b:], v.DeviceState)
+ b += 2
+
+ buf[b] = v.NumValuators
+ b += 1
+
+ buf[b] = v.FirstValuator
+ b += 1
+
+ for i := 0; i < int(6); i++ {
+ xgb.Put32(buf[b:], uint32(v.Valuators[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+func (v DeviceValuatorEvent) ImplementsEvent() {}
+
+func (v DeviceValuatorEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceValuatorEvent) String() string {
+ fieldVals := make([]string, 0, 5)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceState: %d", v.DeviceState))
+ fieldVals = append(fieldVals, xgb.Sprintf("NumValuators: %d", v.NumValuators))
+ fieldVals = append(fieldVals, xgb.Sprintf("FirstValuator: %d", v.FirstValuator))
+ return "DeviceValuator {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][0] = DeviceValuatorEventNew
+}
+
+// Event definition DeviceKeyPress (1)
+// Size: 32
+
+const DeviceKeyPress = 1
+
+type DeviceKeyPressEvent struct {
+ Sequence uint16
+ Detail byte
+ Time xproto.Timestamp
+ Root xproto.Window
+ Event xproto.Window
+ Child xproto.Window
+ RootX int16
+ RootY int16
+ EventX int16
+ EventY int16
+ State uint16
+ SameScreen bool
+ DeviceId byte
+}
+
+// Event read DeviceKeyPress
+func DeviceKeyPressEventNew(buf []byte) xgb.Event {
+ v := DeviceKeyPressEvent{}
+ b := 1 // don't read event number
+
+ v.Detail = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Root = xproto.Window(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Event = xproto.Window(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Child = xproto.Window(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.RootX = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.RootY = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.EventX = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.EventY = int16(xgb.Get16(buf[b:]))
+ b += 2
+
+ v.State = xgb.Get16(buf[b:])
+ b += 2
+
+ if buf[b] == 1 {
+ v.SameScreen = true
+ } else {
+ v.SameScreen = false
+ }
+ b += 1
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ return v
+}
+
+// Event write DeviceKeyPress
+func (v DeviceKeyPressEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 1
+ b += 1
+
+ buf[b] = v.Detail
+ b += 1
+
+ b += 2 // skip sequence number
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Root))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Event))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Child))
+ b += 4
+
+ xgb.Put16(buf[b:], uint16(v.RootX))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.RootY))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.EventX))
+ b += 2
+
+ xgb.Put16(buf[b:], uint16(v.EventY))
+ b += 2
+
+ xgb.Put16(buf[b:], v.State)
+ b += 2
+
+ if v.SameScreen {
+ buf[b] = 1
+ } else {
+ buf[b] = 0
+ }
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ return buf
+}
+
+func (v DeviceKeyPressEvent) ImplementsEvent() {}
+
+func (v DeviceKeyPressEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceKeyPressEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceKeyPress {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][1] = DeviceKeyPressEventNew
+}
+
+// Event definition FocusIn (6)
+// Size: 32
+
+const FocusIn = 6
+
+type FocusInEvent struct {
+ Sequence uint16
+ Detail byte
+ Time xproto.Timestamp
+ Window xproto.Window
+ Mode byte
+ DeviceId byte
+ // padding: 18 bytes
+}
+
+// Event read FocusIn
+func FocusInEventNew(buf []byte) xgb.Event {
+ v := FocusInEvent{}
+ b := 1 // don't read event number
+
+ v.Detail = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Window = xproto.Window(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Mode = buf[b]
+ b += 1
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ b += 18 // padding
+
+ return v
+}
+
+// Event write FocusIn
+func (v FocusInEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 6
+ b += 1
+
+ buf[b] = v.Detail
+ b += 1
+
+ b += 2 // skip sequence number
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(v.Window))
+ b += 4
+
+ buf[b] = v.Mode
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 18 // padding
+
+ return buf
+}
+
+func (v FocusInEvent) ImplementsEvent() {}
+
+func (v FocusInEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v FocusInEvent) String() string {
+ fieldVals := make([]string, 0, 6)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Window: %d", v.Window))
+ fieldVals = append(fieldVals, xgb.Sprintf("Mode: %d", v.Mode))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "FocusIn {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][6] = FocusInEventNew
+}
+
+// Event definition DeviceStateNotify (10)
+// Size: 32
+
+const DeviceStateNotify = 10
+
+type DeviceStateNotifyEvent struct {
+ Sequence uint16
+ DeviceId byte
+ Time xproto.Timestamp
+ NumKeys byte
+ NumButtons byte
+ NumValuators byte
+ ClassesReported byte
+ Buttons []byte // size: 4
+ Keys []byte // size: 4
+ Valuators []uint32 // size: 12
+}
+
+// Event read DeviceStateNotify
+func DeviceStateNotifyEventNew(buf []byte) xgb.Event {
+ v := DeviceStateNotifyEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.NumKeys = buf[b]
+ b += 1
+
+ v.NumButtons = buf[b]
+ b += 1
+
+ v.NumValuators = buf[b]
+ b += 1
+
+ v.ClassesReported = buf[b]
+ b += 1
+
+ v.Buttons = make([]byte, 4)
+ copy(v.Buttons[:4], buf[b:])
+ b += xgb.Pad(int(4))
+
+ v.Keys = make([]byte, 4)
+ copy(v.Keys[:4], buf[b:])
+ b += xgb.Pad(int(4))
+
+ v.Valuators = make([]uint32, 3)
+ for i := 0; i < int(3); i++ {
+ v.Valuators[i] = xgb.Get32(buf[b:])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return v
+}
+
+// Event write DeviceStateNotify
+func (v DeviceStateNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 10
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ buf[b] = v.NumKeys
+ b += 1
+
+ buf[b] = v.NumButtons
+ b += 1
+
+ buf[b] = v.NumValuators
+ b += 1
+
+ buf[b] = v.ClassesReported
+ b += 1
+
+ copy(buf[b:], v.Buttons[:4])
+ b += xgb.Pad(int(4))
+
+ copy(buf[b:], v.Keys[:4])
+ b += xgb.Pad(int(4))
+
+ for i := 0; i < int(3); i++ {
+ xgb.Put32(buf[b:], v.Valuators[i])
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+func (v DeviceStateNotifyEvent) ImplementsEvent() {}
+
+func (v DeviceStateNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceStateNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 9)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("NumKeys: %d", v.NumKeys))
+ fieldVals = append(fieldVals, xgb.Sprintf("NumButtons: %d", v.NumButtons))
+ fieldVals = append(fieldVals, xgb.Sprintf("NumValuators: %d", v.NumValuators))
+ fieldVals = append(fieldVals, xgb.Sprintf("ClassesReported: %d", v.ClassesReported))
+ return "DeviceStateNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][10] = DeviceStateNotifyEventNew
+}
+
+// Event definition DeviceMappingNotify (11)
+// Size: 32
+
+const DeviceMappingNotify = 11
+
+type DeviceMappingNotifyEvent struct {
+ Sequence uint16
+ DeviceId byte
+ Request byte
+ FirstKeycode KeyCode
+ Count byte
+ // padding: 1 bytes
+ Time xproto.Timestamp
+ // padding: 20 bytes
+}
+
+// Event read DeviceMappingNotify
+func DeviceMappingNotifyEventNew(buf []byte) xgb.Event {
+ v := DeviceMappingNotifyEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Request = buf[b]
+ b += 1
+
+ v.FirstKeycode = KeyCode(buf[b])
+ b += 1
+
+ v.Count = buf[b]
+ b += 1
+
+ b += 1 // padding
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ b += 20 // padding
+
+ return v
+}
+
+// Event write DeviceMappingNotify
+func (v DeviceMappingNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 11
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ buf[b] = v.Request
+ b += 1
+
+ buf[b] = byte(v.FirstKeycode)
+ b += 1
+
+ buf[b] = v.Count
+ b += 1
+
+ b += 1 // padding
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ b += 20 // padding
+
+ return buf
+}
+
+func (v DeviceMappingNotifyEvent) ImplementsEvent() {}
+
+func (v DeviceMappingNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceMappingNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 7)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ fieldVals = append(fieldVals, xgb.Sprintf("Request: %d", v.Request))
+ fieldVals = append(fieldVals, xgb.Sprintf("FirstKeycode: %d", v.FirstKeycode))
+ fieldVals = append(fieldVals, xgb.Sprintf("Count: %d", v.Count))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ return "DeviceMappingNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][11] = DeviceMappingNotifyEventNew
+}
+
+// Event definition ChangeDeviceNotify (12)
+// Size: 32
+
+const ChangeDeviceNotify = 12
+
+type ChangeDeviceNotifyEvent struct {
+ Sequence uint16
+ DeviceId byte
+ Time xproto.Timestamp
+ Request byte
+ // padding: 23 bytes
+}
+
+// Event read ChangeDeviceNotify
+func ChangeDeviceNotifyEventNew(buf []byte) xgb.Event {
+ v := ChangeDeviceNotifyEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Request = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Event write ChangeDeviceNotify
+func (v ChangeDeviceNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 12
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ buf[b] = v.Request
+ b += 1
+
+ b += 23 // padding
+
+ return buf
+}
+
+func (v ChangeDeviceNotifyEvent) ImplementsEvent() {}
+
+func (v ChangeDeviceNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v ChangeDeviceNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 4)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Request: %d", v.Request))
