scratch-vm/src/extensions/scratch3_ev3/index.js

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const ArgumentType = require('../../extension-support/argument-type');
const BlockType = require('../../extension-support/block-type');
const Cast = require('../../util/cast');
const uid = require('../../util/uid');
// const log = require('../../util/log');
const Base64Util = require('../../util/base64-util');
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const BTSession = require('../../io/btSession');
const MathUtil = require('../../util/math-util');
// TODO: Refactor/rename all these high level primitives to be clearer/match
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/**
* Icon svg to be displayed at the left edge of each extension block, encoded as a data URI.
* @type {string}
*/
// eslint-disable-next-line max-len
const blockIconURI = 'data:image/svg+xml;base64,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
/**
* High-level primitives / constants used by the extension.
* @type {object}
*/
const BTCommand = {
LAYER: 0x00,
NUM8: 0x81,
NUM16: 0x82,
NUM32: 0x83,
COAST: 0x0,
BRAKE: 0x1,
LONGRAMP: 50,
STEPSPEED: 0xAE,
TIMESPEED: 0xAF,
OUTPUTSTOP: 0xA3,
OUTPUTRESET: 0xA2,
STEPSPEEDSYNC: 0xB0,
TIMESPEEDSYNC: 0xB1
};
const MOTOR_PORTS = [
{
name: 'A',
value: 0
},
{
name: 'B',
value: 1
},
{
name: 'C',
value: 2
},
{
name: 'D',
value: 3
}
];
const VALID_MOTOR_PORTS = [0, 1, 2, 3];
/**
* Array of accepted sensor ports.
* @note These should not be translated as they correspond to labels on
* the EV3 hub.
* @type {array}
*/
const SENSOR_PORTS = [
{
name: '1',
value: 0
},
{
name: '2',
value: 1
},
{
name: '3',
value: 2
},
{
name: '4',
value: 3
}
];
const VALID_SENSOR_PORTS = [0, 1, 2, 3];
// firmware pdf page 100
const EV_DEVICE_TYPES = {
29: 'color',
30: 'ultrasonic',
32: 'gyro',
16: 'touch',
8: 'mediumMotor',
7: 'largeMotor',
126: 'none',
125: 'none'
};
// firmware pdf page 100?
const EV_DEVICE_MODES = {
touch: 0,
color: 1,
ultrasonic: 1,
none: 0
};
const EV_DEVICE_LABELS = {
touch: 'button',
color: 'brightness',
ultrasonic: 'distance'
};
class EV3 {
constructor (runtime, extensionId) {
/**
* The Scratch 3.0 runtime used to trigger the green flag button.
* @type {Runtime}
* @private
*/
this._runtime = runtime;
this._runtime.on('PROJECT_STOP_ALL', this._stopAllMotors.bind(this));
/**
* State
*/
this._sensorPorts = [];
this._motorPorts = [];
this._sensors = {
distance: 0,
brightness: 0,
buttons: [0, 0, 0, 0]
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};
this._motors = {
speeds: [50, 50, 50, 50],
positions: [0, 0, 0, 0],
busy: [0, 0, 0, 0],
commandId: [null, null, null, null]
};
this._pollingIntervalID = null;
this._pollingCounter = 0;
/**
* The Bluetooth connection session for reading/writing device data.
* @type {BTSession}
* @private
*/
this._bt = null;
this._runtime.registerExtensionDevice(extensionId, this);
}
// TODO: keep here? / refactor
/**
* Called by the runtime when user wants to scan for a device.
*/
startDeviceScan () {
this._bt = new BTSession(this._runtime, {
majorDeviceClass: 8,
minorDeviceClass: 1
}, this._onSessionConnect.bind(this), this._onSessionMessage.bind(this));
}
// TODO: keep here? / refactor
/**
* Called by the runtime when user wants to connect to a certain device.
* @param {number} id - the id of the device to connect to.
*/
connectDevice (id) {
this._bt.connectDevice(id);
}
// TODO: keep here? / refactor
/**
* Called by the runtime when user wants to disconnect from the device.
