Difference between revisions of "NL-FP dag 2019"
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== Location == | == Location == | ||
− | The | + | The NL-FP dag will take place at the "Societeit onder de Toren" at the "Trip van Zoudtlandt Kazerne" in Breda. The adress is: De la Reijweg 95, 4818 BA. |
[https://goo.gl/maps/skU5QASg4US2 Google Maps] | [https://goo.gl/maps/skU5QASg4US2 Google Maps] | ||
Line 17: | Line 17: | ||
|Speaker | |Speaker | ||
|Title | |Title | ||
+ | |- | ||
+ | |9:00 | ||
+ | | | ||
+ | |Registration | ||
|- | |- | ||
|10:00 | |10:00 | ||
− | | | + | |Bas, Jan Martin and Col. Rick Peddemors |
|Welcome at the NLDA | |Welcome at the NLDA | ||
|- | |- | ||
|10:25 | |10:25 | ||
− | | | + | |Shubham Yadav |
− | | | + | |Ball Collision Model — Hardware Designing with Multiple Clock Cycle Components in Cλash |
|- | |- | ||
|10:50 | |10:50 | ||
Line 35: | Line 39: | ||
|- | |- | ||
|11:45 | |11:45 | ||
− | | | + | |Tim Steenvoorden |
− | | | + | |TopHat: A formal calculus for modular interactive workflows |
|- | |- | ||
|12:10 | |12:10 | ||
Line 48: | Line 52: | ||
|14:00 | |14:00 | ||
|Wim Bast | |Wim Bast | ||
− | | | + | |Declarative programming using Dclare |
|- | |- | ||
|14:25 | |14:25 | ||
Line 55: | Line 59: | ||
|- | |- | ||
|14:50 | |14:50 | ||
− | | | + | |Haye Böhm |
− | | | + | |Asynchronous Shares in a Synchronous World |
|- | |- | ||
|15:15 | |15:15 | ||
Line 82: | Line 86: | ||
|Dinner (optional) | |Dinner (optional) | ||
|} | |} | ||
+ | |||
+ | == Talks == | ||
+ | |||
+ | === Shubham Yadav: Ball Collision Model — Hardware Designing with Multiple Clock Cycle Components in Cλash === | ||
+ | Cλash as a functional hardware description language is a slight variation of Haskell, and its compiler transforms high level designs into low level hardware languages, like VHDL and (System) Verilog. This presentation describes some ways to develop hardware designs which include multiple clock cycle components (having both static and dynamic latency) at higher level. To model these multiple clock cycle operations, two different approaches are discussed: dataflow modelling and usage of delayed signals (a newtype defined in the Cλash library). | ||
+ | |||
+ | === Klara Marntirosian: COCHIS a Calculus with Stable and Coherent Implicits === | ||
+ | Implicit Progamming (IP) mechanisms infer values by type-directed resolution, making programs more compact and easier to read. Examples of IP mechanisms include Haskell’s type classes, Scala’s implicits, Agda’s instance arguments, Coq’s type classes, and Rust’s traits. The design of IP mechanisms has led to heated debate: proponents of one school argue for the desirability of strong reasoning properties; while proponents of another school argue for the power and flexibility of local scoping or overlapping instances. The current state of affairs seems to indicate that the two goals are at odds with one another and cannot easily be reconciled. | ||
+ | |||
+ | This talk presents COCHIS, the Calculus Of CoHerent ImplicitS, an improved variant of the implicit calculus that offers flexibility while preserving two key properties: coherence and stability of type substitutions. COCHIS supports polymorphism, local scoping, overlapping instances, first-class instances, and higher-order rules, while remaining type safe, coherent and stable under type substitution. | ||
+ | |||
+ | === Haye Böhm: Asynchronous Shares in a Synchronous World === | ||
+ | iTasks is a framework in Clean that enables declarative Task Oriented | ||
+ | Programming for the web. A task is the central building block, | ||
+ | representing a unit of work to be done by the system or a user. Task | ||
+ | evaluation is done synchronously based on events. The framework | ||
+ | automatically generates user interfaces and handles all interaction | ||
+ | between client (browser) and server. Tasks in the iTasks framework use | ||
+ | data from external datasources more and more. The share system is one of | ||
+ | the tools that enables sharing data between tasks or retrieving data | ||
+ | from an external source such as the internet. | ||
+ | |||
+ | In this talk, we explore a solution that uses the share system to | ||
+ | facilitate asynchronous use of external datasources. Connecting to the | ||
+ | internet to retrieve data is now done in a non-blocking way, ensuring | ||
+ | that multiple tasks never block each other. We show design | ||
+ | considerations and motivate the chosen approach. | ||
+ | |||
+ | === Jappie Klooster: Fullstack Haskell with reflex & servant === | ||
+ | The basics of functional reactive programming are briefly | ||
+ | explained, and how they apply to reflex. Then we see the benefits of | ||
+ | full stack haskell in a live coding session! We'll make a widget or | ||
+ | add/change an endpoint or both depending on time. | ||
+ | |||
+ | === Wim Bast: Declarative programming using Dclare === | ||
+ | Dclare is a (open-source) Java library used to develop declarative-language run-times. | ||
+ | Dclare is a reactive en incremental framework optimized for dynamic systems. | ||
+ | It not a pure functional solution because it reacts to, and produces state changes. | ||
+ | However, Dclare 'hides' all imperative aspects from the programmer, similar to real functional languages. | ||
