// Copyright 2015 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 && !js && !ios // +build !android,!js,!ios package glfw import ( "fmt" "image" "os" "runtime" "sync" "sync/atomic" "time" "github.com/hajimehoshi/ebiten/v2/internal/devicescale" "github.com/hajimehoshi/ebiten/v2/internal/driver" "github.com/hajimehoshi/ebiten/v2/internal/glfw" "github.com/hajimehoshi/ebiten/v2/internal/hooks" "github.com/hajimehoshi/ebiten/v2/internal/thread" ) func driverCursorModeToGLFWCursorMode(mode driver.CursorMode) int { switch mode { case driver.CursorModeVisible: return glfw.CursorNormal case driver.CursorModeHidden: return glfw.CursorHidden case driver.CursorModeCaptured: return glfw.CursorDisabled default: panic(fmt.Sprintf("glfw: invalid driver.CursorMode: %d", mode)) } } type UserInterface struct { context driver.UIContext title string window *glfw.Window // windowWidthInDIP and windowHeightInDIP represents a window size. // The units are device-independent pixels. windowWidthInDIP int windowHeightInDIP int // The units are device-independent pixels. minWindowWidthInDIP int minWindowHeightInDIP int maxWindowWidthInDIP int maxWindowHeightInDIP int running uint32 origPosX int origPosY int runnableOnUnfocused bool fpsMode driver.FPSMode iconImages []image.Image cursorShape driver.CursorShape windowClosingHandled bool windowBeingClosed bool // setSizeCallbackEnabled must be accessed from the main thread. setSizeCallbackEnabled bool // err must be accessed from the main thread. err error lastDeviceScaleFactor float64 // These values are not changed after initialized. // TODO: the fullscreen size should be updated when the initial window position is changed? initMonitor *glfw.Monitor initFullscreenWidthInDIP int initFullscreenHeightInDIP int initTitle string initFPSMode driver.FPSMode initFullscreen bool initCursorMode driver.CursorMode initWindowDecorated bool initWindowResizable bool initWindowPositionXInDIP int initWindowPositionYInDIP int initWindowWidthInDIP int initWindowHeightInDIP int initWindowFloating bool initWindowMaximized bool initScreenTransparent bool initFocused bool fpsModeInited bool input Input iwindow window sizeCallback glfw.SizeCallback closeCallback glfw.CloseCallback framebufferSizeCallback glfw.FramebufferSizeCallback framebufferSizeCallbackCh chan struct{} t thread.Thread m sync.RWMutex } const ( maxInt = int(^uint(0) >> 1) minInt = -maxInt - 1 invalidPos = minInt ) var ( theUI = &UserInterface{ runnableOnUnfocused: true, minWindowWidthInDIP: glfw.DontCare, minWindowHeightInDIP: glfw.DontCare, maxWindowWidthInDIP: glfw.DontCare, maxWindowHeightInDIP: glfw.DontCare, origPosX: invalidPos, origPosY: invalidPos, initFPSMode: driver.FPSModeVsyncOn, initCursorMode: driver.CursorModeVisible, initWindowDecorated: true, initWindowPositionXInDIP: invalidPos, initWindowPositionYInDIP: invalidPos, initWindowWidthInDIP: 640, initWindowHeightInDIP: 480, initFocused: true, fpsMode: driver.FPSModeVsyncOn, } ) func init() { theUI.input.ui = theUI theUI.iwindow.ui = theUI } func Get() *UserInterface { return theUI } func init() { hideConsoleWindowOnWindows() if err := initialize(); err != nil { panic(err) } glfw.SetMonitorCallback(func(monitor *glfw.Monitor, event glfw.PeripheralEvent) { updateMonitors() }) updateMonitors() } var glfwSystemCursors = map[driver.CursorShape]*glfw.Cursor{} func initialize() error { if err := glfw.Init(); err != nil { return err } glfw.WindowHint(glfw.Visible, glfw.False) glfw.WindowHint(glfw.ClientAPI, glfw.NoAPI) // Create a window to set the initial monitor. w, err := glfw.CreateWindow(16, 16, "", nil, nil) if err != nil { return err } if w == nil { // This can happen on Windows Remote Desktop (#903). panic("glfw: glfw.CreateWindow must not return nil") } defer w.Destroy() initializeWindowAfterCreation(w) theUI.waitForFramebufferSizeCallback(w, nil) m := initialMonitor(w) theUI.initMonitor = m v := m.GetVideoMode() theUI.initFullscreenWidthInDIP = int(theUI.dipFromGLFWMonitorPixel(float64(v.Width), m)) theUI.initFullscreenHeightInDIP = int(theUI.dipFromGLFWMonitorPixel(float64(v.Height), m)) // Create system cursors. These cursors are destroyed at glfw.Terminate(). glfwSystemCursors[driver.CursorShapeDefault] = nil glfwSystemCursors[driver.CursorShapeText] = glfw.CreateStandardCursor(glfw.IBeamCursor) glfwSystemCursors[driver.CursorShapeCrosshair] = glfw.CreateStandardCursor(glfw.CrosshairCursor) glfwSystemCursors[driver.CursorShapePointer] = glfw.CreateStandardCursor(glfw.HandCursor) glfwSystemCursors[driver.CursorShapeEWResize] = glfw.CreateStandardCursor(glfw.HResizeCursor) glfwSystemCursors[driver.CursorShapeNSResize] = glfw.CreateStandardCursor(glfw.VResizeCursor) return nil } type monitor struct { m *glfw.Monitor vm *glfw.VidMode // Pos of monitor in virtual coords x int y int } // monitors is the monitor list cache for desktop glfw compile targets. // populated by 'updateMonitors' which is called on init and every // monitor config change event. // // monitors must be manipulated on the main thread. var monitors []*monitor func updateMonitors() { monitors = nil ms := glfw.GetMonitors() for _, m := range ms { x, y := m.GetPos() monitors = append(monitors, &monitor{ m: m, vm: m.GetVideoMode(), x: x, y: y, }) } clearVideoModeScaleCache() devicescale.ClearCache() } func ensureMonitors() []*monitor { if len(monitors) == 0 { updateMonitors() } return monitors } // getMonitorFromPosition returns a monitor for the given window x/y, // or returns nil if monitor is not found. // // getMonitorFromPosition must be called on the main thread. func getMonitorFromPosition(wx, wy int) *monitor { for _, m := range ensureMonitors() { // TODO: Fix incorrectness in the cases of https://github.com/glfw/glfw/issues/1961. // See also internal/devicescale/impl_desktop.go for a maybe better way of doing this. if m.x <= wx && wx < m.x+m.vm.Width && m.y <= wy && wy < m.y+m.vm.Height { return m } } return nil } func (u *UserInterface) isRunning() bool { return atomic.LoadUint32(&u.running) != 0 } func (u *UserInterface) setRunning(running bool) { if running { atomic.StoreUint32(&u.running, 1) } else { atomic.StoreUint32(&u.running, 0) } } func (u *UserInterface) getWindowSizeLimitsInDIP() (minw, minh, maxw, maxh int) { u.m.RLock() defer u.m.RUnlock() return u.minWindowWidthInDIP, u.minWindowHeightInDIP, u.maxWindowWidthInDIP, u.maxWindowHeightInDIP } func (u *UserInterface) setWindowSizeLimitsInDIP(minw, minh, maxw, maxh int) bool { u.m.RLock() defer u.m.RUnlock() if u.minWindowWidthInDIP == minw && u.minWindowHeightInDIP == minh && u.maxWindowWidthInDIP == maxw && u.maxWindowHeightInDIP == maxh { return false } u.minWindowWidthInDIP = minw u.minWindowHeightInDIP = minh u.maxWindowWidthInDIP = maxw u.maxWindowHeightInDIP = maxh return true } func (u *UserInterface) getInitTitle() string { u.m.RLock() v := u.initTitle u.m.RUnlock() return v } func (u *UserInterface) setInitTitle(title string) { u.m.RLock() u.initTitle = title u.m.RUnlock() } func (u *UserInterface) getInitFPSMode() driver.FPSMode { u.m.RLock() v := u.initFPSMode u.m.RUnlock() return v } func (u *UserInterface) isInitFullscreen() bool { u.m.RLock() v := u.initFullscreen u.m.RUnlock() return v } func (u *UserInterface) setInitFullscreen(initFullscreen bool) { u.m.Lock() u.initFullscreen = initFullscreen u.m.Unlock() } func (u *UserInterface) getInitCursorMode() driver.CursorMode { u.m.RLock() v := u.initCursorMode u.m.RUnlock() return v } func (u *UserInterface) setInitCursorMode(mode driver.CursorMode) { u.m.Lock() u.initCursorMode = mode u.m.Unlock() } func (u *UserInterface) getCursorShape() driver.CursorShape { u.m.RLock() v := u.cursorShape u.m.RUnlock() return v } func (u *UserInterface) setCursorShape(shape driver.CursorShape) driver.CursorShape { u.m.Lock() old := u.cursorShape u.cursorShape = shape u.m.Unlock() return old } func (u *UserInterface) isInitWindowDecorated() bool { u.m.RLock() v := u.initWindowDecorated u.m.RUnlock() return v } func (u *UserInterface) setInitWindowDecorated(decorated bool) { u.m.Lock() u.initWindowDecorated = decorated u.m.Unlock() } func (u *UserInterface) isRunnableOnUnfocused() bool { u.m.RLock() v := u.runnableOnUnfocused u.m.RUnlock() return v } func (u *UserInterface) setRunnableOnUnfocused(runnableOnUnfocused bool) { u.m.Lock() u.runnableOnUnfocused = runnableOnUnfocused u.m.Unlock() } func (u *UserInterface) isInitWindowResizable() bool { u.m.RLock() v := u.initWindowResizable u.m.RUnlock() return v } func (u *UserInterface) setInitWindowResizable(resizable bool) { u.m.Lock() u.initWindowResizable = resizable u.m.Unlock() } func (u *UserInterface) isInitScreenTransparent() bool { u.m.RLock() v := u.initScreenTransparent u.m.RUnlock() return v } func (u *UserInterface) setInitScreenTransparent(transparent bool) { u.m.RLock() u.initScreenTransparent = transparent u.m.RUnlock() } func (u *UserInterface) getIconImages() []image.Image { u.m.RLock() i := u.iconImages u.m.RUnlock() return i } func (u *UserInterface) setIconImages(iconImages []image.Image) { u.m.Lock() u.iconImages = iconImages u.m.Unlock() } func (u *UserInterface) getInitWindowPositionInDIP() (int, int) { u.m.RLock() defer u.m.RUnlock() if u.initWindowPositionXInDIP != invalidPos && u.initWindowPositionYInDIP != invalidPos { return u.initWindowPositionXInDIP, u.initWindowPositionYInDIP } return invalidPos, invalidPos } func (u *UserInterface) setInitWindowPositionInDIP(x, y int) { u.m.Lock() defer u.m.Unlock() u.initWindowPositionXInDIP = x u.initWindowPositionYInDIP = y } func (u *UserInterface) getInitWindowSizeInDIP() (int, int) { u.m.Lock() w, h := u.initWindowWidthInDIP, u.initWindowHeightInDIP u.m.Unlock() return w, h } func (u *UserInterface) setInitWindowSizeInDIP(width, height int) { u.m.Lock() u.initWindowWidthInDIP, u.initWindowHeightInDIP = width, height u.m.Unlock() } func (u *UserInterface) isInitWindowFloating() bool { u.m.Lock() f := u.initWindowFloating u.m.Unlock() return f } func (u *UserInterface) setInitWindowFloating(floating bool) { u.m.Lock() u.initWindowFloating = floating u.m.Unlock() } func (u *UserInterface) isInitWindowMaximized() bool { u.m.Lock() m := u.initWindowMaximized u.m.Unlock() return m } func (u *UserInterface) setInitWindowMaximized(maximized bool) { u.m.Lock() u.initWindowMaximized = maximized u.m.Unlock() } func (u *UserInterface) isWindowClosingHandled() bool { u.m.Lock() v := u.windowClosingHandled u.m.Unlock() return v } func (u *UserInterface) setWindowClosingHandled(handled bool) { u.m.Lock() u.windowClosingHandled = handled u.m.Unlock() } func (u *UserInterface) isWindowBeingClosed() bool { u.m.Lock() v := u.windowBeingClosed u.m.Unlock() return v } func (u *UserInterface) isInitFocused() bool { u.m.Lock() v := u.initFocused u.m.Unlock() return v } func (u *UserInterface) setInitFocused(focused bool) { u.m.Lock() u.initFocused = focused u.m.Unlock() } func (u *UserInterface) ScreenSizeInFullscreen() (int, int) { if !u.isRunning() { return u.initFullscreenWidthInDIP, u.initFullscreenHeightInDIP } var w, h int _ = u.t.Call(func() error { m := u.currentMonitor() v := m.GetVideoMode() w = int(u.dipFromGLFWMonitorPixel(float64(v.Width), m)) h = int(u.dipFromGLFWMonitorPixel(float64(v.Height), m)) return nil }) return w, h } // isFullscreen must be called from the main thread. func (u *UserInterface) isFullscreen() bool { if !u.isRunning() { panic("glfw: isFullscreen can't be called before the main loop starts") } return u.window.GetMonitor() != nil || u.isNativeFullscreen() } func (u *UserInterface) IsFullscreen() bool { if !u.isRunning() { return u.isInitFullscreen() } b := false _ = u.t.Call(func() error { b = u.isFullscreen() return nil }) return b } func (u *UserInterface) SetFullscreen(fullscreen bool) { if !u.isRunning() { u.setInitFullscreen(fullscreen) return } var update bool _ = u.t.Call(func() error { update = u.isFullscreen() != fullscreen return nil }) if !update { return } _ = u.t.Call(func() error { w, h := u.windowWidthInDIP, u.windowHeightInDIP u.setWindowSizeInDIP(w, h, fullscreen) return nil }) } func (u *UserInterface) IsFocused() bool { if !u.isRunning() { return false } var focused bool _ = u.t.Call(func() error { focused = u.window.GetAttrib(glfw.Focused) == glfw.True return nil }) return focused } func (u *UserInterface) SetRunnableOnUnfocused(runnableOnUnfocused bool) { u.setRunnableOnUnfocused(runnableOnUnfocused) } func (u *UserInterface) IsRunnableOnUnfocused() bool { return u.isRunnableOnUnfocused() } func (u *UserInterface) SetFPSMode(mode driver.FPSMode) { if !u.isRunning() { // In general, m is used for locking init* values. // m is not used for updating vsync in setWindowSize so far, but // it should be OK since any goroutines can't reach here when // the game already starts and setWindowSize can be called. u.m.Lock() u.initFPSMode = mode u.m.Unlock() return } _ = u.t.Call(func() error { if !u.fpsModeInited { u.m.Lock() u.initFPSMode = mode u.m.Unlock() return nil } u.setFPSMode(mode) u.updateVsync() return nil }) } func (u *UserInterface) FPSMode() driver.FPSMode { if !u.isRunning() { return u.getInitFPSMode() } var v driver.FPSMode _ = u.t.Call(func() error { if !u.fpsModeInited { v = u.getInitFPSMode() return nil } v = u.fpsMode return nil }) return v } func (u *UserInterface) ScheduleFrame() { if !u.isRunning() { return } // As the main thread can be blocked, do not check the current FPS mode. // PostEmptyEvent is concurrent safe. glfw.PostEmptyEvent() } func (u *UserInterface) CursorMode() driver.CursorMode { if !u.isRunning() { return u.getInitCursorMode() } var v driver.CursorMode _ = u.t.Call(func() error { mode := u.window.GetInputMode(glfw.CursorMode) switch mode { case glfw.CursorNormal: v = driver.CursorModeVisible case glfw.CursorHidden: v = driver.CursorModeHidden case glfw.CursorDisabled: v = driver.CursorModeCaptured default: panic(fmt.Sprintf("glfw: invalid GLFW cursor mode: %d", mode)) } return nil }) return v } func (u *UserInterface) SetCursorMode(mode driver.CursorMode) { if !u.isRunning() { u.setInitCursorMode(mode) return } _ = u.t.Call(func() error { u.window.SetInputMode(glfw.CursorMode, driverCursorModeToGLFWCursorMode(mode)) return nil }) } func (u *UserInterface) CursorShape() driver.CursorShape { return u.getCursorShape() } func (u *UserInterface) SetCursorShape(shape driver.CursorShape) { old := u.setCursorShape(shape) if old == shape { return } if !u.isRunning() { return } _ = u.t.Call(func() error { u.setNativeCursor(shape) return nil }) } func (u *UserInterface) DeviceScaleFactor() float64 { if !u.isRunning() { // TODO: Use the initWindowPosition. This requires to convert the units correctly (#1575). return u.deviceScaleFactor(u.currentMonitor()) } f := 0.0 _ = u.t.Call(func() error { f = u.deviceScaleFactor(u.currentMonitor()) return nil }) return f } // deviceScaleFactor must be called from the main thread. func (u *UserInterface) deviceScaleFactor(monitor *glfw.Monitor) float64 { // It is rare, but monitor can be nil when glfw.GetPrimaryMonitor returns nil. // In this case, return 1 as a tentative scale (#1878). if monitor == nil { return 1 } mx, my := monitor.GetPos() return devicescale.GetAt(mx, my) } func init() { // Lock the main thread. runtime.LockOSThread() } func (u *UserInterface) RunWithoutMainLoop(context driver.UIContext) { panic("glfw: RunWithoutMainLoop is not implemented") } // createWindow creates a GLFW window. // // createWindow must be called from the main thread. // // createWindow