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For any programming language that supports macros and has multiple implementations (each with different AST definitions), there is a common problem: how to make macros that operate on ASTs portable among different compiler implementations? Implementing portable macros is especially important for statically typed languages like Scala, as IDE vendors usually have different implementations of the language in order to support rich IDE features. Unportable macros compromise IDE features and degrade programming experience. We describe two approaches to the portability problem based on two different views on macros: (1) the tree-based approach, which views macros as operations on abstract syntax trees, solves the problem by defining standard abstract syntax trees; (2) the syntax-based approach, which views macros as operations on abstract syntax, solves the problem by defining standard abstract syntax. We show that the latter has significant practical advantages, especially in supporting semantic macros that use type information of ASTs to transform user code. Based on the idea, we implemented a new macro system, Gestalt, for the experimental Scala compiler, Dotty. The new implementation solves several long-standing problems of the current Scala macro system and demonstrates advantages over alternative approaches. Our solution has been adopted in the official new Scala macro system.
Martin Odersky, Olivier Eric Paul Blanvillain
Martin Odersky, Nicolas Alexander Stucki, Jonathan Immanuel Brachthäuser