Files
vscode/src/vs/platform/keybinding/common/abstractKeybindingService.ts
T
Logan Ramos 26d0bbd5d9 Initial Strict Typing Support for Telemetry Events (#75785)
* Added command line information to display details about collected telemetry

* Telemetry tooling exploration

* Changing telemetry calls to be strongly typed

* Fixed an event definition

* Removed telemetry command

* More removing of telemetry command

* Fixed compilation errors

* Forgotten property

* Updated typings so diff was aligned
2019-07-01 14:37:43 -07:00

219 lines
8.1 KiB
TypeScript

/*---------------------------------------------------------------------------------------------
* Copyright (c) Microsoft Corporation. All rights reserved.
* Licensed under the MIT License. See License.txt in the project root for license information.
*--------------------------------------------------------------------------------------------*/
import * as nls from 'vs/nls';
import * as arrays from 'vs/base/common/arrays';
import { IntervalTimer } from 'vs/base/common/async';
import { Emitter, Event } from 'vs/base/common/event';
import { KeyCode, Keybinding, ResolvedKeybinding } from 'vs/base/common/keyCodes';
import { Disposable, IDisposable } from 'vs/base/common/lifecycle';
import { ICommandService } from 'vs/platform/commands/common/commands';
import { IContextKeyService, IContextKeyServiceTarget } from 'vs/platform/contextkey/common/contextkey';
import { IKeybindingEvent, IKeybindingService, IKeyboardEvent } from 'vs/platform/keybinding/common/keybinding';
import { IResolveResult, KeybindingResolver } from 'vs/platform/keybinding/common/keybindingResolver';
import { ResolvedKeybindingItem } from 'vs/platform/keybinding/common/resolvedKeybindingItem';
import { INotificationService } from 'vs/platform/notification/common/notification';
import { ITelemetryService } from 'vs/platform/telemetry/common/telemetry';
import { WBActionExecutedEvent, WBActionExecutedClassification } from 'vs/base/common/actions';
interface CurrentChord {
keypress: string;
label: string | null;
}
export abstract class AbstractKeybindingService extends Disposable implements IKeybindingService {
public _serviceBrand: any;
protected readonly _onDidUpdateKeybindings: Emitter<IKeybindingEvent> = this._register(new Emitter<IKeybindingEvent>());
get onDidUpdateKeybindings(): Event<IKeybindingEvent> {
return this._onDidUpdateKeybindings ? this._onDidUpdateKeybindings.event : Event.None; // Sinon stubbing walks properties on prototype
}
private _currentChord: CurrentChord | null;
private _currentChordChecker: IntervalTimer;
private _currentChordStatusMessage: IDisposable | null;
constructor(
private _contextKeyService: IContextKeyService,
protected _commandService: ICommandService,
protected _telemetryService: ITelemetryService,
private _notificationService: INotificationService,
) {
super();
this._currentChord = null;
this._currentChordChecker = new IntervalTimer();
this._currentChordStatusMessage = null;
}
public dispose(): void {
super.dispose();
}
protected abstract _getResolver(): KeybindingResolver;
protected abstract _documentHasFocus(): boolean;
public abstract resolveKeybinding(keybinding: Keybinding): ResolvedKeybinding[];
public abstract resolveKeyboardEvent(keyboardEvent: IKeyboardEvent): ResolvedKeybinding;
public abstract resolveUserBinding(userBinding: string): ResolvedKeybinding[];
public abstract _dumpDebugInfo(): string;
public abstract _dumpDebugInfoJSON(): string;
public getDefaultKeybindingsContent(): string {
return '';
}
public getDefaultKeybindings(): ResolvedKeybindingItem[] {
return this._getResolver().getDefaultKeybindings();
}
public getKeybindings(): ResolvedKeybindingItem[] {
return this._getResolver().getKeybindings();
}
public customKeybindingsCount(): number {
return 0;
}
public lookupKeybindings(commandId: string): ResolvedKeybinding[] {
return arrays.coalesce(
this._getResolver().lookupKeybindings(commandId).map(item => item.resolvedKeybinding)
);
}
public lookupKeybinding(commandId: string): ResolvedKeybinding | undefined {
const result = this._getResolver().lookupPrimaryKeybinding(commandId);
if (!result) {
return undefined;
}
return result.resolvedKeybinding;
}
public dispatchEvent(e: IKeyboardEvent, target: IContextKeyServiceTarget): boolean {
return this._dispatch(e, target);
}
public softDispatch(e: IKeyboardEvent, target: IContextKeyServiceTarget): IResolveResult | null {
const keybinding = this.resolveKeyboardEvent(e);
if (keybinding.isChord()) {
console.warn('Unexpected keyboard event mapped to a chord');
return null;
}
const [firstPart,] = keybinding.getDispatchParts();
if (firstPart === null) {
// cannot be dispatched, probably only modifier keys
return null;
}
const contextValue = this._contextKeyService.getContext(target);
const currentChord = this._currentChord ? this._currentChord.keypress : null;
return this._getResolver().resolve(contextValue, currentChord, firstPart);
}
private _enterChordMode(firstPart: string, keypressLabel: string | null): void {
this._currentChord = {
keypress: firstPart,
label: keypressLabel
};
this._currentChordStatusMessage = this._notificationService.status(nls.localize('first.chord', "({0}) was pressed. Waiting for second key of chord...", keypressLabel));
const chordEnterTime = Date.now();
this._currentChordChecker.cancelAndSet(() => {
if (!this._documentHasFocus()) {
// Focus has been lost => leave chord mode
this._leaveChordMode();
return;
}
if (Date.now() - chordEnterTime > 5000) {
// 5 seconds elapsed => leave chord mode
this._leaveChordMode();
}
}, 500);
}
private _leaveChordMode(): void {
if (this._currentChordStatusMessage) {
this._currentChordStatusMessage.dispose();
this._currentChordStatusMessage = null;
}
this._currentChordChecker.cancel();
this._currentChord = null;
}
public dispatchByUserSettingsLabel(userSettingsLabel: string, target: IContextKeyServiceTarget): void {
const keybindings = this.resolveUserBinding(userSettingsLabel);
if (keybindings.length >= 1) {
this._doDispatch(keybindings[0], target);
}
}
protected _dispatch(e: IKeyboardEvent, target: IContextKeyServiceTarget): boolean {
return this._doDispatch(this.resolveKeyboardEvent(e), target);
}
private _doDispatch(keybinding: ResolvedKeybinding, target: IContextKeyServiceTarget): boolean {
let shouldPreventDefault = false;
if (keybinding.isChord()) {
console.warn('Unexpected keyboard event mapped to a chord');
return false;
}
const [firstPart,] = keybinding.getDispatchParts();
if (firstPart === null) {
// cannot be dispatched, probably only modifier keys
return shouldPreventDefault;
}
const contextValue = this._contextKeyService.getContext(target);
const currentChord = this._currentChord ? this._currentChord.keypress : null;
const keypressLabel = keybinding.getLabel();
const resolveResult = this._getResolver().resolve(contextValue, currentChord, firstPart);
if (resolveResult && resolveResult.enterChord) {
shouldPreventDefault = true;
this._enterChordMode(firstPart, keypressLabel);
return shouldPreventDefault;
}
if (this._currentChord) {
if (!resolveResult || !resolveResult.commandId) {
this._notificationService.status(nls.localize('missing.chord', "The key combination ({0}, {1}) is not a command.", this._currentChord.label, keypressLabel), { hideAfter: 10 * 1000 /* 10s */ });
shouldPreventDefault = true;
}
}
this._leaveChordMode();
if (resolveResult && resolveResult.commandId) {
if (!resolveResult.bubble) {
shouldPreventDefault = true;
}
if (typeof resolveResult.commandArgs === 'undefined') {
this._commandService.executeCommand(resolveResult.commandId).then(undefined, err => this._notificationService.warn(err));
} else {
this._commandService.executeCommand(resolveResult.commandId, resolveResult.commandArgs).then(undefined, err => this._notificationService.warn(err));
}
this._telemetryService.publicLog2<WBActionExecutedEvent, WBActionExecutedClassification>('workbenchActionExecuted', { id: resolveResult.commandId, from: 'keybinding' });
}
return shouldPreventDefault;
}
mightProducePrintableCharacter(event: IKeyboardEvent): boolean {
if (event.ctrlKey || event.metaKey) {
// ignore ctrl/cmd-combination but not shift/alt-combinatios
return false;
}
// weak check for certain ranges. this is properly implemented in a subclass
// with access to the KeyboardMapperFactory.
if ((event.keyCode >= KeyCode.KEY_A && event.keyCode <= KeyCode.KEY_Z)
|| (event.keyCode >= KeyCode.KEY_0 && event.keyCode <= KeyCode.KEY_9)) {
return true;
}
return false;
}
}