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autodoc.pl
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autodoc.pl
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#!/usr/bin/perl -w
use v5.41;
use Text::Tabs;
# Unconditionally regenerate:
#
# pod/perlintern.pod
# pod/perlapi.pod
my $api = "pod/perlapi.pod";
my $intern = "pod/perlintern.pod";
#
# from information stored in
#
# embed.fnc
# plus all the core .c, .h, and .pod files listed in MANIFEST
# plus %extra_input_pods
my %extra_input_pods = ( 'dist/ExtUtils-ParseXS/lib/perlxs.pod' => 1 );
# Has an optional arg, which is the directory to chdir to before reading
# MANIFEST and the files
#
# This script is invoked as part of 'make all'
#
# The generated pod consists of sections of related elements, functions,
# macros, and variables. The keys of %valid_sections give the current legal
# ones. Just add a new key to add a section.
#
# Throughout the files read by this script are lines like
#
# =for apidoc_section Section Name
# =for apidoc_section $section_name_variable
#
# "Section Name" (after having been stripped of leading space) must be one of
# the legal section names, or an error is thrown. $section_name_variable must
# be one of the legal section name variables defined below; these expand to
# legal section names. This form is used so that minor wording changes in
# these titles can be confined to this file. All the names of the variables
# end in '_scn'; this suffix is optional in the apidoc_section lines.
#
# All API elements defined between this line and the next 'apidoc_section'
# line will go into the section "Section Name" (or $section_name_variable),
# sorted by dictionary order within it. perlintern and perlapi are parallel
# documents, each potentially with a section "Section Name". Each element is
# marked as to which document it goes into. If there are none for a
# particular section in perlapi, that section is omitted.
#
# Also, in .[ch] files, there may be
#
# =head1 Section Name
#
# lines in comments. These are also used by this program to switch to section
# "Section Name". The difference is that if there are any lines after the
# =head1, inside the same comment, and before any =for apidoc-ish lines, they
# are used as a heading for section "Section Name" (in both perlintern and
# perlapi). This includes any =head[2-5]. If more than one '=head1 Section
# Name' line has content, they appear in the generated pod in an undefined
# order. Note that you can't use a $section_name_variable in =head1 lines
#
# The next =head1, =for apidoc_section, or file end terminates what goes into
# the current section
#
# The %valid_sections hash below also can have header content, which will
# appear before any =head1 content. The hash can also have footer content
# content, which will appear at the end of the section, after all the
# elements.
#
# The lines that define the actual functions, etc are documented in embed.fnc,
# because they have flags which must be kept in sync with that file.
use strict;
use warnings;
my $known_flags_re =
qr/[aA bC dD eE fF Gh iI mM nN oO pP rR sS T uU vW xX y;#?]/xx;
# Flags that don't apply to this program, like implementation details.
my $irrelevant_flags_re = qr/[ab eE G iI P rR vX?]/xx;
# Only certain flags dealing with what gets displayed, are acceptable for
# apidoc_item
my $item_flags_re = qr/[dD fF mM nN oO pT uU Wx;]/xx;
use constant {
NOT_APIDOC => -1,
ILLEGAL_APIDOC => 0, # Must be 0 so evaluates to 'false'
