code-server-2/build/lib/nls.ts

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/*---------------------------------------------------------------------------------------------
* Copyright (c) Microsoft Corporation. All rights reserved.
* Licensed under the MIT License. See License.txt in the project root for license information.
*--------------------------------------------------------------------------------------------*/
import * as ts from 'typescript';
import * as lazy from 'lazy.js';
import { duplex, through } from 'event-stream';
import * as File from 'vinyl';
import * as sm from 'source-map';
import * as path from 'path';
declare class FileSourceMap extends File {
public sourceMap: sm.RawSourceMap;
}
enum CollectStepResult {
Yes,
YesAndRecurse,
No,
NoAndRecurse
}
function collect(node: ts.Node, fn: (node: ts.Node) => CollectStepResult): ts.Node[] {
const result: ts.Node[] = [];
function loop(node: ts.Node) {
const stepResult = fn(node);
if (stepResult === CollectStepResult.Yes || stepResult === CollectStepResult.YesAndRecurse) {
result.push(node);
}
if (stepResult === CollectStepResult.YesAndRecurse || stepResult === CollectStepResult.NoAndRecurse) {
ts.forEachChild(node, loop);
}
}
loop(node);
return result;
}
function clone<T>(object: T): T {
const result = <T>{};
for (const id in object) {
result[id] = object[id];
}
return result;
}
function template(lines: string[]): string {
let indent = '', wrap = '';
if (lines.length > 1) {
indent = '\t';
wrap = '\n';
}
return `/*---------------------------------------------------------
* Copyright (C) Microsoft Corporation. All rights reserved.
*--------------------------------------------------------*/
define([], [${ wrap + lines.map(l => indent + l).join(',\n') + wrap}]);`;
}
/**
* Returns a stream containing the patched JavaScript and source maps.
*/
function nls(): NodeJS.ReadWriteStream {
const input = through();
const output = input.pipe(through(function (f: FileSourceMap) {
if (!f.sourceMap) {
return this.emit('error', new Error(`File ${f.relative} does not have sourcemaps.`));
}
let source = f.sourceMap.sources[0];
if (!source) {
return this.emit('error', new Error(`File ${f.relative} does not have a source in the source map.`));
}
const root = f.sourceMap.sourceRoot;
if (root) {
source = path.join(root, source);
}
const typescript = f.sourceMap.sourcesContent![0];
if (!typescript) {
return this.emit('error', new Error(`File ${f.relative} does not have the original content in the source map.`));
}
nls.patchFiles(f, typescript).forEach(f => this.emit('data', f));
}));
return duplex(input, output);
}
function isImportNode(node: ts.Node): boolean {
return node.kind === ts.SyntaxKind.ImportDeclaration || node.kind === ts.SyntaxKind.ImportEqualsDeclaration;
}
module nls {
export interface INlsStringResult {
javascript: string;
sourcemap: sm.RawSourceMap;
nls?: string;
nlsKeys?: string;
}
export interface ISpan {
start: ts.LineAndCharacter;
end: ts.LineAndCharacter;
}
export interface ILocalizeCall {
keySpan: ISpan;
key: string;
valueSpan: ISpan;
value: string;
}
export interface ILocalizeAnalysisResult {
localizeCalls: ILocalizeCall[];
nlsExpressions: ISpan[];
}
export interface IPatch {
span: ISpan;
content: string;
}
export function fileFrom(file: File, contents: string, path: string = file.path) {
