diff options
Diffstat (limited to 'nexgb/auto_xinput.go')
| -rw-r--r-- | nexgb/auto_xinput.go | 7297 |
1 files changed, 0 insertions, 7297 deletions
diff --git a/nexgb/auto_xinput.go b/nexgb/auto_xinput.go deleted file mode 100644 index 78142b6..0000000 --- a/nexgb/auto_xinput.go +++ /dev/null @@ -1,7297 +0,0 @@ -package xgb - -/* - This file was generated by xinput.xml on May 10 2012 12:39:34pm EDT. - This file is automatically generated. Edit at your peril! -*/ - -// Imports are not necessary for XGB because everything is -// in one package. They are still listed here for reference. -// import "xproto" - -// XinputInit must be called before using the XInputExtension extension. -func (c *Conn) XinputInit() error { - reply, err := c.QueryExtension(15, "XInputExtension").Reply() - switch { - case err != nil: - return err - case !reply.Present: - return errorf("No extension named XInputExtension could be found on on the server.") - } - - c.extLock.Lock() - c.extensions["XInputExtension"] = reply.MajorOpcode - for evNum, fun := range newExtEventFuncs["XInputExtension"] { - newEventFuncs[int(reply.FirstEvent)+evNum] = fun - } - for errNum, fun := range newExtErrorFuncs["XInputExtension"] { - newErrorFuncs[int(reply.FirstError)+errNum] = fun - } - c.extLock.Unlock() - - return nil -} - -func init() { - newExtEventFuncs["XInputExtension"] = make(map[int]newEventFun) - newExtErrorFuncs["XInputExtension"] = make(map[int]newErrorFun) -} - -// Skipping definition for base type 'Int16' - -// Skipping definition for base type 'Int32' - -// Skipping definition for base type 'Void' - -// Skipping definition for base type 'Byte' - -// Skipping definition for base type 'Int8' - -// 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' - -const ( - XinputValuatorModeRelative = 0 - XinputValuatorModeAbsolute = 1 -) - -const ( - XinputPropagateModeAddToList = 0 - XinputPropagateModeDeleteFromList = 1 -) - -const ( - XinputDeviceUseIsXPointer = 0 - XinputDeviceUseIsXKeyboard = 1 - XinputDeviceUseIsXExtensionDevice = 2 - XinputDeviceUseIsXExtensionKeyboard = 3 - XinputDeviceUseIsXExtensionPointer = 4 -) - -const ( - XinputInputClassKey = 0 - XinputInputClassButton = 1 - XinputInputClassValuator = 2 - XinputInputClassFeedback = 3 - XinputInputClassProximity = 4 - XinputInputClassFocus = 5 - XinputInputClassOther = 6 -) - -const ( - XinputDeviceInputModeAsyncThisDevice = 0 - XinputDeviceInputModeSyncThisDevice = 1 - XinputDeviceInputModeReplayThisDevice = 2 - XinputDeviceInputModeAsyncOtherDevices = 3 - XinputDeviceInputModeAsyncAll = 4 - XinputDeviceInputModeSyncAll = 5 -) - -const ( - XinputFeedbackClassKeyboard = 0 - XinputFeedbackClassPointer = 1 - XinputFeedbackClassString = 2 - XinputFeedbackClassInteger = 3 - XinputFeedbackClassLed = 4 - XinputFeedbackClassBell = 5 -) - -type XinputKeyCode byte - -type XinputEventClass uint32 - -// 'XinputDeviceInfo' struct definition -// Size: 8 -type XinputDeviceInfo struct { - DeviceType Atom - DeviceId byte - NumClassInfo byte - DeviceUse byte - // padding: 1 bytes -} - -// Struct read XinputDeviceInfo -func ReadXinputDeviceInfo(buf []byte, v *XinputDeviceInfo) int { - b := 0 - - v.DeviceType = Atom(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 XinputDeviceInfo -func ReadXinputDeviceInfoList(buf []byte, dest []XinputDeviceInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceInfo{} - b += ReadXinputDeviceInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceInfo -func (v XinputDeviceInfo) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - 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 XinputDeviceInfo -func XinputDeviceInfoListBytes(buf []byte, list []XinputDeviceInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputInputInfo' struct definition -// Size: 2 -type XinputInputInfo struct { - ClassId byte - Len byte -} - -// Struct read XinputInputInfo -func ReadXinputInputInfo(buf []byte, v *XinputInputInfo) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Len = buf[b] - b += 1 - - return b -} - -// Struct list read XinputInputInfo -func ReadXinputInputInfoList(buf []byte, dest []XinputInputInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputInputInfo{} - b += ReadXinputInputInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputInputInfo -func (v XinputInputInfo) 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 XinputInputInfo -func XinputInputInfoListBytes(buf []byte, list []XinputInputInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputKeyInfo' struct definition -// Size: 8 -type XinputKeyInfo struct { - ClassId byte - Len byte - MinKeycode XinputKeyCode - MaxKeycode XinputKeyCode - NumKeys uint16 - // padding: 2 bytes -} - -// Struct read XinputKeyInfo -func ReadXinputKeyInfo(buf []byte, v *XinputKeyInfo) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Len = buf[b] - b += 1 - - v.MinKeycode = XinputKeyCode(buf[b]) - b += 1 - - v.MaxKeycode = XinputKeyCode(buf[b]) - b += 1 - - v.NumKeys = Get16(buf[b:]) - b += 2 - - b += 2 // padding - - return b -} - -// Struct list read XinputKeyInfo -func ReadXinputKeyInfoList(buf []byte, dest []XinputKeyInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputKeyInfo{} - b += ReadXinputKeyInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputKeyInfo -func (v XinputKeyInfo) 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 - - Put16(buf[b:], v.NumKeys) - b += 2 - - b += 2 // padding - - return buf -} - -// Write struct list XinputKeyInfo -func XinputKeyInfoListBytes(buf []byte, list []XinputKeyInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputButtonInfo' struct definition -// Size: 4 -type XinputButtonInfo struct { - ClassId byte - Len byte - NumButtons uint16 -} - -// Struct read XinputButtonInfo -func ReadXinputButtonInfo(buf []byte, v *XinputButtonInfo) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Len = buf[b] - b += 1 - - v.NumButtons = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputButtonInfo -func ReadXinputButtonInfoList(buf []byte, dest []XinputButtonInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputButtonInfo{} - b += ReadXinputButtonInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputButtonInfo -func (v XinputButtonInfo) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Len - b += 1 - - Put16(buf[b:], v.NumButtons) - b += 2 - - return buf -} - -// Write struct list XinputButtonInfo -func XinputButtonInfoListBytes(buf []byte, list []XinputButtonInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputAxisInfo' struct definition -// Size: 12 -type XinputAxisInfo struct { - Resolution uint32 - Minimum int32 - Maximum int32 -} - -// Struct read XinputAxisInfo -func ReadXinputAxisInfo(buf []byte, v *XinputAxisInfo) int { - b := 0 - - v.Resolution = Get32(buf[b:]) - b += 4 - - v.Minimum = int32(Get32(buf[b:])) - b += 4 - - v.Maximum = int32(Get32(buf[b:])) - b += 4 - - return b -} - -// Struct list read XinputAxisInfo -func ReadXinputAxisInfoList(buf []byte, dest []XinputAxisInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputAxisInfo{} - b += ReadXinputAxisInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputAxisInfo -func (v XinputAxisInfo) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - Put32(buf[b:], v.Resolution) - b += 4 - - Put32(buf[b:], uint32(v.Minimum)) - b += 4 - - Put32(buf[b:], uint32(v.Maximum)) - b += 4 - - return buf -} - -// Write struct list XinputAxisInfo -func XinputAxisInfoListBytes(buf []byte, list []XinputAxisInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputValuatorInfo' struct definition -// Size: (8 + pad((int(AxesLen) * 12))) -type XinputValuatorInfo struct { - ClassId byte - Len byte - AxesLen byte - Mode byte - MotionSize uint32 - Axes []XinputAxisInfo // size: pad((int(AxesLen) * 12)) -} - -// Struct read XinputValuatorInfo -func ReadXinputValuatorInfo(buf []byte, v *XinputValuatorInfo) 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 = Get32(buf[b:]) - b += 4 - - v.Axes = make([]XinputAxisInfo, v.AxesLen) - b += ReadXinputAxisInfoList(buf[b:], v.Axes) - - return b -} - -// Struct list read XinputValuatorInfo -func ReadXinputValuatorInfoList(buf []byte, dest []XinputValuatorInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputValuatorInfo{} - b += ReadXinputValuatorInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputValuatorInfo -func (v XinputValuatorInfo) Bytes() []byte { - buf := make([]byte, (8 + 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 - - Put32(buf[b:], v.MotionSize) - b += 4 - - b += XinputAxisInfoListBytes(buf[b:], v.Axes) - - return buf -} - -// Write struct list XinputValuatorInfo -func XinputValuatorInfoListBytes(buf []byte, list []XinputValuatorInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputValuatorInfo -func XinputValuatorInfoListSize(list []XinputValuatorInfo) int { - size := 0 - for _, item := range list { - size += (8 + pad((int(item.AxesLen) * 12))) - } - return size -} - -// 'XinputInputClassInfo' struct definition -// Size: 2 -type XinputInputClassInfo struct { - ClassId byte - EventTypeBase byte -} - -// Struct read XinputInputClassInfo -func ReadXinputInputClassInfo(buf []byte, v *XinputInputClassInfo) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.EventTypeBase = buf[b] - b += 1 - - return b -} - -// Struct list read XinputInputClassInfo -func ReadXinputInputClassInfoList(buf []byte, dest []XinputInputClassInfo) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputInputClassInfo{} - b += ReadXinputInputClassInfo(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputInputClassInfo -func (v XinputInputClassInfo) 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 XinputInputClassInfo -func XinputInputClassInfoListBytes(buf []byte, list []XinputInputClassInfo) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceTimeCoord' struct definition -// Size: 4 -type XinputDeviceTimeCoord struct { - Time Timestamp -} - -// Struct read XinputDeviceTimeCoord -func ReadXinputDeviceTimeCoord(buf []byte, v *XinputDeviceTimeCoord) int { - b := 0 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - return b -} - -// Struct list read XinputDeviceTimeCoord -func ReadXinputDeviceTimeCoordList(buf []byte, dest []XinputDeviceTimeCoord) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceTimeCoord{} - b += ReadXinputDeviceTimeCoord(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceTimeCoord -func (v XinputDeviceTimeCoord) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - return buf -} - -// Write struct list XinputDeviceTimeCoord -func XinputDeviceTimeCoordListBytes(buf []byte, list []XinputDeviceTimeCoord) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputFeedbackState' struct definition -// Size: 4 -type XinputFeedbackState struct { - ClassId byte - Id byte - Len uint16 -} - -// Struct read XinputFeedbackState -func ReadXinputFeedbackState(buf []byte, v *XinputFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputFeedbackState -func ReadXinputFeedbackStateList(buf []byte, dest []XinputFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputFeedbackState{} - b += ReadXinputFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputFeedbackState -func (v XinputFeedbackState) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - return buf -} - -// Write struct list XinputFeedbackState -func XinputFeedbackStateListBytes(buf []byte, list []XinputFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputKbdFeedbackState' struct definition -// Size: 52 -type XinputKbdFeedbackState 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 XinputKbdFeedbackState -func ReadXinputKbdFeedbackState(buf []byte, v *XinputKbdFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Pitch = Get16(buf[b:]) - b += 2 - - v.Duration = Get16(buf[b:]) - b += 2 - - v.LedMask = Get32(buf[b:]) - b += 4 - - v.LedValues = 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 += pad(int(32)) - - return b -} - -// Struct list read XinputKbdFeedbackState -func ReadXinputKbdFeedbackStateList(buf []byte, dest []XinputKbdFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputKbdFeedbackState{} - b += ReadXinputKbdFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputKbdFeedbackState -func (v XinputKbdFeedbackState) Bytes() []byte { - buf := make([]byte, 52) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put16(buf[b:], v.Pitch) - b += 2 - - Put16(buf[b:], v.Duration) - b += 2 - - Put32(buf[b:], v.LedMask) - b += 4 - - 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 += pad(int(32)) - - return buf -} - -// Write struct list XinputKbdFeedbackState -func XinputKbdFeedbackStateListBytes(buf []byte, list []XinputKbdFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputKbdFeedbackState -func XinputKbdFeedbackStateListSize(list []XinputKbdFeedbackState) int { - size := 0 - for _ = range list { - size += 52 - } - return size -} - -// 'XinputPtrFeedbackState' struct definition -// Size: 12 -type XinputPtrFeedbackState struct { - ClassId byte - Id byte - Len uint16 - // padding: 2 bytes - AccelNum uint16 - AccelDenom uint16 - Threshold uint16 -} - -// Struct read XinputPtrFeedbackState -func ReadXinputPtrFeedbackState(buf []byte, v *XinputPtrFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - b += 2 // padding - - v.AccelNum = Get16(buf[b:]) - b += 2 - - v.AccelDenom = Get16(buf[b:]) - b += 2 - - v.Threshold = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputPtrFeedbackState -func ReadXinputPtrFeedbackStateList(buf []byte, dest []XinputPtrFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputPtrFeedbackState{} - b += ReadXinputPtrFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputPtrFeedbackState -func (v XinputPtrFeedbackState) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - b += 2 // padding - - Put16(buf[b:], v.AccelNum) - b += 2 - - Put16(buf[b:], v.AccelDenom) - b += 2 - - Put16(buf[b:], v.Threshold) - b += 2 - - return buf -} - -// Write struct list XinputPtrFeedbackState -func XinputPtrFeedbackStateListBytes(buf []byte, list []XinputPtrFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputIntegerFeedbackState' struct definition -// Size: 16 -type XinputIntegerFeedbackState struct { - ClassId byte - Id byte - Len uint16 - Resolution uint32 - MinValue int32 - MaxValue int32 -} - -// Struct read XinputIntegerFeedbackState -func ReadXinputIntegerFeedbackState(buf []byte, v *XinputIntegerFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Resolution = Get32(buf[b:]) - b += 4 - - v.MinValue = int32(Get32(buf[b:])) - b += 4 - - v.MaxValue = int32(Get32(buf[b:])) - b += 4 - - return b -} - -// Struct list read XinputIntegerFeedbackState -func ReadXinputIntegerFeedbackStateList(buf []byte, dest []XinputIntegerFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputIntegerFeedbackState{} - b += ReadXinputIntegerFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputIntegerFeedbackState -func (v XinputIntegerFeedbackState) Bytes() []byte { - buf := make([]byte, 16) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.Resolution) - b += 4 - - Put32(buf[b:], uint32(v.MinValue)) - b += 4 - - Put32(buf[b:], uint32(v.MaxValue)) - b += 4 - - return buf -} - -// Write struct list XinputIntegerFeedbackState -func XinputIntegerFeedbackStateListBytes(buf []byte, list []XinputIntegerFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputStringFeedbackState' struct definition -// Size: (8 + pad((int(NumKeysyms) * 4))) -type XinputStringFeedbackState struct { - ClassId byte - Id byte - Len uint16 - MaxSymbols uint16 - NumKeysyms uint16 - Keysyms []Keysym // size: pad((int(NumKeysyms) * 4)) -} - -// Struct read XinputStringFeedbackState -func ReadXinputStringFeedbackState(buf []byte, v *XinputStringFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.MaxSymbols = Get16(buf[b:]) - b += 2 - - v.NumKeysyms = Get16(buf[b:]) - b += 2 - - v.Keysyms = make([]Keysym, v.NumKeysyms) - for i := 0; i < int(v.NumKeysyms); i++ { - v.Keysyms[i] = Keysym(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return b -} - -// Struct list read XinputStringFeedbackState -func ReadXinputStringFeedbackStateList(buf []byte, dest []XinputStringFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputStringFeedbackState{} - b += ReadXinputStringFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputStringFeedbackState -func (v XinputStringFeedbackState) Bytes() []byte { - buf := make([]byte, (8 + pad((int(v.NumKeysyms) * 4)))) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put16(buf[b:], v.MaxSymbols) - b += 2 - - Put16(buf[b:], v.NumKeysyms) - b += 2 - - for i := 0; i < int(v.NumKeysyms); i++ { - Put32(buf[b:], uint32(v.Keysyms[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Write struct list XinputStringFeedbackState -func XinputStringFeedbackStateListBytes(buf []byte, list []XinputStringFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputStringFeedbackState -func XinputStringFeedbackStateListSize(list []XinputStringFeedbackState) int { - size := 0 - for _, item := range list { - size += (8 + pad((int(item.NumKeysyms) * 4))) - } - return size -} - -// 'XinputBellFeedbackState' struct definition -// Size: 12 -type XinputBellFeedbackState struct { - ClassId byte - Id byte - Len uint16 - Percent byte - // padding: 3 bytes - Pitch uint16 - Duration uint16 -} - -// Struct read XinputBellFeedbackState -func ReadXinputBellFeedbackState(buf []byte, v *XinputBellFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Percent = buf[b] - b += 1 - - b += 3 // padding - - v.Pitch = Get16(buf[b:]) - b += 2 - - v.Duration = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputBellFeedbackState -func ReadXinputBellFeedbackStateList(buf []byte, dest []XinputBellFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputBellFeedbackState{} - b += ReadXinputBellFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputBellFeedbackState -func (v XinputBellFeedbackState) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - buf[b] = v.Percent - b += 1 - - b += 3 // padding - - Put16(buf[b:], v.Pitch) - b += 2 - - Put16(buf[b:], v.Duration) - b += 2 - - return buf -} - -// Write struct list XinputBellFeedbackState -func XinputBellFeedbackStateListBytes(buf []byte, list []XinputBellFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputLedFeedbackState' struct definition -// Size: 12 -type XinputLedFeedbackState struct { - ClassId byte - Id byte - Len uint16 - LedMask uint32 - LedValues uint32 -} - -// Struct read XinputLedFeedbackState -func ReadXinputLedFeedbackState(buf []byte, v *XinputLedFeedbackState) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.LedMask = Get32(buf[b:]) - b += 4 - - v.LedValues = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputLedFeedbackState -func ReadXinputLedFeedbackStateList(buf []byte, dest []XinputLedFeedbackState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputLedFeedbackState{} - b += ReadXinputLedFeedbackState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputLedFeedbackState -func (v XinputLedFeedbackState) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.LedMask) - b += 4 - - Put32(buf[b:], v.LedValues) - b += 4 - - return buf -} - -// Write struct list XinputLedFeedbackState -func XinputLedFeedbackStateListBytes(buf []byte, list []XinputLedFeedbackState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputFeedbackCtl' struct definition -// Size: 4 -type XinputFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 -} - -// Struct read XinputFeedbackCtl -func ReadXinputFeedbackCtl(buf []byte, v *XinputFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputFeedbackCtl -func ReadXinputFeedbackCtlList(buf []byte, dest []XinputFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputFeedbackCtl{} - b += ReadXinputFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputFeedbackCtl -func (v XinputFeedbackCtl) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - return buf -} - -// Write struct list XinputFeedbackCtl -func XinputFeedbackCtlListBytes(buf []byte, list []XinputFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputKbdFeedbackCtl' struct definition -// Size: 20 -type XinputKbdFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - Key XinputKeyCode - AutoRepeatMode byte - KeyClickPercent int8 - BellPercent int8 - BellPitch int16 - BellDuration int16 - LedMask uint32 - LedValues uint32 -} - -// Struct read XinputKbdFeedbackCtl -func ReadXinputKbdFeedbackCtl(buf []byte, v *XinputKbdFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Key = XinputKeyCode(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(Get16(buf[b:])) - b += 2 - - v.BellDuration = int16(Get16(buf[b:])) - b += 2 - - v.LedMask = Get32(buf[b:]) - b += 4 - - v.LedValues = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputKbdFeedbackCtl -func ReadXinputKbdFeedbackCtlList(buf []byte, dest []XinputKbdFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputKbdFeedbackCtl{} - b += ReadXinputKbdFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputKbdFeedbackCtl -func (v XinputKbdFeedbackCtl) Bytes() []byte { - buf := make([]byte, 20) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - 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 - - Put16(buf[b:], uint16(v.BellPitch)) - b += 2 - - Put16(buf[b:], uint16(v.BellDuration)) - b += 2 - - Put32(buf[b:], v.LedMask) - b += 4 - - Put32(buf[b:], v.LedValues) - b += 4 - - return buf -} - -// Write struct list XinputKbdFeedbackCtl -func XinputKbdFeedbackCtlListBytes(buf []byte, list []XinputKbdFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputPtrFeedbackCtl' struct definition -// Size: 12 -type XinputPtrFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - // padding: 2 bytes - Num int16 - Denom int16 - Threshold int16 -} - -// Struct read XinputPtrFeedbackCtl -func ReadXinputPtrFeedbackCtl(buf []byte, v *XinputPtrFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - b += 2 // padding - - v.Num = int16(Get16(buf[b:])) - b += 2 - - v.Denom = int16(Get16(buf[b:])) - b += 2 - - v.Threshold = int16(Get16(buf[b:])) - b += 2 - - return b -} - -// Struct list read XinputPtrFeedbackCtl -func ReadXinputPtrFeedbackCtlList(buf []byte, dest []XinputPtrFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputPtrFeedbackCtl{} - b += ReadXinputPtrFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputPtrFeedbackCtl -func (v XinputPtrFeedbackCtl) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - b += 2 // padding - - Put16(buf[b:], uint16(v.Num)) - b += 2 - - Put16(buf[b:], uint16(v.Denom)) - b += 2 - - Put16(buf[b:], uint16(v.Threshold)) - b += 2 - - return buf -} - -// Write struct list XinputPtrFeedbackCtl -func XinputPtrFeedbackCtlListBytes(buf []byte, list []XinputPtrFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputIntegerFeedbackCtl' struct definition -// Size: 8 -type XinputIntegerFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - IntToDisplay int32 -} - -// Struct read XinputIntegerFeedbackCtl -func ReadXinputIntegerFeedbackCtl(buf []byte, v *XinputIntegerFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.IntToDisplay = int32(Get32(buf[b:])) - b += 4 - - return b -} - -// Struct list read XinputIntegerFeedbackCtl -func ReadXinputIntegerFeedbackCtlList(buf []byte, dest []XinputIntegerFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputIntegerFeedbackCtl{} - b += ReadXinputIntegerFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputIntegerFeedbackCtl -func (v XinputIntegerFeedbackCtl) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], uint32(v.IntToDisplay)) - b += 4 - - return buf -} - -// Write struct list XinputIntegerFeedbackCtl -func XinputIntegerFeedbackCtlListBytes(buf []byte, list []XinputIntegerFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputStringFeedbackCtl' struct definition -// Size: (8 + pad((int(NumKeysyms) * 4))) -type XinputStringFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - // padding: 2 bytes - NumKeysyms uint16 - Keysyms []Keysym // size: pad((int(NumKeysyms) * 4)) -} - -// Struct read XinputStringFeedbackCtl -func ReadXinputStringFeedbackCtl(buf []byte, v *XinputStringFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - b += 2 // padding - - v.NumKeysyms = Get16(buf[b:]) - b += 2 - - v.Keysyms = make([]Keysym, v.NumKeysyms) - for i := 0; i < int(v.NumKeysyms); i++ { - v.Keysyms[i] = Keysym(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return b -} - -// Struct list read XinputStringFeedbackCtl -func ReadXinputStringFeedbackCtlList(buf []byte, dest []XinputStringFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputStringFeedbackCtl{} - b += ReadXinputStringFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputStringFeedbackCtl -func (v XinputStringFeedbackCtl) Bytes() []byte { - buf := make([]byte, (8 + pad((int(v.NumKeysyms) * 4)))) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - b += 2 // padding - - Put16(buf[b:], v.NumKeysyms) - b += 2 - - for i := 0; i < int(v.NumKeysyms); i++ { - Put32(buf[b:], uint32(v.Keysyms[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Write struct list XinputStringFeedbackCtl -func XinputStringFeedbackCtlListBytes(buf []byte, list []XinputStringFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputStringFeedbackCtl -func XinputStringFeedbackCtlListSize(list []XinputStringFeedbackCtl) int { - size := 0 - for _, item := range list { - size += (8 + pad((int(item.NumKeysyms) * 4))) - } - return size -} - -// 'XinputBellFeedbackCtl' struct definition -// Size: 12 -type XinputBellFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - Percent int8 - // padding: 3 bytes - Pitch int16 - Duration int16 -} - -// Struct read XinputBellFeedbackCtl -func ReadXinputBellFeedbackCtl(buf []byte, v *XinputBellFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Percent = int8(buf[b]) - b += 1 - - b += 3 // padding - - v.Pitch = int16(Get16(buf[b:])) - b += 2 - - v.Duration = int16(Get16(buf[b:])) - b += 2 - - return b -} - -// Struct list read XinputBellFeedbackCtl -func ReadXinputBellFeedbackCtlList(buf []byte, dest []XinputBellFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputBellFeedbackCtl{} - b += ReadXinputBellFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputBellFeedbackCtl -func (v XinputBellFeedbackCtl) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - buf[b] = byte(v.Percent) - b += 1 - - b += 3 // padding - - Put16(buf[b:], uint16(v.Pitch)) - b += 2 - - Put16(buf[b:], uint16(v.Duration)) - b += 2 - - return buf -} - -// Write struct list XinputBellFeedbackCtl -func XinputBellFeedbackCtlListBytes(buf []byte, list []XinputBellFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputLedFeedbackCtl' struct definition -// Size: 12 -type XinputLedFeedbackCtl struct { - ClassId byte - Id byte - Len uint16 - LedMask uint32 - LedValues uint32 -} - -// Struct read XinputLedFeedbackCtl -func ReadXinputLedFeedbackCtl(buf []byte, v *XinputLedFeedbackCtl) int { - b := 0 - - v.ClassId = buf[b] - b += 1 - - v.Id = buf[b] - b += 1 - - v.Len = Get16(buf[b:]) - b += 2 - - v.LedMask = Get32(buf[b:]) - b += 4 - - v.LedValues = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputLedFeedbackCtl -func ReadXinputLedFeedbackCtlList(buf []byte, dest []XinputLedFeedbackCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputLedFeedbackCtl{} - b += ReadXinputLedFeedbackCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputLedFeedbackCtl -func (v XinputLedFeedbackCtl) Bytes() []byte { - buf := make([]byte, 12) - b := 0 - - buf[b] = v.ClassId - b += 1 - - buf[b] = v.Id - b += 1 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.LedMask) - b += 4 - - Put32(buf[b:], v.LedValues) - b += 4 - - return buf -} - -// Write struct list XinputLedFeedbackCtl -func XinputLedFeedbackCtlListBytes(buf []byte, list []XinputLedFeedbackCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputInputState' struct definition -// Size: 3 -type XinputInputState struct { - ClassId byte - Len byte - NumItems byte -} - -// Struct read XinputInputState -func ReadXinputInputState(buf []byte, v *XinputInputState) 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 XinputInputState -func ReadXinputInputStateList(buf []byte, dest []XinputInputState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputInputState{} - b += ReadXinputInputState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputInputState -func (v XinputInputState) 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 XinputInputState -func XinputInputStateListBytes(buf []byte, list []XinputInputState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputKeyState' struct definition -// Size: 36 -type XinputKeyState struct { - ClassId byte - Len byte - NumKeys byte - // padding: 1 bytes - Keys []byte // size: 32 -} - -// Struct read XinputKeyState -func ReadXinputKeyState(buf []byte, v *XinputKeyState) 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 += pad(int(32)) - - return b -} - -// Struct list read XinputKeyState -func ReadXinputKeyStateList(buf []byte, dest []XinputKeyState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputKeyState{} - b += ReadXinputKeyState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputKeyState -func (v XinputKeyState) 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 += pad(int(32)) - - return buf -} - -// Write struct list XinputKeyState -func XinputKeyStateListBytes(buf []byte, list []XinputKeyState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputKeyState -func XinputKeyStateListSize(list []XinputKeyState) int { - size := 0 - for _ = range list { - size += 36 - } - return size -} - -// 'XinputButtonState' struct definition -// Size: 36 -type XinputButtonState struct { - ClassId byte - Len byte - NumButtons byte - // padding: 1 bytes - Buttons []byte // size: 32 -} - -// Struct read XinputButtonState -func ReadXinputButtonState(buf []byte, v *XinputButtonState) 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 += pad(int(32)) - - return b -} - -// Struct list read XinputButtonState -func ReadXinputButtonStateList(buf []byte, dest []XinputButtonState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputButtonState{} - b += ReadXinputButtonState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputButtonState -func (v XinputButtonState) 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 += pad(int(32)) - - return buf -} - -// Write struct list XinputButtonState -func XinputButtonStateListBytes(buf []byte, list []XinputButtonState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputButtonState -func XinputButtonStateListSize(list []XinputButtonState) int { - size := 0 - for _ = range list { - size += 36 - } - return size -} - -// 'XinputValuatorState' struct definition -// Size: (4 + pad((int(NumValuators) * 4))) -type XinputValuatorState struct { - ClassId byte - Len byte - NumValuators byte - Mode byte - Valuators []uint32 // size: pad((int(NumValuators) * 4)) -} - -// Struct read XinputValuatorState -func ReadXinputValuatorState(buf []byte, v *XinputValuatorState) 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] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - return b -} - -// Struct list read XinputValuatorState -func ReadXinputValuatorStateList(buf []byte, dest []XinputValuatorState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputValuatorState{} - b += ReadXinputValuatorState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputValuatorState -func (v XinputValuatorState) Bytes() []byte { - buf := make([]byte, (4 + 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++ { - Put32(buf[b:], v.Valuators[i]) - b += 4 - } - b = pad(b) - - return buf -} - -// Write struct list XinputValuatorState -func XinputValuatorStateListBytes(buf []byte, list []XinputValuatorState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputValuatorState -func XinputValuatorStateListSize(list []XinputValuatorState) int { - size := 0 - for _, item := range list { - size += (4 + pad((int(item.NumValuators) * 4))) - } - return size -} - -// 'XinputDeviceState' struct definition -// Size: 4 -type XinputDeviceState struct { - ControlId uint16 - Len uint16 -} - -// Struct read XinputDeviceState -func ReadXinputDeviceState(buf []byte, v *XinputDeviceState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputDeviceState -func ReadXinputDeviceStateList(buf []byte, dest []XinputDeviceState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceState{} - b += ReadXinputDeviceState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceState -func (v XinputDeviceState) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - return buf -} - -// Write struct list XinputDeviceState -func XinputDeviceStateListBytes(buf []byte, list []XinputDeviceState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceResolutionState' struct definition -// Size: (((8 + pad((int(NumValuators) * 4))) + pad((int(NumValuators) * 4))) + pad((int(NumValuators) * 4))) -type XinputDeviceResolutionState struct { - ControlId uint16 - Len uint16 - NumValuators uint32 - ResolutionValues []uint32 // size: pad((int(NumValuators) * 4)) - ResolutionMin []uint32 // size: pad((int(NumValuators) * 4)) - ResolutionMax []uint32 // size: pad((int(NumValuators) * 4)) -} - -// Struct read XinputDeviceResolutionState -func ReadXinputDeviceResolutionState(buf []byte, v *XinputDeviceResolutionState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.NumValuators = Get32(buf[b:]) - b += 4 - - v.ResolutionValues = make([]uint32, v.NumValuators) - for i := 0; i < int(v.NumValuators); i++ { - v.ResolutionValues[i] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - v.ResolutionMin = make([]uint32, v.NumValuators) - for i := 0; i < int(v.NumValuators); i++ { - v.ResolutionMin[i] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - v.ResolutionMax = make([]uint32, v.NumValuators) - for i := 0; i < int(v.NumValuators); i++ { - v.ResolutionMax[i] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - return b -} - -// Struct list read XinputDeviceResolutionState -func ReadXinputDeviceResolutionStateList(buf []byte, dest []XinputDeviceResolutionState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceResolutionState{} - b += ReadXinputDeviceResolutionState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceResolutionState -func (v XinputDeviceResolutionState) Bytes() []byte { - buf := make([]byte, (((8 + pad((int(v.NumValuators) * 4))) + pad((int(v.NumValuators) * 4))) + pad((int(v.NumValuators) * 4)))) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.NumValuators) - b += 4 - - for i := 0; i < int(v.NumValuators); i++ { - Put32(buf[b:], v.ResolutionValues[i]) - b += 4 - } - b = pad(b) - - for i := 0; i < int(v.NumValuators); i++ { - Put32(buf[b:], v.ResolutionMin[i]) - b += 4 - } - b = pad(b) - - for i := 0; i < int(v.NumValuators); i++ { - Put32(buf[b:], v.ResolutionMax[i]) - b += 4 - } - b = pad(b) - - return buf -} - -// Write struct list XinputDeviceResolutionState -func XinputDeviceResolutionStateListBytes(buf []byte, list []XinputDeviceResolutionState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputDeviceResolutionState -func XinputDeviceResolutionStateListSize(list []XinputDeviceResolutionState) int { - size := 0 - for _, item := range list { - size += (((8 + pad((int(item.NumValuators) * 4))) + pad((int(item.NumValuators) * 4))) + pad((int(item.NumValuators) * 4))) - } - return size -} - -// 'XinputDeviceAbsCalibState' struct definition -// Size: 36 -type XinputDeviceAbsCalibState struct { - ControlId uint16 - Len uint16 - MinX int32 - MaxX int32 - MinY int32 - MaxY int32 - FlipX uint32 - FlipY uint32 - Rotation uint32 - ButtonThreshold uint32 -} - -// Struct read XinputDeviceAbsCalibState -func ReadXinputDeviceAbsCalibState(buf []byte, v *XinputDeviceAbsCalibState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.MinX = int32(Get32(buf[b:])) - b += 4 - - v.MaxX = int32(Get32(buf[b:])) - b += 4 - - v.MinY = int32(Get32(buf[b:])) - b += 4 - - v.MaxY = int32(Get32(buf[b:])) - b += 4 - - v.FlipX = Get32(buf[b:]) - b += 4 - - v.FlipY = Get32(buf[b:]) - b += 4 - - v.Rotation = Get32(buf[b:]) - b += 4 - - v.ButtonThreshold = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputDeviceAbsCalibState -func ReadXinputDeviceAbsCalibStateList(buf []byte, dest []XinputDeviceAbsCalibState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceAbsCalibState{} - b += ReadXinputDeviceAbsCalibState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceAbsCalibState -func (v XinputDeviceAbsCalibState) Bytes() []byte { - buf := make([]byte, 36) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], uint32(v.MinX)) - b += 4 - - Put32(buf[b:], uint32(v.MaxX)) - b += 4 - - Put32(buf[b:], uint32(v.MinY)) - b += 4 - - Put32(buf[b:], uint32(v.MaxY)) - b += 4 - - Put32(buf[b:], v.FlipX) - b += 4 - - Put32(buf[b:], v.FlipY) - b += 4 - - Put32(buf[b:], v.Rotation) - b += 4 - - Put32(buf[b:], v.ButtonThreshold) - b += 4 - - return buf -} - -// Write struct list XinputDeviceAbsCalibState -func XinputDeviceAbsCalibStateListBytes(buf []byte, list []XinputDeviceAbsCalibState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceAbsAreaState' struct definition -// Size: 28 -type XinputDeviceAbsAreaState struct { - ControlId uint16 - Len uint16 - OffsetX uint32 - OffsetY uint32 - Width uint32 - Height uint32 - Screen uint32 - Following uint32 -} - -// Struct read XinputDeviceAbsAreaState -func ReadXinputDeviceAbsAreaState(buf []byte, v *XinputDeviceAbsAreaState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.OffsetX = Get32(buf[b:]) - b += 4 - - v.OffsetY = Get32(buf[b:]) - b += 4 - - v.Width = Get32(buf[b:]) - b += 4 - - v.Height = Get32(buf[b:]) - b += 4 - - v.Screen = Get32(buf[b:]) - b += 4 - - v.Following = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputDeviceAbsAreaState -func ReadXinputDeviceAbsAreaStateList(buf []byte, dest []XinputDeviceAbsAreaState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceAbsAreaState{} - b += ReadXinputDeviceAbsAreaState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceAbsAreaState -func (v XinputDeviceAbsAreaState) Bytes() []byte { - buf := make([]byte, 28) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.OffsetX) - b += 4 - - Put32(buf[b:], v.OffsetY) - b += 4 - - Put32(buf[b:], v.Width) - b += 4 - - Put32(buf[b:], v.Height) - b += 4 - - Put32(buf[b:], v.Screen) - b += 4 - - Put32(buf[b:], v.Following) - b += 4 - - return buf -} - -// Write struct list XinputDeviceAbsAreaState -func XinputDeviceAbsAreaStateListBytes(buf []byte, list []XinputDeviceAbsAreaState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceCoreState' struct definition -// Size: 8 -type XinputDeviceCoreState struct { - ControlId uint16 - Len uint16 - Status byte - Iscore byte - // padding: 2 bytes -} - -// Struct read XinputDeviceCoreState -func ReadXinputDeviceCoreState(buf []byte, v *XinputDeviceCoreState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = 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 XinputDeviceCoreState -func ReadXinputDeviceCoreStateList(buf []byte, dest []XinputDeviceCoreState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceCoreState{} - b += ReadXinputDeviceCoreState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceCoreState -func (v XinputDeviceCoreState) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - 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 XinputDeviceCoreState -func XinputDeviceCoreStateListBytes(buf []byte, list []XinputDeviceCoreState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceEnableState' struct definition -// Size: 8 -type XinputDeviceEnableState struct { - ControlId uint16 - Len uint16 - Enable byte - // padding: 3 bytes -} - -// Struct read XinputDeviceEnableState -func ReadXinputDeviceEnableState(buf []byte, v *XinputDeviceEnableState) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Enable = buf[b] - b += 1 - - b += 3 // padding - - return b -} - -// Struct list read XinputDeviceEnableState -func ReadXinputDeviceEnableStateList(buf []byte, dest []XinputDeviceEnableState) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceEnableState{} - b += ReadXinputDeviceEnableState(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceEnableState -func (v XinputDeviceEnableState) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - buf[b] = v.Enable - b += 1 - - b += 3 // padding - - return buf -} - -// Write struct list XinputDeviceEnableState -func XinputDeviceEnableStateListBytes(buf []byte, list []XinputDeviceEnableState) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceCtl' struct definition -// Size: 4 -type XinputDeviceCtl struct { - ControlId uint16 - Len uint16 -} - -// Struct read XinputDeviceCtl -func ReadXinputDeviceCtl(buf []byte, v *XinputDeviceCtl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - return b -} - -// Struct list read XinputDeviceCtl -func ReadXinputDeviceCtlList(buf []byte, dest []XinputDeviceCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceCtl{} - b += ReadXinputDeviceCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceCtl -func (v XinputDeviceCtl) Bytes() []byte { - buf := make([]byte, 4) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - return buf -} - -// Write struct list XinputDeviceCtl -func XinputDeviceCtlListBytes(buf []byte, list []XinputDeviceCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceResolutionCtl' struct definition -// Size: (6 + pad((int(NumValuators) * 4))) -type XinputDeviceResolutionCtl struct { - ControlId uint16 - Len uint16 - FirstValuator byte - NumValuators byte - ResolutionValues []uint32 // size: pad((int(NumValuators) * 4)) -} - -// Struct read XinputDeviceResolutionCtl -func ReadXinputDeviceResolutionCtl(buf []byte, v *XinputDeviceResolutionCtl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = 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] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - return b -} - -// Struct list read XinputDeviceResolutionCtl -func ReadXinputDeviceResolutionCtlList(buf []byte, dest []XinputDeviceResolutionCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceResolutionCtl{} - b += ReadXinputDeviceResolutionCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceResolutionCtl -func (v XinputDeviceResolutionCtl) Bytes() []byte { - buf := make([]byte, (6 + pad((int(v.NumValuators) * 4)))) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - 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++ { - Put32(buf[b:], v.ResolutionValues[i]) - b += 4 - } - b = pad(b) - - return buf -} - -// Write struct list XinputDeviceResolutionCtl -func XinputDeviceResolutionCtlListBytes(buf []byte, list []XinputDeviceResolutionCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Struct list size XinputDeviceResolutionCtl -func XinputDeviceResolutionCtlListSize(list []XinputDeviceResolutionCtl) int { - size := 0 - for _, item := range list { - size += (6 + pad((int(item.NumValuators) * 4))) - } - return size -} - -// 'XinputDeviceAbsCalibCtl' struct definition -// Size: 36 -type XinputDeviceAbsCalibCtl struct { - ControlId uint16 - Len uint16 - MinX int32 - MaxX int32 - MinY int32 - MaxY int32 - FlipX uint32 - FlipY uint32 - Rotation uint32 - ButtonThreshold uint32 -} - -// Struct read XinputDeviceAbsCalibCtl -func ReadXinputDeviceAbsCalibCtl(buf []byte, v *XinputDeviceAbsCalibCtl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.MinX = int32(Get32(buf[b:])) - b += 4 - - v.MaxX = int32(Get32(buf[b:])) - b += 4 - - v.MinY = int32(Get32(buf[b:])) - b += 4 - - v.MaxY = int32(Get32(buf[b:])) - b += 4 - - v.FlipX = Get32(buf[b:]) - b += 4 - - v.FlipY = Get32(buf[b:]) - b += 4 - - v.Rotation = Get32(buf[b:]) - b += 4 - - v.ButtonThreshold = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputDeviceAbsCalibCtl -func ReadXinputDeviceAbsCalibCtlList(buf []byte, dest []XinputDeviceAbsCalibCtl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceAbsCalibCtl{} - b += ReadXinputDeviceAbsCalibCtl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceAbsCalibCtl -func (v XinputDeviceAbsCalibCtl) Bytes() []byte { - buf := make([]byte, 36) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], uint32(v.MinX)) - b += 4 - - Put32(buf[b:], uint32(v.MaxX)) - b += 4 - - Put32(buf[b:], uint32(v.MinY)) - b += 4 - - Put32(buf[b:], uint32(v.MaxY)) - b += 4 - - Put32(buf[b:], v.FlipX) - b += 4 - - Put32(buf[b:], v.FlipY) - b += 4 - - Put32(buf[b:], v.Rotation) - b += 4 - - Put32(buf[b:], v.ButtonThreshold) - b += 4 - - return buf -} - -// Write struct list XinputDeviceAbsCalibCtl -func XinputDeviceAbsCalibCtlListBytes(buf []byte, list []XinputDeviceAbsCalibCtl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceAbsAreaCtrl' struct definition -// Size: 28 -type XinputDeviceAbsAreaCtrl struct { - ControlId uint16 - Len uint16 - OffsetX uint32 - OffsetY uint32 - Width int32 - Height int32 - Screen int32 - Following uint32 -} - -// Struct read XinputDeviceAbsAreaCtrl -func ReadXinputDeviceAbsAreaCtrl(buf []byte, v *XinputDeviceAbsAreaCtrl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.OffsetX = Get32(buf[b:]) - b += 4 - - v.OffsetY = Get32(buf[b:]) - b += 4 - - v.Width = int32(Get32(buf[b:])) - b += 4 - - v.Height = int32(Get32(buf[b:])) - b += 4 - - v.Screen = int32(Get32(buf[b:])) - b += 4 - - v.Following = Get32(buf[b:]) - b += 4 - - return b -} - -// Struct list read XinputDeviceAbsAreaCtrl -func ReadXinputDeviceAbsAreaCtrlList(buf []byte, dest []XinputDeviceAbsAreaCtrl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceAbsAreaCtrl{} - b += ReadXinputDeviceAbsAreaCtrl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceAbsAreaCtrl -func (v XinputDeviceAbsAreaCtrl) Bytes() []byte { - buf := make([]byte, 28) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - Put32(buf[b:], v.OffsetX) - b += 4 - - Put32(buf[b:], v.OffsetY) - b += 4 - - Put32(buf[b:], uint32(v.Width)) - b += 4 - - Put32(buf[b:], uint32(v.Height)) - b += 4 - - Put32(buf[b:], uint32(v.Screen)) - b += 4 - - Put32(buf[b:], v.Following) - b += 4 - - return buf -} - -// Write struct list XinputDeviceAbsAreaCtrl -func XinputDeviceAbsAreaCtrlListBytes(buf []byte, list []XinputDeviceAbsAreaCtrl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceCoreCtrl' struct definition -// Size: 8 -type XinputDeviceCoreCtrl struct { - ControlId uint16 - Len uint16 - Status byte - // padding: 3 bytes -} - -// Struct read XinputDeviceCoreCtrl -func ReadXinputDeviceCoreCtrl(buf []byte, v *XinputDeviceCoreCtrl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Status = buf[b] - b += 1 - - b += 3 // padding - - return b -} - -// Struct list read XinputDeviceCoreCtrl -func ReadXinputDeviceCoreCtrlList(buf []byte, dest []XinputDeviceCoreCtrl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceCoreCtrl{} - b += ReadXinputDeviceCoreCtrl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceCoreCtrl -func (v XinputDeviceCoreCtrl) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - buf[b] = v.Status - b += 1 - - b += 3 // padding - - return buf -} - -// Write struct list XinputDeviceCoreCtrl -func XinputDeviceCoreCtrlListBytes(buf []byte, list []XinputDeviceCoreCtrl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// 'XinputDeviceEnableCtrl' struct definition -// Size: 8 -type XinputDeviceEnableCtrl struct { - ControlId uint16 - Len uint16 - Enable byte - // padding: 3 bytes -} - -// Struct read XinputDeviceEnableCtrl -func ReadXinputDeviceEnableCtrl(buf []byte, v *XinputDeviceEnableCtrl) int { - b := 0 - - v.ControlId = Get16(buf[b:]) - b += 2 - - v.Len = Get16(buf[b:]) - b += 2 - - v.Enable = buf[b] - b += 1 - - b += 3 // padding - - return b -} - -// Struct list read XinputDeviceEnableCtrl -func ReadXinputDeviceEnableCtrlList(buf []byte, dest []XinputDeviceEnableCtrl) int { - b := 0 - for i := 0; i < len(dest); i++ { - dest[i] = XinputDeviceEnableCtrl{} - b += ReadXinputDeviceEnableCtrl(buf[b:], &dest[i]) - } - return pad(b) -} - -// Struct write XinputDeviceEnableCtrl -func (v XinputDeviceEnableCtrl) Bytes() []byte { - buf := make([]byte, 8) - b := 0 - - Put16(buf[b:], v.ControlId) - b += 2 - - Put16(buf[b:], v.Len) - b += 2 - - buf[b] = v.Enable - b += 1 - - b += 3 // padding - - return buf -} - -// Write struct list XinputDeviceEnableCtrl -func XinputDeviceEnableCtrlListBytes(buf []byte, list []XinputDeviceEnableCtrl) int { - b := 0 - var structBytes []byte - for _, item := range list { - structBytes = item.Bytes() - copy(buf[b:], structBytes) - b += pad(len(structBytes)) - } - return b -} - -// Event definition XinputDeviceValuator (0) -// Size: 32 - -const XinputDeviceValuator = 0 - -type XinputDeviceValuatorEvent struct { - Sequence uint16 - DeviceId byte - DeviceState uint16 - NumValuators byte - FirstValuator byte - Valuators []int32 // size: 24 -} - -// Event read XinputDeviceValuator -func NewXinputDeviceValuatorEvent(buf []byte) Event { - v := XinputDeviceValuatorEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.DeviceState = 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(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return v -} - -// Event write XinputDeviceValuator -func (v XinputDeviceValuatorEvent) 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 - - 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++ { - Put32(buf[b:], uint32(v.Valuators[i])) - b += 4 - } - b = pad(b) - - return buf -} - -func (v XinputDeviceValuatorEvent) ImplementsEvent() {} - -func (v XinputDeviceValuatorEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceValuatorEvent) String() string { - fieldVals := make([]string, 0, 5) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - fieldVals = append(fieldVals, sprintf("DeviceState: %d", v.DeviceState)) - fieldVals = append(fieldVals, sprintf("NumValuators: %d", v.NumValuators)) - fieldVals = append(fieldVals, sprintf("FirstValuator: %d", v.FirstValuator)) - return "XinputDeviceValuator {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][0] = NewXinputDeviceValuatorEvent -} - -// Event definition XinputDeviceKeyPress (1) -// Size: 32 - -const XinputDeviceKeyPress = 1 - -type XinputDeviceKeyPressEvent struct { - Sequence uint16 - Detail byte - Time Timestamp - Root Window - Event Window - Child Window - RootX int16 - RootY int16 - EventX int16 - EventY int16 - State uint16 - SameScreen bool - DeviceId byte -} - -// Event read XinputDeviceKeyPress -func NewXinputDeviceKeyPressEvent(buf []byte) Event { - v := XinputDeviceKeyPressEvent{} - b := 1 // don't read event number - - v.Detail = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - v.Root = Window(Get32(buf[b:])) - b += 4 - - v.Event = Window(Get32(buf[b:])) - b += 4 - - v.Child = Window(Get32(buf[b:])) - b += 4 - - v.RootX = int16(Get16(buf[b:])) - b += 2 - - v.RootY = int16(Get16(buf[b:])) - b += 2 - - v.EventX = int16(Get16(buf[b:])) - b += 2 - - v.EventY = int16(Get16(buf[b:])) - b += 2 - - v.State = 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 XinputDeviceKeyPress -func (v XinputDeviceKeyPressEvent) 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 - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - Put32(buf[b:], uint32(v.Root)) - b += 4 - - Put32(buf[b:], uint32(v.Event)) - b += 4 - - Put32(buf[b:], uint32(v.Child)) - b += 4 - - Put16(buf[b:], uint16(v.RootX)) - b += 2 - - Put16(buf[b:], uint16(v.RootY)) - b += 2 - - Put16(buf[b:], uint16(v.EventX)) - b += 2 - - Put16(buf[b:], uint16(v.EventY)) - b += 2 - - 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 XinputDeviceKeyPressEvent) ImplementsEvent() {} - -func (v XinputDeviceKeyPressEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceKeyPressEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceKeyPress {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][1] = NewXinputDeviceKeyPressEvent -} - -// Event definition XinputFocusIn (6) -// Size: 32 - -const XinputFocusIn = 6 - -type XinputFocusInEvent struct { - Sequence uint16 - Detail byte - Time Timestamp - Window Window - Mode byte - DeviceId byte - // padding: 18 bytes -} - -// Event read XinputFocusIn -func NewXinputFocusInEvent(buf []byte) Event { - v := XinputFocusInEvent{} - b := 1 // don't read event number - - v.Detail = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - v.Window = Window(Get32(buf[b:])) - b += 4 - - v.Mode = buf[b] - b += 1 - - v.DeviceId = buf[b] - b += 1 - - b += 18 // padding - - return v -} - -// Event write XinputFocusIn -func (v XinputFocusInEvent) 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 - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - 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 XinputFocusInEvent) ImplementsEvent() {} - -func (v XinputFocusInEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputFocusInEvent) String() string { - fieldVals := make([]string, 0, 6) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Window: %d", v.Window)) - fieldVals = append(fieldVals, sprintf("Mode: %d", v.Mode)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputFocusIn {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][6] = NewXinputFocusInEvent -} - -// Event definition XinputDeviceStateNotify (10) -// Size: 32 - -const XinputDeviceStateNotify = 10 - -type XinputDeviceStateNotifyEvent struct { - Sequence uint16 - DeviceId byte - Time Timestamp - NumKeys byte - NumButtons byte - NumValuators byte - ClassesReported byte - Buttons []byte // size: 4 - Keys []byte // size: 4 - Valuators []uint32 // size: 12 -} - -// Event read XinputDeviceStateNotify -func NewXinputDeviceStateNotifyEvent(buf []byte) Event { - v := XinputDeviceStateNotifyEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Time = Timestamp(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 += pad(int(4)) - - v.Keys = make([]byte, 4) - copy(v.Keys[:4], buf[b:]) - b += pad(int(4)) - - v.Valuators = make([]uint32, 3) - for i := 0; i < int(3); i++ { - v.Valuators[i] = Get32(buf[b:]) - b += 4 - } - b = pad(b) - - return v -} - -// Event write XinputDeviceStateNotify -func (v XinputDeviceStateNotifyEvent) 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 - - 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 += pad(int(4)) - - copy(buf[b:], v.Keys[:4]) - b += pad(int(4)) - - for i := 0; i < int(3); i++ { - Put32(buf[b:], v.Valuators[i]) - b += 4 - } - b = pad(b) - - return buf -} - -func (v XinputDeviceStateNotifyEvent) ImplementsEvent() {} - -func (v XinputDeviceStateNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceStateNotifyEvent) String() string { - fieldVals := make([]string, 0, 9) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("NumKeys: %d", v.NumKeys)) - fieldVals = append(fieldVals, sprintf("NumButtons: %d", v.NumButtons)) - fieldVals = append(fieldVals, sprintf("NumValuators: %d", v.NumValuators)) - fieldVals = append(fieldVals, sprintf("ClassesReported: %d", v.ClassesReported)) - return "XinputDeviceStateNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][10] = NewXinputDeviceStateNotifyEvent -} - -// Event definition XinputDeviceMappingNotify (11) -// Size: 32 - -const XinputDeviceMappingNotify = 11 - -type XinputDeviceMappingNotifyEvent struct { - Sequence uint16 - DeviceId byte - Request byte - FirstKeycode XinputKeyCode - Count byte - // padding: 1 bytes - Time Timestamp - // padding: 20 bytes -} - -// Event read XinputDeviceMappingNotify -func NewXinputDeviceMappingNotifyEvent(buf []byte) Event { - v := XinputDeviceMappingNotifyEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Request = buf[b] - b += 1 - - v.FirstKeycode = XinputKeyCode(buf[b]) - b += 1 - - v.Count = buf[b] - b += 1 - - b += 1 // padding - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - b += 20 // padding - - return v -} - -// Event write XinputDeviceMappingNotify -func (v XinputDeviceMappingNotifyEvent) 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 - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - b += 20 // padding - - return buf -} - -func (v XinputDeviceMappingNotifyEvent) ImplementsEvent() {} - -func (v XinputDeviceMappingNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceMappingNotifyEvent) String() string { - fieldVals := make([]string, 0, 7) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - fieldVals = append(fieldVals, sprintf("Request: %d", v.Request)) - fieldVals = append(fieldVals, sprintf("FirstKeycode: %d", v.FirstKeycode)) - fieldVals = append(fieldVals, sprintf("Count: %d", v.Count)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - return "XinputDeviceMappingNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][11] = NewXinputDeviceMappingNotifyEvent -} - -// Event definition XinputChangeDeviceNotify (12) -// Size: 32 - -const XinputChangeDeviceNotify = 12 - -type XinputChangeDeviceNotifyEvent struct { - Sequence uint16 - DeviceId byte - Time Timestamp - Request byte - // padding: 23 bytes -} - -// Event read XinputChangeDeviceNotify -func NewXinputChangeDeviceNotifyEvent(buf []byte) Event { - v := XinputChangeDeviceNotifyEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - v.Request = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -// Event write XinputChangeDeviceNotify -func (v XinputChangeDeviceNotifyEvent) 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 - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - buf[b] = v.Request - b += 1 - - b += 23 // padding - - return buf -} - -func (v XinputChangeDeviceNotifyEvent) ImplementsEvent() {} - -func (v XinputChangeDeviceNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputChangeDeviceNotifyEvent) String() string { - fieldVals := make([]string, 0, 4) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Request: %d", v.Request)) - return "XinputChangeDeviceNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][12] = NewXinputChangeDeviceNotifyEvent -} - -// Event definition XinputDeviceKeyStateNotify (13) -// Size: 32 - -const XinputDeviceKeyStateNotify = 13 - -type XinputDeviceKeyStateNotifyEvent struct { - Sequence uint16 - DeviceId byte - Keys []byte // size: 28 -} - -// Event read XinputDeviceKeyStateNotify -func NewXinputDeviceKeyStateNotifyEvent(buf []byte) Event { - v := XinputDeviceKeyStateNotifyEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Keys = make([]byte, 28) - copy(v.Keys[:28], buf[b:]) - b += pad(int(28)) - - return v -} - -// Event write XinputDeviceKeyStateNotify -func (v XinputDeviceKeyStateNotifyEvent) 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 += pad(int(28)) - - return buf -} - -func (v XinputDeviceKeyStateNotifyEvent) ImplementsEvent() {} - -func (v XinputDeviceKeyStateNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceKeyStateNotifyEvent) String() string { - fieldVals := make([]string, 0, 2) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceKeyStateNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][13] = NewXinputDeviceKeyStateNotifyEvent -} - -// Event definition XinputDeviceButtonStateNotify (14) -// Size: 32 - -const XinputDeviceButtonStateNotify = 14 - -type XinputDeviceButtonStateNotifyEvent struct { - Sequence uint16 - DeviceId byte - Buttons []byte // size: 28 -} - -// Event read XinputDeviceButtonStateNotify -func NewXinputDeviceButtonStateNotifyEvent(buf []byte) Event { - v := XinputDeviceButtonStateNotifyEvent{} - b := 1 // don't read event number - - v.DeviceId = buf[b] - b += 1 - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Buttons = make([]byte, 28) - copy(v.Buttons[:28], buf[b:]) - b += pad(int(28)) - - return v -} - -// Event write XinputDeviceButtonStateNotify -func (v XinputDeviceButtonStateNotifyEvent) 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 += pad(int(28)) - - return buf -} - -func (v XinputDeviceButtonStateNotifyEvent) ImplementsEvent() {} - -func (v XinputDeviceButtonStateNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceButtonStateNotifyEvent) String() string { - fieldVals := make([]string, 0, 2) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceButtonStateNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][14] = NewXinputDeviceButtonStateNotifyEvent -} - -// Event definition XinputDevicePresenceNotify (15) -// Size: 32 - -const XinputDevicePresenceNotify = 15 - -type XinputDevicePresenceNotifyEvent struct { - Sequence uint16 - // padding: 1 bytes - Time Timestamp - Devchange byte - DeviceId byte - Control uint16 - // padding: 20 bytes -} - -// Event read XinputDevicePresenceNotify -func NewXinputDevicePresenceNotifyEvent(buf []byte) Event { - v := XinputDevicePresenceNotifyEvent{} - b := 1 // don't read event number - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - v.Devchange = buf[b] - b += 1 - - v.DeviceId = buf[b] - b += 1 - - v.Control = Get16(buf[b:]) - b += 2 - - b += 20 // padding - - return v -} - -// Event write XinputDevicePresenceNotify -func (v XinputDevicePresenceNotifyEvent) Bytes() []byte { - buf := make([]byte, 32) - b := 0 - - // write event number - buf[b] = 15 - b += 1 - - b += 1 // padding - - b += 2 // skip sequence number - - Put32(buf[b:], uint32(v.Time)) - b += 4 - - buf[b] = v.Devchange - b += 1 - - buf[b] = v.DeviceId - b += 1 - - Put16(buf[b:], v.Control) - b += 2 - - b += 20 // padding - - return buf -} - -func (v XinputDevicePresenceNotifyEvent) ImplementsEvent() {} - -func (v XinputDevicePresenceNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDevicePresenceNotifyEvent) String() string { - fieldVals := make([]string, 0, 6) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Devchange: %d", v.Devchange)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - fieldVals = append(fieldVals, sprintf("Control: %d", v.Control)) - return "XinputDevicePresenceNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][15] = NewXinputDevicePresenceNotifyEvent -} - -// EventCopy definition XinputDeviceKeyRelease (2) - -const XinputDeviceKeyRelease = 2 - -type XinputDeviceKeyReleaseEvent XinputDeviceKeyPressEvent - -func NewXinputDeviceKeyReleaseEvent(buf []byte) Event { - return XinputDeviceKeyReleaseEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputDeviceKeyReleaseEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputDeviceKeyReleaseEvent) ImplementsEvent() {} - -func (v XinputDeviceKeyReleaseEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceKeyReleaseEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceKeyRelease {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][2] = NewXinputDeviceKeyReleaseEvent -} - -// EventCopy definition XinputDeviceButtonPress (3) - -const XinputDeviceButtonPress = 3 - -type XinputDeviceButtonPressEvent XinputDeviceKeyPressEvent - -func NewXinputDeviceButtonPressEvent(buf []byte) Event { - return XinputDeviceButtonPressEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputDeviceButtonPressEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputDeviceButtonPressEvent) ImplementsEvent() {} - -func (v XinputDeviceButtonPressEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceButtonPressEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceButtonPress {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][3] = NewXinputDeviceButtonPressEvent -} - -// EventCopy definition XinputDeviceButtonRelease (4) - -const XinputDeviceButtonRelease = 4 - -type XinputDeviceButtonReleaseEvent XinputDeviceKeyPressEvent - -func NewXinputDeviceButtonReleaseEvent(buf []byte) Event { - return XinputDeviceButtonReleaseEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputDeviceButtonReleaseEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputDeviceButtonReleaseEvent) ImplementsEvent() {} - -func (v XinputDeviceButtonReleaseEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceButtonReleaseEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceButtonRelease {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][4] = NewXinputDeviceButtonReleaseEvent -} - -// EventCopy definition XinputDeviceMotionNotify (5) - -const XinputDeviceMotionNotify = 5 - -type XinputDeviceMotionNotifyEvent XinputDeviceKeyPressEvent - -func NewXinputDeviceMotionNotifyEvent(buf []byte) Event { - return XinputDeviceMotionNotifyEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputDeviceMotionNotifyEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputDeviceMotionNotifyEvent) ImplementsEvent() {} - -func (v XinputDeviceMotionNotifyEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputDeviceMotionNotifyEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputDeviceMotionNotify {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][5] = NewXinputDeviceMotionNotifyEvent -} - -// EventCopy definition XinputProximityIn (8) - -const XinputProximityIn = 8 - -type XinputProximityInEvent XinputDeviceKeyPressEvent - -func NewXinputProximityInEvent(buf []byte) Event { - return XinputProximityInEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputProximityInEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputProximityInEvent) ImplementsEvent() {} - -func (v XinputProximityInEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputProximityInEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputProximityIn {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][8] = NewXinputProximityInEvent -} - -// EventCopy definition XinputProximityOut (9) - -const XinputProximityOut = 9 - -type XinputProximityOutEvent XinputDeviceKeyPressEvent - -func NewXinputProximityOutEvent(buf []byte) Event { - return XinputProximityOutEvent(NewXinputDeviceKeyPressEvent(buf).(XinputDeviceKeyPressEvent)) -} - -func (v XinputProximityOutEvent) Bytes() []byte { - return XinputDeviceKeyPressEvent(v).Bytes() -} - -func (v XinputProximityOutEvent) ImplementsEvent() {} - -func (v XinputProximityOutEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputProximityOutEvent) String() string { - fieldVals := make([]string, 0, 12) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Root: %d", v.Root)) - fieldVals = append(fieldVals, sprintf("Event: %d", v.Event)) - fieldVals = append(fieldVals, sprintf("Child: %d", v.Child)) - fieldVals = append(fieldVals, sprintf("RootX: %d", v.RootX)) - fieldVals = append(fieldVals, sprintf("RootY: %d", v.RootY)) - fieldVals = append(fieldVals, sprintf("EventX: %d", v.EventX)) - fieldVals = append(fieldVals, sprintf("EventY: %d", v.EventY)) - fieldVals = append(fieldVals, sprintf("State: %d", v.State)) - fieldVals = append(fieldVals, sprintf("SameScreen: %t", v.SameScreen)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputProximityOut {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][9] = NewXinputProximityOutEvent -} - -// EventCopy definition XinputFocusOut (7) - -const XinputFocusOut = 7 - -type XinputFocusOutEvent XinputFocusInEvent - -func NewXinputFocusOutEvent(buf []byte) Event { - return XinputFocusOutEvent(NewXinputFocusInEvent(buf).(XinputFocusInEvent)) -} - -func (v XinputFocusOutEvent) Bytes() []byte { - return XinputFocusInEvent(v).Bytes() -} - -func (v XinputFocusOutEvent) ImplementsEvent() {} - -func (v XinputFocusOutEvent) SequenceId() uint16 { - return v.Sequence -} - -func (v XinputFocusOutEvent) String() string { - fieldVals := make([]string, 0, 6) - fieldVals = append(fieldVals, sprintf("Sequence: %d", v.Sequence)) - fieldVals = append(fieldVals, sprintf("Detail: %d", v.Detail)) - fieldVals = append(fieldVals, sprintf("Time: %d", v.Time)) - fieldVals = append(fieldVals, sprintf("Window: %d", v.Window)) - fieldVals = append(fieldVals, sprintf("Mode: %d", v.Mode)) - fieldVals = append(fieldVals, sprintf("DeviceId: %d", v.DeviceId)) - return "XinputFocusOut {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtEventFuncs["XInputExtension"][7] = NewXinputFocusOutEvent -} - -// Error definition XinputDevice (0) -// Size: 32 - -const BadXinputDevice = 0 - -type XinputDeviceError struct { - Sequence uint16 - NiceName string -} - -// Error read XinputDevice -func NewXinputDeviceError(buf []byte) Error { - v := XinputDeviceError{} - v.NiceName = "XinputDevice" - - b := 1 // skip error determinant - b += 1 // don't read error number - - v.Sequence = Get16(buf[b:]) - b += 2 - - return v -} - -func (err XinputDeviceError) ImplementsError() {} - -func (err XinputDeviceError) SequenceId() uint16 { - return err.Sequence -} - -func (err XinputDeviceError) BadId() uint32 { - return 0 -} - -func (err XinputDeviceError) Error() string { - fieldVals := make([]string, 0, 0) - fieldVals = append(fieldVals, "NiceName: "+err.NiceName) - fieldVals = append(fieldVals, sprintf("Sequence: %d", err.Sequence)) - return "BadXinputDevice {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtErrorFuncs["XInputExtension"][0] = NewXinputDeviceError -} - -// Error definition XinputEvent (1) -// Size: 32 - -const BadXinputEvent = 1 - -type XinputEventError struct { - Sequence uint16 - NiceName string -} - -// Error read XinputEvent -func NewXinputEventError(buf []byte) Error { - v := XinputEventError{} - v.NiceName = "XinputEvent" - - b := 1 // skip error determinant - b += 1 // don't read error number - - v.Sequence = Get16(buf[b:]) - b += 2 - - return v -} - -func (err XinputEventError) ImplementsError() {} - -func (err XinputEventError) SequenceId() uint16 { - return err.Sequence -} - -func (err XinputEventError) BadId() uint32 { - return 0 -} - -func (err XinputEventError) Error() string { - fieldVals := make([]string, 0, 0) - fieldVals = append(fieldVals, "NiceName: "+err.NiceName) - fieldVals = append(fieldVals, sprintf("Sequence: %d", err.Sequence)) - return "BadXinputEvent {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtErrorFuncs["XInputExtension"][1] = NewXinputEventError -} - -// Error definition XinputMode (2) -// Size: 32 - -const BadXinputMode = 2 - -type XinputModeError struct { - Sequence uint16 - NiceName string -} - -// Error read XinputMode -func NewXinputModeError(buf []byte) Error { - v := XinputModeError{} - v.NiceName = "XinputMode" - - b := 1 // skip error determinant - b += 1 // don't read error number - - v.Sequence = Get16(buf[b:]) - b += 2 - - return v -} - -func (err XinputModeError) ImplementsError() {} - -func (err XinputModeError) SequenceId() uint16 { - return err.Sequence -} - -func (err XinputModeError) BadId() uint32 { - return 0 -} - -func (err XinputModeError) Error() string { - fieldVals := make([]string, 0, 0) - fieldVals = append(fieldVals, "NiceName: "+err.NiceName) - fieldVals = append(fieldVals, sprintf("Sequence: %d", err.Sequence)) - return "BadXinputMode {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtErrorFuncs["XInputExtension"][2] = NewXinputModeError -} - -// Error definition XinputDeviceBusy (3) -// Size: 32 - -const BadXinputDeviceBusy = 3 - -type XinputDeviceBusyError struct { - Sequence uint16 - NiceName string -} - -// Error read XinputDeviceBusy -func NewXinputDeviceBusyError(buf []byte) Error { - v := XinputDeviceBusyError{} - v.NiceName = "XinputDeviceBusy" - - b := 1 // skip error determinant - b += 1 // don't read error number - - v.Sequence = Get16(buf[b:]) - b += 2 - - return v -} - -func (err XinputDeviceBusyError) ImplementsError() {} - -func (err XinputDeviceBusyError) SequenceId() uint16 { - return err.Sequence -} - -func (err XinputDeviceBusyError) BadId() uint32 { - return 0 -} - -func (err XinputDeviceBusyError) Error() string { - fieldVals := make([]string, 0, 0) - fieldVals = append(fieldVals, "NiceName: "+err.NiceName) - fieldVals = append(fieldVals, sprintf("Sequence: %d", err.Sequence)) - return "BadXinputDeviceBusy {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtErrorFuncs["XInputExtension"][3] = NewXinputDeviceBusyError -} - -// Error definition XinputClass (4) -// Size: 32 - -const BadXinputClass = 4 - -type XinputClassError struct { - Sequence uint16 - NiceName string -} - -// Error read XinputClass -func NewXinputClassError(buf []byte) Error { - v := XinputClassError{} - v.NiceName = "XinputClass" - - b := 1 // skip error determinant - b += 1 // don't read error number - - v.Sequence = Get16(buf[b:]) - b += 2 - - return v -} - -func (err XinputClassError) ImplementsError() {} - -func (err XinputClassError) SequenceId() uint16 { - return err.Sequence -} - -func (err XinputClassError) BadId() uint32 { - return 0 -} - -func (err XinputClassError) Error() string { - fieldVals := make([]string, 0, 0) - fieldVals = append(fieldVals, "NiceName: "+err.NiceName) - fieldVals = append(fieldVals, sprintf("Sequence: %d", err.Sequence)) - return "BadXinputClass {" + stringsJoin(fieldVals, ", ") + "}" -} - -func init() { - newExtErrorFuncs["XInputExtension"][4] = NewXinputClassError -} - -// Request XinputGetExtensionVersion -// size: pad((8 + pad((int(NameLen) * 1)))) -type XinputGetExtensionVersionCookie struct { - *cookie -} - -func (c *Conn) XinputGetExtensionVersion(NameLen uint16, Name string) XinputGetExtensionVersionCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetExtensionVersionRequest(NameLen, Name), cookie) - return XinputGetExtensionVersionCookie{cookie} -} - -func (c *Conn) XinputGetExtensionVersionUnchecked(NameLen uint16, Name string) XinputGetExtensionVersionCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetExtensionVersionRequest(NameLen, Name), cookie) - return XinputGetExtensionVersionCookie{cookie} -} - -// Request reply for XinputGetExtensionVersion -// size: 32 -type XinputGetExtensionVersionReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - ServerMajor uint16 - ServerMinor uint16 - Present bool - // padding: 19 bytes -} - -// Waits and reads reply data from request XinputGetExtensionVersion -func (cook XinputGetExtensionVersionCookie) Reply() (*XinputGetExtensionVersionReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetExtensionVersionReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetExtensionVersion -func xinputGetExtensionVersionReply(buf []byte) *XinputGetExtensionVersionReply { - v := new(XinputGetExtensionVersionReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.ServerMajor = Get16(buf[b:]) - b += 2 - - v.ServerMinor = Get16(buf[b:]) - b += 2 - - if buf[b] == 1 { - v.Present = true - } else { - v.Present = false - } - b += 1 - - b += 19 // padding - - return v -} - -func (cook XinputGetExtensionVersionCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetExtensionVersion -func (c *Conn) xinputGetExtensionVersionRequest(NameLen uint16, Name string) []byte { - size := pad((8 + pad((int(NameLen) * 1)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 1 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put16(buf[b:], NameLen) - b += 2 - - b += 2 // padding - - copy(buf[b:], Name[:NameLen]) - b += pad(int(NameLen)) - - return buf -} - -// Request XinputListInputDevices -// size: 4 -type XinputListInputDevicesCookie struct { - *cookie -} - -func (c *Conn) XinputListInputDevices() XinputListInputDevicesCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputListInputDevicesRequest(), cookie) - return XinputListInputDevicesCookie{cookie} -} - -func (c *Conn) XinputListInputDevicesUnchecked() XinputListInputDevicesCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputListInputDevicesRequest(), cookie) - return XinputListInputDevicesCookie{cookie} -} - -// Request reply for XinputListInputDevices -// size: (32 + pad((int(DevicesLen) * 8))) -type XinputListInputDevicesReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - DevicesLen byte - // padding: 23 bytes - Devices []XinputDeviceInfo // size: pad((int(DevicesLen) * 8)) -} - -// Waits and reads reply data from request XinputListInputDevices -func (cook XinputListInputDevicesCookie) Reply() (*XinputListInputDevicesReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputListInputDevicesReply(buf), nil -} - -// Read reply into structure from buffer for XinputListInputDevices -func xinputListInputDevicesReply(buf []byte) *XinputListInputDevicesReply { - v := new(XinputListInputDevicesReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.DevicesLen = buf[b] - b += 1 - - b += 23 // padding - - v.Devices = make([]XinputDeviceInfo, v.DevicesLen) - b += ReadXinputDeviceInfoList(buf[b:], v.Devices) - - return v -} - -func (cook XinputListInputDevicesCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputListInputDevices -func (c *Conn) xinputListInputDevicesRequest() []byte { - size := 4 - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 2 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - return buf -} - -// Request XinputOpenDevice -// size: 8 -type XinputOpenDeviceCookie struct { - *cookie -} - -func (c *Conn) XinputOpenDevice(DeviceId byte) XinputOpenDeviceCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputOpenDeviceRequest(DeviceId), cookie) - return XinputOpenDeviceCookie{cookie} -} - -func (c *Conn) XinputOpenDeviceUnchecked(DeviceId byte) XinputOpenDeviceCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputOpenDeviceRequest(DeviceId), cookie) - return XinputOpenDeviceCookie{cookie} -} - -// Request reply for XinputOpenDevice -// size: (32 + pad((int(NumClasses) * 2))) -type XinputOpenDeviceReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumClasses byte - // padding: 23 bytes - ClassInfo []XinputInputClassInfo // size: pad((int(NumClasses) * 2)) -} - -// Waits and reads reply data from request XinputOpenDevice -func (cook XinputOpenDeviceCookie) Reply() (*XinputOpenDeviceReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputOpenDeviceReply(buf), nil -} - -// Read reply into structure from buffer for XinputOpenDevice -func xinputOpenDeviceReply(buf []byte) *XinputOpenDeviceReply { - v := new(XinputOpenDeviceReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumClasses = buf[b] - b += 1 - - b += 23 // padding - - v.ClassInfo = make([]XinputInputClassInfo, v.NumClasses) - b += ReadXinputInputClassInfoList(buf[b:], v.ClassInfo) - - return v -} - -func (cook XinputOpenDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputOpenDevice -func (c *Conn) xinputOpenDeviceRequest(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 - - 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 XinputCloseDevice -// size: 8 -type XinputCloseDeviceCookie struct { - *cookie -} - -// Write request to wire for XinputCloseDevice -func (c *Conn) XinputCloseDevice(DeviceId byte) XinputCloseDeviceCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputCloseDeviceRequest(DeviceId), cookie) - return XinputCloseDeviceCookie{cookie} -} - -func (c *Conn) XinputCloseDeviceChecked(DeviceId byte) XinputCloseDeviceCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputCloseDeviceRequest(DeviceId), cookie) - return XinputCloseDeviceCookie{cookie} -} - -func (cook XinputCloseDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputCloseDevice -func (c *Conn) xinputCloseDeviceRequest(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 - - 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 XinputSetDeviceMode -// size: 8 -type XinputSetDeviceModeCookie struct { - *cookie -} - -func (c *Conn) XinputSetDeviceMode(DeviceId byte, Mode byte) XinputSetDeviceModeCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputSetDeviceModeRequest(DeviceId, Mode), cookie) - return XinputSetDeviceModeCookie{cookie} -} - -func (c *Conn) XinputSetDeviceModeUnchecked(DeviceId byte, Mode byte) XinputSetDeviceModeCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputSetDeviceModeRequest(DeviceId, Mode), cookie) - return XinputSetDeviceModeCookie{cookie} -} - -// Request reply for XinputSetDeviceMode -// size: 32 -type XinputSetDeviceModeReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputSetDeviceMode -func (cook XinputSetDeviceModeCookie) Reply() (*XinputSetDeviceModeReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputSetDeviceModeReply(buf), nil -} - -// Read reply into structure from buffer for XinputSetDeviceMode -func xinputSetDeviceModeReply(buf []byte) *XinputSetDeviceModeReply { - v := new(XinputSetDeviceModeReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputSetDeviceModeCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSetDeviceMode -func (c *Conn) xinputSetDeviceModeRequest(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 - - 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 XinputSelectExtensionEvent -// size: pad((12 + pad((int(NumClasses) * 4)))) -type XinputSelectExtensionEventCookie struct { - *cookie -} - -// Write request to wire for XinputSelectExtensionEvent -func (c *Conn) XinputSelectExtensionEvent(Window Window, NumClasses uint16, Classes []XinputEventClass) XinputSelectExtensionEventCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputSelectExtensionEventRequest(Window, NumClasses, Classes), cookie) - return XinputSelectExtensionEventCookie{cookie} -} - -func (c *Conn) XinputSelectExtensionEventChecked(Window Window, NumClasses uint16, Classes []XinputEventClass) XinputSelectExtensionEventCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputSelectExtensionEventRequest(Window, NumClasses, Classes), cookie) - return XinputSelectExtensionEventCookie{cookie} -} - -func (cook XinputSelectExtensionEventCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSelectExtensionEvent -func (c *Conn) xinputSelectExtensionEventRequest(Window Window, NumClasses uint16, Classes []XinputEventClass) []byte { - size := pad((12 + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 6 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Window)) - b += 4 - - Put16(buf[b:], NumClasses) - b += 2 - - b += 2 // padding - - for i := 0; i < int(NumClasses); i++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputGetSelectedExtensionEvents -// size: 8 -type XinputGetSelectedExtensionEventsCookie struct { - *cookie -} - -func (c *Conn) XinputGetSelectedExtensionEvents(Window Window) XinputGetSelectedExtensionEventsCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetSelectedExtensionEventsRequest(Window), cookie) - return XinputGetSelectedExtensionEventsCookie{cookie} -} - -func (c *Conn) XinputGetSelectedExtensionEventsUnchecked(Window Window) XinputGetSelectedExtensionEventsCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetSelectedExtensionEventsRequest(Window), cookie) - return XinputGetSelectedExtensionEventsCookie{cookie} -} - -// Request reply for XinputGetSelectedExtensionEvents -// size: ((32 + pad((int(NumThisClasses) * 4))) + pad((int(NumAllClasses) * 4))) -type XinputGetSelectedExtensionEventsReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumThisClasses uint16 - NumAllClasses uint16 - // padding: 20 bytes - ThisClasses []XinputEventClass // size: pad((int(NumThisClasses) * 4)) - AllClasses []XinputEventClass // size: pad((int(NumAllClasses) * 4)) -} - -// Waits and reads reply data from request XinputGetSelectedExtensionEvents -func (cook XinputGetSelectedExtensionEventsCookie) Reply() (*XinputGetSelectedExtensionEventsReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetSelectedExtensionEventsReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetSelectedExtensionEvents -func xinputGetSelectedExtensionEventsReply(buf []byte) *XinputGetSelectedExtensionEventsReply { - v := new(XinputGetSelectedExtensionEventsReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumThisClasses = Get16(buf[b:]) - b += 2 - - v.NumAllClasses = Get16(buf[b:]) - b += 2 - - b += 20 // padding - - v.ThisClasses = make([]XinputEventClass, v.NumThisClasses) - for i := 0; i < int(v.NumThisClasses); i++ { - v.ThisClasses[i] = XinputEventClass(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - v.AllClasses = make([]XinputEventClass, v.NumAllClasses) - for i := 0; i < int(v.NumAllClasses); i++ { - v.AllClasses[i] = XinputEventClass(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return v -} - -func (cook XinputGetSelectedExtensionEventsCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetSelectedExtensionEvents -func (c *Conn) xinputGetSelectedExtensionEventsRequest(Window Window) []byte { - size := 8 - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 7 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Window)) - b += 4 - - return buf -} - -// Request XinputChangeDeviceDontPropagateList -// size: pad((12 + pad((int(NumClasses) * 4)))) -type XinputChangeDeviceDontPropagateListCookie struct { - *cookie -} - -// Write request to wire for XinputChangeDeviceDontPropagateList -func (c *Conn) XinputChangeDeviceDontPropagateList(Window Window, NumClasses uint16, Mode byte, Classes []XinputEventClass) XinputChangeDeviceDontPropagateListCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputChangeDeviceDontPropagateListRequest(Window, NumClasses, Mode, Classes), cookie) - return XinputChangeDeviceDontPropagateListCookie{cookie} -} - -func (c *Conn) XinputChangeDeviceDontPropagateListChecked(Window Window, NumClasses uint16, Mode byte, Classes []XinputEventClass) XinputChangeDeviceDontPropagateListCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputChangeDeviceDontPropagateListRequest(Window, NumClasses, Mode, Classes), cookie) - return XinputChangeDeviceDontPropagateListCookie{cookie} -} - -func (cook XinputChangeDeviceDontPropagateListCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputChangeDeviceDontPropagateList -func (c *Conn) xinputChangeDeviceDontPropagateListRequest(Window Window, NumClasses uint16, Mode byte, Classes []XinputEventClass) []byte { - size := pad((12 + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 8 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Window)) - b += 4 - - Put16(buf[b:], NumClasses) - b += 2 - - buf[b] = Mode - b += 1 - - b += 1 // padding - - for i := 0; i < int(NumClasses); i++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputGetDeviceDontPropagateList -// size: 8 -type XinputGetDeviceDontPropagateListCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceDontPropagateList(Window Window) XinputGetDeviceDontPropagateListCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceDontPropagateListRequest(Window), cookie) - return XinputGetDeviceDontPropagateListCookie{cookie} -} - -func (c *Conn) XinputGetDeviceDontPropagateListUnchecked(Window Window) XinputGetDeviceDontPropagateListCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceDontPropagateListRequest(Window), cookie) - return XinputGetDeviceDontPropagateListCookie{cookie} -} - -// Request reply for XinputGetDeviceDontPropagateList -// size: (32 + pad((int(NumClasses) * 4))) -type XinputGetDeviceDontPropagateListReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumClasses uint16 - // padding: 22 bytes - Classes []XinputEventClass // size: pad((int(NumClasses) * 4)) -} - -// Waits and reads reply data from request XinputGetDeviceDontPropagateList -func (cook XinputGetDeviceDontPropagateListCookie) Reply() (*XinputGetDeviceDontPropagateListReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceDontPropagateListReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceDontPropagateList -func xinputGetDeviceDontPropagateListReply(buf []byte) *XinputGetDeviceDontPropagateListReply { - v := new(XinputGetDeviceDontPropagateListReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumClasses = Get16(buf[b:]) - b += 2 - - b += 22 // padding - - v.Classes = make([]XinputEventClass, v.NumClasses) - for i := 0; i < int(v.NumClasses); i++ { - v.Classes[i] = XinputEventClass(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return v -} - -func (cook XinputGetDeviceDontPropagateListCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceDontPropagateList -func (c *Conn) xinputGetDeviceDontPropagateListRequest(Window Window) []byte { - size := 8 - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 9 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Window)) - b += 4 - - return buf -} - -// Request XinputGetDeviceMotionEvents -// size: 16 -type XinputGetDeviceMotionEventsCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceMotionEvents(Start Timestamp, Stop Timestamp, DeviceId byte) XinputGetDeviceMotionEventsCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceMotionEventsRequest(Start, Stop, DeviceId), cookie) - return XinputGetDeviceMotionEventsCookie{cookie} -} - -func (c *Conn) XinputGetDeviceMotionEventsUnchecked(Start Timestamp, Stop Timestamp, DeviceId byte) XinputGetDeviceMotionEventsCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceMotionEventsRequest(Start, Stop, DeviceId), cookie) - return XinputGetDeviceMotionEventsCookie{cookie} -} - -// Request reply for XinputGetDeviceMotionEvents -// size: 32 -type XinputGetDeviceMotionEventsReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumCoords uint32 - NumAxes byte - DeviceMode byte - // padding: 18 bytes -} - -// Waits and reads reply data from request XinputGetDeviceMotionEvents -func (cook XinputGetDeviceMotionEventsCookie) Reply() (*XinputGetDeviceMotionEventsReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceMotionEventsReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceMotionEvents -func xinputGetDeviceMotionEventsReply(buf []byte) *XinputGetDeviceMotionEventsReply { - v := new(XinputGetDeviceMotionEventsReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumCoords = Get32(buf[b:]) - b += 4 - - v.NumAxes = buf[b] - b += 1 - - v.DeviceMode = buf[b] - b += 1 - - b += 18 // padding - - return v -} - -func (cook XinputGetDeviceMotionEventsCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceMotionEvents -func (c *Conn) xinputGetDeviceMotionEventsRequest(Start Timestamp, Stop 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Start)) - b += 4 - - Put32(buf[b:], uint32(Stop)) - b += 4 - - buf[b] = DeviceId - b += 1 - - return buf -} - -// Request XinputChangeKeyboardDevice -// size: 8 -type XinputChangeKeyboardDeviceCookie struct { - *cookie -} - -func (c *Conn) XinputChangeKeyboardDevice(DeviceId byte) XinputChangeKeyboardDeviceCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputChangeKeyboardDeviceRequest(DeviceId), cookie) - return XinputChangeKeyboardDeviceCookie{cookie} -} - -func (c *Conn) XinputChangeKeyboardDeviceUnchecked(DeviceId byte) XinputChangeKeyboardDeviceCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputChangeKeyboardDeviceRequest(DeviceId), cookie) - return XinputChangeKeyboardDeviceCookie{cookie} -} - -// Request reply for XinputChangeKeyboardDevice -// size: 32 -type XinputChangeKeyboardDeviceReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputChangeKeyboardDevice -func (cook XinputChangeKeyboardDeviceCookie) Reply() (*XinputChangeKeyboardDeviceReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputChangeKeyboardDeviceReply(buf), nil -} - -// Read reply into structure from buffer for XinputChangeKeyboardDevice -func xinputChangeKeyboardDeviceReply(buf []byte) *XinputChangeKeyboardDeviceReply { - v := new(XinputChangeKeyboardDeviceReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputChangeKeyboardDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputChangeKeyboardDevice -func (c *Conn) xinputChangeKeyboardDeviceRequest(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 - - 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 XinputChangePointerDevice -// size: 8 -type XinputChangePointerDeviceCookie struct { - *cookie -} - -func (c *Conn) XinputChangePointerDevice(XAxis byte, YAxis byte, DeviceId byte) XinputChangePointerDeviceCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputChangePointerDeviceRequest(XAxis, YAxis, DeviceId), cookie) - return XinputChangePointerDeviceCookie{cookie} -} - -func (c *Conn) XinputChangePointerDeviceUnchecked(XAxis byte, YAxis byte, DeviceId byte) XinputChangePointerDeviceCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputChangePointerDeviceRequest(XAxis, YAxis, DeviceId), cookie) - return XinputChangePointerDeviceCookie{cookie} -} - -// Request reply for XinputChangePointerDevice -// size: 32 -type XinputChangePointerDeviceReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputChangePointerDevice -func (cook XinputChangePointerDeviceCookie) Reply() (*XinputChangePointerDeviceReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputChangePointerDeviceReply(buf), nil -} - -// Read reply into structure from buffer for XinputChangePointerDevice -func xinputChangePointerDeviceReply(buf []byte) *XinputChangePointerDeviceReply { - v := new(XinputChangePointerDeviceReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputChangePointerDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputChangePointerDevice -func (c *Conn) xinputChangePointerDeviceRequest(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 - - 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 XinputGrabDevice -// size: pad((20 + pad((int(NumClasses) * 4)))) -type XinputGrabDeviceCookie struct { - *cookie -} - -func (c *Conn) XinputGrabDevice(GrabWindow Window, Time Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []XinputEventClass) XinputGrabDeviceCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGrabDeviceRequest(GrabWindow, Time, NumClasses, ThisDeviceMode, OtherDeviceMode, OwnerEvents, DeviceId, Classes), cookie) - return XinputGrabDeviceCookie{cookie} -} - -func (c *Conn) XinputGrabDeviceUnchecked(GrabWindow Window, Time Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []XinputEventClass) XinputGrabDeviceCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGrabDeviceRequest(GrabWindow, Time, NumClasses, ThisDeviceMode, OtherDeviceMode, OwnerEvents, DeviceId, Classes), cookie) - return XinputGrabDeviceCookie{cookie} -} - -// Request reply for XinputGrabDevice -// size: 32 -type XinputGrabDeviceReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputGrabDevice -func (cook XinputGrabDeviceCookie) Reply() (*XinputGrabDeviceReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGrabDeviceReply(buf), nil -} - -// Read reply into structure from buffer for XinputGrabDevice -func xinputGrabDeviceReply(buf []byte) *XinputGrabDeviceReply { - v := new(XinputGrabDeviceReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputGrabDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGrabDevice -func (c *Conn) xinputGrabDeviceRequest(GrabWindow Window, Time Timestamp, NumClasses uint16, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, DeviceId byte, Classes []XinputEventClass) []byte { - size := pad((20 + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 13 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(GrabWindow)) - b += 4 - - Put32(buf[b:], uint32(Time)) - b += 4 - - 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++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputUngrabDevice -// size: 12 -type XinputUngrabDeviceCookie struct { - *cookie -} - -// Write request to wire for XinputUngrabDevice -func (c *Conn) XinputUngrabDevice(Time Timestamp, DeviceId byte) XinputUngrabDeviceCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputUngrabDeviceRequest(Time, DeviceId), cookie) - return XinputUngrabDeviceCookie{cookie} -} - -func (c *Conn) XinputUngrabDeviceChecked(Time Timestamp, DeviceId byte) XinputUngrabDeviceCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputUngrabDeviceRequest(Time, DeviceId), cookie) - return XinputUngrabDeviceCookie{cookie} -} - -func (cook XinputUngrabDeviceCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputUngrabDevice -func (c *Conn) xinputUngrabDeviceRequest(Time 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Time)) - b += 4 - - buf[b] = DeviceId - b += 1 - - return buf -} - -// Request XinputGrabDeviceKey -// size: pad((20 + pad((int(NumClasses) * 4)))) -type XinputGrabDeviceKeyCookie struct { - *cookie -} - -// Write request to wire for XinputGrabDeviceKey -func (c *Conn) XinputGrabDeviceKey(GrabWindow Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []XinputEventClass) XinputGrabDeviceKeyCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputGrabDeviceKeyRequest(GrabWindow, NumClasses, Modifiers, ModifierDevice, GrabbedDevice, Key, ThisDeviceMode, OtherDeviceMode, OwnerEvents, Classes), cookie) - return XinputGrabDeviceKeyCookie{cookie} -} - -func (c *Conn) XinputGrabDeviceKeyChecked(GrabWindow Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []XinputEventClass) XinputGrabDeviceKeyCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputGrabDeviceKeyRequest(GrabWindow, NumClasses, Modifiers, ModifierDevice, GrabbedDevice, Key, ThisDeviceMode, OtherDeviceMode, OwnerEvents, Classes), cookie) - return XinputGrabDeviceKeyCookie{cookie} -} - -func (cook XinputGrabDeviceKeyCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGrabDeviceKey -func (c *Conn) xinputGrabDeviceKeyRequest(GrabWindow Window, NumClasses uint16, Modifiers uint16, ModifierDevice byte, GrabbedDevice byte, Key byte, ThisDeviceMode byte, OtherDeviceMode byte, OwnerEvents bool, Classes []XinputEventClass) []byte { - size := pad((20 + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 15 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(GrabWindow)) - b += 4 - - Put16(buf[b:], NumClasses) - b += 2 - - 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++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputUngrabDeviceKey -// size: 16 -type XinputUngrabDeviceKeyCookie struct { - *cookie -} - -// Write request to wire for XinputUngrabDeviceKey -func (c *Conn) XinputUngrabDeviceKey(GrabWindow Window, Modifiers uint16, ModifierDevice byte, Key byte, GrabbedDevice byte) XinputUngrabDeviceKeyCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputUngrabDeviceKeyRequest(GrabWindow, Modifiers, ModifierDevice, Key, GrabbedDevice), cookie) - return XinputUngrabDeviceKeyCookie{cookie} -} - -func (c *Conn) XinputUngrabDeviceKeyChecked(GrabWindow Window, Modifiers uint16, ModifierDevice byte, Key byte, GrabbedDevice byte) XinputUngrabDeviceKeyCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputUngrabDeviceKeyRequest(GrabWindow, Modifiers, ModifierDevice, Key, GrabbedDevice), cookie) - return XinputUngrabDeviceKeyCookie{cookie} -} - -func (cook XinputUngrabDeviceKeyCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputUngrabDeviceKey -func (c *Conn) xinputUngrabDeviceKeyRequest(GrabWindow 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(GrabWindow)) - b += 4 - - Put16(buf[b:], Modifiers) - b += 2 - - buf[b] = ModifierDevice - b += 1 - - buf[b] = Key - b += 1 - - buf[b] = GrabbedDevice - b += 1 - - return buf -} - -// Request XinputGrabDeviceButton -// size: pad((20 + pad((int(NumClasses) * 4)))) -type XinputGrabDeviceButtonCookie struct { - *cookie -} - -// Write request to wire for XinputGrabDeviceButton -func (c *Conn) XinputGrabDeviceButton(GrabWindow Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []XinputEventClass) XinputGrabDeviceButtonCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputGrabDeviceButtonRequest(GrabWindow, GrabbedDevice, ModifierDevice, NumClasses, Modifiers, ThisDeviceMode, OtherDeviceMode, Button, OwnerEvents, Classes), cookie) - return XinputGrabDeviceButtonCookie{cookie} -} - -func (c *Conn) XinputGrabDeviceButtonChecked(GrabWindow Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []XinputEventClass) XinputGrabDeviceButtonCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputGrabDeviceButtonRequest(GrabWindow, GrabbedDevice, ModifierDevice, NumClasses, Modifiers, ThisDeviceMode, OtherDeviceMode, Button, OwnerEvents, Classes), cookie) - return XinputGrabDeviceButtonCookie{cookie} -} - -func (cook XinputGrabDeviceButtonCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGrabDeviceButton -func (c *Conn) xinputGrabDeviceButtonRequest(GrabWindow Window, GrabbedDevice byte, ModifierDevice byte, NumClasses uint16, Modifiers uint16, ThisDeviceMode byte, OtherDeviceMode byte, Button byte, OwnerEvents byte, Classes []XinputEventClass) []byte { - size := pad((20 + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 17 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(GrabWindow)) - b += 4 - - buf[b] = GrabbedDevice - b += 1 - - buf[b] = ModifierDevice - b += 1 - - Put16(buf[b:], NumClasses) - b += 2 - - 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++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputUngrabDeviceButton -// size: 16 -type XinputUngrabDeviceButtonCookie struct { - *cookie -} - -// Write request to wire for XinputUngrabDeviceButton -func (c *Conn) XinputUngrabDeviceButton(GrabWindow Window, Modifiers uint16, ModifierDevice byte, Button byte, GrabbedDevice byte) XinputUngrabDeviceButtonCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputUngrabDeviceButtonRequest(GrabWindow, Modifiers, ModifierDevice, Button, GrabbedDevice), cookie) - return XinputUngrabDeviceButtonCookie{cookie} -} - -func (c *Conn) XinputUngrabDeviceButtonChecked(GrabWindow Window, Modifiers uint16, ModifierDevice byte, Button byte, GrabbedDevice byte) XinputUngrabDeviceButtonCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputUngrabDeviceButtonRequest(GrabWindow, Modifiers, ModifierDevice, Button, GrabbedDevice), cookie) - return XinputUngrabDeviceButtonCookie{cookie} -} - -func (cook XinputUngrabDeviceButtonCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputUngrabDeviceButton -func (c *Conn) xinputUngrabDeviceButtonRequest(GrabWindow 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(GrabWindow)) - b += 4 - - Put16(buf[b:], Modifiers) - b += 2 - - buf[b] = ModifierDevice - b += 1 - - buf[b] = Button - b += 1 - - buf[b] = GrabbedDevice - b += 1 - - return buf -} - -// Request XinputAllowDeviceEvents -// size: 12 -type XinputAllowDeviceEventsCookie struct { - *cookie -} - -// Write request to wire for XinputAllowDeviceEvents -func (c *Conn) XinputAllowDeviceEvents(Time Timestamp, Mode byte, DeviceId byte) XinputAllowDeviceEventsCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputAllowDeviceEventsRequest(Time, Mode, DeviceId), cookie) - return XinputAllowDeviceEventsCookie{cookie} -} - -func (c *Conn) XinputAllowDeviceEventsChecked(Time Timestamp, Mode byte, DeviceId byte) XinputAllowDeviceEventsCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputAllowDeviceEventsRequest(Time, Mode, DeviceId), cookie) - return XinputAllowDeviceEventsCookie{cookie} -} - -func (cook XinputAllowDeviceEventsCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputAllowDeviceEvents -func (c *Conn) xinputAllowDeviceEventsRequest(Time 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Time)) - b += 4 - - buf[b] = Mode - b += 1 - - buf[b] = DeviceId - b += 1 - - return buf -} - -// Request XinputGetDeviceFocus -// size: 8 -type XinputGetDeviceFocusCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceFocus(DeviceId byte) XinputGetDeviceFocusCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceFocusRequest(DeviceId), cookie) - return XinputGetDeviceFocusCookie{cookie} -} - -func (c *Conn) XinputGetDeviceFocusUnchecked(DeviceId byte) XinputGetDeviceFocusCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceFocusRequest(DeviceId), cookie) - return XinputGetDeviceFocusCookie{cookie} -} - -// Request reply for XinputGetDeviceFocus -// size: 32 -type XinputGetDeviceFocusReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Focus Window - Time Timestamp - RevertTo byte - // padding: 15 bytes -} - -// Waits and reads reply data from request XinputGetDeviceFocus -func (cook XinputGetDeviceFocusCookie) Reply() (*XinputGetDeviceFocusReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceFocusReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceFocus -func xinputGetDeviceFocusReply(buf []byte) *XinputGetDeviceFocusReply { - v := new(XinputGetDeviceFocusReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Focus = Window(Get32(buf[b:])) - b += 4 - - v.Time = Timestamp(Get32(buf[b:])) - b += 4 - - v.RevertTo = buf[b] - b += 1 - - b += 15 // padding - - return v -} - -func (cook XinputGetDeviceFocusCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceFocus -func (c *Conn) xinputGetDeviceFocusRequest(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 - - 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 XinputSetDeviceFocus -// size: 16 -type XinputSetDeviceFocusCookie struct { - *cookie -} - -// Write request to wire for XinputSetDeviceFocus -func (c *Conn) XinputSetDeviceFocus(Focus Window, Time Timestamp, RevertTo byte, DeviceId byte) XinputSetDeviceFocusCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputSetDeviceFocusRequest(Focus, Time, RevertTo, DeviceId), cookie) - return XinputSetDeviceFocusCookie{cookie} -} - -func (c *Conn) XinputSetDeviceFocusChecked(Focus Window, Time Timestamp, RevertTo byte, DeviceId byte) XinputSetDeviceFocusCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputSetDeviceFocusRequest(Focus, Time, RevertTo, DeviceId), cookie) - return XinputSetDeviceFocusCookie{cookie} -} - -func (cook XinputSetDeviceFocusCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSetDeviceFocus -func (c *Conn) xinputSetDeviceFocusRequest(Focus Window, Time 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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Focus)) - b += 4 - - Put32(buf[b:], uint32(Time)) - b += 4 - - buf[b] = RevertTo - b += 1 - - buf[b] = DeviceId - b += 1 - - return buf -} - -// Request XinputGetFeedbackControl -// size: 8 -type XinputGetFeedbackControlCookie struct { - *cookie -} - -func (c *Conn) XinputGetFeedbackControl(DeviceId byte) XinputGetFeedbackControlCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetFeedbackControlRequest(DeviceId), cookie) - return XinputGetFeedbackControlCookie{cookie} -} - -func (c *Conn) XinputGetFeedbackControlUnchecked(DeviceId byte) XinputGetFeedbackControlCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetFeedbackControlRequest(DeviceId), cookie) - return XinputGetFeedbackControlCookie{cookie} -} - -// Request reply for XinputGetFeedbackControl -// size: 32 -type XinputGetFeedbackControlReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumFeedback uint16 - // padding: 22 bytes -} - -// Waits and reads reply data from request XinputGetFeedbackControl -func (cook XinputGetFeedbackControlCookie) Reply() (*XinputGetFeedbackControlReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetFeedbackControlReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetFeedbackControl -func xinputGetFeedbackControlReply(buf []byte) *XinputGetFeedbackControlReply { - v := new(XinputGetFeedbackControlReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumFeedback = Get16(buf[b:]) - b += 2 - - b += 22 // padding - - return v -} - -func (cook XinputGetFeedbackControlCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetFeedbackControl -func (c *Conn) xinputGetFeedbackControlRequest(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 - - 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 XinputGetDeviceKeyMapping -// size: 8 -type XinputGetDeviceKeyMappingCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceKeyMapping(DeviceId byte, FirstKeycode XinputKeyCode, Count byte) XinputGetDeviceKeyMappingCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceKeyMappingRequest(DeviceId, FirstKeycode, Count), cookie) - return XinputGetDeviceKeyMappingCookie{cookie} -} - -func (c *Conn) XinputGetDeviceKeyMappingUnchecked(DeviceId byte, FirstKeycode XinputKeyCode, Count byte) XinputGetDeviceKeyMappingCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceKeyMappingRequest(DeviceId, FirstKeycode, Count), cookie) - return XinputGetDeviceKeyMappingCookie{cookie} -} - -// Request reply for XinputGetDeviceKeyMapping -// size: (32 + pad((int(Length) * 4))) -type XinputGetDeviceKeyMappingReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - KeysymsPerKeycode byte - // padding: 23 bytes - Keysyms []Keysym // size: pad((int(Length) * 4)) -} - -// Waits and reads reply data from request XinputGetDeviceKeyMapping -func (cook XinputGetDeviceKeyMappingCookie) Reply() (*XinputGetDeviceKeyMappingReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceKeyMappingReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceKeyMapping -func xinputGetDeviceKeyMappingReply(buf []byte) *XinputGetDeviceKeyMappingReply { - v := new(XinputGetDeviceKeyMappingReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.KeysymsPerKeycode = buf[b] - b += 1 - - b += 23 // padding - - v.Keysyms = make([]Keysym, v.Length) - for i := 0; i < int(v.Length); i++ { - v.Keysyms[i] = Keysym(Get32(buf[b:])) - b += 4 - } - b = pad(b) - - return v -} - -func (cook XinputGetDeviceKeyMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceKeyMapping -func (c *Conn) xinputGetDeviceKeyMappingRequest(DeviceId byte, FirstKeycode XinputKeyCode, 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 - - 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 XinputChangeDeviceKeyMapping -// size: pad((8 + pad(((int(KeycodeCount) * int(KeysymsPerKeycode)) * 4)))) -type XinputChangeDeviceKeyMappingCookie struct { - *cookie -} - -// Write request to wire for XinputChangeDeviceKeyMapping -func (c *Conn) XinputChangeDeviceKeyMapping(DeviceId byte, FirstKeycode XinputKeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []Keysym) XinputChangeDeviceKeyMappingCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputChangeDeviceKeyMappingRequest(DeviceId, FirstKeycode, KeysymsPerKeycode, KeycodeCount, Keysyms), cookie) - return XinputChangeDeviceKeyMappingCookie{cookie} -} - -func (c *Conn) XinputChangeDeviceKeyMappingChecked(DeviceId byte, FirstKeycode XinputKeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []Keysym) XinputChangeDeviceKeyMappingCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputChangeDeviceKeyMappingRequest(DeviceId, FirstKeycode, KeysymsPerKeycode, KeycodeCount, Keysyms), cookie) - return XinputChangeDeviceKeyMappingCookie{cookie} -} - -func (cook XinputChangeDeviceKeyMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputChangeDeviceKeyMapping -func (c *Conn) xinputChangeDeviceKeyMappingRequest(DeviceId byte, FirstKeycode XinputKeyCode, KeysymsPerKeycode byte, KeycodeCount byte, Keysyms []Keysym) []byte { - size := pad((8 + 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 - - 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++ { - Put32(buf[b:], uint32(Keysyms[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputGetDeviceModifierMapping -// size: 8 -type XinputGetDeviceModifierMappingCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceModifierMapping(DeviceId byte) XinputGetDeviceModifierMappingCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceModifierMappingRequest(DeviceId), cookie) - return XinputGetDeviceModifierMappingCookie{cookie} -} - -func (c *Conn) XinputGetDeviceModifierMappingUnchecked(DeviceId byte) XinputGetDeviceModifierMappingCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceModifierMappingRequest(DeviceId), cookie) - return XinputGetDeviceModifierMappingCookie{cookie} -} - -// Request reply for XinputGetDeviceModifierMapping -// size: (32 + pad(((int(KeycodesPerModifier) * 8) * 1))) -type XinputGetDeviceModifierMappingReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - KeycodesPerModifier byte - // padding: 23 bytes - Keymaps []byte // size: pad(((int(KeycodesPerModifier) * 8) * 1)) -} - -// Waits and reads reply data from request XinputGetDeviceModifierMapping -func (cook XinputGetDeviceModifierMappingCookie) Reply() (*XinputGetDeviceModifierMappingReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceModifierMappingReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceModifierMapping -func xinputGetDeviceModifierMappingReply(buf []byte) *XinputGetDeviceModifierMappingReply { - v := new(XinputGetDeviceModifierMappingReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = 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 += pad(int((int(v.KeycodesPerModifier) * 8))) - - return v -} - -func (cook XinputGetDeviceModifierMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceModifierMapping -func (c *Conn) xinputGetDeviceModifierMappingRequest(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 - - 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 XinputSetDeviceModifierMapping -// size: pad((7 + pad(((int(KeycodesPerModifier) * 8) * 1)))) -type XinputSetDeviceModifierMappingCookie struct { - *cookie -} - -func (c *Conn) XinputSetDeviceModifierMapping(DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) XinputSetDeviceModifierMappingCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputSetDeviceModifierMappingRequest(DeviceId, KeycodesPerModifier, Keymaps), cookie) - return XinputSetDeviceModifierMappingCookie{cookie} -} - -func (c *Conn) XinputSetDeviceModifierMappingUnchecked(DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) XinputSetDeviceModifierMappingCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputSetDeviceModifierMappingRequest(DeviceId, KeycodesPerModifier, Keymaps), cookie) - return XinputSetDeviceModifierMappingCookie{cookie} -} - -// Request reply for XinputSetDeviceModifierMapping -// size: 32 -type XinputSetDeviceModifierMappingReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputSetDeviceModifierMapping -func (cook XinputSetDeviceModifierMappingCookie) Reply() (*XinputSetDeviceModifierMappingReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputSetDeviceModifierMappingReply(buf), nil -} - -// Read reply into structure from buffer for XinputSetDeviceModifierMapping -func xinputSetDeviceModifierMappingReply(buf []byte) *XinputSetDeviceModifierMappingReply { - v := new(XinputSetDeviceModifierMappingReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputSetDeviceModifierMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSetDeviceModifierMapping -func (c *Conn) xinputSetDeviceModifierMappingRequest(DeviceId byte, KeycodesPerModifier byte, Keymaps []byte) []byte { - size := pad((7 + 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 - - 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 += pad(int((int(KeycodesPerModifier) * 8))) - - return buf -} - -// Request XinputGetDeviceButtonMapping -// size: 8 -type XinputGetDeviceButtonMappingCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceButtonMapping(DeviceId byte) XinputGetDeviceButtonMappingCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceButtonMappingRequest(DeviceId), cookie) - return XinputGetDeviceButtonMappingCookie{cookie} -} - -func (c *Conn) XinputGetDeviceButtonMappingUnchecked(DeviceId byte) XinputGetDeviceButtonMappingCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceButtonMappingRequest(DeviceId), cookie) - return XinputGetDeviceButtonMappingCookie{cookie} -} - -// Request reply for XinputGetDeviceButtonMapping -// size: (32 + pad((int(MapSize) * 1))) -type XinputGetDeviceButtonMappingReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - MapSize byte - // padding: 23 bytes - Map []byte // size: pad((int(MapSize) * 1)) -} - -// Waits and reads reply data from request XinputGetDeviceButtonMapping -func (cook XinputGetDeviceButtonMappingCookie) Reply() (*XinputGetDeviceButtonMappingReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceButtonMappingReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceButtonMapping -func xinputGetDeviceButtonMappingReply(buf []byte) *XinputGetDeviceButtonMappingReply { - v := new(XinputGetDeviceButtonMappingReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = 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 += pad(int(v.MapSize)) - - return v -} - -func (cook XinputGetDeviceButtonMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceButtonMapping -func (c *Conn) xinputGetDeviceButtonMappingRequest(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 - - 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 XinputSetDeviceButtonMapping -// size: pad((8 + pad((int(MapSize) * 1)))) -type XinputSetDeviceButtonMappingCookie struct { - *cookie -} - -func (c *Conn) XinputSetDeviceButtonMapping(DeviceId byte, MapSize byte, Map []byte) XinputSetDeviceButtonMappingCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputSetDeviceButtonMappingRequest(DeviceId, MapSize, Map), cookie) - return XinputSetDeviceButtonMappingCookie{cookie} -} - -func (c *Conn) XinputSetDeviceButtonMappingUnchecked(DeviceId byte, MapSize byte, Map []byte) XinputSetDeviceButtonMappingCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputSetDeviceButtonMappingRequest(DeviceId, MapSize, Map), cookie) - return XinputSetDeviceButtonMappingCookie{cookie} -} - -// Request reply for XinputSetDeviceButtonMapping -// size: 32 -type XinputSetDeviceButtonMappingReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputSetDeviceButtonMapping -func (cook XinputSetDeviceButtonMappingCookie) Reply() (*XinputSetDeviceButtonMappingReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputSetDeviceButtonMappingReply(buf), nil -} - -// Read reply into structure from buffer for XinputSetDeviceButtonMapping -func xinputSetDeviceButtonMappingReply(buf []byte) *XinputSetDeviceButtonMappingReply { - v := new(XinputSetDeviceButtonMappingReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputSetDeviceButtonMappingCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSetDeviceButtonMapping -func (c *Conn) xinputSetDeviceButtonMappingRequest(DeviceId byte, MapSize byte, Map []byte) []byte { - size := pad((8 + pad((int(MapSize) * 1)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 29 // request opcode - b += 1 - - 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 += pad(int(MapSize)) - - return buf -} - -// Request XinputQueryDeviceState -// size: 8 -type XinputQueryDeviceStateCookie struct { - *cookie -} - -func (c *Conn) XinputQueryDeviceState(DeviceId byte) XinputQueryDeviceStateCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputQueryDeviceStateRequest(DeviceId), cookie) - return XinputQueryDeviceStateCookie{cookie} -} - -func (c *Conn) XinputQueryDeviceStateUnchecked(DeviceId byte) XinputQueryDeviceStateCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputQueryDeviceStateRequest(DeviceId), cookie) - return XinputQueryDeviceStateCookie{cookie} -} - -// Request reply for XinputQueryDeviceState -// size: 32 -type XinputQueryDeviceStateReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - NumClasses byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputQueryDeviceState -func (cook XinputQueryDeviceStateCookie) Reply() (*XinputQueryDeviceStateReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputQueryDeviceStateReply(buf), nil -} - -// Read reply into structure from buffer for XinputQueryDeviceState -func xinputQueryDeviceStateReply(buf []byte) *XinputQueryDeviceStateReply { - v := new(XinputQueryDeviceStateReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.NumClasses = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputQueryDeviceStateCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputQueryDeviceState -func (c *Conn) xinputQueryDeviceStateRequest(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 - - 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 XinputSendExtensionEvent -// size: pad(((16 + pad(((int(NumEvents) * 32) * 1))) + pad((int(NumClasses) * 4)))) -type XinputSendExtensionEventCookie struct { - *cookie -} - -// Write request to wire for XinputSendExtensionEvent -func (c *Conn) XinputSendExtensionEvent(Destination Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []XinputEventClass) XinputSendExtensionEventCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputSendExtensionEventRequest(Destination, DeviceId, Propagate, NumClasses, NumEvents, Events, Classes), cookie) - return XinputSendExtensionEventCookie{cookie} -} - -func (c *Conn) XinputSendExtensionEventChecked(Destination Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []XinputEventClass) XinputSendExtensionEventCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputSendExtensionEventRequest(Destination, DeviceId, Propagate, NumClasses, NumEvents, Events, Classes), cookie) - return XinputSendExtensionEventCookie{cookie} -} - -func (cook XinputSendExtensionEventCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSendExtensionEvent -func (c *Conn) xinputSendExtensionEventRequest(Destination Window, DeviceId byte, Propagate bool, NumClasses uint16, NumEvents byte, Events string, Classes []XinputEventClass) []byte { - size := pad(((16 + pad(((int(NumEvents) * 32) * 1))) + pad((int(NumClasses) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 31 // request opcode - b += 1 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put32(buf[b:], uint32(Destination)) - b += 4 - - buf[b] = DeviceId - b += 1 - - if Propagate { - buf[b] = 1 - } else { - buf[b] = 0 - } - b += 1 - - Put16(buf[b:], NumClasses) - b += 2 - - buf[b] = NumEvents - b += 1 - - b += 3 // padding - - copy(buf[b:], Events[:(int(NumEvents)*32)]) - b += pad(int((int(NumEvents) * 32))) - - for i := 0; i < int(NumClasses); i++ { - Put32(buf[b:], uint32(Classes[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputDeviceBell -// size: 8 -type XinputDeviceBellCookie struct { - *cookie -} - -// Write request to wire for XinputDeviceBell -func (c *Conn) XinputDeviceBell(DeviceId byte, FeedbackId byte, FeedbackClass byte, Percent int8) XinputDeviceBellCookie { - cookie := c.newCookie(false, false) - c.newRequest(c.xinputDeviceBellRequest(DeviceId, FeedbackId, FeedbackClass, Percent), cookie) - return XinputDeviceBellCookie{cookie} -} - -func (c *Conn) XinputDeviceBellChecked(DeviceId byte, FeedbackId byte, FeedbackClass byte, Percent int8) XinputDeviceBellCookie { - cookie := c.newCookie(true, false) - c.newRequest(c.xinputDeviceBellRequest(DeviceId, FeedbackId, FeedbackClass, Percent), cookie) - return XinputDeviceBellCookie{cookie} -} - -func (cook XinputDeviceBellCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputDeviceBell -func (c *Conn) xinputDeviceBellRequest(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 - - 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 XinputSetDeviceValuators -// size: pad((8 + pad((int(NumValuators) * 4)))) -type XinputSetDeviceValuatorsCookie struct { - *cookie -} - -func (c *Conn) XinputSetDeviceValuators(DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) XinputSetDeviceValuatorsCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputSetDeviceValuatorsRequest(DeviceId, FirstValuator, NumValuators, Valuators), cookie) - return XinputSetDeviceValuatorsCookie{cookie} -} - -func (c *Conn) XinputSetDeviceValuatorsUnchecked(DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) XinputSetDeviceValuatorsCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputSetDeviceValuatorsRequest(DeviceId, FirstValuator, NumValuators, Valuators), cookie) - return XinputSetDeviceValuatorsCookie{cookie} -} - -// Request reply for XinputSetDeviceValuators -// size: 32 -type XinputSetDeviceValuatorsReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputSetDeviceValuators -func (cook XinputSetDeviceValuatorsCookie) Reply() (*XinputSetDeviceValuatorsReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputSetDeviceValuatorsReply(buf), nil -} - -// Read reply into structure from buffer for XinputSetDeviceValuators -func xinputSetDeviceValuatorsReply(buf []byte) *XinputSetDeviceValuatorsReply { - v := new(XinputSetDeviceValuatorsReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputSetDeviceValuatorsCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputSetDeviceValuators -func (c *Conn) xinputSetDeviceValuatorsRequest(DeviceId byte, FirstValuator byte, NumValuators byte, Valuators []int32) []byte { - size := pad((8 + pad((int(NumValuators) * 4)))) - b := 0 - buf := make([]byte, size) - - buf[b] = c.extensions["XINPUTEXTENSION"] - b += 1 - - buf[b] = 33 // request opcode - b += 1 - - 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++ { - Put32(buf[b:], uint32(Valuators[i])) - b += 4 - } - b = pad(b) - - return buf -} - -// Request XinputGetDeviceControl -// size: 8 -type XinputGetDeviceControlCookie struct { - *cookie -} - -func (c *Conn) XinputGetDeviceControl(ControlId uint16, DeviceId byte) XinputGetDeviceControlCookie { - cookie := c.newCookie(true, true) - c.newRequest(c.xinputGetDeviceControlRequest(ControlId, DeviceId), cookie) - return XinputGetDeviceControlCookie{cookie} -} - -func (c *Conn) XinputGetDeviceControlUnchecked(ControlId uint16, DeviceId byte) XinputGetDeviceControlCookie { - cookie := c.newCookie(false, true) - c.newRequest(c.xinputGetDeviceControlRequest(ControlId, DeviceId), cookie) - return XinputGetDeviceControlCookie{cookie} -} - -// Request reply for XinputGetDeviceControl -// size: 32 -type XinputGetDeviceControlReply struct { - Sequence uint16 - Length uint32 - // padding: 1 bytes - Status byte - // padding: 23 bytes -} - -// Waits and reads reply data from request XinputGetDeviceControl -func (cook XinputGetDeviceControlCookie) Reply() (*XinputGetDeviceControlReply, error) { - buf, err := cook.reply() - if err != nil { - return nil, err - } - if buf == nil { - return nil, nil - } - return xinputGetDeviceControlReply(buf), nil -} - -// Read reply into structure from buffer for XinputGetDeviceControl -func xinputGetDeviceControlReply(buf []byte) *XinputGetDeviceControlReply { - v := new(XinputGetDeviceControlReply) - b := 1 // skip reply determinant - - b += 1 // padding - - v.Sequence = Get16(buf[b:]) - b += 2 - - v.Length = Get32(buf[b:]) // 4-byte units - b += 4 - - v.Status = buf[b] - b += 1 - - b += 23 // padding - - return v -} - -func (cook XinputGetDeviceControlCookie) Check() error { - return cook.check() -} - -// Write request to wire for XinputGetDeviceControl -func (c *Conn) xinputGetDeviceControlRequest(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 - - Put16(buf[b:], uint16(size/4)) // write request size in 4-byte units - b += 2 - - Put16(buf[b:], ControlId) - b += 2 - - buf[b] = DeviceId - b += 1 - - b += 1 // padding - - return buf -} |