View file File name : Writer.pm Content :######################################################################## # Writer.pm - write an XML document. # Copyright (c) 1999 by Megginson Technologies. # Copyright (c) 2003 Ed Avis <ed@membled.com> # Copyright (c) 2004-2010 Joseph Walton <joe@kafsemo.org> # Redistribution and use in source and compiled forms, with or without # modification, are permitted under any circumstances. No warranty. ######################################################################## package XML::Writer; require 5.004; use strict; use vars qw($VERSION); use Carp; use IO::Handle; $VERSION = "0.625"; use overload '""' => \&_overload_string; ######################################################################## # Constructor. ######################################################################## # # Public constructor. # # This actually does most of the work of the module: it defines closures # for all of the real processing, and selects the appropriate closures # to use based on the value of the UNSAFE parameter. The actual methods # are just stubs. # sub new { my ($class, %params) = (@_); # If the user wants namespaces, # intercept the request here; it will # come back to this constructor # from within XML::Writer::Namespaces::new() if ($params{NAMESPACES}) { delete $params{NAMESPACES}; return XML::Writer::Namespaces->new(%params); } # Set up $self and basic parameters my $self; my $output; my $unsafe = $params{UNSAFE}; my $newlines = $params{NEWLINES}; my $dataMode = $params{DATA_MODE}; my $dataIndent; my $selfcontained_output; my $use_selfcontained_output = 0; # If the NEWLINES parameter is specified, # set the $nl variable appropriately my $nl = ''; if ($newlines) { $nl = "\n"; } my $outputEncoding = $params{ENCODING} || ""; my ($checkUnencodedRepertoire, $escapeEncoding); if (lc($outputEncoding) eq 'us-ascii') { $checkUnencodedRepertoire = \&_croakUnlessASCII; $escapeEncoding = \&_escapeASCII; } else { my $doNothing = sub {}; $checkUnencodedRepertoire = $doNothing; $escapeEncoding = $doNothing; } # Parse variables my @elementStack = (); my $elementLevel = 0; my %seen = (); my $hasData = 0; my @hasDataStack = (); my $hasElement = 0; my @hasElementStack = (); my $hasHeading = 0; # Does this document have anything before the first element? # # Private method to show attributes. # my $showAttributes = sub { my $atts = $_[0]; my $i = 1; while ($atts->[$i]) { my $aname = $atts->[$i++]; my $value = _escapeLiteral($atts->[$i++]); $value =~ s/\x0a/\
\;/g; $value =~ s/\x0d/\
\;/g; $value =~ s/\x09/\	\;/g; &{$escapeEncoding}($value); $output->print(" $aname=\"$value\""); } }; # Method implementations: the SAFE_ # versions perform error checking # and then call the regular ones. my $end = sub { $output->print("\n"); return $selfcontained_output if $use_selfcontained_output and defined wantarray; }; my $SAFE_end = sub { if (!$seen{ELEMENT}) { croak("Document cannot end without a document element"); } elsif ($elementLevel > 0) { croak("Document ended with unmatched start tag(s): @elementStack"); } else { @elementStack = (); $elementLevel = 0; %seen = (); &{$end}; } }; my $xmlDecl = sub { my ($encoding, $standalone) = (@_); if ($standalone && $standalone ne 'no') { $standalone = 'yes'; } # Only include an encoding if one has been explicitly supplied, # either here or on construction. Allow the empty string # to suppress it. if (!defined($encoding)) { $encoding = $outputEncoding; } $output->print("<?xml version=\"1.0\""); if ($encoding) { $output->print(" encoding=\"$encoding\""); } if ($standalone) { $output->print(" standalone=\"$standalone\""); } $output->print("?>\n"); $hasHeading = 1; }; my $SAFE_xmlDecl = sub { if ($seen{ANYTHING}) { croak("The XML declaration is not the first thing in the document"); } else { $seen{ANYTHING} = 1; $seen{XMLDECL} = 1; &{$xmlDecl}; } }; my $pi = sub { my ($target, $data) = (@_); if ($data) { $output->print("<?$target $data?>"); } else { $output->print("<?$target?>"); } if ($elementLevel == 0) { $output->print("\n"); $hasHeading = 1; } }; my $SAFE_pi = sub { my ($name, $data) = (@_); $seen{ANYTHING} = 1; if (($name =~ /^xml/i) && ($name !~ /^xml-(stylesheet|model)$/i)) { carp("Processing instruction target begins with 'xml'"); } if ($name =~ /\?\>/ || (defined($data) && $data =~ /\?\>/)) { croak("Processing instruction may not contain '?>'"); } elsif ($name =~ /\s/) { croak("Processing instruction name may not contain whitespace"); } else { &{$pi}; } }; my $comment = sub { my $data = $_[0]; if ($dataMode && $elementLevel) { $output->print("\n"); $output->print($dataIndent x $elementLevel); } $output->print("<!