use Config;
use File::Basename qw(&basename &dirname);
+use Cwd;
# List explicitly here the variables you want Configure to
# generate. Metaconfig only looks for shell variables, so you
# This forces PL files to create target in same directory as PL file.
# This is so that make depend always knows where to find PL derivatives.
+my $origdir = cwd;
chdir dirname($0);
-$file = basename($0, '.PL');
+my $file = basename($0, '.PL');
$file .= '.com' if $^O eq 'VMS';
open OUT,">$file" or die "Can't create $file: $!";
print OUT <<'!NO!SUBS!';
+use warnings;
+
=head1 NAME
h2xs - convert .h C header files to Perl extensions
=head1 SYNOPSIS
-B<h2xs> [B<-AOPXcdf>] [B<-v> version] [B<-n> module_name] [B<-p> prefix] [B<-s> sub] [headerfile ... [extra_libraries]]
+B<h2xs> [B<-ACOPXacdfkmx>] [B<-F> addflags] [B<-M> fmask] [B<-n> module_name] [B<-o> tmask] [B<-p> prefix] [B<-s> subs] [B<-v> version] [B<-b> compat_version] [headerfile ... [extra_libraries]]
B<h2xs> B<-h>
=item B<-A>
Omit all autoload facilities. This is the same as B<-c> but also removes the
-S<C<require AutoLoader>> statement from the .pm file.
+S<C<use AutoLoader>> statement from the .pm file.
+
+=item B<-C>
+
+Omits creation of the F<Changes> file, and adds a HISTORY section to
+the POD template.
-=item B<-F>
+=item B<-F> I<addflags>
Additional flags to specify to C preprocessor when scanning header for
-function declarations. Should not be used without B<-x>.
+function declarations. Should not be used without B<-x>.
+
+=item B<-M> I<regular expression>
+
+selects functions/macros to process.
=item B<-O>
=item B<-X>
Omit the XS portion. Used to generate templates for a module which is not
-XS-based.
+XS-based. C<-c> and C<-f> are implicitly enabled.
+
+=item B<-a>
+
+Generate an accessor method for each element of structs and unions. The
+generated methods are named after the element name; will return the current
+value of the element if called without additional arguments; and will set
+the element to the supplied value (and return the new value) if called with
+an additional argument. Embedded structures and unions are returned as a
+pointer rather than the complete structure, to facilitate chained calls.
+
+These methods all apply to the Ptr type for the structure; additionally
+two methods are constructed for the structure type itself, C<_to_ptr>
+which returns a Ptr type pointing to the same structure, and a C<new>
+method to construct and return a new structure, initialised to zeroes.
=item B<-c>
=item B<-f>
Allows an extension to be created for a header even if that header is
-not found in /usr/include.
+not found in standard include directories.
=item B<-h>
Print the usage, help and version for this h2xs and exit.
+=item B<-k>
+
+For function arguments declared as C<const>, omit the const attribute in the
+generated XS code.
+
+=item B<-m>
+
+B<Experimental>: for each variable declared in the header file(s), declare
+a perl variable of the same name magically tied to the C variable.
+
=item B<-n> I<module_name>
Specifies a name to be used for the extension, e.g., S<-n RPC::DCE>
+=item B<-o> I<regular expression>
+
+Use "opaque" data type for the C types matched by the regular
+expression, even if these types are C<typedef>-equivalent to types
+from typemaps. Should not be used without B<-x>.
+
+This may be useful since, say, types which are C<typedef>-equivalent
+to integers may represent OS-related handles, and one may want to work
+with these handles in OO-way, as in C<$handle-E<gt>do_something()>.
+Use C<-o .> if you want to handle all the C<typedef>ed types as opaque types.
+
+The type-to-match is whitewashed (except for commas, which have no
+whitespace before them, and multiple C<*> which have no whitespace
+between them).
+
=item B<-p> I<prefix>
Specify a prefix which should be removed from the Perl function names, e.g., S<-p sec_rgy_>
This sets up the XS B<PREFIX> keyword and removes the prefix from functions that are
-autoloaded via the C<constant()> mechansim.
+autoloaded via the C<constant()> mechanism.
=item B<-s> I<sub1,sub2>
Note that some types of arguments/return-values for functions may
result in XSUB-declarations/typemap-entries which need
hand-editing. Such may be objects which cannot be converted from/to a
-pointer (like C<long long>), pointers to functions, or arrays.
+pointer (like C<long long>), pointers to functions, or arrays. See
+also the section on L<LIMITATIONS of B<-x>>.
+
+=item B<-b> I<version>
+
+Generates a .pm file which is backwards compatible with the specified
+perl version.
+
+For versions < 5.6.0, the changes are.
+ - no use of 'our' (uses 'use vars' instead)
+ - no 'use warnings'
+
+Specifying a compatibility version higher than the version of perl you
+are using to run h2xs will have no effect.
=back
# Same with function declaration in proto.h as visible from perl.h.
h2xs -xAn perl2 perl.h,proto.h
+ # Same but select only functions which match /^av_/
+ h2xs -M '^av_' -xAn perl2 perl.h,proto.h
+
+ # Same but treat SV* etc as "opaque" types
+ h2xs -o '^[S]V \*$' -M '^av_' -xAn perl2 perl.h,proto.h
+
+=head2 Extension based on F<.h> and F<.c> files
+
+Suppose that you have some C files implementing some functionality,
+and the corresponding header files. How to create an extension which
+makes this functionality accessable in Perl? The example below
+assumes that the header files are F<interface_simple.h> and
+I<interface_hairy.h>, and you want the perl module be named as
+C<Ext::Ension>. If you need some preprocessor directives and/or
+linking with external libraries, see the flags C<-F>, C<-L> and C<-l>
+in L<"OPTIONS">.
+
+=over
+
+=item Find the directory name
+
+Start with a dummy run of h2xs:
+
+ h2xs -Afn Ext::Ension
+
+The only purpose of this step is to create the needed directories, and
+let you know the names of these directories. From the output you can
+see that the directory for the extension is F<Ext/Ension>.
+
+=item Copy C files
+
+Copy your header files and C files to this directory F<Ext/Ension>.
+
+=item Create the extension
+
+Run h2xs, overwriting older autogenerated files:
+
+ h2xs -Oxan Ext::Ension interface_simple.h interface_hairy.h
+
+h2xs looks for header files I<after> changing to the extension
+directory, so it will find your header files OK.
+
+=item Archive and test
+
+As usual, run
+
+ cd Ext/Ension
+ perl Makefile.PL
+ make dist
+ make
+ make test
+
+=item Hints
+
+It is important to do C<make dist> as early as possible. This way you
+can easily merge(1) your changes to autogenerated files if you decide
+to edit your C<.h> files and rerun h2xs.
+
+Do not forget to edit the documentation in the generated F<.pm> file.
+
+Consider the autogenerated files as skeletons only, you may invent
+better interfaces than what h2xs could guess.
+
+Consider this section as a guideline only, some other options of h2xs
+may better suit your needs.
+
+=back
+
=head1 ENVIRONMENT
No environment variables are used.
The usual warnings if it cannot read or write the files involved.
+=head1 LIMITATIONS of B<-x>
+
+F<h2xs> would not distinguish whether an argument to a C function
+which is of the form, say, C<int *>, is an input, output, or
+input/output parameter. In particular, argument declarations of the
+form
+
+ int
+ foo(n)
+ int *n
+
+should be better rewritten as
+
+ int
+ foo(n)
+ int &n
+
+if C<n> is an input parameter.
