Closer to working again

This commit is contained in:
Neale Pickett 2020-04-26 15:46:37 -06:00
parent 8fcbb05183
commit 3282401e50
3 changed files with 176 additions and 148 deletions

View File

@ -88,15 +88,15 @@
</tr>
</table>
<p>
dit length
dit length:
<output id="iambic-duration-value"></output>ms
<input
id="duration"
id="iambic-duration"
class="mdl-slider mdl-js-slider"
type="range"
min="40"
max="255"
value="80">
<output id="duration-value"></output>
</p>
</div>
<div class="mdl-tabs__panel" id="straight">

View File

@ -5,6 +5,10 @@
justify-content: space-around;
}
.mdl-card {
margin: 0.5em;
}
.key {
width: 100%;
height: 6em;

View File

@ -1,22 +1,26 @@
// jshint asi:true
var recFreq = 660
var sendFreq = recFreq * 6 / 5 // Perfect minor third
const lowFreq = 660
const highFreq = lowFreq * 6 / 5 // Perfect minor third
const DIT = 1
const DAH = 3
class Iambic {
constructor(BeginTxFunc, endTxFunc) {
constructor(beginTxFunc, endTxFunc) {
this.beginTxFunc = beginTxFunc
this.endTxFunc = endTxFunc
this.interval = null
this.state = this.space
this.keyFunc = null
this.state = this.stateSpace
this.keyState = null
}
// Set a new interval (transmission rate)
setInterval(duration) {
/**
* Set a new interval (transmission rate)
*
* @param {number} duration New interval duration, in ms
*/
SetInterval(duration) {
clearInterval(this.interval)
this.interval = setInterval(e => this.pulse(), duration)
}
@ -26,111 +30,158 @@ class Iambic {
this.state()
}
stateSpace() {
// Don't transmit for one interval.
// If a transmission was requested, start transmitting at the next interval
space() {
if (this.keyFunc) {
this.state = this.keyFunc
this.state = this.keyState || this.stateSpace
}
}
stateDit() {
// Send a dit
dit() {
this.beginTxFunc()
this.state = this.end
this.state = this.stateEnd
}
stateDah() {
// Send a dah
dah() {
this.beginTxFunc()
this.state = this.dah2
this.state = this.stateDah2
}
dah2() {
this.state = this.dah3
stateDah2() {
this.state = this.stateDah3
}
dah3() {
this.state = this.end
stateDah3() {
this.state = this.stateEnd
}
stateEnd() {
// Stop sending
end() {
this.endTxFunc()
this.state = this.space
this.state = this.stateSpace
this.state()
}
// Edge trigger on key press
KeyDown(key) {
/**
* Edge trigger on key press or release
*
* @param {boolean} down True if key was pressed, false if released
* @param {number} key DIT or DAH
*/
Key(down, key) {
// By setting keyState we request this state transition,
// the next time the transition is possible.
let keyState = null
if (key == DIT) {
this.keyFunc = this.dit
keyState = this.stateDit
} else if (key == DAH) {
this.keyFunc = this.dah
}
keyState = this.stateDah
}
// Edge trigger on key release
KeyUp() {
// Only clear the keyFunc if the key released is the same one that we think is pressed
if ((key == DIT) && (this.keyFunc == this.dit)) {
this.keyFunc = null
} else if ((key == DAH) && (this.keyFunc = this.dah)) {
this.keyFunc = null
if (down) {
this.keyState = keyState
} else if (keyState == this.keyState) {
// Only stop when we've released the right key
this.keyState = null
}
}
}
class Buzzer {
constructor(txGain=0.1) {
// Buzzers keep two oscillators: one high and one low.
// They generate a continuous waveform,
// and we change the gain to turn the pitches off and on.
//
// This also implements a very quick ramp-up and ramp-down in gain,
// in order to avoid "pops" (square wave overtones)
// that happen with instant changes in gain.
constructor(txGain=0.5) {
this.txGain = txGain
this.ac = new AudioContext()
this.lowGain = this.ac.createGain()
this.lowGain.connect(ac.destination)
this.lowGain.connect(this.ac.destination)
this.lowGain.gain.value = 0
this.lowOsc = this.ac.createOscillator()
this.lowOsc.connect(recGain)
this.lowOsc.frequency.value = recFreq
this.lowOsc.connect(this.lowGain)
this.lowOsc.frequency.value = lowFreq
this.lowOsc.start()
this.highGain = this.ac.createGain()
this.highGain.connect(ac.destination)
this.highGain.connect(this.ac.destination)
this.highGain.gain.value = 0
this.highOsc = this.ac.createOscillator()
this.highOsc.connect(sendGain)
this.highOsc.frequency.value = recFreq
this.highOsc.connect(this.highGain)
this.highOsc.frequency.value = highFreq
this.highOsc.start()
}
gain(high) {
if (high) {
return this.highGain
return this.highGain.gain
} else {
return this.lowGain
return this.lowGain.gain
}
}
// Begin buzzing at time (null = now)
Buzz(high=false, when=null) {
if (when === null) {
when = this.ac.currentTime
}
this.gain(high).linearRampToValueAtTime(this.txGain, when + 0.1)
/**
* Convert clock time to AudioContext time
*
* @param {number} when Clock time in ms
* @return {number} AudioContext offset time
*/
acTime(when) {
if (! when) {
return this.ac.currentTime
}
// End buzzing at time (null = now)
Silence(high=false, when=null) {
if (when === null) {
when = this.ac.currentTime
}