APIDOC_DEFN => 1,
PLAIN_APIDOC => 2,
APIDOC_ITEM => 3,
APIDOC_SECTION => 4,
# This is the line type used for elements parsed in config.h.
# Since that file is parsed after everything else, everything is
# resolved by then; and this is just a way to allow prototypes
# elsewhere in the source code to override the simplistic
# prototypes that config.h mostly deals with. Hence Configure
# doesn't have to get involved. There are just a few of these,
# with little likelihood of changes needed. They were manually
# added to handy.h via 51b56f5c7c7.
CONDITIONAL_APIDOC => 5,
};
my $config_h = 'config.h';
if (@ARGV >= 2 && $ARGV[0] eq "-c") {
shift;
$config_h = shift;
}
my $nroff_min_indent = 4; # for non-heading lines
# 80 column terminal - 2 for pager using 2 columns for itself;
my $max_width = 80 - 2 - $nroff_min_indent;
my $standard_indent = 4; # Any additional indentations
# In the usage (signature) section of entries, how many spaces should separate
# the return type from the name of the function.
my $usage_ret_name_sep_len = 2;
if (@ARGV) {
my $workdir = shift;
chdir $workdir
or die "Couldn't chdir to '$workdir': $!";
}
require './regen/regen_lib.pl';
require './regen/embed_lib.pl';
# This is the main data structure. Each key is the name of a potential API
# element available to be documentable. Each value is a hash containing
# information about that element, such as its prototype. It is initialized
# from embed.fnc, and added to as we go along.
my %elements;
# This hash is used to organize the data in %elements for output. The top
# level keys are either 'api' or 'intern' for the two pod files generated by
# this program.
#
# Under those are hashes for each section in its corresponding pod. There is
# a section for API elements involved with SV handling; another for AV
# handling, etc.
#
# Under each section are hashes for each group in the section. Each group
# consists of one or more API elements that share the same pod. Each group
# hash contains fields for the common parts of the group, and then an array of
# all the API elements that comprise it. The array determines the ordering of
# the output for the API elements.
#
# The elements are pointers to the leaf nodes in %elements. These contain all
# the information needed to know what to output for each.
my %docs;
# This hash is populated with the names of other pod files that we determine
# contain relevant information about the API elements. It is used just for
# the SEE ALSO section
my %described_elsewhere;
# keys are the full 'Perl_FOO' names in proto.h. values are currently
# unlooked at
my %protos;
my $described_in = "Described in";
my $description_indent = 4;
my $usage_indent = 3; # + initial verbatim block blank yields 4 total
my $AV_scn = 'AV Handling';
my $callback_scn = 'Callback Functions';
my $casting_scn = 'Casting';
my $casing_scn = 'Character case changing';
my $classification_scn = 'Character classification';
my $names_scn = 'Character names';
my $scope_scn = 'Compile-time scope hooks';
my $compiler_scn = 'Compiler and Preprocessor information';
my $directives_scn = 'Compiler directives';
my $concurrency_scn = 'Concurrency';
my $COP_scn = 'COPs and Hint Hashes';
my $CV_scn = 'CV Handling';
my $custom_scn = 'Custom Operators';
my $debugging_scn = 'Debugging';
my $display_scn = 'Display functions';
my $embedding_scn = 'Embedding, Threads, and Interpreter Cloning';
my $errno_scn = 'Errno';
my $exceptions_scn = 'Exception Handling (simple) Macros';
my $filesystem_scn = 'Filesystem configuration values';
my $filters_scn = 'Source Filters';
my $floating_scn = 'Floating point';
my $genconfig_scn = 'General Configuration';
my $globals_scn = 'Global Variables';
my $GV_scn = 'GV Handling and Stashes';
my $hook_scn = 'Hook manipulation';
my $HV_scn = 'HV Handling';
my $io_scn = 'Input/Output';
my $io_formats_scn = 'I/O Formats';
my $integer_scn = 'Integer';
my $lexer_scn = 'Lexer interface';
my $locale_scn = 'Locales';
my $magic_scn = 'Magic';
my $memory_scn = 'Memory Management';
my $MRO_scn = 'MRO';
my $multicall_scn = 'Multicall Functions';
my $numeric_scn = 'Numeric Functions';
my $rpp_scn = 'Reference-counted stack manipulation';
# Now combined, as unclear which functions go where, but separate names kept
# to avoid 1) other code changes; 2) in case it seems better to split again
my $optrees_scn = 'Optrees';
my $optree_construction_scn = $optrees_scn; # Was 'Optree construction';
my $optree_manipulation_scn = $optrees_scn; # Was 'Optree Manipulation Functions'
my $pack_scn = 'Pack and Unpack';
my $pad_scn = 'Pad Data Structures';
my $password_scn = 'Password and Group access';
my $reports_scn = 'Reports and Formats';
my $paths_scn = 'Paths to system commands';
my $prototypes_scn = 'Prototype information';
my $regexp_scn = 'REGEXP Functions';
my $signals_scn = 'Signals';
my $site_scn = 'Site configuration';
my $sockets_scn = 'Sockets configuration values';
my $stack_scn = 'Stack Manipulation Macros';
my $string_scn = 'String Handling';
my $SV_flags_scn = 'SV Flags';
my $SV_scn = 'SV Handling';
my $tainting_scn = 'Tainting';
my $time_scn = 'Time';
my $typedefs_scn = 'Typedef names';
my $unicode_scn = 'Unicode Support';
my $utility_scn = 'Utility Functions';
my $versioning_scn = 'Versioning';
my $warning_scn = 'Warning and Dieing';
my $XS_scn = 'XS';
# Kept separate at end
my $undocumented_scn = 'Undocumented elements';
my %valid_sections = (
$AV_scn => {},
$callback_scn => {},
$casting_scn => {},
$casing_scn => {},
$classification_scn => {},
$scope_scn => {},
$compiler_scn => {},
$directives_scn => {},
$concurrency_scn => {},
$COP_scn => {},
$CV_scn => {
header => <<~'EOT',
This section documents functions to manipulate CVs which are
code-values, meaning subroutines. For more information, see
L<perlguts>.
