What is the difference between using the delete
operator on the array element as opposed to using the Array.splice
method?
For example:
myArray = ['a', 'b', 'c', 'd'];
delete myArray[1];
// or
myArray.splice (1, 1);
Why even have the splice method if I can delete array elements like I can with objects?
.splice
in loops, have a look at this question: Delete from array in javascript.
delete
and Array.prototype.splice
.
delete
will delete the object property, but will not reindex the array or update its length. This makes it appears as if it is undefined:
> myArray = ['a', 'b', 'c', 'd']
["a", "b", "c", "d"]
> delete myArray[0]
true
> myArray[0]
undefined
Note that it is not in fact set to the value undefined
, rather the property is removed from the array, making it appear undefined. The Chrome dev tools make this distinction clear by printing empty
when logging the array.
> myArray[0]
undefined
> myArray
[empty, "b", "c", "d"]
myArray.splice(start, deleteCount)
actually removes the element, reindexes the array, and changes its length.
> myArray = ['a', 'b', 'c', 'd']
["a", "b", "c", "d"]
> myArray.splice(0, 2)
["a", "b"]
> myArray
["c", "d"]
Array.remove() Method
John Resig, creator of jQuery created a very handy Array.remove
method that I always use it in my projects.
// Array Remove - By John Resig (MIT Licensed)
Array.prototype.remove = function(from, to) {
var rest = this.slice((to || from) + 1 || this.length);
this.length = from < 0 ? this.length + from : from;
return this.push.apply(this, rest);
};
and here's some examples of how it could be used:
// Remove the second item from the array
array.remove(1);
// Remove the second-to-last item from the array
array.remove(-2);
// Remove the second and third items from the array
array.remove(1,2);
// Remove the last and second-to-last items from the array
array.remove(-2,-1);
[1,2,3].slice('1'); // =[2,3]
), so it's safer to change it to var rest = this.slice(parseInt(to || from) + 1 || this.length);
this.push.apply(this, rest)
, then returns the value it returned
for(var i in array)
cycle. I've removed it and used splice instead.
Because delete only removes the object from the element in the array, the length of the array won't change. Splice removes the object and shortens the array.
The following code will display "a", "b", "undefined", "d"
myArray = ['a', 'b', 'c', 'd']; delete myArray[2];
for (var count = 0; count < myArray.length; count++) {
alert(myArray[count]);
}
Whereas this will display "a", "b", "d"
myArray = ['a', 'b', 'c', 'd']; myArray.splice(2,1);
for (var count = 0; count < myArray.length; count++) {
alert(myArray[count]);
}
myArray.splice(2,1)
I stumbled onto this question while trying to understand how to remove every occurrence of an element from an Array. Here's a comparison of splice
and delete
for removing every 'c'
from the items
Array.
var items = ['a', 'b', 'c', 'd', 'a', 'b', 'c', 'd'];
while (items.indexOf('c') !== -1) {
items.splice(items.indexOf('c'), 1);
}
console.log(items); // ["a", "b", "d", "a", "b", "d"]
items = ['a', 'b', 'c', 'd', 'a', 'b', 'c', 'd'];
while (items.indexOf('c') !== -1) {
delete items[items.indexOf('c')];
}
console.log(items); // ["a", "b", undefined, "d", "a", "b", undefined, "d"]
From Core JavaScript 1.5 Reference > Operators > Special Operators > delete Operator :
When you delete an array element, the array length is not affected. For example, if you delete a[3], a[4] is still a[4] and a[3] is undefined. This holds even if you delete the last element of the array (delete a[a.length-1]).
As stated many times above, using splice()
seems like a perfect fit. Documentation at Mozilla:
The splice() method changes the content of an array by removing existing elements and/or adding new elements. var myFish = ['angel', 'clown', 'mandarin', 'sturgeon']; myFish.splice(2, 0, 'drum'); // myFish is ["angel", "clown", "drum", "mandarin", "sturgeon"] myFish.splice(2, 1); // myFish is ["angel", "clown", "mandarin", "sturgeon"] Syntax array.splice(start) array.splice(start, deleteCount) array.splice(start, deleteCount, item1, item2, ...) Parameters start Index at which to start changing the array. If greater than the length of the array, actual starting index will be set to the length of the array. If negative, will begin that many elements from the end. deleteCount An integer indicating the number of old array elements to remove. If deleteCount is 0, no elements are removed. In this case, you should specify at least one new element. If deleteCount is greater than the number of elements left in the array starting at start, then all of the elements through the end of the array will be deleted. If deleteCount is omitted, deleteCount will be equal to (arr.length - start). item1, item2, ... The elements to add to the array, beginning at the start index. If you don't specify any elements, splice() will only remove elements from the array. Return value An array containing the deleted elements. If only one element is removed, an array of one element is returned. If no elements are removed, an empty array is returned. [...]
splice
will work with numeric indices.
whereas delete
can be used against other kind of indices..
example:
delete myArray['text1'];
It's probably also worth mentioning that splice only works on arrays. (Object properties can't be relied on to follow a consistent order.)
