This question already has answers here:
What does the comma operator do in JavaScript?
(5 answers)
Closed 4 years ago.
var a =(3,4,7);
console.log(a); // Output is 7
Can you please explain how we are getting output 7?
It's called comma operator. By wrapping the right hand expression in parentheses we create a group and it is evaluated each of its operands and returns the last value.
From MDN
The comma operator evaluates each of its operands (from left to right)
and returns the value of the last operand.
The comma operator is useful when you want to write a minifier and need to shrink the code.
For instance,
print = () => console.log('add')
add_proc = (a,b) => a + b
function add(a, b){
if(a && b){
print();
return add_proc(a,b)
}
else
{
return 0
}
}
console.log(add(1,2));
could be minified using comma operator as below:
print = () => console.log('add')
add_proc = (a,b) => a + b
add = (a, b)=> a && b ?(print(),add_proc(a, b)):0
console.log(add(1,2));
The comma operator evaluates each of its operands (from left to right) and returns the value of the last operand.
Here , Seprates each Digits Ans As it is a Variable So it stores 3 then overlapped by 4 and finally 7
So final output is 7
In javascript:
"Id".localeCompare("id")
will report that "id" is bigger. I want to do ordinal (not locale) compare such that "Id" is bigger. This is similar to String.CompareOrdinal in C#. How can I do it?
I support the answers given by Raymond Chen and pst. I will back them up with documentation from my favorite site for answers to JavaScript questions -- The Mozilla Developer Network. As an aside, I would highly recommend this site for any future JavaScript questions you may have.
Now, if you go to the MDN section entitled String, under the section "Comparing strings", you will find this description:
C developers have the strcmp() function for comparing strings. In JavaScript, you just use the less-than and greater-than operators:
var a = "a";
var b = "b";
if (a < b) // true
print(a + " is less than " + b);
else if (a > b)
print(a + " is greater than " + b);
else
print(a + " and " + b + " are equal.");
A similar result can be achieved using the localeCompare method inherited by String instances.
If we were to use the string "Id" for a and "id" for b then we would get the following result:
"Id is less than id"
This is the same result that Yaron got earlier when using the localeCompare method. As noted in MDN, using the less-than and greater-than operators yields similar results as using localeCompare.
Therefore, the answer to Yaron's question is to use the less-than (<) and greater-than (>) operators to do an ordinal comparison of strings in JavaScript.
Since Yaron mentioned the C# method String.CompareOrdinal, I would like to point out that this method produces exactly the same results as the above JavaScript. According to the MSDN C# documentation, the String.CompareOrdinal(String, String) method "Compares two specified String objects by evaluating the numeric values of the corresponding Char objects in each string." So the two String parameters are compared using the numeric (ASCII) values of the individual characters.
If we use the original example by Yaron Naveh in C#, we have:
int result = String.CompareOrdinal("Id", "id");
The value of result is an int that is less than zero, and is probably -32 because the difference between "I" (0x49) and "i" (0x69) is -0x20 = -32. So, lexically "Id" is less than "id", which is the same result we got earlier.
As Raymond noted (and explained) in a comment, an "ordinal" non-locale aware compare is as simple as using the various equality operators on strings (just make sure both operands are strings):
"a" > "b" // false
"b" > "a" // true
To get a little fancy (or don't muck with [[prototype]], the function is the same):
String.prototype.compare = function (a, b) {
return ((a == b ? 0)
? (a > b : 1)
: -1)
}
Then:
"a".compare("b") // -1
Happy coding.
Just a guess: by inverting case on all letters?
function compareOrdinal(ori,des){
for(var index=0;index<ori.length&&index<des.length;index++){
if(des[index].charCodeAt(0)<ori[index].charCodeAt(0)){
return -1;
break;
}
}
if(parseInt(index)===des.length-1){
return 0;
}
return 1;
}
compareOrdinal("idd","id");//output 1
if you need to compare and find difference between two string, please check this:
function findMissingString() {
var str1 = arguments[0];
var str2 = arguments[1];
var i = 0 ;
var j = 0 ;
var text = '' ;
while(i != (str1.length >= str2.length ? str1.length : str2.length )) {
if(str1.charAt(i) == str2.charAt(j)) {
i+=1 ;
j+=1;
} else {
var indexing = (str1.length >= str2.length ? str1.charAt(i) : str2.charAt(j));
text = text + indexing ;
i+=1;
j+=1;
}
}
console.log("From Text = " + text);
}
findMissingString("Hello","Hello world");
This question already has answers here:
How do I check if an array includes a value in JavaScript?
