lepu-test-platform-web/node_modules/math-expression-evaluator/dist/browser/math-expression-evaluator.js

725 lines
20 KiB
JavaScript
Executable File

/** math-expression-evaluator version 1.2.17
Dated:2017-05-05 */
(function(f){if(typeof exports==="object"&&typeof module!=="undefined"){module.exports=f()}else if(typeof define==="function"&&define.amd){define([],f)}else{var g;if(typeof window!=="undefined"){g=window}else if(typeof global!=="undefined"){g=global}else if(typeof self!=="undefined"){g=self}else{g=this}g.mexp = f()}})(function(){var define,module,exports;return (function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o<r.length;o++)s(r[o]);return s})({1:[function(require,module,exports){
var Mexp=require('./postfix_evaluator.js');
Mexp.prototype.formulaEval = function () {
"use strict";
var stack=[],pop1,pop2,pop3;
var disp=[];
var temp='';
var arr=this.value;
for(var i=0;i<arr.length;i++){
if(arr[i].type===1||arr[i].type===3){
disp.push({value:arr[i].type===3?arr[i].show:arr[i].value,type:1});
}
else if(arr[i].type===13){
disp.push({value:arr[i].show,type:1});
}
else if(arr[i].type===0){
disp[disp.length-1]={value:arr[i].show+(arr[i].show!="-"?"(":"")+disp[disp.length-1].value+(arr[i].show!="-"?")":""),type:0};
}
else if(arr[i].type===7){
disp[disp.length-1]={value:(disp[disp.length-1].type!=1?"(":"")+disp[disp.length-1].value+(disp[disp.length-1].type!=1?")":"")+arr[i].show,type:7};
}
else if(arr[i].type===10){
pop1=disp.pop();
pop2=disp.pop();
if(arr[i].show==='P'||arr[i].show==='C')disp.push({value:"<sup>"+pop2.value+"</sup>"+arr[i].show+"<sub>"+pop1.value+"</sub>",type:10});
else disp.push({value:(pop2.type!=1?"(":"")+pop2.value+(pop2.type!=1?")":"")+"<sup>"+pop1.value+"</sup>",type:1});
}
else if(arr[i].type===2||arr[i].type===9){
pop1=disp.pop();
pop2=disp.pop();
disp.push({value:(pop2.type!=1?"(":"")+pop2.value+(pop2.type!=1?")":"")+arr[i].show+(pop1.type!=1?"(":"")+pop1.value+(pop1.type!=1?")":""),type:arr[i].type});
}
else if(arr[i].type===12){
pop1=disp.pop();
pop2=disp.pop();
pop3=disp.pop();
disp.push({value:arr[i].show+"("+pop3.value+","+pop2.value+","+pop1.value+")",type:12});
}
}
return disp[0].value;
};
module.exports=Mexp;
},{"./postfix_evaluator.js":5}],2:[function(require,module,exports){
var Mexp = require('./math_function.js')
function inc (arr, val) {
for (var i = 0; i < arr.length; i++) {
arr[i] += val
}
return arr
}
var token = ['sin', 'cos', 'tan', 'pi', '(', ')', 'P', 'C',
'asin', 'acos', 'atan', '7', '8', '9', 'int',
'cosh', 'acosh', 'ln', '^', 'root', '4', '5', '6', '/', '!',
'tanh', 'atanh', 'Mod', '1', '2', '3', '*',
'sinh', 'asinh', 'e', 'log', '0', '.', '+', '-', ',', 'Sigma', 'n', 'Pi', 'pow']
var show = ['sin', 'cos', 'tan', '&pi;', '(', ')', 'P', 'C',
'asin', 'acos', 'atan', '7', '8', '9', 'Int',
'cosh', 'acosh', ' ln', '^', 'root', '4', '5', '6', '&divide;', '!',
'tanh', 'atanh', ' Mod ', '1', '2', '3', '&times;',
'sinh', 'asinh', 'e', ' log', '0', '.', '+', '-', ',', '&Sigma;', 'n', '&Pi;', 'pow']
var eva = [Mexp.math.sin, Mexp.math.cos, Mexp.math.tan, 'PI', '(', ')', Mexp.math.P, Mexp.math.C,
Mexp.math.asin, Mexp.math.acos, Mexp.math.atan, '7', '8', '9', Math.floor,
Mexp.math.cosh, Mexp.math.acosh, Math.log, Math.pow, Math.sqrt, '4', '5', '6', Mexp.math.div, Mexp.math.fact,
Mexp.math.tanh, Mexp.math.atanh, Mexp.math.mod, '1', '2', '3', Mexp.math.mul,
Mexp.math.sinh, Mexp.math.asinh, 'E', Mexp.math.log, '0', '.', Mexp.math.add, Mexp.math.sub, ',', Mexp.math.sigma, 'n', Mexp.math.Pi, Math.pow]
