"use strict";
+var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) {
+ if (k2 === undefined) k2 = k;
+ var desc = Object.getOwnPropertyDescriptor(m, k);
+ if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
+ desc = { enumerable: true, get: function() { return m[k]; } };
+ }
+ Object.defineProperty(o, k2, desc);
+}) : (function(o, m, k, k2) {
+ if (k2 === undefined) k2 = k;
+ o[k2] = m[k];
+}));
+var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) {
+ Object.defineProperty(o, "default", { enumerable: true, value: v });
+}) : function(o, v) {
+ o["default"] = v;
+});
+var __importStar = (this && this.__importStar) || function (mod) {
+ if (mod && mod.__esModule) return mod;
+ var result = {};
+ if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
+ __setModuleDefault(result, mod);
+ return result;
+};
Object.defineProperty(exports, "__esModule", { value: true });
-exports.tokenize = exports.zeroOrOnceDo = exports.notDo = exports.zeroOrMoreDo = exports.orDo = exports.thenDo = exports.charToCodepoint = exports.matchRange = exports.matchAny = exports.match1Char = exports.TokenType = void 0;
+exports.OnceOrMoreDo = exports.matchAny = exports.m1TType = exports.tkTreeToSExp = void 0;
var fs = require('fs');
+const node_process_1 = require("node:process");
+const tk = __importStar(require("./tokenize.js"));
+const util = __importStar(require("util"));
/**
- * wrap a x in a `Some(T)`
- * @param x : variable to be wrapped.
- * @returns wrapped `x`.
+ * debug reprensenting
*/
-function toSome(x) {
- return { _tag: "Some", value: x };
-}
+let repr = (x) => { return util.inspect(x, { depth: null }); };
/**
- * The types of Token
- * NL, // newline
- *
- * SP, // half-width space and tab
- *
- * ID, // identifier
- *
- * STR, // string
- *
- * OP, // operator or something like it
- *
- * FLO, // float num
- *
- * INT, // integer
- *
- * I_* // integer manipulation
- *
- * F_* // float manipulation
- *
- * SEMI_C// semi-colon
- */
-var TokenType;
-(function (TokenType) {
- TokenType[TokenType["NL"] = 0] = "NL";
- TokenType[TokenType["SP"] = 1] = "SP";
- TokenType[TokenType["ID"] = 2] = "ID";
- TokenType[TokenType["STR"] = 3] = "STR";
- TokenType[TokenType["FLO"] = 4] = "FLO";
- TokenType[TokenType["INT"] = 5] = "INT";
- TokenType[TokenType["F_ADD"] = 6] = "F_ADD";
- TokenType[TokenType["F_SUB"] = 7] = "F_SUB";
- TokenType[TokenType["F_MUL"] = 8] = "F_MUL";
- TokenType[TokenType["F_DIV"] = 9] = "F_DIV";
- TokenType[TokenType["I_ADD"] = 10] = "I_ADD";
- TokenType[TokenType["I_SUB"] = 11] = "I_SUB";
- TokenType[TokenType["I_MUL"] = 12] = "I_MUL";
- TokenType[TokenType["I_DIV"] = 13] = "I_DIV";
- TokenType[TokenType["L_PAREN"] = 14] = "L_PAREN";
- TokenType[TokenType["R_PAREN"] = 15] = "R_PAREN";
- TokenType[TokenType["L_BRACK"] = 16] = "L_BRACK";
- TokenType[TokenType["R_BRACK"] = 17] = "R_BRACK";
- TokenType[TokenType["L_BRACE"] = 18] = "L_BRACE";
- TokenType[TokenType["R_BRACE"] = 19] = "R_BRACE";
- TokenType[TokenType["COMMA"] = 20] = "COMMA";
- TokenType[TokenType["DOT"] = 21] = "DOT";
- TokenType[TokenType["COLON"] = 22] = "COLON";
- TokenType[TokenType["SEMI_C"] = 23] = "SEMI_C";
- TokenType[TokenType["AT"] = 24] = "AT";
- TokenType[TokenType["HASH"] = 25] = "HASH";
- TokenType[TokenType["EQ"] = 26] = "EQ";
- TokenType[TokenType["SET"] = 27] = "SET";
- TokenType[TokenType["GT"] = 28] = "GT";
- TokenType[TokenType["LT"] = 29] = "LT";
- TokenType[TokenType["GE"] = 30] = "GE";
- TokenType[TokenType["LE"] = 31] = "LE";
- TokenType[TokenType["R_ARROW"] = 32] = "R_ARROW";
-})(TokenType || (exports.TokenType = TokenType = {}));
-/**
- * @description
- * it returns a function which test if the first char of the `remained` part of
- * the argument of the function is `c`, if it's true, update the `MatchedPair` wrapped
- * in `Some`. Otherwise, it returns `None`.
