-The \gls{MTASK} system is a heterogeneous \gls{EDSL} and during the development of it, several novel basal techniques for embedding \glspl{DSL} in \gls{FP} languages have been found.
-This episode is a paper based episodes on these techniques.
-
-\Cref{chp:classy_deep_embedding} is based on the paper \emph{Deep Embedding with Class} \citep{lubbers_deep_2022}.
-While supervising \citeauthor{amazonas_cabral_de_andrade_developing_2018}'s \citeyear{amazonas_cabral_de_andrade_developing_2018} Master's thesis, focussing on an early version of \gls{MTASK}, a seed was planted for a novel deep embedding technique for \glspl{DSL} where the resulting language is extendible both in constructs and in interpretation using type classes and existential data types.
-Slowly the ideas organically grew to form the technique shown in the paper.
-The related work section is updated with the research found only after publication.
-\Cref{sec:classy_reprise} was added after publication and contains a (yet) unpublished extension of the embedding technique for reducing the required boilerplate at the cost of requiring some advanced type system extensions.
-
-\Cref{chp:first-class_datatypes} is based on the paper \emph{First-Class Data Types in Shallow Embedded Domain-Specific Languages} \citep{lubbers_first-class_2022}.
-It shows how to inherit data types from the host language in \glspl{EDSL} using metaprogramming by providing a proof-of-concept implementation using \gls{HASKELL}'s metaprogramming system: \glsxtrlong{TH}.
-Besides showing the result, the paper also serves as a gentle introduction to using \glsxtrlong{TH} and contains a thorough literature study on research that uses \glsxtrlong{TH}.
-%The research in this paper and writing the paper was performed by me, though there were weekly meetings with Pieter Koopman and Rinus Plasmeijer in which we discussed and refined the ideas.
-
-\subsection{\nameref{prt:top}}
-This is a monograph compiled from the following papers and revised lecture notes on \gls{MTASK}.
-It provides a gentle introduction to all aspects of the \gls{MTASK} system and \gls{TOP} for the \gls{IOT}.
-
-\begin{itemize}
- \item \emph{A Task-Based \glsxtrshort{DSL} for Microcomputers} \citep{koopman_task-based_2018}.
- This is the initial \gls{TOP}\slash{}\gls{MTASK} paper.
- It provides an overview of the initial \gls{TOP} \gls{MTASK} language and shows first versions of some of the interpretations.
- \item \emph{Task Oriented Programming for the \glsxtrlong{IOT}} \citep{lubbers_task_2018}.
-
- This paper was an extension of my Master's thesis \citep{lubbers_task_2017}.
- It shows how a simple imperative variant of \gls{MTASK} was integrated with \gls{ITASK}.
- While the language was a lot different from later versions, the integration mechanism is still used in \gls{MTASK} today.
-% \paragraph{Contribution}
-% The research in this paper and writing the paper was performed by me, though there were weekly meetings with Pieter Koopman and Rinus Plasmeijer in which we discussed and refined the ideas.
- \item \emph{Multitasking on Microcontrollers using Task Oriented Programming} \citep{lubbers_multitasking_2019}\footnote{%
- This work acknowledges the support of the ERASMUS+ project ``Focusing Education on Composability, Comprehensibility and Correctness of Working Software'', no. 2017--1--SK01--KA203--035402
- }.
-
- This paper is a short paper on the multitasking capabilities of \gls{MTASK} comparing it to traditional multitasking methods for \gls{ARDUINO}.
-% \paragraph{Contribution}
-% The research in this paper and writing the paper was performed by me, though there were weekly meetings with Pieter Koopman and Rinus Plasmeijer.
- \item \emph{Simulation of a Task-Based Embedded Domain Specific Language for the Internet of Things} \citep{koopman_simulation_2018}\footnotemark[\value{footnote}].
-
- These revised lecture notes are from a course on the \gls{MTASK} simulator was provided at the 2018 \gls{CEFP}\slash{}\gls{3COWS} winter school in Ko\v{s}ice, Slovakia.