+ return "ChangeDeviceNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][12] = ChangeDeviceNotifyEventNew
+}
+
+// Event definition DeviceKeyStateNotify (13)
+// Size: 32
+
+const DeviceKeyStateNotify = 13
+
+type DeviceKeyStateNotifyEvent struct {
+ Sequence uint16
+ DeviceId byte
+ Keys []byte // size: 28
+}
+
+// Event read DeviceKeyStateNotify
+func DeviceKeyStateNotifyEventNew(buf []byte) xgb.Event {
+ v := DeviceKeyStateNotifyEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Keys = make([]byte, 28)
+ copy(v.Keys[:28], buf[b:])
+ b += xgb.Pad(int(28))
+
+ return v
+}
+
+// Event write DeviceKeyStateNotify
+func (v DeviceKeyStateNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 13
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ copy(buf[b:], v.Keys[:28])
+ b += xgb.Pad(int(28))
+
+ return buf
+}
+
+func (v DeviceKeyStateNotifyEvent) ImplementsEvent() {}
+
+func (v DeviceKeyStateNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceKeyStateNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 2)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceKeyStateNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][13] = DeviceKeyStateNotifyEventNew
+}
+
+// Event definition DeviceButtonStateNotify (14)
+// Size: 32
+
+const DeviceButtonStateNotify = 14
+
+type DeviceButtonStateNotifyEvent struct {
+ Sequence uint16
+ DeviceId byte
+ Buttons []byte // size: 28
+}
+
+// Event read DeviceButtonStateNotify
+func DeviceButtonStateNotifyEventNew(buf []byte) xgb.Event {
+ v := DeviceButtonStateNotifyEvent{}
+ b := 1 // don't read event number
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Buttons = make([]byte, 28)
+ copy(v.Buttons[:28], buf[b:])
+ b += xgb.Pad(int(28))
+
+ return v
+}
+
+// Event write DeviceButtonStateNotify
+func (v DeviceButtonStateNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 14
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ b += 2 // skip sequence number
+
+ copy(buf[b:], v.Buttons[:28])
+ b += xgb.Pad(int(28))
+
+ return buf
+}
+
+func (v DeviceButtonStateNotifyEvent) ImplementsEvent() {}
+
+func (v DeviceButtonStateNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceButtonStateNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 2)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceButtonStateNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][14] = DeviceButtonStateNotifyEventNew
+}
+
+// Event definition DevicePresenceNotify (15)
+// Size: 32
+
+const DevicePresenceNotify = 15
+
+type DevicePresenceNotifyEvent struct {
+ Sequence uint16
+ // padding: 1 bytes
+ Time xproto.Timestamp
+ Devchange byte
+ DeviceId byte
+ Control uint16
+ // padding: 20 bytes
+}
+
+// Event read DevicePresenceNotify
+func DevicePresenceNotifyEventNew(buf []byte) xgb.Event {
+ v := DevicePresenceNotifyEvent{}
+ b := 1 // don't read event number
+
+ b += 1 // padding
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Devchange = buf[b]
+ b += 1
+
+ v.DeviceId = buf[b]
+ b += 1
+
+ v.Control = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 20 // padding
+
+ return v
+}
+
+// Event write DevicePresenceNotify
+func (v DevicePresenceNotifyEvent) Bytes() []byte {
+ buf := make([]byte, 32)
+ b := 0
+
+ // write event number
+ buf[b] = 15
+ b += 1
+
+ b += 1 // padding
+
+ b += 2 // skip sequence number
+
+ xgb.Put32(buf[b:], uint32(v.Time))
+ b += 4
+
+ buf[b] = v.Devchange
+ b += 1
+
+ buf[b] = v.DeviceId
+ b += 1
+
+ xgb.Put16(buf[b:], v.Control)
+ b += 2
+
+ b += 20 // padding
+
+ return buf
+}
+
+func (v DevicePresenceNotifyEvent) ImplementsEvent() {}
+
+func (v DevicePresenceNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DevicePresenceNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 6)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Devchange: %d", v.Devchange))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ fieldVals = append(fieldVals, xgb.Sprintf("Control: %d", v.Control))
+ return "DevicePresenceNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][15] = DevicePresenceNotifyEventNew
+}
+
+// EventCopy definition DeviceKeyRelease (2)
+
+const DeviceKeyRelease = 2
+
+type DeviceKeyReleaseEvent DeviceKeyPressEvent
+
+func DeviceKeyReleaseEventNew(buf []byte) xgb.Event {
+ return DeviceKeyReleaseEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v DeviceKeyReleaseEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v DeviceKeyReleaseEvent) ImplementsEvent() {}
+
+func (v DeviceKeyReleaseEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceKeyReleaseEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceKeyRelease {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][2] = DeviceKeyReleaseEventNew
+}
+
+// EventCopy definition DeviceButtonPress (3)
+
+const DeviceButtonPress = 3
+
+type DeviceButtonPressEvent DeviceKeyPressEvent
+
+func DeviceButtonPressEventNew(buf []byte) xgb.Event {
+ return DeviceButtonPressEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v DeviceButtonPressEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v DeviceButtonPressEvent) ImplementsEvent() {}
+
+func (v DeviceButtonPressEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceButtonPressEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceButtonPress {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][3] = DeviceButtonPressEventNew
+}
+
+// EventCopy definition DeviceButtonRelease (4)
+
+const DeviceButtonRelease = 4
+
+type DeviceButtonReleaseEvent DeviceKeyPressEvent
+
+func DeviceButtonReleaseEventNew(buf []byte) xgb.Event {
+ return DeviceButtonReleaseEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v DeviceButtonReleaseEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v DeviceButtonReleaseEvent) ImplementsEvent() {}
+
+func (v DeviceButtonReleaseEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceButtonReleaseEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceButtonRelease {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][4] = DeviceButtonReleaseEventNew
+}
+
+// EventCopy definition DeviceMotionNotify (5)
+
+const DeviceMotionNotify = 5
+
+type DeviceMotionNotifyEvent DeviceKeyPressEvent
+
+func DeviceMotionNotifyEventNew(buf []byte) xgb.Event {
+ return DeviceMotionNotifyEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v DeviceMotionNotifyEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v DeviceMotionNotifyEvent) ImplementsEvent() {}
+
+func (v DeviceMotionNotifyEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v DeviceMotionNotifyEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "DeviceMotionNotify {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][5] = DeviceMotionNotifyEventNew
+}
+
+// EventCopy definition ProximityIn (8)
+
+const ProximityIn = 8
+
+type ProximityInEvent DeviceKeyPressEvent
+
+func ProximityInEventNew(buf []byte) xgb.Event {
+ return ProximityInEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v ProximityInEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v ProximityInEvent) ImplementsEvent() {}
+
+func (v ProximityInEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v ProximityInEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "ProximityIn {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][8] = ProximityInEventNew
+}
+
+// EventCopy definition ProximityOut (9)
+
+const ProximityOut = 9
+
+type ProximityOutEvent DeviceKeyPressEvent
+
+func ProximityOutEventNew(buf []byte) xgb.Event {
+ return ProximityOutEvent(DeviceKeyPressEventNew(buf).(DeviceKeyPressEvent))
+}
+
+func (v ProximityOutEvent) Bytes() []byte {
+ return DeviceKeyPressEvent(v).Bytes()
+}
+
+func (v ProximityOutEvent) ImplementsEvent() {}
+
+func (v ProximityOutEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v ProximityOutEvent) String() string {
+ fieldVals := make([]string, 0, 12)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Root: %d", v.Root))
+ fieldVals = append(fieldVals, xgb.Sprintf("Event: %d", v.Event))
+ fieldVals = append(fieldVals, xgb.Sprintf("Child: %d", v.Child))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootX: %d", v.RootX))
+ fieldVals = append(fieldVals, xgb.Sprintf("RootY: %d", v.RootY))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventX: %d", v.EventX))
+ fieldVals = append(fieldVals, xgb.Sprintf("EventY: %d", v.EventY))
+ fieldVals = append(fieldVals, xgb.Sprintf("State: %d", v.State))
+ fieldVals = append(fieldVals, xgb.Sprintf("SameScreen: %t", v.SameScreen))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "ProximityOut {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][9] = ProximityOutEventNew
+}
+
+// EventCopy definition FocusOut (7)
+
+const FocusOut = 7
+
+type FocusOutEvent FocusInEvent
+
+func FocusOutEventNew(buf []byte) xgb.Event {
+ return FocusOutEvent(FocusInEventNew(buf).(FocusInEvent))
+}
+
+func (v FocusOutEvent) Bytes() []byte {
+ return FocusInEvent(v).Bytes()
+}
+
+func (v FocusOutEvent) ImplementsEvent() {}
+
+func (v FocusOutEvent) SequenceId() uint16 {
+ return v.Sequence
+}
+
+func (v FocusOutEvent) String() string {
+ fieldVals := make([]string, 0, 6)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", v.Sequence))
+ fieldVals = append(fieldVals, xgb.Sprintf("Detail: %d", v.Detail))
+ fieldVals = append(fieldVals, xgb.Sprintf("Time: %d", v.Time))
