Filter::Simple - Simplified source filtering |
import
subroutine
Filter::Simple - Simplified source filtering
# in MyFilter.pm:
package MyFilter;
use Filter::Simple; FILTER { ... };
# or just: # # use Filter::Simple sub { ... };
# in user's code:
use MyFilter;
# this code is filtered
no MyFilter;
# this code is not
Source filtering is an immensely powerful feature of recent versions of Perl. It allows one to extend the language itself (e.g. the Switch module), to simplify the language (e.g. Language::Pythonesque), or to completely recast the language (e.g. Lingua::Romana::Perligata). Effectively, it allows one to use the full power of Perl as its own, recursively applied, macro language.
The excellent Filter::Util::Call module (by Paul Marquess) provides a usable Perl interface to source filtering, but it is often too powerful and not nearly as simple as it could be.
To use the module it is necessary to do the following:
use Filter::Util::Call
.
Within that module, create an import
subroutine.
Within the import
subroutine do a call to filter_add
, passing
it either a subroutine reference.
Within the subroutine reference, call filter_read
or filter_read_exact
to ``prime'' $_ with source code data from the source file that will
use
your module. Check the status value returned to see if any
source code was actually read in.
Process the contents of $_ to change the source code in the desired manner.
Return the status value.
If the act of unimporting your module (via a no
) should cause source
code filtering to cease, create an unimport
subroutine, and have it call
filter_del
. Make sure that the call to filter_read
or
filter_read_exact
in step 5 will not accidentally read past the
no
. Effectively this limits source code filters to line-by-line
operation, unless the import
subroutine does some fancy
pre-pre-parsing of the source code it's filtering.
For example, here is a minimal source code filter in a module named
BANG.pm. It simply converts every occurrence of the sequence BANG\s+BANG
to the sequence die 'BANG' if $BANG
in any piece of code following a
use BANG;
statement (until the next no BANG;
statement, if any):
package BANG; use Filter::Util::Call ;
sub import { filter_add( sub { my $caller = caller; my ($status, $no_seen, $data); while ($status = filter_read()) { if (/^\s*no\s+$caller\s*;\s*?$/) { $no_seen=1; last; } $data .= $_; $_ = ""; } $_ = $data; s/BANG\s+BANG/die 'BANG' if \$BANG/g unless $status < 0; $_ .= "no $class;\n" if $no_seen; return 1; }) }
sub unimport { filter_del(); }
1 ;
This level of sophistication puts filtering out of the reach of many programmers.
The Filter::Simple module provides a simplified interface to Filter::Util::Call; one that is sufficient for most common cases.
Instead of the above process, with Filter::Simple the task of setting up a source code filter is reduced to:
use Filter::Simple
and then
calls FILTER { ... }
.
Within the anonymous subroutine or block that is passed to
FILTER
, process the contents of $_ to change the source code in
the desired manner.
In other words, the previous example, would become:
package BANG; use Filter::Simple; FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; };
1 ;
Note that the source code is passed as a single string, so any regex that
uses ^
or $
to detect line boundaries will need the /m
flag.
By default, the installed filter only filters up to a line consisting of one of the three standard source ``terminators'':
no ModuleName; # optional comment
or:
__END__
or:
__DATA__
but this can be altered by passing a second argument to use Filter::Simple
or FILTER
(just remember: there's no comma after the initial block when
you use FILTER
).
That second argument may be either a qr
'd regular expression (which is then
used to match the terminator line), or a defined false value (which indicates
that no terminator line should be looked for), or a reference to a hash
(in which case the terminator is the value associated with the key
'terminator'
.
For example, to cause the previous filter to filter only up to a line of the form:
GNAB esu;
you would write:
package BANG; use Filter::Simple; FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; } qr/^\s*GNAB\s+esu\s*;\s*?$/;
or:
FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; } { terminator => qr/^\s*GNAB\s+esu\s*;\s*?$/ };
and to prevent the filter's being turned off in any way:
package BANG; use Filter::Simple; FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; } ""; # or: 0
or:
FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; } { terminator => "" };
Note that, no matter what you set the terminator pattern to, the actual terminator itself must be contained on a single source line.
Separating the loading of Filter::Simple:
use Filter::Simple;
from the setting up of the filtering:
FILTER { ... };
is useful because it allows other code (typically parser support code or caching variables) to be defined before the filter is invoked. However, there is often no need for such a separation.
In those cases, it is easier to just append the filtering subroutine and
any terminator specification directly to the use
statement that loads
Filter::Simple, like so:
use Filter::Simple sub { s/BANG\s+BANG/die 'BANG' if \$BANG/g; };
This is exactly the same as:
use Filter::Simple; BEGIN { Filter::Simple::FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g; }; }
except that the FILTER
subroutine is not exported by Filter::Simple.
One of the problems with a filter like:
use Filter::Simple;
FILTER { s/BANG\s+BANG/die 'BANG' if \$BANG/g };
is that it indiscriminately applies the specified transformation to the entire text of your source program. So something like:
warn 'BANG BANG, YOU'RE DEAD'; BANG BANG;
will become:
warn 'die 'BANG' if $BANG, YOU'RE DEAD'; die 'BANG' if $BANG;
It is very common when filtering source to only want to apply the filter to the non-character-string parts of the code, or alternatively to only the character strings.
Filter::Simple supports this type of filtering by automatically
exporting the FILTER_ONLY
subroutine.
FILTER_ONLY
takes a sequence of specifiers that install separate
(and possibly multiple) filters that act on only parts of the source code.
