214

What are the differences between this line:

var a = parseInt("1", 10); // a === 1

and this line

var a = +"1"; // a === 1

This jsperf test shows that the unary operator is much faster in the current chrome version, assuming it is for node.js!?

If I try to convert strings which are not numbers both return NaN:

var b = parseInt("test", 10); // b === NaN
var b = +"test"; // b === NaN

So when should I prefer using parseInt over the unary plus (especially in node.js)???

edit: and what's the difference to the double tilde operator ~~?

2

6 Answers 6

415

The ultimate whatever-to-number conversion table: Conversion table

EXPRS = [
    'parseInt(x)',
    'parseFloat(x)',
    'Number(x)',
    '+x',
    '~~x',
    'x>>>0',
    'isNaN(x)'

];

VALUES = [
    '"123"',
    '"+123"',
    '"-123"',
    '"123.45"',
    '"-123.45"',
    '"12e5"',
    '"12e-5"',
    
    '"0123"',
    '"0000123"',
    '"0b111"',
    '"0o10"',
    '"0xBABE"',
    
    '"4294967295"',
    '"123456789012345678"',
    '"12e999"',

    '""',
    '"123foo"',
    '"123.45foo"',
    '"  123   "',
    '"foo"',
    '"12e"',
    '"0b567"',
    '"0o999"',
    '"0xFUZZ"',

    '"+0"',
    '"-0"',
    '"Infinity"',
    '"+Infinity"',
    '"-Infinity"',
    'BigInt(1)',

    'null',
    'undefined',
    'true',
    'false',
    'Infinity',
    'NaN',

    '{}',
    '{valueOf: function(){return 42}}',
    '{toString: function(){return "56"}}',

];

//////

function wrap(tag, s) {
    if (s && s.join)
        s = s.join('');
    return '<' + tag + '>' + String(s) + '</' + tag + '>';
}

function table(head, rows) {
    return wrap('table', [
        wrap('thead', tr(head)),
        wrap('tbody', rows.map(tr))
    ]);
}

function tr(row) {
    return wrap('tr', row.map(function (s) {
        return wrap('td', s)
    }));
}

function val(n) {
    return n === true || Number.isNaN(n) || n === "Error" ? wrap('b', n) : String(n);
}

var rows = VALUES.map(function (v) {
    var x = eval('(' + v + ')');
    return [v].concat(EXPRS.map(function (e) {
        try {
            return val(eval(e));
        } catch {
            return val("Error");
        }
    }));
});

document.body.innerHTML = table(["x"].concat(EXPRS), rows);
table { border-collapse: collapse }
tr:nth-child(odd) { background: #fafafa }
td { border: 1px solid #e0e0e0; padding: 5px; font: 12px monospace }
td:not(:first-child) { text-align: right }
thead td { background: #3663AE; color: white }
b { color: red }

8
  • 4
    Please add "NaN" to this table.
    – chharvey
    Dec 23, 2014 at 3:51
  • 2
    It might be worth adding an isNaN column to this table: for example, isNaN("") is false (i.e it's considered a number), but parseFloat("") is NaN, which can be a gotcha, if you're trying to use isNaN to validate the input before passing it to parseFloat
    – Retsam
    Feb 9, 2018 at 17:11
  • 2
    You should also add '{valueOf: function(){return 42}, toString: function(){return "56"}}' to the list. The mixed results are interesting.
    – murrayju
    Jul 12, 2018 at 17:47
  • 12
    So, the summary of the table is that + is just a shorter way of writing Number, and the furter ones are just crazy ways to do it that fail on edge cases? Aug 21, 2018 at 13:51
  • Is [].undef a thing, or is that just an arbitrary way of generating undefined? Can't find any record of "undef" related to JS through Google.
    – jcairney
    Feb 25, 2019 at 20:30
219

Well, here are a few differences I know of:

  • An empty string "" evaluates to a 0, while parseInt evaluates it to NaN. IMO, a blank string should be a NaN.