var preced = {
0: 11,
1: 0,
2: 3,
3: 0,
4: 0,
5: 0,
6: 0,
7: 11,
8: 11,
9: 1,
10: 10,
11: 0,
12: 11,
13: 0
}
var type = [0, 0, 0, 3, 4, 5, 10, 10,
0, 0, 0, 1, 1, 1, 0,
0, 0, 0, 10, 0, 1, 1, 1, 2, 7,
0, 0, 2, 1, 1, 1, 2,
0, 0, 3, 0, 1, 6, 9, 9, 11, 12, 13, 12, 8]
/*
0 : function with syntax function_name(Maths_exp)
1 : numbers
2 : binary operators like * / Mod left associate and same precedence
3 : Math constant values like e,pi,Cruncher ans
4 : opening bracket
5 : closing bracket
6 : decimal
7 : function with syntax (Math_exp)function_name
8: function with syntax function_name(Math_exp1,Math_exp2)
9 : binary operator like +,-
10: binary operator like P C or ^
11: ,
12: function with , seperated three parameters
13: variable of Sigma function
*/
var type0 = {
0: true,
1: true,
3: true,
4: true,
6: true,
8: true,
9: true,
12: true,
13: true
} // type2:true,type4:true,type9:true,type11:true,type21:true,type22
var type1 = {
0: true,
1: true,
2: true,
3: true,
4: true,
5: true,
6: true,
7: true,
8: true,
9: true,
10: true,
11: true,
12: true,
13: true
} // type3:true,type5:true,type7:true,type23
var type1Asterick = {
0: true,
3: true,
4: true,
8: true,
12: true,
13: true
}
var empty = {}
var type3Asterick = {
0: true,
1: true,
3: true,
4: true,
6: true,
8: true,
12: true,
13: true
} // type_5:true,type_7:true,type_23
var type6 = {
1: true
}
var newAr = [
[],
['1', '2', '3', '7', '8', '9', '4', '5', '6', '+', '-', '*', '/', '(', ')', '^', '!', 'P', 'C', 'e', '0', '.', ',', 'n'],
['pi', 'ln', 'Pi'],
['sin', 'cos', 'tan', 'Del', 'int', 'Mod', 'log', 'pow'],
['asin', 'acos', 'atan', 'cosh', 'root', 'tanh', 'sinh'],
['acosh', 'atanh', 'asinh', 'Sigma']
]
function match (str1, str2, i, x) {
for (var f = 0; f < x; f++) {
if (str1[i + f] !== str2[f]) {
return false
}
}
return true
}
Mexp.addToken = function (tokens) {
for (var i = 0; i < tokens.length; i++) {
var x = tokens[i].token.length
var temp = -1
// newAr is a specially designed data structure in which 1D array at location one of 2d array has all string with length 1 2 with 2 and so on
if (x < newAr.length) { // match to check if token is really huge and not existing
// if not checked it will break in next line as undefined index
for (var y = 0; y < newAr[x].length; y++) {
if (tokens[i].token === newAr[x][y]) {
temp = token.indexOf(newAr[x][y])
break
}
}
}
if (temp === -1) {
token.push(tokens[i].token)
type.push(tokens[i].type)
if (newAr.length <= tokens[i].token.length) {
newAr[tokens[i].token.length] = []
}
newAr[tokens[i].token.length].push(tokens[i].token)
eva.push(tokens[i].value)
show.push(tokens[i].show)
} else {
token[temp] = tokens[i].token
type[temp] = tokens[i].type
eva[temp] = tokens[i].value
show[temp] = tokens[i].show
}
}
}
Mexp.lex = function (inp, tokens) {
'use strict'
var changeSignObj = {
value: Mexp.math.changeSign,
type: 0,
pre: 21,
show: '-'
}
var closingParObj = {
value: ')',
show: ')',
type: 5,
pre: 0
}
var openingParObj = {
value: '(',
type: 4,
pre: 0,
show: '('
}
var str = [openingParObj]
var ptc = [] // Parenthesis to close at the beginning is after one token
var inpStr = inp
var key
var pcounter = 0
var allowed = type0
var bracToClose = 0
var asterick = empty
var prevKey = ''
var i, x, y
if (typeof tokens !== 'undefined') {
Mexp.addToken(tokens)
}
var obj = {}
for (i = 0; i < inpStr.length; i++) {
if (inpStr[i] === ' ') {
continue
}
key = ''
