# Regexp::Parser [![Gem Version](https://badge.fury.io/rb/regexp_parser.svg)](http://badge.fury.io/rb/regexp_parser) [![Build Status](https://github.com/ammar/regexp_parser/workflows/tests/badge.svg)](https://github.com/ammar/regexp_parser/actions) [![Build Status](https://github.com/ammar/regexp_parser/workflows/gouteur/badge.svg)](https://github.com/ammar/regexp_parser/actions) [![Code Climate](https://codeclimate.com/github/ammar/regexp_parser.svg)](https://codeclimate.com/github/ammar/regexp_parser/badges) A Ruby gem for tokenizing, parsing, and transforming regular expressions. * Multilayered * A scanner/tokenizer based on [Ragel](http://www.colm.net/open-source/ragel/) * A lexer that produces a "stream" of [Token objects](https://github.com/ammar/regexp_parser/wiki/Token-Objects) * A parser that produces a "tree" of [Expression objects (OO API)](https://github.com/ammar/regexp_parser/wiki/Expression-Objects) * Runs on Ruby 2.x, 3.x and JRuby runtimes * Recognizes Ruby 1.8, 1.9, 2.x and 3.x regular expressions [See Supported Syntax](#supported-syntax) _For examples of regexp_parser in use, see [Example Projects](#example-projects)._ --- ## Requirements * Ruby >= 2.0 * Ragel >= 6.0, but only if you want to build the gem or work on the scanner. --- ## Install Install the gem with: `gem install regexp_parser` Or, add it to your project's `Gemfile`: ```gem 'regexp_parser', '~> X.Y.Z'``` See the badge at the top of this README or [rubygems](https://rubygems.org/gems/regexp_parser) for the the latest version number. --- ## Usage The three main modules are **Scanner**, **Lexer**, and **Parser**. Each of them provides a single method that takes a regular expression (as a Regexp object or a string) and returns its results. The **Lexer** and the **Parser** accept an optional second argument that specifies the syntax version, like 'ruby/2.0', which defaults to the host Ruby version (using RUBY_VERSION). Here are the basic usage examples: ```ruby require 'regexp_parser' Regexp::Scanner.scan(regexp) Regexp::Lexer.lex(regexp) Regexp::Parser.parse(regexp) ``` All three methods accept a block as the last argument, which, if given, gets called with the results as follows: * **Scanner**: the block gets passed the results as they are scanned. See the example in the next section for details. * **Lexer**: after completion, the block gets passed the tokens one by one. _The result of the block is returned._ * **Parser**: after completion, the block gets passed the root expression. _The result of the block is returned._ All three methods accept either a `Regexp` or `String` (containing the pattern) - if a String is passed, `options` can be supplied: ```ruby require 'regexp_parser' Regexp::Parser.parse( "a+ # Recognizes a and A...", options: ::Regexp::EXTENDED | ::Regexp::IGNORECASE ) ``` --- ## Components ### Scanner A Ragel-generated scanner that recognizes the cumulative syntax of all supported syntax versions. It breaks a given expression's text into the smallest parts, and identifies their type, token, text, and start/end offsets within the pattern. #### Example The following scans the given pattern and prints out the type, token, text and start/end offsets for each token found. ```ruby 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 # output # type: group, token: capture, text: '(' [0..1] # type: literal, token: literal, text: 'ab' [1..3] # type: quantifier, token: zero_or_one, text: '?' [3..4] # type: group, token: capture, text: '(' [4..5] # type: literal, token: literal, text: 'cd' [5..7] # type: group, token: close, text: ')' [7..8] # type: quantifier, token: zero_or_more, text: '*' [8..9] # type: set, token: open, text: '[' [9..10] # type: set, token: range, text: 'e-h' [10..13] # type: set, token: close, text: ']' [13..14] # type: quantifier, token: one_or_more, text: '+' [14..15] # type: group, token: close, text: ')' [15..16] ``` A one-liner that uses map on the result of the scan to return the textual parts of the pattern: ```ruby Regexp::Scanner.scan(/(cat?