-- $data -->"); if ($dataMode && $elementLevel) { $hasElement = 1; } elsif ($elementLevel == 0) { $output->print("\n"); $hasHeading = 1; } }; my $SAFE_comment = sub { my $data = $_[0]; if ($data =~ /--/) { carp("Interoperability problem: \"--\" in comment text"); } if ($data =~ /-->/) { croak("Comment may not contain '-->'"); } else { &{$checkUnencodedRepertoire}($data); $seen{ANYTHING} = 1; &{$comment}; } }; my $doctype = sub { my ($name, $publicId, $systemId) = (@_); $output->print("<!DOCTYPE $name"); if ($publicId) { unless ( defined $systemId) { croak("A DOCTYPE declaration with a public ID must also have a system ID"); } $output->print(" PUBLIC \"$publicId\" \"$systemId\""); } elsif ( defined $systemId ) { $output->print(" SYSTEM \"$systemId\""); } $output->print(">\n"); $hasHeading = 1; }; my $SAFE_doctype = sub { my $name = $_[0]; if ($seen{DOCTYPE}) { croak("Attempt to insert second DOCTYPE declaration"); } elsif ($seen{ELEMENT}) { croak("The DOCTYPE declaration must come before the first start tag"); } else { $seen{ANYTHING} = 1; $seen{DOCTYPE} = $name; &{$doctype}; } }; my $startTag = sub { my $name = $_[0]; if ($dataMode && ($hasHeading || $elementLevel)) { $output->print("\n"); $output->print($dataIndent x $elementLevel); } $elementLevel++; push @elementStack, $name; $output->print("<$name"); &{$showAttributes}(\@_); $output->print("$nl>"); if ($dataMode) { $hasElement = 1; push @hasDataStack, $hasData; $hasData = 0; push @hasElementStack, $hasElement; $hasElement = 0; } }; my $SAFE_startTag = sub { my $name = $_[0]; &{$checkUnencodedRepertoire}($name); _checkAttributes(\@_); if ($seen{ELEMENT} && $elementLevel == 0) { croak("Attempt to insert start tag after close of document element"); } elsif ($elementLevel == 0 && $seen{DOCTYPE} && $name ne $seen{DOCTYPE}) { croak("Document element is \"$name\", but DOCTYPE is \"" . $seen{DOCTYPE} . "\""); } elsif ($dataMode && $hasData) { croak("Mixed content not allowed in data mode: element $name"); } else { $seen{ANYTHING} = 1; $seen{ELEMENT} = 1; &{$startTag}; } }; my $emptyTag = sub { my $name = $_[0]; if ($dataMode && ($hasHeading || $elementLevel)) { $output->print("\n"); $output->print($dataIndent x $elementLevel); } $output->print("<$name"); &{$showAttributes}(\@_); $output->print("$nl />"); if ($dataMode) { $hasElement = 1; } }; my $SAFE_emptyTag = sub { my $name = $_[0]; &{$checkUnencodedRepertoire}($name); _checkAttributes(\@_); if ($seen{ELEMENT} && $elementLevel == 0) { croak("Attempt to insert empty tag after close of document element"); } elsif ($elementLevel == 0 && $seen{DOCTYPE} && $name ne $seen{DOCTYPE}) { croak("Document element is \"$name\", but DOCTYPE is \"" . $seen{DOCTYPE} . "\""); } elsif ($dataMode && $hasData) { croak("Mixed content not allowed in data mode: element $name"); } else { $seen{ANYTHING} = 1; $seen{ELEMENT} = 1; &{$emptyTag}; } }; my $endTag = sub { my $name = $_[0]; my $currentName = pop @elementStack; $name = $currentName unless $name; $elementLevel--; if ($dataMode && $hasElement) { $output->print("\n"); $output->print($dataIndent x $elementLevel); } $output->print("</$name$nl>"); if ($dataMode) { $hasData = pop @hasDataStack; $hasElement = pop @hasElementStack; } }; my $SAFE_endTag = sub { my $name = $_[0]; my $oldName = $elementStack[$#elementStack]; if ($elementLevel <= 0) { croak("End tag \"$name\" does not close any open element"); } elsif ($name && ($name ne $oldName)) { croak("Attempt to end element \"$oldName\" with \"$name\" tag"); } else { &{$endTag}; } }; my $characters = sub { my $data = $_[0]; if ($data =~ /[\&\<\>]/) { $data =~ s/\&/\&\;/g; $data =~ s/\</\<\;/g; $data =~ s/\>/\>\;/g; } &{$escapeEncoding}($data); $output->print($data); $hasData = 1; }; my $SAFE_characters = sub { if ($elementLevel < 1) { croak("Attempt to insert characters outside of document element"); } elsif ($dataMode && $hasElement) { croak("Mixed content not allowed in data mode: characters"); } else { _croakUnlessDefinedCharacters($_[0]); &{$characters}; } }; my $raw = sub { $output->print($_[0]); # Don't set $hasData or any other information: we know nothing # about what was just written. # }; my $SAFE_raw = sub { croak('raw() is only available when UNSAFE is set'); }; my $cdata = sub { my $data = $_[0]; $data =~ s/\]\]>/\]\]\]\]><!