# encoding: UTF-8
module Twitter
# A collection of regular expressions for parsing Tweet text. The regular expression
# list is frozen at load time to ensure immutability. These regular expressions are
# used throughout the Twitter classes. Special care has been taken to make
# sure these reular expressions work with Tweets in all languages.
class Regex
require 'yaml'
REGEXEN = {} # :nodoc:
def self.regex_range(from, to = nil) # :nodoc:
if $RUBY_1_9
if to
"\\u{#{from.to_s(16).rjust(4, '0')}}-\\u{#{to.to_s(16).rjust(4, '0')}}"
else
"\\u{#{from.to_s(16).rjust(4, '0')}}"
end
else
if to
[from].pack('U') + '-' + [to].pack('U')
else
[from].pack('U')
end
end
end
TLDS = YAML.load_file(
File.join(
File.expand_path('../../../../../share/ruby-twitter-text', __FILE__), # project root
'test', 'twitter-text-conformance', 'tld_lib.yml'
)
)
# Space is more than %20, U+3000 for example is the full-width space used with Kanji. Provide a short-hand
# to access both the list of characters and a pattern suitible for use with String#split
# Taken from: ActiveSupport::Multibyte::Handlers::UTF8Handler::UNICODE_WHITESPACE
UNICODE_SPACES = [
(0x0009..0x000D).to_a, # White_Space # Cc [5] ..
0x0020, # White_Space # Zs SPACE
0x0085, # White_Space # Cc
0x00A0, # White_Space # Zs NO-BREAK SPACE
0x1680, # White_Space # Zs OGHAM SPACE MARK
0x180E, # White_Space # Zs MONGOLIAN VOWEL SEPARATOR
(0x2000..0x200A).to_a, # White_Space # Zs [11] EN QUAD..HAIR SPACE
0x2028, # White_Space # Zl LINE SEPARATOR
0x2029, # White_Space # Zp PARAGRAPH SEPARATOR
0x202F, # White_Space # Zs NARROW NO-BREAK SPACE
0x205F, # White_Space # Zs MEDIUM MATHEMATICAL SPACE
0x3000, # White_Space # Zs IDEOGRAPHIC SPACE
].flatten.map{|c| [c].pack('U*')}.freeze
REGEXEN[:spaces] = /[#{UNICODE_SPACES.join('')}]/o
# Character not allowed in Tweets
INVALID_CHARACTERS = [
0xFFFE, 0xFEFF, # BOM
0xFFFF, # Special
0x202A, 0x202B, 0x202C, 0x202D, 0x202E # Directional change
].map{|cp| [cp].pack('U') }.freeze
REGEXEN[:invalid_control_characters] = /[#{INVALID_CHARACTERS.join('')}]/o
major, minor, _patch = RUBY_VERSION.split('.')
if major.to_i >= 2 || major.to_i == 1 && minor.to_i >= 9 || (defined?(RUBY_ENGINE) && ["jruby", "rbx"].include?(RUBY_ENGINE))
REGEXEN[:list_name] = /[a-zA-Z][a-zA-Z0-9_\-\u0080-\u00ff]{0,24}/
else
# This line barfs at compile time in Ruby 1.9, JRuby, or Rubinius.
REGEXEN[:list_name] = eval("/[a-zA-Z][a-zA-Z0-9_\\-\x80-\xff]{0,24}/")
end
# Latin accented characters
# Excludes 0xd7 from the range (the multiplication sign, confusable with "x").
# Also excludes 0xf7, the division sign
LATIN_ACCENTS = [
regex_range(0xc0, 0xd6),
regex_range(0xd8, 0xf6),
regex_range(0xf8, 0xff),
regex_range(0x0100, 0x024f),
regex_range(0x0253, 0x0254),
regex_range(0x0256, 0x0257),
regex_range(0x0259),
regex_range(0x025b),
regex_range(0x0263),
regex_range(0x0268),
regex_range(0x026f),
regex_range(0x0272),
regex_range(0x0289),
regex_range(0x028b),
regex_range(0x02bb),
regex_range(0x0300, 0x036f),
regex_range(0x1e00, 0x1eff)
].join('').freeze
RTL_CHARACTERS = [
regex_range(0x0600,0x06FF),
regex_range(0x0750,0x077F),
regex_range(0x0590,0x05FF),
regex_range(0xFE70,0xFEFF)
