Copyright © 2008-2023 World Wide Web Consortium. W3C® liability, trademark and permissive document license rules apply.
The Resource Description Framework (RDF) is a general-purpose language for representing information in the Web.
This document defines a textual syntax for RDF called Turtle that allows an RDF graph to be completely written in a compact and natural text form, with abbreviations for common usage patterns and datatypes. Turtle provides levels of compatibility with the N-Triples [RDF12-N-TRIPLES] format as well as the triple pattern syntax of SPARQL 1.2 Query Language W3C Recommendation.
RDF 1.2 Turtle introduces quoted triples as a fourth kind of RDF term which can be used as the subject or object of another triple, making it possible to make statements about other statements.
RDF 1.2 Turtle also introduces an annotation syntax which allows quoted triples to also be asserted.
This section describes the status of this document at the time of its publication. A list of current W3C publications and the latest revision of this technical report can be found in the W3C technical reports index at https://www.w3.org/TR/.
This document is a part of the RDF 1.2 document suite. The document defines Turtle, the Terse RDF Triple Language, a concrete syntax for RDF [RDF12-CONCEPTS].
This document was published by the RDF-star Working Group as a Working Draft using the Recommendation track.
Publication as a Working Draft does not imply endorsement by W3C and its Members.
This is a draft document and may be updated, replaced or obsoleted by other documents at any time. It is inappropriate to cite this document as other than work in progress.
This document was produced by a group operating under the W3C Patent Policy. W3C maintains a public list of any patent disclosures made in connection with the deliverables of the group; that page also includes instructions for disclosing a patent. An individual who has actual knowledge of a patent which the individual believes contains Essential Claim(s) must disclose the information in accordance with section 6 of the W3C Patent Policy.
This document is governed by the 2 November 2021 W3C Process Document.
This section is non-normative.
This document defines Turtle, the Terse RDF Triple Language, a concrete syntax for RDF [RDF12-CONCEPTS].
A Turtle document is a textual representations of an RDF graph. The following Turtle document describes the relationship between Green Goblin and Spiderman.
@base <http://example.org/> .
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
@prefix rel: <http://www.perceive.net/schemas/relationship/> .
<#green-goblin>
rel:enemyOf <#spiderman> ;
a foaf:Person ; # in the context of the Marvel universe
foaf:name "Green Goblin" .
<#spiderman>
rel:enemyOf <#green-goblin> ;
a foaf:Person ;
foaf:name "Spiderman", "Человек-паук"@ru .
This example introduces many of features of the Turtle language:
@base and Relative IRI references,
@prefix and prefixed names,
predicate lists separated by ';
',
object lists separated by ',
',
the token a
,
and literals.
The Turtle grammar for
triples
is a subset of SPARQL 1.2 Query Language [SPARQL12-QUERY] grammar
for TriplesBlock
.
The two grammars share production and terminal names where possible.
The construction of an RDF graph from a Turtle document is defined in Turtle Grammar and Parsing.
This section is non-normative.
A Turtle document allows writing down an RDF graph in a compact textual form. An RDF graph is made up of triples consisting of a subject, predicate and object.
Comments may be given after a '#
' that is not part of
another lexical token and continue to the end of the line.
The simplest triple statement is a sequence of (subject, predicate, object) terms,
separated by whitespace and terminated by '.
' after each triple.
<http://example.org/#spiderman>
<http://www.perceive.net/schemas/relationship/enemyOf>
<http://example.org/#green-goblin> .
Often the same subject will be referenced by a number of predicates.
The predicateObjectList production
matches a series of predicates and objects, separated by ';
',
following a subject.
This expresses a series of RDF Triples with that subject and each predicate
and object allocated to one triple.
Thus, the ';
' symbol is used to repeat the subject of triples
that vary only in predicate and object RDF terms.
These two examples are equivalent ways of writing the triples about Spiderman.
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green-goblin> ;
<http://xmlns.com/foaf/0.1/name> "Spiderman" .
<http://example.org/#spiderman> <http://www.perceive.net/schemas/relationship/enemyOf> <http://example.org/#green-goblin> .
<http://example.org/#spiderman> <http://xmlns.com/foaf/0.1/name> "Spiderman" .
As with predicates often objects are repeated with the same subject and predicate.
The objectList production
matches a series of objects separated by ',
' following a predicate.
This expresses a series of RDF Triples with the corresponding subject and predicate
and each object allocated to one triple.
Thus, the ',
' symbol is used to repeat the subject and predicate
of triples that only differ in the object RDF term.
These two examples are equivalent ways of writing Spiderman's name in two languages.
<http://example.org/#spiderman> <http://xmlns.com/foaf/0.1/name> "Spiderman", "Человек-паук"@ru .
<http://example.org/#spiderman> <http://xmlns.com/foaf/0.1/name> "Spiderman" .
<http://example.org/#spiderman> <http://xmlns.com/foaf/0.1/name> "Человек-паук"@ru .
There are three four of RDF Term defined in RDF Concepts: IRIs (Internationalized Resource Identifiers), literals, blank nodes, and. quoted triples, Turtle provides a number of ways of writing each.
IRIs may be written as relative or absolute IRIs or prefixed names.
Relative and absolute IRIs are enclosed in '<' and '>' and
may contain numeric escape sequences (described below).
For example <http://example.org/#green-goblin>
.
Relative IRI references like <#green-goblin>
are resolved relative to the current base IRI.
A new base IRI can be defined using the '@base
' or 'BASE
'
directive. Specifics of this operation are defined in
6.3 IRI References.
The token 'a
' in the predicate position of a Turtle triple
represents the IRI http://www.w3.org/1999/02/22-rdf-syntax-ns#type
.
A prefixed name is a prefix label and a local part,
separated by a colon ":".
A prefixed name is turned into an IRI by concatenating the IRI associated
with the prefix and the local part.