+
+Additionally, F<h2xs> has no facilities to intuit that a function
+
+ int
+ foo(addr,l)
+ char *addr
+ int l
+
+takes a pair of address and length of data at this address, so it is better
+to rewrite this function as
+
+ int
+ foo(sv)
+ SV *addr
+ PREINIT:
+ STRLEN len;
+ char *s;
+ CODE:
+ s = SvPV(sv,len);
+ RETVAL = foo(s, len);
+ OUTPUT:
+ RETVAL
+
+or alternately
+
+ static int
+ my_foo(SV *sv)
+ {
+ STRLEN len;
+ char *s = SvPV(sv,len);
+
+ return foo(s, len);
+ }
+
+ MODULE = foo PACKAGE = foo PREFIX = my_
+
+ int
+ foo(sv)
+ SV *sv
+
+See L<perlxs> and L<perlxstut> for additional details.
+
=cut
-my( $H2XS_VERSION ) = ' $Revision: 1.18 $ ' =~ /\$Revision:\s+([^\s]+)/;
+use strict;
+
+
+my( $H2XS_VERSION ) = ' $Revision: 1.21 $ ' =~ /\$Revision:\s+([^\s]+)/;
my $TEMPLATE_VERSION = '0.01';
+my @ARGS = @ARGV;
+my $compat_version = $];
use Getopt::Std;
+use Config;
-sub usage{
- warn "@_\n" if @_;
- die "h2xs [-AOPXcdfh] [-v version] [-n module_name] [-p prefix] [-s subs] [headerfile [extra_libraries]]
+sub usage {
+ warn "@_\n" if @_;
+ die <<EOFUSAGE;
+h2xs [-ACOPXacdfhkmx] [-F addflags] [-M fmask] [-n module_name] [-o tmask] [-p prefix] [-s subs] [-v version] [-b compat_version ] [headerfile [extra_libraries]]
version: $H2XS_VERSION
-A Omit all autoloading facilities (implies -c).
+ -C Omit creating the Changes file, add HISTORY heading to stub POD.
-F Additional flags for C preprocessor (used with -x).
+ -M Mask to select C functions/macros (default is select all).
-O Allow overwriting of a pre-existing extension directory.
-P Omit the stub POD section.
- -X Omit the XS portion.
+ -X Omit the XS portion (implies both -c and -f).
+ -a Generate get/set accessors for struct and union members (used with -x).
-c Omit the constant() function and specialised AUTOLOAD from the XS file.
-d Turn on debugging messages.
-f Force creation of the extension even if the C header does not exist.
-h Display this help message
+ -k Omit 'const' attribute on function arguments (used with -x).
+ -m Generate tied variables for access to declared variables.
-n Specify a name to use for the extension (recommended).
+ -o Regular expression for \"opaque\" types.
-p Specify a prefix which should be removed from the Perl function names.
-s Create subroutines for specified macros.
-v Specify a version number for this extension.
-x Autogenerate XSUBs using C::Scan.
+ -b Specify a perl version to be backwards compatibile with
extra_libraries
are any libraries that might be needed for loading the
extension, e.g. -lm would try to link in the math library.
-";
+EOFUSAGE
}
-getopts("AF:OPXcdfhn:p:s:v:x") || usage;
+getopts("ACF:M:OPXacdfhkmn:o:p:s:v:xb:") || usage;
+use vars qw($opt_A $opt_C $opt_F $opt_M $opt_O $opt_P $opt_X $opt_a $opt_c $opt_d
+ $opt_f $opt_h $opt_k $opt_m $opt_n $opt_o $opt_p $opt_s $opt_v $opt_x
+ $opt_b);
usage if $opt_h;
+if( $opt_b ){
+ usage "You cannot use -b and -m at the same time.\n" if ($opt_b && $opt_m);
+ $opt_b =~ /^\d+\.\d+\.\d+/ ||
+ usage "You must provide the backwards compatibility version in X.Y.Z form. " .
+ "(i.e. 5.5.0)\n";
+ my ($maj,$min,$sub) = split(/\./,$opt_b,3);
+ $compat_version = sprintf("%d.%03d%02d",$maj,$min,$sub);
+}
+
if( $opt_v ){
$TEMPLATE_VERSION = $opt_v;
}
+
+# -A implies -c.
$opt_c = 1 if $opt_A;
-%const_xsub = map { $_,1 } split(/,+/, $opt_s) if $opt_s;
+
+# -X implies -c and -f
+$opt_c = $opt_f = 1 if $opt_X;
+
+my %const_xsub = map { $_,1 } split(/,+/, $opt_s) if $opt_s;
+
+my $extralibs = '';
+
+my @path_h;
while (my $arg = shift) {
if ($arg =~ /^-l/i) {
usage "Must supply header file or module name\n"
unless (@path_h or $opt_n);
+my $fmask;
+my $tmask;
+
+$fmask = qr{$opt_M} if defined $opt_M;
+$tmask = qr{$opt_o} if defined $opt_o;
+my $tmask_all = $tmask && $opt_o eq '.';
+
+if ($opt_x) {
+ eval {require C::Scan; 1}
+ or die <<EOD;
+C::Scan required if you use -x option.
+To install C::Scan, execute
+ perl -MCPAN -e "install C::Scan"
+EOD
+ unless ($tmask_all) {
+ $C::Scan::VERSION >= 0.70
+ or die <<EOD;
+C::Scan v. 0.70 or later required unless you use -o . option.
+You have version $C::Scan::VERSION installed as $INC{'C/Scan.pm'}.
+To install C::Scan, execute
+ perl -MCPAN -e "install C::Scan"
+EOD
+ }
+ if (($opt_m || $opt_a) && $C::Scan::VERSION < 0.73) {
+ die <<EOD;
+C::Scan v. 0.73 or later required to use -m or -a options.
+You have version $C::Scan::VERSION installed as $INC{'C/Scan.pm'}.
+To install C::Scan, execute
+ perl -MCPAN -e "install C::Scan"
+EOD
+ }
+}
+elsif ($opt_o or $opt_F) {
+ warn <<EOD;
+Options -o and -F do not make sense without -x.
+EOD
+}
+
+my @path_h_ini = @path_h;
+my ($name, %fullpath, %prefix, %seen_define, %prefixless, %const_names);
+
+my $module = $opt_n;
if( @path_h ){
+ use Config;
+ use File::Spec;
+ my @paths;
+ if ($^O eq 'VMS') { # Consider overrides of default location
+ # XXXX This is not equivalent to what the older version did:
+ # it was looking at $hadsys header-file per header-file...
+ my($hadsys) = grep s!^sys/!!i , @path_h;
+ @paths = qw( Sys$Library VAXC$Include );
+ push @paths, ($hadsys ? 'GNU_CC_Include[vms]' : 'GNU_CC_Include[000000]');
+ push @paths, qw( DECC$Library_Include DECC$System_Include );
+ }
+ else {
+ @paths = (File::Spec->curdir(), $Config{usrinc},
+ (split ' ', $Config{locincpth}), '/usr/include');
+ }
foreach my $path_h (@path_h) {
$name ||= $path_h;
+ $module ||= do {
+ $name =~ s/\.h$//;
+ if ( $name !~ /::/ ) {
+ $name =~ s#^.*/##;
+ $name = "\u$name";
+ }
+ $name;
+ };
+
if( $path_h =~ s#::#/#g && $opt_n ){
warn "Nesting of headerfile ignored with -n\n";
}
$path_h .= ".h" unless $path_h =~ /\.h$/;
- $fullpath = $path_h;
+ my $fullpath = $path_h;
$path_h =~ s/,.*$// if $opt_x;
- if ($^O eq 'VMS') { # Consider overrides of default location
- if ($path_h !~ m![:>\[]!) {
- my($hadsys) = ($path_h =~ s!^sys/!!i);
- if ($ENV{'DECC$System_Include'}) { $path_h = "DECC\$System_Include:$path_h"; }
- elsif ($ENV{'DECC$Library_Include'}) { $path_h = "DECC\$Library_Include:$path_h"; }
- elsif ($ENV{'GNU_CC_Include'}) { $path_h = 'GNU_CC_Include:' .
