The flag y
allows to perform the search at the given position in the source string.
To grasp the use case of y
flag, and better understand the ways of regexps, let???s explore a practical example.
One of common tasks for regexps is ???lexical analysis???: we get a text, e.g. in a programming language, and need to find its structural elements. For instance, HTML has tags and attributes, JavaScript code has functions, variables, and so on.
Writing lexical analyzers is a special area, with its own tools and algorithms, so we don???t go deep in there, but there???s a common task: to read something at the given position.
E.g. we have a code string let varName = "value"
, and we need to read the variable name from it, that starts at position 4
.
We???ll look for variable name using regexp \w+
. Actually, JavaScript variable names need a bit more complex regexp for accurate matching, but here it doesn???t matter.
- A call to
str.match(/\w+/)
will find only the first word in the line (let
). That???s not it. - We can add the flag
g
. But then the callstr.match(/\w+/g)
will look for all words in the text, while we need one word at position4
. Again, not what we need.
So, how to search for a regexp exactly at the given position?
Let???s try using method regexp.exec(str)
.
For a regexp
without flags g
and y
, this method looks only for the first match, it works exactly like str.match(regexp)
.
???But if there???s flag g
, then it performs the search in str
, starting from position stored in the regexp.lastIndex
property. And, if it finds a match, then sets regexp.lastIndex
to the index immediately after the match.
In other words, regexp.lastIndex
serves as a starting point for the search, that each regexp.exec(str)
call resets to the new value (???after the last match???). That???s only if there???s g
flag, of course.
So, successive calls to regexp.exec(str)
return matches one after another.
Here???s an example of such calls:
let str = 'let varName'; // Let's find all words in this string
let regexp = /\w+/g;
alert(regexp.lastIndex); // 0 (initially lastIndex=0)
let word1 = regexp.exec(str);
alert(word1[0]); // let (1st word)
alert(regexp.lastIndex); // 3 (position after the match)
let word2 = regexp.exec(str);
alert(word2[0]); // varName (2nd word)
alert(regexp.lastIndex); // 11 (position after the match)
let word3 = regexp.exec(str);
alert(word3); // null (no more matches)
alert(regexp.lastIndex); // 0 (resets at search end)
We can get all matches in the loop:
let str = 'let varName';
let regexp = /\w+/g;
let result;
while (result = regexp.exec(str)) {
alert( `Found ${result[0]} at position ${result.index}` );
// Found let at position 0, then
// Found varName at position 4
}
Such use of regexp.exec
is an alternative to method str.matchAll
, with a bit more control over the process.
Let???s go back to our task.
We can manually set lastIndex
to 4
, to start the search from the given position!
Like this:
let str = 'let varName = "value"';
let regexp = /\w+/g; // without flag "g", property lastIndex is ignored
regexp.lastIndex = 4;
let word = regexp.exec(str);
alert(word); // varName
Hooray! Problem solved!
We performed a search of \w+
, starting from position regexp.lastIndex = 4
.
The result is correct.
???But wait, not so fast.
Please note: the regexp.exec
call starts searching at position lastIndex
and then goes further. If there???s no word at position lastIndex
, but it???s somewhere after it, then it will be found:
let str = 'let varName = "value"';
let regexp = /\w+/g;
// start the search from position 3
regexp.lastIndex = 3;
let word = regexp.exec(str);
// found the match at position 4
alert(word[0]); // varName
alert(word.index); // 4
For some tasks, including the lexical analysis, that???s just wrong. We need to find a match exactly at the given position at the text, not somewhere after it. And that???s what the flag y
is for.
The flag y
makes regexp.exec
to search exactly at position lastIndex
, not ???starting from??? it.
Here???s the same search with flag y
:
let str = 'let varName = "value"';
let regexp = /\w+/y;
regexp.lastIndex = 3;
alert( regexp.exec(str) ); // null (there's a space at position 3, not a word)
regexp.lastIndex = 4;
alert( regexp.exec(str) ); // varName (word at position 4)
As we can see, regexp /\w+/y
doesn???t match at position 3
(unlike the flag g
), but matches at position 4
.
Not only that???s what we need, there???s an important performance gain when using flag y
.
Imagine, we have a long text, and there are no matches in it, at all. Then a search with flag g
will go till the end of the text and find nothing, and this will take significantly more time than the search with flag y
, that checks only the exact position.
In tasks like lexical analysis, there are usually many searches at an exact position, to check what we have there. Using flag y
is the key for correct implementations and a good performance.