class Regex

• Regex
• Reference
• Object

Overview

A Regex represents a regular expression, a pattern that describes the contents of strings. A Regex can determine whether or not a string matches its description, and extract the parts of the string that match.

A Regex can be created using the literal syntax, in which it is delimited by forward slashes (/):

/hay/ =~ "haystack"   # => 0
/y/.match("haystack") # => #<Regex::MatchData "y">

Interpolation works in regular expression literals just as it does in string literals. Be aware that using this feature will cause an exception to be raised at runtime, if the resulting string would not be a valid regular expression.

x = "a"
/#{x}/.match("asdf") # => #<Regex::MatchData "a">
x = "("
/#{x}/ # raises ArgumentError

When we check to see if a particular regular expression describes a string, we can say that we are performing a match or matching one against the other. If we find that a regular expression does describe a string, we say that it matches, and we can refer to a part of the string that was described as a match.

Here "haystack" does not contain the pattern /needle/, so it doesn't match:

/needle/.match("haystack") # => nil

Here "haystack" contains the pattern /hay/, so it matches:

/hay/.match("haystack") # => #<Regex::MatchData "hay">

Regex methods that perform a match usually return a truthy value if there was a match and nil if there was no match. After performing a match, the special variable $~ will be an instance of Regex::MatchData if it matched, nil otherwise.

When matching a regular expression using #=~ (either String#=~ or Regex#=~), the returned value will be the index of the first match in the string if the expression matched, nil otherwise.

/stack/ =~ "haystack"  # => 3
"haystack" =~ /stack/  # => 3
$~                     # => #<Regex::MatchData "stack">
/needle/ =~ "haystack" # => nil
"haystack" =~ /needle/ # => nil
$~                     # raises Exception

When matching a regular expression using #match (either String#match or Regex#match), the returned value will be a Regex::MatchData if the expression matched, nil otherwise.

/hay/.match("haystack")    # => #<Regex::MatchData "hay">
"haystack".match(/hay/)    # => #<Regex::MatchData "hay">
$~                         # => #<Regex::MatchData "hay">
/needle/.match("haystack") # => nil
"haystack".match(/needle/) # => nil
$~                         # raises Exception

Regular expressions have their own language for describing strings.

Many programming languages and tools implement their own regular expression language, but Crystal uses PCRE, a popular C library for providing regular expressions. Here give a brief summary of the most basic features of regular expressions - grouping, repetition, and alternation - but the feature set of PCRE extends far beyond these, and we don't attempt to describe it in full here. For more information, refer to the PCRE documentation, especially the full pattern syntax or syntax quick reference.

The regular expression language can be used to match much more than just the static substrings in the above examples. Certain characters, called metacharacters, are given special treatment in regular expressions, and can be used to describe more complex patterns. To match metacharacters literally in a regular expression, they must be escaped by being preceded with a backslash (\). .escape will do this automatically for a given String.

A group of characters (often called a capture group or subpattern) can be identified by enclosing it in parentheses (()). The contents of each capture group can be extracted on a successful match:

/a(sd)f/.match("_asdf_")                     # => #<Regex::MatchData "asdf" 1:"sd">
/a(sd)f/.match("_asdf_").try &.[1]           # => "sd"
/a(?<grp>sd)f/.match("_asdf_")               # => #<Regex::MatchData "asdf" grp:"sd">
/a(?<grp>sd)f/.match("_asdf_").try &.["grp"] # => "sd"

Capture groups are indexed starting from 1. Methods that accept a capture group index will usually also accept 0 to refer to the full match. Capture groups can also be given names, using the (?<name>...) syntax, as in the previous example.

Following a match, the special variables $N (e.g., $1, $2, $3, ...) can be used to access a capture group. Trying to access an invalid capture group will raise an exception. Note that it is possible to have a successful match with a nil capture:

/(spice)(s)?/.match("spice") # => #<Regex::MatchData "spice" 1:"spice" 2:nil>
1                           # => "spice"
2                           # => raises Exception

This can be mitigated by using the nilable version of the above: $N?, (e.g., $1? $2?, $3?, ...). Changing the above to use $2? instead of $2 would return nil. $2?.nil? would return true.