\[CDATA\[>/g; $output->print("<![CDATA[$data]]>"); $hasData = 1; }; my $SAFE_cdata = sub { if ($elementLevel < 1) { croak("Attempt to insert characters outside of document element"); } elsif ($dataMode && $hasElement) { croak("Mixed content not allowed in data mode: characters"); } else { _croakUnlessDefinedCharacters($_[0]); &{$checkUnencodedRepertoire}($_[0]); &{$cdata}; } }; # Assign the correct closures based on # the UNSAFE parameter if ($unsafe) { $self = {'END' => $end, 'XMLDECL' => $xmlDecl, 'PI' => $pi, 'COMMENT' => $comment, 'DOCTYPE' => $doctype, 'STARTTAG' => $startTag, 'EMPTYTAG' => $emptyTag, 'ENDTAG' => $endTag, 'CHARACTERS' => $characters, 'RAW' => $raw, 'CDATA' => $cdata }; } else { $self = {'END' => $SAFE_end, 'XMLDECL' => $SAFE_xmlDecl, 'PI' => $SAFE_pi, 'COMMENT' => $SAFE_comment, 'DOCTYPE' => $SAFE_doctype, 'STARTTAG' => $SAFE_startTag, 'EMPTYTAG' => $SAFE_emptyTag, 'ENDTAG' => $SAFE_endTag, 'CHARACTERS' => $SAFE_characters, 'RAW' => $SAFE_raw, # This will intentionally fail 'CDATA' => $SAFE_cdata }; } # Query methods $self->{'IN_ELEMENT'} = sub { my ($ancestor) = (@_); return $elementStack[$#elementStack] eq $ancestor; }; $self->{'WITHIN_ELEMENT'} = sub { my ($ancestor) = (@_); my $el; foreach $el (@elementStack) { return 1 if $el eq $ancestor; } return 0; }; $self->{'CURRENT_ELEMENT'} = sub { return $elementStack[$#elementStack]; }; $self->{'ANCESTOR'} = sub { my ($n) = (@_); if ($n < scalar(@elementStack)) { return $elementStack[$#elementStack-$n]; } else { return undef; } }; # Set and get the output destination. $self->{'GETOUTPUT'} = sub { if (ref($output) ne 'XML::Writer::_PrintChecker') { return $output; } else { return $output->{HANDLE}; } }; $self->{'SETOUTPUT'} = sub { my $newOutput = $_[0]; if (defined($newOutput) && !ref($newOutput) && 'self' eq $newOutput ) { $newOutput = \$selfcontained_output; $use_selfcontained_output = 1; } if (ref($newOutput) eq 'SCALAR') { $output = XML::Writer::_String->new($newOutput); } else { # If there is no OUTPUT parameter, # use standard output $output = $newOutput || \*STDOUT; if ($outputEncoding && (ref($output) eq 'GLOB' || $output->isa('IO::Handle'))) { if (lc($outputEncoding) eq 'utf-8') { binmode($output, ':encoding(utf-8)'); } elsif (lc($outputEncoding) eq 'us-ascii') { binmode($output, ':encoding(us-ascii)'); } else { die 'The only supported encodings are utf-8 and us-ascii'; } } } if ($params{CHECK_PRINT}) { $output = XML::Writer::_PrintChecker->new($output); } }; $self->{OVERLOADSTRING} = sub { # if we don't use the self-contained output, # simple passthrough return $use_selfcontained_output ? $selfcontained_output : undef; }; $self->{TOSTRING} = sub { die "'to_string' can only be used with self-contained output\n" unless $use_selfcontained_output; return $selfcontained_output; }; $self->{'SETDATAMODE'} = sub { $dataMode = $_[0]; }; $self->{'GETDATAMODE'} = sub { return $dataMode; }; $self->{'SETDATAINDENT'} = sub { if ($_[0] =~ /^\s*$/) { $dataIndent = $_[0]; } else { $dataIndent = ' ' x $_[0]; } }; $self->{'GETDATAINDENT'} = sub { if ($dataIndent =~ /^ *$/) { return length($dataIndent); } else { return $dataIndent; } }; # Set the indent. &{$self->{'SETDATAINDENT'}}($params{'DATA_INDENT'} || ''); # Set the output. &{$self->{'SETOUTPUT'}}($params{'OUTPUT'}); # Return the blessed object. return bless $self, $class; } ######################################################################## # Public methods ######################################################################## # # Finish writing the document. # sub end { my $self = shift; &{$self->{END}}; } # # Write an XML declaration. # sub xmlDecl { my $self = shift; &{$self->{XMLDECL}}; } # # Write a processing instruction. # sub pi { my $self = shift; &{$self->{PI}}; } # # Write a comment. # sub comment { my $self = shift; &{$self->{COMMENT}}; } # # Write a DOCTYPE declaration. # sub doctype { my $self = shift; &{$self->{DOCTYPE}}; } # # Write a start tag. # sub startTag { my $self = shift; &{$self->{STARTTAG}}; } # # Write an empty tag. # sub emptyTag { my $self = shift; &{$self->{EMPTYTAG}}; } # # Write an end tag. # sub endTag { my $self = shift; &{$self->{ENDTAG}}; } # # Write a simple data element. # sub dataElement { my ($self, $name, $data, @atts) = (@_); $self->startTag($name, @atts); $self->characters($data); $self->endTag($name); } # # Write a simple CDATA element. # sub cdataElement { my ($self, $name, $data, %atts) = (@_); $self->startTag($name, %atts); $self->cdata($data); $self->endTag($name); } # # Write character data. # sub characters { my $self = shift; &{$self->{CHARACTERS}}; } # # Write raw, unquoted, completely unchecked character data. # sub raw { my $self = shift; &{$self->{RAW}}; } # # Write CDATA. # sub cdata { my $self = shift; &{$self->{CDATA}}; } # # Query the current element. # sub in_element { my $self = shift; return &{$self->{IN_ELEMENT}}; } # # Query the ancestors. # sub within_element { my $self = shift; return &{$self->{WITHIN_ELEMENT}}; } # # Get the name of the current element. # sub current_element { my $self = shift; return &{$self->{CURRENT_ELEMENT}}; } # # Get the name of the numbered ancestor (zero-based). # sub ancestor { my $self = shift; return &{$self->{ANCESTOR}}; } # # Get the current output destination. # sub getOutput { my $self = shift; return &{$self->{GETOUTPUT}}; } # # Set the current output destination. # sub setOutput { my $self = shift; return &{$self->{SETOUTPUT}}; } # # Set the current data mode (true or false). # sub setDataMode { my $self = shift; return &{$self->{SETDATAMODE}}; } # # Get the current data mode (true or false). # sub getDataMode { my $self = shift; return &{$self->{GETDATAMODE}}; } # # Set the current data indent step. # sub setDataIndent { my $self = shift; return &{$self->{SETDATAINDENT}}; } # # Get the current data indent step. # sub getDataIndent { my $self = shift; return &{$self->{GETDATAINDENT}}; } # # Empty stub. # sub addPrefix { } # # Empty stub. # sub removePrefix { } sub to_string { my $self = shift; $self->{TOSTRING}->(); } ######################################################################## # Private functions. ######################################################################## # # Private: check for duplicate attributes and bad characters. # Note - this starts at $_[1], because $_[0] is assumed to be an # element name. # sub _checkAttributes { my %anames; my $i = 1; while ($_[0]->[$i]) { my $name = $_[0]->[$i]; $i += 1; if ($anames{$name}) { croak("Two attributes named \"$name\""); } else { $anames{$name} = 1; } _croakUnlessDefinedCharacters($_[0]->[$i]); $i += 1; } } # # Private: escape an attribute value literal. # sub _escapeLiteral { my $data = $_[0]; if ($data =~ /[\&\<\>\"]/) { $data =~ s/\&/\&\;/g; $data =~ s/\</\<\;/g; $data =~ s/\>/\>\;/g; $data =~ s/\"/\"\;/g; } return $data; } sub _escapeASCII($) { $_[0] =~ s/([^\x00-\x7F])/sprintf('&#x%X;', ord($1))/ge; } sub _croakUnlessASCII($) { if ($_[0] =~ /[^\x00-\x7F]/) { croak('Non-ASCII characters are not permitted in this part of a US-ASCII document'); } } # Enforce XML 1.0, section 2.2's definition of "Char" (only reject low ASCII, # so as not to require Unicode support from perl) sub _croakUnlessDefinedCharacters($) { if ($_[0] =~ /([\x00-\x08\x0B-\x0C\x0E-\x1F])/) { croak(sprintf('Code point \u%04X is not a valid character in XML', ord($1))); } } sub _overload_string { my $self = shift; $self->{OVERLOADSTRING}->() || overload::StrVal($self); } ######################################################################## # XML::Writer::Namespaces - subclass for Namespace processing. ######################################################################## package XML::Writer::Namespaces; use strict; use vars qw(@ISA); use Carp; @ISA = qw(XML::Writer); # # Constructor # sub new { my ($class, %params) = (@_); my $unsafe = $params{UNSAFE}; # Snarf the prefix map, if any, and # note the default prefix. my %prefixMap = (); if ($params{PREFIX_MAP}) { %prefixMap = (%{$params{PREFIX_MAP}}); delete $params{PREFIX_MAP}; } $prefixMap{'http://www.w3.org/XML/1998/namespace'} = 'xml'; # Generate the reverse map for URIs my $uriMap = {}; my $key; foreach $key (keys(%prefixMap)) { $uriMap->{$prefixMap{$key}} = $key; } my $defaultPrefix = $uriMap->{''}; delete $prefixMap{$defaultPrefix} if ($defaultPrefix); # Create an instance of the parent. my $self = XML::Writer->new(%params); # Snarf the parent's methods that we're # going to override. my $OLD_startTag = $self->{STARTTAG}; my $OLD_emptyTag = $self->{EMPTYTAG}; my $OLD_endTag = $self->{ENDTAG}; # State variables my @stack; my $prefixCounter = 1; my $nsDecls = {'http://www.w3.org/XML/1998/namespace' => 'xml'}; my $nsDefaultDecl = undef; my $nsCopyFlag = 0; my @forcedNSDecls = (); if ($params{FORCED_NS_DECLS}) { @forcedNSDecls = @{$params{FORCED_NS_DECLS}}; delete $params{FORCED_NS_DECLS}; } # # Push the current declaration state. # my $pushState = sub { push @stack, [$nsDecls, $nsDefaultDecl, $nsCopyFlag, $uriMap]; $nsCopyFlag = 0; }; # # Pop the current declaration state. # my $popState = sub { ($nsDecls, $nsDefaultDecl, $nsCopyFlag, $uriMap) = @{pop @stack}; }; # # Generate a new prefix. # my $genPrefix = sub { my $uri = $_[0]; my $prefixCounter = 1; my $prefix = $prefixMap{$uri}; my %clashMap = %{$uriMap}; while( my ($u, $p) = each(%prefixMap)) { $clashMap{$p} = $u; } while (!defined($prefix) || ($clashMap{$prefix} && $clashMap{$prefix} ne $uri)) { $prefix = "__NS$prefixCounter"; $prefixCounter++; } return $prefix; }; # # Perform namespace processing on a single name. # my $processName = sub { my ($nameref, $atts, $attFlag) = (@_); my ($uri, $local) = @{$$nameref}; my $prefix = $nsDecls->{$uri}; # Is this an element name that matches # the default NS? if (!