+ fieldVals = append(fieldVals, xgb.Sprintf("Window: %d", v.Window))
+ fieldVals = append(fieldVals, xgb.Sprintf("Mode: %d", v.Mode))
+ fieldVals = append(fieldVals, xgb.Sprintf("DeviceId: %d", v.DeviceId))
+ return "FocusOut {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtEventFuncs["XInputExtension"][7] = FocusOutEventNew
+}
+
+// Error definition Device (0)
+// Size: 32
+
+const BadDevice = 0
+
+type DeviceError struct {
+ Sequence uint16
+ NiceName string
+}
+
+// Error read Device
+func DeviceErrorNew(buf []byte) xgb.Error {
+ v := DeviceError{}
+ v.NiceName = "Device"
+
+ b := 1 // skip error determinant
+ b += 1 // don't read error number
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ return v
+}
+
+func (err DeviceError) ImplementsError() {}
+
+func (err DeviceError) SequenceId() uint16 {
+ return err.Sequence
+}
+
+func (err DeviceError) BadId() uint32 {
+ return 0
+}
+
+func (err DeviceError) Error() string {
+ fieldVals := make([]string, 0, 0)
+ fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
+ return "BadDevice {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtErrorFuncs["XInputExtension"][0] = DeviceErrorNew
+}
+
+// Error definition Event (1)
+// Size: 32
+
+const BadEvent = 1
+
+type EventError struct {
+ Sequence uint16
+ NiceName string
+}
+
+// Error read Event
+func EventErrorNew(buf []byte) xgb.Error {
+ v := EventError{}
+ v.NiceName = "Event"
+
+ b := 1 // skip error determinant
+ b += 1 // don't read error number
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ return v
+}
+
+func (err EventError) ImplementsError() {}
+
+func (err EventError) SequenceId() uint16 {
+ return err.Sequence
+}
+
+func (err EventError) BadId() uint32 {
+ return 0
+}
+
+func (err EventError) Error() string {
+ fieldVals := make([]string, 0, 0)
+ fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
+ return "BadEvent {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtErrorFuncs["XInputExtension"][1] = EventErrorNew
+}
+
+// Error definition Mode (2)
+// Size: 32
+
+const BadMode = 2
+
+type ModeError struct {
+ Sequence uint16
+ NiceName string
+}
+
+// Error read Mode
+func ModeErrorNew(buf []byte) xgb.Error {
+ v := ModeError{}
+ v.NiceName = "Mode"
+
+ b := 1 // skip error determinant
+ b += 1 // don't read error number
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ return v
+}
+
+func (err ModeError) ImplementsError() {}
+
+func (err ModeError) SequenceId() uint16 {
+ return err.Sequence
+}
+
+func (err ModeError) BadId() uint32 {
+ return 0
+}
+
+func (err ModeError) Error() string {
+ fieldVals := make([]string, 0, 0)
+ fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
+ return "BadMode {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtErrorFuncs["XInputExtension"][2] = ModeErrorNew
+}
+
+// Error definition DeviceBusy (3)
+// Size: 32
+
+const BadDeviceBusy = 3
+
+type DeviceBusyError struct {
+ Sequence uint16
+ NiceName string
+}
+
+// Error read DeviceBusy
+func DeviceBusyErrorNew(buf []byte) xgb.Error {
+ v := DeviceBusyError{}
+ v.NiceName = "DeviceBusy"
+
+ b := 1 // skip error determinant
+ b += 1 // don't read error number
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ return v
+}
+
+func (err DeviceBusyError) ImplementsError() {}
+
+func (err DeviceBusyError) SequenceId() uint16 {
+ return err.Sequence
+}
+
+func (err DeviceBusyError) BadId() uint32 {
+ return 0
+}
+
+func (err DeviceBusyError) Error() string {
+ fieldVals := make([]string, 0, 0)
+ fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
+ return "BadDeviceBusy {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtErrorFuncs["XInputExtension"][3] = DeviceBusyErrorNew
+}
+
+// Error definition Class (4)
+// Size: 32
+
+const BadClass = 4
+
+type ClassError struct {
+ Sequence uint16
+ NiceName string
+}
+
+// Error read Class
+func ClassErrorNew(buf []byte) xgb.Error {
+ v := ClassError{}
+ v.NiceName = "Class"
+
+ b := 1 // skip error determinant
+ b += 1 // don't read error number
+
+ v.Sequence = xgb.Get16(buf[b:])
+ b += 2
+
+ return v
+}
+
+func (err ClassError) ImplementsError() {}
+
+func (err ClassError) SequenceId() uint16 {
+ return err.Sequence
+}
+
+func (err ClassError) BadId() uint32 {
+ return 0
+}
+
+func (err ClassError) Error() string {
+ fieldVals := make([]string, 0, 0)
+ fieldVals = append(fieldVals, "NiceName: "+err.NiceName)
+ fieldVals = append(fieldVals, xgb.Sprintf("Sequence: %d", err.Sequence))
+ return "BadClass {" + xgb.StringsJoin(fieldVals, ", ") + "}"
+}
+
+func init() {
+ xgb.NewExtErrorFuncs["XInputExtension"][4] = ClassErrorNew
+}
+
+// Request GetExtensionVersion
+// size: xgb.Pad((8 + xgb.Pad((int(NameLen) * 1))))
+type GetExtensionVersionCookie struct {
+ *xgb.Cookie
+}
+
+func GetExtensionVersion(c *xgb.Conn, NameLen uint16, Name string) GetExtensionVersionCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getExtensionVersionRequest(c, NameLen, Name), cookie)
+ return GetExtensionVersionCookie{cookie}
+}
+
+func GetExtensionVersionUnchecked(c *xgb.Conn, NameLen uint16, Name string) GetExtensionVersionCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getExtensionVersionRequest(c, NameLen, Name), cookie)
+ return GetExtensionVersionCookie{cookie}
+}
+
+// Request reply for GetExtensionVersion
+// size: 32
+type GetExtensionVersionReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ ServerMajor uint16
+ ServerMinor uint16
+ Present bool
+ // padding: 19 bytes
+}
+
+// Waits and reads reply data from request GetExtensionVersion
+func (cook GetExtensionVersionCookie) Reply() (*GetExtensionVersionReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getExtensionVersionReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetExtensionVersion
+func getExtensionVersionReply(buf []byte) *GetExtensionVersionReply {
+ v := new(GetExtensionVersionReply)
+ 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.ServerMajor = xgb.Get16(buf[b:])
+ b += 2
+
+ v.ServerMinor = xgb.Get16(buf[b:])
+ b += 2
+
+ if buf[b] == 1 {
+ v.Present = true
+ } else {
+ v.Present = false
+ }
+ b += 1
+
+ b += 19 // padding
+
+ return v
+}
+
+// Write request to wire for GetExtensionVersion
+func getExtensionVersionRequest(c *xgb.Conn, NameLen uint16, Name string) []byte {
+ size := xgb.Pad((8 + xgb.Pad((int(NameLen) * 1))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ xgb.Put16(buf[b:], NameLen)
+ b += 2
+
+ b += 2 // padding
+
+ copy(buf[b:], Name[:NameLen])
+ b += xgb.Pad(int(NameLen))
+
+ return buf
+}
+
+// Request ListInputDevices
+// size: 4
+type ListInputDevicesCookie struct {
+ *xgb.Cookie
+}
+
+func ListInputDevices(c *xgb.Conn) ListInputDevicesCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(listInputDevicesRequest(c), cookie)
+ return ListInputDevicesCookie{cookie}
+}
+
+func ListInputDevicesUnchecked(c *xgb.Conn) ListInputDevicesCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(listInputDevicesRequest(c), cookie)
+ return ListInputDevicesCookie{cookie}
+}
+
+// Request reply for ListInputDevices
+// size: (32 + xgb.Pad((int(DevicesLen) * 8)))
+type ListInputDevicesReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ DevicesLen byte
+ // padding: 23 bytes
+ Devices []DeviceInfo // size: xgb.Pad((int(DevicesLen) * 8))
+}
+
+// Waits and reads reply data from request ListInputDevices
+func (cook ListInputDevicesCookie) Reply() (*ListInputDevicesReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return listInputDevicesReply(buf), nil
+}
+
+// Read reply into structure from buffer for ListInputDevices
+func listInputDevicesReply(buf []byte) *ListInputDevicesReply {
+ v := new(ListInputDevicesReply)
+ 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.DevicesLen = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ v.Devices = make([]DeviceInfo, v.DevicesLen)
+ b += DeviceInfoReadList(buf[b:], v.Devices)
+
+ return v
+}
+
+// Write request to wire for ListInputDevices
+func listInputDevicesRequest(c *xgb.Conn) []byte {
+ size := 4
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ return buf
+}
+
+// Request OpenDevice
+// size: 8
+type OpenDeviceCookie struct {
+ *xgb.Cookie
+}
+
+func OpenDevice(c *xgb.Conn, DeviceId byte) OpenDeviceCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(openDeviceRequest(c, DeviceId), cookie)
+ return OpenDeviceCookie{cookie}
+}
+
+func OpenDeviceUnchecked(c *xgb.Conn, DeviceId byte) OpenDeviceCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(openDeviceRequest(c, DeviceId), cookie)
+ return OpenDeviceCookie{cookie}
+}
+
+// Request reply for OpenDevice
+// size: (32 + xgb.Pad((int(NumClasses) * 2)))
+type OpenDeviceReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumClasses byte
+ // padding: 23 bytes
+ ClassInfo []InputClassInfo // size: xgb.Pad((int(NumClasses) * 2))
+}
+
+// Waits and reads reply data from request OpenDevice
+func (cook OpenDeviceCookie) Reply() (*OpenDeviceReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return openDeviceReply(buf), nil
+}
+
+// Read reply into structure from buffer for OpenDevice
+func openDeviceReply(buf []byte) *OpenDeviceReply {
+ v := new(OpenDeviceReply)
+ 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.NumClasses = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ v.ClassInfo = make([]InputClassInfo, v.NumClasses)
+ b += InputClassInfoReadList(buf[b:], v.ClassInfo)
