195878da9b
* feat: replace antlr4ts with antlr4ng * feat: switch caseInsensitive option on * feat: recompile all g4 file * feat: update parser to fit antlr4ng * test: update test to fit antlr4ng
386 lines
13 KiB
TypeScript
386 lines
13 KiB
TypeScript
import {
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Parser,
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Lexer,
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Token,
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CharStreams,
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CommonTokenStream,
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CharStream,
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ParserRuleContext,
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ParseTreeWalker,
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ParseTreeListener,
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} from 'antlr4ng';
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import { CandidatesCollection, CodeCompletionCore } from 'antlr4-c3';
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import { findCaretTokenIndex } from './utils/findCaretTokenIndex';
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import {
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CaretPosition,
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Suggestions,
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SyntaxSuggestion,
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WordRange,
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TextSlice,
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} from './basic-parser-types';
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import ParseErrorListener, { ParseError, ErrorListener } from './parseErrorListener';
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import { ErrorStrategy } from './errorStrategy';
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interface IParser<IParserRuleContext extends ParserRuleContext> extends Parser {
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// Customized in our parser
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program(): IParserRuleContext;
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}
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interface SplitListener extends ParseTreeListener {
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statementsContext: ParserRuleContext[];
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}
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/**
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* Custom Parser class, subclass needs extends it.
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*/
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export default abstract class BasicParser<
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L extends Lexer = Lexer,
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PRC extends ParserRuleContext = ParserRuleContext,
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P extends IParser<PRC> = IParser<PRC>,
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> {
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/** members for cache start */
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protected _charStreams: CharStream;
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protected _lexer: L;
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protected _tokenStream: CommonTokenStream;
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protected _parser: P;
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protected _parseTree: PRC;
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protected _parsedInput: string = null;
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protected _parseErrors: ParseError[] = [];
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/** members for cache end */
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private _errorListener: ErrorListener<any> = (error) => {
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this._parseErrors.push(error);
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};
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/**
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* PreferredRules for antlr4-c3
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*/
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protected abstract preferredRules: Set<number>;
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/**
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* Create a antlr4 Lexer instance.
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* @param input source string
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*/
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protected abstract createLexerFromCharStream(charStreams: CharStream): L;
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/**
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* Create Parser by CommonTokenStream
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* @param tokenStream CommonTokenStream
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*/
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protected abstract createParserFromTokenStream(tokenStream: CommonTokenStream): P;
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/**
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* Convert candidates to suggestions
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* @param candidates candidate list
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* @param allTokens all tokens from input
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* @param caretTokenIndex tokenIndex of caretPosition
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* @param tokenIndexOffset offset of the tokenIndex in the candidates compared to the tokenIndex in allTokens
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*/
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protected abstract processCandidates(
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candidates: CandidatesCollection,
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allTokens: Token[],
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caretTokenIndex: number,
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tokenIndexOffset: number
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): Suggestions<Token>;
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/**
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* Get splitListener instance.
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*/
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protected abstract get splitListener(): SplitListener;
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/**
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* Create an antlr4 lexer from input.
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* @param input string
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*/
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public createLexer(input: string, errorListener?: ErrorListener<any>) {
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const charStreams = CharStreams.fromString(input);
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const lexer = this.createLexerFromCharStream(charStreams);
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if (errorListener) {
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lexer.removeErrorListeners();
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lexer.addErrorListener(new ParseErrorListener(errorListener));
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}
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return lexer;
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}
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/**
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* Create an antlr4 parser from input.
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* @param input string
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*/
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public createParser(input: string, errorListener?: ErrorListener<any>) {
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const lexer = this.createLexer(input, errorListener);
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const tokenStream = new CommonTokenStream(lexer);
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const parser = this.createParserFromTokenStream(tokenStream);
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if (errorListener) {
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parser.removeErrorListeners();
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parser.addErrorListener(new ParseErrorListener(errorListener));
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}
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return parser;
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}
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/**
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* Parse input string and return parseTree.
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* @param input string
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* @param errorListener listen parse errors and lexer errors.
