-<chapter id="zebraidx">
-<title>Running the Maintenance Interface (zebraidx)</title>
-
-<para>
-The following is a complete reference to the command line interface to
-the <literal remap="tt">zebraidx</literal> application.
-</para>
-
-<para>
-<emphasis remap="bf">Syntax</emphasis>
-
-<screen>
-$ zebraidx [options] command [directory] ...
-</screen>
-
-<emphasis remap="bf">Options</emphasis>
-<variablelist>
-
-<varlistentry>
-<term>-t <emphasis remap="it">type</emphasis></term>
-<listitem>
-<para>
-Update all files as <emphasis remap="it">type</emphasis>. Currently, the
-types supported are <literal remap="tt">text</literal> and <literal remap="tt">grs</literal><emphasis remap="it">.subtype</emphasis>. If no
-<emphasis remap="it">subtype</emphasis> is provided for the GRS (General Record Structure) type,
-the canonical input format is assumed (see section <xref linkend="local-representation"/>). Generally, it
-is probably advisable to specify the record types in the
-<literal remap="tt">zebra.cfg</literal> file
-(see section <xref linkend="record-types"/>), to avoid
-confusion at subsequent updates.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-c <emphasis remap="it">config-file</emphasis></term>
-<listitem>
-<para>
-Read the configuration file
-<emphasis remap="it">config-file</emphasis> instead of <literal remap="tt">zebra.cfg</literal>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-g <emphasis remap="it">group</emphasis></term>
-<listitem>
-<para>
-Update the files according to the group
-settings for <emphasis remap="it">group</emphasis> (see section
-<xref linkend="configuration-file"/>).
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-d <emphasis remap="it">database</emphasis></term>
-<listitem>
-<para>
-The records located should be associated
-with the database name <emphasis remap="it">database</emphasis> for access through the Z39.50
-server.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-m <emphasis remap="it">mbytes</emphasis></term>
-<listitem>
-<para>
-Use <emphasis remap="it">mbytes</emphasis> of megabytes before flushing
-keys to background storage. This setting affects performance when
-updating large databases.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-n</term>
-<listitem>
-<para>
-Disable the use of shadow registers for this operation
-(see section <xref linkend="shadow-registers"/>).
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-s</term>
-<listitem>
-<para>
-Show analysis of the indexing process. The maintenance
-program works in a read-only mode and doesn't change the state
-of the index. This options is very useful when you wish to test a
-new profile.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-V</term>
-<listitem>
-<para>
-Show Zebra version.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-v <emphasis remap="it">level</emphasis></term>
-<listitem>
-<para>
-Set the log level to <emphasis remap="it">level</emphasis>. <emphasis remap="it">level</emphasis>
-should be one of <literal remap="tt">none</literal>, <literal remap="tt">debug</literal>, and <literal remap="tt">all</literal>.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-<para>
-<emphasis remap="bf">Commands</emphasis>
-<variablelist>
-
-<varlistentry>
-<term>Update <emphasis remap="it">directory</emphasis></term>
-<listitem>
-<para>
-Update the register with the files
-contained in <emphasis remap="it">directory</emphasis>. If no directory is provided, a list of
-files is read from <literal remap="tt">stdin</literal>.
-See section <xref linkend="administration"/>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>Delete <emphasis remap="it">directory</emphasis></term>
-<listitem>
-<para>
-Remove the records corresponding to
-the files found under <emphasis remap="it">directory</emphasis> from the register.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>Commit</term>
-<listitem>
-<para>
-Write the changes resulting from the last <emphasis remap="bf">update</emphasis>
-commands to the register. This command is only available if the use of
-shadow register files is enabled (see section
-<xref linkend="shadow-registers"/>).
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-</chapter>
-
-<chapter id="server">
-<title>The Z39.50 Server</title>
-
-<sect1 id="zebrasrv">
-<title>Running the Z39.50 Server (zebrasrv)</title>
-
-<para>
-<emphasis remap="bf">Syntax</emphasis>
-
-<screen>
-zebrasrv [options] [listener-address ...]
-</screen>
-
-</para>
-
-<para>
-<emphasis remap="bf">Options</emphasis>
-<variablelist>
-
-<varlistentry>
-<term>-a <emphasis remap="it">APDU file</emphasis></term>
-<listitem>
-<para>
-Specify a file for dumping PDUs (for diagnostic purposes).
-The special name "-" sends output to <literal>stderr</literal>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-c <emphasis remap="it">config-file</emphasis></term>
-<listitem>
-<para>
-Read configuration information from <emphasis remap="it">config-file</emphasis>. The default configuration is <literal remap="tt">./zebra.cfg</literal>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-S</term>
-<listitem>
-<para>
-Don't fork on connection requests. This can be useful for
-symbolic-level debugging. The server can only accept a single
-connection in this mode.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-s</term>
-<listitem>
-<para>
-Use the SR protocol.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-z</term>
-<listitem>
-<para>
-Use the Z39.50 protocol (default). These two options complement
-eachother. You can use both multiple times on the same command
-line, between listener-specifications (see below). This way, you
-can set up the server to listen for connections in both protocols
-concurrently, on different local ports.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-l <emphasis remap="it">logfile</emphasis></term>
-<listitem>
-<para>
-Specify an output file for the diagnostic
-messages. The default is to write this information to <literal remap="tt">stderr</literal>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-v <emphasis remap="it">log-level</emphasis></term>
-<listitem>
-<para>
-The log level. Use a comma-separated list of members of the set
-{fatal,debug,warn,log,all,none}.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-u <emphasis remap="it">username</emphasis></term>
-<listitem>
-<para>
-Set user ID. Sets the real UID of the server process to that of the
-given <emphasis remap="it">username</emphasis>. It's useful if you aren't comfortable with having the
-server run as root, but you need to start it as such to bind a
-privileged port.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-w <emphasis remap="it">working-directory</emphasis></term>
-<listitem>
-<para>
-Change working directory.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-i</term>
-<listitem>
-<para>
-Run under the Internet superserver, <literal remap="tt">inetd</literal>. Make
-sure you use the logfile option <literal remap="tt">-l</literal> in conjunction with this
-mode and specify the <literal remap="tt">-l</literal> option before any other options.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-t <emphasis remap="it">timeout</emphasis></term>
-<listitem>
-<para>
-Set the idle session timeout (default 60 minutes).
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>-k <emphasis remap="it">kilobytes</emphasis></term>
-<listitem>
-<para>
-Set the (approximate) maximum size of
-present response messages. Default is 1024 Kb (1 Mb).
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-<para>
-A <emphasis remap="it">listener-address</emphasis> consists of a transport mode followed by a
-colon (:) followed by a listener address. The transport mode is
-either <literal remap="tt">osi</literal> or <literal remap="tt">tcp</literal>.
-</para>
-
-<para>
-For TCP, an address has the form
-</para>
-
-<para>
-
-<screen>
-hostname | IP-number [: portnumber]
-</screen>
-
-</para>
-
-<para>
-The port number defaults to 210 (standard Z39.50 port).
-</para>
-
-<para>
-For OSI (only available if the server is compiled with XTI/mOSI
-support enabled), the address form is
-</para>
-
-<para>
-
-<screen>
-[t-selector /] hostname | IP-number [: portnumber]
-</screen>
-
-</para>
-
-<para>
-The transport selector is given as a string of hex digits (with an even
-number of digits). The default port number is 102 (RFC1006 port).
-</para>
-
-<para>
-Examples
-</para>
-
-<para>
-
-<screen>
-tcp:dranet.dra.com
-
-osi:0402/dbserver.osiworld.com:3000
-</screen>
-
-</para>
-
-<para>
-In both cases, the special hostname "@" is mapped to
-the address INADDR_ANY, which causes the server to listen on any local
-interface. To start the server listening on the registered ports for
-Z39.50 and SR over OSI/RFC1006, and to drop root privileges once the
-ports are bound, execute the server like this (from a root shell):
-</para>
-
-<para>
-
-<screen>
-zebrasrv -u daemon tcp:@ -s osi:@
-</screen>
-
-</para>
-
-<para>
-You can replace <literal remap="tt">daemon</literal> with another user, eg. your own account, or
-a dedicated IR server account.
