Filling typed holes with live GUIs

Cyrus Omar, David Moon, Andrew Blinn, Ian Voysey, N. Collins, Ravi Chugh
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引用次数: 19

Abstract

Text editing is powerful, but some types of expressions are more naturally represented and manipulated graphically. Examples include expressions that compute colors, music, animations, tabular data, plots, diagrams, and other domain-specific data structures. This paper introduces live literals, or livelits, which allow clients to fill holes of types like these by directly manipulating a user-defined GUI embedded persistently into code. Uniquely, livelits are compositional: a livelit GUI can itself embed spliced expressions, which are typed, lexically scoped, and can in turn embed other livelits. Livelits are also uniquely live: a livelit can provide continuous feedback about the run-time implications of the client’s choices even when splices mention bound variables, because the system continuously gathers closures associated with the hole that the livelit is filling. We integrate livelits into Hazel, a live hole-driven programming environment, and describe case studies that exercise these novel capabilities. We then define a simply typed livelit calculus, which specifies how livelits operate as live graphical macros. The metatheory of macro expansion has been mechanized in Agda.
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用实时gui填充键入的漏洞
文本编辑功能强大,但某些类型的表达式更自然地表示和图形化处理。示例包括计算颜色、音乐、动画、表格数据、绘图、图表和其他特定于领域的数据结构的表达式。本文介绍了活文字,或活文字,它允许客户端通过直接操作用户定义的GUI来填补这些类型的漏洞,这些GUI持久化嵌入到代码中。独特的是,livelit是组合的:livelit GUI本身可以嵌入拼接的表达式,这些表达式是类型化的,具有词法作用域,并且可以反过来嵌入其他的livelit。livelit也是唯一的live:即使在拼接提到绑定变量时,livelit也可以提供关于客户端选择的运行时含义的连续反馈,因为系统不断收集与livelit正在填充的漏洞相关的闭包。我们将livelits集成到Hazel中,这是一个实时的孔驱动编程环境,并描述了应用这些新功能的案例研究。然后定义一个简单类型的livelit演算,它指定livelit如何作为实时图形宏进行操作。宏观膨胀的元理论在《议程》中被机械化了。
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