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web serial cleanup (#928)

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* updated ticks

* fix enable and compile

* add debug mode

* don't try to change UI while downloading

* cleanup

* don't double open

* use cu

* add delay before reconnecting

* support for 200 ragne in field turn ratio

* updated docs

* fix docs
This commit is contained in:
Peli de Halleux 2019-09-30 11:13:28 -07:00 committed by GitHub
parent d85b5c5129
commit 8ca4558fc2
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6 changed files with 43 additions and 25 deletions
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6
docs/labview.md
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@ -61,6 +61,12 @@ motors.largeBC.steer(0, 50, 1, MoveUnit.Rotations);
motors.largeBC.stop(); motors.largeBC.stop();
``` ```
### ~ hint
The **turn ratio range is -200, 200** unlike LabView who used -100,100.
### ~
## Tank ## Tank
The **tank** blocks control the speed of two motors. These are commonly used for a differential drive robot. The blocks can also specify the duration, angle, or number of rotations. The **tank** blocks control the speed of two motors. These are commonly used for a differential drive robot. The blocks can also specify the duration, angle, or number of rotations.

2
docs/reference/motors/synced/steer.md
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@ -22,7 +22,7 @@ If you decide to use a **value** of rotation distance, you need to choose a type
## Parameters ## Parameters
* **turnRatio**: a [number](/types/number) that is the percentage of speed of the drive motor. The follower motor runs at this speed. A negative number steers to the left and a positive number steers to the right. This is a number between `-100` and `100`. * **turnRatio**: a [number](/types/number) that is the percentage of speed of the drive motor. The follower motor runs at this speed. A negative number steers to the left and a positive number steers to the right. This is a number between `-200` and `200`.
* **speed**: a [number](/types/number) that is the percentage of full speed. A negative value runs the motors in the reverse direction. This is the speed that the drive motor runs at. * **speed**: a [number](/types/number) that is the percentage of full speed. A negative value runs the motors in the reverse direction. This is the speed that the drive motor runs at.
* **value**: the [number](/types/number) of movement units to rotate for. A value of `0` means run the motor continuously. * **value**: the [number](/types/number) of movement units to rotate for. A value of `0` means run the motor continuously.
* **unit**: the movement unit of rotation. This can be `milliseconds`, `seconds`, `degrees`, or `rotations`. If the number for **value** is `0`, this parameter isn't used. * **unit**: the movement unit of rotation. This can be `milliseconds`, `seconds`, `degrees`, or `rotations`. If the number for **value** is `0`, this parameter isn't used.

11
editor/deploy.ts
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@ -64,7 +64,6 @@ class WebSerialPackageIO implements pxt.HF2.PacketIO {
private _writer: any; private _writer: any;
constructor(private port: SerialPort, private options: SerialOptions) { constructor(private port: SerialPort, private options: SerialOptions) {
this.openAsync();
} }
async readSerialAsync() { async readSerialAsync() {
@ -173,7 +172,7 @@ export function initAsync(): Promise<void> {
} }
if (WebSerialPackageIO.isSupported()) if (WebSerialPackageIO.isSupported())
pxt.tickEvent("bluetooth.supported"); pxt.tickEvent("webserial.supported");
return Promise.resolve(); return Promise.resolve();
} }
@ -274,7 +273,7 @@ export function deployCoreAsync(resp: pxtc.CompileResult) {