-</para>
-
-<para>
-The default behavior for <literal remap="tt">zebrasrv</literal> is to establish a single TCP/IP
-listener, for the Z39.50 protocol, on port 9999.
-</para>
-
-</sect1>
-
-<sect1 id="protocol-support">
-<title>Z39.50 Protocol Support and Behavior</title>
-
-<sect2>
-<title>Initialization</title>
-
-<para>
-During initialization, the server will negotiate to version 3 of the
-Z39.50 protocol, and the option bits for Search, Present, Scan,
-NamedResultSets, and concurrentOperations will be set, if requested by
-the client. The maximum PDU size is negotiated down to a maximum of
-1Mb by default.
-</para>
-
-</sect2>
-
-<sect2 id="search">
-<title>Search</title>
-
-<para>
-The supported query type are 1 and 101. All operators are currently
-supported with the restriction that only proximity units of type "word" are
-supported for the proximity operator.
-Queries can be arbitrarily complex.
-Named result sets are supported, and result sets can be used as operands
-without limitations.
-Searches may span multiple databases.
-</para>
-
-<para>
-The server has full support for piggy-backed present requests (see
-also the following section).
-</para>
-
-<para>
-<emphasis remap="bf">Use</emphasis> attributes are interpreted according to the attribute sets which
-have been loaded in the <literal remap="tt">zebra.cfg</literal> file, and are matched against
-specific fields as specified in the <literal remap="tt">.abs</literal> file which describes the
-profile of the records which have been loaded. If no <emphasis remap="bf">Use</emphasis>
-attribute is provided, a default of Bib-1 <emphasis remap="bf">Any</emphasis> is assumed.
-</para>
-
-<para>
-If a <emphasis remap="bf">Structure</emphasis> attribute of <emphasis remap="bf">Phrase</emphasis> is used in conjunction with a
-<emphasis remap="bf">Completeness</emphasis> attribute of <emphasis remap="bf">Complete (Sub)field</emphasis>, the term is
-matched against the contents of the phrase (long word) register, if one
-exists for the given <emphasis remap="bf">Use</emphasis> attribute.
-A phrase register is created for those fields in the <literal remap="tt">.abs</literal>
-file that contains a <literal remap="tt">p</literal>-specifier.
-</para>
-
-<para>
-If <emphasis remap="bf">Structure</emphasis>=<emphasis remap="bf">Phrase</emphasis> is used in conjunction with
-<emphasis remap="bf">Incomplete Field</emphasis> - the default value for <emphasis remap="bf">Completeness</emphasis>, the
-search is directed against the normal word registers, but if the term
-contains multiple words, the term will only match if all of the words
-are found immediately adjacent, and in the given order.
-The word search is performed on those fields that are indexed as
-type <literal remap="tt">w</literal> in the <literal remap="tt">.abs</literal> file.
-</para>
-
-<para>
-If the <emphasis remap="bf">Structure</emphasis> attribute is <emphasis remap="bf">Word List</emphasis>,
-<emphasis remap="bf">Free-form Text</emphasis>, or <emphasis remap="bf">Document Text</emphasis>, the term is treated as a
-natural-language, relevance-ranked query.
-This search type uses the word register, i.e. those fields
-that are indexed as type <literal remap="tt">w</literal> in the <literal remap="tt">.abs</literal> file.
-</para>
-
-<para>
-If the <emphasis remap="bf">Structure</emphasis> attribute is <emphasis remap="bf">Numeric String</emphasis> the
-term is treated as an integer. The search is performed on those
-fields that are indexed as type <literal remap="tt">n</literal> in the <literal remap="tt">.abs</literal> file.
-</para>
-
-<para>
-If the <emphasis remap="bf">Structure</emphasis> attribute is <emphasis remap="bf">URx</emphasis> the
-term is treated as a URX (URL) entity. The search is performed on those
-fields that are indexed as type <literal remap="tt">u</literal> in the <literal remap="tt">.abs</literal> file.
-</para>
-
-<para>
-If the <emphasis remap="bf">Structure</emphasis> attribute is <emphasis remap="bf">Local Number</emphasis> the
-term is treated as native Zebra Record Identifier.
-</para>
-
-<para>
-If the <emphasis remap="bf">Relation</emphasis> attribute is <emphasis remap="bf">Equals</emphasis> (default), the term is
-matched in a normal fashion (modulo truncation and processing of
-individual words, if required). If <emphasis remap="bf">Relation</emphasis> is <emphasis remap="bf">Less Than</emphasis>,
-<emphasis remap="bf">Less Than or Equal</emphasis>, <emphasis remap="bf">Greater than</emphasis>, or <emphasis remap="bf">Greater than or
-Equal</emphasis>, the term is assumed to be numerical, and a standard regular
-expression is constructed to match the given expression. If
-<emphasis remap="bf">Relation</emphasis> is <emphasis remap="bf">Relevance</emphasis>, the standard natural-language query
-processor is invoked.
-</para>
-
-<para>
-For the <emphasis remap="bf">Truncation</emphasis> attribute, <emphasis remap="bf">No Truncation</emphasis> is the default.
-<emphasis remap="bf">Left Truncation</emphasis> is not supported. <emphasis remap="bf">Process #</emphasis> is supported, as
-is <emphasis remap="bf">Regxp-1</emphasis>. <emphasis remap="bf">Regxp-2</emphasis> enables the fault-tolerant (fuzzy)
-search. As a default, a single error (deletion, insertion,
-replacement) is accepted when terms are matched against the register
-contents.
-</para>
-
-<sect3>
-<title>Regular expressions</title>
-
-<para>
-Each term in a query is interpreted as a regular expression if
-the truncation value is either <emphasis remap="bf">Regxp-1</emphasis> (102) or <emphasis remap="bf">Regxp-2</emphasis> (103).
-Both query types follow the same syntax with the operands:
-<variablelist>
-
-<varlistentry>
-<term>x</term>
-<listitem>
-<para>
-Matches the character <emphasis remap="it">x</emphasis>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>.</term>
-<listitem>
-<para>
-Matches any character.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term><literal remap="tt">[</literal>..<literal remap="tt">]</literal></term>
-<listitem>
-<para>
-Matches the set of characters specified;
-such as <literal remap="tt">[abc]</literal> or <literal remap="tt">[a-c]</literal>.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-and the operators:
-<variablelist>
-
-<varlistentry>
-<term>x*</term>
-<listitem>
-<para>
-Matches <emphasis remap="it">x</emphasis> zero or more times. Priority: high.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>x+</term>
-<listitem>
-<para>
-Matches <emphasis remap="it">x</emphasis> one or more times. Priority: high.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>x?</term>
-<listitem>
-<para>
-Matches <emphasis remap="it">x</emphasis> once or twice. Priority: high.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>xy</term>
-<listitem>
-<para>
-Matches <emphasis remap="it">x</emphasis>, then <emphasis remap="it">y</emphasis>. Priority: medium.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>x|y</term>
-<listitem>
-<para>
-Matches either <emphasis remap="it">x</emphasis> or <emphasis remap="it">y</emphasis>. Priority: low.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-The order of evaluation may be changed by using parentheses.
-</para>
-
-<para>
-If the first character of the <emphasis remap="bf">Regxp-2</emphasis> query is a plus character
-(<literal remap="tt">+</literal>) it marks the beginning of a section with non-standard
-specifiers. The next plus character marks the end of the section.
-Currently Zebra only supports one specifier, the error tolerance,
-which consists one digit.
-</para>
-
-<para>
-Since the plus operator is normally a suffix operator the addition to
-the query syntax doesn't violate the syntax for standard regular
-expressions.
