MODULARITY Companion 2016 – Author Index |
Contents -
Abstracts -
Authors
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Aotani, Tomoyuki |
MODULARITY Companion '16-FOAL: "An Advice Mechanism for Non-local ..."
An Advice Mechanism for Non-local Flow Control
Hidehiko Masuhara , Kenta Fujita, and Tomoyuki Aotani (Tokyo Institute of Technology, Japan) We propose an advice mechanism called Chop&Graft for non-local flow control. It offers a novel chop pointcut that lets a piece of advice terminate the current execution, and graft and retry operators that resume and restart the terminated executions. By using pointcuts for specifying the region of termination, the mechanism is more robust and more concise than the traditional exception handling mechanisms that rely on names or exception classes. The paper presents the design of the mechanism along with the sketches of two implementations using delimited continuations or threads and exceptions. @InProceedings{MODULARITY Companion16p73, author = {Hidehiko Masuhara and Kenta Fujita and Tomoyuki Aotani}, title = {An Advice Mechanism for Non-local Flow Control}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {73--78}, doi = {}, year = {2016}, } |
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Fujita, Kenta |
MODULARITY Companion '16-FOAL: "An Advice Mechanism for Non-local ..."
An Advice Mechanism for Non-local Flow Control
Hidehiko Masuhara , Kenta Fujita, and Tomoyuki Aotani (Tokyo Institute of Technology, Japan) We propose an advice mechanism called Chop&Graft for non-local flow control. It offers a novel chop pointcut that lets a piece of advice terminate the current execution, and graft and retry operators that resume and restart the terminated executions. By using pointcuts for specifying the region of termination, the mechanism is more robust and more concise than the traditional exception handling mechanisms that rely on names or exception classes. The paper presents the design of the mechanism along with the sketches of two implementations using delimited continuations or threads and exceptions. @InProceedings{MODULARITY Companion16p73, author = {Hidehiko Masuhara and Kenta Fujita and Tomoyuki Aotani}, title = {An Advice Mechanism for Non-local Flow Control}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {73--78}, doi = {}, year = {2016}, } |
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Fukuda, Hiroaki |
MODULARITY Companion '16-FOAL: "Using Continuations and Aspects ..."
Using Continuations and Aspects to Tame Asynchronous Programming on the Web
Paul Leger and Hiroaki Fukuda (Universidad Católica del Norte, Chile; Shibaura Institute of Technology, Japan) In asynchronous programming of JavaScript, callbacks are widely used to develop rich interactive Web applications. However, the dependency among callbacks can make it difficult to understand and maintain pieces of code, which will mix concerns eventually. Unfortunately, current solutions for JavaScript do not fully address the aforementioned issue. This paper presents Sync/cc, a JavaScript library that uses continuations and aspects to allow developers to write asynchronous pieces of code in a synchronous style, preventing callback dependencies. Unlike current solutions, Sync/cc is modular, customizable, and succinct because it does not require special and scattered keywords, code refactoring, or adding ad-hoc implementations like state machines. In practice, Sync/cc uses a) continuations to only suspend the current handler execution until the asynchronous operation is resolved, and b) aspects to apply continuations in a non-intrusive way. @InProceedings{MODULARITY Companion16p79, author = {Paul Leger and Hiroaki Fukuda}, title = {Using Continuations and Aspects to Tame Asynchronous Programming on the Web}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {79--82}, doi = {}, year = {2016}, } |
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Hadas, Arik |
MODULARITY Companion '16-FOAL: "Toward Disposable Domain-Specific ..."
Toward Disposable Domain-Specific Aspect Languages
Arik Hadas and David H. Lorenz (Open University of Israel, Israel; Technion, Israel) Consider the task of auditing an application whose main functionality is to execute commands received from clients. One could audit command executions with AspectJ. Alternatively, one could design, implement, and use a domain-specific aspect language for auditing, and then throw the language away. In this paper we argue that such disposable aspect languages are useful and that developing them may overall be as cost-effective as using general-purpose aspect languages. @InProceedings{MODULARITY Companion16p83, author = {Arik Hadas and David H. Lorenz}, title = {Toward Disposable Domain-Specific Aspect Languages}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {83--85}, doi = {}, year = {2016}, } |
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Leger, Paul |
MODULARITY Companion '16-FOAL: "Using Continuations and Aspects ..."
Using Continuations and Aspects to Tame Asynchronous Programming on the Web
Paul Leger and Hiroaki Fukuda (Universidad Católica del Norte, Chile; Shibaura Institute of Technology, Japan) In asynchronous programming of JavaScript, callbacks are widely used to develop rich interactive Web applications. However, the dependency among callbacks can make it difficult to understand and maintain pieces of code, which will mix concerns eventually. Unfortunately, current solutions for JavaScript do not fully address the aforementioned issue. This paper presents Sync/cc, a JavaScript library that uses continuations and aspects to allow developers to write asynchronous pieces of code in a synchronous style, preventing callback dependencies. Unlike current solutions, Sync/cc is modular, customizable, and succinct because it does not require special and scattered keywords, code refactoring, or adding ad-hoc implementations like state machines. In practice, Sync/cc uses a) continuations to only suspend the current handler execution until the asynchronous operation is resolved, and b) aspects to apply continuations in a non-intrusive way. @InProceedings{MODULARITY Companion16p79, author = {Paul Leger and Hiroaki Fukuda}, title = {Using Continuations and Aspects to Tame Asynchronous Programming on the Web}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {79--82}, doi = {}, year = {2016}, } |
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Lorenz, David H. |
MODULARITY Companion '16-FOAL: "Toward Disposable Domain-Specific ..."
Toward Disposable Domain-Specific Aspect Languages
Arik Hadas and David H. Lorenz (Open University of Israel, Israel; Technion, Israel) Consider the task of auditing an application whose main functionality is to execute commands received from clients. One could audit command executions with AspectJ. Alternatively, one could design, implement, and use a domain-specific aspect language for auditing, and then throw the language away. In this paper we argue that such disposable aspect languages are useful and that developing them may overall be as cost-effective as using general-purpose aspect languages. @InProceedings{MODULARITY Companion16p83, author = {Arik Hadas and David H. Lorenz}, title = {Toward Disposable Domain-Specific Aspect Languages}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {83--85}, doi = {}, year = {2016}, } |
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Masuhara, Hidehiko |
MODULARITY Companion '16-FOAL: "An Advice Mechanism for Non-local ..."
An Advice Mechanism for Non-local Flow Control
Hidehiko Masuhara , Kenta Fujita, and Tomoyuki Aotani (Tokyo Institute of Technology, Japan) We propose an advice mechanism called Chop&Graft for non-local flow control. It offers a novel chop pointcut that lets a piece of advice terminate the current execution, and graft and retry operators that resume and restart the terminated executions. By using pointcuts for specifying the region of termination, the mechanism is more robust and more concise than the traditional exception handling mechanisms that rely on names or exception classes. The paper presents the design of the mechanism along with the sketches of two implementations using delimited continuations or threads and exceptions. @InProceedings{MODULARITY Companion16p73, author = {Hidehiko Masuhara and Kenta Fujita and Tomoyuki Aotani}, title = {An Advice Mechanism for Non-local Flow Control}, booktitle = {Proc.\ MODULARITY Companion}, publisher = {ACM}, pages = {73--78}, doi = {}, year = {2016}, } |
7 authors
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