+
+ return v
+}
+
+// Write request to wire for OpenDevice
+func openDeviceRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request CloseDevice
+// size: 8
+type CloseDeviceCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for CloseDevice
+func CloseDevice(c *xgb.Conn, DeviceId byte) CloseDeviceCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(closeDeviceRequest(c, DeviceId), cookie)
+ return CloseDeviceCookie{cookie}
+}
+
+func CloseDeviceChecked(c *xgb.Conn, DeviceId byte) CloseDeviceCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(closeDeviceRequest(c, DeviceId), cookie)
+ return CloseDeviceCookie{cookie}
+}
+
+func (cook CloseDeviceCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for CloseDevice
+func closeDeviceRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request SetDeviceMode
+// size: 8
+type SetDeviceModeCookie struct {
+ *xgb.Cookie
+}
+
+func SetDeviceMode(c *xgb.Conn, DeviceId byte, Mode byte) SetDeviceModeCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(setDeviceModeRequest(c, DeviceId, Mode), cookie)
+ return SetDeviceModeCookie{cookie}
+}
+
+func SetDeviceModeUnchecked(c *xgb.Conn, DeviceId byte, Mode byte) SetDeviceModeCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(setDeviceModeRequest(c, DeviceId, Mode), cookie)
+ return SetDeviceModeCookie{cookie}
+}
+
+// Request reply for SetDeviceMode
+// size: 32
+type SetDeviceModeReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request SetDeviceMode
+func (cook SetDeviceModeCookie) Reply() (*SetDeviceModeReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return setDeviceModeReply(buf), nil
+}
+
+// Read reply into structure from buffer for SetDeviceMode
+func setDeviceModeReply(buf []byte) *SetDeviceModeReply {
+ v := new(SetDeviceModeReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for SetDeviceMode
+func setDeviceModeRequest(c *xgb.Conn, DeviceId byte, Mode byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = Mode
+ b += 1
+
+ b += 2 // padding
+
+ return buf
+}
+
+// Request SelectExtensionEvent
+// size: xgb.Pad((12 + xgb.Pad((int(NumClasses) * 4))))
+type SelectExtensionEventCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for SelectExtensionEvent
+func SelectExtensionEvent(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Classes []EventClass) SelectExtensionEventCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(selectExtensionEventRequest(c, Window, NumClasses, Classes), cookie)
+ return SelectExtensionEventCookie{cookie}
+}
+
+func SelectExtensionEventChecked(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Classes []EventClass) SelectExtensionEventCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(selectExtensionEventRequest(c, Window, NumClasses, Classes), cookie)
+ return SelectExtensionEventCookie{cookie}
+}
+
+func (cook SelectExtensionEventCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for SelectExtensionEvent
+func selectExtensionEventRequest(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Classes []EventClass) []byte {
+ size := xgb.Pad((12 + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(Window))
+ b += 4
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ b += 2 // padding
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request GetSelectedExtensionEvents
+// size: 8
+type GetSelectedExtensionEventsCookie struct {
+ *xgb.Cookie
+}
+
+func GetSelectedExtensionEvents(c *xgb.Conn, Window xproto.Window) GetSelectedExtensionEventsCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getSelectedExtensionEventsRequest(c, Window), cookie)
+ return GetSelectedExtensionEventsCookie{cookie}
+}
+
+func GetSelectedExtensionEventsUnchecked(c *xgb.Conn, Window xproto.Window) GetSelectedExtensionEventsCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getSelectedExtensionEventsRequest(c, Window), cookie)
+ return GetSelectedExtensionEventsCookie{cookie}
+}
+
+// Request reply for GetSelectedExtensionEvents
+// size: ((32 + xgb.Pad((int(NumThisClasses) * 4))) + xgb.Pad((int(NumAllClasses) * 4)))
+type GetSelectedExtensionEventsReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumThisClasses uint16
+ NumAllClasses uint16
+ // padding: 20 bytes
+ ThisClasses []EventClass // size: xgb.Pad((int(NumThisClasses) * 4))
+ AllClasses []EventClass // size: xgb.Pad((int(NumAllClasses) * 4))
+}
+
+// Waits and reads reply data from request GetSelectedExtensionEvents
+func (cook GetSelectedExtensionEventsCookie) Reply() (*GetSelectedExtensionEventsReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getSelectedExtensionEventsReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetSelectedExtensionEvents
+func getSelectedExtensionEventsReply(buf []byte) *GetSelectedExtensionEventsReply {
+ v := new(GetSelectedExtensionEventsReply)
+ 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.NumThisClasses = xgb.Get16(buf[b:])
+ b += 2
+
+ v.NumAllClasses = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 20 // padding
+
+ v.ThisClasses = make([]EventClass, v.NumThisClasses)
+ for i := 0; i < int(v.NumThisClasses); i++ {
+ v.ThisClasses[i] = EventClass(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ v.AllClasses = make([]EventClass, v.NumAllClasses)
+ for i := 0; i < int(v.NumAllClasses); i++ {
+ v.AllClasses[i] = EventClass(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return v
+}
+
+// Write request to wire for GetSelectedExtensionEvents
+func getSelectedExtensionEventsRequest(c *xgb.Conn, Window xproto.Window) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ xgb.Put32(buf[b:], uint32(Window))
+ b += 4
+
+ return buf
+}
+
+// Request ChangeDeviceDontPropagateList
+// size: xgb.Pad((12 + xgb.Pad((int(NumClasses) * 4))))
+type ChangeDeviceDontPropagateListCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for ChangeDeviceDontPropagateList
+func ChangeDeviceDontPropagateList(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Mode byte, Classes []EventClass) ChangeDeviceDontPropagateListCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(changeDeviceDontPropagateListRequest(c, Window, NumClasses, Mode, Classes), cookie)
+ return ChangeDeviceDontPropagateListCookie{cookie}
+}
+
+func ChangeDeviceDontPropagateListChecked(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Mode byte, Classes []EventClass) ChangeDeviceDontPropagateListCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(changeDeviceDontPropagateListRequest(c, Window, NumClasses, Mode, Classes), cookie)
+ return ChangeDeviceDontPropagateListCookie{cookie}
+}
+
+func (cook ChangeDeviceDontPropagateListCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for ChangeDeviceDontPropagateList
+func changeDeviceDontPropagateListRequest(c *xgb.Conn, Window xproto.Window, NumClasses uint16, Mode byte, Classes []EventClass) []byte {
+ size := xgb.Pad((12 + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(Window))
+ b += 4
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ buf[b] = Mode
+ b += 1
+
+ b += 1 // padding
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request GetDeviceDontPropagateList
+// size: 8
+type GetDeviceDontPropagateListCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceDontPropagateList(c *xgb.Conn, Window xproto.Window) GetDeviceDontPropagateListCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceDontPropagateListRequest(c, Window), cookie)
+ return GetDeviceDontPropagateListCookie{cookie}
+}
+
+func GetDeviceDontPropagateListUnchecked(c *xgb.Conn, Window xproto.Window) GetDeviceDontPropagateListCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceDontPropagateListRequest(c, Window), cookie)
+ return GetDeviceDontPropagateListCookie{cookie}
+}
+
+// Request reply for GetDeviceDontPropagateList
+// size: (32 + xgb.Pad((int(NumClasses) * 4)))
+type GetDeviceDontPropagateListReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumClasses uint16
+ // padding: 22 bytes
+ Classes []EventClass // size: xgb.Pad((int(NumClasses) * 4))
+}
+
+// Waits and reads reply data from request GetDeviceDontPropagateList
+func (cook GetDeviceDontPropagateListCookie) Reply() (*GetDeviceDontPropagateListReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceDontPropagateListReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceDontPropagateList
+func getDeviceDontPropagateListReply(buf []byte) *GetDeviceDontPropagateListReply {
+ v := new(GetDeviceDontPropagateListReply)
+ 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.NumClasses = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 22 // padding
+
+ v.Classes = make([]EventClass, v.NumClasses)
+ for i := 0; i < int(v.NumClasses); i++ {
+ v.Classes[i] = EventClass(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return v
+}
+
+// Write request to wire for GetDeviceDontPropagateList
+func getDeviceDontPropagateListRequest(c *xgb.Conn, Window xproto.Window) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(Window))
+ b += 4
+
+ return buf
+}
+
+// Request GetDeviceMotionEvents
+// size: 16
+type GetDeviceMotionEventsCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceMotionEvents(c *xgb.Conn, Start xproto.Timestamp, Stop xproto.Timestamp, DeviceId byte) GetDeviceMotionEventsCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceMotionEventsRequest(c, Start, Stop, DeviceId), cookie)