$attFlag && $defaultPrefix && ($uri eq $defaultPrefix)) { unless ($nsDefaultDecl && ($nsDefaultDecl eq $uri)) { push @{$atts}, 'xmlns'; push @{$atts}, $uri; $nsDefaultDecl = $uri; } $$nameref = $local; if (defined($uriMap->{''})) { delete ($nsDecls->{$uriMap->{''}}); } $nsDecls->{$uri} = ''; unless ($nsCopyFlag) { $uriMap = {%{$uriMap}}; $nsDecls = {%{$nsDecls}}; $nsCopyFlag = 1; } $uriMap->{''} = $uri; # Is there a straight-forward prefix? } elsif ($prefix) { $$nameref = "$prefix:$local"; } else { $prefix = &{$genPrefix}($uri); unless ($nsCopyFlag) { $uriMap = {%{$uriMap}}; $nsDecls = {%{$nsDecls}}; $nsCopyFlag = 1; } $uriMap->{$prefix} = $uri; $nsDecls->{$uri} = $prefix; push @{$atts}, "xmlns:$prefix"; push @{$atts}, $uri; $$nameref = "$prefix:$local"; } }; # # Perform namespace processing on element and attribute names. # my $nsProcess = sub { if (ref($_[0]->[0]) eq 'ARRAY') { my $x = \@{$_[0]->[0]}; &{$processName}(\$x, $_[0], 0); splice(@{$_[0]}, 0, 1, $x); } my $i = 1; while ($_[0]->[$i]) { if (ref($_[0]->[$i]) eq 'ARRAY') { my $x = \@{$_[0]->[$i]}; &{$processName}(\$x, $_[0], 1); splice(@{$_[0]}, $i, 1, $x); } $i += 2; } # We do this if any declarations are forced, due either to # constructor arguments or to a call during processing. if (@forcedNSDecls) { foreach (@forcedNSDecls) { my @dummy = ($_, 'dummy'); my $d2 = \@dummy; if ($defaultPrefix && ($_ eq $defaultPrefix)) { &{$processName}(\$d2, $_[0], 0); } else { &{$processName}(\$d2, $_[0], 1); } } @forcedNSDecls = (); } }; # Indicate that a namespace should be declared by the next open element $self->{FORCENSDECL} = sub { push @forcedNSDecls, $_[0]; }; # # Start tag, with NS processing # $self->{STARTTAG} = sub { my $name = $_[0]; unless ($unsafe) { _checkNSNames(\@_); } &{$pushState}(); &{$nsProcess}(\@_); &{$OLD_startTag}; }; # # Empty tag, with NS processing # $self->{EMPTYTAG} = sub { unless ($unsafe) { _checkNSNames(\@_); } &{$pushState}(); &{$nsProcess}(\@_); &{$OLD_emptyTag}; &{$popState}(); }; # # End tag, with NS processing # $self->{ENDTAG} = sub { my $name = $_[0]; if (ref($_[0]) eq 'ARRAY') { my $pfx = $nsDecls->{$_[0]->[0]}; if ($pfx) { $_[0] = $pfx . ':' . $_[0]->[1]; } else { $_[0] = $_[0]->[1]; } } else { $_[0] = $_[0]; } # &{$nsProcess}(\@_); &{$OLD_endTag}; &{$popState}(); }; # # Processing instruction, but only if not UNSAFE. # unless ($unsafe) { my $OLD_pi = $self->{PI}; $self->{PI} = sub { my $target = $_[0]; if (index($target, ':') >= 0) { croak "PI target '$target' contains a colon."; } &{$OLD_pi}; } }; # # Add a prefix to the prefix map. # $self->{ADDPREFIX} = sub { my ($uri, $prefix) = (@_); if ($prefix) { $prefixMap{$uri} = $prefix; } else { if (defined($defaultPrefix)) { delete($prefixMap{$defaultPrefix}); } $defaultPrefix = $uri; } }; # # Remove a prefix from the prefix map. # $self->{REMOVEPREFIX} = sub { my ($uri) = (@_); if ($defaultPrefix && ($defaultPrefix eq $uri)) { $defaultPrefix = undef; } delete $prefixMap{$uri}; }; # # Bless and return the object. # return bless $self, $class; } # # Add a preferred prefix for a namespace URI. # sub addPrefix { my $self = shift; return &{$self->{ADDPREFIX}}; } # # Remove a preferred prefix for a namespace URI. # sub removePrefix { my $self = shift; return &{$self->{REMOVEPREFIX}}; } # # Check names. # sub _checkNSNames { my $names = $_[0]; my $i = 1; my $name = $names->[0]; # Check the element name. if (ref($name) eq 'ARRAY') { if (index($name->[1], ':') >= 0) { croak("Local part of element name '" . $name->[1] . "' contains a colon."); } } elsif (index($name, ':') >= 0) { croak("Element name '$name' contains a colon."); } # Check the attribute names. while ($names->[$i]) { my $name = $names->[$i]; if (ref($name) eq 'ARRAY') { my $local = $name->[1]; if (index($local, ':') >= 0) { croak "Local part of attribute name '$local' contains a colon."; } } else { if ($name =~ /^xmlns/) { croak "Attribute name '$name' begins with 'xmlns'"; } elsif (index($name, ':') >= 0) { croak "Attribute name '$name' contains ':'"; } } $i += 2; } } sub forceNSDecl { my $self = shift; return &{$self->{FORCENSDECL}}; } package XML::Writer::_String; # Internal class, behaving sufficiently like an IO::Handle, # that stores written output in a string # # Heavily inspired by Simon Oliver's XML::Writer::String sub new { my $class = shift; my $scalar_ref = shift; return bless($scalar_ref, $class); } sub print { ${(shift)} .