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|
=head1 NAME
HACKERS - Devel::PPPort internals for hackers
=head1 SYNOPSIS
So you probably want to hack C<Devel::PPPort>?
Well, here's some information to get you started with what's
lying around in this distribution.
=head1 DESCRIPTION
=head2 How to backport something
First, make sure that what you want to backport is documented. If it's worth
backporting, it surely is worth documenting. Send a documentation patch to
L<perlbug@perl.org|mailto:perlbug@perl.org> if necessary. Also,
C<Devel::PPPort> cannot automatically generate proper information about the
item without at least knowing its API prototype. It can get this from
F<embed.fnc> if the item is a function, but if it is a macro, there needs to be
at least a S<C<=for apidoc>> line for C<Devel::PPPort> to be able to figure
things out on its own.
Next, figure out where to place your implementation. Look at all the files in
F<parts/inc/> for one that fits what you're planning. If there isn't one,
just start a new one and remember to include it from within F<PPPort_pm.PL>.
If you do create a new file, it's usually the best approach to just copy an
existing file and use it as a template.
Each file holds all relevant data for implementing a certain part
of the API:
=over 2
=item *
A list of the provided API in the C<=provides> section.
=item *
The optional C<=dontwarn> section is used to suppress warnings about particular
API elements. Don't use this unless you get such a warning, and be sure to
think about using other other alternatives before resorting to adding something
in this section.
=item *
The implementation to add to F<ppport.h> in the C<=implementation>
section. See L</Implementation Section Details>.
=item *
The code required to add to PPPort.xs for testing the implementation.
This code goes into the C<=xshead>, C<=xsinit>, C<=xsmisc>, C<=xsboot>
and C<=xsubs> section. Have a look at the template at the bottom
of F<RealPPPort_xs.PL> to see where the code ends up.
=item *
The tests in the C<=tests> section. Remember not to use any fancy
modules or syntax elements, as the test code needs to be able to run
with Perl 5.003. (This is because Devel::PPPort itself will run all test files
in the process of generating the information about when a feature came into
existence.) This means, for example
=over
=item C<my> isn't supported in C<for>-loops
for my $x (1, 2, 3) { } # won't work with 5.003
Instead declare C<$x> just before the statement
=item The postfix C<for> statement modifier isn't supported
foo for 1..2
won't compile. Instead enclose C<foo> in a loop.
=item You can't use plain C<qr//>
Instead, wrap it in a string eval C<eval "qr//">, and be sure it's skipped at
execution time on perls earlier than 5.005
=back
You can use C<ok()> to report success or failure:
ok($got, $expected, 'name');
ok($got == 42); # Doesn't give good runtime diagnostics
ok($got, eval "qr/foo/", 'name') # But don't execute this statement
# on perls earlier than 5.005
=back
In all sections, lines that begin with C<##> are completely ignored.
=head2 Implementation Section Details
=over
=item __UNDEFINED__
If you add the line C<__UNDEFINED__> to the C<=provides> section, you can use
lines like this in the C<=implementation> section:
__UNDEFINED__ macro some definition
to both define C<macro> and indicate that it is provided by F<ppport.h>. This
replaces these C<=implementation> section lines:
#ifndef macro
# define macro some definition
#endif
besides automagically making it be considered to be provided. C<macro> can
have optional arguments and the definition can even span multiple lines, like
in
__UNDEFINED__ SvMAGIC_set(sv, val) \
STMT_START { assert(SvTYPE(sv) >= SVt_PVMG); \
(((XPVMG*) SvANY(sv))->xmg_magic = (val)); } \
STMT_END
This usually makes the code more compact and readable.
But you should only use this on things that you plan to publicly provide. If
something, such as a mnemonic for a constant needs to be defined but isn't
really needed for the public at larget to know about, you should use
__UNDEF_NOT_PROVIDED__ macro some definition
instead. To avoid name space conflicts, follow what's in L</Helper macros>,
below.
=item Helper macros
If you need to define a helper macro which is not part of C<Devel::PPPort> API
and its usage is only for the definition of other C<Devel::PPPort> macros, then
use the C<D_PPP_> prefix for this macro name (e.g. C<D_PPP_SVPV_NOLEN_LP_ARG>).
This suppresses any warnings when a macro is defined which is not part of the
Perl public API.
=item Version numbers
Version checking can be tricky to get correct.
You can use
#if { VERSION < 5.9.3 }
instead of
#if ((PERL_VERSION < 9) \
|| (PERL_VERSION == 9 && PERL_SUBVERSION < 3))
The version number can be either of the new form C<5.x.x> or the older
form C<5.00x_yy>. Both are translated into the correct preprocessor
statements. It is also possible to combine this with other statements:
#if { VERSION >= 5.004 } && !defined(sv_vcatpvf)
/* a */
#elif { VERSION < 5.004_63 } && { VERSION != 5.004_05 }
/* b */
#endif
This not only works in the C<=implementation> section, but also in
the C<=xsubs>, C<=xsinit>, C<=xsmisc>, C<=xshead> and C<=xsboot> sections.
=item Hints
If you add a comment like so:
/* Hint: PL_expect, PL_copline, PL_rsfp
paragraphs of stuff about foo you want to have
shown when ppport.h outputs something about PL_expect or
PL_copline or PL_rsfp
*/
Earlier versions of F<ppport.h> required an asterisk at the beginning of every
continuation line, or else the content would be silently dropped.
=item Warnings
A more serious caution about C<foo> can be displayed by instead saying
/* Warning: PL_expect, PL_copline, PL_rsfp
paragraphs of stuff about foo you want to have
shown when ppport.h outputs something about PL_expect or
PL_copline or PL_rsfp
*/
Earlier versions of F<ppport.h> required an asterisk at the beginning of every
continuation line, or else the content would be silently dropped.
=item Replace
When F<ppport.h> is run on a file(s), you can cause it to automatically flag
occurrences of the constructs you specify, encouraging the author to replace
them with different (presumably better) ones. These also are used in any
suggested edits and generated patches.
There are three ways to do this
=over 4
=item in-line comment
You can add a trailing comment like so:
#define bar foo /* Replace */
__UNDEFINED__ bar foo /* Replace */
These say that C<foo> should be replaced by C<bar>. NOT the other way around.
=item separate comment
For situations not amenable to the above, you can say
/* Replace foo with bar */
=item define a replacement region
It you have several replacements, you can group them together like so:
/* Replace: 1 */
#define foo bar
#define bat baz
/* Replace: 0 */
These replace C<foo> with C<bar>; C<bat> with C<baz>.
=back
=item Dependencies
F<ppport.h> automatically gathers information as to what functions are
dependent on what other things from inspecting the source, but if this is
insufficient for you, you can add lines like the following:
/* foo, bar depends on baz, bat */
Each of C<foo>, C<bar> depends on each of C<baz>, C<bat>.
=back
=head2 Testing
After you have furnished your implementation, you need to test it.
=head2 Special Makefile targets
You can use
make regen
to regenerate all of the autogenerated files. To get rid of all
generated files (except for F<parts/todo/*> and F<parts/base/*>),
use
make purge_all
That's it.
To automatically test C<Devel::PPPort> with lots of different Perl
versions, you can use the F<soak> script. Just pass it a list of
all Perl binaries you want to test.
=head2 Regenerating F<ppport.h> and F<PPPort.pm>
C<Devel::PPPort> keeps two directories of generated files, in F<parts/base> and
F<parts/todo>. The files in each are named after Perl version numbers. When a
function or macro came into existence is indicated by placing its name in the
corresponding file in F<parts/base>. The files in F<parts/todo> are the same,
except they indicate the earliest release that F<ppport.h> supports the
element. The delta is effectively what F<ppport.h> buys you.
The generation process described in this section creates these files. It does
so by examining as many perl versions as are available to it. It tries to make
sure each element actually compiles, and it runs the test scripts you have
furnished on every version.
Ideally, this should be done before every release that includes new backporting
and/or when blead has added new public API. At a minimum, it should be done as
the next major Perl release comes out.
The process isn't platform independent. It has currently been tested only under
Linux, and it definitely requires at least C<gcc> and the C<nm> utility.
The process used to be problematic, with random failures. But it has now been
fixed to be reliable.
Before starting the regeneration, you need to have gathered certain data.
(Options listed below apply to the tools that eventually will use the data, and
which are described further below).
=over 4
=item *
You will first need a whole bunch of different Perls, the more, the better, but
only one per version tag (which one is random) will actually get used.
dromedary has a sufficient set. They should all have the same Configure
options with respect to what functions and macros are enabled. For example,
they should all be threaded, or all non-threaded. A mixture will screw up the
results. Similarly, they should all or none have quad math (at least as far
back as that became available). You can use F<devel/buildperl.pl> to build
them.
Previous maintainers of this module kept those perls in
F</tmp/perl/install/default>, so most of the tools use this as a default, but
you'll likely simply use the C<--install=> option to specify where. This
should be a path where a S<C<make install>> has been done, so has immediate
subdirectories of C</bin> and C</lib>. C</bin> should contain the binaries.
It will use all files in this directory whose names begin with C<perl5>.
Actually, not all the binaries need be in this directory. You can specify
additional places to look since C<--install=> takes a comma separated list of
directories.
=item *
You also need a freshly built bleadperl. The C<--blead=I<path>> option should
be used to specify it. (Some of the tools have a default of C<bleadperl-debug>
if this option is omitted.) Again, it needs the same Configure options as the
earlier versions had.
=item *
And you will need updated API information. Copy the latest F<embed.fnc> file
from bleadperl to the F<parts> directory and run F<devel/mkapidoc.pl> to
collect the remaining information in F<parts/apidoc.fnc>.
=item *
The final step before regenerating everything is to run F</devel/mkppport.fnc>
to update the F</parts/ppport.fnc> file.
=back
Having done this, run F<devel/regenerate> which wraps the following steps
(which you could instead do by hand, but it's easy to forget things):
=over
=item *
It first does some sanity checking
=item *
Then it asks you if it's ok to remove all existing todo files in the
F<parts/base> and F<parts/todo> directories. If you answer no, the process
aborts.
This is crtical to getting accurate results.
=item *
It builds the new baseline by running
perl devel/mktodo --base
in the root directory of the distribution.
If there are warnings in blead, it will ask you to examine them, and to ok if
it's all right to go ahead. If there are issues with blead, everything
following could be wrong.
=item *
It builds the new todo files by running
perl devel/mktodo
in the root directory of the distribution.
=item *
Finally, it adds the remaining information by running
perl Makefile.PL && make
perl devel/scanprov --mode=write
=back
=head2 How to build gobs of versions of Perl
C<Devel::PPPort> supports Perl versions between 5.003 and bleadperl.
To guarantee this support, its good to have as many versions as possible to
test on. dromedary currently has many such versions.
There is a tool to build all the different
versions and configurations. You can find it in F<devel/buildperl.pl>.
It can currently build the following Perl releases:
5.003
5.004 - 5.004_05
5.005 - 5.005_04
5.6.x
5.7.x
5.8.x
5.9.x
5.1x.x
5.2x.x
5.3x.x
=head2 Implementation
Knowing which parts of the API are not backwards compatible and
probably need C<Devel::PPPort> support is another problem that's
not easy to deal with manually. If you run
perl Makefile.PL --with-apicheck
a C file is generated by F<parts/apicheck.pl> that is compiled
and linked with C<Devel::PPPort>. This C file has the purpose of
using each of the public API functions/macros once.
The required information is derived from F<parts/embed.fnc> (just
a copy of bleadperl's F<embed.fnc>), F<parts/apidoc.fnc> (which
is generated by F<devel/mkapidoc.sh> and simply collects the rest
of the apidoc entries spread over the Perl source code) and
F<parts/ppport.fnc> (which lists the API provided purely by
Devel::PPPort, along with other elements that are tested only using
F<ppport.h>).
The generated C file (usually, F<apicheck.c>) won't compile as-is
with older perls. And even if it compiles, there's still a good chance of the
dynamic linker failing at C<make test> time. But that's on purpose!
We can use these failures to find changes in the API automatically.
The Perl script F<devel/mktodo> calls another script F<devel/mktodo.pl>
repeatedly to run C<Devel::PPPort> on version after version of perl, in
decreasing version order, so we start with blead and work backwards. The
latter script generates an F<apicheck.c>. It starts with the code that
successfully worked in the previously tested Perl version, which should be the
version one higher than the current one. Call the current one I<n>, and the
previous one I<n+1>. The items that fail to compile in I<n>, but did compile
in I<n+1> must have become available in I<n+1>. We run the Linux command C<nm>
to find those undefined symbols in I<n>. We change F<apicheck.c> to ignore
(through C<#ifdef>'s) those and recompile, repeating until F<apicheck.c>
successfully compiles, the dynamic linker is happy, and C<make test> runs on
this version. Then we repeat the process for I<n-1>, and so on. (Actually,
this process may generate false positives, so by default each failing API call
is checked again. If possible, this is done by generating an F<apicheck.c> for
just the one failing API.)
Running F<devel/mktodo> currently takes a couple hours on dromedary.
If you run it with the C<--nocheck> option, it won't recheck the API calls
that failed in the compilation stage and it'll take significantly less time.
No one currently associated with maintaining this module understands under what
circumstances it is safe to run with C<--nocheck>.
By repeating the process over and over, we build up information on when every
element first became supported. This information is stored in files in the
F<parts/base> directory, one file per version. The file for version I<n+1> is
generated by running version I<n> of perl.
We actually want a second piece of information, which is how much F<ppport.h>
buys you. What happens when regenerating is actually two entire runs through
all the perls. The first is accomplished by calling F<devel/mktodo> with the
C<--base> option. It automically will call F<devel/mktodo.pl> with each
version of perl, NOT using anything in F<ppport.h>. When done the results
indicate when each API element became available in stock perl, without using
F<ppport.h>.
And then the whole process is repeated, but this time F<ppport.h> is included.
The files are placed in F<parts/todo>. Thus, at the end, we know when each
element became available in modified perl, using F<ppport.h>.
However, only the public API that is implemented as functions (and must appear
in F<embed.fnc>) plus macros whose calling sequence is documented can be
checked this way. The final step in the process is calling F<devel/scanprov>.
It looks through the header files for when all the symbols provided by
C<Devel::PPPort> first became defined. It doesn't test the symbols or try to
compile them, as it doesn't generally know the API, but it can tell that
something exists in release I<n+1> but not I<n> (by scanning the include files
in the F<CORE> directory of various Perl versions). (It does know if a macro
has zero arguments or non-zero arguments, so it does get extra information from
the zero argument ones.)
=head2 Files
Residing in F<parts/inc/> is the "heart" of C<Devel::PPPort>. Each
of the files implements a part of the supported API, along with
hints, dependency information, XS code and tests.
The files are in a POD-like format that is parsed using the
functions in F<parts/ppptools.pl>.
The scripts F<PPPort_pm.PL>, F<RealPPPort_xs.PL> and F<mktests.PL> all
use the information in F<parts/inc/> to generate the main module
F<PPPort.pm>, the XS code in F<RealPPPort.xs> and various test files
in F<t/>.
You can get extra information from F<PPPort_pm.PL> by setting the environment
variable C<DPPP_CHECK_LEVEL> to 1 or 2.
All of these files could be generated on the fly while building
C<Devel::PPPort>, but not having the tests in F<t/> will confuse
TEST/harness in the core. Not having F<PPPort.pm> will be bad for
viewing the docs on C<search.cpan.org>. So unfortunately, it's
unavoidable to put some redundancy into the package.
=head2 Submitting Patches
If you've added some functionality to C<Devel::PPPort>, please
consider submitting a patch with your work to P5P by sending a pull request to
L<https://github.com/Dual-Life/Devel-PPPort/pulls>.
When submitting patches, please only add the relevant changes
and don't include the differences of the generated files. You
can use the C<purge_all> target to delete all autogenerated
files.
=head2 Integrating into the Perl core
When integrating this module into the Perl core, be sure to
remove the following files from the distribution. They are
either not needed or generated on the fly when building this
module in the core:
MANIFEST
META.yml
PPPort.pm
=head1 BUGS
No known bugs.
=head1 COPYRIGHT
Version 3.x, Copyright (C) 2004-2019, Marcus Holland-Moritz
and Perl 5 porters
Version 2.x, Copyright (C) 2001, Paul Marquess.
Version 1.x, Copyright (C) 1999, Kenneth Albanowski.
This program is free software; you can redistribute it and/or
modify it under the same terms as Perl itself.
=head1 SEE ALSO
See F<ppport.h> and F<devel/regenerate>.
=cut
|