How do you reverse a string in-place in JavaScript when it is passed to a function with a return statement, without using built-in functions (.reverse()
, .charAt()
etc.)?
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so, you're not allowed to use .charAt() to get the characters of the string?– IrwinCommented Jun 6, 2009 at 3:27
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192You can't. JavaScript strings are immutable, meaning the memory allocated to each cannot be written to, making true "in place" reversals impossible.– Crescent FreshCommented Jun 6, 2009 at 4:36
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3Re: crescentfresh's comment see stackoverflow.com/questions/51185/…– baudtackCommented Jun 6, 2009 at 5:25
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3@crescentfresh you should post that as a new answer.– baudtackCommented Jun 6, 2009 at 5:47
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2Reverse a string in 3 ways in Javascript– Somnath MulukCommented Sep 12, 2016 at 7:12
58 Answers
As long as you're dealing with simple ASCII characters, and you're happy to use built-in functions, this will work:
function reverse(s){
return s.split("").reverse().join("");
}
If you need a solution that supports UTF-16 or other multi-byte characters, be aware that this function will give invalid unicode strings, or valid strings that look funny. You might want to consider this answer instead.
The array expansion operator is Unicode aware:
function reverse(s){
return [...s].reverse().join("");
}
Another Unicode aware solution using split()
, as explained on MDN, is to use a regexp with the u
(Unicode) flag set as a separator.
function reverse(s){
return s.split(/(?:)/u).reverse().join("");
}
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52This is broken for UTF-16 strings that contain surrogate pairs, i.e. characters outside of the basic multilingual plane. It will also give funny results for strings containing combining chars, e.g. a diaeresis might appear on the following character. The first issue will lead to invalid unicode strings, the second to valid strings that look funny. Commented Apr 10, 2013 at 13:21
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2@Richeve Bebedor "All without using the built-in functions? .reverse()" This would not be an accepted solution since it does not fit within the confines of the question, despite being a viable solution to reversing a string in JS. Commented Apr 30, 2013 at 18:06
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2@DavidStarkey: Yes, looking back on this almost four years later, it's hard to see how I so thoroughly missed the point of the question. It looks like I should've just waited two minutes and upvoted crescentfresh's comment on the original post!– belacquaCommented May 2, 2013 at 2:04
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16@MartinProbst My answer provides a Unicode-aware solution to the problem that deals with surrogate pairs and combining marks correctly: stackoverflow.com/a/16776380/96656 Commented May 27, 2013 at 15:45
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6For UTF-16
return [...s].reverse().join("");
may work. Commented May 5, 2018 at 3:21
The following technique (or similar) is commonly used to reverse a string in JavaScript:
// Don’t use this!
var naiveReverse = function(string) {
return string.split('').reverse().join('');
}
In fact, all the answers posted so far are a variation of this pattern. However, there are some problems with this solution. For example:
naiveReverse('foo 𝌆 bar');
// → 'rab �� oof'
// Where did the `𝌆` symbol go? Whoops!
If you’re wondering why this happens, read up on JavaScript’s internal character encoding. (TL;DR: 𝌆
is an astral symbol, and JavaScript exposes it as two separate code units.)
But there’s more:
// To see which symbols are being used here, check:
// http://mothereff.in/js-escapes#1ma%C3%B1ana%20man%CC%83ana
naiveReverse('mañana mañana');
// → 'anãnam anañam'
// Wait, so now the tilde is applied to the `a` instead of the `n`? WAT.
A good string to test string reverse implementations is the following:
'foo 𝌆 bar mañana mañana'
Why? Because it contains an astral symbol (𝌆
) (which are represented by surrogate pairs in JavaScript) and a combining mark (the ñ
in the last mañana
actually consists of two symbols: U+006E LATIN SMALL LETTER N and U+0303 COMBINING TILDE).
The order in which surrogate pairs appear cannot be reversed, else the astral symbol won’t show up anymore in the ‘reversed’ string. That’s why you saw those ��
marks in the output for the previous example.
Combining marks always get applied to the previous symbol, so you have to treat both the main symbol (U+006E LATIN SMALL LETTER N) as the combining mark (U+0303 COMBINING TILDE) as a whole. Reversing their order will cause the combining mark to be paired with another symbol in the string. That’s why the example output had ã
instead of ñ
.
Hopefully, this explains why all the answers posted so far are wrong.
To answer your initial question — how to [properly] reverse a string in JavaScript —, I’ve written a small JavaScript library that is capable of Unicode-aware string reversal. It doesn’t have any of the issues I just mentioned. The library is called Esrever; its code is on GitHub, and it works in pretty much any JavaScript environment. It comes with a shell utility/binary, so you can easily reverse strings from your terminal if you want.
var input = 'foo 𝌆 bar mañana mañana';
esrever.reverse(input);
// → 'anañam anañam rab 𝌆 oof'
As for the “in-place” part, see the other answers.
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97You should include the main part of the code of Esrever in your answer. Commented Jul 31, 2014 at 11:25
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2
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9The problem, off-course, is that "reverse a string" sounds unambiguous, but it isn't in the face of the problems mentioned here. Is reversing a string returning the string that when printed would display the grapheme clusters in the string in reverse order? On the one hand, that sounds likely. On the other, why would you ever want to do that? This definition hinges on it being printed, and printing a reversed string is rarely useful. As part of an algorithm, your requirements might be different altogether.– MartijnCommented Apr 14, 2015 at 10:55
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31While this does a great job of explaining the problem, the actual answer is in another castle. As @r0estir0bbe said over a year ago, the relevant code should be in the answer, not just linked. Commented Sep 17, 2015 at 8:53
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6"Hopefully, this explains why all the answers posted so far are wrong" - This assertion is overly forceful imo. Many use-cases do not require UTF-16 support (simple example; working with URL's and URL components/parameters). A solution is not "wrong" simply because it doesn't handle a non-required scenario. Notably, the top-voted answer explicitly declares that it only works with ASCII characters and thus is definitely not even a little bit wrong.– arothCommented Mar 7, 2018 at 3:47
String.prototype.reverse_string=function() {return this.split("").reverse().join("");}
or
String.prototype.reverse_string = function() {
var s = "";
var i = this.length;
while (i>0) {
s += this.substring(i-1,i);
i--;
}
return s;
}
-
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6string concatenation is expensive. Better to build an array and join it or use concat().– BjornCommented Jun 6, 2009 at 5:52
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2
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10However, neither solution work when Unicode compound characters are present. Commented Aug 2, 2011 at 9:37
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2@JuanMendes I left that comment in 2009, things have changed in the last 4 years. :P– BjornCommented Feb 26, 2013 at 14:48
Detailed analysis and ten different ways to reverse a string and their performance details.
