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I know that in a subroutine in Perl, it's a very good idea to preserve the "default variable" $_ with local before doing anything with it, in case the caller is using it, e.g.:

sub f() {
    local $_;              # Ensure $_ is restored on dynamic scope exit
    while (<$somefile>) {  # Clobbers $_, but that's OK -- it will be restored
        ...
    }
}

Now, often the reason you use $_ in the first place is because you want to use regexes, which may put results in handy "magic" variables like $1, $2 etc. I'd like to preserve those variables too, but I haven't been able to find a way to do that.

All perlvar says is that @+ and @-, which $1 etc. seem to depend on internally, refer to the "last successful submatches in the currently active dynamic scope". But even that seems at odds with my experiments. Empirically, the following code prints "aXaa" as I had hoped:

$_ = 'a';
/(.)/;          # Sets $1 to 'a'
print $1;       # Prints 'a'
{
    local $_;   # Preserve $_
    $_ = 'X';
    /(.)/;      # Sets $1 to 'X'
    print $1;   # Prints 'X'
}
print $_;       # Prints 'a' ('local' restored the earlier value of $_)
print $1;       # Prints 'a', suggesting localising $_ does localise $1 etc. too

But what I find truly surprising is that, in my ActivePerl 5.10.0 at least, commenting out the local line still preserves $1 -- that is, the answer "aXXa" is produced! It appears that the lexical (not dynamic) scope of the brace-enclosed block is somehow preserving the value of $1.

So I find this situation confusing at best and would love to hear a definitive explanation. Mind you, I'd actually settle for a bulletproof way to preserve all regex-related magic variables without having to enumerate them all as in:

local @+, @-, $&, $1, $2, $3, $4, ...

which is clearly a disgusting hack. Until then, I will worry that any regex I touch will clobber something the caller was not expecting to be clobbered.

Thanks!

share|improve this question
    
@pilcrow: I didn't catch your answer but saw it in a summary email SO sent me -- I guess you deleted it? Anyway, I thought it was a useful answer, and if you happen to read this: I was looking for the 1st type of preservation. The 2nd was actually what I was hoping would not happen -- that would amount to things that "should" be local "bleeding over" into other scopes, and yes, if I wanted that kind of "preservation" I would simply copy $1 etc. into other local variables as you suggested. –  j_random_hacker Aug 7 '09 at 12:44

3 Answers 3

up vote 8 down vote accepted

Maybe you can suggest a better wording for the documentation. Dynamic scope means everything up to the start of the enclosing block or subroutine, plus everything up to the start of that block or subroutine call, etc. except that any closed blocks are excluded.

Another way to say it: "last successful submatches in the currently active dynamic scope" means there is implicitly a local $x=$x; at the start of each block for each variable.

Most of the mentions of dynamic scope (for instance, http://perldoc.perl.org/perlglossary.html#scope or http://perldoc.perl.org/perlglossary.html#dynamic-scoping) are approaching it from the other way around. They apply if you think of a successful regex as implicitly doing a local $1, etc.

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4  
+1. $1 and so forth are automagically local()ized, and scope is confusing. –  pilcrow Aug 6 '09 at 5:00
    
Thanks, very helpful! Yes, I was confused by the term "dynamic scope", which (for some reason) I took to exclude/ignore blocks. It's a relief to know that $1 etc. are implicitly localised. (Based on your links, I guess there's nothing explicitly in the Perl docs saying so?) –  j_random_hacker Aug 6 '09 at 6:14

I am not sure there is any real reason to be this paranoid about all these variables. I have managed to use Perl for almost ten years without once needing to use an explicit local in this context.

The answer to your specific question is: The number of digit variables is not a given (even though there is a hard memory limit to how many matches you can work with). So, it is not possible to localize all of them at the same time.

share|improve this answer
2  
@Sinan, not quite. They're all already always local()ized. The questioner is a bit confused by this and perhaps by the intricacies of the two scoping paradigms in perl. –  pilcrow Aug 6 '09 at 5:03
    
@Sinan: Caller-save doesn't scale to large systems well because the caller has to always be mindful of what all called functions will clobber, all the way down the call graph. So it's easy for a change in a low-level function's implementation to mess with a high-level function. It's fine for 100-line scripts, but if you are writing a big system you have to be able to not care about the implementation details of the functions you call. –  j_random_hacker Aug 6 '09 at 6:08
    
But, see, that is the thing: I have never had to care about the implementation details of the functions I call (well, let's forget about Win32::OLE for a moment). Given pilcrow's clarification, it is obvious why. –  Sinan Ünür Aug 6 '09 at 10:41
    
@Sinan: I guess we're lucky in this case :) In general though, it's a good idea to save and restore in the called function rather than the caller, because if everyone does that then you only have to look at what the current function clobbers to decide what to save -- as opposed to needing to look at the entire call stack. This applies to other global state as well (e.g. current directory, binmode(), $?, $! etc.) unless of course you specifically want the function to alter that state. –  j_random_hacker Aug 6 '09 at 10:51
    
@j_random_hacker anything other than top level code gets passed the directory rather than operating on the current directory. As for the library writer localizing $!: That's just weird. The calling code should only check $! after an error. –  Sinan Ünür Aug 6 '09 at 11:07

I think you are worrying too much. The best thing to do is run your match operator, immediately save the values you want into meaningful variables, then let the special variables do whatever they do without worrying about them:

if( $string =~ m/...(a.c).../ ) {
    my $found = $1;
    }

When I want to capture parts of the strings, I most often use the match operator in list context to get a list of the memories back:

my @array = $string =~ m/..../g;
share|improve this answer
    
Have to disagree there :) Over the years I've noticed that any coding practice that seems "unlikely" to cause problems (e.g. relying on $1 etc. not changing across calls to other functions), will eventually cause problems unless there is a guarantee that it can't, so nowadays I look for guarantees. Happily, in this case ysth was able to show me that Perl does provide such a guarantee. –  j_random_hacker Aug 7 '09 at 9:12
    
Suppose that Perl did not actually auto-localise $1 etc. Then, it's easy to see how fragile your 1st code snippet would be: Suppose that in the course of maintenance, that "if" statement becomes "if ($string =~ m/...(a.c).../ && some_other_test()) { ... }". Everything works fine until someone adds a regex somewhere deep in the bowels of some_other_test(), at which point $found starts mysteriously getting assigned weird values. Would you agree that this is a plausible maintenance scenario? –  j_random_hacker Aug 7 '09 at 9:17
    
So a guy goes into the doctor and says "It hurts when I move my arm like this!". The doctor says "Don't move your arm like that!". My first code snippet isn't fragile at all. It's your change to it that is the problem. I purposedly did the operations in isolation. You don't do what I say: immediately save the result. –  brian d foy Aug 7 '09 at 12:56
    
"It's [my] change to it that is the problem." That is absolutely correct. My point is that my change is the type of change that happens all the time as code is maintained. Your code is correct today, but experience has taught that that's not enough -- I want code that is likely to stay correct in the future. That is what I call robust code. Again, this is only important if you are maintaining a large system over a long time. I am, and my philosophy has gradually become more and more maintenance-centric as a result. –  j_random_hacker Aug 7 '09 at 13:52
    
I don't mean to suggest that you can remove any possibility of creating bugs in the future -- if someone is careless enough, they will introduce bugs. But there are ways to reduce that risk, and clamping down on global state changes is one of them. So if there is a no-cost (or low-cost) way to do that, I will use it. –  j_random_hacker Aug 7 '09 at 13:59

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