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In a local-first architecture that prioritizes availability in the presence of network partitions, there is a tension between two goals: merging concurrent changes without user intervention and maintaining data integrity constraints. We propose a synchronization model called forking histories which satisfies both goals in an unconventional way. In the case of conflicting writes, the model exposes multiple event histories that users can see and edit rather than converging to a single state. This allows integrity constraints to be maintained within each history while giving users flexibility in deciding when to manually reconcile conflicts. We describe a class of applications for which these integrity constraints are particularly important and propose a design for a system that implements this model. 

Tools that enable end-users to customize websites typically use a two-stage workflow: first, users extract data into a structured form; second, they use that extracted data to augment the original website in some way. This two-stage workflow poses a usability barrier because it requires users to make upfront decisions about what data to extract, rather than allowing them to incrementally extract data as they augment it. In this paper, we present a new, unified interaction model for web customization that encompasses both extraction and augmentation. The key idea is to provide users with a spreadsheet-like formula language that can be used for both data extraction and augmentation. We also provide a programming-by-demonstration (PBD) interface that allows users to create data extraction formulas by clicking on elements in the website. This model allows users to naturally and iteratively move between extraction and augmentation. To illustrate our unified interaction model, we have implemented a tool called Joker which is an extension of Wildcard, a prior web customization system. Through case studies, we show that Joker can be used to customize many real-world websites. We also present a formative user study with five participants, which showed that people with a wide range of technical backgrounds can use Joker to customize websites, and also revealed some interesting limitations of our approach. 

Many Web applications do not meet the precise needs of their users. Browser extensions offer a way to customize web applications, but most people do not have the programming skills to implement their own extensions. In this paper, we present spreadsheet-driven customization, a technique that enables end users to customize software without doing any traditional programming. The idea is to augment an application’s UI with a spreadsheet that is synchronized with the application’s data. When the user manipulates the spreadsheet, the underlying data is modified and the changes are propagated to the UI, and vice versa. We have implemented this technique in a prototype browser extension called Wildcard. Through concrete examples, we demonstrate that Wildcard can support useful customizations—ranging from sorting lists of search results to showing related data from web APIs—on top of existing websites. We also present the design principles underlying our prototype. Customization can lead to dramatically better experiences with software. We think that spreadsheet-driven customization offers a promising new approach to unlocking this benefit for all users, not just programmers. 

Customizing software should be as easy as using it. Unfortunately, most customization methods require users to abruptly shift from using a graphical interface to writing scripts in a programming language. We introduce data-driven customization, a new way for end users to extend software by direct manipulation without doing traditional programming. We augment existing user interfaces with a table view showing the structured data inside the application. When users edit the table, their changes are reflected in the original UI. This simple model accommodates a spreadsheet formula language and custom data-editing widgets, providing enough power to implement a variety of useful extensions. We illustrate the approach with Wildcard, a browser extension that implements data-driven customization on the web using web scraping. Through concrete examples, we show that this paradigm can support useful extensions to many real websites, and we share reflections from our experiences using the tool. Finally, we share our broader vision for data-driven customization: a future where end users have more access to the data inside their applications, and can more flexibly repurpose that data as part of everyday software usage.