Categorial grammars with unique category assignment

Abstract

A categorial grammar assigns one of several syntactic categories to each symbol of the alphabet, and the category of a string is then deduced from the categories assigned to its symbols using two simple reduction rules. This paper investigates a special class of categorial grammars, in which only one category is assigned to each symbol, thus eliminating ambiguity on the lexical level (in linguistic terms, a unique part of speech is assigned to each word). While unrestricted categorial grammars are equivalent to the context-free grammars, the proposed subclass initially appears weak, as it cannot define even some regular languages. It is proved in the paper that it is actually powerful enough to define a homomorphic encoding of every context-free language, in the sense that for every context-free language L over an alphabet there is a language L' over some alphabet defined by categorial grammar with unique category assignment and a homomorphism h +, such that a string w is in L if and only if h(w) is in L'. In particular, in Greibach's hardest context-free language theorem, it is sufficient to use a hardest language defined by a categorial grammar with unique category assignment.