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196 lines
4.6 KiB
Go
196 lines
4.6 KiB
Go
// SPDX-License-Identifier: Unlicense OR MIT
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/*
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Package router implements Router, a event.Queue implementation
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that that disambiguates and routes events to handlers declared
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in operation lists.
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Router is used by app.Window and is otherwise only useful for
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using Gio with external window implementations.
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*/
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package router
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import (
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"encoding/binary"
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"time"
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"gioui.org/internal/opconst"
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"gioui.org/internal/ops"
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"gioui.org/io/event"
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"gioui.org/io/key"
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"gioui.org/io/pointer"
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"gioui.org/io/profile"
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"gioui.org/op"
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)
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// Router is a Queue implementation that routes events
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// to handlers declared in operation lists.
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type Router struct {
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pqueue pointerQueue
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kqueue keyQueue
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handlers handlerEvents
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reader ops.Reader
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// InvalidateOp summary.
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wakeup bool
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wakeupTime time.Time
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// ProfileOp summary.
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profiling bool
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profHandlers map[event.Tag]struct{}
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profile profile.Event
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}
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type handlerEvents struct {
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handlers map[event.Tag][]event.Event
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hadEvents bool
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}
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// Events returns the available events for the handler key.
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func (q *Router) Events(k event.Tag) []event.Event {
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events := q.handlers.Events(k)
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if _, isprof := q.profHandlers[k]; isprof {
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delete(q.profHandlers, k)
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events = append(events, q.profile)
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}
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return events
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}
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// Frame replaces the declared handlers from the supplied
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// operation list. The text input state, wakeup time and whether
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// there are active profile handlers is also saved.
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func (q *Router) Frame(ops *op.Ops) {
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q.handlers.Clear()
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q.wakeup = false
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q.profiling = false
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for k := range q.profHandlers {
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delete(q.profHandlers, k)
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}
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q.reader.Reset(ops)
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q.collect()
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q.pqueue.Frame(ops, &q.handlers)
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q.kqueue.Frame(ops, &q.handlers)
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if q.handlers.HadEvents() {
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q.wakeup = true
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q.wakeupTime = time.Time{}
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}
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}
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func (q *Router) Add(events ...event.Event) bool {
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for _, e := range events {
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switch e := e.(type) {
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case profile.Event:
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q.profile = e
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case pointer.Event:
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q.pqueue.Push(e, &q.handlers)
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case key.EditEvent, key.Event, key.FocusEvent:
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q.kqueue.Push(e, &q.handlers)
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}
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}
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return q.handlers.HadEvents()
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}
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// TextInputState returns the input state from the most recent
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// call to Frame.
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func (q *Router) TextInputState() TextInputState {
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return q.kqueue.InputState()
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}
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func (q *Router) collect() {
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for encOp, ok := q.reader.Decode(); ok; encOp, ok = q.reader.Decode() {
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switch opconst.OpType(encOp.Data[0]) {
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case opconst.TypeInvalidate:
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op := decodeInvalidateOp(encOp.Data)
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if !q.wakeup || op.At.Before(q.wakeupTime) {
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q.wakeup = true
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q.wakeupTime = op.At
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}
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case opconst.TypeProfile:
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op := decodeProfileOp(encOp.Data, encOp.Refs)
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if q.profHandlers == nil {
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q.profHandlers = make(map[event.Tag]struct{})
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}
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q.profiling = true
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q.profHandlers[op.Tag] = struct{}{}
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}
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}
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}
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// Profiling reports whether there was profile handlers in the
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// most recent Frame call.
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func (q *Router) Profiling() bool {
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return q.profiling
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}
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// WakeupTime returns the most recent time for doing another frame,
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// as determined from the last call to Frame.
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func (q *Router) WakeupTime() (time.Time, bool) {
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return q.wakeupTime, q.wakeup
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}
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func (h *handlerEvents) init() {
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if h.handlers == nil {
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h.handlers = make(map[event.Tag][]event.Event)
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}
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}
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func (h *handlerEvents) Add(k event.Tag, e event.Event) {
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h.init()
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h.handlers[k] = append(h.handlers[k], e)
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h.hadEvents = true
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}
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func (h *handlerEvents) HadEvents() bool {
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u := h.hadEvents
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h.hadEvents = false
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return u
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}
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func (h *handlerEvents) Events(k event.Tag) []event.Event {
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if events, ok := h.handlers[k]; ok {
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h.handlers[k] = h.handlers[k][:0]
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// Schedule another frame if we delivered events to the user
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// to flush half-updated state. This is important when an
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// event changes UI state that has already been laid out. In
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// the worst case, we waste a frame, increasing power usage.
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//
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// Gio is expected to grow the ability to construct
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// frame-to-frame differences and only render to changed
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// areas. In that case, the waste of a spurious frame should
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// be minimal.
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h.hadEvents = h.hadEvents || len(events) > 0
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return events
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}
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return nil
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}
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func (h *handlerEvents) Clear() {
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for k := range h.handlers {
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delete(h.handlers, k)
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}
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}
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func decodeProfileOp(d []byte, refs []interface{}) profile.Op {
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if opconst.OpType(d[0]) != opconst.TypeProfile {
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panic("invalid op")
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}
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return profile.Op{
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Tag: refs[0].(event.Tag),
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}
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}
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func decodeInvalidateOp(d []byte) op.InvalidateOp {
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bo := binary.LittleEndian
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if opconst.OpType(d[0]) != opconst.TypeInvalidate {
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panic("invalid op")
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}
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var o op.InvalidateOp
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if nanos := bo.Uint64(d[1:]); nanos > 0 {
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o.At = time.Unix(0, int64(nanos))
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}
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return o
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}
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