-</para>
-
-</sect3>
-
-<sect3>
-<title>Query examples</title>
-
-<para>
-Phrase search for <emphasis remap="bf">information retrieval</emphasis> in the title-register:
-
-<screen>
- @attr 1=4 "information retrieval"
-</screen>
-
-</para>
-
-<para>
-Ranked search for the same thing:
-
-<screen>
- @attr 1=4 @attr 2=102 "Information retrieval"
-</screen>
-
-</para>
-
-<para>
-Phrase search with a regular expression:
-
-<screen>
- @attr 1=4 @attr 5=102 "informat.* retrieval"
-</screen>
-
-</para>
-
-<para>
-Ranked search with a regular expression:
-
-<screen>
- @attr 1=4 @attr 5=102 @attr 2=102 "informat.* retrieval"
-</screen>
-
-</para>
-
-<para>
-In the GILS schema (<literal remap="tt">gils.abs</literal>), the west-bounding-coordinate is
-indexed as type <literal remap="tt">n</literal>, and is therefore searched by specifying
-<emphasis remap="bf">structure</emphasis>=<emphasis remap="bf">Numeric String</emphasis>.
-To match all those records with west-bounding-coordinate greater
-than -114 we use the following query:
-
-<screen>
- @attr 4=109 @attr 2=5 @attr gils 1=2038 -114
-</screen>
-
-</para>
-
-</sect3>
-
-</sect2>
-
-<sect2>
-<title>Present</title>
-
-<para>
-The present facility is supported in a standard fashion. The requested
-record syntax is matched against the ones supported by the profile of
-each record retrieved. If no record syntax is given, SUTRS is the
-default. The requested element set name, again, is matched against any
-provided by the relevant record profiles.
-</para>
-
-</sect2>
-
-<sect2>
-<title>Scan</title>
-
-<para>
-The attribute combinations provided with the termListAndStartPoint are
-processed in the same way as operands in a query (see above).
-Currently, only the term and the globalOccurrences are returned with
-the termInfo structure.
-</para>
-
-</sect2>
-
-<sect2>
-<title>Sort</title>
-
-<para>
-Z39.50 specifies three diffent types of sort criterias.
-Of these Zebra supports the attribute specification type in which
-case the use attribute specifies the "Sort register".
-Sort registers are created for those fields that are of type "sort" in
-the default.idx file.
-The corresponding character mapping file in default.idx specifies the
-ordinal of each character used in the actual sort.
-</para>
-
-<para>
-Z39.50 allows the client to specify sorting on one or more input
-result sets and one output result set.
-Zebra supports sorting on one result set only which may or may not
-be the same as the output result set.
-</para>
-
-</sect2>
-
-<sect2>
-<title>Close</title>
-
-<para>
-If a Close PDU is received, the server will respond with a Close PDU
-with reason=FINISHED, no matter which protocol version was negotiated
-during initialization. If the protocol version is 3 or more, the
-server will generate a Close PDU under certain circumstances,
-including a session timeout (60 minutes by default), and certain kinds of
-protocol errors. Once a Close PDU has been sent, the protocol
-association is considered broken, and the transport connection will be
-closed immediately upon receipt of further data, or following a short
-timeout.
-</para>
-
-</sect2>
-
-</sect1>
-
-</chapter>
-
-<chapter id="record-model">
-<title>The Record Model</title>
-
-<para>
-The Zebra system is designed to support a wide range of data management
-applications. The system can be configured to handle virtually any
-kind of structured data. Each record in the system is associated with
-a <emphasis remap="it">record schema</emphasis> which lends context to the data elements of the
-record. Any number of record schema can coexist in the system.
-Although it may be wise to use only a single schema within
-one database, the system poses no such restrictions.
-</para>
-
-<para>
-The record model described in this chapter applies to the fundamental,
-structured
-record type <literal remap="tt">grs</literal> as introduced in
-section <xref linkend="record-types"/>.
-</para>
-
-<para>
-Records pass through three different states during processing in the
-system.
-</para>
-
-<para>
-
-<itemizedlist>
-<listitem>
-
-<para>
-When records are accessed by the system, they are represented
-in their local, or native format. This might be SGML or HTML files,
-News or Mail archives, MARC records. If the system doesn't already
-know how to read the type of data you need to store, you can set up an
-input filter by preparing conversion rules based on regular
-expressions and possibly augmented by a flexible scripting language (Tcl). The input filter
-produces as output an internal representation:
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-When records are processed by the system, they are represented
-in a tree-structure, constructed by tagged data elements hanging off a
-root node. The tagged elements may contain data or yet more tagged
-elements in a recursive structure. The system performs various
-actions on this tree structure (indexing, element selection, schema
-mapping, etc.),
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Before transmitting records to the client, they are first
-converted from the internal structure to a form suitable for exchange
-over the network - according to the Z39.50 standard.
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-
-<sect1 id="local-representation">
-<title>Local Representation</title>
-
-<para>
-As mentioned earlier, Zebra places few restrictions on the type of
-data that you can index and manage. Generally, whatever the form of
-the data, it is parsed by an input filter specific to that format, and
-turned into an internal structure that Zebra knows how to handle. This
-process takes place whenever the record is accessed - for indexing and
-retrieval.
-</para>
-
-<para>
-The RecordType parameter in the <literal remap="tt">zebra.cfg</literal> file, or the <literal remap="tt">-t</literal>
-option to the indexer tells Zebra how to process input records. Two
-basic types of processing are available - raw text and structured
-data. Raw text is just that, and it is selected by providing the
-argument <emphasis remap="bf">text</emphasis> to Zebra. Structured records are all handled
-internally using the basic mechanisms described in the subsequent
-sections. Zebra can read structured records in many different formats.
-How this is done is governed by additional parameters after the
-"grs" keyboard, separated by "." characters.
-</para>
-
-<para>
-Three basic subtypes to the <emphasis remap="bf">grs</emphasis> type are currently available:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>grs.sgml</term>
-<listitem>
-<para>
-This is the canonical input format —
-described below. It is a simple SGML-like syntax.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>grs.regx.<emphasis remap="it">filter</emphasis></term>
-<listitem>
-<para>
-This enables a user-supplied input
-filter. The mechanisms of these filters are described below.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>grs.marc.<emphasis remap="it">abstract syntax</emphasis></term>
-<listitem>
-<para>
-This allows Zebra to read
-records in the ISO2709 (MARC) encoding standard. In this case, the
-last paramemeter <emphasis remap="it">abstract syntax</emphasis> names the .abs file (see below)
-which describes the specific MARC structure of the input record as
-well as the indexing rules.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-<sect2>
-<title>Canonical Input Format</title>
-
-<para>
-Although input data can take any form, it is sometimes useful to
-describe the record processing capabilities of the system in terms of
-a single, canonical input format that gives access to the full
-spectrum of structure and flexibility in the system. In Zebra, this
-canonical format is an "SGML-like" syntax.
-</para>
-
-<para>
-To use the canonical format specify <literal remap="tt">grs.sgml</literal> as the record
-type,
-</para>
-
-<para>
-Consider a record describing an information resource (such a record is
-sometimes known as a <emphasis remap="it">locator record</emphasis>). It might contain a field
-describing the distributor of the information resource, which might in
-turn be partitioned into various fields providing details about the
-distributor, like this:
-</para>
-
-<para>
-
-<screen>
-<Distributor>
- <Name> USGS/WRD </Name>
- <Organization> USGS/WRD </Organization>
- <Street-Address>
- U.S. GEOLOGICAL SURVEY, 505 MARQUETTE, NW
- </Street-Address>
- <City> ALBUQUERQUE </City>
- <State> NM </State>
- <Zip-Code> 87102 </Zip-Code>
- <Country> USA </Country>
- <Telephone> (505) 766-5560 </Telephone>
-</Distributor>
-</screen>
-
-</para>
-
-<para>
-<emphasis remap="it">NOTE: The indentation used above is used to illustrate how Zebra
-interprets the markup. The indentation, in itself, has no
-significance to the parser for the canonical input format, which
-discards superfluous whitespace.</emphasis>
-</para>
-
-<para>
-The keywords surrounded by <...> are <emphasis remap="it">tags</emphasis>, while the
-sections of text in between are the <emphasis remap="it">data elements</emphasis>. A data element
-is characterized by its location in the tree that is made up by the
-nested elements. Each element is terminated by a closing tag -
-beginning with <literal remap="tt"><</literal>/, and containing the same symbolic tag-name as
-the corresponding opening tag. The general closing tag - <literal remap="tt"><</literal>>/ -
-terminates the element started by the last opening tag. The
-structuring of elements is significant. The element <emphasis remap="bf">Telephone</emphasis>,
-for instance, may be indexed and presented to the client differently,
-depending on whether it appears inside the <emphasis remap="bf">Distributor</emphasis> element,
-or some other, structured data element such a <emphasis remap="bf">Supplier</emphasis> element.
