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25 KiB
=head1 NAME
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perlXStut - Tutorial for XSUBs
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=head1 DESCRIPTION
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This tutorial will educate the reader on the steps involved in creating
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a Perl extension. The reader is assumed to have access to L<perlguts> and
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L<perlxs>.
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This tutorial starts with very simple examples and becomes more complex,
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with each new example adding new features. Certain concepts may not be
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completely explained until later in the tutorial to ease the
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reader slowly into building extensions.
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=head2 VERSION CAVEAT
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This tutorial tries hard to keep up with the latest development versions
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of Perl. This often means that it is sometimes in advance of the latest
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released version of Perl, and that certain features described here might
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not work on earlier versions. This section will keep track of when various
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features were added to Perl 5.
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=over 4
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=item *
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In versions of Perl 5.002 prior to the gamma version, the test script
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in Example 1 will not function properly. You need to change the "use
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lib" line to read:
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use lib './blib';
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=item *
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In versions of Perl 5.002 prior to version beta 3, the line in the .xs file
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about "PROTOTYPES: DISABLE" will cause a compiler error. Simply remove that
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line from the file.
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=item *
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In versions of Perl 5.002 prior to version 5.002b1h, the test.pl file was not
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automatically created by h2xs. This means that you cannot say "make test"
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to run the test script. You will need to add the following line before the
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"use extension" statement:
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use lib './blib';
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=item *
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In versions 5.000 and 5.001, instead of using the above line, you will need
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to use the following line:
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BEGIN { unshift(@INC, "./blib") }
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=item *
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This document assumes that the executable named "perl" is Perl version 5.
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Some systems may have installed Perl version 5 as "perl5".
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=back
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=head2 DYNAMIC VERSUS STATIC
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It is commonly thought that if a system does not have the capability to
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load a library dynamically, you cannot build XSUBs. This is incorrect.
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You I<can> build them, but you must link the XSUB's subroutines with the
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rest of Perl, creating a new executable. This situation is similar to
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Perl 4.
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This tutorial can still be used on such a system. The XSUB build mechanism
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will check the system and build a dynamically-loadable library if possible,
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or else a static library and then, optionally, a new statically-linked
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executable with that static library linked in.
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Should you wish to build a statically-linked executable on a system which
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can dynamically load libraries, you may, in all the following examples,
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where the command "make" with no arguments is executed, run the command
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"make perl" instead.
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If you have generated such a statically-linked executable by choice, then
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instead of saying "make test", you should say "make test_static". On systems
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that cannot build dynamically-loadable libraries at all, simply saying "make
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test" is sufficient.
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=head2 EXAMPLE 1
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Our first extension will be very simple. When we call the routine in the
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extension, it will print out a well-known message and return.
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Run C<h2xs -A -n Mytest>. This creates a directory named Mytest, possibly under
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ext/ if that directory exists in the current working directory. Several files
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will be created in the Mytest dir, including MANIFEST, Makefile.PL, Mytest.pm,
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Mytest.xs, test.pl, and Changes.
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The MANIFEST file contains the names of all the files created.
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The file Makefile.PL should look something like this:
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use ExtUtils::MakeMaker;
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# See lib/ExtUtils/MakeMaker.pm for details of how to influence
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# the contents of the Makefile that is written.
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WriteMakefile(
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'NAME' => 'Mytest',
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'VERSION_FROM' => 'Mytest.pm', # finds $VERSION
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'LIBS' => [''], # e.g., '-lm'
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'DEFINE' => '', # e.g., '-DHAVE_SOMETHING'
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'INC' => '', # e.g., '-I/usr/include/other'
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);
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The file Mytest.pm should start with something like this:
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package Mytest;
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require Exporter;
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require DynaLoader;
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@ISA = qw(Exporter DynaLoader);
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# Items to export into callers namespace by default. Note: do not export
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# names by default without a very good reason. Use EXPORT_OK instead.