EOT
},
$custom_scn => {},
$debugging_scn => {},
$display_scn => {},
$embedding_scn => {},
$errno_scn => {},
$exceptions_scn => {},
$filesystem_scn => {
header => <<~'EOT',
Also see L</List of capability HAS_foo symbols>.
EOT
},
$filters_scn => {},
$floating_scn => {
header => <<~'EOT',
Also L</List of capability HAS_foo symbols> lists capabilities
that arent in this section. For example C<HAS_ASINH>, for the
hyperbolic sine function.
EOT
},
$genconfig_scn => {
header => <<~'EOT',
This section contains configuration information not otherwise
found in the more specialized sections of this document. At the
end is a list of C<#defines> whose name should be enough to tell
you what they do, and a list of #defines which tell you if you
need to C<#include> files to get the corresponding functionality.
EOT
footer => <<~EOT,
=head2 List of capability C<HAS_I<foo>> symbols
This is a list of those symbols that dont appear elsewhere in ths
document that indicate if the current platform has a certain
capability. Their names all begin with C<HAS_>. Only those
symbols whose capability is directly derived from the name are
listed here. All others have their meaning expanded out elsewhere
in this document. This (relatively) compact list is because we
think that the expansion would add little or no value and take up
a lot of space (because there are so many). If you think certain
ones should be expanded, send email to
L<perl5-porters\@perl.org|mailto:perl5-porters\@perl.org>.
Each symbol here will be C<#define>d if and only if the platform
has the capability. If you need more detail, see the
corresponding entry in F<$config_h>. For convenience, the list is
split so that the ones that indicate there is a reentrant version
of a capability are listed separately
__HAS_LIST__
And, the reentrant capabilities:
__HAS_R_LIST__
Example usage:
=over $standard_indent
#ifdef HAS_STRNLEN
use strnlen()
#else
use an alternative implementation
#endif
=back
=head2 List of C<#include> needed symbols
This list contains symbols that indicate if certain C<#include>
files are present on the platform. If your code accesses the
functionality that one of these is for, you will need to
C<#include> it if the symbol on this list is C<#define>d. For
more detail, see the corresponding entry in F<$config_h>.
__INCLUDE_LIST__
Example usage:
=over $standard_indent
#ifdef I_WCHAR
#include <wchar.h>
#endif
=back
EOT
},
$globals_scn => {},
$GV_scn => {},
$hook_scn => {},
$HV_scn => {},
$io_scn => {},
$io_formats_scn => {
header => <<~'EOT',
These are used for formatting the corresponding type For example,
instead of saying
Perl_newSVpvf(pTHX_ "Create an SV with a %d in it\n", iv);
use
Perl_newSVpvf(pTHX_ "Create an SV with a " IVdf " in it\n", iv);
This keeps you from having to know if, say an IV, needs to be
printed as C<%d>, C<%ld>, or something else.
