We propose a new programming model for web applications which is (1) seamless; one program and one language is used to produce code for both client and server, (2) client-centric; the programmer takes the viewpoint of the client that runs code on the server rather than the other way around, (3) functional and type-safe, and (4) portable; everything is implemented as a Haskell library that implicitly takes care of all networking code. Our aim is to improve the painful and error-prone experience of today's standard development methods, in which clients and servers are coded in different languages and communicate with each other using ad-hoc protocols. We present the design of our library called Haste.App, an example web application that uses it, and discuss the implementation and the compiler technology on which it depends.
We present Aplite, a domain-specific language embedded in Haskell for implementing performance-critical functions in client-side web applications. In Aplite, we apply partial evaluation, multi-stage programming and techniques adapted from machine code-targeting, high-performance EDSLs to the domain of web applications. We use Aplite to implement, among other benchmarks, procedural animation using Perlin noise, symmetrical encryption and K-means clustering, showing Aplite to be consistently faster than equivalent hand-written JavaScript -- up to an order of magnitude for some benchmarks. We also demonstrate how Aplite's multi-staged nature can be used to automatically tune programs to the environment in which they are running, as well as to inputs representative of the programs' intended workload. High-performance computation in the web browser is an attractive goal for many reasons: interactive simulations and games, cryptographic applications and reducing web companies' electricity bills by outsourcing expensive computations to users' web browsers. Similarly, functional programming in the browser is attractive due to its promises of simpler, shorter, safer programs. In this paper, we propose a way to combine the two.
We present a domain-specific language for constructing and configuring web applications distributed across any number of networked, heterogeneous systems. Our language is embedded in Haskell, provides a common framework for integrating components written in third-party EDSLs, and enables type-safe, access-controlled communication between nodes, as well as effortless sharing and movement of functionality between application components. We give an implementation of our language and demonstrate its applicability by using it to implement several important components of distributed web applications, including RDBMS integration, load balancing, and fine-grained sandboxing of untrusted third party code. The rising popularity of cloud computing and heterogeneous computer architectures is putting a strain on conventional programming models, which commonly assume that one application executes on one machine, or at best on one out of several identical machines. With our language, we take the first step towards a programming model better suited for a computationally multicultural future.
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