Below is my code, it works for some strings but not for all.
Ex: "()()()()()((" expected is false, my code returns true.
function validParentheses(parens){
var stack = [];
parens.split('').map((cur, index) =>{
if(stack.length === 0 || stack[index-1] === cur) stack.push(cur);
else stack.pop();
});
return stack.length > 0 ? false : true;
}
stack[index - 1] will be valid so long as you push every iteration. In the case that you pop an element, the incrementing index will always be out of bounds.
Change it to stack.length - 1 to always get the last element, regardless of what is pushed or popped.
For every '(' there must be a exactly one ')'. So you need a counter to see that there is an exact match
function validParentheses(parens){
const chars = parens.split('');
const numChars = chars.length;
let ii;
let numOpenParens = 0;
for (ii = 0; ii < numChars; ii += 1) {
curChar = chars[ii];
numOpenParens += curChar == '(' ? 1 : -1;
// return false if there is one too many closed parens
if (numOpenParens < 0) {
return false;
}
}
// return true only if all parens have been closed
return numOpenParens === 0;
}
For case when stack's length is greater than 0:
if top of the stack is equal to current iterated parenthesis, push that to stack
else pop the stack
function validParentheses(parens) {
var stack = []
parens.split("").forEach((cur) => {
if (stack.length > 0) {
if (stack[stack.length - 1] === cur) {
stack.push(cur)
} else {
stack.pop()
}
} else {
stack.push(cur)
}
})
return stack.length > 0 ? false : true
}
console.log(validParentheses("()()()()()(("))
console.log(validParentheses("()()()()()()"))
console.log(validParentheses("((()))"))
console.log(validParentheses("((())))"))
in stack[index-1] === cur
you are comparing if the char isn't the same like the one stored in the stack, so )( opposite parens will be valid
you can try do something like this
function validParentheses(parens) {
if (parens % 2 == 1) return false;
for (let i = 0; i < parens.length; i++) {
const char = parens[i];
if (char == "(") {
if (parens[i + 1] == ")") {
i++;
} else {
return false
}
} else {
return false
}
}
return true;
}
You need to check the last added value as well, because an unresolves closing bracket should remain in he stack.
BTW, Array#forEach is the method of choice, because Array#map returns a new array, which is not used here.
function validParentheses(parens) {
var stack = [];
parens.split('').forEach((cur, index) => {
if (cur === ')' && stack[stack.length - 1] === '(') stack.pop();
else stack.push(cur);
});
return !stack.length;
}
console.log(validParentheses("(())()"));
console.log(validParentheses("()()()()()(("));
console.log(validParentheses("))(())"));
have been struggling for the last couple of days with the following problem from codewars:
Write a function that takes a string of braces, and determines if the order of the braces is valid. It should return true if the string is valid, and false if it's invalid.
All input strings will be nonempty, and will only consist of parentheses, brackets and curly braces: ()[]{} .
What is considered Valid?
A string of braces is considered valid if all braces are matched with the correct brace.
Examples
"(){}[]" => True
"([{}])" => True
"(}" => False
"[(])" => False
"[({})](]" => False
So I'm really stuck with the code for this one, and this is what I have up to this point:
function validBraces(braces){
let opening = [ '(', '[', '{']
let closing = [ ')', ']', '}']
let count = 0
const left = []
const right = []
// I generate left and right arrays, left w/the opening braces from the input, right w/ the closing
for (let i = 0; i < braces.length; i++) {
if (opening.includes(braces[i])) {
left.push(braces[i])
} else if (closing.includes(braces[i])) {
right.push(braces[i])
}
}
if (braces.length % 2 !== 0) {
return false
}
// I know there's no point in doing this but at one point I thought I was finishing the program and thought I would 'optimize it' to exit early, probably this is dumb haha.
