Merge remote-tracking branch 'origin/master' into disco

more tinkering
better flow
2019-10-31 10:27:15 -07:00 · 2019-10-18 22:03:50 -07:00 · 2019-10-18 20:04:37 -07:00 · 2019-10-18 19:58:09 -07:00 · 2019-10-18 19:28:50 -07:00 · 2019-10-18 19:12:21 -07:00
5 changed files with 92 additions and 92 deletions
--- a/libs/color-sensor/color.ts
+++ b/libs/color-sensor/color.ts
@ -55,11 +55,13 @@ namespace sensors {
    export class ColorSensor extends internal.UartSensor {
        thresholdDetector: sensors.ThresholdDetector;
        calibrating: boolean;
        private _curr: number;
        constructor(port: number) {
            super(port)
            this.thresholdDetector = new sensors.ThresholdDetector(this.id());
            this.calibrating = false;
            this._curr = 0;
        }
        _colorEventValue(value: number) {
@ -102,17 +104,18 @@ namespace sensors {
                        "yellow",
                        "red",
                        "white",
-                        "brown"][this._query()];
+                        "brown"][this._curr];
                case ColorSensorMode.AmbientLightIntensity:
                case ColorSensorMode.ReflectedLightIntensity:
-                    return `${this._query()}%`;
+                    return `${this._curr}%`;
                default:
-                    return this._query().toString();
+                    return this._curr.toString();
            }
        }
        _update(prev: number, curr: number) {
            if (this.calibrating) return; // simply ignore data updates while calibrating
            this._curr = curr;
            if (this.mode == ColorSensorMode.Color || this.mode == ColorSensorMode.RgbRaw || this.mode == ColorSensorMode.RefRaw)
                control.raiseEvent(this._id, this._colorEventValue(curr));
            else
@ -176,7 +179,7 @@ namespace sensors {
        color(): ColorSensorColor {
            this.poke();
            this.setMode(ColorSensorMode.Color)
-            return this.getNumber(NumberFormat.UInt8LE, 0)
+            return this._curr;
        }
        /**
@ -268,7 +271,7 @@ namespace sensors {
                case LightIntensityMode.ReflectedRaw:
                    return this.reflectedLightRaw();
                default:
-                    return this.getNumber(NumberFormat.UInt8LE, 0)
+                    return this._curr;
            }
        }
@ -295,7 +298,7 @@ namespace sensors {
        reflectedLightRaw(): number {
            this.poke();
            this.setMode(ColorSensorMode.RefRaw);
-            return this.getNumber(NumberFormat.UInt16LE, 0);
+            return this._curr;
        }
        /**
--- a/libs/core/input.ts
+++ b/libs/core/input.ts
@ -1,4 +1,7 @@
 namespace sensors.internal {
    const UART_PORT_CHANGED = 1
    const UART_DATA_READY = 8
    export class Poller {
        private query: () => number;
        private update: (previous: number, current: number) => void;
@ -36,6 +39,7 @@ namespace sensors.internal {
        private poll() {
            control.runInBackground(() => {
                pause(this.interval);
                this.lastQuery = this.lastPause = control.millis();
                this.previousValue = this.currentValue = this.query();
                this.update(this.previousValue, this.currentValue);
@ -60,8 +64,6 @@ namespace sensors.internal {
    let uartMM: MMap
    let IICMM: MMap
    let powerMM: MMap
    let devcon: Buffer
    let devPoller: Poller
    let sensorInfos: SensorInfo[];
    let batteryInfo: {
@ -104,11 +106,10 @@ namespace sensors.internal {
        }
    }
-    function init() {
+    export function init() {
        if (sensorInfos) return
        sensorInfos = []
        for (let i = 0; i < DAL.NUM_INPUTS; ++i) sensorInfos.push(new SensorInfo(i))
        devcon = output.createBuffer(DevConOff.Size)
        analogMM = control.mmap("/dev/lms_analog", AnalogOff.Size, 0)
        if (!analogMM) control.fail("no analog sensor")
@ -121,10 +122,10 @@ namespace sensors.internal {
        powerMM = control.mmap("/dev/lms_power", 2, 0)
-        devPoller = new Poller(250, () => { return hashDevices(); },
+        forever(function () {
-            (prev, curr) => {
+            pause(500)
-                detectDevices();
+            detectDevices();
-            });
+        })
    }
    export function getActiveSensors(): Sensor[] {
@ -132,16 +133,6 @@ namespace sensors.internal {
        return sensorInfos.filter(si => si.sensor && si.sensor.isActive()).map(si => si.sensor);
    }
