Class: RDF::URI
Overview
A Uniform Resource Identifier (URI). Also compatible with International Resource Identifier (IRI)
Constant Summary collapse
- UCSCHAR =
IRI components
%( \\u00A0-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFEF \\u{10000}-\\u{1FFFD}\\u{20000}-\\u{2FFFD}\\u{30000}-\\u{3FFFD} \\u{40000}-\\u{4FFFD}\\u{50000}-\\u{5FFFD}\\u{60000}-\\u{6FFFD} \\u{70000}-\\u{7FFFD}\\u{80000}-\\u{8FFFD}\\u{90000}-\\u{9FFFD} \\u{A0000}-\\u{AFFFD}\\u{B0000}-\\u{BFFFD}\\u{C0000}-\\u{CFFFD} \\u{D0000}-\\u{DFFFD}\\u{E1000}-\\u{EFFFD} ).gsub(/\s+/, '')
- IPRIVATE =
Regexp.compile("[\\uE000-\\uF8FF\\u{F0000}-\\u{FFFFD}\\u{100000}-\\u{10FFFD}]").freeze
- SCHEME =
Regexp.compile("[A-Za-z](?:[A-Za-z0-9+-\.])*").freeze
- PORT =
Regexp.compile("[0-9]*").freeze
- IP_literal =
Simplified, no IPvFuture
Regexp.compile("\\[[0-9A-Fa-f:\\.]*\\]").freeze
- PCT_ENCODED =
Regexp.compile("%[0-9A-Fa-f][0-9A-Fa-f]").freeze
- GEN_DELIMS =
Regexp.compile(%q{[:/\?\#\[\]@]}).freeze
- SUB_DELIMS =
Regexp.compile(%q{[!\$&'\(\)\*\+,;=]}).freeze
- RESERVED =
Regexp.union(GEN_DELIMS, SUB_DELIMS).freeze
- UNRESERVED =
Regexp.compile("[A-Za-z0-9\._~-]").freeze
- IUNRESERVED =
Regexp.union(UNRESERVED, Regexp.compile("[#{UCSCHAR}]")).freeze
- IPCHAR =
Regexp.union(IUNRESERVED, PCT_ENCODED, SUB_DELIMS, /[:|@]/).freeze
- IQUERY =
Regexp.compile("(?:#{IPCHAR}|#{IPRIVATE}|/|\\?)*").freeze
- IFRAGMENT =
Regexp.compile("(?:#{IPCHAR}|/|\\?)*").freeze
- ISEGMENT =
Regexp.compile("(?:#{IPCHAR})*").freeze
- ISEGMENT_NZ =
Regexp.compile("(?:#{IPCHAR})+").freeze
- ISEGMENT_NZ_NC =
Regexp.compile("(?:(?:#{IUNRESERVED})|(?:#{PCT_ENCODED})|(?:#{SUB_DELIMS})|@)+").freeze
- IPATH_ABEMPTY =
Regexp.compile("(?:/#{ISEGMENT})*").freeze
- IPATH_ABSOLUTE =
Regexp.compile("/(?:(?:#{ISEGMENT_NZ})(/#{ISEGMENT})*)?").freeze
- IPATH_NOSCHEME =
Regexp.compile("(?:#{ISEGMENT_NZ_NC})(?:/#{ISEGMENT})*").freeze
- IPATH_ROOTLESS =
Regexp.compile("(?:#{ISEGMENT_NZ})(?:/#{ISEGMENT})*").freeze
- IPATH_EMPTY =
Regexp.compile("").freeze
- IREG_NAME =
Regexp.compile("(?:(?:#{IUNRESERVED})|(?:#{PCT_ENCODED})|(?:#{SUB_DELIMS}))*").freeze
- IHOST =
Regexp.union(IP_literal, IREG_NAME).freeze
- IUSERINFO =
Regexp.compile("(?:(?:#{IUNRESERVED})|(?:#{PCT_ENCODED})|(?:#{SUB_DELIMS})|:)*").freeze
- IAUTHORITY =
Regexp.compile("(?:#{IUSERINFO}@)?#{IHOST}(?::#{PORT})?").freeze
- IRELATIVE_PART =
Regexp.compile("//#{IAUTHORITY}(?:#{IPATH_ABEMPTY})|(?:#{IPATH_ABSOLUTE})|(?:#{IPATH_NOSCHEME})|(?:#{IPATH_EMPTY})").freeze
- IRELATIVE_REF =
Regexp.compile("^(?:#{IRELATIVE_PART})(?:\\?#{IQUERY})?(?:\\##{IFRAGMENT})?$").freeze
- IHIER_PART =
Regexp.compile("//#{IAUTHORITY}(?:#{IPATH_ABEMPTY})|(?:#{IPATH_ABSOLUTE})|(?:#{IPATH_ROOTLESS})|(?:#{IPATH_EMPTY})").freeze
- IRI =
Regexp.compile("^#{SCHEME}:(?:#{IHIER_PART})(?:\\?#{IQUERY})?(?:\\##{IFRAGMENT})?$").freeze
- IRI_PARTS =
Split an IRI into it’s component parts scheme, authority, path, query, fragment
/^(?:([^:\/?#]+):)?(?:\/\/([^\/?#]*))?([^?#]*)(\?[^#]*)?(#.*)?$/.freeze
- RDS_2A =
Remove dot expressions regular expressions
/^\.?\.\/(.*)$/.freeze
- RDS_2B1 =
/^\/\.$/.freeze
- RDS_2B2 =
/^(?:\/\.\/)(.*)$/.freeze
- RDS_2C1 =
/^\/\.\.$/.freeze
- RDS_2C2 =
/^(?:\/\.\.\/)(.*)$/.freeze
- RDS_2D =
/^\.\.?$/.freeze
- RDS_2E =
/^(\/?[^\/]*)(\/?.*)?$/.freeze
- PORT_MAPPING =
Remove port, if it is standard for the scheme when normalizing
{ "http" => 80, "https" => 443, "ftp" => 21, "tftp" => 69, "sftp" => 22, "ssh" => 22, "svn+ssh" => 22, "telnet" => 23, "nntp" => 119, "gopher" => 70, "wais" => 210, "ldap" => 389, "prospero" => 1525 }