([bhm]at)){3,5}/).map { |token| token[2] } #=> ["(", "cat", "?", "(", "[", "b", "h", "m", "]", "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, which uses a syntax object. * 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 the expression (m, i, and x). To include the options in the scan, #to_s should be called on the **Regexp** before passing it to the scanner or the lexer. For the parser, however, this is not necessary. It automatically exposes the options of a passed **Regexp** in the returned root expression. * To keep the scanner simple(r) and fairly reusable for other purposes, it does not perform lexical analysis on the tokens, sticking to the task of identifying the smallest possible tokens and leaving lexical analysis to the lexer. * The MRI implementation may accept expressions that either conflict with the documentation or are undocumented, like `{}` and `]` _(unescaped)_. The scanner will try to support as many of these cases as possible. --- ### 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 fetches syntax objects for Ruby 2.0, 1.9, 1.8, and checks a few of their implementation features. ```ruby require 'regexp_parser' ruby_20 = Regexp::Syntax.for 'ruby/2.0' ruby_20.implements? :quantifier, :zero_or_one # => true ruby_20.implements? :quantifier, :zero_or_one_reluctant # => true ruby_20.implements? :quantifier, :zero_or_one_possessive # => true ruby_20.implements? :conditional, :condition # => true ruby_19 = Regexp::Syntax.for '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_19.implements? :conditional, :condition # => false ruby_18 = Regexp::Syntax.for '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 ruby_18.implements? :conditional, :condition # => false ``` Syntax objects can also be queried about their complete and relative feature sets. ```ruby require 'regexp_parser' ruby_20 = Regexp::Syntax.for 'ruby/2.0' # => Regexp::Syntax::V2_0_0 ruby_20.added_features # => { conditional: [...], ... } ruby_20.removed_features # => { property: [:newline], ... } ruby_20.features # => { anchor: [...], ... } ``` #### Notes * Variations on a token, for example a named group with angle brackets (< 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. --- ### 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 attributes into Token objects, calculating their nesting depth, normalizing tokens for the parser, and checking if the tokens are implemented by the given syntax version. See the [Token Objects](https://github.com/ammar/regexp_parser/wiki/Token-Objects) wiki page for more information on Token objects. #### Example The following example lexes the given pattern, checks it against the Ruby 1.9 syntax, and prints the token objects' text indented to their level. ```ruby require 'regexp_parser' Regexp::Lexer.lex(/a?(b(c))*[d]+/, 'ruby/1.9') do |token| puts "#{' ' * token.level}#{token.text}" end # output # a # ? # ( # b # ( # c # ) # ) # * # [ # d # ] # + ``` 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**; notably how the sequence 'cat' is treated. The 't' is separated because it's followed by a quantifier that only applies to it. ```ruby Regexp::Lexer.scan(/(cat?([b]at)){3,5}/).map { |token| token.text } #=> ["(", "ca", "t", "?", "(", "[", "b", "]", "at", ")", ")", "{3,5}"] ``` #### Notes * The syntax argument is optional. It defaults to the version of the Ruby interpreter in use, as returned by RUBY_VERSION. * The lexer normalizes some tokens, as noted in the Syntax section above. --- ### 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 the [Expression Objects](https://github.com/ammar/regexp_parser/wiki/Expression-Objects) wiki page for attributes and methods. #### Example ```ruby require 'regexp_parser' regex = /a?(b+(c)d)*(?[0-9]+)/ tree = Regexp::Parser.parse(regex, 'ruby/2.1') tree.traverse do |event, exp| puts "#{event}: #{exp.type} `#{exp.to_s}`" end # Output # visit: literal `a?` # enter: group `(b+(c)d)*` # visit: literal `b+` # enter: group `(c)` # visit: literal `c` # exit: group `(c)` # visit: literal `d` # exit: group `(b+(c)d)*` # enter: group `(?[0-9]+)` # visit: set `[0-9]+` # exit: group `(?