= join('', @_); return 1; } package XML::Writer::_PrintChecker; use Carp; sub new { my $class = shift; return bless({HANDLE => shift}, $class); } sub print { my $self = shift; if ($self->{HANDLE}->print(shift)) { return 1; } else { croak "Failed to write output: $!"; } } 1; __END__ ######################################################################## # POD Documentation ######################################################################## =head1 NAME XML::Writer - Perl extension for writing XML documents. =head1 SYNOPSIS use XML::Writer; use IO::File; my $output = IO::File->new(">output.xml"); my $writer = XML::Writer->new(OUTPUT => $output); $writer->startTag("greeting", "class" => "simple"); $writer->characters("Hello, world!"); $writer->endTag("greeting"); $writer->end(); $output->close(); =head1 DESCRIPTION XML::Writer is a helper module for Perl programs that write an XML document. The module handles all escaping for attribute values and character data and constructs different types of markup, such as tags, comments, and processing instructions. By default, the module performs several well-formedness checks to catch errors during output. This behaviour can be extremely useful during development and debugging, but it can be turned off for production-grade code. The module can operate either in regular mode in or Namespace processing mode. In Namespace mode, the module will generate Namespace Declarations itself, and will perform additional checks on the output. Additional support is available for a simplified data mode with no mixed content: newlines are automatically inserted around elements and elements can optionally be indented based as their nesting level. =head1 METHODS =head2 Writing XML =over 4 =item new([$params]) Create a new XML::Writer object: my $writer = XML::Writer->new(OUTPUT => $output, NEWLINES => 1); Arguments are an anonymous hash array of parameters: =over 4 =item OUTPUT An object blessed into IO::Handle or one of its subclasses (such as IO::File), or a reference to a string, or any blessed object that has a print() method; if this parameter is not present, the module will write to standard output. If a string reference is passed, it will capture the generated XML (as a string; to get bytes use the C<Encode> module). If the string I<self> is passed, the output will be captured internally by the object, and can be accessed via the C<to_string()> method, or by calling the object in a string context. my $writer = XML::Writer->new( OUTPUT => 'self' ); $writer->dataElement( hello => 'world' ); print $writer->to_string; # outputs <hello>world</hello> print "$writer"; # ditto =item NAMESPACES A true (1) or false (0, undef) value; if this parameter is present and its value is true, then the module will accept two-member array reference in the place of element and attribute names, as in the following example: my $rdfns = "http://www.w3.org/1999/02/22-rdf-syntax-ns#"; my $writer = XML::Writer->new(NAMESPACES => 1); $writer->startTag([$rdfns, "Description"]); The first member of the array is a namespace URI, and the second part is the local part of a qualified name. The module will automatically generate appropriate namespace declarations and will replace the URI part with a prefix. =item PREFIX_MAP A hash reference; if this parameter is present and the module is performing namespace processing (see the NAMESPACES parameter), then the module will use this hash to look up preferred prefixes for namespace URIs: my $rdfns = "http://www.w3.org/1999/02/22-rdf-syntax-ns#"; my $writer = XML::Writer->new(NAMESPACES => 1, PREFIX_MAP => {$rdfns => 'rdf'}); The keys in the hash table are namespace URIs, and the values are the associated prefixes. If there is not a preferred prefix for the namespace URI in this hash, then the module will automatically generate prefixes of the form "__NS1", "__NS2", etc. To set the default namespace, use '' for the prefix. =item FORCED_NS_DECLS An array reference; if this parameter is present, the document element will contain declarations for all the given namespace URIs. Declaring namespaces in advance is particularly useful when a large number of elements from a namespace are siblings, but don't share a direct ancestor from the same namespace. =item NEWLINES A true or false value; if this parameter is present and its value is true, then the module will insert an extra newline before the closing delimiter of start, end, and empty tags to guarantee that the document does not end up as a single, long line. If the parameter is not present, the module will not insert the newlines. =item UNSAFE A true or false value; if this parameter is present and its value is true, then the module will skip most well-formedness error checking. If the parameter is not present, the module will perform the well-formedness error checking by default. Turn off error checking at your own risk! =item DATA_MODE A true or false value; if this parameter is present and its value is true, then the module will enter a special data mode, inserting newlines automatically around elements and (unless UNSAFE is