package cfg
Install
Dune Dependency
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Maintainers
Sources
sha256=ec9b218221f0efafc17b0ccdcfcc6bff436f25d3e5490d0c62de462d796c5545
md5=41bec576ab6af8872ca9eba147cb3a98
Description
CFG is a library for verifying and manipulating context-free grammars.
Published: 02 Aug 2017
README
CFG - Manipulation of Context-Free Grammars
What is CFG?
This OCaml-library consists of a set of modules which implement functions for analyzing and manipulating context-free grammars (CFGs) in a purely functional way.
The core-module cfg_impl.ml
contains a functor which allows the parameterization of the main transformation functions with arbitrary grammar entities (terminals, nonterminals, productions). See the interface in cfg_intf.ml
and the BNF-example.
Thus, you may use this module for any kind of symbolic system that is equivalent to a context-free grammar. This includes, for example, specifications of algebraic data types, which are isomorphic.
Using CFG
Besides building up grammars with the single function add_prod
, some powerful functions allow you to construct new grammars from old ones: union
, diff
, inter
. These functions behave somewhat like their set counterparts. E.g. inter
will generate the intersection of all grammar entities (common nonterminals and their common productions).
Further manipulation functions exist for:
Pruning unproductive productions and nonterminals: they contain references to nonexistent symbols.
Pruning nonlive entities: such symbols and productions only exist in cyclic derivations from which there is no escape.
Pruning unreachable entities: such symbols and productions cannot be reached from the start symbol.
Generating a 'sane' grammar: combines the above steps. In such grammars each entity is useful.
Functions for getting information on grammars:
Calculating the minimum number of derivations necessary to derive nonterminals and productions. This step is performed during pruning of nonlive symbols, because this process allows the easy collection of this information.
Because the implementation is purely functional, the library can safely and efficiently export its internal representation without copying.
Due to the applicative nature of the library, which allows a lot of sharing in memory (persistence), it should be useful for handling large grammars efficiently.
Documentation of Functions
For details see the API documentation in cfg_intf.ml
or consult the latest online API documentation.
BNF-Example
The example in examples/bnf
uses CFGs in traditional BNF-notation, which represents terminals and nonterminals as plain strings. It reads in a grammar specification from stdin
and prints information about the grammar. Here is an example invocation (from top directory in the distribution after building):
bnf.native < examples/bnf/test.bnf
You cannot have several productions that contain the same terminals and nonterminals in the same order, because this BNF-example uses the unit-type for tagging productions. This does not allow for differences other than of syntactical nature.
Thus, if you want to be able to distinguish between two productions which are otherwise structurally equivalent, just parameterize the CFG-module so that productions receive an additional tag to make them unequal.
This allows you, for example, to use the library for doing transformations on grammars for abstract syntax, where productions carry additional information concerning static semantics (e.g. attributes). Two syntactically identical productions may have different semantics then and will not be treated the same.
Contact Information and Contributing
Please submit bugs reports, feature requests, contributions and similar to the GitHub issue tracker.
Up-to-date information is available at: https://mmottl.github.io/cfg