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tsvm/assets/tbas/basic.js

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JavaScript
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/*
NOTE: do not allow concatenation of commands!
Operators
; - When used by PRINT and INPUT, concatenates two printables; numbers will have one space between them while strings
will not.
, - Function argument separator
+ - Just as in JS; concatenates two strings
*/
if (system.maxmem() < 8192) {
println("Out of memory. BASIC requires 8K or more User RAM");
throw new Error("Out of memory");
}
var vmemsize = system.maxmem() - 5236;
var cmdbuf = []; // index: line number
var cmdbufMemFootPrint = 0;
var prompt = "Ok";
var lang = {};
lang.badNumberFormat = "Illegal number format";
lang.badOperatorFormat = "Illegal operator format";
lang.badFunctionCallFormat = "Illegal function call";
lang.unmatchedBrackets = "Unmatched brackets";
lang.syntaxfehler = function(line, reason) {
//serial.printerr("Syntax error" + ((line !== undefined) ? (" in "+line) : "") + ((reason !== undefined) ? (": "+reason) : ""));
//serial.printerr(new Error().stack);
return "Syntax error" + ((line !== undefined) ? (" in "+line) : "") + ((reason !== undefined) ? (": "+reason) : "");
};
lang.illegalType = function(line, obj) {
//serial.printerr("Type mismatch" + ((line !== undefined) ? (" in "+line) : ""));
//serial.printerr(new Error().stack);
return "Type mismatch" + ((obj !== undefined) ? " \"" + obj + "\"" : "") + ((line !== undefined) ? (" in "+line) : "");
};
lang.refError = function(line, obj) {
//serial.printerr("Unresolved reference" + ((line !== undefined) ? (" in "+line) : ""));
//serial.printerr(new Error().stack);
return "Unresolved reference" + ((obj !== undefined) ? " \"" + obj + "\"" : "") + ((line !== undefined) ? (" in "+line) : "");
};
lang.nowhereToReturn = function(line) { return "RETURN without GOSUB in " + line; };
lang.errorinline = function(line, stmt, errobj) {
return "Error on statement \""+stmt+"\": " + errobj;
};
lang.parserError = function(line, errorobj) {
return "Parser error in " + line + ": " + errorobj;
};
lang.outOfMem = function(line) {
return "Out of memory in " + line;
};
Object.freeze(lang);
function getUsedMemSize() {
return cmdbufMemFootPrint; // + array's dimsize * 8 + variables' sizeof literal + functions' expression length
}
var reLineNum = /^[0-9]+ /;
//var reFloat = /^([\-+]?[0-9]*[.][0-9]+[eE]*[\-+0-9]*[fF]*|[\-+]?[0-9]+[.eEfF][0-9+\-]*[fF]?)$/;
//var reDec = /^([\-+]?[0-9_]+)$/;
//var reHex = /^(0[Xx][0-9A-Fa-f_]+)$/;
//var reBin = /^(0[Bb][01_]+)$/;
// must match partial
var reNumber = /([0-9]*[.][0-9]+[eE]*[\-+0-9]*[fF]*|[0-9]+[.eEfF][0-9+\-]*[fF]?)|([0-9_]+)|(0[Xx][0-9A-Fa-f_]+)|(0[Bb][01_]+)/;
var reOps = /\^|;|\*|\/|\+|\-|[<>=]{1,2}/;
var reNum = /[0-9]+/;
var tbasexit = false;
println("Terran BASIC 1.0 "+vmemsize+" bytes free");
println(prompt);
// variable object constructor
function BasicVar(literal, type) {
this.literal = literal;
this.type = type;
}
// DEFUN (GW-BASIC equiv. of DEF FN) constructor
function BasicFun(params, expression) {
this.params = params;
this.expression = expression;
}
// DIM (array) constructor
function BasicArr() {
var args = Array.from(arguments);
if (args.length == 1)
throw lang.syntaxfehler(args[0]);
else if (args.length == 0)
throw "InternalError: pass the line number!";
else {
// create nested array as defined
var dimsize = Number(args[1]);
var a = new Array(args[1]);
var internal = a;
for (var i = 2; i < args.length; i++) {
dimsize *= Number(args[i]);
var inner = new Array(args[i]);
internal.push(inner);
internal = inner;
}
this.array = a;
this.dimsize = dimsize;
}
}
// Abstract Syntax Tree
// creates empty tree node
function BasicAST() {
this.lnum = 0;
this.depth = 0;
this.leaves = [];
this.seps = [];
this.value = undefined;
this.type = "null"; // literal, operator, string, number, function, null
this.toString = function() {
var sb = "";
var marker = ("literal" == this.type) ? "i" : ("operator" == this.type) ? "+" : "f";
sb += "| ".repeat(this.depth) + marker+" Line "+this.lnum+" ("+this.type+")\n";
sb += "| ".repeat(this.depth+1) + "leaves: "+(this.leaves.length)+"\n";
sb += "| ".repeat(this.depth+1) + "value: "+this.value+" (type: "+typeof this.value+")\n";
for (var k = 0; k < this.leaves.length; k++) {
if (k > 0)
sb += "| ".repeat(this.depth+1) + " " + this.seps[k - 1] + "\n";
sb += this.leaves[k].toString(); + "\n";
}
sb += "| ".repeat(this.depth) + "`-----------------\n";
return sb;
};
}
function parseSigil(s) {
var rettype;
if (s.endsWith("$"))
rettype = "string";
else if (s.endsWith("%"))
rettype = "integer";
else if (s.endsWith("!") || s.endsWith("#"))
rettype = "float";
return {name:(rettype === undefined) ? s.toUpperCase() : s.substring(0, s.length - 1).toUpperCase(), type:rettype};
}
/*
@param variable object in following structure: {type: (String), value: (String}. The type is defined in BasicAST.
