forked from joejulian/gio
1de8c9f3b0
Commit 11aec807b2 added a waiting flag to avoid
processing platform events recursively. However the flag was only true when the
window goroutine is blocked waiting for client events, so deferred window
functions such as Window.Option may still runs multiple times for recursive
events.
This change renames the flag to busy and sets it during the entire processing
of an event, including recursive events and deferred window functions.
Fixes: https://todo.sr.ht/~eliasnaur/gio/344
Signed-off-by: Elias Naur <mail@eliasnaur.com>
763 lines
18 KiB
Go
763 lines
18 KiB
Go
// SPDX-License-Identifier: Unlicense OR MIT
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package app
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import (
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"errors"
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"fmt"
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"image"
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"image/color"
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"runtime"
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"time"
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"gioui.org/f32"
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"gioui.org/gpu"
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"gioui.org/io/event"
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"gioui.org/io/pointer"
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"gioui.org/io/profile"
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"gioui.org/io/router"
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"gioui.org/io/system"
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"gioui.org/op"
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"gioui.org/unit"
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_ "gioui.org/app/internal/log"
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)
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// Option configures a window.
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type Option func(unit.Metric, *Config)
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// Window represents an operating system window.
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type Window struct {
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ctx context
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gpu gpu.GPU
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// driverFuncs is a channel of functions to run when
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// the Window has a valid driver.
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driverFuncs chan func(d driver)
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// wakeups wakes up the native event loop to send a
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// WakeupEvent that flushes driverFuncs.
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wakeups chan struct{}
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// wakeupFuncs is sent wakeup functions when the driver changes.
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wakeupFuncs chan func()
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// redraws is notified when a redraw is requested by the client.
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redraws chan struct{}
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// immediateRedraws is like redraw but doesn't need a wakeup.
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immediateRedraws chan struct{}
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// scheduledRedraws is sent the most recent delayed redraw time.
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scheduledRedraws chan time.Time
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defers []func(d driver)
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out chan event.Event
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frames chan *op.Ops
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frameAck chan struct{}
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// dead is closed when the window is destroyed.
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dead chan struct{}
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stage system.Stage
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animating bool
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hasNextFrame bool
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nextFrame time.Time
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delayedDraw *time.Timer
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queue queue
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cursor pointer.CursorName
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callbacks callbacks
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nocontext bool
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// semantic data, lazily evaluated if requested by a backend to speed up
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// the cases where semantic data is not needed.
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semantic struct {
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// uptodate tracks whether the fields below are up to date.
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uptodate bool
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root router.SemanticID
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prevTree []router.SemanticNode
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tree []router.SemanticNode
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ids map[router.SemanticID]router.SemanticNode
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}
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}
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type callbacks struct {
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w *Window
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d driver
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busy bool
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waitEvents []event.Event
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}
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// queue is an event.Queue implementation that distributes system events
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// to the input handlers declared in the most recent frame.
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type queue struct {
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q router.Router
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}
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// Pre-allocate the ack event to avoid garbage.
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var ackEvent event.Event
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// NewWindow creates a new window for a set of window
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// options. The options are hints; the platform is free to
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// ignore or adjust them.
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//
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// If the current program is running on iOS or Android,
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// NewWindow returns the window previously created by the
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// platform.
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//
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// Calling NewWindow more than once is not supported on
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// iOS, Android, WebAssembly.
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func NewWindow(options ...Option) *Window {
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defaultOptions := []Option{
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Size(unit.Dp(800), unit.Dp(600)),
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Title("Gio"),
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}
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options = append(defaultOptions, options...)
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var cnf Config
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cnf.apply(unit.Metric{}, options)
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w := &Window{
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out: make(chan event.Event),
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immediateRedraws: make(chan struct{}, 0),
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redraws: make(chan struct{}, 1),
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scheduledRedraws: make(chan time.Time, 1),
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frames: make(chan *op.Ops),
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frameAck: make(chan struct{}),
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driverFuncs: make(chan func(d driver), 1),
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wakeups: make(chan struct{}, 1),
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wakeupFuncs: make(chan func()),
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dead: make(chan struct{}),
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nocontext: cnf.CustomRenderer,
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}
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w.semantic.ids = make(map[router.SemanticID]router.SemanticNode)
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w.callbacks.w = w
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go w.run(options)
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return w
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}
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// Events returns the channel where events are delivered.