http://eddmann.com/posts/ten-ways-to-reverse-a-string-in-javascript/
Perfomance of these implementations:
Best performing implementation(s) per browser
- Chrome 15 - Implemations 1 and 6
- Firefox 7 - Implementation 6
- IE 9 - Implementation 4
- Opera 12 - Implementation 9
Here are those implementations:
Implementation 1:
function reverse(s) {
var o = '';
for (var i = s.length - 1; i >= 0; i--)
o += s[i];
return o;
}
Implementation 2:
function reverse(s) {
var o = [];
for (var i = s.length - 1, j = 0; i >= 0; i--, j++)
o[j] = s[i];
return o.join('');
}
Implementation 3:
function reverse(s) {
var o = [];
for (var i = 0, len = s.length; i <= len; i++)
o.push(s.charAt(len - i));
return o.join('');
}
Implementation 4:
function reverse(s) {
return s.split('').reverse().join('');
}
Implementation 5:
function reverse(s) {
var i = s.length,
o = '';
while (i > 0) {
o += s.substring(i - 1, i);
i--;
}
return o;
}
Implementation 6:
function reverse(s) {
for (var i = s.length - 1, o = ''; i >= 0; o += s[i--]) { }
return o;
}
Implementation 7:
function reverse(s) {
return (s === '') ? '' : reverse(s.substr(1)) + s.charAt(0);
}
Implementation 8:
function reverse(s) {
function rev(s, len, o) {
return (len === 0) ? o : rev(s, --len, (o += s[len]));
};
return rev(s, s.length, '');
}
Implementation 9:
function reverse(s) {
s = s.split('');
var len = s.length,
halfIndex = Math.floor(len / 2) - 1,
tmp;
for (var i = 0; i <= halfIndex; i++) {
tmp = s[len - i - 1];
s[len - i - 1] = s[i];
s[i] = tmp;
}
return s.join('');
}
Implementation 10
function reverse(s) {
if (s.length < 2)
return s;
var halfIndex = Math.ceil(s.length / 2);
return reverse(s.substr(halfIndex)) +
reverse(s.substr(0, halfIndex));
}
Implementation 11
var reverser = function(str){
let string = str.split('');
for(i=0;i<string.length;i++){
debugger;
string.splice(i,0,string.pop());
}
console.log(string.join())
}
reverser('abcdef')
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Why can't we just do: Array.prototype.reverse.call(string) ? like .filter works this way on strings...– RegarBoyCommented Jul 24, 2021 at 8:34
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if you are in small project, you can do :
String.prototype.reverse = function(){ return [...this].reverse().join("")};
so you can get the reverse of string like 'reverseme'.reverse() (returned value 'emesrever') and if you want performance benefit, you can replace the prototype functions with one in this answer– rickvianCommented Jul 31, 2021 at 8:29
The whole "reverse a string in place" is an antiquated interview question C programmers, and people who were interviewed by them (for revenge, maybe?), will ask. Unfortunately, it's the "In Place" part that no longer works because strings in pretty much any managed language (JS, C#, etc) uses immutable strings, thus defeating the whole idea of moving a string without allocating any new memory.
While the solutions above do indeed reverse a string, they do not do it without allocating more memory, and thus do not satisfy the conditions. You need to have direct access to the string as allocated, and be able to manipulate its original memory location to be able to reverse it in place.
Personally, i really hate these kinds of interview questions, but sadly, i'm sure we'll keep seeing them for years to come.
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14I can at least say that I had one interviewer a while back be pretty impressed when he asked me how to reverse a string "in-place" in JS and I explained why its impossible since strings in JS are immutable. I don't know if that was the answer he expected or if I educated him a little. Either way it worked out alright ;)– ChevCastCommented Jan 28, 2014 at 17:43
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1Maybe he means "managed" by a garbage collector, at least that is what is usually meant by "managed language" or the presence of a Virtual Machine / Virtual Runtime Environment? @torazaburo– AntonBCommented Jul 15, 2016 at 15:12
First, use Array.from()
to turn a string into an array, then Array.prototype.reverse()
to reverse the array, and then Array.prototype.join()
to make it back a string.
const reverse = str => Array.from(str).reverse().join('');
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It's got overhead, but this is an elegant solution! There's no rewrite of the pre-existing
reverse
logic. Commented Aug 20, 2016 at 19:44 -
2@felixfbecker No,
string.split('')
doesn't work. See this answer for more explanation. Commented Oct 13, 2016 at 11:40 -
5This should be the accepted answer because it also works with unicode. Eg, from the example above:
Array.from('foo 𝌆 bar mañana mañana').reverse().join('') == 'anãnam anañam rab 𝌆 oof'
Commented Jan 31, 2017 at 6:18 -
3@JulianTF Not exactly, one tilde is still applied to 'a' instead of 'n'. Commented Dec 3, 2017 at 14:18
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3@RomanBoiko True, but you can normalize the string first.
Array.from('foo 𝌆 bar mañana mañana'.normalize('NFC')).reverse().join('')
will become"anañam anañam rab 𝌆 oof"
Commented Feb 4, 2020 at 13:05
In ECMAScript 6, you can reverse a string even faster without using .split('')
split method, with the spread operator like so:
var str = [...'racecar'].reverse().join('');
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1ES6 also allows you to use two backticks `` instead of
('')
– user4227915Commented Feb 27, 2016 at 3:12 -
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3Unless you are code golfing you should avoid this. Writing
string.split('')
is clearer to most people than[...string]
.– AnnanFayCommented Mar 27, 2018 at 1:06 -
7@AnnanFay
.split('')
has the issue with characters from the supplementary planes (surrogate pairs in UTF-16), because it splits by UTF-16 code unit rather than code point. The spread operator andArray.from()
(my preference) don't.– InklingCommented Feb 16, 2020 at 4:23 -
@Inkling I didn't realise that was an issue. Thanks for pointing it out. I'd still be tempted to write a utility function for clarity.– AnnanFayCommented Feb 16, 2020 at 20:53
Seems like I'm 3 years late to the party...
Unfortunately you can't as has been pointed out. See Are JavaScript strings immutable? Do I need a "string builder" in JavaScript?
