// Copyright 2016 Hajime Hoshi // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. //go:build (android || ios) && !ebitencbackend // +build android ios // +build !ebitencbackend package ui import ( "fmt" "runtime/debug" "sync" "sync/atomic" "unicode" "golang.org/x/mobile/app" "golang.org/x/mobile/event/key" "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/gl" "github.com/hajimehoshi/ebiten/v2/internal/devicescale" "github.com/hajimehoshi/ebiten/v2/internal/gamepad" "github.com/hajimehoshi/ebiten/v2/internal/graphicscommand" "github.com/hajimehoshi/ebiten/v2/internal/graphicsdriver" "github.com/hajimehoshi/ebiten/v2/internal/graphicsdriver/opengl" "github.com/hajimehoshi/ebiten/v2/internal/hooks" "github.com/hajimehoshi/ebiten/v2/internal/restorable" "github.com/hajimehoshi/ebiten/v2/internal/thread" ) var ( glContextCh = make(chan gl.Context, 1) // renderCh receives when updating starts. renderCh = make(chan struct{}) // renderEndCh receives when updating finishes. renderEndCh = make(chan struct{}) ) func init() { theUI.userInterfaceImpl = userInterfaceImpl{ foreground: 1, errCh: make(chan error), // Give a default outside size so that the game can start without initializing them. outsideWidth: 640, outsideHeight: 480, } theUI.input.ui = &theUI.userInterfaceImpl } // Update is called from mobile/ebitenmobileview. // // Update must be called on the rendering thread. func (u *userInterfaceImpl) Update() error { select { case err := <-u.errCh: return err default: } if !u.IsFocused() { return nil } gamepad.Update() renderCh <- struct{}{} go func() { <-renderEndCh u.t.Stop() }() u.t.Loop() return nil } type userInterfaceImpl struct { graphicsDriver graphicsdriver.Graphics outsideWidth float64 outsideHeight float64 foreground int32 errCh chan error // Used for gomobile-build gbuildWidthPx int gbuildHeightPx int setGBuildSizeCh chan struct{} once sync.Once context *contextImpl input Input fpsMode FPSModeType renderRequester RenderRequester t *thread.OSThread m sync.RWMutex } func deviceScale() float64 { return devicescale.GetAt(0, 0) } // appMain is the main routine for gomobile-build mode. func (u *userInterfaceImpl) appMain(a app.App) { var glctx gl.Context var sizeInited bool touches := map[touch.Sequence]Touch{} keys := map[Key]struct{}{} for e := range a.Events() { var updateInput bool var runes []rune switch e := a.Filter(e).(type) { case lifecycle.Event: switch e.Crosses(lifecycle.StageVisible) { case lifecycle.CrossOn: if err := u.SetForeground(true); err != nil { // There are no other ways than panicking here. panic(err) } restorable.OnContextLost() glctx, _ = e.DrawContext.(gl.Context) // Assume that glctx is always a same instance. // Then, only once initializing should be enough. if glContextCh != nil { glContextCh <- glctx glContextCh = nil } a.Send(paint.Event{}) case lifecycle.CrossOff: if err := u.SetForeground(false); err != nil { // There are no other ways than panicking here. panic(err) } glctx = nil } case size.Event: u.setGBuildSize(e.WidthPx, e.HeightPx) sizeInited = true case paint.Event: if !sizeInited { a.Send(paint.Event{}) continue } if glctx == nil || e.External { continue } renderCh <- struct{}{} <-renderEndCh a.Publish() a.Send(paint.Event{}) case touch.Event: if !sizeInited { continue } switch e.Type { case touch.TypeBegin, touch.TypeMove: s := deviceScale() x, y := float64(e.X)/s, float64(e.Y)/s // TODO: Is it ok to cast from int64 to int here? touches[e.Sequence] = Touch{ ID: TouchID(e.Sequence), X: int(x), Y: int(y), } case touch.TypeEnd: delete(touches, e.Sequence) } updateInput = true case key.Event: k, ok := gbuildKeyToUIKey[e.Code] if ok { switch e.Direction { case key.DirPress, key.DirNone: keys[k] = struct{}{} case key.DirRelease: delete(keys, k) } } switch e.Direction { case key.DirPress, key.DirNone: if e.Rune != -1 && unicode.IsPrint(e.Rune) { runes = []rune{e.Rune} } } updateInput = true } if updateInput { var ts []Touch for _, t := range touches { ts = append(ts, t) } u.input.update(keys, runes, ts) } } } func (u *userInterfaceImpl) SetForeground(foreground bool) error { var v int32 if foreground { v = 1 } atomic.StoreInt32(&u.foreground, v) if foreground { return hooks.ResumeAudio() } else { return hooks.SuspendAudio() } } func (u *userInterfaceImpl) Run(game Game) error { u.setGBuildSizeCh = make(chan struct{}) go func() { if err := u.run(game, true); err != nil { // As mobile apps never ends, Loop can't return. Just panic here. panic(err) } }() app.Main(u.appMain) return nil } func RunWithoutMainLoop(game Game) { theUI.runWithoutMainLoop(game) } func (u *userInterfaceImpl) runWithoutMainLoop(game Game) { go func() { if err := u.run(game, false); err != nil { u.errCh <- err } }() } func (u *userInterfaceImpl) run(game Game, mainloop bool) (err error) { // Convert the panic to a regular error so that Java/Objective-C layer can treat this easily e.g., for // Crashlytics. A panic is treated as SIGABRT, and there is no way to handle this on Java/Objective-C layer // unfortunately. // TODO: Panic on other goroutines cannot be handled here. defer func() { if r := recover(); r != nil { err = fmt.Errorf("%v\n%s", r, string(debug.Stack())) } }() u.context = newContextImpl(game) u.graphicsDriver = graphicsDriver() if mainloop { // When mainloop is true, gomobile-build is used. In this case, GL functions must be called via // gl.Context so that they are called on the appropriate thread. ctx := <-glContextCh u.graphicsDriver.