+ return GetDeviceMotionEventsCookie{cookie}
+}
+
+func GetDeviceMotionEventsUnchecked(c *xgb.Conn, Start xproto.Timestamp, Stop xproto.Timestamp, DeviceId byte) GetDeviceMotionEventsCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceMotionEventsRequest(c, Start, Stop, DeviceId), cookie)
+ return GetDeviceMotionEventsCookie{cookie}
+}
+
+// Request reply for GetDeviceMotionEvents
+// size: 32
+type GetDeviceMotionEventsReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumCoords uint32
+ NumAxes byte
+ DeviceMode byte
+ // padding: 18 bytes
+}
+
+// Waits and reads reply data from request GetDeviceMotionEvents
+func (cook GetDeviceMotionEventsCookie) Reply() (*GetDeviceMotionEventsReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceMotionEventsReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceMotionEvents
+func getDeviceMotionEventsReply(buf []byte) *GetDeviceMotionEventsReply {
+ v := new(GetDeviceMotionEventsReply)
+ 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.NumCoords = xgb.Get32(buf[b:])
+ b += 4
+
+ v.NumAxes = buf[b]
+ b += 1
+
+ v.DeviceMode = buf[b]
+ b += 1
+
+ b += 18 // padding
+
+ return v
+}
+
+// Write request to wire for GetDeviceMotionEvents
+func getDeviceMotionEventsRequest(c *xgb.Conn, Start xproto.Timestamp, Stop xproto.Timestamp, DeviceId byte) []byte {
+ size := 16
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(Start))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(Stop))
+ b += 4
+
+ buf[b] = DeviceId
+ b += 1
+
+ return buf
+}
+
+// Request ChangeKeyboardDevice
+// size: 8
+type ChangeKeyboardDeviceCookie struct {
+ *xgb.Cookie
+}
+
+func ChangeKeyboardDevice(c *xgb.Conn, DeviceId byte) ChangeKeyboardDeviceCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(changeKeyboardDeviceRequest(c, DeviceId), cookie)
+ return ChangeKeyboardDeviceCookie{cookie}
+}
+
+func ChangeKeyboardDeviceUnchecked(c *xgb.Conn, DeviceId byte) ChangeKeyboardDeviceCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(changeKeyboardDeviceRequest(c, DeviceId), cookie)
+ return ChangeKeyboardDeviceCookie{cookie}
+}
+
+// Request reply for ChangeKeyboardDevice
+// size: 32
+type ChangeKeyboardDeviceReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request ChangeKeyboardDevice
+func (cook ChangeKeyboardDeviceCookie) Reply() (*ChangeKeyboardDeviceReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return changeKeyboardDeviceReply(buf), nil
+}
+
+// Read reply into structure from buffer for ChangeKeyboardDevice
+func changeKeyboardDeviceReply(buf []byte) *ChangeKeyboardDeviceReply {
+ v := new(ChangeKeyboardDeviceReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for ChangeKeyboardDevice
+func changeKeyboardDeviceRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request ChangePointerDevice
+// size: 8
+type ChangePointerDeviceCookie struct {
+ *xgb.Cookie
+}
+
+func ChangePointerDevice(c *xgb.Conn, XAxis byte, YAxis byte, DeviceId byte) ChangePointerDeviceCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(changePointerDeviceRequest(c, XAxis, YAxis, DeviceId), cookie)
+ return ChangePointerDeviceCookie{cookie}
+}
+
+func ChangePointerDeviceUnchecked(c *xgb.Conn, XAxis byte, YAxis byte, DeviceId byte) ChangePointerDeviceCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(changePointerDeviceRequest(c, XAxis, YAxis, DeviceId), cookie)
+ return ChangePointerDeviceCookie{cookie}
+}
+
+// Request reply for ChangePointerDevice
+// size: 32
+type ChangePointerDeviceReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request ChangePointerDevice
+func (cook ChangePointerDeviceCookie) Reply() (*ChangePointerDeviceReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return changePointerDeviceReply(buf), nil
+}
+
+// Read reply into structure from buffer for ChangePointerDevice
+func changePointerDeviceReply(buf []byte) *ChangePointerDeviceReply {
+ v := new(ChangePointerDeviceReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for ChangePointerDevice
+func changePointerDeviceRequest(c *xgb.Conn, XAxis byte, YAxis byte, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ buf[b] = XAxis
+ b += 1
+
+ buf[b] = YAxis
+ b += 1
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 1 // padding
+
+ return buf
+}
+
+// Request GrabDevice
+// size: xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+type GrabDeviceCookie struct {
+ *xgb.Cookie
+}
+
+func GrabDevice(c *xgb.Conn, GrabWindow xproto.Window, Time xproto.Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []EventClass) GrabDeviceCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(grabDeviceRequest(c, GrabWindow, Time, NumClasses, ThisDeviceMode, OtherDeviceMode, OwnerEvents, DeviceId, Classes), cookie)
+ return GrabDeviceCookie{cookie}
+}
+
+func GrabDeviceUnchecked(c *xgb.Conn, GrabWindow xproto.Window, Time xproto.Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []EventClass) GrabDeviceCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(grabDeviceRequest(c, GrabWindow, Time, NumClasses, ThisDeviceMode, OtherDeviceMode, OwnerEvents, DeviceId, Classes), cookie)
+ return GrabDeviceCookie{cookie}
+}
+
+// Request reply for GrabDevice
+// size: 32
+type GrabDeviceReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request GrabDevice
+func (cook GrabDeviceCookie) Reply() (*GrabDeviceReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return grabDeviceReply(buf), nil
+}
+
+// Read reply into structure from buffer for GrabDevice
+func grabDeviceReply(buf []byte) *GrabDeviceReply {
+ v := new(GrabDeviceReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for GrabDevice
+func grabDeviceRequest(c *xgb.Conn, GrabWindow xproto.Window, Time xproto.Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []EventClass) []byte {
+ size := xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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:], uint32(GrabWindow))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(Time))
+ b += 4
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ buf[b] = ThisDeviceMode
+ b += 1
+
+ buf[b] = OtherDeviceMode
+ b += 1
+
+ if OwnerEvents {
+ buf[b] = 1
+ } else {
+ buf[b] = 0
+ }
+ b += 1
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 2 // padding
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request UngrabDevice
+// size: 12
+type UngrabDeviceCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for UngrabDevice
+func UngrabDevice(c *xgb.Conn, Time xproto.Timestamp, DeviceId byte) UngrabDeviceCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(ungrabDeviceRequest(c, Time, DeviceId), cookie)
+ return UngrabDeviceCookie{cookie}
+}
+
+func UngrabDeviceChecked(c *xgb.Conn, Time xproto.Timestamp, DeviceId byte) UngrabDeviceCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(ungrabDeviceRequest(c, Time, DeviceId), cookie)
+ return UngrabDeviceCookie{cookie}
+}
+
+func (cook UngrabDeviceCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for UngrabDevice
+func ungrabDeviceRequest(c *xgb.Conn, Time xproto.Timestamp, DeviceId byte) []byte {
+ size := 12
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(Time))
+ b += 4
+
+ buf[b] = DeviceId
+ b += 1
+
+ return buf
+}
+
+// Request GrabDeviceKey
+// size: xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+type GrabDeviceKeyCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for GrabDeviceKey
+func GrabDeviceKey(c *xgb.Conn, GrabWindow xproto.Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []EventClass) GrabDeviceKeyCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(grabDeviceKeyRequest(c, GrabWindow, NumClasses, Modifiers, ModifierDevice, GrabbedDevice, Key, ThisDeviceMode, OtherDeviceMode, OwnerEvents, Classes), cookie)
+ return GrabDeviceKeyCookie{cookie}
+}
+
+func GrabDeviceKeyChecked(c *xgb.Conn, GrabWindow xproto.Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []EventClass) GrabDeviceKeyCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(grabDeviceKeyRequest(c, GrabWindow, NumClasses, Modifiers, ModifierDevice, GrabbedDevice, Key, ThisDeviceMode, OtherDeviceMode, OwnerEvents, Classes), cookie)
+ return GrabDeviceKeyCookie{cookie}
+}
+
+func (cook GrabDeviceKeyCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for GrabDeviceKey
+func grabDeviceKeyRequest(c *xgb.Conn, GrabWindow xproto.Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []EventClass) []byte {
+ size := xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(GrabWindow))
+ b += 4
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ xgb.Put16(buf[b:], Modifiers)
+ b += 2
+
+ buf[b] = ModifierDevice
+ b += 1
+
+ buf[b] = GrabbedDevice
+ b += 1
+
+ buf[b] = Key
+ b += 1
+
+ buf[b] = ThisDeviceMode
+ b += 1
+
+ buf[b] = OtherDeviceMode
+ b += 1
+
+ if OwnerEvents {
+ buf[b] = 1
+ } else {
+ buf[b] = 0
+ }
+ b += 1
+
+ b += 2 // padding
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request UngrabDeviceKey
+// size: 16
+type UngrabDeviceKeyCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for UngrabDeviceKey
+func UngrabDeviceKey(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Key byte, GrabbedDevice byte) UngrabDeviceKeyCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(ungrabDeviceKeyRequest(c, GrabWindow, Modifiers, ModifierDevice, Key, GrabbedDevice), cookie)
+ return UngrabDeviceKeyCookie{cookie}
+}
+