For example:
use Filter::Simple;
FILTER_ONLY code => sub { s/BANG\s+BANG/die 'BANG' if \$BANG/g }, quotelike => sub { s/BANG\s+BANG/CHITTY CHITTY/g };
The "code"
subroutine will only be used to filter parts of the source
code that are not quotelikes, POD, or __DATA__
. The quotelike
subroutine only filters Perl quotelikes (including here documents).
The full list of alternatives is:
"code"
__DATA__
.
"executable"
__DATA__
.
"quotelike"
&Text::Balanced::extract_quotelike
).
"string"
tr///
, the second
half of an s///
).
"regex"
qr//
or an m//
, the first half of an s///
).
"all"
FILTER
.
Except for FILTER_ONLY code => sub {...}
, each of
the component filters is called repeatedly, once for each component
found in the source code.
Note that you can also apply two or more of the same type of filter in
a single FILTER_ONLY
. For example, here's a simple
macro-preprocessor that is only applied within regexes,
with a final debugging pass that prints the resulting source code:
use Regexp::Common; FILTER_ONLY regex => sub { s/!\[/[^/g }, regex => sub { s/%d/$RE{num}{int}/g }, regex => sub { s/%f/$RE{num}{real}/g }, all => sub { print if $::DEBUG };
Most source code ceases to be grammatically correct when it is broken up into the pieces between string literals and regexes. So the C<'code'> component filter behaves slightly differently from the other partial filters described in the previous section.
Rather than calling the specified processor on each individual piece of
code (i.e. on the bits between quotelikes), the 'code'
partial filter
operates on the entire source code, but with the quotelike bits
``blanked out''.
That is, a 'code'
filter replaces each quoted string, quotelike,
regex, POD, and __DATA__ section with a placeholder. The
delimiters of this placeholder are the contents of the $;
variable
at the time the filter is applied (normally "\034"
). The remaining
four bytes are a unique identifier for the component being replaced.
This approach makes it comparatively easy to write code preprocessors
without worrying about the form or contents of strings, regexes, etc.
For convenience, during a 'code'
filtering operation, Filter::Simple
provides a package variable ($Filter::Simple::placeholder
) that contains
a pre-compiled regex that matches any placeholder. Placeholders can be
moved and re-ordered within the source code as needed.
Once the filtering has been applied, the original strings, regexes, POD, etc. are re-inserted into the code, by replacing each placeholder with the corresponding original component.
For example, the following filter detects concatentated pairs of strings/quotelikes and reverses the order in which they are concatenated:
package DemoRevCat; use Filter::Simple;
FILTER_ONLY code => sub { my $ph = $Filter::Simple::placeholder; s{ ($ph) \s* [.] \s* ($ph) }{ $2.$1 }gx };
Thus, the following code:
use DemoRevCat;
my $str = "abc" . q(def);
print "$str\n";
would become:
my $str = q(def)."abc";
print "$str\n";
and hence print:
defabc
import
subroutineFilter::Simple generates a special import
subroutine for
your module (see How it works) which would normally replace any
import
subroutine you might have explicitly declared.
However, Filter::Simple is smart enough to notice your existing
import
and Do The Right Thing with it.
That is, if you explicitly define an import
subroutine in a package
that's using Filter::Simple, that import
subroutine will still
be invoked immediately after any filter you install.
The only thing you have to remember is that the import
subroutine
must be declared before the filter is installed. If you use FILTER
to install the filter:
package Filter::TurnItUpTo11;
use Filter::Simple;
FILTER { s/(\w+)/\U$1/ }; that will almost never be a problem, but if you install a filtering subroutine by passing it directly to the C<use Filter::Simple> statement:
package Filter::TurnItUpTo11;
use Filter::Simple sub{ s/(\w+)/\U$1/ };
then you must make sure that your import
subroutine appears before
that use
statement.
Likewise, Filter::Simple is also smart enough to Do The Right Thing if you use Exporter:
package Switch; use base Exporter; use Filter::Simple;
@EXPORT = qw(switch case); @EXPORT_OK = qw(given when);
FILTER { $_ = magic_Perl_filter($_) }
Immediately after the filter has been applied to the source, Filter::Simple will pass control to Exporter, so it can do its magic too.
Of course, here too, Filter::Simple has to know you're using Exporter
before it applies the filter. That's almost never a problem, but if you're
nervous about it, you can guarantee that things will work correctly by
ensuring that your use base Exporter
always precedes your
use Filter::Simple
.
The Filter::Simple module exports into the package that calls FILTER
(or use
s it directly) -- such as package ``BANG'' in the above example --
two automagically constructed
subroutines -- import
and unimport
-- which take care of all the
nasty details.
In addition, the generated import
subroutine passes its own argument
list to the filtering subroutine, so the BANG.pm filter could easily
be made parametric:
package BANG; use Filter::Simple; FILTER { my ($die_msg, $var_name) = @_; s/BANG\s+BANG/die '$die_msg' if \${$var_name}/g; };
# and in some user code:
use BANG "BOOM", "BAM"; # "BANG BANG" becomes: die 'BOOM' if $BAM
The specified filtering subroutine is called every time a use BANG
is
encountered, and passed all the source code following that call, up to
either the next no BANG;
(or whatever terminator you've set) or the
end of the source file, whichever occurs first. By default, any no
BANG;
call must appear by itself on a separate line, or it is ignored.
Damian Conway (damian@conway.org)
Copyright (c) 2000-2001, Damian Conway. All Rights Reserved. This module is free software. It may be used, redistributed and/or modified under the same terms as Perl itself.
Filter::Simple - Simplified source filtering |