package File::Spec::VMS; use strict; use vars qw(@ISA $VERSION); require File::Spec::Unix; $VERSION = '3.56'; $VERSION =~ tr/_//; @ISA = qw(File::Spec::Unix); use File::Basename; use VMS::Filespec; =head1 NAME File::Spec::VMS - methods for VMS file specs =head1 SYNOPSIS require File::Spec::VMS; # Done internally by File::Spec if needed =head1 DESCRIPTION See File::Spec::Unix for a documentation of the methods provided there. This package overrides the implementation of these methods, not the semantics. The default behavior is to allow either VMS or Unix syntax on input and to return VMS syntax on output unless Unix syntax has been explicitly requested via the C CRTL feature. =over 4 =cut # Need to look up the feature settings. The preferred way is to use the # VMS::Feature module, but that may not be available to dual life modules. my $use_feature; BEGIN { if (eval { local $SIG{__DIE__}; require VMS::Feature; }) { $use_feature = 1; } } # Need to look up the UNIX report mode. This may become a dynamic mode # in the future. sub _unix_rpt { my $unix_rpt; if ($use_feature) { $unix_rpt = VMS::Feature::current("filename_unix_report"); } else { my $env_unix_rpt = $ENV{'DECC$FILENAME_UNIX_REPORT'} || ''; $unix_rpt = $env_unix_rpt =~ /^[ET1]/i; } return $unix_rpt; } =item canonpath (override) Removes redundant portions of file specifications and returns results in native syntax unless Unix filename reporting has been enabled. =cut sub canonpath { my($self,$path) = @_; return undef unless defined $path; my $unix_rpt = $self->_unix_rpt; if ($path =~ m|/|) { my $pathify = $path =~ m|/\Z(?!\n)|; $path = $self->SUPER::canonpath($path); return $path if $unix_rpt; $path = $pathify ? vmspath($path) : vmsify($path); } $path =~ s/(? ==> [ and ] $path =~ s/(?/]/; $path =~ s/(? .][ $path =~ s/(? [ $path =~ s/(? [ $path =~ s/(? ] $path =~ s/(? foo.bar 1 while ($path =~ s/(? .--. # [-.-. ==> [--. # .-.-] ==> .--] # [-.-] ==> [--] 1 while ($path =~ s/(? .-. # .foo.--] ==> .-] # [foo.--. ==> [-. # [foo.--] ==> [-] # # And then, the remaining cases $path =~ s/(? [- $path =~ s/(? . $path =~ s/(? [ $path =~ s/(? ] # [foo.-] ==> [000000] $path =~ s/(? $path =~ s/(?_unix_rpt; my @dirs = grep {defined() && length()} @_; my $rslt; if (@dirs) { my $path = (@dirs == 1 ? $dirs[0] : $self->catdir(@dirs)); my ($spath,$sdir) = ($path,$dir); $spath =~ s/\.dir\Z(?!\n)//i; $sdir =~ s/\.dir\Z(?!\n)//i; if ($unix_rpt) { $spath = unixify($spath) unless $spath =~ m#/#; $sdir= unixify($sdir) unless $sdir =~ m#/#; return $self->SUPER::catdir($spath, $sdir) } $rslt = vmspath( unixify($spath) . '/' . unixify($sdir)); # Special case for VMS absolute directory specs: these will have # had device prepended during trip through Unix syntax in # eliminate_macros(), since Unix syntax has no way to express # "absolute from the top of this device's directory tree". if ($spath =~ /^[\[<][^.\-]/s) { $rslt =~ s/^[^\[<]+//s; } } else { # Single directory. Return an empty string on null input; otherwise # just return a canonical path. if (not defined $dir or not length $dir) { $rslt = ''; } else { $rslt = $unix_rpt ? $dir : vmspath($dir); } } return $self->canonpath($rslt); } =item catfile (override) Concatenates a list of directory specifications with a filename specification to build a path. =cut sub catfile { my $self = shift; my $tfile = pop(); my $file = $self->canonpath($tfile); my @files = grep {defined() && length()} @_; my $unix_rpt = $self->_unix_rpt; my $rslt; if (@files) { my $path = (@files == 1 ? $files[0] : $self->catdir(@files)); my $spath = $path; # Something building a VMS path in pieces may try to pass a # directory name in filename format, so normalize it. $spath =~ s/\.dir\Z(?!\n)//i; # If the spath ends with a directory delimiter and the file is bare, # then just concatenate them. if ($spath =~ /^(?]+\)\Z(?!\n)/s && basename($file) eq $file) { $rslt = "$spath$file"; } else { $rslt = unixify($spath); $rslt .