本文整理汇总了Golang中github.com/BurntSushi/xgbutil.XUtil.TimeSet方法的典型用法代码示例。如果您正苦于以下问题:Golang XUtil.TimeSet方法的具体用法?Golang XUtil.TimeSet怎么用?Golang XUtil.TimeSet使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类github.com/BurntSushi/xgbutil.XUtil
的用法示例。
在下文中一共展示了XUtil.TimeSet方法的5个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: compressMotionNotify
// compressMotionNotify takes a MotionNotify event, and inspects the event
// queue for any future MotionNotify events that can be received without
// blocking. The most recent MotionNotify event is then returned.
// Note that we need to make sure that the Event, Child, Detail, State, Root
// and SameScreen fields are the same to ensure the same window/action is
// generating events. That is, we are only compressing the RootX, RootY,
// EventX and EventY fields.
// This function is not thread safe, since Peek returns a *copy* of the
// event queue---which could be out of date by the time we dequeue events.
func compressMotionNotify(X *xgbutil.XUtil,
ev xevent.MotionNotifyEvent) xevent.MotionNotifyEvent {
// We force a round trip request so that we make sure to read all
// available events.
X.Sync()
xevent.Read(X, false)
// The most recent MotionNotify event that we'll end up returning.
laste := ev
// Look through each event in the queue. If it's an event and it matches
// all the fields in 'ev' that are detailed above, then set it to 'laste'.
// In which case, we'll also dequeue the event, otherwise it will be
// processed twice!
// N.B. If our only goal was to find the most recent relevant MotionNotify
// event, we could traverse the event queue backwards and simply use
// the first MotionNotify we see. However, this could potentially leave
// other MotionNotify events in the queue, which we *don't* want to be
// processed. So we stride along and just pick off MotionNotify events
// until we don't see any more.
for i, ee := range xevent.Peek(X) {
if ee.Err != nil { // This is an error, skip it.
continue
}
// Use type assertion to make sure this is a MotionNotify event.
if mn, ok := ee.Event.(xproto.MotionNotifyEvent); ok {
// Now make sure all appropriate fields are equivalent.
if ev.Event == mn.Event && ev.Child == mn.Child &&
ev.Detail == mn.Detail && ev.State == mn.State &&
ev.Root == mn.Root && ev.SameScreen == mn.SameScreen {
// Set the most recent/valid motion notify event.
laste = xevent.MotionNotifyEvent{&mn}
// We cheat and use the stack semantics of defer to dequeue
// most recent motion notify events first, so that the indices
// don't become invalid. (If we dequeued oldest first, we'd
// have to account for all future events shifting to the left
// by one.)
defer func(i int) { xevent.DequeueAt(X, i) }(i)
}
}
}
// This isn't strictly necessary, but is correct. We should update
// xgbutil's sense of time with the most recent event processed.
// This is typically done in the main event loop, but since we are
// subverting the main event loop, we should take care of it.
X.TimeSet(laste.Time)
return laste
}
示例2: currentTime
// currentTime forcefully causes a PropertyNotify event to fire on the root
// window, then scans the event queue and picks up the time.
//
// It is NOT SAFE to call this function in a place other than Wingo's
// initialization. Namely, this function subverts xevent's queue and reads
// events directly from X.
func currentTime(X *xgbutil.XUtil) (xproto.Timestamp, error) {
wmClassAtom, err := xprop.Atm(X, "WM_CLASS")
if err != nil {
return 0, err
}
stringAtom, err := xprop.Atm(X, "STRING")
if err != nil {
return 0, err
}
// Make sure we're listening to PropertyChange events on the root window.
err = xwindow.New(X, X.RootWin()).Listen(xproto.EventMaskPropertyChange)
if err != nil {
return 0, fmt.Errorf(
"Could not listen to Root window events (PropertyChange): %s", err)
}
// Do a zero-length append on a property as suggested by ICCCM 2.1.
err = xproto.ChangePropertyChecked(
X.Conn(), xproto.PropModeAppend, X.RootWin(),
wmClassAtom, stringAtom, 8, 0, nil).Check()
if err != nil {
return 0, err
}
// Now look for the PropertyNotify generated by that zero-length append
// and return the timestamp attached to that event.
// Note that we do this outside of xgbutil/xevent, since ownership
// is literally the first thing we do after connecting to X.
// (i.e., we don't have our event handling system initialized yet.)
timeout := time.After(3 * time.Second)
for {
select {
case <-timeout:
return 0, fmt.Errorf(
"Expected a PropertyNotify event to get a valid timestamp, " +
"but never received one.")
default:
ev, err := X.Conn().PollForEvent()
if err != nil {
continue
}
if propNotify, ok := ev.(xproto.PropertyNotifyEvent); ok {
X.TimeSet(propNotify.Time) // why not?
return propNotify.Time, nil
}
time.Sleep(100 * time.Millisecond)
}
}
panic("unreachable")
}
示例3: dragStep
// dragStep executes the "step" function registered for the current drag.
// It also compresses the MotionNotify events.
func dragStep(xu *xgbutil.XUtil, ev xevent.MotionNotifyEvent) {
// If for whatever reason we don't have any *piece* of a grab,
// we've gotta back out.
if !mouseDrag(xu) || mouseDragStep(xu) == nil || mouseDragEnd(xu) == nil {
dragUngrab(xu)
mouseDragStepSet(xu, nil)
mouseDragEndSet(xu, nil)
return
}
// The most recent MotionNotify event that we'll end up returning.
laste := ev
// We force a round trip request so that we make sure to read all
// available events.
xu.Sync()
xevent.Read(xu, false)
// Compress MotionNotify events.
for i, ee := range xevent.Peek(xu) {
if ee.Err != nil { // This is an error, skip it.
continue
}
// Use type assertion to make sure this is a MotionNotify event.
if mn, ok := ee.Event.(xproto.MotionNotifyEvent); ok {
// Now make sure all appropriate fields are equivalent.
if ev.Event == mn.Event && ev.Child == mn.Child &&
ev.Detail == mn.Detail && ev.State == mn.State &&
ev.Root == mn.Root && ev.SameScreen == mn.SameScreen {
// Set the most recent/valid motion notify event.
laste = xevent.MotionNotifyEvent{&mn}
// We cheat and use the stack semantics of defer to dequeue
// most recent motion notify events first, so that the indices
// don't become invalid. (If we dequeued oldest first, we'd
// have to account for all future events shifting to the left
// by one.)
defer func(i int) { xevent.DequeueAt(xu, i) }(i)
}
}
}
xu.TimeSet(laste.Time)
// now actually run the step
mouseDragStep(xu)(xu, int(laste.RootX), int(laste.RootY),
int(laste.EventX), int(laste.EventY))
}
示例4: processEventQueue
// processEventQueue processes every item in the event/error queue.
func processEventQueue(xu *xgbutil.XUtil, pingBefore, pingAfter chan struct{}) {
for !Empty(xu) {
if Quitting(xu) {
return
}
// We send the ping *before* the next event is dequeued.
// This is so the queue doesn't present a misrepresentation of which
// events haven't been processed yet.
if pingBefore != nil && pingAfter != nil {
pingBefore <- struct{}{}
}
ev, err := Dequeue(xu)
// If we gobbled up an error, send it to the error event handler
// and move on the next event/error.
if err != nil {
ErrorHandlerGet(xu)(err)
if pingBefore != nil && pingAfter != nil {
pingAfter <- struct{}{}
}
continue
}
// We know there isn't an error. If there isn't an event either,
// then there's a bug somewhere.
if ev == nil {
xgbutil.Logger.Fatal("BUG: Expected an event but got nil.")
}
hooks := getHooks(xu)
for _, hook := range hooks {
if !hook.Run(xu, ev) {
goto END
}
}
switch event := ev.(type) {
case xproto.KeyPressEvent:
e := KeyPressEvent{&event}
// If we're redirecting key events, this is the place to do it!
if wid := RedirectKeyGet(xu); wid > 0 {
e.Event = wid
}
xu.TimeSet(e.Time)
runCallbacks(xu, e, KeyPress, e.Event)
case xproto.KeyReleaseEvent:
e := KeyReleaseEvent{&event}
// If we're redirecting key events, this is the place to do it!