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func (w *Window) Events() <-chan event.Event {
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return w.out
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}
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// update the window contents, input operations declare input handlers,
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// and so on. The supplied operations list completely replaces the window state
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// from previous calls.
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func (w *Window) update(frame *op.Ops) {
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w.frames <- frame
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<-w.frameAck
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}
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func (w *Window) validateAndProcess(d driver, size image.Point, sync bool, frame *op.Ops) error {
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for {
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if w.gpu == nil && !w.nocontext {
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var err error
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if w.ctx == nil {
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w.ctx, err = d.NewContext()
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if err != nil {
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return err
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}
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sync = true
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}
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}
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if sync && w.ctx != nil {
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if err := w.ctx.Refresh(); err != nil {
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if errors.Is(err, errOutOfDate) {
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// Surface couldn't be created for transient reasons. Skip
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// this frame and wait for the next.
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return nil
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}
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w.destroyGPU()
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if errors.Is(err, gpu.ErrDeviceLost) {
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continue
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}
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return err
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}
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}
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if w.gpu == nil && !w.nocontext {
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if err := w.ctx.Lock(); err != nil {
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w.destroyGPU()
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return err
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}
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gpu, err := gpu.New(w.ctx.API())
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w.ctx.Unlock()
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if err != nil {
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w.destroyGPU()
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return err
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}
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w.gpu = gpu
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}
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if w.gpu != nil {
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if err := w.render(frame, size); err != nil {
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if errors.Is(err, errOutOfDate) {
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// GPU surface needs refreshing.
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sync = true
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continue
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}
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w.destroyGPU()
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if errors.Is(err, gpu.ErrDeviceLost) {
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continue
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}
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return err
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}
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}
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w.queue.q.Frame(frame)
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return nil
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}
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}
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func (w *Window) render(frame *op.Ops, viewport image.Point) error {
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if err := w.ctx.Lock(); err != nil {
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return err
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}
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defer w.ctx.Unlock()
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if runtime.GOOS == "js" {
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// Use transparent black when Gio is embedded, to allow mixing of Gio and
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// foreign content below.
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w.gpu.Clear(color.NRGBA{A: 0x00, R: 0x00, G: 0x00, B: 0x00})
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} else {
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w.gpu.Clear(color.NRGBA{A: 0xff, R: 0xff, G: 0xff, B: 0xff})
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}
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target, err := w.ctx.RenderTarget()
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if err != nil {
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return err
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}
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if err := w.gpu.Frame(frame, target, viewport); err != nil {
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return err
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}
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return w.ctx.Present()
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}
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func (w *Window) processFrame(d driver, frameStart time.Time) {
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for k := range w.semantic.ids {
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delete(w.semantic.ids, k)
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}
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w.semantic.uptodate = false
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q := &w.queue.q
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switch q.TextInputState() {
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case router.TextInputOpen:
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d.ShowTextInput(true)
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case router.TextInputClose:
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d.ShowTextInput(false)
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}
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if hint, ok := q.TextInputHint(); ok {
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d.SetInputHint(hint)
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}
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if txt, ok := q.WriteClipboard(); ok {
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d.WriteClipboard(txt)
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}
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if q.ReadClipboard() {
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d.ReadClipboard()
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}
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if q.Profiling() && w.gpu != nil {
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frameDur := time.Since(frameStart)
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frameDur = frameDur.Truncate(100 * time.Microsecond)
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quantum := 100 * time.Microsecond
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timings := fmt.Sprintf("tot:%7s %s", frameDur.Round(quantum), w.gpu.Profile())
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q.Queue(profile.Event{Timings: timings})
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}
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if t, ok := q.WakeupTime(); ok {
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w.setNextFrame(t)
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}
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w.updateAnimation(d)
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}
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// Invalidate the window such that a FrameEvent will be generated immediately.