if (left.length !== right.length) {
return false
}
// The juicy (not juicy) part where I check if the braces make sense
for (let i = 0; i < left.length; i++) {
// If the list are made up of braces like ()[]{} add one to counter
if (opening.indexOf(left[i]) === closing.indexOf(right[i])) {
count += 1
} else // If left and right are mirrored add one to the counter
if (opening.indexOf(left[i]) === closing.indexOf(right.reverse()[i])) {
count += 1
}
}
//If the counter makes sense return true
if (count === braces.length / 2) {
return true
} else { return false}
}
console.log(validBraces( "()" )) //true
console.log(validBraces("([])")) //true
console.log(validBraces( "[(])" )) //false
console.log(validBraces( "[(})" )) //false
console.log(validBraces( "[([[]])]" )) //true
Some comments: I know I'm still not checking for this example ([])() but I thought of breaking this up into two smaller checks in some way.
Thank you if you read up to this point. I would appreciate guidance in some way, though I don't want the problem solved for me. I'm probably overcomplicating this in some way since its a 6kyu problem, if so a tip on how to approach it more cleverly would be very much appreciated.
Thank you in advance! :pray: :pray:
Hell yeah!! I'm very happy to finally reach to the solution myself using some of the hints given to me here:
function validBraces(braces){
let opening = [ '(', '[', '{']
let closing = [ ')', ']', '}']
let arr = []
//console.log(closing.indexOf(braces[")"]) === opening.indexOf(arr[")"]))
for (let i = 0; i < braces.length; i++) {
if (opening.includes(braces[i])) {
arr.push(braces[i])
} else
if (closing.indexOf(braces[i]) === opening.indexOf(arr[arr.length - 1])) {
arr.pop()
} else return false
} return arr.length === 0;
}
I was clearly overthinking it in the first place haha. Thanks for everyone that helped!
As Dave suggested, using a stack, I've wrote the code for it:
var leftBraces="([{";
var rightBraces=")]}";
function checkBraces(braces) {
var ok=true;
var stack=[];
for(var i=0; i<braces.length && ok; i++) {
var brace=braces[i];
if(leftBraces.includes(brace)) stack.push(brace);
else {
var leftBrace=stack.pop();
if(leftBrace==undefined) ok=false;
else if(leftBraces.indexOf(leftBrace)!=rightBraces.indexOf(brace)) ok=false;
}
}
if(stack.length) ok=false;
return ok;
}
Code assumes only braces (no spaces or other characters).
I'm using string.indexOf() that matches for leftBraces and rightBraces.
Also, within the for loop, notice the termination part (2nd): i<braces.length && ok - doesn't "have to" use the iterator and, if I'm not mistaken, can even be empty...
var validBraces = (s) => {
let objO = {'(': 0, '[': 1, '{': 2};
let objC = {')': 0, ']': 1, '}': 2};
let stack = [];
for (let i=0; i<s.length; i++) {
if (objO.hasOwnProperty(s[i])) {
if (stack.length === 0 || stack[stack.length-1].idx!==objO[s[i]])
stack.push({idx: objO[s[i]], count: 1});
else
stack[stack.length-1].count++;
}
else if (objC.hasOwnProperty(s[i])) {
if (stack.length === 0 || stack[stack.length-1].idx!==objC[s[i]])
return false;
else {
stack[stack.length-1].count--;
if (stack[stack.length-1].count===0)
stack.pop();
}
}
}
return stack.length === 0;
};
console.log(validBraces("(){}[]"));
console.log(validBraces("([{}])"));
console.log(validBraces("(})"));
console.log(validBraces("[(])"));
console.log(validBraces("[({})](]"));
Here is a simplified solution:
let isMatchingBraces = function(str) {
let stack = [];
let symbol = {
'(': ')',
'[': ']',
'{': '}'
};
for (let i = 0; i < str.length; i += 1) {
// If character is an opening brace add it to a stack
if (str[i] === '(' || str[i] === '{' || str[i] === '[') {
stack.push(str[i]);
}
// If that character is a closing brace, pop from the stack, which will also reduce the length of the stack each time a closing bracket is encountered.