-</para>
-
-<sect3>
-<title>Record Root</title>
-
-<para>
-The first tag in a record describes the root node of the tree that
-makes up the total record. In the canonical input format, the root tag
-should contain the name of the schema that lends context to the
-elements of the record (see section
-<xref linkend="internal-representation"/>).
-The following is a GILS record that
-contains only a single element (strictly speaking, that makes it an
-illegal GILS record, since the GILS profile includes several mandatory
-elements - Zebra does not validate the contents of a record against
-the Z39.50 profile, however - it merely attempts to match up elements
-of a local representation with the given schema):
-</para>
-
-<para>
-
-<screen>
-<gils>
- <title>Zen and the Art of Motorcycle Maintenance</title>
-</gils>
-</screen>
-
-</para>
-
-</sect3>
-
-<sect3>
-<title>Variants</title>
-
-<para>
-Zebra allows you to provide individual data elements in a number of
-<emphasis remap="it">variant forms</emphasis>. Examples of variant forms are textual data
-elements which might appear in different languages, and images which
-may appear in different formats or layouts. The variant system in
-Zebra is
-essentially a representation of the variant mechanism of
-Z39.50-1995.
-</para>
-
-<para>
-The following is an example of a title element which occurs in two
-different languages.
-</para>
-
-<para>
-
-<screen>
-<title>
- <var lang lang "eng">
- Zen and the Art of Motorcycle Maintenance</>
- <var lang lang "dan">
- Zen og Kunsten at Vedligeholde en Motorcykel</>
-</title>
-</screen>
-
-</para>
-
-<para>
-The syntax of the <emphasis remap="it">variant element</emphasis> is <literal remap="tt"><var class
-type value></literal>. The available values for the <emphasis remap="it">class</emphasis> and
-<emphasis remap="it">type</emphasis> fields are given by the variant set that is associated with the
-current schema (see section <xref linkend="variant-set"/>).
-</para>
-
-<para>
-Variant elements are terminated by the general end-tag </>, by
-the variant end-tag </var>, by the appearance of another variant
-tag with the same <emphasis remap="it">class</emphasis> and <emphasis remap="it">value</emphasis> settings, or by the
-appearance of another, normal tag. In other words, the end-tags for
-the variants used in the example above could have been saved.
-</para>
-
-<para>
-Variant elements can be nested. The element
-</para>
-
-<para>
-
-<screen>
-<title>
- <var lang lang "eng"><var body iana "text/plain">
- Zen and the Art of Motorcycle Maintenance
-</title>
-</screen>
-
-</para>
-
-<para>
-Associates two variant components to the variant list for the title
-element.
-</para>
-
-<para>
-Given the nesting rules described above, we could write
-</para>
-
-<para>
-
-<screen>
-<title>
- <var body iana "text/plain>
- <var lang lang "eng">
- Zen and the Art of Motorcycle Maintenance
- <var lang lang "dan">
- Zen og Kunsten at Vedligeholde en Motorcykel
-</title>
-</screen>
-
-</para>
-
-<para>
-The title element above comes in two variants. Both have the IANA body
-type "text/plain", but one is in English, and the other in
-Danish. The client, using the element selection mechanism of Z39.50,
-can retrieve information about the available variant forms of data
-elements, or it can select specific variants based on the requirements
-of the end-user.
-</para>
-
-</sect3>
-
-</sect2>
-
-<sect2>
-<title>Input Filters</title>
-
-<para>
-In order to handle general input formats, Zebra allows the
-operator to define filters which read individual records in their native format
-and produce an internal representation that the system can
-work with.
-</para>
-
-<para>
-Input filters are ASCII files, generally with the suffix <literal remap="tt">.flt</literal>.
-The system looks for the files in the directories given in the
-<emphasis remap="bf">profilePath</emphasis> setting in the <literal remap="tt">zebra.cfg</literal> files. The record type
-for the filter is <literal remap="tt">grs.regx.</literal><emphasis remap="it">filter-filename</emphasis>
-(fundamental type <literal remap="tt">grs</literal>, file read type <literal remap="tt">regx</literal>, argument
-<emphasis remap="it">filter-filename</emphasis>).
-</para>
-
-<para>
-Generally, an input filter consists of a sequence of rules, where each
-rule consists of a sequence of expressions, followed by an action. The
-expressions are evaluated against the contents of the input record,
-and the actions normally contribute to the generation of an internal
-representation of the record.
-</para>
-
-<para>
-An expression can be either of the following:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>INIT</term>
-<listitem>
-<para>
-The action associated with this expression is evaluated
-exactly once in the lifetime of the application, before any records
-are read. It can be used in conjunction with an action that
-initializes tables or other resources that are used in the processing
-of input records.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>BEGIN</term>
-<listitem>
-<para>
-Matches the beginning of the record. It can be used to
-initialize variables, etc. Typically, the <emphasis remap="bf">BEGIN</emphasis> rule is also used
-to establish the root node of the record.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>END</term>
-<listitem>
-<para>
-Matches the end of the record - when all of the contents
-of the record has been processed.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>/pattern/</term>
-<listitem>
-<para>
-Matches a string of characters from the input
-record.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>BODY</term>
-<listitem>
-<para>
-This keyword may only be used between two patterns. It
-matches everything between (not including) those patterns.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>FINISH</term>
-<listitem>
-<para>
-The expression asssociated with this pattern is evaluated
-once, before the application terminates. It can be used to release
-system resources - typically ones allocated in the <emphasis remap="bf">INIT</emphasis> step.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-<para>
-An action is surrounded by curly braces ({...}), and consists of a
-sequence of statements. Statements may be separated by newlines or
-semicolons (;). Within actions, the strings that matched the
-expressions immediately preceding the action can be referred to as
-$0, $1, $2, etc.
-</para>
-
-<para>
-The available statements are:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>begin <emphasis remap="it">type [parameter ... ]</emphasis></term>
-<listitem>
-<para>
-Begin a new
-data element. The type is one of the following:
-<variablelist>
-
-<varlistentry>
-<term>record</term>
-<listitem>
-<para>
-Begin a new record. The followingparameter should be the
-name of the schema that describes the structure of the record, eg.
-<literal remap="tt">gils</literal> or <literal remap="tt">wais</literal> (see below). The <literal remap="tt">begin record</literal> call should
-precede
-any other use of the <emphasis remap="bf">begin</emphasis> statement.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>element</term>
-<listitem>
-<para>
-Begin a new tagged element. The parameter is the
-name of the tag. If the tag is not matched anywhere in the tagsets
-referenced by the current schema, it is treated as a local string
-tag.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>variant</term>
-<listitem>
-<para>
-Begin a new node in a variant tree. The parameters are
-<emphasis remap="it">class type value</emphasis>.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>data</term>
-<listitem>
-<para>
-Create a data element. The concatenated arguments make
-up the value of the data element. The option <literal remap="tt">-text</literal> signals that
-the layout (whitespace) of the data should be retained for
-transmission. The option <literal remap="tt">-element</literal> <emphasis remap="it">tag</emphasis> wraps the data up in
-the <emphasis remap="it">tag</emphasis>. The use of the <literal remap="tt">-element</literal> option is equivalent to
-preceding the command with a <emphasis remap="bf">begin element</emphasis> command, and following
-it with the <emphasis remap="bf">end</emphasis> command.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>end <emphasis remap="it">[type]</emphasis></term>
-<listitem>
-<para>
-Close a tagged element. If no parameter is given,
-the last element on the stack is terminated. The first parameter, if
-any, is a type name, similar to the <emphasis remap="bf">begin</emphasis> statement. For the
-<emphasis remap="bf">element</emphasis> type, a tag name can be provided to terminate a specific tag.
-</para>
-</listitem>
-</varlistentry>
-</variablelist>
-</para>
-
-<para>
-The following input filter reads a Usenet news file, producing a
-record in the WAIS schema. Note that the body of a news posting is
-separated from the list of headers by a blank line (or rather a
-sequence of two newline characters.