- NON_HIER_SCHEMES =
List of schemes known not to be hierarchical
%w( about acct bitcoin callto cid data fax geo gtalk h323 iax icon im jabber jms magnet mailto maps news pres proxy session sip sips skype sms spotify stun stuns tag tel turn turns tv urn javascript ).freeze
- PN_ESCAPE_CHARS =
Characters in a PName which must be escaped Note: not all reserved characters need to be escaped in SPARQL/Turtle, but they must be unescaped when encountered
/[~\.!\$&'\(\)\*\+,;=\/\?\#@%]/.freeze
- PN_ESCAPES =
/\\#{Regexp.union(PN_ESCAPE_CHARS, /[\-_]/)}/.freeze
- ENCODE_USER =
For URI encoding iuserinfo = *( iunreserved / pct-encoded / sub-delims / “:” )
ENCODE_PASSWORD = Regexp.compile("[^A-Za-z0-9\._~#{UCSCHAR}!$&'\(\)\*\+,;=:-]").freeze
- ENCODE_ISEGMENT =
isegment = *ipchar ipchar = iunreserved / pct-encoded / sub-delims / “:” / “@”
Regexp.compile("[^A-Za-z0-9\._~#{UCSCHAR}!$&'\(\)\*\+,;=:-]").freeze
- ENCODE_ISEGMENT_NC =
isegment-nz-nc = 1*( iunreserved / pct-encoded / sub-delims / “@” )
Regexp.compile("[^A-Za-z0-9\._~#{UCSCHAR}!$&'\(\)\*\+,;=-]").freeze
- ENCODE_IQUERY =
iquery = *( ipchar / iprivate / “/” / “?” )
Regexp.compile("[^A-Za-z0-9\._~#{UCSCHAR}\\uE000-\\uF8FF\\u{F0000}-\\u{FFFFD}\\u{100000}-\\u{10FFFD}/?=]").freeze
- ENCODE_IFRAGMENT =
ifragment = *( ipchar / “/” / “?” )
Regexp.compile("[^A-Za-z0-9\._~#{UCSCHAR}/?]").freeze
- HOST_FROM_AUTHORITY_RE =
/(?:[^@]+@)?([^:]+)(?::.*)?$/.freeze
- PORT_FROM_AUTHORITY_RE =
/:(\d+)$/.freeze
Class Method Summary collapse
-
._load(data) ⇒ RDF::URI
Load dumped data to reconsitute marshaled object This override is needed to avoid serializing @mutex.
-
.intern(str, *args, **options) ⇒ RDF::URI
Returns an interned
RDF::URI
instance based on the givenuri
string. -
.normalize_path(path) ⇒ String
Resolve paths to their simplest form.
-
.parse(str) ⇒ RDF::URI
Creates a new
RDF::URI
instance based on the givenuri
string.
Instance Method Summary collapse
-
#+(other) ⇒ RDF::URI
Simple concatenation operator.
-
#/(fragment) ⇒ RDF::URI
‘Smart separator’ URI builder.
-
#==(other) ⇒ Boolean
Checks whether this URI is equal to
other
(type checking). -
#===(other) ⇒ Boolean
Checks for case equality to the given
other
object. -
#=~(pattern) ⇒ Integer
Performs a pattern match using the given regular expression.
-
#_dump(level) ⇒ String
Dump of data needed to reconsitute this object using Marshal.load This override is needed to avoid serializing @mutex.
-
#absolute? ⇒ Boolean
A URI is absolute when it has a scheme.
-
#authority ⇒ Object
Authority is a combination of user, password, host and port.
-
#authority=(value) ⇒ RDF::URI
Self.
-
#canonicalize ⇒ RDF::URI
(also: #normalize)
Returns a copy of this URI converted into its canonical lexical representation.
-
#canonicalize! ⇒ RDF::URI
(also: #normalize!)
Converts this URI into its canonical lexical representation.
-
#dup ⇒ RDF::URI
Returns a duplicate copy of
self
. -
#end_with?(string) ⇒ Boolean
(also: #ends_with?)
Returns
true
if this URI ends with the givenstring
. -
#eql?(other) ⇒ Boolean
Checks whether this URI the same term as
other
. - #fragment ⇒ String
-
#fragment=(value) ⇒ RDF::URI
Self.
-
#hash ⇒ Integer
Returns a hash code for this URI.
-
#hier? ⇒ Boolean
Returns
true
if the URI scheme is hierarchical. - #host ⇒ String
-
#host=(value) ⇒ RDF::URI
Self.
-
#initialize(*args, validate: false, canonicalize: false, **options) ⇒ URI
constructor
A new instance of URI.
