X-Git-Url: http://git.indexdata.com/?a=blobdiff_plain;f=doc%2Ftools.xml;h=55dec3c248628cf8ac2f0b124afd347ed503e198;hb=29c7ed2c90cd7aa5b69ec785c618b260f9525b1b;hp=7f1997c3a78894478d631e232ebbd3e9d8e51f5f;hpb=1e5554fc59c8cad2105b2a8cf095d13315dc6ed1;p=yaz-moved-to-github.git

diff --git a/doc/tools.xml b/doc/tools.xml
index 7f1997c..55dec3c 100644
--- a/doc/tools.xml
+++ b/doc/tools.xml
@@ -1,4 +1,4 @@
-<!-- $Id: tools.xml,v 1.22 2003-03-18 13:30:21 adam Exp $ -->
+<!-- $Id: tools.xml,v 1.29 2003-11-03 09:34:02 mike Exp $ -->
  <chapter id="tools"><title>Supporting Tools</title>
   
   <para>
@@ -16,7 +16,7 @@
     <token>Z_RPNQuery</token> structure. Some programmers will prefer to
     construct the query manually, perhaps using
     <function>odr_malloc()</function> to simplify memory management.
-    The &yaz; distribution includes two separate, query-generating tools
+    The &yaz; distribution includes three separate, query-generating tools
     that may be of use to you.
    </para>
 
@@ -131,7 +131,7 @@
 
      top-set ::= &lsqb; '@attrset' string &rsqb;
 
-     query-struct ::= attr-spec | simple | complex | '@term' term-type
+     query-struct ::= attr-spec | simple | complex | '@term' term-type query
 
      attr-spec ::= '@attr' &lsqb; string &rsqb; string query-struct
 
@@ -182,16 +182,120 @@
 
     <para>
      Version 3 of the Z39.50 specification defines various encoding of terms.
-     Use the <literal>@term </literal> <replaceable>type</replaceable>,
+     Use <literal>@term </literal> <replaceable>type</replaceable>
+     <replaceable>string</replaceable>,
      where type is one of: <literal>general</literal>,
-     <literal>numeric</literal>, <literal>string</literal>
-     (for InternationalString), ..
+     <literal>numeric</literal> or <literal>string</literal>
+     (for InternationalString).
      If no term type has been given, the <literal>general</literal> form
-     is used which is the only encoding allowed in both version 2 - and 3
+     is used.  This is the only encoding allowed in both versions 2 and 3
      of the Z39.50 standard.
     </para>
     
