"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.m1TType = void 0; var fs = require('fs'); const node_process_1 = require("node:process"); const tk = __importStar(require("./tokenize.js")); const util = __importStar(require("util")); /** * debug reprensenting */ let repr = (x) => { return util.inspect(x, { depth: null }); }; /** * 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 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."); } } /** * @description * 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 typ : the type to be test. * @returns the updated `TokenMatcheePair` wrapped in `Some(x)` or `None`. */ function m1TType(typ) { return (m) => { if (m.remained.length == 0) { return { _tag: "None" }; } /** * 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.m1TType = m1TType; ; /** * type int */ let tInt = m1TType(tk.TokenType.INT); 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}`); }); /** * like `m ==> f` in ocaml * @param m matchee wrapped * @param f matching function * @returns wrapped result */ function thenDo(m, f) { if (m._tag == "None") { return m; } else { var a = f(m.value); if (a._tag == "Some") { a.value.ast = concat(m.value.ast, a.value.ast); } return a; } } /** * 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 res1 = f1(x); if (res1._tag == "Some") { return res1; } else { let res2 = f2(x); return res2; } }; } /** * aux function for midfix operator * @param f function * @param signal the rule name * @returns */ 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)); } 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; } return a; }; /** * TODO: 12(13)(14) only parsed with only 12(13) */ /** 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); /** fac1 = single "(" int ")" | single */ let fac1Appliee = circumfix((x) => thenDo(thenDo(thenDo(tk.toSome(x), tLParen), tInt), tRParen), "fac1"); let fac1 = (x) => { let n = thenDo(thenDo(toSome(x), single), fac1Appliee); console.log("+" + "bocchitherock" + "+" + repr(n)); return n; }; let fac2 = single; let fac = orDo(fac1, fac2); /** * * 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("12(13)(14)"); //let tokens = tk.tokenize("(4-(3/4))"); //tk.tokenize(argv[2]); let tokensFiltered = tokens.filter((x) => { return (x.type != tk.TokenType.NL && x.type != tk.TokenType.SP); }); let wrappedTokens = tk.toSome({ matched: [], remained: tokensFiltered, ast: [] }); let beta = expr({ matched: [], remained: tokensFiltered, ast: [] }); console.log("RESULT=" + repr(beta));