[0-9]+)` ``` Another example, using each_expression and strfregexp to print the object tree. _See the traverse.rb and strfregexp.rb files under `lib/regexp_parser/expression/methods` for more information on these methods._ ```ruby include_root = true indent_offset = include_root ? 1 : 0 tree.each_expression(include_root) do |exp, level_index| puts exp.strfregexp("%>> %c", indent_offset) end # Output # > Regexp::Expression::Root # > Regexp::Expression::Literal # > Regexp::Expression::Group::Capture # > Regexp::Expression::Literal # > Regexp::Expression::Group::Capture # > Regexp::Expression::Literal # > Regexp::Expression::Literal # > Regexp::Expression::Group::Named # > Regexp::Expression::CharacterSet ``` _Note: quantifiers do not appear in the output because they are members of the Expression class. See the next section for details._ --- ## Supported Syntax The three modules support all the regular expression syntax features of Ruby 1.8, 1.9, 2.x and 3.x: _Note that not all of these are available in all versions of Ruby_ | Syntax Feature | Examples | ⋯ | | ------------------------------------- | ------------------------------------------------------- |:--------:| | **Alternation** | `a\|b\|c` | ✓ | | **Anchors** | `\A`, `^`, `\b` | ✓ | | **Character Classes** | `[abc]`, `[^\\]`, `[a-d&&aeiou]`, `[a=e=b]` | ✓ | | **Character Types** | `\d`, `\H`, `\s` | ✓ | | **Cluster Types** | `\R`, `\X` | ✓ | | **Conditional Exps.** | `(?(cond)yes-subexp)`, `(?(cond)yes-subexp\|no-subexp)` | ✓ | | **Escape Sequences** | `\t`, `\\+`, `\?` | ✓ | | **Free Space** | whitespace and `# Comments` _(x modifier)_ | ✓ | | **Grouped Exps.** | | ⋱ | |   _**Assertions**_ | | ⋱ | |   _Lookahead_ | `(?=abc)` | ✓ | |   _Negative Lookahead_ | `(?!abc)` | ✓ | |   _Lookbehind_ | `(?<=abc)` | ✓ | |   _Negative Lookbehind_ | `(?abc)` | ✓ | |   _**Absence**_ | `(?~abc)` | ✓ | |   _**Back-references**_ | | ⋱ | |   _Named_ | `\k` | ✓ | |   _Nest Level_ | `\k` | ✓ | |   _Numbered_ | `\k<1>` | ✓ | |   _Relative_ | `\k<-2>` | ✓ | |   _Traditional_ | `\1` through `\9` | ✓ | |   _**Capturing**_ | `(abc)` | ✓ | |   _**Comments**_ | `(?# comment text)` | ✓ | |   _**Named**_ | `(?abc)`, `(?'name'abc)` | ✓ | |   _**Options**_ | `(?mi-x:abc)`, `(?a:\s\w+)`, `(?i)` | ✓ | |   _**Passive**_ | `(?:abc)` | ✓ | |   _**Subexp. Calls**_ | `\g`, `\g<1>` | ✓ | | **Keep** | `\K`, `(ab\Kc\|d\Ke)f` | ✓ | | **Literals** _(utf-8)_ | `Ruby`, `ルビー`, `روبي` | ✓ | | **POSIX Classes** | `[:alpha:]`, `[:^digit:]` | ✓ | | **Quantifiers** | | ⋱ | |   _**Greedy**_ | `?`, `*`, `+`, `{m,M}` | ✓ | |   _**Reluctant** (Lazy)_ | `??`, `*?`, `+?` \[1\] | ✓ | |   _**Possessive**_ | `?+`, `*+`, `++` \[1\] | ✓ | | **String Escapes** | | ⋱ | |   _**Control** \[2\]_ | `\C-C`, `\cD` | ✓ | |   _**Hex**_ | `\x20`, `\x{701230}` | ✓ | |   _**Meta** \[2\]_ | `\M-c`, `\M-\C-C`, `\M-\cC`, `\C-\M-C`, `\c\M-C` | ✓ | |   _**Octal**_ | `\0`, `\01`, `\012` | ✓ | |   _**Unicode**_ | `\uHHHH`, `\u{H+ H+}` | ✓ | | **Unicode Properties** | _([Unicode 13.0.0])_ | ⋱ | |   _**Age**_ | `\p{Age=5.2}`, `\P{age=7.0}`, `\p{^age=8.0}` | ✓ | |   _**Blocks**_ | `\p{InArmenian}`, `\P{InKhmer}`, `\p{^InThai}` | ✓ | |   _**Classes**_ | `\p{Alpha}`, `\P{Space}`, `\p{^Alnum}` | ✓ | |   _**Derived**_ | `\p{Math}`, `\P{Lowercase}`, `\p{^Cased}` | ✓ | |   _**General Categories**_ | `\p{Lu}`, `\P{Cs}`, `\p{^sc}` | ✓ | |   _**Scripts**_ | `\p{Arabic}`, `\P{Hiragana}`, `\p{^Greek}` | ✓ | |   _**Simple**_ | `\p{Dash}`, `\p{Extender}`, `\p{^Hyphen}` | ✓ | [Unicode 13.0.0]: https://www.unicode.org/versions/Unicode13.0.0/ **\[1\]**: Ruby does not support lazy or possessive interval quantifiers. Any `+` or `?