-\subsection{\texorpdfstring{\Gls{MTASK}}{MTask}}
-The behaviour of \gls{IOT} edge devices can often be succinctly described by \gls{TOP} programs.
-Software on microcontrollers is usually composed of smaller basic tasks, are interactive, and share data with other components or the server.
-\Gls{ITASK} seems an obvious candidate at first glance for extending \gls{TOP} to \gls{IOT} edge device.
-An \gls{ITASK} application contains many features that are not needed on \emph{edge devices} such as first-order tasks, support for a distributed architecture, or a multi-user web server.
-Furthermore, \gls{IOT} edge devices are in general not powerful enough to run or interpret \gls{CLEAN}\slash\gls{ABC} code, they just lack the processor speed and the memory.
-To bridge this gap, \gls{MTASK} was developed, a domain-specific \gls{TOP} system for \gls{IOT} edge devices that is integrated in \gls{ITASK} \citep{koopman_task-based_2018}.
-\Gls{ITASK} abstracts away from details such as user interfaces, data storage, client-side platforms, and persistent workflows.
-On the other hand, \gls{MTASK} offers abstractions for edge layer-specific details such as the heterogeneity of architectures, platforms, and frameworks; peripheral access; (multi) task scheduling; and lowering energy consumption.
-
-\Gls{MTASK} is seamlessly integrated with \gls{ITASK}: \gls{MTASK} tasks are integrated in such a way that they function as \gls{ITASK} tasks, and \glspl{SDS} on the device can tether an \gls{ITASK} \gls{SDS}.
+From the data type definitions (\cref{lst:todo_dt}), using generic programming (\cref{lst:todo_derive}), the \glspl{UI} for the data types are automatically generated.
+Then, using the parallel task combinator (\cleaninline{-\|\|}) the task for updating the to-dos (\cref{lst:todo_update}) and the task for viewing the length are combined (\cref{lst:todo_length}, shown as \emph{Length: 2} in the bottom of the figure).
+This particular parallel combinator uses the result of the left-hand side task.
+Both tasks operate on the to-do \gls{SDS} (\cref{lst:todo_sds}).
+The task for updating the to-do list is an editor (\cref{lst:todo_editor}) combined using a step combinator (\crefrange{lst:todo_contfro}{lst:todo_contto}).
+The actions either change the value, sorting or clearing it, or terminate the task by returning the current value of the \gls{SDS}, visualised as three buttons on the bottom right of the \gls{UI}.
+Special combinators (e.g.\ \cleaninline{@>>} at \cref{lst:todo_ui}) are used to tweak the \gls{UI} and display informative labels.
+
+\subsection{The mTask system}
+The work for \gls{IOT} edge devices can often be succinctly described by \gls{TOP} programs.
+Software on microcontrollers is usually composed of smaller basic tasks, is interactive, and shares data with other components or the server.
+The \gls{ITASK} system seems an obvious candidate for bringing \gls{TOP} to \gls{IOT} edge devices.
+However, an \gls{ITASK} application contains many features that are not needed on \emph{edge devices} such as higher-order tasks, support for a distributed architecture, a multi-user web server, and facilities to generate \glspl{GUI} for any user-defined type.
+Furthermore, \gls{IOT} edge devices are in general not powerful enough to run or interpret \gls{CLEAN}\slash\gls{ABC} code, they just lack the processor speed and memory.
+To bridge this gap, \gls{MTASK} is developed, a domain-specific \gls{TOP} system for \gls{IOT} edge devices that is integrated in \gls{ITASK} \citep{koopman_task-based_2018}.
+The \gls{ITASK} language abstracts away from details such as user interfaces, data storage, client-side platforms, and persistent workflows.
+On the other hand, \gls{MTASK} offers abstractions for edge layer-specific details such as the heterogeneity of architectures, platforms, and frameworks; peripheral access; task scheduling; and lowering energy consumption.
+
+The \gls{MTASK} system is seamlessly integrated with \gls{ITASK}.
+Tasks in \gls{MTASK} are integrated in such a way that they function as regular \gls{ITASK} tasks.
+Furthermore, \glspl{SDS} on the device can proxy \gls{ITASK} \glspl{SDS}.