transformations will probably need updating to handle them in all
cases.
+ \subsection{Normalization of stateful descriptions}
+ Currently, the intended normal form definition\refdef{intended
+ normal form definition} offers enough freedom to describe all
+ valid stateful descriptions, but is not limiting enough. It is
+ possible to write descriptions which are in intended normal
+ form, but cannot be translated into \VHDL in a meaningful way
+ (\eg, a function that swaps two substates in its result, or a
+ function that changes a substate itself instead of passing it to
+ a subfunction).
+
+ It is now up to the programmer to not do anything funny with
+ these state values, whereas the normalization just tries not to
+ mess up the flow of state values. In practice, there are
+ situations where a Core program that \emph{could} be a valid
+ stateful description is not translateable by the prototype. This
+ most often happens when statefulness is mixed with pattern
+ matching, causing a state input to be unpacked multiple times or
+ be unpacked and repacked only in some of the code paths.
+
+ \todo{example?}
+
+ Without going into detail about the exact problems (of which
+ there are probably more than have shown up so far), it seems
+ unlikely that these problems can be solved entirely by just
+ improving the \VHDL state generation in the final stage. The
+ normalization stage seems the best place to apply the rewriting
+ needed to support more complex stateful descriptions. This does
+ of course mean that the intended normal form definition must be
+ extended as well to be more specific about how state handling
+ should look like in normal form.
+
\section[sec:normalization:properties]{Provable properties}
When looking at the system of transformations outlined above, there are a
number of questions that we can ask ourselves. The main question is of course:
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