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// If the window is inactive, the event is sent when the window becomes active.
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//
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// Note that Invalidate is intended for externally triggered updates, such as a
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// response from a network request. InvalidateOp is more efficient for animation
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// and similar internal updates.
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//
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// Invalidate is safe for concurrent use.
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func (w *Window) Invalidate() {
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select {
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case w.immediateRedraws <- struct{}{}:
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return
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default:
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}
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select {
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case w.redraws <- struct{}{}:
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w.wakeup()
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default:
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}
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}
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// Option applies the options to the window.
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func (w *Window) Option(opts ...Option) {
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w.driverDefer(func(d driver) {
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d.Configure(opts)
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})
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}
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// ReadClipboard initiates a read of the clipboard in the form
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// of a clipboard.Event. Multiple reads may be coalesced
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// to a single event.
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func (w *Window) ReadClipboard() {
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w.driverDefer(func(d driver) {
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d.ReadClipboard()
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})
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}
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// WriteClipboard writes a string to the clipboard.
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func (w *Window) WriteClipboard(s string) {
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w.driverDefer(func(d driver) {
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d.WriteClipboard(s)
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})
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}
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// SetCursorName changes the current window cursor to name.
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func (w *Window) SetCursorName(name pointer.CursorName) {
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w.driverDefer(func(d driver) {
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d.SetCursor(name)
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})
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}
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// Close the window. The window's event loop should exit when it receives
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// system.DestroyEvent.
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//
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// Currently, only macOS, Windows, X11 and Wayland drivers implement this functionality,
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// all others are stubbed.
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func (w *Window) Close() {
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w.driverDefer(func(d driver) {
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d.Close()
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})
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}
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// Run f in the same thread as the native window event loop, and wait for f to
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// return or the window to close. Run is guaranteed not to deadlock if it is
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// invoked during the handling of a ViewEvent, system.FrameEvent,
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// system.StageEvent; call Run in a separate goroutine to avoid deadlock in all
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// other cases.
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//
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// Note that most programs should not call Run; configuring a Window with
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// CustomRenderer is a notable exception.
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func (w *Window) Run(f func()) {
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done := make(chan struct{})
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w.driverDefer(func(d driver) {
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defer close(done)
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f()
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})
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select {
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case <-done:
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case <-w.dead:
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}
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}
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// driverDefer is like Run but can be run from any context. It doesn't wait
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// for f to return.
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func (w *Window) driverDefer(f func(d driver)) {
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select {
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case w.driverFuncs <- f:
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w.wakeup()
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case <-w.dead:
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}
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}
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func (w *Window) updateAnimation(d driver) {
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animate := false
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if w.stage >= system.StageRunning && w.hasNextFrame {
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if dt := time.Until(w.nextFrame); dt <= 0 {
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animate = true
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} else {
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// Schedule redraw.
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select {
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case <-w.scheduledRedraws:
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default:
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}
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w.scheduledRedraws <- w.nextFrame
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}
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}
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if animate != w.animating {
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w.animating = animate
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d.SetAnimating(animate)
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}
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}
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func (w *Window) wakeup() {
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select {
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case w.wakeups <- struct{}{}:
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default:
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}
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}
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func (w *Window) setNextFrame(at time.Time) {
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if !w.hasNextFrame || at.Before(w.nextFrame) {
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w.hasNextFrame = true
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w.nextFrame = at
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}
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}
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func (c *callbacks) SetDriver(d driver) {
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c.d = d
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var wakeup func()
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if d != nil {
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wakeup = d.Wakeup
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}
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c.w.wakeupFuncs <- wakeup
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}
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func (c *callbacks) Event(e event.Event) {
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if c.d == nil {
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panic("event while no driver active")
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}
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if c.busy {
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c.waitEvents = append(c.waitEvents, e)
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return
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}
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c.busy = true
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defer func() {
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c.busy = false
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}()
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c.w.processEvent(c.d, e)
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for _, e := range c.waitEvents {
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c.w.processEvent(c.d, e)
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}
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c.waitEvents = c.waitEvents[:0]
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for _, f := range c.w.defers {
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f(c.d)
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}
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c.w.defers = c.w.defers[:0]
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c.w.updateState(c.d)
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}
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// SemanticRoot returns the ID of the semantic root.