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* @returns parseTree
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*/
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public parse(input: string, errorListener?: ErrorListener<any>) {
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const parser = this.createParser(input, errorListener);
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parser.buildParseTrees = true;
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parser.errorHandler = new ErrorStrategy();
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return parser.program();
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}
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/**
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* Create an antlr4 parser from input.
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* And the instances will be cache.
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* @param input string
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*/
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private createParserWithCache(input: string): P {
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this._parseTree = null;
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this._charStreams = CharStreams.fromString(input);
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this._lexer = this.createLexerFromCharStream(this._charStreams);
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this._lexer.removeErrorListeners();
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this._lexer.addErrorListener(new ParseErrorListener(this._errorListener));
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this._tokenStream = new CommonTokenStream(this._lexer);
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/**
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* All tokens are generated in advance.
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* This can cause performance degradation, but it seems necessary for now.
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* Because the tokens will be used multiple times.
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*/
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this._tokenStream.fill();
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this._parser = this.createParserFromTokenStream(this._tokenStream);
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this._parser.buildParseTrees = true;
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this._parser.errorHandler = new ErrorStrategy();
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return this._parser;
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}
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/**
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* If it is invoked multiple times in a row and the input parameters is the same,
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* this method returns the parsing result directly for the first time
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* unless the errorListener parameter is passed.
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* @param input source string
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* @param errorListener listen errors
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* @returns parseTree
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*/
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private parseWithCache(input: string, errorListener?: ErrorListener<any>) {
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// Avoid parsing the same input repeatedly.
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if (this._parsedInput === input && !errorListener) {
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return this._parseTree;
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}
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this._parseErrors = [];
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const parser = this.createParserWithCache(input);
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this._parsedInput = input;
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parser.removeErrorListeners();
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parser.addErrorListener(new ParseErrorListener(this._errorListener));
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this._parseTree = parser.program();
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return this._parseTree;
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}
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/**
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* Validate input string and return syntax errors if exists.
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* @param input source string
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* @returns syntax errors
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*/
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public validate(input: string): ParseError[] {
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this.parseWithCache(input);
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return this._parseErrors;
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}
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/**
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* Get all Tokens of input string,'<EOF>' is not included.
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* @param input source string
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* @returns Token[]
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*/
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public getAllTokens(input: string): Token[] {
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this.parseWithCache(input);
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let allTokens = this._tokenStream.getTokens();
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if (allTokens[allTokens.length - 1].text === '<EOF>') {
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allTokens = allTokens.slice(0, -1);
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}
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return allTokens;
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}
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/**
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* @param listener Listener instance extends ParserListener
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* @param parseTree parser Tree
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*/
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public listen<PTL extends ParseTreeListener = ParseTreeListener>(
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listener: PTL,
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parseTree: PRC
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) {
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ParseTreeWalker.DEFAULT.walk(listener, parseTree);
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}
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/**
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* Split input into statements.
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* If exist syntax error it will return null.
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* @param input source string
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*/
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public splitSQLByStatement(input): TextSlice[] {
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const errors = this.validate(input);
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if (errors.length) {
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return null;
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}
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const splitListener = this.splitListener;
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// TODO: add splitListener to all sqlParser implements add remove following if
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if (!splitListener) return null;
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this.listen(splitListener, this._parseTree);
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const res = splitListener.statementsContext.map((context) => {
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const { start, stop } = context;
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return {
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startIndex: start.start,
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endIndex: stop.stop,
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startLine: start.line,
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endLine: stop.line,
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startColumn: start.column + 1,
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endColumn: stop.column + 1 + stop.text.length,
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text: this._parsedInput.slice(start.start, stop.stop + 1),
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};
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});
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return res;
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}
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/**
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* Get suggestions of syntax and token at caretPosition
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* @param input source string
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* @param caretPosition caret position, such as cursor position
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* @returns suggestion
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*/
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public getSuggestionAtCaretPosition(
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input: string,
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caretPosition: CaretPosition
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): Suggestions | null {
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const splitListener = this.splitListener;
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// TODO: add splitListener to all sqlParser implements add remove following if
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if (!splitListener) return null;
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this.parseWithCache(input);
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let sqlParserIns = this._parser;
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const allTokens = this.getAllTokens(input);
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let caretTokenIndex = findCaretTokenIndex(caretPosition, allTokens);
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let c3Context: ParserRuleContext = this._parseTree;
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let tokenIndexOffset: number = 0;
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if (!caretTokenIndex && caretTokenIndex !== 0) return null;
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/**
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* Split sql by statement.