+func UngrabDeviceKeyChecked(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Key byte, GrabbedDevice byte) UngrabDeviceKeyCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(ungrabDeviceKeyRequest(c, GrabWindow, Modifiers, ModifierDevice, Key, GrabbedDevice), cookie)
+ return UngrabDeviceKeyCookie{cookie}
+}
+
+func (cook UngrabDeviceKeyCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for UngrabDeviceKey
+func ungrabDeviceKeyRequest(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Key byte, GrabbedDevice byte) []byte {
+ size := 16
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(GrabWindow))
+ b += 4
+
+ xgb.Put16(buf[b:], Modifiers)
+ b += 2
+
+ buf[b] = ModifierDevice
+ b += 1
+
+ buf[b] = Key
+ b += 1
+
+ buf[b] = GrabbedDevice
+ b += 1
+
+ return buf
+}
+
+// Request GrabDeviceButton
+// size: xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+type GrabDeviceButtonCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for GrabDeviceButton
+func GrabDeviceButton(c *xgb.Conn, GrabWindow xproto.Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []EventClass) GrabDeviceButtonCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(grabDeviceButtonRequest(c, GrabWindow, GrabbedDevice, ModifierDevice, NumClasses, Modifiers, ThisDeviceMode, OtherDeviceMode, Button, OwnerEvents, Classes), cookie)
+ return GrabDeviceButtonCookie{cookie}
+}
+
+func GrabDeviceButtonChecked(c *xgb.Conn, GrabWindow xproto.Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []EventClass) GrabDeviceButtonCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(grabDeviceButtonRequest(c, GrabWindow, GrabbedDevice, ModifierDevice, NumClasses, Modifiers, ThisDeviceMode, OtherDeviceMode, Button, OwnerEvents, Classes), cookie)
+ return GrabDeviceButtonCookie{cookie}
+}
+
+func (cook GrabDeviceButtonCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for GrabDeviceButton
+func grabDeviceButtonRequest(c *xgb.Conn, GrabWindow xproto.Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []EventClass) []byte {
+ size := xgb.Pad((20 + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(GrabWindow))
+ b += 4
+
+ buf[b] = GrabbedDevice
+ b += 1
+
+ buf[b] = ModifierDevice
+ b += 1
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ xgb.Put16(buf[b:], Modifiers)
+ b += 2
+
+ buf[b] = ThisDeviceMode
+ b += 1
+
+ buf[b] = OtherDeviceMode
+ b += 1
+
+ buf[b] = Button
+ b += 1
+
+ buf[b] = OwnerEvents
+ b += 1
+
+ b += 2 // padding
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request UngrabDeviceButton
+// size: 16
+type UngrabDeviceButtonCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for UngrabDeviceButton
+func UngrabDeviceButton(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Button byte, GrabbedDevice byte) UngrabDeviceButtonCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(ungrabDeviceButtonRequest(c, GrabWindow, Modifiers, ModifierDevice, Button, GrabbedDevice), cookie)
+ return UngrabDeviceButtonCookie{cookie}
+}
+
+func UngrabDeviceButtonChecked(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Button byte, GrabbedDevice byte) UngrabDeviceButtonCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(ungrabDeviceButtonRequest(c, GrabWindow, Modifiers, ModifierDevice, Button, GrabbedDevice), cookie)
+ return UngrabDeviceButtonCookie{cookie}
+}
+
+func (cook UngrabDeviceButtonCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for UngrabDeviceButton
+func ungrabDeviceButtonRequest(c *xgb.Conn, GrabWindow xproto.Window, Modifiers uint16, ModifierDevice byte, Button byte, GrabbedDevice byte) []byte {
+ size := 16
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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(GrabWindow))
+ b += 4
+
+ xgb.Put16(buf[b:], Modifiers)
+ b += 2
+
+ buf[b] = ModifierDevice
+ b += 1
+
+ buf[b] = Button
+ b += 1
+
+ buf[b] = GrabbedDevice
+ b += 1
+
+ return buf
+}
+
+// Request AllowDeviceEvents
+// size: 12
+type AllowDeviceEventsCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for AllowDeviceEvents
+func AllowDeviceEvents(c *xgb.Conn, Time xproto.Timestamp, Mode byte, DeviceId byte) AllowDeviceEventsCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(allowDeviceEventsRequest(c, Time, Mode, DeviceId), cookie)
+ return AllowDeviceEventsCookie{cookie}
+}
+
+func AllowDeviceEventsChecked(c *xgb.Conn, Time xproto.Timestamp, Mode byte, DeviceId byte) AllowDeviceEventsCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(allowDeviceEventsRequest(c, Time, Mode, DeviceId), cookie)
+ return AllowDeviceEventsCookie{cookie}
+}
+
+func (cook AllowDeviceEventsCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for AllowDeviceEvents
+func allowDeviceEventsRequest(c *xgb.Conn, Time xproto.Timestamp, Mode byte, DeviceId byte) []byte {
+ size := 12
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ 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
+
+ xgb.Put32(buf[b:], uint32(Time))
+ b += 4
+
+ buf[b] = Mode
+ b += 1
+
+ buf[b] = DeviceId
+ b += 1
+
+ return buf
+}
+
+// Request GetDeviceFocus
+// size: 8
+type GetDeviceFocusCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceFocus(c *xgb.Conn, DeviceId byte) GetDeviceFocusCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceFocusRequest(c, DeviceId), cookie)
+ return GetDeviceFocusCookie{cookie}
+}
+
+func GetDeviceFocusUnchecked(c *xgb.Conn, DeviceId byte) GetDeviceFocusCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceFocusRequest(c, DeviceId), cookie)
+ return GetDeviceFocusCookie{cookie}
+}
+
+// Request reply for GetDeviceFocus
+// size: 32
+type GetDeviceFocusReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Focus xproto.Window
+ Time xproto.Timestamp
+ RevertTo byte
+ // padding: 15 bytes
+}
+
+// Waits and reads reply data from request GetDeviceFocus
+func (cook GetDeviceFocusCookie) Reply() (*GetDeviceFocusReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceFocusReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceFocus
+func getDeviceFocusReply(buf []byte) *GetDeviceFocusReply {
+ v := new(GetDeviceFocusReply)
+ 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.Focus = xproto.Window(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.Time = xproto.Timestamp(xgb.Get32(buf[b:]))
+ b += 4
+
+ v.RevertTo = buf[b]
+ b += 1
+
+ b += 15 // padding
+
+ return v
+}
+
+// Write request to wire for GetDeviceFocus
+func getDeviceFocusRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 20 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request SetDeviceFocus
+// size: 16
+type SetDeviceFocusCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for SetDeviceFocus
+func SetDeviceFocus(c *xgb.Conn, Focus xproto.Window, Time xproto.Timestamp, RevertTo byte, DeviceId byte) SetDeviceFocusCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(setDeviceFocusRequest(c, Focus, Time, RevertTo, DeviceId), cookie)
+ return SetDeviceFocusCookie{cookie}
+}
+
+func SetDeviceFocusChecked(c *xgb.Conn, Focus xproto.Window, Time xproto.Timestamp, RevertTo byte, DeviceId byte) SetDeviceFocusCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(setDeviceFocusRequest(c, Focus, Time, RevertTo, DeviceId), cookie)
+ return SetDeviceFocusCookie{cookie}
+}
+
+func (cook SetDeviceFocusCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for SetDeviceFocus
+func setDeviceFocusRequest(c *xgb.Conn, Focus xproto.Window, Time xproto.Timestamp, RevertTo byte, DeviceId byte) []byte {
+ size := 16
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 21 // 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(Focus))
+ b += 4
+
+ xgb.Put32(buf[b:], uint32(Time))
+ b += 4
+
+ buf[b] = RevertTo
+ b += 1
+
+ buf[b] = DeviceId
+ b += 1
+
+ return buf
+}
+
+// Request GetFeedbackControl
+// size: 8
+type GetFeedbackControlCookie struct {
+ *xgb.Cookie
+}
+
+func GetFeedbackControl(c *xgb.Conn, DeviceId byte) GetFeedbackControlCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getFeedbackControlRequest(c, DeviceId), cookie)
+ return GetFeedbackControlCookie{cookie}
+}
+
+func GetFeedbackControlUnchecked(c *xgb.Conn, DeviceId byte) GetFeedbackControlCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getFeedbackControlRequest(c, DeviceId), cookie)
+ return GetFeedbackControlCookie{cookie}
+}
+
+// Request reply for GetFeedbackControl
+// size: 32
+type GetFeedbackControlReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumFeedback uint16
+ // padding: 22 bytes
+}
+
+// Waits and reads reply data from request GetFeedbackControl
+func (cook GetFeedbackControlCookie) Reply() (*GetFeedbackControlReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getFeedbackControlReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetFeedbackControl
+func getFeedbackControlReply(buf []byte) *GetFeedbackControlReply {
+ v := new(GetFeedbackControlReply)
+ 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.NumFeedback = xgb.Get16(buf[b:])
+ b += 2
+
+ b += 22 // padding
+
+ return v
+}
+
+// Write request to wire for GetFeedbackControl
+func getFeedbackControlRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 22 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request GetDeviceKeyMapping
+// size: 8
+type GetDeviceKeyMappingCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceKeyMapping(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, Count byte) GetDeviceKeyMappingCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceKeyMappingRequest(c, DeviceId, FirstKeycode, Count), cookie)