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# Do not simply export all your public functions/methods/constants.
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@EXPORT = qw(
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);
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$VERSION = '0.01';
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bootstrap Mytest $VERSION;
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# Preloaded methods go here.
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# Autoload methods go after __END__, and are processed by the autosplit program.
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1;
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__END__
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# Below is the stub of documentation for your module. You better edit it!
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And the Mytest.xs file should look something like this:
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include "EXTERN.h"
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#include "perl.h"
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#include "XSUB.h"
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#ifdef __cplusplus
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}
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#endif
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PROTOTYPES: DISABLE
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MODULE = Mytest PACKAGE = Mytest
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Let's edit the .xs file by adding this to the end of the file:
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void
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hello()
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CODE:
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printf("Hello, world!\n");
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Now we'll run "perl Makefile.PL". This will create a real Makefile,
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which make needs. Its output looks something like:
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% perl Makefile.PL
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Checking if your kit is complete...
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Looks good
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Writing Makefile for Mytest
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%
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Now, running make will produce output that looks something like this
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(some long lines shortened for clarity):
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% make
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umask 0 && cp Mytest.pm ./blib/Mytest.pm
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perl xsubpp -typemap typemap Mytest.xs >Mytest.tc && mv Mytest.tc Mytest.c
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cc -c Mytest.c
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Running Mkbootstrap for Mytest ()
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chmod 644 Mytest.bs
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LD_RUN_PATH="" ld -o ./blib/PA-RISC1.1/auto/Mytest/Mytest.sl -b Mytest.o
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chmod 755 ./blib/PA-RISC1.1/auto/Mytest/Mytest.sl
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cp Mytest.bs ./blib/PA-RISC1.1/auto/Mytest/Mytest.bs
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chmod 644 ./blib/PA-RISC1.1/auto/Mytest/Mytest.bs
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Now, although there is already a test.pl template ready for us, for this
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example only, we'll create a special test script. Create a file called hello
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that looks like this:
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#! /opt/perl5/bin/perl
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use ExtUtils::testlib;
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use Mytest;
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Mytest::hello();
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Now we run the script and we should see the following output:
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% perl hello
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Hello, world!
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%
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=head2 EXAMPLE 2
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Now let's add to our extension a subroutine that will take a single argument
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and return 1 if the argument is even, 0 if the argument is odd.
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Add the following to the end of Mytest.xs:
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int
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is_even(input)
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int input
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CODE:
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RETVAL = (input % 2 == 0);
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OUTPUT:
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RETVAL
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There does not need to be white space at the start of the "int input" line,
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but it is useful for improving readability. The semi-colon at the end of
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that line is also optional.
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Any white space may be between the "int" and "input". It is also okay for
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the four lines starting at the "CODE:" line to not be indented. However,
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for readability purposes, it is suggested that you indent them 8 spaces
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(or one normal tab stop).
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Now rerun make to rebuild our new shared library.
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Now perform the same steps as before, generating a Makefile from the
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Makefile.PL file, and running make.
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To test that our extension works, we now need to look at the
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file test.pl. This file is set up to imitate the same kind of testing
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structure that Perl itself has. Within the test script, you perform a
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number of tests to confirm the behavior of the extension, printing "ok"
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when the test is correct, "not ok" when it is not. Change the print
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statement in the BEGIN block to print "1..4", and add the following code
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to the end of the file:
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print &Mytest::is_even(0) == 1 ? "ok 2" : "not ok 2", "\n";
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print &Mytest::is_even(1) == 0 ? "ok 3" : "not ok 3", "\n";
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print &Mytest::is_even(2) == 1 ? "ok 4" : "not ok 4", "\n";
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We will be calling the test script through the command "make test". You
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should see output that looks something like this:
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% make test
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PERL_DL_NONLAZY=1 /opt/perl5.002b2/bin/perl (lots of -I arguments) test.pl
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1..4
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ok 1
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ok 2
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ok 3
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ok 4
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%
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=head2 WHAT HAS GONE ON?
