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x11.go
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// Copyright 2014 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
//go:build linux && !android
// +build linux,!android
package app
/*
Simple on-screen app debugging for X11. Not an officially supported
development target for apps, as screens with mice are very different
than screens with touch panels.
*/
/*
#cgo LDFLAGS: -lEGL -lGLESv2 -lX11
void createWindow(void);
void processEvents(void);
void swapBuffers(void);
*/
import "C"
import (
"runtime"
"time"
"golang.org/x/mobile/event/lifecycle"
"golang.org/x/mobile/event/paint"
"golang.org/x/mobile/event/size"
"golang.org/x/mobile/event/touch"
"golang.org/x/mobile/geom"
)
func init() {
theApp.registerGLViewportFilter()
}
func main(f func(App)) {
runtime.LockOSThread()
workAvailable := theApp.worker.WorkAvailable()
C.createWindow()
// TODO: send lifecycle events when e.g. the X11 window is iconified or moved off-screen.
theApp.sendLifecycle(lifecycle.StageFocused)
// TODO: translate X11 expose events to shiny paint events, instead of
// sending this synthetic paint event as a hack.
theApp.eventsIn <- paint.Event{}
donec := make(chan struct{})
go func() {
// close the donec channel in a defer statement
// so that we could still be able to return even
// if f panics.
defer close(donec)
f(theApp)
}()
// TODO: can we get the actual vsync signal?
ticker := time.NewTicker(time.Second / 60)
defer ticker.Stop()
var tc <-chan time.Time
for {
select {
case <-donec:
return
case <-workAvailable:
theApp.worker.DoWork()
case <-theApp.publish:
C.swapBuffers()
tc = ticker.C
case <-tc:
tc = nil
theApp.publishResult <- PublishResult{}
}
C.processEvents()
}
}
//export onResize
func onResize(w, h int) {
// TODO(nigeltao): don't assume 72 DPI. DisplayWidth and DisplayWidthMM
// is probably the best place to start looking.
pixelsPerPt := float32(1)
theApp.eventsIn <- size.Event{
WidthPx: w,
HeightPx: h,
WidthPt: geom.Pt(w),
HeightPt: geom.Pt(h),
PixelsPerPt: pixelsPerPt,
}
}
func sendTouch(t touch.Type, x, y float32) {
theApp.eventsIn <- touch.Event{
X: x,
Y: y,
Sequence: 0, // TODO: button??
Type: t,
}
}
//export onTouchBegin
func onTouchBegin(x, y float32) { sendTouch(touch.TypeBegin, x, y) }
//export onTouchMove
func onTouchMove(x, y float32) { sendTouch(touch.TypeMove, x, y) }
//export onTouchEnd
func onTouchEnd(x, y float32) { sendTouch(touch.TypeEnd, x, y) }
var stopped bool
//export onStop
func onStop() {
if stopped {
return
}
stopped = true
theApp.sendLifecycle(lifecycle.StageDead)
theApp.eventsIn <- stopPumping{}
}