else {
let last = stack.pop();
//If the popped element from the stack, which is the last opening brace doesn’t match the corresponding closing brace in the symbol, then return false
if (str[i] !== symbol[last]) {
return false
};
}
}
// After checking all the brackets of the str, at the end, the stack is not
// empty then fail
if (stack.length !== 0) {
return false
};
return true;
}
function validBraces(braces){
let par =0;
let bra =0;
let cur =0;
for(let i =0; i<braces.length; i++){
if(braces[i]==="("){
par++;
}
if(braces[i]===")"){
par--;
}
if(braces[i]==="["){
bra++;
}
if(braces[i]==="]"){
bra--;
}
if(braces[i]==="{"){
cur++;
}
if(braces[i]==="}"){
cur--;
}
}
if(par<0 || bra<0 || cur<0){
return false;
}
return true;
};
Here is my solution:
var isValid = function (s) {
let charMap = new Map();
for (let i = 0; i < s.length; i++) {
charMap.set(s[i], i);
}
return Boolean(
charMap.get("(") < charMap.get(")") &&
charMap.get("(") % 2 != charMap.get(")") % 2 &&
charMap.get("{") < charMap.get("}") &&
charMap.get("{") % 2 != charMap.get("}") % 2 &&
charMap.get("[") < charMap.get("]") &&
charMap.get("[") % 2 != charMap.get("]") % 2
);
};
Explanation:
In order to achieve a quick and short solution, I have identified the common pattern of validity for opening/closing braces.
The common pattern for opening and closing braces' validity is that if say the opening(closing) stands at the even index in the string, the other one should be odd and vice versa. Example {}, {[]}, {()[]}, {[()]}.
Because we want to avoid a double loop for performance reasons, we are using a Hash Table via Map() to store the character and the index.
An alternative for getting the character's index would be using Array's find or another method, but that would end up in a second loop over the values which we want to avoid.
Finally, once the indexes of and the characters are stored in the charMap, we check whether or not the stored closing/opening characters' standing (odd/even) in the string is not equal, e.g. if '(' is odd the ')' should be even and vice versa.
We check this via the remainder (%) operator, i.e. a number's remainder of 2 is 0 if even.
Additionally, we need to check whether the order of braces is correct, e.g. if '(' is before '}';
The Boolean() function coerces the comparisons in the desired result.
I am trying to write a function that checks if a syntax is correct or not. If it is correct it returns 'ok' else it returns the index of the error. So far my code works if it is correct, if the error is at the first index or last index. Finding errors inbetween is what i am finding difficult. Here is my code.
function syntaxError(syntax) {
let arr = syntax.split('').join()
let arr1 = [];
let arr2 = [];
let result;
//Error if the first index contain a closing braces
if (arr[0] === '>' || arr[0] === ']' || arr[0] === '}' || arr[0] === ')') {
result = 0
};
if (arr === "") {
result = 'ok'
};
//Error if its just a single brace
if (arr.length === 1) {
result = 0
};
//Error if the last index contain an opening braces
if (arr.slice(-1) === '<' || arr.slice(-1) === '[' || arr.slice(-1) === '{' || arr.slice(-1) === '(') {
result = indexOf(arr.slice(-1))
};
let char = arr[i];
if (char == '[' || char == '{' || char == '<' || char == '(') {
arr1.push(char)
} else {
arr2.push(char);
}
if (arr1.length === 0 || arr2.length === 0) {
result = 0
}
if (arr1.length === arr2.length) {
result = 'ok'
}
return result
}
The example below should return 95
('[[[[[[[[[[[[[[]]]]]]]]<<<<<<<<<<<>>>>>>>>>>>]]]]]]'+'[[[[[[[[[[[[[[]]]]]]]
<<<<<<<<<<<>>>>>>>>>>>]}]]]]' + '>')
You could take a an array for the index of each opening character and pop this if the related closing character is found.
If finished and the stack has no item, the syntax is ok, otherwise return an index or the index of the last pushed opening character.
