+@inproceedings{suchocki_microscheme:_2015,
+ address = {Washington DC, USA},
+ series = {{CS} {Techreport} 718},
+ title = {Microscheme: {Functional} programming for the {Arduino}},
+ booktitle = {Proceedings of the 2014 {Scheme} and {Functional} {Programming} {Workshop}},
+ publisher = {University of Indiana},
+ author = {Suchocki, Ryan and Kalvala, Sara},
+ year = {2015},
+ pages = {9},
+ file = {Suchocki and Kalvala - 2015 - Microscheme Functional programming for the Arduin.pdf:/home/mrl/.local/share/zotero/storage/DDQZ9LP7/Suchocki and Kalvala - 2015 - Microscheme Functional programming for the Arduin.pdf:application/pdf},
+}
+
@mastersthesis{crooijmans_reducing_2021,
address = {Nijmegen},
title = {Reducing the {Power} {Consumption} of {IoT} {Devices} in {Task}-{Oriented} {Programming}},
language = {English},
urldate = {2021-02-24},
publisher = {Release},
- author = {{GHC Team}},
+ author = {GHC Team},
year = {2021},
file = {GHC Team - 2021 - GHC User’s Guide Documentation.pdf:/home/mrl/.local/share/zotero/storage/87ZT5VXL/GHC Team - 2021 - GHC User’s Guide Documentation.pdf:application/pdf},
}
language = {English},
urldate = {2021-02-24},
publisher = {Release},
- author = {{GHC Team}},
+ author = {GHC Team},
year = {2021},
}
file = {Boer, de - 2020 - Secure Communication Channels for the mTask System.pdf:/home/mrl/.local/share/zotero/storage/C46E3FBF/Boer, de - 2020 - Secure Communication Channels for the mTask System.pdf:application/pdf},
}
+@phdthesis{vos_draadloze_2020,
+ address = {Den Helder},
+ type = {Bachelor's {Thesis}},
+ title = {Draadloze prestaties van de {Wemos} {D1} {Mini} {V3}},
+ language = {nl},
+ school = {Netherlandse Defensie Academie},
+ author = {Vos, W.F.T.},
+ year = {2020},
+ file = {Draadloze prestaties van de Wemos D1 Mini V3.pdf:/home/mrl/.local/share/zotero/storage/PMN5F2E7/Draadloze prestaties van de Wemos D1 Mini V3.pdf:application/pdf},
+}
+
@inproceedings{barendregt_towards_1987,
title = {Towards an intermediate language for graph rewriting},
volume = {1},
file = {barh87-Lean.ps.gz:/home/mrl/.local/share/zotero/storage/63FBHND7/barh87-Lean.ps.gz:application/gzip},
}
+@misc{johnson-davies_lisp_2020,
+ title = {Lisp for microcontrollers},
+ url = {https://ulisp.com},
+ urldate = {2020-02-14},
+ journal = {Lisp for microcontrollers},
+ author = {Johnson-Davies, David},
+ year = {2020},
+}
+
@incollection{wang_maintaining_2018,
address = {Cham},
title = {Maintaining {Separation} of {Concerns} {Through} {Task} {Oriented} {Software} {Development}},
file = {Stutterheim et al. - 2018 - Maintaining Separation of Concerns Through Task Or.pdf:/home/mrl/.local/share/zotero/storage/4GXJEM2U/Stutterheim et al. - 2018 - Maintaining Separation of Concerns Through Task Or.pdf:application/pdf},
}
+@inproceedings{steiner_firmata:_2009,
+ title = {Firmata: {Towards} {Making} {Microcontrollers} {Act} {Like} {Extensions} of the {Computer}.},
+ booktitle = {{NIME}},
+ author = {Steiner, Hans-Christoph},
+ year = {2009},
+ pages = {125--130},
+ file = {Steiner - Firmata Towards Making Microcontrollers Act Like .pdf:/home/mrl/.local/share/zotero/storage/YXMY5XHP/Steiner - Firmata Towards Making Microcontrollers Act Like .pdf:application/pdf},
+}
+
+@article{sugihara_programming_2008,
+ title = {Programming models for sensor networks: {A} survey},
+ volume = {4},
+ issn = {15504859},
+ shorttitle = {Programming models for sensor networks},
+ url = {http://portal.acm.org/citation.cfm?doid=1340771.1340774},
+ doi = {10.1145/1340771.1340774},
+ language = {en},
+ number = {2},
+ urldate = {2019-11-01},
+ journal = {ACM Transactions on Sensor Networks},