EOT
},
$integer_scn => {},
$lexer_scn => {},
$locale_scn => {},
$magic_scn => {},
$memory_scn => {},
$MRO_scn => {},
$multicall_scn => {},
$numeric_scn => {},
$optrees_scn => {},
$optree_construction_scn => {},
$optree_manipulation_scn => {},
$pack_scn => {},
$pad_scn => {},
$password_scn => {},
$paths_scn => {},
$prototypes_scn => {},
$regexp_scn => {},
$reports_scn => {
header => <<~"EOT",
These are used in the simple report generation feature of Perl.
See L<perlform>.
EOT
},
$rpp_scn => {
header => <<~'EOT',
Functions for pushing and pulling items on the stack when the
stack is reference counted. They are intended as replacements
for the old PUSHs, POPi, EXTEND etc pp macros within pp
functions.
EOT
},
$signals_scn => {},
$site_scn => {
header => <<~'EOT',
These variables give details as to where various libraries,
installation destinations, I<etc.>, go, as well as what various
installation options were selected
EOT
},
$sockets_scn => {},
$stack_scn => {},
$string_scn => {
header => <<~EOT,
See also C<L</$unicode_scn>>.
EOT
},
$SV_flags_scn => {},
$SV_scn => {},
$tainting_scn => {},
$time_scn => {},
$typedefs_scn => {},
$unicode_scn => {
header => <<~EOT,
L<perlguts/Unicode Support> has an introduction to this API.
See also C<L</$classification_scn>>,
C<L</$casing_scn>>,
and C<L</$string_scn>>.
Various functions outside this section also work specially with
Unicode. Search for the string "utf8" in this document.
EOT
},
$utility_scn => {},
$versioning_scn => {},
$warning_scn => {},
$XS_scn => {},
);
# The section that is in effect at the beginning of the given file. If not
# listed here, an apidoc_section line must precede any apidoc lines.
# This allows the files listed here that generally are single-purpose, to not
# have to worry about the autodoc section
my %initial_file_section = (
'av.c' => $AV_scn,
'av.h' => $AV_scn,
'cv.h' => $CV_scn,
'deb.c' => $debugging_scn,
'dist/ExtUtils-ParseXS/lib/perlxs.pod' => $XS_scn,
'doio.c' => $io_scn,
'gv.c' => $GV_scn,
'gv.h' => $GV_scn,
'hv.h' => $HV_scn,
'locale.c' => $locale_scn,
'malloc.c' => $memory_scn,
'numeric.c' => $numeric_scn,
'opnames.h' => $optree_construction_scn,
'pad.h'=> $pad_scn,
'patchlevel.h' => $versioning_scn,
'perlio.h' => $io_scn,
'pod/perlapio.pod' => $io_scn,
'pod/perlcall.pod' => $callback_scn,
'pod/perlembed.pod' => $embedding_scn,
'pod/perlfilter.pod' => $filters_scn,
'pod/perliol.pod' => $io_scn,
'pod/perlmroapi.pod' => $MRO_scn,
'pod/perlreguts.pod' => $regexp_scn,
'pp_pack.c' => $pack_scn,
'pp_sort.c' => $SV_scn,
'regcomp.c' => $regexp_scn,
'regexp.h' => $regexp_scn,
'sv.h' => $SV_scn,
'sv.c' => $SV_scn,
'sv_inline.h' => $SV_scn,
'taint.c' => $tainting_scn,
'unicode_constants.h' => $unicode_scn,
'utf8.c' => $unicode_scn,
'utf8.h' => $unicode_scn,
'vutil.c' => $versioning_scn,
);
sub where_from_string ($file, $line_num = 0) {
# Returns a string of hopefully idiomatic text about the location given by
# the input parameters. The line number is not always available, and this
# centralizes into one function the logic to deal with that
return "in $file" unless $line_num;
return "at $file, line $line_num";
}
sub check_and_add_proto_defn {
my ($element, $file, $line_num, $raw_flags, $ret_type, $args_ref,
$definition_type
) = @_;
