Abstract
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 existing
N-Triples
format as well as the triple pattern syntax of the
SPARQL
W3C Recommendation.
Status of This Document
This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current W3C publications and the latest revision of this technical report can be found in the W3C technical reports index at http://www.w3.org/TR/.
Turtle is already a reasonably settled serialization of RDF. Many
implementations of Turtle already exist, we are hoping for feedback from those
existing implementers and other people deciding that now would be a good time
to support Turtle. There are still a few rough edges that need polishing, and
better alignment with the SPARQL triple patterns. The working group does not
expect to make any large changes to the existing syntax.
This document was published by the RDF Working Group as a First Public Working Draft. This document is intended to become a W3C Recommendation. If you wish to make comments regarding this document, please send them to [email protected] (subscribe, archives). All feedback is welcome.
Publication as a Working Draft does not imply endorsement by the W3C Membership. 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 5 February 2004 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.
2. An Introduction to Turtle (Informative)
This section is informative. The
Turtle Syntax and Turtle Grammar sections formally define the language.
A Turtle document allows writing down an RDF graph in a compact
textual form. It consists of a sequence of directives, triple-generating
statements or blank lines. Comments may be given after a # that is not part of another lexical token
and continue to the end of the line.
Simple triples are a sequence of (subject, predicate, object)
terms, separated by whitespace and terminated by '.' after each
triple. This corresponds to
N-Triples
[N-TRIPLES].
ISSUE-4: A future version of this document is expected to define N-Triples.
There are three types of RDF Term:
Internationalized Resource Identifiers (IRIs for short),
literals and
blank nodes.
2.1 RDF Terms
IRIs are written enclosed in '<' and '>' and may be
absolute RDF URI References or relative to the current base IRI
(described below).
# this is not a complete turtle document
<http://example.org/path/>
<http://example.org/path/#fragment>
</path>
<#fragment>
<>
IRIs may also be abbreviated by using Turtle's @prefix
directive that allows declaring a short prefix name for a long prefix
of repeated IRIs. This is useful for many RDF vocabularies that are
all defined with a common namespace like IRI.
While @prefix works somewhat like XML
namespaces the restrictions from XML QNames do NOT apply. leg:3032571
is a perfectly fine prefixed name.
Once a prefix such as @prefix foo:
<http://example.org/ns#> is defined, any mention of a
URI later in the document may use a prefixed name that
starts foo: to stand for the longer IRI. So for
example, the prefixed name foo:bar is a shorthand for
the IRI http://example.org/ns#bar.
# this is a complete turtle document
@prefix foo: <http://example.org/ns#> .
@prefix : <http://other.example.org/ns#> .
foo:bar foo: : .
:bar : foo:bar .
Literals are written either using double-quotes when they do not
contain linebreaks like "simple literal" or
"""long literal""" when they may contain linebreaks.
# this is not a complete turtle document
"a string"
"""a string"""
"""a string
with newlines
"""
Literals have either a language suffix or a datatype IRI
but not both. Languages are indicated by appending the simple
literal with @ and the language tag. Datatype IRIs
similarly append ^^ followed by any legal IRI form (full
or prefixed) as described above to give the datatype IRI. Literals
may be written without either a language tag or a datatype IRI as a
shortcut for a literal with the type xsd:string.
# this is not a complete turtle document
"That Seventies Show"
"That Seventies Show"@en
"Cette Série des Années Soixante-dix"@fr
"Cette Série des Années Septante"@fr-be
"mylexicaldata"^^<http://example.org/my/datatype>
"""10"""^^xsd:decimal
The "That Seventies Show" above is equivalent to "That Seventies Show"^^xsd:string.
ISSUE-12 The RDF Working Group is currently examining a simplification of RDF which considers plain literals with no language tag to be literals with a datatype xsd:string.
Blank nodes are written as _:BLANK_NODE_LABEL
to provide a blank node either from the given BLANK_NODE_LABEL.
A generated blank node may also be made with []
which is useful to provide the subject of RDF triples for
each pair from the predicateObjectList
or the root of the collection.
# this is not a complete turtle document
_:me
_:a1234
Literals , prefixed names and IRIs may also contain escapes to encode surrounding
syntax, non-printable characters and to encode Unicode characters by
codepoint number (although they may also be given directly, encoded
as UTF-8). The character escapes are:
\t (U+0009, tab)\n (U+000A, linefeed)\r (U+000D, carriage return)\" (U+0022, double quote - only allowed inside strings)\> (U+003E, greater than - only allowed inside IRI_REFs)\\ (U+005C, backslash)-
\uHHHH or
\UHHHHHHHH
for writing Unicode characters by hexadecimal codepoint where
H is a single hexadecimal digit.