+ author = {Sugihara, Ryo and Gupta, Rajesh K.},
+ month = mar,
+ year = {2008},
+ pages = {1--29},
+ file = {Sugihara and Gupta - 2008 - Programming models for sensor networks A survey.pdf:/home/mrl/.local/share/zotero/storage/PQWX7QFD/Sugihara and Gupta - 2008 - Programming models for sensor networks A survey.pdf:application/pdf;Sugihara and Gupta - 2008 - Programming models for sensor networks A survey.pdf:/home/mrl/.local/share/zotero/storage/DP7V3EV8/Sugihara and Gupta - 2008 - Programming models for sensor networks A survey.pdf:application/pdf},
+}
+
+@article{dube_bit:_2000,
+ title = {{BIT}: {A} very compact {Scheme} system for embedded applications},
+ journal = {Proceedings of the Fourth Workshop on Scheme and Functional Programming},
+ author = {Dubé, Danny},
+ year = {2000},
+ file = {dube.ps:/home/mrl/.local/share/zotero/storage/RNG6V7HT/dube.ps:application/postscript},
+}
+
+@inproceedings{feeley_picbit:_2003,
+ title = {{PICBIT}: {A} {Scheme} system for the {PIC} microcontroller},
+ booktitle = {Proceedings of the {Fourth} {Workshop} on {Scheme} and {Functional} {Programming}},
+ publisher = {Citeseer},
+ author = {Feeley, Marc and Dubé, Danny},
+ year = {2003},
+ pages = {7--15},
+ file = {Feeley and Dubé - 2003 - PICBIT A Scheme system for the PIC microcontrolle.pdf:/home/mrl/.local/share/zotero/storage/EAEJSKNR/Feeley and Dubé - 2003 - PICBIT A Scheme system for the PIC microcontrolle.pdf:application/pdf},
+}
+
+@inproceedings{st-amour_picobit:_2009,
+ title = {{PICOBIT}: a compact scheme system for microcontrollers},
+ booktitle = {International {Symposium} on {Implementation} and {Application} of {Functional} {Languages}},
+ publisher = {Springer},
+ author = {St-Amour, Vincent and Feeley, Marc},
+ year = {2009},
+ pages = {1--17},
+ file = {St-Amour and Feeley - 2009 - PICOBIT a compact scheme system for microcontroll.pdf:/home/mrl/.local/share/zotero/storage/KXRIEPJZ/St-Amour and Feeley - 2009 - PICOBIT a compact scheme system for microcontroll.pdf:application/pdf},
+}
+
@article{barendsen_uniqueness_1996,
title = {Uniqueness typing for functional languages with graph rewriting semantics},
volume = {6},
file = {Barendsen and Smetsers - 1996 - Uniqueness typing for functional languages with gr.pdf:/home/mrl/.local/share/zotero/storage/BPRC6KJK/Barendsen and Smetsers - 1996 - Uniqueness typing for functional languages with gr.pdf:application/pdf},
}
+@incollection{bolderheij_mission-driven_2018,
+ title = {A {Mission}-{Driven} {C2} {Framework} for {Enabling} {Heterogeneous} {Collaboration}},
+ booktitle = {{NL} {ARMS} {Netherlands} {Annual} {Review} of {Military} {Studies} 2018},
+ publisher = {Springer},
+ author = {Bolderheij, F and Jansen, JM and Kool, AA and Stutterheim, J},
+ year = {2018},
+ pages = {107--130},
+ file = {Bolderheij et al. - 2018 - A Mission-Driven C2 Framework for Enabling Heterog.pdf:/home/mrl/.local/share/zotero/storage/CHDHW2TU/Bolderheij et al. - 2018 - A Mission-Driven C2 Framework for Enabling Heterog.pdf:application/pdf},
+}
+
@inproceedings{lijnse_itasks_2009,
title = {{iTasks} 2: {iTasks} for {End}-users},
booktitle = {International {Symposium} on {Implementation} and {Application} of {Functional} {Languages}},
file = {Lijnse and Plasmeijer - 2009 - iTasks 2 iTasks for End-users.pdf:/home/mrl/.local/share/zotero/storage/KACEWKXY/Lijnse and Plasmeijer - 2009 - iTasks 2 iTasks for End-users.pdf:application/pdf},
}
+@inproceedings{plasmeijer_conference_2006,
+ title = {A conference management system based on the {iData} toolkit},
+ booktitle = {Symposium on {Implementation} and {Application} of {Functional} {Languages}},