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func (c *callbacks) SemanticRoot() router.SemanticID {
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c.w.updateSemantics()
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return c.w.semantic.root
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}
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// LookupSemantic looks up a semantic node from an ID. The zero ID denotes the root.
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func (c *callbacks) LookupSemantic(semID router.SemanticID) (router.SemanticNode, bool) {
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c.w.updateSemantics()
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n, found := c.w.semantic.ids[semID]
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return n, found
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}
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func (c *callbacks) AppendSemanticDiffs(diffs []router.SemanticID) []router.SemanticID {
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c.w.updateSemantics()
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if tree := c.w.semantic.prevTree; len(tree) > 0 {
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c.w.collectSemanticDiffs(&diffs, c.w.semantic.prevTree[0])
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}
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return diffs
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}
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func (c *callbacks) SemanticAt(pos f32.Point) (router.SemanticID, bool) {
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c.w.updateSemantics()
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return c.w.queue.q.SemanticAt(pos)
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}
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func (w *Window) waitAck() {
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for {
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select {
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case f := <-w.driverFuncs:
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w.defers = append(w.defers, f)
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case w.out <- ackEvent:
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// A dummy event went through, so we know the application has processed the previous event.
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return
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case <-w.immediateRedraws:
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// Invalidate was called during frame processing.
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w.setNextFrame(time.Time{})
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}
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}
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}
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func (w *Window) destroyGPU() {
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if w.gpu != nil {
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w.ctx.Lock()
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w.gpu.Release()
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w.ctx.Unlock()
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w.gpu = nil
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}
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if w.ctx != nil {
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w.ctx.Release()
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w.ctx = nil
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}
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}
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// waitFrame waits for the client to either call FrameEvent.Frame
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// or to continue event handling. It returns whether the client
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// called Frame or not.
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func (w *Window) waitFrame() (*op.Ops, bool) {
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for {
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select {
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case f := <-w.driverFuncs:
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w.defers = append(w.defers, f)
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case frame := <-w.frames:
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// The client called FrameEvent.Frame.
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return frame, true
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case w.out <- ackEvent:
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// The client ignored FrameEvent and continued processing
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// events.
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return nil, false
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case <-w.immediateRedraws:
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// Invalidate was called during frame processing.
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w.setNextFrame(time.Time{})
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}
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}
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}
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// updateSemantics refreshes the semantics tree, the id to node map and the ids of
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// updated nodes.
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func (w *Window) updateSemantics() {
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if w.semantic.uptodate {
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return
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}
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w.semantic.uptodate = true
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w.semantic.prevTree, w.semantic.tree = w.semantic.tree, w.semantic.prevTree
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w.semantic.tree = w.queue.q.AppendSemantics(w.semantic.tree[:0])
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w.semantic.root = w.semantic.tree[0].ID
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for _, n := range w.semantic.tree {
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w.semantic.ids[n.ID] = n
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}
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}
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// collectSemanticDiffs traverses the previous semantic tree, noting changed nodes.
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func (w *Window) collectSemanticDiffs(diffs *[]router.SemanticID, n router.SemanticNode) {
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newNode, exists := w.semantic.ids[n.ID]
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// Ignore deleted nodes, as their disappearance will be reported through an
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// ancestor node.
