# the filter for the PDL pod format (which is a valid general perl
# pod format but with special interpretation of some =for directives)
package PDL::PodParser;
use PDL::Core '';
use Pod::Select;
use File::Spec;
use File::Basename;
@ISA = qw(Pod::Select);
%Title = ('Example' => 'Example',
'Ref' => 'Reference',
'Sig' => 'Signature',
'Opt' => 'Options',
'Usage' => 'Usage',
'Bad' => 'Bad value support',
);
sub new {
my $class = shift;
my $parser = $class->SUPER::new(@_);
bless $parser,$class; # just in case
$parser->select("METHODS|OPERATORS|CONTRUCTORS|FUNCTIONS|NAME");
$parser->{CURFUNC} = undef;
$parser->{SYMHASH} = {};
$parser->{INBLOCK} = 0;
$parser->{Mode} = "";
$parser->{verbose} = 0;
$parser->{NAME} = 'UNKNOWN';
return $parser;
}
sub command {
my ($this,$cmd,$txt,$line_num,$pod_para) = @_;
$this->{Parmode} = 'Body';
if ($cmd eq 'head1') {
$this->{Mode} = $txt;
$this->{Parmode} = 'Body';
$this->{Parmode} = 'NAME' if $txt =~ /NAME/;
} elsif ($this->{Mode} =~ /NAME/) {
# do nothing (was 'last' but that was probably a mistake)
} elsif ($cmd eq 'head2') {
# A function can have multiple names (ex: zeros and zeroes),
# so split at the commas
my @funcs = split(',',$txt);
# Remove parentheses (so myfunc and myfunc() both work)
my @names = map {$1 if m/\s*([^\s(]+)\s*/} @funcs;
barf "error parsing function list '$txt'"
unless $#funcs == $#names;
# check for signatures
my $sym = $this->{SYMHASH};
for (@funcs) {
$sym->{$1}->{Module} = $this->{NAME} if m/\s*([^\s(]+)\s*/;
$sym->{$1}->{Sig} = $2 if m/\s*([^\s(]+)\s*\(\s*(.+)\s*\)\s*$/;
}
# make the first one the current function
$sym->{$names[0]}->{Names} = join(',',@names) if $#names > 0;
my $name = shift @names;
# Make the other names cross-reference the first name
$sym->{$_}->{Crossref} = $name for (@names);
my $sig = $sym->{$name}->{Sig};
# diagnostic output
print "\nFunction '".join(',',($name,@names))."'\n" if $this->{verbose};
print "\n\tSignature: $sig\n" if defined $sig && $this->{verbose};
$this->{CURFUNC} = $name;
} elsif ($cmd eq 'for') {
$this->check_for_mode($txt,$pod_para) if $cmd eq 'for';
}
local $this->{Parmode} = 'Body';
$this->SUPER::command($cmd,$txt,$line_num,$pod_para);
}
sub check_for_mode {
my ($this,$txt,$pod_para) = @_;
if ($txt =~ /^(sig|example|ref|opt|usage|bad|body)/i) {
$this->{Parmode} = ucfirst lc $1;
print "switched now to '$1' mode\n" if $this->{VERBOSE};
print "\n\t$Title{$this->{Parmode}}\n"
unless $this->{Parmode} =~ /Body/ || !$this->{verbose};
}
}
sub textblock {
my $this = shift;
my $txt = shift;
$this->checkmode($txt);
local $this->{INBLOCK} = 1;
$this->SUPER::textblock($txt,@_);
$this->{Parmode} = 'Body'; # and reset parmode
}
sub checkmode {
my ($this,$txt,$verbatim) = @_;
if ($this->{Mode} =~ /NAME/ && $this->{Parmode} =~ /NAME/) {
$this->{NAME} = $1 if $this->trim($txt) =~ /^\s*(\S+)\s*/;
print "\nNAME\t$this->{NAME}\n" if $this->{verbose};
$this->{Parmode} = 'Body';
return;
}
unless ($this->{Parmode} =~ /Body/ || $this->{INBLOCK}) {
my $func = $this->{CURFUNC};
barf "no function defined" unless defined $func;
local $this->{INBLOCK} = 1; # can interpolate call textblock?