# This function constructs a hash describing what we know so far about the
# API element '$element', as determined by 'apidoc'-type lines scattered
# throughout the source code tree.
#
# This includes how to use it, and if documentation is expected for it,
# and if any such documentation has been found. (The documentation itself
# is stored separately, as any number of elements may share the same pod.)
#
# Except in limited circumstances, only one definition is allowed; that is
# checked for.
#
# The parameters: $flags, $ret_type, and $args_ref are sufficient to
# define the usage. They are checked for legality, to the limited extent
# possible. The arguments may include conventions like NN, which is a
# hint internal to embed.fnc, but which someone using the API should not
# be expected to know. This function strips those.
#
# As we parse the source, we may find an apidoc-type line that refers to
# $element before we have found the usage information. A hash is
# constructed in this case that is effectively a place-holder for the
# usage, waiting to be filled in later in the parse. A place-holder call
# is signalled by all three mentioned parameters being empty. These
# lines, however, are markers in the code where $element is documented.
# So they indicate that there is pod available for it. That information
# is added to the hash.
#
# It is possible for this to be called with a line that both defines the
# usage signature for $element, and marks the place in the source where
# the documentation is found. Handling that happens naturally here.
# This definition type is currently used only by config.h. See comments
# at the definition of this line type. If there is an existing prototype
# definition, defer to that (by setting the parameters to empty);
# otherwise use the one passed in.
if ($definition_type == CONDITIONAL_APIDOC) {
if (exists $elements{$element}) {
my @dummy;
$raw_flags = "";
$ret_type = "";
$args_ref = \@dummy;
}
$definition_type = PLAIN_APIDOC;
}
my $flags = $raw_flags =~ s/$irrelevant_flags_re//gr;
my $illegal_flags = $flags =~ s/$known_flags_re//gr;
if ($illegal_flags) {
die "flags [$illegal_flags] not legal for function"
. " $element " . where_from_string($file, $line_num);
}
$flags .= "m" if $flags =~ /M/;
my @munged_args= $args_ref->@*;
s/\b(?:NN|NULLOK)\b\s+//g for @munged_args;
my $flags_sans_d = $flags;
my $docs_expected = $flags_sans_d =~ s/d//g;
my $docs_hidden = $flags =~ /h/;
# Does this call define the signature for $element? It always does for
# APIDOC_DEFN lines, and for the other types when one of the usage
# parameters is non-empty, except when the flags indicate the actual
# definition is in some other pod.
my $is_usage_defining_occurrence =
( $definition_type == APIDOC_DEFN
|| ( ! $docs_hidden
&& ( $flags_sans_d
|| $ret_type
|| ($args_ref && $args_ref->@*))));
# Check this new entry against an existing one.
if ( $is_usage_defining_occurrence
&& $elements{$element} && $elements{$element}{proto_defined})
{
# Some functions in embed.fnc have multiple definitions depending
# on the platform's Configuration. Currently we just use the
# first one encountered in that file.
return \$elements{$element}
if $file eq 'embed.fnc'
&& $elements{$element}{file} eq 'embed.fnc';
# Use the existing entry if both it and this new attempt to create
# one have the 'h' flag set. This flag indicates that the entry
# is just a reference to the pod where the element is actually
# documented, so multiple such lines can peacefuly coexist.
return \$elements{$element} if $docs_hidden
&& $elements{$element}{flags} =~ /h/;
die "There already is an existing prototype for '$element' defined "
. where_from_string($elements{$element}{proto_defined}{file},
$elements{$element}{proto_defined}{line_num})
. " new one is " . where_from_string($file, $line_num);
}
# Here, any existing entry for this element is a placeholder. If none,
# create one. If a placeholder entry, override it with this new
# information.
if ($is_usage_defining_occurrence || ! $elements{$element}) {
$elements{$element}{name} = $element;
$elements{$element}{raw_flags} = $raw_flags; # Keep for debugging, etc.
$elements{$element}{flags} = $flags_sans_d;
$elements{$element}{ret_type} =$ret_type;
$elements{$element}{args} = \@munged_args;
$elements{$element}{file} = $file;
$elements{$element}{line_num} = $line_num // 0;