@return a value, if the input type if string or number, its literal value will be returned. Otherwise will search the
BASIC variable table and return the literal value of the BasicVar; undefined will be returned if no such var exists.
*/
function resolve(variable) {
if (variable.type == "string" || variable.type == "number" || variable.type == "bool")
return variable.value;
else if (variable.type == "literal") {
var basicvar = basicInterpreterStatus.variables[parseSigil(variable.value).name];
return (basicvar !== undefined) ? basicvar.literal : undefined;
}
else if (variable.type == "null")
return undefined;
else
throw "InternalError: unknown variable with type "+variable.type+", with value "+variable.value
}
function oneArgNonNull(lnum, args, predicate) {
if (args.length != 1) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
return predicate(resolvedargs0);
}
function oneArgNonNullNumeric(lnum, args, predicate) {
if (args.length != 1) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
if (isNaN(resolvedargs0)) throw lang.illegalType(lnum, resolvedargs0.value);
return predicate(resolvedargs0);
}
function twoArgNonNull(lnum, args, predicate) {
if (args.length != 2) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
var resolvedargs1 = resolve(args[1]);
if (resolvedargs1 === undefined) throw lang.refError(lnum, resolvedargs1.value);
return predicate(resolvedargs0, resolvedargs1);
}
function twoArgNonNullNumeric(lnum, args, predicate) {
if (args.length != 2) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
if (isNaN(resolvedargs0)) throw lang.illegalType(lnum, resolvedargs0.value);
var resolvedargs1 = resolve(args[1]);
if (resolvedargs1 === undefined) throw lang.refError(lnum, resolvedargs1.value);
if (isNaN(resolvedargs1)) throw lang.illegalType(lnum, resolvedargs1.value);
return predicate(resolvedargs0, resolvedargs1);
}
function threeArgNonNull(lnum, args, predicate) {
if (args.length != 3) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
var resolvedargs1 = resolve(args[1]);
if (resolvedargs1 === undefined) throw lang.refError(lnum, resolvedargs1.value);
var resolvedargs2 = resolve(args[2]);
if (resolvedargs2 === undefined) throw lang.refError(lnum, resolvedargs2.value);
return predicate(resolvedargs0, resolvedargs1, resolvedargs2);
}
function threeArgNonNullNumeric(lnum, args, predicate) {
if (args.length != 3) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs0 = resolve(args[0]);
if (resolvedargs0 === undefined) throw lang.refError(lnum, resolvedargs0.value);
if (isNaN(resolvedargs0)) throw lang.illegalType(lnum, resolvedargs0.value);
var resolvedargs1 = resolve(args[1]);
if (resolvedargs1 === undefined) throw lang.refError(lnum, resolvedargs1.value);
if (isNaN(resolvedargs1)) throw lang.illegalType(lnum, resolvedargs1.value);
var resolvedargs2 = resolve(args[2]);
if (resolvedargs2 === undefined) throw lang.refError(lnum, resolvedargs2.value);
if (isNaN(resolvedargs2)) throw lang.illegalType(lnum, resolvedargs2.value);
return predicate(resolvedargs0, resolvedargs1, resolvedargs2);
}
var basicInterpreterStatus = {};
basicInterpreterStatus.gosubStack = [];
basicInterpreterStatus.variables = {};
basicInterpreterStatus.defuns = {};
/*
@param lnum line number
@param args instance of the SyntaxTreeReturnObj
*/
basicInterpreterStatus.builtin = {
"=" : function(lnum, args) {
if (args.length != 2) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var parsed = parseSigil(args[0].value); var rh = resolve(args[1]);
if (rh === undefined) throw lang.refError(lnum, args[1].value);
basicInterpreterStatus.variables[parsed.name] = new BasicVar(rh, (parsed.type === undefined) ? "float" : parsed.type);
},
"==" : function(lnum, args) {
return twoArgNonNull(lnum, args, function(lh, rh) { return lh == rh; });
},
"<>" : function(lnum, args) {
return twoArgNonNull(lnum, args, function(lh, rh) { return lh != rh; });
},
"><" : function(lnum, args) {
return twoArgNonNull(lnum, args, function(lh, rh) { return lh != rh; });
},
"<=" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh <= rh; });
},
"=<" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh <= rh; });
},
">=" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh >= rh; });
},
"=>" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh >= rh; });
},
"<" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh < rh; });
},
">" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh > rh; });
},
"<<" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh << rh; });
},
">>" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh >> rh; });
},
"UNARYMINUS" : function(lnum, args) {
return oneArgNonNullNumeric(lnum, args, function(lh) { return -lh; });
},
"UNARYPLUS" : function(lnum, args) {
return oneArgNonNullNumeric(lnum, args, function(lh) { return +lh; });
},
"BAND" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh & rh; });
},
"BOR" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh | rh; });
},
"BXOR" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh ^ rh; });
},
"+" : function(lnum, args) {
return twoArgNonNull(lnum, args, function(lh, rh) { return lh + rh; });
},
"-" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh - rh; });
},
"*" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh * rh; });
