425 lines
13 KiB
TypeScript
425 lines
13 KiB
TypeScript
namespace input.internal {
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//% shim=pxt::unsafePollForChanges
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export function unsafePollForChanges(
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periodMs: int32,
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query: () => int32,
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changeHandler: (prev: int32, curr: int32) => void
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) { }
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let analogMM: MMap
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let uartMM: MMap
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let devcon: Buffer
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let sensors: SensorInfo[]
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let autoSensors: Sensor[]
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class SensorInfo {
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port: number
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sensor: Sensor
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connType: number
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devType: number
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manual: boolean
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constructor(p: number) {
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this.port = p
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this.connType = LMS.CONN_NONE
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this.devType = LMS.DEVICE_TYPE_NONE
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this.sensor = null
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this.manual = false
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}
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}
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function init() {
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if (sensors) return
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sensors = []
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for (let i = 0; i < LMS.NUM_INPUTS; ++i) sensors.push(new SensorInfo(i))
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autoSensors = []
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devcon = output.createBuffer(DevConOff.Size)
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analogMM = control.mmap("/dev/lms_analog", AnalogOff.Size, 0)
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if (!analogMM) control.fail("no analog sensor")
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uartMM = control.mmap("/dev/lms_uart", UartOff.Size, 0)
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if (!uartMM) control.fail("no uart sensor")
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loops.forever(() => {
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detectDevices()
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loops.pause(500)
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})
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for (let info_ of sensors) {
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let info = info_
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unsafePollForChanges(50, () => {
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if (info.sensor) return info.sensor._query()
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return 0
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}, (prev, curr) => {
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if (info.sensor) info.sensor._update(prev, curr)
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})
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}
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}
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function readUartInfo(port: number, mode: number) {
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let buf = output.createBuffer(UartCtlOff.Size)
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buf[UartCtlOff.Port] = port
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buf[UartCtlOff.Mode] = mode
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uartMM.ioctl(IO.UART_READ_MODE_INFO, buf)
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return buf
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//let info = `t:${buf[TypesOff.Type]} c:${buf[TypesOff.Connection]} m:${buf[TypesOff.Mode]} n:${buf.slice(0, 12).toHex()}`
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//serial.writeLine("UART " + port + " / " + mode + " - " + info)
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}
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function detectDevices() {
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let conns = analogMM.slice(AnalogOff.InConn, LMS.NUM_INPUTS)
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let numChanged = 0
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for (let info of sensors) {
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let newConn = conns[info.port]
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if (newConn == info.connType)
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continue
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numChanged++
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info.connType = newConn
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info.devType = LMS.DEVICE_TYPE_NONE
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if (newConn == LMS.CONN_INPUT_UART) {
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control.dmesg(`new UART connection at ${info.port}`)
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setUartMode(info.port, 0)
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let uinfo = readUartInfo(info.port, 0)
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info.devType = uinfo[TypesOff.Type]
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control.dmesg(`UART type ${info.devType}`)
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} else if (newConn == LMS.CONN_INPUT_DUMB) {
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control.dmesg(`new DUMB connection at ${info.port}`)
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// TODO? for now assume touch
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info.devType = LMS.DEVICE_TYPE_TOUCH
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} else if (newConn == LMS.CONN_NONE || newConn == 0) {
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control.dmesg(`disconnect at ${info.port}`)
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} else {
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control.dmesg(`unknown connection type: ${newConn} at ${info.port}`)
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}
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}
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if (numChanged == 0)
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return
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let autos = sensors.filter(s => !s.manual)
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// first free up disconnected sensors
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for (let info of autos) {
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if (info.sensor && info.devType == LMS.DEVICE_TYPE_NONE)
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info.sensor._setPort(0)
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}
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for (let info of autos) {
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if (!info.sensor && info.devType != LMS.DEVICE_TYPE_NONE) {
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let found = false
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for (let s of autoSensors) {
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if (s.getPort() == 0 && s._deviceType() == info.devType) {
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s._setPort(info.port + 1)
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found = true
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break
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}
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}
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if (!found)
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control.dmesg(`sensor not found for type=${info.devType} at ${info.port}`)
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}
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}
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}
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export class Sensor extends control.Component {
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protected port: number
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constructor() {
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super()
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init()
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this.port = -1
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let tp = this._deviceType()
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if (autoSensors.filter(s => s._deviceType() == tp).length == 0) {
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autoSensors.push(this)
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}
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}
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// 0 - disable, 1-4 port number