*/
disconnectSession () {
this._bt.disconnectSession();
window.clearInterval(this._pollingIntervalID); // TODO: window?
this._sensorPorts = [];
this._motorPorts = [];
this._sensors = {
distance: 0,
brightness: 0,
buttons: [0, 0, 0, 0]
};
this._motors = {
speeds: [50, 50, 50, 50],
positions: [0, 0, 0, 0],
busy: [0, 0, 0, 0],
commandId: [null, null, null, null]
};
this._pollingIntervalID = null;
}
// TODO: keep here? / refactor
/**
* Called by the runtime to detect whether the device is connected.
* @return {boolean} - the connected state.
*/
getPeripheralIsConnected () {
let connected = false;
if (this._bt) {
connected = this._bt.getPeripheralIsConnected();
}
return connected;
}
get distance () {
if (!this.getPeripheralIsConnected()) return 0;
// https://shop.lego.com/en-US/EV3-Ultrasonic-Sensor-45504
// Measures distances between one and 250 cm (one to 100 in.)
// Accurate to +/- 1 cm (+/- .394 in.)
let value = this._sensors.distance > 100 ? 100 : this._sensors.distance;
value = value < 0 ? 0 : value;
value = Math.round(100 * value) / 100;
return value;
}
get brightness () {
if (!this.getPeripheralIsConnected()) return 0;
return this._sensors.brightness;
}
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getMotorPosition (port) {
if (!this.getPeripheralIsConnected()) return;
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let value = this._motors.positions[port];
value = value % 360;
value = value < 0 ? value * -1 : value;
return value;
}
isButtonPressed (port) {
if (!this.getPeripheralIsConnected()) return;
return this._sensors.buttons[port];
}
beep (freq, time) {
if (!this.getPeripheralIsConnected()) return;
const cmd = [];
cmd[0] = 15; // length
cmd[1] = 0; // 0x00
cmd[2] = 0; // 0x00
cmd[3] = 0; // 0x00
cmd[4] = 128; // 0x80
cmd[5] = 0; // 0x00
cmd[6] = 0; // 0x00
cmd[7] = 148; // 0x94 op sound
cmd[8] = 1; // 0x01 tone
cmd[9] = 129; // 0x81 volume following in 1 byte
cmd[10] = 2; // volume byte 1
cmd[11] = 130; // 0x82 frequency following in 2 bytes
cmd[12] = freq; // frequency byte 1
cmd[13] = freq >> 8; // frequency byte 2
cmd[14] = 130; // 0x82 time following in 2 bytes
cmd[15] = time; // time byte 1
cmd[16] = time >> 8; // time byte 2
this._bt.sendMessage({
message: Base64Util.arrayBufferToBase64(cmd),
encoding: 'base64'
});
// Yield for sound duration
// TODO: does this work?
return new Promise(resolve => {
setTimeout(() => {
resolve();
}, time);
});
}
motorTurnClockwise (port, time) {
if (!this.getPeripheralIsConnected()) return;
// Build up motor command
const cmd = this._applyPrefix(0, this._motorCommand(
BTCommand.TIMESPEED,
this._portMask(port),
time,
this._motors.speeds[port],
BTCommand.LONGRAMP
));
// Send turn message
this._bt.sendMessage({
message: Base64Util.arrayBufferToBase64(cmd),
encoding: 'base64'
});
// Set motor to busy
// this._motors.busy[port] = 1;
this.coastAfter(port, time);
// Yield for turn time + brake time
const coastTime = 100; // TODO: calculate coasting or set flag
return new Promise(resolve => {
setTimeout(() => {
resolve();
}, time + coastTime);
});
}
motorTurnCounterClockwise (port, time) {
if (!this.getPeripheralIsConnected()) return;
// Build up motor command
const cmd = this._applyPrefix(0, this._motorCommand(
BTCommand.TIMESPEED,
this._portMask(port),
time,
this._motors.speeds[port] * -1,
BTCommand.LONGRAMP
));
// Send turn message
this._bt.sendMessage({
message: Base64Util.arrayBufferToBase64(cmd),
encoding: 'base64'
});
// Set motor to busy
// this._motors.busy[port] = 1;
this.coastAfter(port, time);
// Yield for time
const coastTime = 100; // TODO: calculate coasting or set flag
return new Promise(resolve => {
setTimeout(() => {
resolve();
}, time + coastTime);
});
}
coastAfter(port, time) {
// Set the motor command id to check before starting coast
const commandId = uid();
this._motors.commandId[port] = commandId;
// Send coast message
setTimeout(() => {
// Do not send coast if another motor command changed the command id.