this.gain(high).linearRampToValueAtTime(0, when + 0.1)
let acOffset = Date.now() - this.ac.currentTime*1000
return (when - acOffset) / 1000
}
// Buzz for a duration at time
BuzzDuration(high, when, duration) {
/**
* Set gain
*
* @param {number} gain Value (0-1)
*/
SetGain(gain) {
this.txGain = gain
}
/**
* Begin buzzing at time
*
* @param {boolean} high High or low pitched tone
* @param {number} when Time to begin (null=now)
*/
Buzz(high, when=null) {
let gain = this.gain(high)
gain.setValueAtTime(0, when)
gain.linearRampToValueAtTime(this.txGain, when+0.1)
gain.setValueAtTime(this.txGain, when+duration)
gain.linearRampToValueAtTime(this.txGain, when+duration+0.1)
let acWhen = this.acTime(when)
this.ac.resume()
gain.setTargetAtTime(this.txGain, acWhen, 0.001)
}
/**
* End buzzing at time
*
* @param {boolean} high High or low pitched tone
* @param {number} when Time to begin (null=now)
*/
Silence(high, when=null) {
let gain = this.gain(high)
let acWhen = this.acTime(when)
gain.setTargetAtTime(0, acWhen, 0.001)
}
/**
* Buzz for a duration at time
*
* @param {boolean} high High or low pitched tone
* @param {number} when Time to begin (ms since 1970-01-01Z, null=now)
* @param {number} duration Duration of buzz (ms)
*/
BuzzDuration(high, when, duration) {
this.Buzz(high, when)
this.Silence(high, when+duration)
}
}
@ -147,7 +198,7 @@ class Vail {
// Listen for right clicks on dit button
let dit = document.querySelector("#dit")
dit.addEventListener("contextmenu", e => this.canWeJustNot(e))
dit.addEventListener("contextmenu", e => {e.preventDefault(); return false})
dit.addEventListener("mousedown", e => this.ditMouse(e))
dit.addEventListener("mouseup", e => this.ditMouse(e))
@ -155,99 +206,72 @@ class Vail {
document.addEventListener("keydown", e => this.key(e))
document.addEventListener("keyup", e => this.key(e))
// Make an Iambic input device
// Make helpers
this.iambic = new Iambic(() => this.beginTx(), () => this.endTx())
this.buzzer = new Buzzer()
let durationElement = document.querySelector("#duration")
durationElement.addEventListener("input", e => this.changeDuration(e))
this.durationInterval = setInterval(e => this.durationElapsed(e), durationElement.value)
this.keyDownTime = 0
this.durationsLeft = 0
// Listen for slider values
this.inputListen("#iambic-duration", e => this.setIambicDuration(e))
}
keyDown() {
this.keyDownTime = new Date()
this.sendGain.linearRampToValueAtTime(0.1, this.ac.currentTime + 0.1)
inputListen(selector, func) {
let element = document.querySelector(selector)
element.addEventListener("input", func)
element.dispatchEvent(new Event("input"))
}
keyUp() {
let keyUpTime = new Date()
let duration = keyUpTime - keyDownTime
this.sendGain.linearRampToValueAtTime(0.0, this.ac.currentTime + 0.1)
this.send(keyDownTime, [duration])
setIambicDuration(event) {
console.log(this)
this.iambic.SetInterval(event.target.value)
document.querySelector("#iambic-duration-value").value = event.target.value
}
durationElapsed(e) {
if (this.durationsLeft === 0) {
this.durationsLeft = this.keyDown + 1
}
if (this.keyDown == 2) {
return
}
beginTx() {
this.beginTxTime = Date.now()
this.buzzer.Buzz(true)
}
beep(gain, duration) {
let now = ac.currentTime
let end = now + duration
if (now === 0) {
return
endTx() {
let endTxTime = Date.now()
let duration = endTxTime - this.beginTxTime
this.buzzer.Silence(true)
let msg = JSON.stringify([this.beginTxTime, duration])
window.socket.send(msg)
}
// Ramping in and out prevents square wave overtones
gain.linearRampToValueAtTime(0.1, now + 0.1)
gain.setValueAtTime(0.1, end - 0.1)
gain.linearRampToValueAtTime(0.0, end)
}
wsMessage(event) {
let msg = JSON.parse(event.data)
let beginTxTime = msg[0]
let duration = msg[1]
message(event) {
let duration = Number(event.data) || 0
duration = Math.min(duration, long)
beep(this.recGain.gain, duration)
}
send(duration) {
window.socket.send(duration)
beep(this.sendGain.gain, duration)
}
key(event) {
let duration = 0
ac.resume()
if (event.repeat) {
// Ignore key repeats generated by the OS, we do this ourselves
return
}
if ((event.button === 0) || (event.code == "Period") || (event.key == "Shift")) {
duration = short
}
if ((event.button === 2) || (event.code == "Slash") || (event.code == "KeyZ")) {
duration = long
}
if (duration === 0) {
return
}
let begin = event.type.endsWith("down")
if (repeatInterval) {
clearInterval(repeatInterval)
}
if (event.type.endsWith("down")) {
send(duration)
repeatInterval = setInterval(() => {send(duration)}, duration + short)
}
}
canWeJustNot(event) {
if ((event.code == "Period") || (event.key == "KeyZ")) {
event.preventDefault()
return false
this.iambic.Key(begin, DIT)
}
if ((event.code == "Slash") || (event.code == "KeyX")) {
event.preventDefault()
this.iambic.Key(begin, DAH)
}
if ((event.key == "Shift")) {
event.preventDefault()
if (begin) {
this.beginTx()
} else {
this.endTx()
}
}
}
}
function vailInit() {