my $itxt = $verbatim ? $txt : $this->interpolate($txt);
$this->{SYMHASH}->{$func}->{$this->{Parmode}} .=
$this->trim($itxt,$verbatim);
my $cr = ($verbatim && $this->{Parmode} ne 'Sig') ? "\n" : "";
my $out = "\n\t\t$cr".$this->trim($itxt,$verbatim);
print "$out\n$cr" if $this->{verbose};
}
$this->{Parmode} = 'Body';
}
sub verbatim {
my $this = shift;
my $txt = shift;
$this->checkmode($txt,1);
$this->SUPER::verbatim($txt,@_);
}
# this needs improvement
# and any formatting information should be removed?
# it probably depends
sub trim {
my ($this,$txt,$verbatim) = @_;
my $ntxt = "";
$txt =~ s/(signature|usage):\s*//i if $this->{Parmode} eq 'Sig' ||
$this->{Parmode} eq 'Usage';
if ($this->{Parmode} eq 'Sig') {
$txt =~ s/^\s*//;
$txt =~ s/\s*$//;
while( $txt =~ s/^\((.*)\)$/$1/ ) {}; # Strip BALANCED brackets
}
for (split "\n", $txt) {
s/^\s*(.*)\s*$/$1/ unless $verbatim;
$ntxt .= "$_\n" unless m/^\s*$/;
}
# $txt =~ s/^\s*(.*)\s*$/$1/;
chomp $ntxt;
return $ntxt;
}
=head1 NAME
PDL::Doc - support for PDL online documentation
=head1 SYNOPSIS
use PDL::Doc;
$onlinedc = new PDL::Doc ($docfile);
@match = $onlinedc->search('m/slice|clump/');
=head1 DESCRIPTION
An implementation of online docs for PDL.
=head1 Using PDL documentation
PDL::Doc's main use is in the "help" (synonym "?") and "apropos"
(synonym "??") commands in the perldl shell. PDL::Doc provides the
infrastrucure to index and access PDL's documentation through these
commands. There is also an API for direct access to the documentation
database (see below).
The PDL doc system is built on Perl's pod (Plain Old Documentation),
included inline with each module. The PDL core modules are
automatically indexed when PDL is built and installed, and there is
provision for indexing external modules as well.
To include your module's pod into the Perl::Doc index, you should
follow the documentation conventions below.
=head1 PDL documentation conventions
For a package like PDL that has I<a lot> of functions it
is very desirable to have some form of online help to
make it easy for the user to remind himself of names,
calling conventions and typical usage of the multitude
of functions at his disposal. To make it straightforward
to extract the relevant information from the POD documentation
in source files that make up the PDL distribution
certain conventions have been adopted in formatting this
documentation.
The first convention says that all documentation for
PDL functions appears in the POD section introduced
by one of the following:
=head1 FUNCTIONS
=head1 OPERATORS
=head1 METHODS
=head1 CONSTRUCTORS
If you're documenting an object-oriented interface to a class
that your module defines, you should use METHODS and CONSTRUCTORS
as appropriate. If you are simply adding functions to PDL,
use FUNCTIONS and OPERATORS as appropriate.
Individual functions or methods in these section are introduced by
=head2 funcname
where signature is the argumentlist for a PP defined function as
explained in L<PDL::PP>. Generally, PDL documentation is in valid POD
format (see L<perlpod>) but uses the C<=for> directive in a
special way. The C<=for> directive is used to flag to the PDL Pod
parser that information is following that will be used to generate
online help.
The PDL Pod parser recognises the following C<=for> directives:
=over 5
=item Ref
indicates that the one line reference for this function follows,
e.g.,
=for ref
Returns a piddle of lags to parent.
=item Sig
the signature for the current function follows, e.g.,
=for sig
Signature: (a(n), [o]b(), [t]tmp(n))
=item Usage
an indication of the possible calling conventions for the current
function, e.g.,
=for usage
wpic($pdl,$filename[,{ options... }])
=item Opt
lists options for the current function, e.g.,
=for options
CONVERTER => 'ppmtogif', # explicitly specify pbm converter
FLAGS => '-interlaced -transparent 0', # flags for converter
IFORM => 'PGM', # explicitly specify intermediate format
XTRAFLAGS => '-imagename iris', # additional flags to defaultflags
FORMAT => 'PCX', # explicitly specify output image format
COLOR => 'bw', # specify color conversion
LUT => $lut, # use color table information
=item Example
gives examples of typical usage for the current function:
=for example
wpic $pdl, $file;
$im->wpic('web.gif',{LUT => $lut});
for (@images) {
$_->wpic($name[0],{CONVERTER => 'ppmtogif'})
}
=item Bad
provides information on how the function handles bad values (if
C<$PDL:Config{WITH_BADVAL}> is set to 1). The documentation under
this directive should indicate if this function accepts piddles
with bad values and under what circumstances this function might
return piddles with bad values.
