I am having issues excluding parts of a string in a VSCode Snippet. Essentially, what I want is a specific piece of a path but I am unable to get the regex to exclude what I need excluded.
I have recently asked a question about something similar which you can find here: Is there a way to trim a TM_FILENAME beyond using TM_FILENAME_BASE?
As you can see, I am getting mainly tripped up by how the snippets work within vscode and not so much the regular expressions themselves
${TM_FILEPATH/(?<=area)(.+)(?=state)/${1:/pascalcase}/}
Given a file path that looks like abc/123/area/my-folder/state/...
Expected:
/MyFolder/
Actual:
abc/123/areaMyFolderstate/...
You need to match the whole string to achieve that:
"${TM_FILEPATH/.*area(\\/.*?\\/)state.*/${1:/pascalcase}/}"
See the regex demo
Details
.* - any 0+ chars other than line break chars, as many as possible
area - a word
-(\\/.*?\\/) - Group 1: /, any 0+ chars other than line break chars, as few as possible, and a /
-state.* - state substring and the rest of the line.
NOTE: If there must be no other subparts between area and state, replace .*? with [^\\/]* or even [^\\/]+.
The expected output seems to be different with part of a string in the input. If that'd be desired the expression might be pretty complicated, such as:
(?:[\s\S].*?)(?<=area\/)([^-])([^-]*)(-)([^\/])([^\/]*).*
and a replacement of something similar to /\U$1\E$2$3\U$4\E$5/, if available.
Demo 1
If there would be other operations, now I'm guessing maybe the pascalcase would do something, this simple expression might simply work here:
.*area(\\/.*?\\/).*
and the desired data is in this capturing group $1:
(\\/.*?\\/)
Demo 2
Building on my answer you linked to in your question, remember that lookarounds are "zero-length assertions" and "do not consume characters in the string". See lookarounds are zero-length assertions:
Lookahead and lookbehind, collectively called "lookaround", are zero-length assertions just like the start and end of line, and start and end of word anchors explained earlier in this tutorial. The difference is that lookaround actually matches characters, but then gives up the match, returning only the result: match or no match. That is why they are called "assertions". They do not consume characters in the string, but only assert whether a match is possible or not.
So in your snippet transform: /(?<=area)(.+)(?=state)/ the lookaround portions are not actually consumed and so are simply passed through. Vscode treats them, as it should, as not actually being within the "part to be transformed" segment at all.
That is why lookarounds are not excluded from your transform.
Related
I've searched through multiple answers on SO now, but most of them consider the beginning of the line as the whole string being looked upon, which doesn't serve my case, I think (at least all the answers I tried didn't work).
So, I want to match all codes within a text that are 7-digit long, start with 1 or 2, and are not prefixed by "TC-" and its lowercase variants.
Came up with the /(!?TC-){0}(1|2)\d{6}/g expression, but it doesn't work for not matching the codes that start with "TC-", and I don't know how can I prevent from selecting those. Is there a way to do that?
I've created an example pattern on Regexr: regexr.com/6p70c.
You can assert not TC- to the left using negative lookbehind (?<! and omit the {0} quantifier as that makes it optional:
(?<!\bTC-)\b[12]\d{6}\b
Regex demo
I'd like to think I'm ok at writing RegEx's, but there's one thing I can't seem to crack:
I want to start looking for multiple, identical matches after a certain set of characters and capture all of them. Here's an example string:
Dialogue: 0,0:05:47.99,0:05:50.74,JoJo-main,Koichi,0000,0000,0000,,What are you doing, Giorno Giovanna?!
For this example, I want to start looking for matches after ,,. I want to find all instances of Gio i.e.
Dialogue: 0,0:05:47.99,0:05:50.74,JoJo-main,Koichi,0000,0000,0000,,What are you doing, {Gio}rno {Gio}vanna?!
I've tried first using non-capturing groups like /(?:,,.*?)(Gio)/g then lookbehinds like /(?<=,,.*?)(Gio)/g, /(?<=,,)(?:.*?)(Gio)/g and /(?<=,,)((?:.*?)(Gio))+/g to avoid consuming the ,,
None of these give me the behaviour I want, as I want individual matches as if I just used Gio, but without the chance of accidentally capturing stuff before the ,,
I could, of course, run one RegEx to find the ,, then feed that position to another RegEx to look for Gios after that point.
However I have thousands of lines like these to parse and thousands of words to look for on each line (I separate them with |), so I'd ideally like to do it with one RegEx and without a loop.