].join('').freeze
NON_LATIN_HASHTAG_CHARS = [
# Cyrillic (Russian, Ukrainian, etc.)
regex_range(0x0400, 0x04ff), # Cyrillic
regex_range(0x0500, 0x0527), # Cyrillic Supplement
regex_range(0x2de0, 0x2dff), # Cyrillic Extended A
regex_range(0xa640, 0xa69f), # Cyrillic Extended B
regex_range(0x0591, 0x05bf), # Hebrew
regex_range(0x05c1, 0x05c2),
regex_range(0x05c4, 0x05c5),
regex_range(0x05c7),
regex_range(0x05d0, 0x05ea),
regex_range(0x05f0, 0x05f4),
regex_range(0xfb12, 0xfb28), # Hebrew Presentation Forms
regex_range(0xfb2a, 0xfb36),
regex_range(0xfb38, 0xfb3c),
regex_range(0xfb3e),
regex_range(0xfb40, 0xfb41),
regex_range(0xfb43, 0xfb44),
regex_range(0xfb46, 0xfb4f),
regex_range(0x0610, 0x061a), # Arabic
regex_range(0x0620, 0x065f),
regex_range(0x066e, 0x06d3),
regex_range(0x06d5, 0x06dc),
regex_range(0x06de, 0x06e8),
regex_range(0x06ea, 0x06ef),
regex_range(0x06fa, 0x06fc),
regex_range(0x06ff),
regex_range(0x0750, 0x077f), # Arabic Supplement
regex_range(0x08a0), # Arabic Extended A
regex_range(0x08a2, 0x08ac),
regex_range(0x08e4, 0x08fe),
regex_range(0xfb50, 0xfbb1), # Arabic Pres. Forms A
regex_range(0xfbd3, 0xfd3d),
regex_range(0xfd50, 0xfd8f),
regex_range(0xfd92, 0xfdc7),
regex_range(0xfdf0, 0xfdfb),
regex_range(0xfe70, 0xfe74), # Arabic Pres. Forms B
regex_range(0xfe76, 0xfefc),
regex_range(0x200c, 0x200c), # Zero-Width Non-Joiner
regex_range(0x0e01, 0x0e3a), # Thai
regex_range(0x0e40, 0x0e4e), # Hangul (Korean)
regex_range(0x1100, 0x11ff), # Hangul Jamo
regex_range(0x3130, 0x3185), # Hangul Compatibility Jamo
regex_range(0xA960, 0xA97F), # Hangul Jamo Extended-A
regex_range(0xAC00, 0xD7AF), # Hangul Syllables
regex_range(0xD7B0, 0xD7FF), # Hangul Jamo Extended-B
regex_range(0xFFA1, 0xFFDC) # Half-width Hangul
].join('').freeze
REGEXEN[:latin_accents] = /[#{LATIN_ACCENTS}]+/o
CJ_HASHTAG_CHARACTERS = [
regex_range(0x30A1, 0x30FA), regex_range(0x30FC, 0x30FE), # Katakana (full-width)
regex_range(0xFF66, 0xFF9F), # Katakana (half-width)
regex_range(0xFF10, 0xFF19), regex_range(0xFF21, 0xFF3A), regex_range(0xFF41, 0xFF5A), # Latin (full-width)
regex_range(0x3041, 0x3096), regex_range(0x3099, 0x309E), # Hiragana
regex_range(0x3400, 0x4DBF), # Kanji (CJK Extension A)
regex_range(0x4E00, 0x9FFF), # Kanji (Unified)
regex_range(0x20000, 0x2A6DF), # Kanji (CJK Extension B)
regex_range(0x2A700, 0x2B73F), # Kanji (CJK Extension C)
regex_range(0x2B740, 0x2B81F), # Kanji (CJK Extension D)
regex_range(0x2F800, 0x2FA1F), regex_range(0x3003), regex_range(0x3005), regex_range(0x303B) # Kanji (CJK supplement)
].join('').freeze
PUNCTUATION_CHARS = '!"#$%&\'()*+,-./:;<=>?@\[\]^_\`{|}~'
SPACE_CHARS = " \t\n\x0B\f\r"
CTRL_CHARS = "\x00-\x1F\x7F"