- ($hadsys ? '[vms]' : '[000000]') . $path_h; }
- elsif ($ENV{'VAXC$Include'}) { $path_h = "VAXC\$_Include:$path_h"; }
- else { $path_h = "Sys\$Library:$path_h"; }
- }
- }
- elsif ($^O eq 'os2') {
- $path_h = "/usr/include/$path_h"
- if $path_h !~ m#^([a-z]:)?[./]#i and -r "/usr/include/$path_h";
- }
- else {
- $path_h = "/usr/include/$path_h"
- if $path_h !~ m#^[./]# and -r "/usr/include/$path_h";
+ $fullpath{$path_h} = $fullpath;
+
+ # Minor trickery: we can't chdir() before we processed the headers
+ # (so know the name of the extension), but the header may be in the
+ # extension directory...
+ my $tmp_path_h = $path_h;
+ my $rel_path_h = $path_h;
+ my @dirs = @paths;
+ if (not -f $path_h) {
+ my $found;
+ for my $dir (@paths) {
+ $found++, last
+ if -f ($path_h = File::Spec->catfile($dir, $tmp_path_h));
+ }
+ if ($found) {
+ $rel_path_h = $path_h;
+ } else {
+ (my $epath = $module) =~ s,::,/,g;
+ $epath = File::Spec->catdir('ext', $epath) if -d 'ext';
+ $rel_path_h = File::Spec->catfile($epath, $tmp_path_h);
+ $path_h = $tmp_path_h; # Used during -x
+ push @dirs, $epath;
+ }
}
if (!$opt_c) {
- die "Can't find $path_h\n" if ( ! $opt_f && ! -f $path_h );
+ die "Can't find $tmp_path_h in @dirs\n"
+ if ( ! $opt_f && ! -f "$rel_path_h" );
# Scan the header file (we should deal with nested header files)
# Record the names of simple #define constants into const_names
# Function prototypes are processed below.
- open(CH, "<$path_h") || die "Can't open $path_h: $!\n";
+ open(CH, "<$rel_path_h") || die "Can't open $rel_path_h: $!\n";
+ defines:
while (<CH>) {
- if (/^#[ \t]*define\s+([\$\w]+)\b\s*[^("]/) {
- print "Matched $_ ($1)\n" if $opt_d;
- $_ = $1;
+ if (/^[ \t]*#[ \t]*define\s+([\$\w]+)\b(?!\()\s*(?=[^" \t])(.*)/) {
+ my $def = $1;
+ my $rest = $2;
+ $rest =~ s!/\*.*?(\*/|\n)|//.*!!g; # Remove comments
+ $rest =~ s/^\s+//;
+ $rest =~ s/\s+$//;
+ # Cannot do: (-1) and ((LHANDLE)3) are OK:
+ #print("Skip non-wordy $def => $rest\n"),
+ # next defines if $rest =~ /[^\w\$]/;
+ if ($rest =~ /"/) {
+ print("Skip stringy $def => $rest\n") if $opt_d;
+ next defines;
+ }
+ print "Matched $_ ($def)\n" if $opt_d;
+ $seen_define{$def} = $rest;
+ $_ = $def;
next if /^_.*_h_*$/i; # special case, but for what?
if (defined $opt_p) {
if (!/^$opt_p(\d)/) {
warn "can't remove $opt_p prefix from '$_'!\n";
}
}
- $const_names{$_}++;
+ $prefixless{$def} = $_;
+ if (!$fmask or /$fmask/) {
+ print "... Passes mask of -M.\n" if $opt_d and $fmask;
+ $const_names{$_}++;
+ }
}
}
close(CH);
}
}
- @const_names = sort keys %const_names;
}
-$module = $opt_n || do {
- $name =~ s/\.h$//;
- if( $name !~ /::/ ){
- $name =~ s#^.*/##;
- $name = "\u$name";
- }
- $name;
-};
-(chdir 'ext', $ext = 'ext/') if -d 'ext';
+my ($ext, $nested, @modparts, $modfname, $modpname);
+
+$ext = chdir 'ext' ? 'ext/' : '';
if( $module =~ /::/ ){
$nested = 1;
if ($opt_O) {
warn "Overwriting existing $ext$modpname!!!\n" if -e $modpname;
-} else {
+}
+else {
die "Won't overwrite existing $ext$modpname\n" if -e $modpname;
}
if( $nested ){
- $modpath = "";
+ my $modpath = "";
foreach (@modparts){
mkdir("$modpath$_", 0777);
$modpath .= "$_/";
my %types_seen;
my %std_types;
-my $fdecls;
-my $fdecls_parsed;
+my $fdecls = [];
+my $fdecls_parsed = [];
+my $typedef_rex;
+my %typedefs_pre;
+my %known_fnames;
+my %structs;
+
+my @fnames;
+my @fnames_no_prefix;
+my %vdecl_hash;
+my @vdecls;
if( ! $opt_X ){ # use XS, unless it was disabled
open(XS, ">$modfname.xs") || die "Can't create $ext$modpname/$modfname.xs: $!\n";
if ($opt_x) {
- require C::Scan; # Run-time directive
require Config; # Run-time directive
warn "Scanning typemaps...\n";
get_typemap();
- my $c;
- my $filter;
- my @fdecls;
- foreach my $filename (@path_h) {
+ my @td;
+ my @good_td;
my $addflags = $opt_F || '';
- if ($fullpath =~ /,/) {
- $filename = $`;
- $filter = $';
+
+ foreach my $filename (@path_h) {
+ my $c;
+ my $filter;
+
+ if ($fullpath{$filename} =~ /,/) {
+ $filename = $`;
+ $filter = $';
+ }
+ warn "Scanning $filename for functions...\n";
+ $c = new C::Scan 'filename' => $filename, 'filename_filter' => $filter,
+ 'add_cppflags' => $addflags, 'c_styles' => [qw(C++ C9X)];
+ $c->set('includeDirs' => ["$Config::Config{archlib}/CORE"]);
+
+ push @$fdecls_parsed, @{ $c->get('parsed_fdecls') };
+ push(@$fdecls, @{$c->get('fdecls')});
+
+ push @td, @{$c->get('typedefs_maybe')};
+ if ($opt_a) {
+ my $structs = $c->get('typedef_structs');
+ @structs{keys %$structs} = values %$structs;
+ }
+
+ if ($opt_m) {
+ %vdecl_hash = %{ $c->get('vdecl_hash') };
+ @vdecls = sort keys %vdecl_hash;
+ for (local $_ = 0; $_ < @vdecls; ++$_) {
+ my $var = $vdecls[$_];
+ my($type, $post) = @{ $vdecl_hash{$var} };
+ if (defined $post) {
+ warn "Can't handle variable '$type $var $post', skipping.\n";
+ splice @vdecls, $_, 1;
+ redo;
+ }
+ $type = normalize_type($type);
+ $vdecl_hash{$var} = $type;
+ }
+ }
+
+ unless ($tmask_all) {
+ warn "Scanning $filename for typedefs...\n";
+ my $td = $c->get('typedef_hash');
+ # eval {require 'dumpvar.pl'; ::dumpValue($td)} or warn $@ if $opt_d;
+ my @f_good_td = grep $td->{$_}[1] eq '', keys %$td;
+ push @good_td, @f_good_td;
+ @typedefs_pre{@f_good_td} = map $_->[0], @$td{@f_good_td};
+ }
+ }
+ { local $" = '|';
+ $typedef_rex = qr(\b(?<!struct )(?:@good_td)\b) if @good_td;
+ }
+ %known_fnames = map @$_[1,3], @$fdecls_parsed; # [1,3] is NAME, FULLTEXT
+ if ($fmask) {
+ my @good;
+ for my $i (0..$#$fdecls_parsed) {
+ next unless $fdecls_parsed->[$i][1] =~ /$fmask/; # [1] is NAME
+ push @good, $i;
+ print "... Function $fdecls_parsed->[$i][1] passes -M mask.\n"
+ if $opt_d;
+ }
+ $fdecls = [@$fdecls[@good]];
+ $fdecls_parsed = [@$fdecls_parsed[@good]];
+ }
+ @fnames = sort map $_->[1], @$fdecls_parsed; # 1 is NAME