The next best thing you can do is to create a "view" or "wrapper", which takes a string and reimplements whatever parts of the string API you are using, but pretending the string is reversed. For example:
var identity = function(x){return x};
function LazyString(s) {
this.original = s;
this.length = s.length;
this.start = 0; this.stop = this.length; this.dir = 1; // "virtual" slicing
// (dir=-1 if reversed)
this._caseTransform = identity;
}
// syntactic sugar to create new object:
function S(s) {
return new LazyString(s);
}
//We now implement a `"...".reversed` which toggles a flag which will change our math:
(function(){ // begin anonymous scope
var x = LazyString.prototype;
// Addition to the String API
x.reversed = function() {
var s = new LazyString(this.original);
s.start = this.stop - this.dir;
s.stop = this.start - this.dir;
s.dir = -1*this.dir;
s.length = this.length;
s._caseTransform = this._caseTransform;
return s;
}
//We also override string coercion for some extra versatility (not really necessary):
// OVERRIDE STRING COERCION
// - for string concatenation e.g. "abc"+reversed("abc")
x.toString = function() {
if (typeof this._realized == 'undefined') { // cached, to avoid recalculation
this._realized = this.dir==1 ?
this.original.slice(this.start,this.stop) :
this.original.slice(this.stop+1,this.start+1).split("").reverse().join("");
this._realized = this._caseTransform.call(this._realized, this._realized);
}
return this._realized;
}
//Now we reimplement the String API by doing some math:
// String API:
// Do some math to figure out which character we really want
x.charAt = function(i) {
return this.slice(i, i+1).toString();
}
x.charCodeAt = function(i) {
return this.slice(i, i+1).toString().charCodeAt(0);
}
// Slicing functions:
x.slice = function(start,stop) {
// lazy chaining version of https://developer.mozilla.org/en-US/docs/JavaScript/Reference/Global_Objects/Array/slice
if (stop===undefined)
stop = this.length;
var relativeStart = start<0 ? this.length+start : start;
var relativeStop = stop<0 ? this.length+stop : stop;
if (relativeStart >= this.length)
relativeStart = this.length;
if (relativeStart < 0)
relativeStart = 0;
if (relativeStop > this.length)
relativeStop = this.length;
if (relativeStop < 0)
relativeStop = 0;
if (relativeStop < relativeStart)
relativeStop = relativeStart;
var s = new LazyString(this.original);
s.length = relativeStop - relativeStart;
s.start = this.start + this.dir*relativeStart;
s.stop = s.start + this.dir*s.length;
s.dir = this.dir;
//console.log([this.start,this.stop,this.dir,this.length], [s.start,s.stop,s.dir,s.length])
s._caseTransform = this._caseTransform;
return s;
}
x.substring = function() {
// ...
}
x.substr = function() {
// ...
}
//Miscellaneous functions:
// Iterative search
x.indexOf = function(value) {
for(var i=0; i<this.length; i++)
if (value==this.charAt(i))
return i;
return -1;
}
x.lastIndexOf = function() {
for(var i=this.length-1; i>=0; i--)
if (value==this.charAt(i))
return i;
return -1;
}
// The following functions are too complicated to reimplement easily.
// Instead just realize the slice and do it the usual non-in-place way.
x.match = function() {
var s = this.toString();
return s.apply(s, arguments);
}
x.replace = function() {
var s = this.toString();
return s.apply(s, arguments);
}
x.search = function() {
var s = this.toString();
return s.apply(s, arguments);
}
x.split = function() {
var s = this.toString();
return s.apply(s, arguments);
}
// Case transforms:
x.toLowerCase = function() {
var s = new LazyString(this.original);
s._caseTransform = ''.toLowerCase;
s.start=this.start; s.stop=this.stop; s.dir=this.dir; s.length=this.length;
return s;
}
x.toUpperCase = function() {
var s = new LazyString(this.original);
s._caseTransform = ''.toUpperCase;
s.start=this.start; s.stop=this.stop; s.dir=this.dir; s.length=this.length;
return s;
}
})() // end anonymous scope
Demo:
> r = S('abcABC')
LazyString
original: "abcABC"
__proto__: LazyString
> r.charAt(1); // doesn't reverse string!!! (good if very long)
"B"
> r.toLowerCase() // must reverse string, so does so
"cbacba"
> r.toUpperCase() // string already reversed: no extra work
"CBACBA"
> r + '-demo-' + r // natural coercion, string already reversed: no extra work
"CBAcba-demo-CBAcba"
The kicker -- the following is done in-place by pure math, visiting each character only once, and only if necessary:
> 'demo: ' + S('0123456789abcdef').slice(3).reversed().slice(1,-1).toUpperCase()
"demo: EDCBA987654"
> S('0123456789ABCDEF').slice(3).reversed().slice(1,-1).toLowerCase().charAt(3)
"b"
This yields significant savings if applied to a very large string, if you are only taking a relatively small slice thereof.
Whether this is worth it (over reversing-as-a-copy like in most programming languages) highly depends on your use case and how efficiently you reimplement the string API. For example if all you want is to do string index manipulation, or take small slice
s or substr
s, this will save you space and time. If you're planning on printing large reversed slices or substrings however, the savings may be small indeed, even worse than having done a full copy. Your "reversed" string will also not have the type string
, though you might be able to fake this with prototyping.
The above demo implementation creates a new object of type ReversedString. It is prototyped, and therefore fairly efficient, with almost minimal work and minimal space overhead (prototype definitions are shared). It is a lazy implementation involving deferred slicing. Whenever you perform a function like .slice
or .reversed
, it will perform index mathematics. Finally when you extract data (by implicitly calling .toString()
or .charCodeAt(...)
or something), it will apply those in a "smart" manner, touching the least data possible.
Note: the above string API is an example, and may not be implemented perfectly. You also can use just 1-2 functions which you need.
Legible way using spread syntax:
const reverseString = str => [...str].reverse().join('');
console.log(reverseString('ABC'));
There are many ways you can reverse a string in JavaScript. I'm jotting down three ways I prefer.