},
"/" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh / rh; });
},
"MOD" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { return lh % rh; });
},
"^" : function(lnum, args) {
return twoArgNonNullNumeric(lnum, args, function(lh, rh) { Math.pow(lh, rh); });
},
"PRINT" : function(lnum, args) {
//serial.println("BASIC func: PRINT -- args="+(args.map(function(it) { return it.type+" "+it.value; })).join(", "));
if (args.length == 0)
println();
else {
if (args[args.length - 1].type == "null") {
print(args.slice(0, args.length - 1).map(function(it) {
var it2 = resolve(it);
return ((!isNaN(it2)) ? " " : "") + it2; // BASIC always put a space before a number
}).join("\t"));
}
else {
println(args.map(function(it) {
var it2 = resolve(it);
return ((!isNaN(it2)) ? " " : "") + it2; // BASIC always put a space before a number
}).join("\t"));
}
}
},
"EMIT" : function(lnum, args) {
if (args.length > 0) {
for (var llll = 0; llll < args.length; llll++) {
var lvalll = resolve(args[llll]);
if (isNaN(lvalll)) {
print(lvalll);
}
else {
con.addch(lvalll);
}
}
}
},
"POKE" : function(lnum, args) {
twoArgNonNullNumeric(lnum, args, function(lh, rh) { sys.poke(lh, rh); });
},
"PEEK" : function(lnum, args) {
return oneArgNonNullNumeric(lnum, args, function(lh) { return sys.peek(lh); });
},
"GOTO" : function(lnum, args) {
return oneArgNonNullNumeric(lnum, args, function(lh) { return lh; });
},
"GOSUB" : function(lnum, args) {
return oneArgNonNullNumeric(lnum, args, function(lh) {
basicInterpreterStatus.gosubStack.push(lnum + 1);
return lh;
});
},
"RETURN" : function(lnum, args) {
var r = basicInterpreterStatus.gosubStack.pop();
if (r === undefined) throw lang.nowhereToReturn(lnum);
return r;
},
"CLEAR" : function(lnum, args) {
basicInterpreterStatus.variables = {};
},
"PLOT" : function(lnum, args) {
threeArgNonNullNumeric(lnum, args, function(xpos, ypos, color) { graphics.plotPixel(xpos, ypos, color); });
},
"AND" : function(lnum, args) {
if (args.length != 2) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs = args.map(function(it) { return resolve(it); });
resolvedargs.forEach(function(v) {
if (v === undefined) throw lang.refError(lnum, v.value);
if (typeof v !== "boolean") throw lang.illegalType(lnum, v.value);
});
var argum = resolvedargs.map(function(it) {
if (it === undefined) throw lang.refError(lnum, it.value);
return it;
});
return argum[0] && argum[1];
},
"OR" : function(lnum, args) {
if (args.length != 2) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
var resolvedargs = args.map(function(it) { return resolve(it); });
resolvedargs.forEach(function(v) {
if (v === undefined) throw lang.refError(lnum, v.value);
if (typeof v !== "boolean") throw lang.illegalType(lnum, v.value);
});
var argum = resolvedargs.map(function(it) {
if (it === undefined) throw lang.refError(lnum, it.value);
return it;
});
return argum[0] || argum[1];
},
"TEST" : function(lnum, args) {
if (args.length != 1) throw lang.syntaxfehler(lnum, args.length + " arguments were given");
return resolve(args[0]);
}
};
Object.freeze(basicInterpreterStatus.builtin);
var basicFunctions = {};
basicFunctions._isNumber = function(code) {
return (code >= 0x30 && code <= 0x39) || code == 0x5F;
};
basicFunctions._isNumber2 = function(code) {
return (code >= 0x30 && code <= 0x39) || code == 0x5F || (code >= 0x41 && code <= 0x46) || (code >= 0x61 && code <= 0x66);
};
basicFunctions._isNumberSep = function(code) {
return code == 0x2E || code == 0x42 || code == 0x58 || code == 0x62 || code == 0x78;
};
basicFunctions._isFirstOp = function(code) {
return (code >= 0x3C && code <= 0x3E) || code == 0x2A || code == 0x2B || code == 0x2D || code == 0x2F || code == 0x5E;
};
basicFunctions._isSecondOp = function(code) {
return (code >= 0x3C && code <= 0x3E);
};
basicFunctions._isParenOpen = function(code) {
return (code == 0x28 || code == 0x5B);
};
basicFunctions._isParenClose = function(code) {
return (code == 0x29 || code == 0x5D);
};
basicFunctions._isParen = function(code) {
return basicFunctions._isParenOpen(code) || basicFunctions._isParenClose(code);
};
basicFunctions._isSeparator = function(code) {
return code == 0x2C || code == 0x3B;
};
basicFunctions._operatorPrecedence = {
// function call in itself has highest precedence
"^":0,
// precedence of 1 are unary plus/minus which are pre-parenthesized
"*":2,"/":2,
"MOD":3,
"+":4,"-":4,
//";":5,
"<<":6,">>":6,
"==":7,"<>":7,"><":7,"<":7,">":7,"<=":7,"=<":7,">=":7,"=>":7,
"BAND":8,
"BXOR":9,
"BOR":10,
"AND":11,
"OR":12,
"=":13
};
basicFunctions._isUnaryOp = function(word) {
return 5 == basicFunctions._operatorPrecedence[word];
};
basicFunctions._isOperatorWord = function(word) {
return (basicFunctions._operatorPrecedence[word] !== undefined) // force the return type to be a boolean
};
basicFunctions._keywords = {
};
basicFunctions._tokenise = function(lnum, cmd) {
var _debugprintStateTransition = false;
var k;
var tokens = [];
var states = [];
var sb = "";
var mode = "literal"; // literal, quote, paren, sep, operator, number; operator2, numbersep, number2, limbo, escape, quote_end
// NOTE: malformed numbers (e.g. "_b3", "_", "__") must be re-marked as literal or syntax error in the second pass
if (_debugprintStateTransition) println("@@ TOKENISE @@");