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_setPort(port: number, manual = false) {
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port = Math.clamp(0, 4, port | 0) - 1;
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if (port == this.port) return
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this.port = port
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control.dmesg(`sensor set port ${port} on devtype=${this._deviceType()}`)
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for (let i = 0; i < sensors.length; ++i) {
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if (i != this.port && sensors[i].sensor == this) {
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sensors[i].sensor = null
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sensors[i].manual = false
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}
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}
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if (this.port >= 0) {
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let prev = sensors[this.port].sensor
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if (prev && prev != this)
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prev._setPort(0)
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sensors[this.port].sensor = this
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sensors[this.port].manual = manual
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}
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this._portUpdated()
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}
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protected _portUpdated() { }
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setPort(port: number) {
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this._setPort(port, true)
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}
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getPort() {
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return this.port + 1
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}
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isManual() {
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return this.port >= 0 && sensors[this.port].manual
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}
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_query() {
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return 0
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}
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_update(prev: number, curr: number) {
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}
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_deviceType() {
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return 0
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}
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}
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export class AnalogSensor extends Sensor {
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constructor() {
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super()
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}
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_readPin6() {
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if (this.port < 0) return 0
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return analogMM.getNumber(NumberFormat.Int16LE, AnalogOff.InPin6 + 2 * this.port)
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}
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}
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export class UartSensor extends Sensor {
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protected mode: number
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protected realmode: number
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constructor() {
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super()
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this.mode = 0
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this.realmode = -1
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}
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protected _portUpdated() {
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this.realmode = -1
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if (this.port >= 0) {
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if (this.isManual()) {
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uartReset(this.port)
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} else {
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this.realmode = 0
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}
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this._setMode(this.mode)
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}
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}
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protected _setMode(m: number) {
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//control.dmesg(`_setMode p=${this.port} m: ${this.realmode} -> ${m}`)
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let v = m | 0
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this.mode = v
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if (this.port < 0) return
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if (this.realmode != this.mode) {
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this.realmode = v
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setUartMode(this.port, v)
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}
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}
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getBytes(): Buffer {
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return getUartBytes(this.port)
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}
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getNumber(fmt: NumberFormat, off: number) {
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return getUartNumber(fmt, off, this.port)
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}
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}
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function uartReset(port: number) {
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if (port < 0) return
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control.dmesg(`UART reset at ${port}`)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, LMS.CONN_NONE)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 0)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, 0)
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uartMM.ioctl(IO.UART_SET_CONN, devcon)
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}
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function getUartStatus(port: number) {
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if (port < 0) return 0
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return uartMM.getNumber(NumberFormat.Int8LE, UartOff.Status + port)
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}
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function waitNonZeroUartStatus(port: number) {
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while (true) {
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if (port < 0) return 0
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let s = getUartStatus(port)
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if (s) return s
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loops.pause(25)
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}
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}
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function uartClearChange(port: number) {
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const UART_DATA_READY = 8
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const UART_PORT_CHANGED = 1
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while (true) {
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let status = getUartStatus(port)
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if (port < 0) break
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if ((status & UART_DATA_READY) != 0 && (status & UART_PORT_CHANGED) == 0)
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break
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, LMS.CONN_INPUT_UART)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 0)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, 0)
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uartMM.ioctl(IO.UART_CLEAR_CHANGED, devcon)
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uartMM.setNumber(NumberFormat.Int8LE, UartOff.Status + port,
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getUartStatus(port) & 0xfffe)
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loops.pause(10)
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}
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}
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function setUartMode(port: number, mode: number) {
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const UART_PORT_CHANGED = 1
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while (true) {
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if (port < 0) return
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control.dmesg(`UART set mode to ${mode} at ${port}`)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, LMS.CONN_INPUT_UART)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 33)
