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https://github.com/We-Dont-Byte/Mind_Reader.git
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added 2 functions
added functions getLeadingSpacesByArithmetic and getLeadingSpacesByIndex to facilitate functionality of finding the number of leading spaces via two methods.
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@ -1,71 +1,79 @@
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import { LineToken } from '.';
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import { Symbol, EOFTOKEN, TabInfo } from './token';
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type Rule = {
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pattern: RegExp,
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type: Symbol,
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};
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"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
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const _1 = require(".");
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const token_1 = require("./token");
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/**
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* List of recognition patterns, in order of priority
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* The first item is a recognition pattern, used to recognize the token
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* the second item is the token type
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*/
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const rules: Rule[] = [
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const rules = [
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{
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pattern: /^\s*def\s+(?<attr>[a-zA-Z_][a-zA-Z0-9_]*)\(/,
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type: Symbol.FUNCTION
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type: token_1.Symbol.FUNCTION
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},
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{
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pattern: /^\s*class\s+(?<attr>[a-zA-Z_][a-zA-Z0-9_]*)/,
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type: Symbol.CLASS
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type: token_1.Symbol.CLASS
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},
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{
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pattern: /^\s*if\s+(?<attr>[^:]+):\s*/,
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type: Symbol.IF
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type: token_1.Symbol.IF
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},
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{
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pattern: /^\s*elif\s+(?<attr>[^:]+):\s*$/,
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type: Symbol.ELIF
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type: token_1.Symbol.ELIF
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},
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{
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pattern: /^\s*else\s*:/,
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type: Symbol.ELSE
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type: token_1.Symbol.ELSE
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},
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{
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pattern: /^\s*for\s+(?<attr>[^:]+):\s*$/,
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type: Symbol.FOR
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type: token_1.Symbol.FOR
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},
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{
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pattern: /^\s*while\s+(?<attr>[^:]+):\s*$/,
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type: Symbol.WHILE
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type: token_1.Symbol.WHILE
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},
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{
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pattern: /^\s*try\s*:/,
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type: Symbol.TRY
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type: token_1.Symbol.TRY
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},
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{
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pattern: /^\s*except(\s*(?<attr>[^:]+))?:\s*$/,
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type: Symbol.EXCEPT
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type: token_1.Symbol.EXCEPT
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},
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{
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pattern: /^\s*finally\s*:\s*$/,
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type: Symbol.FINALLY
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type: token_1.Symbol.FINALLY
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},
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{
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pattern: /^\s*with\s+(?<attr>[^:]+):\s*$/,
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type: Symbol.WITH
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type: token_1.Symbol.WITH
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},
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];
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/**
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* Line-By-Line Lexer
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*/
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export default class Lexer {
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private textLines: string[] = []; // array of text lines
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private pos: number = 0;
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private _currToken: LineToken = EOFTOKEN;
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class Lexer {
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/**
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* @param `text` The text to lex.
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* @param `tabFmt` A tab information descriptor
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*/
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constructor(text, tabFmt) {
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this.tabFmt = tabFmt;
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this.textLines = []; // array of text lines
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this.pos = 0;
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this._currToken = token_1.EOFTOKEN;
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// default is 4 wide expanded tabs
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this.tabFmt = Object.assign({ size: 4, hard: false }, tabFmt);
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if (text) {
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// normalize linefeeds
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text = text.replace('\r\n', '\n');
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}
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this.restart(text);
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}
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/**
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* Calculates indentation level for a line. If using soft tabs,
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* indent level rounds up (so, tabSize+1 spaces is 2 levels,
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@ -75,132 +83,130 @@ export default class Lexer {
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* @param `tabFmt` A tab information descriptor.
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* @return The indent of `text` with consideration for `tabFmt`.
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*/
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static getIndent(text: string, tabFmt: TabInfo): number {
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let leadingSpace: number = text.length - text.trimLeft().length;
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let indent: number;
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static getIndent(text, tabFmt) {
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let leadingSpace = text.length - text.trimLeft().length;
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let indent;
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if (tabFmt.hard) {
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// used tabs
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indent = leadingSpace;
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} else {
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// use spaces
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indent = Math.ceil(leadingSpace/tabFmt.size!);
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}
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else {
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// use spaces
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indent = Math.ceil(leadingSpace / tabFmt.size);
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}
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return indent;
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}
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/**
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* @param `text` The text to lex.
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* @param `tabFmt` A tab information descriptor
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* Calculates leading spaces for a line.
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* This method uses arithmetic to calculate the number of leading spaces
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*
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* @param `text` The line of text.