+ # Sort declarations:
+ {
+ my %h = map( ($_->[1], $_), @$fdecls_parsed);
+ $fdecls_parsed = [ @h{@fnames} ];
+ }
+ @fnames_no_prefix = @fnames;
+ @fnames_no_prefix
+ = sort map { ++$prefix{$_} if s/^$opt_p(?!\d)//; $_ } @fnames_no_prefix;
+ # Remove macros which expand to typedefs
+ print "Typedefs are @td.\n" if $opt_d;
+ my %td = map {($_, $_)} @td;
+ # Add some other possible but meaningless values for macros
+ for my $k (qw(char double float int long short unsigned signed void)) {
+ $td{"$_$k"} = "$_$k" for ('', 'signed ', 'unsigned ');
+ }
+ # eval {require 'dumpvar.pl'; ::dumpValue( [\@td, \%td] ); 1} or warn $@;
+ my $n = 0;
+ my %bad_macs;
+ while (keys %td > $n) {
+ $n = keys %td;
+ my ($k, $v);
+ while (($k, $v) = each %seen_define) {
+ # print("found '$k'=>'$v'\n"),
+ $bad_macs{$k} = $td{$k} = $td{$v} if exists $td{$v};
+ }
+ }
+ # Now %bad_macs contains names of bad macros
+ for my $k (keys %bad_macs) {
+ delete $const_names{$prefixless{$k}};
+ print "Ignoring macro $k which expands to a typedef name '$bad_macs{$k}'\n" if $opt_d;
}
- warn "Scanning $filename for functions...\n";
- $c = new C::Scan 'filename' => $filename, 'filename_filter' => $filter,
- 'add_cppflags' => $addflags;
- $c->set('includeDirs' => ["$Config::Config{archlib}/CORE"]);
-
- $fdecls_parsed = $c->get('parsed_fdecls');
- push(@fdecls, @{$c->get('fdecls')});
- }
- $fdecls = [ @fdecls ];
}
}
+my @const_names = sort keys %const_names;
open(PM, ">$modfname.pm") || die "Can't create $ext$modpname/$modfname.pm: $!\n";
$" = "\n\t";
warn "Writing $ext$modpname/$modfname.pm\n";
+if ( $compat_version < 5.006 ) {
print PM <<"END";
package $module;
+use $compat_version;
use strict;
END
+}
+else {
+print PM <<"END";
+package $module;
-if( $opt_X || $opt_c || $opt_A ){
- # we won't have our own AUTOLOAD(), so won't have $AUTOLOAD
- print PM <<'END';
-use vars qw($VERSION @ISA @EXPORT @EXPORT_OK);
+use 5.006;
+use strict;
+use warnings;
END
}
-else{
+
+unless( $opt_X || $opt_c || $opt_A ){
# we'll have an AUTOLOAD(), and it will have $AUTOLOAD and
# will want Carp.
print PM <<'END';
use Carp;
-use vars qw($VERSION @ISA @EXPORT @EXPORT_OK $AUTOLOAD);
END
}
require DynaLoader;
END
-# require autoloader if XS is disabled.
-# if XS is enabled, require autoloader unless autoloading is disabled.
-if( ($opt_X && (! $opt_A)) || (!$opt_X) ) {
- print PM <<"END";
-require AutoLoader;
-END
-}
-
-if( $opt_X || ($opt_c && ! $opt_A) ){
- # we won't have our own AUTOLOAD(), so we'll inherit it.
- if( ! $opt_X ) { # use DynaLoader, unless XS was disabled
- print PM <<"END";
-\@ISA = qw(Exporter AutoLoader DynaLoader);
-END
+# Are we using AutoLoader or not?
+unless ($opt_A) { # no autoloader whatsoever.
+ unless ($opt_c) { # we're doing the AUTOLOAD
+ print PM "use AutoLoader;\n";
}
- else{
- print PM <<"END";
-
-\@ISA = qw(Exporter AutoLoader);
-END
+ else {
+ print PM "use AutoLoader qw(AUTOLOAD);\n"
}
}
-else{
- # 1) we have our own AUTOLOAD(), so don't need to inherit it.
- # or
- # 2) we don't want autoloading mentioned.
- if( ! $opt_X ){ # use DynaLoader, unless XS was disabled
- print PM <<"END";
-\@ISA = qw(Exporter DynaLoader);
-END
- }
- else{
- print PM <<"END";
-
-\@ISA = qw(Exporter);
-END
- }
+if ( $compat_version < 5.006 ) {
+ if ( $opt_X || $opt_c || $opt_A ) {
+ print PM 'use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS);';
+ } else {
+ print PM 'use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS $AUTOLOAD);';
+ }
}
-print PM<<"END";
+# Determine @ISA.
+my $myISA = 'our @ISA = qw(Exporter'; # We seem to always want this.
+$myISA .= ' DynaLoader' unless $opt_X; # no XS
+$myISA .= ');';
+$myISA =~ s/^our // if $compat_version < 5.006;
+
+print PM "\n$myISA\n\n";
+
+my @exported_names = (@const_names, @fnames_no_prefix, map '$'.$_, @vdecls);
+
+my $tmp=<<"END";
# Items to export into callers namespace by default. Note: do not export
# names by default without a very good reason. Use EXPORT_OK instead.
# Do not simply export all your public functions/methods/constants.
-\@EXPORT = qw(
+
+# This allows declaration use $module ':all';
+# If you do not need this, moving things directly into \@EXPORT or \@EXPORT_OK
+# will save memory.
+our %EXPORT_TAGS = ( 'all' => [ qw(
+ @exported_names
+) ] );
+
+our \@EXPORT_OK = ( \@{ \$EXPORT_TAGS{'all'} } );
+
+our \@EXPORT = qw(
@const_names
);
-\$VERSION = '$TEMPLATE_VERSION';
+our \$VERSION = '$TEMPLATE_VERSION';
END
+$tmp =~ s/^our //mg if $compat_version < 5.006;
+print PM $tmp;
+
+if (@vdecls) {
+ printf PM "our(@{[ join ', ', map '$'.$_, @vdecls ]});\n\n";
+}
+
+
+$tmp = ( $compat_version < 5.006 ? "" : "our \$AUTOLOAD;" );
print PM <<"END" unless $opt_c or $opt_X;
sub AUTOLOAD {
# This AUTOLOAD is used to 'autoload' constants from the constant()
# to the AUTOLOAD in AutoLoader.
my \$constname;
+ $tmp
(\$constname = \$AUTOLOAD) =~ s/.*:://;
+ croak "&${module}::constant not defined" if \$constname eq 'constant';
my \$val = constant(\$constname, \@_ ? \$_[0] : 0);
if (\$! != 0) {
- if (\$! =~ /Invalid/) {
+ if (\$! =~ /Invalid/ || \$!{EINVAL}) {
\$AutoLoader::AUTOLOAD = \$AUTOLOAD;
goto &AutoLoader::AUTOLOAD;
}
else {
- croak "Your vendor has not defined $module macro \$constname";
+ croak "Your vendor has not defined $module macro \$constname";
+ }
+ }
+ {
+ no strict 'refs';
+ # Fixed between 5.005_53 and 5.005_61
+ if (\$] >= 5.00561) {
+ *\$AUTOLOAD = sub () { \$val };
+ }
+ else {
+ *\$AUTOLOAD = sub { \$val };
}
}
- eval "sub \$AUTOLOAD { \$val }";
goto &\$AUTOLOAD;
}
END
}
+# tying the variables can happen only after bootstrap
+if (@vdecls) {
+ printf PM <<END;
+{
+@{[ join "\n", map " _tievar_$_(\$$_);", @vdecls ]}
+}
+
+END
+}
+
+my $after;
if( $opt_P ){ # if POD is disabled
$after = '__END__';
}
print PM <<"END";