The '@prefix
' or 'PREFIX
' directive associates
a prefix label with an IRI.
Subsequent '@prefix
' or 'PREFIX
' directives
may re-map the same prefix label.
The Turtle language originally permitted only the syntax including
the '@
' character for writing prefix and base directives.
The case-insensitive 'PREFIX
' and 'BASE
'
forms were added to align Turtle's syntax with that of SPARQL.
It is advisable to serialize RDF using the '@prefix
' and '@base
'
forms until RDF 1.1 Turtle parsers are widely deployed.
To write http://www.perceive.net/schemas/relationship/enemyOf
using a prefixed name:
http://www.perceive.net/schemas/relationship/
as somePrefix
somePrefix:enemyOf
which is equivalent to writing
<http://www.perceive.net/schemas/relationship/enemyOf>
This can be written using either the original Turtle syntax for prefix declarations:
@prefix somePrefix: <http://www.perceive.net/schemas/relationship/> .
<http://example.org/#green-goblin> somePrefix:enemyOf <http://example.org/#spiderman> .
or SPARQL's syntax for prefix declarations:
PREFIX somePrefix: <http://www.perceive.net/schemas/relationship/>
<http://example.org/#green-goblin> somePrefix:enemyOf <http://example.org/#spiderman> .
Prefixed names are a superset of XML QNames. They differ in that the local part of prefixed names may include:
leg:3032571
or isbn13:9780136019701
og:video:height
wgs:lat\-long
The following Turtle document contains examples of all the different ways of writing IRIs in Turtle.
# A triple with all absolute IRIs
<http://one.example/subject1> <http://one.example/predicate1> <http://one.example/object1> .
@base <http://one.example/> .
<subject2> <predicate2> <object2> . # relative IRI references, e.g., http://one.example/subject2
BASE <http://one.example/>
<subject2> <predicate2> <object2> . # relative IRI references, e.g., http://one.example/subject2
@prefix p: <http://two.example/> .
p:subject3 p:predicate3 p:object3 . # prefixed name, e.g., http://two.example/subject3
PREFIX p: <http://two.example/>
p:subject3 p:predicate3 p:object3 . # prefixed name, e.g., http://two.example/subject3
@prefix p: <path/> . # prefix p: now stands for http://one.example/path/
p:subject4 p:predicate4 p:object4 . # prefixed name, e.g., http://one.example/path/subject4
@prefix : <http://another.example/> . # empty prefix
:subject5 :predicate5 :object5 . # prefixed name, e.g., http://another.example/subject5
:subject6 a :subject7 . # same as :subject6 <http://www.w3.org/1999/02/22-rdf-syntax-ns#type> :subject7 .
<http://伝言.example/?user=أ&channel=R%26D> a :subject8 . # a multi-script subject IRI .
The '@prefix
' and '@base
' directives
require a trailing '.
' after the IRI,
the equivalent 'PREFIX
' and 'BASE
'
must not have a trailing '.
' after the IRI part of the directive.
Literals are used to identify values such as strings, numbers, dates.
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
<http://example.org/#green-goblin> foaf:name "Green Goblin" .
<http://example.org/#spiderman> foaf:name "Spiderman" .
Quoted Literals (Grammar production
RDFLiteral) have a lexical form
followed by a language tag, a datatype IRI, or neither.
The representation of the lexical form consists of an initial delimiter
(e.g., "
(U+0022));
a sequence of permitted characters, numeric escapes,
and/or string escapes; and a final delimiter.
The corresponding RDF lexical form
is the characters between the delimiters,
after processing any escape sequences.
If present, the language tag is preceded by a '@
'
(U+0040).
If there is no language tag, there may be a datatype IRI,
preceeded by '^^
'
(U+005E U+005E).
The datatype IRI in Turtle may be written using either an
absolute IRI,
a relative IRI reference,
or a prefixed name.
If there is no datatype IRI and no language tag,
the datatype is xsd:string
.
A backslash ('\
', U+005C)
may not appear in any quoted literal except as part of an escape sequence.
Other restrictions depend on the delimiter:
'
(U+0027)
may not contain unescaped '
,
LF
(U+000A),
nor CR
(U+000D)
characters."
, may not contain unescaped
"
,
LF
,
nor CR
characters.'''
may not contain the sequence of characters
'''
."""
may not contain the sequence of characters
"""
.
@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
@prefix show: <http://example.org/vocab/show/> .
@prefix xsd: <http://www.w3.org/2001/XMLSchema#> .
show:218 rdfs:label "That Seventies Show"^^xsd:string . # literal with XML Schema string datatype
show:218 rdfs:label "That Seventies Show"^^<http://www.w3.org/2001/XMLSchema#string> . # same as above
show:218 rdfs:label "That Seventies Show" . # same again
show:218 show:localName "That Seventies Show"@en . # literal with a language tag
show:218 show:localName 'Cette Série des Années Soixante-dix'@fr . # literal delimited by single quote
show:218 show:localName "Cette Série des Années Septante"@fr-be . # literal with a region subtag
show:218 show:blurb '''This is a multi-line # literal with embedded new lines and quotes
literal with many quotes (""""")
and up to two sequential apostrophes ('').''' .
Numbers can be written like other literals with lexical form and datatype
(e.g., "-5.0"^^xsd:decimal
).
Turtle has a shorthand syntax for writing integer values,
arbitrary precision decimal values, and double precision floating point values.
Data Type | Abbreviated | Lexical | Description |
---|---|---|---|
xsd:integer | -5 |
"-5"^^xsd:integer |
Integer values may be written as an optional sign and a series of digits.
Integers match the regular expression "[+-]?[0-9]+ ". |
xsd:decimal | -5.0 |
"-5.0"^^xsd:decimal |
Arbitrary-precision decimals may be written as an optional sign,
zero or more digits,
a decimal point, and one or more digits.