Example:
code comment
----------- ---------------------------
[][[[]][][]
[] balanced
[ error, this returns later 2
[[]] balanced
[] balanced
[] balanced
finally a missing ]
function syntaxError(syntax) {
const
isOpening = c => /[<[{(]/.test(c),
isClosing = c => /[>\]})]/.test(c),
open = { '>': '<', ']': '[', '}': '{', ')': '(' };
var stack = [],
index,
finished = Array
.from(syntax)
.every((c, i) => {
var temp = stack[stack.length - 1];
if (isOpening(c)) {
if (temp && temp.c === c) {
temp.indices.push(i);
} else {
stack.push({ c, indices: [i] });
}
return true;
}
if (isClosing(c)) {
if (temp && temp.c === open[c]) {
temp.indices.pop();
if (!temp.indices.length) stack.pop();
} else {
index = stack.length ? stack.pop().indices.pop() : i;
return false;
}
}
return true;
});
return finished && !stack.length
? 'ok'
: index === undefined
? stack.pop().indices.pop()
: index;
}
console.log(syntaxError('[][][[{}]]')); // ok
console.log(syntaxError(')'));
// 0
console.log(syntaxError('[][][[{<}]]'));
// 01234567
console.log(syntaxError('[][[[]][][]'));
// 012
console.log(syntaxError('[[[[[[[[[[[[[[]]]]]]]]<<<<<<<<<<<>>>>>>>>>>>]]]]]]'+'[[[[[[[[[[[[[[]]]]]]]<<<<<<<<<<<>>>>>>>>>>>]}]]]]' + '>'));
An algorithm for doing this is, find an opening symbol, push it to a stack (or array, whatever). Find another opening symbol, push it to a stack. Find a closing symbol that matches the top of the stack, pop the opening symbol off the stack. Find a closing symbol that doesn't match the top of the stack, you found an error. Find a closing symbol and there's nothing on the stack, you found an error. Get to the end and still have symbols on the stack, you found an error.
I am trying to solve a task with regex. Given a function with string parameter .The string contains (){}<>[] braces. I have to check if the string is syntactically true and I should also take a count of braces nesting.
This is my version (incomplete)`
const checkBraces = (str) => {
const newStr = str.replace(/[^(){}<>[\]]+/gi, '');
let answer = newStr.match(/\(+\)+|\<+\>+|\{+\}+|\[+\]+/g);
console.log(answer);
}
and this is the minimal count of tests for the function `
checkBraces("---(++++)----") == 0
checkBraces("") == 0
checkBraces("before ( middle []) after ") == 0
checkBraces(") (") == 1
checkBraces("} {") == 1
checkBraces("<( >)") == 1
checkBraces("( [ <> () ] <> )") == 0
checkBraces(" ( [)") == 1
If there is en error so the function should return 1 , else 0 .
In my function I first tried to replace all non-braces so I have a clear string. Now I can't solve this problem .
You can solve this by iterating through the string and keeping a stack of opening braces. Each time you find a closing brace, pop from the stack. The closing brace should match the thing you popped or they're not balanced. At the end the stack should be empty:
let braces = { // lookup to match closing with opening
'(':')',
'{':'}',
'<':'>',
'[':']'
}
let closing = new Set([')', '}', '>', ']']) // quick lookup of brackets
let opening = new Set(['(', '{', '<', '['])
function checkBraces(str) {
/* returns true if balanced, false if unbalanced */
let stack = []
for (l of str){
if (closing.has(l)){ // found a closing bracket
if (l !== braces[stack.pop()]) return false // does it match the last opening?
} else if(opening.has(l)) stack.push(l) // found an opening push to the stack
}
return stack.length === 0
}
console.log(checkBraces("before ( middle []) after "))
console.log(checkBraces("<( >)"))
console.log(checkBraces("( [ <> () ] <> )"))
console.log(checkBraces(" ( [)"))
console.log(checkBraces(" )"))
console.log(checkBraces(" <"))
Not using any inbuilt function except push and pop.
function check(s) {
var arr = [];
for (let i = 0; i < s.length; i++) {
if (s[i] === '{' || s[i] === '[' || s[i] === '(' || s[i] === '<' ) {
arr.push(s[i]);
} else if (s[i] === '}' || s[i] === ']' || s[i] === ')' || s[i] === '>' ) {
if ( arr[arr.length-1] === s[i] ) {
arr.pop();
} else {
return 'not balanced';
}
}
}
if(arr.length) return 'not balanced';
return 'balanced';
}
console.log(check('{781234}[3,4,5,6 ]< >( sdfhniusdf )'));
console.log(check('asssssssssss {}');
console.log(check(' as< habsdj');
I have the following:
function checkPalindrom(palindrom)
{
for( var i = palindrom.length; i > 0; i-- )
{
if( palindrom[i] = palindrom.charAt(palindrom.length)-1 )
{
document.write('the word is palindrome.');
}else{
document.write('the word is not palindrome!');
}
}
}
checkPalindrom('wordthatwillbechecked');
What is wrong with my code? I want to check if the word is a palindrome.
Maybe I will suggest alternative solution:
function checkPalindrom (str) {
return str == str.split('').reverse().join('');
}
UPD. Keep in mind however that this is pretty much "cheating" approach, a demonstration of smart usage of language features, but not the most practical algorithm (time O(n), space O(n)). For real life application or coding interview you should definitely use loop solution. The one posted by Jason Sebring in this thread is both simple and efficient (time O(n), space O(1)).
25x faster than the standard answer
function isPalindrome(s,i) {
return (i=i||0)<0||i>=s.length>>1||s[i]==s[s.length-1-i]&&isPalindrome(s,++i);
}
use like:
isPalindrome('racecar');
as it defines "i" itself
Fiddle: http://jsfiddle.net/namcx0yf/9/
This is ~25 times faster than the standard answer below.
function checkPalindrome(str) {
return str == str.split('').reverse().join('');
}
Fiddle: http://jsfiddle.net/t0zfjfab/2/
View console for performance results.
Although the solution is difficult to read and maintain, I would recommend understanding it to demonstrate non-branching with recursion and bit shifting to impress your next interviewer.
explained
The || and && are used for control flow like "if" "else". If something left of || is true, it just exits with true. If something is false left of || it must continue. If something left of && is false, it exits as false, if something left of a && is true, it must continue. This is considered "non-branching" as it does not need if-else interupts, rather its just evaluated.
1. Used an initializer not requiring "i" to be defined as an argument. Assigns "i" to itself if defined, otherwise initialize to 0. Always is false so next OR condition is always evaluated.
(i = i || 0) < 0
2. Checks if "i" went half way but skips checking middle odd char. Bit shifted here is like division by 2 but to lowest even neighbor division by 2 result. If true then assumes palindrome since its already done. If false evaluates next OR condition.
i >= s.length >> 1
3. Compares from beginning char and end char according to "i" eventually to meet as neighbors or neighbor to middle char. If false exits and assumes NOT palindrome. If true continues on to next AND condition.
s[i] == s[s.length-1-i]
4. Calls itself again for recursion passing the original string as "s". Since "i" is defined for sure at this point, it is pre-incremented to continue checking the string's position. Returns boolean value indicating if palindrome.
isPalindrome(s,++i)
BUT...
A simple for loop is still about twice as fast as my fancy answer (aka KISS principle)
function fastestIsPalindrome(str) {
var len = Math.floor(str.length / 2);
for (var i = 0; i < len; i++)
if (str[i] !== str[str.length - i - 1])
return false;
return true;
}
http://jsfiddle.net/6L953awz/1/
The logic here is not quite correct, you need to check every letter to determine if the word is a palindrome. Currently, you print multiple times. What about doing something like:
function checkPalindrome(word) {
var l = word.length;
for (var i = 0; i < l / 2; i++) {
if (word.charAt(i) !== word.charAt(l - 1 - i)) {
return false;
}
}
return true;
}
if (checkPalindrome("1122332211")) {
document.write("The word is a palindrome");
} else {
document.write("The word is NOT a palindrome");
}
Which should print that it IS indeed a palindrome.
First problem
= is assign
== is compare
Second problem, Your logic here is wrong
palindrom.charAt(palindrom.length)-1
You are subtracting one from the charAt and not the length.
Third problem, it still will be wrong since you are not reducing the length by i.
It works to me
function palindrome(str) {
/* remove special characters, spaces and make lowercase*/
var removeChar = str.replace(/[^A-Z0-9]/ig, "").toLowerCase();
/* reverse removeChar for comparison*/
var checkPalindrome = removeChar.split('').reverse().join('');
/* Check to see if str is a Palindrome*/
return (removeChar === checkPalindrome);
}
As a much clearer recursive function: http://jsfiddle.net/dmz2x117/
function isPalindrome(letters) {
var characters = letters.split(''),
firstLetter = characters.shift(),
lastLetter = characters.pop();
if (firstLetter !== lastLetter) {
return false;
}
if (characters.length < 2) {
return true;
}
return isPalindrome(characters.join(''));
}
SHORTEST CODE (31 chars)(ES6):
p=s=>s==[...s].reverse().join``
p('racecar'); //true
Keep in mind short code isn't necessarily the best. Readability and efficiency can matter more.
At least three things:
You are trying to test for equality with =, which is used for setting. You need to test with == or ===. (Probably the latter, if you don't have a reason for the former.)
You are reporting results after checking each character. But you don't know the results until you've checked enough characters.
You double-check each character-pair, as you really only need to check if, say first === last and not also if last === first.
function checkPalindrom(palindrom)
{
var flag = true;
var j = 0;
for( var i = palindrom.length-1; i > palindrom.length / 2; i-- )
{
if( palindrom[i] != palindrom[j] )
{
flag = false;
break; // why this? It'll exit the loop at once when there is a mismatch.
}
j++;
}
if( flag ) {
document.write('the word is palindrome.');
}
else {
document.write('the word is not palindrome.');
}
}
checkPalindrom('wordthatwillbechecked');
Why am I printing the result outside the loop? Otherwise, for each match in the word, it'll print "is or is not pallindrome" rather than checking the whole word.
EDIT: Updated with changes and a fix suggested by Basemm.
I've added some more to the above functions, to check strings like, "Go hang a salami, I'm a lasagna hog".
function checkPalindrom(str) {
var str = str.replace(/[^a-zA-Z0-9]+/gi, '').toLowerCase();
return str == str.split('').reverse().join('');
}
Thanks
The most important thing to do when solving a Technical Test is Don't use shortcut methods -- they want to see how you think algorithmically! Not your use of methods.
Here is one that I came up with (45 minutes after I blew the test). There are a couple optimizations to make though. When writing any algorithm, its best to assume false and alter the logic if its looking to be true.
isPalindrome():
Basically, to make this run in O(N) (linear) complexity you want to have 2 iterators whose vectors point towards each other. Meaning, one iterator that starts at the beginning and one that starts at the end, each traveling inward. You could have the iterators traverse the whole array and use a condition to break/return once they meet in the middle, but it may save some work to only give each iterator a half-length by default.
for loops seem to force the use of more checks, so I used while loops - which I'm less comfortable with.
Here's the code:
/**
* TODO: If func counts out, let it return 0
* * Assume !isPalindrome (invert logic)
*/
function isPalindrome(S){
var s = S
, len = s.length
, mid = len/2;
, i = 0, j = len-1;
while(i<mid){
var l = s.charAt(i);
while(j>=mid){
var r = s.charAt(j);
if(l === r){
console.log('#while *', i, l, '...', j, r);
--j;
break;
}
console.log('#while !', i, l, '...', j, r);
return 0;
}
++i;
}
return 1;
}
var nooe = solution('neveroddoreven'); // even char length
var kayak = solution('kayak'); // odd char length
var kayaks = solution('kayaks');
console.log('#isPalindrome', nooe, kayak, kayaks);
Notice that if the loops count out, it returns true. All the logic should be inverted so that it by default returns false. I also used one short cut method String.prototype.charAt(n), but I felt OK with this as every language natively supports this method.
function palindromCheck(str) {
var palinArr, i,
palindrom = [],
palinArr = str.split(/[\s!.?,;:'"-()]/ig);
for (i = 0; i < palinArr.length; i++) {
if (palinArr[i].toLowerCase() === palinArr[i].split('').reverse().join('').toLowerCase() &&
palinArr[i] !== '') {
palindrom.push(palinArr[i]);
}
}
return palindrom.join(', ');
}
console.log(palindromCheck('There is a man, his name! was Bob.')); //a, Bob
Finds and upper to lower case. Split string into array, I don't know why a few white spaces remain, but I wanted to catch and single letters.