- * * @param c : the char to be test.
- * @returns the updated `MatchedPair` wrapped in `Some(x)` or `None`.
+ * concated 2 `tkTree`s
+ * @param x the array to be concated
+ * @param y the item or array to ve concated
+ * @returns concated tkTree array, or thrown error if can't be concated.
*/
-function match1Char(c) {
- return (m) => {
- if (m.remained.length == 0) {
- return { _tag: "None" };
- }
- const charToBeMatched = m.remained[0];
- if (charToBeMatched === c) {
- return { _tag: "Some", value: {
- matched: m.matched + charToBeMatched,
- remained: m.remained.substring(1)
- } };
- }
- else {
- return { _tag: "None" };
- }
- };
+function concat(x, y) {
+ if (Array.isArray(x)) {
+ return x.concat(y);
+ }
+ else {
+ throw new Error("the tkTree can't be concated, because it's not an array.");
+ }
+}
+function slice(x, index, end) {
+ if (Array.isArray(x)) {
+ return x.slice(index, end);
+ }
+ else {
+ throw new Error("the tkTree can't be concated, because it's not an array.");
+ }
}
-exports.match1Char = match1Char;
-;
/**
- *
- * @param m : the `MatcheePair` to be consumed.
- * @returns if the length of `m.remained` >= 1; consumes the matchee by 1 char and wraps it in `Some`,
- * otherwise, returns `None`.
+ * convert a `tkTree` AST to S-expr string
+ * @param t the `tkTree`
+ * @returns S-expr String
*/
-function matchAny(m) {
- if (m.remained.length >= 1) {
- return { _tag: "Some", value: {
- matched: m.matched + m.remained[0],
- remained: m.remained.substring(1)
- } };
+function tkTreeToSExp(t) {
+ var str = "";
+ if (Array.isArray(t)) {
+ let strArray = t.map((x) => tkTreeToSExp(x));
+ str = "(" + strArray.join(" ") + ")";
}
else {
- return { _tag: "None" };
+ if (t === undefined) {
+ str = "%undefined";
+ }
+ else {
+ str = t.text;
+ }
}
+ return str;
}
-exports.matchAny = matchAny;
+exports.tkTreeToSExp = tkTreeToSExp;
/**
* @description
- * it returns a function which test if the first char of the `remained` part of
- * the argument of the function is between `l` and `u`, if it's true, update the `MatchedPair` wrapped
+ * match one token type.
+ *
+ * it returns a function which test if the type of first token of the `remained` part of
+ * the argument of the function is `typ` , if it's true, update the `TokenMatcheePair` wrapped
* in `Some`. Otherwise, it returns `None`.
- * * @param l : lower bound char, 1-char string
- * * @param u : upper bound char, 1-char string
- * @returns the updated `MatchedPair` wrapped in `Some(x)` or `None`.
+ * * @param typ : the type to be test.
+ * @returns the updated `TokenMatcheePair` wrapped in `Some(x)` or `None`.
