feat(lexer): initial (wip) implementation.
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parent
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import {List, ListWrapper, SetWrapper} from "facade/collection";
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import {FIELD, NumberWrapper, StringJoiner, StringWrapper} from "facade/lang";
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// TODO(chirayu): Rewrite as consts when possible.
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export var TOKEN_TYPE_CHARACTER = 1;
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export var TOKEN_TYPE_IDENTIFIER = 2;
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export var TOKEN_TYPE_KEYWORD = 3;
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export var TOKEN_TYPE_STRING = 4;
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export var TOKEN_TYPE_OPERATOR = 5;
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export var TOKEN_TYPE_NUMBER = 6;
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export class Token {
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@FIELD('final index:int')
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@FIELD('final type:int')
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@FIELD('final _intValue:int')
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@FIELD('final _strValue:int')
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constructor(index:number/*int*/, type:number/*int*/, intValue:number/*int*/, strValue:string) {
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/**
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* NOTE: To ensure that this constructor creates the same hidden class each time, ensure that
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* all the fields are assigned to in the exact same order in each run of this constructor.
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*/
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this.index = index;
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this.type = type;
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this._intValue = intValue;
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this._strValue = strValue;
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}
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isCharacter(code:number/*int*/):boolean {
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return (this.type == TOKEN_TYPE_CHARACTER && this._intValue == code);
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}
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isNumber():boolean {
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return (this.type == TOKEN_TYPE_NUMBER);
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}
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isString():boolean {
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return (this.type == TOKEN_TYPE_STRING);
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}
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isOperator(operater:string):boolean {
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return (this.type == TOKEN_TYPE_OPERATOR && this._strValue == operater);
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}
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isIdentifier():boolean {
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return (this.type == TOKEN_TYPE_IDENTIFIER);
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}
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isKeyword():boolean {
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return (this.type == TOKEN_TYPE_KEYWORD);
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}
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isKeywordNull():boolean {
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return (this.type == TOKEN_TYPE_KEYWORD && this._strValue == "null");
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}
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isKeywordUndefined():boolean {
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return (this.type == TOKEN_TYPE_KEYWORD && this._strValue == "undefined");
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}
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isKeywordTrue():boolean {
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return (this.type == TOKEN_TYPE_KEYWORD && this._strValue == "true");
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}
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isKeywordFalse():boolean {
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return (this.type == TOKEN_TYPE_KEYWORD && this._strValue == "false");
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}
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toNumber():number/*int*/ {
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// -1 instead of NULL ok?
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return (this.type == TOKEN_TYPE_NUMBER) ? this._intValue : -1;
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}
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toString():string {
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var type:number/*int*/ = this.type;
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if (type >= TOKEN_TYPE_CHARACTER && type <= TOKEN_TYPE_STRING) {
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return this._strValue;
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} else if (type == TOKEN_TYPE_NUMBER) {
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return this._intValue.toString();
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} else {
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return null;
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}
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}
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}
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function newCharacterToken(index:number/*int*/, code:number/*int*/):Token {
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return new Token(index, TOKEN_TYPE_CHARACTER, code, StringWrapper.fromCharCode(code));
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}
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function newIdentifierToken(index:number/*int*/, text:string):Token {
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return new Token(index, TOKEN_TYPE_IDENTIFIER, 0, text);
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}
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function newKeywordToken(index:number/*int*/, text:string):Token {
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return new Token(index, TOKEN_TYPE_KEYWORD, 0, text);
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}
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function newOperatorToken(index:number/*int*/, text:string):Token {
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return new Token(index, TOKEN_TYPE_OPERATOR, 0, text);
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}
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function newStringToken(index:number/*int*/, text:string):Token {
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return new Token(index, TOKEN_TYPE_STRING, 0, text);
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}
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function newNumberToken(index:number/*int*/, n:number/*int*/):Token {
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return new Token(index, TOKEN_TYPE_NUMBER, n, "");
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}
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var EOF:Token = new Token(-1, 0, 0, "");
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// TODO(chirayu): Rewrite as consts when possible.