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* Try to collect candidates in as small a range as possible.
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*/
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this.listen(splitListener, this._parseTree);
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const statementCount = splitListener.statementsContext?.length;
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const statementsContext = splitListener.statementsContext;
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// If there are multiple statements.
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if (statementCount > 1) {
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/**
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* Find a minimum valid range, reparse the fragment, and provide a new parse tree to C3.
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* The boundaries of this range must be statements with no syntax errors.
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* This can ensure the stable performance of the C3.
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*/
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let startStatement: ParserRuleContext;
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let stopStatement: ParserRuleContext;
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for (let index = 0; index < statementCount; index++) {
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const ctx = statementsContext[index];
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const isCurrentCtxValid = !ctx.exception;
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if (!isCurrentCtxValid) continue;
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/**
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* Ensure that the statementContext before the left boundary
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* and the last statementContext on the right boundary are qualified SQL statements.
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*/
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const isPrevCtxValid = index === 0 || !statementsContext[index - 1]?.exception;
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const isNextCtxValid =
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index === statementCount - 1 || !statementsContext[index + 1]?.exception;
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if (ctx.stop.tokenIndex < caretTokenIndex && isPrevCtxValid) {
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startStatement = ctx;
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}
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if (!stopStatement && ctx.start.tokenIndex > caretTokenIndex && isNextCtxValid) {
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stopStatement = ctx;
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break;
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}
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}
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// A boundary consisting of the index of the input.
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const startIndex = startStatement?.start?.start ?? 0;
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const stopIndex = stopStatement?.stop?.stop ?? input.length - 1;
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/**
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* Save offset of the tokenIndex in the range of input
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* compared to the tokenIndex in the whole input
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*/
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tokenIndexOffset = startStatement?.start?.tokenIndex ?? 0;
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caretTokenIndex = caretTokenIndex - tokenIndexOffset;
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/**
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* Reparse the input fragment,
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* and c3 will collect candidates in the newly generated parseTree.
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*/
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const inputSlice = input.slice(startIndex, stopIndex);
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const lexer = this.createLexer(inputSlice);
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lexer.removeErrorListeners();
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const tokenStream = new CommonTokenStream(lexer);
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tokenStream.fill();
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const parser = this.createParserFromTokenStream(tokenStream);
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parser.removeErrorListeners();
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parser.buildParseTrees = true;
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parser.errorHandler = new ErrorStrategy();
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sqlParserIns = parser;
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c3Context = parser.program();
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}
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const core = new CodeCompletionCore(sqlParserIns);
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core.preferredRules = this.preferredRules;
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const candidates = core.collectCandidates(caretTokenIndex, c3Context);
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const originalSuggestions = this.processCandidates(
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candidates,
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allTokens,
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caretTokenIndex,
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tokenIndexOffset
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);
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const syntaxSuggestions: SyntaxSuggestion<WordRange>[] = originalSuggestions.syntax.map(
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(syntaxCtx) => {
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const wordRanges: WordRange[] = syntaxCtx.wordRanges.map((token) => {
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return {
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text: this._parsedInput.slice(token.start, token.stop + 1),
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startIndex: token.start,
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endIndex: token.stop,
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line: token.line,
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startColumn: token.column + 1,
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stopColumn: token.column + 1 + token.text.length,
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};
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});
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return {
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syntaxContextType: syntaxCtx.syntaxContextType,
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wordRanges,
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};
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}
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);
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return {
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syntax: syntaxSuggestions,
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keywords: originalSuggestions.keywords,
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};
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}
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}
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