A character or group can be repeated or made optional using an asterisk (* - zero or more), a plus sign (#+ - one or more), integer bounds in curly braces ({n,m}) (at least n, no more than m), or a question mark (?) (zero or one).

/fo*/.match("_f_")         # => #<Regex::MatchData "f">
/fo+/.match("_f_")         # => nil
/fo*/.match("_foo_")       # => #<Regex::MatchData "foo">
/fo{3,}/.match("_foo_")    # => nil
/fo{1,3}/.match("_foo_")   # => #<Regex::MatchData "foo">
/fo*/.match("_foo_")       # => #<Regex::MatchData "foo">
/fo*/.match("_foooooooo_") # => #<Regex::MatchData "foooooooo">
/fo{,3}/.match("_foooo_")  # => nil
/f(op)*/.match("fopopo")   # => #<Regex::MatchData "fopop" 1: "op">
/foo?bar/.match("foobar")  # => #<Regex::MatchData "foobar">
/foo?bar/.match("fobar")   # => #<Regex::MatchData "fobar">

Alternatives can be separated using a vertical bar (|). Any single character can be represented by dot (.). When matching only one character, specific alternatives can be expressed as a character class, enclosed in square brackets ([]):

/foo|bar/.match("foo")     # => #<Regex::MatchData "foo">
/foo|bar/.match("bar")     # => #<Regex::MatchData "bar">
/_(x|y)_/.match("_x_")     # => #<Regex::MatchData "_x_" 1: "x">
/_(x|y)_/.match("_y_")     # => #<Regex::MatchData "_y_" 1: "y">
/_(x|y)_/.match("_(x|y)_") # => nil
/_(x|y)_/.match("_(x|y)_") # => nil
/_._/.match("_x_")         # => #<Regex::MatchData "_x_">
/_[xyz]_/.match("_x_")     # => #<Regex::MatchData "_x_">
/_[a-z]_/.match("_x_")     # => #<Regex::MatchData "_x_">
/_[^a-z]_/.match("_x_")    # => nil
/_[^a-wy-z]_/.match("_x_") # => #<Regex::MatchData "_x_">

Regular expressions can be defined with these 3 optional flags:

• i: ignore case (PCRE_CASELESS)
• m: multiline (PCRE_MULTILINE and PCRE_DOTALL)
• x: extended (PCRE_EXTENDED)

/asdf/ =~ "ASDF"    # => nil
/asdf/i =~ "ASDF"   # => 0
/^z/i =~ "ASDF\nZ"  # => nil
/^z/im =~ "ASDF\nZ" # => 5

PCRE supports other encodings, but Crystal strings are UTF-8 only, so Crystal regular expressions are also UTF-8 only (by default).

PCRE optionally permits named capture groups (named subpatterns) to not be unique. Crystal exposes the name table of a Regex as a Hash of String => Int32, and therefore requires named capture groups to have unique names within a single Regex.

Defined in:

Constructors

• .new(source : String, options : Options = Options::None)

  Creates a new Regex out of the given source String.

• .union(patterns : Enumerable(Regex | String)) : self

  Union.

• .union(*patterns : Regex | String) : self

  Union.

Class Method Summary

• .error?(source)

  Determines Regex's source validity.

• .escape(str) : String

  Returns a String constructed by escaping any metacharacters in str.

Instance Method Summary

• #+(other)

  Union.

• #==(other : Regex)

  Equality.

• #===(other : String)

  Case equality.

• #===(other : JSON::Any)
• #===(other : YAML::Any)
• #=~(other : String)

  Match.

• #=~(other)

  Match.

• #clone
• #dup
• #inspect(io : IO)

  Convert to String in literal format.

