I was asked recently what was the most efficient way to reverse an array in JavaScript. At the moment, I suggested using a for loop and fiddling with the array but then realized there is a native Array.reverse() method.
For curiosity's sake, can anyone help me explore this by showing examples or pointing in the right direction so I can read into this? Any suggestions regarding how to measure performance would be awesome too.
Based on this setup:
var array = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
var length = array.length;
Array.reverse(); is the first or second slowest!
The benchmarks are here:
https://jsperf.com/js-array-reverse-vs-while-loop/9
Across browsers, swap loops are faster. There are two common types of swap algorithms (see Wikipedia), each with two variations.
The two types of swap algorithms are temporary swap and XOR swap.
The two variations handle index calculations differently. The first variation compares the current left index and the right index and then decrements the right index of the array. The second variation compares the current left index and the length divided by half and then recalculates the right index for each iteration.
You may or may not see huge differences between the two variations. For example, in Chrome 18, the first variations of the temporary swap and XOR swap are over 60% slower than the second variations, but in Opera 12, both variations of the temporary swap and XOR swap have similar performance.
Temporary swap:
First variation:
function temporarySwap(array)
{
var left = null;
var right = null;
var length = array.length;
for (left = 0, right = length - 1; left < right; left += 1, right -= 1)
{
var temporary = array[left];
array[left] = array[right];
array[right] = temporary;
}
return array;
}
Second variation:
function temporarySwapHalf(array)
{
var left = null;
var right = null;
var length = array.length;
for (left = 0; left < length / 2; left += 1)
{
right = length - 1 - left;
var temporary = array[left];
array[left] = array[right];
array[right] = temporary;
}
return array;
}
XOR swap:
First variation:
function xorSwap(array)
{
var i = null;
var r = null;
var length = array.length;
for (i = 0, r = length - 1; i < r; i += 1, r -= 1)
{
var left = array[i];
var right = array[r];
left ^= right;
right ^= left;
left ^= right;
array[i] = left;
array[r] = right;
}
return array;
}
Second variation:
function xorSwapHalf(array)
{
var i = null;
var r = null;
var length = array.length;
for (i = 0; i < length / 2; i += 1)
{
r = length - 1 - i;
var left = array[i];
var right = array[r];
left ^= right;
right ^= left;
left ^= right;
array[i] = left;
array[r] = right;
}
return array;
}
There is another swap method called destructuring assignment: http://wiki.ecmascript.org/doku.php?id=harmony:destructuring
Destructuring assignment:
First variation:
function destructuringSwap(array)
{
var left = null;
var right = null;
var length = array.length;
for (left = 0, right = length - 1; left < right; left += 1, right -= 1)
{
[array[left], array[right]] = [array[right], array[left]];
}
return array;
}
Second variation:
function destructuringSwapHalf(array)
{
var left = null;
var right = null;
var length = array.length;
for (left = 0; left < length / 2; left += 1)
{
right = length - 1 - left;
[array[left], array[right]] = [array[right], array[left]];
}
return array;
}
Right now, an algorithm using destructuring assignment is the slowest of them all. It is even slower than Array.reverse();. However, the algorithms using destructuring assignments and Array.reverse(); methods are the shortest examples, and they look the cleanest. I hope their performance gets better in the future.
Another mention is that modern browsers are improving their performance of array push and splice operations.
In Firefox 10, this for loop algorithm using array push and splice rivals the temporary swap and XOR swap loop algorithms.
for (length -= 2; length > -1; length -= 1)
{
array.push(array[length]);
array.splice(length, 1);
}
However, you should probably stick with the swap loop algorithms until many of the other browsers match or exceed their array push and splice performance.
length, making all the tests after it meaningless.
Mar 16, 2013 at 21:05
array.reverse() if you want in-place, or array.slice().reverse() if you want a copy. Standard libs are already likely to be fastest, are undoubtedly cleanest to understand, and their speed increases for free as they're optimized over time.
In simple way you can do this using map.
let list = [10, 20, 30, 60, 90]
let reversedList = list.map((e, i, a)=> a[(a.length -1) -i]) // [90, 60...]
Native methods are always faster.