if (_debugprintStateTransition) println("Ln "+lnum+" cmd "+cmd);
// TOKENISE
for (k = 0; k < cmd.length; k++) {
var char = cmd[k];
var charCode = cmd.charCodeAt(k);
if (_debugprintStateTransition) print("Char: "+char+"("+charCode+"), state: "+mode);
if ("literal" == mode) {
if (0x22 == charCode) { // "
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote";
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "paren";
}
else if (" " == char) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "limbo";
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "sep";
}
else if (basicFunctions._isNumber(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "number";
}
else if (basicFunctions._isFirstOp(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "operator";
}
else {
sb += char;
}
}
else if ("number" == mode) {
if (basicFunctions._isNumber(charCode)) {
sb += char;
}
else if (basicFunctions._isNumberSep(charCode)) {
sb += char;
mode = "numbersep";
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote";
}
else if (" " == char) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "limbo";
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "paren"
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "sep";
}
else if (basicFunctions._isFirstOp(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "operator";
}
else {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "literal";
}
}
else if ("numbersep" == mode) {
if (basicFunctions._isNumber2(charCode)) {
sb += char;
mode = "number2";
}
else {
throw lang.syntaxfehler(lnum, lang.badNumberFormat);
}
}
else if ("number2" == mode) {
if (basicFunctions._isNumber2(charCode)) {
sb += char;
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push("number");
mode = "quote";
}
else if (" " == char) {
tokens.push(sb); sb = ""; states.push("number");
mode = "limbo";
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push("number");
mode = "paren"
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push("number");
mode = "sep";
}
else if (basicFunctions._isFirstOp(charCode)) {
tokens.push(sb); sb = "" + char; states.push("number");
mode = "operator";
}
else {
tokens.push(sb); sb = "" + char; states.push("number");
mode = "literal";
}
}
else if ("operator" == mode) {
if (basicFunctions._isSecondOp(charCode)) {
sb += char;
mode = "operator2";
}
else if (basicFunctions._isFirstOp(charCode)) {
throw lang.syntaxfehler(lnum, lang.badOperatorFormat);
}
else if (basicFunctions._isNumber(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "number";
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote";
}
else if (" " == char) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "limbo";
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "paren"
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "sep";
}
else {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "literal";
}
}
else if ("operator2" == mode) {
if (basicFunctions._isFirstOp(charCode)) {
throw lang.syntaxfehler(lnum, lang.badOperatorFormat);
}
else if (basicFunctions._isNumber(charCode)) {
tokens.push(sb); sb = "" + char; states.push("operator");
mode = "number";
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push("operator");
mode = "quote";
}
else if (" " == char) {
tokens.push(sb); sb = ""; states.push("operator");
mode = "limbo";
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push("operator");
mode = "paren"
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push("operator");
mode = "sep";
}
else {
tokens.push(sb); sb = "" + char; states.push("operator");
mode = "literal";
}
}
else if ("quote" == mode) {
if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote_end";
}
else if (charCode == 0x5C) { // reverse solidus
tokens.push(sb); sb = "";
mode = "escape";
}
else {
sb += char;
}
}
else if ("escape" == mode) {
if (0x5C == charCode) // reverse solidus
sb += String.fromCharCode(0x5C);
else if ("n" == char)
sb += String.fromCharCode(0x0A);
else if ("t" == char)
sb += String.fromCharCode(0x09);
else if (0x22 == charCode) // "
sb += String.fromCharCode(0x22);
else if (0x27 == charCode)
sb += String.fromCharCode(0x27);
else if ("e" == char)
sb += String.fromCharCode(0x1B);
else if ("a" == char)
sb += String.fromCharCode(0x07);
else if ("b" == char)
sb += String.fromCharCode(0x08);
mode = "quote"; // ESCAPE is only legal when used inside of quote
}
else if ("quote_end" == mode) {
if (" " == char) {
sb = "";
mode = "limbo";
}
else if (0x22 == charCode) {
sb = "" + char;
mode = "quote";
}
else if (basicFunctions._isParen(charCode)) {
sb = "" + char;
mode = "paren";
}
else if (basicFunctions._isSeparator(charCode)) {
sb = "" + char;
mode = "sep";
}
else if (basicFunctions._isNumber(charCode)) {
sb = "" + char;
mode = "number";
}
else if (basicFunctions._isFirstOp(charCode)) {
sb = "" + char;
mode = "operator"
}
else {
sb = "" + char;
mode = "literal";
}
}
else if ("limbo" == mode) {
if (char == " ") {
/* do nothing */
}
else if (0x22 == charCode) {
mode = "quote"
}
else if (basicFunctions._isParen(charCode)) {
sb = "" + char;
mode = "paren";
}
else if (basicFunctions._isSeparator(charCode)) {
sb = "" + char;
mode = "sep";
}
else if (basicFunctions._isNumber(charCode)) {
sb = "" + char;
mode = "number";
}
else if (basicFunctions._isFirstOp(charCode)) {
sb = "" + char;
mode = "operator"