=back
The PDL podparser is implemented as a simple state machine. Any of
the above C<=for> statements switches the podparser into a state
where the following paragraph is accepted as information for the
respective field (C<Ref>, C<Usage>, C<Opt>, C<Example> or C<Bad>).
Only the text up to
the end of the current paragraph is accepted, for example:
=for example
($x,$y) = $z->func(1,3); # this is part of the accepted info
$x = func($z,0,1); # this as well
$x = func($c,$d); # but this isn't
To make the resulting pod documentation also easily digestible for the
existing pod filters (pod2man, pod2text, pod2html, etc) the actual
textblock of information must be separated from the C<=for> directive
by at least one blank line. Otherwise, the textblock will be lost in
the translation process when the "normal" podformatters are used. The
general idea behind this format is that it should be easy to extract
the information for online documentation, automatic generation of a
reference card, etc but at the same time the documentation should be
translated by the standard podformatters without loss of contents
(and without requiring any changes in the existing POD format).
The preceding explanations should be further explained by the
following example (extracted from PDL/IO/Misc/misc.pd):
=head2 rcols()
=for ref
Read ASCII whitespaced cols from file into piddles efficiently.
If no columns are specified all are assumed
Will optionally only process lines matching a pattern.
Can take file name or *HANDLE.
=for usage
Usage: ($x,$y,...) = rcols(*HANDLE|"filename", ["/pattern/",$col1, $col2,] ...)
e.g.,
=for example
($x,$y) = rcols 'file1'
($x,$y,$z) = rcols 'file2', "/foo/",3,4
$x = PDL->rcols 'file1';
Note: currently quotes are required on the pattern.
which is translated by, e.g, the standard C<pod2text> converter into:
rcols()
Read ASCII whitespaced cols from file into piddles efficiently.
If no columns are specified all are assumed Will optionally only
process lines matching a pattern. Can take file name or *HANDLE.
Usage: ($x,$y,...) = rcols(*HANDLE|"filename", ["/pattern/",$col1, $col2,] ...)
e.g.,
($x,$y) = rcols 'file1'
($x,$y,$z) = rcols 'file2', "/foo/",3,4
$x = PDL->rcols 'file1';
Note: currently quotes are required on the pattern.
It should be clear from the preceding example that readable output
can be obtained from this format using the standard converters and
the reader will hopefully get a feeling how he can easily intersperse
the special C<=for> directives with the normal POD documentation.
=head2 Which directives should be contained in the documentation
The module documentation should
start with the
=head1 NAME
PDL::Modulename -- do something with piddles
section (as anyway required by C<pod2man>) since the PDL podparser
extracts the name of the module this function belongs to from
that section.
Each function that is I<not> only for internal use by the module
should be documented, introduced with the C<=head2> directive
in the C<=head1 FUNCTIONS> section. The only field that every function
documented along these lines should have is the I<Ref> field preceding
a one line description of its intended functionality (suitable for
inclusion in a concise reference card). PP defined functions (see L<PDL::PP>)
should have a I<Sig> field stating their signature. To facilitate
maintenance of this documentation for such functions the 'Doc' field
has been introduced into the definition of C<pp_def> (see again L<PDL::PP>)
which will take care that name and signature of the so defined function
are documented in this way (for examples of this usage see, for example,
the PDL::Slices module, especially F<slices.pd> and the resulting
F<Slices.pm>). Similarly, the 'BadDoc' field provides a means of
specifying information on how the routine handles the presence of
bad values: this will be autpmatically created if
C<BadDoc> is not supplied, or set to C<undef>.
Furthermore, the documentation for each function should contain
at least one of the I<Usage> or I<Examples> fields. Depending on the
calling conventions for the function under consideration presence
of both fields may be warranted.