To remove the key-value pair from an object, delete is actually what you want:
delete myObj.propName; // , or:
delete myObj["propName"]; // Equivalent.
delete Vs splice
when you delete an item from an array
var arr = [1,2,3,4]; delete arr[2]; //result [1, 2, 3:, 4] console.log(arr)
when you splice
var arr = [1,2,3,4]; arr.splice(1,1); //result [1, 3, 4] console.log(arr);
in case of delete the element is deleted but the index remains empty
while in case of splice element is deleted and the index of rest elements is reduced accordingly
delete acts like a non real world situation, it just removes the item, but the array length stays the same:
example from node terminal:
> var arr = ["a","b","c","d"];
> delete arr[2]
true
> arr
[ 'a', 'b', , 'd', 'e' ]
Here is a function to remove an item of an array by index, using slice(), it takes the arr as the first arg, and the index of the member you want to delete as the second argument. As you can see, it actually deletes the member of the array, and will reduce the array length by 1
function(arr,arrIndex){
return arr.slice(0,arrIndex).concat(arr.slice(arrIndex + 1));
}
What the function above does is take all the members up to the index, and all the members after the index , and concatenates them together, and returns the result.
Here is an example using the function above as a node module, seeing the terminal will be useful:
> var arr = ["a","b","c","d"]
> arr
[ 'a', 'b', 'c', 'd' ]
> arr.length
4
> var arrayRemoveIndex = require("./lib/array_remove_index");
> var newArray = arrayRemoveIndex(arr,arr.indexOf('c'))
> newArray
[ 'a', 'b', 'd' ] // c ya later
> newArray.length
3
please note that this will not work one array with dupes in it, because indexOf("c") will just get the first occurance, and only splice out and remove the first "c" it finds.
If you want to iterate a large array and selectively delete elements, it would be expensive to call splice() for every delete because splice() would have to re-index subsequent elements every time. Because arrays are associative in Javascript, it would be more efficient to delete the individual elements then re-index the array afterwards.
You can do it by building a new array. e.g
function reindexArray( array )
{
var result = [];
for( var key in array )
result.push( array[key] );
return result;
};
But I don't think you can modify the key values in the original array, which would be more efficient - it looks like you might have to create a new array.
Note that you don't need to check for the "undefined" entries as they don't actually exist and the for loop doesn't return them. It's an artifact of the array printing that displays them as undefined. They don't appear to exist in memory.
It would be nice if you could use something like slice() which would be quicker, but it does not re-index. Anyone know of a better way?
Actually, you can probably do it in place as follows which is probably more efficient, performance-wise:
reindexArray : function( array )
{
var index = 0; // The index where the element should be
for( var key in array ) // Iterate the array
{
if( parseInt( key ) !== index ) // If the element is out of sequence
{
array[index] = array[key]; // Move it to the correct, earlier position in the array
++index; // Update the index
}
}
array.splice( index ); // Remove any remaining elements (These will be duplicates of earlier items)
},
you can use something like this
var my_array = [1,2,3,4,5,6]; delete my_array[4]; console.log(my_array.filter(function(a){return typeof a !== 'undefined';})); // [1,2,3,4,6]
slice
if you come from a functional background (probably less efficient, though).
The difference can be seen by logging the length of each array after the delete
operator and splice()
method are applied. For example:
delete operator
var trees = ['redwood', 'bay', 'cedar', 'oak', 'maple'];
delete trees[3];
console.log(trees); // ["redwood", "bay", "cedar", empty, "maple"]
console.log(trees.length); // 5
The delete
operator removes the element from the array, but the "placeholder" of the element still exists. oak
has been removed but it still takes space in the array. Because of this, the length of the array remains 5.
splice() method
var trees = ['redwood', 'bay', 'cedar', 'oak', 'maple'];
trees.splice(3,1);
console.log(trees); // ["redwood", "bay", "cedar", "maple"]
console.log(trees.length); // 4
The splice()
method completely removes the target value and the "placeholder" as well. oak
has been removed as well as the space it used to occupy in the array. The length of the array is now 4.
Why not just filter? I think it is the most clear way to consider the arrays in js.
myArray = myArray.filter(function(item){
return item.anProperty != whoShouldBeDeleted
});
delete
or slice
to me.
Others have already properly compared delete
with splice
.
Another interesting comparison is delete
versus undefined
: a deleted array item uses less memory than one that is just set to undefined
;
For example, this code will not finish:
let y = 1;
let ary = [];
console.log("Fatal Error Coming Soon");
while (y < 4294967295)
{
ary.push(y);
ary[y] = undefined;
y += 1;
}
console(ary.length);
It produces this error:
FATAL ERROR: CALL_AND_RETRY_LAST Allocation failed - JavaScript heap out of memory.
So, as you can see undefined
actually takes up heap memory.
However, if you also delete
the ary-item (instead of just setting it to undefined
), the code will slowly finish:
let x = 1;
let ary = [];
console.log("This will take a while, but it will eventually finish successfully.");
while (x < 4294967295)
{
ary.push(x);
ary[x] = undefined;
delete ary[x];
x += 1;
}
console.log(`Success, array-length: ${ary.length}.`);
These are extreme examples, but they make a point about delete
that I haven't seen anyone mention anywhere.
Performance
There are already many nice answer about functional differences - so here I want to focus on performance. Today (2020.06.25) I perform tests for Chrome 83.0, Safari 13.1 and Firefox 77.0 for solutions mention in question and additionally from chosen answers
Conclusions
the splice (B) solution is fast for small and big arrays
the delete (A) solution is fastest for big and medium fast for small arrays
the filter (E) solution is fastest on Chrome and Firefox for small arrays (but slowest on Safari, and slow for big arrays)
solution D is quite slow
solution C not works for big arrays in Chrome and Safari function C(arr, idx) { var rest = arr.slice(idx + 1 || arr.length); arr.length = idx < 0 ? arr.length + idx : idx; arr.push.apply(arr, rest); return arr; } // Crash test let arr = [...'abcdefghij'.repeat(100000)]; // 1M elements try { C(arr,1) } catch(e) {console.error(e.message)}
https://i.stack.imgur.com/aIBJT.png
Details
I perform following tests for solutions A B C D E (my)
for small array (4 elements) - you can run test HERE
for big array (1M elements) - you can run test HERE
function A(arr, idx) { delete arr[idx]; return arr; } function B(arr, idx) { arr.splice(idx,1); return arr; } function C(arr, idx) { var rest = arr.slice(idx + 1 || arr.length); arr.length = idx < 0 ? arr.length + idx : idx; arr.push.apply(arr, rest); return arr; } function D(arr,idx){ return arr.slice(0,idx).concat(arr.slice(idx + 1)); } function E(arr,idx) { return arr.filter((a,i) => i !== idx); } myArray = ['a', 'b', 'c', 'd']; [A,B,C,D,E].map(f => console.log(`${f.name} ${JSON.stringify(f([...myArray],1))}`)); This snippet only presents used solutions
Example results for Chrome
https://i.stack.imgur.com/9VaUg.png
function remove_array_value(array, value) {
var index = array.indexOf(value);
if (index >= 0) {
array.splice(index, 1);
reindex_array(array);
}
}
function reindex_array(array) {
var result = [];
for (var key in array) {
result.push(array[key]);
}
return result;
}
example:
var example_arr = ['apple', 'banana', 'lemon']; // length = 3
remove_array_value(example_arr, 'banana');
banana is deleted and array length = 2
They're different things that have different purposes.
splice
is array-specific and, when used for deleting, removes entries from the array and moves all the previous entries up to fill the gap. (It can also be used to insert entries, or both at the same time.) splice
will change the length
of the array (assuming it's not a no-op call: theArray.splice(x, 0)
).
delete
is not array-specific; it's designed for use on objects: It removes a property (key/value pair) from the object you use it on. It only applies to arrays because standard (e.g., non-typed) arrays in JavaScript aren't really arrays at all*, they're objects with special handling for certain properties, such as those whose names are "array indexes" (which are defined as string names "...whose numeric value i
is in the range +0 ≤ i < 2^32-1
") and length
. When you use delete
to remove an array entry, all it does is remove the entry; it doesn't move other entries following it up to fill the gap, and so the array becomes "sparse" (has some entries missing entirely). It has no effect on length
.
A couple of the current answers to this question incorrectly state that using delete
"sets the entry to undefined
". That's not correct. It removes the entry (property) entirely, leaving a gap.
Let's use some code to illustrate the differences:
console.log("Using `splice`:"); var a = ["a", "b", "c", "d", "e"]; console.log(a.length); // 5 a.splice(0, 1); console.log(a.length); // 4 console.log(a[0]); // "b"
console.log("Using `delete`"); var a = ["a", "b", "c", "d", "e"]; console.log(a.length); // 5 delete a[0]; console.log(a.length); // still 5 console.log(a[0]); // undefined console.log("0" in a); // false console.log(a.hasOwnProperty(0)); // false
console.log("Setting to `undefined`"); var a = ["a", "b", "c", "d", "e"]; console.log(a.length); // 5 a[0] = undefined; console.log(a.length); // still 5 console.log(a[0]); // undefined console.log("0" in a); // true console.log(a.hasOwnProperty(0)); // true
* (that's a post on my anemic little blog)
Currently there are two ways to do this
using splice() arrayObject.splice(index, 1); using delete delete arrayObject[index];
But I always suggest to use splice for array objects and delete for object attributes because delete does not update array length.
OK, imagine we have this array below:
const arr = [1, 2, 3, 4, 5];
Let's do delete first:
delete arr[1];
and this is the result:
[1, empty, 3, 4, 5];
empty! and let's get it:
arr[1]; //undefined
So means just the value deleted and it's undefined now, so length is the same, also it will return true...
Let's reset our array and do it with splice this time:
arr.splice(1, 1);
and this is the result this time:
[1, 3, 4, 5];
As you see the array length changed and arr[1]
is 3 now...
Also this will return the deleted item in an Array which is [3]
in this case...
If you have small array you can use filter
:
myArray = ['a', 'b', 'c', 'd'];
myArray = myArray.filter(x => x !== 'b');
I have two methods.
Simple one:
arr = arr.splice(index,1)
Second one:
arr = arr.filter((v,i)=>i!==index)
The advantage to the second one is you can remove a value (all, not just first instance like most)
arr = arr.filter((v,i)=>v!==value)
Easiest way is probably
var myArray = ['a', 'b', 'c', 'd'];
delete myArray[1]; // ['a', undefined, 'c', 'd']. Then use lodash compact method to remove false, null, 0, "", undefined and NaN
myArray = _.compact(myArray); ['a', 'c', 'd'];
Hope this helps. Reference: https://lodash.com/docs#compact
compact
... no need for lodash. Try myArray.filter(function(n){return n;})
For those who wants to use Lodash can use: myArray = _.without(myArray, itemToRemove)
Or as I use in Angular2
import { without } from 'lodash';
...
myArray = without(myArray, itemToRemove);
...
delete: delete will delete the object property, but will not reindex the array or update its length. This makes it appears as if it is undefined: splice: actually removes the element, reindexes the array, and changes its length.
Delete element from last
arrName.pop();
Delete element from first
arrName.shift();
Delete from middle
arrName.splice(starting index,number of element you wnt to delete);
Ex: arrName.splice(1,1);
Delete one element from last
arrName.splice(-1);
Delete by using array index number
delete arrName[1];
If the desired element to delete is in the middle (say we want to delete 'c', which its index is 1), you can use:
var arr = ['a','b','c'];
var indexToDelete = 1;
var newArray = arr.slice(0,indexToDelete).combine(arr.slice(indexToDelete+1, arr.length))
IndexOf
accepts also a reference type. Suppose the following scenario:
var arr = [{item: 1}, {item: 2}, {item: 3}]; var found = find(2, 3); //pseudo code: will return [{item: 2}, {item:3}] var l = found.length; while(l--) { var index = arr.indexOf(found[l]) arr.splice(index, 1); } console.log(arr.length); //1
Differently:
var item2 = findUnique(2); //will return {item: 2}
var l = arr.length;
var found = false;
while(!found && l--) {
found = arr[l] === item2;
}
console.log(l, arr[l]);// l is index, arr[l] is the item you look for
Keep it simple :-
When you delete any element in an array, it will delete the value of the position mentioned and makes it empty/undefined but the position exist in the array.
var arr = [1, 2, 3 , 4, 5]; function del() { delete arr[3]; console.log(arr); } del(arr);
where as in splice prototype the arguments are as follows. //arr.splice(position to start the delete , no. of items to delete)
var arr = [1, 2, 3 , 4, 5]; function spl() { arr.splice(0, 2); // arr.splice(position to start the delete , no. of items to delete) console.log(arr); } spl(arr);
function deleteFromArray(array, indexToDelete){
var remain = new Array();
for(var i in array){
if(array[i] == indexToDelete){
continue;
}
remain.push(array[i]);
}
return remain;
}
myArray = ['a', 'b', 'c', 'd'];
deleteFromArray(myArray , 0);
// result : myArray = ['b', 'c', 'd'];
Success story sharing
delete
does remove the element, but does not reindex the array or update its length (which is already implied by the former since the length is always the highest index+1).delete myArray[0]
syntax saying "Expected an operator and instead saw 'delete'." Usingsplice
is recommended.delete myArray[0]
andmyArray[0] = undefined
. In the former case, the property is removed from the array object entirely. In the second case, the property remains, with the valueundefined
.empty
instead ofundefined
to improve the distinction between an actually deleted (or uninitialized) array element versus an element that has the real value ofundefined
. Note that as I say this I mean it only displays asempty
, and does not refer to a real value calledempty
(which does not exist).