GSP
Quick Navigator

Search Site

Unix VPS
A - Starter
B - Basic
C - Preferred
D - Commercial
MPS - Dedicated
Previous VPSs
* Sign Up! *

Support
Contact Us
Online Help
Handbooks
Domain Status
Man Pages

FAQ
Virtual Servers
Pricing
Billing
Technical

Network
Facilities
Connectivity
Topology Map

Miscellaneous
Server Agreement
Year 2038
Credits
 

USA Flag

 

 

Man Pages
Alien::Base::ModuleBuild::FAQ(3) User Contributed Perl Documentation Alien::Base::ModuleBuild::FAQ(3)

Alien::Base::ModuleBuild::FAQ - Frequently Asked Questions about Alien::Base::ModuleBuild

version 1.15

 perldoc Alien::Base::FAQ

NOTE: Please consider for new development of Aliens that you use Alien::Build and alienfile instead. Like Alien::Base::ModuleBUild they work with Alien::Base. Unlike Alien::Base::Module::Build they are more easily customized and handle a number of corner cases better. For a good place to start, please see Alien::Build::Manual::API. Although the Alien-Base / Alien-Build team will continue to maintain this module, (we will continue to fix bugs where appropriate), we aren't adding any new features to this module.

This document serves to answer the most frequently asked questions made by Alien::Base authors.

Alien is a Perl namespace for defining dependencies in CPAN for libraries and tools which are not "native" to CPAN. For a manifesto style description of the Why, and How see Alien. Alien::Base is a base class and framework for creating Alien distributions. The idea is to address as many of the common challenges to developing Alien modules in the base class to simplify the process.

The "alien_version_check" attribute to Alien::Base::ModuleBuild will be executed to determine if the library is provided by the operating system. The default for this is "%{pkg_config} --modversion %n" which simply checks to see if any version of that package is available, and prints the version number. You can use the "--atleast-version", "--exact-version" options to require a specific range of versions, but these flags do not work with the "--modversion" flag, so be sure to invoke separately.

 use Alien::Base::ModuleBuild;
 Alien::Base::ModuleBuild->new(
   dist_name           => 'Alien::Foo',
   alien_name          => 'foo',
   configure_requires  => { 'Alien::Base::ModuleBuild' => '0.022' }, # required for %{pkg_config}
   alien_version_check => '%{pkg_config} --atleast-version 1.2.3 %n && %{pkg_config} --modversion %n',
   ...
 )->create_build_script;

It is better to use the built in "%{pkg_config}" helper as it will use the system provided pkg-config if it is available and fallback on the pure perl PkgConfig if not.

You can also use "--exact-version" to specify an exact version.

Although Alien::Base and Alien::Base::ModuleBuild assume packages come with a "pkg-config" ".pc" file to determine compiler and linker flags by default, you can implement an Alien module for packages that do use "pkg-config" by following these tasks:
subclass Alien::Base::ModuleBuild and implement "alien_check_installed_version"
Create a subclass of Alien::Base::ModuleBuild and put it in the "inc" directory of your distribution so that it can be used during install but won't be installed.

 # inc/My/ModuleBuild.pm
 package My::ModuleBuild;
 
 use parent 'Alien::Base::ModuleBuild';
 
 sub alien_check_installed_version {
   my($class) = @_;
   
   # determine if your library is already provided by the system
   my $version = ...;
   
   # return false if the library is NOT provided by the system
   return unless defined $version;
   
   # otherwise return the version detected
   # (if you cannot determine the version it
   #  is usually sufficient to return a true value)
   return $version;
 }
    

There are number of methods you can use to determine if the system provides your library. From Perl methods include Devel::CheckLib, ExtUtils::CBuilder, ExtUtls::CChecker, Config::AutoConf, FFI::CheckLib among others. It is also frequently possible to determine if a library is installed using a "-config" suffixed program. For example "libxml2" comes with xml2-config which provides the existence, compiler and linker flags it needs. In my experience, however, most packages that provide a "-config" suffixed program also provide a "pkg-config" interface as well.

implement "alien_check_built_version" in your Alien::Base::ModuleBuild subclass
You should also implement "alien_check_build_version" which will be executed from the package build root once the package is successfully built.

 # inc/My/ModuleBuild.pm
 package My::ModuleBuild;
 
 ...
 
 sub alien_check_built_version {
   my($self) = @_;
   
   my $version = ...
   