      +'' === 0;              //true
      isNaN(parseInt('',10)); //true
    
  • The unary + acts more like parseFloat since it also accepts decimals.

    parseInt on the other hand stops parsing when it sees a non-numerical character, like the period that is intended to be a decimal point ..

      +'2.3' === 2.3;           //true
      parseInt('2.3',10) === 2; //true
    
  • parseInt and parseFloat parses and builds the string left to right. If they see an invalid character, it returns what has been parsed (if any) as a number, and NaN if none was parsed as a number.

    The unary + on the other hand will return NaN if the entire string is non-convertible to a number.

      parseInt('2a',10) === 2; //true
      parseFloat('2a') === 2;  //true
      isNaN(+'2a');            //true
    
  • As seen in the comment of @Alex K., parseInt and parseFloat will parse by character. This means hex and exponent notations will fail since the x and e are treated as non-numerical components (at least on base10).

    The unary + will convert them properly though.

      parseInt('2e3',10) === 2;  //true. This is supposed to be 2000
      +'2e3' === 2000;           //true. This one's correct.
    
      parseInt("0xf", 10) === 0; //true. This is supposed to be 15
      +'0xf' === 15;             //true. This one's correct.
    
6
  • 6
    Also when using a radix +"0xf" != parseInt("0xf", 10)
    – Alex K.
    Jun 14, 2013 at 10:50
  • i like your answer most so far, can you also explain what the difference to the double tilde operator ~~ is? Jun 14, 2013 at 10:56
  • @hereandnow78 That would be explained here. It's bitwise equivalent of Math.floor(), which basically chops off the decimal part.
    – Joseph
    Jun 14, 2013 at 11:01
  • 6
    Actually, "2e3" is not a valid integer representation for 2000. It is a valid floating point number though: parseFloat("2e3") will correctly yield 2000 as the answer. And "0xf" requires at least base 16, which is why parseInt("0xf", 10) returns 0, whereas parseInt("0xf", 16) returns the value of 15 you were expecting.
    – Bart
    Nov 25, 2013 at 13:02
  • 2
    @Joseph the Dreamer and @hereandnow78: Double tilde cuts off the decimal part of the number, while Math.floor returns the closest lower number. They work the same for positive number, but Math.floor(-3.5) == -4 and ~~-3.5 == -3.
    – Albin
    May 14, 2014 at 11:18
12

The table in thg435's answer I believe is comprehensive, however we can summarize with the following patterns:

  • Unary plus does not treat all falsy values the same, but they all come out falsy.
  • Unary plus sends true to 1, but "true" to NaN.
  • On the other hand, parseInt is more liberal for strings that are not pure digits. parseInt('123abc') === 123, whereas + reports NaN.
  • Number will accept valid decimal numbers, whereas parseInt merely drops everything past the decimal. Thus parseInt mimics C behavior, but is perhaps not ideal for evaluating user input.
  • Both trim whitespace in strings.
  • parseInt, being a badly designed parser, accepts octal and hexadecimal input. Unary plus only takes hexademical.

Falsy values convert to Number following what would make sense in C: null and false are both zero. "" going to 0 doesn't quite follow this convention but makes enough sense to me.

Therefore I think if you are validating user input, unary plus has correct behavior for everything except it accepts decimals (but in my real life cases I'm more interested in catching email input instead of userId, value omitted entirely, etc.), whereas parseInt is too liberal.

1
  • 4
    "Unary plus only takes hexadecimal" Don't you mean decimal?
    – krillgar
    Sep 18, 2019 at 17:55
1

Be carefull, parseInt is faster than + unary operator in Node.JS, it's false that + or |0 are faster, them are faster only for NaN elements.

Check this out:

var arg=process.argv[2];

rpt=20000;
mrc=1000;

a=[];
b=1024*1024*1024*1024;
for (var i=0;i<rpt;i++)
 a[i]=Math.floor(Math.random()*b)+' ';

t0=Date.now();
if ((arg==1)||(arg===undefined))
 for (var j=0;j<mrc;j++) for (var i=0;i<rpt;i++) {
  c=a[i]-0;
 }
t1=Date.now();
if ((arg==2)||(arg===undefined)) {
 for (var j=0;j<mrc;j++) for (var i=0;i<rpt;i++) {
  d=a[i]|0;
 }
}
t2=Date.now();
if ((arg==3)||(arg===undefined)) {
 for (var j=0;j<mrc;j++) for (var i=0;i<rpt;i++) {
  e=parseInt(a[i]);
 }
}
t3=Date.now();
 if ((arg==3)||(arg===undefined)) {
 for (var j=0;j<mrc;j++) for (var i=0;i<rpt;i++) {
  f=+a[i];
 }
}
t4=Date.now();

console.log(a[i-1],c,d,e,f);
console.log('Eseguiti: '+rpt*mrc+' cicli');
console.log('parseInt '+(t3-t2));
console.log('|0 '+(t2-t1));
console.log('-0 '+(t1-t0));
console.log('+ '+(t4-t3));
1

I recommend use Math.floor (or ~~ if you know numbers are positive) instead of parseString. +(expression) is out of scope, because +(expression) is more like parseFloat. Look this little benchmark:

// 1000000 iterations each one
node test_speed
Testing ~~, time: 5 ms
Testing parseInt with number, time: 25 ms
Testing parseInt with string, time: 386 ms
Testing Math.floor, time: 18 ms

The source code of benchmark:


/* el propósito de este script es evaluar
que expresiones se ejecutan más rápido para así 
decidir cuál usar */

main()
async function main(){
    let time, x 
    let number = 23456.23457
    
    let test1 = ()=>{
        x = 0
        time = Date.now() 
        for(let i=0;i<1000000;i++){
            let op = Math.floor(number / 3600)
            x = op
        }
        console.info("Testing Math.floor, time:", Date.now() - time, "ms")
    }

    let test2 = ()=>{
        x = 0
        time = Date.now() 
        for(let i=0;i<1000000;i++){
            let op = parseInt(number / 3600)
            x = op
        }
        console.info("Testing parseInt with number, time:", Date.now() - time, "ms")
    }

    let test3 = ()=>{
        x = 0
        time = Date.now() 
        for(let i=0;i<1000000;i++){
            let op = parseInt((number / 3600).toString())
            x = op
        }
        console.info("Testing parseInt with string, time:", Date.now() - time, "ms")
    }

    let test4 = ()=>{
        x = 0
        time = Date.now() 
        for(let i=0;i<1000000;i++){
            let op = ~~(number / 3600)
            x = op
        }
        console.info("Testing ~~, time:", Date.now() - time, "ms")
    }
    
    test4()
    test2()
    test3()
    test1()
    
}
-2

Consider performance too. I was suprised that parseInt beats unary plus on iOS :) This is helpful for web apps with heavy CPU consumption only. As a rule-of-thumb I'd suggest JS opt-guys to consider any JS operator over another one from the mobile performance point of view nowadays.

So, go mobile-first ;)

6
  • As the other posts explain they do quite different things, so you can't easily swap one for the other…
    – Bergi
    Jul 19, 2013 at 14:14
  • @Bergi, right, but they also have a lot in common. Tell me just one performance solution in JavaScript that is definitely the only right choice? In general that's why rule-of-thumbs are out there for us. The rest is task-specific.
    – Arman
    Jul 30, 2013 at 9:43
  • 6
    @ArmanMcHitaryan this is useless microoptimisation and it does not worth it. Check out this article - fabien.potencier.org/article/8/…
    – webvitaly
    Dec 15, 2013 at 20:09
  • @webvitaly, nice article. There are always very perf-oriented guys out there who just like to write "the fastest possible" code and in some specific projects that's not bad. That's why I mentioned "JS opt-guys to consider". this is not A MUST of course :), but I myself find it much more readable in addition.
    – Arman
    Dec 19, 2013 at 15:05
  • Do you have a citation for this? Your link is broken.
    – djechlin
    May 9, 2016 at 15:44

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