So use Array.reverse where possible. Otherwise an implementation that runs in O(1) would be best ;)
Otherwise just use something like this
var reverse = function(arr) {
var result = [],
ii = arr.length;
for (var i = ii - 1;i !== 0;i--) {
result.push(arr[i]);
}
return result;
}
Interesting the loop is faster if you use all three stages of the for construct instead of only one.
for(var i = ii - 1; i !== 0;i--) is faster then var i = ii - 1;for(;i-- !== 0;)
Array.reverse(); is the first or second slowest!
var i = ii - 1;i >= 0;i--.
for (var i = ii - 1;i !== 0;i--) { gives an infinite loop when the array is empty. ii = arr.length; is a pointless variable. This is sloppy code. Avoid. "Otherwise an implementation that runs in O(1) would be best ;)" is impossible and confusing, I assume it's a joke due to the winky but why? "for(var i = ii - 1; i !== 0;i--) is faster then var i = ii - 1;for(;i-- !== 0;)" is just bad benchmarking -- whether the initialization and decrement is inside the loop initializer or outside of it doesn't matter at all.
I opened a Firefox bug about slow reverse performance in Firefox. Someone from Mozilla looked at the benchmark used in the accepted post, and says that it is pretty misleading -- in their analysis the native method is better in general for reversing arrays. (As it should be!)
Array.reverse().
This is the most efficient and clean way to reverse an array with the ternary operator.
function reverse(arr) {
return arr.length < 2 ? arr : [arr.pop()].concat(reverse(arr));
}
console.log(reverse([4, 3, 3, 1]));
concat in a loop, basically re-allocating and building the entire result array for every recursive call) and blows the stack if the array is too large due to recursion (try it with reverse(Array(10000).fill(0))).
Swap functions are the fastest. Here's a reverse function I wrote that is only slightly similar to the swap functions mentioned above but performs faster.
function reverse(array) {
var first = null;
var last = null;
var tmp = null;
var length = array.length;
for (first = 0, last = length - 1; first < length / 2; first++, last--) {
tmp = array[first];
array[first] = array[last];
array[last] = tmp;
}
}
You can find the benchmarking here http://jsperf.com/js-array-reverse-vs-while-loop/19
Since no one came up with it and to complete the list of ways to reverse an array...
array.sort(function() {
return 1;
})
It's twice as fast as both while-approaches, but other than that, horribly slow.
sort(() => 1) communicate "reverses the array" to any reader of the code?
You can do this with .slice().reverse():
const yourArray = ["first", "second", "third", "...", "etc"];
const reversedArray = yourArray.slice().reverse();
console.log(reversedArray);Note that .slice() is used to prevent modification of yourArray since .reverse() is in-place.
.reverse() mutates the argument, so slice prevents yourArray from being modified.
Here's a java example http://www.leepoint.net/notes-java/data/arrays/arrays-ex-reverse.html showing how to reverse an array. Very easy to convert to javascript.
I would suggest using something that simply captures the time before the function is called, and after the function is called. Which ever takes the least time / clock cycles will be the fastest.
Here is another example to permanently modify the array reversing it's elements:
var theArray = ['a', 'b', 'c', 'd', 'e', 'f'];
function reverseArrayInPlace(array) {
for (var i = array.length - 1; i >= 0; i -= 1) {
array.push(array[i]);
}
array.splice(0, array.length / 2);
return array;
};
reverseArrayInPlace(theArray);
console.log(theArray); // -> ["f", "e", "d", "c", "b", "a"]
Another suggestion, similar to the above, but using splice instead:
var myArray=["one","two","three","four","five","six"];
console.log(myArray);
for(i=0;i<myArray.length;i++){
myArray.splice(i,0,myArray.pop(myArray[myArray.length-1]));
}
console.log(myArray);.pop() doesn't take any parameter. Also, for(i=0 declares a global, possibly creating a bug. Please use var/let/const.
If you want to copy a reversed version of an array and keep the original as it is:
a = [0,1,2,3,4,5,6,7,8,9];
b = []
for(i=0;i<a.length;i++){
b.push(a.slice(a.length-i-1,a.length-i)[0])
}
Output of b:
[ 9, 8, 7, 6, 5, 4, 3, 2, 1, 0]
a.slice(a.length-i-1,a.length-i)[0] is really strange way to index into a single element of an array. Don't use this.
var, let or const instead of declaring globals. for(i=0;... should never be done.