See the String escapes section for full details.
ISSUE 67 The inclusion of escape sequences in prefixed names is undecided.
2.2 Abbreviating IRIs
The current base IRI may be altered in a Turtle document using the
@base directive. It allows further abbreviation of
IRIs but is usually for simplifying the IRIs in the data, where
the prefix directives are for vocabularies that describe the data.
Whenever this directive appears, it defines the base IRI for which
all relative IRIs are resolved against. That includes IRIs,
qualified names, prefix directives as well as later base directives.
# this is a complete turtle document
# In-scope base URI is the document URI at this point
<a1> <b1> <c1> .
@base <http://example.org/ns/> .
# In-scope base URI is http://example.org/ns/ at this point
<a2> <http://example.org/ns/b2> <c2> .
@base <foo/> .
# In-scope base URI is http://example.org/ns/foo/ at this point
<a3> <b3> <c3> .
@prefix : <bar#> .
:a4 :b4 :c4 .
@prefix : <http://example.org/ns2#> .
:a5 :b5 :c5 .
The token a is equivalent to the IRI
<http://www.w3.org/1999/02/22-rdf-syntax-ns#type>
# this is a complete turtle document
@prefix doc: <http://example.org/#ns> .
<http://example.org/path> a doc:Document .
2.3 Abbreviating common datatypes
Decimal integers may be written directly and correspond to
the XML Schema Datatype
xsd:integer
in both syntax and datatype IRI.
# this is not a complete turtle document
-5
0
1
10
+1
# some long form examples
"-5"^^xsd:integer
"10"^^<http://www.w3.org/2001/XMLSchema#integer>
Decimal floating point double/fixed precision numbers may be written
directly and correspond to the XML Schema Datatype
xsd:double
in both syntax and datatype IRI.
# this is not a complete turtle document
1.3e2
10e0
-12.5e10
# some long form examples
"1.3e2"^^xsd:double
"-12.5e10"^^<http://www.w3.org/2001/XMLSchema#double>
Decimal floating point arbitrary precision numbers may be written
directly and correspond to the XML Schema Datatype
xsd:decimal.
in both syntax and datatype IRI.
# this is not a complete turtle document
0.0
1.0
1.234567890123456789
-5.0
# some long form examples
"0.0"^^xsd:decimal
"-5.0"^^<http://www.w3.org/2001/XMLSchema#decimal>
Boolean may be written directly as true or
false and correspond to the
the XML Schema Datatype
xsd:boolean
in both syntax and datatype IRI.
# this is not a complete turtle document
true
false
# same in long form
"true"^^xsd:boolean
"false"^^<http://www.w3.org/2001/XMLSchema#boolean>
2.4 Abbreviating groups of triples
The , symbol may be used to repeat the subject and
predicate of triples that only differ in the object RDF term.
# this is not a complete turtle document
:subject :predicate :object1 ,
:object2 .
# creates two triples, the last triple is :subject :predicate :object2 .
The ; symbol may be used to repeat the subject of
triples that vary only in predicate and object RDF terms.
# this is not a complete turtle document
:subject :predicate1 :obj1 ;
:predicate2 :obj2 .
# creates two triples, the last triple is :subject :predicate2 :obj2 .
2.5 Abbreviating RDF Collections
An RDF Collection may be abbreviated using a sequence of
RDF Terms enclosed in ( ) brackets. Whitespace may
be used to separate them, as usual. This format provides a
blank node at the start of RDF Collection which may be used
in further abbreviations.
# this is a complete turtle document
@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 () .
See section Collections for
the details on the long form of the generated triples.
3. Syntax for IRIs, Literals and Blank Nodes
Turtle is a language for an RDF graph,
a set of RDF triples. An RDF graph is
composed of URI references (now interpreted as IRIs),
literals and
blank nodes.
The Turtle syntax for IRIs is identical to that of SPARQL Query, including the use of
prefix and base directives, though these are spelled
@prefix and @base respectively in Turtle.
Per RFC3986 section 5.1.1 [RFC3986],
the parsing begins with a context-defined In-Scope Base URI. Each @base directive
sets a new In-Scope Base URI, relative to the previous one. @prefix directives
map a local name to an IRI, also resolved against the current In-Scope Base URI.