Decimals match the regular expression "[+-]?[0-9]*\.[0-9]+ ". |
xsd:double | 4.2E9 |
"4.2E9"^^xsd:double |
Double-precision floating point values may be written as
an optionally signed mantissa with an optional decimal point,
the letter "e" or "E", and an optionally signed integer exponent.
The exponent matches the regular expression "[+-]?[0-9]+ "
and the mantissa matches one of these regular expressions:
"[+-]?[0-9]+\.[0-9]+ ",
"[+-]?\.[0-9]+ ",
or "[+-]?[0-9] ". |
@prefix : <http://example.org/elements> .
<http://en.wikipedia.org/wiki/Helium>
:atomicNumber 2 ; # xsd:integer
:atomicMass 4.002602 ; # xsd:decimal
:specificGravity 1.663E-4 . # xsd:double
Boolean values may be written as either 'true
'
or 'false
' (case-sensitive)
and represent RDF literals with the datatype xsd:boolean.
@prefix : <http://example.org/stats> .
<http://somecountry.example/census2007>
:isLandlocked false . # xsd:boolean
RDF blank nodes in Turtle are expressed
as _:
followed by a blank node identifier which is a series of characters.
The characters in the identifier are built upon
PN_CHARS_BASE,
liberalized as follows:
_
and digits may appear anywhere in a blank node identifier..
may appear anywhere except the first or last character.-
,
U+00B7
,
U+0300
to U+036F
and U+203F
to U+2040
are permitted anywhere except the first character.A fresh RDF blank node is allocated for each unique blank node identifier in a document. Repeated use of the same blank node identifier identifies the same blank node.
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
_:alice foaf:knows _:bob .
_:bob foaf:knows _:alice .
In Turtle, fresh RDF blank nodes are also allocated when matching the production blankNodePropertyList and the terminal ANON. Both of these may appear in the subject or object position of a triple (see the Turtle Grammar). That subject or object is a fresh RDF blank node. This blank node also serves as the subject of the triples produced by matching the predicateObjectList production embedded in a blankNodePropertyList. The generation of these triples is described in Predicate Lists. Blank nodes are also allocated for collections described below.
@prefix foaf: <http://xmlns.com/foaf/0.1/> .
# Someone knows someone else, who has the name "Bob".
[] foaf:knows [ foaf:name "Bob" ] .
The Turtle grammar allows blankNodePropertyLists
to be nested.
In this case, each inner [
establishes a new subject blank node which reverts to the outer node
at the ]
, and serves as the current subject
for predicate object lists.
The use of predicateObjectList within a blankNodePropertyList is a common idiom for representing a series of properties of a node.
Abbreviated: | Corresponding simple triples: |
---|---|
|
|
RDF provides a Collection [RDF12-SEMANTICS]
structure for lists of RDF nodes.
The Turtle syntax for Collections is a possibly empty list of RDF terms enclosed by ()
.
This collection represents an rdf:first
/rdf:rest
list structure with the sequence of objects of the rdf:first
statements being the order of the terms enclosed by ()
.
The (…)
syntax MUST appear in the
subject
or object position of a triple
(see the Turtle Grammar).
The blank node at the head of the list is the subject or object of the containing triple.
@prefix : <http://example.org/foo> .
# the object of this triple is the RDF collection blank node
:subject :predicate ( :a :b :c ) .
# an empty collection value - rdf:nil
:subject :predicate2 () .
A quoted triple may be the subject or object of an RDF triple.
A quoted triple
is represented using the quotedTriple
production
with subject
,
predicate
, and
object
preceded by <<
and followed by >>
.
Note that quoted triples
may be nested.
PREFIX : <http://www.example.org/>
:employee38 :familyName "Smith" .
<< :employee38 :jobTitle "Assistant Designer" >> :accordingTo :employee22 .
After declaring a prefix so that IRIs can be abbreviated,
the first triple in this example asserts that employee38
has a familyName
of "Smith".
Note that this graph does not assert that employee38
has a jobTitle
of "Assistant Designer";
it says that employee22
has made that claim.
In other words, the triple "employee38
has a jobTitle
of 'Assistant Designer'"
is not what we call an asserted triple,
like "employee38 has a familyName
of 'Smith'" above;
rather, it is known as a quoted triple.
Turtle also defines an annotation syntax
to both quote and assert a triple,
which provides a convenient shortcut.
An annotation can be used to both assert a triple and have that triple be the
subject of further triples.
The delimiters {|
and |}
follow an
asserted triple to make that triple,
as a quoted triple,
the subject
of the predicateObjectList
contained within the annotation delimeters.
The annotation syntax is a syntactic short cut in Turtle, and the RDF Abstract Syntax [RDF11-CONCEPTS] does not distinguished how the triples were written.
PREFIX : <http://example.com/>
:a :name "Alice" {| :statedBy :bob ; :recorded "2021-07-07"^^xsd:date |} .
is the same set of triples as:
PREFIX : <http://example.com/> << :a :name "Alice" >> :statedBy :bob . << :a :name "Alice" >> :recorded "2021-07-07"^^xsd:date . :a :name "Alice"
and the graph contains three asserted triples.
This section is non-normative.
This example is a Turtle translation of example 7 in RDF 1.2 XML Syntax (example1.ttl):
An example of an RDF collection of two literals.
PREFIX : <http://example.org/stuff/1.0/>
:a :b ( "apple" "banana" ) .
which is short for (example2.ttl):
An example of two identical triples containing literal objects containing newlines, written in plain and long literal forms. The line breaks in this example are LINE FEED characters (U+000A). (example3.ttl):
As indicated by the grammar,
a collection can be either
a subject or
an object.
This subject or object will be the novel blank node for the first object,
if the collection has one or more objects, or rdf:nil
if the collection is empty.
