1.1.10

* Add exitThread() polling the exit button

* Add missing includes

* Remove redundant code

.travis.yml

@@ -0,0 +1,9 @@
+language: node_js
+node_js:
+  - "8.9.0"
+script:
+  - "node node_modules/pxt-core/built/pxt.js travis"
+sudo: false
+cache:
+  directories:
+    - node_modules

README.md

@@ -1,10 +1,8 @@
-# LEGO® MINDSTORMS® Education EV3 for Microsoft MakeCode
-
-[![Build Status](https://ci2.dot.net/buildStatus/icon?job=Private/pxt_project_rainbow/master/pxt-ev3_Push)](https://ci2.dot.net/job/Private/job/pxt_project_rainbow/job/master/job/pxt-ev3_Push/)
+# LEGO® MINDSTORMS® Education EV3 for Microsoft MakeCode [![Build Status](https://travis-ci.org/microsoft/pxt-ev3.svg?branch=master)](https://travis-ci.org/microsoft/pxt-ev3)
 
 This repo contains the editor target hosted at https://makecode.mindstorms.com
 
-## Local Dev setup
+## Local setup
 
 These instructions assume familiarity with dev tools and languages.
 
@@ -12,10 +10,6 @@ These instructions assume familiarity with dev tools and languages.
 * install Docker; make sure `docker` command is in your `PATH`
 * (optional) install [Visual Studio Code](https://code.visualstudio.com/)
 
-In a common folder,
-
-* clone https://github.com/Microsoft/pxt to ``pxt`` folder
-* clone https://github.com/Microsoft/pxt-common-packages to ``pxt-common-packages`` folder
 * clone https://github.com/Microsoft/pxt-ev3 to ``pxt-ev3`` folder
 * go to ``pxt`` and run
 
@@ -23,6 +17,18 @@ In a common folder,
 npm install
 ```
 
+* to run the local server,
+```
+pxt serve --cloud
+```
+
+## Local Dev setup
+
+In the common folder,
+
+* clone https://github.com/Microsoft/pxt to ``pxt`` folder
+* clone https://github.com/Microsoft/pxt-common-packages to ``pxt-common-packages`` folder
+
 * go to ``pxt-common-packages`` and run
 
 ```
@@ -54,9 +60,6 @@ cd libs/core
 pxt deploy
 ```
 
-### Jenkins build
-https://ci2.dot.net/job/Private/job/pxt_project_rainbow/job/master/
-
 ## License
 MIT
 

docs/coding/line-detection.md

@@ -190,12 +190,10 @@ if (true) {
 