Approach 1: Using reverse function:
function reverse(str) {
return str.split('').reverse().join('');
}
Approach 2: Looping through characters:
function reverse(str) {
let reversed = '';
for (let character of str) {
reversed = character + reversed;
}
return reversed;
}
Approach 3: Using reduce function:
function reverse(str) {
return str.split('').reduce((rev, char) => char + rev, '');
}
I hope this helps :)
There are Multiple ways of doing it, you may check the following,
1. Traditional for loop(incrementing):
function reverseString(str){
let stringRev ="";
for(let i= 0; i<str.length; i++){
stringRev = str[i]+stringRev;
}
return stringRev;
}
alert(reverseString("Hello World!"));
2. Traditional for loop(decrementing):
function reverseString(str){
let revstr = "";
for(let i = str.length-1; i>=0; i--){
revstr = revstr+ str[i];
}
return revstr;
}
alert(reverseString("Hello World!"));
3. Using for-of loop
function reverseString(str){
let strn ="";
for(let char of str){
strn = char + strn;
}
return strn;
}
alert(reverseString("Get well soon"));
4. Using the forEach/ high order array method:
function reverseString(str){
let revSrring = "";
str.split("").forEach(function(char){
revSrring = char + revSrring;
});
return revSrring;
}
alert(reverseString("Learning JavaScript"));
5. ES6 standard:
function reverseString(str){
let revSrring = "";
str.split("").forEach(char => revSrring = char + revSrring);
return revSrring;
}
alert(reverseString("Learning JavaScript"));
6. The latest way:
function reverseString(str){
return str.split("").reduce(function(revString, char){
return char + revString;
}, "");
}
alert(reverseString("Learning JavaScript"));
7. You may also get the result using the following,
function reverseString(str){
return str.split("").reduce((revString, char)=> char + revString, "");
}
alert(reverseString("Learning JavaScript"));
During an interview, I was asked to reverse a string without using any variables or native methods. This is my favorite implementation:
function reverseString(str) {
return str === '' ? '' : reverseString(str.slice(1)) + str[0];
}
-
-
15Zero native methods? What about
slice
? :-/– user1636522Commented Jun 14, 2015 at 11:10 -
1Interesting use of recursion. Ironic that it's on Stack Overflow. stackoverflow.com/q/2805172/265877– AlexCommented Sep 2, 2015 at 17:17
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@Alex, you make a good point. In some cases, the interviewer will ask you not to use
Array.prototype.reverse()
.– DanielCommented Oct 1, 2018 at 19:02
In ES6, you have one more option
function reverseString (str) {
return [...str].reverse().join('')
}
reverseString('Hello');
This is the easiest way I think
var reverse = function(str) {
var arr = [];
for (var i = 0, len = str.length; i <= len; i++) {
arr.push(str.charAt(len - i))
}
return arr.join('');
}
console.log(reverse('I want a 🍺'));
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5It's nice that you've included an emoji in your example. So that we quickly see that this clearly doesn't work for emojis and a lot of other unicode chars.– Íhor MéCommented Jul 21, 2017 at 20:48
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Faith, while your answer is correct, I disagree that it is the easiest way. The first several answers make use of
Array.prototype.reverse()
that would be the easiest way, hence the most popular answer. Of course, it would require good prior knowledge of JavaScript.– DanielCommented Oct 1, 2018 at 19:04
var str = 'sample string';
[].map.call(str, function(x) {
return x;
}).reverse().join('');
OR
var str = 'sample string';
console.log(str.split('').reverse().join(''));
// Output: 'gnirts elpmas'
-
Your entire 'map` part can be written as
[...str]
.– user663031Commented May 1, 2017 at 5:25
If you don't want to use any built in function. Try this
var string = 'abcdefg';
var newstring = '';
for(let i = 0; i < string.length; i++){
newstring = string[i] += newstring;
}
console.log(newstring);
As other's have pointed out, strings are immutable, so you cannot reverse it in-place. You'll need to produce a new string instead. One new option to do this is to use Intl.Segmenter which allows you to split on the visual graphemes (ie: user-perceived character units such as emojis, characters, etc.). Intl.Segmenter
is currently a stage 4 proposal and there is a polyfill available for it if you wish to use it. It currently has limited browser support which you can find more information about here.
Here is how the reverse()
method may look if you use Intl.Segmenter
:
const reverse = str => {
const segmenter = new Intl.Segmenter("en", {granularity: 'grapheme'});
const segitr = segmenter.segment(str);
const segarr = Array.from(segitr, ({segment}) => segment).reverse();
return segarr.join('');
}
console.log(reverse('foo 𝌆 bar mañana mañana')); // anañam anañam rab 𝌆 oof
console.log(reverse('This 😊 emoji is happy')); // yppah si ijome 😊 sihT
console.log(reverse('Text surrogate pair 𝌆 composite pair möo varient selector ❤️ & ZWJ 👨👩👦')); // 👨👩👦 JWZ & ❤️ rotceles tneirav oöm riap etisopmoc 𝌆 riap etagorrus txeT
The above creates a segmenter
to segment/split strings by their visual graphemes. Calling .segment()
on the segmenter
with the string input then returns an iterator, which produces objects of the form {segment, index, input, isWordLike}
. The segment
key from this object contains the string segment (ie: the individual grapheme). To convert the iterator to an array, we use Array.from()
on the iterator and extract the segmented graphemes, which can be reversed with .reverse()
. Lastly, we join the array back into a string using .join()
There is also another option which you can try that has better browser support than Intl.Segmenter, however isn't as bullet-proof:
const reverse = str => Array.from(str.normalize('NFC')).reverse().join('');
this helps deal with characters consisting of multiple code points and code units. As pointed out in other answers, there are issues with maintaining composite and surrogate pair ordering in strings such as 'foo 𝌆 bar mañana mañana'
. Here 𝌆
is a surrogate pair consisting of two code units, and the last ñ
is a composite pair consisting of two Unicode characters to make up one grapheme (n
+̃
= ñ
).
In order to reverse each character, you can use the .reverse()
method which is part of the Array prototype. As .reverse()
is used on an array, the first thing to do is to turn the string into an array of characters. Typically, .split('')
is used for this task, however, this splits up surrogate pairs which are made from up of multiple code units (as already shown in previous answers):
>> '𝌆'.split('')
>> `["�", "�"]`
Instead, if you invoke the String.prototype
's Symbol.iterator method then you'll be able to retain your surrogate pairs within your array, as this iterates over the code points rather than the code units of your string:
>> [...'𝌆']
>> ["𝌆"]
The next thing to handle is any composite characters within the string. Characters that consist of two or more code points will still be split when iterated on:
>> [...'ö']
>> ["o", "̈"]
The above separates the base character (o) from the diaresis, which is not desired behavior. This is because ö
is a decomposed version of the character, consisting of multiple code points. To deal with this, you can use a string method introduced in ES6 known as String.prototype.normalize()
. This method can compose multiple code points into its composed canonical form by using "NFC" as an argument. This allows us to convert the decomposed character ö
(o + combining diaeresis) into its precomposed form ö
(latin small letter o with diaeresis) which consists of only one code point. Calling .normalize()
with "NFC"
thus tries to replace multiple code points with single code points where possible. This allows graphemes consisting of two code points to be represented with one code point.