+ return GetDeviceKeyMappingCookie{cookie}
+}
+
+func GetDeviceKeyMappingUnchecked(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, Count byte) GetDeviceKeyMappingCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceKeyMappingRequest(c, DeviceId, FirstKeycode, Count), cookie)
+ return GetDeviceKeyMappingCookie{cookie}
+}
+
+// Request reply for GetDeviceKeyMapping
+// size: (32 + xgb.Pad((int(Length) * 4)))
+type GetDeviceKeyMappingReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ KeysymsPerKeycode byte
+ // padding: 23 bytes
+ Keysyms []xproto.Keysym // size: xgb.Pad((int(Length) * 4))
+}
+
+// Waits and reads reply data from request GetDeviceKeyMapping
+func (cook GetDeviceKeyMappingCookie) Reply() (*GetDeviceKeyMappingReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceKeyMappingReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceKeyMapping
+func getDeviceKeyMappingReply(buf []byte) *GetDeviceKeyMappingReply {
+ v := new(GetDeviceKeyMappingReply)
+ 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.KeysymsPerKeycode = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ v.Keysyms = make([]xproto.Keysym, v.Length)
+ for i := 0; i < int(v.Length); i++ {
+ v.Keysyms[i] = xproto.Keysym(xgb.Get32(buf[b:]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return v
+}
+
+// Write request to wire for GetDeviceKeyMapping
+func getDeviceKeyMappingRequest(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, Count byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 24 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = byte(FirstKeycode)
+ b += 1
+
+ buf[b] = Count
+ b += 1
+
+ return buf
+}
+
+// Request ChangeDeviceKeyMapping
+// size: xgb.Pad((8 + xgb.Pad(((int(KeycodeCount) * int(KeysymsPerKeycode)) * 4))))
+type ChangeDeviceKeyMappingCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for ChangeDeviceKeyMapping
+func ChangeDeviceKeyMapping(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []xproto.Keysym) ChangeDeviceKeyMappingCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(changeDeviceKeyMappingRequest(c, DeviceId, FirstKeycode, KeysymsPerKeycode, KeycodeCount, Keysyms), cookie)
+ return ChangeDeviceKeyMappingCookie{cookie}
+}
+
+func ChangeDeviceKeyMappingChecked(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []xproto.Keysym) ChangeDeviceKeyMappingCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(changeDeviceKeyMappingRequest(c, DeviceId, FirstKeycode, KeysymsPerKeycode, KeycodeCount, Keysyms), cookie)
+ return ChangeDeviceKeyMappingCookie{cookie}
+}
+
+func (cook ChangeDeviceKeyMappingCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for ChangeDeviceKeyMapping
+func changeDeviceKeyMappingRequest(c *xgb.Conn, DeviceId byte, FirstKeycode KeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []xproto.Keysym) []byte {
+ size := xgb.Pad((8 + xgb.Pad(((int(KeycodeCount) * int(KeysymsPerKeycode)) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 25 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = byte(FirstKeycode)
+ b += 1
+
+ buf[b] = KeysymsPerKeycode
+ b += 1
+
+ buf[b] = KeycodeCount
+ b += 1
+
+ for i := 0; i < int((int(KeycodeCount) * int(KeysymsPerKeycode))); i++ {
+ xgb.Put32(buf[b:], uint32(Keysyms[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request GetDeviceModifierMapping
+// size: 8
+type GetDeviceModifierMappingCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceModifierMapping(c *xgb.Conn, DeviceId byte) GetDeviceModifierMappingCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceModifierMappingRequest(c, DeviceId), cookie)
+ return GetDeviceModifierMappingCookie{cookie}
+}
+
+func GetDeviceModifierMappingUnchecked(c *xgb.Conn, DeviceId byte) GetDeviceModifierMappingCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceModifierMappingRequest(c, DeviceId), cookie)
+ return GetDeviceModifierMappingCookie{cookie}
+}
+
+// Request reply for GetDeviceModifierMapping
+// size: (32 + xgb.Pad(((int(KeycodesPerModifier) * 8) * 1)))
+type GetDeviceModifierMappingReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ KeycodesPerModifier byte
+ // padding: 23 bytes
+ Keymaps []byte // size: xgb.Pad(((int(KeycodesPerModifier) * 8) * 1))
+}
+
+// Waits and reads reply data from request GetDeviceModifierMapping
+func (cook GetDeviceModifierMappingCookie) Reply() (*GetDeviceModifierMappingReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceModifierMappingReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceModifierMapping
+func getDeviceModifierMappingReply(buf []byte) *GetDeviceModifierMappingReply {
+ v := new(GetDeviceModifierMappingReply)
+ 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.KeycodesPerModifier = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ v.Keymaps = make([]byte, (int(v.KeycodesPerModifier) * 8))
+ copy(v.Keymaps[:(int(v.KeycodesPerModifier)*8)], buf[b:])
+ b += xgb.Pad(int((int(v.KeycodesPerModifier) * 8)))
+
+ return v
+}
+
+// Write request to wire for GetDeviceModifierMapping
+func getDeviceModifierMappingRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 26 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request SetDeviceModifierMapping
+// size: xgb.Pad((7 + xgb.Pad(((int(KeycodesPerModifier) * 8) * 1))))
+type SetDeviceModifierMappingCookie struct {
+ *xgb.Cookie
+}
+
+func SetDeviceModifierMapping(c *xgb.Conn, DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) SetDeviceModifierMappingCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(setDeviceModifierMappingRequest(c, DeviceId, KeycodesPerModifier, Keymaps), cookie)
+ return SetDeviceModifierMappingCookie{cookie}
+}
+
+func SetDeviceModifierMappingUnchecked(c *xgb.Conn, DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) SetDeviceModifierMappingCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(setDeviceModifierMappingRequest(c, DeviceId, KeycodesPerModifier, Keymaps), cookie)
+ return SetDeviceModifierMappingCookie{cookie}
+}
+
+// Request reply for SetDeviceModifierMapping
+// size: 32
+type SetDeviceModifierMappingReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request SetDeviceModifierMapping
+func (cook SetDeviceModifierMappingCookie) Reply() (*SetDeviceModifierMappingReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return setDeviceModifierMappingReply(buf), nil
+}
+
+// Read reply into structure from buffer for SetDeviceModifierMapping
+func setDeviceModifierMappingReply(buf []byte) *SetDeviceModifierMappingReply {
+ v := new(SetDeviceModifierMappingReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for SetDeviceModifierMapping
+func setDeviceModifierMappingRequest(c *xgb.Conn, DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) []byte {
+ size := xgb.Pad((7 + xgb.Pad(((int(KeycodesPerModifier) * 8) * 1))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 27 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = KeycodesPerModifier
+ b += 1
+
+ b += 1 // padding
+
+ copy(buf[b:], Keymaps[:(int(KeycodesPerModifier)*8)])
+ b += xgb.Pad(int((int(KeycodesPerModifier) * 8)))
+
+ return buf
+}
+
+// Request GetDeviceButtonMapping
+// size: 8
+type GetDeviceButtonMappingCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceButtonMapping(c *xgb.Conn, DeviceId byte) GetDeviceButtonMappingCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceButtonMappingRequest(c, DeviceId), cookie)
+ return GetDeviceButtonMappingCookie{cookie}
+}
+
+func GetDeviceButtonMappingUnchecked(c *xgb.Conn, DeviceId byte) GetDeviceButtonMappingCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceButtonMappingRequest(c, DeviceId), cookie)
+ return GetDeviceButtonMappingCookie{cookie}
+}
+
+// Request reply for GetDeviceButtonMapping
+// size: (32 + xgb.Pad((int(MapSize) * 1)))
+type GetDeviceButtonMappingReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ MapSize byte
+ // padding: 23 bytes
+ Map []byte // size: xgb.Pad((int(MapSize) * 1))
+}
+
+// Waits and reads reply data from request GetDeviceButtonMapping
+func (cook GetDeviceButtonMappingCookie) Reply() (*GetDeviceButtonMappingReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceButtonMappingReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceButtonMapping
+func getDeviceButtonMappingReply(buf []byte) *GetDeviceButtonMappingReply {
+ v := new(GetDeviceButtonMappingReply)
+ 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.MapSize = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ v.Map = make([]byte, v.MapSize)
+ copy(v.Map[:v.MapSize], buf[b:])
+ b += xgb.Pad(int(v.MapSize))
+
+ return v
+}
+
+// Write request to wire for GetDeviceButtonMapping
+func getDeviceButtonMappingRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 28 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request SetDeviceButtonMapping
+// size: xgb.Pad((8 + xgb.Pad((int(MapSize) * 1))))
+type SetDeviceButtonMappingCookie struct {
+ *xgb.Cookie
+}
+
+func SetDeviceButtonMapping(c *xgb.Conn, DeviceId byte, MapSize byte, Map []byte) SetDeviceButtonMappingCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(setDeviceButtonMappingRequest(c, DeviceId, MapSize, Map), cookie)
+ return SetDeviceButtonMappingCookie{cookie}
+}
+