-
#inspect ⇒ String
Returns a
String
representation of the URI object’s state. -
#join(*uris) ⇒ RDF::URI
Joins several URIs together.
-
#length ⇒ Integer
(also: #size)
Returns the string length of this URI.
-
#normalized_authority ⇒ String
Return normalized version of authority, if any.
-
#normalized_fragment ⇒ String
Normalized version of fragment.
-
#normalized_host ⇒ String
Normalized version of host.
-
#normalized_password ⇒ String
Normalized version of password.
-
#normalized_path ⇒ String
Normalized version of path.
-
#normalized_port ⇒ String
Normalized version of port.
-
#normalized_query ⇒ String
Normalized version of query.
-
#normalized_scheme ⇒ String
Return normalized version of scheme, if any.
-
#normalized_user ⇒ String
Normalized version of user.
-
#normalized_userinfo ⇒ String
Normalized version of userinfo.
-
#object ⇒ Hash{Symbol => String}
(also: #to_h)
Returns object representation of this URI, broken into components.
-
#parent ⇒ RDF::URI
Returns a copy of this URI with the path component ascended to the parent directory, if any.
-
#parent? ⇒ Boolean
(also: #has_parent?)
Returns
true
if this URI is hierarchical and it’s path component isn’t equal to/
. -
#parse(value) ⇒ Object{Symbol => String}
{ Parse a URI into it’s components.
- #password ⇒ String
-
#password=(value) ⇒ RDF::URI
Self.
- #path ⇒ String
-
#path=(value) ⇒ RDF::URI
Self.
-
#pname(prefixes: nil) ⇒ String
Returns a Prefixed Name (PName) or the full IRI with any reserved characters in the suffix escaped.
- #port ⇒ String
-
#port=(value) ⇒ RDF::URI
Self.
-
#qname(prefixes: nil) ⇒ Array(Symbol, Symbol)
Returns a qualified name (QName) as a tuple of
[prefix, suffix]
for this URI based on available vocabularies, if possible. - #query ⇒ String
-
#query=(value) ⇒ RDF::URI
Self.
-
#query_values(return_type = Hash) ⇒ Hash, Array
Converts the query component to a Hash value.
-
#query_values=(value) ⇒ Object
Sets the query component for this URI from a Hash object.
-
#relative? ⇒ Boolean
A URI is relative when it does not have a scheme.
-
#relativize(base_uri) ⇒ RDF::URI
Attempt to make this URI relative to the provided
base_uri
. -
#request_uri ⇒ String
The HTTP request URI for this URI.
-
#root ⇒ RDF::URI
Returns a copy of this URI with the path component set to
/
. -
#root? ⇒ Boolean
Returns
true
if this URI’s scheme is not hierarchical, or its path component is equal to/
. - #scheme ⇒ String
-
#scheme=(value) ⇒ RDF::URI
Self.
-
#to_str ⇒ String
(also: #to_s)
Returns the string representation of this URI.
-
#to_uri ⇒ RDF::URI
Returns
self
. -
#uri? ⇒ Boolean
Returns
true
. -
#url? ⇒ Boolean
Returns
true
if this URI is a URL. -
#urn? ⇒ Boolean
Returns
true
if this URI is a URN. - #user ⇒ String
-
#user=(value) ⇒ RDF::URI
Self.
-
#userinfo ⇒ Object
Userinfo is a combination of user and password.
-
#userinfo=(value) ⇒ RDF::URI
Self.
-
#valid? ⇒ Boolean
Determine if the URI is a valid according to RFC3987.
-
#validate! ⇒ RDF::URI
Validates this URI, raising an error if it is invalid.
-
#value ⇒ String
lexical representation of URI, either absolute or relative.
Methods included from Resource
Methods included from Term
#<=>, #compatible?, #escape, #term?, #terms, #to_base, #to_term
Methods included from Value
#anonymous?, #constant?, #graph?, #inspect!, #invalid?, #iri?, #list?, #literal?, #node?, #resource?, #start_with?, #statement?, #term?, #to_nquads, #to_ntriples, #to_rdf, #to_term, #type_error, #variable?
Constructor Details
#initialize(uri, **options) ⇒ URI #initialize(**options) ⇒ URI
Returns a new instance of URI.
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# File 'lib/rdf/model/uri.rb', line 241 def initialize(*args, validate: false, canonicalize: false, **) @value = @object = @hash = nil @mutex = Mutex.new uri = args.first if uri @value = uri.to_s.dup @value.dup.force_encoding(Encoding::UTF_8) if @value.encoding != Encoding::UTF_8 @value.freeze else %i( scheme user password userinfo host port authority path query fragment ).each do |meth| if .key?(meth) self.send("#{meth}=".to_sym, [meth]) else self.send(meth) end end end validate! if validate canonicalize! if canonicalize end |
Class Method Details
._load(data) ⇒ RDF::URI
Load dumped data to reconsitute marshaled object This override is needed to avoid serializing @mutex.
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# File 'lib/rdf/model/uri.rb', line 1342 def self._load(data) new(data) end |
.intern(str, *args, **options) ⇒ RDF::URI
Returns an interned RDF::URI
instance based on the given uri
string.
The maximum number of cached interned URI references is given by the CACHE_SIZE
constant. This value is unlimited by default, in which case an interned URI object will be purged only when the last strong reference to it is garbage collected (i.e., when its finalizer runs).