+ publisher = {Springer},
+ author = {Plasmeijer, Rinus and Achten, Peter},
+ year = {2006},
+ pages = {108--125},
+ file = {Plasmeijer and Achten - 2006 - A conference management system based on the iData .pdf:/home/mrl/.local/share/zotero/storage/D4ZXJJ22/Plasmeijer and Achten - 2006 - A conference management system based on the iData .pdf:application/pdf},
+}
+
+@inproceedings{jansen_towards_2010,
+ address = {Seattle, USA},
+ title = {Towards dynamic workflows for crisis management},
+ booktitle = {{ISCRAM} 2010 – 7th {International} {Conference} on {Information} {Systems} for {Crisis} {Response} and {Management}: {Defining} {Crisis} {Management} 3.0, {Proceedings}},
+ publisher = {Information Systems for Crisis Response and Management, ISCRAM},
+ author = {Jansen, Jan Martin and Lijnse, Bas and Plasmeijer, Rinus},
+ editor = {French, B. and Tomaszewski, C.},
+ year = {2010},
+ file = {Jansen et al. - 2010 - Towards dynamic workflows for crisis management.pdf:/home/mrl/.local/share/zotero/storage/AQSZJ3TA/Jansen et al. - 2010 - Towards dynamic workflows for crisis management.pdf:application/pdf},
+}
+
+@inproceedings{van_der_heijden_managing_2011,
+ title = {Managing {COPD} exacerbations with telemedicine},
+ booktitle = {Conference on {Artificial} {Intelligence} in {Medicine} in {Europe}},
+ publisher = {Springer},
+ author = {Van Der Heijden, Maarten and Lijnse, Bas and Lucas, Peter JF and Heijdra, Yvonne F and Schermer, Tjard RJ},
+ year = {2011},
+ pages = {169--178},
+ file = {Van Der Heijden et al. - 2011 - Managing COPD exacerbations with telemedicine.pdf:/home/mrl/.local/share/zotero/storage/AS3MPSEF/Van Der Heijden et al. - 2011 - Managing COPD exacerbations with telemedicine.pdf:application/pdf},
+}
+
+@inproceedings{lijnse_incidone:_2012,
+ title = {Incidone: {A} task-oriented incident coordination tool},
+ volume = {12},
+ booktitle = {Proceedings of the 9th {International} {Conference} on {Information} {Systems} for {Crisis} {Response} and {Management}, {ISCRAM}},
+ author = {Lijnse, Bas and Jansen, Jan Martin and Plasmeijer, Rinus and {others}},
+ year = {2012},
+ file = {Lijnse et al. - 2012 - Incidone A task-oriented incident coordination to.pdf:/home/mrl/.local/share/zotero/storage/EYS9U69B/Lijnse et al. - 2012 - Incidone A task-oriented incident coordination to.pdf:application/pdf},
+}
+
@mastersthesis{bohm_asynchronous_2019,
address = {Nijmegen},
title = {Asynchronous {Actions} in a {Synchronous} {World}},
file = {Feijs - 2013 - Multi-tasking and Arduino why and how.pdf:/home/mrl/.local/share/zotero/storage/8A3Q8LHA/Feijs - 2013 - Multi-tasking and Arduino why and how.pdf:application/pdf},
}
+@article{haenisch_case_2016,
+ title = {A case study on using functional programming for internet of things applications},
+ volume = {3},
+ number = {1},
+ journal = {Athens Journal of Technology \& Engineering},
+ author = {Haenisch, Till},
+ year = {2016},
+ file = {Haenisch - 2016 - A case study on using functional programming for i.pdf:/home/mrl/.local/share/zotero/storage/EID5EW5N/Haenisch - 2016 - A case study on using functional programming for i.pdf:application/pdf},
+}
+
@misc{achten_clean_2007,
title = {Clean for {Haskell98} {Programmers}},
url = {https://www.mbsd.cs.ru.nl/publications/papers/2007/achp2007-CleanHaskellQuickGuide.pdf},
file = {Achten - Clean for Haskell98 Programmers.pdf:/home/mrl/.local/share/zotero/storage/69WWSGLF/Achten - Clean for Haskell98 Programmers.pdf:application/pdf},
}
+@inproceedings{grebe_threading_2019,
+ address = {Cham},
+ title = {Threading the {Arduino} with {Haskell}},
+ isbn = {978-3-030-14805-8},
+ abstract = {Programming embedded microcontrollers often requires the scheduling of independent threads of execution, specifying the interaction and sequencing of actions in the multiple threads. Developing and debugging such multi-threaded systems can be especially challenging in highly resource constrained systems such as the Arduino line of microcontroller boards. The Haskino library, developed at the University of Kansas, allows programmers to develop code for Arduino-based microcontrollers using monadic Haskell program fragments. This paper describes our efforts to extend the Haskino library to translate monadic Haskell code to multi-threaded code executing on Arduino boards.},
+ booktitle = {Trends in {Functional} {Programming}},
+ publisher = {Springer International Publishing},
+ author = {Grebe, Mark and Gill, Andy},
+ editor = {Van Horn, David and Hughes, John},
+ year = {2019},
+ pages = {135--154},
+ file = {Grebe and Gill - Threading the Arduino with Haskell.pdf:/home/mrl/.local/share/zotero/storage/DW5PS9ZA/Grebe and Gill - Threading the Arduino with Haskell.pdf:application/pdf},
+}
+
@inproceedings{baccelli_reprogramming_2018,
title = {Reprogramming {Low}-end {IoT} {Devices} from the {Cloud}},
booktitle = {2018 3rd {Cloudification} of the {Internet} of {Things} ({CIoT})},
file = {Baccelli et al. - 2018 - Reprogramming Low-end IoT Devices from the Cloud.pdf:/home/mrl/.local/share/zotero/storage/M6LX5ZJN/Baccelli et al. - 2018 - Reprogramming Low-end IoT Devices from the Cloud.pdf:application/pdf},
}
+@inproceedings{wand_continuation-based_1980,
+ address = {Stanford University, California, United States},
+ title = {Continuation-based multiprocessing},
+ url = {http://portal.acm.org/citation.cfm?doid=800087.802786},
+ doi = {10.1145/800087.802786},
+ abstract = {Any multiprocessing facility must include three features: elementary exclusion, data protection, and process saving. While elementary exclusion must rest on some hardware facility (e.g., a test-and-set instruction), the other two requirements are fulfilled by features already present in applicative languages. Data protection may be obtained through the use of procedures (closures or funargs), and process saving may be obtained through the use of the catch operator. The use of catch, in particular, allows an elegant treatment of process saving.},
+ language = {en},
+ urldate = {2019-02-13},
+ booktitle = {Proceedings of the 1980 {ACM} conference on {LISP} and functional programming - {LFP} '80},
+ publisher = {ACM Press},
+ author = {Wand, Mitchell},
+ year = {1980},
+ pages = {19--28},
+ file = {Wand - 1980 - Continuation-based multiprocessing.pdf:/home/mrl/.local/share/zotero/storage/XF4Z2R9S/Wand - 1980 - Continuation-based multiprocessing.pdf:application/pdf},
+}
+
+@inproceedings{elliott_functional_1997,
+ title = {Functional reactive animation},
+ volume = {32},
+ booktitle = {{ACM} {SIGPLAN} {Notices}},
+ publisher = {ACM},
+ author = {Elliott, Conal and Hudak, Paul},
+ year = {1997},
+ pages = {263--273},
+ file = {Elliott and Hudak - 1997 - Functional reactive animation.pdf:/home/mrl/.local/share/zotero/storage/IJZLGXHK/Elliott and Hudak - 1997 - Functional reactive animation.pdf:application/pdf},
+}
+
@mastersthesis{piers_task-oriented_2016,
address = {Nijmegen},
title = {Task-{Oriented} {Programming} for developing non-distributed interruptible embedded systems},
file = {swierstra2008.pdf:/home/mrl/.local/share/zotero/storage/BEQKBXWP/swierstra2008.pdf:application/pdf},
}
-@article{groningen_exchanging_2010,
+@article{van_groningen_exchanging_2010,