if (this._motors.commandId[port] === commandId) {
this.motorCoast(port);
this._motors.commandId[port] = null;
}
}, time);
}
motorCoast (port) {
const cmd = [];
cmd[0] = 9; // length
cmd[1] = 0; // length
cmd[2] = 1; // 0x01
cmd[3] = 0; // 0x00
cmd[4] = 0; // 0x00
cmd[5] = 0; // 0x00
cmd[6] = 0; // 0x00
cmd[7] = 163; // 0xA3 Motor brake/coast command
cmd[8] = 0; // layer
cmd[9] = this._portMask(port); // port output bit field
cmd[10] = 0; // float = coast = 0
this._bt.sendMessage({
message: Base64Util.uint8ArrayToBase64(cmd),
encoding: 'base64'
});
}
motorRotate (port, degrees) {
if (!this.getPeripheralIsConnected()) return;
// Build up motor command
const cmd = this._applyPrefix(0, this._motorCommand(
BTCommand.STEPSPEED,
this._portMask(port),
degrees,
this._motors.speeds[port],
BTCommand.LONGRAMP
));
// Send rotate message
this._bt.sendMessage({
message: Base64Util.arrayBufferToBase64(cmd),
encoding: 'base64'
});
// Set motor to busy
// this._motors.busy[port] = 1;
/*
// Yield for time
// TODO: calculate time?
return new Promise(resolve => {
setTimeout(() => {
resolve();
}, time);
});
*/
}
motorSetPosition (port, degrees) {
if (!this.getPeripheralIsConnected()) return;
// Calculate degrees to turn
let previousPos = this._motors.positions[port];
previousPos = previousPos % 360;
previousPos = previousPos < 0 ? previousPos * -1 : previousPos;
const newPos = degrees % 360;
let degreesToTurn = 0;
let direction = 1;
if (previousPos <= newPos) {
degreesToTurn = newPos - previousPos;
} else {
degreesToTurn = previousPos - newPos;
direction = -1;
}
// Build up motor command
const cmd = this._applyPrefix(0, this._motorCommand(
BTCommand.STEPSPEED,
this._portMask(port),
degreesToTurn,
this._motors.speeds[port] * direction,
BTCommand.LONGRAMP
));
// Send rotate message
this._bt.sendMessage({
message: Base64Util.arrayBufferToBase64(cmd),
encoding: 'base64'
});
// Set motor to busy
// this._motors.busy[port] = 1;
/*
// Yield for time
// TODO: calculate time?
return new Promise(resolve => {
setTimeout(() => {
resolve();
}, time);
});
*/
}
motorSetPower (port, power) {
if (!this.getPeripheralIsConnected()) return;
this._motors.speeds[port] = power;
}
// *******
// PRIVATE
// *******
_stopAllMotors () {
for (let i = 0; i < this._motorPorts.length; i++) {
if (this._motorPorts[i] !== 'none') {
this.motorCoast(i);
}
}
}
// TODO: keep here? / refactor
_applyPrefix (n, cmd) {
// TODO: document
const len = cmd.length + 5;
return [].concat(
len & 0xFF,
(len >> 8) & 0xFF,
0x1,
0x0,
0x0,
n,
0x0,
cmd
);
}
// TODO: keep here? / refactor
/**
* Generate a motor command in EV3 byte array format (CMD, LAYER, PORT,
* SPEED, RAMP UP, RUN, RAMP DOWN, BREAKING TYPE)
* @param {string} command Motor command primitive (i.e. "prefix")
* @param {string} port Port to address
* @param {number} n Value to be passed to motor command
* @param {number} speed Speed value
* @param {number} ramp Ramp value
* @return {array} Byte array
*/
_motorCommand (command, port, n, speed, ramp) {
// TODO: document
/**
* Generate run values for a given input.