If a function has options that should be given as a hash reference in
the form
{Option => Value, ...}
then the possible options (and aproppriate values) should be explained
in the textblock following the C<=for Opt> directive (see example above
and, e.g., PDL::IO::Pic).
It is well possible that some of these conventions appear to be clumsy
at times and the author is keen to hear of any suggestions for better
alternatives.
=cut
package PDL::Doc;
use PDL::Core '';
use IO::File; # for file handles
use File::Basename;
use PDL::Doc::Config;
=head1 INSTANCE METHODS
=head2 new
$onlinedc = new PDL::Doc ('file.pdl',[more files]);
=cut
sub new {
my ($type,@files) = @_;
my $this = bless {},$type;
$this->{File} = [@files];
$this->{Scanned} = [];
$this->{Outfile} = $files[0];
return $this;
}
=head2 addfiles
add another file to the online database associated with this object.
=cut
sub addfiles {
my ($this,@files) = @_;
push @{$this->{File}}, @files;
}
=head2 outfile
set the name of the output file for this online db
=cut
sub outfile {
my ($this,$file) = @_;
$this->{Outfile} = $file if defined $file;
return $this->{Outfile};
}
=head2 ensuredb
Make sure that the database is slurped in
=cut
sub ensuredb {
my ($this) = @_;
while (my $fi = pop @{$this->{File}}) {
open IN, $fi or
barf "can't open database $fi, scan docs first";
binmode IN;
my ($plen,$txt);
while (read IN, $plen,2) {
my ($len) = unpack "S", $plen;
read IN, $txt, $len;
my (@a) = split chr(0), $txt;
my $module = splice @a,1,1;
push(@a, "") unless(@a % 2); # Add null string at end if necessary -- solves bug with missing REF section.
my ($sym, %hash) = @a;
$hash{Dbfile} = $fi; # keep the origin pdldoc.db path
$this->{SYMS}->{$sym}->{$module} = {%hash};
}
close IN;
push @{$this->{Scanned}}, $fi;
}
return $this->{SYMS};
}
=head2 savedb
save the database (i.e., the hash of PDL symbols) to the file associated
with this object.
=cut
sub savedb {
my ($this) = @_;
my $hash = $this->ensuredb();
open OUT, ">$this->{Outfile}" or barf "can't write to symdb $this->{Outfile}";
binmode OUT;
while (my ($name,$mods_hash) = each %$hash) {
next if 0 == scalar(%$mods_hash);
while (my ($module,$val) = each %$mods_hash){
my $fi = $val->{File};
if (File::Spec->file_name_is_absolute($fi) && -f $fi) {
#store paths to *.pm files relative to pdldoc.db
$val->{File} = File::Spec->abs2rel($fi, dirname($this->{Outfile})) ;
}
delete $val->{Dbfile}; # no need to store Dbfile
my $txt = join(chr(0),$name,$module,%$val);
print OUT pack("S",length($txt)).$txt;
}
}
}
=head2 gethash
Return the PDL symhash (e.g. for custom search operations)
The symhash is a multiply nested hash ref with the following structure:
$symhash = {
function_name => {
module::name => {
Module => 'module::name',
Sig => 'signature string',
Bad => 'bad documentation string',
...
},
},
function_name => {
module::name => {
Module => 'module::name',
Sig => 'signature string',
Bad => 'bad documentation string',
...
},
},
}
The three-layer structure is designed to allow the symhash (and the
underlying database) to handle functions that have the same name but
reside in different module namespaces.
The possible keys for each function/module entry include:
Module - module name
Sig - signature
Crossref - the function name for the documentation, if it has multiple
names (ex: the documentation for zeros is under zeroes)
Names - a comma-separated string of all the function's names
Example - example text (optional)
Ref - one-line reference string
Opt - options
Usage - short usage explanation
Bad - explanation of behavior when it encounters bad values
=cut
sub gethash {
return $_[0]->ensuredb();
}
=head2 search
Search a PDL symhash
=for usage
$onldc->search($regex, $fields [, $sort])
Searching is by default case insensitive. Other flags can be
given by specifying the regexp in the form C<m/regex/ismx>
where C</> can be replaced with any other non-alphanumeric
character. $fields is an array reference for all hash fields
(or simply a string if you only want to search one field)
that should be matched against the regex. Valid fields are
Name, # name of the function
Module, # module the function belongs to
Ref, # the one-line reference description
Example, # the example for this function
Opt, # options
File, # the path to the source file these docs have been extracted from
If you wish to have your results sorted by function name, pass a true
value for C<$sort>.