You may consider the following option for the .NET or modern ECMAScript 2018+ compliant JS environments:
/(?<=,,.*?)Gio/g
See the regex demo.
The (?<=,,.*?)Gio pattern matches Gio when it is preceded with ,, and any 0+ chars other than line break chars, as few as possible.
The following variant will work with PCRE/Onigmo regex engines:
/(?:\G(?!^)|,,).*?\KGio/
See another regex demo. Here, (?:\G(?!^)|,,) matches either the end of the previous successful match or ,, and then .*? matches and consumes any 0+ chars other than line break chars, as few as possible, then \K will reset the match buffer and Gio will land right there.
I am having trouble understanding negative regex lookahead / lookbehind. I got the impression from reading tutorials that when you set a criteria to look for, the criteria doesn't form part of the search match.
That seems to hold for positive lookahead examples I tried, but when I tried these negative ones, it matches the entire test string. 1, it shouldn't have matched anything, and 2 even if it did, it wasn't supposed to include the lookahead criteria??
(?<!^And).*\.txt$
with input
And.txt
See: https://regex101.com/r/vW0aXS/1
and
^A.*(?!\.txt$)
with input:
A.txt
See: https://regex101.com/r/70yeED/1
PS: if you're going to ask me which language. I don't know. we've been told to use regex without any specific reference to any specific languages. I tried clicking various options on regex101.com and they all came up the same.
Lookarounds only try to match at their current position.
You are using a lookbehind at the beginning of the string (?<!^And).*\.txt$, and a lookahead at the end of the string ^A.*(?!\.txt$), which won't work. (.* will always consume the whole string as it's first match)
To disallow "And", for example, you can put the lookahead at the beginning of the string with a greedy quantifier .* inside it, so that it scans the whole string:
(?!.*And).*\.txt$
https://regex101.com/r/1vF50O/1
Your understanding is correct and the issue is not with the lookbehind/lookahead. The issue is with .* which matches the entire string in both cases. The period . matches any character and then you follow it with * which makes it match the entire string of any length. Remove it and both you regexes will work:
(?<!^And)\.txt$
^A(?!\.txt$)
My string being of the form:
"as.asd.sd fdsfs. dfsd d.sdfsd. sdfsdf sd .COM"
I only want to match against the last segment of whitespace before the last period(.)
So far I am able to capture whitespace but not the very last occurrence using:
\s+(?=\.\w)
How can I make it less greedy?
In a general case, you can match the last occurrence of any pattern using the following scheme:
pattern(?![\s\S]*pattern)
(?s)pattern(?!.*pattern)
pattern(?!(?s:.*)pattern)
where [\s\S]* matches any zero or more chars as many as possible. (?s) and (?s:.) can be used with regex engines that support these constructs so as to use . to match any chars.
In this case, rather than \s+(?![\s\S]*\s), you may use
\s+(?!\S*\s)
See the regex demo. Note the \s and \S are inverse classes, thus, it makes no sense using [\s\S]* here, \S* is enough.
Details:
\s+ - one or more whitespace chars
(?!\S*\s) - that are not immediately followed with any 0 or more non-whitespace chars and then a whitespace.
You can try like so:
(\s+)(?=\.[^.]+$)
(?=\.[^.]+$) Positive look ahead for a dot and characters except dot at the end of line.
Demo:
https://regex101.com/r/k9VwC6/3
"as.asd.sd ffindMyLastOccurrencedsfs. dfindMyLastOccurrencefsd d.sdfsd. sdfsdf sd ..COM"
.*(?=((?<=\S)\s+)).*
replaced by `>\1<`
> <
As a more generalized example
This example defines several needles and finds the last occurrence of either one of them. In this example the needles are:
defined word findMyLastOccurrence
whitespaces (?<=\S)\s+
dots (?<=[^\.])\.+
"as.asd.sd ffindMyLastOccurrencedsfs. dfindMyLastOccurrencefsd d.sdfsd. sdfsdf sd ..COM"
.*(?=(findMyLastOccurrence|(?<=\S)\s+|(?<=[^\.])\.+)).*
replaced by `>\1<`
>..<
Explanation:
Part 1 .*
is greedy and finds everything as long as the needles are found. Thus, it also captures all needle occurrences until the very last needle.
edit to add:
in case we are interested in the first hit, we can prevent the greediness by writing .*?