 ```blocks
 forever(function () {
-    while (true) {
-        sensors.color3.pauseUntilColorDetected(ColorSensorColor.Black)
+    while (sensors.color3.color() == ColorSensorColor.Black) {
         motors.largeBC.steer(-30, 50)
     }
-    while (true) {
-        sensors.color3.pauseUntilColorDetected(ColorSensorColor.White)
+    while (sensors.color3.color() == ColorSensorColor.White) {
         motors.largeBC.steer(30, 50)
     }
 })
@@ -209,11 +207,9 @@ Else the Color Sensor detects the color white, start motors ``B`` and ``C`` (dri
 
 ```blocks
 forever(function () {
-    if (true) {
-        sensors.color3.pauseUntilColorDetected(ColorSensorColor.Black)
+    if (sensors.color3.color() == ColorSensorColor.Black) {
         motors.largeBC.steer(-30, 50)
     } else {
-        sensors.color3.pauseUntilColorDetected(ColorSensorColor.White)
         motors.largeBC.steer(30, 50)
     }
 })

jenkins.groovy

@@ -1,41 +0,0 @@
-import jobs.generation.Utilities;
-import jobs.generation.InternalUtilities;
-
-def project = GithubProject
-def projectName = "pxt-ev3"
-
-[true, false].each { isPR ->
-    def newJobName = projectName
-
-    if (isPR) {
-        newJobName += "_PR"
-    } else {
-        newJobName += "_Push"
-    }
-
-    def newJob = job(newJobName) {
-        steps {
-            shell("chmod +x ./jenkins.sh")
-            shell("./jenkins.sh ${isPR}")
-        }
-
-        if (!isPR) {
-            wrappers {
-                credentialsBinding {
-                    string("PXT_ACCESS_TOKEN", "pxt_access_token")
-                    string("PXT_RELEASE_REPO", "pxt_release_repo_ev3")
-                    string("CROWDIN_KEY", "pxt_crowdin_key")
-                }
-            }
-        }
-    }
-
-    Utilities.setMachineAffinity(newJob, "Ubuntu", "20161020")
-    InternalUtilities.standardJobSetup(newJob, project, isPR, "*/*")
-
-    if (isPR) {
-        Utilities.addGithubPRTrigger(newJob, "Default Testing")
-    } else {
-        Utilities.addGithubPushTrigger(newJob)
-    }
-}

jenkins.sh

@@ -1,56 +0,0 @@
-#!/usr/bin/env bash
-
-# Set up NVM
-export NVM_DIR="/home/dotnet-bot/.nvm"
-[ -s "$NVM_DIR/nvm.sh" ] && . "$NVM_DIR/nvm.sh" 
-
-nvm install 8
-
-# Set up build environment variables
-echo ---------- Setting build environment variables
-echo Git branch: $GIT_BRANCH
-echo isPR: $1
-
-originRegex="^origin/.*"
-branchRegex="^origin/\K.*(?=$)"
-releaseBranchRegex="^(master|v\d+)$"
-
-if [[ "$GIT_BRANCH" =~ $originRegex ]]; then
-    branchName=$(echo ${GIT_BRANCH} | grep -oP $branchRegex)
-    echo Setting TRAVIS_BRANCH to ${branchName}
-    export TRAVIS_BRANCH=${branchName}
-else
-    echo Setting TRAVIS_BRANCH to $GIT_BRANCH
-    export TRAVIS_BRANCH=$GIT_BRANCH
-fi
-
-if [ "$1" == "false" ]; then
-    echo Setting TRAVIS_PULL_REQUEST to false
-    export TRAVIS_PULL_REQUEST=false
-
-    if [[ "$TRAVIS_BRANCH" =~ $releaseBranchRegex ]]; then
-        if [[ -z $PXT_RELEASE_REPO ]]; then
-            echo Cannot find release repo\; skipping tag checks
-        else
-            gitTag=$(git describe --tags --exact-match 2> /dev/null)
-            builtTag=$(git ls-remote --tags $PXT_RELEASE_REPO | grep -o "refs/tags/$gitTag$")
-
-            echo Current tag: $gitTag
-            echo Built tag: $builtTag
-
-            if [[ ! -z $gitTag && -z $builtTag ]]; then
-                echo Built tag not found\; building tag
-                echo Setting TRAVIS_BRANCH to $gitTag
-                export TRAVIS_BRANCH=$gitTag
-                echo Setting TRAVIS_TAG to $gitTag
-                export TRAVIS_TAG=$gitTag
-            else
-                echo Not a tag build
-            fi
-        fi
-    fi
-fi
-
-# Perform build
-npm install
-npm test

libs/color-sensor/color.ts

@@ -1,5 +1,5 @@
 const enum ColorSensorMode {
-    None = -1,
+    None = 0,
     //% block="reflected light intensity"
     ReflectedLightIntensity = 0,
     //% block="ambient light intensity"
@@ -15,7 +15,9 @@ enum LightIntensityMode {
     //% block="reflected light"
