论文信息 - Recursive Structures for Standard ML

Recursive Structures for Standard ML

Standard ML is a statically typed programming language that is suited for the construction of both small and large programs. "Programming in the small" is captured by Standard ML's Core language. "Programming in the large" is captured by Standard ML's Modules language that provides constructs for organizing related Core language definitions into self-contained modules with descriptive interfaces. While the Core is used to express details of algorithms and data structures, Modules is used to express the overall architecture of a software system. In Standard ML, modular programs must have a strictly hierarchical structure: the dependency between modules can never be cyclic. In particular, definitions of mutually recursive Core types and values, that arise frequently in practice, can never span module boundaries. This limitation compromises modular programming, forcing the programmer to merge conceptually (i.e. architecturally) distinct modules. We propose a practical and simple extension of the Modules language that caters for cyclic dependencies between both types and terms defined in separate modules. Our design leverages existing features of the language, supports separate compilation of mutually recursive modules and is easy to implement.

Claudio V. Russo

[1] M. Tofte. Operational Semantics and Polymorphic Type Inference , 1988 .

[2] Xavier Leroy,et al. Applicative functors and fully transparent higher-order modules , 1995, POPL '95.

[3] Claudio V. Russo. Non-dependent Types for Standard ML Modules , 1999, PPDP.

[4] Dominic Duggan,et al. Mixin modules , 1996, ICFP '96.

[5] John C. Mitchell,et al. Higher-order modules and the phase distinction , 1989, POPL '90.

[6] Claudio V. Russo. Types for Modules , 2004, Electronic Notes in Theoretical Computer Science.

[7] Martin Elsman. Program modules, separate compilation, and intermodule optimisation , 1999, Technical report / University of Copenhagen / Datalogisk institut.

[8] Xavier Leroy,et al. Manifest types, modules, and separate compilation , 1994, POPL '94.

[9] Matthias Felleisen,et al. Units: cool modules for HOT languages , 1998, PLDI.

[10] Chris Okasaki,et al. Purely functional data structures , 1998 .

[11] Karl Crary,et al. What is a recursive module? , 1999, PLDI '99.

[12] Mark Lillibridge,et al. A type-theoretic approach to higher-order modules with sharing , 1994, POPL '94.

[13] Claudio V. Russo. First-Class Structures for Standard ML , 2000, Nord. J. Comput..

[14] Joe B. Wells,et al. Equational Reasoning for Linking with First-Class Primitive Modules , 2000, ESOP.

[15] R. Harper,et al. Toward a Practical Type Theory for Recursive Modules , 2001 .