View file File name : HTML.pm Content :#--------------------------------------------------------------------- package IO::HTML; # # Copyright 2014 Christopher J. Madsen # # Author: Christopher J. Madsen <perl@cjmweb.net> # Created: 14 Jan 2012 # # This program is free software; you can redistribute it and/or modify # it under the same terms as Perl itself. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See either the # GNU General Public License or the Artistic License for more details. # # ABSTRACT: Open an HTML file with automatic charset detection #--------------------------------------------------------------------- use 5.008; use strict; use warnings; use Carp 'croak'; use Encode 2.10 qw(decode find_encoding); # need utf-8-strict encoding use Exporter 5.57 'import'; our $VERSION = '1.001'; # This file is part of IO-HTML 1.001 (June 28, 2014) our $default_encoding ||= 'cp1252'; our @EXPORT = qw(html_file); our @EXPORT_OK = qw(find_charset_in html_file_and_encoding html_outfile sniff_encoding); our %EXPORT_TAGS = ( rw => [qw( html_file html_file_and_encoding html_outfile )], all => [ @EXPORT, @EXPORT_OK ], ); #===================================================================== sub html_file { (&html_file_and_encoding)[0]; # return just the filehandle } # end html_file # Note: I made html_file and html_file_and_encoding separate functions # (instead of making html_file context-sensitive) because I wanted to # use html_file in function calls (i.e. list context) without having # to write "scalar html_file" all the time. sub html_file_and_encoding { my ($filename, $options) = @_; $options ||= {}; open(my $in, '<:raw', $filename) or croak "Failed to open $filename: $!"; my ($encoding, $bom) = sniff_encoding($in, $filename, $options); if (not defined $encoding) { croak "No default encoding specified" unless defined($encoding = $default_encoding); $encoding = find_encoding($encoding) if $options->{encoding}; } # end if we didn't find an encoding binmode $in, sprintf(":encoding(%s):crlf", $options->{encoding} ? $encoding->name : $encoding); return ($in, $encoding, $bom); } # end html_file_and_encoding #--------------------------------------------------------------------- sub html_outfile { my ($filename, $encoding, $bom) = @_; if (not defined $encoding) { croak "No default encoding specified" unless defined($encoding = $default_encoding); } # end if we didn't find an encoding elsif (ref $encoding) { $encoding = $encoding->name; } open(my $out, ">:encoding($encoding)", $filename) or croak "Failed to open $filename: $!"; print $out "\x{FeFF}" if $bom; return $out; } # end html_outfile #--------------------------------------------------------------------- sub sniff_encoding { my ($in, $filename, $options) = @_; $filename = 'file' unless defined $filename; $options ||= {}; my $pos = tell $in; croak "Could not seek $filename: $!" if $pos < 0; croak "Could not read $filename: $!" unless defined read $in, my $buf, 1024; seek $in, $pos, 0 or croak "Could not seek $filename: $!"; # Check for BOM: my $bom; my $encoding = do { if ($buf =~ /^\xFe\xFF/) { $bom = 2; 'UTF-16BE'; } elsif ($buf =~ /^\xFF\xFe/) { $bom = 2; 'UTF-16LE'; } elsif ($buf =~ /^\xEF\xBB\xBF/) { $bom = 3; 'utf-8-strict'; } else { find_charset_in($buf, $options); # check for <meta charset> } }; # end $encoding if ($bom) { seek $in, $bom, 1 or croak "Could not seek $filename: $!"; $bom = 1; } elsif (not defined $encoding) { # try decoding as UTF-8 my $test = decode('utf-8-strict', $buf, Encode::FB_QUIET); if ($buf =~ /^(?: # nothing left over | [\xC2-\xDF] # incomplete 2-byte char | [\xE0-\xEF] [\x80-\xBF]? # incomplete 3-byte char | [\xF0-\xF4] [\x80-\xBF]{0,2} # incomplete 4-byte char )\z/x and $test =~ /[^\x00-\x7F]/) { $encoding = 'utf-8-strict'; } # end if valid UTF-8 with at least one multi-byte character: } # end if testing for UTF-8 if (defined $encoding and $options->{encoding} and not ref $encoding) { $encoding = find_encoding($encoding); } # end if $encoding is a string and we want an object return wantarray ? ($encoding, $bom) : $encoding; } # end sniff_encoding #===================================================================== # Based on HTML5 8.2.2.2 Determining the character encoding: # Get attribute from current position of $_ sub _get_attribute { m!\G[\x09\x0A\x0C\x0D /]+!gc; # skip whitespace or / return if /\G>/gc or not /\G(=?[^\x09\x0A\x0C\x0D =]*)/gc; my ($name, $value) = (lc $1, ''); if (/\G[\x09\x0A\x0C\x0D ]*=[\x09\x0A\x0C\x0D ]*/gc and (/\G"([^"]*)"?/gc or /\G'([^']*)'?/gc or /\G([^\x09\x0A\x0C\x0D >]*)/gc)) { $value = lc $1; } # end if attribute has value return wantarray ? ($name, $value) : 1; } # end _get_attribute # Examine a meta value for a charset: sub _get_charset_from_meta { for (shift) { while (/charset[\x09\x0A\x0C\x0D ]*=[\x09\x0A\x0C\x0D ]*/ig) { return $1 if (/\G"([^"]*)"/gc or /\G'([^']*)'/gc or /\G(?!['"])([^\x09\x0A\x0C\x0D ;]+)/gc); } } # end for value return undef; } # end _get_charset_from_meta #--------------------------------------------------------------------- sub find_charset_in { for (shift) { my $options = shift || {}; my $stop = length > 1024 ? 