* @param {number} run Run input
* @return {array} Run values (byte array)
*/
const getRunValues = function (run) {
// If run duration is less than max 16-bit integer
if (run < 0x7fff) {
return [
BTCommand.NUM16,
run & 0xff,
(run >> 8) & 0xff
];
}
// Run forever
return [
BTCommand.NUM32,
run & 0xff,
(run >> 8) & 0xff,
(run >> 16) & 0xff,
(run >> 24) & 0xff
];
};
// If speed is less than zero, make it positive and multiply the input
// value by -1
if (speed < 0) {
speed = -1 * speed;
n = -1 * n;
}
// If the input value is less than 0
const dir = (n < 0) ? 0x100 - speed : speed; // step negative or possitive
n = Math.abs(n);
// Setup motor run duration and ramping behavior
let rampup = ramp;
let rampdown = ramp;
let run = n - (ramp * 2);
if (run < 0) {
rampup = Math.floor(n / 2);
run = 0;
rampdown = n - rampup;
}
// Generate motor command
const runcmd = getRunValues(run);
return [
command,
BTCommand.LAYER,
port,
BTCommand.NUM8,
dir & 0xff,
BTCommand.NUM8,
rampup
].concat(runcmd.concat([
BTCommand.NUM8,
rampdown,
BTCommand.BRAKE
]));
}
// TODO: keep here? / refactor
_onSessionConnect () {
// start polling
// TODO: window?
this._pollingIntervalID = window.setInterval(this._getSessionData.bind(this), 150);
}
// TODO: keep here? / refactor
_getSessionData () {
if (!this.getPeripheralIsConnected()) {
window.clearInterval(this._pollingIntervalID);
return;
}
const cmd = []; // a compound command
// HEADER
cmd[0] = null; // calculate length later
cmd[1] = 0; // ...
cmd[2] = 1; // message counter // TODO: ?????
cmd[3] = 0; // message counter // TODO: ?????
cmd[4] = 0; // command type: direct command
cmd[5] = null; // calculate vars length later
cmd[6] = 0; // ...
let sensorCount = 0;
// Either request device list or request sensor data ??
if (this._pollingCounter % 20 === 0) {
// GET DEVICE LIST
cmd[7] = 152; // 0x98 op: get device list
cmd[8] = 129; // 0x81 LENGTH // TODO: ?????
cmd[9] = 33; // 0x21 ARRAY // TODO: ?????
cmd[10] = 96; // 0x60 CHANGED // TODO: ?????
cmd[11] = 225; // 0xE1 size of global var - 1 byte to follow
cmd[12] = 32; // 0x20 global var index "0" 0b00100000
// Command and payload lengths
cmd[0] = cmd.length - 2;
cmd[5] = 33;
// Clear sensor data
this._updateDevices = true;
this._sensorPorts = [];
this._motorPorts = [];
// TODO: figure out when/how to clear out sensor data
} else {
let index = 7;
// GET SENSOR VALUES
// eslint-disable-next-line no-undefined
if (!this._sensorPorts.includes(undefined)) {
for (let i = 0; i < 4; i++) {
if (this._sensorPorts[i] !== 'none') {
cmd[index + 0] = 157; // 0x9D op: get sensor value
cmd[index + 1] = 0; // layer
cmd[index + 2] = i; // port
cmd[index + 3] = 0; // do not change type
cmd[index + 4] = EV_DEVICE_MODES[this._sensorPorts[i]]; // mode
cmd[index + 5] = 225; // 0xE1 one byte to follow
cmd[index + 6] = sensorCount * 4; // global index
index += 7;
}
sensorCount++;
}
}
// GET MOTOR POSITION VALUES
// eslint-disable-next-line no-undefined
if (!this._motorPorts.includes(undefined)) {
for (let i = 0; i < 4; i++) {
cmd[index + 0] = 179; // 0XB3 op: get motor position value
cmd[index + 1] = 0; // layer
cmd[index + 2] = i; // port
cmd[index + 3] = 225; // 0xE1 byte following
cmd[index + 4] = sensorCount * 4; // global index
index += 5;
sensorCount++;
}
}
// Command and payload lengths
cmd[0] = cmd.length - 2;
cmd[5] = sensorCount * 4;
}
// GET MOTOR BUSY STATES
/*
for (let i = 0; i < this._motorPorts.length; i++) {
if (this._motorPorts[i] !== 'none') {
sensorCount++;
compoundCommand[compoundCommandIndex + 0] = 169; // 0xA9 op: test if output port is busy
compoundCommand[compoundCommandIndex + 1] = 0; // layer