does not set the position or size so far. func (u *UserInterface) createWindow() error { if u.window != nil { panic("glfw: u.window must not exist at createWindow") } // As a start, create a window with temporary size to create OpenGL context thread. window, err := glfw.CreateWindow(16, 16, "", nil, nil) if err != nil { return err } initializeWindowAfterCreation(window) u.window = window // Even just after a window creation, FramebufferSize callback might be invoked (#1847). // Ensure to consume this callback. u.waitForFramebufferSizeCallback(u.window, nil) if u.Graphics().IsGL() { u.window.MakeContextCurrent() } u.window.SetInputMode(glfw.CursorMode, driverCursorModeToGLFWCursorMode(u.getInitCursorMode())) u.window.SetCursor(glfwSystemCursors[u.getCursorShape()]) u.window.SetTitle(u.title) // TODO: Set icons u.registerWindowSetSizeCallback() u.registerWindowCloseCallback() return nil } // registerWindowSetSizeCallback must be called from the main thread. func (u *UserInterface) registerWindowSetSizeCallback() { if u.sizeCallback == 0 { u.sizeCallback = glfw.ToSizeCallback(func(_ *glfw.Window, width, height int) { if !u.setSizeCallbackEnabled { return } u.adjustViewSize() if u.window.GetAttrib(glfw.Resizable) == glfw.False { return } if u.isFullscreen() && !u.isNativeFullscreen() { return } if err := u.runOnAnotherThreadFromMainThread(func() error { // Disable Vsync temporarily. On macOS, getting a next frame can get stuck (#1740). u.Graphics().SetVsyncEnabled(false) var outsideWidth, outsideHeight float64 _ = u.t.Call(func() error { if width != 0 || height != 0 { w := int(u.dipFromGLFWPixel(float64(width), u.currentMonitor())) h := int(u.dipFromGLFWPixel(float64(height), u.currentMonitor())) u.setWindowSizeInDIP(w, h, u.isFullscreen()) } outsideWidth, outsideHeight = u.updateSize() return nil }) u.context.Layout(outsideWidth, outsideHeight) if err := u.context.ForceUpdateFrame(); err != nil { return err } if u.Graphics().IsGL() { _ = u.t.Call(func() error { u.swapBuffers() return nil }) } return nil }); err != nil { u.err = err } }) } u.window.SetSizeCallback(u.sizeCallback) } // registerWindowCloseCallback must be called from the main thread. func (u *UserInterface) registerWindowCloseCallback() { if u.closeCallback == 0 { u.closeCallback = glfw.ToCloseCallback(func(_ *glfw.Window) { u.m.Lock() u.windowBeingClosed = true u.m.Unlock() if !u.isWindowClosingHandled() { return } u.window.SetShouldClose(false) }) } u.window.SetCloseCallback(u.closeCallback) } // waitForFramebufferSizeCallback waits for GLFW's FramebufferSize callback. // f is a process executed after registering the callback. // If the callback is not invoked for a while, waitForFramebufferSizeCallback times out and return. // // waitForFramebufferSizeCallback must be called from the main thread. func (u *UserInterface) waitForFramebufferSizeCallback(window *glfw.Window, f func()) { u.framebufferSizeCallbackCh = make(chan struct{}, 1) if u.framebufferSizeCallback == 0 { u.framebufferSizeCallback = glfw.ToFramebufferSizeCallback(func(_ *glfw.Window, _, _ int) { // This callback can be invoked multiple times by one PollEvents in theory (#1618). // Allow the case when the channel is full. select { case u.framebufferSizeCallbackCh <- struct{}{}: default: } }) } window.SetFramebufferSizeCallback(u.framebufferSizeCallback) if f != nil { f() } // Use the timeout as FramebufferSize event might not be fired (#1618). t := time.NewTimer(time.Second) defer t.Stop() event: for { glfw.PollEvents() select { case <-u.framebufferSizeCallbackCh: break event case <-t.C: break event default: time.Sleep(time.Millisecond) } } window.SetFramebufferSizeCallback(glfw.ToFramebufferSizeCallback(nil)) close(u.framebufferSizeCallbackCh) u.framebufferSizeCallbackCh = nil } func (u *UserInterface) init() error { if u.Graphics().IsGL() { glfw.WindowHint(glfw.ClientAPI, glfw.OpenGLAPI) glfw.WindowHint(glfw.ContextVersionMajor, 2) glfw.WindowHint(glfw.ContextVersionMinor, 1) } else { glfw.WindowHint(glfw.ClientAPI, glfw.NoAPI) } glfw.WindowHint(glfw.AutoIconify, glfw.False) decorated := glfw.False if u.isInitWindowDecorated() { decorated = glfw.True } glfw.WindowHint(glfw.Decorated, decorated) transparent := glfw.False if u.isInitScreenTransparent() { transparent = glfw.True } glfw.WindowHint(glfw.TransparentFramebuffer, transparent) u.Graphics().SetTransparent(u.isInitScreenTransparent()) resizable := glfw.False if u.isInitWindowResizable() { resizable = glfw.True } glfw.WindowHint(glfw.Resizable, resizable) floating := glfw.False if u.isInitWindowFloating() { floating = glfw.True } glfw.WindowHint(glfw.Floating, floating) focused := glfw.False if u.isInitFocused() { focused = glfw.True } glfw.WindowHint(glfw.FocusOnShow, focused) // Set the window visible explicitly or the application freezes on Wayland (#974). if os.Getenv("WAYLAND_DISPLAY") != "" { glfw.WindowHint(glfw.Visible, glfw.True) } if err := u.createWindow(); err != nil { return err } u.setSizeCallbackEnabled = true setSize := func() { ww, wh := u.getInitWindowSizeInDIP() u.setWindowSizeInDIP(ww, wh, u.isFullscreen()) } // Set the window size and the window position in this order on Linux or other UNIX using X (#1118), // but this should be inverted on Windows. This is very tricky, but there is no obvious way to solve // this. This doesn't matter on macOS. wx, wy := u.getInitWindowPositionInDIP() if runtime.GOOS == "windows" { u.setWindowPositionInDIP(wx, wy, u.initMonitor) setSize() } else { setSize() u.setWindowPositionInDIP(wx, wy, u.initMonitor) } u.updateWindowSizeLimits() // Maximizing a window requires a proper size and position. Call Maximize here (#1117). if u.isInitWindowMaximized() { u.window.Maximize() } u.title = u.getInitTitle() u.window.SetTitle(u.title) u.window.Show() if g, ok := u.Graphics().