also specified) reporting an error if any element has both characters and elements as content. =item DATA_INDENT A numeric value or white space; if this parameter is present, it represents the indent step for elements in data mode (it will be ignored when not in data mode). If it is white space it will be repeated for each level of indentation. =item ENCODING A character encoding to use for the output; currently this must be one of 'utf-8' or 'us-ascii'. If present, it will be used for the underlying character encoding and as the default in the XML declaration. All character data should be passed as Unicode strings when an encoding is set. =item CHECK_PRINT A true or false value; if this parameter is present and its value is true, all prints to the underlying output will be checked for success. Failures will cause a croak rather than being ignored. =back =item end() Finish creating an XML document. This method will check that the document has exactly one document element, and that all start tags are closed: $writer->end(); If I<OUTPUT> as been set to I<self>, C<end()> will return the generated document as well. =item xmlDecl([$encoding, $standalone]) Add an XML declaration to the beginning of an XML document. The version will always be "1.0". If you provide a non-null encoding or standalone argument, its value will appear in the declaration (any non-null value for standalone except 'no' will automatically be converted to 'yes'). If not given here, the encoding will be taken from the ENCODING argument. Pass the empty string to suppress this behaviour. $writer->xmlDecl("UTF-8"); =item doctype($name, [$publicId, $systemId]) Add a DOCTYPE declaration to an XML document. The declaration must appear before the beginning of the root element. If you provide a publicId, you must provide a systemId as well, but you may provide just a system ID by passing 'undef' for the publicId. $writer->doctype("html"); =item comment($text) Add a comment to an XML document. If the comment appears outside the document element (either before the first start tag or after the last end tag), the module will add a carriage return after it to improve readability. In data mode, comments will be treated as empty tags: $writer->comment("This is a comment"); =item pi($target [, $data]) Add a processing instruction to an XML document: $writer->pi('xml-stylesheet', 'href="style.css" type="text/css"'); If the processing instruction appears outside the document element (either before the first start tag or after the last end tag), the module will add a carriage return after it to improve readability. The $target argument must be a single XML name. If you provide the $data argument, the module will insert its contents following the $target argument, separated by a single space. =item startTag($name [, $aname1 => $value1, ...]) Add a start tag to an XML document. Any arguments after the element name are assumed to be name/value pairs for attributes: the module will escape all '&', '<', '>', and '"' characters in the attribute values using the predefined XML entities: $writer->startTag('doc', 'version' => '1.0', 'status' => 'draft', 'topic' => 'AT&T'); All start tags must eventually have matching end tags. =item emptyTag($name [, $aname1 => $value1, ...]) Add an empty tag to an XML document. Any arguments after the element name are assumed to be name/value pairs for attributes (see startTag() for details): $writer->emptyTag('img', 'src' => 'portrait.jpg', 'alt' => 'Portrait of Emma.'); =item endTag([$name]) Add an end tag to an XML document. The end tag must match the closest open start tag, and there must be a matching and properly-nested end tag for every start tag: $writer->endTag('doc'); If the $name argument is omitted, then the module will automatically supply the name of the currently open element: $writer->startTag('p'); $writer->endTag(); =item dataElement($name, $data [, $aname1 => $value1, ...]) Print an entire element containing only character data. This is equivalent to $writer->startTag($name [, $aname1 => $value1, ...]); $writer->characters($data); $writer->endTag($name); =item characters($data) Add character data to an XML document. All '<', '>', and '&' characters in the $data argument will automatically be escaped using the predefined XML entities: $writer->characters("Here is the formula: "); $writer->characters("a < 100 && a > 5"); You may invoke this method only within the document element (i.e. after the first start tag and before the last end tag). In data mode, you must not use this method to add whitespace between elements. =item raw($data) Print data completely unquoted and unchecked to the XML document. For example C<raw('<')> will