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if !exists {
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return
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}
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diff := newNode.Desc != n.Desc || len(n.Children) != len(newNode.Children)
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for i, ch := range n.Children {
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if !diff {
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newCh := newNode.Children[i]
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diff = ch.ID != newCh.ID
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}
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w.collectSemanticDiffs(diffs, ch)
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}
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if diff {
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*diffs = append(*diffs, n.ID)
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}
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}
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func (w *Window) updateState(d driver) {
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for {
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select {
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case <-w.redraws:
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w.setNextFrame(time.Time{})
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w.updateAnimation(d)
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default:
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return
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}
|
|
}
|
|
}
|
|
|
|
func (w *Window) processEvent(d driver, e event.Event) {
|
|
select {
|
|
case <-w.dead:
|
|
return
|
|
default:
|
|
}
|
|
switch e2 := e.(type) {
|
|
case system.StageEvent:
|
|
if e2.Stage < system.StageRunning {
|
|
if w.gpu != nil {
|
|
w.ctx.Lock()
|
|
w.gpu.Release()
|
|
w.gpu = nil
|
|
w.ctx.Unlock()
|
|
}
|
|
}
|
|
w.stage = e2.Stage
|
|
w.updateAnimation(d)
|
|
w.out <- e
|
|
w.waitAck()
|
|
case frameEvent:
|
|
if e2.Size == (image.Point{}) {
|
|
panic(errors.New("internal error: zero-sized Draw"))
|
|
}
|
|
if w.stage < system.StageRunning {
|
|
// No drawing if not visible.
|
|
break
|
|
}
|
|
frameStart := time.Now()
|
|
w.hasNextFrame = false
|
|
e2.Frame = w.update
|
|
e2.Queue = &w.queue
|
|
w.out <- e2.FrameEvent
|
|
frame, gotFrame := w.waitFrame()
|
|
err := w.validateAndProcess(d, e2.Size, e2.Sync, frame)
|
|
if gotFrame {
|
|
// We're done with frame, let the client continue.
|
|
w.frameAck <- struct{}{}
|
|
}
|
|
if err != nil {
|
|
w.destroyGPU()
|
|
w.out <- system.DestroyEvent{Err: err}
|
|
close(w.dead)
|
|
close(w.out)
|
|
break
|
|
}
|
|
w.processFrame(d, frameStart)
|
|
w.updateCursor(d)
|
|
case *system.CommandEvent:
|
|
w.out <- e
|
|
w.waitAck()
|
|
case system.DestroyEvent:
|
|
w.destroyGPU()
|
|
w.out <- e2
|
|
close(w.dead)
|
|
close(w.out)
|
|
case ViewEvent:
|
|
w.out <- e2
|
|
w.waitAck()
|
|
case wakeupEvent:
|
|
case event.Event:
|
|
if w.queue.q.Queue(e2) {
|
|
w.setNextFrame(time.Time{})
|
|
w.updateAnimation(d)
|
|
}
|
|
w.updateCursor(d)
|
|
w.out <- e
|
|
}
|
|
}
|
|
|
|
func (w *Window) run(options []Option) {
|
|
if err := newWindow(&w.callbacks, options); err != nil {
|
|
w.out <- system.DestroyEvent{Err: err}
|
|
close(w.dead)
|
|
close(w.out)
|
|
return
|
|
}
|
|
var wakeup func()
|
|
var timer *time.Timer
|
|
for {
|
|
var (
|
|
wakeups <-chan struct{}
|
|
timeC <-chan time.Time
|
|
)
|
|
if wakeup != nil {
|
|
wakeups = w.wakeups
|
|
if timer != nil {
|
|
timeC = timer.C
|
|
}
|
|
}
|
|
select {
|
|
case t := <-w.scheduledRedraws:
|
|
if timer != nil {
|
|
timer.Stop()
|
|
}
|
|
timer = time.NewTimer(time.Until(t))
|
|
case <-w.dead:
|
|
return
|
|
case <-timeC:
|
|
select {
|
|
case w.redraws <- struct{}{}:
|
|
wakeup()
|
|
default:
|
|
}
|
|
case <-wakeups:
|
|
wakeup()
|
|
case wakeup = <-w.wakeupFuncs:
|
|
}
|
|
}
|
|
}
|
|
|
|
func (w *Window) updateCursor(d driver) {
|
|
if c := w.queue.q.Cursor(); c != w.cursor {
|
|
w.cursor = c
|
|
d.SetCursor(c)
|
|
}
|
|
}
|
|
|
|
// Raise requests that the platform bring this window to the top of all open windows.