>> [...'ö'.normalize('NFC')]
>> ["ö"]
As normalize('NFC')
produces one character, it can then be reversed safely when amongst others. Putting both the spread syntax and normalization together, you can successfully reverse strings of characters such as:
const reverse = str => Array.from(str.normalize('NFC')).reverse().join('');
console.log(reverse('foo 𝌆 bar mañana mañana'));
console.log(reverse('This 😊 emoji is happy'));
There are a few cases where the above normalization+iteration will fail. For instance, the character ❤️ (heavy black heart ❤️
) consists of two code points. The first being the heart and the latter being the variation selector-16 (U+FE0F) which is used to define a glyph variant for the preceding character. Other characters can also produce similar issues like this.
Another thing to look out for is ZWJ (Zero-width joiner) characters, which you can find in some scripts, including emoji. For example the emoji 👨👩👦 comprises of the Man, Woman and Boy emoji, each separated by a ZWJ. The above normalization + iteration method will not account for this either.
As a result, using Intl.Segmenter
is the better choice over these two approaches. Currently, Chrome also has its own specific segmentation API known as Intl.v8BreakIterator. This segmentation API is nonstandard and something that Chrome simply just implements. So, it is subject to change and doesn't work on most browsers, so it's not recommended to use. However, if you're curious, this is how it could be done:
const reverse = str => {
const iterator = Intl.v8BreakIterator(['en'], {type: 'character'});
iterator.adoptText(str);
const arr = [];
let pos = iterator.first();
while (pos !== -1) {
const current = iterator.current();
const nextPos = iterator.next();
if (nextPos === -1) break;
const slice = str.slice(current, nextPos);
arr.unshift(slice);
}
return arr.join("");
}
console.log(reverse('foo 𝌆 bar mañana mañana')); // anañam anañam rab 𝌆 oof
console.log(reverse('This 😊 emoji is happy')); // yppah si ijome 😊 sihT
console.log(reverse('Text surrogate pair 𝌆 composite pair möo varient selector ❤️ & ZWJ 👨👩👦')); // 👨👩👦 JWZ & ❤️ rotceles tneirav oöm riap etisopmoc 𝌆 riap etagorrus txeT
I know that this is an old question that has been well answered, but for my own amusement I wrote the following reverse function and thought I would share it in case it was useful for anyone else. It handles both surrogate pairs and combining marks:
function StringReverse (str)
{
var charArray = [];
for (var i = 0; i < str.length; i++)
{
if (i+1 < str.length)
{
var value = str.charCodeAt(i);
var nextValue = str.charCodeAt(i+1);
if ( ( value >= 0xD800 && value <= 0xDBFF
&& (nextValue & 0xFC00) == 0xDC00) // Surrogate pair)
|| (nextValue >= 0x0300 && nextValue <= 0x036F)) // Combining marks
{
charArray.unshift(str.substring(i, i+2));
i++; // Skip the other half
continue;
}
}
// Otherwise we just have a rogue surrogate marker or a plain old character.
charArray.unshift(str[i]);
}
return charArray.join('');
}
All props to Mathias, Punycode, and various other references for schooling me on the complexities of character encoding in JavaScript.
You can't because JS strings are immutable. Short non-in-place solution
[...str].reverse().join``
let str = "Hello World!";
let r = [...str].reverse().join``;
console.log(r);
You can't reverse a string
in place but you can use this:
String.prototype.reverse = function() {
return this.split("").reverse().join("");
}
var s = "ABCD";
s = s.reverse();
console.log(s);
-
I think
return [...str].reduce((rev, currentChar) => currentChar + rev, '');
is better as it works on emojis (or any multi byte char). Otherwisereverse("ab🎈c") = "c\udf88\ud83cba"
and not"c🎈ba"
– YoniXwCommented Jun 27, 2021 at 18:53
UTF-8 strings can have:
- Combining diacritics such as
b̃
which composed of theb
character and a following~
diacritic generated by the unicode escape sequnce\u0303
; - Multi-byte characters such as
🎥
; which is generated by the multi-byte unicode escape sequence\uD83C\uDFA5
; and - Multiple characters may be combined together with a zero-width joiner character (given by the unicode escape sequence
\u200D
). For example, the character👨👩👦
can be composed using the individual (multi-byte) emojis 👨 then a zero-width joiner then 👩 then another zero-width joiner then 👦 such that the entire 3-person character is 8-bytes (\uD83D\uDC68\u200D\uD83D\uDC69\u200D\uD83D\uDC66
).
This will handle reversing all 3 cases and keeping the bytes in the correct order such that the characters are reversed (rather than naively reversing the bytes of the string):
(function(){
var isCombiningDiacritic = function( code )
{
return (0x0300 <= code && code <= 0x036F) // Comb. Diacritical Marks
|| (0x1AB0 <= code && code <= 0x1AFF) // Comb. Diacritical Marks Extended
|| (0x1DC0 <= code && code <= 0x1DFF) // Comb. Diacritical Marks Supplement
|| (0x20D0 <= code && code <= 0x20FF) // Comb. Diacritical Marks for Symbols
|| (0xFE20 <= code && code <= 0xFE2F); // Comb. Half Marks
};
String.prototype.reverse = function()
{
let output = "";
for ( let i = this.length; i > 0; )
{
let width = 0;
let has_zero_width_joiner = false;
while( i > 0 && isCombiningDiacritic( this.charCodeAt(i-1) ) )
{
--i;
width++;
}
do {
--i;
width++;
if (
i > 0
&& "\uDC00" <= this[i] && this[i] <= "\uDFFF"
&& "\uD800" <= this[i-1] && this[i-1] <= "\uDBFF"
)
{
--i;
width++;
}
has_zero_width_joiner = i > 0 && "\u200D" == this[i-1];
if ( has_zero_width_joiner )
{
--i;
width++;
}
}
while( i > 0 && has_zero_width_joiner );
output += this.substr( i, width );
}
return output;
}
})();
// Tests
[
'abcdefg',
'ab\u0303c',
'a\uD83C\uDFA5b',
'a\uD83C\uDFA5b\uD83C\uDFA6c',
'a\uD83C\uDFA5b\u0306c\uD83C\uDFA6d',
'TO͇̹̺ͅƝ̴ȳ̳ TH̘Ë͖́̉ ͠P̯͍̭O̚N̐Y̡', // copied from http://stackoverflow.com/a/1732454/1509264
'What 👨👩👦 is this?'
].forEach(
function(str){ console.log( str + " -> " + str.reverse() ); }
);
Update
The above code identifies some of the more commonly used combining diacritics. A more complete list of combining diacritics (that could be swapped into the above code) is:
var isCombiningDiacritic = function( code )
{
return (0x0300 <= code && code <= 0x036F)
|| (0x0483 <= code && code <= 0x0489)
|| (0x0591 <= code && code <= 0x05BD)
|| (code == 0x05BF)
|| (0x05C1 <= code && code <= 0x05C2)
|| (0x05C4 <= code && code <= 0x05C5)
|| (code == 0x05C7)
|| (0x0610 <= code && code <= 0x061A)
|| (0x064B <= code && code <= 0x065F)
|| (code == 0x0670)
|| (0x06D6 <= code && code <= 0x06DC)
|| (0x06DF <= code && code <= 0x06E4)
|| (0x06E7 <= code && code <= 0x06E8)
|| (0x06EA <= code && code <= 0x06ED)
|| (code == 0x0711)
|| (0x0730 <= code && code <= 0x074A)
|| (0x07A6 <= code && code <= 0x07B0)
|| (0x07EB <= code && code <= 0x07F3)
|| (code == 0x07FD)
|| (0x0816 <= code && code <= 0x0819)
|| (0x081B <= code && code <= 0x0823)
|| (0x0825 <= code && code <= 0x0827)
|| (0x0829 <= code && code <= 0x082D)
|| (0x0859 <= code && code <= 0x085B)
|| (0x08D3 <= code && code <= 0x08E1)
|| (0x08E3 <= code && code <= 0x0902)
|| (code == 0x093A)
|| (code == 0x093C)
|| (0x0941 <= code && code <= 0x0948)
|| (code == 0x094D)
|| (0x0951 <= code && code <= 0x0957)
|| (0x0962 <= code && code <= 0x0963)
|| (code == 0x0981)
|| (code == 0x09BC)
|| (0x09C1 <= code && code <= 0x09C4)
|| (code == 0x09CD)
|| (0x09E2 <= code && code <= 0x09E3)
|| (0x09FE <= code && code <= 0x0A02)
|| (code == 0x0A3C)
|| (0x0A41 <= code && code <= 0x0A51)
|| (0x0A70 <= code && code <= 0x0A71)
|| (code == 0x0A75)
|| (0x0A81 <= code && code <= 0x0A82)
|| (code == 0x0ABC)
|| (0x0AC1 <= code && code <= 0x0AC8)
|| (code == 0x0ACD)
|| (0x0AE2 <= code && code <= 0x0AE3)
|| (0x0AFA <= code && code <= 0x0B01)
|| (code == 0x0B3C)
|| (code == 0x0B3F)
|| (0x0B41 <= code && code <= 0x0B44)
|| (0x0B4D <= code && code <= 0x0B56)
|| (0x0B62 <= code && code <= 0x0B63)
|| (code == 0x0B82)
|| (code == 0x0BC0)
|| (code == 0x0BCD)
|| (code == 0x0C00)
|| (code == 0x0C04)
|| (0x0C3E <= code && code <= 0x0C40)
|| (0x0C46 <= code && code <= 0x0C56)
|| (0x0C62 <= code && code <= 0x0C63)
|| (code == 0x0C81)
|| (code == 0x0CBC)
|| (0x0CCC <= code && code <= 0x0CCD)
|| (0x0CE2 <= code && code <= 0x0CE3)
|| (0x0D00 <= code && code <= 0x0D01)
|| (0x0D3B <= code && code <= 0x0D3C)
|| (0x0D41 <= code && code <= 0x0D44)
|| (code == 0x0D4D)
|| (0x0D62 <= code && code <= 0x0D63)
|| (code == 0x0DCA)
|| (0x0DD2 <= code && code <= 0x0DD6)
|| (code == 0x0E31)
|| (0x0E34 <= code && code <= 0x0E3A)
|| (0x0E47 <= code && code <= 0x0E4E)
|| (code == 0x0EB1)
|| (0x0EB4 <= code && code <= 0x0EBC)
|| (0x0EC8 <= code && code <= 0x0ECD)
|| (0x0F18 <= code && code <= 0x0F19)
|| (code == 0x0F35)
|| (code == 0x0F37)
|| (code == 0x0F39)
|| (0x0F71 <= code && code <= 0x0F7E)
|| (0x0F80 <= code && code <= 0x0F84)
|| (0x0F86 <= code && code <= 0x0F87)
|| (0x0F8D <= code && code <= 0x0FBC)
|| (code == 0x0FC6)
|| (0x102D <= code && code <= 0x1030)
|| (0x1032 <= code && code <= 0x1037)
|| (0x1039 <= code && code <= 0x103A)
|| (0x103D <= code && code <= 0x103E)
|| (0x1058 <= code && code <= 0x1059)
|| (0x105E <= code && code <= 0x1060)
|| (0x1071 <= code && code <= 0x1074)
|| (code == 0x1082)
|| (0x1085 <= code && code <= 0x1086)
|| (code == 0x108D)
|| (code == 0x109D)
|| (0x135D <= code && code <= 0x135F)
|| (0x1712 <= code && code <= 0x1714)
|| (0x1732 <= code && code <= 0x1734)
|| (0x1752 <= code && code <= 0x1753)
|| (0x1772 <= code && code <= 0x1773)
|| (0x17B4 <= code && code <= 0x17B5)
|| (0x17B7 <= code && code <= 0x17BD)
|| (code == 0x17C6)
|| (0x17C9 <= code && code <= 0x17D3)
|| (code == 0x17DD)
|| (0x180B <= code && code <= 0x180D)
|| (0x1885 <= code && code <= 0x1886)
|| (code == 0x18A9)
|| (0x1920 <= code && code <= 0x1922)
|| (0x1927 <= code && code <= 0x1928)
|| (code == 0x1932)
|| (0x1939 <= code && code <= 0x193B)
|| (0x1A17 <= code && code <= 0x1A18)
|| (code == 0x1A1B)
|| (code == 0x1A56)
|| (0x1A58 <= code && code <= 0x1A60)
|| (code == 0x1A62)
|| (0x1A65 <= code && code <= 0x1A6C)
|| (0x1A73 <= code && code <= 0x1A7F)
|| (0x1AB0 <= code && code <= 0x1B03)
|| (code == 0x1B34)
|| (0x1B36 <= code && code <= 0x1B3A)
|| (code == 0x1B3C)
|| (code == 0x1B42)
|| (0x1B6B <= code && code <= 0x1B73)
|| (0x1B80 <= code && code <= 0x1B81)
|| (0x1BA2 <= code && code <= 0x1BA5)
|| (0x1BA8 <= code && code <= 0x1BA9)
|| (0x1BAB <= code && code <= 0x1BAD)
|| (code == 0x1BE6)
|| (0x1BE8 <= code && code <= 0x1BE9)
|| (code == 0x1BED)
|| (0x1BEF <= code && code <= 0x1BF1)
|| (0x1C2C <= code && code <= 0x1C33)
|| (0x1C36 <= code && code <= 0x1C37)
|| (0x1CD0 <= code && code <= 0x1CD2)
|| (0x1CD4 <= code && code <= 0x1CE0)
|| (0x1CE2 <= code && code <= 0x1CE8)
|| (code == 0x1CED)
|| (code == 0x1CF4)
|| (0x1CF8 <= code && code <= 0x1CF9)
|| (0x1DC0 <= code && code <= 0x1DFF)
|| (0x20D0 <= code && code <= 0x20F0)
|| (0x2CEF <= code && code <= 0x2CF1)
|| (code == 0x2D7F)
|| (0x2DE0 <= code && code <= 0x2DFF)
|| (0x302A <= code && code <= 0x302D)
|| (0x3099 <= code && code <= 0x309A)
|| (0xA66F <= code && code <= 0xA672)
|| (0xA674 <= code && code <= 0xA67D)
|| (0xA69E <= code && code <= 0xA69F)
|| (0xA6F0 <= code && code <= 0xA6F1)
|| (code == 0xA802)
|| (code == 0xA806)
|| (code == 0xA80B)
|| (0xA825 <= code && code <= 0xA826)
|| (0xA8C4 <= code && code <= 0xA8C5)
|| (0xA8E0 <= code && code <= 0xA8F1)
|| (code == 0xA8FF)
|| (0xA926 <= code && code <= 0xA92D)
|| (0xA947 <= code && code <= 0xA951)
|| (0xA980 <= code && code <= 0xA982)
|| (code == 0xA9B3)
|| (0xA9B6 <= code && code <= 0xA9B9)
|| (0xA9BC <= code && code <= 0xA9BD)
|| (code == 0xA9E5)
|| (0xAA29 <= code && code <= 0xAA2E)
|| (0xAA31 <= code && code <= 0xAA32)
|| (0xAA35 <= code && code <= 0xAA36)
|| (code == 0xAA43)
|| (code == 0xAA4C)
|| (code == 0xAA7C)
|| (code == 0xAAB0)
|| (0xAAB2 <= code && code <= 0xAAB4)
|| (0xAAB7 <= code && code <= 0xAAB8)
|| (0xAABE <= code && code <= 0xAABF)
|| (code == 0xAAC1)
|| (0xAAEC <= code && code <= 0xAAED)
|| (code == 0xAAF6)
|| (code == 0xABE5)
|| (code == 0xABE8)
|| (code == 0xABED)
|| (code == 0xFB1E)
|| (0xFE00 <= code && code <= 0xFE0F)
|| (0xFE20 <= code && code <= 0xFE2F)
|| (code == 0x101FD)
|| (code == 0x102E0)
|| (0x10376 <= code && code <= 0x1037A)
|| (0x10A01 <= code && code <= 0x10A0F)
|| (0x10A38 <= code && code <= 0x10A3F)
|| (0x10AE5 <= code && code <= 0x10AE6)
|| (0x10D24 <= code && code <= 0x10D27)
|| (0x10F46 <= code && code <= 0x10F50)
|| (code == 0x11001)
|| (0x11038 <= code && code <= 0x11046)
|| (0x1107F <= code && code <= 0x11081)
|| (0x110B3 <= code && code <= 0x110B6)
|| (0x110B9 <= code && code <= 0x110BA)
|| (0x11100 <= code && code <= 0x11102)
|| (0x11127 <= code && code <= 0x1112B)
|| (0x1112D <= code && code <= 0x11134)
|| (code == 0x11173)
|| (0x11180 <= code && code <= 0x11181)
|| (0x111B6 <= code && code <= 0x111BE)
|| (0x111C9 <= code && code <= 0x111CC)
|| (0x1122F <= code && code <= 0x11231)
|| (code == 0x11234)
|| (0x11236 <= code && code <= 0x11237)
|| (code == 0x1123E)
|| (code == 0x112DF)
|| (0x112E3 <= code && code <= 0x112EA)
|| (0x11300 <= code && code <= 0x11301)
|| (0x1133B <= code && code <= 0x1133C)
|| (code == 0x11340)
|| (0x11366 <= code && code <= 0x11374)
|| (0x11438 <= code && code <= 0x1143F)
|| (0x11442 <= code && code <= 0x11444)
|| (code == 0x11446)
|| (code == 0x1145E)
|| (0x114B3 <= code && code <= 0x114B8)
|| (code == 0x114BA)
|| (0x114BF <= code && code <= 0x114C0)
|| (0x114C2 <= code && code <= 0x114C3)
|| (0x115B2 <= code && code <= 0x115B5)
|| (0x115BC <= code && code <= 0x115BD)
|| (0x115BF <= code && code <= 0x115C0)
|| (0x115DC <= code && code <= 0x115DD)
|| (0x11633 <= code && code <= 0x1163A)
|| (code == 0x1163D)
|| (0x1163F <= code && code <= 0x11640)
|| (code == 0x116AB)
|| (code == 0x116AD)
|| (0x116B0 <= code && code <= 0x116B5)
|| (code == 0x116B7)
|| (0x1171D <= code && code <= 0x1171F)
|| (0x11722 <= code && code <= 0x11725)
|| (0x11727 <= code && code <= 0x1172B)
|| (0x1182F <= code && code <= 0x11837)
|| (0x11839 <= code && code <= 0x1183A)
|| (0x119D4 <= code && code <= 0x119DB)
|| (code == 0x119E0)
|| (0x11A01 <= code && code <= 0x11A06)
|| (0x11A09 <= code && code <= 0x11A0A)
|| (0x11A33 <= code && code <= 0x11A38)
|| (0x11A3B <= code && code <= 0x11A3E)
|| (code == 0x11A47)
|| (0x11A51 <= code && code <= 0x11A56)
|| (0x11A59 <= code && code <= 0x11A5B)
|| (0x11A8A <= code && code <= 0x11A96)
|| (0x11A98 <= code && code <= 0x11A99)
|| (0x11C30 <= code && code <= 0x11C3D)
|| (0x11C92 <= code && code <= 0x11CA7)
|| (0x11CAA <= code && code <= 0x11CB0)
|| (0x11CB2 <= code && code <= 0x11CB3)
|| (0x11CB5 <= code && code <= 0x11CB6)
|| (0x11D31 <= code && code <= 0x11D45)
|| (code == 0x11D47)
|| (0x11D90 <= code && code <= 0x11D91)
|| (code == 0x11D95)
|| (code == 0x11D97)
|| (0x11EF3 <= code && code <= 0x11EF4)
|| (0x16AF0 <= code && code <= 0x16AF4)
|| (0x16B30 <= code && code <= 0x16B36)
|| (code == 0x16F4F)
|| (0x16F8F <= code && code <= 0x16F92)
|| (0x1BC9D <= code && code <= 0x1BC9E)
|| (0x1D167 <= code && code <= 0x1D169)
|| (0x1D17B <= code && code <= 0x1D182)
|| (0x1D185 <= code && code <= 0x1D18B)
|| (0x1D1AA <= code && code <= 0x1D1AD)
|| (0x1D242 <= code && code <= 0x1D244)
|| (0x1DA00 <= code && code <= 0x1DA36)
|| (0x1DA3B <= code && code <= 0x1DA6C)
|| (code == 0x1DA75)
|| (code == 0x1DA84)
|| (0x1DA9B <= code && code <= 0x1E02A)
|| (0x1E130 <= code && code <= 0x1E136)
|| (0x1E2EC <= code && code <= 0x1E2EF)
|| (0x1E8D0 <= code && code <= 0x1E8D6)
|| (0x1E944 <= code && code <= 0x1E94A)
|| (0xE0100 <= code && code <= 0xE01EF);
};
function reverseString(string) {
var reversedString = "";
var stringLength = string.length - 1;
for (var i = stringLength; i >= 0; i--) {
reversedString += string[i];
}
return reversedString;
}
I think String.prototype.reverse is a good way to solve this problem; the code as below;
String.prototype.reverse = function() {
return this.split('').reverse().join('');
}
var str = 'this is a good example for string reverse';
str.reverse();
-> "esrever gnirts rof elpmaxe doog a si siht";
The real answer is: you can't reverse it in place, but you can create a new string that is the reverse.
Just as an exercise to play with recursion: sometimes when you go to an interview, the interviewer may ask you how to do this using recursion, and I think the "preferred answer" might be "I would rather not do this in recursion as it can easily cause a stack overflow" (because it is O(n)
rather than O(log n)
. If it is O(log n)
, it is quite difficult to get a stack overflow -- 4 billion items could be handled by a stack level of 32, as 2 ** 32 is 4294967296. But if it is O(n)
, then it can easily get a stack overflow.
Sometimes the interviewer will still ask you, "just as an exercise, why don't you still write it using recursion?" And here it is:
String.prototype.reverse = function() {
if (this.length <= 1) return this;
else return this.slice(1).reverse() + this.slice(0,1);
}
test run:
var s = "";
for(var i = 0; i < 1000; i++) {
s += ("apple" + i);
}
console.log(s.reverse());
output:
999elppa899elppa...2elppa1elppa0elppa
To try getting a stack overflow, I changed 1000
to 10000
in Google Chrome, and it reported:
RangeError: Maximum call stack size exceeded
Strings themselves are immutable, but you can easily create a reversed copy with the following code:
function reverseString(str) {
var strArray = str.split("");
strArray.reverse();
var strReverse = strArray.join("");
return strReverse;
}
reverseString("hello");
//es6
//array.from
const reverseString = (string) => Array.from(string).reduce((a, e) => e + a);
//split
const reverseString = (string) => string.split('').reduce((a, e) => e + a);
//split problem
"𠜎𠺢".split('')[0] === Array.from("𠜎𠺢")[0] // "�" === "𠜎" => false
"😂😹🤗".split('')[0] === Array.from("😂😹🤗")[0] // "�" === "😂" => false
-
1This has the advantage that it handles supplementary plane characters correctly.– user663031Commented May 1, 2017 at 5:16
Reverse a String using built-in functions
function reverse(str) {
// Use the split() method to return a new array
// Use the reverse() method to reverse the new created array
// Use the join() method to join all elements of the array into a string
return str.split("").reverse().join("");
}
console.log(reverse('hello'));
Reverse a String without the helpers
function reversedOf(str) {
let newStr = '';
for (let char of str) {
newStr = char + newStr
// 1st round: "h" + "" = h, 2nd round: "e" + "h" = "eh" ... etc.
// console.log(newStr);
}
return newStr;
}
console.log(reversedOf('hello'));
Using Array functions,
String.prototype.reverse = function(){
return [].reduceRight.call(this, function(last, secLast){return last + secLast});
}
var str = "my name is saurabh ";
var empStr='',finalString='';
var chunk=[];
function reverse(str){
var i,j=0,n=str.length;
for(i=0;i<n;++i){
if(str[i]===' '){
chunk[j]=empStr;
empStr = '';
j++;
}else{
empStr=empStr+str[i];
}
}
for(var z=chunk.length-1;z>=0;z--){
finalString = finalString +' '+ chunk[z];
console.log(finalString);
}
return true;
}
reverse(str);
My own original attempt...
var str = "The Car";
function reverseStr(str) {
var reversed = "";
var len = str.length;
for (var i = 1; i < (len + 1); i++) {
reversed += str[len - i];
}
return reversed;
}
var strReverse = reverseStr(str);
console.log(strReverse);
// "raC ehT"