-</para>
-
-<para>
-
-<screen>
-BEGIN { begin record wais }
-
-/^From:/ BODY /$/ { data -element name $1 }
-/^Subject:/ BODY /$/ { data -element title $1 }
-/^Date:/ BODY /$/ { data -element lastModified $1 }
-/\n\n/ BODY END {
- begin element bodyOfDisplay
- begin variant body iana "text/plain"
- data -text $1
- end record
- }
-</screen>
-
-</para>
-
-<para>
-If Zebra is compiled with support for Tcl (Tool Command Language)
-enabled, the statements described above are supplemented with a complete
-scripting environment, including control structures (conditional
-expressions and loop constructs), and powerful string manipulation
-mechanisms for modifying the elements of a record. Tcl is a popular
-scripting environment, with several tutorials available both online
-and in hardcopy.
-</para>
-
-<para>
-<emphasis remap="it">NOTE: Tcl support is not currently available, but will be
-included with one of the next alpha or beta releases.</emphasis>
-</para>
-
-<para>
-<emphasis remap="it">NOTE: Variant support is not currently available in the input
-filter, but will be included with one of the next alpha or beta
-releases.</emphasis>
-</para>
-
-</sect2>
-
-</sect1>
-
-<sect1 id="internal-representation">
-<title>Internal Representation</title>
-
-<para>
-When records are manipulated by the system, they're represented in a
-tree-structure, with data elements at the leaf nodes, and tags or
-variant components at the non-leaf nodes. The root-node identifies the
-schema that lends context to the tagging and structuring of the
-record. Imagine a simple record, consisting of a 'title' element and
-an 'author' element:
-</para>
-
-<para>
-
-<screen>
- TITLE "Zen and the Art of Motorcycle Maintenance"
-ROOT
- AUTHOR "Robert Pirsig"
-</screen>
-
-</para>
-
-<para>
-A slightly more complex record would have the author element consist
-of two elements, a surname and a first name:
-</para>
-
-<para>
-
-<screen>
- TITLE "Zen and the Art of Motorcycle Maintenance"
-ROOT
- FIRST-NAME "Robert"
- AUTHOR
- SURNAME "Pirsig"
-</screen>
-
-</para>
-
-<para>
-The root of the record will refer to the record schema that describes
-the structuring of this particular record. The schema defines the
-element tags (TITLE, FIRST-NAME, etc.) that may occur in the record, as
-well as the structuring (SURNAME should appear below AUTHOR, etc.). In
-addition, the schema establishes element set names that are used by
-the client to request a subset of the elements of a given record. The
-schema may also establish rules for converting the record to a
-different schema, by stating, for each element, a mapping to a
-different tag path.
-</para>
-
-<sect2>
-<title>Tagged Elements</title>
-
-<para>
-A data element is characterized by its tag, and its position in the
-structure of the record. For instance, while the tag "telephone
-number" may be used different places in a record, we may need to
-distinguish between these occurrences, both for searching and
-presentation purposes. For instance, while the phone numbers for the
-"customer" and the "service provider" are both
-representatives for the same type of resource (a telephone number), it
-is essential that they be kept separate. The record schema provides
-the structure of the record, and names each data element (defined by
-the sequence of tags - the tag path - by which the element can be
-reached from the root of the record).
-</para>
-
-</sect2>
-
-<sect2>
-<title>Variants</title>
-
-<para>
-The children of a tag node may be either more tag nodes, a data node
-(possibly accompanied by tag nodes),
-or a tree of variant nodes. The children of variant nodes are either
-more variant nodes or a data node (possibly accompanied by more
-variant nodes). Each leaf node, which is normally a
-data node, corresponds to a <emphasis remap="it">variant form</emphasis> of the tagged element
-identified by the tag which parents the variant tree. The following
-title element occurs in two different languages:
-</para>
-
-<para>
-
-<screen>
- VARIANT LANG=ENG "War and Peace"
-TITLE
- VARIANT LANG=DAN "Krig og Fred"
-</screen>
-
-</para>
-
-<para>
-Which of the two elements are transmitted to the client by the server
-depends on the specifications provided by the client, if any.
-</para>
-
-<para>
-In practice, each variant node is associated with a triple of class,
-type, value, corresponding to the variant mechanism of Z39.50.
-</para>
-
-</sect2>
-
-<sect2>
-<title>Data Elements</title>
-
-<para>
-Data nodes have no children (they are always leaf nodes in the record
-tree).
-</para>
-
-<para>
-<emphasis remap="it">NOTE: Documentation needs extension here about types of nodes - numerical,
-textual, etc., plus the various types of inclusion notes.</emphasis>
-</para>
-
-</sect2>
-
-</sect1>
-
-<sect1 id="data-model">
-<title>Configuring Your Data Model</title>
-
-<para>
-The following sections describe the configuration files that govern
-the internal management of data records. The system searches for the files
-in the directories specified by the <emphasis remap="bf">profilePath</emphasis> setting in the
-<literal remap="tt">zebra.cfg</literal> file.
-</para>
-
-<sect2>
-<title>The Abstract Syntax</title>
-
-<para>
-The abstract syntax definition (also known as an Abstract Record
-Structure, or ARS) is the focal point of the
-record schema description. For a given schema, the ABS file may state any
-or all of the following:
-</para>
-
-<para>
-
-<itemizedlist>
-<listitem>
-
-<para>
-The object identifier of the Z39.50 schema associated
-with the ARS, so that it can be referred to by the client.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-The attribute set (which can possibly be a compound of multiple
-sets) which applies in the profile. This is used when indexing and
-searching the records belonging to the given profile.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-The Tag set (again, this can consist of several different sets).
-This is used when reading the records from a file, to recognize the
-different tags, and when transmitting the record to the client -
-mapping the tags to their numerical representation, if they are
-known.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-The variant set which is used in the profile. This provides a
-vocabulary for specifying the <emphasis remap="it">forms</emphasis> of data that appear inside
-the records.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Element set names, which are a shorthand way for the client to
-ask for a subset of the data elements contained in a record. Element
-set names, in the retrieval module, are mapped to <emphasis remap="it">element
-specifications</emphasis>, which contain information equivalent to the
-<emphasis remap="it">Espec-1</emphasis> syntax of Z39.50.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Map tables, which may specify mappings to <emphasis remap="it">other</emphasis> database
-profiles, if desired.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Possibly, a set of rules describing the mapping of elements to a
-MARC representation.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-A list of element descriptions (this is the actual ARS of the
-schema, in Z39.50 terms), which lists the ways in which the various
-tags can be used and organized hierarchically.
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-
-<para>
-Several of the entries above simply refer to other files, which
-describe the given objects.
-</para>
-
-</sect2>
-
-<sect2>
-<title>The Configuration Files</title>
-
-<para>
-This section describes the syntax and use of the various tables which
-are used by the retrieval module.
-</para>
-
-<para>
-The number of different file types may appear daunting at first, but
-each type corresponds fairly clearly to a single aspect of the Z39.50
-retrieval facilities. Further, the average database administrator,
-who is simply reusing an existing profile for which tables already
-exist, shouldn't have to worry too much about the contents of these tables.
-</para>
-
-<para>
-Generally, the files are simple ASCII files, which can be maintained
-using any text editor. Blank lines, and lines beginning with a (#) are
-ignored. Any characters on a line followed by a (#) are also ignored.
-All other
-lines contain <emphasis remap="it">directives</emphasis>, which provide some setting or value
-to the system. Generally, settings are characterized by a single
-keyword, identifying the setting, followed by a number of parameters.
-Some settings are repeatable (r), while others may occur only once in a
-file. Some settings are optional (o), whicle others again are
-mandatory (m).
-</para>
-
-</sect2>
-
-<sect2>
-<title>The Abstract Syntax (.abs) Files</title>
-
-<para>
-The name of this file type is slightly misleading in Z39.50 terms,
-since, apart from the actual abstract syntax of the profile, it also
-includes most of the other definitions that go into a database
-profile.
