<option>-XPostfixOperators</option>,
<option>-XPatternGuards</option>,
<option>-XLiberalTypeSynonyms</option>,
+ <option>-XExplicitForAll</option>,
<option>-XRankNTypes</option>,
<option>-XImpredicativeTypes</option>,
<option>-XTypeOperators</option>,
<indexterm><primary><literal>forall</literal></primary></indexterm>
</term>
<listitem><para>
- Stolen (in types) by: <option>-XScopedTypeVariables</option>,
+ Stolen (in types) by: <option>-XExplicitForAll</option>, and hence by
+ <option>-XScopedTypeVariables</option>,
<option>-XLiberalTypeSynonyms</option>,
<option>-XRank2Types</option>,
<option>-XRankNTypes</option>,
<sect3><title>Rules for functional dependencies </title>
<para>
In a class declaration, all of the class type variables must be reachable (in the sense
-mentioned in <xref linkend="type-restrictions"/>)
+mentioned in <xref linkend="flexible-contexts"/>)
from the free variables of each method type.
For example:
<sect1 id="other-type-extensions">
<title>Other type system extensions</title>
-<sect2 id="type-restrictions">
-<title>Type signatures</title>
+<sect2 id="explicit-foralls"><title>Explicit universal quantification (forall)</title>
+<para>
+Haskell type signatures are implicitly quantified. When the language option <option>-XExplicitForAll</option>
+is used, the keyword <literal>forall</literal>
+allows us to say exactly what this means. For example:
+</para>
+<para>
+<programlisting>
+ g :: b -> b
+</programlisting>
+means this:
+<programlisting>
+ g :: forall b. (b -> b)
+</programlisting>
+The two are treated identically.
+</para>
+<para>
+Of course <literal>forall</literal> becomes a keyword; you can't use <literal>forall</literal> as
+a type variable any more!
+</para>
+</sect2>
+
-<sect3 id="flexible-contexts"><title>The context of a type signature</title>
+<sect2 id="flexible-contexts"><title>The context of a type signature</title>
<para>
The <option>-XFlexibleContexts</option> flag lifts the Haskell 98 restriction
that the type-class constraints in a type signature must have the
language omits them; in Haskell 98, all the free type variables of an
explicit source-language type signature are universally quantified,
except for the class type variables in a class declaration. However,
-in GHC, you can give the foralls if you want. See <xref linkend="universal-quantification"/>).
+in GHC, you can give the foralls if you want. See <xref linkend="explicit-foralls"/>).
</para>
<para>
</orderedlist>
</para>
-</sect3>
-
-
</sect2>
</title>
<para>
-Haskell type signatures are implicitly quantified. The new keyword <literal>forall</literal>
-allows us to say exactly what this means. For example:
-</para>
-<para>
-<programlisting>
- g :: b -> b
-</programlisting>
-means this:
-<programlisting>
- g :: forall b. (b -> b)
-</programlisting>
-The two are treated identically.
-</para>
-
-<para>
-However, GHC's type system supports <emphasis>arbitrary-rank</emphasis>
+GHC's type system supports <emphasis>arbitrary-rank</emphasis>
explicit universal quantification in
types.
For example, all the following types are legal:
</itemizedlist>
</para></listitem>
</itemizedlist>
-Of course <literal>forall</literal> becomes a keyword; you can't use <literal>forall</literal> as
-a type variable any more!
</para>
</para>
</sect2>
+<sect2 id="mono-local-binds">
+<title>Monomorphic local bindings</title>
+<para>
+We are actively thinking of simplifying GHC's type system, by <emphasis>not generalising local bindings</emphasis>.
+The rationale is described in the paper
+<ulink url="http://research.microsoft.com/~simonpj/papers/constraints/index.htm">Let should not be generalised</ulink>.
+</para>
+<para>
+The experimental new behaviour is enabled by the flag <option>-XMonoLocalBinds</option>. The effect is
+that local (that is, non-top-level) bindings without a type signature are not generalised at all. You can
+think of it as an extreme (but much more predictable) version of the Monomorphism Restriction.
+If you supply a type signature, then the flag has no effect.
+</para>
+</sect2>
+
</sect1>
<!-- ==================== End of type system extensions ================= -->