Excepting special memory-limited circumstances, it should always be safe and preferred to construct new URI references using RDF::URI.intern
instead of RDF::URI.new
, since if an interned object can’t be returned for some reason, this method will fall back to returning a freshly-allocated one.
(see #initialize)
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# File 'lib/rdf/model/uri.rb', line 162 def self.intern(str, *args, **) (cache[(str = str.to_s).to_sym] ||= self.new(str, *args, **)).freeze end |
.normalize_path(path) ⇒ String
This process is correct, but overly iterative. It could be better done with a single regexp which handled most of the segment collapses all at once. Parent segments would still require iteration.
Resolve paths to their simplest form.
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# File 'lib/rdf/model/uri.rb', line 187 def self.normalize_path(path) output, input = String.new, path.to_s if input.encoding != Encoding::ASCII_8BIT input = input.dup.force_encoding(Encoding::ASCII_8BIT) end until input.empty? if input.match(RDS_2A) # If the input buffer begins with a prefix of "../" or "./", then remove that prefix from the input buffer; otherwise, input = $1 elsif input.match(RDS_2B1) || input.match(RDS_2B2) # if the input buffer begins with a prefix of "/./" or "/.", where "." is a complete path segment, then replace that prefix with "/" in the input buffer; otherwise, input = "/#{$1}" elsif input.match(RDS_2C1) || input.match(RDS_2C2) # if the input buffer begins with a prefix of "/../" or "/..", where ".." is a complete path segment, then replace that prefix with "/" in the input buffer input = "/#{$1}" # and remove the last segment and its preceding "/" (if any) from the output buffer; otherwise, output.sub!(/\/?[^\/]*$/, '') elsif input.match(RDS_2D) # if the input buffer consists only of "." or "..", then remove that from the input buffer; otherwise, input = "" elsif input.match(RDS_2E) # move the first path segment in the input buffer to the end of the output buffer, including the initial "/" character (if any) and any subsequent characters up to, but not including, the next "/" character or the end of the input buffer.end seg, input = $1, $2 output << seg end end output.force_encoding(Encoding::UTF_8) end |
.parse(str) ⇒ RDF::URI
Creates a new RDF::URI
instance based on the given uri
string.
This is just an alias for #initialize for compatibity with Addressable::URI.parse
. Actual parsing is defered until #object is accessed.
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# File 'lib/rdf/model/uri.rb', line 175 def self.parse(str) self.new(str) end |
Instance Method Details
#+(other) ⇒ RDF::URI
Simple concatenation operator. Returns a URI formed from concatenating the string form of two elements.
For building URIs from fragments, you may want to use the smart separator, #/
. #join
implements another set of URI building semantics.
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# File 'lib/rdf/model/uri.rb', line 570 def +(other) RDF::URI.intern(self.to_s + other.to_s) end |
#/(fragment) ⇒ RDF::URI
‘Smart separator’ URI builder
This method attempts to use some understanding of the most common use cases for URLs and URNs to create a simple method for building new URIs from fragments. This means that it will always insert a separator of some sort, will remove duplicate seperators, will always assume that a fragment argument represents a relative and not absolute path, and throws an exception when an absolute URI is received for a fragment argument.
This is separate from the semantics for #join
, which are well-defined by RFC3986 section 5.2 as part of the merging and normalization process; this method does not perform any normalization, removal of spurious paths, or removal of parent directory references (/../)
.
When fragment
is a path segment containing a colon, best practice is to prepend a ./
and use #join, which resolves dot-segments.
See also #+
, which concatenates the string forms of two URIs without any sort of checking or processing.
For an up-to-date list of edge case behavior, see the shared examples for RDF::URI in the rdf-spec project.
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# File 'lib/rdf/model/uri.rb', line 515 def /(fragment) frag = fragment.respond_to?(:to_uri) ? fragment.to_uri : RDF::URI(fragment.to_s) raise ArgumentError, "Non-absolute URI or string required, got #{frag}" unless frag.relative? if urn? RDF::URI.intern(to_s.sub(/:+$/,'') + ':' + fragment.to_s.sub(/^:+/,'')) else # !urn? res = self.dup if res.fragment case fragment.to_s[0,1] when '/' # Base with a fragment, fragment beginning with '/'. The fragment wins, we use '/'. path, frag = fragment.to_s.split('#', 2) res.path = "#{res.path}/#{path.sub(/^\/*/,'')}" res.fragment = frag else # Replace fragment res.fragment = fragment.to_s.sub(/^#+/,'') end else # Not a fragment. includes '/'. Results from bases ending in '/' are the same as if there were no trailing slash. case fragment.to_s[0,1] when '#' # Base ending with '/', fragment beginning with '#'. The fragment wins, we use '#'. res.path = res.path.to_s.sub(/\/*$/, '') # Add fragment res.fragment = fragment.to_s.sub(/^#+/,'') else # Add fragment as path component path, frag = fragment.to_s.split('#', 2) res.path = res.path.to_s.sub(/\/*$/,'/') + path.sub(/^\/*/,'') res.fragment = frag end end RDF::URI.intern(res.to_s) end end |
#==(other) ⇒ Boolean
Checks whether this URI is equal to other
(type checking).