}
else {
sb = "" + char;
mode = "literal";
}
}
else if ("paren" == mode) {
if (char == " ") {
tokens.push(sb); sb = ""; states.push(mode);
mode = "limbo";
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote"
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "paren";
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "sep";
}
else if (basicFunctions._isNumber(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "number";
}
else if (basicFunctions._isFirstOp(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "operator"
}
else {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "literal";
}
}
else if ("sep" == mode) {
if (char == " ") {
tokens.push(sb); sb = ""; states.push(mode);
mode = "limbo";
}
else if (0x22 == charCode) {
tokens.push(sb); sb = ""; states.push(mode);
mode = "quote"
}
else if (basicFunctions._isParen(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "paren";
}
else if (basicFunctions._isSeparator(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "sep";
}
else if (basicFunctions._isNumber(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "number";
}
else if (basicFunctions._isFirstOp(charCode)) {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "operator"
}
else {
tokens.push(sb); sb = "" + char; states.push(mode);
mode = "literal";
}
}
else {
throw "Unknown parser state: " + mode;
}
if (_debugprintStateTransition) println("->"+mode);
}
if (sb.length > 0) {
tokens.push(sb); states.push(mode);
}
// filter off initial empty token if the statement does NOT start with literal (e.g. "-3+5")
if (tokens[0].length == 0) {
tokens = tokens.slice(1, tokens.length);
states = states.slice(1, states.length);
}
// clean up operator2 and number2
for (k = 0; k < states.length; k++) {
if (states[k] == "operator2") states[k] = "operator";
else if (states[k] == "number2" || states[k] == "numbersep") states[k] = "number";
}
if (tokens.length != states.length) throw "InternalError: size of tokens and states does not match (line: "+lnum+")";
return { "tokens": tokens, "states": states };
};
basicFunctions._parserElaboration = function(lnum, tokens, states) {
var _debugprintElaboration = false;
if (_debugprintElaboration) println("@@ ELABORATION @@");
var k = 0;
// NOTE: malformed numbers (e.g. "_b3", "_", "__") must be re-marked as literal or syntax error
while (k < states.length) { // using while loop because array size will change during the execution
if (states[k] == "number" && !reNumber.test(tokens[k]))
states[k] = "literal";
else if (states[k] == "literal" && basicFunctions._operatorPrecedence[tokens[k].toUpperCase()] !== undefined)
states[k] = "operator";
else if (tokens[k].toUpperCase() == "TRUE" || tokens[k].toUpperCase() == "FALSE")
states[k] = "bool";
// decimalise hex/bin numbers (because Nashorn does not support binary literal)
if (states[k] == "number") {
if (tokens[k].toUpperCase().startsWith("0B")) {
tokens[k] = parseInt(tokens[k].substring(2, tokens[k].length), 2) + "";
}
}
k += 1;
}
};
basicFunctions._parseTokens = function(lnum, tokens, states, recDepth) {
// DO NOT PERFORM SEMANTIC ANALYSIS HERE
// at this point you can't (and shouldn't) distinguish whether or not defuns/variables are previously declared
// a line has one of these forms:
// EXPRESSION -> LITERAL |
// BINARY_OP |
// UNARY_OP |
// FOR_LOOP |
// IF_STMT |
// WHILE_LOOP |
// FUNCTION_CALL |
// GROUPING
//
// LITERAL -> NUMBERS | FUNCTION_OR_VARIABLE_NAME | BOOLS | QUOTES
// IF_STMT -> "IF" EXPRESSION "THEN" EXPRESSION "ELSE" EXPRESSION |
// "IF" EXPRESSION "GOTO" NUMBERS "ELSE" NUMBERS |
// "IF" EXPRESSION "THEN" EXPRESSION |
// "IF" EXPRESSION "GOTO" NUMBERS
// FOR_LOOP -> "FOR" FUNCTION_OR_VARIABLE_NAME "=" EXPRESSION "TO" EXPRESSION "STEP" EXPRESSION |
// "FOR" FUNCTION_OR_VARIABLE_NAME "=" EXPRESSION "TO" EXPRESSION
// WHILE_LOOP -> "WHILE" EXPERSSION
// BINARY_OP -> EXPRSSION OPERATOR EXPRESSION
// UNARY_OP -> OPERATOR EXPRESSION
// FUNCTION_CALL -> LITERAL GROUPING
// GROUPING -> "(" EXPRESSION ")"
/*
for DEF*s, you might be able to go away with BINARY_OP, as the parsing tree would be:
f Line 10 (function)
| leaves: 1
| value: defun
| + Line 10 (operator)
| | leaves: 2
| | value: =
| | f Line 10 (function)
| | | leaves: 1
| | | value: sinc
| | | i Line 10 (literal)
| | | | leaves: 0
| | | | value: X
| | | `-----------------
| | `-----------------
| | + Line 10 (operator)
| | | leaves: 2
| | | value: /
| | | f Line 10 (function)
| | | | leaves: 1
| | | | value: sin
| | | | i Line 10 (literal)
| | | | | leaves: 0
| | | | | value: X
| | | | `-----------------
| | | `-----------------
| | | i Line 10 (literal)
| | | | leaves: 0
| | | | value: X
| | | `-----------------
| | `-----------------
| `-----------------
`-----------------
for input "DEFUN sinc(x) = sin(x) / x"
*/
function isSemanticLiteral(token, state) {
return "]" == token || ")" == token ||
"quote" == state || "number" == state || "bool" == state || "literal" == state;
}
var _debugSyntaxAnalysis = false;
if (_debugSyntaxAnalysis) println("@@ SYNTAX ANALYSIS @@");
if (_debugSyntaxAnalysis) println("Parser Ln "+lnum+", Rec "+recDepth+", Tkn: "+tokens.join("/"));
if (tokens.length != states.length) throw "InternalError: size of tokens and states does not match (line: "+lnum+", recursion depth: "+recDepth+")";