# Don't reset expecting documentation.
$elements{$element}{docs_expected} = $docs_expected
unless $elements{$element}{docs_expected};
if ($is_usage_defining_occurrence) {
$elements{$element}{proto_defined} = {
type => $definition_type,
file => $file,
line_num => $line_num // 0,
};
}
}
# All but this type are for defining pod
if ($definition_type != APIDOC_DEFN) {
if ( $elements{$element}{docs_found}
&& ! $docs_hidden
&& $elements{$element}{flags} !~ /h/ )
{
die "Attempting to document '$element' "
. where_from_string($file, $line_num)
. "; it was already documented "
. where_from_string($elements{$element}{docs_found}{file},
$elements{$element}{docs_found}{line_num});
}
else {
$elements{$element}{docs_found}{file} = $file;
$elements{$element}{docs_found}{line_num} = $line_num // 0;
}
if ($definition_type == PLAIN_APIDOC) {
$elements{$element}{is_leader} = 1;
}
}
return \$elements{$element};
}
sub classify_input_line ($file, $line_num, $input, $is_file_C) {
# Looks at an input line and classifies it as to if it is of use to us or
# not, and if so, what class of apidoc line it is. It looks for common
# typos in the input lines in order to do the classification, but dies
# when one is encountered.
#
# It returns a pair of values. The first is the classification; the
# second the trailing text of the input line, trimmed of leading and
# trailing spaces. This is viewed as the argument.
#
# The returned classification is one of the constants defined at the
# beginning of the program, like NOT_APIDOC.
#
# For NOT_APIDOC only, the returned argument is not trimmed; it is the
# whole line, including any \n.
#
# In C files only, a =head1 line is equivalent to an apidoc_section line,
# so the latter is returned for this case.
# Use simple patterns to quickly rule out lines that are of no interest to
# us, which are the vast majority.
return (NOT_APIDOC, $input)
if $input !~ / api [-_]? doc /x
and (! $is_file_C || $input !~ / head \s* 1 \s+ (.) /x);
# Only the head1 lines have a capture group. That capture was done solely
# to be able to use its existence as a shortcut to distinguish between the
# patterns here.
if (defined $1) {
# We repeat the match above, to handle the case where there is more
# than one head1 strings on the line
return (NOT_APIDOC, $input) unless $input =~ / ^
(\s*) # $1
(=?) # $2
head
(\s*) # $3
1 \s+
(.*) # $4
/x;
# Here, it looks like the line was meant to be a =head1. This is
# equivalent to an apidoc_section line if properly formed
return (APIDOC_SECTION, $4) if length $1 == 0
&& length $2 == 1
&& length $3 == 0;
# Drop down to give error
}
else {
# Here, the input has something like 'apidoc' in it. See if we think
# it was meant to be one.
return (NOT_APIDOC, $input) unless $input =~ / ^
(\s*) # $1
(=?) # $2
(\s*) # $3
(for)? # $4
(\s*) # $5
api
([_-]?) # $6
doc
([-_]?) # $7
(\w*) # $8
(\s*) # $9
(.*?) # $10
\s* \n
/x;
my $type_name = $8;
my $arg = $10;
my $type = ($type_name eq "")
? PLAIN_APIDOC
: ($type_name eq 'item')
? APIDOC_ITEM
: ($type_name eq 'defn')
? APIDOC_DEFN
: ($type_name eq 'section')
? APIDOC_SECTION
: ILLEGAL_APIDOC;
my $mostly_proper_form =
( $type != ILLEGAL_APIDOC
&& length $2 == 1 # Must have '='
&& length $3 == 0 # Must not have space after '='
&& defined $4 # Must have 'for'
&& length $5 > 0 # Must have space after =for
&& length $6 == 0 # 'apidoc' is one word
# plain apidoc has no trailing underscore; others have
# an underscore separator
&& ( ($type == PLAIN_APIDOC && length $7 == 0)
|| ($type != PLAIN_APIDOC && $7 eq '_'))
# Must have space before argument except if
# apidoc_item and first char of arg is '|'
&& ( length $9 != 0
|| ( $type == APIDOC_ITEM
&& substr($10, 0, 1) eq '|')));
if ($mostly_proper_form) {
return ($type, $arg) if length $1 == 0; # Is fully correct if left
# justified
# Ordinarily not being left justified is an error, but special
# case perlguts which has examples of how to use apidoc in
# verbatim blocks, which we don't want to confuse with a real
# instance and reject because it isn't left justified. Use a
# precise indent to get the precise lines that have this.
return (NOT_APIDOC, $input) if length $1 == 1
&& $file eq 'pod/perlguts.pod';
}
}
chomp $input;
my $where_from = where_from_string($file, $line_num);
die <<~EOS;
'$input' $where_from is not of proper form
Expected ([...] means optional; | is literal, not a meta char):
=for apidoc name
=for apidoc [flags] | [returntype] | name [|arg1] [|arg2] [|...]