The results will be returned as an array of triplets in the form
@results = (
[funcname, module, {SYMHASH_ENTRY}],
[funcname, module, {SYMHASH_ENTRY}],
...
);
See the example at the end of the documentation to see how you might
use this.
=cut
sub search {
my ($this,$pattern,$fields,$sort) = @_;
$sort = 0 unless defined $sort;
my $hash = $this->ensuredb;
my @match = ();
# Make a single scalar $fields work
$fields = [$fields] if ref($fields) eq '';
$pattern = $this->checkregex($pattern);
while (my ($name,$mods_hash) = each %$hash) {
while (my ($module,$val) = each %$mods_hash){
FIELD: for (@$fields) {
if ($_ eq 'Name' and $name =~ /$pattern/i
or defined $val->{$_} and $val->{$_} =~ /$pattern/i) {
$val = $hash->{$val->{Crossref}}->{$module} #we're going to assume that any Crossref'd documentation is also in this module
if defined $val->{Crossref} && defined $hash->{$val->{Crossref}}->{$module};
push @match, [$name,$module,$val];
last FIELD;
}
}
}
}
@match = sort {$a->[0] cmp $b->[0]} @match if (@match && $sort);
return @match;
}
# parse a regexp in the form
# m/^[a-z]+/ismx
# where the pairs of '/' can be replaced by any other pair of matching
# characters
# if the expression doesn't start with 'm' followed by a nonalphanumeric
# character, return as-is
sub checkregex {
my ($this,$regex) = @_;
return "(?i)$regex" unless $regex =~ /^m[^a-z,A-Z,0-9]/;
my $sep = substr($regex,1,1);
substr($regex,0,2) = '';
$sep = '(?<!\\\\)\\'.$sep; # Avoid '\' before the separator
my ($pattern,$mod) = split($sep,$regex,2);
barf "unknown regex modifiers '$mod'" if $mod && $mod !~ /[imsx]+/;
$pattern = "(?$mod)$pattern" if $mod;
return $pattern;
}
=head2 scan
Scan a source file using the PDL podparser to extract information
for online documentation
=cut
sub scan {
my ($this,$file,$verbose) = @_;
$verbose = 0 unless defined $verbose;
barf "can't find file '$file'" unless -f $file;
# First HTMLify file in the tree
# Does not work yet
#if (system ("pod2html $file")!=0) {
# warn "Failed to execute command: pod2html $file2\n";
#}
#else{ # Rename result (crummy pod2html)
# rename ("$file.html","$1.html") if $file =~ /^(.*)\.pm$/;
#}
# Now parse orig pm/pod
my $infile = new IO::File $file;
# XXXX convert to absolute path
# my $outfile = '/tmp/'.basename($file).'.pod';
open my $outfile, '>', \(my $outfile_text);
# Handle RPM etc. case where we are building away from the final
# location. Alright it's a hack - KGB
my $file2 = $file;
$file2 =~ s/^$ENV{BUILDROOTPREFIX}// if $ENV{BUILDROOTPREFIX} ne "";
my $parser = new PDL::PodParser;
$parser->{verbose} = $verbose;
eval { $parser->parse_from_filehandle($infile,$outfile) };
warn "cannot parse '$file'" if $@;
$this->{SYMS} = {} unless defined $this->{SYMS};
my $hash = $this->{SYMS};
my @stats = stat $file;
$this->{FTIME}->{$file2} = $stats[9]; # store last mod time
# print "mtime of $file: $stats[9]\n";
my $phash = $parser->{SYMHASH};
my $n = 0;
while (my ($key,$val) = each %$phash) {
$n++;
$val->{File} = $file2;
#set up the 3-layer hash/database structure: $hash->{funcname}->{PDL::SomeModule} = $val
if (defined($val->{Module})){
$hash->{$key}->{$val->{Module}} = $val;
} else {
warn "no Module for $key in $file2\n";
}
}
# KGB pass2 - scan for module name and function
# alright I admit this is kludgy but it works
# and one can now find modules with 'apropos'
$infile = new IO::File $file;
$outfile_text = '';
$parser = new PDL::PodParser;
$parser->select('NAME');
eval { $parser->parse_from_filehandle($infile,$outfile) };
warn "cannot parse '$file'" if $@;
my @namelines = split("\n",$outfile_text);
my ($name,$does);
for (@namelines) {
if (/^(PDL) (-) (.*)/ or /^\s*(Inline::Pdlpp)\s*(-*)?\s*(.*)\s*$/ or /\s*(PDL::[\w:]*)\s*(-*)?\s*(.*)\s*$/) {
$name = $1; $does = $3;
}
if (/^\s*([a-z][a-z0-9]*) (-+) (.*)/) { # lowercase shell script name
$name = $1; $does = $3;
($name,$does) = (undef,undef) unless $does =~ /shell|script/i;
}
}
$does = 'Hmmm ????' if $does =~ /^\s*$/;
my $type = ($file =~ /\.pod$/ ?
