# # Copyright (C) 1999 Ken MacLeod # XML::Parser::PerlSAX is free software; you can redistribute it and/or # modify it under the same terms as Perl itself. # # $Id: PerlSAX.pm,v 1.7 1999/12/22 21:15:00 kmacleod Exp $ # use strict; package XML::Parser::PerlSAX; use XML::Parser; use UNIVERSAL; use vars qw{ $VERSION $name_re }; # will be substituted by make-rel script $VERSION = "0.07"; # FIXME I doubt this is a correct Perl RE for productions [4] and # [5] in the XML 1.0 specification, especially considering Unicode chars $name_re = '[A-Za-z_:][A-Za-z0-9._:-]*'; sub new { my $type = shift; my $self = (@_ == 1) ? shift : { @_ }; return bless $self, $type; } sub parse { my $self = shift; die "XML::Parser::PerlSAX: parser instance ($self) already parsing\n" if (defined $self->{ParseOptions}); # If there's one arg and it has no ref, it's a string my $args; if (scalar (@_) == 1 && !ref($_[0])) { $args = { Source => { String => shift } }; } else { $args = (scalar (@_) == 1) ? shift : { @_ }; } my $parse_options = { %$self, %$args }; $self->{ParseOptions} = $parse_options; # ensure that we have at least one source if (!defined $parse_options->{Source} || !(defined $parse_options->{Source}{String} || defined $parse_options->{Source}{ByteStream} || defined $parse_options->{Source}{SystemId})) { die "XML::Parser::PerlSAX: no source defined for parse\n"; } # assign default Handler to any undefined handlers if (defined $parse_options->{Handler}) { $parse_options->{DocumentHandler} = $parse_options->{Handler} if (!defined $parse_options->{DocumentHandler}); $parse_options->{DTDHandler} = $parse_options->{Handler} if (!defined $parse_options->{DTDHandler}); $parse_options->{EntityResolver} = $parse_options->{Handler} if (!defined $parse_options->{EntityResolver}); } my @handlers; if (defined $parse_options->{DocumentHandler}) { # cache DocumentHandler in self for callbacks $self->{DocumentHandler} = $parse_options->{DocumentHandler}; my $doc_h = $parse_options->{DocumentHandler}; push (@handlers, Init => sub { $self->_handle_init(@_) } ) if (UNIVERSAL::can($doc_h, 'start_document')); push (@handlers, Final => sub { $self->_handle_final(@_) } ) if (UNIVERSAL::can($doc_h, 'end_document')); push (@handlers, Start => sub { $self->_handle_start(@_) } ) if (UNIVERSAL::can($doc_h, 'start_element')); push (@handlers, End => sub { $self->_handle_end(@_) } ) if (UNIVERSAL::can($doc_h, 'end_element')); push (@handlers, Char => sub { $self->_handle_char(@_) } ) if (UNIVERSAL::can($doc_h, 'characters')); push (@handlers, Proc => sub { $self->_handle_proc(@_) } ) if (UNIVERSAL::can($doc_h, 'processing_instruction')); push (@handlers, Comment => sub { $self->_handle_comment(@_) } ) if (UNIVERSAL::can($doc_h, 'comment')); push (@handlers, CdataStart => sub { $self->_handle_cdatastart(@_) } ) if (UNIVERSAL::can($doc_h, 'start_cdata')); push (@handlers, CdataEnd => sub { $self->_handle_cdataend(@_) } ) if (UNIVERSAL::can($doc_h, 'end_cdata')); if (UNIVERSAL::can($doc_h, 'entity_reference')) { push (@handlers, Default => sub { $self->_handle_default(@_) } ); $self->{UseEntRefs} = 1; } } if (defined $parse_options->{DTDHandler}) { # cache DTDHandler in self for callbacks $self->{DTDHandler} = $parse_options->{DTDHandler}; my $dtd_h = $parse_options->{DTDHandler}; push (@handlers, Notation => sub { $self->_handle_notation(@_) } ) if (UNIVERSAL::can($dtd_h, 'notation_decl')); push (@handlers, Unparsed => sub { $self->_handle_unparsed(@_) } ) if (UNIVERSAL::can($dtd_h, 'unparsed_entity_decl')); push (@handlers, Entity => sub { $self->_handle_entity(@_) } ) if ($self->{UseEntRefs} || UNIVERSAL::can($dtd_h, 'entity_decl')); push (@handlers, Element => sub { $self->_handle_element(@_) } ) if (UNIVERSAL::can($dtd_h, 'element_decl')); push (@handlers, Attlist => sub { $self->_handle_attlist(@_) } ) if (UNIVERSAL::can($dtd_h, 'attlist_decl')); push (@handlers, Doctype => sub { $self->_handle_doctype(@_) } ) if (UNIVERSAL::can($dtd_h, 'doctype_decl')); push (@handlers, XMLDecl => sub { $self->_handle_xmldecl(@_) } ) if (UNIVERSAL::can($dtd_h, 'xml_decl')); } if (defined $parse_options->{EntityResolver}) { # cache EntityResolver in self for callbacks $self->{EntityResolver} = $parse_options->{EntityResolver}; my $er = $parse_options->{EntityResolver}; push (@handlers, ExternEnt => sub { $self->_handle_extern_ent(@_) } ) if (UNIVERSAL::can($er, 'resolve_entity')); } my @xml_parser_options; if ($self->{UseEntRefs}) { @xml_parser_options = ( NoExpand => 1, Handlers => { @handlers } ); } else { @xml_parser_options = ( Handlers => { @handlers } ); } push (@xml_parser_options, ProtocolEncoding => $self->{ParseOptions}{Source}{Encoding}) if (defined $self->{ParseOptions}{Source}{Encoding}); my $parser = new XML::Parser(@xml_parser_options); my $result; if (defined $self->{ParseOptions}{Source}{ByteStream}) { $result = $parser->parse($self->{ParseOptions}{Source}{ByteStream}); } elsif (defined $self->{ParseOptions}{Source}{String}) { $result = $parser->parse($self->{ParseOptions}{Source}{String}); } elsif (defined $self->{ParseOptions}{Source}{SystemId}) { $result = $parser->parsefile($self->{ParseOptions}{Source}{SystemId}); } # clean up parser instance delete $self->{ParseOptions}; delete $self->{DocumentHandler}; delete $self->{DTDHandler}; delete $self->{EntityResolver}; delete $self->{Expat}; return $result; } sub location { my $self = shift; my $expat = $self->{Expat}; my @properties = ( ColumnNumber => $expat->current_column, LineNumber => $expat->current_line, BytePosition => $expat->current_byte, Base => $expat->base ); # FIXME these locations change while parsing external entities push (@properties, PublicId => $self->{Source}{PublicId}) if (defined $self->{Source}{PublicId}); push (@properties, SystemId => $self->{Source}{SystemId}) if (defined $self->{Source}{SystemId}); return { @properties }; } ### ### DocumentHandler methods ### sub _handle_init { my $self = shift; my $expat = shift; $self->{Expat} = $expat; if ($self->{DocumentHandler}->can('set_document_locator')) { $self->{DocumentHandler}->set_document_locator( { Locator => $self } ); } $self->{DocumentHandler}->start_document( { } ); } sub _handle_final { my $self = shift; delete $self->{UseEntRefs}; delete $self->{EntRefs}; return $self->{DocumentHandler}->end_document( { } ); } sub _handle_start { my $self = shift; my $expat = shift; my $element = shift; my @properties; if ($self->{ParseOptions}{UseAttributeOrder}) { # Capture order and defined() status for attributes my $ii; my $order = []; for ($ii = 0; $ii < $#_; $ii += 2) { push @$order, $_[$ii]; } push @properties, 'AttributeOrder', $order; # Divide by two because XML::Parser counts both attribute name # and value within it's index push @properties, 'Defaulted', ($expat->specified_attr() / 2); } $self->{DocumentHandler}->start_element( { Name => $element, Attributes => { @_ }, @properties } ); } sub _handle_end { my $self = shift; my $expat = shift; my $element = shift; $self->{DocumentHandler}->end_element( { Name => $element } ); } sub _handle_char { my $self = shift; my $expat = shift; my $string = shift; $self->{DocumentHandler}->characters( { Data => $string } ); } sub _handle_proc { my $self = shift; my $expat = shift; my $target = shift; my $data = shift; $self->{DocumentHandler}->processing_instruction( { Target => $target, Data => $data } ); } sub _handle_comment { my $self = shift; my $expat = shift; my $data = shift; $self->{DocumentHandler}->comment( { Data => $data } ); } sub _handle_cdatastart { my $self = shift; my $expat = shift; $self->{DocumentHandler}->start_cdata( { } ); } sub _handle_cdataend { my $self = shift; my $expat = shift; $self->{DocumentHandler}->end_cdata( { } ); } # Default receives all characters that aren't handled by some other # handler, this means a lot of stuff goes through here. All we're # looking for are `&NAME;' entity reference sequences sub _handle_default { my $self = shift; my $expat = shift; my $string = shift; if ($string =~ /^&($name_re);$/) { my $ent_ref = $self->{EntRefs}{$1}; if (!defined $ent_ref) { $ent_ref = { Name => $1 }; } $self->{DocumentHandler}->entity_reference($ent_ref); } } ### ### DTDHandler