I have some arrays like [1,5], [3,6], [2,8],[19,13], [12,15]. When i pass two arrays in the function output will be [1,6], [2,19],[12,15]
i want to remove overlapping numbers from 2 arrays . like on fist and second array 5 and 3 will be overlap between 1 to 6.
I believe this is what you want (you get the min of the first array and the max of the second array):
function removeOverlap(arr1, arr2) {
if (arr1 === undefined) {
return arr2;
}
if (arr2 === undefined) {
return arr1;
}
return [Math.min.apply(null, arr1), Math.max.apply(null, arr2)];
}
// Sample:
var myArrays = [[1,5], [3,6], [2,8], [19,13], [12,15]];
for (var i = 0; i < myArrays.length; i = i + 2) {
console.log(removeOverlap(myArrays[i], myArrays[i + 1]));
}
EDIT: answer with multiple parameters as you requested in your comment:
We could use rest parameters in the answer below, but I will use the arguments object for compatibility with Internet Explorer. If this is not a requirement you can adapt the solution to use the first.
function removeOverlap(arr1, arr2) {
// Converting the arguments object to array:
var argsArray = Array.prototype.slice.call(arguments);
// Removing undefined:
argsArray = argsArray.filter(function(el) {
return el != undefined;
});
// Alternative (not compatible with Internet Explorer):
//argsArray = argsArray.filter(el => el);
// We're looking for the min and max numbers, let's merge the arrays
// e.g. transform [[1, 5], [3, 6], [2, 8]] into [1, 5, 3, 6, 2, 8]
var merged = [].concat.apply([], argsArray);
// Alternative, but it is not compatible with Internet Explorer:
//var merged = Array.flat(argsArray);
return [Math.min.apply(null, merged), Math.max.apply(null, merged)];
}
// Sample:
var myArrays = [[1,5], [3,6], [2,8], [19,13], [12,15]];
for (var i = 0; i < myArrays.length; i = i + 2) {
console.log(removeOverlap(myArrays[i], myArrays[i + 1]));
}
console.log(removeOverlap(myArrays[0], myArrays[1], myArrays[2]));
This can easily be accomplished my finding the min of the current and max of the next item.
let initial = [ [1, 5], [3, 6], [2, 8], [19, 13], [12, 15] ]
let expected = [ [1, 6], [2, 19], [12, 15] ]
let actual = calculateOverlaps(initial);
console.log(JSON.stringify(actual) === JSON.stringify(expected)); // true
function calculateOverlaps(arr) {
let result = [];
for (let i = 0; i < arr.length; i+=2) {
if (i >= arr.length - 1) {
result.push(arr[i]); // If the array has an odd size, get last item
} else {
let curr = arr[i];
let next = arr[i + 1];
result.push([ Math.min(...curr), Math.max(...next) ]);
}
}
return result;
}
Here is a more code-golf oriented function:
const calculateOverlaps1 = (arr) => arr.reduce((r, e, i, a) =>
(i % 2 === 0)
? r.concat([
(i < a.length - 1)
? [ Math.min(...e), Math.max(...a[i+1]) ]
: e
])
: r, []);
And even smaller, at just 101 bytes.
f=a=>a.reduce((r,e,i)=>i%2===0?r.concat([i<a.length-1?[Math.min(...e),Math.max(...a[i+1])]:e]):r,[]);
How to find the greatest number of times each element occurs in a nested array?
I am looking to find the greatest number of times each element occurs in any of the subarrays. I am NOT looking for the element that occurs the most times in the entire nested array.
Let's say my nested array is [[2, 3, 5], [3, 3, 5], [2, 2, 3, 5]].
The number 2 appears two times in one of the subarrays. The number 3 appears two times in one of the subarrays. The number 5 appears one time in one of the subarrays.
The end result I am looking for is [2, 2, 3, 3, 5].