For example,
@prefix : <http://example.org/stuff/1.0/> .
(1 2.0 3E1) :p "w" .
is syntactic sugar for (noting that the
blank nodes
b0
, b1
, and b2
do not occur anywhere else in the RDF graph):
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix : <http://example.org/stuff/1.0/>
_:b0 rdf:first 1 ;
rdf:rest _:b1 .
_:b1 rdf:first 2.0 ;
rdf:rest _:b2 .
_:b2 rdf:first 3E1 ;
rdf:rest rdf:nil .
_:b0 :p "w" .
RDF collections can be nested and can involve other syntactic forms:
PREFIX : <http://example.org/stuff/1.0/>
(1 [:p :q] ( 2 ) ) :p2 :q2 .
is syntactic sugar for:
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix : <http://example.org/stuff/1.0/>
_:b0 :p2 :q2 .
_:b0 rdf:first 1 ;
rdf:rest _:b1 .
_:b1 rdf:first _:b2 .
_:b2 :p :q .
_:b1 rdf:rest _:b3 .
_:b3 rdf:first _:b4 .
_:b4 rdf:first 2 ;
rdf:rest rdf:nil .
_:b3 rdf:rest rdf:nil .
This section is non-normative.
The SPARQL 1.2 Query Language (SPARQL) [SPARQL12-QUERY] uses a Turtle style syntax for its TriplesBlock production. This production differs from the Turtle language in that:
?
name or $
name)
in any part of the triple of the form.a
'.
Turtle's @prefix
and @base
declarations are case sensitive,
the SPARQL derived PREFIX
and BASE
are case insensitive.true
' and 'false
' are case insensitive in SPARQL
and case sensitive in Turtle.
TrUe
is not a valid boolean value in Turtle.For further information see the Syntax for IRIs and SPARQL Grammar sections of the SPARQL query document [SPARQL12-QUERY].
As well as sections marked as non-normative, all authoring guidelines, diagrams, examples, and notes in this specification are non-normative. Everything else in this specification is normative.
The key words MUST and SHOULD in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.
This specification defines conformance criteria for:
A conforming Turtle document is a Unicode string that conforms to the grammar and additional constraints defined in 6. Turtle Grammar, starting with the turtleDoc
production. A Turtle document serializes an RDF graph.
A conforming Turtle parser is a system capable of reading Turtle documents on behalf of an application. It makes the serialized RDF graph, as defined in 7. Parsing, available to the application, usually through some form of API.
The IRI that identifies the Turtle language is: http://www.w3.org/ns/formats/Turtle
This specification does not define how Turtle parsers handle non-conforming input documents.
The media type of Turtle is text/turtle
.
The content encoding of Turtle content is always UTF-8. Charset
parameters on the media type are required until such time as the
text/
media type tree permits UTF-8 to be sent without a
charset parameter. See D. Internet Media Type, File Extension and Macintosh File Type for the media type
registration form.
A Turtle document is a Unicode[UNICODE] character string encoded in UTF-8. Unicode characters only in the range U+0000 to U+10FFFF inclusive are allowed.
White space (production WS) is used to separate two terminals which would otherwise be (mis-)recognized as one terminal. Rule names below in capitals indicate where white space is significant; these form a possible choice of terminals for constructing a Turtle parser.
White space is significant in the production String.
Comments in Turtle take the form of '#' outside an IRIREF or String, and continue to the end of line (marked by characters U+000D or U+000A) or end of file if there is no end of line after the comment marker. Comments are treated as white space.
Relative IRI references are resolved with base IRIs as per Uniform Resource Identifier (URI): Generic Syntax [RFC3986] using only the basic algorithm in section 5.2. Neither Syntax-Based Normalization nor Scheme-Based Normalization (described in sections 6.2.2 and 6.2.3 of RFC3986) are performed. Characters additionally allowed in IRI references are treated in the same way that unreserved characters are treated in URI references, per section 6.5 of Internationalized Resource Identifiers (IRIs) [RFC3987].
The @base
or BASE
directive defines the Base IRI used to resolve relative IRI references
per [RFC3986] section 5.1.1, "Base URI Embedded in Content".
Section 5.1.2, "Base URI from the Encapsulating Entity"
defines how the In-Scope Base IRI may come from an encapsulating document,
such as a SOAP envelope with an xml:base
directive or a MIME multipart document with a
Content-Location
header.
The "Retrieval URI" identified in 5.1.3, Base "URI from the Retrieval URI",
is the URL from which a particular Turtle document was retrieved.
If none of the above specifies the Base URI, the default
Base URI (section 5.1.4, "Default Base URI") is used.
Each @base
or BASE
directive sets a new In-Scope Base URI,
relative to the previous one.
There are three forms of escapes used in turtle documents:
numeric escape sequences represent Unicode code points:
Escape sequence | Unicode code point |
---|---|
'\u' hex hex hex hex | A Unicode character in the range U+0000 to U+FFFF inclusive corresponding to the value encoded by the four hexadecimal digits interpreted from most significant to least significant digit. |
'\U' hex hex hex hex hex hex hex hex | A Unicode character in the range U+0000 to U+10FFFF inclusive corresponding to the value encoded by the eight hexadecimal digits interpreted from most significant to least significant digit. |
where HEX is a hexadecimal character
HEX ::= [0-9] | [A-F] | [a-f]
string escape sequences represent the characters traditionally escaped in string literals:
Escape sequence | Unicode code point |
---|---|
'\t' | U+0009 |
'\b' | U+0008 |
'\n' | U+000A |
'\r' | U+000D |
'\f' | U+000C |
'\"' | U+0022 |
'\'' | U+0027 |
'\\' | U+005C |
reserved character escape sequences consist of
a '\' followed by one of ~.-!$&'()*+,;=/?#@%_
and represent the character to the right of the '\'.
numeric escapes |
string escapes |
reserved character escapes |
|
---|---|---|---|
IRIs, used as RDF terms or as in @prefix, PREFIX, @base, or BASE declarations | yes | no | no |
local names | no | no | yes |
Strings | yes | yes | no |
%-encoded sequences are in the
character range for IRIs
and are explicitly allowed in local names.