(interface{ SetWindow(uintptr) }); ok { g.SetWindow(u.nativeWindow()) } return nil } func (u *UserInterface) updateSize() (float64, float64) { ww, wh := u.windowWidthInDIP, u.windowHeightInDIP u.setWindowSizeInDIP(ww, wh, u.isFullscreen()) var w, h float64 if u.isFullscreen() && !u.isNativeFullscreen() { // On Linux, the window size is not reliable just after making the window // fullscreened. Use the monitor size. // On macOS's native fullscreen, the window's size returns a more precise size // reflecting the adjustment of the view size (#1745). m := u.currentMonitor() v := m.GetVideoMode() ww, wh := v.Width, v.Height w = u.dipFromGLFWMonitorPixel(float64(ww), m) h = u.dipFromGLFWMonitorPixel(float64(wh), m) } else { // Instead of u.windowWidthInDIP and u.windowHeightInDIP, use the actual window size // here. On Windows, the specified size at SetSize and the actual window size might // not match (#1163). ww, wh := u.window.GetSize() w = u.dipFromGLFWPixel(float64(ww), u.currentMonitor()) h = u.dipFromGLFWPixel(float64(wh), u.currentMonitor()) } return w, h } // setFPSMode must be called from the main thread. func (u *UserInterface) setFPSMode(fpsMode driver.FPSMode) { u.fpsMode = fpsMode u.fpsModeInited = true sticky := glfw.True if fpsMode == driver.FPSModeVsyncOffMinimum { sticky = glfw.False } u.window.SetInputMode(glfw.StickyMouseButtonsMode, sticky) u.window.SetInputMode(glfw.StickyKeysMode, sticky) } // update must be called from the main thread. func (u *UserInterface) update() (float64, float64, error) { if u.err != nil { return 0, 0, u.err } if u.window.ShouldClose() { return 0, 0, driver.RegularTermination } if u.isInitFullscreen() { w, h := u.window.GetSize() ww := int(u.dipFromGLFWPixel(float64(w), u.currentMonitor())) wh := int(u.dipFromGLFWPixel(float64(h), u.currentMonitor())) u.setWindowSizeInDIP(ww, wh, true) u.setInitFullscreen(false) } // Initialize vsync after SetMonitor is called. See the comment in updateVsync. // Calling this inside setWindowSize didn't work (#1363). if !u.fpsModeInited { u.setFPSMode(u.getInitFPSMode()) } // Call updateVsync even though fpsMode is not updated. // The vsync state might be changed in other places (e.g., the SetSizeCallback). // Also, when toggling to fullscreen, vsync state might be reset unexpectedly (#1787). u.updateVsync() outsideWidth, outsideHeight := u.updateSize() if u.fpsMode != driver.FPSModeVsyncOffMinimum { // TODO: Updating the input can be skipped when clock.Update returns 0 (#1367). glfw.PollEvents() } else { glfw.WaitEvents() } u.input.update(u.window, u.context) for !u.isRunnableOnUnfocused() && u.window.GetAttrib(glfw.Focused) == 0 && !u.window.ShouldClose() { if err := hooks.SuspendAudio(); err != nil { return 0, 0, err } // Wait for an arbitrary period to avoid busy loop. time.Sleep(time.Second / 60) glfw.PollEvents() } if err := hooks.ResumeAudio(); err != nil { return 0, 0, err } return outsideWidth, outsideHeight, nil } func (u *UserInterface) loop() error { defer func() { _ = u.t.Call(func() error { glfw.Terminate() return nil }) }() for { var unfocused bool // On Windows, the focusing state might be always false (#987). // On Windows, even if a window is in another workspace, vsync seems to work. // Then let's assume the window is always 'focused' as a workaround. if runtime.GOOS != "windows" { unfocused = u.window.GetAttrib(glfw.Focused) == glfw.False } var t1, t2 time.Time if unfocused { t1 = time.Now() } var outsideWidth, outsideHeight float64 if err := u.t.Call(func() error { var err error outsideWidth, outsideHeight, err = u.update() return err }); err != nil { return err } u.context.Layout(outsideWidth, outsideHeight) if err := u.context.UpdateFrame(); err != nil { return err } // Create icon images in a different goroutine (#1478). // In the fullscreen mode, SetIcon fails (#1578). if imgs := u.getIconImages(); len(imgs) > 0 && !u.isFullscreen() { u.setIconImages(nil) // Convert the icons in the different goroutine, as (*ebiten.Image).At cannot be invoked // from this goroutine. At works only in between BeginFrame and EndFrame. go func() { newImgs := make([]image.Image, len(imgs)) for i, img := range imgs { // TODO: If img is not *ebiten.Image, this converting is not necessary. // However, this package cannot refer *ebiten.Image due to the package // dependencies. b := img.Bounds() rgba := image.NewRGBA(b) for j := b.Min.Y; j < b.Max.Y; j++ { for i := b.Min.X; i < b.Max.X; i++ { rgba.Set(i, j, img.At(i, j)) } } newImgs[i] = rgba } _ = u.t.Call(func() error { // In the fullscreen mode, reset the icon images and try again later. if u.isFullscreen() { u.setIconImages(imgs) return nil } u.window.SetIcon(newImgs) return nil }) }() } // swapBuffers also checks IsGL, so this condition is redundant. // However, (*thread).Call is not good for performance due to channels. // Let's avoid this whenever possible (#1367). if u.Graphics().IsGL() { _ = u.t.Call(func() error { u.swapBuffers() return nil }) } if unfocused { t2 = time.Now() } // When a window is not focused, SwapBuffers might return immediately and CPU might be busy. // Mitigate this by sleeping (#982). if unfocused { d := t2.Sub(t1) const wait = time.Second / 60 if d < wait { time.Sleep(wait - d) } } } } // swapBuffers must be called from the main thread. func (u *UserInterface) swapBuffers() { if u.Graphics().IsGL() { u.window.SwapBuffers() } } // updateWindowSizeLimits must be called from the main thread. func (u *UserInterface) updateWindowSizeLimits() { m := u.currentMonitor() minw, minh, maxw, maxh := u.getWindowSizeLimitsInDIP() if minw < 0 { minw = glfw.DontCare } else { minw = int(u.dipToGLFWPixel(float64(minw), m)) } if minh < 0 { minh = glfw.DontCare } else { minh = int(u.dipToGLFWPixel(float64(minh), m)) } if maxw < 0 { maxw = glfw.DontCare } else { maxw = int(u.dipToGLFWPixel(float64(maxw), m)) } if maxh < 0 { maxh = glfw.DontCare } else { maxh = int(u.dipToGLFWPixel(float64(maxh), m)) } u.window.SetSizeLimits(minw, minh, maxw, maxh) } // adjustWindowSizeBasedOnSizeLimitsInDIP adjust the size based on the window size limits. // width and height are in device-independent pixels. func (u *UserInterface) adjustWindowSizeBasedOnSizeLimitsInDIP(width, height int) (int, int) { minw, minh, maxw, maxh := u.getWindowSizeLimitsInDIP() if minw >= 0 && width < minw { width = minw } if minh >= 0 && height < minh { height = minh } if maxw >= 0 && width > maxw { width = maxw } if maxh >= 0 && height > maxh { height = maxh } return width, height } // setWindowSize must be called from the main thread. func (u *UserInterface) setWindowSizeInDIP(width, height int, fullscreen bool) { width, height = u.adjustWindowSizeBasedOnSizeLimitsInDIP(width, height) u.Graphics().SetFullscreen(fullscreen) scale := u.deviceScaleFactor(u.currentMonitor()) if u.windowWidthInDIP == width && u.windowHeightInDIP == height && u.isFullscreen() == fullscreen && u.lastDeviceScaleFactor == scale { return } if width < 1 { width = 1 } if height < 1 { height = 1 } u.lastDeviceScaleFactor = scale // To make sure the current existing framebuffers are rendered, // swap buffers here before SetSize is called. u.swapBuffers() // Disable the callback of SetSize. This callback can be invoked by SetMonitor or SetSize. // ForceUpdateFrame is called from the callback. // While setWindowSize can be called from UpdateFrame, // calling ForceUpdateFrame inside UpdateFrame is illegal (#1505). if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } windowRecreated := u.setWindowSizeInDIPImpl(width, height, fullscreen) u.adjustViewSize() // As width might be updated, update windowWidth/Height here. u.windowWidthInDIP = width u.windowHeightInDIP = height if windowRecreated { if g, ok := u.Graphics().(interface{ SetWindow(uintptr) }); ok { g.SetWindow(u.nativeWindow()) } } } func (u *UserInterface) setWindowSizeInDIPImpl(width, height int, fullscreen bool) bool { var windowRecreated bool if fullscreen { if x, y := u.origPos(); x == invalidPos || y == invalidPos { u.setOrigPos(u.window.GetPos()) } if u.isNativeFullscreenAvailable() { u.setNativeFullscreen(fullscreen) } else { m := u.currentMonitor() v := m.GetVideoMode() u.window.SetMonitor(m, 0, 0, v.Width, v.Height, v.RefreshRate) // Swapping buffer is necesary to prevent the image lag (#1004). // TODO: This might not work when vsync is disabled. if u.Graphics().IsGL() { glfw.PollEvents() u.swapBuffers() } } } else { // On Windows, giving a too small width doesn't call a callback (#165). // To prevent hanging up, return asap if the width is too small. // 126 is an arbitrary number and I guess this is small enough. minWindowWidth := 126 if u.window.GetAttrib(glfw.Decorated) == glfw.False { minWindowWidth = 1 } if width < minWindowWidth { width = minWindowWidth } if u.isNativeFullscreenAvailable() && u.isNativeFullscreen() { u.setNativeFullscreen(false) } else if !u.isNativeFullscreenAvailable() && u.window.GetMonitor() != nil { if u.Graphics().IsGL() { // When OpenGL is used, swapping buffer is enough to solve the image-lag // issue (#1004). Rather, recreating window destroys GPU resources. // TODO: This might not work when vsync is disabled. ww := int(u.dipToGLFWPixel(float64(width), u.currentMonitor())) wh := int(u.dipToGLFWPixel(float64(height), u.currentMonitor())) u.window.SetMonitor(nil, 0, 0, ww, wh, 0) glfw.PollEvents() u.swapBuffers() } else { // Recreate the window since an image lag remains after coming back from // fullscreen (#1004). if u.window != nil { u.window.Destroy() u.window = nil } if err := u.createWindow(); err != nil { // TODO: This should return an error. panic(fmt.Sprintf("glfw: failed to recreate window: %v", err)) } // Reset the size limits