compoundCommand[compoundCommandIndex + 2] = this._portMask(i); // output bit field
compoundCommand[compoundCommandIndex + 3] = 225; // 0xE1 1 byte following
compoundCommand[compoundCommandIndex + 4] = sensorCount * 4; // global index
compoundCommandIndex += 5;
}
}
*/
this._bt.sendMessage({
message: Base64Util.uint8ArrayToBase64(cmd),
encoding: 'base64'
});
this._pollingCounter++;
}
// TODO: rename and document better
_onSessionMessage (params) {
const message = params.message;
const array = Base64Util.base64ToUint8Array(message);
// log.info(`received array: ${array}`);
if (this._updateDevices) {
// READ DEVICE LIST
this._sensorPorts[0] = EV_DEVICE_TYPES[array[5]] ? EV_DEVICE_TYPES[array[5]] : 'none';
this._sensorPorts[1] = EV_DEVICE_TYPES[array[6]] ? EV_DEVICE_TYPES[array[6]] : 'none';
this._sensorPorts[2] = EV_DEVICE_TYPES[array[7]] ? EV_DEVICE_TYPES[array[7]] : 'none';
this._sensorPorts[3] = EV_DEVICE_TYPES[array[8]] ? EV_DEVICE_TYPES[array[8]] : 'none';
this._motorPorts[0] = EV_DEVICE_TYPES[array[21]] ? EV_DEVICE_TYPES[array[21]] : 'none';
this._motorPorts[1] = EV_DEVICE_TYPES[array[22]] ? EV_DEVICE_TYPES[array[22]] : 'none';
this._motorPorts[2] = EV_DEVICE_TYPES[array[23]] ? EV_DEVICE_TYPES[array[23]] : 'none';
this._motorPorts[3] = EV_DEVICE_TYPES[array[24]] ? EV_DEVICE_TYPES[array[24]] : 'none';
// log.info(`sensor ports: ${this._sensorPorts}`);
// log.info(`motor ports: ${this._motorPorts}`);
this._updateDevices = false;
// eslint-disable-next-line no-undefined
} else if (!this._sensorPorts.includes(undefined) && !this._motorPorts.includes(undefined)) {
// READ SENSOR VALUES
let offset = 5; // start reading sensor values at byte 5
for (let i = 0; i < 4; i++) {
const value = this._array2float([
array[offset],
array[offset + 1],
array[offset + 2],
array[offset + 3]
]);
if (EV_DEVICE_LABELS[this._sensorPorts[i]] === 'button') {
// Read a button value per port
this._sensors.buttons[i] = value ? value : 0;
} else if (EV_DEVICE_LABELS[this._sensorPorts[i]]) { // if valid
// Read brightness / distance values and set to 0 if null
this._sensors[EV_DEVICE_LABELS[this._sensorPorts[i]]] = value ? value : 0;
}
// log.info(`${JSON.stringify(this._sensors)}`);
offset += 4;
}
// READ MOTOR POSITION VALUES
for (let i = 0; i < 4; i++) {
let value = this._tachoValue([ // from Paula
array[offset],
array[offset + 1],
array[offset + 2],
array[offset + 3]
]);
if (value > 0x7fffffff) { // from Paula
value = value - 0x100000000;
}
if (value) {
this._motors.positions[i] = value;
}
// log.info(`motor positions: ${this._motors.positions}`);
offset += 4;
}
}
/*
// READ MOTOR BUSY STATES
/*
for (let i = 0; i < this._motorPorts.length; i++) {
if (this._motorPorts[i] !== 'none') {
const busy = array[offset];
if (busy === 0 && this._motors.busy[i]) {
this.motorCoast(i); // always set to coast for now, but really should only do for recently moved
this._motors.busy[i] = 0; // reset busy
}
// this._motors.positions[i] = value;
log.info(`motor ${i} busy: ${busy}`);
offset += 1;
}
}
*/
}
// TODO: keep here? / refactor
_portMask (port) {
// TODO: convert to enum or lookup
let p = null;
if (port === 0) {
p = 1;
} else if (port === 1) {
p = 2;
} else if (port === 2) {
p = 4;
} else if (port === 3) {
p = 8;
}
return p;
}
// TODO: keep here? / refactor
_tachoValue (list) {
const value = list[0] + (list[1] * 256) + (list[2] * 256 * 256) + (list[3] * 256 * 256 * 256);
return value;
}
// TODO: keep here? / refactor
_array2float (list) {
const buffer = new Uint8Array(list).buffer;
const view = new DataView(buffer);
return view.getFloat32(0, true);
}
}
class Scratch3Ev3Blocks {
/**
* The ID of the extension.