These appear as a '%' followed by two hex characters and represent that
same sequence of three characters. These sequences are not
decoded during processing.
A term written as <http://a.example/%66oo-bar>
in Turtle designates the IRI http://a.example/%66oo-bar
and not IRI http://a.example/foo-bar
.
A term written as ex:%66oo-bar
with a prefix
@prefix ex: <http://a.example/>
also designates the IRI http://a.example/%66oo-bar
.
The EBNF used here is defined in XML 1.0 [EBNF-NOTATION].
Notes:
@base
',
'@prefix
',
'a
',
'true
',
'false
')
are case-sensitive.
Keywords in double quotes
("BASE
",
"PREFIX
")
are case-insensitive.
UCHAR
and ECHAR
are case sensitive.
turtleDoc
.
@prefix
'
and '@base
'
match the pattern for LANGTAG,
though neither "prefix
"
nor "base
"
are registered language subtags.
This specification does not define whether a quoted literal
followed by either of these tokens (e.g., "A"@base
)
is in the Turtle language.
[1] | turtleDoc |
::= | statement* |
[2] | statement |
::= | directive | ( triples ". ") |
[3] | directive |
::= | prefixID | base | sparqlPrefix | sparqlBase |
[4] | prefixID |
::= | "@prefix " PNAME_NS IRIREF ". " |
[5] | base |
::= | "@base " IRIREF ". " |
[6] | sparqlPrefix |
::= | "PREFIX " PNAME_NS IRIREF |
[7] | sparqlBase |
::= | "BASE " IRIREF |
[8] | triples |
::= | ( subject predicateObjectList) | ( blankNodePropertyList predicateObjectList? ) |
[9] | predicateObjectList |
::= | verb objectList ( "; " ( verb objectList) ? ) * |
[10] | objectList |
::= | object annotation? ( ", " object annotation? ) * |
[11] | verb |
::= | predicate | "a " |
[12] | subject |
::= | iri | BlankNode | collection | quotedTriple |
[13] | predicate |
::= | iri |
[14] | object |
::= | iri | BlankNode | collection | blankNodePropertyList | literal | quotedTriple |
[15] | literal |
::= | RDFLiteral | NumericLiteral | BooleanLiteral |
[16] | blankNodePropertyList |
::= | "[ " predicateObjectList "] " |
[17] | collection |
::= | "( " object* ") " |
[18] | NumericLiteral |
::= | INTEGER | DECIMAL | DOUBLE |
[19] | RDFLiteral |
::= | String ( LANGTAG | ( "^^ " iri) ) ? |
[20] | BooleanLiteral |
::= | "true " | "false " |
[21] | String |
::= | STRING_LITERAL_QUOTE | STRING_LITERAL_SINGLE_QUOTE | STRING_LITERAL_LONG_SINGLE_QUOTE | STRING_LITERAL_LONG_QUOTE |
[22] | iri |
::= | IRIREF | PrefixedName |
[23] | PrefixedName |
::= | PNAME_LN | PNAME_NS |
[24] | BlankNode |
::= | BLANK_NODE_LABEL | ANON |
[25] | quotedTriple |
::= | "<< " qtSubject predicate qtObject ">> " |
[26] | qtSubject |
::= | iri | BlankNode | quotedTriple |
[27] | qtObject |
::= | iri | BlankNode | literal | quotedTriple |
[28] | annotation |
::= | "{| " predicateObjectList "|} " |
[30] | IRIREF |
::= | "< " ( [ ^ #x00 - #x20 <>"{}|^`\ ] | UCHAR) * "> "
/* #x00=NULL #x01-#x1F=control codes #x20=space */ |
[31] | PNAME_NS |
::= | PN_PREFIX? ": " |
[32] | PNAME_LN |
::= | PNAME_NS PN_LOCAL |
[33] | BLANK_NODE_LABEL |
::= | "_: " ( PN_CHARS_U | [ 0-9 ] ) ( ( PN_CHARS | ". ") * PN_CHARS) ? |
[34] | LANGTAG |
::= | "@ " [ a-zA-Z ] + ( "- " [ a-zA-Z0-9 ] + ) * |
[35] | INTEGER |
::= | [ +- ] ? [ 0-9 ] + |
[36] | DECIMAL |
::= | [ +- ] ? ( [ 0-9 ] * ". " [ 0-9 ] + ) |
[37] | DOUBLE |
::= | [ +- ] ? ( ( [ 0-9 ] + ". " [ 0-9 ] * EXPONENT) | ( ". " [ 0-9 ] + EXPONENT) | ( [ 0-9 ] + EXPONENT) ) |
[38] | EXPONENT |
::= | [ eE ] [ +- ] ? [ 0-9 ] + |
[39] | STRING_LITERAL_QUOTE |
::= | '" ' ( [ ^ #x22 #x5C #x0A #x0D ] | ECHAR | UCHAR) * '" '
/* #x22=" #x5C=\ #xA=new line #xD=carriage return */ |
[40] | STRING_LITERAL_SINGLE_QUOTE |
::= | "' " ( [ ^ #x27 #x5C #x0A #x0D ] | ECHAR | UCHAR) * "' "
/* #x27=' #x5C=\ #xA=new line #xD=carriage return */ |
[41] | STRING_LITERAL_LONG_SINGLE_QUOTE |
::= | "''' " ( ( "' " | "'' ") ? ( [ ^'\ ] | ECHAR | UCHAR) ) * "''' " |
[42] | STRING_LITERAL_LONG_QUOTE |
::= | '""" ' ( ( '" ' | '"" ') ? ( [ ^"\ ] | ECHAR | UCHAR) ) * '""" ' |
[43] | UCHAR |
::= | ( "\u " HEX HEX HEX HEX) | ( "\U " HEX HEX HEX HEX HEX HEX HEX HEX) |
[44] | ECHAR |
::= | "\ " [ tbnrf\"' ] |
[45] | NIL |
::= | "( " WS* ") " |
[46] | WS |
::= | #x20 | #x09 | #x0D | #x0A
/* #x20=space #x09=character tabulation #x0D=carriage return #x0A=new line */ |
[47] | ANON |
::= | "[ " WS* "] " |
[48] | PN_CHARS_BASE |
::= | [ A-Z ] |
| |
[ a-z ] |
||
| |
[ #xC0 - #xD6 ] |
||
| |
[ #xD8 - #xF6 ] |
||
| |
[ #xF8 - #x02FF ] |
||
| |
[ #x0370 - #x037D ] |
||
| |
[ #x037F - #x1FFF ] |
||
| |
[ #x200C - #x200D ] |
||
| |
[ #x2070 - #x218F ] |
||
| |
[ #x2C00 - #x2FEF ] |
||
| |
[ #x3001 - #xD7FF ] |
||
| |
[ #xF900 - #xFDCF ] |
||
| |
[ #xFDF0 - #xFFFD ] |
||
| |
[ #x00010000 - #x000EFFFF ] |
||
[49] | PN_CHARS_U |
::= | PN_CHARS_BASE | "_ " |
[50] | PN_CHARS |
::= | PN_CHARS_U | "- " | [ 0-9 ] | #xB7 | [ #x0300 - #x036F ] | [ #x203F - #x2040 ] |
[51] | PN_PREFIX |
::= | PN_CHARS_BASE ( ( PN_CHARS | ". ") * PN_CHARS) ? |
[52] | PN_LOCAL |
::= | ( PN_CHARS_U | ": " | [ 0-9 ] | PLX) ( ( PN_CHARS | ". " | ": " | PLX) * ( PN_CHARS | ": " | PLX) ) ? |
[53] | PLX |
::= | PERCENT | PN_LOCAL_ESC |