title = {Exchanging sources between {Clean} and {Haskell}: {A} double-edged front end for the {Clean} compiler},
volume = {45},
shorttitle = {Exchanging sources between {Clean} and {Haskell}},
number = {11},
journal = {ACM Sigplan Notices},
- author = {Groningen, John van and Noort, Thomas van and Achten, Peter and Koopman, Pieter and Plasmeijer, Rinus},
+ author = {van Groningen, John van and van Noort, Thomas van and Achten, Peter and Koopman, Pieter and Plasmeijer, Rinus},
year = {2010},
pages = {49--60},
file = {groj10-Haskell_front_end_Clean.pdf:/home/mrl/.local/share/zotero/storage/WVZWX8WT/groj10-Haskell_front_end_Clean.pdf:application/pdf},
}
+@inproceedings{grebe_haskino:_2016,
+ title = {Haskino: {A} remote monad for programming the arduino},
+ shorttitle = {Haskino},
+ booktitle = {International {Symposium} on {Practical} {Aspects} of {Declarative} {Languages}},
+ publisher = {Springer},
+ author = {Grebe, Mark and Gill, Andy},
+ year = {2016},
+ pages = {153--168},
+ file = {Grebe-16-Haskino.pdf:/home/mrl/.local/share/zotero/storage/ABG7TTLV/Grebe-16-Haskino.pdf:application/pdf},
+}
+
@article{plasmeijer_itasks:_2007,
title = {{iTasks}: executable specifications of interactive work flow systems for the web},
volume = {42},
abstract = {We propose a new extension to the purely functional programming language Haskell that supports compile-time meta-programming. The purpose of the system is to support the algorithmic construction of programs at compile-time.The ability to generate code at compile time allows the programmer to implement such features as polytypic programs, macro-like expansion, user directed optimization (such as inlining), and the generation of supporting data structures and functions from existing data structures and functions.Our design is being implemented in the Glasgow Haskell Compiler, ghc.},
booktitle = {Proceedings of the 2002 {ACM} {SIGPLAN} {Workshop} on {Haskell}},
publisher = {Association for Computing Machinery},
- author = {Sheard, Tim and Jones, Simon Peyton},
+ author = {Sheard, Tim and Peyton Jones, Simon},
year = {2002},
note = {event-place: Pittsburgh, Pennsylvania},
keywords = {meta programming, templates},
abstract = {We describe a design pattern for writing programs that traverse data structures built from rich mutually-recursive data types. Such programs often have a great deal of "boilerplate" code that simply walks the structure, hiding a small amount of "real" code that constitutes the reason for the traversal.Our technique allows most of this boilerplate to be written once and for all, or even generated mechanically, leaving the programmer free to concentrate on the important part of the algorithm. These generic programs are much more adaptive when faced with data structure evolution because they contain many fewer lines of type-specific code.Our approach is simple to understand, reasonably efficient, and it handles all the data types found in conventional functional programming languages. It makes essential use of rank-2 polymorphism, an extension found in some implementations of Haskell. Further it relies on a simple type-safe cast operator.},
booktitle = {Proceedings of the 2003 {ACM} {SIGPLAN} {International} {Workshop} on {Types} in {Languages} {Design} and {Implementation}},
publisher = {Association for Computing Machinery},
- author = {Lämmel, Ralf and Jones, Simon Peyton},
+ author = {Lämmel, Ralf and Peyton Jones, Simon},
year = {2003},
note = {event-place: New Orleans, Louisiana, USA},
keywords = {generic programming, rank-2 types, traversal, type cast},
