<varlistentry>
<term>
+ <option>-fno-mono-pat-binds</option>:
+ <indexterm><primary><option>-fno-mono-pat-binds</option></primary></indexterm>
+ <indexterm><primary><option>-fmono-pat-binds</option></primary></indexterm>
+ </term>
+ <listitem>
+ <para> As an experimental change, we are exploring the possibility of
+ making pattern bindings monomorphic; that is, not generalised at all.
+ A pattern binding is a binding whose LHS has no function arguments,
+ and is not a simple variable. For example:
+<programlisting>
+ f x = x -- Not a pattern binding
+ f = \x -> x -- Not a pattern binding
+ f :: Int -> Int = \x -> x -- Not a pattern binding
+
+ (g,h) = e -- A pattern binding
+ (f) = e -- A pattern binding
+ [x] = e -- A pattern binding
+</programlisting>
+Experimentally, GHC now makes pattern bindings monomorphic <emphasis>by
+default</emphasis>. Use <option>-fno-mono-pat-binds</option> to recover the
+standard behaviour.
+ </para>
+ </listitem>
+ </varlistentry>
+
+ <varlistentry>
+ <term>
+ <option>-fextended-default-rules</option>:
+ <indexterm><primary><option>-fextended-default-rules</option></primary></indexterm>
+ </term>
+ <listitem>
+ <para> Use GHCi's extended default rules in a regular module (<xref linkend="extended-default-rules"/>).
+ Independent of the <option>-fglasgow-exts</option>
+ flag. </para>
+ </listitem>
+ </varlistentry>
+
+ <varlistentry>
+ <term>
<option>-fallow-overlapping-instances</option>
<indexterm><primary><option>-fallow-overlapping-instances</option></primary></indexterm>
</term>
<indexterm><primary><option>-fallow-incoherent-instances</option></primary></indexterm>
</term>
<term>
- <option>-fcontext-stack</option>
+ <option>-fcontext-stack=N</option>
<indexterm><primary><option>-fcontext-stack</option></primary></indexterm>
</term>
<listitem>
Nothing -> fail
Just val2 -> val1 + val2
where
- fail = val1 + val2
+ fail = var1 + var2
</programlisting>
<para>
types in both an instance context and instance head. Termination is ensured by having a
fixed-depth recursion stack. If you exceed the stack depth you get a
sort of backtrace, and the opportunity to increase the stack depth
-with <option>-fcontext-stack</option><emphasis>N</emphasis>.
+with <option>-fcontext-stack=</option><emphasis>N</emphasis>.
</para>
</sect3>
</primary></indexterm>
and <option>-fallow-incoherent-instances</option>
<indexterm><primary>-fallow-incoherent-instances
-</primary></indexterm>, as this section discusses.</para>
+</primary></indexterm>, as this section discusses. Both these
+flags are dynamic flags, and can be set on a per-module basis, using
+an <literal>OPTIONS_GHC</literal> pragma if desired (<xref linkend="source-file-options"/>).</para>
<para>
When GHC tries to resolve, say, the constraint <literal>C Int Bool</literal>,
it tries to match every instance declaration against the
(in a pragma). GHC applies these rewrite rules wherever it can, provided (a)
the <option>-O</option> flag (<xref linkend="options-optimise"/>) is on,
and (b) the <option>-frules-off</option> flag
-(<xref linkend="options-f"/>) is not specified.
+(<xref linkend="options-f"/>) is not specified, and (c) the
+<option>-fglasgow-exts</option> (<xref linkend="options-language"/>)
+flag is active.
</para>
<para>
</para>
</sect2>
-<sect2> <title>The <literal>inline</literal> function </title>
+<sect2> <title>The <literal>lazy</literal> function </title>
<para>
The <literal>lazy</literal> function restrains strictness analysis a little:
<programlisting>
purpose of <literal>par</literal>.
</para>
</sect2>
+
+<sect2> <title>The <literal>unsafeCoerce#</literal> function </title>
+<para>
+The function <literal>unsafeCoerce#</literal> allows you to side-step the
+typechecker entirely. It has type
+<programlisting>
+ unsafeCoerce# :: a -> b
+</programlisting>
+That is, it allows you to coerce any type into any other type. If you use this
+function, you had better get it right, otherwise segmentation faults await.
+It is generally used when you want to write a program that you know is
+well-typed, but where Haskell's type system is not expressive enough to prove
+that it is well typed.
+</para>
+</sect2>
</sect1>