Regexp::Parser
What?
A ruby library to help with lexing, parsing, and transforming regular expressions.
-
Multilayered
-
A scanner based on ragel
-
A lexer that produces a “stream” of tokens
-
A parser that produces a “tree” of Regexp::Expression objects (OO API)
-
-
Lexes and parses both 1.8 and 1.9 regular expression flavors
-
Supports ruby 1.8 and 1.9 runtime
For an example of regexp_parser in use, see the meta_re project
Requirements
-
ruby ‘1.8.6’..‘1.9.2’
-
ragel, but only if you want to hack on the scanner
Install
gem install regexp_parser
Components
Scanner
A ragel generated scanner that recognizes the cumulative syntax of both supported flavors. Breaks the expression’s text into tokens, including their type, token, text, and start/end offsets within the original pattern.
Example
The following scans the given pattern and prints out the type, token, text and start/end offsets for each token found.
require 'regexp_parser'
Regexp::Scanner.scan /(ab?(cd)*[e-h]+)/ do |type, token, text, ts, te|
puts "type: #{type}, token: #{token}, text: '#{text}' [#{ts}..#{te}]"
end
A one-liner that returns an array of the textual parts of the given pattern:
Regexp::Scanner.scan( /(cat?([b]at)){3,5}/ ).map {|token| token[2]}
#=> ["(", "cat", "?", "(", "[", "b", "]", "at", ")", ")", "{3,5}"]
Notes
* The scanner performs basic syntax error checking, like detecting missing
balancing punctuation and premature end of pattern. Flavor validity checks
are performed in the lexer.
* To keep the scanner simple(r) and fairly reusable for other uses, it
does not perform lexical analysis on the tokens, sticking to the task
of tokenizing and leaving lexical analysis upto to the lexer.
* If the input is a ruby Regexp object, the scanner calls #source on it to
get its string representation. #source does not include the options of
expression (m, i, and x) To include the options the scan, #to_s should
be called on the Regexp before passing it to the scanner, or any of the
higher layers.
Syntax
Defines the supported tokens for a specific engine implementation (aka a flavor). Syntax classes act as lookup tables, and are layered to create flavor variations. Syntax only comes into play in the lexer.
Example
The following instantiates the syntax for Ruby 1.9 and checks a couple of its implementations features, and then does the same for Ruby 1.8:
require 'regexp_parser'
ruby_19 = Regexp::Syntax.new 'ruby/1.9'
ruby_19.implements? :quantifier, :zero_or_one # => true
ruby_19.implements? :quantifier, :zero_or_one_reluctant # => true
ruby_19.implements? :quantifier, :zero_or_one_possessive # => true
ruby_18 = Regexp::Syntax.new 'ruby/1.8'
ruby_18.implements? :quantifier, :zero_or_one # => true
ruby_18.implements? :quantifier, :zero_or_one_reluctant # => true
ruby_18.implements? :quantifier, :zero_or_one_possessive # => false
Notes
* Variatiions on a token, for example a named group with < and > vs one with a
pair of single quotes, are specified with an underscore followed by two
characters appended to the base token. In the previous named group example,
the tokens would be :named_ab (angle brackets) and :named_sq (single quotes).
These variations are normalized by the syntax to :named.
TODO
* Add flavor limits: like Ruby 1.8's maximum allowed number of grouped
expressions (253).
Lexer
Sits on top of the scanner and performs lexical analysis on the tokens that it emits. Among its tasks are breaking quantified literal runs, collecting the emitted token structures into an array of Token objects, calculating their nesting depth, normalizing tokens for the parser, and checkng if the tokens are implemented by the given syntax flavor.
Tokens objects are Structs, basically data objects, with a few helper methods, like #next, #previous, #offsets and #length.
Example
The following example scans the given pattern, checks it against the ruby 1.8 syntax, and prints the token objects’ text.
require 'regexp_parser'
Regexp::Lexer.scan(/a?(b)*[c]+/, 'ruby/1.8') do |token|
puts "#{' ' * token.depth}#{token.text}"
end
A one-liner that returns an array of the textual parts of the given pattern. Compare the output with that of the one-liner example of the Scanner.
Regexp::Lexer.scan( /(cat?([b]at)){3,5}/ ).map {|token| token.text}
#=> ["(", "ca", "t", "?", "(", "[", "b", "]", "at", ")", ")", "{3,5}"]
Notes
* The default syntax is that of the latest released version of ruby.
* The lexer performs some basic parsing to determine the depth of a the
emitted tokens. This responsibility might be relegated to the scanner.
Parser
Sits on top of the lexer and transforms the “stream” of Token objects emitted by it into a tree of Expression objects represented by an instance of the Expression::Root class. See Expression below for more information.
Example
require 'regexp_parser'
regex = /a?(b)*[c]+/m
# using #to_s on the Regexp object to include options
root = Regexp::Parser.parse( regex.to_s, 'ruby/1.8')
root.multiline? # => true (aliased as m?)
root.case_insensitive? # => false (aliased as i?)