# Preloaded methods go here.
+END
+
+print PM <<"END" unless $opt_A;
# Autoload methods go after $after, and are processed by the autosplit program.
+END
+
+print PM <<"END";
1;
__END__
END
-$author = "A. U. Thor";
-$email = 'a.u.thor@a.galaxy.far.far.away';
+my ($email,$author);
-my $const_doc = '';
-my $fdecl_doc = '';
-if (@const_names and not $opt_P) {
- $const_doc = <<EOD;
-\n=head1 Exported constants
+eval {
+ my $user;
+ ($user,$author) = (getpwuid($>))[0,6];
+ $author =~ s/,.*$//; # in case of sub fields
+ my $domain = $Config{'mydomain'};
+ $domain =~ s/^\.//;
+ $email = "$user\@$domain";
+ };
+
+$author ||= "A. U. Thor";
+$email ||= 'a.u.thor@a.galaxy.far.far.away';
- @{[join "\n ", @const_names]}
+my $revhist = '';
+$revhist = <<EOT if $opt_C;
+#
+#=head1 HISTORY
+#
+#=over 8
+#
+#=item $TEMPLATE_VERSION
+#
+#Original version; created by h2xs $H2XS_VERSION with options
+#
+# @ARGS
+#
+#=back
+#
+EOT
+my $exp_doc = <<EOD;
+#
+#=head2 EXPORT
+#
+#None by default.
+#
+EOD
+
+if (@const_names and not $opt_P) {
+ $exp_doc .= <<EOD;
+#=head2 Exportable constants
+#
+# @{[join "\n ", @const_names]}
+#
EOD
}
-if (defined $fdecls and @$fdecls and not $opt_P) {
- $fdecl_doc = <<EOD;
-\n=head1 Exported functions
- @{[join "\n ", @$fdecls]}
+if (defined $fdecls and @$fdecls and not $opt_P) {
+ $exp_doc .= <<EOD;
+#=head2 Exportable functions
+#
+EOD
+# $exp_doc .= <<EOD if $opt_p;
+#When accessing these functions from Perl, prefix C<$opt_p> should be removed.
+#
+#EOD
+ $exp_doc .= <<EOD;
+# @{[join "\n ", @known_fnames{@fnames}]}
+#
EOD
}
-$pod = <<"END" unless $opt_P;
-## Below is the stub of documentation for your module. You better edit it!
+my $meth_doc = '';
+
+if ($opt_x && $opt_a) {
+ my($name, $struct);
+ $meth_doc .= accessor_docs($name, $struct)
+ while ($name, $struct) = each %structs;
+}
+
+my $pod = <<"END" unless $opt_P;
+## Below is stub documentation for your module. You better edit it!
#
#=head1 NAME
#
#
#=head1 DESCRIPTION
#
-#Stub documentation for $module was created by h2xs. It looks like the
+#Stub documentation for $module, created by h2xs. It looks like the
#author of the extension was negligent enough to leave the stub
#unedited.
#
#Blah blah blah.
-#$const_doc$fdecl_doc
+$exp_doc$meth_doc$revhist
+#
+#=head1 SEE ALSO
+#
+#Mention other useful documentation such as the documentation of
+#related modules or operating system documentation (such as man pages
+#in UNIX), or any relevant external documentation such as RFCs or
+#standards.
+#
+#If you have a mailing list set up for your module, mention it here.
+#
+#If you have a web site set up for your module, mention it here.
+#
#=head1 AUTHOR
#
-#$author, $email
+#$author, E<lt>${email}E<gt>
#
-#=head1 SEE ALSO
+#=head1 COPYRIGHT AND LICENSE
+#
+#Copyright YEAR(S) by YOUR NAME(s)
#
-#perl(1).
+#This library is free software; you can redistribute it and/or modify
+#it under the same terms as Perl itself.
#
#=cut
END
warn "Writing $ext$modpname/$modfname.xs\n";
print XS <<"END";
-#ifdef __cplusplus
-extern "C" {
-#endif
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
-#ifdef __cplusplus
-}
-#endif
END
if( @path_h ){
- foreach my $path_h (@path_h) {
+ foreach my $path_h (@path_h_ini) {
my($h) = $path_h;
$h =~ s#^/usr/include/##;
if ($^O eq 'VMS') { $h =~ s#.*vms\]#sys/# or $h =~ s#.*[:>\]]##; }
print XS "\n";
}
-if( ! $opt_c ){
-print XS <<"END";
-static int
-not_here(s)
-char *s;
+my %pointer_typedefs;
+my %struct_typedefs;
+
+sub td_is_pointer {
+ my $type = shift;
+ my $out = $pointer_typedefs{$type};
+ return $out if defined $out;
+ my $otype = $type;
+ $out = ($type =~ /\*$/);
+ # This converts only the guys which do not have trailing part in the typedef
+ if (not $out
+ and $typedef_rex and $type =~ s/($typedef_rex)/$typedefs_pre{$1}/go) {
+ $type = normalize_type($type);
+ print "Is-Pointer: Type mutation via typedefs: $otype ==> $type\n"
+ if $opt_d;
+ $out = td_is_pointer($type);
+ }
+ return ($pointer_typedefs{$otype} = $out);
+}
+
+sub td_is_struct {
+ my $type = shift;
+ my $out = $struct_typedefs{$type};
+ return $out if defined $out;
+ my $otype = $type;
+ $out = ($type =~ /^(struct|union)\b/) && !td_is_pointer($type);
+ # This converts only the guys which do not have trailing part in the typedef
+ if (not $out
+ and $typedef_rex and $type =~ s/($typedef_rex)/$typedefs_pre{$1}/go) {
+ $type = normalize_type($type);
+ print "Is-Struct: Type mutation via typedefs: $otype ==> $type\n"
+ if $opt_d;
+ $out = td_is_struct($type);
+ }
+ return ($struct_typedefs{$otype} = $out);
+}
+
+# Some macros will bomb if you try to return them from a double-returning func.
+# Say, ((char *)0), or strlen (if somebody #define STRLEN strlen).
+# Fortunately, we can detect both these cases...
+sub protect_convert_to_double {
+ my $in = shift;
+ my $val;
+ return '' unless defined ($val = $seen_define{$in});
+ return '(IV)' if $known_fnames{$val};
+ # OUT_t of ((OUT_t)-1):
+ return '' unless $val =~ /^\s*(\(\s*)?\(\s*([^()]*?)\s*\)/;
+ td_is_pointer($2) ? '(IV)' : '';
+}
+
+# For each of the generated functions, length($pref) leading
+# letters are already checked. Moreover, it is recommended that
+# the generated functions uses switch on letter at offset at least
+# $off + length($pref).
+#
+# The given list has length($pref) chars removed at front, it is
+# guarantied that $off leading chars in the rest are the same for all
+# elts of the list.
+#
+# Returns: how at which offset it was decided to make a switch, or -1 if none.
+
+sub write_const;
+
+sub write_const {
+ my ($fh, $pref, $off, $list) = (shift,shift,shift,shift);
+ my %leading;
+ my $offarg = length $pref;
+
+ if (@$list == 0) { # Can happen on the initial iteration only
+ print $fh <<"END";
+static double
+constant(char *name, int len, int arg)
{
- croak("$module::%s not implemented on this architecture", s);
- return -1;
+ errno = EINVAL;
+ return 0;
}
+END
+ return -1;
+ }
+
+ if (@$list == 1) { # Can happen on the initial iteration only
+ my $protect = protect_convert_to_double("$pref$list->[0]");
+ print $fh <<"END";
static double
-constant(name, arg)
-char *name;
-int arg;
+constant(char *name, int len, int arg)
{
errno = 0;
- switch (*name) {
+ if (strEQ(name + $offarg, "$list->[0]")) { /* $pref removed */
+#ifdef $pref$list->[0]
+ return $protect$pref$list->[0];
+#else
+ errno = ENOENT;
+ return 0;
+#endif
+ }
+ errno = EINVAL;
+ return 0;
+}
END
+ return -1;
+ }
+
+ for my $n (@$list) {
+ my $c = substr $n, $off, 1;
+ $leading{$c} = [] unless exists $leading{$c};
+ push @{$leading{$c}}, $off < length $n ? substr $n, $off + 1 : $n
+ }
-my(@AZ, @az, @under);
+ if (keys(%leading) == 1) {
+ return 1 + write_const $fh, $pref, $off + 1, $list;
+ }
-foreach(@const_names){
- @AZ = 'A' .. 'Z' if !@AZ && /^[A-Z]/;
- @az = 'a' .. 'z' if !@az && /^[a-z]/;
- @under = '_' if !@under && /^_/;
-}
+ my $leader = substr $list->[0], 0, $off;
+ foreach my $letter (keys %leading) {
+ write_const $fh, "$pref$leader$letter", 0, $leading{$letter}
+ if @{$leading{$letter}} > 1;
+ }
+
+ my $npref = "_$pref";
+ $npref = '' if $pref eq '';
+
+ print $fh <<"END";
+static double
+constant$npref(char *name, int len, int arg)
+{
+END
-foreach $letter (@AZ, @az, @under) {
+ print $fh <<"END" if $npref eq '';
+ errno = 0;
+END
+
+ print $fh <<"END" if $off;
+ if ($offarg + $off >= len ) {
+ errno = EINVAL;
+ return 0;
+ }
+END
+
+ print $fh <<"END";
+ switch (name[$offarg + $off]) {
+END
- last if $letter eq 'a' && !@const_names;
+ foreach my $letter (sort keys %leading) {
+ my $let = $letter;
+ $let = '\0' if $letter eq '';
- print XS " case '$letter':\n";
- my($name);
- while (substr($const_names[0],0,1) eq $letter) {
- $name = shift(@const_names);
- $macro = $prefix{$name} ? "$opt_p$name" : $name;
- next if $const_xsub{$macro};
- print XS <<"END";
- if (strEQ(name, "$name"))
-#ifdef $macro
- return $macro;
+ print $fh <<EOP;
+ case '$let':
+EOP
+ if (@{$leading{$letter}} > 1) {
+ # It makes sense to call a function
+ if ($off) {
+ print $fh <<EOP;
+ if (!strnEQ(name + $offarg,"$leader", $off))
+ break;
+EOP
+ }
+ print $fh <<EOP;
+ return constant_$pref$leader$letter(name, len, arg);
+EOP
+ }
+ else {
+ # Do it ourselves
+ my $protect
+ = protect_convert_to_double("$pref$leader$letter$leading{$letter}[0]");
+
+ print $fh <<EOP;
+ if (strEQ(name + $offarg, "$leader$letter$leading{$letter}[0]")) { /* $pref removed */
+#ifdef $pref$leader$letter$leading{$letter}[0]
+ return $protect$pref$leader$letter$leading{$letter}[0];
#else
goto not_there;
#endif
-END
+ }
+EOP
}
- print XS <<"END";
- break;
-END
-}
-print XS <<"END";
+ }
+ print $fh <<"END";
}
errno = EINVAL;
return 0;
}
END
+
}
-$prefix = "PREFIX = $opt_p" if defined $opt_p;
+if( ! $opt_c ) {
+ print XS <<"END";
+static int
+not_here(char *s)
+{
+ croak("${module}::%s not implemented on this architecture", s);
+ return -1;
+}
+
+END
+
+ write_const(\*XS, '', 0, \@const_names);
+}
+
+print_tievar_subs(\*XS, $_, $vdecl_hash{$_}) for @vdecls;
+
+my $prefix = defined $opt_p ? "PREFIX = $opt_p" : '';
+
# Now switch from C to XS by issuing the first MODULE declaration:
print XS <<"END";
CODE:
#ifdef $_
- RETVAL = $_;
+ RETVAL = $_;
#else
- croak("Your vendor has not defined the $module macro $_");
+ croak("Your vendor has not defined the $module macro $_");
#endif
OUTPUT:
- RETVAL
+ RETVAL
END
}
print XS <<"END" unless $opt_c;
double
-constant(name,arg)
- char * name
+constant(sv,arg)
+ PREINIT:
+ STRLEN len;
+ INPUT:
+ SV * sv
+ char * s = SvPV(sv, len);
int arg
+ CODE:
+ RETVAL = constant(s,len,arg);
+ OUTPUT:
+ RETVAL
END
my %seen_decl;
-
+my %typemap;
sub print_decl {
my $fh = shift;
return if $seen_decl{$name}++; # Need to do the same for docs as well?
my @argnames = map {$_->[1]} @$args;
- my @argtypes = map { normalize_type( $_->[0] ) } @$args;
+ my @argtypes = map { normalize_type( $_->[0], 1 ) } @$args;
+ if ($opt_k) {
+ s/^\s*const\b\s*// for @argtypes;
+ }
my @argarrays = map { $_->[4] || '' } @$args;
my $numargs = @$args;
if ($numargs and $argtypes[-1] eq '...') {
$argnames[-1] = '...';
}
local $" = ', ';
- $type = normalize_type($type);
-
+ $type = normalize_type($type, 1);
+
print $fh <<"EOP";
$type
$name(@argnames)
EOP
- for $arg (0 .. $numargs - 1) {
+ for my $arg (0 .. $numargs - 1) {
print $fh <<"EOP";
$argtypes[$arg] $argnames[$arg]$argarrays[$arg]
EOP
}
}
+sub print_tievar_subs {
+ my($fh, $name, $type) = @_;
+ print $fh <<END;
+I32
+_get_$name(IV index, SV *sv) {
+ dSP;
+ PUSHMARK(SP);
+ XPUSHs(sv);
+ PUTBACK;
+ (void)call_pv("$module\::_get_$name", G_DISCARD);
+ return (I32)0;
+}
+
+I32
+_set_$name(IV index, SV *sv) {
+ dSP;
+ PUSHMARK(SP);
+ XPUSHs(sv);
+ PUTBACK;
+ (void)call_pv("$module\::_set_$name", G_DISCARD);
+ return (I32)0;
+}
+
+END
+}
+
+sub print_tievar_xsubs {
+ my($fh, $name, $type) = @_;
+ print $fh <<END;
+void
+_tievar_$name(sv)
+ SV* sv
+ PREINIT:
+ struct ufuncs uf;
+ CODE:
+ uf.uf_val = &_get_$name;
+ uf.uf_set = &_set_$name;
+ uf.uf_index = (IV)&_get_$name;
+ sv_magic(sv, 0, 'U', (char*)&uf, sizeof(uf));
+
+void
+_get_$name(THIS)
+ $type THIS = NO_INIT
+ CODE:
+ THIS = $name;
+ OUTPUT:
+ SETMAGIC: DISABLE
+ THIS
+
+void
+_set_$name(THIS)
+ $type THIS
+ CODE:
+ $name = THIS;
+
+END
+}
+
+sub print_accessors {
+ my($fh, $name, $struct) = @_;
+ return unless defined $struct && $name !~ /\s|_ANON/;
+ $name = normalize_type($name);
+ my $ptrname = normalize_type("$name *");
+ print $fh <<"EOF";
+
+MODULE = $module PACKAGE = ${name} $prefix
+
+$name *
+_to_ptr(THIS)
+ $name THIS = NO_INIT
+ PROTOTYPE: \$
+ CODE:
+ if (sv_derived_from(ST(0), "$name")) {
+ STRLEN len;
+ char *s = SvPV((SV*)SvRV(ST(0)), len);
+ if (len != sizeof(THIS))
+ croak("Size \%d of packed data != expected \%d",
+ len, sizeof(THIS));
+ RETVAL = ($name *)s;
+ }
+ else
+ croak("THIS is not of type $name");
+ OUTPUT:
+ RETVAL
+
+$name
+new(CLASS)
+ char *CLASS = NO_INIT
+ PROTOTYPE: \$
+ CODE:
+ Zero((void*)&RETVAL, sizeof(RETVAL), char);
+ OUTPUT:
+ RETVAL
+
+MODULE = $module PACKAGE = ${name}Ptr $prefix
+
+EOF
+ my @items = @$struct;
+ while (@items) {
+ my $item = shift @items;
+ if ($item->[0] =~ /_ANON/) {
+ if (defined $item->[2]) {
+ push @items, map [
+ @$_[0, 1], "$item->[2]_$_->[2]", "$item->[2].$_->[2]",
+ ], @{ $structs{$item->[0]} };
+ } else {
+ push @items, @{ $structs{$item->[0]} };
+ }
+ } else {
+ my $type = normalize_type($item->[0]);
+ my $ttype = $structs{$type} ? normalize_type("$type *") : $type;
+ print $fh <<"EOF";
+$ttype
+$item->[2](THIS, __value = NO_INIT)
+ $ptrname THIS
+ $type __value
+ PROTOTYPE: \$;\$
+ CODE:
+ if (items > 1)
+ THIS->$item->[-1] = __value;
+ RETVAL = @{[
+ $type eq $ttype ? "THIS->$item->[-1]" : "&(THIS->$item->[-1])"
+ ]};
+ OUTPUT:
+ RETVAL
+
+EOF
+ }
+ }
+}
+
+sub accessor_docs {
+ my($name, $struct) = @_;
+ return unless defined $struct && $name !~ /\s|_ANON/;
+ $name = normalize_type($name);
+ my $ptrname = $name . 'Ptr';
+ my @items = @$struct;
+ my @list;
+ while (@items) {
+ my $item = shift @items;
+ if ($item->[0] =~ /_ANON/) {
+ if (defined $item->[2]) {
+ push @items, map [
+ @$_[0, 1], "$item->[2]_$_->[2]", "$item->[2].$_->[2]",
+ ], @{ $structs{$item->[0]} };
+ } else {
+ push @items, @{ $structs{$item->[0]} };
+ }
+ } else {
+ push @list, $item->[2];
+ }
+ }
+ my $methods = (join '(...)>, C<', @list) . '(...)';
+
+ my $pod = <<"EOF";
+#
+#=head2 Object and class methods for C<$name>/C<$ptrname>
+#
+#The principal Perl representation of a C object of type C<$name> is an
+#object of class C<$ptrname> which is a reference to an integer
+#representation of a C pointer. To create such an object, one may use
+#a combination
+#
+# my \$buffer = $name->new();
+# my \$obj = \$buffer->_to_ptr();
+#
+#This exersizes the following two methods, and an additional class
+#C<$name>, the internal representation of which is a reference to a
+#packed string with the C structure. Keep in mind that \$buffer should
+#better survive longer than \$obj.
+#
+#=over
+#
+#=item C<\$object_of_type_$name-E<gt>_to_ptr()>
+#
+#Converts an object of type C<$name> to an object of type C<$ptrname>.
+#
+#=item C<$name-E<gt>new()>
+#
+#Creates an empty object of type C<$name>. The corresponding packed
+#string is zeroed out.
+#
+#=item C<$methods>
+#
+#return the current value of the corresponding element if called
+#without additional arguments. Set the element to the supplied value
+#(and return the new value) if called with an additional argument.
+#
+#Applicable to objects of type C<$ptrname>.
+#
+#=back
+#
+EOF
+ $pod =~ s/^\#//gm;
+ return $pod;
+}
+
# Should be called before any actual call to normalize_type().
sub get_typemap {
# We do not want to read ./typemap by obvios reasons.
my $stdtypemap = "$Config::Config{privlib}/ExtUtils/typemap";
unshift @tm, $stdtypemap;
my $proto_re = "[" . quotemeta('\$%&*@;') . "]" ;
- my $image;
-
- foreach $typemap (@tm) {
+
+ # Start with useful default values
+ $typemap{float} = 'T_DOUBLE';
+
+ foreach my $typemap (@tm) {
next unless -e $typemap ;
# skip directories, binary files etc.
warn " Scanning $typemap\n";
elsif (/^TYPEMAP\s*$/) { $mode = 'Typemap'; next; }
elsif ($mode eq 'Typemap') {
next if /^\s*($|\#)/ ;
- if ( ($type, $image) =
+ my ($type, $image);
+ if ( ($type, $image) =
/^\s*(.*?\S)\s+(\S+)\s*($proto_re*)\s*$/o
# This may reference undefined functions:
and not ($image eq 'T_PACKED' and $typemap eq $stdtypemap)) {
- normalize_type($type);
+ $typemap{normalize_type($type)} = $image;
}
}
}
}
-sub normalize_type {
- my $ignore_mods = '(?:\b(?:__const__|static|inline|__inline__)\b\s*)*';
+sub normalize_type { # Second arg: do not strip const's before \*
my $type = shift;
- $type =~ s/$ignore_mods//go;
- $type =~ s/([\]\[()])/ \1 /g;
- $type =~ s/\s+/ /g;
+ my $do_keep_deep_const = shift;
+ # If $do_keep_deep_const this is heuristical only
+ my $keep_deep_const = ($do_keep_deep_const ? '\b(?![^(,)]*\*)' : '');
+ my $ignore_mods
+ = "(?:\\b(?:(?:__const__|const)$keep_deep_const|static|inline|__inline__)\\b\\s*)*";
+ if ($do_keep_deep_const) { # Keep different compiled /RExen/o separately!
+ $type =~ s/$ignore_mods//go;
+ }
+ else {
+ $type =~ s/$ignore_mods//go;
+ }
+ $type =~ s/([^\s\w])/ $1 /g;
$type =~ s/\s+$//;
$type =~ s/^\s+//;
- $type =~ s/\b\*/ */g;
- $type =~ s/\*\b/* /g;
- $type =~ s/\*\s+(?=\*)/*/g;
+ $type =~ s/\s+/ /g;
+ $type =~ s/\* (?=\*)/*/g;
+ $type =~ s/\. \. \./.../g;
+ $type =~ s/ ,/,/g;
$types_seen{$type}++
unless $type eq '...' or $type eq 'void' or $std_types{$type};
$type;
}
+my $need_opaque;
+
+sub assign_typemap_entry {
+ my $type = shift;
+ my $otype = $type;
+ my $entry;
+ if ($tmask and $type =~ /$tmask/) {
+ print "Type $type matches -o mask\n" if $opt_d;
+ $entry = (td_is_struct($type) ? "T_OPAQUE_STRUCT" : "T_PTROBJ");
+ }
+ elsif ($typedef_rex and $type =~ s/($typedef_rex)/$typedefs_pre{$1}/go) {
+ $type = normalize_type $type;
+ print "Type mutation via typedefs: $otype ==> $type\n" if $opt_d;
+ $entry = assign_typemap_entry($type);
+ }
+ $entry ||= $typemap{$otype}
+ || (td_is_struct($type) ? "T_OPAQUE_STRUCT" : "T_PTROBJ");
+ $typemap{$otype} = $entry;
+ $need_opaque = 1 if $entry eq "T_OPAQUE_STRUCT";
+ return $entry;
+}
+
+for (@vdecls) {
+ print_tievar_xsubs(\*XS, $_, $vdecl_hash{$_});
+}
+
if ($opt_x) {
- for $decl (@$fdecls_parsed) { print_decl(\*XS, $decl) }
+ for my $decl (@$fdecls_parsed) { print_decl(\*XS, $decl) }
+ if ($opt_a) {
+ while (my($name, $struct) = each %structs) {
+ print_accessors(\*XS, $name, $struct);
+ }
+ }
}
close XS;
warn "Writing $ext$modpname/typemap\n";
open TM, ">typemap" or die "Cannot open typemap file for write: $!";
- for $type (keys %types_seen) {
- print TM $type, "\t" x (6 - int((length $type)/8)), "T_PTROBJ\n"
+ for $type (sort keys %types_seen) {
+ my $entry = assign_typemap_entry $type;
+ print TM $type, "\t" x (5 - int((length $type)/8)), "\t$entry\n"
}
+ print TM <<'EOP' if $need_opaque; # Older Perls do not have correct entry
+#############################################################################
+INPUT
+T_OPAQUE_STRUCT
+ if (sv_derived_from($arg, \"${ntype}\")) {
+ STRLEN len;
+ char *s = SvPV((SV*)SvRV($arg), len);
+
+ if (len != sizeof($var))
+ croak(\"Size %d of packed data != expected %d\",
+ len, sizeof($var));
+ $var = *($type *)s;
+ }
+ else
+ croak(\"$var is not of type ${ntype}\")
+#############################################################################
+OUTPUT
+T_OPAQUE_STRUCT
+ sv_setref_pvn($arg, \"${ntype}\", (char *)&$var, sizeof($var));
+EOP
+
close TM or die "Cannot close typemap file for write: $!";
}
warn "Writing $ext$modpname/Makefile.PL\n";
open(PL, ">Makefile.PL") || die "Can't create $ext$modpname/Makefile.PL: $!\n";
-print PL <<'END';
+print PL <<END;
use ExtUtils::MakeMaker;
# See lib/ExtUtils/MakeMaker.pm for details of how to influence
# the contents of the Makefile that is written.
+WriteMakefile(
+ 'NAME' => '$module',
+ 'VERSION_FROM' => '$modfname.pm', # finds \$VERSION
+ 'PREREQ_PM' => {}, # e.g., Module::Name => 1.1
+ (\$] >= 5.005 ? ## Add these new keywords supported since 5.005
+ (ABSTRACT_FROM => '$modfname.pm', # retrieve abstract from module
+ AUTHOR => '$author <$email>') : ()),
+END
+if (!$opt_X) { # print C stuff, unless XS is disabled
+ $opt_F = '' unless defined $opt_F;
+ my $I = (((glob '*.h') || (glob '*.hh')) ? '-I.' : '');
+ my $Ihelp = ($I ? '-I. ' : '');
+ my $Icomment = ($I ? '' : <<EOC);
+ # Insert -I. if you add *.h files later:
+EOC
+
+ print PL <<END;
+ 'LIBS' => ['$extralibs'], # e.g., '-lm'
+ 'DEFINE' => '$opt_F', # e.g., '-DHAVE_SOMETHING'
+$Icomment 'INC' => '$I', # e.g., '${Ihelp}-I/usr/include/other'
+END
+
+ my $C = grep $_ ne "$modfname.c", (glob '*.c'), (glob '*.cc'), (glob '*.C');
+ my $Cpre = ($C ? '' : '# ');
+ my $Ccomment = ($C ? '' : <<EOC);
+ # Un-comment this if you add C files to link with later:
+EOC
+
+ print PL <<END;
+$Ccomment $Cpre\'OBJECT' => '\$(O_FILES)', # link all the C files too
END
-print PL "WriteMakefile(\n";
-print PL " 'NAME' => '$module',\n";
-print PL " 'VERSION_FROM' => '$modfname.pm', # finds \$VERSION\n";
-if( ! $opt_X ){ # print C stuff, unless XS is disabled
- print PL " 'LIBS' => ['$extralibs'], # e.g., '-lm' \n";
- print PL " 'DEFINE' => '', # e.g., '-DHAVE_SOMETHING' \n";
- print PL " 'INC' => '', # e.g., '-I/usr/include/other' \n";
}
print PL ");\n";
close(PL) || die "Can't close $ext$modpname/Makefile.PL: $!\n";
+# Create a simple README since this is a CPAN requirement
+# and it doesnt hurt to have one
+warn "Writing $ext$modpname/README\n";
+open(RM, ">README") || die "Can't create $ext$modpname/README:$!\n";
+my $thisyear = (gmtime)[5] + 1900;
+my $rmhead = "$modpname version $TEMPLATE_VERSION";
+my $rmheadeq = "=" x length($rmhead);
+print RM <<_RMEND_;
+$rmhead
+$rmheadeq
+
+The README is used to introduce the module and provide instructions on
+how to install the module, any machine dependencies it may have (for
+example C compilers and installed libraries) and any other information
+that should be provided before the module is installed.
+
+A README file is required for CPAN modules since CPAN extracts the
+README file from a module distribution so that people browsing the
+archive can use it get an idea of the modules uses. It is usually a
+good idea to provide version information here so that people can
+decide whether fixes for the module are worth downloading.
+
+INSTALLATION
+
+To install this module type the following:
+
+ perl Makefile.PL
+ make
+ make test
+ make install
+
+DEPENDENCIES
+
+This module requires these other modules and libraries:
+
+ blah blah blah
+
+COPYRIGHT AND LICENCE
+
+Put the correct copyright and licence information here.
+
+Copyright (C) $thisyear $author blah blah blah
+
+_RMEND_
+close(RM) || die "Can't close $ext$modpname/README: $!\n";
+
warn "Writing $ext$modpname/test.pl\n";
open(EX, ">test.pl") || die "Can't create $ext$modpname/test.pl: $!\n";
print EX <<'_END_';
# Before `make install' is performed this script should be runnable with
# `make test'. After `make install' it should work as `perl test.pl'
-######################### We start with some black magic to print on failure.
+#########################
-# Change 1..1 below to 1..last_test_to_print .
-# (It may become useful if the test is moved to ./t subdirectory.)
+# change 'tests => 1' to 'tests => last_test_to_print';
-BEGIN { $| = 1; print "1..1\n"; }
-END {print "not ok 1\n" unless $loaded;}
+use Test;
+BEGIN { plan tests => 1 };
_END_
print EX <<_END_;
use $module;
_END_
print EX <<'_END_';
-$loaded = 1;
-print "ok 1\n";
+ok(1); # If we made it this far, we're ok.
-######################### End of black magic.
+#########################
-# Insert your test code below (better if it prints "ok 13"
-# (correspondingly "not ok 13") depending on the success of chunk 13
-# of the test code):
+# Insert your test code below, the Test module is use()ed here so read
+# its man page ( perldoc Test ) for help writing this test script.
_END_
close(EX) || die "Can't close $ext$modpname/test.pl: $!\n";
-warn "Writing $ext$modpname/Changes\n";
-open(EX, ">Changes") || die "Can't create $ext$modpname/Changes: $!\n";
-print EX "Revision history for Perl extension $module.\n\n";
-print EX "$TEMPLATE_VERSION ",scalar localtime,"\n";
-print EX "\t- original version; created by h2xs $H2XS_VERSION\n\n";
-close(EX) || die "Can't close $ext$modpname/Changes: $!\n";
+unless ($opt_C) {
+ warn "Writing $ext$modpname/Changes\n";
+ $" = ' ';
+ open(EX, ">Changes") || die "Can't create $ext$modpname/Changes: $!\n";
+ @ARGS = map {/[\s\"\'\`\$*?^|&<>\[\]\{\}\(\)]/ ? "'$_'" : $_} @ARGS;
+ print EX <<EOP;
+Revision history for Perl extension $module.
+
+$TEMPLATE_VERSION @{[scalar localtime]}
+\t- original version; created by h2xs $H2XS_VERSION with options
+\t\t@ARGS
+
+EOP
+ close(EX) || die "Can't close $ext$modpname/Changes: $!\n";
+}
warn "Writing $ext$modpname/MANIFEST\n";
open(MANI,'>MANIFEST') or die "Can't create MANIFEST: $!";
-@files = <*>;
+my @files = <*>;
if (!@files) {
eval {opendir(D,'.');};
unless ($@) { @files = readdir(D); closedir(D); }
close OUT or die "Can't close $file: $!";
chmod 0755, $file or die "Can't reset permissions for $file: $!\n";
exec("$Config{'eunicefix'} $file") if $Config{'eunicefix'} ne ':';
+chdir $origdir;