   # (Again, if you cannot determine the version,
   #  it is usually sufficent to return a true value)
   return $version;
 }
    
set "alien_provides_cflags" and "alien_provides_libs" in "Build.PL".
Add something like this to your "Build.PL":

 # Build.PL
 use lib 'inc';
 use My::ModuleBuild;
 
 My::ModuleBuild->new(
   ...
   alien_provides_cflags => '-I/usr/include/foo',
   alien_provides_libs   => '-L/usr/lib/foo -lfoo',
   ...
 );
    

Note that it is frequently sufficient to provide "alien_provides_libs" and the appropriate "-l" flag. These flags will be used in the event that the system package can be found. It is a good idea to verify that these flags do indeed work in "alien_check_installed_version" above.

For a fully implemented example, see Alien::Libbz2.

There are many ways to test Alien modules before (or after) they are installed, but instead of rolling your own, consider using Test::Alien which is light on dependencies and will test your module very closely to the way that it will actually be used. That is to say by building a mini XS or FFI extension and using it. It even has tests for tool oriented Alien distributions (like Alien::gmake and Alien::patch). Here is a short example, there are many others included with the Test::Alien documentation:

 use Test2::V0;
 use Test::Alien 0.05;
 use Alien::Editline;
 
 alien_ok 'Alien::Editline';
 my $xs = do { local $/; <DATA> };
 xs_ok $xs, with_subtest {
   my($module) = @_;
   ok $module->version;
 };
 
 done_testing;
 
 __DATA__
 
 #include "EXTERN.h"
 #include "perl.h"
 #include "XSUB.h"
 #include <editline/readline.h>
 
 /* having a string parameter that we ignore
    allows us to call this as a class method */
 const char *
 version(const char *class)
 {
   return rl_library_version;
 }
 
 MODULE = TA_MODULE PACKAGE = TA_MODULE
 
 const char *version(class);
     const char *class;

One approach is to create a unified diff for patches that you want to apply and simply run patch on them. The Alien::patch and the "%{patch}" helper can be used like this:

 # Build.PL
 use Alien::Base::ModuleBuild;
 
 Alien::Base::ModuleBuild->new(
   ...
   alien_bin_requires => {
     'Alien::patch' => 0.06, # needed for %{patch} helper
   },
   alien_build_commands => [
     '%{patch} -p1 < ../../patch/mypackage.patch',
     ...
   ],
   ...
 )->create_build_script;

Create a folder in your distribution root called "patch" and place the "mypackage.patch" file in there. Since the "patch" command will be executed in the package root instead of the distribution root, you need to use a relative path prefixed by "../..". Here we use Alien::patch to provide patch even in environments where it is not provided.

A more powerful approach to patching is to write a perl subroutine to modify the source after it has been extracted. One way to do this is to create a module in your distribution's inc directory that does the patching (modules in inc can be used during build/test but won't be installed):

 # inc/My/AlienPatch.pm
 package My::AlienPatch;
 
 # add this sub to the main namespace
 # so we don't need to quote or escape
 # anything below
 sub main::alien_patch {
   # is executed in the package root,
   # make what ever changes you need to
   # to the source here.
 }
 
 1;

 # Build.PL
 use Alien::Base::ModuleBuild;
 
 Alien::Base::ModuleBuild->new(
   ...
   alien_build_commands => [
     # %x will be replaced by path for calling Perl
     # from the command line
     "%x -I../../inc -MMy::AlienPatch -e alien_patch",
     ...
   ],
   ...
 )->create_build_script;

autoconf

By default Alien::Base::ModuleBuild assumes a package with an autoconf style "configure" script. The default is

 # Build.PL
 use Alien::Base::ModuleBuild;
 Alien::Base::ModuleBuild->new(
   ...
   alien_build_commands => [
     '%c --prefix=%s',
     'make',
   ],
   alien_install_commands => [
     'make install',
   ],
   ...
 )->create_build_script;

There are a couple of short cuts here, %c indicates the platform independent method for executing the "configure" script, plus any normal autoconf flags that are appropriate for Perl Alien libraries. The %c also tells Alien::Base::ModuleBuild to use Alien::MSYS on Windows platforms and to add that as a dependency. The %s is a placeholder for the location to which the package will be installed. This is normally in a share directory specific to your distribution.

autoconf-like

If you see an error like this:

 Unknown option "--with-pic".

It may be because your package provides a "configure" script that provides an autoconf-style interface, but is not actually autoconf. Alien::Base::ModuleBuild is aggressive in using the "--with-pic" option because when supported by autoconf it produces position independent code (important for reliably building XS extensions), and when not supported autoconf simply ignores the option. Unfortunately some autoconf-style "configure" scripts consider it an error when they see options that they do not recognize. You can tell Alien::Base::ModuleBuild to not use the "--with-pic" option via the "alien_autoconf_with_pic" property:

 # Build.PL
 use Alien::Base::ModuleBuild;
 Alien::Base::ModuleBuild->new(
   ...
   alien_autoconf_with_pic => 0,
   ...
 )->create_build_script;

CMAKE

You probably cannot count on CMake being available on most platforms. Fortunately, there is an alien distribution Alien::CMake which will either use the CMake provided by the operating system, or download and install it for you. You can use this from your "Build.PL" with the "alien_bin_requires" property:

 # Build.PL
 use Alien::Base::ModuleBuild;
 use Config;
 Alien::Base::ModuleBuild->new(
   ...
   alien_bin_requires => {
     'Alien::CMake' => 0.07,
   },
   alien_build_commands => [
     # acutal required arguments may vary
     "cmake -G 'Unix Makefiles' -DCMAKE_MAKE_PROGRAM=$Config{make} -DCMAKE_INSTALL_PREFIX:PATH=%s",
     "$Config{make}",
   ],
   alien_install_commands => [
     "$Config{make} install",
   ],
   ...
 )->create_build_script;

vanilla Makefiles?

If you want to use the same "make" as Perl, you can use Config:

 # Build.PL
 use Alien::Base::ModuleBuild;
 use Config;
 Alien::Base::ModuleBuild->new(
   ...
   alien_build_commands => [
     "$Config{make}",
   ],
   alien_install_commands => [
     "$Config{make} install",
   ],
   ...
 )->create_build_script;

GNU Makefiles?

Some packages require GNU Make's unique syntax. Perl's Config provides an entry for "gmake", but it is frequently wrong. Do not depend on it. Instead you can use Alien::gmake to provide a real GNU Make (either from the operating system, or built from source):

 # Build.PL
 use Alien::Base::ModuleBuild;
 
 Alien::Base::ModuleBuild->new(
   ...
   alien_bin_requires => {
     'Alien::gmake' => 0.11, # needed for %{gmake} helper
   },
   alien_build_commands => [
     "%{gmake}",
   ],
   alien_install_commands => [
     "%{gmake} install",
   ],
   ...
 )->create_build_script;

If you get results from running the commands in your shell different to what happens when your "Alien::" distribution attempts to build, it may be because your environment is different than the one that your distribution is using. For example, if you use Alien::CMake or Alien::gmake to build with specific tools that are provided by your operating system, Alien::Build::ModuleBuild will adjust the path before executing build and install commands.

In the alien build directory (usually "_alien") you will find environment files that you can source into your shell ("env.csh" for tcsh and "env.sh" for bourne based shells), which should provide the identical environment used by the build process in order to troubleshoot the build manually.

 % source _alien/env.sh

Certainly. The original intent was to provide libraries, but tools are also quite doable using the "Alien::Base" tool set. A simple minded example of this which is fairly easy to replicate is Alien::m4.

In general, this means specifying a subclass in your "Build.PL" and bundling it in your distribution "inc" directory.

"Build.PL":

 ...
 use lib 'inc';
 use My::ModuleBuild;
 
 My::ModuleBuild->new(
   ...
 )->create_build_script;

"inc/My/ModuleBuild.pm":

 package My::ModuleBuild;
 
 use strict;
 use warnings;
 use parent 'Alien::Base::ModuleBuild';
 use Capture::Tiny qw( capture );
 
 sub alien_check_installed_version
 {
   # see Alien::Base::ModuleBuild#alien_check_installed_version for details
   
   my($self) = @_;
   my($stdout, $stderr) = capture { system 'mytool', '--version' };
   
   # return empty list if the tool is unavailable on the system,
   # or unacceptable.
   return if $! || ...;

   # parse from stdout or stderr
   my $version = ...;
   return $version;
 }
 
 sub alien_check_built_version
 {
   # see Alien::Base::ModuleBuild#alien_check_built_version for details
   
   # return empty list if the tool version cannot be found, or if it
   # is unacceptable.  Note that this will cause a failure, so "unknown"
   # may be reasonable if the tool version cannot be determined.
   return if ...;
   
   # determine from the tool itself, or the current directory.
   my $version = ...;
   return $version;
 }
 
 1;

As usual your "Alien::MyTool" class will simply be a subclass of Alien::Base. If you tool is installed in a "bin" directory, you are done, the default "bin_dir" implementation should work for you. Otherwise you may need to provide an alternate implementation:

 package Alien::MyTool;
 
 use strict;
 use warnings;
 use parent 'Alien::Base';
 
 sub bin_dir
 {
   # see Alien::Base#bin_dir for details
   # You only need to override the default implementation if your tool
   # does not install into the standard "bin" directory.

   my($class) = @_;
   
   # normally for system installs the tool should already be in your
   # PATH, so return an empty list.
   return if $class->install_type eq 'system';
   
   # install_type = share
   my $dist_dir = $class->dist_dir;
   return ("$dist_dir/some/bin", "$dist_dir/some/other/bin");
 }
 
 1;

Now once your tool based Alien is installed you can use the "bin_dir" method to update the "PATH" as necessary:

 use Alien::MyTool;
 use Env qw( @PATH );
 
 unshift @PATH, Alien::MyTool->bin_dir;
 system 'mytool';

For creating Alien::Base based dists from Dist::Zilla you can use the plugin Dist::Zilla::Plugin::Alien.

The default implementation of "alien_check_built_version" uses several heuristics, but leans heavily on "pkg-config" style ".pc" files, so if your library or tool does not provide a ".pc", the version may not be detected and your build may fail.

A lot of libraries are bundled as tarballs with the version in the directory name that they are extracted into, and the current directory when "alien_check_built_version" is called is the build root, so you can use "File::chdir" as an easy way to determine the version number:

 package My::ModuleBuild;
 
 use strict;
 use warnings;
 use parent 'Alien::Base::ModuleBuild';
 use File::chdir; # provides @CWD
 
 sub alien_check_built_version
 {
   my $dir_name = $CWD[-1];
   
   if($dir_name =~ /^libfoo-([0-9\.]+)$/) {
     return $1;
   } else {
     # Note that this will trigger a build failure
     return;
   }
 }
 
 1;

Using File::chdir and @CWD is a common idiom in Alien::Base, because File::chdir is already a dependency of Alien::Base. For packages that do not provide a version number in the extracted directory, you may require some creativity.

There are a number of forums available to people working on Alien and Alien::Base modules:
"#native" on irc.perl.org
This is intended for native interfaces in general and so is a good place for questions about Alien generally or Alien::Base specifically.
mailing list
The "perl5-alien" google group is intended for Alien issues generally, including Alien::Base.

<https://groups.google.com/forum/#!forum/perl5-alien>

Open a support ticket
If you have an issue with Alien::Base itself, then please open a support ticket on the project's GitHub issue tracker.

<https://github.com/PerlAlien/Alien-Base-ModuleBuild/issues>

  • Alien::Base
  • Alien::Base::ModuleBuild
  • Alien::Base::ModuleBuild::API

Original author: Joel A Berger <joel.a.berger@gmail.com>

Current maintainer: Graham Ollis <plicease@cpan.org>

Contributors:

David Mertens (run4flat)

Mark Nunberg (mordy, mnunberg)

Christian Walde (Mithaldu)

Brian Wightman (MidLifeXis)

Graham Ollis (plicease)

Zaki Mughal (zmughal)

mohawk2

Vikas N Kumar (vikasnkumar)

Flavio Poletti (polettix)

Salvador Fandin~o (salva)

Gianni Ceccarelli (dakkar)

Pavel Shaydo (zwon, trinitum)

Kang-min Liu (XXX, gugod)

Nicholas Shipp (nshp)

Petr Pisar (ppisar)

Alberto Simo~es (ambs)

This software is copyright (c) 2012-2020 by Joel A Berger.

This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.

2022-04-07 perl v5.32.1

Search for    or go to Top of page |  Section 3 |  Main Index

Powered by GSP Visit the GSP FreeBSD Man Page Interface.
Output converted with ManDoc.