    function readUartInfo(port: number, mode: number) {
        let buf = output.createBuffer(UartCtlOff.Size)
        buf[UartCtlOff.Port] = port
        buf[UartCtlOff.Mode] = mode
        uartMM.ioctl(IO.UART_READ_MODE_INFO, buf)
        return buf
        //let info = `t:${buf[TypesOff.Type]} c:${buf[TypesOff.Connection]} m:${buf[TypesOff.Mode]} n:${buf.slice(0, 12).toHex()}`
        //serial.writeLine("UART " + port + " / " + mode + " - " + info)
    }
    export function readIICID(port: number) {
        const buf = output.createBuffer(IICStr.Size)
        buf[IICStr.Port] = port
@ -273,38 +264,26 @@ void      cUiUpdatePower(void)
        };
    }
    function hashDevices(): number {
        const conns = analogMM.slice(AnalogOff.InConn, DAL.NUM_INPUTS)
        let r = 0;
        for (let i = 0; i < conns.length; ++i) {
            r = conns[i] + (r << 6) + (r << 16) - r;
        }
        return r;
    }
    let nonActivated = 0;
    function detectDevices() {
-        control.dmesg(`detect devices (hash ${hashDevices()})`)
+        control.dmesg(`detect devices`)
        const conns = analogMM.slice(AnalogOff.InConn, DAL.NUM_INPUTS)
-        let numChanged = 0;
+        let devcon: Buffer = undefined;
        const uartSensors: SensorInfo[] = [];
        for (const sensorInfo of sensorInfos) {
            const newConn = conns[sensorInfo.port]
-            if (newConn == sensorInfo.connType
+            if (newConn == sensorInfo.connType)
                && sensorInfo.sensor
                && sensorInfo.sensor.isActive()) {
                if (newConn == DAL.CONN_INPUT_UART)
                    uartSensors.push(sensorInfo);
                continue;
-            }
+
            numChanged++
            sensorInfo.connType = newConn
            sensorInfo.devType = DAL.DEVICE_TYPE_NONE
            sensorInfo.sensor = undefined;
            if (newConn == DAL.CONN_INPUT_UART) {
                control.dmesg(`new UART connection at ${sensorInfo.port}`)
-                updateUartMode(sensorInfo.port, 0);
+                const status = getUartStatus(sensorInfo.port);
-                uartSensors.push(sensorInfo);
+                if (status & UART_PORT_CHANGED) {
                    if (!devcon) devcon = output.createBuffer(DevConOff.Size)
                    updateUartMode(devcon, sensorInfo.port, 0);
                }
            } else if (newConn == DAL.CONN_NXT_IIC) {
                control.dmesg(`new IIC connection at ${sensorInfo.port}`)
                sensorInfo.devType = DAL.DEVICE_TYPE_IIC_UNKNOWN
@ -315,33 +294,31 @@ void      cUiUpdatePower(void)
                // TODO? for now assume touch
                sensorInfo.devType = DAL.DEVICE_TYPE_TOUCH
            } else if (newConn == DAL.CONN_NONE || newConn == 0) {
-                //control.dmesg(`disconnect at port ${sensorInfo.port}`)
+                control.dmesg(`disconnected port ${sensorInfo.port}`)
                // clear sensor
                sensorInfo.sensor = undefined;
            } else {
                control.dmesg(`unknown connection type: ${newConn} at ${sensorInfo.port}`)
                // clear sensor
                sensorInfo.sensor = undefined;
            }
        }
-        if (uartSensors.length > 0) {
+        if (devcon)
-            setUartModes();
+            setUartModes(devcon);
-            for (const sensorInfo of uartSensors) {
+
-                let uinfo = readUartInfo(sensorInfo.port, 0)
+        for (const sensorInfo of sensorInfos.filter(si => si.connType == DAL.CONN_INPUT_UART && si.devType == DAL.CONN_NONE)) {
-                sensorInfo.devType = uinfo[TypesOff.Type]
+            const uinfo = readUartInfo(sensorInfo.port, 0);
-                const mode = uinfo[TypesOff.Mode];
+            sensorInfo.devType = uinfo[TypesOff.Type];
-                control.dmesg(`UART type ${sensorInfo.devType} mode ${mode}`)
+            control.dmesg(`UART type ${sensorInfo.devType}`)
            }
        }
-        if (numChanged == 0 && nonActivated == 0)
+        // assign sensors
-            return
+        for (const sensorInfo of sensorInfos.filter(si => !si.sensor)) {
        //control.dmesg(`updating sensor status`)
        nonActivated = 0;
        for (const sensorInfo of sensorInfos) {
            if (sensorInfo.devType == DAL.DEVICE_TYPE_IIC_UNKNOWN) {
                sensorInfo.sensor = sensorInfo.sensors.filter(s => s._IICId() == sensorInfo.iicid)[0]
                if (!sensorInfo.sensor) {