-% \paragraph{Contribution}
-% Pieter Koopman wrote and taught it, I helped with the software and research.
- \item \emph{Writing Internet of Things Applications with Task Oriented Programming} \citep{lubbers_writing_2019}\footnotemark[\value{footnote}].
-
- These revised lecture notes are from a course on programming in \gls{IOT} systems using \gls{MTASK} provided at the 2019 \gls{CEFP}\slash{}\gls{3COWS} summer school in Budapest, Hungary.
-% \paragraph{Contribution}
-% Pieter Koopman prepared and taught half of the lecture and supervised the practical session.
-% I taught the other half of the lecture, wrote the lecture notes, made the assignments and supervised the practical session.
- \item \emph{Interpreting Task Oriented Programs on Tiny Computers} \citep{lubbers_interpreting_2019}.
-
- This paper shows an implementation for \gls{MTASK} for microcontrollers.
-% \paragraph{Contribution}
-% The research in this paper and writing the paper was performed by me, though there were weekly meetings with Pieter Koopman and Rinus Plasmeijer.
- \item \emph{Reducing the Power Consumption of IoT with Task-Oriented Programming} \citep{crooijmans_reducing_2022}.
-
- This paper shows how to create a scheduler so that devices running \gls{MTASK} tasks can go to sleep more automatically and how interrupts are incorporated in the language.
-% \paragraph{Contribution}
-% The research was carried out by \citet{crooijmans_reducing_2021} during his Master's thesis.
-% I did the daily supervision and helped with the research, Pieter Koopman was the formal supervisor and wrote most of the paper.
- \item \emph{Green Computing for the Internet of Things} \citep{lubbers_green_2022}\footnote{
- This work acknowledges the support of the Erasmus+ project ``SusTrainable---Promoting Sustainability as a Fundamental Driver in Software Development Training and Education'', no. 2020--1--PT01--KA203--078646}.
-
- These revised lecture notes are from a course on sustainable \gls{IOT} programming with \gls{MTASK} provided at the 2022 SusTrainable summer school in Rijeka, Croatia.
-
-% \paragraph{Contribution}
-% These revised lecture notes are from a course on sustainable programming using \gls{MTASK} provided at the 2022 SusTrainable summer school in Rijeka, Croatia.
-% Pieter prepared and taught a quarter of the lecture and supervised the practical session.
-% I prepared and taught the other three quarters of the lecture, made the assignments and supervised the practical session
-\end{itemize}
+The \gls{MTASK} system is an \gls{EDSL} and during the development of it, several novel basal techniques for embedding \glspl{DSL} in \gls{FP} languages were found.
+This paper-based episode is based on the following papers:
+\begin{enumerate}
+ \item \emph{Deep Embedding with Class} \citep*{lubbers_deep_2022} is the basis for \cref{chp:classy_deep_embedding}.
+ It shows a novel deep embedding technique for \glspl{DSL} where the resulting language is extendible both in constructs and in interpretation just using type classes and existential data types.
+ The related work section is updated with the research found after publication.
+ \Cref{sec:classy_reprise} was added after publication and contains a (yet) unpublished extension of the embedding technique for reducing the required boilerplate at the cost of requiring some advanced type system extensions.
+ The paper was published at the \tfp{} 2022 in Krakow, Poland (moved to online).
+ \item \emph{First-\kern-1ptClass Data Types in Shallow Embedded Domain-Specific Languages} \citep*{lubbers_first-class_2022}\label{enum:first-class} is the basis for \cref{chp:first-class_datatypes}.
+ It shows how to inherit data types from the host language in \glspl{EDSL} using metaprogramming by providing a proof-of-concept implementation using \gls{HASKELL}'s metaprogramming system: \glsxtrlong{TH}.
+ The chapter also serves as a gentle introduction to, and contains a thorough literature study on \glsxtrlong{TH}.
+ The paper was published at the \ifl{} 2022 in Copenhagen, Denmark.
+\end{enumerate}