file = {Nöcker et al. - 1991 - Concurrent clean.pdf:/home/mrl/.local/share/zotero/storage/XHTNR7BR/Nöcker et al. - 1991 - Concurrent clean.pdf:application/pdf},
}
+@inproceedings{staps_lazy_2019,
+ address = {New York, NY, USA},
+ series = {{IFL} '19},
+ title = {Lazy {Interworking} of {Compiled} and {Interpreted} {Code} for {Sandboxing} and {Distributed} {Systems}},
+ isbn = {978-1-4503-7562-7},
+ doi = {10.1145/3412932.3412941},
+ abstract = {More and more applications rely on the safe execution of code unknown at compile-time, for example in the implementation of web browsers and plugin systems. Furthermore, these applications usually require some form of communication between the added code and its embedder, and hence a communication channel must be set up in which values are serialized and deserialized. This paper shows that in a functional programming language we can solve these two problems at once, if we realize that the execution of extra code is nothing more than the deserialization of a value which happens to be a function. To demonstrate this, we describe the implementation of a serialization library for the language Clean, which internally uses an interpreter to evaluate added code in a separate, sandboxed environment. Remarkable is that despite the conceptual asymmetry between "host" and "interpreter", lazy interworking must be implemented in a highly symmetric fashion, much akin to distributed systems. The library interworks on a low level with the native Clean program, but has been implemented without any changes to the native runtime system. It can therefore easily be ported to other programming languages.We can use the same technique in the context of the web, where we want to be able to share possibly lazy values between a server and a client. In this case the interpreter runs in WebAssembly in the browser and communicates seamlessly with the server, written in Clean. We use this in the iTasks web framework to handle communication and offload computations to the client to reduce stress on the server-side. Previously, this framework cross-compiled the Clean source code to JavaScript and used JSON for communication. The interpreter has a more predictable and better performance, and integration is much simpler because it interworks on a lower level with the web server.},
+ booktitle = {Proceedings of the 31st {Symposium} on {Implementation} and {Application} of {Functional} {Languages}},
+ publisher = {Association for Computing Machinery},
+ author = {Staps, Camil and van Groningen, John and Plasmeijer, Rinus},
+ year = {2019},
+ note = {event-place: Singapore, Singapore},
+ keywords = {functional programming, interpreters, laziness, sandboxing, web-assembly},
+ file = {Staps et al. - 2019 - Lazy Interworking of Compiled and Interpreted Code.pdf:/home/mrl/.local/share/zotero/storage/LGS69CH8/Staps et al. - 2019 - Lazy Interworking of Compiled and Interpreted Code.pdf:application/pdf},
+}
+
@incollection{mernik_extensible_2013,
address = {Hershey, PA, USA},
title = {Extensible {Languages}: {Blurring} the {Distinction} between {DSL} and {GPL}},
file = {Crooijmans - 2021 - Reducing the Power Consumption of IoT Devices in T.pdf:/home/mrl/.local/share/zotero/storage/YIEQ97KK/Crooijmans - 2021 - Reducing the Power Consumption of IoT Devices in T.pdf:application/pdf},
}
+@inproceedings{lijnse_capturing_2011,
+ address = {Lisbon, Portugal},
+ title = {Capturing the {Netherlands} {Coast} {Guard}'s {SAR} {Workflow} with {iTasks}},
+ language = {en},
+ booktitle = {Proceedings of the 8th {International} {ISCRAM} {Conference}},
+ author = {Lijnse, Bas and Nanne, Ruud and Jansen, Jan Martin and Plasmeijer, Rinus},
+ year = {2011},
