<entry>LEFTWARDS ARROW</entry>
</row>
</tbody>
- <tbody>
- <row>
- <entry>..</entry>
- <entry>…</entry>
- <entry>0x22EF</entry>
- <entry>MIDLINE HORIZONTAL ELLIPSIS</entry>
- </row>
- </tbody>
<tbody>
<row>
<!-- ===================== Recursive do-notation =================== -->
-<sect2 id="mdo-notation">
+<sect2 id="recursive-do-notation">
<title>The recursive do-notation
</title>
As you can guess <literal>justOnes</literal> will evaluate to <literal>Just [-1,-1,-1,...</literal>.
</para>
<para>
-The background and motivation for recusrive do-notation is described in
+The background and motivation for recursive do-notation is described in
<ulink url="http://sites.google.com/site/leventerkok/">A recursive do for Haskell</ulink>,
by Levent Erkok, John Launchbury,
Haskell Workshop 2002, pages: 29-37. Pittsburgh, Pennsylvania.
</para>
</sect3>
-<sect3> <title> Mdo-notation (deprecated) </title>
+<sect3 id="mdo-notation"> <title> Mdo-notation (deprecated) </title>
<para> GHC used to support the flag <option>-XRecursiveDo</option>,
which enabled the keyword <literal>mdo</literal>, precisely as described in
For example, in a <literal>let</literal>, it applies in the right-hand
sides of other <literal>let</literal>-bindings and the body of the
<literal>let</literal>C. Or, in recursive <literal>do</literal>
-expressions (<xref linkend="mdo-notation"/>), the local fixity
+expressions (<xref linkend="recursive-do-notation"/>), the local fixity
declarations of a <literal>let</literal> statement scope over other
statements in the group, just as the bound name does.
</para>