($does =~ /shell|script/i && $name =~ /^[a-z][a-z0-9]*$/) ? 'Script:'
: 'Manual:'
: 'Module:');
$hash->{$name}->{$name} = {Ref=>"$type $does",File=>$file2} if $name !~ /^\s*$/;
return $n;
}
=head2 scantree
Scan whole directory trees for online documentation in
C<.pm> (module definition) and C<*.pod> (general
documentation) files (using the File::Find module).
=cut
sub scantree {
my ($this,$dir,$verbose) = @_;
$verbose = 0 unless defined $verbose;
require File::Find;
print "Scanning $dir ... \n\n";
my $ntot = 0;
my $sub = sub { if (($File::Find::name =~ /[.]pm$/ &&
$File::Find::name !~ /PP.pm/ &&
$File::Find::name !~ m|Pod/Parser.pm| &&
$File::Find::dir !~ m#/PP|/Gen#) or (
$File::Find::name =~ /[.]pod$/ &&
$File::Find::name !~ /Index[.]pod$/)){
printf "%-20s", $_.'...';
my $n = $this->scan($File::Find::name,$verbose); # bind $this lexically
print "\t$n functions\n";
$ntot += $n;
}
};
File::Find::find($sub,$dir);
print "\n\nfound $ntot functions\n";
}
=head2 funcdocs
extract the complete documentation about a function from its
source file using the PDL::Pod::Parser filter.
=cut
sub funcdocs {
my ($this,$func,$module,$fout) = @_;
my $hash = $this->ensuredb;
barf "unknown function '$func'" unless defined($hash->{$func});
barf "funcdocs now requires 3 arguments" if UNIVERSAL::isa($module,IO::File);
my $file = $hash->{$func}->{$module}->{File};
my $dbf = $hash->{$func}->{$module}->{Dbfile};
if (!File::Spec->file_name_is_absolute($file) && $dbf) {
$file = File::Spec->rel2abs($file, dirname($dbf));
}
funcdocs_fromfile($func,$file,$fout);
}
=head1 FUNCTIONS
=cut
sub funcdocs_fromfile {
my ($func,$file) = @_;
barf "can't find file '$file'" unless -f $file;
local $SIG{PIPE}= sub {}; # Prevent crashing if user exits the pager
my $in = new IO::File $file;
my $out = ($#_ > 1 && defined($_[2])) ? $_[2] :
new IO::File "| pod2text | $PDL::Doc::pager";
barf "can't open file $file" unless $in;
barf "can't open output handle" unless $out;
getfuncdocs($func,$in,$out);
if (ref $out eq 'GLOB') {
print $out "Docs from $file\n\n"; } else {
$out->print("Docs from $file\n\n"); }
}
sub extrdoc {
my ($func,$file) = @_;
open my $out, '>', \(my $out_text);
funcdocs_fromfile($func,$file,$out);
return $out_text;
}
sub getfuncdocs {
my ($func,$in,$out) = @_;
my $parser = Pod::Select->new;
# $parser->select("\\(METHODS\\|OPERATORS\\|CONSTRUCTORS\\|FUNCTIONS\\|METHODS\\)/$func(\\(.*\\)*\\s*");
foreach my $foo(qw/FUNCTIONS OPERATORS CONSTRUCTORS METHODS/) {
seek $in,0,0;
$parser->select("$foo/(.*,\\s+)*$func(\\(.*\\))*(\\s*|,\\s+.*)");
$parser->parse_from_filehandle($in,$out);
}
}
=head2 add_module
=for usage
use PDL::Doc; PDL::Doc::add_module("my::module");
=for ref
The C<add_module> function allows you to add POD from a particular Perl
module that you've installed somewhere in @INC. It searches for the
active PDL document database and the module's .pod and .pm files, and
scans and indexes the module into the database.
