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package readline
import (
"bufio"
"fmt"
"io"
"strings"
"sync"
"sync/atomic"
)
type Terminal struct {
m sync.Mutex
cfg *Config
outchan chan rune
closed int32
stopChan chan struct{}
kickChan chan struct{}
wg sync.WaitGroup
isReading int32
sleeping int32
sizeChan chan string
}
func NewTerminal(cfg *Config) (*Terminal, error) {
if err := cfg.Init(); err != nil {
return nil, err
}
t := &Terminal{
cfg: cfg,
kickChan: make(chan struct{}, 1),
outchan: make(chan rune),
stopChan: make(chan struct{}, 1),
sizeChan: make(chan string, 1),
}
go t.ioloop()
return t, nil
}
// SleepToResume will sleep myself, and return only if I'm resumed.
func (t *Terminal) SleepToResume() {
if !atomic.CompareAndSwapInt32(&t.sleeping, 0, 1) {
return
}
defer atomic.StoreInt32(&t.sleeping, 0)
t.ExitRawMode()
ch := WaitForResume()
SuspendMe()
<-ch
t.EnterRawMode()
}
func (t *Terminal) EnterRawMode() (err error) {
return t.cfg.FuncMakeRaw()
}
func (t *Terminal) ExitRawMode() (err error) {
return t.cfg.FuncExitRaw()
}
func (t *Terminal) Write(b []byte) (int, error) {
return t.cfg.Stdout.Write(b)
}
// WriteStdin prefill the next Stdin fetch
// Next time you call ReadLine() this value will be writen before the user input
func (t *Terminal) WriteStdin(b []byte) (int, error) {
return t.cfg.StdinWriter.Write(b)
}
type termSize struct {
left int
top int
}
func (t *Terminal) GetOffset(f func(offset string)) {
go func() {
f(<-t.sizeChan)
}()
t.Write([]byte("\033[6n"))
}
func (t *Terminal) Print(s string) {
fmt.Fprintf(t.cfg.Stdout, "%s", s)
}
func (t *Terminal) PrintRune(r rune) {
fmt.Fprintf(t.cfg.Stdout, "%c", r)
}
func (t *Terminal) Readline() *Operation {
return NewOperation(t, t.cfg)
}
// return rune(0) if meet EOF
func (t *Terminal) ReadRune() rune {
ch, ok := <-t.outchan
if !ok {
return rune(0)
}
return ch
}
func (t *Terminal) IsReading() bool {
return atomic.LoadInt32(&t.isReading) == 1
}
func (t *Terminal) KickRead() {
select {
case t.kickChan <- struct{}{}:
default:
}
}
func (t *Terminal) ioloop() {
t.wg.Add(1)
defer func() {
t.wg.Done()
close(t.outchan)
}()
var (
isEscape bool
isEscapeEx bool
isEscapeSS3 bool
expectNextChar bool
)
buf := bufio.NewReader(t.getStdin())
for {
if !expectNextChar {
atomic.StoreInt32(&t.isReading, 0)
select {
case <-t.kickChan:
atomic.StoreInt32(&t.isReading, 1)
case <-t.stopChan:
return
}
}
expectNextChar = false
r, _, err := buf.ReadRune()
if err != nil {
if strings.Contains(err.Error(), "interrupted system call") {
expectNextChar = true
continue
}
break
}
if isEscape {
isEscape = false
if r == CharEscapeEx {
// ^][
expectNextChar = true
isEscapeEx = true
continue
} else if r == CharO {
// ^]O
expectNextChar = true
isEscapeSS3 = true
continue
}
r = escapeKey(r, buf)
} else if isEscapeEx {
isEscapeEx = false
if key := readEscKey(r, buf); key != nil {
r = escapeExKey(key)
// offset
if key.typ == 'R' {
if _, _, ok := key.Get2(); ok {
select {
case t.sizeChan <- key.attr:
default:
}
}
expectNextChar = true
continue
}
}
if r == 0 {
expectNextChar = true
continue
}
} else if isEscapeSS3 {
isEscapeSS3 = false
if key := readEscKey(r, buf); key != nil {
r = escapeSS3Key(key)
}
if r == 0 {
expectNextChar = true
continue
}
}
expectNextChar = true
switch r {
case CharEsc:
if t.cfg.VimMode {
t.outchan <- r
break
}
isEscape = true
case CharInterrupt, CharEnter, CharCtrlJ, CharDelete:
expectNextChar = false
fallthrough
default:
t.outchan <- r
}
}
}
func (t *Terminal) Bell() {
fmt.Fprintf(t, "%c", CharBell)
}
func (t *Terminal) Close() error {
if atomic.SwapInt32(&t.closed, 1) != 0 {
return nil
}
if closer, ok := t.cfg.Stdin.(io.Closer); ok {
closer.Close()
}
close(t.stopChan)
t.wg.Wait()
return t.ExitRawMode()
}
func (t *Terminal) GetConfig() *Config {
t.m.Lock()
cfg := *t.cfg
t.m.Unlock()
return &cfg
}
func (t *Terminal) getStdin() io.Reader {
t.m.Lock()
r := t.cfg.Stdin
t.m.Unlock()
return r
}
func (t *Terminal) SetConfig(c *Config) error {
if err := c.Init(); err != nil {
return err
}
t.m.Lock()
t.cfg = c
t.m.Unlock()
return nil
}
|