-    <example><title>PQF queries</title>
+    <sect3 id="PQF-prox">
+      <title>Using Proximity Operators with PQF</title>
+      <note>
+        <para>
+	  This is an advanced topic, describing how to construct
+	  queries that make very specific requirements on the
+	  relative location of their operands.
+	  You may wish to skip this section and go straight to
+	  <link linkend="pqf-examples">the example PQF queries</link>.
+	</para>
+	<para>
+	  <warning>
+	    <para>
+	      Most Z39.50 servers do not support proximity searching, or
+	      support only a small subset of the full functionality that
+	      can be expressed using the PQF proximity operator.  Be
+	      aware that the ability to <emphasis>express</emphasis> a
+	      query in PQF is no guarantee that any given server will
+	      be able to <emphasis>execute</emphasis> it.
+	    </para>
+          </warning>
+	</para>
+      </note>
+      <para>
+        The proximity operator <literal>@prox</literal> is a special
+        and more restrictive version of the conjunction operator
+        <literal>@and</literal>.  Its semantics are described in 
+	section 3.7.2 (Proximity) of Z39.50 the standard itself, which
+        can be read on-line at
+	<ulink url="http://lcweb.loc.gov/z3950/agency/markup/09.html"/>
+      </para>
+      <para>
+	In PQF, the proximity operation is represented by a sequence
+	of the form
+	<screen>
+@prox <replaceable>exclusion</replaceable> <replaceable>distance</replaceable> <replaceable>ordered</replaceable> <replaceable>relation</replaceable> <replaceable>which-code</replaceable> <replaceable>unit-code</replaceable>
+	</screen>
+	in which the meanings of the parameters are as described in in
+	the standard, and they can take the following values:
+	<itemizedlist>
+	  <listitem><formalpara><title>exclusion</title><para>
+	    0 = false (i.e. the proximity condition specified by the
+	    remaining parameters must be satisfied) or
+	    1 = true (the proximity condition specified by the
+	    remaining parameters must <emphasis>not</emphasis> be
+	    satisifed).
+	  </para></formalpara></listitem>
+	  <listitem><formalpara><title>distance</title><para>
+	    An integer specifying the difference between the locations
+	    of the operands: e.g. two adjacent words would have
+	    distance=1 since their locations differ by one unit.
+	  </para></formalpara></listitem>
+	  <listitem><formalpara><title>ordered</title><para>
+	    1 = ordered (the operands must occur in the order the
+	    query specifies them) or
+	    0 = unordered (they may appear in either order).
+	  </para></formalpara></listitem>
+	  <listitem><formalpara><title>relation</title><para>
+	    Recognised values are
+	    1 (lessThan),
+	    2 (lessThanOrEqual),
+	    3 (equal),
+	    4 (greaterThanOrEqual),
+	    5 (greaterThan) and
+	    6 (notEqual).
+	  </para></formalpara></listitem>
+	  <listitem><formalpara><title>which-code</title><para>
+	    <literal>known</literal>
+	    or
+	    <literal>k</literal>
+	    (the unit-code parameter is taken from the well-known list
+	    of alternatives described in below) or
+	    <literal>private</literal>
+	    or
+	    <literal>p</literal>
+	    (the unit-code paramater has semantics specific to an
+	    out-of-band agreement such as a profile).
+	  </para></formalpara></listitem>
+	  <listitem><formalpara><title>unit-code</title><para>
+	    If the which-code parameter is <literal>known</literal>
+	    then the recognised values are
+	    1 (character),
+	    2 (word),
+	    3 (sentence),
+	    4 (paragraph),
+	    5 (section),
+	    6 (chapter),
+	    7 (document),
+	    8 (element),
+	    9 (subelement),
+	    10 (elementType) and
+	    11 (byte).
+	    If which-code is <literal>private</literal> then the
+	    acceptable values are determined by the profile.
+	  </para></formalpara></listitem>
+	</itemizedlist>
+	(The numeric values of the relation and well-known unit-code
+	parameters are taken straight from
+	<ulink url="http://lcweb.loc.gov/z3950/agency/asn1.html#ProximityOperator"
+	>the ASN.1</ulink> of the proximity structure in the standard.)
+      </para>
+    </sect3>
+
+    <sect3 id="pqf-examples"><title>PQF queries</title>
 
      <para>Queries using simple terms.
       <screen>
@@ -218,7 +322,7 @@
       <screen>
        @attr 1=4 computer
        @attr 1=4 @attr 4=1 "self portrait"
-       @attr exp1 @attr 1=1 CategoryList
+       @attrset exp1 @attr 1=1 CategoryList
        @attr gils 1=2008 Copenhagen
        @attr 1=/book/title computer
       </screen>
@@ -227,8 +331,40 @@
       Proximity.
       <screen>
        @prox 0 3 1 2 k 2 dylan zimmerman
-       </screen>
-      </para>
+      </screen>
+      <note><para>
+      Here the parameters 0, 3, 1, 2, k and 2 represent exclusion,
+      distance, ordered, relation, which-code and unit-code, in that
+      order.  So:
+      <itemizedlist>
+        <listitem><para>
+	  exclusion = 0: the proximity condition must hold
+        </para></listitem>
+        <listitem><para>
+	  distance = 3: the terms must be three units apart
+        </para></listitem>
+        <listitem><para>
+	  ordered = 1: they must occur in the order they are specified
+        </para></listitem>
+        <listitem><para>
+	  relation = 2: lessThanOrEqual (to the distance of 3 units)
+        </para></listitem>
+        <listitem><para>
+	  which-code is ``known'', so the standard unit-codes are used
+        </para></listitem>
+        <listitem><para>
+	  unit-code = 2: word.
+        </para></listitem>
+      </itemizedlist>
+      So the whole proximity query means that the words
+      <literal>dylan</literal> and <literal>zimmerman</literal> must
+      both occur in the record, in that order, differing in position
+      by three or fewer words (i.e. with two or fewer words between
+      them.)  The query would find ``Bob Dylan, aka. Robert
+      Zimmerman'', but not ``Bob Dylan, born as Robert Zimmerman''
+      since the distance in this case is four.
+      </para></note>
+     </para>
      <para>
       Specifying term type.
       <screen>
@@ -243,16 +379,28 @@
        
        @and @attr 2=4 @attr gils 1=2038 -114 @attr 2=2 @attr gils 1=2039 -109
       </screen>
+      <note>
+	<para>
+	  The last of these examples is a spatial search: in
+	  <ulink url="http://www.gils.net/prof_v2.html#sec_7_4"
+	  >the GILS attribute set</ulink>,
+	  access point
+	  2038 indicates West Bounding Coordinate and
+	  2030 indicates East Bounding Coordinate,
+	  so the query is for areas extending from -114 degrees
+	  to no more than -109 degrees.
+	</para>
+      </note>
      </para>
-    </example>
+    </sect3>
    </sect2>
-   <sect2 id="CCL"><title>Common Command Language</title>
+   <sect2 id="CCL"><title>CCL</title>
 
     <para>
      Not all users enjoy typing in prefix query structures and numerical
      attribute values, even in a minimalistic test client. In the library
-     world, the more intuitive Common Command Language (or ISO 8777) has
-     enjoyed some popularity - especially before the widespread
+     world, the more intuitive Common Command Language - CCL (ISO 8777)
+     has enjoyed some popularity - especially before the widespread
      availability of graphical interfaces. It is still useful in
      applications where you for some reason or other need to provide a
      symbolic language for expressing boolean query structures.
@@ -362,73 +510,335 @@
       suggest a few short-hand notations. You can customize the CCL parser
       to support a particular set of qualifiers to reflect the current target
       profile. Traditionally, a qualifier would map to a particular
-      use-attribute within the BIB-1 attribute set. However, you could also
-      define qualifiers that would set, for example, the
-      structure-attribute.
+      use-attribute within the BIB-1 attribute set. It is also
+      possible to set other attributes, such as the structure
+      attribute.
      </para>
 
      <para>
       A  CCL profile is a set of predefined CCL qualifiers that may be
-      read from a file.
+      read from a file or set in the CCL API.
       The YAZ client reads its CCL qualifiers from a file named
-      <filename>default.bib</filename>. Each line in the file has the form:
-     </para>
-
-     <para>
-      <replaceable>qualifier-name</replaceable>  
-      [<replaceable>attributeset</replaceable><literal>,</literal>]<replaceable>type</replaceable><literal>=</literal><replaceable>val</replaceable>
-      [<replaceable>attributeset</replaceable><literal>,</literal>]<replaceable>type</replaceable><literal>=</literal><replaceable>val</replaceable> ...      
-     </para>
-
-     <para>
-      where <replaceable>qualifier-name</replaceable> is the name of the
-      qualifier to be used (eg. <literal>ti</literal>),
-      <replaceable>type</replaceable> is attribute type in the attribute
-      set (Bib-1 is used if no attribute set is given) and
-      <replaceable>val</replaceable> is attribute value.
-      The <replaceable>type</replaceable> can be specified as an
-      integer or as it be specified either as a single-letter:
-      <literal>u</literal> for use, 
-      <literal>r</literal> for relation,<literal>p</literal> for position,
-      <literal>s</literal> for structure,<literal>t</literal> for truncation
-      or <literal>c</literal> for completeness.
-      The attributes for the special qualifier name <literal>term</literal>
-      are used when no CCL qualifier is given in a query.
+      <filename>default.bib</filename>. There are four types of
+      lines in a CCL profile: qualifier specification,
+      qualifier alias, comments and directives.
      </para>
-
-     <example><title>CCL profile</title>
+     <sect4><title id="qualifier-specification">Qualifier specification</title>
       <para>
-       Consider the following definition:
+       A qualifier specification is of the form:
       </para>
       
-      <screen>
-       ti       u=4 s=1
-       au       u=1 s=1
-       term     s=105
-       ranked   r=102
-      </screen>
       <para>
-       Three qualifiers are defined, <literal>ti</literal>, 
-       <literal>au</literal> and <literal>ranked</literal>.
-       <literal>ti</literal> and <literal>au</literal> both set 
-       structure attribute to phrase (s=1).
-       <literal>ti</literal>
-       sets the use-attribute to 4. <literal>au</literal> sets the
-       use-attribute to 1.
-       When no qualifiers are used in the query the structure-attribute is
-       set to free-form-text (105).
+       <replaceable>qualifier-name</replaceable>  
+       [<replaceable>attributeset</replaceable><literal>,</literal>]<replaceable>type</replaceable><literal>=</literal><replaceable>val</replaceable>
+       [<replaceable>attributeset</replaceable><literal>,</literal>]<replaceable>type</replaceable><literal>=</literal><replaceable>val</replaceable> ...      
+      </para>
+      
+      <para>
+       where <replaceable>qualifier-name</replaceable> is the name of the
+       qualifier to be used (eg. <literal>ti</literal>),
+       <replaceable>type</replaceable> is attribute type in the attribute
+       set (Bib-1 is used if no attribute set is given) and
+       <replaceable>val</replaceable> is attribute value.
+       The <replaceable>type</replaceable> can be specified as an
+       integer or as it be specified either as a single-letter:
+       <literal>u</literal> for use, 
+       <literal>r</literal> for relation,<literal>p</literal> for position,
+       <literal>s</literal> for structure,<literal>t</literal> for truncation
+       or <literal>c</literal> for completeness.
+       The attributes for the special qualifier name <literal>term</literal>
+       are used when no CCL qualifier is given in a query.
+       <table><title>Common Bib-1 attributes</title>
+	<tgroup cols="2">
+	 <colspec colwidth="2*" colname="type"></colspec>
+	 <colspec colwidth="9*" colname="description"></colspec>
+	 <thead>
+	  <row>
+	   <entry>Type</entry>
+	   <entry>Description</entry>
+	  </row>
+	 </thead>
+	 <tbody>
+	  <row>
+	   <entry><literal>u=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Use attribute. Common use attributes are
+	    1 Personal-name, 4 Title, 7 ISBN, 8 ISSN, 30 Date,
+	    62 Subject, 1003 Author), 1016 Any. Specify value
+	    as an integer.
+	   </entry>
+	  </row>
+
+	  <row>
+	   <entry><literal>r=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Relation attribute. Common values are
+	    1 &lt;, 2 &lt;=, 3 =, 4 &gt;=, 5 &gt;, 6 &lt;&gt;,
+	    100 phonetic, 101 stem, 102 relevance, 103 always matches.
+	   </entry>
+	  </row>
+
+	  <row>
+	   <entry><literal>p=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Position attribute. Values: 1 first in field, 2
+	    first in any subfield, 3 any position in field.
+	   </entry>
+	  </row>
+
+	  <row>
+	   <entry><literal>s=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Structure attribute. Values: 1 phrase, 2 word,
+	    3 key, 4 year, 5 date, 6 word list, 100 date (un),
+	    101 name (norm), 102 name (un), 103 structure, 104 urx,
+	    105 free-form-text, 106 document-text, 107 local-number,
+	    108 string, 109 numeric string.
+	   </entry>
+	  </row>
+
+	  <row>
+	   <entry><literal>t=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Truncation attribute. Values: 1 right, 2 left,
+	    3 left&amp; right, 100 none, 101 process #, 102 regular-1,
+	    103 regular-2, 104 CCL.
+	   </entry>
+	  </row>
+
+	  <row>
+	   <entry><literal>c=</literal><replaceable>value</replaceable></entry>
+	   <entry>
+	    Completeness attribute. Values: 1 incomplete subfield,
+	    2 complete subfield, 3 complete field.
+	   </entry>
+	  </row>
+
+	 </tbody>
+	 </tgroup>
+	</table>
+      </para>
+      <para>
+       The complete list of Bib-1 attributes can be found 
+       <ulink url="http://lcweb.loc.gov/z3950/agency/defns/bib1.html">
+	here
+       </ulink>.
       </para>
       <para>
-       You can combine attributes. To Search for "ranked title" you
-       can do 
+       It is also possible to specify non-numeric attribute values, 
+       which are used in combination with certain types.
+       The special combinations are:
+       
+       <table><title>Special attribute combos</title>
+	<tgroup cols="2">
+	 <colspec colwidth="2*" colname="name"></colspec>
+	 <colspec colwidth="9*" colname="description"></colspec>
+	 <thead>
+	  <row>
+	   <entry>Name</entry>
+	   <entry>Description</entry>
+	  </row>
+	 </thead>
+	 <tbody>
+	  <row>
+	   <entry><literal>s=pw</literal></entry><entry>
+	    The structure is set to either word or phrase depending
+	    on the number of tokens in a term (phrase-word).
+	   </entry>
+	  </row>
+	  <row>
+	   <entry><literal>s=al</literal></entry><entry>
+	    Each token in the term is ANDed. (and-list).
+	    This does not set the structure at all.
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>s=ol</literal></entry><entry>
+	    Each token in the term is ORed. (or-list).
+	    This does not set the structure at all.
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>r=o</literal></entry><entry>
+	    Allows operators greather-than, less-than, ... equals and
+	    sets relation attribute accordingly (relation ordered).
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>t=l</literal></entry><entry>
+	    Allows term to be left-truncated.
+	    If term is of the form <literal>?x</literal>, the resulting
+	    Type-1 term is <literal>x</literal> and truncation is left.
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>t=r</literal></entry><entry>
+	    Allows term to be right-truncated.
+	    If term is of the form <literal>x?</literal>, the resulting
+	    Type-1 term is <literal>x</literal> and truncation is right.
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>t=n</literal></entry><entry>
+	    If term is does not include <literal>?</literal>, the
+	    truncation attribute is set to none (100).
+	   </entry>
+	  </row>
+	  
+	  <row><entry><literal>t=b</literal></entry><entry>
+	    Allows term to be both left&amp;right truncated.
+	    If term is of the form <literal>?x?</literal>, the
+	    resulting term is <literal>x</literal> and trunctation is
+	    set to both left&amp;right.
+	   </entry>
+	  </row>
+	 </tbody>
+	</tgroup>
+       </table>
+      </para>
+      <example><title>CCL profile</title>
+       <para>
+	Consider the following definition:
+       </para>
+       
        <screen>
-        ti,ranked=knuth computer
-       </screen>
-       which will use "relation is ranked", "use is title", "structure is
-       phrase".
+	ti       u=4 s=1
+	au       u=1 s=1
+	term     s=105
+	ranked   r=102
+	date     u=30 r=o
+      </screen>
+       <para>
+	Four qualifiers are defined - <literal>ti</literal>, 
+	<literal>au</literal>, <literal>ranked</literal> and
+	<literal>date</literal>.
+       </para>
+       <para>
+	<literal>ti</literal> and <literal>au</literal> both set 
+	structure attribute to phrase (s=1).
+	<literal>ti</literal>
+	sets the use-attribute to 4. <literal>au</literal> sets the
+	use-attribute to 1.
+	When no qualifiers are used in the query the structure-attribute is
+	set to free-form-text (105) (rule for <literal>term</literal>).
+	The <literal>date</literal> sets the relation attribute to
+	the relation used in the CCL query and sets the use attribute
+	to 30 (Bib-1 Date).
+       </para>
+       <para>
+	You can combine attributes. To Search for "ranked title" you
+	can do 
+	<screen>
+	 ti,ranked=knuth computer
+	</screen>
+	which will set relation=ranked, use=title, structure=phrase.
+       </para>
+       <para>
+	Query
+	<screen>
+	 year > 1980
+	</screen>
+	is a valid query, while
+	<screen>
+	 ti > 1980
+	</screen>
+	is invalid.
+       </para>
+      </example>
+     </sect4>
+     <sect4><title>Qualifier alias</title>
+      <para>
+       A qualifier alias is of the form:
       </para>
-     </example>
-     
+      <para>
+       <replaceable>q</replaceable>  
+       <replaceable>q1</replaceable> <replaceable>q2</replaceable> ..
+      </para>
+      <para>
+       which declares <replaceable>q</replaceable> to
+       be an alias for <replaceable>q1</replaceable>, 
+       <replaceable>q2</replaceable>... such that the CCL
+       query <replaceable>q=x</replaceable> is equivalent to
+       <replaceable>q1=x or w2=x or ...</replaceable>.
+      </para>
+     </sect4>
+
+     <sect4><title>Comments</title>
+      <para>
+       Lines with white space or lines that begin with
+       character <literal>#</literal> are treated as comments.
+      </para>
+     </sect4>
+
+     <sect4><title>Directives</title>
+      <para>
+       Directive specifications takes the form
+      </para>
+      <para><literal>@</literal><replaceable>directive</replaceable> <replaceable>value</replaceable>
+      </para>
+      <table><title>CCL directives</title>
+       <tgroup cols="3">
+	<colspec colwidth="2*" colname="name"></colspec>
+	<colspec colwidth="8*" colname="description"></colspec>
+	<colspec colwidth="1*" colname="default"></colspec>
+	<thead>
+	 <row>
+	  <entry>Name</entry>
+	  <entry>Description</entry>
+	  <entry>Default</entry>
+	 </row>
+	</thead>
+	<tbody>
+	 <row>
+	  <entry>truncation</entry>
+	  <entry>Truncation character</entry>
+	  <entry><literal>?</literal></entry>
+	 </row>
+	 <row>
+	  <entry>field</entry>
+	  <entry>Specifies how multiple fields are to be
+	   combined. There are two modes: <literal>or</literal>:
+	   multiple qualifier fields are ORed,
+	   <literal>merge</literal>: attributes for the qualifier
+	   fields are merged and assigned to one term.
+	   </entry>
+	  <entry><literal>merge</literal></entry>
+	 </row>
+	 <row>
+	  <entry>case</entry>
+	  <entry>Specificies if CCL operatores and qualifiers should be
+	   compared with case sensitivity or not. Specify 0 for
+	   case sensitive; 1 for case insensitive.</entry>
+	  <entry><literal>0</literal></entry>
+	 </row>
+
+	 <row>
+	  <entry>and</entry>
+	  <entry>Specifies token for CCL operator AND.</entry>
+	  <entry><literal>and</literal></entry>
+	 </row>
+
+	 <row>
+	  <entry>or</entry>
+	  <entry>Specifies token for CCL operator OR.</entry>
+	  <entry><literal>or</literal></entry>
+	 </row>
+
+	 <row>
+	  <entry>not</entry>
+	  <entry>Specifies token for CCL operator NOT.</entry>
+	  <entry><literal>not</literal></entry>
+	 </row>
+
+	 <row>
+	  <entry>set</entry>
+	  <entry>Specifies token for CCL operator SET.</entry>
+	  <entry><literal>set</literal></entry>
+	 </row>
+	</tbody>
+	</tgroup>
+      </table>
+     </sect4>
     </sect3>
     <sect3><title>CCL API</title>
      <para>
@@ -570,7 +980,7 @@ int cql_parser_string(CQL_parser cp, const char *str);
       A CQL query is parsed by the <function>cql_parser_string</function>
       which takes a query <parameter>str</parameter>.
       If the query was valid (no syntax errors), then zero is returned;
-      otherwise a non-zero error code is returned.
+      otherwise -1 is returned to indicate a syntax error.
      </para>
      <para>
       <synopsis>
@@ -594,7 +1004,7 @@ int cql_parser_stdio(CQL_parser cp, FILE *f);
     
     <sect3 id="tools.cql.tree"><title>CQL tree</title>
      <para>
-      The the query string is validl, the CQL parser
+      The the query string is valid, the CQL parser
       generates a tree representing the structure of the
       CQL query.
      </para>
@@ -771,8 +1181,30 @@ int cql_transform_buf(cql_transform_t ct,
      </para>
      <para>
       If conversion failed, <function>cql_transform_buf</function>
-      returns a non-zero error code; otherwise zero is returned
-      (conversion successful).
+      returns a non-zero SRW error code; otherwise zero is returned
+      (conversion successful).  The meanings of the numeric error
+      codes are listed in the SRW specifications at
+      <ulink url="http://www.loc.gov/srw/diagnostic-list.html"/>
+     </para>
+     <para>
+      If conversion fails, more information can be obtained by calling
+      <synopsis>
+int cql_transform_error(cql_transform_t ct, char **addinfop);
+      </synopsis>
+      This function returns the most recently returned numeric
+      error-code and sets the string-pointer at
+      <literal>*addinfop</literal> to point to a string containing
+      additional information about the error that occurred: for
+      example, if the error code is 15 (``Illegal or unsupported index
+      set''), the additional information is the name of the requested
+      index set that was not recognised.
+     </para>
+     <para>
+      The SRW error-codes may be translated into brief human-readable
+      error messages using
+      <synopsis>
+const char *cql_strerror(int code);
+      </synopsis>
      </para>
      <para>
       If you wish to be able to produce a PQF result in a different
@@ -1071,15 +1503,13 @@ typedef struct oident
 
    <screen>
     PROTO_Z3950
-    PROTO_SR
+    PROTO_GENERAL
    </screen>
 
    <para>
-    If you don't care about talking to SR-based implementations (few
-    exist, and they may become fewer still if and when the ISO SR and ANSI
-    Z39.50 documents are merged into a single standard), you can ignore
-    this field on incoming packages, and always set it to PROTO_Z3950
-    for outgoing packages.
+    Use <literal>PROTO_Z3950</literal> for Z39.50 Object Identifers,
+    <literal>PROTO_GENERAL</literal> for other types (such as
+    those associated with ILL).
    </para>
    <para>
 
@@ -1166,6 +1596,10 @@ typedef struct oident
 
    <para>
     again, corresponding to the specific OIDs defined by the standard.
+    Refer to the
+    <ulink url="http://lcweb.loc.gov/z3950/agency/defns/oids.html">
+     Registry of Z39.50 Object Identifiers</ulink> for the
+     whole list.
    </para>
 
    <para>
@@ -1230,6 +1664,49 @@ typedef struct oident
    </para>
 
    <para>
+    Three utility functions are provided for translating OIDs'
+    symbolic names (e.g. <literal>Usmarc</literal> into OID structures
+    (int arrays) and strings containing the OID in dotted notation
+    (e.g. <literal>1.2.840.10003.9.5.1</literal>).  They are:
+   </para>
+
+   <screen>
+    int *oid_name_to_oid(oid_class oclass, const char *name, int *oid);
+    char *oid_to_dotstring(const int *oid, char *oidbuf);
+    char *oid_name_to_dotstring(oid_class oclass, const char *name, char *oidbuf);
+   </screen>
+
+   <para>
+    <literal>oid_name_to_oid()</literal>
+     translates the specified symbolic <literal>name</literal>,
+     interpreted as being of class <literal>oclass</literal>.  (The
+     class must be specified as many symbolic names exist within
+     multiple classes - for example, <literal>Zthes</literal> is the
+     symbolic name of an attribute set, a schema and a tag-set.)  The
+     sequence of integers representing the OID is written into the
+     area <literal>oid</literal> provided by the caller; it is the
+     caller's responsibility to ensure that this area is large enough
+     to contain the translated OID.  As a convenience, the address of
+     the buffer (i.e. the value of <literal>oid</literal>) is
+     returned.
+   </para>
+   <para>
+    <literal>oid_to_dotstring()</literal>
+    Translates the int-array <literal>oid</literal> into a dotted
+    string which is written into the area <literal>oidbuf</literal>
+    supplied by the caller; it is the caller's responsibility to
+    ensure that this area is large enough.  The address of the buffer
+    is returned.
+   </para>
+   <para>
+    <literal>oid_name_to_dotstring()</literal>
+    combines the previous two functions to derive a dotted string
+    representing the OID specified by <literal>oclass</literal> and
+    <literal>name</literal>, writing it into the buffer passed as
+    <literal>oidbuf</literal> and returning its address.
+   </para>
+
+   <para>
     Finally, the module provides the following utility functions, whose
     meaning should be obvious:
    </para>