# A hashtag must contain latin characters, numbers and underscores, but not all numbers.
HASHTAG_ALPHA = /[a-z_#{LATIN_ACCENTS}#{NON_LATIN_HASHTAG_CHARS}#{CJ_HASHTAG_CHARACTERS}]/io
HASHTAG_ALPHANUMERIC = /[a-z0-9_#{LATIN_ACCENTS}#{NON_LATIN_HASHTAG_CHARS}#{CJ_HASHTAG_CHARACTERS}]/io
HASHTAG_BOUNDARY = /\A|\z|[^&a-z0-9_#{LATIN_ACCENTS}#{NON_LATIN_HASHTAG_CHARS}#{CJ_HASHTAG_CHARACTERS}]/o
HASHTAG = /(#{HASHTAG_BOUNDARY})(#|#)(#{HASHTAG_ALPHANUMERIC}*#{HASHTAG_ALPHA}#{HASHTAG_ALPHANUMERIC}*)/io
REGEXEN[:valid_hashtag] = /#{HASHTAG}/io
# Used in Extractor for final filtering
REGEXEN[:end_hashtag_match] = /\A(?:[##]|:\/\/)/o
REGEXEN[:valid_mention_preceding_chars] = /(?:[^a-zA-Z0-9_!#\$%&*@@]|^|[rR][tT]:?)/o
REGEXEN[:at_signs] = /[@@]/
REGEXEN[:valid_mention_or_list] = /
(#{REGEXEN[:valid_mention_preceding_chars]}) # $1: Preceeding character
(#{REGEXEN[:at_signs]}) # $2: At mark
([a-zA-Z0-9_]{1,20}) # $3: Screen name
(\/[a-zA-Z][a-zA-Z0-9_\-]{0,24})? # $4: List (optional)
/ox
REGEXEN[:valid_reply] = /^(?:#{REGEXEN[:spaces]})*#{REGEXEN[:at_signs]}([a-zA-Z0-9_]{1,20})/o
# Used in Extractor for final filtering
REGEXEN[:end_mention_match] = /\A(?:#{REGEXEN[:at_signs]}|#{REGEXEN[:latin_accents]}|:\/\/)/o
# URL related hash regex collection
REGEXEN[:valid_url_preceding_chars] = /(?:[^A-Z0-9@@$###{INVALID_CHARACTERS.join('')}]|^)/io
REGEXEN[:invalid_url_without_protocol_preceding_chars] = /[-_.\/]$/
DOMAIN_VALID_CHARS = "[^#{PUNCTUATION_CHARS}#{SPACE_CHARS}#{CTRL_CHARS}#{INVALID_CHARACTERS.join('')}#{UNICODE_SPACES.join('')}]"
REGEXEN[:valid_subdomain] = /(?:(?:#{DOMAIN_VALID_CHARS}(?:[_-]|#{DOMAIN_VALID_CHARS})*)?#{DOMAIN_VALID_CHARS}\.)/io
REGEXEN[:valid_domain_name] = /(?:(?:#{DOMAIN_VALID_CHARS}(?:[-]|#{DOMAIN_VALID_CHARS})*)?#{DOMAIN_VALID_CHARS}\.)/io
REGEXEN[:valid_gTLD] = %r{
(?:
(?:#{TLDS['generic'].join('|')})
(?=[^0-9a-z@]|$)
)
}ix
REGEXEN[:valid_ccTLD] = %r{
(?:
(?:#{TLDS['country'].join('|')})
(?=[^0-9a-z@]|$)
)
}ix
REGEXEN[:valid_punycode] = /(?:xn--[0-9a-z]+)/i
REGEXEN[:valid_special_cctld] = %r{
(?:
(?:co|tv)
(?=[^0-9a-z@]|$)
)
}ix
REGEXEN[:valid_domain] = /(?:
#{REGEXEN[:valid_subdomain]}*#{REGEXEN[:valid_domain_name]}
(?:#{REGEXEN[:valid_gTLD]}|#{REGEXEN[:valid_ccTLD]}|#{REGEXEN[:valid_punycode]})
)/iox
# This is used in Extractor
REGEXEN[:valid_ascii_domain] = /
(?:(?:[A-Za-z0-9\-_]|#{REGEXEN[:latin_accents]})+\.)+
(?:#{REGEXEN[:valid_gTLD]}|#{REGEXEN[:valid_ccTLD]}|#{REGEXEN[:valid_punycode]})
