/*--------------------------------------------------------------------------------------------- * 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 uri from 'vs/base/common/uri'; import { TPromise } from 'vs/base/common/winjs.base'; import * as lifecycle from 'vs/base/common/lifecycle'; import Event, { Emitter } from 'vs/base/common/event'; import { generateUuid } from 'vs/base/common/uuid'; import { clone } from 'vs/base/common/objects'; import severity from 'vs/base/common/severity'; import { isObject, isString } from 'vs/base/common/types'; import * as strings from 'vs/base/common/strings'; import { distinct } from 'vs/base/common/arrays'; import { IRange } from 'vs/editor/common/editorCommon'; import { Range } from 'vs/editor/common/core/range'; import { ISuggestion } from 'vs/editor/common/modes'; import { Position } from 'vs/editor/common/core/position'; import * as debug from 'vs/workbench/parts/debug/common/debug'; import { Source } from 'vs/workbench/parts/debug/common/debugSource'; const MAX_REPL_LENGTH = 10000; const UNKNOWN_SOURCE_LABEL = nls.localize('unknownSource', "Unknown Source"); export abstract class AbstractOutputElement implements debug.ITreeElement { private static ID_COUNTER = 0; constructor(private id = AbstractOutputElement.ID_COUNTER++) { // noop } public getId(): string { return `outputelement:${this.id}`; } } export class OutputElement extends AbstractOutputElement { public counter: number; constructor( public value: string, public severity: severity, ) { super(); this.counter = 1; } } export class OutputNameValueElement extends AbstractOutputElement implements debug.IExpression { private static MAX_CHILDREN = 1000; // upper bound of children per value constructor(public name: string, public valueObj: any, public annotation?: string) { super(); } public get value(): string { if (this.valueObj === null) { return 'null'; } else if (Array.isArray(this.valueObj)) { return `Array[${this.valueObj.length}]`; } else if (isObject(this.valueObj)) { return 'Object'; } else if (isString(this.valueObj)) { return this.valueObj; } return String(this.valueObj) || ''; } public get hasChildren(): boolean { return isObject(this.valueObj) && Object.getOwnPropertyNames(this.valueObj).length > 0; } public getChildren(): TPromise { let result: debug.IExpression[] = []; if (Array.isArray(this.valueObj)) { result = (this.valueObj).slice(0, OutputNameValueElement.MAX_CHILDREN) .map((v, index) => new OutputNameValueElement(String(index), v)); } else if (isObject(this.valueObj)) { result = Object.getOwnPropertyNames(this.valueObj).slice(0, OutputNameValueElement.MAX_CHILDREN) .map(key => new OutputNameValueElement(key, this.valueObj[key])); } return TPromise.as(result); } } export class ExpressionContainer implements debug.IExpressionContainer { public static allValues: { [id: string]: string } = {}; // Use chunks to support variable paging #9537 private static BASE_CHUNK_SIZE = 100; public valueChanged: boolean; private _value: string; constructor( protected process: debug.IProcess, public reference: number, private id: string, public namedVariables = 0, public indexedVariables = 0, private startOfVariables = 0 ) { } public getChildren(): TPromise { if (!this.hasChildren) { return TPromise.as([]); } if (!this.getChildrenInChunks) { return this.fetchVariables(undefined, undefined, undefined); } // Check if object has named variables, fetch them independent from indexed variables #9670 return (!!this.namedVariables ? this.fetchVariables(undefined, undefined, 'named') : TPromise.as([])).then(childrenArray => { // Use a dynamic chunk size based on the number of elements #9774 let chunkSize = ExpressionContainer.BASE_CHUNK_SIZE; while (this.indexedVariables > chunkSize * ExpressionContainer.BASE_CHUNK_SIZE) { chunkSize *= ExpressionContainer.BASE_CHUNK_SIZE; } if (this.indexedVariables > chunkSize) { // There are a lot of children, create fake intermediate values that represent chunks #9537 const numberOfChunks = Math.ceil(this.indexedVariables / chunkSize); for (let i = 0; i < numberOfChunks; i++) { const start = this.startOfVariables + i * chunkSize; const count = Math.min(chunkSize, this.indexedVariables - i * chunkSize); childrenArray.push(new Variable(this.process, this, this.reference, `[${start}..${start + count - 1}]`, '', '', null, count, null, true, start)); } return childrenArray; } return this.fetchVariables(this.startOfVariables, this.indexedVariables, 'indexed') .then(variables => childrenArray.concat(variables)); }); } public getId(): string { return this.id; } public get value(): string { return this._value; } public get hasChildren(): boolean { // only variables with reference > 0 have children. return this.reference > 0; } private fetchVariables(start: number, count: number, filter: 'indexed' | 'named'): TPromise { return this.process.session.variables({ variablesReference: this.reference, start, count, filter }).then(response => { return response && response.body && response.body.variables ? distinct(response.body.variables.filter(v => !!v), v => v.name).map( v => new Variable(this.process, this, v.variablesReference, v.name, v.evaluateName, v.value, v.namedVariables, v.indexedVariables, v.type) ) : []; }, (e: Error) => [new Variable(this.process, this, 0, null, e.message, '', 0, 0, null, false)]); } // The adapter explicitly sents the children count of an expression only if there are lots of children which should be chunked. private get getChildrenInChunks(): boolean { return !!this.indexedVariables; } public set value(value: string) { this._value = value; this.valueChanged = ExpressionContainer.allValues[this.getId()] && ExpressionContainer.allValues[this.getId()] !== Expression.DEFAULT_VALUE && ExpressionContainer.allValues[this.getId()] !== value; ExpressionContainer.allValues[this.getId()] = value; } } export class Expression extends ExpressionContainer implements debug.IExpression { static DEFAULT_VALUE = nls.localize('notAvailable', "not available"); public available: boolean; public type: string; constructor(public name: string, id = generateUuid()) { super(null, 0, id); this.available = false; // name is not set if the expression is just being added // in that case do not set default value to prevent flashing #14499 if (name) { this.value = Expression.DEFAULT_VALUE; } } public evaluate(process: debug.IProcess, stackFrame: debug.IStackFrame, context: string): TPromise { if (!process) { this.value = context === 'repl' ? nls.localize('startDebugFirst', "Please start a debug session to evaluate") : Expression.DEFAULT_VALUE; this.available = false; this.reference = 0; return TPromise.as(null); } this.process = process; return process.session.evaluate({ expression: this.name, frameId: stackFrame ? stackFrame.frameId : undefined, context }).then(response => { this.available = !!(response && response.body); if (response && response.body) { this.value = response.body.result; this.reference = response.body.variablesReference; this.namedVariables = response.body.namedVariables; this.indexedVariables = response.body.indexedVariables; this.type = response.body.type; } }, err => { this.value = err.message; this.available = false; this.reference = 0; }); } } export class Variable extends ExpressionContainer implements debug.IExpression { // Used to show the error message coming from the adapter when setting the value #7807 public errorMessage: string; private static NOT_PROPERTY_SYNTAX = /^[a-zA-Z_][a-zA-Z0-9_]*$/; private static ARRAY_ELEMENT_SYNTAX = /\[.*\]$/; constructor( process: debug.IProcess, public parent: debug.IExpressionContainer, reference: number, public name: string, private _evaluateName: string, value: string, namedVariables: number, indexedVariables: number, public type: string = null, public available = true, startOfVariables = 0 ) { super(process, reference, `variable:${parent.getId()}:${name}:${reference}`, namedVariables, indexedVariables, startOfVariables); this.value = value; } public get evaluateName(): string { if (this._evaluateName) { return this._evaluateName; } // TODO@Isidor get rid of this ugly heuristic let names = [this.name]; let v = this.parent; while (v instanceof Variable || v instanceof Expression) { names.push((v).name); v = (v).parent; } names = names.reverse(); let result = null; names.forEach(name => { if (!result) { result = name; } else if (Variable.ARRAY_ELEMENT_SYNTAX.test(name) || (this.process.session.configuration.type === 'node' && !Variable.NOT_PROPERTY_SYNTAX.test(name))) { // use safe way to access node properties a['property_name']. Also handles array elements. result = name && name.indexOf('[') === 0 ? `${result}${name}` : `${result}['${name}']`; } else { result = `${result}.${name}`; } }); return result; } public setVariable(value: string): TPromise { return this.process.session.setVariable({ name: this.name, value, variablesReference: (this.parent).reference }).then(response => { if (response && response.body) { this.value = response.body.value; this.type = response.body.type || this.type; this.reference = response.body.variablesReference; this.namedVariables = response.body.namedVariables; this.indexedVariables = response.body.indexedVariables; } }, err => { this.errorMessage = err.message; }); } } export class Scope extends ExpressionContainer implements debug.IScope { constructor( stackFrame: debug.IStackFrame, public name: string, reference: number, public expensive: boolean, namedVariables: number, indexedVariables: number, public range?: IRange ) { super(stackFrame.thread.process, reference, `scope:${stackFrame.getId()}:${name}:${reference}`, namedVariables, indexedVariables); } } export class StackFrame implements debug.IStackFrame { private scopes: TPromise; constructor( public thread: debug.IThread, public frameId: number, public source: Source, public name: string, public lineNumber: number, public column: number ) { this.scopes = null; } public getId(): string { return `stackframe:${this.thread.getId()}:${this.frameId}`; } public getScopes(): TPromise { if (!this.scopes) { this.scopes = this.thread.process.session.scopes({ frameId: this.frameId }).then(response => { return response && response.body && response.body.scopes ? response.body.scopes.map(rs => new Scope(this, rs.name, rs.variablesReference, rs.expensive, rs.namedVariables, rs.indexedVariables, rs.line && rs.column && rs.endLine && rs.endColumn ? new Range(rs.line, rs.column, rs.endLine, rs.endColumn) : null)) : []; }, err => []); } return this.scopes; } public restart(): TPromise { return this.thread.process.session.restartFrame({ frameId: this.frameId }); } } export class Thread implements debug.IThread { private promisedCallStack: TPromise; private cachedCallStack: debug.IStackFrame[]; public stoppedDetails: debug.IRawStoppedDetails; public stopped: boolean; constructor(public process: debug.IProcess, public name: string, public threadId: number) { this.promisedCallStack = null; this.stoppedDetails = null; this.cachedCallStack = null; this.stopped = false; } public getId(): string { return `thread:${this.process.getId()}:${this.name}:${this.threadId}`; } public clearCallStack(): void { this.promisedCallStack = null; this.cachedCallStack = null; } public getCallStack(): debug.IStackFrame[] { return this.cachedCallStack; } /** * Queries the debug adapter for the callstack and returns a promise with * the stack frames of the callstack. * If the thread is not stopped, it returns a promise to an empty array. * Only gets the first 20 stack frames. Calling this method consecutive times * with getAdditionalStackFrames = true gets the remainder of the call stack. */ public fetchCallStack(getAdditionalStackFrames = false): TPromise { if (!this.stopped) { return TPromise.as([]); } if (!this.promisedCallStack) { this.promisedCallStack = this.getCallStackImpl(0).then(callStack => { this.cachedCallStack = callStack; return callStack; }); } else if (getAdditionalStackFrames) { this.promisedCallStack = this.promisedCallStack.then(callStackFirstPart => this.getCallStackImpl(callStackFirstPart.length).then(callStackSecondPart => { this.cachedCallStack = callStackFirstPart.concat(callStackSecondPart); return this.cachedCallStack; })); } return this.promisedCallStack; } private getCallStackImpl(startFrame: number): TPromise { return this.process.session.stackTrace({ threadId: this.threadId, startFrame, levels: 20 }).then(response => { if (!response || !response.body) { return []; } if (this.stoppedDetails) { this.stoppedDetails.totalFrames = response.body.totalFrames; } return response.body.stackFrames.map((rsf, level) => { if (!rsf) { return new StackFrame(this, 0, new Source({ name: UNKNOWN_SOURCE_LABEL }, false), nls.localize('unknownStack', "Unknown stack location"), null, null); } return new StackFrame(this, rsf.id, rsf.source ? new Source(rsf.source) : new Source({ name: UNKNOWN_SOURCE_LABEL }, false), rsf.name, rsf.line, rsf.column); }); }, (err: Error) => { if (this.stoppedDetails) { this.stoppedDetails.framesErrorMessage = err.message; } return []; }); } public next(): TPromise { return this.process.session.next({ threadId: this.threadId }); } public stepIn(): TPromise { return this.process.session.stepIn({ threadId: this.threadId }); } public stepOut(): TPromise { return this.process.session.stepOut({ threadId: this.threadId }); } public stepBack(): TPromise { return this.process.session.stepBack({ threadId: this.threadId }); } public continue(): TPromise { return this.process.session.continue({ threadId: this.threadId }); } public pause(): TPromise { return this.process.session.pause({ threadId: this.threadId }); } public reverseContinue(): TPromise { return this.process.session.reverseContinue({ threadId: this.threadId }); } } export class Process implements debug.IProcess { private threads: { [reference: number]: Thread; }; constructor(public name: string, private _session: debug.ISession & debug.ITreeElement) { this.threads = {}; } public get session(): debug.ISession { return this._session; } public getThread(threadId: number): Thread { return this.threads[threadId]; } public getAllThreads(): debug.IThread[] { return Object.keys(this.threads).map(key => this.threads[key]); } public getId(): string { return this._session.getId(); } public rawUpdate(data: debug.IRawModelUpdate): void { if (data.thread && !this.threads[data.threadId]) { // A new thread came in, initialize it. this.threads[data.threadId] = new Thread(this, data.thread.name, data.thread.id); } if (data.stoppedDetails) { // Set the availability of the threads' callstacks depending on // whether the thread is stopped or not if (data.allThreadsStopped) { Object.keys(this.threads).forEach(ref => { // Only update the details if all the threads are stopped // because we don't want to overwrite the details of other // threads that have stopped for a different reason this.threads[ref].stoppedDetails = clone(data.stoppedDetails); this.threads[ref].stopped = true; this.threads[ref].clearCallStack(); }); } else { // One thread is stopped, only update that thread. this.threads[data.threadId].stoppedDetails = data.stoppedDetails; this.threads[data.threadId].clearCallStack(); this.threads[data.threadId].stopped = true; } } } public clearThreads(removeThreads: boolean, reference: number = undefined): void { if (reference) { if (this.threads[reference]) { this.threads[reference].clearCallStack(); this.threads[reference].stoppedDetails = undefined; this.threads[reference].stopped = false; if (removeThreads) { delete this.threads[reference]; } } } else { Object.keys(this.threads).forEach(ref => { this.threads[ref].clearCallStack(); this.threads[ref].stoppedDetails = undefined; this.threads[ref].stopped = false; }); if (removeThreads) { this.threads = {}; ExpressionContainer.allValues = {}; } } } public sourceIsUnavailable(source: Source): void { Object.keys(this.threads).forEach(key => { if (this.threads[key].getCachedCallStack()) { this.threads[key].getCachedCallStack().forEach(stackFrame => { if (stackFrame.source.uri.toString() === source.uri.toString()) { stackFrame.source.available = false; } }); } }); } public completions(frameId: number, text: string, position: Position, overwriteBefore: number): TPromise { if (!this.session.configuration.capabilities.supportsCompletionsRequest) { return TPromise.as([]); } return this.session.completions({ frameId, text, column: position.column, line: position.lineNumber }).then(response => { return response && response.body && response.body.targets ? response.body.targets.map(item => ({ label: item.label, insertText: item.text || item.label, type: item.type, overwriteBefore: item.length || overwriteBefore })) : []; }, err => []); } } export class Breakpoint implements debug.IBreakpoint { public verified: boolean; public idFromAdapter: number; public message: string; private id: string; constructor( public uri: uri, public lineNumber: number, public enabled: boolean, public condition: string, public hitCondition: string ) { if (enabled === undefined) { this.enabled = true; } this.verified = false; this.id = generateUuid(); } public getId(): string { return this.id; } } export class FunctionBreakpoint implements debug.IFunctionBreakpoint { private id: string; public verified: boolean; public idFromAdapter: number; constructor(public name: string, public enabled: boolean, public hitCondition: string) { this.verified = false; this.id = generateUuid(); } public getId(): string { return this.id; } } export class ExceptionBreakpoint implements debug.IExceptionBreakpoint { private id: string; constructor(public filter: string, public label: string, public enabled: boolean) { this.id = generateUuid(); } public getId(): string { return this.id; } } export class Model implements debug.IModel { private processes: Process[]; private toDispose: lifecycle.IDisposable[]; private replElements: debug.ITreeElement[]; private _onDidChangeBreakpoints: Emitter; private _onDidChangeCallStack: Emitter; private _onDidChangeWatchExpressions: Emitter; private _onDidChangeREPLElements: Emitter; constructor( private breakpoints: Breakpoint[], private breakpointsActivated: boolean, private functionBreakpoints: FunctionBreakpoint[], private exceptionBreakpoints: ExceptionBreakpoint[], private watchExpressions: Expression[] ) { this.processes = []; this.replElements = []; this.toDispose = []; this._onDidChangeBreakpoints = new Emitter(); this._onDidChangeCallStack = new Emitter(); this._onDidChangeWatchExpressions = new Emitter(); this._onDidChangeREPLElements = new Emitter(); } public getId(): string { return 'root'; } public getProcesses(): Process[] { return this.processes; } public addProcess(name: string, session: debug.ISession & debug.ITreeElement): Process { const process = new Process(name, session); this.processes.push(process); return process; } public removeProcess(id: string): void { this.processes = this.processes.filter(p => p.getId() !== id); this._onDidChangeCallStack.fire(); } public get onDidChangeBreakpoints(): Event { return this._onDidChangeBreakpoints.event; } public get onDidChangeCallStack(): Event { return this._onDidChangeCallStack.event; } public get onDidChangeWatchExpressions(): Event { return this._onDidChangeWatchExpressions.event; } public get onDidChangeReplElements(): Event { return this._onDidChangeREPLElements.event; } public rawUpdate(data: debug.IRawModelUpdate): void { let process = this.processes.filter(p => p.getId() === data.sessionId).pop(); if (process) { process.rawUpdate(data); this._onDidChangeCallStack.fire(); } } public clearThreads(id: string, removeThreads: boolean, reference: number = undefined): void { const process = this.processes.filter(p => p.getId() === id).pop(); if (process) { process.clearThreads(removeThreads, reference); this._onDidChangeCallStack.fire(); } } public getBreakpoints(): Breakpoint[] { return this.breakpoints; } public getFunctionBreakpoints(): debug.IFunctionBreakpoint[] { return this.functionBreakpoints; } public getExceptionBreakpoints(): debug.IExceptionBreakpoint[] { return this.exceptionBreakpoints; } public setExceptionBreakpoints(data: DebugProtocol.ExceptionBreakpointsFilter[]): void { if (data) { this.exceptionBreakpoints = data.map(d => { const ebp = this.exceptionBreakpoints.filter(ebp => ebp.filter === d.filter).pop(); return new ExceptionBreakpoint(d.filter, d.label, ebp ? ebp.enabled : d.default); }); } } public areBreakpointsActivated(): boolean { return this.breakpointsActivated; } public setBreakpointsActivated(activated: boolean): void { this.breakpointsActivated = activated; this._onDidChangeBreakpoints.fire(); } public addBreakpoints(uri: uri, rawData: debug.IRawBreakpoint[]): void { this.breakpoints = this.breakpoints.concat(rawData.map(rawBp => new Breakpoint(uri, rawBp.lineNumber, rawBp.enabled, rawBp.condition, rawBp.hitCondition))); this.breakpointsActivated = true; this._onDidChangeBreakpoints.fire(); } public removeBreakpoints(toRemove: debug.IBreakpoint[]): void { this.breakpoints = this.breakpoints.filter(bp => !toRemove.some(toRemove => toRemove.getId() === bp.getId())); this._onDidChangeBreakpoints.fire(); } public updateBreakpoints(data: { [id: string]: DebugProtocol.Breakpoint }): void { this.breakpoints.forEach(bp => { const bpData = data[bp.getId()]; if (bpData) { bp.lineNumber = bpData.line ? bpData.line : bp.lineNumber; bp.verified = bpData.verified; bp.idFromAdapter = bpData.id; bp.message = bpData.message; } }); // Remove duplicate breakpoints. This can happen when an adapter updates a line number of a breakpoint this.breakpoints = distinct(this.breakpoints, bp => bp.uri.toString() + bp.lineNumber); this._onDidChangeBreakpoints.fire(); } public setEnablement(element: debug.IEnablement, enable: boolean): void { element.enabled = enable; if (element instanceof Breakpoint && !element.enabled) { var breakpoint = element; breakpoint.verified = false; } this._onDidChangeBreakpoints.fire(); } public enableOrDisableAllBreakpoints(enable: boolean): void { this.breakpoints.forEach(bp => { bp.enabled = enable; if (!enable) { bp.verified = false; } }); this.exceptionBreakpoints.forEach(ebp => ebp.enabled = enable); this.functionBreakpoints.forEach(fbp => fbp.enabled = enable); this._onDidChangeBreakpoints.fire(); } public addFunctionBreakpoint(functionName: string): void { this.functionBreakpoints.push(new FunctionBreakpoint(functionName, true, null)); this._onDidChangeBreakpoints.fire(); } public updateFunctionBreakpoints(data: { [id: string]: { name?: string, verified?: boolean; id?: number; hitCondition?: string } }): void { this.functionBreakpoints.forEach(fbp => { const fbpData = data[fbp.getId()]; if (fbpData) { fbp.name = fbpData.name || fbp.name; fbp.verified = fbpData.verified; fbp.idFromAdapter = fbpData.id; fbp.hitCondition = fbpData.hitCondition; } }); this._onDidChangeBreakpoints.fire(); } public removeFunctionBreakpoints(id?: string): void { this.functionBreakpoints = id ? this.functionBreakpoints.filter(fbp => fbp.getId() !== id) : []; this._onDidChangeBreakpoints.fire(); } public getReplElements(): debug.ITreeElement[] { return this.replElements; } public addReplExpression(process: debug.IProcess, stackFrame: debug.IStackFrame, name: string): TPromise { const expression = new Expression(name); this.addReplElement(expression); return expression.evaluate(process, stackFrame, 'repl') .then(() => this._onDidChangeREPLElements.fire()); } public appendToRepl(output: string | debug.IExpression, severity: severity): void { const previousOutput = this.replElements.length && (this.replElements[this.replElements.length - 1] as OutputElement); const groupTogether = typeof output === 'string' && previousOutput instanceof OutputElement && severity === previousOutput.severity; if (groupTogether) { if (strings.endsWith(previousOutput.value, '\n') && previousOutput.value === output && output.trim()) { // we got the same output (but not an empty string when trimmed) so we just increment the counter previousOutput.counter++; } else { // append to previous line if same group previousOutput.value += output; } } else { const newReplElement = typeof output === 'string' ? new OutputElement(output, severity) : output; this.addReplElement(newReplElement); } this._onDidChangeREPLElements.fire(); } private addReplElement(newElement: debug.ITreeElement): void { this.replElements.push(newElement); if (this.replElements.length > MAX_REPL_LENGTH) { this.replElements.splice(0, this.replElements.length - MAX_REPL_LENGTH); } } public removeReplExpressions(): void { if (this.replElements.length > 0) { this.replElements = []; this._onDidChangeREPLElements.fire(); } } public getWatchExpressions(): Expression[] { return this.watchExpressions; } public addWatchExpression(process: debug.IProcess, stackFrame: debug.IStackFrame, name: string): TPromise { const we = new Expression(name); this.watchExpressions.push(we); if (!name) { this._onDidChangeWatchExpressions.fire(we); return TPromise.as(null); } return this.evaluateWatchExpressions(process, stackFrame, we.getId()); } public renameWatchExpression(process: debug.IProcess, stackFrame: debug.IStackFrame, id: string, newName: string): TPromise { const filtered = this.watchExpressions.filter(we => we.getId() === id); if (filtered.length === 1) { filtered[0].name = newName; return filtered[0].evaluate(process, stackFrame, 'watch').then(() => { this._onDidChangeWatchExpressions.fire(filtered[0]); }); } return TPromise.as(null); } public evaluateWatchExpressions(process: debug.IProcess, stackFrame: debug.IStackFrame, id: string = null): TPromise { if (id) { const filtered = this.watchExpressions.filter(we => we.getId() === id); if (filtered.length !== 1) { return TPromise.as(null); } return filtered[0].evaluate(process, stackFrame, 'watch').then(() => { this._onDidChangeWatchExpressions.fire(filtered[0]); }); } return TPromise.join(this.watchExpressions.map(we => we.evaluate(process, stackFrame, 'watch'))).then(() => { this._onDidChangeWatchExpressions.fire(); }); } public removeWatchExpressions(id: string = null): void { this.watchExpressions = id ? this.watchExpressions.filter(we => we.getId() !== id) : []; this._onDidChangeWatchExpressions.fire(); } public moveWatchExpression(id: string, position: number): void { const we = this.watchExpressions.filter(we => we.getId() === id).pop(); this.watchExpressions = this.watchExpressions.filter(we => we.getId() !== id); this.watchExpressions = this.watchExpressions.slice(0, position).concat(we, this.watchExpressions.slice(position)); this._onDidChangeWatchExpressions.fire(); } public sourceIsUnavailable(source: Source): void { this.processes.forEach(p => p.sourceIsUnavailable(source)); this._onDidChangeCallStack.fire(); } public dispose(): void { this.toDispose = lifecycle.dispose(this.toDispose); } }