for (x = (inpStr.length - i > (newAr.length - 2) ? newAr.length - 1 : inpStr.length - i); x > 0; x--) {
for (y = 0; y < newAr[x].length; y++) {
if (match(inpStr, newAr[x][y], i, x)) {
key = newAr[x][y]
y = newAr[x].length
x = 0
}
}
}
i += key.length - 1
if (key === '') {
throw (new Mexp.Exception('Can\'t understand after ' + inpStr.slice(i)))
}
var index = token.indexOf(key)
var cToken = key
var cType = type[index]
var cEv = eva[index]
var cPre = preced[cType]
var cShow = show[index]
var pre = str[str.length - 1]
var j
for (j = ptc.length; j--;) { // loop over ptc
if (ptc[j] === 0) {
if ([0, 2, 3, 5, 9, 11, 12, 13].indexOf(cType) !== -1) {
if (allowed[cType] !== true) {
throw (new Mexp.Exception(key + ' is not allowed after ' + prevKey))
}
str.push(closingParObj)
allowed = type1
asterick = type3Asterick
inc(ptc, -1).pop()
}
} else break
}
if (allowed[cType] !== true) {
throw (new Mexp.Exception(key + ' is not allowed after ' + prevKey))
}
if (asterick[cType] === true) {
cType = 2
cEv = Mexp.math.mul
cShow = '&times;'
cPre = 3
i = i - key.length
}
obj = {
value: cEv,
type: cType,
pre: cPre,
show: cShow
}
if (cType === 0) {
allowed = type0
asterick = empty
inc(ptc, 2).push(2)
str.push(obj)
str.push(openingParObj)
} else if (cType === 1) {
if (pre.type === 1) {
pre.value += cEv
inc(ptc, 1)
} else {
str.push(obj)
}
allowed = type1
asterick = type1Asterick
} else if (cType === 2) {
allowed = type0
asterick = empty
inc(ptc, 2)
str.push(obj)
} else if (cType === 3) { // constant
str.push(obj)
allowed = type1
asterick = type3Asterick
} else if (cType === 4) {
pcounter += ptc.length
ptc = []
bracToClose++
allowed = type0
asterick = empty
str.push(obj)
} else if (cType === 5) {
if (!bracToClose) {
throw (new Mexp.Exception('Closing parenthesis are more than opening one, wait What!!!'))
}
while (pcounter--) { // loop over ptc
str.push(closingParObj)
}
pcounter = 0
bracToClose--
allowed = type1
asterick = type3Asterick
str.push(obj)
} else if (cType === 6) {
if (pre.hasDec) {
throw (new Mexp.Exception('Two decimals are not allowed in one number'))
}
if (pre.type !== 1) {
pre = {
value: 0,
type: 1,
pre: 0
} // pre needs to be changed as it will the last value now to be safe in later code
str.push(pre)
inc(ptc, -1)
}
allowed = type6
inc(ptc, 1)
asterick = empty
pre.value += cEv
pre.hasDec = true
} else if (cType === 7) {
allowed = type1
asterick = type3Asterick
inc(ptc, 1)
str.push(obj)
}
if (cType === 8) {
allowed = type0
asterick = empty
inc(ptc, 4).push(4)
str.push(obj)
str.push(openingParObj)
} else if (cType === 9) {
if (pre.type === 9) {
if (pre.value === Mexp.math.add) {
pre.value = cEv
pre.show = cShow
inc(ptc, 1)
} else if (pre.value === Mexp.math.sub && cShow === '-') {
pre.value = Mexp.math.add
pre.show = '+'
inc(ptc, 1)
}
} else if (pre.type !== 5 && pre.type !== 7 && pre.type !== 1 && pre.type !== 3 && pre.type !== 13) { // changesign only when negative is found
if (cToken === '-') { // do nothing for + token
// don't add with the above if statement as that will run the else statement of parent if on Ctoken +
allowed = type0
asterick = empty
inc(ptc, 2).push(2)
str.push(changeSignObj)
str.push(openingParObj)
}
} else {
str.push(obj)
inc(ptc, 2)
}
allowed = type0
asterick = empty
} else if (cType === 10) {
allowed = type0
asterick = empty
inc(ptc, 2)
str.push(obj)
} else if (cType === 11) {
allowed = type0
asterick = empty
str.push(obj)
} else if (cType === 12) {
allowed = type0