(*opengl.Graphics).SetGomobileGLContext(ctx) } else { u.t = thread.NewOSThread() graphicscommand.SetRenderingThread(u.t) } // If gomobile-build is used, wait for the outside size fixed. if u.setGBuildSizeCh != nil { <-u.setGBuildSizeCh } for { if err := u.update(); err != nil { return err } } } // outsideSize must be called on the same goroutine as update(). func (u *userInterfaceImpl) outsideSize() (float64, float64) { var outsideWidth, outsideHeight float64 u.m.RLock() if u.gbuildWidthPx == 0 || u.gbuildHeightPx == 0 { outsideWidth = u.outsideWidth outsideHeight = u.outsideHeight } else { // gomobile build d := deviceScale() outsideWidth = float64(u.gbuildWidthPx) / d outsideHeight = float64(u.gbuildHeightPx) / d } u.m.RUnlock() return outsideWidth, outsideHeight } func (u *userInterfaceImpl) update() error { <-renderCh defer func() { renderEndCh <- struct{}{} }() w, h := u.outsideSize() if err := u.context.updateFrame(u.graphicsDriver, w, h, deviceScale()); err != nil { return err } return nil } func (u *userInterfaceImpl) ScreenSizeInFullscreen() (int, int) { // TODO: This function should return gbuildWidthPx, gbuildHeightPx, // but these values are not initialized until the main loop starts. return 0, 0 } // SetOutsideSize is called from mobile/ebitenmobileview. // // SetOutsideSize is concurrent safe. func (u *userInterfaceImpl) SetOutsideSize(outsideWidth, outsideHeight float64) { u.m.Lock() if u.outsideWidth != outsideWidth || u.outsideHeight != outsideHeight { u.outsideWidth = outsideWidth u.outsideHeight = outsideHeight } u.m.Unlock() } func (u *userInterfaceImpl) setGBuildSize(widthPx, heightPx int) { u.m.Lock() u.gbuildWidthPx = widthPx u.gbuildHeightPx = heightPx u.m.Unlock() u.once.Do(func() { close(u.setGBuildSizeCh) }) } func (u *userInterfaceImpl) adjustPosition(x, y int) (int, int) { xf, yf := u.context.adjustPosition(float64(x), float64(y), deviceScale()) return int(xf), int(yf) } func (u *userInterfaceImpl) CursorMode() CursorMode { return CursorModeHidden } func (u *userInterfaceImpl) SetCursorMode(mode CursorMode) { // Do nothing } func (u *userInterfaceImpl) CursorShape() CursorShape { return CursorShapeDefault } func (u *userInterfaceImpl) SetCursorShape(shape CursorShape) { // Do nothing } func (u *userInterfaceImpl) IsFullscreen() bool { return false } func (u *userInterfaceImpl) SetFullscreen(fullscreen bool) { // Do nothing } func (u *userInterfaceImpl) IsFocused() bool { return atomic.LoadInt32(&u.foreground) != 0 } func (u *userInterfaceImpl) IsRunnableOnUnfocused() bool { return false } func (u *userInterfaceImpl) SetRunnableOnUnfocused(runnableOnUnfocused bool) { // Do nothing } func (u *userInterfaceImpl) SetFPSMode(mode FPSModeType) { u.fpsMode = mode u.updateExplicitRenderingModeIfNeeded() } func (u *userInterfaceImpl) updateExplicitRenderingModeIfNeeded() { if u.renderRequester == nil { return } u.renderRequester.SetExplicitRenderingMode(u.fpsMode == FPSModeVsyncOffMinimum) } func (u *userInterfaceImpl) DeviceScaleFactor() float64 { return deviceScale() } func (u *userInterfaceImpl) SetScreenTransparent(transparent bool) { // Do nothing } func (u *userInterfaceImpl) IsScreenTransparent() bool { return false } func (u *userInterfaceImpl) resetForTick() { u.input.resetForTick() } func (u *userInterfaceImpl) SetInitFocused(focused bool) { // Do nothing } func (u *userInterfaceImpl) Input() *Input { return &u.input } func (u *userInterfaceImpl) Window() *Window { return &Window{} } type Touch struct { ID TouchID X int Y int } func (u *userInterfaceImpl) UpdateInput(keys map[Key]struct{}, runes []rune, touches []Touch) { u.input.update(keys, runes, touches) if u.fpsMode == FPSModeVsyncOffMinimum { u.renderRequester.RequestRenderIfNeeded() } } type RenderRequester interface { SetExplicitRenderingMode(explicitRendering bool) RequestRenderIfNeeded() } func (u *userInterfaceImpl) SetRenderRequester(renderRequester RenderRequester) { u.renderRequester = renderRequester u.updateExplicitRenderingModeIfNeeded() } func (u *userInterfaceImpl) ScheduleFrame() { if u.renderRequester != nil && u.fpsMode == FPSModeVsyncOffMinimum { u.renderRequester.RequestRenderIfNeeded() } }