*/
-function matchRange(l, u) {
- let lCodepoint = charToCodepoint(l);
- let uCodepoint = charToCodepoint(u);
- if (l > u) {
- throw new Error("Error: the codepoint of `" + l + "` is not smaller than `" + u + "`)");
- }
+function m1TType(typ) {
return (m) => {
- if (m.remained.length < 1) {
+ if (m.remained.length == 0) {
return { _tag: "None" };
}
- const charToBeMatched = m.remained[0];
- const codePointToBeMatched = charToCodepoint(charToBeMatched);
- if (codePointToBeMatched >= lCodepoint && codePointToBeMatched <= uCodepoint) {
- return { _tag: "Some", value: {
- matched: m.matched + charToBeMatched,
- remained: m.remained.substring(1)
- } };
+ /**
+ * token to be matched
+ * */
+ const ttbm = m.remained[0];
+ if (ttbm.type == typ) {
+ let new_matched = m.matched.concat(ttbm);
+ let result = {
+ _tag: "Some", value: {
+ matched: new_matched,
+ remained: m.remained.slice(1),
+ ast: ([ttbm]),
+ }
+ };
+ return result;
}
else {
return { _tag: "None" };
}
};
}
-exports.matchRange = matchRange;
+exports.m1TType = m1TType;
;
/**
- * convert the one-char string to codepoint.
- * @param s : the string to code point.
- * @returns if `s.length > 1` return error; otherwise, return the codepoint of `s`.
+ * type int
*/
-function charToCodepoint(s) {
- if (s.length > 1) {
- throw new Error("Error: the length of input string for " + s + "is " + s.length + `,
- however, it should be 1.`);
- }
- else {
- return s.charCodeAt(0);
- }
-}
-exports.charToCodepoint = charToCodepoint;
+let tInt = m1TType(tk.TokenType.INT);
+let tId = m1TType(tk.TokenType.ID);
+let tAdd = m1TType(tk.TokenType.I_ADD);
+let tSub = m1TType(tk.TokenType.I_SUB);
+let tMul = m1TType(tk.TokenType.I_MUL);
+let tDiv = m1TType(tk.TokenType.I_DIV);
+let tLParen = m1TType(tk.TokenType.L_PAREN);
+let tRParen = m1TType(tk.TokenType.R_PAREN);
+let toSome = tk.toSome;
+node_process_1.argv.forEach((val, index) => {
+ console.log(`${index}=${val}`);
+});
/**
- * @description thendo(input, f, ...) like
- * a ==> f
- * @param input: the wrapped input.
- * @param f: the function to be applied.
- *
- * @returns:the applied wrapped result `MatcheePair`.
+ * like `m ==> f` in ocaml
+ * @param m matchee wrapped
+ * @param f matching function
+ * @returns wrapped result
*/
-function thenDo(input, f) {
- if (input._tag == "None") {
- return input;
+function thenDo(m, f) {
+ if (m._tag == "None") {
+ return m;
}
else {
- let inner = input.value;
- return f(inner);
+ var a = f(m.value);
+ if (a._tag == "Some") {
+ a.value.ast = concat(m.value.ast, a.value.ast);
+ }
+ return a;
}
}
-exports.thenDo = thenDo;
/**
- * @description "or", like the regex `( f1 | f2 )` .
- * It returns a function `f` of which the argument is`x`.
- * if `f1(x)` is None, then `f` returns `f2(x)`. Otherwise,
- * `F` returns `f1(x)`.
- * @param f1 : 1st function to be compared
- * @param f2 : 2nd function to be compared
- * @returns:the combined function
+ * like `f1 | f2` in regex
+ * @param f1 the first tried function
+ * @param f2 the second tried function
+ * @returns wrapped result
*/
function orDo(f1, f2) {
return (x) => {
- let f1x = (f1(x));
- {
- if (f1x._tag == "None") {
- return f2(x);
- }
- else {
- return f1x;
- }
+ let res1 = f1(x);
+ if (res1._tag == "Some") {
+ return res1;
+ }
+ else {
+ let res2 = f2(x);
+ return res2;
}
};
}
-exports.orDo = orDo;
/**
+ *
+ * @param m : the `MatcheePair` to be consumed.
+ * @returns if the length of `m.remained` >= 1; consumes the matchee by 1 token
+ * and wraps it in `Some`,
+ * otherwise, returns `None`.