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The program h2xs is the starting point for creating extensions. In later
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examples we'll see how we can use h2xs to read header files and generate
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templates to connect to C routines.
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h2xs creates a number of files in the extension directory. The file
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Makefile.PL is a perl script which will generate a true Makefile to build
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the extension. We'll take a closer look at it later.
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The files E<lt>extensionE<gt>.pm and E<lt>extensionE<gt>.xs contain the meat
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of the extension.
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The .xs file holds the C routines that make up the extension. The .pm file
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contains routines that tell Perl how to load your extension.
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Generating and invoking the Makefile created a directory blib (which stands
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for "build library") in the current working directory. This directory will
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contain the shared library that we will build. Once we have tested it, we
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can install it into its final location.
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Invoking the test script via "make test" did something very important. It
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invoked perl with all those C<-I> arguments so that it could find the various
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files that are part of the extension.
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It is I<very> important that while you are still testing extensions that
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you use "make test". If you try to run the test script all by itself, you
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will get a fatal error.
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Another reason it is important to use "make test" to run your test script
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is that if you are testing an upgrade to an already-existing version, using
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"make test" insures that you use your new extension, not the already-existing
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version.
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When Perl sees a C<use extension;>, it searches for a file with the same name
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as the use'd extension that has a .pm suffix. If that file cannot be found,
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Perl dies with a fatal error. The default search path is contained in the
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@INC array.
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In our case, Mytest.pm tells perl that it will need the Exporter and Dynamic
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Loader extensions. It then sets the @ISA and @EXPORT arrays and the $VERSION
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scalar; finally it tells perl to bootstrap the module. Perl will call its
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dynamic loader routine (if there is one) and load the shared library.
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The two arrays that are set in the .pm file are very important. The @ISA
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array contains a list of other packages in which to search for methods (or
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subroutines) that do not exist in the current package. The @EXPORT array
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tells Perl which of the extension's routines should be placed into the
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calling package's namespace.
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It's important to select what to export carefully. Do NOT export method names
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and do NOT export anything else I<by default> without a good reason.
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As a general rule, if the module is trying to be object-oriented then don't
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export anything. If it's just a collection of functions then you can export
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any of the functions via another array, called @EXPORT_OK.
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See L<perlmod> for more information.
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The $VERSION variable is used to ensure that the .pm file and the shared
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library are "in sync" with each other. Any time you make changes to
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the .pm or .xs files, you should increment the value of this variable.
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=head2 WRITING GOOD TEST SCRIPTS
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The importance of writing good test scripts cannot be overemphasized. You
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should closely follow the "ok/not ok" style that Perl itself uses, so that
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it is very easy and unambiguous to determine the outcome of each test case.
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When you find and fix a bug, make sure you add a test case for it.
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By running "make test", you ensure that your test.pl script runs and uses
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the correct version of your extension. If you have many test cases, you
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might want to copy Perl's test style. Create a directory named "t", and
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ensure all your test files end with the suffix ".t". The Makefile will
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properly run all these test files.
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=head2 EXAMPLE 3
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Our third extension will take one argument as its input, round off that
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value, and set the I<argument> to the rounded value.
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Add the following to the end of Mytest.xs:
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void
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round(arg)
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double arg
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CODE:
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if (arg > 0.0) {
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arg = floor(arg + 0.5);
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} else if (arg < 0.0) {
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arg = ceil(arg - 0.5);
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} else {
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arg = 0.0;
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}
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OUTPUT:
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arg
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Edit the Makefile.PL file so that the corresponding line looks like this:
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'LIBS' => ['-lm'], # e.g., '-lm'
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Generate the Makefile and run make. Change the BEGIN block to print out
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"1..9" and add the following to test.pl:
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$i = -1.5; &Mytest::round($i); print $i == -2.0 ? "ok 5" : "not ok 5", "\n";
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$i = -1.1; &Mytest::round($i); print $i == -1.0 ? "ok 6" : "not ok 6", "\n";
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$i = 0.0; &Mytest::round($i); print $i == 0.0 ? "ok 7" : "not ok 7", "\n";
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$i = 0.5; &Mytest::round($i); print $i == 1.0 ? "ok 8" : "not ok 8", "\n";
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$i = 1.2; &Mytest::round($i); print $i == 1.0 ? "ok 9" : "not ok 9", "\n";
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Running "make test" should now print out that all nine tests are okay.