= (defined($rslt) && length($rslt) ? '/' : '') . unixify($file); $rslt = vmsify($rslt) unless $unix_rpt; } } else { # Only passed a single file? my $xfile = (defined($file) && length($file)) ? $file : ''; $rslt = $unix_rpt ? $xfile : vmsify($xfile); } return $self->canonpath($rslt) unless $unix_rpt; # In Unix report mode, do not strip off redundant path information. return $rslt; } =item curdir (override) Returns a string representation of the current directory: '[]' or '.' =cut sub curdir { my $self = shift @_; return '.' if ($self->_unix_rpt); return '[]'; } =item devnull (override) Returns a string representation of the null device: '_NLA0:' or '/dev/null' =cut sub devnull { my $self = shift @_; return '/dev/null' if ($self->_unix_rpt); return "_NLA0:"; } =item rootdir (override) Returns a string representation of the root directory: 'SYS$DISK:[000000]' or '/' =cut sub rootdir { my $self = shift @_; if ($self->_unix_rpt) { # Root may exist, try it first. my $try = '/'; my ($dev1, $ino1) = stat('/'); my ($dev2, $ino2) = stat('.'); # Perl falls back to '.' if it can not determine '/' if (($dev1 != $dev2) || ($ino1 != $ino2)) { return $try; } # Fall back to UNIX format sys$disk. return '/sys$disk/'; } return 'SYS$DISK:[000000]'; } =item tmpdir (override) Returns a string representation of the first writable directory from the following list or '' if none are writable: /tmp if C is enabled. sys$scratch: $ENV{TMPDIR} If running under taint mode, and if $ENV{TMPDIR} is tainted, it is not used. =cut sub tmpdir { my $self = shift @_; my $tmpdir = $self->_cached_tmpdir('TMPDIR'); return $tmpdir if defined $tmpdir; if ($self->_unix_rpt) { $tmpdir = $self->_tmpdir('/tmp', '/sys$scratch', $ENV{TMPDIR}); } else { $tmpdir = $self->_tmpdir( 'sys$scratch:', $ENV{TMPDIR} ); } $self->_cache_tmpdir($tmpdir, 'TMPDIR'); } =item updir (override) Returns a string representation of the parent directory: '[-]' or '..' =cut sub updir { my $self = shift @_; return '..' if ($self->_unix_rpt); return '[-]'; } =item case_tolerant (override) VMS file specification syntax is case-tolerant. =cut sub case_tolerant { return 1; } =item path (override) Translate logical name DCL$PATH as a searchlist, rather than trying to C string value of C<$ENV{'PATH'}>. =cut sub path { my (@dirs,$dir,$i); while ($dir = $ENV{'DCL$PATH;' . $i++}) { push(@dirs,$dir); } return @dirs; } =item file_name_is_absolute (override) Checks for VMS directory spec as well as Unix separators. =cut sub file_name_is_absolute { my ($self,$file) = @_; # If it's a logical name, expand it. $file = $ENV{$file} while $file =~ /^[\w\$\-]+\Z(?!\n)/s && $ENV{$file}; return scalar($file =~ m!^/!s || $file =~ m![<\[][^.\-\]>]! || $file =~ /^[A-Za-z0-9_\$\-\~]+(?splitpath( $path ); ($volume,$directories,$file) = File::Spec->splitpath( $path, $no_file ); Passing a true value for C<$no_file> indicates that the path being split only contains directory components, even on systems where you can usually (when not supporting a foreign syntax) tell the difference between directories and files at a glance. =cut sub splitpath { my($self,$path, $nofile) = @_; my($dev,$dir,$file) = ('','',''); my $vmsify_path = vmsify($path); if ( $nofile ) { #vmsify('d1/d2/d3') returns '[.d1.d2]d3' #vmsify('/d1/d2/d3') returns 'd1:[d2]d3' if( $vmsify_path =~ /(.*)\](.+)/ ){ $vmsify_path = $1.'.'.$2.']'; } $vmsify_path =~ /(.+:)?(.*)/s; $dir = defined $2 ? $2 : ''; # dir can be '0' return ($1 || '',$dir,$file); } else { $vmsify_path =~ /(.+:)?([\[<].*[\]>])?(.*)/s; return ($1 || '',$2 || '',$3); } } =item splitdir (override) Split a directory specification into the components. =cut sub splitdir { my($self,$dirspec) = @_; my @dirs = (); return @dirs if ( (!defined $dirspec) || ('' eq $dirspec) ); $dirspec =~ s/(? ==> [ and ] $dirspec =~ s/(?/]/; $dirspec =~ s/(? .][ $dirspec =~ s/(? [ $dirspec =~ s/(? [ $dirspec =~ s/(? ] $dirspec =~ s/(? foo.bar while ($dirspec =~ s/(^|[\[\<\.])\-(\-+)($|[\]\>\.])/$1-.$2$3/g) {} # That loop does the following # with any amount of dashes: # .--. ==> .-.-. # [--. ==> [-.-. # .--] ==> .-.-] # [--] ==> [-.-] $dirspec = "[$dirspec]" unless $dirspec =~ /(?]\Z(?!