You could also make use of reduceRight which will iterate through each value of the array (from right-to-left)
const myArray = [1, 2, 3, 4, 5]
const reversedArray = myArray.reduceRight((acc, curr) => [...acc, curr], [])
console.log(reversedArray) // [5, 4, 3, 2, 1]Pasting the below into any javascript runtime console either on the browser or node.js would do a straight way benchmark test on a large array of number.
Say 40,000 in my case
var array = Array.from({ length: 40000 }, () =>
Math.floor(Math.random() * 40000)
);
var beforeStart = Date.now();
var reversedArray = array.map((obj, index, passedArray) => {
return passedArray[passedArray.length - index - 1];
});
console.log(reversedArray);
var afterCustom = Date.now();
console.log(array.reverse());
var afterNative = Date.now();
console.log(`custom took : ${afterCustom - beforeStart}ms`);
console.log(`native took : ${afterNative - afterCustom}ms`);You can simply run the snippet directly to see how the custom version fare too.
For the sake of completeness there should be also thought about efficiency in a broader way, than only execution-time performance.
Therefore I'd like to add a swap function that is minimal slower (please test on your own using perf tools) than than the ones from the accepted answer but it has the following other beneficial properties:
function fastSwapReverse (array) {
// half length for odd arrays is added by 1
var len = array.length;
var half = len % 2 === 0 ? len / 2 : Math.ceil(len / 2)
var k = 0, A = new Array(len)
// from 0 to half swap the elements at
// start: 0 + i
// end: len - i -1
for (k = 0; k < half; k++) {
A[k] = array[len - k - 1];
A[len - k - 1] = array[k];
}
return A;
}
Although the original Array.prototype.reverse method also does mutate the array
Just start copying array from the backside using a for loop and return that new array. This is efficient and has O(n) time complexity.
var array1 = ["yes", "no", "maybe", "always", "sometimes", "never", "if"];
var array2 = [5,8,2,9,5,6,3,1];
function reverseArray(arr) {
var newArray = [];
for (var x = arr.length - 1; 0 <= x; --x) {
newArray.push(arr[x]);
}
return newArray;
}
console.log(reverseArray(array1)); // ["if", "never", "sometimes", "always", "maybe", "no", "yes"]
console.log(reverseArray(array2)) // [1, 3, 6, 5, 9, 2, 8, 5]The new Array method toReversed() returns a new array with the elements in reversed order.
const original = ["a","b", "c"];
console.log("original = ", original);
const reversed = original.toReversed();
console.log("reversed = ", reversed);
console.log("original = ", original);Here are a couple of tricks I found. Credit goes to Codemanx for the original solution of
array.sort(function() { return 1; })
In Typescript, this can be simplified to just one line
array.sort(() => 1)
var numbers = [1,4,9,13,16];
console.log(numbers.sort(() => 1));Since this will be the future of JavaScript, I thought I'd share that.
Here's another trick if your array only has 2 elements
array.push(array.shift());
// array-reverse-polyfill.js v1
Array.prototype.reverse = Array.prototype.reverse || function() {
return this.sort(function() {
return -1;
});
};
If you are in a modern browser you use the native reverse function. If it's not modern this polyfill will add this function for you. So just use it:
I haven't found any cases where Firefox does the opposite behavior to other browsers. Anyway, if you want to ensure that the function will sort alphabetically, just do a little test first.
// array-reverse-polyfill.js v1.1
;(function(){
var order = ['a', 'b'].sort(function(a, b){
return -1;
});
order = order[0] === 'b' ? -1 : 1;
Array.prototype.reverse = Array.prototype.reverse || function() {
return this.sort(function() {
return order;
});
};
})();
Example of use:
let a = [1,2,3,4,5];
a.reverse();
console.log(a);
[1,2,3,4].sort(() => 1) is the exact code). It "worked" in FF 95, but that shouldn't be trusted. .sort(() => 1) abuses implementation-dependent code, so if it works, it's entirely by virtue of a specific internal sorting algorithm that could change at any moment. So, for all intents and purposes, it's completely broken.
[1,2,3,4].sort(() => -1) in Chrome 94 to reverse the array, so they're using the opposite comparator as FF, at the exact present time of writing. But seriously, don't do that either because future V8 engines may well choose a different sorting algo, and the code breaks. The fact that this appears to work on certain engines in certain browsers is what makes it so dangerous and well-worth a downvote (and hopefully eventual deletion) to warn future visitors.