Part 2 (?=(findMyLastOccurrence|(?<=\S)\s+|(?<=[^\.])\.+|(?<=**Not**NeedlePart)NeedlePart+))
defines the 'break' condition for the greedy 'find-all'. It consists of several parts:
(?=(needles))
positive lookahead: ensure that previously found everything is followed by the needles
findMyLastOccurrence|(?<=\S)\s+|(?<=[^\.])\.+)|(?<=**Not**NeedlePart)NeedlePart+
several needles for which we are looking. Needles are patterns themselves.
In case we look for a collection of whitespaces, dots or other needleparts, the pattern we are looking for is actually: anything which is not a needlepart, followed by one or more needleparts (thus needlepart is +). See the example for whitespaces \s negated with \S, actual dot . negated with [^.]
Part 3 .*
as we aren't interested in the remainder, we capture it and dont use it any further. We could capture it with parenthesis and use it as another group, but that's out of scope here
SIMPLE SOLUTION for a COMMON PROBLEM
All of the answers that I have read through are way off topic, overly complicated, or just simply incorrect. This question is a common problem that regex offers a simple solution for.
Breaking Down the General Problem
THE STRING
The generalized problem is such that there is a string that contains several characters.
THE SUB-STRING
Within the string is a sub-string made up of a few characters. Often times this is a file extension (i.e .c, .ts, or .json), or a top level domain (i.e. .com, .org, or .io), but it could be something as arbitrary as MC Donald's Mulan Szechuan Sauce. The point it is, it may not always be something simple.
THE BEFORE VARIANCE (Most important part)
The before variance is an arbitrary character, or characters, that always comes just before the sub-string. In this question, the before variance is an unknown amount of white-space. Its a variance because the amount of white-space that needs to be match against varies (or has a dynamic quantity).
Describing the Solution in Reference to the Problem
(Solution Part 1)
Often times when working with regular expressions its necessary to work in reverse.
We will start at the end of the problem described above, and work backwards, henceforth; we are going to start at the The Before Variance (or #3)
So, as mentioned above, The Before Variance is an unknown amount of white-space. We know that it includes white-space, but we don't know how much, so we will use the meta sequence for Any Whitespce with the one or more quantifier.
The Meta Sequence for "Any Whitespace" is \s.
The "One or More" quantifier is +
so we will start with...
NOTE: In ECMAS Regex the / characters are like quotes around a string.
const regex = /\s+/g
I also included the g to tell the engine to set the global flag to true. I won't explain flags, for the sake of brevity, but if you don't know what the global flag does, you should DuckDuckGo it.
(Solution Part 2)
Remember, we are working in reverse, so the next part to focus on is the Sub-string. In this question it is .com, but the author may want it to match against a value with variance, rather than just the static string of characters .com, therefore I will talk about that more below, but to stay focused, we will work with .com for now.
It's necessary that we use a concept here that's called ZERO LENGTH ASSERTION. We need a "zero-length assertion" because we have a sub-string that is significant, but is not what we want to match against. "Zero-length assertions" allow us to move the point in the string where the regular expression engine is looking at, without having to match any characters to get there.
The Zero-Length Assertion that we are going to use is called LOOK AHEAD, and its syntax is as follows.
Look-ahead Syntax: (?=Your-SubStr-Here)
We are going to use the look ahead to match against a variance that comes before the pattern assigned to the look-ahead, which will be our sub-string. The result looks like this:
const regex = /\s+(?=\.com)/gi
I added the insensitive flag to tell the engine to not be concerned with the case of the letter, in other words; the regular expression /\s+(?=\.cOM)/gi
is the same as /\s+(?=\.Com)/gi, and both are the same as: /\s+(?=\.com)/gi &/or /\s+(?=.COM)/gi. Everyone of the "Just Listed" regular expressions are equivalent so long as the i flag is set.
That's it! The link HERE (REGEX101) will take you to an example where you can play with the regular expression if you like.
I mentioned above working with a sub-string that has more variance than .com.
You could use (\s*)(?=\.\w{3,}) for instance.
The problem with this regex, is even though it matches .txt, .org, .json, and .unclepetespurplebeet, the regex isn't safe. When using the question's string of...
"as.asd.sd fdsfs. dfsd d.sdfsd. sdfsdf sd .COM"
as an example, you can see at the LINK HERE (Regex101) there are 3 lines in the string. Those lines represent areas where the sub-string's lookahead's assertion returned true. Each time the assertion was true, a possibility for an incorrect final match was created. Though, only one match was returned in the end, and it was the correct match, when implemented in a program, or website, that's running in production, you can pretty much guarantee that the regex is not only going to fail, but its going to fail horribly and you will come to hate it.
You can try this. It will capture the last white space segment - in the first capture group.
(\s+)\.[^\.]*$
I have a source file with literally hundreds of occurrences of strings flecha.jpg and flecha1.jpg, but I need to find occurrences of any other .jpg image (i.e. casa.jpg, moto.jpg, whatever)
I have tried using a regular expression with negative lookbehind, like this:
(?<!flecha|flecha1).jpg
but it doesn't work! Notepad++ simply says that it is an invalid regular expression.
I have tried the regex elsewhere and it works, here is an example so I guess it is a problem with NPP's handling of regexes or with the syntax of lookbehinds/lookaheads.
So how could I achieve the same regex result in NPP?
If useful, I am using Notepad++ version 6.3 Unicode
As an extra, if you are so kind, what would be the syntax to achieve the same thing but with optional numbers (in this case only '1') as a suffix of my string? (even if it doesn't work in NPP, just to know)...
I tried (?<!flecha[1]?).jpg but it doesn't work. It should work the same as the other regex, see here (RegExr)
Notepad++ seems to not have implemented variable-length look-behinds (this happens with some tools). A workaround is to use more than one fixed-length look-behind:
(?<!flecha)(?<!flecha1)\.jpg
As you can check, the matches are the same. But this works with npp.
Notice I escaped the ., since you are trying to match extensions, what you want is the literal .. The way you had, it was a wildcard - could be any character.
About the extra question, unfortunately, as we can't have variable-length look-behinds, it is not possible to have optional suffixes (numbers) without having multiple look-behinds.
Solving the problem of the variable-length-negative-lookbehind limitation in Notepad++
Given here are several strategies for working around this limitation in Notepad++ (or any regex engine with the same limitation)
Defining the problem
Notepad++ does not support the use of variable-length negative lookbehind assertions, and it would be nice to have some workarounds. Let's consider the example in the original question, but assume we want to avoid occurrences of files named flecha with any number of digits after flecha, and with any characters before flecha. In that case, a regex utilizing a variable-length negative lookbehind would look like (?<!flecha[0-9]*)\.jpg.
Strings we don't want to match in this example
flecha.jpg
flecha1.jpg
flecha00501275696.jpg
aflecha.jpg
img_flecha9.jpg
abcflecha556677.jpg
The Strategies
Inserting Temporary Markers
Begin by performing a find-and-replace on the instances that you want to avoid working with - in our case, instances of flecha[0-9]*\.jpg. Insert a special marker to form a pattern that doesn't appear anywhere else. For this example, we will insert an extra . before .jpg, assuming that ..jpg doesn't appear elsewhere. So we do:
Find: (flecha[0-9]*)(\.jpg)
Replace with: $1.$2
Now you can search your document for all the other .jpg filenames with a simple regex like \w+\.jpg or (?<!\.)\.jpg and do what you want with them. When you're done, do a final find-and-replace operation where you replace all instances of ..jpg with .jpg, to remove the temporary marker.
Using a negative lookahead assertion
A negative lookahead assertion can be used to make sure that you're not matching the undesired file names:
(?<!\S)(?!\S*flecha\d*\.jpg)\S+\.jpg
Breaking it down:
(?<!\S) ensures that your match begins at the start of a file name, and not in the middle, by asserting that your match is not preceded by a non-whitespace character.
(?!\S*flecha\d*\.jpg) ensures that whatever is matched does not contain the pattern we want to avoid
\S+\.jpg is what actually gets matched -- a string of non-whitespace characters followed by .jpg.
Using multiple fixed-length negative lookbehinds
This is a quick (but not-so-elegant) solution for situations where the pattern you don't want to match has a small number of possible lengths.
For example, if we know that flecha is only followed by up to three digits, our regex could be:
(?<!flecha)(?<!flecha[0-9])(?<!flecha[0-9][0-9])(?<!flecha[0-9][0-9][0-9])\.jpg
Are you aware that you're only matching (in the sense of consuming) the extension (.jpg)? I would think you wanted to match the whole filename, no? And that's much easier to do with a lookahead:
\b(?!flecha1?\b)\w+\.jpg
The first \b anchors the match to the beginning of the name (assuming it's really a filename we're looking at). Then (?!flecha1?\b) asserts that the name is not flecha or flecha1. Once that's done, the \w+ goes ahead and consumes the name. Then \.jpg grabs the extension to finish off the match.