-</para>
-
-<para>
-When a record in the canonical, SGML-like format is read from a file
-or from the database, the first tag of the file should reference the
-profile that governs the layout of the record. If the first tag of the
-record is, say, <literal remap="tt"><gils></literal>, the system will look for the profile
-definition in the file <literal remap="tt">gils.abs</literal>. Profile definitions are cached,
-so they only have to be read once during the lifespan of the current
-process.
-</para>
-
-<para>
-When writing your own input filters, the <emphasis remap="bf">record-begin</emphasis> command
-introduces the profile, and should always be called first thing when
-introducing a new record.
-</para>
-
-<para>
-The file may contain the following directives:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>name <emphasis remap="it">symbolic-name</emphasis></term>
-<listitem>
-<para>
-(m) This provides a shorthand name or
-description for the profile. Mostly useful for diagnostic purposes.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>reference <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(m) The reference name of the OID for
-the profile. The reference names can be found in the <emphasis remap="bf">util</emphasis>
-module of <emphasis remap="bf">YAZ</emphasis>.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>attset <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(m) The attribute set that is used for
-indexing and searching records belonging to this profile.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>tagset <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o) The tag set (if any) that describe
-that fields of the records.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>varset <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o) The variant set used in the profile.
-</para>
-</listitem>
-</varlistentry>
-<varlistentry>
-<term>maptab <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o,r) This points to a
-conversion table that might be used if the client asks for the record
-in a different schema from the native one.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>marc <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o) Points to a file containing parameters
-for representing the record contents in the ISO2709 syntax. Read the
-description of the MARC representation facility below.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>esetname <emphasis remap="it">name filename</emphasis></term>
-<listitem>
-<para>
-(o,r) Associates the
-given element set name with an element selection file. If an (@) is
-given in place of the filename, this corresponds to a null mapping for
-the given element set name.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>any <emphasis remap="it">tags</emphasis></term>
-<listitem>
-<para>
-(o) This directive specifies a list of
-attributes which should be appended to the attribute list given for each
-element. The effect is to make every single element in the abstract
-syntax searchable by way of the given attributes. This directive
-provides an efficient way of supporting free-text searching across all
-elements. However, it does increase the size of the index
-significantly. The attributes can be qualified with a structure, as in
-the <emphasis remap="bf">elm</emphasis> directive below.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>elm <emphasis remap="it">path name attributes</emphasis></term>
-<listitem>
-<para>
-(o,r) Adds an element
-to the abstract record syntax of the schema. The <emphasis remap="it">path</emphasis> follows the
-syntax which is suggested by the Z39.50 document - that is, a sequence
-of tags separated by slashes (/). Each tag is given as a
-comma-separated pair of tag type and -value surrounded by parenthesis.
-The <emphasis remap="it">name</emphasis> is the name of the element, and the <emphasis remap="it">attributes</emphasis>
-specifies which attributes to use when indexing the element in a
-comma-separated list. A ! in
-place of the attribute name is equivalent to specifying an attribute
-name identical to the element name. A - in place of the attribute name
-specifies that no indexing is to take place for the given element. The
-attributes can be qualified with <emphasis remap="it">field types</emphasis> to specify which
-character set should govern the indexing procedure for that field. The
-same data element may be indexed into several different fields, using
-different character set definitions. See the section
-<xref linkend="field-structure-and-character-sets"/>.
-The default field type is "w" for
-<emphasis remap="it">word</emphasis>.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-<emphasis remap="it">NOTE: The mechanism for controlling indexing is not adequate for
-complex databases, and will probably be moved into a separate
-configuration table eventually.</emphasis>
-</para>
-
-<para>
-The following is an excerpt from the abstract syntax file for the GILS
-profile.
-</para>
-
-<para>
-
-<screen>
-name gils
-reference GILS-schema
-attset gils.att
-tagset gils.tag
-varset var1.var
-
-maptab gils-usmarc.map
-
-# Element set names
-
-esetname VARIANT gils-variant.est # for WAIS-compliance
-esetname B gils-b.est
-esetname G gils-g.est
-esetname F @
-
-elm (1,10) rank -
-elm (1,12) url -
-elm (1,14) localControlNumber Local-number
-elm (1,16) dateOfLastModification Date/time-last-modified
-elm (2,1) title w:!,p:!
-elm (4,1) controlIdentifier Identifier-standard
-elm (2,6) abstract Abstract
-elm (4,51) purpose !
-elm (4,52) originator -
-elm (4,53) accessConstraints !
-elm (4,54) useConstraints !
-elm (4,70) availability -
-elm (4,70)/(4,90) distributor -
-elm (4,70)/(4,90)/(2,7) distributorName !
-elm (4,70)/(4,90)/(2,10 distributorOrganization !
-elm (4,70)/(4,90)/(4,2) distributorStreetAddress !
-elm (4,70)/(4,90)/(4,3) distributorCity !
-</screen>
-
-</para>
-
-</sect2>
-
-<sect2 id="attset-files">
-<title>The Attribute Set (.att) Files</title>
-
-<para>
-This file type describes the <emphasis remap="bf">Use</emphasis> elements of an attribute set.
-It contains the following directives.
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>name <emphasis remap="it">symbolic-name</emphasis></term>
-<listitem>
-<para>
-(m) This provides a shorthand name or
-description for the attribute set. Mostly useful for diagnostic purposes.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>reference <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(m) The reference name of the OID for
-the attribute set. The reference names can be found in the <emphasis remap="bf">util</emphasis>
-module of <emphasis remap="bf">YAZ</emphasis>.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>ordinal <emphasis remap="it">integer</emphasis></term>
-<listitem>
-<para>
-(m) This value will be used to represent the
-attribute set in the index. Care should be taken that each attribute
-set has a unique ordinal value.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>include <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o,r) This directive is used to
-include another attribute set as a part of the current one. This is
-used when a new attribute set is defined as an extension to another
-set. For instance, many new attribute sets are defined as extensions
-to the <emphasis remap="bf">bib-1</emphasis> set. This is an important feature of the retrieval
-system of Z39.50, as it ensures the highest possible level of
-interoperability, as those access points of your database which are
-derived from the external set (say, bib-1) can be used even by clients
-who are unaware of the new set.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>att <emphasis remap="it">att-value att-name [local-value]</emphasis></term>
-<listitem>
-<para>
-(o,r) This
-repeatable directive introduces a new attribute to the set. The
-attribute value is stored in the index (unless a <emphasis remap="it">local-value</emphasis> is
-given, in which case this is stored). The name is used to refer to the
-attribute from the <emphasis remap="it">abstract syntax</emphasis>.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-This is an excerpt from the GILS attribute set definition. Notice how
-the file describing the <emphasis remap="it">bib-1</emphasis> attribute set is referenced.
-</para>
-
-<para>
-
-<screen>
-name gils
-reference GILS-attset
-include bib1.att
-ordinal 2
-
-att 2001 distributorName
-att 2002 indextermsControlled
-att 2003 purpose
-att 2004 accessConstraints
-att 2005 useConstraints
-</screen>
-
-</para>
-
-</sect2>
-
-<sect2>
-<title>The Tag Set (.tag) Files</title>
-
-<para>
-This file type defines the tagset of the profile, possibly by
-referencing other tag sets (most tag sets, for instance, will include
-tagsetG and tagsetM from the Z39.50 specification. The file may
-contain the following directives.
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>name <emphasis remap="it">symbolic-name</emphasis></term>
-<listitem>
-<para>
-(m) This provides a shorthand name or
-description for the tag set. Mostly useful for diagnostic purposes.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>reference <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(o) The reference name of the OID for
-the tag set. The reference names can be found in the <emphasis remap="bf">util</emphasis>
-module of <emphasis remap="bf">YAZ</emphasis>. The directive is optional, since not all tag sets
-are registered outside of their schema.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>type <emphasis remap="it">integer</emphasis></term>
-<listitem>
-<para>
-(m) The type number of the tagset within the schema
-profile (note: this specification really should belong to the .abs
-file. This will be fixed in a future release).