|
|
// Some platforms do not allow this except under certain circumstances, such as when
|
|
// a window from the same application already has focus. If the platform does not
|
|
// support it, this method will do nothing.
|
|
func (w *Window) Raise() {
|
|
w.driverDefer(func(d driver) {
|
|
d.Raise()
|
|
})
|
|
}
|
|
|
|
func (q *queue) Events(k event.Tag) []event.Event {
|
|
return q.q.Events(k)
|
|
}
|
|
|
|
// Title sets the title of the window.
|
|
func Title(t string) Option {
|
|
return func(_ unit.Metric, cnf *Config) {
|
|
cnf.Title = t
|
|
}
|
|
}
|
|
|
|
// Size sets the size of the window. The mode will be changed to Windowed.
|
|
func Size(w, h unit.Value) Option {
|
|
if w.V <= 0 {
|
|
panic("width must be larger than or equal to 0")
|
|
}
|
|
if h.V <= 0 {
|
|
panic("height must be larger than or equal to 0")
|
|
}
|
|
return func(m unit.Metric, cnf *Config) {
|
|
cnf.Mode = Windowed
|
|
cnf.Size = image.Point{
|
|
X: m.Px(w),
|
|
Y: m.Px(h),
|
|
}
|
|
}
|
|
}
|
|
|
|
// Centered is an option to center the window on the screen.
|
|
// The option is ignored in Fullscreen mode and on Wayland.
|
|
func Centered() Option {
|
|
return func(m unit.Metric, cnf *Config) {
|
|
// Set the flag so the driver can later do the actual centering.
|
|
cnf.center = true
|
|
}
|
|
}
|
|
|
|
// MaxSize sets the maximum size of the window.
|
|
func MaxSize(w, h unit.Value) Option {
|
|
if w.V <= 0 {
|
|
panic("width must be larger than or equal to 0")
|
|
}
|
|
if h.V <= 0 {
|
|
panic("height must be larger than or equal to 0")
|
|
}
|
|
return func(m unit.Metric, cnf *Config) {
|
|
cnf.MaxSize = image.Point{
|
|
X: m.Px(w),
|
|
Y: m.Px(h),
|
|
}
|
|
}
|
|
}
|
|
|
|
// MinSize sets the minimum size of the window.
|
|
func MinSize(w, h unit.Value) Option {
|
|
if w.V <= 0 {
|
|
panic("width must be larger than or equal to 0")
|
|
}
|
|
if h.V <= 0 {
|
|
panic("height must be larger than or equal to 0")
|
|
}
|
|
return func(m unit.Metric, cnf *Config) {
|
|
cnf.MinSize = image.Point{
|
|
X: m.Px(w),
|
|
Y: m.Px(h),
|
|
}
|
|
}
|
|
}
|
|
|
|
// StatusColor sets the color of the Android status bar.
|
|
func StatusColor(color color.NRGBA) Option {
|
|
return func(_ unit.Metric, cnf *Config) {
|
|
cnf.StatusColor = color
|
|
}
|
|
}
|
|
|
|
// NavigationColor sets the color of the navigation bar on Android, or the address bar in browsers.
|
|
func NavigationColor(color color.NRGBA) Option {
|
|
return func(_ unit.Metric, cnf *Config) {
|
|
cnf.NavigationColor = color
|
|
}
|
|
}
|
|
|
|
// CustomRenderer controls whether the window contents is
|
|
// rendered by the client. If true, no GPU context is created.
|
|
func CustomRenderer(custom bool) Option {
|
|
return func(_ unit.Metric, cnf *Config) {
|
|
cnf.CustomRenderer = custom
|
|
}
|
|
}
|