+ */
+function matchAny(m) {
+ if (m.remained.length >= 1) {
+ return {
+ _tag: "Some", value: {
+ matched: m.matched.concat(m.remained[0]),
+ remained: m.remained.slice(1),
+ ast: [m.remained[0]],
+ }
+ };
+ }
+ else {
+ return { _tag: "None" };
+ }
+}
+exports.matchAny = matchAny;
+/**
+ * Danger : Maybe it's not enough to work.
* @description repeating matching function `f`
* zero or more times, like the asterisk `*` in regex `f*` .
* @param f : the function to be repeated 0+ times.
* @returns:the combined function
*/
-function zeroOrMoreDo(f) {
+function OnceOrMoreDo(f) {
return (x) => {
- var wrapped_old_x = { _tag: "Some", value: x };
- var wrapped_new_x = wrapped_old_x;
- while (wrapped_new_x._tag != "None") {
- wrapped_old_x = wrapped_new_x;
- wrapped_new_x = thenDo(wrapped_old_x, f);
+ var wrappedOldX = { _tag: "Some", value: x };
+ var wrappedNewX = wrappedOldX;
+ var counter = -1;
+ while (wrappedNewX._tag != "None") {
+ wrappedOldX = wrappedNewX;
+ wrappedNewX = thenDo(wrappedOldX, f);
+ counter += 1;
}
;
- return wrapped_old_x;
- };
-}
-exports.zeroOrMoreDo = zeroOrMoreDo;
-/**
-* @description Not. like the `^` inside regex of [^f].
-* returns a function `F(x)` such that if `f(x)` is `None`,
-* returns the x consuming a char; if `f(x)` is not None, F(x)
-* returns `None`.
-* @param f: the function forbidden to be matched.
-* @returns: combined function `F`.
-*/
-function notDo(f) {
- return (x) => {
- let wrapped_x = {
- _tag: "Some",
- value: x
- };
- let f_x = thenDo(wrapped_x, f);
- if (f_x._tag != "None") {
+ if (counter <= 0) {
return { _tag: "None" };
}
- else {
- return thenDo(wrapped_x, matchAny);
- }
+ let ast = wrappedOldX.value.ast;
+ wrappedOldX.value.ast = ast.slice(ast.length - counter);
+ console.log(repr(wrappedOldX.value.ast));
+ return wrappedOldX;
};
}
-exports.notDo = notDo;
+exports.OnceOrMoreDo = OnceOrMoreDo;
/**
- * if `x` is matched by `f` once, returns `f(x)`. Otherwise,
- * returns x
- * similar to `?` in regex `f?`.
- * @param f : the function to be matched
- * @returns return wrapped f(x)
+ * aux function for midfix operator
+ * @param f function
+ * @param signal the rule name
+ * @returns
*/
-function zeroOrOnceDo(f) {
- return (x) => {
- var wrapped_old_x = { _tag: "Some", value: x };
- var wrapped_new_x = thenDo(wrapped_old_x, f);
- if (wrapped_new_x._tag != "None") {
- return wrapped_new_x;
- }
- else {
- return wrapped_old_x;
- }
- };
-}
-exports.zeroOrOnceDo = zeroOrOnceDo;
-function tokenize(input) {
- var input_matchee_pair = toSome({ matched: "",
- remained: input });
- /**
- * generate a parser of a basic term (b_term)
- * @param pattern : the pattern parser
- * @param token_type : the returning token type
- * @returns a wrapped parser.