     Reflected = ColorSensorMode.ReflectedLightIntensity,
     //% block="ambient light"
-    Ambient = ColorSensorMode.AmbientLightIntensity
+    Ambient = ColorSensorMode.AmbientLightIntensity,
+    //% block="reflected light (raw)"
+    ReflectedRaw = ColorSensorMode.RefRaw
 }
 
 const enum ColorSensorColor {
@@ -93,6 +95,8 @@ namespace sensors {
                 || this.mode == ColorSensorMode.AmbientLightIntensity
                 || this.mode == ColorSensorMode.ReflectedLightIntensity)
                 return this.getNumber(NumberFormat.UInt8LE, 0)
+            if (this.mode == ColorSensorMode.RefRaw || this.mode == ColorSensorMode.RgbRaw)
+                return this.getNumber(NumberFormat.UInt16LE, 0)
             return 0
         }
 
@@ -114,7 +118,7 @@ namespace sensors {
 
         _update(prev: number, curr: number) {
             if (this.calibrating) return; // simply ignore data updates while calibrating
-            if (this.mode == ColorSensorMode.Color)
+            if (this.mode == ColorSensorMode.Color || this.mode == ColorSensorMode.RgbRaw || this.mode == ColorSensorMode.RefRaw)
                 control.raiseEvent(this._id, this._colorEventValue(curr));
             else
                 this.thresholdDetector.setLevel(curr);
@@ -179,6 +183,22 @@ namespace sensors {
             return this.getNumber(NumberFormat.UInt8LE, 0)
         }
 
+        /**
+         * Get the current raw rgb values from the color sensor.
+         * @param sensor the color sensor to query the request
+         */
+        //% help=sensors/color-sensor/rgbraw
+        //% parts="colorsensor"
+        //% blockNamespace=sensors
+        //% this.fieldEditor="ports"
+        //% weight=98
+        //% group="Color Sensor"
+        //% blockGap=8
+        rgbRaw(): number[] {
+            this.setMode(ColorSensorMode.RgbRaw);
+            return [this.getNumber(NumberFormat.UInt16LE, 0), this.getNumber(NumberFormat.UInt16LE, 2), this.getNumber(NumberFormat.UInt16LE, 4)];
+        }
+
         /**
          * Registers code to run when the ambient light changes.
          * @param condition the light condition
@@ -229,7 +249,12 @@ namespace sensors {
         //% group="Color Sensor"
         light(mode: LightIntensityMode) {
             this.setMode(<ColorSensorMode><number>mode)
-            return this.getNumber(NumberFormat.UInt8LE, 0)
+            switch(mode) {
+                case LightIntensityMode.ReflectedRaw:
+                    return this.reflectedLightRaw();
+                default:
+                    return this.getNumber(NumberFormat.UInt8LE, 0)
+            }
         }
 
         /**
@@ -248,6 +273,15 @@ namespace sensors {
             return this.light(LightIntensityMode.Reflected);
         }
 
+        /**
+         * Gets the raw reflection light value
+         */
+        //%
+        reflectedLightRaw(): number {
+            this.setMode(ColorSensorMode.RefRaw);
+            return this.getNumber(NumberFormat.UInt16LE, 0);
+        }
+
         /**
          * Set a threshold value
          * @param condition the dark or bright light condition

libs/core/buttons.ts

@@ -159,12 +159,6 @@ namespace brick {
             if (sl[i])
                 ret |= 1 << i
         }
-        // this needs to be done in query(), which is run without the main JS execution mutex
-        // otherwise, while(true){} will lock the device
-        if (ret & DAL.BUTTON_ID_ESCAPE) {
-            motors.stopAll(); // ensuring that all motors are off
-            control.reset()
-        }
         return ret
     }
 

libs/core/input.ts

@@ -25,8 +25,17 @@ namespace sensors.internal {
         })
     }
 
+    export function bufferToString(buf: Buffer): string {
+        let s = ''
+        for (let i = 0; i < buf.length; i++)
+            s += String.fromCharCode(buf[i])
+
+        return s
+    }
+
     let analogMM: MMap
     let uartMM: MMap
+    let IICMM: MMap
     let devcon: Buffer
     let sensorInfos: SensorInfo[]
 