return new File({
contents: Buffer.from(contents),
base: file.base,
cwd: file.cwd,
path: path
});
}
export function mappedPositionFrom(source: string, lc: ts.LineAndCharacter): sm.MappedPosition {
return { source, line: lc.line + 1, column: lc.character };
}
export function lcFrom(position: sm.Position): ts.LineAndCharacter {
return { line: position.line - 1, character: position.column };
}
export class SingleFileServiceHost implements ts.LanguageServiceHost {
private file: ts.IScriptSnapshot;
private lib: ts.IScriptSnapshot;
constructor(private options: ts.CompilerOptions, private filename: string, contents: string) {
this.file = ts.ScriptSnapshot.fromString(contents);
this.lib = ts.ScriptSnapshot.fromString('');
}
getCompilationSettings = () => this.options;
getScriptFileNames = () => [this.filename];
getScriptVersion = () => '1';
getScriptSnapshot = (name: string) => name === this.filename ? this.file : this.lib;
getCurrentDirectory = () => '';
getDefaultLibFileName = () => 'lib.d.ts';
}
function isCallExpressionWithinTextSpanCollectStep(textSpan: ts.TextSpan, node: ts.Node): CollectStepResult {
if (!ts.textSpanContainsTextSpan({ start: node.pos, length: node.end - node.pos }, textSpan)) {
return CollectStepResult.No;
}
return node.kind === ts.SyntaxKind.CallExpression ? CollectStepResult.YesAndRecurse : CollectStepResult.NoAndRecurse;
}
export function analyze(contents: string, options: ts.CompilerOptions = {}): ILocalizeAnalysisResult {
const filename = 'file.ts';
const serviceHost = new SingleFileServiceHost(Object.assign(clone(options), { noResolve: true }), filename, contents);
const service = ts.createLanguageService(serviceHost);
const sourceFile = ts.createSourceFile(filename, contents, ts.ScriptTarget.ES5, true);
// all imports
const imports = lazy(collect(sourceFile, n => isImportNode(n) ? CollectStepResult.YesAndRecurse : CollectStepResult.NoAndRecurse));
// import nls = require('vs/nls');
const importEqualsDeclarations = imports
.filter(n => n.kind === ts.SyntaxKind.ImportEqualsDeclaration)
.map(n => <ts.ImportEqualsDeclaration>n)
.filter(d => d.moduleReference.kind === ts.SyntaxKind.ExternalModuleReference)
.filter(d => (<ts.ExternalModuleReference>d.moduleReference).expression.getText() === '\'vs/nls\'');
// import ... from 'vs/nls';
const importDeclarations = imports
.filter(n => n.kind === ts.SyntaxKind.ImportDeclaration)
.map(n => <ts.ImportDeclaration>n)
.filter(d => d.moduleSpecifier.kind === ts.SyntaxKind.StringLiteral)
.filter(d => d.moduleSpecifier.getText() === '\'vs/nls\'')
.filter(d => !!d.importClause && !!d.importClause.namedBindings);
const nlsExpressions = importEqualsDeclarations
.map(d => (<ts.ExternalModuleReference>d.moduleReference).expression)
.concat(importDeclarations.map(d => d.moduleSpecifier))
.map<ISpan>(d => ({
start: ts.getLineAndCharacterOfPosition(sourceFile, d.getStart()),
end: ts.getLineAndCharacterOfPosition(sourceFile, d.getEnd())
}));
// `nls.localize(...)` calls
const nlsLocalizeCallExpressions = importDeclarations
.filter(d => !!(d.importClause && d.importClause.namedBindings && d.importClause.namedBindings.kind === ts.SyntaxKind.NamespaceImport))
.map(d => (<ts.NamespaceImport>d.importClause!.namedBindings).name)
.concat(importEqualsDeclarations.map(d => d.name))
// find read-only references to `nls`
.map(n => service.getReferencesAtPosition(filename, n.pos + 1))
.flatten()
.filter(r => !r.isWriteAccess)
// find the deepest call expressions AST nodes that contain those references
.map(r => collect(sourceFile, n => isCallExpressionWithinTextSpanCollectStep(r.textSpan, n)))
.map(a => lazy(a).last())
.filter(n => !!n)
.map(n => <ts.CallExpression>n)
// only `localize` calls
.filter(n => n.expression.kind === ts.SyntaxKind.PropertyAccessExpression && (<ts.PropertyAccessExpression>n.expression).name.getText() === 'localize');
// `localize` named imports
const allLocalizeImportDeclarations = importDeclarations
.filter(d => !!(d.importClause && d.importClause.namedBindings && d.importClause.namedBindings.kind === ts.SyntaxKind.NamedImports))
.map(d => ([] as any[]).concat((<ts.NamedImports>d.importClause!.namedBindings!).elements))
.flatten();
// `localize` read-only references
const localizeReferences = allLocalizeImportDeclarations
.filter(d => d.name.getText() === 'localize')
.map(n => service.getReferencesAtPosition(filename, n.pos + 1))
.flatten()
.filter(r => !r.isWriteAccess);
// custom named `localize` read-only references
const namedLocalizeReferences = allLocalizeImportDeclarations
.filter(d => d.propertyName && d.propertyName.getText() === 'localize')
.map(n => service.getReferencesAtPosition(filename, n.name.pos + 1))
.flatten()
.filter(r => !r.isWriteAccess);
// find the deepest call expressions AST nodes that contain those references
const localizeCallExpressions = localizeReferences
.concat(namedLocalizeReferences)
.map(r => collect(sourceFile, n => isCallExpressionWithinTextSpanCollectStep(r.textSpan, n)))
.map(a => lazy(a).last())
.filter(n => !!n)
.map(n => <ts.CallExpression>n);
// collect everything
const localizeCalls = nlsLocalizeCallExpressions
.concat(localizeCallExpressions)
.map(e => e.arguments)
.filter(a => a.length > 1)
.sort((a, b) => a[0].getStart() - b[0].getStart())
.map<ILocalizeCall>(a => ({
keySpan: { start: ts.getLineAndCharacterOfPosition(sourceFile, a[0].getStart()), end: ts.getLineAndCharacterOfPosition(sourceFile, a[0].getEnd()) },
key: a[0].getText(),
valueSpan: { start: ts.getLineAndCharacterOfPosition(sourceFile, a[1].getStart()), end: ts.getLineAndCharacterOfPosition(sourceFile, a[1].getEnd()) },
value: a[1].getText()
}));
return {
localizeCalls: localizeCalls.toArray(),
nlsExpressions: nlsExpressions.toArray()
};
}
export class TextModel {
private lines: string[];
private lineEndings: string[];
constructor(contents: string) {
const regex = /\r\n|\r|\n/g;
let index = 0;
let match: RegExpExecArray | null;
this.lines = [];
this.lineEndings = [];
while (match = regex.exec(contents)) {
this.lines.push(contents.substring(index, match.index));
this.lineEndings.push(match[0]);
index = regex.lastIndex;
}
if (contents.length > 0) {
this.lines.push(contents.substring(index, contents.length));
this.lineEndings.push('');
}
}
public get(index: number): string {
return this.lines[index];
}
public set(index: number, line: string): void {
this.lines[index] = line;
}
public get lineCount(): number {
return this.lines.length;
}
/**
* Applies patch(es) to the model.
* Multiple patches must be ordered.
* Does not support patches spanning multiple lines.