+ | Based on some examples and life-programming Wim Bast wil show the capabilities of this framework. | ||
+ | Dclare is used in some industrie products, under-which the Dutch tax-office.. | ||
+ | The goal of this presentation is to discuss language evolution and compare the functional with the declarative paradigm. | ||
+ | |||
+ | === Gert-Jan Bottu: Proving Haskell's Type Class Resolution Coherent === | ||
+ | Haskell’s elaboration-based type class resolution is generally | ||
+ | nondeterministic: there can be multiple ways to satisfy a wanted constraint in terms of global instances and locally given constraints. | ||
+ | Coherence is the key property that keeps this sane; it guarantees that, despite the nondeterminism, programs still behave predictably. Even though elaboration-based resolution is generally assumed coherent, this property has never formally been proven. | ||
+ | |||
+ | This talk gives an introduction to Haskell’s dictionary-based type class resolution, explains the need for a coherent elaboration and shows how we managed to successfully solve this age-old problem! | ||
+ | |||
+ | === Tim Steenvoorden: TopHat: A formal calculus for modular interactive workflows === | ||
+ | Task-Oriented Programming (TOP) is a programming paradigm that focusses on modelling real world collaborations between people. | ||
+ | It prescribes a declarative programming style to specify multi-user workflows. | ||
+ | Workflows can be higher-order. | ||
+ | They communicate through typed values on a local or global level. | ||
+ | Such specifications can be turned into interactive applications for different platforms, | ||
+ | supporting collaboration during execution. | ||
+ | |||
+ | In this talk we decompose the rich features of TOP into elementary language elements, | ||
+ | which makes them suitable for formal treatment. | ||
+ | We use the simply typed lambda calculus, extended with pairs and references, as a base language. | ||
+ | On top of this language, we develop TopHat, a calculus for modular interactive workflows. | ||
+ | With TopHat we prepare a way to formally reason about TOP systems. | ||
+ | |||
+ | We describe TopHat by means of a layered semantics. | ||
+ | These layers consist of multiple big step evaluations on expressions, | ||
+ | and two labelled transition systems, handling user inputs. | ||
+ | We show some interesting properties of this machinery. | ||
+ | This approach allows for comparison with other work in the field. | ||
+ | We place TopHat in perspective with the process calculus CSP. | ||
+ | |||
+ | === Dirk Hünniger: From Wikipedia to LaTeX === | ||
+ | It is often desirable to have access to Wikipedia articles in LaTeX | ||
+ | format. A translation by hand is typically time-consuming and | ||
+ | error-prone. Thus it is natural to look for algorithmic solutions to | ||
+ | thisproblem. Our solution is currently available free of charge under an | ||
+ | open source license for Windows and Debian GNU/Linux. It is not limited | ||
+ | to Wikipedia but supports all servers running the same wiki software | ||
+ | (MediaWiki) as Wikipedia. In particular, it is also possible to process | ||
+ | local wikis available only on private networks inside institutions. | ||
+ | |||
+ | === Alejandro Serrano Mena: Classes of Arbitrary Kind === | ||
+ | The type class system in the Haskell Programming language provides a | ||
+ | useful abstraction for a wide range of types, such as those that support | ||
+ | comparison, serialization, ordering, between others. This system can be | ||
+ | extended by the programmer by providing custom instances to one's custom | ||
+ | types. Yet, this is often a monotonous task. Some notions, such as | ||
+ | equality, are very regular regardless if it is being encoded for a | ||
+ | ground type or a type constructor. We present a technique that unifies | ||
+ | the treatment of ground types and type constructors | ||
+ | whenever possible. This reduces code duplication and improves | ||
+ | consistency. We discuss the encoding of several classes in this form, | ||
+ | and if time allows, how to extend the generic programming facilities in GHC. | ||
== Contact == | == Contact == | ||
Line 91: | Line 188: | ||
== Registration == | == Registration == | ||
− | Participation is free, but you will need to register. | + | Participation is free, but you will need to register. The deadline for registration is '''Friday January 4, 2019'''. |
+ | We need to supply a list of participants to the venue. If you are not registered you won't be allowed in. | ||
+ | |||
To register simply can simply send an e-mail with the following information: | To register simply can simply send an e-mail with the following information: | ||
* Name (will be published in the [[NL-FP_dag_2019/Participants|list of participants]]) | * Name (will be published in the [[NL-FP_dag_2019/Participants|list of participants]]) |
Latest revision as of 13:15, 10 January 2019
The Dutch Functional Programming Day is an annual gathering of researchers, students, and practitioners sharing a common interest in functional programming. The day features talks that cover the latest advances in research, teaching, and applications in the functional programming area. Coffee and lunch breaks provide ample opportunity for networking with your colleagues and meeting new people. Experts and newcomers to the field are equally welcome.