@@ -36,11 +45,13 @@ namespace sensors.internal {
         sensors: Sensor[]
         connType: number
         devType: number
+        iicid: string
 
         constructor(p: number) {
             this.port = p
             this.connType = DAL.CONN_NONE
             this.devType = DAL.DEVICE_TYPE_NONE
+            this.iicid = ''
             this.sensors = []
         }
     }
@@ -57,20 +68,21 @@ namespace sensors.internal {
         uartMM = control.mmap("/dev/lms_uart", UartOff.Size, 0)
         if (!uartMM) control.fail("no uart sensor")
 
-        forever(() => {
-            detectDevices()
-            pause(500)
-        })
+        IICMM = control.mmap("/dev/lms_iic", IICOff.Size, 0)
+        if (!IICMM) control.fail("no iic sensor")
 
-        for (let info_ of sensorInfos) {
-            let info = info_
+        unsafePollForChanges(500, 
+            () => { return hashDevices(); }, 
+            (prev, curr) => { detectDevices(); 
+        });
+        sensorInfos.forEach(info => {
             unsafePollForChanges(50, () => {
                 if (info.sensor) return info.sensor._query()
                 return 0
             }, (prev, curr) => {
                 if (info.sensor) info.sensor._update(prev, curr)
             })
-        }
+        })
 
     }
 
@@ -89,6 +101,15 @@ namespace sensors.internal {
         //serial.writeLine("UART " + port + " / " + mode + " - " + info)
     }
 
+    export function readIICID(port: number) {
+        const buf = output.createBuffer(IICStr.Size)
+        buf[IICStr.Port] = port
+        IICMM.ioctl(IO.IIC_READ_TYPE_INFO, buf)
+        const manufacturer = bufferToString(buf.slice(IICStr.Manufacturer, 8))
+        const sensorType = bufferToString(buf.slice(IICStr.SensorType, 8))
+        return manufacturer + sensorType;
+    }
+
     export function getBatteryInfo(): { temp: number; current: number } {
         init();
         return {
@@ -97,52 +118,87 @@ namespace sensors.internal {
         }
     }
 
-    function detectDevices() {
-        let conns = analogMM.slice(AnalogOff.InConn, DAL.NUM_INPUTS)
-        let numChanged = 0
+    function hashDevices(): number {
+        const conns = analogMM.slice(AnalogOff.InConn, DAL.NUM_INPUTS)
+        let r = 0;
+        for(let i = 0; i < conns.length; ++i) {
+            r = (r << 8 | conns[i]);
+        }
+        return r;
+    }
 
-        for (let info of sensorInfos) {
-            let newConn = conns[info.port]
-            if (newConn == info.connType)
-                continue
+    let nonActivated = 0;
+    function detectDevices() {
+        control.dmesg(`detect devices (${nonActivated} na)`)
+        const conns = analogMM.slice(AnalogOff.InConn, DAL.NUM_INPUTS)
+        let numChanged = 0;
+        const uartSensors: SensorInfo[] = [];
+
+        for (const sensorInfo of sensorInfos) {
+            const newConn = conns[sensorInfo.port]
+            if (newConn == sensorInfo.connType) {
+                // control.dmesg(`connection unchanged ${newConn} at ${sensorInfo.port}`)
+                continue;
+            }
             numChanged++
-            info.connType = newConn
-            info.devType = DAL.DEVICE_TYPE_NONE
+            sensorInfo.connType = newConn
+            sensorInfo.devType = DAL.DEVICE_TYPE_NONE
             if (newConn == DAL.CONN_INPUT_UART) {
-                control.dmesg(`new UART connection at ${info.port}`)
-                setUartMode(info.port, 0)
-                let uinfo = readUartInfo(info.port, 0)
-                info.devType = uinfo[TypesOff.Type]
-                control.dmesg(`UART type ${info.devType}`)
+                control.dmesg(`new UART connection at ${sensorInfo.port}`)
+                updateUartMode(sensorInfo.port, 0);
+                uartSensors.push(sensorInfo);
+            } else if (newConn == DAL.CONN_NXT_IIC) {
+                control.dmesg(`new IIC connection at ${sensorInfo.port}`)
+                sensorInfo.devType = DAL.DEVICE_TYPE_IIC_UNKNOWN
+                sensorInfo.iicid = readIICID(sensorInfo.port)