- */
- function bTerm(pattern, token_type) {
- return (x) => {
- let wrapped_x = toSome(x);
- let result = pattern(wrapped_x);
- if (result._tag == "Some") {
- result.value.matched_type = token_type;
- }
- return result;
- };
+let midfix = (f, signal) => (x) => {
+ var a = f(x);
+ if (a._tag == "Some") {
+ let ast_tail = slice(a.value.ast, a.value.ast.length - 3);
+ let new_ast = [ast_tail];
+ a.value.ast = new_ast;
+ // console.log("+"+signal+"+"+repr(a));
}
- let d = matchRange('0', '9'); // \d
- // [+-]
- let plusMinus = orDo(match1Char('+'), match1Char('-'));
- let s_aux = orDo(match1Char(' '), match1Char('\t')); // (" " | "\t")
- // integer = ([+]|[-])?\d\d*
- let integer = bTerm((x) => thenDo(thenDo(thenDo(x, zeroOrOnceDo(plusMinus)), d), zeroOrMoreDo(d)), TokenType.INT);
- // space = [ \t]+
- let space = bTerm((x) => thenDo(thenDo(x, s_aux), zeroOrMoreDo(s_aux)), TokenType.INT);
- // newline = \r?\n
- let newline = bTerm((x) => thenDo(thenDo(x, zeroOrOnceDo(match1Char('\r'))), match1Char('\n')), TokenType.NL);
- // [_A-Za-z]
- let idHead = orDo(orDo(matchRange('a', 'z'), matchRange('A', 'Z')), match1Char('_'));
- let idRemained = orDo(idHead, matchRange('0', '9')); // [_A-Za-z0-9]
- // id = [_A-Za-z][_A-Za-z0-9]*
- let id = bTerm((x) => thenDo(thenDo(x, idHead), zeroOrMoreDo(idRemained)), TokenType.ID);
- let doublequote = match1Char("\"");
- // [\\][\"]
- let escapeReverseSlash = (x) => thenDo(thenDo(toSome(x), match1Char("\\")), doublequote);
- // ([\\]["]|[^\"])*
- let stringInnerPattern = zeroOrMoreDo(orDo(escapeReverseSlash, notDo(match1Char("\""))));
- // str = ["]([\\]["]|[^"])*["]
- let str = bTerm((x) => thenDo(thenDo(thenDo(x, doublequote), stringInnerPattern), doublequote), TokenType.STR);
- // float = [+-]?\d+[.]\d+
- function floatPattern(x) {
- return thenDo(thenDo(thenDo(thenDo(thenDo(thenDo(x, zeroOrOnceDo(plusMinus)), d), zeroOrMoreDo(d)), match1Char(".")), d), zeroOrMoreDo(d));
+ return a;
+};
+let circumfix = (f, signal) => (x) => {
+ var a = f(x);
+ if (a._tag == "Some") {
+ let inner = a.value.ast[a.value.ast.length - 2];
+ let ast_middle = [inner];
+ let new_ast = [ast_middle];
+ a.value.ast = new_ast;
}
- ;
- let float = bTerm(floatPattern, TokenType.FLO);
- // operators
- // +.
- let floatAdd = bTerm((x) => thenDo(thenDo(x, match1Char("+")), match1Char(".")), TokenType.F_ADD);
- // +.
- let floatSub = bTerm((x) => thenDo(thenDo(x, match1Char("-")), match1Char(".")), TokenType.F_SUB);
- // *.
- let floatMul = bTerm((x) => thenDo(thenDo(x, match1Char("*")), match1Char(".")), TokenType.F_MUL);
- // /.
- let floatDiv = bTerm((x) => thenDo(thenDo(x, match1Char("/")), match1Char(".")), TokenType.F_DIV);
- // ==
- let eq = bTerm((x) => thenDo(thenDo(x, match1Char("=")), match1Char("=")), TokenType.EQ);
- // >=
- let ge = bTerm((x) => thenDo(thenDo(x, match1Char(">")), match1Char("=")), TokenType.GE);
- // <=
- let le = bTerm((x) => thenDo(thenDo(x, match1Char("<")), match1Char("=")), TokenType.LE);
- // ->
- let rightArrow = bTerm((x) => thenDo(thenDo(x, match1Char("-")), match1Char(">")), TokenType.R_ARROW);
- /**
- * unary operator : generating the pattern of basic unary operator
- * @param char : uniry char for the operator
- * @param token_type : the corresponding token_type
- */
- function unaryOp(char, token_type) {
- return bTerm((x) => thenDo(x, match1Char(char)), token_type);
+ return a;
+};
+/** single1 = tInt | "(" expr ")"*/
+let single1 = circumfix((x) => thenDo(thenDo(thenDo(tk.toSome(x), tLParen), expr), tRParen), "fac1");
+let single2 = tInt;
+let single = orDo(single1, single2);
+/** func = single | single "(" single ")"
+ * i.e.
+ *
+ * func = single | func_aux ( int )
+ *
+*/
+/** callees = "(" args ")" | "(" ")" */
+let callees1 = circumfix((x) => thenDo(thenDo(thenDo(tk.toSome(x), tLParen), tInt), tRParen), "callees1");
+let callees2 = (x) => {
+ let ret = thenDo(thenDo(tk.toSome(x), tLParen), tRParen);
+ if (ret._tag == "Some") {
+ let new_ast = [[]];
+ ret.value.ast = new_ast;
+ }
+ return ret;
+};
+let callees = orDo(callees1, callees2);
+/** %apply R combinating token */
+let applyToken = {
+ text: "%apply",
+ type: tk.TokenType.ID,
+ col: 0,
+ ln: 0,
+};
+/** facAux = callees facAux | callees */
+let facAux1 = (x) => {
+ var ret = thenDo(thenDo(tk.toSome(x), callees), facAux);
+ if (ret._tag == "Some") {
+ console.log("1232345" + repr(tkTreeToSExp(ret.value.ast[ret.value.ast.length - 1])));
+ let last1 = ret.value.ast[ret.value.ast.length - 1];
+ let last2 = ret.value.ast[ret.value.ast.length - 2];
+ let b = [applyToken];
+ ret.value.ast = [b.concat([last2, last1])];
+ console.log("11111" + repr(tkTreeToSExp(ret.value.ast)));
}
;
- let intAdd = unaryOp('+', TokenType.I_ADD);
- let intSub = unaryOp('-', TokenType.I_SUB);
- let intMul = unaryOp('*', TokenType.I_MUL);
- let intDiv = unaryOp('/', TokenType.I_DIV);
- let lParen = unaryOp('(', TokenType.L_PAREN);
- let rParen = unaryOp(')', TokenType.R_PAREN);
- let lBracket = unaryOp('[', TokenType.L_BRACK);
- let rBracket = unaryOp(']', TokenType.R_BRACK);
- let lBrace = unaryOp('{', TokenType.L_BRACE);
- let rBrace = unaryOp('}', TokenType.R_BRACE);
- let comma = unaryOp(',', TokenType.COMMA);
- let dot = unaryOp('.', TokenType.DOT);
- let colon = unaryOp(':', TokenType.COLON);
- let semicolon = unaryOp(';', TokenType.SEMI_C);
- let at = unaryOp('@', TokenType.AT);
- let hash = unaryOp('#', TokenType.HASH);
- let set = unaryOp('=', TokenType.SET);
- let greaterthan = unaryOp('>', TokenType.GT);
- let lessthan = unaryOp('<', TokenType.LE);
- let term = (token_list, x) => {
- var ln = 1;
- var col = 0;
- var old_x = x;
- let term_list = [float, newline, space, integer, str, id,
- floatAdd, floatSub, floatMul, floatDiv,
- intAdd, intSub, intMul, intDiv,
- eq, ge, le, rightArrow,
- lParen, rParen, lBracket, rBracket, lBrace, rBrace,
- comma, dot, colon, semicolon, at, hash,
- set, greaterthan, lessthan];
- let term_aux = term_list.reduce((x, y) => orDo(x, y));
- var new_x = thenDo(old_x, term_aux);
- while (new_x._tag != "None") {
- if (new_x.value.matched_type != TokenType.NL) {
- col += new_x.value.matched.length;
- token_list.push({ text: new_x.value.matched,
- type: new_x.value.matched_type,
- ln: ln,
- col: col });
+ return ret;
+};
+let facAux2 = callees;
+let facAux = orDo(facAux1, facAux2);
+/** fac = single facAux | single
+ * Issue1 to be fixed.