                    control.dmesg(`sensor not found for iicid=${sensorInfo.iicid} at ${sensorInfo.port}`)
                    nonActivated++;
                } else {
                    control.dmesg(`sensor connected iicid=${sensorInfo.iicid} at ${sensorInfo.port}`)
                    sensorInfo.sensor._activated()
@ -350,14 +327,29 @@ void      cUiUpdatePower(void)
                sensorInfo.sensor = sensorInfo.sensors.filter(s => s._deviceType() == sensorInfo.devType)[0]
                if (!sensorInfo.sensor) {
                    control.dmesg(`sensor not found for type=${sensorInfo.devType} at ${sensorInfo.port}`)
                    nonActivated++;
                } else {
                    control.dmesg(`sensor connected type=${sensorInfo.devType} at ${sensorInfo.port}`)
                    sensorInfo.sensor._activated()
                }
            }
        }
-        //control.dmesg(`detect devices done`)
+
        // check uart sensors
        for (const sensorInfo of sensorInfos.filter(si => si.connType == DAL.CONN_INPUT_UART && !!si.sensor)) {
            const status = getUartStatus(sensorInfo.port);
            control.dmesg(`UART status ${status} at ${sensorInfo.port}`)
        }
    }
    // this function will return a meaningful result only when stats & CHANGED
    // it is cleared afterwards
    function readUartInfo(port: number, mode: number) {
        const buf = output.createBuffer(UartCtlOff.Size)
        buf[UartCtlOff.Port] = port
        buf[UartCtlOff.Mode] = mode
        uartMM.ioctl(IO.UART_READ_MODE_INFO, buf)
        control.dmesg(`UART_READ_MODE t:${buf[TypesOff.Type]} c:${buf[TypesOff.Connection]} m:${buf[TypesOff.Mode]} n:${buf.slice(0, 12).toHex()}`);
        return buf
    }
    export class Sensor extends control.Component {
@ -516,8 +508,8 @@ void      cUiUpdatePower(void)
    export const iicsensor = new IICSensor(3)
    function uartReset(port: number) {
        if (port < 0) return
        control.dmesg(`UART reset at ${port}`)
        const devcon = output.createBuffer(DevConOff.Size)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, DAL.CONN_NONE)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 0)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, 0)
@ -525,17 +517,18 @@ void      cUiUpdatePower(void)
    }
    function getUartStatus(port: number) {
        if (port < 0) return 0
        return uartMM.getNumber(NumberFormat.Int8LE, UartOff.Status + port)
    }
-    function waitNonZeroUartStatus(port: number) {
+    function waitNonZeroUartStatus(port: number): number {
-        while (true) {
+        let retry = 20;
-            if (port < 0) return 0
+        while (retry-- > 0) {
-            let s = getUartStatus(port)
+            const s = getUartStatus(port)
-            if (s) return s
+            if (s) return s;
            control.dmesg(`UART status 0, waiting...`)
            pause(25)
        }
        return 0
    }
    function uartClearChange(port: number) {
@ -547,10 +540,11 @@ void      cUiUpdatePower(void)
            if ((status & UART_DATA_READY) != 0 && (status & UART_PORT_CHANGED) == 0)
                break
            const devcon = output.createBuffer(DevConOff.Size)
            devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, DAL.CONN_INPUT_UART)
            devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 0)
            devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, 0)
-
+            control.dmesg(`UART_CLEAR_CHANGED status ${status} ${devcon.toHex()}`)
            uartMM.ioctl(IO.UART_CLEAR_CHANGED, devcon)
            uartMM.setNumber(NumberFormat.Int8LE, UartOff.Status + port,
@ -559,8 +553,8 @@ void      cUiUpdatePower(void)
        }
    }
-    function setUartModes() {
+    function setUartModes(devcon: Buffer) {
-        control.dmesg(`UART set modes 0x${devcon.toHex()}`)
+        control.dmesg(`UART_SET_CONN ${devcon.toHex()}`)
        uartMM.ioctl(IO.UART_SET_CONN, devcon)
        const ports: number[] = [];
        for (let port = 0; port < DAL.NUM_INPUTS; ++port) {
@ -573,25 +567,22 @@ void      cUiUpdatePower(void)
            const port = ports.pop();
            const status = waitNonZeroUartStatus(port)
            control.dmesg(`UART status ${status} at ${port}`);
            if (!(status & UART_DATA_READY))
                setUartMode(port, devcon[DevConOff.Mode + port]);
        }
    }
-    function updateUartMode(port: number, mode: number) {
+    function updateUartMode(devcon: Buffer, port: number, mode: number) {
