I want to use string variables for both search pattern and replacement in regex. The expected output is like this,

$ perl -e '$a="abcdeabCde"; $a=~s/b(.)d/_$1$1_/g; print "$a\n"'

But when I moved the pattern and replacement to a variable, $1 was not evaluated.

$ perl -e '$a="abcdeabCde"; $p="b(.)d"; $r="_\$1\$1_"; $a=~s/$p/$r/g; print "$a\n"'

When I use "ee" modifier, it gives errors.

$ perl -e '$a="abcdeabCde"; $p="b(.)d"; $r="_\$1\$1_"; $a=~s/$p/$r/gee; print "$a\n"'
Scalar found where operator expected at (eval 1) line 1, near "$1$1"
    (Missing operator before $1?)
Bareword found where operator expected at (eval 1) line 1, near "$1_"
    (Missing operator before _?)
Scalar found where operator expected at (eval 2) line 1, near "$1$1"
    (Missing operator before $1?)
Bareword found where operator expected at (eval 2) line 1, near "$1_"
    (Missing operator before _?)

What do I miss here?


Both $p and $r are written by myself. What I need is to do multiple similar regex replacing without touching the perl code, so $p and $r have to be in a separate data file. I hope this file can be used with C++/python code later. Here are some examples of $p and $r.

^(.*\D)?((19|18|20)\d\d)年   $1$2<digits>年
^(.*\D)?(0\d)年  $1$2<digits>年
([TKZGD])(\d+)/(\d+)([^\d/])    $1$2<digits>$3<digits>$4
([^/TKZGD\d])(\d+)/(\d+)([^/\d])    $1$3分之$2$4

With $p="b(.)d"; you are getting a string with literal characters b(.)d. In general, regex patterns are not preserved in quoted strings and may not have their expected meaning in a regex. However, see Note at the end.

This is what qr operator is for: $p = qr/b(.)d/; forms the string as a regular expression.

As for the replacement part and /ee, the problem is that $r is first evaluated, to yield _$1$1_, which is then evaluated as code. Alas, that is not valid Perl code. The _ are barewords and even $1$1 itself isn't valid (for example, $1 . $1 would be).

The provided examples of $r have $Ns mixed with text in various ways. One way to parse this is to extract all $N and all else into a list that maintains their order from the string. Then, that can be processed into a string that will be valid code. For example, we need

'$1_$2$3other'  -->  $1 . '_' . $2 . $3 . 'other'

which is valid Perl code that can be evaluated.

The part of breaking this up is helped by split's capturing in the separator pattern.

sub repl {
    my ($r) = @_;

    my @terms = grep { $_ } split /(\$\d)/, $r;

    return join '.', map { /^\$/ ? $_ : q(') . $_ . q(') } @terms;

$var =~ s/$p/repl($r)/gee;

With capturing /(...)/ in split's pattern, the separators are returned as a part of the list. Thus this extracts from $r an array of terms which are either $N or other, in their original order and with everything (other than trailing whitespace) kept. This includes possible (leading) empty strings so those need be filtered out.

Then every term other than $Ns is wrapped in '...', so when they are all joined by . we get a valid Perl expression, as in the example above.

Then /ee will have this function return the string (such as above), and evaluate it as valid code.

We are told that safety of using /ee on external input is not a concern here. Still, this is something to keep in mind. See this post, provided by Håkon Hægland in a comment. Along with the discussion it also directs us to String::Substitution. Its use is demonstrated in this post. Another way to approach this is with replace from Data::Munge

For more discussion of /ee see this post, with several useful answers.

Note on using "b(.)d" for a regex pattern

In this case, with parens and dot, their special meaning is maintained. Thanks to kangshiyin for an early mention of this, and to Håkon Hægland for asserting it. However, this is a special case. Double-quoted strings directly deny many patterns since interpolation is done -- for example, "\w" is just an escaped w (what is unrecognized). The single quotes should work, as there is no interpolation. Still, strings intended for use as regex patterns are best formed using qr, as we are getting a true regex. Then all modifiers may be used as well.

  • \g{1} might work better than $1 as well. – Sobrique Dec 22 '16 at 9:58
  • It seems qr is not required as my $p can be matched in the second case. My problem is that both pattern and replacement string are read from file, and the number of $N is unknown, and depends on the number of parenthesis in the pattern string... – kangshiyin Dec 22 '16 at 10:24
  • @kangshiyin Ugh ... I thought there may be more to it. But then, things do/may depend on details of the replacement. What do you know about what $r may be? – zdim Dec 22 '16 at 10:58
  • @kangshiyin Can you decide how $r is composed in that file? The problem is that $r = '$1' can be double-evaluated -- first $r becomes literal $1, then $1 is evaluated. (This is /ee) However, $r = '_$1' cannot work that way -- on the second evaluation it will choke on the bareword _. Well, then we can set $r = '$1' and do s/$p/q(_) . eval $r/ge ... but this requires access to $r, or at least knowledge of what it looks like. – zdim Dec 22 '16 at 11:10
  • 1
    @HåkonHægland Yeah -- they helped by reminding me of the whole thing. I myself was for years intent on using single quotes over qr. Funny how one (I) can forget. I didn't realize that what ticked me off were double quotes. Those I use only when I specifically intend to interpolate, so it pushed me to go overboard. Thank you! Also, it's a good and informative link, I'll find a way to stick it in the post. I adjusted the explanation a bit further. – zdim Dec 23 '16 at 7:19

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.