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>include <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-(o,r) This directive is used
-to include the definitions of other tag sets into the current one.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>tag <emphasis remap="it">number names type</emphasis></term>
-<listitem>
-<para>
-(o,r) Introduces a new
-tag to the set. The <emphasis remap="it">number</emphasis> is the tag number as used in the protocol
-(there is currently no mechanism for specifying string tags at this
-point, but this would be quick work to add). The <emphasis remap="it">names</emphasis> parameter
-is a list of names by which the tag should be recognized in the input
-file format. The names should be separated by slashes (/). The
-<emphasis remap="it">type</emphasis> is th recommended datatype of the tag. It should be one of
-the following:
-
-<itemizedlist>
-<listitem>
-
-<para>
-structured
-</para>
-</listitem>
-<listitem>
-
-<para>
-string
-</para>
-</listitem>
-<listitem>
-
-<para>
-numeric
-</para>
-</listitem>
-<listitem>
-
-<para>
-bool
-</para>
-</listitem>
-<listitem>
-
-<para>
-oid
-</para>
-</listitem>
-<listitem>
-
-<para>
-generalizedtime
-</para>
-</listitem>
-<listitem>
-
-<para>
-intunit
-</para>
-</listitem>
-<listitem>
-
-<para>
-int
-</para>
-</listitem>
-<listitem>
-
-<para>
-octetstring
-</para>
-</listitem>
-<listitem>
-
-<para>
-null
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-The following is an excerpt from the TagsetG definition file.
-</para>
-
-<para>
-
-<screen>
-name tagsetg
-reference TagsetG
-type 2
-
-tag 1 title string
-tag 2 author string
-tag 3 publicationPlace string
-tag 4 publicationDate string
-tag 5 documentId string
-tag 6 abstract string
-tag 7 name string
-tag 8 date generalizedtime
-tag 9 bodyOfDisplay string
-tag 10 organization string
-</screen>
-
-</para>
-
-</sect2>
-
-<sect2 id="variant-set">
-<title>The Variant Set (.var) Files</title>
-
-<para>
-The variant set file is a straightforward representation of the
-variant set definitions associated with the protocol. At present, only
-the <emphasis remap="it">Variant-1</emphasis> set is known.
-</para>
-
-<para>
-These are the directives allowed in the file.
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>name <emphasis remap="it">symbolic-name</emphasis></term>
-<listitem>
-<para>
-(m) This provides a shorthand name or
-description for the variant set. Mostly useful for diagnostic purposes.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>reference <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(o) The reference name of the OID for
-the variant set, if one is required. The reference names can be found
-in the <emphasis remap="bf">util</emphasis> module of <emphasis remap="bf">YAZ</emphasis>.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>class <emphasis remap="it">integer class-name</emphasis></term>
-<listitem>
-<para>
-(m,r) Introduces a new
-class to the variant set.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>type <emphasis remap="it">integer type-name datatype</emphasis></term>
-<listitem>
-<para>
-(m,r) Addes a
-new type to the current class (the one introduced by the most recent
-<emphasis remap="bf">class</emphasis> directive). The type names belong to the same name space as
-the one used in the tag set definition file.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-The following is an excerpt from the file describing the variant set
-<emphasis remap="it">Variant-1</emphasis>.
-</para>
-
-<para>
-
-<screen>
-name variant-1
-reference Variant-1
-
-class 1 variantId
-
- type 1 variantId octetstring
-
-class 2 body
-
- type 1 iana string
- type 2 z39.50 string
- type 3 other string
-</screen>
-
-</para>
-
-</sect2>
-
-<sect2>
-<title>The Element Set (.est) Files</title>
-
-<para>
-The element set specification files describe a selection of a subset
-of the elements of a database record. The element selection mechanism
-is equivalent to the one supplied by the <emphasis remap="it">Espec-1</emphasis> syntax of the
-Z39.50 specification. In fact, the internal representation of an
-element set specification is identical to the <emphasis remap="it">Espec-1</emphasis> structure,
-and we'll refer you to the description of that structure for most of
-the detailed semantics of the directives below.
-</para>
-
-<para>
-<emphasis remap="it">NOTE: Not all of the Espec-1 functionality has been implemented yet.
-The fields that are mentioned below all work as expected, unless
-otherwise is noted.</emphasis>
-</para>
-
-<para>
-The directives available in the element set file are as follows:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>defaultVariantSetId <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(o) If variants are used in
-the following, this should provide the name of the variantset used
-(it's not currently possible to specify a different set in the
-individual variant request). In almost all cases (certainly all
-profiles known to us), the name <literal remap="tt">Variant-1</literal> should be given here.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>defaultVariantRequest <emphasis remap="it">variant-request</emphasis></term>
-<listitem>
-<para>
-(o) This directive
-provides a default variant request for
-use when the individual element requests (see below) do not contain a
-variant request. Variant requests consist of a blank-separated list of
-variant components. A variant compont is a comma-separated,
-parenthesized triple of variant class, type, and value (the two former
-values being represented as integers). The value can currently only be
-entered as a string (this will change to depend on the definition of
-the variant in question). The special value (@) is interpreted as a
-null value, however.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>simpleElement <emphasis remap="it">path ['variant' variant-request]</emphasis></term>
-<listitem>
-<para>
-(o,r) This corresponds to a simple element request in <emphasis remap="it">Espec-1</emphasis>. The
-path consists of a sequence of tag-selectors, where each of these can
-consist of either:
-</para>
-
-<para>
-
-<itemizedlist>
-<listitem>
-
-<para>
-A simple tag, consisting of a comma-separated type-value pair in
-parenthesis, possibly followed by a colon (:) followed by an
-occurrences-specification (see below). The tag-value can be a number
-or a string. If the first character is an apostrophe ('), this forces
-the value to be interpreted as a string, even if it appears to be numerical.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-A WildThing, represented as a question mark (?), possibly
-followed by a colon (:) followed by an occurrences specification (see
-below).
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-A WildPath, represented as an asterisk (*). Note that the last
-element of the path should not be a wildPath (wildpaths don't work in
-this version).
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-
-<para>
-The occurrences-specification can be either the string <literal remap="tt">all</literal>, the
-string <literal remap="tt">last</literal>, or an explicit value-range. The value-range is
-represented as an integer (the starting point), possibly followed by a
-plus (+) and a second integer (the number of elements, default being
-one).
-</para>
-
-<para>
-The variant-request has the same syntax as the defaultVariantRequest
-above. Note that it may sometimes be useful to give an empty variant
-request, simply to disable the default for a specific set of fields
-(we aren't certain if this is proper <emphasis remap="it">Espec-1</emphasis>, but it works in
-this implementation).
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-The following is an example of an element specification belonging to
-the GILS profile.
-</para>
-
-<para>
-
-<screen>
-simpleelement (1,10)
-simpleelement (1,12)
-simpleelement (2,1)
-simpleelement (1,14)
-simpleelement (4,1)
-simpleelement (4,52)
-</screen>
-
-</para>
-
-</sect2>
-
-<sect2 id="schema-mapping">
-<title>The Schema Mapping (.map) Files</title>
-
-<para>
-Sometimes, the client might want to receive a database record in
-a schema that differs from the native schema of the record. For
-instance, a client might only know how to process WAIS records, while
-the database record is represented in a more specific schema, such as
-GILS. In this module, a mapping of data to one of the MARC formats is
-also thought of as a schema mapping (mapping the elements of the
-record into fields consistent with the given MARC specification, prior
-to actually converting the data to the ISO2709). This use of the
-object identifier for USMARC as a schema identifier represents an
-overloading of the OID which might not be entirely proper. However,
-it represents the dual role of schema and record syntax which
-is assumed by the MARC family in Z39.50.
-</para>
-
-<para>
-<emphasis remap="it">NOTE: The schema-mapping functions are so far limited to a
-straightforward mapping of elements. This should be extended with
-mechanisms for conversions of the element contents, and conditional
-mappings of elements based on the record contents.</emphasis>
-</para>
-
-<para>
-These are the directives of the schema mapping file format:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>targetName <emphasis remap="it">name</emphasis></term>
-<listitem>
-<para>
-(m) A symbolic name for the target schema
-of the table. Useful mostly for diagnostic purposes.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>targetRef <emphasis remap="it">OID-name</emphasis></term>
-<listitem>
-<para>
-(m) An OID name for the target schema.