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var $EOF = 0;
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var $TAB = 9;
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var $LF = 10;
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var $VTAB = 11;
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var $FF = 12;
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var $CR = 13;
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var $SPACE = 32;
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var $BANG = 33;
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var $DQ = 34;
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var $$ = 36;
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var $PERCENT = 37;
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var $AMPERSAND = 38;
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var $SQ = 39;
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var $LPAREN = 40;
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var $RPAREN = 41;
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var $STAR = 42;
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var $PLUS = 43;
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var $COMMA = 44;
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var $MINUS = 45;
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var $PERIOD = 46;
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var $SLASH = 47;
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var $COLON = 58;
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var $SEMICOLON = 59;
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var $LT = 60;
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var $EQ = 61;
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var $GT = 62;
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var $QUESTION = 63;
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var $0 = 48;
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var $9 = 57;
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var $A = 65, $B = 66, $C = 67, $D = 68, $E = 69, $F = 70, $G = 71, $H = 72,
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$I = 73, $J = 74, $K = 75, $L = 76, $M = 77, $N = 78, $O = 79, $P = 80,
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$Q = 81, $R = 82, $S = 83, $T = 84, $U = 85, $V = 86, $W = 87, $X = 88,
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$Y = 89, $Z = 90;
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var $LBRACKET = 91;
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var $BACKSLASH = 92;
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var $RBRACKET = 93;
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var $CARET = 94;
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var $_ = 95;
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var $a = 97, $b = 98, $c = 99, $d = 100, $e = 101, $f = 102, $g = 103,
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$h = 104, $i = 105, $j = 106, $k = 107, $l = 108, $m = 109, $n = 110,
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$o = 111, $p = 112, $q = 113, $r = 114, $s = 115, $t = 116, $u = 117,
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$v = 118, $w = 119, $x = 120, $y = 121, $z = 122;
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var $LBRACE = 123;
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var $BAR = 124;
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var $RBRACE = 125;
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var $TILDE = 126;
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var $NBSP = 160;
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export class Scanner {
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@FIELD('final input:String')
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@FIELD('final length:int')
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@FIELD('peek:int')
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@FIELD('index:int')
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constructor(input:string) {
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this.input = input;
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this.length = input.length;
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this.peek = 0;
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this.index = -1;
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this.advance();
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}
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advance() {
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this.peek = ++this.index >= this.length ? $EOF : StringWrapper.charCodeAt(this.input, this.index);
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}
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scanToken():Token {
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var input = this.input,
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length = this.length,
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peek = this.peek,
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index = this.index;
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// Skip whitespace.
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while (peek <= $SPACE) {
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if (++index >= length) {
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peek = $EOF;
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break;
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} else {
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peek = StringWrapper.charCodeAt(input, index);
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}
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}
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this.peek = peek;
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this.index = index;
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if (index >= length) {
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return null;
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}
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// Handle identifiers and numbers.
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if (isIdentifierStart(peek)) return this.scanIdentifier();
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if (isDigit(peek)) return this.scanNumber(index);
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var start:number/*int*/ = index;
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switch (peek) {
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case $PERIOD:
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this.advance();
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return isDigit(peek) ? scanNumber(start) :
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newCharacterToken(start, $PERIOD);
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case $LPAREN: case $RPAREN:
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case $LBRACE: case $RBRACE:
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case $LBRACKET: case $RBRACKET:
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case $COMMA:
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case $COLON:
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case $SEMICOLON:
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return this.scanCharacter(start, peek);
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case $SQ:
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case $DQ:
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return this.scanString();
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case $PLUS:
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case $MINUS:
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case $STAR:
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case $SLASH:
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case $PERCENT:
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case $CARET:
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case $QUESTION:
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return this.scanOperator(start, StringWrapper.fromCharCode(peek));
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case $LT:
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case $GT:
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case $BANG:
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case $EQ:
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return this.scanComplexOperator(start, $EQ, StringWrapper.fromCharCode(peek), '=');
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case $AMPERSAND:
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return this.scanComplexOperator(start, $AMPERSAND, '&', '&');
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case $BAR:
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return this.scanComplexOperator(start, $BAR, '|', '|');
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case $TILDE:
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return this.scanComplexOperator(start, $SLASH, '~', '/');
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case $NBSP:
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while (isWhitespace(this.peek)) this.advance();
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return this.scanToken();
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}
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this.error('Unexpected character [$' + StringWrapper.fromCharCode(peek) + ']');
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return null;
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}
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scanCharacter(start:number/*int*/, code:number/*int*/):Token {
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assert(this.peek == code);
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this.advance();
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return newCharacterToken(start, code);
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}
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scanOperator(start:number/*int*/, str:string):Token {
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assert(this.peek == StringWrapper.charCodeAt(str, 0));
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assert(SetWrapper.has(OPERATORS, str));
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this.advance();
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return newOperatorToken(start, str);
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}
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scanComplexOperator(start:number/*int*/, code:number/*int*/, one:string, two:string):Token {
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assert(this.peek == StringWrapper.charCodeAt(one, 0));
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this.advance();
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var str:string = one;
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if (this.peek == code) {
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this.advance();
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str += two;
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}
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assert(SetWrapper.has(OPERATORS, str));
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return newOperatorToken(start, str);
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}
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scanIdentifier():Token {
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assert(isIdentifierStart(this.peek));
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var start:number/*int*/ = this.index;
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this.advance();
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while (isIdentifierPart(this.peek)) this.advance();
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var str:string = this.input.substring(start, this.index);
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if (SetWrapper.has(KEYWORDS, str)) {
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return newKeywordToken(start, str);
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} else {
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return newIdentifierToken(start, str);
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}
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}
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scanNumber(start:number/*int*/):Token {
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assert(isDigit(this.peek));
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var simple:boolean = (this.index === start);
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this.advance(); // Skip initial digit.
