package Module::Info; use 5.006; use strict; use warnings; use Carp; use File::Spec; use Config; my $has_version_pm = eval 'use version; 1'; our $AUTOLOAD; our $VERSION; $VERSION = eval 'use version; 1' ? 'version'->new('0.39') : '0.39'; $VERSION = eval $VERSION; =head1 NAME Module::Info - Information about Perl modules =head1 SYNOPSIS use Module::Info; my $mod = Module::Info->new_from_file('Some/Module.pm'); my $mod = Module::Info->new_from_module('Some::Module'); my $mod = Module::Info->new_from_loaded('Some::Module'); my @mods = Module::Info->all_installed('Some::Module'); my $name = $mod->name; my $version = $mod->version; my $dir = $mod->inc_dir; my $file = $mod->file; my $is_core = $mod->is_core; # Only available in perl 5.6.1 and up. # These do compile the module. my @packages = $mod->packages_inside; my @used = $mod->modules_used; my @subs = $mod->subroutines; my @isa = $mod->superclasses; my @calls = $mod->subroutines_called; # Check for constructs which make perl hard to predict. my @methods = $mod->dynamic_method_calls; my @lines = $mod->eval_string; *UNIMPLEMENTED* my @lines = $mod->gotos; *UNIMPLEMENTED* my @controls = $mod->exit_via_loop_control; *UNIMPLEMENTED* my @unpredictables = $mod->has_unpredictables; *UNIMPLEMENTED* # set/get Module::Info options $self->die_on_compilation_error(1); my $die_on_error = $mod->die_on_compilation_error; $self->safe(1); my $safe = $mod->safe; =head1 DESCRIPTION Module::Info gives you information about Perl modules B. It actually isn't specific to modules and should work on any perl code. =head1 METHODS =head2 Constructors There are a few ways to specify which module you want information for. They all return Module::Info objects. =over 4 =item new_from_file my $module = Module::Info->new_from_file('path/to/Some/Module.pm'); Given a file, it will interpret this as the module you want information about. You can also hand it a perl script. If the file doesn't exist or isn't readable it will return false. =cut sub new_from_file { my($proto, $file) = @_; my($class) = ref $proto || $proto; return unless -r $file; my $self = {}; $self->{file} = File::Spec->rel2abs($file); $self->{dir} = ''; $self->{name} = ''; $self->{safe} = 0; $self->{use_version} = 0; return bless $self, $class; } =item new_from_module my $module = Module::Info->new_from_module('Some::Module'); my $module = Module::Info->new_from_module('Some::Module', @INC); Given a module name, @INC will be searched and the first module found used. This is the same module that would be loaded if you just say C. If you give your own @INC, that will be used to search instead. =cut sub new_from_module { my($class, $module, @inc) = @_; return ($class->_find_all_installed($module, 1, @inc))[0]; } =item new_from_loaded my $module = Module::Info->new_from_loaded('Some::Module'); Gets information about the currently loaded version of Some::Module. If it isn't loaded, returns false. =cut sub new_from_loaded { my($class, $name) = @_; my $mod_file = join('/', split('::', $name)) . '.pm'; my $filepath = $INC{$mod_file} || ''; my $module = Module::Info->new_from_file($filepath) or return; $module->{name} = $name; ($module->{dir} = $filepath) =~ s|/?\Q$mod_file\E$||; $module->{dir} = File::Spec->rel2abs($module->{dir}); $module->{safe} = 0; $module->{use_version} = 0; return $module; } =item all_installed my @modules = Module::Info->all_installed('Some::Module'); my @modules = Module::Info->all_installed('Some::Module', @INC); Like new_from_module(), except I modules in @INC will be returned, in the order they are found. Thus $modules[0] is the one that would be loaded by C. =cut sub all_installed { my($class, $module, @inc) = @_; return $class->_find_all_installed($module, 0, @inc); } # Thieved from Module::InstalledVersion sub _find_all_installed { my($proto, $name, $find_first_one, @inc) = @_; my($class) = ref $proto || $proto; @inc = @INC unless @inc; my $file = File::Spec->catfile(split /::/, $name) . '.pm'; my @modules = (); DIR: foreach my $dir (@inc) { # Skip the new code ref in @INC feature. next if ref $dir; my $filename = File::Spec->catfile($dir, $file); if( -r $filename ) { my $module = $class->new_from_file($filename); $module->{dir} = File::Spec->rel2abs($dir); $module->{name} = $name; push @modules, $module; last DIR if $find_first_one; } } return @modules; } =back =head2 Information without loading The following methods get their information without actually compiling the module. =over 4 =item B my $name = $module->name; $module->name($name); Name of the module (ie. Some::Module). Module loaded using new_from_file() won't have this information in which case you can set it yourself. =cut sub name { my($self) = shift; $self->{name} = shift if @_; return $self->{name}; } =item B my $version = $module->version; Divines the value of $VERSION. This uses the same method as ExtUtils::MakeMaker and all caveats therein apply. =cut # Thieved from ExtUtils::MM_Unix 1.12603 sub version { my($self) = shift; local($_, *MOD); my $parsefile = $self->file; my $safe = $self->safe; open(MOD, $parsefile) or die $!; my $inpod = 0; my $result; while () { $inpod = /^=(?!cut)/ ? 