=for apidoc_item name
=for apidoc_item [flags] | [returntype] | name [|arg1] [|arg2] [|...]
=for apidoc_defn flags|returntype|name[|arg|arg|...]
=for apidoc_section name
=for apidoc_section \$variable
EOS
}
sub handle_apidoc_line ($file, $line_num, $type, $arg) {
# This just does a couple of checks that would otherwise have to be
# duplicated in the calling code, and calls check_and_add_proto_defn() to
# do the real work.
my $proto_as_written = $arg;
my $proto = $proto_as_written;
$proto = "||$proto" if $proto !~ /\|/;
my ($flags, $ret_type, $name, @args) = split /\s*\|\s*/, $proto;
if ($type == APIDOC_ITEM) {
if (my $non_item_flags = $flags =~ s/$item_flags_re//gr) {
die "[$non_item_flags] illegal in apidoc_item "
. where_from_string($file, $line_num)
. " :\n$arg";
}
}
if ($flags =~ /#/) {
die "Return type must be empty for '$name' "
. where_from_string($file, $line_num) if $ret_type;
$ret_type = '#ifdef';
}
warn ("'$name' not \\w+ in '$proto_as_written' "
. where_from_string($file, $line_num))
if $flags !~ /N/
&& $name !~ / ^ (?:struct\s+)? [_[:alpha:]] \w* $ /x;
# Here, done handling any existing information about this element. Add
# this definition (which has the side effect of cleaning up any NN or
# NULLOK in @args)
my $updated = check_and_add_proto_defn($name, $file, $line_num,
# The fact that we have this line somewhere in the source
# code means we implicitly have the 'd' flag
$flags . "d",
$ret_type, \@args,
$type);
return $updated;
}
sub destination_pod ($flags) { # Into which pod should the element go whose
# flags are $1
return "unknown" if $flags eq "";
return $api if $flags =~ /A/;
return $intern;
}
sub autodoc ($fh, $file) { # parse a file and extract documentation info
my $section = $initial_file_section{$file}
if defined $initial_file_section{$file};
my $file_is_C = $file =~ / \. [ch] $ /x;
# Count lines easier and handle apidoc continuation lines
my $line_num;
my $prev_type;
my $prev_arg;
my $do_unget = 0;
my $unget_next_line = sub () {
die "Attempt to unget more than one line" if $do_unget;
$do_unget = 1;
};
# Reads, categorizes, and returns the relevant portion of the next input
# line, while joining apidoc-type lines that have continuations into a
# single line. For non-apidoc-type lines, the possibility of continuation
# lines is not considered (avoiding unintended consequences). For these,
# the entire line is returned, including trailing \n.
#
# For apidoc-type lines, only the argument portion of the line is
# returned, chomped. (The returned type tells you what the beginning
# was.) A continuation happens when the final non-space character on it
# is a backslash.
#
# (If a non-api-doc line ends with a backslash, and the next line looks
# like an apidoc-ish line, this algorithm causes it to be treated as an
# apidoc line. This might be considered a bug, or the right thing to do.)
my $get_next_line = sub {
if ($do_unget) {
$do_unget = 0;
return ($prev_type, $prev_arg);
}
my $contents = <$fh>;
if (! defined $contents) {
undef $prev_type;
undef $prev_arg;
return;
}
$line_num++;
($prev_type, $prev_arg) = classify_input_line($file, $line_num,
$contents,
$file_is_C);
return ($prev_type, $prev_arg) if $prev_type == NOT_APIDOC;