explicitly. u.updateWindowSizeLimits() u.window.Show() windowRecreated = true } } if x, y := u.origPos(); x != invalidPos && y != invalidPos { u.window.SetPos(x, y) // Dirty hack for macOS (#703). Rendering doesn't work correctly with one SetPos, but // work with two or more SetPos. if runtime.GOOS == "darwin" { u.window.SetPos(x+1, y) u.window.SetPos(x, y) } u.setOrigPos(invalidPos, invalidPos) } // Set the window size after the position. The order matters. // In the opposite order, the window size might not be correct when going back from fullscreen with multi monitors. oldW, oldH := u.window.GetSize() newW := int(u.dipToGLFWPixel(float64(width), u.currentMonitor())) newH := int(u.dipToGLFWPixel(float64(height), u.currentMonitor())) if oldW != newW || oldH != newH { // Just after SetSize, GetSize is not reliable especially on Linux/UNIX. // Let's wait for FramebufferSize callback in any cases. u.waitForFramebufferSizeCallback(u.window, func() { u.window.SetSize(newW, newH) }) } // Window title might be lost on macOS after coming back from fullscreen. u.window.SetTitle(u.title) } return windowRecreated } // updateVsync must be called on the main thread. func (u *UserInterface) updateVsync() { if u.Graphics().IsGL() { // SwapInterval is affected by the current monitor of the window. // This needs to be called at least after SetMonitor. // Without SwapInterval after SetMonitor, vsynch doesn't work (#375). // // TODO: (#405) If triple buffering is needed, SwapInterval(0) should be called, // but is this correct? If glfw.SwapInterval(0) and the driver doesn't support triple // buffering, what will happen? if u.fpsMode == driver.FPSModeVsyncOn { glfw.SwapInterval(1) } else { glfw.SwapInterval(0) } } u.Graphics().SetVsyncEnabled(u.fpsMode == driver.FPSModeVsyncOn) } // initialMonitor returns the initial monitor to show the window. // // The given window is just a hint and might not be used to determine the initial monitor. // // initialMonitor must be called on the main thread. func initialMonitor(window *glfw.Window) *glfw.Monitor { if m := initialMonitorByOS(); m != nil { return m } return currentMonitorImpl(window) } // currentMonitor returns the current active monitor. // // currentMonitor must be called on the main thread. func (u *UserInterface) currentMonitor() *glfw.Monitor { if !u.isRunning() { return u.initMonitor } return currentMonitorImpl(u.window) } // currentMonitorImpl returns the current active monitor. // // The given window might or might not be used to detect the monitor. // // currentMonitorImpl must be called on the main thread. func currentMonitorImpl(window *glfw.Window) *glfw.Monitor { // GetMonitor is available only in fullscreen. if m := window.GetMonitor(); m != nil { return m } // Getting a monitor from a window position is not reliable in general (e.g., when a window is put across // multiple monitors, or, before SetWindowPosition is called.). // Get the monitor which the current window belongs to. This requires OS API. if m := currentMonitorByOS(window); m != nil { return m } // As the fallback, detect the monitor from the window. if m := getMonitorFromPosition(window.GetPos()); m != nil { return m.m } return glfw.GetPrimaryMonitor() } func (u *UserInterface) SetScreenTransparent(transparent bool) { if !u.isRunning() { u.setInitScreenTransparent(transparent) return } panic("glfw: SetScreenTransparent can't be called after the main loop starts") } func (u *UserInterface) IsScreenTransparent() bool { if !u.isRunning() { return u.isInitScreenTransparent() } val := false _ = u.t.Call(func() error { val = u.window.GetAttrib(glfw.TransparentFramebuffer) == glfw.True return nil }) return val } func (u *UserInterface) ResetForFrame() { // The offscreens must be updated every frame (#490). var w, h float64 _ = u.t.Call(func() error { w, h = u.updateSize() return nil }) u.context.Layout(w, h) u.input.resetForFrame() u.m.Lock() u.windowBeingClosed = false u.m.Unlock() } func (u *UserInterface) SetInitFocused(focused bool) { if u.isRunning() { panic("ui: SetInitFocused must be called before the main loop") } u.setInitFocused(focused) } func (u *UserInterface) Input() driver.Input { return &u.input } func (u *UserInterface) Window() driver.Window { return &u.iwindow } // GLFW's functions to manipulate a window can invoke the SetSize callback (#1576, #1585, #1606). // As the callback must not be called in the frame (between BeginFrame and EndFrame), // disable the callback temporarily. // maximizeWindow must be called from the main thread. func (u *UserInterface) maximizeWindow() { if u.isNativeFullscreen() { return } if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } u.window.Maximize() if !u.isFullscreen() { // On Linux/UNIX, maximizing might not finish even though Maximize returns. Just wait for its finish. // Do not check this in the fullscreen since apparently the condition can never be true. for u.window.GetAttrib(glfw.Maximized) != glfw.True { glfw.PollEvents() } // Call setWindowSize explicitly in order to update the rendering since the callback is disabled now. // Do not call setWindowSize in the fullscreen mode since setWindowSize requires