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Code Editor : Call.pm
# Call.pm # # Copyright (c) 1995-2011 Paul Marquess. All rights reserved. # # This program is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. package Filter::Util::Call ; require 5.005 ; require DynaLoader; require Exporter; use Carp ; use strict; use warnings; use vars qw($VERSION @ISA @EXPORT) ; @ISA = qw(Exporter DynaLoader); @EXPORT = qw( filter_add filter_del filter_read filter_read_exact) ; $VERSION = "1.49" ; sub filter_read_exact($) { my ($size) = @_ ; my ($left) = $size ; my ($status) ; croak ("filter_read_exact: size parameter must be > 0") unless $size > 0 ; # try to read a block which is exactly $size bytes long while ($left and ($status = filter_read($left)) > 0) { $left = $size - length $_ ; } # EOF with pending data is a special case return 1 if $status == 0 and length $_ ; return $status ; } sub filter_add($) { my($obj) = @_ ; # Did we get a code reference? my $coderef = (ref $obj eq 'CODE') ; # If the parameter isn't already a reference, make it one. $obj = \$obj unless ref $obj ; $obj = bless ($obj, (caller)[0]) unless $coderef ; # finish off the installation of the filter in C. Filter::Util::Call::real_import($obj, (caller)[0], $coderef) ; } bootstrap Filter::Util::Call ; 1; __END__ =head1 NAME Filter::Util::Call - Perl Source Filter Utility Module =head1 SYNOPSIS use Filter::Util::Call ; =head1 DESCRIPTION This module provides you with the framework to write I<Source Filters> in Perl. An alternate interface to Filter::Util::Call is now available. See L<Filter::Simple> for more details. A I<Perl Source Filter> is implemented as a Perl module. The structure of the module can take one of two broadly similar formats. To distinguish between them, the first will be referred to as I<method filter> and the second as I<closure filter>. Here is a skeleton for the I<method filter>: package MyFilter ; use Filter::Util::Call ; sub import { my($type, @arguments) = @_ ; filter_add([]) ; } sub filter { my($self) = @_ ; my($status) ; $status = filter_read() ; $status ; } 1 ; and this is the equivalent skeleton for the I<closure filter>: package MyFilter ; use Filter::Util::Call ; sub import { my($type, @arguments) = @_ ; filter_add( sub { my($status) ; $status = filter_read() ; $status ; } ) } 1 ; To make use of either of the two filter modules above, place the line below in a Perl source file. use MyFilter; In fact, the skeleton modules shown above are fully functional I<Source Filters>, albeit fairly useless ones. All they does is filter the source stream without modifying it at all. As you can see both modules have a broadly similar structure. They both make use of the C<Filter::Util::Call> module and both have an C<import> method. The difference between them is that the I<method filter> requires a I<filter> method, whereas the I<closure filter> gets the equivalent of a I<filter> method with the anonymous sub passed to I<filter_add>. To make proper use of the I<closure filter> shown above you need to have a good understanding of the concept of a I<closure>. See L<perlref> for more details on the mechanics of I<closures>. =head2 B<use Filter::Util::Call> The following functions are exported by C<Filter::Util::Call>: filter_add() filter_read() filter_read_exact() filter_del() =head2 B<import()> The C<import> method is used to create an instance of the filter. It is called indirectly by Perl when it encounters the C<use MyFilter> line in a source file (See L<perlfunc/import> for more details on C<import>). It will always have at least one parameter automatically passed by Perl - this corresponds to the name of the package. In the example above it will be C<"MyFilter">. Apart from the first parameter, import can accept an optional list of parameters. These can be used to pass parameters to the filter. For example: use MyFilter qw(a b c) ; will result in the C<@_> array having the following values: @_ [0] => "MyFilter" @_ [1] => "a" @_ [2] => "b" @_ [3] => "c" Before terminating, the C<import> function must explicitly install the filter by calling C<filter_add>. =head2 B<filter_add()> The function, C<filter_add>, actually installs the filter. It takes one parameter which should be a reference. The kind of reference used will dictate which of the two filter types will be used. If a CODE reference is used then a I<closure filter> will be assumed. If a CODE reference is not used, a I<method filter> will be assumed. In a I<method filter>, the reference can be used to store context information. The reference will be I<blessed> into the package by C<filter_add>. See the filters at the end of this documents for examples of using context information using both I<method filters> and I<closure filters>. =head2 B<filter() and anonymous sub> Both the C<filter> method used with a I<method filter> and the anonymous sub used with a I<closure filter> is where the main processing for the filter is done. The big difference between the two types of filter is that the I<method filter> uses the object passed to the method to store any context data, whereas the I<closure filter> uses the lexical variables that are maintained by the closure. Note that the single parameter passed to the I<method filter>, C<$self>, is the same reference that was passed to C<filter_add> blessed into the filter's package. See the example filters later on for details of using C<$self>. Here is a list of the common features of the anonymous sub and the C<filter()> method. =over 5 =item B<$_> Although C<$_> doesn't actually appear explicitly in the sample filters above, it is implicitly used in a number of places. Firstly, when either C<filter> or the anonymous sub are called, a local copy of C<$_> will automatically be created. It will always contain the empty string at this point. Next, both C<filter_read> and