Per SPARQL data-r2/expr-equal/eq-2-2, numeric can’t be compared with other types
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# File 'lib/rdf/model/uri.rb', line 775 def ==(other) case other when Literal # If other is a Literal, reverse test to consolodate complex type checking logic other == self when String then to_s == other when URI then hash == other.hash && to_s == other.to_s else other.respond_to?(:to_uri) && to_s == other.to_uri.to_s end end |
#===(other) ⇒ Boolean
Checks for case equality to the given other
object.
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# File 'lib/rdf/model/uri.rb', line 799 def ===(other) case other when Regexp then other === to_s else self == other end end |
#=~(pattern) ⇒ Integer
Performs a pattern match using the given regular expression.
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# File 'lib/rdf/model/uri.rb', line 817 def =~(pattern) case pattern when Regexp then to_s =~ pattern else super # `Object#=~` returns `false` end end |
#_dump(level) ⇒ String
Dump of data needed to reconsitute this object using Marshal.load This override is needed to avoid serializing @mutex.
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# File 'lib/rdf/model/uri.rb', line 1332 def _dump(level) value end |
#absolute? ⇒ Boolean
A URI is absolute when it has a scheme
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# File 'lib/rdf/model/uri.rb', line 321 def absolute?; !scheme.nil?; end |
#authority ⇒ Object
Authority is a combination of user, password, host and port
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# File 'lib/rdf/model/uri.rb', line 1169 def object.fetch(:authority) { @object[:authority] = ( if @object[:host]) } end |
#authority=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1178 def (value) object.delete_if {|k, v| %i(user password host port userinfo).include?(k)} object[:authority] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) user; password; userinfo; host; port @value = nil self end |
#canonicalize ⇒ RDF::URI Also known as: normalize
Returns a copy of this URI converted into its canonical lexical representation.
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# File 'lib/rdf/model/uri.rb', line 391 def canonicalize self.dup.canonicalize! end |
#canonicalize! ⇒ RDF::URI Also known as: normalize!
Converts this URI into its canonical lexical representation.
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# File 'lib/rdf/model/uri.rb', line 401 def canonicalize! @object = { scheme: normalized_scheme, authority: , path: normalized_path.squeeze('/'), query: normalized_query, fragment: normalized_fragment } @value = nil @hash = nil self end |
#dup ⇒ RDF::URI
Returns a duplicate copy of self
.
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# File 'lib/rdf/model/uri.rb', line 712 def dup self.class.new(@value, **(@object || {})) end |
#end_with?(string) ⇒ Boolean Also known as: ends_with?
Returns true
if this URI ends with the given string
.
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# File 'lib/rdf/model/uri.rb', line 743 def end_with?(string) to_s.end_with?(string.to_s) end |
#eql?(other) ⇒ Boolean
Checks whether this URI the same term as other
.
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# File 'lib/rdf/model/uri.rb', line 758 def eql?(other) other.is_a?(URI) && self.hash == other.hash && self == other end |
#fragment ⇒ String
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# File 'lib/rdf/model/uri.rb', line 1145 def fragment object.fetch(:fragment) do nil end end |
#fragment=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1154 def fragment=(value) object[:fragment] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @value = nil self end |
#hash ⇒ Integer
Returns a hash code for this URI.
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# File 'lib/rdf/model/uri.rb', line 868 def hash @hash || @hash = (value.hash * -1) end |
#hier? ⇒ Boolean
Returns true
if the URI scheme is hierarchical.
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# File 'lib/rdf/model/uri.rb', line 301 def hier? !NON_HIER_SCHEMES.include?(scheme) end |
#host ⇒ String
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# File 'lib/rdf/model/uri.rb', line 997 def host object.fetch(:host) do @object[:host] = ($1 if @object[:authority] && HOST_FROM_AUTHORITY_RE.match(@object[:authority])) end end |
#host=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1006 def host=(value) object[:host] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @object[:authority] = @value = nil self end |
#inspect ⇒ String
Returns a String
representation of the URI object’s state.
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# File 'lib/rdf/model/uri.rb', line 846 def inspect sprintf("#<%s:%#0x URI:%s>", URI.to_s, self.object_id, self.to_s) end |
#join(*uris) ⇒ RDF::URI
Joins several URIs together.
This method conforms to join normalization semantics as per RFC3986, section 5.2. This method normalizes URIs, removes some duplicate path information, such as double slashes, and other behavior specified in the RFC.
Other URI building methods are #/
and #+
.
For an up-to-date list of edge case behavior, see the shared examples for RDF::URI in the rdf-spec project.
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# File 'lib/rdf/model/uri.rb', line 439 def join(*uris) joined_parts = object.dup.delete_if {|k, v| %i(user password host port).include?(k)} uris.each do |uri| uri = RDF::URI.new(uri) unless uri.is_a?(RDF::URI) next if uri.to_s.empty? # Don't mess with base URI case when uri.scheme joined_parts = uri.object.merge(path: self.class.normalize_path(uri.path)) when uri. joined_parts[:authority] = uri. joined_parts[:path] = self.class.normalize_path(uri.path) joined_parts[:query] = uri.query when uri.path.to_s.empty? joined_parts[:query] = uri.query if uri.query when uri.path[0,1] == '/' joined_parts[:path] = self.class.normalize_path(uri.path) joined_parts[:query] = uri.query else # Merge path segments from section 5.2.3 # Note that if the path includes no segments, the entire path is removed # > return a string consisting of the reference's path component appended to all but the last segment of the base URI's path (i.e., excluding any characters after the right-most "/" in the base URI path, or excluding the entire base URI path if it does not contain any "/" characters). base_path = path.to_s.include?('/') ? path.to_s.sub(/\/[^\/]*$/, '/') : '' joined_parts[:path] = self.class.normalize_path(base_path + uri.path) joined_parts[:query] = uri.query end joined_parts[:fragment] = uri.fragment end # Return joined URI RDF::URI.new(**joined_parts) end |
#length ⇒ Integer Also known as: size
Returns the string length of this URI.