• #match(str, pos = 0, options = Regex::Options::None) : MatchData?

  Match at character index.

• #match_at_byte_index(str, byte_index = 0, options = Regex::Options::None) : MatchData?

  Match at byte index.

• #name_table : Hash(UInt16, String)

  Returns a Hash where the values are the names of capture groups and the keys are their indexes.

• #options : Options

  Return a Regex::Options representing the optional flags applied to this Regex.

• #source : String

  Return the original String representation of the Regex pattern.

• #to_s(io : IO)

  Convert to String in subpattern format.

Constructor Detail

Regex.new("^a-z+:\\s+\\w+")                   # => /^a-z+:\s+\w+/
Regex.new("cat", Regex::Options::IGNORE_CASE) # => /cat/i
options = Regex::Options::IGNORE_CASE | Regex::Options::EXTENDED
Regex.new("dog", options) # => /dog/ix

re = Regex.union([/skiing/i, "sledding"])
re.match("Skiing")   # => #<Regex::MatchData "Skiing">
re.match("sledding") # => #<Regex::MatchData "sledding">
re = Regex.union({/skiing/i, "sledding"})
re.match("Skiing")   # => #<Regex::MatchData "Skiing">
re.match("sledding") # => #<Regex::MatchData "sledding">

re = Regex.union(/skiing/i, "sledding")
re.match("Skiing")   # => #<Regex::MatchData "Skiing">
re.match("sledding") # => #<Regex::MatchData "sledding">

Class Method Detail

Regex.error?("(foo|bar)") # => nil
Regex.error?("(foo|bar")  # => "missing ) at 8"

string = Regex.escape("\*?{}.") # => "\\*\\?\\{\\}\\."
/#{string}/                     # => /\*\?\{\}\./

Instance Method Detail

re = /skiing/i + /sledding/
re.match("Skiing")   # => #<Regex::MatchData "Skiing">
re.match("sledding") # => #<Regex::MatchData "sledding">

/abc/ == /abc/i  # => false
/abc/i == /ABC/i # => false
/abc/i == /abc/i # => true

a = "HELLO"
b = case a
    when /^[a-z]*$/
      "Lower case"
    when /^[A-Z]*$/
      "Upper case"
    else
      "Mixed case"
    end
b # => "Upper case"

/at/ =~ "input data" # => 7
/ax/ =~ "input data" # => nil

/at/ =~ "input data" # => 7
/ax/ =~ "input data" # => nil

/ab+c/ix.inspect # => "/ab+c/ix"

/(.)(.)(.)/.match("abc").try &.[2]   # => "b"
/(.)(.)/.match("abc", 1).try &.[2]   # => "c"
/(.)(.)/.match("クリスタル", 3).try &.[2] # => "ル"

/(.)(.)(.)/.match_at_byte_index("abc").try &.[2]   # => "b"
/(.)(.)/.match_at_byte_index("abc", 1).try &.[2]   # => "c"
/(.)(.)/.match_at_byte_index("クリスタル", 3).try &.[2] # => "ス"

/(.)/.name_table                         # => {}
/(?<foo>.)/.name_table                   # => {1 => "foo"}
/(?<foo>.)(?<bar>.)/.name_table          # => {2 => "bar", 1 => "foo"}
/(.)(?<foo>.)(.)(?<bar>.)(.)/.name_table # => {4 => "bar", 2 => "foo"}

/ab+c/ix.options      # => Regex::Options::IGNORE_CASE | Regex::Options::EXTENDED
/ab+c/ix.options.to_s # => "IGNORE_CASE, EXTENDED"

/ab+c/x.source # => "ab+c"

re = /A*/i                 # => /A*/i
re.to_s                    # => "(?i-msx:A*)"
"Crystal".match(/t#{re}l/) # => #<Regex::MatchData "tal">
re = /A*/                  # => "(?-imsx:A*)"
"Crystal".match(/t#{re}l/) # => nil