methods ### sub _handle_notation { my $self = shift; my $expat = shift; my $notation = shift; my $base = shift; my $sysid = shift; my $pubid = shift; my @properties = (Name => $notation); push (@properties, Base => $base) if (defined $base); push (@properties, SystemId => $sysid) if (defined $sysid); push (@properties, PublicId => $pubid) if (defined $pubid); $self->{DTDHandler}->notation_decl( { @properties } ); } sub _handle_unparsed { my $self = shift; my $expat = shift; my $entity = shift; my $base = shift; my $sysid = shift; my $pubid = shift; my @properties = (Name => $entity, SystemId => $sysid); push (@properties, Base => $base) if (defined $base); push (@properties, PublicId => $pubid) if (defined $pubid); $self->{DTDHandler}->unparsed_entity_decl( { @properties } ); } sub _handle_entity { my $self = shift; my $expat = shift; my $name = shift; my $val = shift; my $sysid = shift; my $pubid = shift; my $ndata = shift; my @properties = (Name => $name); push (@properties, Value => $val) if (defined $val); push (@properties, PublicId => $pubid) if (defined $pubid); push (@properties, SystemId => $sysid) if (defined $sysid); push (@properties, Notation => $ndata) if (defined $ndata); my $properties = { @properties }; if ($self->{UseEntRefs}) { $self->{EntRefs}{$name} = $properties; } if ($self->{DTDHandler}->can('entity_decl')) { $self->{DTDHandler}->entity_decl( $properties ); } } sub _handle_element { my $self = shift; my $expat = shift; my $name = shift; my $model = shift; $self->{DTDHandler}->element_decl( { Name => $name, Model => $model } ); } sub _handle_attlist { my $self = shift; my $expat = shift; my $elname = shift; my $attname = shift; my $type = shift; my $default = shift; my $fixed = shift; $self->{DTDHandler}->attlist_decl( { ElementName => $elname, AttributeName => $attname, Type => $type, Default => $default, Fixed => $fixed } ); } sub _handle_doctype { my $self = shift; my $expat = shift; my $name = shift; my $sysid = shift; my $pubid = shift; my $internal = shift; my @properties = (Name => $name); push (@properties, SystemId => $sysid) if (defined $sysid); push (@properties, PublicId => $pubid) if (defined $pubid); push (@properties, Internal => $internal) if (defined $internal); $self->{DTDHandler}->doctype_decl( { @properties } ); } sub _handle_xmldecl { my $self = shift; my $expat = shift; my $version = shift; my $encoding = shift; my $standalone = shift; my @properties = (Version => $version); push (@properties, Encoding => $encoding) if (defined $encoding); push (@properties, Standalone => $standalone) if (defined $standalone); $self->{DTDHandler}->xml_decl( { @properties } ); } ### ### EntityResolver methods ### sub _handle_extern_ent { my $self = shift; my $expat = shift; my $base = shift; my $sysid = shift; my $pubid = shift; my @properties = (SystemId => $sysid); push (@properties, Base => $base) if (defined $base); push (@properties, PublicId => $pubid) if (defined $pubid); my $result = $self->{EntityResolver}->resolve_entity( { @properties } ); if (UNIVERSAL::isa($result, 'HASH')) { if ($result->{ByteStream}) { return $result->{ByteStream}; } elsif ($result->{String}) { return $result->{String}; } elsif ($result->{SystemId}) { # FIXME must be able to resolve SystemIds, XML::Parser's # default can :-( die "PerlSAX: automatic opening of SystemIds from \`resolve_entity' not implemented, contact the author\n"; } else { # FIXME die "PerlSAX: invalid source returned from \`resolve_entity'\n"; } } return undef; } 1; __END__ =head1 NAME XML::Parser::PerlSAX - Perl SAX parser using XML::Parser =head1 SYNOPSIS use XML::Parser::PerlSAX; $parser = XML::Parser::PerlSAX->new( [OPTIONS] ); $result = $parser->parse( [OPTIONS] ); $result = $parser->parse($string); =head1 DESCRIPTION C is a PerlSAX parser using the XML::Parser module. This man page summarizes the specific options, handlers, and properties supported by C; please refer to the PerlSAX standard in `C' for general usage information. =head1 METHODS =over 4 =item new Creates a new parser object. Default options for parsing, described