1024 : length; # search first 1024 bytes my $expect_pragma = (defined $options->{need_pragma} ? $options->{need_pragma} : 1); pos() = 0; while (pos() < $stop) { if (/\G<!--.*?(?<=--)>/sgc) { } # Skip comment elsif (m!\G<meta(?=[\x09\x0A\x0C\x0D /])!gic) { my ($got_pragma, $need_pragma, $charset); while (my ($name, $value) = &_get_attribute) { if ($name eq 'http-equiv' and $value eq 'content-type') { $got_pragma = 1; } elsif ($name eq 'content' and not defined $charset) { $need_pragma = $expect_pragma if defined($charset = _get_charset_from_meta($value)); } elsif ($name eq 'charset') { $charset = $value; $need_pragma = 0; } } # end while more attributes in this <meta> tag if (defined $need_pragma and (not $need_pragma or $got_pragma)) { $charset = 'UTF-8' if $charset =~ /^utf-?16/; $charset = 'cp1252' if $charset eq 'iso-8859-1'; # people lie if (my $encoding = find_encoding($charset)) { return $options->{encoding} ? $encoding : $encoding->name; } # end if charset is a recognized encoding } # end if found charset } # end elsif <meta elsif (m!\G</?[a-zA-Z][^\x09\x0A\x0C\x0D >]*!gc) { 1 while &_get_attribute; } # end elsif some other tag elsif (m{\G<[!/?][^>]*}gc) { } # skip unwanted things elsif (m/\G</gc) { } # skip < that doesn't open anything we recognize # Advance to the next <: m/\G[^<]+/gc; } # end while not at search boundary } # end for string return undef; # Couldn't find a charset } # end find_charset_in #--------------------------------------------------------------------- # Shortcuts for people who don't like exported functions: *file = \&html_file; *file_and_encoding = \&html_file_and_encoding; *outfile = \&html_outfile; #===================================================================== # Package Return Value: 1; __END__ =head1 NAME IO::HTML - Open an HTML file with automatic charset detection =head1 VERSION This document describes version 1.001 of IO::HTML, released June 28, 2014. =head1 SYNOPSIS use IO::HTML; # exports html_file by default use HTML::TreeBuilder; my $tree = HTML::TreeBuilder->new_from_file( html_file('foo.html') ); # Alternative interface: open(my $in, '<:raw', 'bar.html'); my $encoding = IO::HTML::sniff_encoding($in, 'bar.html'); =head1 DESCRIPTION IO::HTML provides an easy way to open a file containing HTML while automatically determining its encoding. It uses the HTML5 encoding sniffing algorithm specified in section 8.2.2.2 of the draft standard. The algorithm as implemented here is: =over =item 1. If the file begins with a byte order mark indicating UTF-16LE, UTF-16BE, or UTF-8, then that is the encoding. =item 2. If the first 1024 bytes of the file contain a C<< <meta> >> tag that indicates the charset, and Encode recognizes the specified charset name, then that is the encoding. (This portion of the algorithm is implemented by C<find_charset_in>.) The C<< <meta> >> tag can be in one of two formats: <meta charset="..."> <meta http-equiv="Content-Type" content="...charset=..."> The search is case-insensitive, and the order of attributes within the tag is irrelevant. Any additional attributes of the tag are ignored. The first matching tag with a recognized encoding ends the search. =item 3. If the first 1024 bytes of the file are valid UTF-8 (with at least 1 non-ASCII character), then the encoding is UTF-8. =item 4. If all else fails, use the default character encoding. The HTML5 standard suggests the default encoding should be locale dependent, but currently it is always C<cp1252> unless you set C<$IO::HTML::default_encoding> to a different value. Note: C<sniff_encoding> does not apply this step; only C<html_file> does that. =back =head1 SUBROUTINES =head2 html_file $filehandle = html_file($filename, \%options); This function (exported by default) is the primary entry point. It opens the file specified by C<$filename> for reading, uses C<sniff_encoding> to find a suitable encoding layer, and applies it. It also applies the C<:crlf> layer. If the file begins with a BOM, the filehandle is positioned just after the BOM. The optional second argument is a hashref containing options. The possible keys are described under C<find_charset_in>. If C<sniff_encoding> is unable to determine the encoding, it defaults to C<$IO::HTML::default_encoding>, which is set to C<cp1252> (a.k.a. Windows-1252) by default. According to the standard, the default should be locale dependent, but that is not currently implemented. It dies if the file cannot be opened. =head2 html_file_and_encoding ($filehandle, $encoding, $bom) = html_file_and_encoding($filename, \%options); This function (exported only by request) is just like C<html_file>, but returns more information. In addition to the filehandle, it returns the name of the encoding used, and a flag indicating whether a byte order mark was found (if C<$bom> is true, the file began with a BOM). This may be useful if you want to write the file out again (especially in conjunction with the C<html_outfile> function). The optional second argument is a hashref containing options. The possible keys are described under C<find_charset_in>. It dies if the file cannot be opened. The result of calling it in scalar context is undefined. =head2 html_outfile $filehandle = html_outfile($filename, $encoding, $bom); This function (exported only by request) opens C<$filename> for output using C<$encoding>, and writes a BOM to it if C<$bom> is true. If C<$encoding> is C<undef>, it defaults to C<$IO::HTML::default_encoding>. C<$encoding> may be either an encoding name or an Encode::Encoding object. It dies if the file cannot be opened. =head2 sniff_encoding ($encoding, $bom) = sniff_encoding($filehandle, $filename, \%options); This function (exported only by request) runs the HTML5 encoding sniffing algorithm on C<$filehandle> (which must be seekable, and should have been opened in C<:raw> mode). C<$filename> is used only for error messages (if there's a problem using the filehandle), and defaults to "file" if omitted. The optional third argument is a hashref containing options. The possible keys are described under C<find_charset_in>. It returns Perl's canonical name for the encoding, which is not necessarily the same as the MIME or IANA charset name. It returns C<undef> if the encoding cannot be determined. C<$bom> is true if the file began with a byte order mark. In scalar context, it returns only C<$encoding>. The filehandle's position is restored to its original position (normally the beginning of the file) unless C<$bom> is true. In that case, the position is immediately after the BOM. Tip: If you want to run C<sniff_encoding> on a file you've already loaded into a string, open an in-memory file on the string, and pass that handle: ($encoding, $bom) = do { open(my $fh, '<', \$string); sniff_encoding($fh) }; (This only makes sense if C<$string> contains bytes, not characters.) =head2 find_charset_in $encoding = find_charset_in($string_containing_HTML, \%options); This function (exported only by request) looks for charset information in a C<< <meta> >> tag in a possibly incomplete HTML document using the "two step" algorithm specified by HTML5. It does not look for a BOM. Only the first 1024 bytes of the string are checked. It returns Perl's canonical name for the encoding, which is not necessarily the same as the MIME or IANA charset name. It returns C<undef> if no charset is specified or if the specified charset is not recognized by the Encode module. The optional second argument is a hashref containing options. The following keys are recognized: =over =item C<encoding> If true, return the L<Encode::Encoding> object instead of its name. Defaults to false. =item C<need_pragma> If true (the default), follow the HTML5 spec and examine the C<content> attribute only of C<< <meta http-equiv="Content-Type" >>. If set to 0, relax the HTML5 spec, and look for "charset=" in the C<content> attribute of I<every> meta tag. =back =head1 EXPORTS By default, only C<html_file> is exported. Other functions may be exported on request. For people who prefer not to export functions, all functions beginning with C<html_> have an alias without that prefix (e.g. you can call C<IO::HTML::file(...)> instead of C<IO::HTML::html_file(...)>. These aliases are not exportable. =for Pod::Coverage file file_and_encoding outfile The following export tags are available: =over =item C<:all> All exportable functions. =item C<:rw> C<html_file>, C<html_file_and_encoding>, C<html_outfile>. =back =head1 SEE ALSO The HTML5 specification, section 8.2.2.2 Determining the character encoding: L<http://www.w3.org/TR/html5/syntax.html#determining-the-character-encoding> =head1 DIAGNOSTICS =over =item C<< Could not read %s: %s >> The specified file could not be read from for the reason specified by C<$!>. =item C<< Could not seek %s: %s >> The specified file could not be rewound for the reason specified by C<$!>. =item C<< Failed to open %s: %s >> The specified file could not be opened for reading for the reason specified by C<$!>. =item C<< No default encoding specified >> The C<sniff_encoding> algorithm didn't find an encoding to use, and you set C<$IO::HTML::default_encoding> to C<undef>. =back =head1 CONFIGURATION AND ENVIRONMENT IO::HTML requires no configuration files or environment variables. =head1 DEPENDENCIES IO::HTML has no non-core dependencies for Perl 5.8.7+. With earlier versions of Perl 5.8, you need to upgrade L<Encode> to at least version 2.10, and you may need to upgrade L<Exporter> to at least version 5.57. =head1 INCOMPATIBILITIES None reported. =head1 BUGS AND LIMITATIONS No bugs have been reported. =head1 AUTHOR Christopher J. Madsen S<C<< <perl AT cjmweb.net> >>> Please report any bugs or feature requests to S<C<< <bug-IO-HTML AT rt.cpan.org> >>> or through the web interface at L<< http://rt.cpan.org/Public/Bug/Report.html?Queue=IO-HTML >>. You can follow or contribute to IO-HTML's development at L<< https://github.com/madsen/io-html >>. =head1 COPYRIGHT AND LICENSE This software is copyright (c) 2014 by Christopher J. Madsen. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself. =head1 DISCLAIMER OF WARRANTY BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY THE ABOVE LICENSE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. =cut