+ */
+let fac1 = (x) => {
+ var ret = thenDo(thenDo(tk.toSome(x), single), facAux);
+ if (ret._tag == "Some") {
+ console.log("777" + repr(tkTreeToSExp(ret.value.ast)));
+ ret.value.ast = [applyToken, ret.value.ast[ret.value.ast.length - 2],
+ ret.value.ast[ret.value.ast.length - 1]];
+ ret.value.ast;
+ rearrangeTree(ret.value.ast);
+ console.log("888" + repr(tkTreeToSExp(ret.value.ast)));
+ }
+ return ret;
+};
+let fac2 = single;
+let fac = orDo(fac1, fac2);
+/**
+ * rearrangeTree : for applyToken subtree from right-combination to
+ * left-combination
+ * @input x a ast
+ * @return another ast
+ */
+function rearrangeTree(x) {
+ if (x !== undefined) {
+ for (var i = 1; i < x.length; i++) {
+ rearrangeTree(x[i]);
+ }
+ console.log("@@" + repr(x[0]));
+ if (x[0] == applyToken) {
+ if (Array.isArray(x[2]) && x[2][0] == applyToken) {
+ let rl = rearrangeTree(x[2][1]);
+ let rr = rearrangeTree(x[2][2]);
+ let l = rearrangeTree(x[1]);
+ x[0] = applyToken;
+ x[1] = [applyToken, l, rl];
+ x[2] = rr;
+ console.log("@@==" + repr(x));
+ return x;
}
else {
- col = 0;
- ln += 1;
- token_list.push({ text: new_x.value.matched,
- type: new_x.value.matched_type,
- ln: ln,
- col: col });
+ x[0] = applyToken;
+ x[1] = rearrangeTree(x[1]);
+ x[2] = rearrangeTree(x[2]);
+ console.log("@@==" + repr(x));
+ return x;
}
- old_x = toSome({ matched: "",
- remained: new_x.value.remained });
- new_x = thenDo(old_x, term_aux);
}
- if (old_x.value.remained.length) {
- console.log(token_list);
- throw new Error("the code can't be tokenized is near Ln. " + ln + ", Col." + col
- + ", starting with " + old_x.value.remained.substring(0, 10));
- }
- return token_list;
- };
- console.log(term([], input_matchee_pair));
- // TODO: id, string, space, basic operator, 3 marks: @, {, }.
+ return x;
+ }
+}
+/**
+ *
+ * term1 = fac (MUL | DIV) fac
+ */
+let term1 = midfix((x) => thenDo(thenDo(thenDo(tk.toSome(x), fac), orDo(tMul, tDiv)), fac), "term1");
+/**
+ *
+ * term2 = int MUL int
+ */
+let term2 = fac;
+/**
+ * term = term1 | term2
+ */
+let term = orDo(term1, term2);
+/**
+ *
+ * expr1 = term ADD term
+ */
+let expr1 = midfix((x) => thenDo(thenDo(thenDo(tk.toSome(x), term), orDo(tAdd, tSub)), term), "expr1");
+/**
+ * expr2 = term
+ */
+let expr2 = term;
+/**
+ * expr = expr1 | expr2
+ */
+let expr = orDo(expr1, expr2);
+let tokens = tk.tokenize("1");
+let tokens2 = tk.tokenize("1(2)");
+let tokens3 = tk.tokenize("1(2)(3)");
+let tokens4 = tk.tokenize("2()");
+//let tokens = tk.tokenize("(4-(3/4))");
+//tk.tokenize(argv[2]);
+let tokensFiltered = tokens4.filter((x) => {
+ return (x.type != tk.TokenType.NL
+ && x.type != tk.TokenType.SP);
+});
+let beta = expr({
+ matched: [],
+ remained: tokensFiltered,
+ ast: []
+});
+if (beta._tag == "Some") {
+ beta.value.ast = rearrangeTree(beta.value.ast);
+ console.log(tkTreeToSExp(beta.value.ast));
}
-exports.tokenize = tokenize;
+console.log("RESULT=" + repr(beta));
projects / clo / blobdiff