(60 answers)
Closed 6 years ago.
Is there anyway to shorten something like this in Javascript: if (x == 1 || x == 2 || x == 3 || x == 4) to something like if (x == (1 || 2 || 3 || 4)) ?
You can use use Array.indexOf
[1,2,3,4].indexOf(x) !== -1
You can also use objects as some kind of hash map:
//Note: Keys will be coerced to strings so
// don't use this method if you are looking for an object or if you need
// to distinguish the number 1 from the string "1"
my_values = {1:true, 2:true, 3:true, 'foo':true}
my_values.hasOwnProperty('foo')
By the way, in most cases you should usi the "===" strict equality operator instead of the == operator. Comparison using "==" may do lots of complicated type coercion and you can get surprising results sometimes.
If your cases are not that simple to be expressed by this:
if (1 <= x && x <= 4)
You could use an array and indexOf:
if ([1,2,3,4].indexOf(x) > -1)
Note that indexOf might need to be re-implemented.
Not without writing a function that takes an array as an input and returns true/false, or some sort of array search. It would be hard to maintain/other devs to read. And it would be significantly slower. So just stick with the semantically correct longer version.
Also a good way to see if anything can be shortened significantly is to run it through the close compiler and see what it comes out with.
How about:
if (x > 0 && x < 5) {
}
You could write a function:
function isAny(x) {
for (var i = 1; i < arguments.length; ++i)
if (arguments[i] === x) return true;
return false;
}
Then you can say:
if (isAny(x, 1, 2, 3, 4)) { /* ... */ }
(Whether to use "===" or "==" would depend on the exact semantics you want.)
I have a list of objects I wish to sort based on a field attr of type string. I tried using -
list.sort(function (a, b) {
return a.attr - b.attr
})
but found that - doesn't appear to work with strings in JavaScript. How can I sort a list of objects based on an attribute with type string?
Use String.prototype.localeCompare as per your example:
list.sort(function (a, b) {
return ('' + a.attr).localeCompare(b.attr);
})
We force a.attr to be a string to avoid exceptions. localeCompare has been supported since Internet Explorer 6 and Firefox 1. You may also see the following code used that doesn't respect a locale:
if (item1.attr < item2.attr)
return -1;
if ( item1.attr > item2.attr)
return 1;
return 0;
An updated answer (October 2014)
I was really annoyed about this string natural sorting order so I took quite some time to investigate this issue.
Long story short
localeCompare() character support is badass, just use it.
As pointed out by Shog9, the answer to your question is:
return item1.attr.localeCompare(item2.attr);
Bugs found in all the custom JavaScript "natural string sort order" implementations
There are quite a bunch of custom implementations out there, trying to do string comparison more precisely called "natural string sort order"
When "playing" with these implementations, I always noticed some strange "natural sorting order" choice, or rather mistakes (or omissions in the best cases).
Typically, special characters (space, dash, ampersand, brackets, and so on) are not processed correctly.
You will then find them appearing mixed up in different places, typically that could be:
some will be between the uppercase 'Z' and the lowercase 'a'
some will be between the '9' and the uppercase 'A'
some will be after lowercase 'z'
When one would have expected special characters to all be "grouped" together in one place, except for the space special character maybe (which would always be the first character). That is, either all before numbers, or all between numbers and letters (lowercase & uppercase being "together" one after another), or all after letters.
My conclusion is that they all fail to provide a consistent order when I start adding barely unusual characters (i.e., characters with diacritics or characters such as dash, exclamation mark and so on).