below, are passed as key-value pairs or as a single hash. Options may be changed directly in the parser object unless stated otherwise. Options passed to `C' override the default options in the parser object for the duration of the parse. =item parse Parses a document. Options, described below, are passed as key-value pairs or as a single hash. Options passed to `C' override default options in the parser object. =item location Returns the location as a hash: ColumnNumber The column number of the parse. LineNumber The line number of the parse. BytePosition The current byte position of the parse. PublicId A string containing the public identifier, or undef if none is available. SystemId A string containing the system identifier, or undef if none is available. Base The current value of the base for resolving relative URIs. ALPHA WARNING: The `C' and `C' properties returned are the system and public identifiers of the document passed to `C', not the identifiers of the currently parsing external entity. The column, line, and byte positions I of the current entity being parsed. =head1 OPTIONS The following options are supported by C: Handler default handler to receive events DocumentHandler handler to receive document events DTDHandler handler to receive DTD events ErrorHandler handler to receive error events EntityResolver handler to resolve entities Locale locale to provide localisation for errors Source hash containing the input source for parsing UseAttributeOrder set to true to provide AttributeOrder and Defaulted properties in `start_element()' If no handlers are provided then all events will be silently ignored, except for `C' which will cause a `C' to be called after calling `C'. If a single string argument is passed to the `C' method, it is treated as if a `C' option was given with a `C' parameter. The `C' hash may contain the following parameters: ByteStream The raw byte stream (file handle) containing the document. String A string containing the document. SystemId The system identifier (URI) of the document. PublicId The public identifier. Encoding A string describing the character encoding. If more than one of `C', `C', or `C', then preference is given first to `C', then `C', then `C'. =head1 HANDLERS The following handlers and properties are supported by C: =head2 DocumentHandler methods =over 4 =item start_document Receive notification of the beginning of a document. No properties defined. =item end_document Receive notification of the end of a document. No properties defined. =item start_element Receive notification of the beginning of an element. Name The element type name. Attributes A hash containing the attributes attached to the element, if any. The `C' hash contains only string values. If the `C' parser option is true, the following properties are also passed to `C': AttributeOrder An array of attribute names in the order they were specified, followed by the defaulted attribute names. Defaulted The index number of the first defaulted attribute in `AttributeOrder. If this index is equal to the length of `AttributeOrder', there were no defaulted values. Note to C users: `C' will be half the value of C's `C' function because only attribute names are provided, not their values. =item end_element Receive notification of the end of an element. Name The element type name. =item characters Receive notification of character data. Data The characters from the XML document. =item processing_instruction Receive notification of a processing instruction. Target The processing instruction target. Data The processing instruction data, if any. =item comment Receive notification of a comment. Data The comment data, if any. =item start_cdata Receive notification of the start of a CDATA section. No properties defined. =item end_cdata Receive notification of the end of a CDATA section. No properties defined. =item entity_reference Receive notification of an internal entity reference. If this handler is defined, internal entities will not be expanded and not passed to the `C' handler. If this handler is not defined, internal