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escapebox.go
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package escapebox
import (
"time"
"errors"
"github.com/nsf/termbox-go"
)
type Sequence int
// Non-standard escape sequences
const (
SeqNone = 0
)
// Custom version of termbox.Event with extra data for non-standard sequences.
type Event struct {
termbox.Event
Seq Sequence
}
type SequenceMask struct {
Chars []rune
Seq Sequence
}
var sequenceMasks []SequenceMask
func Register(seq Sequence, chars ...rune) {
sequenceMasks = append(sequenceMasks, SequenceMask {
Seq: seq,
Chars: chars,
})
}
// Convert a termbox.Event to an escapebox.Event
func makeEvent(e termbox.Event) Event {
var ret Event
ret.Type = e.Type
ret.Mod = e.Mod
ret.Key = e.Key
ret.Ch = e.Ch
ret.Width = e.Width
ret.Height = e.Height
ret.Err = e.Err
ret.MouseX = e.MouseX
ret.MouseY = e.MouseY
ret.N = e.N
ret.Seq = SeqNone
return ret
}
// Check a list of termbox Events to see if they match any known non-standard
// escape sequences
func detectSequence(events []Event) (Event, error) {
maskLoop: for _, mask := range sequenceMasks {
if len(mask.Chars) + 1 != len(events) {
continue
}
for i := 0; i < len(mask.Chars); i++ {
if mask.Chars[i] != events[i + 1].Ch {
continue maskLoop
}
}
return Event { Seq: mask.Seq }, nil
}
return Event{}, errors.New("No sequence found.")
}
// Output channel of escapebox.Event instances
var Events chan Event
// Initialize escapebox.
func Init() {
sequenceMasks = make([]SequenceMask, 0)
channelizerOut = make(chan termbox.Event)
channelizerPolling = false
channelizerTerminate = false
go channelizer()
Events = make(chan Event)
go sequencer()
}
// Read a single escapebox.Event from the output channel.
func PollEvent() Event {
return <-Events
}
// Cleanup escapebox.
func Close() {
// Terminate the channelizer.
channelizerTerminate = true
// If the termbox.PollEvent() is being called, interrupt it.
if channelizerPolling {
termbox.Interrupt()
// Otherwise, read from the channel to wake it up.
} else {
select {
case <-channelizerOut:
default:
}
}
// Consume any remaining events in the output to end the sequencer.
for _ = range Events {}
}
var channelizerOut chan termbox.Event
var channelizerPolling bool
var channelizerTerminate bool
// The channelizer goroutine converts repeated termbox.PollEvent() calls to a
// channel of escapebox.Event objects.
func channelizer() {
defer close(channelizerOut)
for {
if channelizerTerminate {
break
}
channelizerPolling = true
ev := termbox.PollEvent()
channelizerPolling = false
if channelizerTerminate {
break
}
channelizerOut <- ev
}
}
// Read termbox events and try to detect non-standard escape sequences
func sequencer() {
defer close(Events)
escapeSequenceMaxDuration := time.Millisecond
// TODO: some kind of nil timer to start?
sequenceTimer := time.NewTimer(escapeSequenceMaxDuration)
<-sequenceTimer.C
inEscapeSequence := false
var buffer [10]Event
bufferLen := 0
for {
select {
case e, ok := <-channelizerOut:
if !ok {
return
}
ev := makeEvent(e)
if ev.Type == termbox.EventKey &&
ev.Key == termbox.KeyEsc {
// If already in escape sequence and we see
// another escape key, flush the existing
// buffer and start a new escape sequence.
if inEscapeSequence {
// Flush buffer
for i := 0; i < bufferLen; i++ {
Events <- buffer[i]
}
}
sequenceTimer.Reset(escapeSequenceMaxDuration)
inEscapeSequence = true
bufferLen = 0
}
if inEscapeSequence {
buffer[bufferLen] = ev
bufferLen++
seq, err := detectSequence(buffer[0:bufferLen])
if err == nil {
// If an escape sequence was detected,
// return it and stop the timer.
Events <- seq
bufferLen = 0
sequenceTimer.Stop()
inEscapeSequence = false
}
break
}
// Not in possible escape sequence: handle event
// immediately.
Events <- ev
case <-sequenceTimer.C:
// Escape sequence timeout reached. Assume no escape
// sequence is coming. Flush buffer.
inEscapeSequence = false
// Flush buffer
for i := 0; i < bufferLen; i++ {
Events <- buffer[i]
}
}
}
}