* @return {string} the id
*/
static get EXTENSION_ID () {
return 'ev3';
}
/**
* Creates a new instance of the EV3 extension.
* @param {object} runtime VM runtime
* @constructor
*/
constructor (runtime) {
/**
* The Scratch 3.0 runtime.
* @type {Runtime}
*/
this.runtime = runtime;
// Create a new EV3 device instance
this._device = new EV3(this.runtime, Scratch3Ev3Blocks.EXTENSION_ID);
}
/**
* Define the EV3 extension.
* @return {object} Extension description.
*/
getInfo () {
return {
id: Scratch3Ev3Blocks.EXTENSION_ID,
name: 'LEGO EV3',
2018-07-02 18:07:34 -04:00
blockIconURI: blockIconURI,
showStatusButton: true,
blocks: [
{
opcode: 'motorTurnClockwise',
text: 'motor [PORT] turn this way for [TIME] seconds',
blockType: BlockType.COMMAND,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
},
TIME: {
type: ArgumentType.NUMBER,
defaultValue: 1
}
}
},
{
opcode: 'motorTurnCounterClockwise',
text: 'motor [PORT] turn that way for [TIME] seconds',
blockType: BlockType.COMMAND,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
},
TIME: {
type: ArgumentType.NUMBER,
defaultValue: 1
}
}
},
/* {
opcode: 'motorRotate',
text: 'motor [PORT] rotate [DEGREES] degrees',
blockType: BlockType.COMMAND,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
},
DEGREES: {
type: ArgumentType.NUMBER,
defaultValue: 90
}
}
},
{
opcode: 'motorSetPosition',
text: 'motor [PORT] set position [DEGREES] degrees',
blockType: BlockType.COMMAND,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
},
DEGREES: {
type: ArgumentType.NUMBER,
defaultValue: 90
}
}
}, */
{
opcode: 'motorSetPower',
text: 'motor [PORT] set power [POWER] %',
blockType: BlockType.COMMAND,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
},
POWER: {
type: ArgumentType.NUMBER,
defaultValue: 50
}
}
},
{
opcode: 'getMotorPosition',
text: 'motor [PORT] position',
blockType: BlockType.REPORTER,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'motorPorts',
defaultValue: 'A'
}
}
},
{
opcode: 'whenButtonPressed',
text: 'when button [PORT] pressed',
blockType: BlockType.HAT,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'sensorPorts',
defaultValue: SENSOR_PORTS[0].value
}
}
},
{
opcode: 'whenDistanceLessThan',
text: 'when distance < [DISTANCE]',
blockType: BlockType.HAT,
arguments: {
DISTANCE: {
type: ArgumentType.NUMBER,
defaultValue: 5
}
}
},
{
opcode: 'whenBrightnessLessThan',
text: 'when brightness < [DISTANCE]',
blockType: BlockType.HAT,
arguments: {
DISTANCE: {
type: ArgumentType.NUMBER,
defaultValue: 50
}
}
},
{
opcode: 'buttonPressed',
text: 'button [PORT] pressed?',
blockType: BlockType.BOOLEAN,
arguments: {
PORT: {
type: ArgumentType.STRING,
menu: 'sensorPorts',
defaultValue: SENSOR_PORTS[0].value
}
}
},
{
opcode: 'getDistance',
text: 'distance',
blockType: BlockType.REPORTER
},
{
opcode: 'getBrightness',
text: 'brightness',
blockType: BlockType.REPORTER
},
{
opcode: 'beep',
text: 'beep note [NOTE] for [TIME] secs',
blockType: BlockType.COMMAND,
arguments: {
NOTE: {
type: ArgumentType.NUMBER,
defaultValue: 60
},
TIME: {
type: ArgumentType.NUMBER,
defaultValue: 0.5
}
}
}
],
menus: {
motorPorts: this._buildMenu(MOTOR_PORTS),
sensorPorts: this._buildMenu(SENSOR_PORTS)
}
};
}
// TODO: redo?