the window size // before the fullscreen, while window.GetSize() returns the desktop screen size in the fullscreen mode. w, h := u.window.GetSize() ww := int(u.dipFromGLFWPixel(float64(w), u.currentMonitor())) wh := int(u.dipFromGLFWPixel(float64(h), u.currentMonitor())) u.setWindowSizeInDIP(ww, wh, u.isFullscreen()) } } // iconifyWindow must be called from the main thread. func (u *UserInterface) iconifyWindow() { if u.isNativeFullscreen() { return } if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } u.window.Iconify() // On Linux/UNIX, iconifying might not finish even though Iconify returns. Just wait for its finish. for u.window.GetAttrib(glfw.Iconified) != glfw.True { glfw.PollEvents() } // After iconifiying, the window is invisible and setWindowSize doesn't have to be called. // Rather, the window size might be (0, 0) and it might be impossible to call setWindowSize (#1585). } // restoreWindow must be called from the main thread. func (u *UserInterface) restoreWindow() { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } u.window.Restore() // On Linux/UNIX, restoring might not finish even though Restore returns (#1608). Just wait for its finish. // On macOS, the restoring state might be the same as the maximized state. Skip this. if runtime.GOOS != "darwin" { for u.window.GetAttrib(glfw.Maximized) == glfw.True || u.window.GetAttrib(glfw.Iconified) == glfw.True { glfw.PollEvents() } } // Call setWindowSize explicitly in order to update the rendering since the callback is disabled now. // Do not call setWindowSize in the fullscreen mode since setWindowSize requires the window size // before the fullscreen, while window.GetSize() returns the desktop screen size in the fullscreen mode. if !u.isFullscreen() { w, h := u.window.GetSize() ww := int(u.dipFromGLFWPixel(float64(w), u.currentMonitor())) wh := int(u.dipFromGLFWPixel(float64(h), u.currentMonitor())) u.setWindowSizeInDIP(ww, wh, u.isFullscreen()) } } // setWindowDecorated must be called from the main thread. func (u *UserInterface) setWindowDecorated(decorated bool) { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } v := glfw.False if decorated { v = glfw.True } u.window.SetAttrib(glfw.Decorated, v) // The title can be lost when the decoration is gone. Recover this. if decorated { u.window.SetTitle(u.title) } } // setWindowFloating must be called from the main thread. func (u *UserInterface) setWindowFloating(floating bool) { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } v := glfw.False if floating { v = glfw.True } u.window.SetAttrib(glfw.Floating, v) } // setWindowResizable must be called from the main thread. func (u *UserInterface) setWindowResizable(resizable bool) { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } v := glfw.False if resizable { v = glfw.True } u.window.SetAttrib(glfw.Resizable, v) } // setWindowPositionInDIP sets the window position. // // x and y are the position in device-independent pixels. // // setWindowPositionInDIP must be called from the main thread. func (u *UserInterface) setWindowPositionInDIP(x, y int, monitor *glfw.Monitor) { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } mx, my := monitor.GetPos() xf := u.dipToGLFWPixel(float64(x), monitor) yf := u.dipToGLFWPixel(float64(y), monitor) if x, y := u.adjustWindowPosition(mx+int(xf), my+int(yf)); u.isFullscreen() { u.setOrigPos(x, y) } else { u.window.SetPos(x, y) } // Call setWindowSize explicitly in order to update the rendering since the callback is disabled now. // // There are cases when setWindowSize should be called (#1606) and should not be called (#1609). // For the former, macOS seems enough so far. // // Do not call setWindowSize in the fullscreen mode since setWindowSize requires the window size // before the fullscreen, while window.GetSize() returns the desktop screen size in the fullscreen mode. if !u.isFullscreen() && runtime.GOOS == "darwin" { w, h := u.window.GetSize() ww := int(u.dipFromGLFWPixel(float64(w), u.currentMonitor())) wh := int(u.dipFromGLFWPixel(float64(h), u.currentMonitor())) u.setWindowSizeInDIP(ww, wh, u.isFullscreen()) } } // setWindowTitle must be called from the main thread. func (u *UserInterface) setWindowTitle(title string) { if u.setSizeCallbackEnabled { u.setSizeCallbackEnabled = false defer func() { u.setSizeCallbackEnabled = true }() } u.window.SetTitle(title) } func (u *UserInterface) origPos() (int, int) { // On macOS, the window can be fullscreened without calling an Ebiten function. // Then, an original position might not be available by u.window.GetPos(). // Do not rely on the window position. if u.isNativeFullscreenAvailable() { return invalidPos, invalidPos } return u.origPosX, u.origPosY } func (u *UserInterface) setOrigPos(x, y int) { // TODO: The original position should be updated at a 'PosCallback'. // On macOS, the window can be fullscreened without calling an Ebiten function. // Then, an original position might not be available by u.window.GetPos(). // Do not rely on the window position. if u.isNativeFullscreenAvailable() { return } u.origPosX = x u.origPosY = y } func (u *UserInterface) Vibrate(duration time.Duration) { // Do nothing. }