asterick = empty
inc(ptc, 6).push(6)
str.push(obj)
str.push(openingParObj)
} else if (cType === 13) {
allowed = type1
asterick = type3Asterick
str.push(obj)
}
inc(ptc, -1)
prevKey = key
}
for (j = ptc.length; j--;) { // loop over ptc
if (ptc[j] === 0) {
str.push(closingParObj)
inc(ptc, -1).pop()
} else break // if it is not zero so before ptc also cant be zero
}
if (allowed[5] !== true) {
throw (new Mexp.Exception('complete the expression'))
}
while (bracToClose--) {
str.push(closingParObj)
}
str.push(closingParObj)
// console.log(str);
return new Mexp(str)
}
module.exports = Mexp
},{"./math_function.js":3}],3:[function(require,module,exports){
var Mexp = function (parsed) {
this.value = parsed
}
Mexp.math = {
isDegree: true, // mode of calculator
acos: function (x) {
return (Mexp.math.isDegree ? 180 / Math.PI * Math.acos(x) : Math.acos(x))
},
add: function (a, b) {
return a + b
},
asin: function (x) {
return (Mexp.math.isDegree ? 180 / Math.PI * Math.asin(x) : Math.asin(x))
},
atan: function (x) {
return (Mexp.math.isDegree ? 180 / Math.PI * Math.atan(x) : Math.atan(x))
},
acosh: function (x) {
return Math.log(x + Math.sqrt(x * x - 1))
},
asinh: function (x) {
return Math.log(x + Math.sqrt(x * x + 1))
},
atanh: function (x) {
return Math.log((1 + x) / (1 - x))
},
C: function (n, r) {
var pro = 1
var other = n - r
var choice = r
if (choice < other) {
choice = other
other = r
}
for (var i = choice + 1; i <= n; i++) {
pro *= i
}
return pro / Mexp.math.fact(other)
},
changeSign: function (x) {
return -x
},
cos: function (x) {
if (Mexp.math.isDegree) x = Mexp.math.toRadian(x)
return Math.cos(x)
},
cosh: function (x) {
return (Math.pow(Math.E, x) + Math.pow(Math.E, -1 * x)) / 2
},
div: function (a, b) {
return a / b
},
fact: function (n) {
if (n % 1 !== 0) return 'NaN'
var pro = 1
for (var i = 2; i <= n; i++) {
pro *= i
}
return pro
},
inverse: function (x) {
return 1 / x
},
log: function (i) {
return Math.log(i) / Math.log(10)
},
mod: function (a, b) {
return a % b
},
mul: function (a, b) {
return a * b
},
P: function (n, r) {
var pro = 1
for (var i = Math.floor(n) - Math.floor(r) + 1; i <= Math.floor(n); i++) {
pro *= i
}
return pro
},
Pi: function (low, high, ex) {
var pro = 1
for (var i = low; i <= high; i++) {
pro *= Number(ex.postfixEval({
n: i
}))
}
return pro
},
pow10x: function (e) {
var x = 1
while (e--) {
x *= 10
}
return x
},
sigma: function (low, high, ex) {
var sum = 0
for (var i = low; i <= high; i++) {
sum += Number(ex.postfixEval({
n: i
}))
}
return sum
},
sin: function (x) {
if (Mexp.math.isDegree) x = Mexp.math.toRadian(x)
return Math.sin(x)
},
sinh: function (x) {
return (Math.pow(Math.E, x) - Math.pow(Math.E, -1 * x)) / 2
},
sub: function (a, b) {
return a - b
},
tan: function (x) {
if (Mexp.math.isDegree) x = Mexp.math.toRadian(x)
return Math.tan(x)
},
tanh: function (x) {
return Mexp.sinha(x) / Mexp.cosha(x)
},
toRadian: function (x) {
return x * Math.PI / 180
}
}
Mexp.Exception = function (message) {
this.message = message
}
module.exports = Mexp
},{}],4:[function(require,module,exports){
var Mexp=require('./lexer.js');
Mexp.prototype.toPostfix = function () {
'use strict';
var post=[],elem,popped,prep,pre,ele;
var stack=[{value:"(",type:4,pre:0}];
var arr=this.value;
for (var i=1; i < arr.length; i++) {
if(arr[i].type===1||arr[i].type===3||arr[i].type===13){ //if token is number,constant,or n(which is also a special constant in our case)
if(arr[i].type===1)