entities will be expanded if possible and passed to the `C' handler. Name The entity reference name Value The entity reference value =back =head2 DTDHandler methods =over 4 =item notation_decl Receive notification of a notation declaration event. Name The notation name. PublicId The notation's public identifier, if any. SystemId The notation's system identifier, if any. Base The base for resolving a relative URI, if any. =item unparsed_entity_decl Receive notification of an unparsed entity declaration event. Name The unparsed entity's name. SystemId The entity's system identifier. PublicId The entity's public identifier, if any. Base The base for resolving a relative URI, if any. =item entity_decl Receive notification of an entity declaration event. Name The entity name. Value The entity value, if any. PublicId The notation's public identifier, if any. SystemId The notation's system identifier, if any. Notation The notation declared for this entity, if any. For internal entities, the `C' parameter will contain the value and the `C', `C', and `C' will be undefined. For external entities, the `C' parameter will be undefined, the `C' parameter will have the system id, the `C' parameter will have the public id if it was provided (it will be undefined otherwise), the `C' parameter will contain the notation name for unparsed entities. If this is a parameter entity declaration, then a '%' will be prefixed to the entity name. Note that `C' and `C' overlap. If both methods are implemented by a handler, then this handler will not be called for unparsed entities. =item element_decl Receive notification of an element declaration event. Name The element type name. Model The content model as a string. =item attlist_decl Receive notification of an attribute list declaration event. This handler is called for each attribute in an ATTLIST declaration found in the internal subset. So an ATTLIST declaration that has multiple attributes will generate multiple calls to this handler. ElementName The element type name. AttributeName The attribute name. Type The attribute type. Fixed True if this is a fixed attribute. The default for `C' is the default value, which will either be "#REQUIRED", "#IMPLIED" or a quoted string (i.e. the returned string will begin and end with a quote character). =item doctype_decl Receive notification of a DOCTYPE declaration event. Name The document type name. SystemId The document's system identifier. PublicId The document's public identifier, if any. Internal The internal subset as a string, if any. Internal will contain all whitespace, comments, processing instructions, and declarations seen in the internal subset. The declarations will be there whether or not they have been processed by another handler (except for unparsed entities processed by the Unparsed handler). However, comments and processing instructions will not appear if they've been processed by their respective handlers. =item xml_decl Receive notification of an XML declaration event. Version The version. Encoding The encoding string, if any. Standalone True, false, or undefined if not declared. =back =head2 EntityResolver =over 4 =item resolve_entity Allow the handler to resolve external entities. Name The notation name. SystemId The notation's system identifier. PublicId The notation's public identifier, if any. Base The base for resolving a relative URI, if any. `C' should return undef to request that the parser open a regular URI connection to the system identifier or a hash describing the new input source. This hash has the same properties as the `C' parameter to `C': PublicId The public identifier of the external entity being referenced, or undef if none was supplied. SystemId The system identifier of the external entity being referenced. String String containing XML text ByteStream An open file handle. CharacterStream An open file handle. Encoding The character encoding, if known. =back =head1 AUTHOR Ken MacLeod, ken@bitsko.slc.ut.us =head1 SEE ALSO perl(1), PerlSAX.pod(3) Extensible Markup Language (XML) SAX 1.0: The Simple API for XML =cut