if (tokens.length == 0) {
if (_debugSyntaxAnalysis) println("*empty tokens*");
var retTreeHead = new BasicAST();
retTreeHead.depth = recDepth;
retTreeHead.lnum = lnum;
return retTreeHead;
}
var k;
var headWord = tokens[0].toLowerCase();
var treeHead = new BasicAST();
treeHead.depth = recDepth;
treeHead.lnum = lnum;
// TODO ability to parse arbitrary parentheses
// test string: print((minus(plus(3,2),times(8,7))))
// ^ ^ these extra parens break your parser
// LITERAL
if (tokens.length == 1 && (isSemanticLiteral(tokens[0], states[0]))) {
if (_debugSyntaxAnalysis) println("literal/number: "+tokens[0]);
treeHead.value = ("quote" == states[0]) ? tokens[0] : tokens[0].toUpperCase();
treeHead.type = ("quote" == states[0]) ? "string" : ("number" == states[0]) ? "number" : "literal";
}
else if (tokens[0].toUpperCase() == "IF" && states[0] != "quote") {
// find ELSE and THEN
var indexElse = undefined;
var indexThen = undefined;
for (k = tokens.length - 1; k >= 1; k--) {
if (indexElse === undefined && tokens[k].toUpperCase() == "ELSE" && states[k] != "quote") {
indexElse = k;
}
else if (indexThen === undefined && tokens[k].toUpperCase() == "THEN" && states[k] != "quote") {
indexThen = k;
}
}
// find GOTO and use it as THEN
var useGoto = false;
if (indexThen === undefined) {
for (k = (indexElse !== undefined) ? indexElse - 1 : tokens.length - 1; k >= 1; k--) {
if (indexThen == undefined && tokens[k].toUpperCase() == "GOTO" && states[k] != "quote") {
useGoto = true;
indexThen = k;
break;
}
}
}
// generate tree
if (indexThen === undefined) throw lang.syntaxfehler(lnum);
treeHead.value = "if";
treeHead.type = "function";
treeHead.leaves[0] = basicFunctions._parseTokens(
lnum,
tokens.slice(1, indexThen),
states.slice(1, indexThen),
recDepth + 1
);
if (!useGoto)
treeHead.leaves[1] = basicFunctions._parseTokens(
lnum,
tokens.slice(indexThen + 1, (indexElse !== undefined) ? indexElse : tokens.length),
states.slice(indexThen + 1, (indexElse !== undefined) ? indexElse : tokens.length),
recDepth + 1
);
else
treeHead.leaves[1] = basicFunctions._parseTokens(
lnum,
[].concat("goto", tokens.slice(indexThen + 1, (indexElse !== undefined) ? indexElse : tokens.length)),
[].concat("literal", states.slice(indexThen + 1, (indexElse !== undefined) ? indexElse : tokens.length)),
recDepth + 1
);
if (indexElse !== undefined) {
treeHead.leaves[2] = basicFunctions._parseTokens(
lnum,
tokens.slice(indexElse + 1, tokens.length),
states.slice(indexElse + 1, tokens.length),
recDepth + 1
);
}
}
else {
// scan for operators with highest precedence, use rightmost one if multiple were found
var topmostOp;
var topmostOpPrc = 0;
var operatorPos = -1;
// find and mark position of separators and parentheses
// properly deal with the nested function calls
var parenDepth = 0;
var parenStart = -1;
var parenEnd = -1;
var separators = [];
// initial scan
for (k = 0; k < tokens.length; k++) {
if (tokens[k] == "(" && states[k] != "quote") {
parenDepth += 1;
if (parenStart == -1 && parenDepth == 1) parenStart = k;
}
else if (tokens[k] == ")" && states[k] != "quote") {
if (parenEnd == -1 && parenDepth == 1) parenEnd = k;
parenDepth -= 1;
}
if (parenDepth == 0) {
if (states[k] == "operator" && isSemanticLiteral(tokens[k-1], states[k-1]) && basicFunctions._operatorPrecedence[tokens[k].toUpperCase()] > topmostOpPrc) {
topmostOp = tokens[k].toUpperCase();
topmostOpPrc = basicFunctions._operatorPrecedence[tokens[k]];
operatorPos = k;
}
}
}
if (parenDepth != 0) throw lang.syntaxfehler(lnum, lang.unmatchedBrackets);
if (_debugSyntaxAnalysis) println("Paren position: "+parenStart+", "+parenEnd);
// if there is no paren or paren does NOT start index 1
// e.g. negative three should NOT require to be written as "-(3)"
if ((parenStart > 1 || parenStart == -1) && (operatorPos != 1 && operatorPos != 0) && states[0] != "operator") {
// make a paren!
tokens = [].concat(tokens[0], "(", tokens.slice(1, tokens.length), ")");
states = [].concat(states[0], "paren", states.slice(1, states.length), "paren");
if (_debugSyntaxAnalysis) println("inserting paren at right place");
if (_debugSyntaxAnalysis) println(tokens.join(","));
return basicFunctions._parseTokens(lnum, tokens, states, recDepth);
}
// get the position of parens and separators
parenStart = -1; parenEnd = -1; parenDepth = 0;
for (k = 0; k < tokens.length; k++) {
if (tokens[k] == "(" && states[k] != "quote") {
parenDepth += 1;
if (parenStart == -1 && parenDepth == 1) parenStart = k;
}
else if (tokens[k] == ")" && states[k] != "quote") {
if (parenEnd == -1 && parenDepth == 1) parenEnd = k;
parenDepth -= 1;
}
if (parenDepth == 1 && states[k] == "sep") {
separators.push(k);
}
if (parenDepth == 0) {
if (states[k] == "operator" && isSemanticLiteral(tokens[k-1], states[k-1]) && basicFunctions._operatorPrecedence[tokens[k].toUpperCase()] > topmostOpPrc) {
topmostOp = tokens[k].toUpperCase();
topmostOpPrc = basicFunctions._operatorPrecedence[tokens[k]];
operatorPos = k;
}
}
}
if (parenDepth != 0) throw lang.syntaxfehler(lnum, lang.unmatchedBrackets);
if (_debugSyntaxAnalysis) println("NEW Paren position: "+parenStart+", "+parenEnd);
// BINARY_OP/UNARY_OP
if (topmostOp !== undefined) {
if (_debugSyntaxAnalysis) println("operator: "+topmostOp+", pos: "+operatorPos);
// BINARY_OP?