Subsequent @prefix may re-map the same local name.
Turtle IRI syntax, including relative IRI resolution, is defined by SPARQL Query section 4.1.1 (noting the different spellings of the PREFIX and BASE keywords).
Example (test-30.ttl) with document base IRI
http://www.w3.org/2001/sw/DataAccess/df1/tests/
# In-scope base URI is http://www.w3.org/2001/sw/DataAccess/df1/tests/ at this point
<a1> <b1> <c1> .
@base <http://example.org/ns/> .
# In-scope base URI is http://example.org/ns/ at this point
<a2> <http://example.org/ns/b2> <c2> .
@base <foo/> .
# In-scope base URI is http://example.org/ns/foo/ at this point
<a3> <b3> <c3> .
@prefix : <bar#> .
:a4 :b4 :c4 .
@prefix : <http://example.org/ns2#> .
:a5 :b5 :c5 .
encodes the following N-Triples
(test-30.out):
<http://www.w3.org/2001/sw/DataAccess/df1/tests/a1> <http://www.w3.org/2001/sw/DataAccess/df1/tests/b1> <http://www.w3.org/2001/sw/DataAccess/df1/tests/c1> .
<http://example.org/ns/a2> <http://example.org/ns/b2> <http://example.org/ns/c2> .
<http://example.org/ns/foo/a3> <http://example.org/ns/foo/b3> <http://example.org/ns/foo/c3> .
<http://example.org/ns/foo/bar#a4> <http://example.org/ns/foo/bar#b4> <http://example.org/ns/foo/bar#c4> .
<http://example.org/ns2#a5> <http://example.org/ns2#b5> <http://example.org/ns2#c5> .
The Turtle syntax for literals and blank nodes are defined by SPARQL Query section 4.1.2 and SPARQL Query section 4.1.4 respectively.
4. Turtle Grammar
A Turtle document is a
Unicode[UNICODE]
character string encoded in UTF-8.
Unicode codepoints only in the range U+0 to U+10FFFF inclusive are
allowed.
4.1 White Space
White space (production ws) is used to separate
two tokens which would otherwise be (mis-)recognized as one token.
White space is significant in tokens
IRI_REF and string.
4.3 String Escapes
Turtle strings and IRIs can use \-escape sequences to
represent Unicode code points.
The following table describes all the escapes
allowed inside a string
or IRI_REF:
| Escape |
Unicode code point |
| '\u' hex hex hex hex |
A Unicode codepoint in the range U+0 to U+FFFF inclusive
corresponding to the encoded hexadecimal value. |
| '\U' hex hex hex hex hex hex hex hex |
A Unicode codepoint in the range U+10000 to U+10FFFF inclusive
corresponding to the encoded hexadecimal value. |
| '\t' |
U+0009 |
| '\n' |
U+000A |
| '\r' |
U+000D |
'\"'
(inside string) |
U+0022 |
'\>'
(inside IRI_REF only) |
U+003E |
| '\\' |
U+005C |
where HEX is a hexadecimal character
HEX
::= [0-9] | [A-F] | [a-f]
5. Parsing
The RDF Concepts and Abstract Syntax ([RDF-CONCEPTS]) specification defines three types of RDF Term:
RDF URI References (here called IRIs),
literals and
blank nodes.
Literals are composed of a lexical form and an optional language tag 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 section 4.4 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). Some productions change the parser state (base or prefix declarations).
5.1 Parser State
Parsing Turtle requires a state of four items:
- IRI
baseURI — When the base production is reached, the second rule argument, IRI_REF, is the base URI used for relative IRI resolution (test: base1 base2).
- Map[prefix -> IRI]
namespaces — The second and third rule arguments (PNAME_NS and IRI_REF) in the prefixID production assign a namespace name (IRI_REF) for the prefix (PNAME_NS). Outside of a prefixID production, any PNAME_NS is substituted with the namespace (test: prefix1
escapedNamespace1). Note that the prefix may be an empty string, per the PNAME_NS, production: (PN_PREFIX)? ":" (test: default1).
- Map[string -> blank node]
bnodeLabels — A mapping from string to blank node label.
- RDF_Term
curSubject — The curSubject is bound to the subject production.
- RDF_Term
curPredicate — The curPredicate is bound to the verb production. If token matched was "a", curPredicate is bound to the IRI http://www.w3.org/1999/02/22-rdf-syntax-ns#type (test: type).
