### # XML::NamespaceSupport - a simple generic namespace processor # Robin Berjon # 07/10/2001 - v0.03 added Clarkian notation parsing # 20/09/2001 - v0.02 (w/ lots from Duncan Cameron) # 16/09/2001 - v0.01 ### package XML::NamespaceSupport; use strict; use vars qw($VERSION $NS_XMLNS $NS_XML); $VERSION = '1.04'; $NS_XMLNS = 'http://www.w3.org/2000/xmlns/'; $NS_XML = 'http://www.w3.org/XML/1998/namespace'; # add the ns stuff that baud wants based on Java's xml-writer #-------------------------------------------------------------------# # constructor #-------------------------------------------------------------------# sub new { my $class = ref($_[0]) ? ref(shift) : shift; my $options = shift; my $self = { fatals => 1, nsmap => [{ default => undef, prefix_map => { xml => $NS_XML }, declarations => undef, }] }; $self->{nsmap}->[0]->{prefix_map}->{xmlns} = $NS_XMLNS if $options->{xmlns}; $self->{fatals} = $options->{fatal_errors} if defined $options->{fatal_errors}; $self->{unknown_prefix} = 'aaa'; return bless $self, $class; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # reset() - return to the original state (for reuse) #-------------------------------------------------------------------# sub reset { my $self = shift; $#{$self->{nsmap}} = 0; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # push_context() - add a new empty context to the stack #-------------------------------------------------------------------# sub push_context { my $self = shift; push @{$self->{nsmap}}, { default => $self->{nsmap}->[-1]->{default}, prefix_map => { %{$self->{nsmap}->[-1]->{prefix_map}} }, declarations => [], }; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # pop_context() - remove the topmost context fromt the stack #-------------------------------------------------------------------# sub pop_context { my $self = shift; die 'Trying to pop context without push context' unless @{$self->{nsmap}} > 1; pop @{$self->{nsmap}}; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # declare_prefix() - declare a prefix in the current scope #-------------------------------------------------------------------# sub declare_prefix { my $self = shift; my $prefix = shift; my $value = shift; warn "Prefix must not be undef in declare_prefix(). The emtpy prefix must be ''" unless defined $prefix; return 0 if $prefix =~ /^xml/i; if ($prefix eq '') { $self->{nsmap}->[-1]->{default} = $value; } else { die "Cannot undeclare prefix $prefix" if $value eq ''; if (not defined $prefix) { while (1) { $prefix = $self->{unknown_prefix}++; last if not exists $self->{nsmap}->[-1]->{prefix_map}->{$prefix}; } } $self->{nsmap}->[-1]->{prefix_map}->{$prefix} = $value; } push @{$self->{nsmap}->[-1]->{declarations}}, $prefix; return 1; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # declare_prefixes() - declare several prefixes in the current scope #-------------------------------------------------------------------# sub declare_prefixes { my $self = shift; my %prefixes = @_; while (my ($k,$v) = each %prefixes) { $self->declare_prefix($k,$v); } } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # get_prefix() - get a (random) prefix for a given URI #-------------------------------------------------------------------# sub get_prefix { my $self = shift; my $uri = shift; # we have to iterate over the whole hash here because if we don't # the iterator isn't reset and the next pass will fail my $pref; while (my ($k, $v) = each %{$self->{nsmap}->[-1]->{prefix_map}}) { $pref = $k if $v eq $uri; } return $pref; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # get_prefixes() - get all the prefixes for a given URI #-------------------------------------------------------------------# sub get_prefixes { my $self = shift; my $uri = shift; return keys %{$self->{nsmap}->[-1]->{prefix_map}} unless defined $uri; return grep { $self->{nsmap}->[-1]->{prefix_map}->{$_} eq $uri } keys %{$self->{nsmap}->[-1]->{prefix_map}}; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # get_declared_prefixes() - get all prefixes declared in the last context #-------------------------------------------------------------------# sub get_declared_prefixes { my $self = shift; return @{$self->{nsmap}->[-1]->{declarations}}; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # get_uri() - get an URI given a prefix #-------------------------------------------------------------------# sub get_uri { my $self = shift; my $prefix = shift; warn "Prefix must not be undef in get_uri(). The emtpy prefix must be ''" unless defined $prefix; return $self->{nsmap}->[-1]->{default} if $prefix eq ''; return $self->{nsmap}->[-1]->{prefix_map}->{$prefix} if exists $self->{nsmap}->[-1]->{prefix_map}->{$prefix}; return undef; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # process_name() - provide details on a name #-------------------------------------------------------------------# sub process_name { my $self = shift; my $qname = shift; my $aflag = shift; my ($ns, $lname); eval { ($ns, undef, $lname) = $self->_get_ns_details($qname, $aflag); }; if ($@) { die $@ if $self->{fatals}; return undef; } return ($ns, $lname, $qname); } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # process_element_name() - provide details on a element's name #-------------------------------------------------------------------# sub process_element_name { my $self = shift; my $qname = shift; my ($ns, $prefix, $lname); eval { ($ns, $prefix, $lname) = $self->_get_ns_details($qname, 0); }; if ($@) { die $@ if $self->{fatals}; return undef; } return ($ns, $prefix, $lname); } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # process_attribute_name() - provide details on a attribute's name #-------------------------------------------------------------------# sub process_attribute_name { my $self = shift; my $qname = shift; my ($ns, $prefix, $lname); eval { ($ns, $prefix, $lname) = $self->_get_ns_details($qname, 1); }; if ($@) { die $@ if $self->{fatals}; return undef; } return ($ns, $prefix, $lname); } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # ($ns, $prefix, $lname) = $self->_get_ns_details($qname, $f_attr) # returns ns, prefix, and lname for a given attribute name # >> the $f_attr flag, if set to one, will work for an attribute #-------------------------------------------------------------------# sub _get_ns_details { my $self = shift; my $qname = shift; my $aflag = shift; my ($ns, $prefix, $lname); (my ($tmp_prefix, $tmp_lname) = split /:/, $qname, 3) < 3 or die "Invalid QName: $qname"; # no prefix if (not defined($tmp_lname)) { $prefix = undef; $lname = $qname; # attr don't have a default namespace $ns = ($aflag) ? undef : $self->{nsmap}->[-1]->{default}; } # prefix else { if (exists $self->{nsmap}->[-1]->{prefix_map}->{$tmp_prefix}) { $prefix = $tmp_prefix; $lname = $tmp_lname; $ns = $self->{nsmap}->[-1]->{prefix_map}->{$prefix} } else { # no ns -> lname == name, all rest undef die "Undeclared prefix: $tmp_prefix"; } } return ($ns, $prefix, $lname); } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # parse_jclark_notation() - parse the Clarkian notation #-------------------------------------------------------------------# sub parse_jclark_notation { shift; my $jc = shift; $jc =~ m/^\{(.*)\}([^}]+)$/; return $1, $2; } #-------------------------------------------------------------------# #-------------------------------------------------------------------# # Java names mapping #-------------------------------------------------------------------# *XML::NamespaceSupport::pushContext = \&push_context; *XML::NamespaceSupport::popContext = \&pop_context; *XML::NamespaceSupport::declarePrefix = \&declare_prefix; *XML::NamespaceSupport::declarePrefixes = \&declare_prefixes; *XML::NamespaceSupport::getPrefix = \&get_prefix; *XML::NamespaceSupport::getPrefixes = \&get_prefixes; *XML::NamespaceSupport::getDeclaredPrefixes = \&get_declared_prefixes; *XML::NamespaceSupport::getURI = \&get_uri; *XML::NamespaceSupport::processName = \&process_name; *XML::NamespaceSupport::processElementName = \&process_element_name; *XML::NamespaceSupport::processAttributeName = \&process_attribute_name; *XML::NamespaceSupport::parseJClarkNotation = \&parse_jclark_notation; #-------------------------------------------------------------------# 1; #,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,# #`,`, Documentation `,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,`,# #```````````````````````````````````````````````````````````````````# =pod =head1 NAME XML::NamespaceSupport - a simple generic namespace support class =head1 SYNOPSIS use XML::NamespaceSupport; my $nsup = XML::NamespaceSupport->new; # add a new empty context $nsup->push_context; # declare a few prefixes $nsup->declare_prefix($prefix1, $uri1); $nsup->declare_prefix($prefix2, $uri2); # the same shorter $nsup->declare_prefixes($prefix1 => $uri1, $prefix2 => $uri2); # get a single prefix for a URI (randomly) $prefix = $nsup->get_prefix($uri); # get all prefixes for a URI (probably better) @prefixes = $nsup->get_prefixes($uri); # get all prefixes in scope @prefixes = $nsup->get_prefixes(); # get all prefixes that were declared for the current scope @prefixes = $nsup->get_declared_prefixes; # get a URI for a given prefix $uri = $nsup->get_uri($prefix); # get info on a qname (java-ish way, it's a bit weird) ($ns_uri, $local_name, $qname) = $nsup->process_name($qname, $is_attr); # the same, more perlish ($ns_uri, $prefix, $local_name) = $nsup->process_element_name($qname); ($ns_uri, $prefix, $local_name) = $nsup->process_attribute_name($qname); # remove the current context $nsup->pop_context; # reset the object for reuse in another document $nsup->reset; # a simple helper to process Clarkian Notation my ($ns, $lname) = $nsup->parse_jclark_notation('{http://foo}bar'); # or (given that it doesn't care about the object my ($ns, $lname) = XML::NamespaceSupport->parse_jclark_notation('{http://foo}bar'); =head1 DESCRIPTION This module offers