What is the best way to do this? Below is my approach, which is not very good.
function makeNewArray(arr) {
// add the # to the numbers that appear once and add the ## to the numbers that appear twice
for (var j = 0; j < arr.length; j++) {
for (var i = 0; i < arr[j].length; i++) {
if (arr[j][i] === arr[j][i+1]) {
arr[j][i] = arr[j][i] + '#';
arr[j][i+1] = arr[j][i+1] + '#';
} else {
arr[j][i] = arr[j][i] + '#';
}
}
}
// flatten the array
arr = arr.reduce(function(a, b) { return a.concat(b); });
// remove the duplicates from the array
arr = arr.filter(function(a, b) { return arr.indexOf(a) == b; });
// remove the ## and # from the array
for (var i = 0; i < arr.length; i++) {
arr[i] = parseInt(arr[i]);
}
return arr;
}
makeNewArray([[2, 3, 5], [3, 3, 5], [2, 2, 3, 5]]);
Just based on your question and not the result you expect that I don't really get, here is a working solution that will find the highest number of occurrence.
var a = [
[2, 3, 5],
[3, 3, 5],
[2, 2, 3, 5]
];
var o = {};
var max = 0;
var highest = null;
for (var i = 0; i < a.length; i++) {
for (var j = 0; j < a[i].length; j++) {
if (!o.hasOwnProperty(a[i][j])) {
o[a[i][j]] = 1;
} else {
o[a[i][j]]++;
}
if (o[a[i][j]] > max) {
max = o[a[i][j]];
highest = a[i][j];
}
}
}
//this is the number with the highest occurence
console.log(highest);
This ES6 solution iterates the sub arrays, and creates a map of the values, then in it moves the highest values to a map of the entire array. Afterwards, we map the Map entries (no pan intended) to new arrays that are filled with the numbers according to their highest count, and flatten the result.
var data = [[2, 3, 5], [3, 3, 5], [2, 2, 3, 5]];
var result = [].concat(... // flatten the end result
[... // convert the Map to entries array
data.reduce((r, s) => { // reduce the array into a map of counts
s.reduce((map, num) => map.set(num, (map.get(num) || 0) + 1), new Map) // get a Map of the current sub array counts
.forEach((v, k) => r.set(k, Math.max(r.get(k) || 0, v))); // update the global Map if the sub array count of a number is higher
return r;
}, new Map)]
.map((s) => Array.from({ length: s[1] }, () => s[0]))); // map the entries into new sub arrays
console.log(result);
Okay so as the title says my goal is to find the least duplicate elements, given that the elements are only integers.
ex1: array = [1,1,2,2,3,3,3] result should be 1,2
ex2: array = [1,2,2,3,3,4] result should be 1,4
I could use the xor operator to find the elements that appear only once but since there might be only duplicates I cant.
I was thinking of first checking with XOR if the're any non-duplicate elements. If no proceed with fors to check for only two occurrences of the same element and so on, but that is not a good approach as its kinda slow,
any suggestions?
Another approach, using new Set() and few Array.prototype functions. If you have any questions, let me know.
var array1 = [1, 1, 2, 2, 3, 3, 3],
array2 = [1, 2, 2, 3, 3, 4];
function sort(arr) {
var filtered = [...new Set(arr)],
solution = [],
res = filtered.reduce(function(s, a) {
s.push(arr.filter(c => c == a).length);
return s;
}, []);
var minDupe = Math.min.apply([], res);
res.forEach((v, i) => v == minDupe ? solution.push(filtered[i]) : null)
console.log(solution)
}
sort(array1);
sort(array2);
Using Array#forEach instead of Array#reduce.
var array1 = [1, 1, 2, 2, 3, 3, 3],
array2 = [1, 2, 2, 3, 3, 4];
function sort(arr) {
var filtered = [...new Set(arr)],
solution = [],
res = [];
filtered.forEach(v => res.push(arr.filter(c => c == v).length));
var minDupe = Math.min.apply([], res);
res.forEach((v, i) => v == minDupe ? solution.push(filtered[i]) : null)
console.log(solution)
}
sort(array1);
sort(array2);
There may be a better or faster solution, but I would suggest to create a hash (object) with the integer as keys and the counts as values. You can create this in one loop of the array. Then, loop over the object keys keeping track of the minimum value found and add the key to the result array if it satisfies the minimum duplicate value.