` that follows an interval quantifier will be treated as another, chained quantifier. See also [#3](https://github.com/ammar/regexp_parser/issue/3), [#69](https://github.com/ammar/regexp_parser/pull/69). **\[2\]**: As of Ruby 3.1, meta and control sequences are [pre-processed to hex escapes when used in Regexp literals](https://github.com/ruby/ruby/commit/11ae581), so they will only reach the scanner and will only be emitted if a String or a Regexp that has been built with the `::new` constructor is scanned. ##### Inapplicable Features Some modifiers, like `o` and `s`, apply to the **Regexp** object itself and do not appear in its source. Other such modifiers include the encoding modifiers `e` and `n` [See](http://www.ruby-doc.org/core-2.5.0/Regexp.html#class-Regexp-label-Encoding). These are not seen by the scanner. The following features are not currently enabled for Ruby by its regular expressions library (Onigmo). They are not supported by the scanner. - **Quotes**: `\Q...\E` _[[See]](https://github.com/k-takata/Onigmo/blob/7911409/doc/RE#L499)_ - **Capture History**: `(?@...)`, `(?@...)` _[[See]](https://github.com/k-takata/Onigmo/blob/7911409/doc/RE#L550)_ See something missing? Please submit an [issue](https://github.com/ammar/regexp_parser/issues) _**Note**: Attempting to process expressions with unsupported syntax features can raise an error, or incorrectly return tokens/objects as literals._ ## Testing To run the tests simply run rake from the root directory. The default task generates the scanner's code from the Ragel source files and runs all the specs, thus it requires Ragel to be installed. Note that changes to Ragel files will not be reflected when running `rspec` on its own, so to run individual tests you might want to run: ``` rake ragel:rb && rspec spec/scanner/properties_spec.rb ``` ## Building Building the scanner and the gem requires [Ragel](http://www.colm.net/open-source/ragel/) to be installed. The build tasks will automatically invoke the 'ragel:rb' task to generate the Ruby scanner code. The project uses the standard rubygems package tasks, so: To build the gem, run: ``` rake build ``` To install the gem from the cloned project, run: ``` rake install ``` ## Example Projects Projects using regexp_parser. - [capybara](https://github.com/teamcapybara/capybara) is an integration testing tool that uses regexp_parser to convert Regexps to css/xpath selectors. - [js_regex](https://github.com/jaynetics/js_regex) converts Ruby regular expressions to JavaScript-compatible regular expressions. - [meta_re](https://github.com/ammar/meta_re) is a regular expression preprocessor with alias support. - [mutant](https://github.com/mbj/mutant) manipulates your regular expressions (amongst others) to see if your tests cover their behavior. - [repper](https://github.com/jaynetics/repper) is a regular expression pretty-printer and formatter for Ruby. - [rubocop](https://github.com/rubocop-hq/rubocop) is a linter for Ruby that uses regexp_parser to lint Regexps. - [twitter-cldr-rb](https://github.com/twitter/twitter-cldr-rb) is a localization helper that uses regexp_parser to generate examples of postal codes. ## References Documentation and books used while working on this project. #### Ruby Flavors * Oniguruma Regular Expressions (Ruby 1.9.x) [link](https://github.com/kkos/oniguruma/blob/master/doc/RE) * Onigmo Regular Expressions (Ruby >= 2.0) [link](https://github.com/k-takata/Onigmo/blob/master/doc/RE) #### Regular Expressions * Mastering Regular Expressions, By Jeffrey E.F. Friedl (2nd Edition) [book](http://oreilly.com/catalog/9781565922570/) * Regular Expression Flavor Comparison [link](http://www.regular-expressions.info/refflavors.html) * Enumerating the strings of regular languages [link](http://www.cs.dartmouth.edu/~doug/nfa.ps.gz) * Stack Overflow Regular Expressions FAQ [link](http://stackoverflow.com/questions/22937618/reference-what-does-this-regex-mean/22944075#22944075) #### Unicode * Unicode Explained, By Jukka K. Korpela. [book](http://oreilly.com/catalog/9780596101213) * Unicode Derived Properties [link](http://www.unicode.org/Public/UNIDATA/DerivedCoreProperties.txt) * Unicode Property Aliases [link](http://www.unicode.org/Public/UNIDATA/PropertyAliases.txt) * Unicode Regular Expressions [link](http://www.unicode.org/reports/tr18/) * Unicode Standard Annex #44 [link](http://www.unicode.org/reports/tr44/) --- ##### Copyright _Copyright (c) 2010-2022 Ammar Ali. See LICENSE file for details._