# simple tree walking method
def walk(e, depth = 0)
puts "#{' ' * depth}> #{e.class}"
unless e.expressions.empty?
e.each {|s| walk(s, depth+1) }
end
end
walk(root)
# output
> Regexp::Expression::Root
> Regexp::Expression::Literal
> Regexp::Expression::Group::Capture
> Regexp::Expression::Literal
> Regexp::Expression::CharacterSet
Note: quantifiers do not appear in the output because they are members of the Expression class. See the next section for more details.
Expression
The base class of all objects returned by the parser, implements most of the functions that are common to all expression classes.
Each Expression object contains the following members:
* quantifier: an instance of Expression::Quantifier that holds the details
of repetition for the Expression. Has a nil value if the expressions is not
quantified.
* expressions: an array, holds the sub-expressions for the expression if it
is a group or alternation expression. Empty if the expression doesn't have
sub-expressions.
* options: a hash, holds the keys :i, :m, and :x with a boolean value that
indicates if the expression has a given option.
Expressions also contain the following “lower level” members (from the scanner/lexer)
* type: a symbol, denoting the expression type, such as :group, :quantifier
* token: a symbol, for the object's token, or opening token (in the case of
groups and sets)
* text: a string, the text of the expression (same as token for nesting expressions)
Every expressions also has the following methods:
* to_s: returns the string representation of the expression.
* <<: adds sub-expresions to the expression.
* each: iterates over the expressions sub-expressions, if any.
* []: access sub-expressions by index.
* quantified?: return true if the expressions was followed by a quantifier.
* quantity: returns an array of the expression's min and max repetitions.
* greedy?: returns true if the expression's quantifier is greedy.
* reluctant? or lazy?: returns true if the expression's quantifier is
reluctant.
* possessive?: returns true if the expression's quantifier is possessive.
* multiline? or m?: returns true if the expression has the m option
* case_insensitive? or ignore_case? or i?: returns true if the expression
has the i option
* free_spacing? or extended? or x?: returns true if the expression has the x
option
A special expression class Expression::Sequence is used to hold the array of possible alternatives within an Expression::Alternation expression.
Scanner Syntax
The following syntax elements are supported by the scanner.
- Alternation: a|b|c, etc.
- Anchors: ^, $, \b, etc.
- Character Classes (aka Sets): [abc], [^\]]
- Character Types: \d, \H, \s, etc.
- Escape Sequences: \t, \+, \?, etc.
- Grouped Expressions
- Assertions
- Lookahead: (?=abc)
- Negative Lookahead: (?!abc)
- Lookabehind: (?<=abc)
- Negative Lookbehind: (?<\!abc)
- Atomic: (?>abc)
- Back-references:
- Named: \k<name>
- Nest Level: \k<n-1>
- Numbered: \k<1>
- Relative: \k<-2>
- Capturing: (abc)
- Comment: (?# comment)
- Named: (?<name>abc)
- Options: (?mi-x:abc)
- Passive: (?:abc)
- Sub-expression Calls: \g<name>, \g<1>
- Literals: abc, def?, etc.
- POSIX classes: [:alpha:], [:print:], etc.
- Quantifiers
- Greedy: ?, *, +, {m,M}
- Reluctant: ??, *?, +?, {m,M}?
- Possessive: ?+, *+, ++, {m,M}+
- String Escapes
- Control: \C-C, \cD, etc.
- Hex: \x20, \x{701230}, etc.
- Meta: \M-c, \M-\C-C etc.
- Octal: \0, \01, \012
- Unicode: \uHHHH, \u{H+ H+}
- Traditional Back-references: \1 thru \9
- Unicode Properties:
- Age: \p{Age=2.1}, \P{age=5.2}, etc.
- Classes: \p{Alpha}, \P{Space}, etc.
- Derived Properties: \p{Math}, \P{Lowercase}, etc.
- General Categories: \p{Lu}, \P{Cs}, etc.
- Scripts: \p{Arabic}, \P{Hiragana}, etc.
- Simple Properties: \p{Dash}, \p{Extender}, etc.
See something missing? Please submit an issue
References
Documentation and information being read while working on this project.
Ruby Flavors
General
-
Enumerating the strings of regular languages link
-
Mastering Regular Expressions, By Jeffrey E.F. Friedl (2nd Edition) book
-
Regular Expression Flavor Comparison link
Unicode
-
Unicode Derived Properties link
-
Unicode Explained, By Jukka K. Korpela. book
-
Unicode Property Aliases link
-
Unicode Regular Expressions link
-
Unicode Standard Annex #44 link
Thanks
This work is based on and inspired by the hard work and ideas of many people, directly or indirectly. The following are only a few of those that should be thanked.
-
Adrian Thurston, for developing ragel.
-
Caleb Clausen, for feedback, which inspired this, valuable insights on structuring the parser, and lots of cool code.
-
Jan Goyvaerts, for his excellent resource on regular expressions. I owe him a “steak dinner”, at least.
-
Run Paint Run Run, for his work on Read Ruby
-
Yukihiro Matsumoto, of course! For “The Ruby”, of course!
Copyright
Copyright © 2010 Ammar Ali. See LICENSE file for details.