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while (true) {
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if (isDigit(this.peek)) {
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// Do nothing.
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} else if (this.peek == $PERIOD) {
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simple = false;
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} else if (isExponentStart(this.peek)) {
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this.advance();
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if (isExponentSign(this.peek)) this.advance();
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if (!isDigit(this.peek)) this.error('Invalid exponent');
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simple = false;
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} else {
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break;
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}
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this.advance();
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}
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var str:string = this.input.substring(start, this.index);
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// TODO
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var value:number = simple ? NumberWrapper.parseIntAutoRadix(str) : NumberWrapper.parseDouble(str);
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return newNumberToken(start, value);
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}
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scanString():Token {
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assert(this.peek == $SQ || this.peek == $DQ);
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var start:number/*int*/ = this.index;
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var quote:number/*int*/ = this.peek;
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this.advance(); // Skip initial quote.
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var buffer:StringJoiner; //ckck
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var marker:number/*int*/ = this.index;
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var input:string = this.input;
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while (this.peek != quote) {
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if (this.peek == $BACKSLASH) {
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if (buffer == null) buffer = new StringJoiner();
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buffer.add(input.substring(marker, this.index));
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this.advance();
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var unescapedCode:number/*int*/;
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if (this.peek == $u) {
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// 4 character hex code for unicode character.
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var hex:string = input.substring(this.index + 1, this.index + 5);
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unescapedCode = NumberWrapper.parseInt(hex, 16);
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for (var i:number/*int*/ = 0; i < 5; i++) {
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this.advance();
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}
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} else {
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unescapedCode = unescape(this.peek);
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this.advance();
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}
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buffer.add(StringWrapper.fromCharCode(unescapedCode));
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marker = this.index;
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} else if (this.peek == $EOF) {
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this.error('Unterminated quote');
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} else {
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this.advance();
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}
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}
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var last:string = input.substring(marker, this.index);
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this.advance(); // Skip terminating quote.
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var str:string = input.substring(start, this.index);
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// Compute the unescaped string value.
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var unescaped:string = last;
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if (buffer != null) {
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buffer.add(last);
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unescaped = buffer.toString();
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}
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return newStringToken(start, unescaped);
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}
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error(message:string) {
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var position:number/*int*/ = this.index + this.offset;
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throw `Lexer Error: ${message} at column ${position} in expression [${input}]`;
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}
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}
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function isWhitespace(code:number/*int*/):boolean {
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return (code >= $TAB && code <= $SPACE) || (code == $NBSP);
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}
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function isIdentifierStart(code:number/*int*/):boolean {
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return ($a <= code && code <= $z) ||
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($A <= code && code <= $Z) ||
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(code == $_) ||
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(code == $$);
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}
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function isIdentifierPart(code:number/*int*/):boolean {
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return ($a <= code && code <= $z) ||
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($A <= code && code <= $Z) ||
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($0 <= code && code <= $9) ||
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(code == $_) ||
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(code == $$);
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}
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function isDigit(code:number/*int*/):boolean {
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return $0 <= code && code <= $9;
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}
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function isExponentStart(code:number/*int*/):boolean {
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return code == $e || code == $E;
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}
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function isExponentSign(code:number/*int*/):boolean {
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return code == $MINUS || code == $PLUS;
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}
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function unescape(code:number/*int*/):number/*int*/ {
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switch(code) {
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case $n: return $LF;
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case $f: return $FF;
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case $r: return $CR;
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case $t: return $TAB;
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case $v: return $VTAB;
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default: return code;
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}
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}
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var OPERATORS = SetWrapper.createFromList([
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'+',
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'-',
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'*',
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'/',
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'~/',
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'%',
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'^',
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'=',
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'==',
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'!=',
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'<',
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'>',
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'<=',
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'>=',
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'&&',
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'||',
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'&',
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'|',
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'!',
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'?'