if wid := RedirectKeyGet(xu); wid > 0 {
e.Event = wid
}
xu.TimeSet(e.Time)
runCallbacks(xu, e, KeyRelease, e.Event)
case xproto.ButtonPressEvent:
e := ButtonPressEvent{&event}
xu.TimeSet(e.Time)
runCallbacks(xu, e, ButtonPress, e.Event)
case xproto.ButtonReleaseEvent:
e := ButtonReleaseEvent{&event}
xu.TimeSet(e.Time)
runCallbacks(xu, e, ButtonRelease, e.Event)
case xproto.MotionNotifyEvent:
e := MotionNotifyEvent{&event}
xu.TimeSet(e.Time)
runCallbacks(xu, e, MotionNotify, e.Event)
case xproto.EnterNotifyEvent:
e := EnterNotifyEvent{&event}
xu.TimeSet(e.Time)
runCallbacks(xu, e, EnterNotify, e.Event)
case xproto.LeaveNotifyEvent:
e := LeaveNotifyEvent{&event}
xu.TimeSet(e.Time)
runCallbacks(xu, e, LeaveNotify, e.Event)
case xproto.FocusInEvent:
e := FocusInEvent{&event}
runCallbacks(xu, e, FocusIn, e.Event)
case xproto.FocusOutEvent:
e := FocusOutEvent{&event}
runCallbacks(xu, e, FocusOut, e.Event)
case xproto.KeymapNotifyEvent:
e := KeymapNotifyEvent{&event}
runCallbacks(xu, e, KeymapNotify, NoWindow)
case xproto.ExposeEvent:
e := ExposeEvent{&event}
runCallbacks(xu, e, Expose, e.Window)
case xproto.GraphicsExposureEvent:
e := GraphicsExposureEvent{&event}
runCallbacks(xu, e, GraphicsExposure, xproto.Window(e.Drawable))
case xproto.NoExposureEvent:
e := NoExposureEvent{&event}
runCallbacks(xu, e, NoExposure, xproto.Window(e.Drawable))
case xproto.VisibilityNotifyEvent:
e := VisibilityNotifyEvent{&event}
runCallbacks(xu, e, VisibilityNotify, e.Window)
//.........这里部分代码省略.........
示例5: New
func New(X *xgbutil.XUtil) (*SystemTray, error) {
tray := &SystemTray{
X: X,
}
var err error
if sysTrayAtom == 0 {
sysTrayAtom, err = xprop.Atom(X, "_NET_SYSTEM_TRAY_S0", false)
if err != nil {
return nil, err
}
}
if sysTrayMsgAtom == 0 {
sysTrayMsgAtom, err = xprop.Atom(X, "_NET_SYSTEM_TRAY_OPCODE", false)
if err != nil {
return nil, err
}
}
if managerEventAtom == 0 {
managerEventAtom, err = xprop.Atom(X, "MANAGER", false)
if err != nil {
return nil, err
}
}
tray.wid, err = xwindow.Create(X, X.RootWin())
if err != nil {
return nil, err
}
ts, err := currentTime(X)
if err != nil {
return nil, err
}
X.TimeSet(ts)
// tray.wid.Listen(xproto.EventMaskNoEvent | xproto.EventMaskPropertyChange)
err = xproto.SetSelectionOwnerChecked(tray.X.Conn(), tray.wid.Id, sysTrayAtom, tray.X.TimeGet()).Check()
if err != nil {
return nil, err
}
reply, err := xproto.GetSelectionOwner(X.Conn(), sysTrayAtom).Reply()
if err != nil {
return nil, err
}
if reply.Owner != tray.wid.Id {
return nil, fmt.Errorf("Could not get ownership of the thingy-thing.")
}
evt, err := xevent.NewClientMessage(32, X.RootWin(), managerEventAtom,
int(X.TimeGet()), int(sysTrayAtom), int(tray.wid.Id))
if err != nil {
return nil, err
}
if err = xevent.SendRootEvent(X, evt, xproto.EventMaskStructureNotify); err != nil {
return nil, err
}
xevent.ClientMessageFun(func(_ *xgbutil.XUtil, ev xevent.ClientMessageEvent) {
tray.event(ev)
}).Connect(tray.X, tray.wid.Id)
return tray, nil
}