[54] | PERCENT |
::= | "% " HEX HEX |
[55] | HEX |
::= | [ 0-9 ] | [ A-F ] | [ a-f ] |
[56] | PN_LOCAL_ESC |
::= | "\ " ( "_ " | "~ " | ". " | "- " | "! " | "$ " | "& " | "' " | "( " | ") " | "* " | "+ " | ", " | "; " | "= " | "/ " | "? " | "# " | "@ " | "% ") |
The RDF 1.2 Concepts and Abstract Syntax specification [RDF12-CONCEPTS] defines four types of RDF Term:
IRIs,
literals,
blank nodes, and
quoted triples.
Literals are composed of a lexical form and an optional language tag [BCP47] or datatype IRI.
An extra type, prefix
, is used during parsing to map string identifiers to namespace IRIs.
This section maps a string conforming to the grammar in 6.5 Grammar
to a set of triples by mapping strings matching productions and lexical tokens
to RDF terms or their components (e.g., language tags, lexical forms of literals).
Grammar productions change the parser state and emit triples.
Parsing Turtle requires a state of six items:
IRIREF
, is the base URI used for relative
IRI resolution.
PNAME_NS
and IRIREF
)
in the prefixID production
assign a namespace name (IRIREF
) for the prefix
(PNAME_NS
).
Outside of a prefixID
production,
any PNAME_NS
is substituted with the namespace.
Note that the prefix may be an empty string, per the
PNAME_NS
production: (PN_PREFIX)? ":"
.
subject
and qtSubject
productions.verb
production.
If token matched was "a
",
curPredicate is bound to the IRI
http://www.w3.org/1999/02/22-rdf-syntax-ns#type
.
object
and
qtObject
productions.Additionally, curSubject can be bound to any RDF_Term (including a quoted triple).
This table maps productions and lexical tokens to RDF terms
or components of RDF terms
listed in 7. Parsing:
production | type | procedure |
---|---|---|
IRIREF | IRI | The characters between "<" and ">" are taken, with the numeric escape sequences unescaped, to form the unicode string of the IRI. Relative IRI reference resolution is performed per Section 6.3. |
PNAME_NS | prefix | When used in a prefixID or sparqlPrefix production, the prefix is the potentially empty unicode string matching the first argument of the rule is a key into the namespaces map. |
IRI | When used in a PrefixedName production, the iri is the value in the namespaces map corresponding to the first argument of the rule. | |
PNAME_LN | IRI | A potentially empty prefix is identified by the first sequence, PNAME_NS . The namespaces map MUST have a corresponding namespace . The unicode string of the IRI is formed by unescaping the reserved characters in the second argument, PN_LOCAL , and concatenating this onto the namespace . |
STRING_LITERAL_SINGLE_QUOTE | lexical form | The characters between the outermost "'"s are taken, with numeric and string escape sequences unescaped, to form the unicode string of a lexical form. |
STRING_LITERAL_QUOTE | lexical form | The characters between the outermost '"'s are taken, with numeric and string escape sequences unescaped, to form the unicode string of a lexical form. |
STRING_LITERAL_LONG_SINGLE_QUOTE | lexical form | The characters between the outermost "'''"s are taken, with numeric and string escape sequences unescaped, to form the unicode string of a lexical form. |
STRING_LITERAL_LONG_QUOTE | lexical form | The characters between the outermost '"""'s are taken, with numeric and string escape sequences unescaped, to form the unicode string of a lexical form. |
LANGTAG | language tag | The characters following the @ form the unicode string of the language tag. |
RDFLiteral | literal | The literal has a lexical form of the first rule argument, String . If the '^^' iri rule matched, the datatype is iri and the literal has no language tag. If the LANGTAG rule matched, the datatype is rdf:langString and the language tag is LANGTAG . If neither matched, the datatype is xsd:string and the literal has no language tag. |
INTEGER | literal | The literal has a lexical form of the input string, and a datatype of xsd:integer . |
DECIMAL | literal | The literal has a lexical form of the input string, and a datatype of xsd:decimal . |
DOUBLE | literal | The literal has a lexical form of the input string, and a datatype of xsd:double . |
BooleanLiteral | literal | The literal has a lexical form of the true or false , depending on which matched the input, and a datatype of xsd:boolean . |
BLANK_NODE_LABEL | blank node | The string matching the second argument, PN_LOCAL , is a key in bnodeLabels. If there is no corresponding blank node in the map, one is allocated. |
ANON | blank node | A blank node is generated. |
blankNodePropertyList | blank node | A blank node is generated. Note the rules for blankNodePropertyList in the next section. |
collection | blank node | For non-empty lists, a blank node is generated. Note the rules for collection in the next section. |
IRI | For empty lists, the resulting IRI is rdf:nil . Note the rules for collection in the next section. | |
quotedTriple | quoted triple |
The quoted triple
is composed of the terms constructed from
the subject ,
predicate , and
object productions.
|
A Turtle document defines an RDF graph composed of set of RDF triples.
The subject
and qtSubject
productions set the curSubject.
The verb
production sets the curPredicate.
The object
and qtObject
productions set the }curObject|.
Each object N
in the document produces an RDF triple:
curSubject
curPredicate N
.
Beginning the quotedTriple
production
records the curSubject and curPredicate.
Finishing the quotedTriple
production
yields the RDF triple curSubject curPredicate curObject
and restores the recorded values of curSubject and curPredicate.
Beginning the annotation
production
records the curSubject and curPredicate,
and sets the curSubject to the RDF triple curSubject curPredicate curObject.
Finishing the annotation
production
restores the recorded values of curSubject and curPredicate.
Beginning the blankNodePropertyList
production records the curSubject
and curPredicate,
and sets curSubject
to a novel blank node
B
.
Finishing the blankNodePropertyList
production restores curSubject
and curPredicate.
The node produced by matching blankNodePropertyList
is the blank node B
.
Beginning the collection
production records the curSubject and curPredicate.
Each object
in the collection
production has a curSubject set to a novel blank node
B
and a curPredicate set to rdf:first
.
For each object objectn
after the first produces a triple:objectn-1
rdf:rest
objectn
.
Finishing the collection
production creates an additional triple curSubject rdf:rest rdf:nil
. and restores curSubject and curPredicate
The node produced by matching collection
is the first blank node B
for non-empty lists and rdf:nil
for empty lists.
This section is non-normative.
The following informative example shows the semantic actions performed when parsing this Turtle document with an LALR(1) parser:
@prefix ericFoaf: <http://www.w3.org/People/Eric/ericP-foaf.rdf#> .
@prefix : <http://xmlns.com/foaf/0.1/> .
ericFoaf:ericP :givenName "Eric" ;
:knows <http://norman.walsh.name/knows/who/dan-brickley> ,
[ :mbox <mailto:timbl@w3.org> ] ,
<http://getopenid.com/amyvdh> .
ericFoaf
to the IRI http://www.w3.org/People/Eric/ericP-foaf.rdf#
.http://xmlns.com/foaf/0.1/
.http://www.w3.org/People/Eric/ericP-foaf.rdf#ericP
.http://xmlns.com/foaf/0.1/givenName
.<...rdf#ericP>
<.../givenName>
"Eric"
.http://xmlns.com/foaf/0.1/knows
.<...rdf#ericP>
<.../knows>
<...who/dan-brickley>
.<...rdf#ericP>
<.../knows>
_:1
._:1
.http://xmlns.com/foaf/0.1/mbox
._:1
<.../mbox>
<mailto:timbl@w3.org>
.<...rdf#ericP>
, <.../knows>
).<...rdf#ericP>
<.../knows>
<http://getopenid.com/amyvdh>
.This section is non-normative.
HTML [HTML5] script
tags
can be used to embed data blocks in documents. Turtle can be easily embedded in HTML this way.
<script type="text/turtle">
@prefix dc: <http://purl.org/dc/terms/> .
@prefix frbr: <http://purl.org/vocab/frbr/core#> .
<http://books.example.com/works/45U8QJGZSQKDH8N> a frbr:Work ;
dc:creator "Wil Wheaton"@en ;
dc:title "Just a Geek"@en ;
frbr:realization <http://books.example.com/products/9780596007683.BOOK>,
<http://books.example.com/products/9780596802189.EBOOK> .
<http://books.example.com/products/9780596007683.BOOK> a frbr:Expression ;
dc:type <http://books.example.com/product-types/BOOK> .
<http://books.example.com/products/9780596802189.EBOOK> a frbr:Expression ;
dc:type <http://books.example.com/product-types/EBOOK> .
</script>
Turtle content should be placed in a script
tag with the
type
attribute set to text/turtle
. <
and >
symbols
do not need to be escaped inside of script tags. The character encoding of the embedded Turtle
will match the HTML documents encoding.
This section is non-normative.
Like JavaScript, Turtle authored for HTML (text/html
) can break when used in XHTML
(application/xhtml+xml
). The solution is the same one used for JavaScript.
<script type="text/turtle">
# <![CDATA[
@prefix frbr: <http://purl.org/vocab/frbr/core#> .
<http://books.example.com/works/45U8QJGZSQKDH8N> a frbr:Work .
# ]]>
</script>
When embedded in XHTML Turtle data blocks must be enclosed in CDATA sections. Those CDATA markers must be in Turtle comments. If the character sequence "]]>
" occurs in the document it must be escaped using strings escapes (\u005d\u0054\u003e
). This will also make Turtle safe in polyglot documents served as both text/html
and application/xhtml+xml
. Failing to use CDATA sections or escape "]]>
" may result in a non well-formed XML document.
This section is non-normative.
There are no syntactic or grammar differences between parsing Turtle
that has been embedded and normal Turtle documents.
A Turtle document parsed from an HTML DOM will be a stream
of character data rather than a stream of UTF-8 encoded bytes.
No decoding is necessary if the HTML document has already been parsed into DOM.
Each script
data block is considered to be it's own Turtle document.
@prefix
and @base
declarations in a Turtle data bloc
are scoped to that data block and do not effect other data blocks.
The HTML lang
attribute or XHTML xml:lang
attribute
have no effect on the parsing of the data blocks.
The base URI of the encapsulating HTML document provides a
"Base URI Embedded in Content" per RFC3986 section 5.1.1.
This section is non-normative.
TODO
This section is non-normative.
The STRING_LITERAL_SINGLE_QUOTE, STRING_LITERAL_QUOTE, STRING_LITERAL_LONG_SINGLE_QUOTE, and STRING_LITERAL_LONG_QUOTE, productions allow the use of unescaped control characters. Although this specification does not directly expose this content to an end user, it might be presented through a user agent, which may cause the presented text to be obfuscated due to presentation of such characters.
Turtle is a general-purpose assertion language; applications may evaluate given data to infer more assertions or to dereference IRIs, invoking the security considerations of the scheme for that IRI. Note in particular, the privacy issues in [RFC3023] section 10 for HTTP IRIs. Data obtained from an inaccurate or malicious data source may lead to inaccurate or misleading conclusions, as well as the dereferencing of unintended IRIs. Care must be taken to align the trust in consulted resources with the sensitivity of the intended use of the data; inferences of potential medical treatments would likely require different trust than inferences for trip planning.
The Turtle language is used to express arbitrary application data; security considerations will vary by domain of use. Security tools and protocols applicable to text (for example, PGP encryption, checksum validation, password-protected compression) may also be used on Turtle documents. Security/privacy protocols must be imposed which reflect the sensitivity of the embedded information.
Turtle can express data which is presented to the user, such as RDF Schema labels. Applications rendering strings retrieved from untrusted Turtle documents, or using unescaped characters, SHOULD use warnings and other appropriate means to limit the possibility that malignant strings might be used to mislead the reader. The security considerations in the media type registration for XML ([RFC3023] section 10) provide additional guidance around the expression of arbitrary data and markup.
Turtle uses IRIs as term identifiers. Applications interpreting data expressed in Turtle SHOULD address the security issues of Internationalized Resource Identifiers (IRIs) [RFC3987] Section 8, as well as Uniform Resource Identifier (URI): Generic Syntax [RFC3986] Section 7.
Multiple IRIs may have the same appearance. Characters in different scripts may look similar (for instance, a Cyrillic "о" may appear similar to a Latin "o"). A character followed by combining characters may have the same visual representation as another character (for example, LATIN SMALL LETTER "E" followed by COMBINING ACUTE ACCENT has the same visual representation as LATIN SMALL LETTER "E" WITH ACUTE). Any person or application that is writing or interpreting data in Turtle must take care to use the IRI that matches the intended semantics, and avoid IRIs that may look similar. Further information about matching visually similar characters can be found in Unicode Security Considerations [UNICODE-SECURITY] and Internationalized Resource Identifiers (IRIs) [RFC3987] Section 8.
The Internet Media Type (formerly known as MIME Type) for Turtle is "text/turtle".
It is recommended that Turtle files have the extension ".ttl" (all lowercase) on all platforms.
It is recommended that Turtle files stored on Macintosh HFS file systems be given a file type of "TEXT".
This information that follows has been submitted to the IESG for review, approval, and registration with IANA.
charset
— this parameter is required when transferring non-ASCII data. If present, the value of charset
is always UTF-8
.This section is non-normative.
This work was described in the paper New Syntaxes for RDF which discusses other RDF syntaxes and the background to the Turtle (Submitted to WWW2004, referred to as N-Triples Plus there).
This work was started during the Semantic Web Advanced Development Europe (SWAD-Europe) project funded by the EU IST-7 programme IST-2001-34732 (2002-2004) and further development supported by the Institute for Learning and Research Technology at the University of Bristol, UK (2002-Sep 2005).
Valuable contributions to this version were made by Gregg Kellogg, Andy Seaborn, Sandro Hawke and the members of the RDF Working Group.
The document was improved through the review process by the wider community.
This section is non-normative.
In addition to the editors, the following people have contributed to this specification: Pierre-Antoine Champin
Members of the RDF-star Working Group Group included Achille Zappa, Adrian Gschwend, Andy Seaborne, Antoine Zimmermann, Dan Brickley, David Chaves-Fraga, Dominik Tomaszuk, Dörthe Arndt, Enrico Franconi, Fabien Gandon, Gregg Kellogg, Gregory Williams, Jesse Wright, Jose Emilio Labra Gayo, Julián Arenas-Guerrero, Olaf Hartig, Ora Lassila, Pasquale Lisena, Peter Patel-Schneider, Pierre-Antoine Champin, Raphaël Troncy, Ruben Taelman, Rémi Ceres, Souripriya Das, Stuart Sutton, Ted Thibodeau, Thomas Pellissier Tanon, Timothée Haudebourg, and Vladimir Alexiev.
Recognize members of the Task Force? Not an easy to find list of contributors.
This section is non-normative.
STRING_LITERAL_QUOTE
and STRING_LITERAL_SINGLE_QUOTE
.Referenced in:
Referenced in:
Referenced in:
Referenced in:
Referenced in:
Referenced in:
Referenced in:
Referenced in:
Referenced in: