Regex assistance in java - java

I am trying to extract the information inside of these tags along the lines of
hello=barry0238293<
hello=terry2938298<
hello=bruce8392382<
The expression I have written is
hello=(.*)<
I thought that this would have worked but it doesn't.
Could you point me in the right direction if I am doing this completely wrong?

(.*)< is not really a good regular expression. The star qualifier is greedy and it will consume all input, but then the regular expression engine will notice that there's something after it, and it will begin to backtrack until it finds the following text (the less than sign in this case). This can lead to serious performance hits. For example, I had one of these in some code (I was being lazy -- bad programmer!), and it was taking something like 1100+ millliseconds to execute on a very small input string.
A better expression would be something like this "hello=([^<]*)<" The braces [] form a character class, but with the carat ^ as the first entry in the character class, it negates the class. i.e. its saying find characters that are not in the following set, and then you add the terminating character < and the regex engine will seek until it finds the less than sign without having to backtrack.
I hacked out a quick example of using the raw Java regex classes in clojure to be sure that my regex works. I ignored the built in regex support in clojure to show that it works with the regular Java API to make sure that aspect of it is clear. (This is not a good example of how to do regular expressions in clojure.) I added comments (they follow the ;; in the example) that translate to Java, but it should be pretty clear whats going on if you know the regex APIs.
;; create a pattern object
user=> (def p (java.util.regex.Pattern/compile "hello=([^<]*)<"))
#'user/p
;; create a matcher for the string
user=> (def m (.matcher p "hello=bruce8392382<"))
#'user/m
;; call m.matches()
user=> (.matches m)
true
;; call m.group(1)
user=> (.group m 1)
"bruce8392382"

I believe this should be close: /hello\=(\w*)\</
'=' and '<' are meta-characters so adding the '\' before them makes sure they're properly recognized. '\w' matches [a-zA-Z0-9], but if you needed separation between the name and number you can replace it with something like ([a-zA-Z]+\d+).
(.*) doesn't work because it's greedy, meaning that it will match the '<' at the end as well. You may need to tweak this further, but it should help you get started.

This works:
Pattern p = Pattern.compile("hello=(.*)<");
Matcher m = p.matcher("hello=bruce8392382<");
if (m.matches) {
System.out.println(m.group(1));
}

Related

Regexp captured group backreference doesn't work [duplicate]

I have a regex that I use to match Expression of the form (val1 operator val2)
This regex looks like :
(\(\s*([a-zA-Z]+[0-9]*|[0-9]+|\'.*\'|\[.*\])\s*(ni|in|\*|\/|\+|\-|==|!=|>|>=|<|<=)\s*([a-zA-Z]+[0-9]*|[0-9]+|\'.*\'|\[.*\])\s*\))
Which is actually good and matches what I want as you can see here in this demo
BUT :D (here comes the butter)
I want to optimise the regex itself by making it more readable and "Compact". I searched on how to do that and I found something called back-reference, in which you can name your capturing groups and then reference them later as such:
(\(\s*(?P<Val>[a-zA-Z]+[0-9]*|[0-9]+|\'.*\'|\[.*\])\s*(ni|in|\*|\/|\+|\-|==|!=|>|>=|<|<=)\s*(\g{Val})\s*\))
where I named the group that captures the left side of the expression Val and later I referenced it as (\g{Val}), now the problem is that this expression as you can see here only case where left side of the expression is exactly the same as right side! e.g. (a==a) or (1==1) and does not match expressions such as (a==b)!
Now the question is: is there a way to reference the pattern instead of the matched value?!
Note that \g{N} is equivalent to \1, that is, a backreference that matches the same value, not the pattern, that the corresponding capturing group matched. This syntax is a bit more flexible though, since you can define the capture groups that are relative to the current group by using - before the number (i.e. \g{-2}, (\p{L})(\d)\g{-2} will match a1a).
The PCRE engine allows subroutine calls to recurse subpatterns. To repeat the pattern of Group 1, use (?1), and (?&Val) to recurse the pattern of the named group Val.
Also, you may use character classes to match single characters, and consider using ? quantifier to make parts of the regex optional:
(\(\s*(?P<Val>[a-zA-Z]+[0-9]*|[0-9]+|\'.*\'|\[.*\])\s*(ni|in|[*\/+-]|[=!><]=|[><])\s*((?&Val))\s*\))
See the regex demo
Note that \'.*\' and \[.*\] can match too much, consider replacing with \'[^\']*\' and \[[^][]*\].
What language/application are you using this regular expression in?
If you have the option you can specify the different parts as named variables and then build the final regular expression by combining them.
val = "([a-zA-Z]+[0-9]*|[0-9]+|\'.*\'|\[.*\])"
op = "(ni|in|\*|\/|\+|\-|==|!=|>|>=|<|<=)"
exp = "(\(" .. val .. "\s*" .. op .. "\s*" .. val .. "\))"

inverse match regex AND Space or end of string, AND space or start of string [duplicate]

I know it's possible to match a word and then reverse the matches using other tools (e.g. grep -v). However, is it possible to match lines that do not contain a specific word, e.g. hede, using a regular expression?
Input:
hoho
hihi
haha
hede
Code:
grep "<Regex for 'doesn't contain hede'>" input
Desired output:
hoho
hihi
haha
The notion that regex doesn't support inverse matching is not entirely true. You can mimic this behavior by using negative look-arounds:
^((?!hede).)*$
The regex above will match any string, or line without a line break, not containing the (sub)string 'hede'. As mentioned, this is not something regex is "good" at (or should do), but still, it is possible.
And if you need to match line break chars as well, use the DOT-ALL modifier (the trailing s in the following pattern):
/^((?!hede).)*$/s
or use it inline:
/(?s)^((?!hede).)*$/
(where the /.../ are the regex delimiters, i.e., not part of the pattern)
If the DOT-ALL modifier is not available, you can mimic the same behavior with the character class [\s\S]:
/^((?!hede)[\s\S])*$/
Explanation
A string is just a list of n characters. Before, and after each character, there's an empty string. So a list of n characters will have n+1 empty strings. Consider the string "ABhedeCD":
┌──┬───┬──┬───┬──┬───┬──┬───┬──┬───┬──┬───┬──┬───┬──┬───┬──┐
S = │e1│ A │e2│ B │e3│ h │e4│ e │e5│ d │e6│ e │e7│ C │e8│ D │e9│
└──┴───┴──┴───┴──┴───┴──┴───┴──┴───┴──┴───┴──┴───┴──┴───┴──┘
index 0 1 2 3 4 5 6 7
where the e's are the empty strings. The regex (?!hede). looks ahead to see if there's no substring "hede" to be seen, and if that is the case (so something else is seen), then the . (dot) will match any character except a line break. Look-arounds are also called zero-width-assertions because they don't consume any characters. They only assert/validate something.
So, in my example, every empty string is first validated to see if there's no "hede" up ahead, before a character is consumed by the . (dot). The regex (?!hede). will do that only once, so it is wrapped in a group, and repeated zero or more times: ((?!hede).)*. Finally, the start- and end-of-input are anchored to make sure the entire input is consumed: ^((?!hede).)*$
As you can see, the input "ABhedeCD" will fail because on e3, the regex (?!hede) fails (there is "hede" up ahead!).
Note that the solution to does not start with “hede”:
^(?!hede).*$
is generally much more efficient than the solution to does not contain “hede”:
^((?!hede).)*$
The former checks for “hede” only at the input string’s first position, rather than at every position.
If you're just using it for grep, you can use grep -v hede to get all lines which do not contain hede.
ETA Oh, rereading the question, grep -v is probably what you meant by "tools options".
Answer:
^((?!hede).)*$
Explanation:
^the beginning of the string,
( group and capture to \1 (0 or more times (matching the most amount possible)),
(?! look ahead to see if there is not,
hede your string,
) end of look-ahead,
. any character except \n,
)* end of \1 (Note: because you are using a quantifier on this capture, only the LAST repetition of the captured pattern will be stored in \1)
$ before an optional \n, and the end of the string
The given answers are perfectly fine, just an academic point:
Regular Expressions in the meaning of theoretical computer sciences ARE NOT ABLE do it like this. For them it had to look something like this:
^([^h].*$)|(h([^e].*$|$))|(he([^h].*$|$))|(heh([^e].*$|$))|(hehe.+$)
This only does a FULL match. Doing it for sub-matches would even be more awkward.
If you want the regex test to only fail if the entire string matches, the following will work:
^(?!hede$).*
e.g. -- If you want to allow all values except "foo" (i.e. "foofoo", "barfoo", and "foobar" will pass, but "foo" will fail), use: ^(?!foo$).*
Of course, if you're checking for exact equality, a better general solution in this case is to check for string equality, i.e.
myStr !== 'foo'
You could even put the negation outside the test if you need any regex features (here, case insensitivity and range matching):
!/^[a-f]oo$/i.test(myStr)
The regex solution at the top of this answer may be helpful, however, in situations where a positive regex test is required (perhaps by an API).
FWIW, since regular languages (aka rational languages) are closed under complementation, it's always possible to find a regular expression (aka rational expression) that negates another expression. But not many tools implement this.
Vcsn supports this operator (which it denotes {c}, postfix).
You first define the type of your expressions: labels are letter (lal_char) to pick from a to z for instance (defining the alphabet when working with complementation is, of course, very important), and the "value" computed for each word is just a Boolean: true the word is accepted, false, rejected.
In Python:
In [5]: import vcsn
c = vcsn.context('lal_char(a-z), b')
c
Out[5]: {a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z} → 𝔹
then you enter your expression:
In [6]: e = c.expression('(hede){c}'); e
Out[6]: (hede)^c
convert this expression to an automaton:
In [7]: a = e.automaton(); a
finally, convert this automaton back to a simple expression.
In [8]: print(a.expression())
\e+h(\e+e(\e+d))+([^h]+h([^e]+e([^d]+d([^e]+e[^]))))[^]*
where + is usually denoted |, \e denotes the empty word, and [^] is usually written . (any character). So, with a bit of rewriting ()|h(ed?)?|([^h]|h([^e]|e([^d]|d([^e]|e.)))).*.
You can see this example here, and try Vcsn online there.
Here's a good explanation of why it's not easy to negate an arbitrary regex. I have to agree with the other answers, though: if this is anything other than a hypothetical question, then a regex is not the right choice here.
With negative lookahead, regular expression can match something not contains specific pattern. This is answered and explained by Bart Kiers. Great explanation!
However, with Bart Kiers' answer, the lookahead part will test 1 to 4 characters ahead while matching any single character. We can avoid this and let the lookahead part check out the whole text, ensure there is no 'hede', and then the normal part (.*) can eat the whole text all at one time.
Here is the improved regex:
/^(?!.*?hede).*$/
Note the (*?) lazy quantifier in the negative lookahead part is optional, you can use (*) greedy quantifier instead, depending on your data: if 'hede' does present and in the beginning half of the text, the lazy quantifier can be faster; otherwise, the greedy quantifier be faster. However if 'hede' does not present, both would be equal slow.
Here is the demo code.
For more information about lookahead, please check out the great article: Mastering Lookahead and Lookbehind.
Also, please check out RegexGen.js, a JavaScript Regular Expression Generator that helps to construct complex regular expressions. With RegexGen.js, you can construct the regex in a more readable way:
var _ = regexGen;
var regex = _(
_.startOfLine(),
_.anything().notContains( // match anything that not contains:
_.anything().lazy(), 'hede' // zero or more chars that followed by 'hede',
// i.e., anything contains 'hede'
),
_.endOfLine()
);
Benchmarks
I decided to evaluate some of the presented Options and compare their performance, as well as use some new Features.
Benchmarking on .NET Regex Engine: http://regexhero.net/tester/
Benchmark Text:
The first 7 lines should not match, since they contain the searched Expression, while the lower 7 lines should match!
Regex Hero is a real-time online Silverlight Regular Expression Tester.
XRegex Hero is a real-time online Silverlight Regular Expression Tester.
Regex HeroRegex HeroRegex HeroRegex HeroRegex Hero is a real-time online Silverlight Regular Expression Tester.
Regex Her Regex Her Regex Her Regex Her Regex Her Regex Her Regex Hero is a real-time online Silverlight Regular Expression Tester.
Regex Her is a real-time online Silverlight Regular Expression Tester.Regex Hero
egex Hero egex Hero egex Hero egex Hero egex Hero egex Hero Regex Hero is a real-time online Silverlight Regular Expression Tester.
RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRegex Hero is a real-time online Silverlight Regular Expression Tester.
Regex Her
egex Hero
egex Hero is a real-time online Silverlight Regular Expression Tester.
Regex Her is a real-time online Silverlight Regular Expression Tester.
Regex Her Regex Her Regex Her Regex Her Regex Her Regex Her is a real-time online Silverlight Regular Expression Tester.
Nobody is a real-time online Silverlight Regular Expression Tester.
Regex Her o egex Hero Regex Hero Reg ex Hero is a real-time online Silverlight Regular Expression Tester.
Results:
Results are Iterations per second as the median of 3 runs - Bigger Number = Better
01: ^((?!Regex Hero).)*$ 3.914 // Accepted Answer
02: ^(?:(?!Regex Hero).)*$ 5.034 // With Non-Capturing group
03: ^(?!.*?Regex Hero).* 7.356 // Lookahead at the beginning, if not found match everything
04: ^(?>[^R]+|R(?!egex Hero))*$ 6.137 // Lookahead only on the right first letter
05: ^(?>(?:.*?Regex Hero)?)^.*$ 7.426 // Match the word and check if you're still at linestart
06: ^(?(?=.*?Regex Hero)(?#fail)|.*)$ 7.371 // Logic Branch: Find Regex Hero? match nothing, else anything
P1: ^(?(?=.*?Regex Hero)(*FAIL)|(*ACCEPT)) ????? // Logic Branch in Perl - Quick FAIL
P2: .*?Regex Hero(*COMMIT)(*FAIL)|(*ACCEPT) ????? // Direct COMMIT & FAIL in Perl
Since .NET doesn't support action Verbs (*FAIL, etc.) I couldn't test the solutions P1 and P2.
Summary:
The overall most readable and performance-wise fastest solution seems to be 03 with a simple negative lookahead. This is also the fastest solution for JavaScript, since JS does not support the more advanced Regex Features for the other solutions.
Not regex, but I've found it logical and useful to use serial greps with pipe to eliminate noise.
eg. search an apache config file without all the comments-
grep -v '\#' /opt/lampp/etc/httpd.conf # this gives all the non-comment lines
and
grep -v '\#' /opt/lampp/etc/httpd.conf | grep -i dir
The logic of serial grep's is (not a comment) and (matches dir)
Since no one else has given a direct answer to the question that was asked, I'll do it.
The answer is that with POSIX grep, it's impossible to literally satisfy this request:
grep "<Regex for 'doesn't contain hede'>" input
The reason is that with no flags, POSIX grep is only required to work with Basic Regular Expressions (BREs), which are simply not powerful enough for accomplishing that task, because of lack of alternation in subexpressions. The only kind of alternation it supports involves providing multiple regular expressions separated by newlines, and that doesn't cover all regular languages, e.g. there's no finite collection of BREs that matches the same regular language as the extended regular expression (ERE) ^(ab|cd)*$.
However, GNU grep implements extensions that allow it. In particular, \| is the alternation operator in GNU's implementation of BREs. If your regular expression engine supports alternation, parentheses and the Kleene star, and is able to anchor to the beginning and end of the string, that's all you need for this approach. Note however that negative sets [^ ... ] are very convenient in addition to those, because otherwise, you need to replace them with an expression of the form (a|b|c| ... ) that lists every character that is not in the set, which is extremely tedious and overly long, even more so if the whole character set is Unicode.
Thanks to formal language theory, we get to see how such an expression looks like. With GNU grep, the answer would be something like:
grep "^\([^h]\|h\(h\|eh\|edh\)*\([^eh]\|e[^dh]\|ed[^eh]\)\)*\(\|h\(h\|eh\|edh\)*\(\|e\|ed\)\)$" input
(found with Grail and some further optimizations made by hand).
You can also use a tool that implements EREs, like egrep, to get rid of the backslashes, or equivalently, pass the -E flag to POSIX grep (although I was under the impression that the question required avoiding any flags to grep whatsoever):
egrep "^([^h]|h(h|eh|edh)*([^eh]|e[^dh]|ed[^eh]))*(|h(h|eh|edh)*(|e|ed))$" input
Here's a script to test it (note it generates a file testinput.txt in the current directory). Several of the expressions presented in other answers fail this test.
#!/bin/bash
REGEX="^\([^h]\|h\(h\|eh\|edh\)*\([^eh]\|e[^dh]\|ed[^eh]\)\)*\(\|h\(h\|eh\|edh\)*\(\|e\|ed\)\)$"
# First four lines as in OP's testcase.
cat > testinput.txt <<EOF
hoho
hihi
haha
hede
h
he
ah
head
ahead
ahed
aheda
ahede
hhede
hehede
hedhede
hehehehehehedehehe
hedecidedthat
EOF
diff -s -u <(grep -v hede testinput.txt) <(grep "$REGEX" testinput.txt)
In my system it prints:
Files /dev/fd/63 and /dev/fd/62 are identical
as expected.
For those interested in the details, the technique employed is to convert the regular expression that matches the word into a finite automaton, then invert the automaton by changing every acceptance state to non-acceptance and vice versa, and then converting the resulting FA back to a regular expression.
As everyone has noted, if your regular expression engine supports negative lookahead, the regular expression is much simpler. For example, with GNU grep:
grep -P '^((?!hede).)*$' input
However, this approach has the disadvantage that it requires a backtracking regular expression engine. This makes it unsuitable in installations that are using secure regular expression engines like RE2, which is one reason to prefer the generated approach in some circumstances.
Using Kendall Hopkins' excellent FormalTheory library, written in PHP, which provides a functionality similar to Grail, and a simplifier written by myself, I've been able to write an online generator of negative regular expressions given an input phrase (only alphanumeric and space characters currently supported, and the length is limited): http://www.formauri.es/personal/pgimeno/misc/non-match-regex/
For hede it outputs:
^([^h]|h(h|e(h|dh))*([^eh]|e([^dh]|d[^eh])))*(h(h|e(h|dh))*(ed?)?)?$
which is equivalent to the above.
with this, you avoid to test a lookahead on each positions:
/^(?:[^h]+|h++(?!ede))*+$/
equivalent to (for .net):
^(?>(?:[^h]+|h+(?!ede))*)$
Old answer:
/^(?>[^h]+|h+(?!ede))*$/
Aforementioned (?:(?!hede).)* is great because it can be anchored.
^(?:(?!hede).)*$ # A line without hede
foo(?:(?!hede).)*bar # foo followed by bar, without hede between them
But the following would suffice in this case:
^(?!.*hede) # A line without hede
This simplification is ready to have "AND" clauses added:
^(?!.*hede)(?=.*foo)(?=.*bar) # A line with foo and bar, but without hede
^(?!.*hede)(?=.*foo).*bar # Same
An, in my opinon, more readable variant of the top answer:
^(?!.*hede)
Basically, "match at the beginning of the line if and only if it does not have 'hede' in it" - so the requirement translated almost directly into regex.
Of course, it's possible to have multiple failure requirements:
^(?!.*(hede|hodo|hada))
Details: The ^ anchor ensures the regex engine doesn't retry the match at every location in the string, which would match every string.
The ^ anchor in the beginning is meant to represent the beginning of the line. The grep tool matches each line one at a time, in contexts where you're working with a multiline string, you can use the "m" flag:
/^(?!.*hede)/m # JavaScript syntax
or
(?m)^(?!.*hede) # Inline flag
Here's how I'd do it:
^[^h]*(h(?!ede)[^h]*)*$
Accurate and more efficient than the other answers. It implements Friedl's "unrolling-the-loop" efficiency technique and requires much less backtracking.
Another option is that to add a positive look-ahead and check if hede is anywhere in the input line, then we would negate that, with an expression similar to:
^(?!(?=.*\bhede\b)).*$
with word boundaries.
The expression is explained on the top right panel of regex101.com, if you wish to explore/simplify/modify it, and in this link, you can watch how it would match against some sample inputs, if you like.
RegEx Circuit
jex.im visualizes regular expressions:
If you want to match a character to negate a word similar to negate character class:
For example, a string:
<?
$str="aaa bbb4 aaa bbb7";
?>
Do not use:
<?
preg_match('/aaa[^bbb]+?bbb7/s', $str, $matches);
?>
Use:
<?
preg_match('/aaa(?:(?!bbb).)+?bbb7/s', $str, $matches);
?>
Notice "(?!bbb)." is neither lookbehind nor lookahead, it's lookcurrent, for example:
"(?=abc)abcde", "(?!abc)abcde"
The OP did not specify or Tag the post to indicate the context (programming language, editor, tool) the Regex will be used within.
For me, I sometimes need to do this while editing a file using Textpad.
Textpad supports some Regex, but does not support lookahead or lookbehind, so it takes a few steps.
If I am looking to retain all lines that Do NOT contain the string hede, I would do it like this:
1. Search/replace the entire file to add a unique "Tag" to the beginning of each line containing any text.
Search string:^(.)
Replace string:<##-unique-##>\1
Replace-all
2. Delete all lines that contain the string hede (replacement string is empty):
Search string:<##-unique-##>.*hede.*\n
Replace string:<nothing>
Replace-all
3. At this point, all remaining lines Do NOT contain the string hede. Remove the unique "Tag" from all lines (replacement string is empty):
Search string:<##-unique-##>
Replace string:<nothing>
Replace-all
Now you have the original text with all lines containing the string hede removed.
If I am looking to Do Something Else to only lines that Do NOT contain the string hede, I would do it like this:
1. Search/replace the entire file to add a unique "Tag" to the beginning of each line containing any text.
Search string:^(.)
Replace string:<##-unique-##>\1
Replace-all
2. For all lines that contain the string hede, remove the unique "Tag":
Search string:<##-unique-##>(.*hede)
Replace string:\1
Replace-all
3. At this point, all lines that begin with the unique "Tag", Do NOT contain the string hede. I can now do my Something Else to only those lines.
4. When I am done, I remove the unique "Tag" from all lines (replacement string is empty):
Search string:<##-unique-##>
Replace string:<nothing>
Replace-all
Since the introduction of ruby-2.4.1, we can use the new Absent Operator in Ruby’s Regular Expressions
from the official doc
(?~abc) matches: "", "ab", "aab", "cccc", etc.
It doesn't match: "abc", "aabc", "ccccabc", etc.
Thus, in your case ^(?~hede)$ does the job for you
2.4.1 :016 > ["hoho", "hihi", "haha", "hede"].select{|s| /^(?~hede)$/.match(s)}
=> ["hoho", "hihi", "haha"]
Through PCRE verb (*SKIP)(*F)
^hede$(*SKIP)(*F)|^.*$
This would completely skips the line which contains the exact string hede and matches all the remaining lines.
DEMO
Execution of the parts:
Let us consider the above regex by splitting it into two parts.
Part before the | symbol. Part shouldn't be matched.
^hede$(*SKIP)(*F)
Part after the | symbol. Part should be matched.
^.*$
PART 1
Regex engine will start its execution from the first part.
^hede$(*SKIP)(*F)
Explanation:
^ Asserts that we are at the start.
hede Matches the string hede
$ Asserts that we are at the line end.
So the line which contains the string hede would be matched. Once the regex engine sees the following (*SKIP)(*F) (Note: You could write (*F) as (*FAIL)) verb, it skips and make the match to fail. | called alteration or logical OR operator added next to the PCRE verb which inturn matches all the boundaries exists between each and every character on all the lines except the line contains the exact string hede. See the demo here. That is, it tries to match the characters from the remaining string. Now the regex in the second part would be executed.
PART 2
^.*$
Explanation:
^ Asserts that we are at the start. ie, it matches all the line starts except the one in the hede line. See the demo here.
.* In the Multiline mode, . would match any character except newline or carriage return characters. And * would repeat the previous character zero or more times. So .* would match the whole line. See the demo here.
Hey why you added .* instead of .+ ?
Because .* would match a blank line but .+ won't match a blank. We want to match all the lines except hede , there may be a possibility of blank lines also in the input . so you must use .* instead of .+ . .+ would repeat the previous character one or more times. See .* matches a blank line here.
$ End of the line anchor is not necessary here.
The TXR Language supports regex negation.
$ txr -c '#(repeat)
#{nothede /~hede/}
#(do (put-line nothede))
#(end)' Input
A more complicated example: match all lines that start with a and end with z, but do not contain the substring hede:
$ txr -c '#(repeat)
#{nothede /a.*z&~.*hede.*/}
#(do (put-line nothede))
#(end)' -
az <- echoed
az
abcz <- echoed
abcz
abhederz <- not echoed; contains hede
ahedez <- not echoed; contains hede
ace <- not echoed; does not end in z
ahedz <- echoed
ahedz
Regex negation is not particularly useful on its own but when you also have intersection, things get interesting, since you have a full set of boolean set operations: you can express "the set which matches this, except for things which match that".
It may be more maintainable to two regexes in your code, one to do the first match, and then if it matches run the second regex to check for outlier cases you wish to block for example ^.*(hede).* then have appropriate logic in your code.
OK, I admit this is not really an answer to the posted question posted and it may also use slightly more processing than a single regex. But for developers who came here looking for a fast emergency fix for an outlier case then this solution should not be overlooked.
The below function will help you get your desired output
<?PHP
function removePrepositions($text){
$propositions=array('/\bfor\b/i','/\bthe\b/i');
if( count($propositions) > 0 ) {
foreach($propositions as $exceptionPhrase) {
$text = preg_replace($exceptionPhrase, '', trim($text));
}
$retval = trim($text);
}
return $retval;
}
?>
I wanted to add another example for if you are trying to match an entire line that contains string X, but does not also contain string Y.
For example, let's say we want to check if our URL / string contains "tasty-treats", so long as it does not also contain "chocolate" anywhere.
This regex pattern would work (works in JavaScript too)
^(?=.*?tasty-treats)((?!chocolate).)*$
(global, multiline flags in example)
Interactive Example: https://regexr.com/53gv4
Matches
(These urls contain "tasty-treats" and also do not contain "chocolate")
example.com/tasty-treats/strawberry-ice-cream
example.com/desserts/tasty-treats/banana-pudding
example.com/tasty-treats-overview
Does Not Match
(These urls contain "chocolate" somewhere - so they won't match even though they contain "tasty-treats")
example.com/tasty-treats/chocolate-cake
example.com/home-cooking/oven-roasted-chicken
example.com/tasty-treats/banana-chocolate-fudge
example.com/desserts/chocolate/tasty-treats
example.com/chocolate/tasty-treats/desserts
As long as you are dealing with lines, simply mark the negative matches and target the rest.
In fact, I use this trick with sed because ^((?!hede).)*$ looks not supported by it.
For the desired output
Mark the negative match: (e.g. lines with hede), using a character not included in the whole text at all. An emoji could probably be a good choice for this purpose.
s/(.*hede)/🔒\1/g
Target the rest (the unmarked strings: e.g. lines without hede). Suppose you want to keep only the target and delete the rest (as you want):
s/^🔒.*//g
For a better understanding
Suppose you want to delete the target:
Mark the negative match: (e.g. lines with hede), using a character not included in the whole text at all. An emoji could probably be a good choice for this purpose.
s/(.*hede)/🔒\1/g
Target the rest (the unmarked strings: e.g. lines without hede). Suppose you want to delete the target:
s/^[^🔒].*//g
Remove the mark:
s/🔒//g
^((?!hede).)*$ is an elegant solution, except since it consumes characters you won't be able to combine it with other criteria. For instance, say you wanted to check for the non-presence of "hede" and the presence of "haha." This solution would work because it won't consume characters:
^(?!.*\bhede\b)(?=.*\bhaha\b)
How to use PCRE's backtracking control verbs to match a line not containing a word
Here's a method that I haven't seen used before:
/.*hede(*COMMIT)^|/
How it works
First, it tries to find "hede" somewhere in the line. If successful, at this point, (*COMMIT) tells the engine to, not only not backtrack in the event of a failure, but also not to attempt any further matching in that case. Then, we try to match something that cannot possibly match (in this case, ^).
If a line does not contain "hede" then the second alternative, an empty subpattern, successfully matches the subject string.
This method is no more efficient than a negative lookahead, but I figured I'd just throw it on here in case someone finds it nifty and finds a use for it for other, more interesting applications.
Simplest thing that I could find would be
[^(hede)]
Tested at https://regex101.com/
You can also add unit-test cases on that site
A simpler solution is to use the not operator !
Your if statement will need to match "contains" and not match "excludes".
var contains = /abc/;
var excludes =/hede/;
if(string.match(contains) && !(string.match(excludes))){ //proceed...
I believe the designers of RegEx anticipated the use of not operators.

RegEx - match the whole <a> tag in java

I'm trying to match this <a href="**something**"> using regex in java using this code:
Pattern regex = Pattern.compile("<([a-z]+) *[^/]*?>");
Matcher matcher = regex.matcher(string);
string= matcher.replaceAll("");
I'm not really familiar with regex. What am I doing wrong? Thanks
If you just want to find the start tag you could use:
"<a(?=[>\\s])[^>]*>"
If you are trying to get the href attribute it would be better to use:
"<a\\s+[^>]*href=(['\"])(.*?)\\1[^>]*>"
This would capture the link into capturing group 2.
To give you an idea of why people always say "don't try to parse HTML with a regular expression", here'e a simplified regex for matching an <a> tag:
<\s*a(?:\s+[a-z]+(?:\s*=\s*(?:[a-z0-9]+|"[^"]*"|'[^']*'))?)*\s*>
It actually is possible to match a tag with a regular expression. It just isn't as easy as most people expect.
All of HTML, on the other hand, is not "regular" and so you can't do it with a regular expression. (The "regex" support in many/most languages is actually more powerful than "regular", but few are powerful enough to deal with balanced structures like those in HTML.)
Here's a breakdown of what the above expression does:
<\s* < and possibly some spaces
a "a"
(?: 0 or more...
\s+ some spaces
[a-z]+ attribute name (simplified)
(?: and maybe...
\s*=\s* an equal sign, possibly with surrounding spaces
(?: and one of:
[a-z0-9]+ - a simple attribute value (simplified)
|"[^"]*" - a double-quoted attr value
|'[^']*' - a single quoted atttr value
)
)?
)*
\s*> possibly more spaces and then >
(The comments at the start of each group also talk about the operator at
the end of the group, or even in the group.)
There are possibly other simplifications here -- I wrote this from
memory, not from the spec. Even if you follow the spec to the letter, browsers are even more fault tolerant and will accept all sorts of invalid input.
you can just match against:
"<a[^>]*>"
If the * is "greedy" in java (what I think it is, this is correct)
But you cannot match < a whatever="foo" > with that, because of the whitespaces.
Although the following is better, but more complicated to understand:
"<\\s*a\\s+[^>]*>"
(The double \\ is needed because \ is a special char in a java strings)
This handles optional whitespaces before a and at minimum one whitespace after a.
So you don't match <abcdef> which is not a correct a tag.
(I assume your a tag stands isolated in one line and you are not working with multiline mode enabled. Else it gets far far more complicated.)
your last *[^/]*?> seems a little bit strange, maybe it doesn't work cause of that.
Ok lets check what you are doing:
<([a-z]+) *[^/]*?>
<([a-z]+)
match something that contains an <followed by a [a-z] at least one time. This is grouped by the brackets.
Now you use a * which means the defined group ([a-z])* may appear multiple time, or not.
[^/]*
This means now match everything, but a / or nothing (because of the *)
The question mark is just wrong, not sure how this is interpreted.
Last char > matched as last element, which must appear.
To sum up, your expression is just wrong and cannot work :)
Take a look at: http://www.regular-expressions.info/
This is a good starting point.

How do I translate this Perl regular expression into Java?

How would you translate this Perl regex into Java?
/pattern/i
While compiles, it does not match "PattErn" for me, it fails
Pattern p = Pattern.compile("/pattern/i");
Matcher m = p.matcher("PattErn");
System.out.println(m.matches()); // prints "false"
How would you translate this Perl regex into Java?
/pattern/i
You can't.
There are a lot of reasons for this. Here are a few:
Java doesn't support as expressive a regex language as Perl does. It lacks grapheme support (like \X) and full property support (like \p{Sentence_Break=SContinue}), is missing Unicode named characters, doesn't have a (?|...|...|) branch reset operator, doesn’t have named capture groups or a logical \x{...} escape before Java 7, has no recursive regexes, etc etc etc. I could write a book on what Java is missing here: Get used to going back to a very primitive and awkward to use regex engine compared with what you’re used to.
Another even worse problem is because you have lookalike faux amis like \w and and \b and \s, and even \p{alpha} and \p{lower}, which behave differently in Java compared with Perl; in some cases the Java versions are completely unusable and buggy. That’s because Perl follows UTS#18 but before Java 7, Java did not. You must add the UNICODE_CHARACTER_CLASSES flag from Java 7 to get these to stop being broken. If you can’t use Java 7, give up now, because Java had many many many other Unicode bugs before Java 7 and it just isn’t worth the pain of dealing with them.
Java handles linebreaks via ^ and $ and ., but Perl expects Unicode linebreaks to be \R. You should look at UNIX_LINES to understand what is going on there.
Java does not by default apply any Unicode casefolding whatsoever. Make sure to add the UNICODE_CASE flag to your compilation. Otherwise you won’t get things like the various Greek sigmas all matching one another.
Finally, it is different because at best Java only does simple casefolding, while Perl always does full casefolding. That means that you won’t get \xDF to match "SS" case insensitively in Java, and similar related issues.
In summary, the closest you can get is to compile with the flags
CASE_INSENSITIVE | UNICODE_CASE | UNICODE_CHARACTER_CLASSES
which is equivalent to an embedded "(?iuU)" in the pattern string.
And remember that match in Java doesn’t mean match, perversely enough.
EDIT
And here’s the rest of the story...
While compiles, it does not match "PattErn" for me, it fails
Pattern p = Pattern.compile("/pattern/i");
Matcher m = p.matcher("PattErn");
System.out.println(m.matches()); // prints "false"
You shouldn’t have slashes around the pattern.
The best you can do is to translate
$line = "I have your PaTTerN right here";
if ($line =~ /pattern/i) {
print "matched.\n";
}
this way
import java.util.regex.*;
String line = "I have your PaTTerN right here";
String pattern = "pattern";
Pattern regcomp = Pattern.compile(pattern, CASE_INSENSITIVE
| UNICODE_CASE
// comment next line out for legacy Java \b\w\s breakage
| UNICODE_CHARACTER_CLASSES
);
Matcher regexec = regcomp.matcher(line);
if (regexec.find()) {
System.out.println("matched");
}
There, see how much easier that isn’t? :)
Java regex do not have delimiters, and use a separate argument for modifies:
Pattern p = Pattern.compile("pattern", Pattern.CASE_INSENSITIVE);
The Perl equivalent of:
/pattern/i
in Java would be:
Pattern p = Pattern.compile("(?i)pattern");
Or simply do:
System.out.println("PattErn".matches("(?i)pattern"));
Note that "string".matches("pattern") validates the pattern against the entire input string. In other words, the following would return false:
"foo pattern bar".matches("pattern")

Regex matching doesn't work even though the pattern is correct

It's been a few years since I've used regex, but if I remember correctly, the following should work:
String test = "axaxa";
Pattern p = Pattern.compile("([a-c])x\1x\1");
Matcher m = p.matcher(test);
m matches nothing on run. This is a super simplified version of what I'm doing in my code. That example is actually taken from a Java tutorial on regex! I tried to rewrite my html matching code from way back when it didn't work, I went to researching, thinking I did something wrong... which according to the Internet, I haven't. So. Does anyone have a clue as to why this doesn't work?
Extra info, test.matches(the_pattern) returns false. It seems like the group backtracking is messing it up.
Try using \\1 in pace of \1.
\ is the escape character in Java string. To send a \1 to regex engine, we need to escape the \ as \\1.
In Java we have to escape the backslashes:
Pattern p = Pattern.compile("([a-c])x\\1x\\1");

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