+                control.dmesg(`IIC ID ${sensorInfo.iicid.length}`)
             } else if (newConn == DAL.CONN_INPUT_DUMB) {
-                control.dmesg(`new DUMB connection at ${info.port}`)
+                control.dmesg(`new DUMB connection at ${sensorInfo.port}`)
                 // TODO? for now assume touch
-                info.devType = DAL.DEVICE_TYPE_TOUCH
+                sensorInfo.devType = DAL.DEVICE_TYPE_TOUCH
             } else if (newConn == DAL.CONN_NONE || newConn == 0) {
-                control.dmesg(`disconnect at ${info.port}`)
+                control.dmesg(`disconnect at port ${sensorInfo.port}`)
             } else {
-                control.dmesg(`unknown connection type: ${newConn} at ${info.port}`)
+                control.dmesg(`unknown connection type: ${newConn} at ${sensorInfo.port}`)
             }
         }
 
-        if (numChanged == 0)
+        if (uartSensors.length > 0) {
+            setUartModes();
+            for (const sensorInfo of uartSensors) {
+                let uinfo = readUartInfo(sensorInfo.port, 0)
+                sensorInfo.devType = uinfo[TypesOff.Type]
+                control.dmesg(`UART type ${sensorInfo.devType}`)
+            }
+        }
+
+        if (numChanged == 0 && nonActivated == 0)
             return
 
-        for (let si of sensorInfos) {
-            if (si.sensor && si.sensor._deviceType() != si.devType) {
-                si.sensor = null
-            }
-            if (si.devType != DAL.DEVICE_TYPE_NONE) {
-                // TODO figure out compiler problem when '|| null' is added here!
-                si.sensor = si.sensors.filter(s => s._deviceType() == si.devType)[0]
-                if (si.sensor == null) {
-                    control.dmesg(`sensor not found for type=${si.devType} at ${si.port}`)
+        control.dmesg(`updating sensor status`)
+        nonActivated = 0;
+        for (const sensorInfo of sensorInfos) {
+            if (sensorInfo.devType == DAL.DEVICE_TYPE_IIC_UNKNOWN) {
+                sensorInfo.sensor = sensorInfo.sensors.filter(s => s._IICId() == sensorInfo.iicid)[0]
+                if (!sensorInfo.sensor) {
+                    control.dmesg(`sensor not found for iicid=${sensorInfo.iicid} at ${sensorInfo.port}`)
+                    nonActivated++;
                 } else {
-                    control.dmesg(`sensor connected type=${si.devType} at ${si.port}`)
-                    si.sensor._activated()
+                    control.dmesg(`sensor connected iicid=${sensorInfo.iicid} at ${sensorInfo.port}`)
+                    sensorInfo.sensor._activated()
+                }
+            } else if (sensorInfo.devType != DAL.DEVICE_TYPE_NONE) {
+                sensorInfo.sensor = sensorInfo.sensors.filter(s => s._deviceType() == sensorInfo.devType)[0]
+                if (!sensorInfo.sensor) {
+                    control.dmesg(`sensor not found for type=${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`)
     }
 
     export class Sensor extends control.Component {
@@ -187,6 +243,10 @@ namespace sensors.internal {
         _deviceType() {
             return 0
         }
+
+        _IICId() {
+            return ''
+        }
     }
 
     export class AnalogSensor extends Sensor {
@@ -212,7 +272,6 @@ namespace sensors.internal {
 
         _activated() {
             this.realmode = 0
-            // uartReset(this.port) // TODO is it ever needed?
             this._setMode(this.mode)
         }
 
@@ -243,6 +302,55 @@ namespace sensors.internal {
         }
     }
 
+    export class IICSensor extends Sensor {
+        protected mode: number // the mode user asked for
+        protected realmode: number // the mode the hardware is in
+        private readLength: number
+
+        constructor(port: number) {
+            super(port)
+            this.mode = 0
+            this.realmode = 0
+            this.readLength = 1;
+        }
+
+        _activated() {
+            this.realmode = 0
+            this._setMode(this.mode)