*/
public apply(patch: IPatch): void {
const startLineNumber = patch.span.start.line;
const endLineNumber = patch.span.end.line;
const startLine = this.lines[startLineNumber] || '';
const endLine = this.lines[endLineNumber] || '';
this.lines[startLineNumber] = [
startLine.substring(0, patch.span.start.character),
patch.content,
endLine.substring(patch.span.end.character)
].join('');
for (let i = startLineNumber + 1; i <= endLineNumber; i++) {
this.lines[i] = '';
}
}
public toString(): string {
return lazy(this.lines).zip(this.lineEndings)
.flatten().toArray().join('');
}
}
export function patchJavascript(patches: IPatch[], contents: string, moduleId: string): string {
const model = new nls.TextModel(contents);
// patch the localize calls
lazy(patches).reverse().each(p => model.apply(p));
// patch the 'vs/nls' imports
const firstLine = model.get(0);
const patchedFirstLine = firstLine.replace(/(['"])vs\/nls\1/g, `$1vs/nls!${moduleId}$1`);
model.set(0, patchedFirstLine);
return model.toString();
}
export function patchSourcemap(patches: IPatch[], rsm: sm.RawSourceMap, smc: sm.SourceMapConsumer): sm.RawSourceMap {
const smg = new sm.SourceMapGenerator({
file: rsm.file,
sourceRoot: rsm.sourceRoot
});
patches = patches.reverse();
let currentLine = -1;
let currentLineDiff = 0;
let source: string | null = null;
smc.eachMapping(m => {
const patch = patches[patches.length - 1];
const original = { line: m.originalLine, column: m.originalColumn };
const generated = { line: m.generatedLine, column: m.generatedColumn };
if (currentLine !== generated.line) {
currentLineDiff = 0;
}
currentLine = generated.line;
generated.column += currentLineDiff;
if (patch && m.generatedLine - 1 === patch.span.end.line && m.generatedColumn === patch.span.end.character) {
const originalLength = patch.span.end.character - patch.span.start.character;
const modifiedLength = patch.content.length;
const lengthDiff = modifiedLength - originalLength;
currentLineDiff += lengthDiff;
generated.column += lengthDiff;
patches.pop();
}
source = rsm.sourceRoot ? path.relative(rsm.sourceRoot, m.source) : m.source;
source = source.replace(/\\/g, '/');
smg.addMapping({ source, name: m.name, original, generated });
}, null, sm.SourceMapConsumer.GENERATED_ORDER);
if (source) {
smg.setSourceContent(source, smc.sourceContentFor(source));
}
return JSON.parse(smg.toString());
}
export function patch(moduleId: string, typescript: string, javascript: string, sourcemap: sm.RawSourceMap): INlsStringResult {
const { localizeCalls, nlsExpressions } = analyze(typescript);
if (localizeCalls.length === 0) {
return { javascript, sourcemap };
}
const nlsKeys = template(localizeCalls.map(lc => lc.key));
const nls = template(localizeCalls.map(lc => lc.value));
const smc = new sm.SourceMapConsumer(sourcemap);
const positionFrom = mappedPositionFrom.bind(null, sourcemap.sources[0]);
let i = 0;
// build patches
const patches = lazy(localizeCalls)
.map(lc => ([
{ range: lc.keySpan, content: '' + (i++) },
{ range: lc.valueSpan, content: 'null' }
]))
.flatten()
.map<IPatch>(c => {
const start = lcFrom(smc.generatedPositionFor(positionFrom(c.range.start)));
const end = lcFrom(smc.generatedPositionFor(positionFrom(c.range.end)));
return { span: { start, end }, content: c.content };
})
.toArray();
javascript = patchJavascript(patches, javascript, moduleId);
// since imports are not within the sourcemap information,
// we must do this MacGyver style
if (nlsExpressions.length) {
javascript = javascript.replace(/^define\(.*$/m, line => {
return line.replace(/(['"])vs\/nls\1/g, `$1vs/nls!${moduleId}$1`);
});
}
sourcemap = patchSourcemap(patches, sourcemap, smc);
return { javascript, sourcemap, nlsKeys, nls };
}
export function patchFiles(javascriptFile: File, typescript: string): File[] {
// hack?
const moduleId = javascriptFile.relative
.replace(/\.js$/, '')
.replace(/\\/g, '/');
const { javascript, sourcemap, nlsKeys, nls } = patch(
moduleId,
typescript,
javascriptFile.contents.toString(),
(<any>javascriptFile).sourceMap
);
const result: File[] = [fileFrom(javascriptFile, javascript)];
(<any>result[0]).sourceMap = sourcemap;
if (nlsKeys) {
result.push(fileFrom(javascriptFile, nlsKeys, javascriptFile.path.replace(/\.js$/, '.nls.keys.js')));
}
if (nls) {
result.push(fileFrom(javascriptFile, nls, javascriptFile.path.replace(/\.js$/, '.nls.js')));
}
return result;
}
}
export = nls;