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* @return The number of leading spaces of `text`.
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*/
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constructor(text?: string, private tabFmt?: TabInfo) {
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// default is 4 wide expanded tabs
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this.tabFmt = {
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...{size: 4, hard: false},
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...tabFmt
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};
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static getLeadingSpacesByArithmetic(textLine) {
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const leadingSpaces = textLine.text.length - textLine.text.trimStart().length;
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if (text) {
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// normalize linefeeds
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text = text.replace('\r\n', '\n');
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}
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this.restart(text);
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return leadingSpaces;
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}
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/**
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* Calculates leading spaces for a line.
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* This method finds the index position of the first non-whitespace character
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* Since the index is built using a 0-index, the position of this character
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* will equal the number of spaces preceding the character.
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*
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* @param `text` The line of text.
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* @return The number of leading spaces of `text` with respect to the index position of the first non-whitespace character.
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*/
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static getLeadingSpacesByIndex(textLine) {
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const indexNum = textLine.firstNonWhitespaceCharacterIndex;
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return indexNum;
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}
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/**
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* Restart lexer with new text.
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*
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* @param `text` The new text to lex.
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*/
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restart(text?: string): void {
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restart(text) {
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this.pos = 0;
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this._currToken = EOFTOKEN; // if no input, already on EOFTOKEN
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this._currToken = token_1.EOFTOKEN; // if no input, already on EOFTOKEN
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if (text) {
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this.textLines = text.split('\n');
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this.next(); // advance to the first token
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}
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}
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/**
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* @return the current {@link LineToken}.
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*/
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currToken(): LineToken { return this._currToken; }
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currToken() { return this._currToken; }
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/**
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* Advance the position in the token stream.
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*
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* @return The new current token, after advancing
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*/
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next(): LineToken {
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if (this._currToken === EOFTOKEN && this.pos > this.textLines.length) {
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next() {
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if (this._currToken === token_1.EOFTOKEN && this.pos > this.textLines.length) {
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throw new Error('Cannot advance past end');
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}
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// Until a LineToken is found, or EOF
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while (this.pos < this.textLines.length) {
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let line: string = this.textLines[this.pos];
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let indent: number = Lexer.getIndent(line, this.tabFmt!);
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let token: LineToken;
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let line = this.textLines[this.pos];
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let indent = Lexer.getIndent(line, this.tabFmt);
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let token;
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for (var r of rules) {
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// Does line match pattern?
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let match: RegExpMatchArray | null = line.match(r.pattern);
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let match = line.match(r.pattern);
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if (match) {
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// Yes...
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if (match.groups) {
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token = new LineToken(r.type, this.pos, indent, match.groups["attr"]);
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} else {
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token = new LineToken(r.type, this.pos, indent);
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token = new _1.LineToken(r.type, this.pos, indent, match.groups["attr"]);
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}
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else {
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token = new _1.LineToken(r.type, this.pos, indent);
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}
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this._currToken = token;
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this.pos++;
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return this.currToken();
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}
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}
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// No rules matched
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// TODO: move to rules
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if (/^\s*(#.*)?$/.test(line)) {
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// "empty" line
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token = new LineToken(Symbol.EMPTY, this.pos, 999999);
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} else {
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// This is an INDENT token
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token = new LineToken(Symbol.INDENT, this.pos, indent);
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token = new _1.LineToken(token_1.Symbol.EMPTY, this.pos, 999999);
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}
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else {
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// This is an INDENT token
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token = new _1.LineToken(token_1.Symbol.INDENT, this.pos, indent);
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}
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this._currToken = token;
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this.pos++;
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return this.currToken();
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}
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// Didn't return, must be EOF
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this._currToken = EOFTOKEN;
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this._currToken = token_1.EOFTOKEN;
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this.pos++;
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return this.currToken();
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}
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/**
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* Move backwards in the token stream
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*
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* @param `n` The number of positions to retract.
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* @return The new current token after retracting.
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*/
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retract(n: number = 1): LineToken {
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retract(n = 1) {
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if (this.pos - 1 - n < 0) {
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// -1 because this.pos is currently on the next token
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throw new RangeError('Cannot retract past start');
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}
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if (n <= 0) {
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throw new RangeError('Retract distance must be positive');
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}
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if (this.pos - n === 0) {
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// just restart
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this.pos = 0;
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return this.next();
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}
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let c = n + 1;
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while (c > 0) {
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this.pos--;
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@ -213,3 +219,5 @@ export default class Lexer {
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return this.next();
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}
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}
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exports.default = Lexer;
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//# sourceMappingURL=lexer.js.map
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