Research on the custom implementations:
Natural Compare Lite https://github.com/litejs/natural-compare-lite : Fails at sorting consistently https://github.com/litejs/natural-compare-lite/issues/1 and http://jsbin.com/bevututodavi/1/edit?js,console, basic Latin characters sorting http://jsbin.com/bevututodavi/5/edit?js,console
Natural Sort https://github.com/javve/natural-sort : Fails at sorting consistently, see issue https://github.com/javve/natural-sort/issues/7 and see basic Latin characters sorting http://jsbin.com/cipimosedoqe/3/edit?js,console
JavaScript Natural Sort https://github.com/overset/javascript-natural-sort: seems rather neglected since February 2012, Fails at sorting consistently, see issue https://github.com/overset/javascript-natural-sort/issues/16
Alphanum http://www.davekoelle.com/files/alphanum.js , Fails at sorting consistently, see http://jsbin.com/tuminoxifuyo/1/edit?js,console
Browsers' native "natural string sort order" implementations via localeCompare()
localeCompare() oldest implementation (without the locales and options arguments) is supported by Internet Explorer 6 and later, see http://msdn.microsoft.com/en-us/library/ie/s4esdbwz(v=vs.94).aspx (scroll down to localeCompare() method).
The built-in localeCompare() method does a much better job at sorting, even international & special characters.
The only problem using the localeCompare() method is that "the locale and sort order used are entirely implementation dependent". In other words, when using localeCompare such as stringOne.localeCompare(stringTwo): Firefox, Safari, Chrome, and Internet Explorer have a different sort order for Strings.
Research on the browser-native implementations:
http://jsbin.com/beboroyifomu/1/edit?js,console - basic Latin characters comparison with localeCompare()
http://jsbin.com/viyucavudela/2/ - basic Latin characters comparison with localeCompare() for testing on Internet Explorer 8
http://jsbin.com/beboroyifomu/2/edit?js,console - basic Latin characters in string comparison : consistency check in string vs when a character is alone
https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/localeCompare - Internet Explorer 11 and later supports the new locales & options arguments
Difficulty of "string natural sorting order"
Implementing a solid algorithm (meaning: consistent but also covering a wide range of characters) is a very tough task. UTF-8 contains more than 2000 characters and covers more than 120 scripts (languages).
Finally, there are some specification for this tasks, it is called the "Unicode Collation Algorithm", which can be found at http://www.unicode.org/reports/tr10/. You can find more information about this on this question I posted https://softwareengineering.stackexchange.com/questions/257286/is-there-any-language-agnostic-specification-for-string-natural-sorting-order
Final conclusion
So considering the current level of support provided by the JavaScript custom implementations I came across, we will probably never see anything getting any close to supporting all this characters and scripts (languages). Hence I would rather use the browsers' native localeCompare() method. Yes, it does have the downside of being non-consistent across browsers but basic testing shows it covers a much wider range of characters, allowing solid & meaningful sort orders.
So as pointed out by Shog9, the answer to your question is:
return item1.attr.localeCompare(item2.attr);
Further reading:
https://softwareengineering.stackexchange.com/questions/257286/is-there-any-language-agnostic-specification-for-string-natural-sorting-order
How to sort strings in JavaScript
Natural sort of alphanumerical strings in JavaScript
Sort Array of numeric & alphabetical elements (Natural Sort)
Sort mixed alpha/numeric array
https://web.archive.org/web/20130929122019/http://my.opera.com/GreyWyvern/blog/show.dml/1671288
https://web.archive.org/web/20131005224909/http://www.davekoelle.com/alphanum.html
http://snipplr.com/view/36012/javascript-natural-sort/
http://blog.codinghorror.com/sorting-for-humans-natural-sort-order/
Thanks to Shog9's nice answer, which put me in the "right" direction I believe.