/iox
# This is used in Extractor for stricter t.co URL extraction
REGEXEN[:valid_tco_url] = /^https?:\/\/t\.co\/[a-z0-9]+/i
# This is used in Extractor to filter out unwanted URLs.
REGEXEN[:invalid_short_domain] = /\A#{REGEXEN[:valid_domain_name]}#{REGEXEN[:valid_ccTLD]}\Z/io
REGEXEN[:valid_special_short_domain] = /\A#{REGEXEN[:valid_domain_name]}#{REGEXEN[:valid_special_cctld]}\Z/io
REGEXEN[:valid_port_number] = /[0-9]+/
REGEXEN[:valid_general_url_path_chars] = /[a-z0-9!\*';:=\+\,\.\$\/%#\[\]\-_~&|@#{LATIN_ACCENTS}]/io
# Allow URL paths to contain up to two nested levels of balanced parens
# 1. Used in Wikipedia URLs like /Primer_(film)
# 2. Used in IIS sessions like /S(dfd346)/
# 3. Used in Rdio URLs like /track/We_Up_(Album_Version_(Edited))/
REGEXEN[:valid_url_balanced_parens] = /
\(
(?:
#{REGEXEN[:valid_general_url_path_chars]}+
|
# allow one nested level of balanced parentheses
(?:
#{REGEXEN[:valid_general_url_path_chars]}*
\(
#{REGEXEN[:valid_general_url_path_chars]}+
\)
#{REGEXEN[:valid_general_url_path_chars]}*
)
)
\)
/iox
# Valid end-of-path chracters (so /foo. does not gobble the period).
# 1. Allow =&# for empty URL parameters and other URL-join artifacts
REGEXEN[:valid_url_path_ending_chars] = /[a-z0-9=_#\/\+\-#{LATIN_ACCENTS}]|(?:#{REGEXEN[:valid_url_balanced_parens]})/io
REGEXEN[:valid_url_path] = /(?:
(?:
#{REGEXEN[:valid_general_url_path_chars]}*
(?:#{REGEXEN[:valid_url_balanced_parens]} #{REGEXEN[:valid_general_url_path_chars]}*)*
#{REGEXEN[:valid_url_path_ending_chars]}
)|(?:#{REGEXEN[:valid_general_url_path_chars]}+\/)
)/iox
REGEXEN[:valid_url_query_chars] = /[a-z0-9!?\*'\(\);:&=\+\$\/%#\[\]\-_\.,~|@]/i
REGEXEN[:valid_url_query_ending_chars] = /[a-z0-9_&=#\/]/i
REGEXEN[:valid_url] = %r{
( # $1 total match
(#{REGEXEN[:valid_url_preceding_chars]}) # $2 Preceeding chracter
( # $3 URL
(https?:\/\/)? # $4 Protocol (optional)
(#{REGEXEN[:valid_domain]}) # $5 Domain(s)
(?::(#{REGEXEN[:valid_port_number]}))? # $6 Port number (optional)
(/#{REGEXEN[:valid_url_path]}*)? # $7 URL Path and anchor
(\?#{REGEXEN[:valid_url_query_chars]}*#{REGEXEN[:valid_url_query_ending_chars]})? # $8 Query String
)
)
}iox
REGEXEN[:cashtag] = /[a-z]{1,6}(?:[._][a-z]{1,2})?/i
REGEXEN[:valid_cashtag] = /(^|#{REGEXEN[:spaces]})(\$)(#{REGEXEN[:cashtag]})(?=$|\s|[#{PUNCTUATION_CHARS}])/i
# These URL validation pattern strings are based on the ABNF from RFC 3986
REGEXEN[:validate_url_unreserved] = /[a-z0-9\-._~]/i
REGEXEN[:validate_url_pct_encoded] = /(?:%[0-9a-f]{2})/i
REGEXEN[:validate_url_sub_delims] = /[!$&'()*+,;=]/i
REGEXEN[:validate_url_pchar] = /(?:
#{REGEXEN[:validate_url_unreserved]}|
#{REGEXEN[:validate_url_pct_encoded]}|
#{REGEXEN[:validate_url_sub_delims]}|
[:\|@]
)/iox
REGEXEN[:validate_url_scheme] = /(?:[a-z][a-z0-9+\-.]*)/i
REGEXEN[:validate_url_userinfo] = /(?:
#{REGEXEN[:validate_url_unreserved]}|
#{REGEXEN[:validate_url_pct_encoded]}|
#{REGEXEN[:validate_url_sub_delims]}|
:
)*/iox
REGEXEN[:validate_url_dec_octet] = /(?:[0-9]|(?:[1-9][0-9])|(?:1[0-9]{2})|(?:2[0-4][0-9])|(?:25[0-5]))/i
REGEXEN[:validate_url_ipv4] =
/(?:#{REGEXEN[:validate_url_dec_octet]}(?:\.#{REGEXEN[:validate_url_dec_octet]}){3})/iox
# Punting on real IPv6 validation for now
REGEXEN[:validate_url_ipv6] = /(?:\[[a-f0-9:\.]+\])/i
# Also punting on IPvFuture for now
REGEXEN[:validate_url_ip] = /(?:
#{REGEXEN[:validate_url_ipv4]}|
#{REGEXEN[:validate_url_ipv6]}
)/iox
# This is more strict than the rfc specifies
REGEXEN[:validate_url_subdomain_segment] = /(?:[a-z0-9](?:[a-z0-9_\-]*[a-z0-9])?)/i
REGEXEN[:validate_url_domain_segment] = /(?:[a-z0-9](?:[a-z0-9\-]*[a-z0-9])?)/i
REGEXEN[:validate_url_domain_tld] = /(?:[a-z](?:[a-z0-9\-]*[a-z0-9])?)/i
REGEXEN[:validate_url_domain] = /(?:(?:#{REGEXEN[:validate_url_subdomain_segment]}\.)*
(?:#{REGEXEN[:validate_url_domain_segment]}\.)
#{REGEXEN[:validate_url_domain_tld]})/iox
REGEXEN[:validate_url_host] = /(?:
#{REGEXEN[:validate_url_ip]}|
#{REGEXEN[:validate_url_domain]}
)/iox
# Unencoded internationalized domains - this doesn't check for invalid UTF-8 sequences
REGEXEN[:validate_url_unicode_subdomain_segment] =
/(?:(?:[a-z0-9]|[^\x00-\x7f])(?:(?:[a-z0-9_\-]|[^\x00-\x7f])*(?:[a-z0-9]|[^\x00-\x7f]))?)/ix
REGEXEN[:validate_url_unicode_domain_segment] =
/(?:(?:[a-z0-9]|[^\x00-\x7f])(?:(?:[a-z0-9\-]|[^\x00-\x7f])*(?:[a-z0-9]|[^\x00-\x7f]))?)/ix
REGEXEN[:validate_url_unicode_domain_tld] =
/(?:(?:[a-z]|[^\x00-\x7f])(?:(?:[a-z0-9\-]|[^\x00-\x7f])*(?:[a-z0-9]|[^\x00-\x7f]))?)/ix
REGEXEN[:validate_url_unicode_domain] = /(?:(?:#{REGEXEN[:validate_url_unicode_subdomain_segment]}\.)*
(?:#{REGEXEN[:validate_url_unicode_domain_segment]}\.)
#{REGEXEN[:validate_url_unicode_domain_tld]})/iox
REGEXEN[:validate_url_unicode_host] = /(?:
#{REGEXEN[:validate_url_ip]}|
#{REGEXEN[:validate_url_unicode_domain]}
)/iox
REGEXEN[:validate_url_port] = /[0-9]{1,5}/
REGEXEN[:validate_url_unicode_authority] = %r{
(?:(#{REGEXEN[:validate_url_userinfo]})@)? # $1 userinfo
(#{REGEXEN[:validate_url_unicode_host]}) # $2 host
(?::(#{REGEXEN[:validate_url_port]}))? # $3 port
}iox
REGEXEN[:validate_url_authority] = %r{
(?:(#{REGEXEN[:validate_url_userinfo]})@)? # $1 userinfo
(#{REGEXEN[:validate_url_host]}) # $2 host
(?::(#{REGEXEN[:validate_url_port]}))? # $3 port
}iox
REGEXEN[:validate_url_path] = %r{(/#{REGEXEN[:validate_url_pchar]}*)*}i
REGEXEN[:validate_url_query] = %r{(#{REGEXEN[:validate_url_pchar]}|/|\?)*}i
REGEXEN[:validate_url_fragment] = %r{(#{REGEXEN[:validate_url_pchar]}|/|\?)*}i
# Modified version of RFC 3986 Appendix B
REGEXEN[:validate_url_unencoded] = %r{
\A # Full URL
(?:
([^:/?#]+):// # $1 Scheme
)?
([^/?#]*) # $2 Authority
([^?#]*) # $3 Path
(?:
\?([^#]*) # $4 Query
)?
(?:
\#(.*) # $5 Fragment
)?\Z
}ix
REGEXEN[:rtl_chars] = /[#{RTL_CHARACTERS}]/io
REGEXEN.each_pair{|k,v| v.freeze }
# Return the regular expression for a given key. If the key
# is not a known symbol a nil will be returned.
def self.[](key)
REGEXEN[key]
end
end
end