-This is used, for instance, by a server receiving a request to present
-a record in a different schema from the native one. The name, again,
-is found in the <emphasis remap="bf">oid</emphasis> module of <emphasis remap="bf">YAZ</emphasis>.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>map <emphasis remap="it">element-name target-path</emphasis></term>
-<listitem>
-<para>
-(o,r) Adds
-an element mapping rule to the table.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-</sect2>
-
-<sect2>
-<title>The MARC (ISO2709) Representation (.mar) Files</title>
-
-<para>
-This file provides rules for representing a record in the ISO2709
-format. The rules pertain mostly to the values of the constant-length
-header of the record.
-</para>
-
-<para>
-<emphasis remap="it">NOTE: This will be described better. We're in the process of
-re-evaluating and most likely changing the way that MARC records are
-handled by the system.</emphasis>
-</para>
-
-</sect2>
-
-<sect2 id="field-structure-and-character-sets">
-<title>Field Structure and Character Sets
-</title>
-
-<para>
-In order to provide a flexible approach to national character set
-handling, Zebra allows the administrator to configure the set up the
-system to handle any 8-bit character set — including sets that
-require multi-octet diacritics or other multi-octet characters. The
-definition of a character set includes a specification of the
-permissible values, their sort order (this affects the display in the
-SCAN function), and relationships between upper- and lowercase
-characters. Finally, the definition includes the specification of
-space characters for the set.
-</para>
-
-<para>
-The operator can define different character sets for different fields,
-typical examples being standard text fields, numerical fields, and
-special-purpose fields such as WWW-style linkages (URx).
-</para>
-
-<para>
-The field types, and hence character sets, are associated with data
-elements by the .abs files (see above). The file <literal remap="tt">default.idx</literal>
-provides the association between field type codes (as used in the .abs
-files) and the character map files (with the .chr suffix). The format
-of the .idx file is as follows
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>index <emphasis remap="it">field type code</emphasis></term>
-<listitem>
-<para>
-This directive introduces a new
-search index code. The argument is a one-character code to be used in the
-.abs files to select this particular index type. An index, roughly,
-corresponds to a particular structure attribute during search. Refer
-to section <xref linkend="search"/>.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>sort <emphasis remap="it">field code type</emphasis></term>
-<listitem>
-<para>
-This directive introduces a
-sort index. The argument is a one-character code to be used in the
-.abs fie to select this particular index type. The corresponding
-use attribute must be used in the sort request to refer to this
-particular sort index. The corresponding character map (see below)
-is used in the sort process.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>completeness <emphasis remap="it">boolean</emphasis></term>
-<listitem>
-<para>
-This directive enables or disables
-complete field indexing. The value of the <emphasis remap="it">boolean</emphasis> should be 0
-(disable) or 1. If completeness is enabled, the index entry will
-contain the complete contents of the field (up to a limit), with words
-(non-space characters) separated by single space characters
-(normalized to " " on display). When completeness is
-disabled, each word is indexed as a separate entry. Complete subfield
-indexing is most useful for fields which are typically browsed (eg.
-titles, authors, or subjects), or instances where a match on a
-complete subfield is essential (eg. exact title searching). For fields
-where completeness is disabled, the search engine will interpret a
-search containing space characters as a word proximity search.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>charmap <emphasis remap="it">filename</emphasis></term>
-<listitem>
-<para>
-This is the filename of the character
-map to be used for this index for field type.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-<para>
-The contents of the character map files are structured as follows:
-</para>
-
-<para>
-<variablelist>
-
-<varlistentry>
-<term>lowercase <emphasis remap="it">value-set</emphasis></term>
-<listitem>
-<para>
-This directive introduces the basic
-value set of the field type. The format is an ordered list (without
-spaces) of the characters which may occur in "words" of
-the given type. The order of the entries in the list determines the
-sort order of the index. In addition to single characters, the
-following combinations are legal:
-</para>
-
-<para>
-
-<itemizedlist>
-<listitem>
-
-<para>
-Backslashes may be used to introduce three-digit octal, or
-two-digit hex representations of single characters (preceded by <literal remap="tt">x</literal>).
-In addition, the combinations
-\\, \\r, \\n, \\t, \\s (space — remember that real space-characters
-may ot occur in the value definition), and \\ are recognised,
-with their usual interpretation.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Curly braces {} may be used to enclose ranges of single
-characters (possibly using the escape convention described in the
-preceding point), eg. {a-z} to entroduce the standard range of ASCII
-characters. Note that the interpretation of such a range depends on
-the concrete representation in your local, physical character set.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-paranthesises () may be used to enclose multi-byte characters -
-eg. diacritics or special national combinations (eg. Spanish
-"ll"). When found in the input stream (or a search term),
-these characters are viewed and sorted as a single character, with a
-sorting value depending on the position of the group in the value
-statement.
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>uppercase <emphasis remap="it">value-set</emphasis></term>
-<listitem>
-<para>
-This directive introduces the
-upper-case equivalencis to the value set (if any). The number and
-order of the entries in the list should be the same as in the
-<literal remap="tt">lowercase</literal> directive.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>space <emphasis remap="it">value-set</emphasis></term>
-<listitem>
-<para>
-This directive introduces the character
-which separate words in the input stream. Depending on the
-completeness mode of the field in question, these characters either
-terminate an index entry, or delimit individual "words" in
-the input stream. The order of the elements is not significant —
-otherwise the representation is the same as for the <literal remap="tt">upercase</literal> and
-<literal remap="tt">lowercase</literal> directives.
-</para>
-</listitem></varlistentry>
-<varlistentry>
-<term>map <emphasis remap="it">value-set</emphasis> <emphasis remap="it">target</emphasis></term>
-<listitem>
-<para>
-This directive introduces a
-mapping between each of the members of the value-set on the left to
-the character on the right. The character on the right must occur in
-the value set (the <literal remap="tt">lowercase</literal> directive) of the character set, but
-it may be a paranthesis-enclosed multi-octet character. This directive
-may be used to map diacritics to their base characters, or to map
-HTML-style character-representations to their natural form, etc.
-</para>
-</listitem></varlistentry>
-</variablelist>
-</para>
-
-</sect2>
-
-</sect1>
-
-<sect1 id="formats">
-<title>Exchange Formats</title>
-
-<para>
-Converting records from the internal structure to en exchange format
-is largely an automatic process. Currently, the following exchange
-formats are supported:
-</para>
-
-<para>
-
-<itemizedlist>
-<listitem>
-
-<para>
-GRS-1. The internal representation is based on GRS-1, so the
-conversion here is straightforward. The system will create
-applied variant and supported variant lists as required, if a record
-contains variant information.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-SUTRS. Again, the mapping is fairly straighforward. Indentation
-is used to show the hierarchical structure of the record. All
-"GRS" type records support both the GRS-1 and SUTRS
-representations.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-ISO2709-based formats (USMARC, etc.). Only records with a
-two-level structure (corresponding to fields and subfields) can be
-directly mapped to ISO2709. For records with a different structuring
-(eg., GILS), the representation in a structure like USMARC involves a
-schema-mapping (see section <xref linkend="schema-mapping"/>), to an
-"implied" USMARC schema (implied,
-because there is no formal schema which specifies the use of the
-USMARC fields outside of ISO2709). The resultant, two-level record is
-then mapped directly from the internal representation to ISO2709. See
-the GILS schema definition files for a detailed example of this
-approach.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Explain. This representation is only available for records
-belonging to the Explain schema.
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-Summary. This ASN-1 based structure is only available for records
-belonging to the Summary schema - or schema which provide a mapping
-to this schema (see the description of the schema mapping facility
-above).
-
-</para>
-</listitem>
-<listitem>
-
-<para>
-SOIF. Support for this syntax is experimental, and is currently
-keyed to a private Index Data OID (1.2.840.10003.5.1000.81.2). All
-abstract syntaxes can be mapped to the SOIF format, although nested
-elements are represented by concatenation of the tag names at each
-level.
-
-</para>
-</listitem>
-
-</itemizedlist>
-
-</para>
-
-</sect1>
-
-</chapter>