print a literal < character. This necessarily bypasses all well-formedness checking, and is therefore only available in unsafe mode. This can sometimes be useful for printing entities which are defined for your XML format but the module doesn't know about, for example for XHTML. =item cdata($data) As C<characters()> but writes the data quoted in a CDATA section, that is, between <![CDATA[ and ]]>. If the data to be written itself contains ]]>, it will be written as several consecutive CDATA sections. =item cdataElement($name, $data [, $aname1 => $value1, ...]) As C<dataElement()> but the element content is written as one or more CDATA sections (see C<cdata()>). =item setOutput($output) Set the current output destination, as in the OUTPUT parameter for the constructor. =item getOutput() Return the current output destination, as in the OUTPUT parameter for the constructor. =item setDataMode($mode) Enable or disable data mode, as in the DATA_MODE parameter for the constructor. =item getDataMode() Return the current data mode, as in the DATA_MODE parameter for the constructor. =item setDataIndent($step) Set the indent step for data mode, as in the DATA_INDENT parameter for the constructor. =item getDataIndent() Return the indent step for data mode, as in the DATA_INDENT parameter for the constructor. =back =head2 Querying XML =over 4 =item in_element($name) Return a true value if the most recent open element matches $name: if ($writer->in_element('dl')) { $writer->startTag('dt'); } else { $writer->startTag('li'); } =item within_element($name) Return a true value if any open element matches $name: if ($writer->within_element('body')) { $writer->startTag('h1'); } else { $writer->startTag('title'); } =item current_element() Return the name of the currently open element: my $name = $writer->current_element(); This is the equivalent of my $name = $writer->ancestor(0); =item ancestor($n) Return the name of the nth ancestor, where $n=0 for the current open element. =back =head2 Additional Namespace Support As of 0.510, these methods may be used while writing a document. =over 4 =item addPrefix($uri, $prefix) Add a preferred mapping between a Namespace URI and a prefix. See also the PREFIX_MAP constructor parameter. To set the default namespace, omit the $prefix parameter or set it to ''. =item removePrefix($uri) Remove a preferred mapping between a Namespace URI and a prefix. =item forceNSDecl($uri) Indicate that a namespace declaration for this URI should be included with the next element to be started. =back =head1 ERROR REPORTING With the default settings, the XML::Writer module can detect several basic XML well-formedness errors: =over 4 =item * Lack of a (top-level) document element, or multiple document elements. =item * Unclosed start tags. =item * Misplaced delimiters in the contents of processing instructions or comments. =item * Misplaced or duplicate XML declaration(s). =item * Misplaced or duplicate DOCTYPE declaration(s). =item * Mismatch between the document type name in the DOCTYPE declaration and the name of the document element. =item * Mismatched start and end tags. =item * Attempts to insert character data outside the document element. =item * Duplicate attributes with the same name. =back During Namespace processing, the module can detect the following additional errors: =over 4 =item * Attempts to use PI targets or element or attribute names containing a colon. =item * Attempts to use attributes with names beginning "xmlns". =back To ensure full error detection, a program must also invoke the end method when it has finished writing a document: $writer->startTag('greeting'); $writer->characters("Hello, world!"); $writer->endTag('greeting'); $writer->end(); This error reporting can catch many hidden bugs in Perl programs that create XML documents; however, if necessary, it can be turned off by providing an UNSAFE parameter: my $writer = XML::Writer->new(OUTPUT => $output, UNSAFE => 1); =head2 PRINTING OUTPUT If I<OUTPUT> has been set to I<self> and the object has been called in a string context, it'll return the xml document. =over 4 =item to_string If I<OUTPUT> has been set to I<self>, calls an implicit C<end()> on the document and prints it. Dies if I<OUTPUT> has been set to anything else. =back =head1 AUTHOR David Megginson E<lt>david@megginson.comE<gt> =head1 COPYRIGHT AND LICENSE Copyright (c) 1999 by Megginson Technologies. Copyright (c) 2003 Ed Avis E<lt>ed@membled.comE<gt> Copyright (c) 2004-2010 Joseph Walton E<lt>joe@kafsemo.orgE<gt> Redistribution and use in source and compiled forms, with or without modification, are permitted under any circumstances. No warranty. =head1 SEE ALSO XML::Parser =cut