Files
gio-patched/app/os_ios.go
T
Elias Naur 36d1cd90f2 app,io/system: extract system events to separate package
Package app is the only package that depends on native libraries and
Cgo. Minimize its API, thereby minimizing Gio clients' dependency on
it. In the future, a headless, testing or remote "Window" should be
very easy to replace app.Window.

Signed-off-by: Elias Naur <mail@eliasnaur.com>
2019-10-14 16:20:20 +02:00

259 lines
4.9 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
// +build darwin,ios
package app
/*
#cgo CFLAGS: -fmodules -fobjc-arc -x objective-c
#include <CoreGraphics/CoreGraphics.h>
#include <UIKit/UIKit.h>
#include <stdint.h>
#include "os_ios.h"
*/
import "C"
import (
"image"
"runtime"
"runtime/debug"
"sync/atomic"
"time"
"gioui.org/f32"
"gioui.org/io/key"
"gioui.org/io/pointer"
"gioui.org/io/system"
"gioui.org/unit"
)
type window struct {
view C.CFTypeRef
w *Window
layer C.CFTypeRef
visible atomic.Value
pointerMap []C.CFTypeRef
}
var mainWindow = newWindowRendezvous()
var layerFactory func() uintptr
var views = make(map[C.CFTypeRef]*window)
func init() {
// Darwin requires UI operations happen on the main thread only.
runtime.LockOSThread()
}
//export onCreate
func onCreate(view C.CFTypeRef) {
w := &window{
view: view,
}
wopts := <-mainWindow.out
w.w = wopts.window
w.w.setDriver(w)
w.visible.Store(false)
w.layer = C.CFTypeRef(layerFactory())
C.gio_addLayerToView(view, w.layer)
views[view] = w
w.w.event(system.StageEvent{Stage: system.StagePaused})
}
//export onDraw
func onDraw(view C.CFTypeRef, dpi, sdpi, width, height C.CGFloat, sync C.int, top, right, bottom, left C.CGFloat) {
if width == 0 || height == 0 {
return
}
w := views[view]
wasVisible := w.isVisible()
w.visible.Store(true)
C.gio_updateView(view, w.layer)
if !wasVisible {
w.w.event(system.StageEvent{Stage: system.StageRunning})
}
isSync := false
if sync != 0 {
isSync = true
}
w.w.event(frameEvent{
FrameEvent: system.FrameEvent{
Size: image.Point{
X: int(width + .5),
Y: int(height + .5),
},
Insets: system.Insets{
Top: unit.Px(float32(top)),
Right: unit.Px(float32(right)),
Bottom: unit.Px(float32(bottom)),
Left: unit.Px(float32(left)),
},
Config: &config{
pxPerDp: float32(dpi) * inchPrDp,
pxPerSp: float32(sdpi) * inchPrDp,
now: time.Now(),
},
},
sync: isSync,
})
}
//export onStop
func onStop(view C.CFTypeRef) {
w := views[view]
w.visible.Store(false)
w.w.event(system.StageEvent{Stage: system.StagePaused})
}
//export onDestroy
func onDestroy(view C.CFTypeRef) {
w := views[view]
delete(views, view)
w.w.event(system.DestroyEvent{})
C.gio_removeLayer(w.layer)
C.CFRelease(w.layer)
w.layer = 0
w.view = 0
}
//export onFocus
func onFocus(view C.CFTypeRef, focus int) {
w := views[view]
w.w.event(key.FocusEvent{Focus: focus != 0})
}
//export onLowMemory
func onLowMemory() {
runtime.GC()
debug.FreeOSMemory()
}
//export onUpArrow
func onUpArrow(view C.CFTypeRef) {
views[view].onKeyCommand(key.NameUpArrow)
}
//export onDownArrow
func onDownArrow(view C.CFTypeRef) {
views[view].onKeyCommand(key.NameDownArrow)
}
//export onLeftArrow
func onLeftArrow(view C.CFTypeRef) {
views[view].onKeyCommand(key.NameLeftArrow)
}
//export onRightArrow
func onRightArrow(view C.CFTypeRef) {
views[view].onKeyCommand(key.NameRightArrow)
}
//export onDeleteBackward
func onDeleteBackward(view C.CFTypeRef) {
views[view].onKeyCommand(key.NameDeleteBackward)
}
//export onText
func onText(view C.CFTypeRef, str *C.char) {
w := views[view]
w.w.event(key.EditEvent{
Text: C.GoString(str),
})
}
//export onTouch
func onTouch(last C.int, view, touchRef C.CFTypeRef, phase C.NSInteger, x, y C.CGFloat, ti C.double) {
var typ pointer.Type
switch phase {
case C.UITouchPhaseBegan:
typ = pointer.Press
case C.UITouchPhaseMoved:
typ = pointer.Move
case C.UITouchPhaseEnded:
typ = pointer.Release
case C.UITouchPhaseCancelled:
typ = pointer.Cancel
default:
return
}
w := views[view]
t := time.Duration(float64(ti) * float64(time.Second))
p := f32.Point{X: float32(x), Y: float32(y)}
w.w.event(pointer.Event{
Type: typ,
Source: pointer.Touch,
PointerID: w.lookupTouch(last != 0, touchRef),
Position: p,
Time: t,
})
}
func (w *window) setAnimating(anim bool) {
if w.view == 0 {
return
}
var animi C.int
if anim {
animi = 1
}
C.gio_setAnimating(w.view, animi)
}
func (w *window) onKeyCommand(name rune) {
w.w.event(key.Event{
Name: name,
})
}
// lookupTouch maps an UITouch pointer value to an index. If
// last is set, the map is cleared.
func (w *window) lookupTouch(last bool, touch C.CFTypeRef) pointer.ID {
id := -1
for i, ref := range w.pointerMap {
if ref == touch {
id = i
break
}
}
if id == -1 {
id = len(w.pointerMap)
w.pointerMap = append(w.pointerMap, touch)
}
if last {
w.pointerMap = w.pointerMap[:0]
}
return pointer.ID(id)
}
func (w *window) contextLayer() uintptr {
return uintptr(w.layer)
}
func (w *window) isVisible() bool {
return w.visible.Load().(bool)
}
func (w *window) showTextInput(show bool) {
if w.view == 0 {
return
}
if show {
C.gio_showTextInput(w.view)
} else {
C.gio_hideTextInput(w.view)
}
}
func createWindow(win *Window, opts *windowOptions) error {
mainWindow.in <- windowAndOptions{win, opts}
return <-mainWindow.errs
}
func main() {
}