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]);
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var KEYWORDS = SetWrapper.createFromList([
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'null',
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'undefined',
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'true',
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'false',
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]);
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export function Lexer(text:string):List {
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var scanner:Scanner = new Scanner(text);
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var tokens:List<Token> = [];
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var token:Token = scanner.scanToken();
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while (token != null) {
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ListWrapper.push(tokens, token);
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token = scanner.scanToken();
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}
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return tokens;
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}
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@ -0,0 +1,2 @@
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export class Parser {
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}
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@ -0,0 +1,98 @@
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import {describe, it, expect} from 'test_lib/test_lib';
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import {Lexer, Scanner, Token} from 'change_detection/parser/lexer';
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import {DOM} from 'facade/dom';
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import {List, ListWrapper} from "facade/collection";
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import {StringWrapper} from "facade/lang";
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function expectToken(token, index) {
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expect(token instanceof Token).toBe(true);
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expect(token.index).toEqual(index);
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}
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function expectCharacterToken(token, index, character) {
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expect(character.length).toBe(1);
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expectToken(token, index);
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expect(token.isCharacter(StringWrapper.charCodeAt(character, 0))).toBe(true);
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}
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function expectOperatorToken(token, index, operator) {
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expectToken(token, index);
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expect(token.isOperator(operator)).toBe(true);
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}
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function expectNumberToken(token, index, n) {
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expectToken(token, index);
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expect(token.isNumber()).toBe(true);
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expect(token.toNumber()).toBe(n);
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}
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function expectStringToken(token, index, str) {
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expectToken(token, index);
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expect(token.isString()).toBe(true);
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expect(token.toString()).toBe(str);
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||||
}
|
||||
|
||||
function expectIdentifierToken(token, index, identifier) {
|
||||
expectToken(token, index);
|
||||
expect(token.isIdentifier()).toBe(true);
|
||||
expect(token.toString()).toEqual(identifier);
|
||||
}
|
||||
|
||||
function expectKeywordToken(token, index, keyword) {
|
||||
expectToken(token, index);
|
||||
expect(token.isKeyword()).toBe(true);
|
||||
expect(token.toString()).toEqual(keyword);
|
||||
}
|
||||
|
||||
|
||||
export function main() {
|
||||
describe('lexer', function() {
|
||||
describe('token', function() {
|
||||
it('should tokenize a simple identifier', function() {
|
||||
var tokens:List<int> = Lexer("j");
|
||||
expect(tokens.length).toEqual(1);
|
||||
expectIdentifierToken(tokens[0], 0, 'j');