a simple to process namespaced XML names (unames) from within any application that may need them. It also helps maintain a prefix to namespace URI map, and provides a number of basic checks. The model for this module is SAX2's NamespaceSupport class, readable at http://www.megginson.com/SAX/Java/javadoc/org/xml/sax/helpers/NamespaceSupport.html. It adds a few perlisations where we thought it appropriate. =head1 METHODS =over 4 =item * XML::NamespaceSupport->new(\%options) A simple constructor. The options are C and C. If C is turned on (it is off by default) the mapping from the xmlns prefix to the URI defined for it in DOM level 2 is added to the list of predefined mappings (which normally only contains the xml prefix mapping). If C is turned off (it is on by default) a number of validity errors will simply be flagged as failures, instead of die()ing. =item * $nsup->push_context Adds a new empty context to the stack. You can then populate it with new prefixes defined at this level. =item * $nsup->pop_context Removes the topmost context in the stack and reverts to the previous one. It will die() if you try to pop more than you have pushed. =item * $nsup->declare_prefix($prefix, $uri) Declares a mapping of $prefix to $uri, at the current level. Note that if you declare a prefix mapping in which $prefix is undef(), you will get an automatic prefix selected for you. This is useful when you deal with code that hasn't kept prefixes around and need to reserialize the nodes. It also means that if you want to set the default namespace (ie with an empty prefix) you must use the empty string instead of undef. This behaviour is consistent with the SAX 2.0 specification. =item * $nsup->declare_prefixes(%prefixes2uris) Declares a mapping of several prefixes to URIs, at the current level. =item * $nsup->get_prefix($uri) Returns a prefix given an URI. Note that as several prefixes may be mapped to the same URI, it returns an arbitrary one. It'll return undef on failure. =item * $nsup->get_prefixes($uri) Returns an array of prefixes given an URI. It'll return all the prefixes if the uri is undef. =item * $nsup->get_declared_prefixes Returns an array of all the prefixes that have been declared within this context, ie those that were declared on the last element, not those that were declared above and are simply in scope. =item * $nsup->get_uri($prefix) Returns a URI for a given prefix. Returns undef on failure. =item * $nsup->process_name($qname, $is_attr) Given a qualified name and a boolean indicating whether this is an attribute or another type of name (those are differently affected by default namespaces), it returns a namespace URI, local name, qualified name tuple. I know that that is a rather abnormal list to return, but it is so for compatibility with the Java spec. See below for more Perlish alternatives. If the prefix is not declared, or if the name is not valid, it'll either die or return undef depending on the current setting of C. =item * $nsup->process_element_name($qname) Given a qualified name, it returns a namespace URI, prefix, and local name tuple. This method applies to element names. If the prefix is not declared, or if the name is not valid, it'll either die or return undef depending on the current setting of C. =item * $nsup->process_attribute_name($qname) Given a qualified name, it returns a namespace URI, prefix, and local name tuple. This method applies to attribute names. If the prefix is not declared, or if the name is not valid, it'll either die or return undef depending on the current setting of C. =item * $nsup->reset Resets the object so that it can be reused on another document. =back All methods of the interface have an alias that is the name used in the original Java specification. You can use either name interchangeably. Here is the mapping: Java name Perl name --------------------------------------------------- pushContext push_context popContext pop_context declarePrefix declare_prefix declarePrefixes declare_prefixes getPrefix get_prefix getPrefixes get_prefixes getDeclaredPrefixes get_declared_prefixes getURI get_uri processName process_name processElementName process_element_name processAttributeName process_attribute_name =head1 VARIABLES Two global variables are made available to you. They used to be constants but simple scalars are easier to use in a number of contexts. They are not exported but can easily be accessed from any package, or copied into it. =over 4 =item * C<$NS_XMLNS> The namespace for xmlns prefixes, http://www.w3.org/2000/xmlns/. =item * C<$NS_XML> The namespace for xml prefixes, http://www.w3.org/XML/1998/namespace. =back =head1 TODO - add more tests - optimise here and there =head1 AUTHOR Robin Berjon, robin@knowscape.com, with lots of it having been done by Duncan Cameron, and a number of suggestions from the perl-xml list. =head1 COPYRIGHT Copyright (c) 2001 Robin Berjon. 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 XML::Parser::PerlSAX =cut