C<add_module> is meant to be added to your module's Makefile as part of the
installation script.
=cut
package PDL::Doc;
sub add_module {
my($module) = shift;
use File::Copy qw{copy};
my($dir, $file, $pdldoc);
local($_);
DIRECTORY:
for(@INC){
$dir = $_;
$file = $dir."/PDL/pdldoc.db";
if( -f $file) {
if(! -w "$dir/PDL") {
die "No write permission at $dir/PDL - not updating docs database.\n";
}
print "Found docs database $file\n";
$pdldoc = new ("PDL::Doc",($file));
last DIRECTORY;
}
}
die "Unable to find docs database - therefore not updating it.\n" unless($pdldoc);
my $mfile = $module;
$mfile =~ s/\:\:/\//g;
for(@INC){
my $postfix;
my $hit = 0;
for $postfix(".pm",".pod") {
my $f = "$_/$mfile$postfix";
if( -e $f ){
$pdldoc->ensuredb();
$pdldoc->scan($f);
eval { $pdldoc->savedb(); };
warn $@ if $@;
print "PDL docs database updated - added $f.\n";
$hit = 1;
}
}
return if($hit);
}
die "Unable to find a .pm or .pod file in \@INC for module $module\n";
}
1;
=head1 PDL::DOC EXAMPLE
Here's an example of how you might use the PDL Doc database in your
own code.
use PDL::Doc;
# Find the pdl documentation
my ($dir,$file,$pdldoc);
DIRECTORY: for $dir (@INC) {
$file = $dir."/PDL/pdldoc.db";
if (-f $file) {
print "Found docs database $file\n";
$pdldoc = new PDL::Doc ($file);
last DIRECTORY;
}
}
die ("Unable to find docs database!\n") unless $pdldoc;
# Print the reference line for zeroes:
print map{$_->{Ref}} values %{$pdldoc->gethash->{zeroes}};
# Or, if you remember that zeroes is in PDL::Core:
print $pdldoc->gethash->{zeroes}->{PDL::Core}->{Ref};
# Get info for all the functions whose examples use zeroes
my @entries = $pdldoc->search('zeroes','Example',1);
# All the functions that use zeroes in their example:
print "Functions that use 'zeroes' in their examples include:\n";
foreach my $entry (@entries) {
# Unpack the entry
my ($func_name, $module, $sym_hash) = @$entry;
print "$func_name\n";
}
print "\n";
#Or, more concisely:
print join("\n",map{$_->[0]}@entries);
# Let's look at the function 'mpdl'
@entries = $pdldoc->search('mpdl', 'Name');
# I know there's only one:
my $entry = $entries[0];
my ($func_name, undef, $sym_hash) = @$entry;
print "mpdl info:\n";
foreach my $key (keys %$sym_hash) {
# Unpack the entry
print "---$key---\n$sym_hash->{$key}\n";
}
=head2 Finding Modules
How can you tell if you've gotten a module for one of your entries?
The Ref entry will begin with 'Module:' if it's a module. In code:
# Prints:
# Module: fundamental PDL functionality and vectorization/threading
print $pdldoc->gethash->{'PDL::Core'}->{'PDL::Core'}->{Ref}, "\n"
=head1 BUGS
Quite a few shortcomings which will hopefully be fixed following
discussions on the pdl-devel mailing list.
=head1 AUTHOR
Copyright 1997 Christian Soeller E<lt>c.soeller@auckland.ac.nzE<gt>
and Karl Glazebrook E<lt>kgb@aaoepp.aao.gov.auE<gt>
Further contributions copyright 2010 David Mertens
E<lt>dcmertens.perl@gmail.comE<gt>
Documentation database restructuring 2019 Derek Lamb
All rights reserved. There is no warranty. You are allowed
to redistribute this software / documentation under certain
conditions. For details, see the file COPYING in the PDL
distribution. If this file is separated from the PDL distribution,
the copyright notice should be included in the file.
=cut
1;