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// 6 july 2014
package ui
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import (
"runtime"
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"sync"
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"unsafe"
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"reflect"
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)
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// Go initializes and runs package ui.
// It returns a non-nil error if initialization fails.
// Otherwise, it will run the event loop and not return until Stop is called.
// Due to platform-specific issues, it must be called from the main OS thread; in general, do not call Go() from anywhere except main() (including any goroutines).
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func Go ( ) error {
runtime . LockOSThread ( )
if err := uiinit ( ) ; err != nil {
return err
}
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go uiissueloop ( )
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uimsgloop ( )
return nil
}
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// To ensure that Do() and Stop() only do things after Go() has been called, this channel accepts the requests to issue. The issuing is done by uiissueloop() below.
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// Notice that this is a pointer ot a function. See Do() below for details.
var issuer = make ( chan * func ( ) )
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// Do performs f on the main loop, as if it were an event handler.
// It waits for f to execute before returning.
// Do cannot be called within event handlers or within Do itself.
func Do ( f func ( ) ) {
done := make ( chan struct { } )
defer close ( done )
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// THIS MUST BE A POINTER.
// Previously, the pointer was constructed within issue().
// This meant that if the Do() was stalled, the garbage collector came in and reused the pointer value too soon!
call := func ( ) {
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f ( )
done <- struct { } { }
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}
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issuer <- & call
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<- done
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}
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// Stop informs package ui that it should stop.
// Stop then returns immediately.
// Some time after this request is received, Go() will return without performing any final cleanup.
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// Stop will not have an effect until any event handlers return.
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func Stop ( ) {
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// can't send this directly across issuer
go func ( ) {
Do ( uistop )
} ( )
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}
func uiissueloop ( ) {
for f := range issuer {
issue ( f )
}
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}
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type event struct {
// All events internally return bool; those that don't will be wrapped around to return a dummy value.
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do func ( ) bool
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lock sync . Mutex
}
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func newEvent ( ) * event {
return & event {
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do : func ( ) bool {
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return false
} ,
}
}
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func ( e * event ) set ( f func ( ) ) {
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e . lock . Lock ( )
defer e . lock . Unlock ( )
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if f == nil {
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f = func ( ) { }
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}
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e . do = func ( ) bool {
f ( )
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return false
}
}
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func ( e * event ) setbool ( f func ( ) bool ) {
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e . lock . Lock ( )
defer e . lock . Unlock ( )
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if f == nil {
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f = func ( ) bool {
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return false
}
}
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e . do = f
}
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// This is the common code for running an event.
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// It runs on the main thread without a message pump; it provides its own.
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func ( e * event ) fire ( ) bool {
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e . lock . Lock ( )
defer e . lock . Unlock ( )
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return e . do ( )
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}
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// Common code for performing a requested action (ui.Do() or ui.Stop()).
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// This should run on the main thread.
// Implementations of issue() should call this.
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func perform ( fp unsafe . Pointer ) {
f := ( * func ( ) ) ( fp )
( * f ) ( )
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}
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// ForeignEvent wraps a channel in such a way that it can be used safely with package ui.
type ForeignEvent struct {
c reflect . Value
e * event
d interface { }
}
// NewForeignEvent creates a new ForeignEvent with the specified channel.
// It panics if the argument is not a receivable channel.
// The returned ForeignEvent assumes ownership of the channel.
// Each time a value is received on the channel, the returned function is invoked on the main thread.
func NewForeignEvent ( channel interface { } , handler func ( data interface { } ) ) * ForeignEvent {
c := reflect . ValueOf ( channel )
t := c . Type ( )
if t . Kind ( ) != reflect . Chan || ( t . ChanDir ( ) & reflect . RecvDir ) == 0 {
panic ( "non-channel or non-receivable channel passed to NewForeignEvent()" )
}
fe := & ForeignEvent {
c : c ,
e : newEvent ( ) ,
}
fe . e . set ( func ( ) {
handler ( fe . d )
} )
go fe . do ( )
return fe
}
func ( fe * ForeignEvent ) do ( ) {
wait := make ( chan struct { } )
defer close ( wait )
for {
v , ok := fe . c . Recv ( )
if ! ok {
break
}
fe . d = v . Interface ( )
Do ( func ( ) {
fe . e . fire ( )
wait <- struct { } { }
} )
<- wait
}
}
// Stop ceases all future invocations of the handler passed to NewForeignEvent() on fe; the values read from the channel are merely discarded.
func ( fe * ForeignEvent ) Stop ( ) {
fe . e . set ( nil )
}