+ pages = {10},
+ file = {Lijnse et al. - 2011 - Capturing the Netherlands Coast Guard's SAR Workfl.pdf:/home/mrl/.local/share/zotero/storage/46DHR55I/Lijnse et al. - 2011 - Capturing the Netherlands Coast Guard's SAR Workfl.pdf:application/pdf},
+}
+
@misc{wadler_expression_1998,
title = {The expression problem},
url = {https://homepages.inf.ed.ac.uk/wadler/papers/expression/expression.txt},
journal = {Journal of Cleaner Production},
author = {Nižetić, Sandro and Šolić, Petar and González-de-Artaza, Diego López-de-Ipiña and Patrono, Luigi},
year = {2020},
- keywords = {Energy, Environment, IoT, Smart city, SpliTech2020, Sustainability},
+ keywords = {IoT, Energy, Environment, Smart city, SpliTech2020, Sustainability},
pages = {122877},
}
-
-@inproceedings{staps_lazy_2019,
- address = {New York, NY, USA},
- series = {{IFL} '19},
- title = {Lazy {Interworking} of {Compiled} and {Interpreted} {Code} for {Sandboxing} and {Distributed} {Systems}},
- isbn = {978-1-4503-7562-7},
- url = {https://doi.org/10.1145/3412932.3412941},
- doi = {10.1145/3412932.3412941},
- abstract = {More and more applications rely on the safe execution of code unknown at compile-time, for example in the implementation of web browsers and plugin systems. Furthermore, these applications usually require some form of communication between the added code and its embedder, and hence a communication channel must be set up in which values are serialized and deserialized. This paper shows that in a functional programming language we can solve these two problems at once, if we realize that the execution of extra code is nothing more than the deserialization of a value which happens to be a function. To demonstrate this, we describe the implementation of a serialization library for the language Clean, which internally uses an interpreter to evaluate added code in a separate, sandboxed environment. Remarkable is that despite the conceptual asymmetry between "host" and "interpreter", lazy interworking must be implemented in a highly symmetric fashion, much akin to distributed systems. The library interworks on a low level with the native Clean program, but has been implemented without any changes to the native runtime system. It can therefore easily be ported to other programming languages.We can use the same technique in the context of the web, where we want to be able to share possibly lazy values between a server and a client. In this case the interpreter runs in WebAssembly in the browser and communicates seamlessly with the server, written in Clean. We use this in the iTasks web framework to handle communication and offload computations to the client to reduce stress on the server-side. Previously, this framework cross-compiled the Clean source code to JavaScript and used JSON for communication. The interpreter has a more predictable and better performance, and integration is much simpler because it interworks on a lower level with the web server.},
- booktitle = {Proceedings of the 31st {Symposium} on {Implementation} and {Application} of {Functional} {Languages}},
- publisher = {Association for Computing Machinery},
- author = {Staps, Camil and van Groningen, John and Plasmeijer, Rinus},
- year = {2019},
- note = {event-place: Singapore, Singapore},
- keywords = {functional programming, interpreters, laziness, sandboxing, web-assembly},
- file = {Staps et al. - 2019 - Lazy Interworking of Compiled and Interpreted Code.pdf:/home/mrl/.local/share/zotero/storage/LGS69CH8/Staps et al. - 2019 - Lazy Interworking of Compiled and Interpreted Code.pdf:application/pdf},
-}
repositories / phd-thesis.git / blobdiff