Answer (in Modern ECMAScript)
list.sort((a, b) => (a.attr > b.attr) - (a.attr < b.attr))
Or
list.sort((a, b) => +(a.attr > b.attr) || -(a.attr < b.attr))
Description
Casting a boolean value to a number yields the following:
true -> 1
false -> 0
Consider three possible patterns:
x is larger than y: (x > y) - (y < x) -> 1 - 0 -> 1
x is equal to y: (x > y) - (y < x) -> 0 - 0 -> 0
x is smaller than y: (x > y) - (y < x) -> 0 - 1 -> -1
(Alternative)
x is larger than y: +(x > y) || -(x < y) -> 1 || 0 -> 1
x is equal to y: +(x > y) || -(x < y) -> 0 || 0 -> 0
x is smaller than y: +(x > y) || -(x < y) -> 0 || -1 -> -1
So these logics are equivalent to typical sort comparator functions.
if (x == y) {
return 0;
}
return x > y ? 1 : -1;
Since strings can be compared directly in JavaScript, this will do the job:
list.sort(function (a, b) {
return a.attr < b.attr ? -1: 1;
})
This is a little bit more efficient than using
return a.attr > b.attr ? 1: -1;
because in case of elements with same attr (a.attr == b.attr), the sort function will swap the two for no reason.
For example
var so1 = function (a, b) { return a.atr > b.atr ? 1: -1; };
var so2 = function (a, b) { return a.atr < b.atr ? -1: 1; }; // Better
var m1 = [ { atr: 40, s: "FIRST" }, { atr: 100, s: "LAST" }, { atr: 40, s: "SECOND" } ].sort (so1);
var m2 = [ { atr: 40, s: "FIRST" }, { atr: 100, s: "LAST" }, { atr: 40, s: "SECOND" } ].sort (so2);
// m1 sorted but ...: 40 SECOND 40 FIRST 100 LAST
// m2 more efficient: 40 FIRST 40 SECOND 100 LAST
You should use > or < and == here. So the solution would be:
list.sort(function(item1, item2) {
var val1 = item1.attr,
val2 = item2.attr;
if (val1 == val2) return 0;
if (val1 > val2) return 1;
if (val1 < val2) return -1;
});
Nested ternary arrow function
(a,b) => (a < b ? -1 : a > b ? 1 : 0)
I had been bothered about this for long, so I finally researched this and give you this long winded reason for why things are the way they are.
From the spec:
Section 11.9.4 The Strict Equals Operator ( === )
The production EqualityExpression : EqualityExpression === RelationalExpression
is evaluated as follows:
- Let lref be the result of evaluating EqualityExpression.
- Let lval be GetValue(lref).
- Let rref be the result of evaluating RelationalExpression.
- Let rval be GetValue(rref).
- Return the result of performing the strict equality comparison
rval === lval. (See 11.9.6)
So now we go to 11.9.6
11.9.6 The Strict Equality Comparison Algorithm
The comparison x === y, where x and y are values, produces true or false.
Such a comparison is performed as follows:
- If Type(x) is different from Type(y), return false.
- If Type(x) is Undefined, return true.
- If Type(x) is Null, return true.
- If Type(x) is Number, then
...
- If Type(x) is String, then return true if x and y are exactly the
same sequence of characters (same length and same characters in
corresponding positions); otherwise, return false.
That's it. The triple equals operator applied to strings returns true iff the arguments are exactly the same strings (same length and same characters in corresponding positions).
So === will work in the cases when we're trying to compare strings which might have arrived from different sources, but which we know will eventually have the same values - a common enough scenario for inline strings in our code. For example, if we have a variable named connection_state, and we wish to know which one of the following states ['connecting', 'connected', 'disconnecting', 'disconnected'] is it in right now, we can directly use the ===.
But there's more. Just above 11.9.4, there is a short note:
NOTE 4
Comparison of Strings uses a simple equality test on sequences of code
unit values. There is no attempt to use the more complex, semantically oriented
definitions of character or string equality and collating order defined in the
Unicode specification. Therefore Strings values that are canonically equal
according to the Unicode standard could test as unequal. In effect this
algorithm assumes that both Strings are already in normalized form.