\n)//s; @dirs; } =item catpath (override) Construct a complete filespec. =cut sub catpath { my($self,$dev,$dir,$file) = @_; # We look for a volume in $dev, then in $dir, but not both my ($dir_volume, $dir_dir, $dir_file) = $self->splitpath($dir); $dev = $dir_volume unless length $dev; $dir = length $dir_file ? $self->catfile($dir_dir, $dir_file) : $dir_dir; if ($dev =~ m|^(?'); "$dev$dir$file"; } =item abs2rel (override) Attempt to convert an absolute file specification to a relative specification. =cut sub abs2rel { my $self = shift; return vmspath(File::Spec::Unix::abs2rel( $self, @_ )) if ((grep m{/}, @_) && !(grep m{(?_cwd() unless defined $base and length $base; # If there is no device or directory syntax on $base, make sure it # is treated as a directory. $base = VMS::Filespec::vmspath($base) unless $base =~ m{(?rel2abs($_) } # Are we even starting $path on the same (node::)device as $base? Note that # logical paths or nodename differences may be on the "same device" # but the comparison that ignores device differences so as to concatenate # [---] up directory specs is not even a good idea in cases where there is # a logical path difference between $path and $base nodename and/or device. # Hence we fall back to returning the absolute $path spec # if there is a case blind device (or node) difference of any sort # and we do not even try to call $parse() or consult %ENV for $trnlnm() # (this module needs to run on non VMS platforms after all). my ($path_volume, $path_directories, $path_file) = $self->splitpath($path); my ($base_volume, $base_directories, $base_file) = $self->splitpath($base); return $path unless lc($path_volume) eq lc($base_volume); # Now, remove all leading components that are the same my @pathchunks = $self->splitdir( $path_directories ); my $pathchunks = @pathchunks; unshift(@pathchunks,'000000') unless $pathchunks[0] eq '000000'; my @basechunks = $self->splitdir( $base_directories ); my $basechunks = @basechunks; unshift(@basechunks,'000000') unless $basechunks[0] eq '000000'; while ( @pathchunks && @basechunks && lc( $pathchunks[0] ) eq lc( $basechunks[0] ) ) { shift @pathchunks ; shift @basechunks ; } # @basechunks now contains the directories to climb out of, # @pathchunks now has the directories to descend in to. if ((@basechunks > 0) || ($basechunks != $pathchunks)) { $path_directories = join '.', ('-' x @basechunks, @pathchunks) ; } else { $path_directories = join '.', @pathchunks; } $path_directories = '['.$path_directories.']'; return $self->canonpath( $self->catpath( '', $path_directories, $path_file ) ) ; } =item rel2abs (override) Return an absolute file specification from a relative one. =cut sub rel2abs { my $self = shift ; my ($path,$base ) = @_; return undef unless defined $path; if ($path =~ m/\//) { $path = ( -d $path || $path =~ m/\/\z/ # educated guessing about ? vmspath($path) # whether it's a directory : vmsify($path) ); } $base = vmspath($base) if defined $base && $base =~ m/\//; # Clean up and split up $path if ( ! $self->file_name_is_absolute( $path ) ) { # Figure out the effective $base and clean it up. if ( !defined( $base ) || $base eq '' ) { $base = $self->_cwd; } elsif ( ! $self->file_name_is_absolute( $base ) ) { $base = $self->rel2abs( $base ) ; } else { $base = $self->canonpath( $base ) ; } # Split up paths my ( $path_directories, $path_file ) = ($self->splitpath( $path ))[1,2] ; my ( $base_volume, $base_directories ) = $self->splitpath( $base ) ; $path_directories = '' if $path_directories eq '[]' || $path_directories eq '<>'; my $sep = '' ; $sep = '.' if ( $base_directories =~ m{[^.\]>]\Z(?!\n)} && $path_directories =~ m{^[^.\[<]}s ) ; $base_directories = "$base_directories$sep$path_directories"; $base_directories =~ s{\.?[\]>][\[<]\.?}{.}; $path = $self->catpath( $base_volume, $base_directories, $path_file ); } return $self->canonpath( $path ) ; } =back =head1 COPYRIGHT Copyright (c) 2004-14 by the Perl 5 Porters. All rights reserved. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =head1 SEE ALSO See L and L. This package overrides the implementation of these methods, not the semantics. An explanation of VMS file specs can be found at L. =cut 1;