+        }
+
+        protected _setMode(m: number) {
+            let v = m | 0
+            this.mode = v
+            if (!this.isActive()) return
+            if (this.realmode != this.mode) {
+                this.realmode = v
+                setIICMode(this._port, this._deviceType(), v)
+            }
+        }
+
+        getBytes(): Buffer {
+            return getIICBytes(this.isActive() ? this._port : -1, this.readLength)
+        }
+
+        getNumber(fmt: NumberFormat, off: number) {
+            if (!this.isActive())
+                return 0
+            return getIICNumber(this.readLength, fmt, off, this._port)
+        }
+
+        transaction(deviceAddress: number, write: number[], read: number) {
+            this.readLength = read;
+            transactionIIC(this._port, deviceAddress, write, read)
+        }
+
+        _deviceType() {
+            return DAL.DEVICE_TYPE_IIC_UNKNOWN
+        }
+    }
+
+    export const iicsensor = new IICSensor(3)
+
     function uartReset(port: number) {
         if (port < 0) return
         control.dmesg(`UART reset at ${port}`)
@@ -267,6 +375,7 @@ namespace sensors.internal {
     }
 
     function uartClearChange(port: number) {
+        control.dmesg(`UART clear change`);
         const UART_DATA_READY = 8
         const UART_PORT_CHANGED = 1
         while (true) {
@@ -288,20 +397,43 @@ namespace sensors.internal {
         }
     }
 
+    function setUartModes() {
+        control.dmesg(`UART set modes`)
+        uartMM.ioctl(IO.UART_SET_CONN, devcon)
+        const ports: number[] = [];
+        for (let port = 0; port < DAL.NUM_INPUTS; ++port) {
+            if (devcon.getNumber(NumberFormat.Int8LE, DevConOff.Connection + port) == DAL.CONN_INPUT_UART) {
+                ports.push(port);
+            }
+        }
+
+        while (ports.length) {
+            const port = ports.pop();
+            const status = waitNonZeroUartStatus(port)
+            control.dmesg(`UART set mode ${status} at ${port}`);
+        }
+    }
+
+    function updateUartMode(port: number, mode: number) {
+        control.dmesg(`UART set 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)
+    }
+
     function setUartMode(port: number, mode: number) {
         const UART_PORT_CHANGED = 1
         while (true) {
             if (port < 0) return
-            control.dmesg(`UART set 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)
+            updateUartMode(port, mode);
             uartMM.ioctl(IO.UART_SET_CONN, devcon)
             let status = waitNonZeroUartStatus(port)
             if (status & UART_PORT_CHANGED) {
+                control.dmesg(`UART clear changed at ${port}`)
                 uartClearChange(port)
             } else {
-                break
+                control.dmesg(`UART status ${status}`);
+                break;
             }
             pause(10)
         }
@@ -322,6 +454,48 @@ namespace sensors.internal {
             UartOff.Raw + DAL.MAX_DEVICE_DATALENGTH * 300 * port + DAL.MAX_DEVICE_DATALENGTH * index + off)
     }
 
+    export function setIICMode(port: number, type: number, mode: number) {
+        if (port < 0) return;
+        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)
+        IICMM.ioctl(IO.IIC_SET_CONN, devcon)
+    }
+
+    export function transactionIIC(port: number, deviceAddress: number, writeBuf: number[], readLen: number) {
+        if (port < 0) return;
+        let 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)
+        iicdata.setNumber(NumberFormat.Int8LE, IICDat.WrLng, writeBuf.length + 1)
+        for (let i = 0; i < writeBuf.length; i++)
+            iicdata.setNumber(NumberFormat.Int8LE, IICDat.WrData + i + 1, writeBuf[i])
+        iicdata.setNumber(NumberFormat.Int8LE, IICDat.WrData, deviceAddress)
+        iicdata.setNumber(NumberFormat.Int8LE, IICDat.RdLng, readLen)
+        IICMM.ioctl(IO.IIC_SETUP, iicdata)
+    }
+
+    export function getIICBytes(port: number, length: number) {
+        if (port < 0) return output.createBuffer(length);
+        let index = IICMM.getNumber(NumberFormat.UInt16LE, IICOff.Actual + port * 2);
+        let buf = IICMM.slice(
+            IICOff.Raw + DAL.MAX_DEVICE_DATALENGTH * 300 * port + DAL.MAX_DEVICE_DATALENGTH * index,
+            length
+        );
+
+        // Reverse
+        for (let i = 0; i < length / 2; i++) {
+            let c = buf[i]
+            buf[i] = buf[length - i - 1]
+            buf[length - i - 1] = c
+        }
+        return buf;
+    }
+
+    export function getIICNumber(length: number, format: NumberFormat, off: number, port: number) {
+        return getIICBytes(port, length).getNumber(format, off)
+    }
 
     const enum NxtColOff {
         Calibration = 0, // uint32[4][3]
@@ -405,6 +579,52 @@ namespace sensors.internal {
         Size = 58
     }
 
+    const enum IICOff {
+        TypeData = 0, // Types[8][4]
+        Repeat = 1792, // uint16[300][4]
+        Raw = 4192, // int8[32][300][4]
+        Actual = 42592, // uint16[4]
+        LogIn = 42600, // uint16[4]
+        Status = 42608, // int8[4]
+        Output = 42612, // int8[32][4]
+        OutputLength = 42740, // int8[4]
+        Size = 42744
+    }
+
+    const enum IICCtlOff {
+        TypeData = 0, // Types
+        Port = 56, // int8
+        Mode = 57, // int8
+        Size = 58
+    }
+
+    const enum IICDat {
+        Result = 0,  // result
+        Port = 4, // int8
+        Repeat = 5, // int8
+        Time = 6, // int16
+        WrLng = 8, // int8
+        WrData = 9, // int8[32]
+        RdLng = 41, // int8
+        RdData = 42, //int8[32]
+        Size = 74,
+    }
+
+    const enum IICStr {
+        Port = 0, // int8
+        Time = 2, // int16
+        Type = 4, // int8
+        Mode = 5, // int8
+        Manufacturer = 6, // int8[9]
+        SensorType = 15, // int[9]
+        SetupLng = 24, // int8
+        SetupString = 28, // ulong
+        PollLng = 32, // int8
+        PollString = 36, // ulong
+        ReadLng = 40, // int8
+        Size = 44
+    }
+
     const enum IO {
         UART_SET_CONN = 0xc00c7500,
         UART_READ_MODE_INFO = 0xc03c7501,
@@ -472,7 +692,7 @@ namespace sensors {
         }
 
         public threshold(t: ThresholdState): number {
-            switch(t) {
+            switch (t) {
                 case ThresholdState.High: return this.highThreshold;
                 case ThresholdState.Low: return this.lowThreshold;
                 default: return (this.max - this.min) / 2;

libs/core/linux.cpp

@@ -14,6 +14,9 @@
 #include <errno.h>
 #include <fcntl.h>
 #include <malloc.h>
+#include <sys/mman.h>
+#include <sys/ioctl.h>
+#include "ev3const.h"
 
 #define THREAD_DBG(...)
 
@@ -144,6 +147,29 @@ static void startUsb() {
     pthread_detach(pid);
 }
 
+static void *exitThread(void *) {
+    int fd = open("/dev/lms_ui", O_RDWR, 0666);
+    if (fd < 0)
+        return 0;
+    uint8_t *data =
+        (uint8_t *)mmap(NULL, NUM_BUTTONS, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
+    if (data == MAP_FAILED) {
+        close(fd);
+        return 0;
+    }
+    for (;;) {
+        if (data[5])
+            target_reset();
+        sleep_core_us(50000);
+    }
+}
+
+static void startExitThread() {
+    pthread_t pid;
+    pthread_create(&pid, NULL, exitThread, NULL);
+    pthread_detach(pid);
+}
+
 void sendUsb(uint16_t code, const char *data, int len) {
     while (len > 0) {
         int sz = len;
@@ -489,14 +515,22 @@ void runLMS() {
 }
 
 void stopMotors() {
-    uint8_t cmd[2] = { 0xA3, 0x0F };
+    uint8_t cmd[3] = {opOutputStop, 0x0F, 0};
     int fd = open("/dev/lms_pwm", O_RDWR);
-    write(fd, cmd, 2);
+    write(fd, cmd, 3);
+    close(fd);
+}
+
+void stopProgram() {
+    uint8_t cmd[1] = {opOutputProgramStop};
+    int fd = open("/dev/lms_pwm", O_RDWR);
+    write(fd, cmd, 1);
     close(fd);
 }
 
 extern "C" void target_reset() {
     stopMotors();
+    stopProgram();
     if (lmsPid)
         runLMS();
     else
@@ -510,6 +544,7 @@ void initRuntime() {
     DMESG("runtime starting...");