+func SetDeviceButtonMappingUnchecked(c *xgb.Conn, DeviceId byte, MapSize byte, Map []byte) SetDeviceButtonMappingCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(setDeviceButtonMappingRequest(c, DeviceId, MapSize, Map), cookie)
+ return SetDeviceButtonMappingCookie{cookie}
+}
+
+// Request reply for SetDeviceButtonMapping
+// size: 32
+type SetDeviceButtonMappingReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request SetDeviceButtonMapping
+func (cook SetDeviceButtonMappingCookie) Reply() (*SetDeviceButtonMappingReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return setDeviceButtonMappingReply(buf), nil
+}
+
+// Read reply into structure from buffer for SetDeviceButtonMapping
+func setDeviceButtonMappingReply(buf []byte) *SetDeviceButtonMappingReply {
+ v := new(SetDeviceButtonMappingReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for SetDeviceButtonMapping
+func setDeviceButtonMappingRequest(c *xgb.Conn, DeviceId byte, MapSize byte, Map []byte) []byte {
+ size := xgb.Pad((8 + xgb.Pad((int(MapSize) * 1))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 29 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = MapSize
+ b += 1
+
+ b += 2 // padding
+
+ copy(buf[b:], Map[:MapSize])
+ b += xgb.Pad(int(MapSize))
+
+ return buf
+}
+
+// Request QueryDeviceState
+// size: 8
+type QueryDeviceStateCookie struct {
+ *xgb.Cookie
+}
+
+func QueryDeviceState(c *xgb.Conn, DeviceId byte) QueryDeviceStateCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(queryDeviceStateRequest(c, DeviceId), cookie)
+ return QueryDeviceStateCookie{cookie}
+}
+
+func QueryDeviceStateUnchecked(c *xgb.Conn, DeviceId byte) QueryDeviceStateCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(queryDeviceStateRequest(c, DeviceId), cookie)
+ return QueryDeviceStateCookie{cookie}
+}
+
+// Request reply for QueryDeviceState
+// size: 32
+type QueryDeviceStateReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ NumClasses byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request QueryDeviceState
+func (cook QueryDeviceStateCookie) Reply() (*QueryDeviceStateReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return queryDeviceStateReply(buf), nil
+}
+
+// Read reply into structure from buffer for QueryDeviceState
+func queryDeviceStateReply(buf []byte) *QueryDeviceStateReply {
+ v := new(QueryDeviceStateReply)
+ 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.NumClasses = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for QueryDeviceState
+func queryDeviceStateRequest(c *xgb.Conn, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 30 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 3 // padding
+
+ return buf
+}
+
+// Request SendExtensionEvent
+// size: xgb.Pad(((16 + xgb.Pad(((int(NumEvents) * 32) * 1))) + xgb.Pad((int(NumClasses) * 4))))
+type SendExtensionEventCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for SendExtensionEvent
+func SendExtensionEvent(c *xgb.Conn, Destination xproto.Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []EventClass) SendExtensionEventCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(sendExtensionEventRequest(c, Destination, DeviceId, Propagate, NumClasses, NumEvents, Events, Classes), cookie)
+ return SendExtensionEventCookie{cookie}
+}
+
+func SendExtensionEventChecked(c *xgb.Conn, Destination xproto.Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []EventClass) SendExtensionEventCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(sendExtensionEventRequest(c, Destination, DeviceId, Propagate, NumClasses, NumEvents, Events, Classes), cookie)
+ return SendExtensionEventCookie{cookie}
+}
+
+func (cook SendExtensionEventCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for SendExtensionEvent
+func sendExtensionEventRequest(c *xgb.Conn, Destination xproto.Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []EventClass) []byte {
+ size := xgb.Pad(((16 + xgb.Pad(((int(NumEvents) * 32) * 1))) + xgb.Pad((int(NumClasses) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 31 // 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(Destination))
+ b += 4
+
+ buf[b] = DeviceId
+ b += 1
+
+ if Propagate {
+ buf[b] = 1
+ } else {
+ buf[b] = 0
+ }
+ b += 1
+
+ xgb.Put16(buf[b:], NumClasses)
+ b += 2
+
+ buf[b] = NumEvents
+ b += 1
+
+ b += 3 // padding
+
+ copy(buf[b:], Events[:(int(NumEvents)*32)])
+ b += xgb.Pad(int((int(NumEvents) * 32)))
+
+ for i := 0; i < int(NumClasses); i++ {
+ xgb.Put32(buf[b:], uint32(Classes[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request DeviceBell
+// size: 8
+type DeviceBellCookie struct {
+ *xgb.Cookie
+}
+
+// Write request to wire for DeviceBell
+func DeviceBell(c *xgb.Conn, DeviceId byte, FeedbackId byte, FeedbackClass byte, Percent int8) DeviceBellCookie {
+ cookie := c.NewCookie(false, false)
+ c.NewRequest(deviceBellRequest(c, DeviceId, FeedbackId, FeedbackClass, Percent), cookie)
+ return DeviceBellCookie{cookie}
+}
+
+func DeviceBellChecked(c *xgb.Conn, DeviceId byte, FeedbackId byte, FeedbackClass byte, Percent int8) DeviceBellCookie {
+ cookie := c.NewCookie(true, false)
+ c.NewRequest(deviceBellRequest(c, DeviceId, FeedbackId, FeedbackClass, Percent), cookie)
+ return DeviceBellCookie{cookie}
+}
+
+func (cook DeviceBellCookie) Check() error {
+ return cook.Cookie.Check()
+}
+
+// Write request to wire for DeviceBell
+func deviceBellRequest(c *xgb.Conn, DeviceId byte, FeedbackId byte, FeedbackClass byte, Percent int8) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 32 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = FeedbackId
+ b += 1
+
+ buf[b] = FeedbackClass
+ b += 1
+
+ buf[b] = byte(Percent)
+ b += 1
+
+ return buf
+}
+
+// Request SetDeviceValuators
+// size: xgb.Pad((8 + xgb.Pad((int(NumValuators) * 4))))
+type SetDeviceValuatorsCookie struct {
+ *xgb.Cookie
+}
+
+func SetDeviceValuators(c *xgb.Conn, DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) SetDeviceValuatorsCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(setDeviceValuatorsRequest(c, DeviceId, FirstValuator, NumValuators, Valuators), cookie)
+ return SetDeviceValuatorsCookie{cookie}
+}
+
+func SetDeviceValuatorsUnchecked(c *xgb.Conn, DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) SetDeviceValuatorsCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(setDeviceValuatorsRequest(c, DeviceId, FirstValuator, NumValuators, Valuators), cookie)
+ return SetDeviceValuatorsCookie{cookie}
+}
+
+// Request reply for SetDeviceValuators
+// size: 32
+type SetDeviceValuatorsReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request SetDeviceValuators
+func (cook SetDeviceValuatorsCookie) Reply() (*SetDeviceValuatorsReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return setDeviceValuatorsReply(buf), nil
+}
+
+// Read reply into structure from buffer for SetDeviceValuators
+func setDeviceValuatorsReply(buf []byte) *SetDeviceValuatorsReply {
+ v := new(SetDeviceValuatorsReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for SetDeviceValuators
+func setDeviceValuatorsRequest(c *xgb.Conn, DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) []byte {
+ size := xgb.Pad((8 + xgb.Pad((int(NumValuators) * 4))))
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 33 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ buf[b] = FirstValuator
+ b += 1
+
+ buf[b] = NumValuators
+ b += 1
+
+ b += 1 // padding
+
+ for i := 0; i < int(NumValuators); i++ {
+ xgb.Put32(buf[b:], uint32(Valuators[i]))
+ b += 4
+ }
+ b = xgb.Pad(b)
+
+ return buf
+}
+
+// Request GetDeviceControl
+// size: 8
+type GetDeviceControlCookie struct {
+ *xgb.Cookie
+}
+
+func GetDeviceControl(c *xgb.Conn, ControlId uint16, DeviceId byte) GetDeviceControlCookie {
+ cookie := c.NewCookie(true, true)
+ c.NewRequest(getDeviceControlRequest(c, ControlId, DeviceId), cookie)
+ return GetDeviceControlCookie{cookie}
+}
+
+func GetDeviceControlUnchecked(c *xgb.Conn, ControlId uint16, DeviceId byte) GetDeviceControlCookie {
+ cookie := c.NewCookie(false, true)
+ c.NewRequest(getDeviceControlRequest(c, ControlId, DeviceId), cookie)
+ return GetDeviceControlCookie{cookie}
+}
+
+// Request reply for GetDeviceControl
+// size: 32
+type GetDeviceControlReply struct {
+ Sequence uint16
+ Length uint32
+ // padding: 1 bytes
+ Status byte
+ // padding: 23 bytes
+}
+
+// Waits and reads reply data from request GetDeviceControl
+func (cook GetDeviceControlCookie) Reply() (*GetDeviceControlReply, error) {
+ buf, err := cook.Cookie.Reply()
+ if err != nil {
+ return nil, err
+ }
+ if buf == nil {
+ return nil, nil
+ }
+ return getDeviceControlReply(buf), nil
+}
+
+// Read reply into structure from buffer for GetDeviceControl
+func getDeviceControlReply(buf []byte) *GetDeviceControlReply {
+ v := new(GetDeviceControlReply)
+ 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.Status = buf[b]
+ b += 1
+
+ b += 23 // padding
+
+ return v
+}
+
+// Write request to wire for GetDeviceControl
+func getDeviceControlRequest(c *xgb.Conn, ControlId uint16, DeviceId byte) []byte {
+ size := 8
+ b := 0
+ buf := make([]byte, size)
+
+ buf[b] = c.Extensions["XINPUTEXTENSION"]
+ b += 1
+
+ buf[b] = 34 // request opcode
+ b += 1
+
+ xgb.Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units
+ b += 2
+
+ xgb.Put16(buf[b:], ControlId)
+ b += 2
+
+ buf[b] = DeviceId
+ b += 1
+
+ b += 1 // padding
+
+ return buf
+}