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You might be wondering if you can round a constant. To see what happens, add
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the following line to test.pl temporarily:
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&Mytest::round(3);
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Run "make test" and notice that Perl dies with a fatal error. Perl won't let
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you change the value of constants!
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=head2 WHAT'S NEW HERE?
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Two things are new here. First, we've made some changes to Makefile.PL.
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In this case, we've specified an extra library to link in, the math library
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libm. We'll talk later about how to write XSUBs that can call every routine
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in a library.
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Second, the value of the function is being passed back not as the function's
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return value, but through the same variable that was passed into the function.
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=head2 INPUT AND OUTPUT PARAMETERS
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You specify the parameters that will be passed into the XSUB just after you
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declare the function return value and name. Each parameter line starts with
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optional white space, and may have an optional terminating semicolon.
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The list of output parameters occurs after the OUTPUT: directive. The use
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of RETVAL tells Perl that you wish to send this value back as the return
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value of the XSUB function. In Example 3, the value we wanted returned was
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contained in the same variable we passed in, so we listed it (and not RETVAL)
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in the OUTPUT: section.
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=head2 THE XSUBPP COMPILER
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The compiler xsubpp takes the XS code in the .xs file and converts it into
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C code, placing it in a file whose suffix is .c. The C code created makes
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heavy use of the C functions within Perl.
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=head2 THE TYPEMAP FILE
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The xsubpp compiler uses rules to convert from Perl's data types (scalar,
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array, etc.) to C's data types (int, char *, etc.). These rules are stored
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in the typemap file ($PERLLIB/ExtUtils/typemap). This file is split into
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three parts.
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The first part attempts to map various C data types to a coded flag, which
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has some correspondence with the various Perl types. The second part contains
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C code which xsubpp uses for input parameters. The third part contains C
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code which xsubpp uses for output parameters. We'll talk more about the
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C code later.
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Let's now take a look at a portion of the .c file created for our extension.
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XS(XS_Mytest_round)
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{
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dXSARGS;
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if (items != 1)
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croak("Usage: Mytest::round(arg)");
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{
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double arg = (double)SvNV(ST(0)); /* XXXXX */
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if (arg > 0.0) {
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arg = floor(arg + 0.5);
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} else if (arg < 0.0) {
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arg = ceil(arg - 0.5);
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} else {
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arg = 0.0;
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}
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sv_setnv(ST(0), (double)arg); /* XXXXX */
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}
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XSRETURN(1);
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}
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Notice the two lines marked with "XXXXX". If you check the first section of
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the typemap file, you'll see that doubles are of type T_DOUBLE. In the
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INPUT section, an argument that is T_DOUBLE is assigned to the variable
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arg by calling the routine SvNV on something, then casting it to double,
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then assigned to the variable arg. Similarly, in the OUTPUT section,
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once arg has its final value, it is passed to the sv_setnv function to
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be passed back to the calling subroutine. These two functions are explained
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in L<perlguts>; we'll talk more later about what that "ST(0)" means in the
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section on the argument stack.
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=head2 WARNING
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In general, it's not a good idea to write extensions that modify their input
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parameters, as in Example 3. However, to accommodate better calling
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pre-existing C routines, which often do modify their input parameters,
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this behavior is tolerated. The next example will show how to do this.
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=head2 EXAMPLE 4
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In this example, we'll now begin to write XSUBs that will interact with
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predefined C libraries. To begin with, we will build a small library of
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our own, then let h2xs write our .pm and .xs files for us.
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Create a new directory called Mytest2 at the same level as the directory
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Mytest. In the Mytest2 directory, create another directory called mylib,
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and cd into that directory.
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Here we'll create some files that will generate a test library. These will
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include a C source file and a header file. We'll also create a Makefile.PL
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in this directory. Then we'll make sure that running make at the Mytest2
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level will automatically run this Makefile.PL file and the resulting Makefile.
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In the mylib directory, create a file mylib.h that looks like this:
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#define TESTVAL 4
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extern double foo(int, long, const char*);
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Also create a file mylib.c that looks like this:
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#include <stdlib.h>
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#include "./mylib.h"
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double
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foo(a, b, c)
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int a;
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long b;
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const char * c;
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{
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return (a + b + atof(c) + TESTVAL);
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}
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And finally create a file Makefile.PL that looks like this:
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use ExtUtils::MakeMaker;
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$Verbose = 1;
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WriteMakefile(
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NAME => 'Mytest2::mylib',
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SKIP => [qw(all static static_lib dynamic dynamic_lib)],
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clean => {'FILES' => 'libmylib$(LIB_EXT)'},
|
|
);
|
|
|
|
|
|
sub MY::top_targets {
|
|
'
|
|
all :: static
|
|
|
|
static :: libmylib$(LIB_EXT)
|
|
|
|
libmylib$(LIB_EXT): $(O_FILES)
|
|
$(AR) cr libmylib$(LIB_EXT) $(O_FILES)
|
|
$(RANLIB) libmylib$(LIB_EXT)
|
|
|
|
';
|
|
}
|
|
|
|
We will now create the main top-level Mytest2 files. Change to the directory
|
|
above Mytest2 and run the following command:
|
|
|
|
% h2xs -O -n Mytest2 ./Mytest2/mylib/mylib.h
|
|
|
|
This will print out a warning about overwriting Mytest2, but that's okay.
|
|
Our files are stored in Mytest2/mylib, and will be untouched.
|
|
|
|
The normal Makefile.PL that h2xs generates doesn't know about the mylib
|
|
directory. We need to tell it that there is a subdirectory and that we
|
|
will be generating a library in it. Let's add the following key-value
|
|
pair to the WriteMakefile call:
|
|
|
|
'MYEXTLIB' => 'mylib/libmylib$(LIB_EXT)',
|
|
|
|
and a new replacement subroutine too:
|
|
|
|
sub MY::postamble {
|
|
'
|
|
$(MYEXTLIB): mylib/Makefile
|
|
cd mylib && $(MAKE) $(PASTHRU)
|
|
';
|
|
}
|
|
|
|
(Note: Most makes will require that there be a tab character that indents
|
|
the line C<cd mylib && $(MAKE) $(PASTHRU)>, similarly for the Makefile in the
|
|
subdirectory.)
|
|
|
|
Let's also fix the MANIFEST file so that it accurately reflects the contents
|
|
of our extension. The single line that says "mylib" should be replaced by
|
|
the following three lines:
|
|
|
|
mylib/Makefile.PL
|
|
mylib/mylib.c
|
|
mylib/mylib.h
|
|
|
|
To keep our namespace nice and unpolluted, edit the .pm file and change
|
|
the lines setting @EXPORT to @EXPORT_OK (there are two: one in the line
|
|
beginning "use vars" and one setting the array itself). Finally, in the
|
|
.xs file, edit the #include line to read:
|
|
|
|
#include "mylib/mylib.h"
|
|
|
|
And also add the following function definition to the end of the .xs file:
|
|
|
|
double
|
|
foo(a,b,c)
|
|
int a
|
|
long b
|
|
const char * c
|
|
OUTPUT:
|
|
RETVAL
|
|
|
|
Now we also need to create a typemap file because the default Perl doesn't
|
|
currently support the const char * type. Create a file called typemap and
|
|
place the following in it:
|
|
|
|
const char * T_PV
|
|
|
|
Now run perl on the top-level Makefile.PL. Notice that it also created a
|
|
Makefile in the mylib directory. Run make and see that it does cd into
|
|
the mylib directory and run make in there as well.
|
|
|
|
Now edit the test.pl script and change the BEGIN block to print "1..4",
|
|
and add the following lines to the end of the script:
|
|
|
|
print &Mytest2::foo(1, 2, "Hello, world!") == 7 ? "ok 2\n" : "not ok 2\n";
|
|
print &Mytest2::foo(1, 2, "0.0") == 7 ? "ok 3\n" : "not ok 3\n";
|
|
print abs(&Mytest2::foo(0, 0, "-3.4") - 0.6) <= 0.01 ? "ok 4\n" : "not ok 4\n";
|
|
|
|
(When dealing with floating-point comparisons, it is often useful not to check
|
|
for equality, but rather the difference being below a certain epsilon factor,
|
|
0.01 in this case)
|
|
|
|
Run "make test" and all should be well.
|
|
|
|
=head2 WHAT HAS HAPPENED HERE?
|
|
|
|
Unlike previous examples, we've now run h2xs on a real include file. This
|
|
has caused some extra goodies to appear in both the .pm and .xs files.
|
|
|
|
=over 4
|
|
|
|
=item *
|
|
|
|
In the .xs file, there's now a #include declaration with the full path to
|
|
the mylib.h header file.
|
|
|
|
=item *
|
|
|
|
There's now some new C code that's been added to the .xs file. The purpose
|
|
of the C<constant> routine is to make the values that are #define'd in the
|
|
header file available to the Perl script (in this case, by calling
|
|
C<&main::TESTVAL>). There's also some XS code to allow calls to the
|
|
C<constant> routine.
|
|
|
|
=item *
|
|
|
|
The .pm file has exported the name TESTVAL in the @EXPORT array. This
|
|
could lead to name clashes. A good rule of thumb is that if the #define
|
|
is going to be used by only the C routines themselves, and not by the user,
|
|
they should be removed from the @EXPORT array. Alternately, if you don't
|
|
mind using the "fully qualified name" of a variable, you could remove most
|
|
or all of the items in the @EXPORT array.
|
|
|
|
=item *
|
|
|
|
If our include file contained #include directives, these would not be
|
|
processed at all by h2xs. There is no good solution to this right now.
|
|
|
|
=back
|
|
|
|
We've also told Perl about the library that we built in the mylib
|
|
subdirectory. That required the addition of only the MYEXTLIB variable
|
|
to the WriteMakefile call and the replacement of the postamble subroutine
|
|
to cd into the subdirectory and run make. The Makefile.PL for the
|
|
library is a bit more complicated, but not excessively so. Again we
|
|
replaced the postamble subroutine to insert our own code. This code
|
|
specified simply that the library to be created here was a static
|
|
archive (as opposed to a dynamically loadable library) and provided the
|
|
commands to build it.
|
|
|
|
=head2 SPECIFYING ARGUMENTS TO XSUBPP
|
|
|
|
With the completion of Example 4, we now have an easy way to simulate some
|
|
real-life libraries whose interfaces may not be the cleanest in the world.
|
|
We shall now continue with a discussion of the arguments passed to the
|
|
xsubpp compiler.
|
|
|
|
When you specify arguments in the .xs file, you are really passing three
|
|
pieces of information for each one listed. The first piece is the order
|
|
of that argument relative to the others (first, second, etc). The second
|
|
is the type of argument, and consists of the type declaration of the
|
|
argument (e.g., int, char*, etc). The third piece is the exact way in
|
|
which the argument should be used in the call to the library function
|
|
from this XSUB. This would mean whether or not to place a "&" before
|
|
the argument or not, meaning the argument expects to be passed the address
|
|
of the specified data type.
|
|
|
|
There is a difference between the two arguments in this hypothetical function:
|
|
|
|
int
|
|
foo(a,b)
|
|
char &a
|
|
char * b
|
|
|
|
The first argument to this function would be treated as a char and assigned
|
|
to the variable a, and its address would be passed into the function foo.
|
|
The second argument would be treated as a string pointer and assigned to the
|
|
variable b. The I<value> of b would be passed into the function foo. The
|
|
actual call to the function foo that xsubpp generates would look like this:
|
|
|
|
foo(&a, b);
|
|
|
|
Xsubpp will identically parse the following function argument lists:
|
|
|
|
char &a
|
|
char&a
|
|
char & a
|
|
|
|
However, to help ease understanding, it is suggested that you place a "&"
|
|
next to the variable name and away from the variable type), and place a
|
|
"*" near the variable type, but away from the variable name (as in the
|
|
complete example above). By doing so, it is easy to understand exactly
|
|
what will be passed to the C function -- it will be whatever is in the
|
|
"last column".
|
|
|
|
You should take great pains to try to pass the function the type of variable
|
|
it wants, when possible. It will save you a lot of trouble in the long run.
|
|
|
|
=head2 THE ARGUMENT STACK
|
|
|
|
If we look at any of the C code generated by any of the examples except
|
|
example 1, you will notice a number of references to ST(n), where n is
|
|
usually 0. The "ST" is actually a macro that points to the n'th argument
|
|
on the argument stack. ST(0) is thus the first argument passed to the
|
|
XSUB, ST(1) is the second argument, and so on.
|
|
|
|
When you list the arguments to the XSUB in the .xs file, that tells xsubpp
|
|
which argument corresponds to which of the argument stack (i.e., the first
|
|
one listed is the first argument, and so on). You invite disaster if you
|
|
do not list them in the same order as the function expects them.
|
|
|
|
=head2 EXTENDING YOUR EXTENSION
|
|
|
|
Sometimes you might want to provide some extra methods or subroutines
|
|
to assist in making the interface between Perl and your extension simpler
|
|
or easier to understand. These routines should live in the .pm file.
|
|
Whether they are automatically loaded when the extension itself is loaded
|
|
or loaded only when called depends on where in the .pm file the subroutine
|
|
definition is placed.
|
|
|
|
=head2 DOCUMENTING YOUR EXTENSION
|
|
|
|
There is absolutely no excuse for not documenting your extension.
|
|
Documentation belongs in the .pm file. This file will be fed to pod2man,
|
|
and the embedded documentation will be converted to the manpage format,
|
|
then placed in the blib directory. It will be copied to Perl's man
|
|
page directory when the extension is installed.
|
|
|
|
You may intersperse documentation and Perl code within the .pm file.
|
|
In fact, if you want to use method autoloading, you must do this,
|
|
as the comment inside the .pm file explains.
|
|
|
|
See L<perlpod> for more information about the pod format.
|
|
|
|
=head2 INSTALLING YOUR EXTENSION
|
|
|
|
Once your extension is complete and passes all its tests, installing it
|
|
is quite simple: you simply run "make install". You will either need
|
|
to have write permission into the directories where Perl is installed,
|
|
or ask your system administrator to run the make for you.
|
|
|
|
=head2 SEE ALSO
|
|
|
|
For more information, consult L<perlguts>, L<perlxs>, L<perlmod>,
|
|
and L<perlpod>.
|
|
|
|
=head2 Author
|
|
|
|
Jeff Okamoto <F<[email protected]>>
|
|
|
|
Reviewed and assisted by Dean Roehrich, Ilya Zakharevich, Andreas Koenig,
|
|
and Tim Bunce.
|
|
|
|
=head2 Last Changed
|
|
|
|
1996/7/10
|