        control.dmesg(`UART update mode to ${mode} at ${port}`)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, DAL.CONN_INPUT_UART)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, 33)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, mode)
    }
    const UART_PORT_CHANGED = 1
    const UART_DATA_READY = 8
    function setUartMode(port: number, mode: number) {
        control.dmesg(`UART set mode ${mode} at ${port}`);
        while (true) {
-            if (port < 0) return
+            const devcon = output.createBuffer(DevConOff.Size)
-            updateUartMode(port, mode);
+            updateUartMode(devcon, port, mode);
-            control.dmesg(`UART set mode 0x${devcon.toHex()}`)
+            control.dmesg(`UART_SET_CONN ${devcon.toHex()}`)
            uartMM.ioctl(IO.UART_SET_CONN, devcon)
            let status = waitNonZeroUartStatus(port)
            if (status & UART_PORT_CHANGED) {
@ -623,6 +614,7 @@ void      cUiUpdatePower(void)
    export function setIICMode(port: number, type: number, mode: number) {
        if (port < 0) return;
        const devcon = output.createBuffer(DevConOff.Size)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Connection + port, DAL.CONN_NXT_IIC)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Type + port, type)
        devcon.setNumber(NumberFormat.Int8LE, DevConOff.Mode + port, mode)
@ -631,7 +623,7 @@ void      cUiUpdatePower(void)
    export function transactionIIC(port: number, deviceAddress: number, writeBuf: number[], readLen: number) {
        if (port < 0) return;
-        let iicdata = output.createBuffer(IICDat.Size)
+        const iicdata = output.createBuffer(IICDat.Size)
        iicdata.setNumber(NumberFormat.Int8LE, IICDat.Port, port)
        iicdata.setNumber(NumberFormat.Int8LE, IICDat.Repeat, 0)
        iicdata.setNumber(NumberFormat.Int16LE, IICDat.Time, 0)
--- a/libs/core/output.ts
+++ b/libs/core/output.ts
@ -55,7 +55,7 @@ namespace motors {
        Size = 12
    }
-    function init() {
+    export function init() {
        if (pwmMM) return
        pwmMM = control.mmap("/dev/lms_pwm", 0, 0)
        if (!pwmMM) control.fail("no PWM file")
--- a/libs/ev3/startup.ts
+++ b/libs/ev3/startup.ts
@ -2,5 +2,6 @@
 console.addListener(function(priority: ConsolePriority, msg: string) {
    control.dmesg(msg.substr(0, msg.length - 1))
 })
 // boot sequence
 brick.showBoot();
--- a/libs/screen/targetoverrides.ts
+++ b/libs/screen/targetoverrides.ts
@ -141,6 +141,8 @@ namespace brick {
        const col = 44;
        const lineHeight8 = image.font8.charHeight + 2;
        const h = screen.height;
        const w = screen.width;
        const blink = (control.millis() >> 5) % (h - 1);
        clearScreen();
@ -180,21 +182,23 @@ namespace brick {
            if (inf)
                screen.print(inf, x, h - 2 * lineHeight8, 1, inf.length > 4 ? image.font5 : image.font8);
        }
        // alive dot
        screen.setPixel(w - 1, blink, 1);
        screen.setPixel(w - 1, blink - 1, 1);
        screen.setPixel(w - 2, blink - 1, 1);
        screen.setPixel(w - 2, blink, 1);
    }
    export function showBoot() {
        // pulse green, play startup sound, turn off light
        brick.setStatusLight(StatusLight.GreenPulse);
        // We pause for 100ms to give time to read sensor values, so they work in on_start block
-        pause(400)
+        sensors.internal.init();
        motors.init();
        pause(800)
        // and we're ready
        brick.setStatusLight(StatusLight.Off);
        // always show port by default if no UI is set
        control.runInParallel(function () {
            // show ports if nothing is has been shown
            if (screenMode != ScreenMode.None) return;
            showPorts();
        })
    }
    /**
Author	SHA1	Message	Date
Peli de Halleux	5a32907daa	Merge remote-tracking branch 'origin/master' into disco	2019-10-31 10:27:15 -07:00
Peli de Halleux	aad9f0fd8a	more tinkering	2019-10-18 22:03:50 -07:00
Peli de Halleux	fb4a0c2e16	better flow	2019-10-18 20:04:37 -07:00
Peli de Halleux	88767e37fd	more updates	2019-10-18 19:58:09 -07:00
Peli de Halleux	1acb304e48	fix dot	2019-10-18 19:28:50 -07:00
Peli de Halleux	8844559987	remove log	2019-10-18 19:12:21 -07:00
Peli de Halleux	7a7435b4c7	various updates	2019-10-18 19:09:43 -07:00
Peli de Halleux	5e532dc2fd	adding blinky	2019-10-18 16:36:40 -07:00
Peli de Halleux	c0bd3a7d5d	more twidinling	2019-10-13 19:08:34 -07:00
Peli de Halleux	cb0da08063	more logging	2019-10-13 18:27:17 -07:00
Peli de Halleux	f116b5d1da	handle disconnect	2019-10-13 13:41:20 -07:00