The NL-FP day 2019 takes place on Friday, January 11, 2019 and will be hosted by the Netherlands Defence Academy.
Location
The NL-FP dag will take place at the "Societeit onder de Toren" at the "Trip van Zoudtlandt Kazerne" in Breda. The adress is: De la Reijweg 95, 4818 BA.
Program
The day will follow the traditional FP-Day format: A diverse mix of presentations with long coffee breaks and time to chat.
Time | Speaker | Title |
9:00 | Registration | |
10:00 | Bas, Jan Martin and Col. Rick Peddemors | Welcome at the NLDA |
10:25 | Shubham Yadav | Ball Collision Model — Hardware Designing with Multiple Clock Cycle Components in Cλash |
10:50 | Klara Marntirosian | COCHIS a Calculus with Stable and Coherent Implicits |
11:15 | Coffee Break | |
11:45 | Tim Steenvoorden | TopHat: A formal calculus for modular interactive workflows |
12:10 | Jappie Klooster | Fullstack Haskell with reflex & servant |
12:35 | Lunch | |
14:00 | Wim Bast | Declarative programming using Dclare |
14:25 | Gert-Jan Bottu | Proving Haskell's Type Class Resolution Coherent |
14:50 | Haye Böhm | Asynchronous Shares in a Synchronous World |
15:15 | Coffee break | |
15:45 | Dirk Hünniger | From Wikipedia to LaTeX |
16:10 | Alejandro Serrano Mena | Classes of Arbitrary Kind |
16:35 | Organizers | Closing and Announcements |
16:45 | Drinks | |
18:00 | Dinner (optional) |
Talks
Shubham Yadav: Ball Collision Model — Hardware Designing with Multiple Clock Cycle Components in Cλash
Cλash as a functional hardware description language is a slight variation of Haskell, and its compiler transforms high level designs into low level hardware languages, like VHDL and (System) Verilog. This presentation describes some ways to develop hardware designs which include multiple clock cycle components (having both static and dynamic latency) at higher level. To model these multiple clock cycle operations, two different approaches are discussed: dataflow modelling and usage of delayed signals (a newtype defined in the Cλash library).
Klara Marntirosian: COCHIS a Calculus with Stable and Coherent Implicits
Implicit Progamming (IP) mechanisms infer values by type-directed resolution, making programs more compact and easier to read. Examples of IP mechanisms include Haskell’s type classes, Scala’s implicits, Agda’s instance arguments, Coq’s type classes, and Rust’s traits. The design of IP mechanisms has led to heated debate: proponents of one school argue for the desirability of strong reasoning properties; while proponents of another school argue for the power and flexibility of local scoping or overlapping instances. The current state of affairs seems to indicate that the two goals are at odds with one another and cannot easily be reconciled.
This talk presents COCHIS, the Calculus Of CoHerent ImplicitS, an improved variant of the implicit calculus that offers flexibility while preserving two key properties: coherence and stability of type substitutions. COCHIS supports polymorphism, local scoping, overlapping instances, first-class instances, and higher-order rules, while remaining type safe, coherent and stable under type substitution.
iTasks is a framework in Clean that enables declarative Task Oriented Programming for the web. A task is the central building block, representing a unit of work to be done by the system or a user. Task evaluation is done synchronously based on events. The framework automatically generates user interfaces and handles all interaction between client (browser) and server. Tasks in the iTasks framework use data from external datasources more and more. The share system is one of the tools that enables sharing data between tasks or retrieving data from an external source such as the internet.
In this talk, we explore a solution that uses the share system to facilitate asynchronous use of external datasources. Connecting to the internet to retrieve data is now done in a non-blocking way, ensuring that multiple tasks never block each other. We show design considerations and motivate the chosen approach.
Jappie Klooster: Fullstack Haskell with reflex & servant
The basics of functional reactive programming are briefly explained, and how they apply to reflex. Then we see the benefits of full stack haskell in a live coding session! We'll make a widget or add/change an endpoint or both depending on time.
Wim Bast: Declarative programming using Dclare
Dclare is a (open-source) Java library used to develop declarative-language run-times. Dclare is a reactive en incremental framework optimized for dynamic systems. It not a pure functional solution because it reacts to, and produces state changes. However, Dclare 'hides' all imperative aspects from the programmer, similar to real functional languages. Based on some examples and life-programming Wim Bast wil show the capabilities of this framework. Dclare is used in some industrie products, under-which the Dutch tax-office.. The goal of this presentation is to discuss language evolution and compare the functional with the declarative paradigm.
Gert-Jan Bottu: Proving Haskell's Type Class Resolution Coherent
Haskell’s elaboration-based type class resolution is generally nondeterministic: there can be multiple ways to satisfy a wanted constraint in terms of global instances and locally given constraints. Coherence is the key property that keeps this sane; it guarantees that, despite the nondeterminism, programs still behave predictably. Even though elaboration-based resolution is generally assumed coherent, this property has never formally been proven.
This talk gives an introduction to Haskell’s dictionary-based type class resolution, explains the need for a coherent elaboration and shows how we managed to successfully solve this age-old problem!
Tim Steenvoorden: TopHat: A formal calculus for modular interactive workflows
Task-Oriented Programming (TOP) is a programming paradigm that focusses on modelling real world collaborations between people. It prescribes a declarative programming style to specify multi-user workflows. Workflows can be higher-order. They communicate through typed values on a local or global level. Such specifications can be turned into interactive applications for different platforms, supporting collaboration during execution.
In this talk we decompose the rich features of TOP into elementary language elements, which makes them suitable for formal treatment. We use the simply typed lambda calculus, extended with pairs and references, as a base language. On top of this language, we develop TopHat, a calculus for modular interactive workflows. With TopHat we prepare a way to formally reason about TOP systems.
We describe TopHat by means of a layered semantics. These layers consist of multiple big step evaluations on expressions, and two labelled transition systems, handling user inputs. We show some interesting properties of this machinery. This approach allows for comparison with other work in the field. We place TopHat in perspective with the process calculus CSP.
Dirk Hünniger: From Wikipedia to LaTeX
It is often desirable to have access to Wikipedia articles in LaTeX format. A translation by hand is typically time-consuming and error-prone. Thus it is natural to look for algorithmic solutions to thisproblem. Our solution is currently available free of charge under an open source license for Windows and Debian GNU/Linux. It is not limited to Wikipedia but supports all servers running the same wiki software (MediaWiki) as Wikipedia. In particular, it is also possible to process local wikis available only on private networks inside institutions.
Alejandro Serrano Mena: Classes of Arbitrary Kind
The type class system in the Haskell Programming language provides a useful abstraction for a wide range of types, such as those that support comparison, serialization, ordering, between others. This system can be extended by the programmer by providing custom instances to one's custom types. Yet, this is often a monotonous task. Some notions, such as equality, are very regular regardless if it is being encoded for a ground type or a type constructor. We present a technique that unifies the treatment of ground types and type constructors whenever possible. This reduces code duplication and improves consistency. We discuss the encoding of several classes in this form, and if time allows, how to extend the generic programming facilities in GHC.
Contact
- Bas Lijnse (b.lijnse@cs.ru.nl or b.lijnse@mindef.nl)
- Jan Martin Jansen (JM.Jansen.04@mindef.nl)
Dinner
The dinner is optional and at your own cost. The dinner will take place at "Tortillas" at the Grote Markt in Breda where we will be served a "Variacion a la Tortillas". For more information see http://www.tortillas.nl.
Registration
Participation is free, but you will need to register. The deadline for registration is Friday January 4, 2019. We need to supply a list of participants to the venue. If you are not registered you won't be allowed in.
To register simply can simply send an e-mail with the following information:
- Name (will be published in the list of participants)
- Affiliation (optional)
- E-mail address (will only be used to inform you about the FP-day)
- Whether you are planning to join the dinner