if (operatorPos > 0) {
var subtknL = tokens.slice(0, operatorPos);
var subtknR = tokens.slice(operatorPos + 1, tokens.length);
var substaL = states.slice(0, operatorPos);
var substaR = states.slice(operatorPos + 1, tokens.length);
treeHead.value = topmostOp;
treeHead.type = "operator";
treeHead.leaves[0] = basicFunctions._parseTokens(lnum, subtknL, substaL, recDepth + 1);
treeHead.leaves[1] = basicFunctions._parseTokens(lnum, subtknR, substaR, recDepth + 1);
}
else {
if (_debugSyntaxAnalysis) println("re-parenthesising unary op");
// parenthesize the unary op
var unaryParenEnd = 1;
while (unaryParenEnd < tokens.length) {
if (states[unaryParenEnd] == "operator" && basicFunctions._operatorPrecedence[tokens[unaryParenEnd]] > 1)
break;
unaryParenEnd += 1;
}
var newTokens = [].concat("(", tokens.slice(0, unaryParenEnd), ")", tokens.slice(unaryParenEnd, tokens.length));
var newStates = [].concat("paren", states.slice(0, unaryParenEnd), "paren", states.slice(unaryParenEnd, tokens.length));
return basicFunctions._parseTokens(lnum, newTokens, newStates, recDepth + 1);
}
}
// FUNCTION CALL
else {
if (_debugSyntaxAnalysis) println("function call");
var currentFunction = (states[0] == "paren") ? undefined : tokens[0];
treeHead.value = ("-" == currentFunction) ? "UNARYMINUS" : ("+" == currentFunction) ? "UNARYPLUS" : currentFunction;
treeHead.type = (currentFunction === undefined) ? "null" : "function";
if (_debugSyntaxAnalysis) println("function name: "+treeHead.value);
var leaves = [];
var seps = [];
// if there is no paren (this part deals with unary ops ONLY!)
if (parenStart == -1 && parenEnd == -1) {
var subtkn = tokens.slice(1, tokens.length);
var substa = states.slice(1, tokens.length);
if (_debugSyntaxAnalysis) println("subtokenA: "+subtkn.join("/"));
leaves.push(basicFunctions._parseTokens(lnum, subtkn, substa, recDepth + 1))
}
else if (parenEnd > parenStart) {
separators = [parenStart].concat(separators, [parenEnd]);
if (_debugSyntaxAnalysis) println("separators: "+separators.join(","));
// recursively parse comma-separated arguments
// print ( plus ( 3 , 2 ) , times ( 8 , 7 ) )
// s ^ e
// separators = [1,8,15]
// plus ( 3 , 2 ) / times ( 8 , 7 )
// s ^ e s ^ e
// separators = [1,5] ; [1,5]
// 3 / 2 / 8 / 7
for (k = 1; k < separators.length; k++) {
var subtkn = tokens.slice(separators[k - 1] + 1, separators[k]);
var substa = states.slice(separators[k - 1] + 1, separators[k]);
if (_debugSyntaxAnalysis) println("subtokenB: "+subtkn.join("/"));
leaves.push(basicFunctions._parseTokens(lnum, subtkn, substa, recDepth + 1));
}
separators.slice(1, separators.length - 1).forEach(function(v) { if (v !== undefined) seps.push(tokens[v]); });
}
else throw lang.syntaxfehler(lnum, lang.badFunctionCallFormat);
treeHead.leaves = leaves;//.filter(function(__v) { return __v !== undefined; });
treeHead.seps = seps;
}
}
return treeHead;
};
// @return is defined in BasicAST
function JStoBASICtype(object) {
if (typeof object === "boolean") return "bool";
else if (!isNaN(object)) return "number";
else if (typeof object === "string" || object instanceof String) return "string";
else if (object === undefined) return "null";
else throw "InternalError: un-translatable object with typeof "+(typeof object)+"\n"+object;
}
function SyntaxTreeReturnObj(type, value, nextLine) {
this.type = type;
this.value = value;
this.nextLine = nextLine;
}
basicFunctions._gotoCmds = { GOTO:1, GOSUB:1 };
basicFunctions._executeSyntaxTree = function(lnum, syntaxTree, recDepth) {
var _debugExec = false;
var recWedge = "> ".repeat(recDepth);
if (_debugExec) serial.println(recWedge+"@@ EXECUTE @@");
if (syntaxTree === undefined)
return new SyntaxTreeReturnObj("null", undefined, lnum + 1);
else if (syntaxTree.type == "function" || syntaxTree.type == "operator") {
if (_debugExec) serial.println(recWedge+"function|operator");
if (_debugExec) serial.println(recWedge+syntaxTree.toString());
var funcName = syntaxTree.value.toUpperCase();
var func = basicInterpreterStatus.builtin[funcName];
if (funcName == "IF") {
if (syntaxTree.leaves.length != 2 && syntaxTree.leaves.length != 3) throw lang.syntaxfehler(lnum);
var testedval = basicFunctions._executeSyntaxTree(lnum, syntaxTree.leaves[0], recDepth + 1);
if (_debugExec) {
serial.println(recWedge+"testedval:");
serial.println(recWedge+"type="+testedval.type);
serial.println(recWedge+"value="+testedval.value);
serial.println(recWedge+"nextLine="+testedval.nextLine);
}
try {
var iftest = basicInterpreterStatus.builtin["TEST"](lnum, [testedval]);
if (!iftest && syntaxTree.leaves[2] !== undefined)
return basicFunctions._executeSyntaxTree(lnum, syntaxTree.leaves[2], recDepth + 1);
else if (iftest)
return basicFunctions._executeSyntaxTree(lnum, syntaxTree.leaves[1], recDepth + 1);
else
return new SyntaxTreeReturnObj("null", undefined, lnum + 1);
}
catch (eeeee) {
throw lang.errorinline(lnum, "TEST", eeeee);
}
}
else {