Example implementation:
const counts = input.reduce((counts, num) => {
if (!counts.hasOwnProperty(num)) {
counts[num] = 1;
}
else {
counts[num]++;
}
return counts;
}, {});
let minimums = [];
let minCount = null;
for (const key in counts) {
if (!minimums.length || counts[key] < minCount) {
minimums = [+key];
minCount = counts[key];
}
else if (counts[key] === minCount) {
minimums.push(+key);
}
}
return minimums;
You can also simplify this a little bit using lodash: one operation to get the counts and another to get the minimum count and get the list of values that match that minimum count as a key:
import { countBy, invertBy, min, values } from "lodash";
const counts = countBy(input);
const minCount = min(values(counts));
return invertBy(counts)[minCount];
You could count the appearance, sort by count and delete all same max count keys. Then return the original values.
Steps:
declarate all variables, especial the hash object without any prototypes,
use the items as key got the hash table and if not set use an object with the original value and a count property,
increment count of actual hash,
get all keys from the hash table,
sort the keys in descending order of count,
get the count of the first element and store it in min,
filter all keys with min count,
get the original value for all remaining keys.
function getLeastDuplicateItems(array) {
var hash = Object.create(null), keys, min;
array.forEach(function (a) {
hash[a] = hash[a] || { value: a, count: 0 };
hash[a].count++;
});
keys = Object.keys(hash);
keys.sort(function (a, b) { return hash[a].count - hash[b].count; });
min = hash[keys[0]].count;
return keys.
filter(function (k) {
return hash[k].count === min;
}).
map(function (k) {
return hash[k].value;
});
}
var data = [
[1, 1, 2, 2, 3, 3, 3],
[1, 2, 2, 3, 3, 4],
[4, 4, 4, 6, 6, 4, 7, 8, 5, 5, 6, 3, 4, 6, 6, 7, 7, 8, 3, 3]
];
console.log(data.map(getLeastDuplicateItems));
.as-console-wrapper { max-height: 100% !important; top: 0; }
A single loop solution with a variable for min and an array for collected count.
function getLeastDuplicateItems(array) {
var hash = Object.create(null),
temp = [],
min = 1;
array.forEach(function (a) {
var p = (temp[hash[a]] || []).indexOf(a);
hash[a] = (hash[a] || 0) + 1;
temp[hash[a]] = temp[hash[a]] || [];
temp[hash[a]].push(a);
if (min > hash[a]) {
min = hash[a];
}
if (p === -1) {
return;
}
temp[hash[a] - 1].splice(p, 1);
if (min === hash[a] - 1 && temp[hash[a] - 1].length === 0) {
min++;
}
}, []);
return temp[min];
}
var data = [
[1, 1, 2, 2, 3, 3, 3],
[1, 2, 2, 3, 3, 4],
[4, 4, 4, 6, 6, 4, 7, 8, 5, 5, 6, 3, 4, 6, 6, 7, 7, 8, 3, 3],
];
console.log(data.map(getLeastDuplicateItems));
.as-console-wrapper { max-height: 100% !important; top: 0; }
I am trying to figure out a solution for symmetric
difference using javascript that accomplishes the following
objectives:
accepts an unspecified number of arrays as arguments
preserves the original order of the numbers in the arrays
does not remove duplicates of numbers in single arrays
removes duplicates occurring across arrays
Thus, for example,
if the input is ([1, 1, 2, 6], [2, 3, 5], [2, 3, 4]),
the solution would be, [1, 1, 6, 5, 4].
I am trying to solve this as challenge given by an online
coding community. The exact instructions of the challenge
state,
Create a function that takes two or more arrays and returns an array
of the symmetric difference of the provided arrays.
The mathematical term symmetric difference refers to the elements in
two sets that are in either the first or second set, but not in both.
Although my solution below finds the numbers that are
unique to each array, it eliminates all numbers occuring
more than once and does not keep the order of the numbers.
My question is very close to the one asked at finding symmetric difference/unique elements in multiple arrays in javascript. However, the solution
does not preserve the original order of the numbers and does not preserve duplicates of unique numbers occurring in single arrays.
function sym(args){
var arr = [];
var result = [];
var units;
var index = {};
for(var i in arguments){
units = arguments[i];
for(var j = 0; j < units.length; j++){
arr.push(units[j]);
}
}
arr.forEach(function(a){
if(!index[a]){
index[a] = 0;
}
index[a]++;
});
for(var l in index){
if(index[l] === 1){
result.push(+l);
}
}
return result;
}
symsym([1, 1, 2, 6], [2, 3, 5], [2, 3, 4]); // => Desired answer: [1, 1, 6. 5. 4]
As with all problems, it's best to start off writing an algorithm:
Concatenate versions of the arrays, where each array is filtered to contain those elements which no array other than the current one contains
Then just write that down in JS:
function sym() {
var arrays = [].slice.apply(arguments);
return [].concat.apply([], // concatenate
arrays.map( // versions of the arrays
function(array, i) { // where each array
return array.filter( // is filtered to contain
function(elt) { // those elements which
return !arrays.some( // no array
function(a, j) { //
return i !== j // other than the current one
&& a.indexOf(elt) >= 0 // contains
;
}
);
}
);
}
)
);
}
Non-commented version, written more succinctly using ES6:
function sym(...arrays) {
return [].concat(arrays .
map((array, i) => array .
filter(elt => !arrays .
some((a, j) => i !== j && a.indexOf(elt) >= 0))));
}
Here's a version that uses the Set object to make for faster lookup. Here's the basic logic:
It puts each array passed as an argument into a separate Set object (to faciliate fast lookup).
Then, it iterates each passed in array and compares it to the other Set objects (the ones not made from the array being iterated).
If the item is not found in any of the other Sets, then it is added to the result.
So, it starts with the first array [1, 1, 2, 6]. Since 1 is not found in either of the other arrays, each of the first two 1 values are added to the result. Then 2 is found in the second set so it is not added to the result. Then 6 is not found in either of the other two sets so it is added to the result. The same process repeats for the second array [2, 3, 5] where 2 and 3 are found in other Sets, but 5 is not so 5 is added to the result. And, for the last array, only 4 is not found in the other Sets. So, the final result is [1,1,6,5,4].
The Set objects are used for convenience and performance. One could use .indexOf() to look them up in each array or one could make your own Set-like lookup with a plain object if you didn't want to rely on the Set object. There's also a partial polyfill for the Set object that would work here in this answer.
function symDiff() {
var sets = [], result = [];
// make copy of arguments into an array
var args = Array.prototype.slice.call(arguments, 0);
// put each array into a set for easy lookup
args.forEach(function(arr) {
sets.push(new Set(arr));
});
// now see which elements in each array are unique
// e.g. not contained in the other sets
args.forEach(function(array, arrayIndex) {
// iterate each item in the array
array.forEach(function(item) {
var found = false;
// iterate each set (use a plain for loop so it's easier to break)
for (var setIndex = 0; setIndex < sets.length; setIndex++) {
// skip the set from our own array
if (setIndex !== arrayIndex) {
if (sets[setIndex].has(item)) {
// if the set has this item
found = true;
break;
}
}
}
if (!found) {
result.push(item);
}
});
});
return result;
}
var r = symDiff([1, 1, 2, 6], [2, 3, 5], [2, 3, 4]);
log(r);
function log(x) {
var d = document.createElement("div");
d.textContent = JSON.stringify(x);
document.body.appendChild(d);
}
One key part of this code is how it compares a given item to the Sets from the other arrays. It just iterates through the list of Set objects, but it skips the Set object that has the same index in the array as the array being iterated. That skips the Set made from this array so it's only looking for items that exist in other arrays. That allows it to retain duplicates that occur in only one array.
Here's a version that uses the Set object if it's present, but inserts a teeny replacement if not (so this will work in more older browsers):
function symDiff() {
var sets = [], result = [], LocalSet;
if (typeof Set === "function") {
try {
// test to see if constructor supports iterable arg
var temp = new Set([1,2,3]);
if (temp.size === 3) {
LocalSet = Set;
}
} catch(e) {}
}
if (!LocalSet) {
// use teeny polyfill for Set
LocalSet = function(arr) {
this.has = function(item) {
return arr.indexOf(item) !== -1;
}
}
}
// make copy of arguments into an array
var args = Array.prototype.slice.call(arguments, 0);
// put each array into a set for easy lookup
args.forEach(function(arr) {
sets.push(new LocalSet(arr));
});
// now see which elements in each array are unique
// e.g. not contained in the other sets
args.forEach(function(array, arrayIndex) {
// iterate each item in the array
array.forEach(function(item) {
var found = false;
// iterate each set (use a plain for loop so it's easier to break)
for (var setIndex = 0; setIndex < sets.length; setIndex++) {
// skip the set from our own array
if (setIndex !== arrayIndex) {
if (sets[setIndex].has(item)) {
// if the set has this item
found = true;
break;
}
}
}
if (!found) {
result.push(item);
}
});
});
return result;
}
var r = symDiff([1, 1, 2, 6], [2, 3, 5], [2, 3, 4]);
log(r);
function log(x) {
var d = document.createElement("div");
d.textContent = JSON.stringify(x);
document.body.appendChild(d);
}
I came across this question in my research of the same coding challenge on FCC. I was able to solve it using for and while loops, but had some trouble solving using the recommended Array.reduce(). After learning a ton about .reduce and other array methods, I thought I'd share my solutions as well.
This is the first way I solved it, without using .reduce.
function sym() {
var arrays = [].slice.call(arguments);
function diff(arr1, arr2) {
var arr = [];
arr1.forEach(function(v) {
if ( !~arr2.indexOf(v) && !~arr.indexOf(v) ) {
arr.push( v );
}
});
arr2.forEach(function(v) {
if ( !~arr1.indexOf(v) && !~arr.indexOf(v) ) {
arr.push( v );
}
});
return arr;
}
var result = diff(arrays.shift(), arrays.shift());
while (arrays.length > 0) {
result = diff(result, arrays.shift());
}
return result;
}
After learning and trying various method combinations, I came up with this that I think is pretty succinct and readable.
function sym() {
var arrays = [].slice.call(arguments);
function diff(arr1, arr2) {
return arr1.filter(function (v) {
return !~arr2.indexOf(v);
});
}
return arrays.reduce(function (accArr, curArr) {
return [].concat( diff(accArr, curArr), diff(curArr, accArr) )
.filter(function (v, i, self) { return self.indexOf(v) === i; });
});
}
That last .filter line I thought was pretty cool to dedup an array. I found it here, but modified it to use the 3rd callback parameter instead of the named array due to the method chaining.
This challenge was a lot of fun!
// Set difference, a.k.a. relative compliment
const diff = (a, b) => a.filter(v => !b.includes(v))
const symDiff = (first, ...rest) =>
rest.reduce(
(acc, x) => [
...diff(acc, x),
...diff(x, acc),
],
first,
)
/* - - - */
console.log(symDiff([1, 3], ['Saluton', 3])) // [1, 'Saluton']
console.log(symDiff([1, 3], [2, 3], [2, 8, 5])) // [1, 8, 5]
Just use _.xor or copy lodash code.
Another simple, yet readable solution:
/*
This filters arr1 and arr2 from elements which are in both arrays
and returns concatenated results from filtering.
*/
function symDiffArray(arr1, arr2) {
return arr1.filter(elem => !arr2.includes(elem))
.concat(arr2.filter(elem => !arr1.includes(elem)));
}
/*
Add and use this if you want to filter more than two arrays at a time.
*/
function symDiffArrays(...arrays) {
return arrays.reduce(symDiffArray, []);
}
console.log(symDiffArray([1, 3], ['Saluton', 3])); // [1, 'Saluton']
console.log(symDiffArrays([1, 3], [2, 3], [2, 8, 5])); // [1, 8, 5]
Used functions: Array.prototype.filter() | Array.prototype.reduce() | Array.prototype.includes()
function sym(arr1, arr2, ...rest) {
//creating a array which has unique numbers from both the arrays
const union = [...new Set([...arr1,...arr2])];
// finding the Symmetric Difference between those two arrays
const diff = union.filter((num)=> !(arr1.includes(num) && arr2.includes(num)))
//if there are more than 2 arrays
if(rest.length){
// recurrsively call till rest become 0
// i.e. diff of 1,2 will be the first parameter so every recurrsive call will reduce // the arrays till diff between all of them are calculated.
return sym(diff, rest[0], ...rest.slice(1))
}
return diff
}
Create a Map with a count of all unique values (across arrays). Then concat all arrays, and filter non unique values using the Map.
const symsym = (...args) => {
// create a Map from the unique value of each array
const m = args.reduce((r, a) => {
// get unique values of array, and add to Map
new Set(a).forEach((n) => r.set(n, (r.get(n) || 0) + 1));
return r;
}, new Map());
// combine all arrays
return [].concat(...args)
// remove all items that appear more than once in the map
.filter((n) => m.get(n) === 1);
};
console.log(symsym([1, 1, 2, 6], [2, 3, 5], [2, 3, 4])); // => Desired answer: [1, 1, 6, 5, 4]
This is the JS code using higher order functions
function sym(args) {
var output;
output = [].slice.apply(arguments).reduce(function(previous, current) {
current.filter(function(value, index, self) { //for unique
return self.indexOf(value) === index;
}).map(function(element) { //pushing array
var loc = previous.indexOf(element);
a = [loc !== -1 ? previous.splice(loc, 1) : previous.push(element)];
});
return previous;
}, []);
document.write(output);
return output;
}
sym([1, 2, 3], [5, 2, 1, 4]);
And it would return the output as: [3,5,4]
Pure javascript solution.
function diff(arr1, arr2) {
var arr3= [];
for(var i = 0; i < arr1.length; i++ ){
var unique = true;
for(var j=0; j < arr2.length; j++){
if(arr1[i] == arr2[j]){
unique = false;
break;
}
}
if(unique){
arr3.push(arr1[i]);}
}
return arr3;
}
function symDiff(arr1, arr2){
return diff(arr1,arr2).concat(diff(arr2,arr1));
}
symDiff([1, "calf", 3, "piglet"], [7, "filly"])
//[1, "calf", 3, "piglet", 7, "filly"]
My short solution. At the end, I removed duplicates by filter().
function sym() {
var args = Array.prototype.slice.call(arguments);
var almost = args.reduce(function(a,b){
return b.filter(function(i) {return a.indexOf(i) < 0;})
.concat(a.filter(function(i){return b.indexOf(i)<0;}));
});
return almost.filter(function(el, pos){return almost.indexOf(el) == pos;});
}
sym([1, 1, 2, 5], [2, 2, 3, 5], [3, 4, 5, 5]);
//Result: [4,5,1]
function sym(args) {
var initialArray = Array.prototype.slice.call(arguments);
var combinedTotalArray = initialArray.reduce(symDiff);
// Iterate each element in array, find values not present in other array and push values in combinedDualArray if value is not there already
// Repeat for the other array (change roles)
function symDiff(arrayOne, arrayTwo){
var combinedDualArray = [];
arrayOne.forEach(function(el, i){
if(!arrayTwo.includes(el) && !combinedDualArray.includes(el)){
combinedDualArray.push(el);
}
});
arrayTwo.forEach(function(el, i){
if(!arrayOne.includes(el) && !combinedDualArray.includes(el)){
combinedDualArray.push(el);
}
});
combinedDualArray.sort();
return combinedDualArray;
}
return combinedTotalArray;
}
console.log(sym([1, 1, 2, 5], [2, 2, 3, 5], [3, 4, 5, 5]));
This function removes duplicates because the original concept of symmetric difference operates over sets. In this example, the function operates on the sets this way: ((A △ B) △ C) △ D ...
function sym(...args) {
return args.reduce((old, cur) => {
let oldSet = [...new Set(old)]
let curSet = [...new Set(cur)]
return [
...oldSet.filter(i => !curSet.includes(i)),
...curSet.filter(i => !oldSet.includes(i))
]
})
}
// Running> sym([1, 1, 2, 6], [2, 3, 5], [2, 3, 4])
console.log(sym([1, 1, 2, 6], [2, 3, 5], [2, 3, 4]))
// Return> [1, 6, 5, 2, 4]
This works for me:
function sym() {
var args = [].slice.call(arguments);
var getSym = function(arr1, arr2) {
return arr1.filter(function(each, idx) {
return arr2.indexOf(each) === -1 && arr1.indexOf(each, idx + 1) === -1;
}).concat(arr2.filter(function(each, idx) {
return arr1.indexOf(each) === -1 && arr2.indexOf(each, idx + 1) === -1;
}));
};
var result = getSym(args[0], args[1]);
var len = args.length - 1, i = 2;
while (--len) {
result = [].concat(getSym(result, args[i]));
i++;
}
return result;
}
console.info(sym([1, 1, 2, 5], [2, 2, 3, 5], [6, 8], [7, 8], [9]));
Alternative: Use the lookup inside a map instead of an array
function sym(...vs){
var has = {};
//flatten values
vs.reduce((a,b)=>a.concat(b)).
//if element does not exist add it (value==1)
//or mark it as multiply found value > 1
forEach(value=>{has[value] = (has[value]||0)+1});
return Object.keys(has).filter(x=>has[x]==1).map(x=>parseInt(x,10));
}
console.log(sym([1, 2, 3], [5, 2, 1, 4],[5,7], [5]));//[3,4,7])
Hey if anyone is interested this is my solution:
function sym (...args) {
let fileteredArgs = [];
let symDiff = [];
args.map(arrayEl =>
fileteredArgs.push(arrayEl.filter((el, key) =>
arrayEl.indexOf(el) === key
)
)
);
fileteredArgs.map(elArr => {
elArr.map(el => {
let index = symDiff.indexOf(el);
if (index === -1) {
symDiff.push(el);
} else {
symDiff.splice(index, 1);
}
});
});
return (symDiff);
}
console.log(sym([1, 2, 3, 3], [5, 2, 1, 4]));
Here is the solution
let a=[1, 1, 2, 6]
let b=[2, 3, 5];
let c= [2, 3, 4]
let result=[...a,...b].filter(item=>!(a.includes(item) && b.includes(item) ))
result=[...result,...c].filter(item=>!(b.includes(item) && c.includes(item) ))
console.log(result) //[1, 1, 6, 5, 4]
Concise solution using
Arrow functions
Array spread syntax
Array filter
Array reduce
Set
Rest parameters
Implicit return
const symPair = (a, b) =>
[...a.filter(item => !b.includes(item)),
...b.filter(item => !a.includes(item))]
const sym = (...args) => [...new Set(args.reduce(symPair))]
The function symPair works for two input arrays, and the function sym works for two or more arrays, using symPair as a reducer.
const symPair = (a, b) =>
[...a.filter(item => !b.includes(item)),
...b.filter(item => !a.includes(item))]
const sym = (...args) => [...new Set(args.reduce(symPair))]
console.log(sym([1, 2, 3], [2, 3, 4], [6]))
const removeDuplicates = (data) => Array.from(new Set(data));
const getSymmetric = (data) => (val) => data.indexOf(val) === data.lastIndexOf(val)
function sym(...args) {
let joined = [];
args.forEach((arr) => {
joined = joined.concat(removeDuplicates(arr));
joined = joined.filter(getSymmetric(joined))
});
return joined;
}
console.log(sym([1, 2, 3], [5, 2, 1, 4]));
Below code worked fine all the scenarios. Try the below code
function sym() {
var result = [];
for (var i = 0; i < arguments.length; i++) {
if (i == 0) {
var setA = arguments[i].filter((val) => !arguments[i + 1].includes(val));
var setB = arguments[i + 1].filter((val) => !arguments[i].includes(val));
result = [...setA, ...setB];
i = i + 1;
} else {
var setA = arguments[i].filter((val) => !result.includes(val));
var setB = result.filter((val) => !arguments[i].includes(val));
result = [...setA, ...setB];
}
}
return result.filter((c, index) => {
return result.indexOf(c) === index;
}).sort();
}
My code passed all test cases for the similar question on freecodecamp. Below is code for the same.
function sym(...args) {
const result = args.reduce((acc, curr, i) => {
if (curr.length > acc.length) {
const arr = curr.reduce((a, c, i) => {
if(a.includes(c)){
}
if (!acc.includes(c) && !a.includes(c)) {
a.push(c);
}
if (!curr.includes(acc[i]) && i < acc.length) {
a.push(acc[i])
}
return a;
}, []);
return [...arr];
} else {
const arr = acc.reduce((a, c, i) => {
if(a.includes(c)){
}
if (!curr.includes(c) && !a.includes(c)) {
a.push(c);
}
if (!acc.includes(curr[i]) && i < curr.length) {
a.push(curr[i])
}
return a;
}, []);
return [...arr]
}
});
let ans = new Set([...result])
return [...ans]
}
sym([1,2,3,3],[5, 2, 1, 4,5]);