Hmm. What now? Externally obtained strings can, and most likely will, be weird unicodey, and our gentle === won't do them justice. In comes localeCompare to the rescue:
15.5.4.9 String.prototype.localeCompare (that)
...
The actual return values are implementation-defined to permit implementers
to encode additional information in the value, but the function is required
to define a total ordering on all Strings and to return 0 when comparing
Strings that are considered canonically equivalent by the Unicode standard.
We can go home now.
tl;dr;
To compare strings in javascript, use localeCompare; if you know that the strings have no non-ASCII components because they are, for example, internal program constants, then === also works.
An explanation of why the approach in the question doesn't work:
let products = [
{ name: "laptop", price: 800 },
{ name: "phone", price:200},
{ name: "tv", price: 1200}
];
products.sort( (a, b) => {
{let value= a.name - b.name; console.log(value); return value}
});
> 2 NaN
Subtraction between strings returns NaN.
Echoing Alejadro's answer, the right approach is:
products.sort( (a,b) => a.name > b.name ? 1 : -1 )
A typescript sorting method modifier using a custom function to return a sorted string in either ascending or descending order
const data = ["jane", "mike", "salome", "ababus", "buisa", "dennis"];
const sortStringArray = (stringArray: string[], mode?: 'desc' | 'asc') => {
if (!mode || mode === 'asc') {
return stringArray.sort((a, b) => a.localeCompare(b))
}
return stringArray.sort((a, b) => b.localeCompare(a))
}
console.log(sortStringArray(data, 'desc'));// [ 'salome', 'mike', 'jane', 'dennis', 'buisa', 'ababus' ]
console.log(sortStringArray(data, 'asc')); // [ 'ababus', 'buisa', 'dennis', 'jane', 'mike', 'salome' ]
There should be ascending and descending orders functions
if (order === 'asc') {
return a.localeCompare(b);
}
return b.localeCompare(a);
If you want to control locales (or case or accent), then use Intl.collator:
const collator = new Intl.Collator();
list.sort((a, b) => collator.compare(a.attr, b.attr));
You can construct a collator like:
new Intl.Collator("en");
new Intl.Collator("en", {sensitivity: "case"});
...
See the above link for documentation.
Note: unlike some other solutions, it handles null, undefined the JavaScript way, i.e., moves them to the end.
Use sort() straightforward without any - or <
const areas = ['hill', 'beach', 'desert', 'mountain']
console.log(areas.sort())
// To print in descending way
console.log(areas.sort().reverse())
In your operation in your initial question, you are performing the following operation:
item1.attr - item2.attr
So, assuming those are numbers (i.e. item1.attr = "1", item2.attr = "2") You still may use the "===" operator (or other strict evaluators) provided that you ensure type. The following should work:
return parseInt(item1.attr) - parseInt(item2.attr);
If they are alphaNumeric, then do use localCompare().
list.sort(function(item1, item2){
return +(item1.attr > item2.attr) || +(item1.attr === item2.attr) - 1;
})
How they work samples:
+('aaa'>'bbb')||+('aaa'==='bbb')-1
+(false)||+(false)-1
0||0-1
-1
+('bbb'>'aaa')||+('bbb'==='aaa')-1
+(true)||+(false)-1
1||0-1
1
+('aaa'>'aaa')||+('aaa'==='aaa')-1
+(false)||+(true)-1
0||1-1
0
<!doctype html>
<html>
<body>
<p id = "myString">zyxtspqnmdba</p>
<p id = "orderedString"></p>
<script>
var myString = document.getElementById("myString").innerHTML;
orderString(myString);
function orderString(str) {
var i = 0;
var myArray = str.split("");
while (i < str.length){
var j = i + 1;
while (j < str.length) {
if (myArray[j] < myArray[i]){
var temp = myArray[i];
myArray[i] = myArray[j];
myArray[j] = temp;
}
j++;
}
i++;
}
var newString = myArray.join("");
document.getElementById("orderedString").innerHTML = newString;
}
</script>
</body>
</html>
var str = ['v','a','da','c','k','l']
var b = str.join('').split('').sort().reverse().join('')
console.log(b)