if (!useHID) return saveUF2Async() if (!useHID) return saveUF2Async()
pxt.tickEvent("bluetooth.flash"); pxt.tickEvent("webserial.flash");
let w: Ev3Wrapper; let w: Ev3Wrapper;
return initHidAsync() return initHidAsync()
.then(w_ => { .then(w_ => {
@ -291,12 +290,14 @@ export function deployCoreAsync(resp: pxtc.CompileResult) {
`<ul> `<ul>
<li>${lf("Make sure to stop your program or exit portview on the EV3.")}</li> <li>${lf("Make sure to stop your program or exit portview on the EV3.")}</li>
<li>${lf("Check your battery level.")}</li> <li>${lf("Check your battery level.")}</li>
<li>${lf("Close EV3 LabView or other MakeCode editor tabs.")}
</ul>`, </ul>`,
hasCloseIcon: true, hasCloseIcon: true,
hideCancel: true, hideCancel: true,
hideAgree: false, hideAgree: false,
agreeLbl: lf("Try again"), agreeLbl: lf("Try again"),
}).then(() => w.disconnectAsync()) }).then(() => w.disconnectAsync())
.then(() => Promise.delay(1000))
.then(() => w.reconnectAsync()); .then(() => w.reconnectAsync());
// nothing we can do // nothing we can do
@ -309,11 +310,11 @@ export function deployCoreAsync(resp: pxtc.CompileResult) {
.then(() => w.flashAsync(rbfPath, rbfBIN)) .then(() => w.flashAsync(rbfPath, rbfBIN))
.then(() => w.runAsync(rbfPath)) .then(() => w.runAsync(rbfPath))
.then(() => { .then(() => {
pxt.tickEvent("bluetooth.success"); pxt.tickEvent("webserial.success");
return w.disconnectAsync() return w.disconnectAsync()
//return Promise.delay(1000).then(() => w.dmesgAsync()) //return Promise.delay(1000).then(() => w.dmesgAsync())
}).catch(e => { }).catch(e => {
pxt.tickEvent("bluetooth.fail"); pxt.tickEvent("webserial.fail");
useHID = false; useHID = false;
useWebSerial = false; useWebSerial = false;
// if we failed to initalize, tell the user to retry // if we failed to initalize, tell the user to retry

17
editor/extension.ts
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@ -7,6 +7,13 @@ let bluetoothDialogShown = false;
pxt.editor.initExtensionsAsync = function (opts: pxt.editor.ExtensionOptions): Promise<pxt.editor.ExtensionResult> { pxt.editor.initExtensionsAsync = function (opts: pxt.editor.ExtensionOptions): Promise<pxt.editor.ExtensionResult> {
const projectView = opts.projectView; const projectView = opts.projectView;
pxt.debug('loading pxt-ev3 target extensions...') pxt.debug('loading pxt-ev3 target extensions...')
function enableWebSerialAndCompileAsync() {
return enableWebSerialAsync()
.then(() => Promise.delay(500))
.then(() => projectView.compile());
}
const res: pxt.editor.ExtensionResult = { const res: pxt.editor.ExtensionResult = {
deployCoreAsync, deployCoreAsync,
showUploadInstructionsAsync: (fn: string, url: string, confirmAsync: (options: any) => Promise<number>) => { showUploadInstructionsAsync: (fn: string, url: string, confirmAsync: (options: any) => Promise<number>) => {
@ -84,7 +91,7 @@ pxt.editor.initExtensionsAsync = function (opts: pxt.editor.ExtensionOptions): P
onclick: () => { onclick: () => {
pxt.tickEvent("bluetooth.enable"); pxt.tickEvent("bluetooth.enable");
if (bluetoothDialogShown) { if (bluetoothDialogShown) {
enableWebSerialAsync().done(); enableWebSerialAndCompileAsync().done();
} else { } else {
bluetoothDialogShown = true; bluetoothDialogShown = true;
confirmAsync({ confirmAsync({
@ -99,13 +106,13 @@ pxt.editor.initExtensionsAsync = function (opts: pxt.editor.ExtensionOptions): P
}], }],
htmlBody: `<p> htmlBody: `<p>
${lf("You will be prompted to select a serial port.")} ${lf("You will be prompted to select a serial port.")}
${pxt.BrowserUtils.isWindows() ? lf("Look for 'Standard Serial over Bluetooth link'.") : lf("Loop for 'tty.EV3-SerialPort' or 'cu.EV3-SerialPort'")} ${pxt.BrowserUtils.isWindows()
? lf("Look for 'Standard Serial over Bluetooth link'.")
: lf("Loop for 'cu.EV3-SerialPort'.")}
${lf("If you have paired multiple EV3, you might have to try out multiple ports until you find the correct one.")} ${lf("If you have paired multiple EV3, you might have to try out multiple ports until you find the correct one.")}
</p> </p>
` `
}).then(() => enableWebSerialAsync()) }).then(() => enableWebSerialAndCompileAsync())
.then(() => Promise.delay(500))
.then(() => projectView.compile())
} }
} }
} : undefined, downloadAgain ? { } : undefined, downloadAgain ? {

8
editor/wrap.ts
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@ -1,8 +1,12 @@
/**
* See https://www.lego.com/cdn/cs/set/assets/blt6879b00ae6951482/LEGO_MINDSTORMS_EV3_Communication_Developer_Kit.pdf
* https://github.com/mindboards/ev3sources/blob/master/lms2012/lms2012/source/bytecodes.h#L146
*/
import HF2 = pxt.HF2 import HF2 = pxt.HF2
import U = pxt.U import U = pxt.U
function log(msg: string) { function log(msg: string) {
pxt.debug("EWRAP: " + msg) pxt.log("serial: " + msg)
} }
export interface DirEntry { export interface DirEntry {
@ -19,7 +23,7 @@ export class Ev3Wrapper {
private cmdSeq = U.randomUint32() & 0xffff; private cmdSeq = U.randomUint32() & 0xffff;
private lock = new U.PromiseQueue(); private lock = new U.PromiseQueue();
isStreaming = false; isStreaming = false;
dataDump = false; dataDump = /talkdbg=1/.test(window.location.href);
constructor(public io: pxt.HF2.PacketIO) { constructor(public io: pxt.HF2.PacketIO) {
io.onData = buf => { io.onData = buf => {

24
fieldeditors/field_turnratio.ts
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@ -23,7 +23,7 @@ export class FieldTurnRatio extends Blockly.FieldSlider implements Blockly.Field
* @constructor * @constructor
*/ */
constructor(value_: any, params: FieldTurnRatioOptions, opt_validator?: Function) { constructor(value_: any, params: FieldTurnRatioOptions, opt_validator?: Function) {
super(String(value_), '-100', '100', null, '10', 'TurnRatio', opt_validator); super(String(value_), '-200', '200', null, '10', 'TurnRatio', opt_validator);
this.params = params; this.params = params;
(this as any).sliderColor_ = '#a8aaa8'; (this as any).sliderColor_ = '#a8aaa8';
} }
@ -76,26 +76,26 @@ export class FieldTurnRatio extends Blockly.FieldSlider implements Blockly.Field
if (!this.path_) { if (!this.path_) {
return; return;
} }
let v = goog.math.clamp(parseFloat(this.getText()), -100, 100); let v = goog.math.clamp(parseFloat(this.getText()), -200, 200);
if (isNaN(v)) { if (isNaN(v)) {
v = 0; v = 0;
} }
const x = v / 100;
const x = goog.math.clamp(parseFloat(this.getText()), -100, 100) / 100; const nx = Math.max(-1, Math.min(1, x));
const theta = x * Math.PI / 2; const theta = Math.max(nx) * Math.PI / 2;
const cx = FieldTurnRatio.HALF; const r = FieldTurnRatio.RADIUS - 6;
const cy = FieldTurnRatio.HALF - 14; let cx = FieldTurnRatio.HALF;
const gamma = Math.PI - 2 * theta; const cy = FieldTurnRatio.HALF - 22;
const r = FieldTurnRatio.RADIUS; if (Math.abs(x) > 1) {
const alpha = 0.2 + Math.abs(x) * 0.5; cx -= (x - (x > 0 ? 1 : -1)) * r / 2; // move center of circle
const x1 = 0; }
const alpha = 0.2 + Math.abs(nx) * 0.5;
const y1 = r * alpha; const y1 = r * alpha;
const y2 = r * Math.sin(Math.PI / 2 - theta); const y2 = r * Math.sin(Math.PI / 2 - theta);
const x2 = r * Math.cos(Math.PI / 2 - theta); const x2 = r * Math.cos(Math.PI / 2 - theta);
const y3 = y2 - r * alpha * Math.cos(2 * theta); const y3 = y2 - r * alpha * Math.cos(2 * theta);
const x3 = x2 - r * alpha * Math.sin(2 * theta); const x3 = x2 - r * alpha * Math.sin(2 * theta);
const d = `M ${cx} ${cy} C ${cx} ${cy - y1} ${cx + x3} ${cy - y3} ${cx + x2} ${cy - y2}`; const d = `M ${cx} ${cy} C ${cx} ${cy - y1} ${cx + x3} ${cy - y3} ${cx + x2} ${cy - y2}`;
this.path_.setAttribute('d', d); this.path_.setAttribute('d', d);