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Craft simple regex-based small language lexers and parsers. Build parsers from grammars and accept Pygments lexers as an input. Derived from NLTK.

Project description

https://github.com/nexB/pygmars

pygmars is a simple lexing and parsing library designed to craft lightweight lexers and parsers using regular expressions.

pygmars allows you to craft simple lexers that recognizes words based on regular expressions and identify sequences of words using lightweight grammars to obtain a parse tree.

The lexing task transforms a sequence of words or strings (e.g. already split in words) in an sequence of Token objects assigning a label to each word and tracking position and line numbers.

In particular, the lexing output is designed to be compatible with the output of Pygments lexers. It becomes possible to build simple grammars on top of existing Pygments lexers to perform lightweight parsing of the many (130+) programming languages supported by Pygments.

(NOTE: Using Pygments lexers is WIP and NOT YET tested.)

The parsing task transforms a sequence of Tokens in a parse Tree where each node in the tree is recognized and assigned a label. Parsing is using regular expression-based grammar rules applied to the recognized Token sequences.

These rules are evaluated sequentially and not recursively: this keeps things simple and works very well in practice. This approach and the rules syntax has been battle-tested with NLTK from which pygmars is derived.

What about the name?

“pygmars” is a portmanteau of Pyg-ments and Gram-mars.

Origin

This library is based on heavily modified, simplified and remixed original code from NLTK regex POS tagger (renamed lexer) and regex chunker (renamed parser).

Users

pygmars is used by ScanCode Toolkit for copyright detection and for lightweight programming language parsing.

Why pygmars?

Why create this seemingly redundant library? Why not use NLTK directly?

  • NLTK has a specific focus on NLP and lexing/tagging and parsing using regexes is a tiny part of its overall feature set. These are part of rich set of taggers and parsers and implement a common API. We do not have the need for these richer APIs and they make evolving the API and refactoring the code difficult.

  • In particular NLTK POS tagging and chunking has been the engine used in ScanCode toolkit copyright and author detection and there are some improvements, simplification  and optimizations that would be difficult to implement in NLTK directly and unlikely to be accepted upstream. For instance, simplification of the code subset used for copyright detection enabled a big boost in performances. Improvements to track the Token lines and positions may not have been possible withing the NLTK API.

  • Newer versions of NLTK have several extra required dependencies that we do not need. This is turn makes every tool heavier and complex when they only use this limited NLTK subset. By stripping unused NLTK code, we get a small and focused library with no dependencies.

  • ScanCode toolkit also needs lightweight parsing of several programming languages to extract metadata (such as dependencies) from package manifests. Some parsers have been built by hand (such as gemfileparser), or use the Python ast module (for Python setup.py), or they use existing Pygments lexers as a base. A goal of this library is to be able to build lightweight parsers based on reusing Pygments lexer’s output as an input. This is fairly different from NLP in terms of goals.

Theory of operations

A pygmars.lex.Lexer creates a sequence of pygmars.Token objects such as:

Token(value="for" label="KEYWORD", start_line=12, pos=4)

where the label is a symbol name assigned to this token.

A Token is a terminal symbol and the grammar is composed of rules where the left hand side is a label aka. a non-terminal symbol and the right hand side is a regular expression-like pattern over labels.

See https://en.wikipedia.org/wiki/Terminal_and_nonterminal_symbols

A pygmars.parse.Parser is built from a pygmars.parse.Grammmar and calling its parse function transforms a sequence of Tokens in a pygmars.tree.Tree parse tree.

The grammar is composed of Rules and loaded from a text with one rule per line such as:

ASSIGNMENT: {<VARNAME> <EQUAL> <STRING|INT|FLOAT>} # variable assignment

Here the left hand side “ASSIGNMENT” label is produced when the right hand side sequence of Token labels “<VARNAME> <EQUAL> <STRING|INT|FLOAT>” is matched. “# variable assignment” is kept as a description for this rule.

License

  • SPDX-License-Identifier: Apache-2.0

Based on a substantially modified subset of the Natural Language Toolkit (NLTK) http://nltk.org/

Copyright (c) nexB Inc. and others. Copyright (C) NLTK Project

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