arr[i].value=Number(arr[i].value);
post.push(arr[i]);
}
else if(arr[i].type===4){
stack.push(arr[i]);
}
else if(arr[i].type===5){
while((popped=stack.pop()).type!==4){
post.push(popped);
}
}
else if(arr[i].type===11){
while((popped=stack.pop()).type!==4){
post.push(popped);
}
stack.push(popped);
}
else {
elem=arr[i];
pre=elem.pre;
ele=stack[stack.length-1];
prep=ele.pre;
var flag=ele.value=='Math.pow'&&elem.value=='Math.pow';
if(pre>prep)stack.push(elem);
else {
while(prep>=pre&&!flag||flag&&pre<prep){
popped=stack.pop();
ele=stack[stack.length-1];
post.push(popped);
prep=ele.pre;
flag=elem.value=='Math.pow'&&ele.value=='Math.pow';
}
stack.push(elem);
}
}
}
return new Mexp(post);
};
module.exports=Mexp;
},{"./lexer.js":2}],5:[function(require,module,exports){
var Mexp=require('./postfix.js');
Mexp.prototype.postfixEval = function (UserDefined) {
'use strict';
UserDefined=UserDefined||{};
UserDefined.PI=Math.PI;
UserDefined.E=Math.E;
var stack=[],pop1,pop2,pop3;
var disp=[];
var temp='';
var arr=this.value;
var bool=(typeof UserDefined.n!=="undefined");
for(var i=0;i<arr.length;i++){
if(arr[i].type===1){
stack.push({value:arr[i].value,type:1});
}
else if(arr[i].type===3){
stack.push({value:UserDefined[arr[i].value],type:1});
}
else if(arr[i].type===0){
if(typeof stack[stack.length-1].type==="undefined"){
stack[stack.length-1].value.push(arr[i]);
}
else stack[stack.length-1].value=arr[i].value(stack[stack.length-1].value);
}
else if(arr[i].type===7){
if(typeof stack[stack.length-1].type==="undefined"){
stack[stack.length-1].value.push(arr[i]);
}
else stack[stack.length-1].value=arr[i].value(stack[stack.length-1].value);
}
else if(arr[i].type===8){
pop1=stack.pop();
pop2=stack.pop();
stack.push({type:1,value:arr[i].value(pop2.value,pop1.value)});
}
else if(arr[i].type===10){
pop1=stack.pop();
pop2=stack.pop();
if(typeof pop2.type==="undefined"){
pop2.value=pop2.concat(pop1);
pop2.value.push(arr[i]);
stack.push(pop2);
}
else if (typeof pop1.type==="undefined") {
pop1.unshift(pop2);
pop1.push(arr[i]);
stack.push(pop1);
}
else{
stack.push({type:1,value:arr[i].value(pop2.value,pop1.value)});
}
}
else if(arr[i].type===2||arr[i].type===9){
pop1=stack.pop();
pop2=stack.pop();
if(typeof pop2.type==="undefined"){
console.log(pop2);
pop2=pop2.concat(pop1);
pop2.push(arr[i]);
stack.push(pop2);
}
else if (typeof pop1.type==="undefined") {
pop1.unshift(pop2);
pop1.push(arr[i]);
stack.push(pop1);
}
else{
stack.push({type:1,value:arr[i].value(pop2.value,pop1.value)});
}
}
else if(arr[i].type===12){
pop1=stack.pop();
if (typeof pop1.type!=="undefined") {
pop1=[pop1];
}
pop2=stack.pop();
pop3=stack.pop();
stack.push({type:1,value:arr[i].value(pop3.value,pop2.value,new Mexp(pop1))});
}
else if(arr[i].type===13){
if(bool){
stack.push({value:UserDefined[arr[i].value],type:3});
}
else stack.push([arr[i]]);
}
}
if (stack.length>1) {
throw(new Mexp.exception("Uncaught Syntax error"));
}
return stack[0].value>1000000000000000?"Infinity":parseFloat(stack[0].value.toFixed(15));
};
Mexp.eval=function(str,tokens,obj){
if (typeof tokens==="undefined") {
return this.lex(str).toPostfix().postfixEval();
}
else if (typeof obj==="undefined") {
if (typeof tokens.length!=="undefined")
return this.lex(str,tokens).toPostfix().postfixEval();
else
return this.lex(str).toPostfix().postfixEval(tokens);
}
else
return this.lex(str,tokens).toPostfix().postfixEval(obj);
};
module.exports=Mexp;
},{"./postfix.js":4}]},{},[1])(1)
});