5.2 RDF Term Constructors
This table maps productions and lexical tokens to RDF terms or components of RDF terms listed in section 5:
| production | type | procedure |
| IRI_REF | IRI | The characters between "<" and ">" are unescaped¹ to form the unicode string of the IRI. Relative IRI resolution is performed per SPARQL Query section 4.1.1. |
| PNAME_NS | prefix | The potentially empty unicode string matching the first argument of the rule is a key into the namespaces map. |
| PNAME_LN | IRI | A prefix is identified by the first argument, PNAME_NS. The namespaces map has a corresponding namespace. The unicode string of the IRI is formed by concatenating this namespace and the second argument, PN_LOCAL. Relative IRI resolution is performed per SPARQL Query section 4.1.1. |
| STRING_LITERAL1 | lexical form | The characters between the outermost "'"s are unescaped¹ to form the unicode string of a lexical form. |
| STRING_LITERAL2 | lexical form | The characters between the outermost '"'s are unescaped¹ to form the unicode string of a lexical form. |
| STRING_LITERAL_LONG1 | lexical form | The characters between the outermost "'''"s are unescaped¹ to form the unicode string of a lexical form. |
| STRING_LITERAL_LONG2 | lexical form | The characters between the outermost '"""'s are unescaped¹ 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) and either a language tag of LANGTAG or a datatype IRI of IRIref, depending on which rule matched the input. |
| 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 | A blank node is generated. Note the rules for collection in the next section. |
¹ Section 3.3 defines an mapping from escaped unicode strings to unicode strings. The following lexical tokens are unescaped to produce unicode strings: IRI_REF,
STRING_LITERAL1, STRING_LITERAL2, STRING_LITERAL_LONG1 and STRING_LITERAL_LONG2
.
5.3 RDF Triples Constructors
A Turtle document defines an RDF graph composed of set of RDF triples.
Each object N in the document produces an RDF triple: curSubject curPredicate N .
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, sets curSubject to a novel blank node Bhead and sets curSubject and curPredicate to Bhead and rdf:first respectively.
Each object O in collection allocates a novel blank node Bn, creates an additional triple curSubject rdf:rest Bn . and sets curSubject to Bn.
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 blank node Bhead.
6. Examples (Informative)
This section is non-normative.
This example is a Turtle translation of
example 7
in the
RDF/XML Syntax specification
(example1.ttl):
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix dc: <http://purl.org/dc/elements/1.1/> .
@prefix ex: <http://example.org/stuff/1.0/> .
<http://www.w3.org/TR/rdf-syntax-grammar>
dc:title "RDF/XML Syntax Specification (Revised)" ;
ex:editor [
ex:fullname "Dave Beckett";
ex:homePage <http://purl.org/net/dajobe/>
] .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):
@prefix : <http://example.org/stuff/1.0/> .
@prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
:a :b
[ rdf:first "apple";
rdf:rest [ rdf:first "banana";
rdf:rest rdf:nil ]
] .An example of two identical triples containing literal objects
containing newlines, written in plain and long literal forms.
Assumes that line feeds in this document are #xA.
(example3.ttl):
@prefix : <http://example.org/stuff/1.0/> .
:a :b "The first line\nThe second line\n more" .
:a :b """The first line
The second line
more""" .
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,
(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):
_: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:
(1 [:p :q] ( 2 ) ) .
is syntactic sugar for:
_: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 .
7. Identifiers for the Turtle Language
The IRI that identifies the Turtle language is:
http://www.w3.org/ns/formats/Turtle
The XML (Namespace name, Local name) pair that identifies
the Turtle language is:
Namespace: http://www.w3.org/ns/formats/Turtle
Local name: turtle
The suggested namespace prefix is ttl (informative)
which would make this ttl:turtle as an XML QName.
Previous versions of the Turtle specified
http://www.w3.org/2008/turtle#turtle as the IRI for the Turtle language.
This change aligns Turtle with identifiers for RDF/XML, N3, POWDER, etc
9. Media Type and Content Encoding
The media type of Turtle is text/turtle.
The content encoding of Turtle content is always UTF-8. Charset
parameters on the mime type are required until such time as the
text/ media type tree permits UTF-8 to be sent without a
charset parameter. See B. Internet Media
Type, File Extension and Macintosh File Type for the media type
registration form.
10. Turtle compared
Turtle is related to a number of other languages.