= in palindrom[i] = palindrom.charAt(palindrom.length)-1 should be == or ===
palindrom.charAt(palindrom.length)-1 should be palindrom.charAt(palindrom.length - i)
Sharing my fast variant which also support spaces
function isPalindrom(str) {
var ia = 0;
var ib = str.length - 1;
do {
if (str[ia] === str[ib]) continue;
// if spaces skip & retry
if (str[ia] === ' ' && ib++) continue;
if (str[ib] === ' ' && ia--) continue;
return false;
} while (++ia < --ib);
return true;
}
var palindrom="never odd or even";
var res = isPalindrom(palindrom);
document.getElementById('check').innerHTML ='"'+ palindrom + '"'+" checked to be :" +res;
<span id="check" />
Some above short anwsers is good, but it's not easy for understand, I suggest one more way:
function checkPalindrome(inputString) {
if(inputString.length == 1){
return true;
}else{
var i = 0;
var j = inputString.length -1;
while(i < j){
if(inputString[i] != inputString[j]){
return false;
}
i++;
j--;
}
}
return true;
}
I compare each character, i start form left, j start from right, until their index is not valid (i<j).
It's also working in any languages
One more solution with ES6
isPalin = str => [...str].every((c, i) => c === str[str.length-1-i]);
You can try the following
function checkPalindrom (str) {
str = str.toLowerCase();
return str == str.split('').reverse().join('');
}
if(checkPalindrom('Racecar')) {
console.log('Palindrome');
} else {
console.log('Not Palindrome');
}
function checkPalindrom(palindrom)
{
palindrom= palindrom.toLowerCase();
var flag = true;
var j;
j = (palindrom.length) -1 ;
//console.log(j);
var cnt = j / 2;
//console.log(cnt);
for( i = 0; i < cnt+1 ; i++,j-- )
{
console.log("J is => "+j);
console.log(palindrom[i] + "<==>" + palindrom[j]);
if( palindrom[i] != palindrom[j] )
{
flag = false;
break;
}
}
if( flag ) {
console.log('the word is palindrome.');
}
else {
console.log('the word is not palindrome.');
}
}
checkPalindrom('Avid diva');
I'm wondering why nobody suggested this:
ES6:
// "aba" -> true
// "acb" -> false
// "aa" -> true
// "abba" -> true
// "s" -> true
isPalindrom = (str = "") => {
if (str[0] === str[str.length - 1]) {
return str.length <= 1 ? true : isPalindrom(str.slice(1, -1))
}
return false;
}
alert(["aba", "acb", "aa", "abba", "s"].map((e, i) => isPalindrom(e)).join())
ES5:
// "aba" -> true
// "acb" -> false
// "aa" -> true
// "abba" -> true
// "s" -> true
function isPalindrom(str) => {
var str = typeof str !== "string" ? "" : str;
if (str[0] === str[str.length - 1]) {
return str.length <= 1 ? true : isPalindrom(str.slice(1, -1))
}
return false;
}
alert(["aba", "acb", "aa", "abba", "s"].map(function (e, i) {
return isPalindrom(e);
}).join());
Recursive Method:
var low;
var high;
var A = "abcdcba";
function palindrome(A , low, high){
A = A.split('');
if((low > high) || (low == high)){
return true;
}
if(A[low] === A[high]){
A = A.join('');
low = low + 1;
high = high - 1;
return palindrome(A , low, high);
}
else{
return "not a palindrome";
}
}
palindrome(A, 0, A.length-1);
I thought I'd share my own solution:
function palindrome(string){
var reverseString = '';
for(var k in string){
reverseString += string[(string.length - k) - 1];
}
if(string === reverseString){
console.log('Hey there palindrome');
}else{
console.log('You are not a palindrome');
}
}
palindrome('ana');
Hope will help someone.
I found this on an interview site:
Write an efficient function that checks whether any permutation of an
input string is a palindrome. You can ignore punctuation, we only care
about the characters.
Playing around with it I came up with this ugly piece of code :)
function checkIfPalindrome(text) {
var found = {};
var foundOne = 0;
text = text.replace(/[^a-z0-9]/gi, '').toLowerCase();
for (var i = 0; i < text.length; i++) {
if (found[text[i]]) {
found[text[i]]++;
} else {
found[text[i]] = 1;
}
}
for (var x in found) {
if (found[x] === 1) {
foundOne++;
if (foundOne > 1) {
return false;
}
}
}
for (var x in found) {
if (found[x] > 2 && found[x] % 2 && foundOne) {
return false;
}
}
return true;
}
Just leaving it here for posterity.
How about this, using a simple flag
function checkPalindrom(str){
var flag = true;
for( var i = 0; i <= str.length-1; i++){
if( str[i] !== str[str.length - i-1]){
flag = false;
}
}
if(flag == false){
console.log('the word is not a palindrome!');
}
else{
console.log('the word is a palindrome!');
}
}
checkPalindrom('abcdcba');
(JavaScript) Using regexp, this checks for alphanumeric palindrome and disregards space and punctuation.
function palindrome(str) {
str = str.match(/[A-Za-z0-9]/gi).join("").toLowerCase();
// (/[A-Za-z0-9]/gi) above makes str alphanumeric
for(var i = 0; i < Math.floor(str.length/2); i++) { //only need to run for half the string length
if(str.charAt(i) !== str.charAt(str.length-i-1)) { // uses !== to compare characters one-by-one from the beginning and end
return "Try again.";
}
}
return "Palindrome!";
}
palindrome("A man, a plan, a canal. Panama.");
//palindrome("4_2 (: /-\ :) 2-4"); // This solution would also work on something like this.
`
function checkPalindrome (str) {
var str = str.toLowerCase();
var original = str.split(' ').join('');
var reversed = original.split(' ').reverse().join('');
return (original === reversed);
}
`
This avoids regex while also dealing with strings that have spaces and uppercase...
function isPalindrome(str) {
str = str.split("");
var str2 = str.filter(function(x){
if(x !== ' ' && x !== ',') {
return x;
}
});
return console.log(str2.join('').toLowerCase()) == console.log(str2.reverse().join('').toLowerCase());
};
isPalindrome("A car, a man, a maraca"); //true
function myPolidrome(polidrome){
var string=polidrome.split('').join(',');
for(var i=0;i<string.length;i++){
if(string.length==1){
console.log("is polidrome");
}else if(string[i]!=string.charAt(string.length-1)){
console.log("is not polidrome");
break;
}else{
return myPolidrome(polidrome.substring(1,polidrome.length-1));
}
}
}
myPolidrome("asasdsdsa");
Thought I will share my solution using Array.prototype.filter(). filter()
filters the array based on boolean values the function returns.
var inputArray=["","a","ab","aba","abab","ababa"]
var outputArray=inputArray.filter(function isPalindrome(x){
if (x.length<2) return true;
var y=x.split("").reverse().join("");
return x==y;
})
console.log(outputArray);
This worked for me.
var number = 8008
number = number + "";
numberreverse = number.split("").reverse().join('');
console.log ("The number if reversed is: " +numberreverse);
if (number == numberreverse)
console.log("Yes, this is a palindrome");
else
console.log("Nope! It isnt a palindrome");
Here is a solution that works even if the string contains non-alphanumeric characters.
function isPalindrome(str) {
str = str.toLowerCase().replace(/\W+|_/g, '');
return str == str.split('').reverse().join('');
}