1 : /^=cut/ ? 0 : $inpod; next if $inpod || /^\s*#/; chomp; # taken from ExtUtils::MM_Unix 6.63_02 next if /^\s*(if|unless|elsif)/; if (m{^\s*package\s+\w[\w\:\']*\s+(v?[0-9._]+)\s*;}) { local $^W = 0; $result = $1; last; } next unless /([\$*])(([\w\:\']*)\bVERSION)\b.*\=/; my $eval = sprintf qq{ package Module::Info::_version; %s local $1$2; \$$2=undef; do { %s }; \$$2 }, ( $safe ? '' : 'no strict;' ), $_; local $^W = 0; $result = $self->_eval($eval); warn "Could not eval '$eval' in $parsefile: $@" if $@ && !$safe; $result = "undef" unless defined $result; last; } close MOD; $result = 'version'->new($result) # quotes for 5.004 if $self->use_version && (!ref($result) || !UNIVERSAL::isa($result, "version")); return $result; } =item B my $dir = $module->inc_dir; Include directory in which this module was found. Module::Info objects created with new_from_file() won't have this info. =cut sub inc_dir { my($self) = shift; return $self->{dir}; } =item B my $file = $module->file; The absolute path to this module. =cut sub file { my($self) = shift; return $self->{file}; } =item B my $is_core = $module->is_core; Checks if this module is the one distributed with Perl. B This goes by what directory it's in. It's possible that the module has been altered or upgraded from CPAN since the original Perl installation. =cut sub is_core { my($self) = shift; return scalar grep $self->{dir} eq File::Spec->canonpath($_), ($Config{installarchlib}, $Config{installprivlib}, $Config{archlib}, $Config{privlib}); } =item B my $has_pod = $module->has_pod; Returns the location of the module's pod, which can be the module file itself, if the POD is inlined, the associated POD file, or nothing if there is no POD at all. =cut sub has_pod { my $self = shift; my $filename = $self->file; open my $file, "<", $filename or return; # the file won't even open while( <$file> ) { return $filename if /^=[a-z]/; } # nothing found? Try a companion POD file $filename =~ s/\.[^.]+$/.pod/ or return; return unless -f $filename; open $file, "<", $filename or return; while( <$file> ) { return $filename if /^=[a-z]/; } return; } =back =head2 Information that requires loading. B From here down reliability drops rapidly! The following methods get their information by compiling the module and examining the opcode tree. The module will be compiled in a separate process so as not to disturb the current program. They will only work on 5.6.1 and up and requires the B::Utils module. =over 4 =item B my @packages = $module->packages_inside; Looks for any explicit C declarations inside the module and returns a list. Useful for finding hidden classes and functionality (like Tie::StdHandle inside Tie::Handle). B Currently doesn't spot package changes inside subroutines. =cut sub packages_inside { my $self = shift; my %packs = map {$_, 1} $self->_call_B('packages'); return keys %packs; } =item B my %versions = $module->package_versions; Returns a hash whose keys are the packages contained in the module (these are the same as what's returned by C), and whose values are the versions of those packages. =cut sub package_versions { my $self = shift; my @packs = $self->packages_inside; # To survive the print(), we translate undef into '~' and then back again. (my $quoted_file = $self->file) =~ s/(['\\])/\\$1/g; my $command = qq{-le "require '$quoted_file';}; foreach (@packs) { $command .= " print defined $_->VERSION ? $_->VERSION : '~';" } $command .= qq{"}; my ($status, @versions) = $self->_call_perl($command); chomp @versions; foreach (@versions) { $_ = undef if $_ eq '~'; } my %map; @map{@packs} = @versions; return %map; } =item B my @used = $module->modules_used; Returns a list of all modules and files which may be C'd or C'd by this module. B These modules may be conditionally loaded, can't tell. Also can't find modules which might be used inside an C. =cut sub modules_used { my($self) = shift; my %used = $self->modules_required; return keys %used; } =item B my %required = $module->modules_required; Returns a list of all modules and files which may be C'd or C'd by this module, together with the minimum required version. The hash is keyed on the module/file name, the corrisponding value is an array reference containing the requied versions, or an empty array if no specific version was required. B These modules may be conditionally loaded, can't tell. Also can't find modules which might be used inside an C. =cut sub modules_required { my($self) = shift; my $mod_file = $self->file; my @mods = $self->_call_B('modules_used'); my @used_mods = (); my %used_mods = (); for (grep /^use \D/ && /at "\Q$mod_file\E" /, @mods) { my($file, $version) = /^use (\S+) \(([^\)]*)\)/; $used_mods{_file2mod($file)} ||= []; next unless defined $version and length $version; push @{$used_mods{_file2mod($file)}}, $version; } push @used_mods, map { my($file) = /^require bare (\S+)/; _file2mod($file) } grep /^require bare \D/ , @mods; push @used_mods, map { /^require not bare (\S+)/; $1 } grep /^require not bare \D/, @mods; foreach ( @used_mods ) { $used_mods{$_} = [] }; return %used_mods; } sub _file2mod { my($mod) = shift; $mod =~ s/\.pm//; $mod =~ s|/|::|g; return $mod; } =item B my %subs = $module->subroutines; Returns a hash of all subroutines defined inside this module and some info about it. The key is the *full* name of the subroutine (ie. $subs{'Some::Module::foo'} rather than just $subs{'foo'}), value is a hash ref with information about the subroutine like so: start => line number of the first statement in the subroutine end => line number of the last statement in the subroutine Note that the line numbers may not be entirely accurate and will change as perl's backend compiler improves. They typically correspond to the first and last I statements in a subroutine. For example: sub foo { package Wibble; $foo = "bar"; return $foo; } Taking C as line 1, Module::Info will report line 3 as the start and line 4 as the end. C is a compile-time statement. Again, this will change as perl changes. Note this only catches simple C subroutine declarations. Anonymous, autoloaded or eval'd subroutines are not listed. =cut sub subroutines { my($self) = shift; my $mod_file = $self->file; my @subs = $self->_call_B('subroutines'); return map { /^(\S+) at "[^"]+" from (\d+) to (\d+)/; ($1 => { start => $2, end => $3 }) } grep /at "\Q$mod_file\E" /, @subs; } sub _get_extra_arguments { '' } sub _call_B { my($self, $arg) = @_; my $mod_file = $self->file; my $extra_args = $self->_get_extra_arguments; my $command = qq{$extra_args "-MO=Module::Info,$arg" "$mod_file"}; my($status, @out) = $self->_call_perl($command); if( $status ) { my $exit = $status >> 8; my $msg = join "\n", "B::Module::Info,$arg use failed with $exit saying:", @out; if( $self->{die_on_compilation_error} ) { die $msg; } else { warn $msg; return; } } @out = grep !/syntax OK$/, @out; chomp @out; return @out; } =item B my @isa = $module->superclasses; Returns the value of @ISA for this $module. Requires that $module->name be set to work. B superclasses() is currently cheating. See L below. =cut sub superclasses { my $self = shift; my $mod_file = $self->file; my $mod_name = $self->name; unless( $mod_name ) { carp 'isa() requires $module->name to be set'; return; } my $extra_args = $self->_get_extra_arguments; my $command = qq{-e "require q{$mod_file}; print join qq{\\n}, \@$mod_name\::ISA"}; my($status, @isa) = $self->_call_perl("$extra_args $command"); chomp @isa; return @isa; } =item B my @calls = $module->subroutines_called; Finds all the methods and functions which are called inside the $module. Returns a list of hashes. Each hash represents a single function or method call and has the keys: line line number where this call originated class class called on if its a class method type function, symbolic function, object method, class method, dynamic object method or dynamic class method. (NOTE This format will probably change) name name of the function/method called if not dynamic =cut sub subroutines_called { my($self) = shift; my @subs = $self->_call_B('subs_called'); my $mod_file = $self->file; @subs = grep /at "\Q$mod_file\E" line/, @subs; my @out = (); foreach (@subs) { my %info = (); ($info{type}) = /^(.+) call/; $info{type} = 'symbolic function' if /using symbolic ref/; ($info{'name'}) = /to (\S+)/; ($info{class})= /via (\S+)/; ($info{line}) = /line (\d+)/; push @out, \%info; } return @out; } =back =head2 Information about Unpredictable Constructs Unpredictable constructs are things that make a Perl program hard to predict what its going to do without actually running it. There's nothing wrong with these constructs, but its nice to know where they are when maintaining a piece of code. =over 4 =item B my @methods = $module->dynamic_method_calls; Returns a list of dynamic method calls (ie. C<$obj->$method()>) used by the $module. @methods has the same format as the return value of subroutines_called(). =cut sub dynamic_method_calls { my($self) = shift; return grep $_->{type} =~ /dynamic/, $self->subroutines_called; } =back =head2 Options The following methods get/set specific option values for the Module::Info object. =over 4 =item B $module->die_on_compilation_error(0); # default $module->die_on_compilation_error(1); my $flag = $module->die_on_compilation_error; Sets/gets the "die on compilation error" flag. When the flag is off (default), and a module fails to compile, Module::Info simply emits a watning and continues. When the flag is on and a module fails to compile, Module::Info Cs with the same error message it would use in the warning. =cut sub die_on_compilation_error { my($self) = shift; $self->{die_on_compilation_error} = $_[0] ? 1 : 0 if @_; return $self->{die_on_compilation_error}; } =item B $module->safe(0); # default $module->safe(1); # be safer my $flag = $module->safe; Sets/gets the "safe" flag. When the flag is enabled all operations requiring module compilation are forbidden and the C method executes its code in a C compartment. =cut sub safe { my($self) = shift; if( @_ ) { $self->{safe} = $_[0] ? 1 : 0; require Safe if $self->{safe}; } return $self->{safe}; } sub AUTOLOAD { my($super) = $_[0]->safe ? 'Module::Info::Safe' : 'Module::Info::Unsafe'; my($method) = $AUTOLOAD; $method =~ s/^.*::([^:]+)$/$1/; return if $method eq 'DESTROY'; my($code) = $super->can($method); die "Can not find method '$method' in Module::Info" unless $code; goto &$code; } =item B $module->use_version(0); # do not use version.pm (default) $module->use_version(1); # use version.pm, die if not present my $flag = $module->use_version; Sets/gets the "use_version" flag. When the flag is enabled the 'version' method always returns a version object. =cut sub use_version { my($self) = shift; if( @_ ) { die "Can not use 'version.pm' as requested" if $_[0] && !$has_version_pm; $self->{use_version} = $_[0] ? 1 : 0; } return $self->{use_version}; } =back =head1 REPOSITORY L =head1 AUTHOR Michael G Schwern with code from ExtUtils::MM_Unix, Module::InstalledVersion and lots of cargo-culting from B::Deparse. Mattia Barbon maintained the module from 2002 to 2013. Neil Bowers is the current maintainer. =head1 LICENSE This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 THANKS Many thanks to Simon Cozens and Robin Houston for letting me chew their ears about B. =head1 CAVEATS Code refs in @INC are currently ignored. If this bothers you submit a patch. superclasses() is cheating and just loading the module in a separate process and looking at @ISA. I don't think its worth the trouble to go through and parse the opcode tree as it still requires loading the module and running all the BEGIN blocks. Patches welcome. I originally was going to call superclasses() isa() but then I remembered that would be bad. All the methods that require loading are really inefficient as they're not caching anything. I'll worry about efficiency later. =cut package Module::Info::Safe; my $root = 'Module::Info::Safe::_safe'; sub _create_compartment { my $safe = Safe->new( $root ); $safe->permit_only( qw(:base_orig :base_core) ); return $safe; } sub _eval { my($self, $code) = @_; $self->{compartment} ||= _create_compartment; return $self->{compartment}->reval( $code, 0 ) } sub _call_perl { die "Module::Info attemped an unsafe operation while in 'safe' mode."; } package Module::Info::Unsafe; sub _eval { eval($_[1]) } sub _is_win95() { return $^O eq 'MSWin32' && (Win32::GetOSVersion())[4] == 1; } sub _is_macos_classic() { return $^O eq 'MacOS'; } sub _call_perl { my($self, $args) = @_; my $perl = _is_macos_classic ? 'perl' : $^X; my $command = "$perl $args"; my @out; if( _is_win95 ) { require IPC::Open3; local *OUTFH; my($line, $in); my $out = \*OUTFH; my $pid = IPC::Open3::open3($in, $out, $out, $command); close $in; while( defined($line = ) ) { $line =~ s/\r\n$/\n/; # strip CRs push @out, $line; } waitpid $pid, 0; } elsif( _is_macos_classic ) { @out = `$command \xb7 Dev:Stdout`; } else { @out = `$command 2>&1`; } @out = grep !/^Using.*blib$/, @out; return ($?, @out); } return 'Stepping on toes is what Schwerns do best! *poing poing poing*';