# Replace all spaces around a backslash at the end of a line with
# a single space to prepare for the continuation line to be joined
# with this. (This includes lines with spaces betweeen the
# backslash and \n, since a human reader would not readily see the
# distinction.)
while ($prev_arg =~ s/ \s* \\ \s* $ / /x) {
my $next = <$fh>;
last unless defined $next;
$line_num++;
$prev_arg .= $next;
}
return ($prev_type, $prev_arg);
};
# Read the file. Most lines are of no interest to this program, but
# individual 'apidoc_defn' lines are, as well as are blocks introduced by
# 'apidoc_section' and 'apidoc'. Text in those blocks is used
# respectively for the section heading or pod. Between plain 'apidoc'
# lines and its pod, may be any number of 'apidoc_item' lines that give
# additional api elements that the pod applies to.
my $destpod;
while (1) {
my ($outer_line_type, $arg) = $get_next_line->();
last unless defined $outer_line_type;
next if $outer_line_type == NOT_APIDOC;
my $element_name;
my @items;
my $flags = "";
my $text = "";
if ($outer_line_type == APIDOC_ITEM) {
die "apidoc_item doesn't immediately follow an apidoc entry:"
. " '$arg' " . where_from_string($file, $line_num);
}
elsif ($outer_line_type == APIDOC_DEFN) {
handle_apidoc_line($file, $line_num, $outer_line_type, $arg);
next; # 'handle_apidoc_line' handled everything for this type
}
elsif ($outer_line_type == APIDOC_SECTION) {
# Here the line starts a new section ...
$section = $arg;
# Convert $foo to its value
if ($section =~ / ^ \$ /x) {
$section .= '_scn' unless $section =~ / _scn $ /x;
$section = eval "$section";
die "Unknown \$section variable '$section' "
. where_from_string($file, $line_num) . "\n$@" if $@;
}
die "Unknown section name '$section' in $file near line $line_num\n"
unless defined $valid_sections{$section};
# Drop down to accumulate the heading text for this section.
}
elsif ($outer_line_type == PLAIN_APIDOC) {
my $leader_ref =
handle_apidoc_line($file, $line_num, $outer_line_type, $arg);
$destpod = destination_pod($$leader_ref->{flags});
push @items, $leader_ref;
# Now look for any 'apidoc_item' lines. These are in a block
# consisting solely of them, or all-blank lines
while (1) {
(my $item_line_type, $arg) = $get_next_line->();
last unless defined $item_line_type;
# Absorb blank lines
if ($item_line_type == NOT_APIDOC && $arg !~ /\S/) {
$text .= $arg;
next;
}
last unless $item_line_type == APIDOC_ITEM;
# Reset $text; those blank lines it contains merely are
# separating 'apidoc_item' lines
$text = "";
my $item_ref =
handle_apidoc_line($file, $line_num, $item_line_type, $arg);
push @items, $item_ref;
}
# Put back the line that terminated this block of items, so that
# the code below will get it as the first line.
$unget_next_line->();
# Drop down to accumulate the pod for this group. $text contains
# any blank lines that follow the final 'apidoc_item' line.
# $input is the next line to process
}
else {
die "Unknown apidoc-type line '$arg' "
. where_from_string($file, $line_num);
}
# Here, we are ready to accumulate text into either a heading, or the
# pod for an apidoc line. $text may already contain blank lines that
# are part ot this text.
#
# Accumulation stops at a terminating line, which is one of:
# 1) =cut
# 2) =headN (N must be 1 in a C file)
# 3) an end comment line in a C file: m: ^ \s* [*] / :x
# 4) =for apidoc... (except apidoc_item lines)
my $head_ender_num = ($file_is_C) ? 1 : "";
while (1) {
my ($inner_line_type, $inner_arg) = $get_next_line->();
last unless defined $inner_line_type;
last unless $inner_line_type == NOT_APIDOC;
last if $inner_arg =~ /^=cut/x;
last if $inner_arg =~ /^=head$head_ender_num/;
if ($file_is_C && $inner_arg =~ m: ^ \s* \* / $ :x) {
# End of comment line in C files is a fall-back
# terminator, but warn only if there actually is some
# accumulated text
warn "=cut missing? "
. where_from_string($file, $line_num)
. "\n$inner_arg" if $text =~ /\S/;
last;
}
$text .= $inner_arg;
}
# Here, are done accumulating the text for this element. Trim it
$text =~ s/ ^ \s* //x;
$text =~ s/ \s* $ //x;