/
chain.go
332 lines (295 loc) · 5.35 KB
/
chain.go
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package keys
import (
"bytes"
"time"
"github.com/BurntSushi/xgb/xproto"
"github.com/wSCP/xandle/x"
)
func (k *Keys) ConfigureChains(chains []Chain) error {
var err error
for _, c := range chains {
c.Expiry(k.ChainExpiry)
err = c.Attach(k, k.Root())
}
if err != nil {
return err
}
return nil
}
type Chain interface {
Detailable
Commandable
Activitable
Keyable
Chainable
}
type Detailable interface {
Mechanic() x.Xevent
Raw() string
String() string
Chained() string
}
type Activitable interface {
Clear()
Active() (int64, bool)
Activated() bool
Expiry(time.Duration)
}
type Keyable interface {
Attach(Handle, xproto.Window) error
Run(string) error
}
type Chainable interface {
Head() Chain
Tail() Chain
SetPrev(Chain)
Prev() Chain
SetNext(Chain)
Next() Chain
Append(Chain)
}
type Commandable interface {
AddCommand(*Cmd)
Command() *Cmd
}
type chain struct {
mechanic x.Xevent
expires int64
expiry time.Duration
prev Chain
next Chain
khord string
chord string
command *Cmd
}
func (c *chain) expired() bool {
if time.Now().Unix() < c.expires {
return false
}
return true
}
func (c *chain) touch() {
c.expires = time.Now().Add(c.expiry).Unix()
}
func clear(c Chain) {
head := c.Head()
head.Clear()
n := head.Next()
for n != nil {
n.Clear()
n = n.Next()
}
}
func (c *chain) Clear() {
c.expires = 0
}
func (c *chain) Active() (int64, bool) {
if !c.expired() {
return c.expires, true
}
return c.expires, false
}
func (c *chain) Activated() bool {
head := c.Head()
if last, atv := head.Active(); atv {
for head.Next() != nil {
head = head.Next()
curr, atv := head.Active()
if !atv {
return false
}
if curr < last {
return false
}
last = curr
}
return true
}
return false
}
func (c *chain) Expiry(d time.Duration) {
c.expiry = d
}
func (c *chain) Head() Chain {
var head Chain
head = c
for head.Prev() != nil {
head = head.Prev()
}
return head
}
func (c *chain) Tail() Chain {
var tail Chain
tail = c
for tail.Next() != nil {
tail = tail.Next()
}
return tail
}
func (c *chain) SetPrev(o Chain) {
c.prev = o
}
func (c *chain) Prev() Chain {
return c.prev
}
func (c *chain) SetNext(o Chain) {
o.SetPrev(c)
c.next = o
}
func (c *chain) Next() Chain {
return c.next
}
func (c *chain) Append(o Chain) {
c.Tail().SetNext(o)
}
func (c *chain) Command() *Cmd {
return c.command
}
func (c *chain) AddCommand(cmd *Cmd) {
c.command = cmd
}
func attach(c Chain, h Handle, w xproto.Window) error {
switch c.Mechanic() {
case x.KeyPressEvent, x.KeyReleaseEvent:
mods, keycodes, err := ParseKeyInput(h.Keyboard(), c.String())
if err != nil {
return err
}
for _, kc := range keycodes {
GrabKeyChecked(h.Conn(), w, mods, kc)
ky := mkCall(c.Mechanic(), w, mods, byte(kc), 0)
h.Put(ky, c)
}
case x.ButtonPressEvent, x.ButtonReleaseEvent:
mods, button, err := ParseMouseInput(c.String())
if err != nil {
return err
}
MouseGrabChecked(h.Conn(), w, mods, button)
ky := mkCall(c.Mechanic(), w, mods, 0, byte(button))
h.Put(ky, c)
}
return nil
}
func (c *chain) Attach(h Handle, w xproto.Window) error {
var err error
err = attach(c, h, w)
if err != nil {
return err
}
if c.Next() != nil {
n := c.Next()
for n != nil {
err = attach(n, h, w)
if err != nil {
return err
}
n = n.Next()
}
}
return nil
}
func (c *chain) Run(param string) error {
c.touch()
if c.Activated() {
cmd := c.Command()
return cmd.Exec(param).Run()
}
return nil
}
func (c *chain) Mechanic() x.Xevent {
return c.mechanic
}
func (c *chain) Raw() string {
return c.khord
}
func (c *chain) String() string {
return c.chord
}
func (c *chain) Chained() string {
cmdstring := func(c Chain, b *bytes.Buffer) {
if cmd := c.Command(); cmd != nil {
b.Write(cmd.Bytes())
}
}
ret := new(bytes.Buffer)
ret.WriteString(c.khord)
cmdstring(c, ret)
n := c.Next()
for n != nil {
ret.WriteString("; ")
ret.WriteString(n.String())
cmdstring(n, ret)
n = n.Next()
}
return ret.String()
}
func newChain(in []byte) *chain {
chord, khord, mechanic := chordMechanic(in)
return &chain{
mechanic: mechanic,
khord: khord,
chord: chord,
}
}
func chordMechanic(in []byte) (string, string, x.Xevent) {
var chord, khord string
var mec x.Xevent
var isRelease, isButton bool
if spl := bytes.Split(in, []byte("+")); spl[len(spl)-1][0] == RELEASE {
isRelease = true
}
if bytes.Contains(in, []byte("button")) {
isButton = true
}
cut := func(r rune) rune {
if r == '@' {
return -1
}
return r
}
switch {
case !isRelease && !isButton:
s := string(in)
chord = s
khord = s
mec = x.KeyPressEvent
case isRelease && !isButton:
chord = string(bytes.Map(cut, in))
khord = string(in)
mec = x.KeyReleaseEvent
case !isRelease && isButton:
s := string(in)
chord = s
khord = s
mec = x.ButtonPressEvent
case isRelease && isButton:
chord = string(bytes.Map(cut, in))
khord = string(in)
mec = x.ButtonReleaseEvent
default:
s := string(in)
chord = s
khord = s
mec = x.KeyPressEvent
}
return chord, khord, mec
}
func mkChain(in [][]byte) Chain {
head := newChain(in[0])
curr := head
for _, v := range in[1:] {
n := newChain(v)
n.prev = curr
curr.next = n
curr = n
}
return head
}
func mkChains(in [][][]byte) []Chain {
var ret []Chain
for _, v := range in {
ret = append(ret, mkChain(v))
}
return ret
}