     stopLMS();
     startUsb();
+    startExitThread();
     pthread_t disp;
     pthread_create(&disp, NULL, evtDispatcher, NULL);
     pthread_detach(disp);

libs/core/output.ts

@@ -134,6 +134,7 @@ namespace motors {
         protected _brake: boolean;
         private _pauseOnRun: boolean;
         private _initialized: boolean;
+        private _brakeSettleTime: number;
         private _init: () => void;
         private _run: (speed: number) => void;
         private _move: (steps: boolean, stepsOrTime: number, speed: number) => void;
@@ -147,6 +148,7 @@ namespace motors {
             this._brake = false;
             this._pauseOnRun = true;
             this._initialized = false;
+            this._brakeSettleTime = 10;
             this._init = init;
             this._run = run;
             this._move = move;
@@ -204,6 +206,20 @@ namespace motors {
             writePWM(b)
         }
 
+        /** 
+         * Set the settle time after braking in milliseconds (default is 10ms).
+        */
+        //% blockId=motorSetBrakeSettleTime block="set %motor|brake settle time %millis|ms"
+        //% motor.fieldEditor="motors"
+        //% weight=1 blockGap=8
+        //% group="Properties"
+        //% millis.defl=200 millis.min=0 millis.max=500
+        setBrakeSettleTime(millis: number) {
+            this.init();
+            // ensure in [0,500]
+            this._brakeSettleTime = Math.max(0, Math.min(500, millis | 0))
+        }
+
         /**
          * Stops the motor(s).
          */
@@ -221,8 +237,8 @@ namespace motors {
         protected settle() {
             // if we've recently completed a motor command with brake
             // allow 500ms for robot to settle
-            if (this._brake)
-                pause(500);
+            if (this._brake && this._brakeSettleTime > 0)
+                pause(this._brakeSettleTime);
         }
 
         protected pauseOnRun(stepsOrTime: number) {
@@ -396,7 +412,7 @@ namespace motors {
          */
         //% blockId=outputMotorSetRegulated block="set %motor|regulated %value=toggleOnOff"
         //% motor.fieldEditor="motors"
-        //% weight=58
+        //% weight=58 blockGap=8
         //% group="Properties"
         //% help=motors/motor/set-regulated
         setRegulated(value: boolean) {

libs/gyro-sensor/gyro.ts

@@ -1,5 +1,5 @@
 const enum GyroSensorMode {
-    None = -1,
+    None = 0,
     Angle = 0,
     Rate = 1,
 }

libs/infrared-sensor/ir.ts

@@ -1,5 +1,5 @@
 const enum InfraredSensorMode {
-    None = -1,
+    None = 0,
     Proximity = 0,
     Seek = 1,
     RemoteControl = 2,

libs/storage/pxt.json

@@ -1,6 +1,6 @@
 {
     "name": "storage",
-    "description": "USB Pen-drive support and flash storage",
+    "description": "USB Pen-drive support and flash storage - beta",
     "files": [
         "storage.cpp",
         "storage-core.ts",

package.json

@@ -1,8 +1,8 @@
 {
   "name": "pxt-ev3",
-  "version": "1.0.11",
+  "version": "1.1.10",
   "description": "LEGO MINDSTORMS EV3 for Microsoft MakeCode",
-  "private": true,
+  "private": false,
   "keywords": [
     "JavaScript",
     "education",
@@ -39,7 +39,7 @@
     "webfonts-generator": "^0.4.0"
   },
   "dependencies": {
-    "pxt-common-packages": "0.23.56",
+    "pxt-common-packages": "0.23.61",
     "pxt-core": "4.0.9"
   },
   "scripts": {

pxtarget.json

@@ -16,7 +16,8 @@
         "libs/infrared-sensor",
         "libs/gyro-sensor",
         "libs/screen",
-        "libs/ev3"
+        "libs/ev3",
+        "libs/storage"
     ],
     "simulator": {
         "autoRun": true,

sim/state/input.ts

@@ -27,6 +27,7 @@ namespace pxsim.sensors {
 
     export function __sensorUsed(port: number, type: number) {
         //console.log("SENSOR INIT " + port + ", type: " + type);
+        if (type == DAL.DEVICE_TYPE_IIC_UNKNOWN) return; // Ignore IIC        
         if (!ev3board().hasSensor(port)) {
             const sensor = ev3board().getSensor(port, type);
             runtime.queueDisplayUpdate();