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devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, mode)
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uartMM.ioctl(IO.UART_SET_CONN, devcon)
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let status = waitNonZeroUartStatus(port)
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if (status & UART_PORT_CHANGED) {
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uartClearChange(port)
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} else {
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break
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}
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loops.pause(10)
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}
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}
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function getUartBytes(port: number): Buffer {
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if (port < 0) return output.createBuffer(LMS.MAX_DEVICE_DATALENGTH)
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let index = uartMM.getNumber(NumberFormat.UInt16LE, UartOff.Actual + port * 2)
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return uartMM.slice(
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UartOff.Raw + LMS.MAX_DEVICE_DATALENGTH * 300 * port + LMS.MAX_DEVICE_DATALENGTH * index,
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LMS.MAX_DEVICE_DATALENGTH)
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}
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function getUartNumber(fmt: NumberFormat, off: number, port: number) {
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if (port < 0) return 0
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let index = uartMM.getNumber(NumberFormat.UInt16LE, UartOff.Actual + port * 2)
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return uartMM.getNumber(fmt,
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UartOff.Raw + LMS.MAX_DEVICE_DATALENGTH * 300 * port + LMS.MAX_DEVICE_DATALENGTH * index + off)
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}
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const enum NxtColOff {
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Calibration = 0, // uint32[4][3]
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CalLimits = 48, // uint16[2]
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Crc = 52, // uint16
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ADRaw = 54, // uint16[4]
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SensorRaw = 62, // uint16[4]
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Padding = 70,
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Size = 72
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}
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const enum AnalogOff {
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InPin1 = 0, // int16[4]
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InPin6 = 8, // int16[4]
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OutPin5 = 16, // int16[4]
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BatteryTemp = 24, // int16
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MotorCurrent = 26, // int16
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BatteryCurrent = 28, // int16
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Cell123456 = 30, // int16
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Pin1 = 32, // int16[300][4]
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Pin6 = 2432, // int16[300][4]
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Actual = 4832, // uint16[4]
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LogIn = 4840, // uint16[4]
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LogOut = 4848, // uint16[4]
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NxtCol = 4856, // uint16[36][4] - NxtColor*4
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OutPin5Low = 5144, // int16[4]
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Updated = 5152, // int8[4]
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InDcm = 5156, // int8[4]
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InConn = 5160, // int8[4]
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OutDcm = 5164, // int8[4]
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OutConn = 5168, // int8[4]
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Size = 5172
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}
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const enum DevConOff {
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Connection = 0, // int8[4]
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Type = 4, // int8[4]
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Mode = 8, // int8[4]
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Size = 12
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}
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const enum TypesOff {
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Name = 0, // int8[12]
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Type = 12, // int8
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Connection = 13, // int8
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Mode = 14, // int8
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DataSets = 15, // int8
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Format = 16, // int8
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Figures = 17, // int8
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Decimals = 18, // int8
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Views = 19, // int8
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RawMin = 20, // float32
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RawMax = 24, // float32
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PctMin = 28, // float32
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PctMax = 32, // float32
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SiMin = 36, // float32
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SiMax = 40, // float32
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InvalidTime = 44, // uint16
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IdValue = 46, // uint16
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Pins = 48, // int8
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Symbol = 49, // int8[5]
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Align = 54, // uint16
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Size = 56
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}
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const enum UartOff {
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TypeData = 0, // Types[8][4]
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Repeat = 1792, // uint16[300][4]
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Raw = 4192, // int8[32][300][4]
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Actual = 42592, // uint16[4]
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LogIn = 42600, // uint16[4]
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Status = 42608, // int8[4]
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Output = 42612, // int8[32][4]
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OutputLength = 42740, // int8[4]
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Size = 42744
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}
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const enum UartCtlOff {
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TypeData = 0, // Types
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Port = 56, // int8
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Mode = 57, // int8
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Size = 58
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}
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const enum IO {
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UART_SET_CONN = 0xc00c7500,
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UART_READ_MODE_INFO = 0xc03c7501,
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UART_NACK_MODE_INFO = 0xc03c7502,
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UART_CLEAR_CHANGED = 0xc03c7503,
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IIC_SET_CONN = 0xc00c6902,
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IIC_READ_TYPE_INFO = 0xc03c6903,
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IIC_SETUP = 0xc04c6905,
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IIC_SET = 0xc02c6906,
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TST_PIN_ON = 0xc00b7401,
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TST_PIN_OFF = 0xc00b7402,
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TST_PIN_READ = 0xc00b7403,
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TST_PIN_WRITE = 0xc00b7404,
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TST_UART_ON = 0xc0487405,
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TST_UART_OFF = 0xc0487406,
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TST_UART_EN = 0xc0487407,
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TST_UART_DIS = 0xc0487408,
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TST_UART_READ = 0xc0487409,
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TST_UART_WRITE = 0xc048740a,
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}
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}
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