C<filter_read_exact> will append any source data that is read to the end of C<$_>. Finally, when C<filter> or the anonymous sub are finished processing, they are expected to return the filtered source using C<$_>. This implicit use of C<$_> greatly simplifies the filter. =item B<$status> The status value that is returned by the user's C<filter> method or anonymous sub and the C<filter_read> and C<read_exact> functions take the same set of values, namely: < 0 Error = 0 EOF > 0 OK =item B<filter_read> and B<filter_read_exact> These functions are used by the filter to obtain either a line or block from the next filter in the chain or the actual source file if there aren't any other filters. The function C<filter_read> takes two forms: $status = filter_read() ; $status = filter_read($size) ; The first form is used to request a I<line>, the second requests a I<block>. In line mode, C<filter_read> will append the next source line to the end of the C<$_> scalar. In block mode, C<filter_read> will append a block of data which is <= C<$size> to the end of the C<$_> scalar. It is important to emphasise the that C<filter_read> will not necessarily read a block which is I<precisely> C<$size> bytes. If you need to be able to read a block which has an exact size, you can use the function C<filter_read_exact>. It works identically to C<filter_read> in block mode, except it will try to read a block which is exactly C<$size> bytes in length. The only circumstances when it will not return a block which is C<$size> bytes long is on EOF or error. It is I<very> important to check the value of C<$status> after I<every> call to C<filter_read> or C<filter_read_exact>. =item B<filter_del> The function, C<filter_del>, is used to disable the current filter. It does not affect the running of the filter. All it does is tell Perl not to call filter any more. See L<Example 4: Using filter_del> for details. =item I<real_import> Internal function which adds the filter, based on the L<filter_add> argument type. =back =head1 EXAMPLES Here are a few examples which illustrate the key concepts - as such most of them are of little practical use. The C<examples> sub-directory has copies of all these filters implemented both as I<method filters> and as I<closure filters>. =head2 Example 1: A simple filter. Below is a I<method filter> which is hard-wired to replace all occurrences of the string C<"Joe"> to C<"Jim">. Not particularly Useful, but it is the first example and I wanted to keep it simple. package Joe2Jim ; use Filter::Util::Call ; sub import { my($type) = @_ ; filter_add(bless []) ; } sub filter { my($self) = @_ ; my($status) ; s/Joe/Jim/g if ($status = filter_read()) > 0 ; $status ; } 1 ; Here is an example of using the filter: use Joe2Jim ; print "Where is Joe?\n" ; And this is what the script above will print: Where is Jim? =head2 Example 2: Using the context The previous example was not particularly useful. To make it more general purpose we will make use of the context data and allow any arbitrary I<from> and I<to> strings to be used. This time we will use a I<closure filter>. To reflect its enhanced role, the filter is called C<Subst>. package Subst ; use Filter::Util::Call ; use Carp ; sub import { croak("usage: use Subst qw(from to)") unless @_ == 3 ; my ($self, $from, $to) = @_ ; filter_add( sub { my ($status) ; s/$from/$to/ if ($status = filter_read()) > 0 ; $status ; }) } 1 ; and is used like this: use Subst qw(Joe Jim) ; print "Where is Joe?\n" ; =head2 Example 3: Using the context within the filter Here is a filter which a variation of the C<Joe2Jim> filter. As well as substituting all occurrences of C<"Joe"> to C<"Jim"> it keeps a count of the number of substitutions made in the context object. Once EOF is detected (C<$status> is zero) the filter will insert an extra line into the source stream. When this extra line is executed it will print a count of the number of substitutions actually made. Note that C<$status> is set to C<1> in this case. package Count ; use Filter::Util::Call ; sub filter { my ($self) = @_ ; my ($status) ; if (($status = filter_read()) > 0 ) { s/Joe/Jim/g ; ++ $$self ; } elsif ($$self >= 0) { # EOF $_ = "print q[Made ${$self} substitutions\n]" ; $status = 1 ; $$self = -1 ; } $status ; } sub import { my ($self) = @_ ; my ($count) = 0 ; filter_add(\$count) ; } 1 ; Here is a script which uses it: use Count ; print "Hello Joe\n" ; print "Where is Joe\n" ; Outputs: Hello Jim Where is Jim Made 2 substitutions =head2 Example 4: Using filter_del Another variation on a theme. This time we will modify the C<Subst> filter to allow a starting and stopping pattern to be specified as well as the I<from> and I<to> patterns. If you know the I<vi> editor, it is the equivalent of this command: :/start/,/stop/s/from/to/ When used as a filter we want to invoke it like this: use NewSubst qw(start stop from to) ; Here is the module. package NewSubst ; use Filter::Util::Call ; use Carp ; sub import { my ($self, $start, $stop, $from, $to) = @_ ; my ($found) = 0 ; croak("usage: use Subst qw(start stop from to)") unless @_ == 5 ; filter_add( sub { my ($status) ; if (($status = filter_read()) > 0) { $found = 1 if $found == 0 and /$start/ ; if ($found) { s/$from/$to/ ; filter_del() if /$stop/ ; } } $status ; } ) } 1 ; =head1 Filter::Simple If you intend using the Filter::Call functionality, I would strongly recommend that you check out Damian Conway's excellent Filter::Simple module. Damian's module provides a much cleaner interface than Filter::Util::Call. Although it doesn't allow the fine control that Filter::Util::Call does, it should be adequate for the majority of applications. It's available at http://search.cpan.org/dist/Filter-Simple/ =head1 AUTHOR Paul Marquess =head1 DATE 26th January 1996 =cut
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