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Native golang library for RDF (includes parser/serializer for Turtle and JSON-LD)

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rdf2go

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Native golang parser/serializer from/to Turtle and JSON-LD.

Installation

Just go get it!

go get -u github.com/deiu/rdf2go

Example usage

Working with graphs

// Set a base URI
baseUri := "https://example.org/foo"

// Create a new graph
g := (baseUri)

// Add a few triples to the graph
triple1 := NewTriple(NewResource("a"), NewResource("b"), NewResource("c"))
g.Add(triple1)
triple2 := NewTriple(NewResource("a"), NewResource("d"), NewResource("e"))
g.Add(triple2)

// Get length of Graph (nr of triples)
g.Len() // -> 2

// Dump graph contents to NTriples
out := g.String()
// <a> <b> <c> .
// <a> <d> <e> .

// Delete a triple
g.Remove(triple2)

Looking up triples from the graph

Returning a single match

The g.One() method returns the first triple that matches against any (or all) of Subject, Predicate, Object patterns.

// Create a new graph
g := NewGraph("https://example.org")

// Add a few triples
g.Add(NewTriple(NewResource("a"), NewResource("b"), NewResource("c")))

// Look up one triple matching the given subject
triple := g.One(NewResource("a"), nil, nil) // -> <a> <b> <c> .

// Look up one triple matching the given predicate
triple = g.One(nil, NewResource("b"), nil) // -> <a> <b> <c> .

// Look up one triple matching the given object
triple = g.One(nil, nil, NewResource("c")) // -> <a> <b> <c> .

// Look up one triple matching the given subject and predicate
triple = g.One(NewResource("a"), NewResource("b"), nil) // -> <a> <b> <c> .

// Look up one triple matching the a bad predicate
triple = g.One(nil, NewResource("z"), nil) // -> nil

Returning a list of matches

Similar to g.One(), g.All() returns all triples that match the given pattern.

// Create a new graph
g := NewGraph("https://example.org")

// Add a few triples
g.Add(NewTriple(NewResource("a"), NewResource("b"), NewResource("c")))
g.Add(NewTriple(NewResource("a"), NewResource("b"), NewResource("d")))

// Look up one triple matching the given subject
triples := g.All(nil, nil, NewResource("c")) //
for _, triple := range triples {
	triple.String()
}
// Returns a single triple that matches object <c>:
// <a> <b> <c> .

triples = g.All(nil, NewResource("b"), nil)
for _, triple := range triples {
	triple.String()
}
// Returns all triples that match subject <b>: 
// <a> <b> <c> .
// <a> <b> <d> .

Different types of terms (resources)

IRIs

// Create a new IRI
iri := NewResource("https://example.org")
iri.String() // -> <https://example.org>

Literals

// Create a new simple Literal
lit := NewLiteral("hello world")
lit.String() // -> "hello word"

// Create a new Literal with language tag
lit := NewLiteralWithLanguage("hello world", "en")
lit.String() // -> "hello word"@en

// Create a new Literal with a data type
lit := NewLiteralWithDatatype("newTypeVal", NewResource("https://datatype.com"))
lit.String() // -> "newTypeVal"^^<https://datatype.com>

Blank Nodes

// Create a new Blank Node with a given ID
bn := NewBlankNode(9)
bn.String() // -> "_:n9"

// Create an anonymous Blank Node with a random ID
abn := NewAnonNode()
abn.String() // -> "_:n192853"

Parsing data

The parser takes an io.Reader as first parameter, and the string containing the mime type as the second parameter.

Currently, the supported parsing formats are Turtle (with mime type text/turtle) and JSON-LD (with mime type application/ld+json).

Parsing Turtle from an io.Reader

// Set a base URI
baseUri := "https://example.org/foo"

// Create a new graph
g := NewGraph(baseUri)

// r is of type io.Reader
g.Parse(r, "text/turtle")

Parsing JSON-LD from an io.Reader

// Set a base URI
baseUri := "https://example.org/foo"

// Create a new graph
g := NewGraph(baseUri)

// r is an io.Reader
g.Parse(r, "application/ld+json")

Parsing either Turtle or JSON-LD from a URI on the Web

In this case you don't have to specify the mime type, as the internal http client will try to content negotiate to either Turtle or JSON-LD. An error will be returned if it fails.

Note: The NewGraph() function accepts an optional parameter called skipVerify that is used to tell the internal http client whether or not to ignore bad/self-signed server side certificates. By default, it will not check if you omit this parameter, or if you set it to true.

// Set a base URI
uri := "https://example.org/foo"

// Check remote server certificate to see if it's valid 
// (don't skip verification)
skipVerify := false

// Create a new graph. You can also omit the skipVerify parameter
// and accept invalid certificates (e.g. self-signed)
g := NewGraph(uri, skipVerify)

err := g.LoadURI(uri)
if err != nil {
	// deal with the error
}

Serializing data

The serializer takes an io.Writer as first parameter, and the string containing the mime type as the second parameter.

Currently, the supported serialization formats are Turtle (with mime type text/turtle) and JSON-LD (with mime type application/ld+json).

Serializing to Turtle

// Set a base URI
baseUri := "https://example.org/foo"

// Create a new graph
g := NewGraph(baseUri)

triple := NewTriple(NewResource("a"), NewResource("b"), NewResource("c"))
g.Add(triple)

// w is of type io.Writer
g.Serialize(w, "text/turtle")

Serializing to JSON-LD

// Set a base URI
baseUri := "https://example.org/foo"

// Create a new graph
g := NewGraph(baseUri)

triple := NewTriple(NewResource("a"), NewResource("b"), NewResource("c"))
g.Add(triple)

// w is of type io.Writer
g.Serialize(w, "application/ld+json")

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Native golang library for RDF (includes parser/serializer for Turtle and JSON-LD)

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