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# File 'lib/rdf/model/uri.rb', line 358 def length to_s.length end |
#normalized_authority ⇒ String
Return normalized version of authority, if any
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# File 'lib/rdf/model/uri.rb', line 1189 def if (userinfo ? normalized_userinfo.to_s + "@" : "") + normalized_host.to_s + (normalized_port ? ":" + normalized_port.to_s : "") end end |
#normalized_fragment ⇒ String
Normalized version of fragment
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# File 'lib/rdf/model/uri.rb', line 1163 def normalized_fragment normalize_segment(fragment, ENCODE_IFRAGMENT) if fragment end |
#normalized_host ⇒ String
Normalized version of host
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# File 'lib/rdf/model/uri.rb', line 1016 def normalized_host # Remove trailing '.' characters host.sub(/\.*$/, '').downcase if host end |
#normalized_password ⇒ String
Normalized version of password
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# File 'lib/rdf/model/uri.rb', line 989 def normalized_password URI.encode(CGI.unescape(password), ENCODE_PASSWORD).force_encoding(Encoding::UTF_8) if password end |
#normalized_path ⇒ String
Normalized version of path
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# File 'lib/rdf/model/uri.rb', line 1077 def normalized_path if normalized_scheme == "urn" # Special-case URI. Normalize the NID component only nid, p = path.to_s.split(':', 2) return "#{nid.downcase}:#{p}" end segments = path.to_s.split('/', -1) # preserve null segments norm_segs = case when # ipath-abempty segments.map {|s| normalize_segment(s, ENCODE_ISEGMENT)} when segments[0].nil? # ipath-absolute res = [nil] res << normalize_segment(segments[1], ENCODE_ISEGMENT) if segments.length > 1 res += segments[2..-1].map {|s| normalize_segment(s, ENCODE_ISEGMENT)} if segments.length > 2 res when segments[0].to_s.index(':') # ipath-noscheme res = [] res << normalize_segment(segments[0], ENCODE_ISEGMENT_NC) res += segments[1..-1].map {|s| normalize_segment(s, ENCODE_ISEGMENT)} if segments.length > 1 res when segments[0] # ipath-rootless # ipath-noscheme res = [] res << normalize_segment(segments[0], ENCODE_ISEGMENT) res += segments[1..-1].map {|s| normalize_segment(s, ENCODE_ISEGMENT)} if segments.length > 1 res else # Should be empty segments end res = self.class.normalize_path(norm_segs.join("/")) # Special rules for specific protocols having empty paths (res.empty? && %w(http https ftp tftp).include?(normalized_scheme)) ? '/' : res end |
#normalized_port ⇒ String
Normalized version of port
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# File 'lib/rdf/model/uri.rb', line 1044 def normalized_port if port np = port.to_i PORT_MAPPING[normalized_scheme] != np ? np : nil end end |
#normalized_query ⇒ String
Normalized version of query
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# File 'lib/rdf/model/uri.rb', line 1139 def normalized_query normalize_segment(query, ENCODE_IQUERY) if query end |
#normalized_scheme ⇒ String
Return normalized version of scheme, if any
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# File 'lib/rdf/model/uri.rb', line 937 def normalized_scheme scheme.strip.downcase if scheme end |
#normalized_user ⇒ String
Normalized version of user
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# File 'lib/rdf/model/uri.rb', line 963 def normalized_user URI.encode(CGI.unescape(user), ENCODE_USER).force_encoding(Encoding::UTF_8) if user end |
#normalized_userinfo ⇒ String
Normalized version of userinfo
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# File 'lib/rdf/model/uri.rb', line 1219 def normalized_userinfo normalized_user + (password ? ":#{normalized_password}" : "") if userinfo end |
#object ⇒ Hash{Symbol => String} Also known as: to_h
Returns object representation of this URI, broken into components
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# File 'lib/rdf/model/uri.rb', line 876 def object @object || @object = parse(@value) end |
#parent ⇒ RDF::URI
Returns a copy of this URI with the path component ascended to the parent directory, if any.
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# File 'lib/rdf/model/uri.rb', line 630 def parent case when root? then nil else require 'pathname' unless defined?(Pathname) if path = Pathname.new(self.path).parent uri = self.dup uri.path = path.to_s uri.path << '/' unless uri.root? uri end end end |
#parent? ⇒ Boolean Also known as: has_parent?
Returns true
if this URI is hierarchical and it’s path component isn’t equal to /
.
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# File 'lib/rdf/model/uri.rb', line 616 def parent? !root? end |
#parse(value) ⇒ Object{Symbol => String}
{ Parse a URI into it’s components
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# File 'lib/rdf/model/uri.rb', line 886 def parse(value) value = value.to_s.dup.force_encoding(Encoding::ASCII_8BIT) parts = {} if matchdata = IRI_PARTS.match(value) scheme, , path, query, fragment = matchdata[1..-1] if Gem.win_platform? && scheme && ! && scheme.match?(/^[a-zA-Z]$/) # A drive letter, not a scheme scheme, path = nil, "#{scheme}:#{path}" end userinfo, hostport = .to_s.split('@', 2) hostport, userinfo = userinfo, nil unless hostport user, password = userinfo.to_s.split(':', 2) host, port = hostport.to_s.split(':', 2) parts[:scheme] = (scheme.dup.force_encoding(Encoding::UTF_8) if scheme) parts[:authority] = (.dup.force_encoding(Encoding::UTF_8) if ) parts[:userinfo] = (userinfo.dup.force_encoding(Encoding::UTF_8) if userinfo) parts[:user] = (user.dup.force_encoding(Encoding::UTF_8) if user) parts[:password] = (password.dup.force_encoding(Encoding::UTF_8) if password) parts[:host] = (host.dup.force_encoding(Encoding::UTF_8) if host) parts[:port] = (CGI.unescape(port).to_i if port) parts[:path] = (path.to_s.dup.force_encoding(Encoding::UTF_8) unless path.empty?) parts[:query] = (query[1..-1].dup.force_encoding(Encoding::UTF_8) if query) parts[:fragment] = (fragment[1..-1].dup.force_encoding(Encoding::UTF_8) if fragment) end parts end |
#password ⇒ String
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# File 'lib/rdf/model/uri.rb', line 969 def password object.fetch(:password) do @object[:password] = (userinfo.split(':', 2)[1] if userinfo) end end |
#password=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 978 def password=(value) object[:password] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @object[:userinfo] = format_userinfo("") @object[:authority] = @value = nil self end |
#path ⇒ String
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# File 'lib/rdf/model/uri.rb', line 1053 def path object.fetch(:path) do nil end end |
#path=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1062 def path=(value) if value # Always lead with a slash value = "/#{value}" if host && value.to_s.match?(/^[^\/]/) object[:path] = value.to_s.dup.force_encoding(Encoding::UTF_8) else object[:path] = nil end @value = nil self end |
#pname(prefixes: nil) ⇒ String
Returns a Prefixed Name (PName) or the full IRI with any reserved characters in the suffix escaped.
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# File 'lib/rdf/model/uri.rb', line 699 def pname(prefixes: nil) q = self.qname(prefixes: prefixes) return self.to_s unless q prefix, suffix = q suffix = suffix.to_s.gsub(PN_ESCAPE_CHARS) {|c| "\\#{c}"} if suffix.to_s.match?(PN_ESCAPE_CHARS) [prefix, suffix].join(":") end |
#port ⇒ String
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# File 'lib/rdf/model/uri.rb', line 1025 def port object.fetch(:port) do @object[:port] = ($1 if @object[:authority] && PORT_FROM_AUTHORITY_RE.match(@object[:authority])) end end |
#port=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1034 def port=(value) object[:port] = (value.to_s.to_i if value) @object[:authority] = @value = nil self end |
#qname(prefixes: nil) ⇒ Array(Symbol, Symbol)
within this software, the term QName is used to describe the tuple of prefix and suffix for a given IRI, where the prefix identifies some defined vocabulary. This somewhat contrasts with the notion of a Qualified Name from XML, which are a subset of Prefixed Names.
Returns a qualified name (QName) as a tuple of [prefix, suffix]
for this URI based on available vocabularies, if possible.
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# File 'lib/rdf/model/uri.rb', line 659 def qname(prefixes: nil) if prefixes prefixes.each do |prefix, uri| return [prefix, self.to_s[uri.length..-1].to_sym] if self.start_with?(uri) end elsif self.to_s =~ %r([:/#]([^:/#]*)$) local_name = $1 vocab_uri = local_name.empty? ? self.to_s : self.to_s[0...-(local_name.length)] Vocabulary.each do |vocab| if vocab.to_uri == vocab_uri prefix = vocab.equal?(RDF) ? :rdf : vocab.__prefix__ return [prefix, local_name.empty? ? nil : local_name.to_sym] end end else Vocabulary.each do |vocab| vocab_uri = vocab.to_uri if self.start_with?(vocab_uri) prefix = vocab.equal?(RDF) ? :rdf : vocab.__prefix__ local_name = self.to_s[vocab_uri.length..-1] return [prefix, local_name.empty? ? nil : local_name.to_sym] end end end return nil # no QName found end |
#query ⇒ String
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# File 'lib/rdf/model/uri.rb', line 1121 def query object.fetch(:query) do nil end end |
#query=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1130 def query=(value) object[:query] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @value = nil self end |
#query_values(return_type = Hash) ⇒ Hash, Array
Converts the query component to a Hash value.
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# File 'lib/rdf/model/uri.rb', line 1237 def query_values(return_type=Hash) raise ArgumentError, "Invalid return type. Must be Hash or Array." unless [Hash, Array].include?(return_type) return nil if query.nil? query.to_s.split('&'). inject(return_type == Hash ? {} : []) do |memo,kv| k,v = kv.to_s.split('=', 2) unless k.to_s.empty? k = CGI.unescape(k) v = CGI.unescape(v) if v if return_type == Hash case memo[k] when nil then memo[k] = v when Array then memo[k] << v else memo[k] = [memo[k], v] end else memo << [k, v].compact end end memo end end |
#query_values=(value) ⇒ Object
Sets the query component for this URI from a Hash object. An empty Hash or Array will result in an empty query string.
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# File 'lib/rdf/model/uri.rb', line 1285 def query_values=(value) if value.nil? self.query = nil return end value = value.to_hash if value.respond_to?(:to_hash) self.query = case value when Array, Hash value.map do |(k,v)| k = normalize_segment(k.to_s, /[^A-Za-z0-9\._~-]/) if v.nil? k else Array(v).map do |vv| if vv === TrueClass k else "#{k}=#{normalize_segment(vv.to_s, /[^A-Za-z0-9\._~-]/)}" end end.join("&") end end else raise TypeError, "Can't convert #{value.class} into Hash." end.join("&") end |
#relative? ⇒ Boolean
A URI is relative when it does not have a scheme
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# File 'lib/rdf/model/uri.rb', line 326 def relative?; !absolute?; end |
#relativize(base_uri) ⇒ RDF::URI
Attempt to make this URI relative to the provided base_uri
. If successful, returns a relative URI, otherwise the original URI
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# File 'lib/rdf/model/uri.rb', line 331 def relativize(base_uri) if self.to_s.start_with?(base_uri.to_s) && %w(# ?).include?(self.to_s[base_uri.to_s.length, 1]) || base_uri.to_s.end_with?("/", "#") && self.to_s.start_with?(base_uri.to_s) return RDF::URI(self.to_s[base_uri.to_s.length..-1]) else # Create a list of parents, for which this IRI may be relative. u = RDF::URI(base_uri) iri_set = u.to_s.end_with?('/') ? [u.to_s] : [] iri_set << u.to_s while (u = u.parent) iri_set.each_with_index do |bb, index| next unless self.to_s.start_with?(bb) rel = "../" * index + self.to_s[bb.length..-1] return rel.empty? ? "./" : rel end end self end |
#request_uri ⇒ String
The HTTP request URI for this URI. This is the path and the query string.
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# File 'lib/rdf/model/uri.rb', line 1319 def request_uri return nil if absolute? && scheme !~ /^https?$/ res = path.to_s.empty? ? "/" : path res += "?#{self.query}" if self.query return res end |
#root ⇒ RDF::URI
Returns a copy of this URI with the path component set to /
.
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# File 'lib/rdf/model/uri.rb', line 598 def root if root? self else RDF::URI.new( **object.merge(path: '/'). keep_if {|k, v| %i(scheme authority path).include?(k)}) end end |
#root? ⇒ Boolean
Returns true
if this URI’s scheme is not hierarchical, or its path component is equal to /
. Protocols not using hierarchical components are always considered to be at the root.
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# File 'lib/rdf/model/uri.rb', line 586 def root? !self.hier? || self.path == '/' || self.path.to_s.empty? end |
#scheme ⇒ String
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# File 'lib/rdf/model/uri.rb', line 919 def scheme object.fetch(:scheme) do nil end end |
#scheme=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 928 def scheme=(value) object[:scheme] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @value = nil self end |
#to_str ⇒ String Also known as: to_s
Returns the string representation of this URI.
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# File 'lib/rdf/model/uri.rb', line 839 def to_str; value; end |
#to_uri ⇒ RDF::URI
Returns self
.
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# File 'lib/rdf/model/uri.rb', line 828 def to_uri self end |
#uri? ⇒ Boolean
Returns true
.
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# File 'lib/rdf/model/uri.rb', line 273 def uri? true end |
#url? ⇒ Boolean
Returns true
if this URI is a URL.
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# File 'lib/rdf/model/uri.rb', line 314 def url? !urn? end |
#urn? ⇒ Boolean
Returns true
if this URI is a URN.
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# File 'lib/rdf/model/uri.rb', line 286 def urn? @object ? @object[:scheme] == 'urn' : start_with?('urn:') end |
#user ⇒ String
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# File 'lib/rdf/model/uri.rb', line 943 def user object.fetch(:user) do @object[:user] = (userinfo.split(':', 2)[0] if userinfo) end end |
#user=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 952 def user=(value) object[:user] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) @object[:userinfo] = format_userinfo("") @object[:authority] = @value = nil self end |
#userinfo ⇒ Object
Userinfo is a combination of user and password
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# File 'lib/rdf/model/uri.rb', line 1199 def userinfo object.fetch(:userinfo) { @object[:userinfo] = (format_userinfo("") if @object[:user]) } end |
#userinfo=(value) ⇒ RDF::URI
Returns self.
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# File 'lib/rdf/model/uri.rb', line 1208 def userinfo=(value) object.delete_if {|k, v| %i(user password authority).include?(k)} object[:userinfo] = (value.to_s.dup.force_encoding(Encoding::UTF_8) if value) user; password; @value = nil self end |
#valid? ⇒ Boolean
Determine if the URI is a valid according to RFC3987
Note that RDF URIs syntactically can contain Unicode escapes, which are unencoded in the internal representation. To validate, %-encode specifically excluded characters from IRIREF
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# File 'lib/rdf/model/uri.rb', line 370 def valid? RDF::URI::IRI.match?(to_s) || false end |
#validate! ⇒ RDF::URI
Validates this URI, raising an error if it is invalid.
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# File 'lib/rdf/model/uri.rb', line 380 def validate! raise ArgumentError, "#{to_base.inspect} is not a valid IRI" if invalid? self end |
#value ⇒ String
lexical representation of URI, either absolute or relative
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# File 'lib/rdf/model/uri.rb', line 853 def value return @value if @value @value = [ ("#{scheme}:" if absolute?), ("//#{}" if ), path, ("?#{query}" if query), ("##{fragment}" if fragment) ].compact.join("").freeze end |