var args = syntaxTree.leaves.map(function(it) { return basicFunctions._executeSyntaxTree(lnum, it, recDepth + 1); });
if (_debugExec) {
serial.println(recWedge+"fn call name: "+funcName);
serial.println(recWedge+"fn call args: "+(args.map(function(it) { return it.type+" "+it.value; })).join(", "));
}
if (func === undefined) {
serial.printerr(lang.syntaxfehler(lnum, funcName + " is not defined"));
throw lang.syntaxfehler(line, funcName + " is not defined");
}
else {
try {
var funcCallResult = func(lnum, args);
return new SyntaxTreeReturnObj(
JStoBASICtype(funcCallResult),
funcCallResult,
(basicFunctions._gotoCmds[funcName] !== undefined) ? funcCallResult : lnum + 1
);
}
catch (eeeee) {
throw lang.errorinline(lnum, funcName, eeeee);
}
}
}
}
else if (syntaxTree.type == "number") {
if (_debugExec) serial.println(recWedge+"number");
return new SyntaxTreeReturnObj(syntaxTree.type, +(syntaxTree.value), lnum + 1);
}
else if (syntaxTree.type == "string" || syntaxTree.type == "literal" || syntaxTree.type == "bool") {
if (_debugExec) serial.println(recWedge+"string|literal|bool");
return new SyntaxTreeReturnObj(syntaxTree.type, syntaxTree.value, lnum + 1);
}
else if (syntaxTree.type == "null") {
return new basicFunctions._executeSyntaxTree(lnum, syntaxTree.leaves[0], recDepth + 1);
}
else {
serial.println(recWedge+"Parse error in "+lnum);
serial.println(recWedge+syntaxTree.toString());
throw "Parse error";
}
};
// @returns: line number for the next command, normally (lnum + 1); if GOTO or GOSUB was met, returns its line number
basicFunctions._interpretLine = function(lnum, cmd) {
var _debugprintHighestLevel = true;
// TOKENISE
var tokenisedObject = basicFunctions._tokenise(lnum, cmd);
var tokens = tokenisedObject.tokens;
var states = tokenisedObject.states;
// ELABORATION : distinguish numbers and operators from literals
basicFunctions._parserElaboration(lnum, tokens, states);
// PARSING (SYNTAX ANALYSIS)
var syntaxTree = basicFunctions._parseTokens(lnum, tokens, states, 0);
if (_debugprintHighestLevel) serial.println("Final syntax tree:");
if (_debugprintHighestLevel) serial.println(syntaxTree.toString());
var execResult = basicFunctions._executeSyntaxTree(lnum, syntaxTree, 0);
// EXECUTE
try {
return execResult.nextLine;
}
catch (e) {
throw lang.parserError(lnum, e);
}
}; // end INTERPRETLINE
basicFunctions._basicList = function(v, i, arr) {
if (i < 10) print(" ");
if (i < 100) print(" ");
print(i);
print(" ");
println(v);
};
basicFunctions.list = function(args) { // LIST function
if (args.length == 1) {
cmdbuf.forEach(basicFunctions._basicList);
}
else if (args.length == 2) {
if (cmdbuf[args[1]] !== undefined)
basicFunctions._basicList(cmdbuf[args[1]], args[1], undefined);
}
else {
var lastIndex = (args[2] === ".") ? cmdbuf.length - 1 : (args[2] | 0);
var i = 0;
for (i = args[1]; i <= lastIndex; i++) {
var cmd = cmdbuf[i];
if (cmd !== undefined) {
basicFunctions._basicList(cmd, i, cmdbuf);
}
}
}
};
basicFunctions.system = function(args) { // SYSTEM function
tbasexit = true;
};
basicFunctions.new = function(args) { // NEW function
cmdbuf = [];
};
basicFunctions.renum = function(args) { // RENUM function
var newcmdbuf = [];
var linenumRelation = [[]];
var cnt = 10;
for (var k = 0; k < cmdbuf.length; k++) {
if (cmdbuf[k] !== undefined) {
newcmdbuf[cnt] = cmdbuf[k];
linenumRelation[k] = cnt;
cnt += 10;
}
}
// deal with goto/gosub line numbers
for (k = 0; k < newcmdbuf.length; k++) {
if (newcmdbuf[k] !== undefined && newcmdbuf[k].toLowerCase().startsWith("goto ")) {
newcmdbuf[k] = "goto " + linenumRelation[newcmdbuf[k].match(reNum)[0]];
}
else if (newcmdbuf[k] !== undefined && newcmdbuf[k].toLowerCase().startsWith("gosub ")) {
newcmdbuf[k] = "gosub " + linenumRelation[newcmdbuf[k].match(reNum)[0]];
}
}
cmdbuf = newcmdbuf.slice(); // make shallow copy
// recalculate memory footprint
cmdbufMemFootPrint = 0;
cmdbuf.forEach(function(v, i, arr) {
cmdbufMemFootPrint += ("" + i).length + 1 + v.length;
});
};
basicFunctions.fre = function(args) {
println(vmemsize - getUsedMemSize());
};
basicFunctions.run = function(args) { // RUN function
var linenumber = 1;
var oldnum = 1;
do {
if (cmdbuf[linenumber] !== undefined) {
oldnum = linenumber;
linenumber = basicFunctions._interpretLine(linenumber, cmdbuf[linenumber]);
}
else {
linenumber += 1;
}
if (con.hitterminate()) {
println("Break in "+oldnum);
break;
}
} while (linenumber < cmdbuf.length)
con.resetkeybuf();
};
Object.freeze(basicFunctions);
while (!tbasexit) {
var line = sys.read();
line = line.trim();
cmdbufMemFootPrint += line.length;
if (reLineNum.test(line)) {
var i = line.indexOf(" ");
cmdbuf[line.slice(0, i)] = line.slice(i + 1, line.length);
}
else if (line.length > 0) {
cmdbufMemFootPrint -= line.length;
try {
var cmd = line.split(" ");
basicFunctions[cmd[0]](cmd);
}
catch (e) {
println(e);
println(lang.syntaxfehler());
}
println(prompt);
}
}
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