|
||||
});
|
||||
|
||||
it('should tokenize a dotted identifier', function() {
|
||||
var tokens:List<int> = Lexer("j.k");
|
||||
expect(tokens.length).toEqual(3);
|
||||
expectIdentifierToken(tokens[0], 0, 'j');
|
||||
expectCharacterToken (tokens[1], 1, '.');
|
||||
expectIdentifierToken(tokens[2], 2, 'k');
|
||||
});
|
||||
|
||||
it('should tokenize an operator', function() {
|
||||
var tokens:List<int> = Lexer("j-k");
|
||||
expect(tokens.length).toEqual(3);
|
||||
expectOperatorToken(tokens[1], 1, '-');
|
||||
});
|
||||
|
||||
it('should tokenize an indexed operator', function() {
|
||||
var tokens:List<int> = Lexer("j[k]");
|
||||
expect(tokens.length).toEqual(4);
|
||||
expectCharacterToken(tokens[1], 1, "[");
|
||||
expectCharacterToken(tokens[3], 3, "]");
|
||||
});
|
||||
|
||||
it('should tokenize numbers', function() {
|
||||
var tokens:List<int> = Lexer("88");
|
||||
expect(tokens.length).toEqual(1);
|
||||
expectNumberToken(tokens[0], 0, 88);
|
||||
});
|
||||
|
||||
it('should tokenize numbers within index ops', function() {
|
||||
expectNumberToken(Lexer("a[22]")[2], 2, 22);
|
||||
});
|
||||
|
||||
it('should tokenize simple quoted strings', function() {
|
||||
expectStringToken(Lexer('"a"')[0], 0, "a");
|
||||
});
|
||||
|
||||
it('should tokenize quoted strings with escaped quotes', function() {
|
||||
expectStringToken(Lexer('"a\\""')[0], 0, 'a"');
|
||||
});
|
||||
|
||||
});
|
||||
});
|
||||
}
|
|
@ -17,4 +17,10 @@ class ListWrapper {
|
|||
static get(m, k) => m[k];
|
||||
static void set(m, k, v) { m[k] = v; }
|
||||
static contains(m, k) => m.containsKey(k);
|
||||
static void push(List l, e) { l.add(e); }
|
||||
}
|
||||
|
||||
class SetWrapper {
|
||||
static Set createFromList(List l) { return new Set.from(l); }
|
||||
static bool has(Set s, key) { return s.contains(key); }
|
||||
}
|
||||
|
|
|
@ -15,4 +15,10 @@ export class ListWrapper {
|
|||
static clone(array) {
|
||||
return Array.prototype.slice.call(array, 0);
|
||||
}
|
||||
static push(l, e) { l.push(e); }
|
||||
}
|
||||
|
||||
export class SetWrapper {
|
||||
static createFromList(lst:List) { return new Set(lst); }
|
||||
static has(s:Set, key):boolean { return s.has(key); }
|
||||
}
|
||||
|
|
|
@ -9,4 +9,40 @@ class FIELD {
|
|||
|
||||
class CONST {}
|
||||
class ABSTRACT {}
|
||||
class IMPLEMENTS {}
|
||||
class IMPLEMENTS {}
|
||||
|
||||
|
||||
class StringWrapper {
|
||||
static String fromCharCode(int code) {
|
||||
return new String.fromCharCode(code);
|
||||
}
|
||||
|
||||
static charCodeAt(String s, int index) {
|
||||
return s.codeUnitAt(index);
|
||||
}
|
||||
}
|
||||
|
||||
class StringJoiner {
|
||||
List<String> _parts = <String>[];
|
||||
|
||||
void add(String part) {
|
||||
_parts.add(part);
|
||||
}
|
||||
|
||||
String toString() => _parts.join("");
|
||||
}
|
||||
|
||||
|
||||
class NumberWrapper {
|
||||
static int parseIntAutoRadix(String text) {
|
||||
return int.parse(text);
|
||||
}
|
||||
|
||||
static int parseInt(String text, int radix) {
|
||||
return int.parse(text, radix: radix);
|
||||
}
|
||||
|
||||
static double parseFloat(String text) {
|
||||
return double.parse(text);
|
||||
}
|
||||
}
|
||||
|
|
|
@ -9,4 +9,52 @@ export class FIELD {
|
|||
|
||||
export class CONST {}
|
||||
export class ABSTRACT {}
|
||||
export class IMPLEMENTS {}
|
||||
export class IMPLEMENTS {}
|
||||
|
||||
|
||||
export class StringWrapper {
|
||||
static fromCharCode(code:number/*int*/) {
|
||||
return String.fromCharCode(code);
|
||||
}
|
||||
|
||||
static charCodeAt(s:string, index:number/*int*/) {
|
||||
return s.charCodeAt(index);
|
||||
}
|
||||
}
|
||||
|
||||
export class StringJoiner {
|
||||
constructor() {
|
||||
this.parts = [];
|
||||
}
|
||||
|
||||
add(part:string) {
|
||||
this.parts.push(part);
|
||||
}
|
||||
|
||||
toString():string {
|
||||
return this.parts.join("");
|
||||
}
|
||||
}
|
||||
|
||||
export class NumberWrapper {
|
||||
static parseIntAutoRadix(text:string):number/*int*/ {
|
||||
var result:number/*int*/ = parseInt(text);
|
||||
if (isNaN(result)) {
|
||||
throw new Error("Invalid integer literal when parsing " + text);
|
||||
}
|
||||
return result;
|
||||
}
|
||||
|
||||
static parseInt(text:string, radix:number/*int*/):number/*int*/ {
|
||||
var result:number/*int*/ = parseInt(text, radix);
|
||||
if (isNaN(result)) {
|
||||
throw new Error("Invalid integer literal when parsing " + text + " in base " + radix);
|
||||
}
|
||||
return result;
|
||||
}
|
||||
|
||||
// TODO: NaN is a valid literal but is returned by parseFloat to indicate an error.
|
||||
static parseFloat(text:string):number/*int*/ {
|
||||
return parseFloat(text);
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue