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-=head1 NAME
-
-Pumpkin - Notes on handling the Perl Patch Pumpkin
-
-=head1 SYNOPSIS
-
-There is no simple synopsis, yet.
-
-=head1 DESCRIPTION
-
-This document attempts to begin to describe some of the considerations
-involved in patching, porting, and maintaining perl.
-
-This document is still under construction, and still subject to
-significant changes. Still, I hope parts of it will be useful,
-so I'm releasing it even though it's not done.
-
-For the most part, it's a collection of anecdotal information that
-already assumes some familiarity with the Perl sources. I really need
-an introductory section that describes the organization of the sources
-and all the various auxiliary files that are part of the distribution.
-
-=head1 Where Do I Get Perl Sources and Related Material?
-
-The Comprehensive Perl Archive Network (or CPAN) is the place to go.
-There are many mirrors, but the easiest thing to use is probably
-http://www.perl.com/CPAN/README.html , which automatically points you to a
-mirror site "close" to you.
-
-=head2 Perl5-porters mailing list
-
-The mailing list perl5-porters@perl.org
-is the main group working with the development of perl. If you're
-interested in all the latest developments, you should definitely
-subscribe. The list is high volume, but generally has a
-fairly low noise level.
-
-Subscribe by sending the message (in the body of your letter)
-
- subscribe perl5-porters
-
-to perl5-porters-request@perl.org .
-
-Archives of the list are held at:
-
- http://www.rosat.mpe-garching.mpg.de/mailing-lists/perl-porters/
-
-=head1 How are Perl Releases Numbered?
-
-Beginning with v5.6.0, even versions will stand for maintenance releases
-and odd versions for development releases, i.e., v5.6.x for maintenance
-releases, and v5.7.x for development releases. Before v5.6.0, subversions
-_01 through _49 were reserved for bug-fix maintenance releases, and
-subversions _50 through _99 for unstable development versions.
-
-For example, in v5.6.1, the revision number is 5, the version is 6,
-and 1 is the subversion.
-
-For compatibility with the older numbering scheme the composite floating
-point version number continues to be available as the magic variable $],
-and amounts to C<$revision + $version/1000 + $subversion/100000>. This
-can still be used in comparisons.
-
- print "You've got an old perl\n" if $] < 5.005_03;
-
-In addition, the version is also available as a string in $^V.
-
- print "You've got a new perl\n" if $^V and $^V ge v5.6.0;
-
-You can also require particular version (or later) with:
-
- use 5.006;
-
-or using the new syntax available only from v5.6 onward:
-
- use v5.6.0;
-
-At some point in the future, we may need to decide what to call the
-next big revision. In the .package file used by metaconfig to
-generate Configure, there are two variables that might be relevant:
-$baserev=5 and $package=perl5.
-
-Perl releases produced by the members of perl5-porters are usually
-available on CPAN in the F<src/5.0/maint> and F<src/5.0/devel>
-directories.
-
-=head2 Maintenance and Development Subversions
-
-The first rule of maintenance work is "First, do no harm."
-
-Trial releases of bug-fix maintenance releases are announced on
-perl5-porters. Trial releases use the new subversion number (to avoid
-testers installing it over the previous release) and include a 'local
-patch' entry in patchlevel.h. The distribution file contains the
-string C<MAINT_TRIAL> to make clear that the file is not meant for
-public consumption.
-
-In general, the names of official distribution files for the public
-always match the regular expression:
-
- ^perl\d+\.(\d+)\.\d+(-MAINT_TRIAL_\d+)\.tar\.gz$
-
-C<$1> in the pattern is always an even number for maintenance
-versions, and odd for developer releases.
-
-In the past it has been observed that pumkings tend to invent new
-naming conventions on the fly. If you are a pumpking, before you
-invent a new name for any of the three types of perl distributions,
-please inform the guys from the CPAN who are doing indexing and
-provide the trees of symlinks and the like. They will have to know
-I<in advance> what you decide.
-
-=head2 Why is it called the patch pumpkin?
-
-Chip Salzenberg gets credit for that, with a nod to his cow orker,
-David Croy. We had passed around various names (baton, token, hot
-potato) but none caught on. Then, Chip asked:
-
-[begin quote]
-
- Who has the patch pumpkin?
-
-To explain: David Croy once told me once that at a previous job,
-there was one tape drive and multiple systems that used it for backups.
-But instead of some high-tech exclusion software, they used a low-tech
-method to prevent multiple simultaneous backups: a stuffed pumpkin.
-No one was allowed to make backups unless they had the "backup pumpkin".
-
-[end quote]
-
-The name has stuck.
-
-=head1 Philosophical Issues in Patching and Porting Perl
-
-There are no absolute rules, but there are some general guidelines I
-have tried to follow as I apply patches to the perl sources.
-(This section is still under construction.)
-
-=head2 Solve problems as generally as possible
-
-Never implement a specific restricted solution to a problem when you
-can solve the same problem in a more general, flexible way.
-
-For example, for dynamic loading to work on some SVR4 systems, we had
-to build a shared libperl.so library. In order to build "FAT" binaries
-on NeXT 4.0 systems, we had to build a special libperl library. Rather
-than continuing to build a contorted nest of special cases, I
-generalized the process of building libperl so that NeXT and SVR4 users
-could still get their work done, but others could build a shared
-libperl if they wanted to as well.
-
-Contain your changes carefully. Assume nothing about other operating
-systems, not even closely related ones. Your changes must not affect
-other platforms.
-
-Spy shamelessly on how similar patching or porting issues have been
-settled elsewhere.
-
-If feasible, try to keep filenames 8.3-compliant to humor those poor
-souls that get joy from running Perl under such dire limitations.
-
-=head2 Seek consensus on major changes
-
-If you are making big changes, don't do it in secret. Discuss the
-ideas in advance on perl5-porters.
-
-=head2 Keep the documentation up-to-date
-
-If your changes may affect how users use perl, then check to be sure
-that the documentation is in sync with your changes. Be sure to
-check all the files F<pod/*.pod> and also the F<INSTALL> document.
-
-Consider writing the appropriate documentation first and then
-implementing your change to correspond to the documentation.
-
-=head2 Avoid machine-specific #ifdef's
-
-To the extent reasonable, try to avoid machine-specific #ifdef's in
-the sources. Instead, use feature-specific #ifdef's. The reason is
-that the machine-specific #ifdef's may not be valid across major
-releases of the operating system. Further, the feature-specific tests
-may help out folks on another platform who have the same problem.
-
-=head2 Machine-specific files
-
-=over 4
-
-=item source code
-
-If you have many machine-specific #defines or #includes, consider
-creating an "osish.h" (os2ish.h, vmsish.h, and so on) and including
-that in perl.h. If you have several machine-specific files (function
-emulations, function stubs, build utility wrappers) you may create a
-separate subdirectory (djgpp, win32) and put the files in there.
-Remember to update C<MANIFEST> when you add files.
-
-If your system supports dynamic loading but none of the existing
-methods at F<ext/DynaLoader/dl_*.xs> work for you, you must write
-a new one. Study the existing ones to see what kind of interface
-you must supply.
-
-=item build hints
-
-There are two kinds of hints: hints for building Perl and hints for
-extensions. The former live in the C<hints> subdirectory, the latter
-in C<ext/*/hints> subdirectories.
-
-The top level hints are Bourne-shell scripts that set, modify and
-unset appropriate Configure variables, based on the Configure command
-line options and possibly existing config.sh and Policy.sh files from
-previous Configure runs.
-
-The extension hints are written in Perl (by the time they are used
-miniperl has been built) and control the building of their respective
-extensions. They can be used to for example manipulate compilation
-and linking flags.
-
-=item build and installation Makefiles, scripts, and so forth
-
-Sometimes you will also need to tweak the Perl build and installation
-procedure itself, like for example F<Makefile.SH> and F<installperl>.
-Tread very carefully, even more than usual. Contain your changes
-with utmost care.
-
-=item test suite
-
-Many of the tests in C<t> subdirectory assume machine-specific things
-like existence of certain functions, something about filesystem
-semantics, certain external utilities and their error messages. Use
-the C<$^O> and the C<Config> module (which contains the results of the
-Configure run, in effect the C<config.sh> converted to Perl) to either
-skip (preferably not) or customize (preferable) the tests for your
-platform.
-
-=item modules
-
-Certain standard modules may need updating if your operating system
-sports for example a native filesystem naming. You may want to update
-some or all of the modules File::Basename, File::Spec, File::Path, and
-File::Copy to become aware of your native filesystem syntax and
-peculiarities.
-
-=item documentation
-
-If your operating system comes from outside UNIX you almost certainly
-will have differences in the available operating system functionality
-(missing system calls, different semantics, whatever). Please
-document these at F<pod/perlport.pod>. If your operating system is
-the first B<not> to have a system call also update the list of
-"portability-bewares" at the beginning of F<pod/perlfunc.pod>.
-
-A file called F<README.youros> at the top level that explains things
-like how to install perl at this platform, where to get any possibly
-required additional software, and for example what test suite errors
-to expect, is nice too. Such files are in the process of being written
-in pod format and will eventually be renamed F<INSTALL.youros>.
-
-You may also want to write a separate F<.pod> file for your operating
-system to tell about existing mailing lists, os-specific modules,
-documentation, whatever. Please name these along the lines of
-F<perl>I<youros>.pod. [unfinished: where to put this file (the pod/
-subdirectory, of course: but more importantly, which/what index files
-should be updated?)]
-
-=back
-
-=head2 Allow for lots of testing
-
-We should never release a main version without testing it as a
-subversion first.
-
-=head2 Test popular applications and modules.
-
-We should never release a main version without testing whether or not
-it breaks various popular modules and applications. A partial list of
-such things would include majordomo, metaconfig, apache, Tk, CGI,
-libnet, and libwww, to name just a few. Of course it's quite possible
-that some of those things will be just plain broken and need to be fixed,
-but, in general, we ought to try to avoid breaking widely-installed
-things.
-
-=head2 Automated generation of derivative files
-
-The F<embed.h>, F<keywords.h>, F<opcode.h>, and F<perltoc.pod> files
-are all automatically generated by perl scripts. In general, don't
-patch these directly; patch the data files instead.
-
-F<Configure> and F<config_h.SH> are also automatically generated by
-B<metaconfig>. In general, you should patch the metaconfig units
-instead of patching these files directly. However, very minor changes
-to F<Configure> may be made in between major sync-ups with the
-metaconfig units, which tends to be complicated operations. But be
-careful, this can quickly spiral out of control. Running metaconfig
-is not really hard.
-
-Also F<Makefile> is automatically produced from F<Makefile.SH>.
-In general, look out for all F<*.SH> files.
-
-Finally, the sample files in the F<Porting/> subdirectory are
-generated automatically by the script F<U/mksample> included
-with the metaconfig units. See L<"run metaconfig"> below for
-information on obtaining the metaconfig units.
-
-=head1 How to Make a Distribution
-
-There really ought to be a 'make dist' target, but there isn't.
-The 'dist' suite of tools also contains a number of tools that I haven't
-learned how to use yet. Some of them may make this all a bit easier.
-
-Here are the steps I go through to prepare a patch & distribution.
-
-Lots of it could doubtless be automated but isn't. The Porting/makerel
-(make release) perl script does now help automate some parts of it.
-
-=head2 Announce your intentions
-
-First, you should volunteer out loud to take the patch pumpkin. It's
-generally counter-productive to have multiple people working in secret
-on the same thing.
-
-At the same time, announce what you plan to do with the patch pumpkin,
-to allow folks a chance to object or suggest alternatives, or do it for
-you. Naturally, the patch pumpkin holder ought to incorporate various
-bug fixes and documentation improvements that are posted while he or
-she has the pumpkin, but there might also be larger issues at stake.
-
-One of the precepts of the subversion idea is that we shouldn't give
-the patch pumpkin to anyone unless we have some idea what he or she
-is going to do with it.
-
-=head2 refresh pod/perltoc.pod
-
-Presumably, you have done a full C<make> in your working source
-directory. Before you C<make spotless> (if you do), and if you have
-changed any documentation in any module or pod file, change to the
-F<pod> directory and run C<make toc>.
-
-=head2 run installhtml to check the validity of the pod files
-
-=head2 update patchlevel.h
-
-Don't be shy about using the subversion number, even for a relatively
-modest patch. We've never even come close to using all 99 subversions,
-and it's better to have a distinctive number for your patch. If you
-need feedback on your patch, go ahead and issue it and promise to
-incorporate that feedback quickly (e.g. within 1 week) and send out a
-second patch.
-
-=head2 run metaconfig
-
-If you need to make changes to Configure or config_h.SH, it may be best to
-change the appropriate metaconfig units instead, and regenerate Configure.
-
- metaconfig -m
-
-will regenerate Configure and config_h.SH. Much more information
-on obtaining and running metaconfig is in the F<U/README> file
-that comes with Perl's metaconfig units. Perl's metaconfig units
-should be available on CPAN. A set of units that will work with
-perl5.005 is in the file F<mc_units-5.005_00-01.tar.gz> under
-http://www.perl.com/CPAN/authors/id/ANDYD/ . The mc_units tar file
-should be unpacked in your main perl source directory. Note: those
-units were for use with 5.005. There may have been changes since then.
-Check for later versions or contact perl5-porters@perl.org to obtain a
-pointer to the current version.
-
-Alternatively, do consider if the F<*ish.h> files might be a better
-place for your changes.
-
-=head2 MANIFEST
-
-Make sure the MANIFEST is up-to-date. You can use dist's B<manicheck>
-program for this. You can also use
-
- perl -w -MExtUtils::Manifest=fullcheck -e fullcheck
-
-Both commands will also list extra files in the directory that are not
-listed in MANIFEST.
-
-The MANIFEST is normally sorted.
-
-If you are using metaconfig to regenerate Configure, then you should note
-that metaconfig actually uses MANIFEST.new, so you want to be sure
-MANIFEST.new is up-to-date too. I haven't found the MANIFEST/MANIFEST.new
-distinction particularly useful, but that's probably because I still haven't
-learned how to use the full suite of tools in the dist distribution.
-
-=head2 Check permissions
-
-All the tests in the t/ directory ought to be executable. The
-main makefile used to do a 'chmod t/*/*.t', but that resulted in
-a self-modifying distribution--something some users would strongly
-prefer to avoid. The F<t/TEST> script will check for this
-and do the chmod if needed, but the tests still ought to be
-executable.
-
-In all, the following files should probably be executable:
-
- Configure
- configpm
- configure.gnu
- embed.pl
- installperl
- installman
- keywords.pl
- myconfig
- opcode.pl
- perly.fixer
- t/TEST
- t/*/*.t
- *.SH
- vms/ext/Stdio/test.pl
- vms/ext/filespec.t
- x2p/*.SH
-
-Other things ought to be readable, at least :-).
-
-Probably, the permissions for the files could be encoded in MANIFEST
-somehow, but I'm reluctant to change MANIFEST itself because that
-could break old scripts that use MANIFEST.
-
-I seem to recall that some SVR3 systems kept some sort of file that listed
-permissions for system files; something like that might be appropriate.
-
-=head2 Run Configure
-
-This will build a config.sh and config.h. You can skip this if you haven't
-changed Configure or config_h.SH at all. I use the following command
-
- sh Configure -Dprefix=/opt/perl -Doptimize=-O -Dusethreads \
- -Dcf_by='yourname' \
- -Dcf_email='yourname@yourhost.yourplace.com' \
- -Dperladmin='yourname@yourhost.yourplace.com' \
- -Dmydomain='.yourplace.com' \
- -Dmyhostname='yourhost' \
- -des
-
-=head2 Update Porting/config.sh and Porting/config_H
-
-[XXX
-This section needs revision. We're currently working on easing
-the task of keeping the vms, win32, and plan9 config.sh info
-up-to-date. The plan is to use keep up-to-date 'canned' config.sh
-files in the appropriate subdirectories and then generate 'canned'
-config.h files for vms, win32, etc. from the generic config.sh file.
-This is to ease maintenance. When Configure gets updated, the parts
-sometimes get scrambled around, and the changes in config_H can
-sometimes be very hard to follow. config.sh, on the other hand, can
-safely be sorted, so it's easy to track (typically very small) changes
-to config.sh and then propoagate them to a canned 'config.h' by any
-number of means, including a perl script in win32/ or carrying
-config.sh and config_h.SH to a Unix system and running sh
-config_h.SH.) Vms uses configure.com to generate its own config.sh
-and config.h. If you want to add a new variable to config.sh check
-with vms folk how to add it to configure.com too.
-XXX]
-
-The Porting/config.sh and Porting/config_H files are provided to
-help those folks who can't run Configure. It is important to keep
-them up-to-date. If you have changed config_h.SH, those changes must
-be reflected in config_H as well. (The name config_H was chosen to
-distinguish the file from config.h even on case-insensitive file systems.)
-Simply edit the existing config_H file; keep the first few explanatory
-lines and then copy your new config.h below.
-
-It may also be necessary to update win32/config.?c, and
-plan9/config.plan9, though you should be quite careful in doing so if
-you are not familiar with those systems. You might want to issue your
-patch with a promise to quickly issue a follow-up that handles those
-directories.
-
-=head2 make run_byacc
-
-If you have byacc-1.8.2 (available from CPAN), and if there have been
-changes to F<perly.y>, you can regenerate the F<perly.c> file. The
-run_byacc makefile target does this by running byacc and then applying
-some patches so that byacc dynamically allocates space, rather than
-having fixed limits. This patch is handled by the F<perly.fixer>
-script. Depending on the nature of the changes to F<perly.y>, you may
-or may not have to hand-edit the patch to apply correctly. If you do,
-you should include the edited patch in the new distribution. If you
-have byacc-1.9, the patch won't apply cleanly. Changes to the printf
-output statements mean the patch won't apply cleanly. Long ago I
-started to fix F<perly.fixer> to detect this, but I never completed the
-task.
-
-If C<perly.c> or C<perly.h> changes, make sure you run C<perl vms/vms_yfix.pl>
-to update the corresponding VMS files. This could be taken care of by
-the regen_all target in the Unix Makefile. See also
-L<VMS-specific updates>.
-
-Some additional notes from Larry on this:
-
-Don't forget to regenerate perly_c.diff.
-
- byacc -d perly.y
- mv y.tab.c perly.c
- patch perly.c <perly_c.diff
- # manually apply any failed hunks
- diff -c2 perly.c.orig perly.c >perly_c.diff
-
-One chunk of lines that often fails begins with
-
- #line 29 "perly.y"
-
-and ends one line before
-
- #define YYERRCODE 256
-
-This only happens when you add or remove a token type. I suppose this
-could be automated, but it doesn't happen very often nowadays.
-
-Larry
-
-=head2 make regen_all
-
-This target takes care of the PERLYVMS, regen_headers, and regen_pods
-targets.
-
-=head2 make regen_headers
-
-The F<embed.h>, F<keywords.h>, and F<opcode.h> files are all automatically
-generated by perl scripts. Since the user isn't guaranteed to have a
-working perl, we can't require the user to generate them. Hence you have
-to, if you're making a distribution.
-
-I used to include rules like the following in the makefile:
-
- # The following three header files are generated automatically
- # The correct versions should be already supplied with the perl kit,
- # in case you don't have perl or 'sh' available.
- # The - is to ignore error return codes in case you have the source
- # installed read-only or you don't have perl yet.
- keywords.h: keywords.pl
- @echo "Don't worry if this fails."
- - perl keywords.pl
-
-
-However, I got B<lots> of mail consisting of people worrying because the
-command failed. I eventually decided that I would save myself time
-and effort by manually running C<make regen_headers> myself rather
-than answering all the questions and complaints about the failing
-command.
-
-=head2 make regen_pods
-
-Will run `make regen_pods` in the pod directory for indexing.
-
-=head2 global.sym, interp.sym and perlio.sym
-
-Make sure these files are up-to-date. Read the comments in these
-files and in perl_exp.SH to see what to do.
-
-=head2 Binary compatibility
-
-If you do change F<global.sym> or F<interp.sym>, think carefully about
-what you are doing. To the extent reasonable, we'd like to maintain
-source and binary compatibility with older releases of perl. That way,
-extensions built under one version of perl will continue to work with
-new versions of perl.
-
-Of course, some incompatible changes may well be necessary. I'm just
-suggesting that we not make any such changes without thinking carefully
-about them first. If possible, we should provide
-backwards-compatibility stubs. There's a lot of XS code out there.
-Let's not force people to keep changing it.
-
-=head2 Changes
-
-Be sure to update the F<Changes> file. Try to include both an overall
-summary as well as detailed descriptions of the changes. Your
-audience will include other developers and users, so describe
-user-visible changes (if any) in terms they will understand, not in
-code like "initialize foo variable in bar function".
-
-There are differing opinions on whether the detailed descriptions
-ought to go in the Changes file or whether they ought to be available
-separately in the patch file (or both). There is no disagreement that
-detailed descriptions ought to be easily available somewhere.
-
-=head2 Todo
-
-The F<Todo> file contains a roughly-catgorized unordered list of
-aspects of Perl that could use enhancement, features that could be
-added, areas that could be cleaned up, and so on. During your term as
-pumpkin-holder, you will probably address some of these issues, and
-perhaps identify others which, while you decide not to address them
-this time around, may be tackled in the future. Update the file
-reflect the situation as it stands when you hand over the pumpkin.
-
-You might like, early in your pumpkin-holding career, to see if you
-can find champions for partiticular issues on the to-do list: an issue
-owned is an issue more likely to be resolved.
-
-There are also some more porting-specific L<Todo> items later in this
-file.
-
-=head2 OS/2-specific updates
-
-In the os2 directory is F<diff.configure>, a set of OS/2-specific
-diffs against B<Configure>. If you make changes to Configure, you may
-want to consider regenerating this diff file to save trouble for the
-OS/2 maintainer.
-
-You can also consider the OS/2 diffs as reminders of portability
-things that need to be fixed in Configure.
-
-=head2 VMS-specific updates
-
-If you have changed F<perly.y> or F<perly.c>, then you most probably want
-to update F<vms/perly_{h,c}.vms> by running C<perl vms/vms_yfix.pl>, or
-by running `make regen_all` which will run that script for you.
-
-The Perl revision number appears as "perl5" in configure.com.
-It is courteous to update that if necessary.
-
-=head2 Making the new distribution
-
-Suppose, for example, that you want to make version 5.004_08. Then you can
-do something like the following
-
- mkdir ../perl5.004_08
- awk '{print $1}' MANIFEST | cpio -pdm ../perl5.004_08
- cd ../
- tar cf perl5.004_08.tar perl5.004_08
- gzip --best perl5.004_08.tar
-
-These steps, with extra checks, are automated by the Porting/makerel
-script.
-
-=head2 Making a new patch
-
-I find the F<makepatch> utility quite handy for making patches.
-You can obtain it from any CPAN archive under
-http://www.perl.com/CPAN/authors/Johan_Vromans/ . There are a couple
-of differences between my version and the standard one. I have mine do
-a
-
- # Print a reassuring "End of Patch" note so people won't
- # wonder if their mailer truncated patches.
- print "\n\nEnd of Patch.\n";
-
-at the end. That's because I used to get questions from people asking
-if their mail was truncated.
-
-It also writes Index: lines which include the new directory prefix
-(change Index: print, approx line 294 or 310 depending on the version,
-to read: print PATCH ("Index: $newdir$new\n");). That helps patches
-work with more POSIX conformant patch programs.
-
-Here's how I generate a new patch. I'll use the hypothetical
-5.004_07 to 5.004_08 patch as an example.
-
- # unpack perl5.004_07/
- gzip -d -c perl5.004_07.tar.gz | tar -xof -
- # unpack perl5.004_08/
- gzip -d -c perl5.004_08.tar.gz | tar -xof -
- makepatch perl5.004_07 perl5.004_08 > perl5.004_08.pat
-
-Makepatch will automatically generate appropriate B<rm> commands to remove
-deleted files. Unfortunately, it will not correctly set permissions
-for newly created files, so you may have to do so manually. For example,
-patch 5.003_04 created a new test F<t/op/gv.t> which needs to be executable,
-so at the top of the patch, I inserted the following lines:
-
- # Make a new test
- touch t/op/gv.t
- chmod +x t/opt/gv.t
-
-Now, of course, my patch is now wrong because makepatch didn't know I
-was going to do that command, and it patched against /dev/null.
-
-So, what I do is sort out all such shell commands that need to be in the
-patch (including possible mv-ing of files, if needed) and put that in the
-shell commands at the top of the patch. Next, I delete all the patch parts
-of perl5.004_08.pat, leaving just the shell commands. Then, I do the
-following:
-
- cd perl5.004_07
- sh ../perl5.004_08.pat
- cd ..
- makepatch perl5.004_07 perl5.004_08 >> perl5.004_08.pat
-
-(Note the append to preserve my shell commands.)
-Now, my patch will line up with what the end users are going to do.
-
-=head2 Testing your patch
-
-It seems obvious, but be sure to test your patch. That is, verify that
-it produces exactly the same thing as your full distribution.
-
- rm -rf perl5.004_07
- gzip -d -c perl5.004_07.tar.gz | tar -xf -
- cd perl5.004_07
- sh ../perl5.004_08.pat
- patch -p1 -N < ../perl5.004_08.pat
- cd ..
- gdiff -r perl5.004_07 perl5.004_08
-
-where B<gdiff> is GNU diff. Other diff's may also do recursive checking.
-
-=head2 More testing
-
-Again, it's obvious, but you should test your new version as widely as you
-can. You can be sure you'll hear about it quickly if your version doesn't
-work on both ANSI and pre-ANSI compilers, and on common systems such as
-SunOS 4.1.[34], Solaris, and Linux.
-
-If your changes include conditional code, try to test the different
-branches as thoroughly as you can. For example, if your system
-supports dynamic loading, you can also test static loading with
-
- sh Configure -Uusedl
-
-You can also hand-tweak your config.h to try out different #ifdef
-branches.
-
-=head2 Other tests
-
-=over 4
-
-=item CHECK_FORMAT
-
-To test the correct use of printf-style arguments, C<Configure> with
-S<-Dccflags='-DCHECK_FORMAT -Wformat'> and run C<make>. The compiler
-will produce warning of incorrect use of format arguments. CHECK_FORMAT
-changes perl-defined formats to common formats, so DO NOT USE the executable
-produced by this process.
-
-A more accurate approach is the following commands:
-
- sh Configure -des -Dccflags=-Wformat ...
- make miniperl # without -DCHECK_FORMAT
- perl -i.orig -pwe 's/-Wformat/-DCHECK_FORMAT $&/' config.sh
- sh Configure -S
- make >& make.log # build from correct miniperl
- make clean
- make miniperl >& mini.log # build miniperl with -DCHECK_FORMAT
- perl -nwe 'print if /^\S+:/ and not /^make\b/' mini.log make.log
- make clean
-
-(-Wformat support by Robin Barker.)
-
-=back
-
-=head1 Running Purify
-
-Purify is a commercial tool that is helpful in identifying memory
-overruns, wild pointers, memory leaks and other such badness. Perl
-must be compiled in a specific way for optimal testing with Purify.
-
-Use the following commands to test perl with Purify:
-
- sh Configure -des -Doptimize=-g -Uusemymalloc -Dusemultiplicity \
- -Accflags=-DPURIFY
- setenv PURIFYOPTIONS "-chain-length=25"
- make all pureperl
- cd t
- ln -s ../pureperl perl
- setenv PERL_DESTRUCT_LEVEL 5
- ./perl TEST
-
-Disabling Perl's malloc allows Purify to monitor allocations and leaks
-more closely; using Perl's malloc will make Purify report most leaks
-in the "potential" leaks category. Enabling the multiplicity option
-allows perl to clean up thoroughly when the interpreter shuts down, which
-reduces the number of bogus leak reports from Purify. The -DPURIFY
-enables any Purify-specific debugging code in the sources.
-
-Purify outputs messages in "Viewer" windows by default. If you don't have
-a windowing environment or if you simply want the Purify output to
-unobtrusively go to a log file instead of to the interactive window,
-use the following options instead:
-
- setenv PURIFYOPTIONS "-chain-length=25 -windows=no -log-file=perl.log \
- -append-logfile=yes"
-
-The only currently known leaks happen when there are compile-time errors
-within eval or require. (Fixing these is non-trivial, unfortunately, but
-they must be fixed eventually.)
-
-=head1 Common Gotcha's
-
-=over 4
-
-=item #elif
-
-The '#elif' preprocessor directive is not understood on all systems.
-Specifically, I know that Pyramids don't understand it. Thus instead of the
-simple
-
- #if defined(I_FOO)
- # include <foo.h>
- #elif defined(I_BAR)
- # include <bar.h>
- #else
- # include <fubar.h>
- #endif
-
-You have to do the more Byzantine
-
- #if defined(I_FOO)
- # include <foo.h>
- #else
- # if defined(I_BAR)
- # include <bar.h>
- # else
- # include <fubar.h>
- # endif
- #endif
-
-Incidentally, whitespace between the leading '#' and the preprocessor
-command is not guaranteed, but is very portable and you may use it freely.
-I think it makes things a bit more readable, especially once things get
-rather deeply nested. I also think that things should almost never get
-too deeply nested, so it ought to be a moot point :-)
-
-=item Probably Prefer POSIX
-
-It's often the case that you'll need to choose whether to do
-something the BSD-ish way or the POSIX-ish way. It's usually not
-a big problem when the two systems use different names for similar
-functions, such as memcmp() and bcmp(). The perl.h header file
-handles these by appropriate #defines, selecting the POSIX mem*()
-functions if available, but falling back on the b*() functions, if
-need be.
-
-More serious is the case where some brilliant person decided to
-use the same function name but give it a different meaning or
-calling sequence :-). getpgrp() and setpgrp() come to mind.
-These are a real problem on systems that aim for conformance to
-one standard (e.g. POSIX), but still try to support the other way
-of doing things (e.g. BSD). My general advice (still not really
-implemented in the source) is to do something like the following.
-Suppose there are two alternative versions, fooPOSIX() and
-fooBSD().
-
- #ifdef HAS_FOOPOSIX
- /* use fooPOSIX(); */
- #else
- # ifdef HAS_FOOBSD
- /* try to emulate fooPOSIX() with fooBSD();
- perhaps with the following: */
- # define fooPOSIX fooBSD
- # else
- # /* Uh, oh. We have to supply our own. */
- # define fooPOSIX Perl_fooPOSIX
- # endif
- #endif
-
-=item Think positively
-
-If you need to add an #ifdef test, it is usually easier to follow if you
-think positively, e.g.
-
- #ifdef HAS_NEATO_FEATURE
- /* use neato feature */
- #else
- /* use some fallback mechanism */
- #endif
-
-rather than the more impenetrable
-
- #ifndef MISSING_NEATO_FEATURE
- /* Not missing it, so we must have it, so use it */
- #else
- /* Are missing it, so fall back on something else. */
- #endif
-
-Of course for this toy example, there's not much difference. But when
-the #ifdef's start spanning a couple of screen fulls, and the #else's
-are marked something like
-
- #else /* !MISSING_NEATO_FEATURE */
-
-I find it easy to get lost.
-
-=item Providing Missing Functions -- Problem
-
-Not all systems have all the neat functions you might want or need, so
-you might decide to be helpful and provide an emulation. This is
-sound in theory and very kind of you, but please be careful about what
-you name the function. Let me use the C<pause()> function as an
-illustration.
-
-Perl5.003 has the following in F<perl.h>
-
- #ifndef HAS_PAUSE
- #define pause() sleep((32767<<16)+32767)
- #endif
-
-Configure sets HAS_PAUSE if the system has the pause() function, so
-this #define only kicks in if the pause() function is missing.
-Nice idea, right?
-
-Unfortunately, some systems apparently have a prototype for pause()
-in F<unistd.h>, but don't actually have the function in the library.
-(Or maybe they do have it in a library we're not using.)
-
-Thus, the compiler sees something like
-
- extern int pause(void);
- /* . . . */
- #define pause() sleep((32767<<16)+32767)
-
-and dies with an error message. (Some compilers don't mind this;
-others apparently do.)
-
-To work around this, 5.003_03 and later have the following in perl.h:
-
- /* Some unistd.h's give a prototype for pause() even though
- HAS_PAUSE ends up undefined. This causes the #define
- below to be rejected by the compiler. Sigh.
- */
- #ifdef HAS_PAUSE
- # define Pause pause
- #else
- # define Pause() sleep((32767<<16)+32767)
- #endif
-
-This works.
-
-The curious reader may wonder why I didn't do the following in
-F<util.c> instead:
-
- #ifndef HAS_PAUSE
- void pause()
- {
- sleep((32767<<16)+32767);
- }
- #endif
-
-That is, since the function is missing, just provide it.
-Then things would probably be been alright, it would seem.
-
-Well, almost. It could be made to work. The problem arises from the
-conflicting needs of dynamic loading and namespace protection.
-
-For dynamic loading to work on AIX (and VMS) we need to provide a list
-of symbols to be exported. This is done by the script F<perl_exp.SH>,
-which reads F<global.sym> and F<interp.sym>. Thus, the C<pause>
-symbol would have to be added to F<global.sym> So far, so good.
-
-On the other hand, one of the goals of Perl5 is to make it easy to
-either extend or embed perl and link it with other libraries. This
-means we have to be careful to keep the visible namespace "clean".
-That is, we don't want perl's global variables to conflict with
-those in the other application library. Although this work is still
-in progress, the way it is currently done is via the F<embed.h> file.
-This file is built from the F<global.sym> and F<interp.sym> files,
-since those files already list the globally visible symbols. If we
-had added C<pause> to global.sym, then F<embed.h> would contain the
-line
-
- #define pause Perl_pause
-
-and calls to C<pause> in the perl sources would now point to
-C<Perl_pause>. Now, when B<ld> is run to build the F<perl> executable,
-it will go looking for C<perl_pause>, which probably won't exist in any
-of the standard libraries. Thus the build of perl will fail.
-
-Those systems where C<HAS_PAUSE> is not defined would be ok, however,
-since they would get a C<Perl_pause> function in util.c. The rest of
-the world would be in trouble.
-
-And yes, this scenario has happened. On SCO, the function C<chsize>
-is available. (I think it's in F<-lx>, the Xenix compatibility
-library.) Since the perl4 days (and possibly before), Perl has
-included a C<chsize> function that gets called something akin to
-
- #ifndef HAS_CHSIZE
- I32 chsize(fd, length)
- /* . . . */
- #endif
-
-When 5.003 added
-
- #define chsize Perl_chsize
-
-to F<embed.h>, the compile started failing on SCO systems.
-
-The "fix" is to give the function a different name. The one
-implemented in 5.003_05 isn't optimal, but here's what was done:
-
- #ifdef HAS_CHSIZE
- # ifdef my_chsize /* Probably #defined to Perl_my_chsize in embed.h */
- # undef my_chsize
- # endif
- # define my_chsize chsize
- #endif
-
-My explanatory comment in patch 5.003_05 said:
-
- Undef and then re-define my_chsize from Perl_my_chsize to
- just plain chsize if this system HAS_CHSIZE. This probably only
- applies to SCO. This shows the perils of having internal
- functions with the same name as external library functions :-).
-
-Now, we can safely put C<my_chsize> in F<global.sym>, export it, and
-hide it with F<embed.h>.
-
-To be consistent with what I did for C<pause>, I probably should have
-called the new function C<Chsize>, rather than C<my_chsize>.
-However, the perl sources are quite inconsistent on this (Consider
-New, Mymalloc, and Myremalloc, to name just a few.)
-
-There is a problem with this fix, however, in that C<Perl_chsize>
-was available as a F<libperl.a> library function in 5.003, but it
-isn't available any more (as of 5.003_07). This means that we've
-broken binary compatibility. This is not good.
-
-=item Providing missing functions -- some ideas
-
-We currently don't have a standard way of handling such missing
-function names. Right now, I'm effectively thinking aloud about a
-solution. Some day, I'll try to formally propose a solution.
-
-Part of the problem is that we want to have some functions listed as
-exported but not have their names mangled by embed.h or possibly
-conflict with names in standard system headers. We actually already
-have such a list at the end of F<perl_exp.SH> (though that list is
-out-of-date):
-
- # extra globals not included above.
- cat <<END >> perl.exp
- perl_init_ext
- perl_init_fold
- perl_init_i18nl14n
- perl_alloc
- perl_construct
- perl_destruct
- perl_free
- perl_parse
- perl_run
- perl_get_sv
- perl_get_av
- perl_get_hv
- perl_get_cv
- perl_call_argv
- perl_call_pv
- perl_call_method
- perl_call_sv
- perl_requirepv
- safecalloc
- safemalloc
- saferealloc
- safefree
-
-This still needs much thought, but I'm inclined to think that one
-possible solution is to prefix all such functions with C<perl_> in the
-source and list them along with the other C<perl_*> functions in
-F<perl_exp.SH>.
-
-Thus, for C<chsize>, we'd do something like the following:
-
- /* in perl.h */
- #ifdef HAS_CHSIZE
- # define perl_chsize chsize
- #endif
-
-then in some file (e.g. F<util.c> or F<doio.c>) do
-
- #ifndef HAS_CHSIZE
- I32 perl_chsize(fd, length)
- /* implement the function here . . . */
- #endif
-
-Alternatively, we could just always use C<chsize> everywhere and move
-C<chsize> from F<global.sym> to the end of F<perl_exp.SH>. That would
-probably be fine as long as our C<chsize> function agreed with all the
-C<chsize> function prototypes in the various systems we'll be using.
-As long as the prototypes in actual use don't vary that much, this is
-probably a good alternative. (As a counter-example, note how Configure
-and perl have to go through hoops to find and use get Malloc_t and
-Free_t for C<malloc> and C<free>.)
-
-At the moment, this latter option is what I tend to prefer.
-
-=item All the world's a VAX
-
-Sorry, showing my age:-). Still, all the world is not BSD 4.[34],
-SVR4, or POSIX. Be aware that SVR3-derived systems are still quite
-common (do you have any idea how many systems run SCO?) If you don't
-have a bunch of v7 manuals handy, the metaconfig units (by default
-installed in F</usr/local/lib/dist/U>) are a good resource to look at
-for portability.
-
-=back
-
-=head1 Miscellaneous Topics
-
-=head2 Autoconf
-
-Why does perl use a metaconfig-generated Configure script instead of an
-autoconf-generated configure script?
-
-Metaconfig and autoconf are two tools with very similar purposes.
-Metaconfig is actually the older of the two, and was originally written
-by Larry Wall, while autoconf is probably now used in a wider variety of
-packages. The autoconf info file discusses the history of autoconf and
-how it came to be. The curious reader is referred there for further
-information.
-
-Overall, both tools are quite good, I think, and the choice of which one
-to use could be argued either way. In March, 1994, when I was just
-starting to work on Configure support for Perl5, I considered both
-autoconf and metaconfig, and eventually decided to use metaconfig for the
-following reasons:
-
-=over 4
-
-=item Compatibility with Perl4
-
-Perl4 used metaconfig, so many of the #ifdef's were already set up for
-metaconfig. Of course metaconfig had evolved some since Perl4's days,
-but not so much that it posed any serious problems.
-
-=item Metaconfig worked for me
-
-My system at the time was Interactive 2.2, a SVR3.2/386 derivative that
-also had some POSIX support. Metaconfig-generated Configure scripts
-worked fine for me on that system. On the other hand, autoconf-generated
-scripts usually didn't. (They did come quite close, though, in some
-cases.) At the time, I actually fetched a large number of GNU packages
-and checked. Not a single one configured and compiled correctly
-out-of-the-box with the system's cc compiler.
-
-=item Configure can be interactive
-
-With both autoconf and metaconfig, if the script works, everything is
-fine. However, one of my main problems with autoconf-generated scripts
-was that if it guessed wrong about something, it could be B<very> hard to
-go back and fix it. For example, autoconf always insisted on passing the
--Xp flag to cc (to turn on POSIX behavior), even when that wasn't what I
-wanted or needed for that package. There was no way short of editing the
-configure script to turn this off. You couldn't just edit the resulting
-Makefile at the end because the -Xp flag influenced a number of other
-configure tests.
-
-Metaconfig's Configure scripts, on the other hand, can be interactive.
-Thus if Configure is guessing things incorrectly, you can go back and fix
-them. This isn't as important now as it was when we were actively
-developing Configure support for new features such as dynamic loading,
-but it's still useful occasionally.
-
-=item GPL
-
-At the time, autoconf-generated scripts were covered under the GNU Public
-License, and hence weren't suitable for inclusion with Perl, which has a
-different licensing policy. (Autoconf's licensing has since changed.)
-
-=item Modularity
-
-Metaconfig builds up Configure from a collection of discrete pieces
-called "units". You can override the standard behavior by supplying your
-own unit. With autoconf, you have to patch the standard files instead.
-I find the metaconfig "unit" method easier to work with. Others
-may find metaconfig's units clumsy to work with.
-
-=back
-
-=head2 Why isn't there a directory to override Perl's library?
-
-Mainly because no one's gotten around to making one. Note that
-"making one" involves changing perl.c, Configure, config_h.SH (and
-associated files, see above), and I<documenting> it all in the
-INSTALL file.
-
-Apparently, most folks who want to override one of the standard library
-files simply do it by overwriting the standard library files.
-
-=head2 APPLLIB
-
-In the perl.c sources, you'll find an undocumented APPLLIB_EXP
-variable, sort of like PRIVLIB_EXP and ARCHLIB_EXP (which are
-documented in config_h.SH). Here's what APPLLIB_EXP is for, from
-a mail message from Larry:
-
- The main intent of APPLLIB_EXP is for folks who want to send out a
- version of Perl embedded in their product. They would set the symbol
- to be the name of the library containing the files needed to run or to
- support their particular application. This works at the "override"
- level to make sure they get their own versions of any library code that
- they absolutely must have configuration control over.
-
- As such, I don't see any conflict with a sysadmin using it for a
- override-ish sort of thing, when installing a generic Perl. It should
- probably have been named something to do with overriding though. Since
- it's undocumented we could still change it... :-)
-
-Given that it's already there, you can use it to override
-distribution modules. If you do
-
- sh Configure -Dccflags='-DAPPLLIB_EXP=/my/override'
-
-then perl.c will put /my/override ahead of ARCHLIB and PRIVLIB.
-
-=head2 Shared libperl.so location
-
-Why isn't the shared libperl.so installed in /usr/lib/ along
-with "all the other" shared libraries? Instead, it is installed
-in $archlib, which is typically something like
-
- /usr/local/lib/perl5/archname/5.00404
-
-and is architecture- and version-specific.
-
-The basic reason why a shared libperl.so gets put in $archlib is so that
-you can have more than one version of perl on the system at the same time,
-and have each refer to its own libperl.so.
-
-Three examples might help. All of these work now; none would work if you
-put libperl.so in /usr/lib.
-
-=over
-
-=item 1.
-
-Suppose you want to have both threaded and non-threaded perl versions
-around. Configure will name both perl libraries "libperl.so" (so that
-you can link to them with -lperl). The perl binaries tell them apart
-by having looking in the appropriate $archlib directories.
-
-=item 2.
-
-Suppose you have perl5.004_04 installed and you want to try to compile
-it again, perhaps with different options or after applying a patch.
-If you already have libperl.so installed in /usr/lib/, then it may be
-either difficult or impossible to get ld.so to find the new libperl.so
-that you're trying to build. If, instead, libperl.so is tucked away in
-$archlib, then you can always just change $archlib in the current perl
-you're trying to build so that ld.so won't find your old libperl.so.
-(The INSTALL file suggests you do this when building a debugging perl.)
-
-=item 3.
-
-The shared perl library is not a "well-behaved" shared library with
-proper major and minor version numbers, so you can't necessarily
-have perl5.004_04 and perl5.004_05 installed simultaneously. Suppose
-perl5.004_04 were to install /usr/lib/libperl.so.4.4, and perl5.004_05
-were to install /usr/lib/libperl.so.4.5. Now, when you try to run
-perl5.004_04, ld.so might try to load libperl.so.4.5, since it has
-the right "major version" number. If this works at all, it almost
-certainly defeats the reason for keeping perl5.004_04 around. Worse,
-with development subversions, you certaily can't guarantee that
-libperl.so.4.4 and libperl.so.4.55 will be compatible.
-
-Anyway, all this leads to quite obscure failures that are sure to drive
-casual users crazy. Even experienced users will get confused :-). Upon
-reflection, I'd say leave libperl.so in $archlib.
-
-=back
-
-=head1 Upload Your Work to CPAN
-
-You can upload your work to CPAN if you have a CPAN id. Check out
-http://www.perl.com/CPAN/modules/04pause.html for information on
-_PAUSE_, the Perl Author's Upload Server.
-
-I typically upload both the patch file, e.g. F<perl5.004_08.pat.gz>
-and the full tar file, e.g. F<perl5.004_08.tar.gz>.
-
-If you want your patch to appear in the F<src/5.0/unsupported>
-directory on CPAN, send e-mail to the CPAN master librarian. (Check
-out http://www.perl.com/CPAN/CPAN.html ).
-
-=head1 Help Save the World
-
-You should definitely announce your patch on the perl5-porters list.
-You should also consider announcing your patch on
-comp.lang.perl.announce, though you should make it quite clear that a
-subversion is not a production release, and be prepared to deal with
-people who will not read your disclaimer.
-
-=head1 Todo
-
-Here, in no particular order, are some Configure and build-related
-items that merit consideration. This list isn't exhaustive, it's just
-what I came up with off the top of my head.
-
-=head2 Good ideas waiting for round tuits
-
-=over 4
-
-=item Configure -Dsrc=/blah/blah
-
-We should be able to emulate B<configure --srcdir>. Tom Tromey
-tromey@creche.cygnus.com has submitted some patches to
-the dist-users mailing list along these lines. They have been folded
-back into the main distribution, but various parts of the perl
-Configure/build/install process still assume src='.'.
-
-=item Hint file fixes
-
-Various hint files work around Configure problems. We ought to fix
-Configure so that most of them aren't needed.
-
-=item Hint file information
-
-Some of the hint file information (particularly dynamic loading stuff)
-ought to be fed back into the main metaconfig distribution.
-
-=back
-
-=head2 Probably good ideas waiting for round tuits
-
-=over 4
-
-=item GNU configure --options
-
-I've received sensible suggestions for --exec_prefix and other
-GNU configure --options. It's not always obvious exactly what is
-intended, but this merits investigation.
-
-=item make clean
-
-Currently, B<make clean> isn't all that useful, though
-B<make realclean> and B<make distclean> are. This needs a bit of
-thought and documentation before it gets cleaned up.
-
-=item Try gcc if cc fails
-
-Currently, we just give up.
-
-=item bypassing safe*alloc wrappers
-
-On some systems, it may be safe to call the system malloc directly
-without going through the util.c safe* layers. (Such systems would
-accept free(0), for example.) This might be a time-saver for systems
-that already have a good malloc. (Recent Linux libc's apparently have
-a nice malloc that is well-tuned for the system.)
-
-=back
-
-=head2 Vague possibilities
-
-=over 4
-
-=item MacPerl
-
-Get some of the Macintosh stuff folded back into the main distribution.
-
-=item gconvert replacement
-
-Maybe include a replacement function that doesn't lose data in rare
-cases of coercion between string and numerical values.
-
-=item Improve makedepend
-
-The current makedepend process is clunky and annoyingly slow, but it
-works for most folks. Alas, it assumes that there is a filename
-$firstmakefile that the B<make> command will try to use before it uses
-F<Makefile>. Such may not be the case for all B<make> commands,
-particularly those on non-Unix systems.
-
-Probably some variant of the BSD F<.depend> file will be useful.
-We ought to check how other packages do this, if they do it at all.
-We could probably pre-generate the dependencies (with the exception of
-malloc.o, which could probably be determined at F<Makefile.SH>
-extraction time.
-
-=item GNU Makefile standard targets
-
-GNU software generally has standardized Makefile targets. Unless we
-have good reason to do otherwise, I see no reason not to support them.
-
-=item File locking
-
-Somehow, straighten out, document, and implement lockf(), flock(),
-and/or fcntl() file locking. It's a mess. See $d_fcntl_can_lock
-in recent config.sh files though.
-
-=back
-
-=head1 AUTHORS
-
-Original author: Andy Dougherty doughera@lafcol.lafayette.edu .
-Additions by Chip Salzenberg chip@perl.com and
-Tim Bunce Tim.Bunce@ig.co.uk .
-
-All opinions expressed herein are those of the authorZ<>(s).
-
-=head1 LAST MODIFIED
-
-$Id: pumpkin.pod,v 1.23 2000/01/13 19:45:13 doughera Released $
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