/**
* Create data for a menu in scratch-blocks format, consisting of an array of objects with text and
* value properties. The text is a translated string, and the value is one-indexed.
* @param {object[]} info - An array of info objects each having a name property.
* @return {array} - An array of objects with text and value properties.
* @private
*/
_buildMenu (info) {
return info.map((entry, index) => {
const obj = {};
obj.text = entry.name;
obj.value = String(index);
return obj;
});
}
motorTurnClockwise (args) {
const port = Cast.toNumber(args.PORT);
let time = Cast.toNumber(args.TIME) * 1000;
time = MathUtil.clamp(time, 0, 15000);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
return this._device.motorTurnClockwise(port, time);
}
motorTurnCounterClockwise (args) {
const port = Cast.toNumber(args.PORT);
let time = Cast.toNumber(args.TIME) * 1000;
time = MathUtil.clamp(time, 0, 15000);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
return this._device.motorTurnCounterClockwise(port, time);
}
/*
motorRotate (args) {
const port = Cast.toNumber(args.PORT);
const degrees = Cast.toNumber(args.DEGREES);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
this._device.motorRotate(port, degrees);
return;
}
motorSetPosition (args) {
const port = Cast.toNumber(args.PORT);
const degrees = Cast.toNumber(args.DEGREES);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
this._device.motorSetPosition(port, degrees);
return;
}
*/
motorSetPower (args) {
const port = Cast.toNumber(args.PORT);
const power = MathUtil.clamp(Cast.toNumber(args.POWER), 0, 100);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
this._device.motorSetPower(port, power);
return;
}
getMotorPosition (args) {
const port = Cast.toNumber(args.PORT);
if (!VALID_MOTOR_PORTS.includes(port)) {
return;
}
return this._device.getMotorPosition(port);
}
whenButtonPressed (args) {
const port = Cast.toNumber(args.PORT);
if (!VALID_SENSOR_PORTS.includes(port)) {
return;
}
return this._device.isButtonPressed(port);
}
whenDistanceLessThan (args) {
const distance = MathUtil.clamp(Cast.toNumber(args.DISTANCE), 0, 100);
return this._device.distance < distance;
}
whenBrightnessLessThan (args) {
const brightness = MathUtil.clamp(Cast.toNumber(args.DISTANCE), 0, 100);
return this._device.brightness < brightness;
}
buttonPressed (args) {
const port = Cast.toNumber(args.PORT);
if (!VALID_SENSOR_PORTS.includes(port)) {
return;
}
return this._device.isButtonPressed(port);
}
getDistance () {
return this._device.distance;
}
getBrightness () {
return this._device.brightness;
}
beep (args) {
const note = MathUtil.clamp(Cast.toNumber(args.NOTE), 47, 99); // valid EV3 sounds
let time = Cast.toNumber(args.TIME) * 1000;
time = MathUtil.clamp(time, 0, 3000);
if (time === 0) {
return; // don't send a beep time of 0
}
// https://en.wikipedia.org/wiki/MIDI_tuning_standard#Frequency_values
const freq = Math.pow(2, ((note - 69 + 12) / 12)) * 440;
return this._device.beep(freq, time);
}
}
module.exports = Scratch3Ev3Blocks;