Sord(3) | Sord | Sord(3) |
NAME¶
Sord -Opaque Types¶
typedef struct SordWorldImpl SordWorld
Enumerations¶
enum SordQuadIndex { SORD_SUBJECT = 0, SORD_PREDICATE = 1, SORD_OBJECT = 2, SORD_GRAPH = 3 }
World¶
SordWorld * sord_world_new (void)
Node¶
SordNode * sord_new_uri (SordWorld *world, const uint8_t *uri)
Model¶
SordModel * sord_new (SordWorld *world, unsigned indices, bool graphs)
Inserter¶
SordInserter * sord_inserter_new (SordModel *model, SerdEnv *env)
Iteration¶
void sord_iter_get (const SordIter *iter, SordQuad quad)
Utilities¶
bool sord_quad_match (const SordQuad x, const SordQuad y)
Serialisation¶
SerdReader * sord_new_reader (SordModel *model, SerdEnv *env, SerdSyntax syntax, SordNode *graph)
Detailed Description¶
A lightweight RDF model library.Typedef Documentation¶
typedef struct SordWorldImpl SordWorld¶
Sord World. The World represents all library state, including interned strings.typedef struct SordModelImpl SordModel¶
Sord Model. A model is an indexed set of Quads (i.e. it can contain several RDF graphs). It may be searched using various patterns depending on which indices are enabled.typedef struct SordInserterImpl SordInserter¶
Model Inserter. An inserter is used for writing statements to a model using the Serd sink interface. This makes it simple to write to a model directly using a SerdReader, or any other code that writes statements to a SerdStatementSink.typedef struct SordIterImpl SordIter¶
Model Iterator.typedef struct SordNodeImpl SordNode¶
RDF Node. A Node is a component of a Quad. Nodes may be URIs, blank nodes, or (in the case of quad objects only) string literals. Literal nodes may have an associate language or datatype (but not both).typedef const SordNode* SordQuad[4]¶
Quad of nodes (a statement), or a quad pattern. Nodes are ordered (S P O G). The ID of the default graph is 0.Enumeration Type Documentation¶
enum SordQuadIndex¶
Index into a SordQuad. Enumerator:- SORD_SUBJECT
- Subject.
- SORD_PREDICATE
- Predicate (a.k.a. 'key')
- SORD_OBJECT
- Object (a.k.a. 'value')
- SORD_GRAPH
- Graph (a.k.a. 'context')
enum SordNodeType¶
Type of a node. Enumerator:- SORD_URI
- URI.
- SORD_BLANK
- Blank node identifier.
- SORD_LITERAL
- Literal (string with optional lang or datatype)
enum SordIndexOption¶
Indexing option. Enumerator:- SORD_SPO
- Subject, Predicate, Object.
- SORD_SOP
- Subject, Object, Predicate.
- SORD_OPS
- Object, Predicate, Subject.
- SORD_OSP
- Object, Subject, Predicate.
- SORD_PSO
- Predicate, Subject, Object.
- SORD_POS
- Predicate, Object, Subject.
Function Documentation¶
SordWorld* sord_world_new (void)¶
Create a new Sord World. It is safe to use multiple worlds in one process, though no data (e.g. nodes) can be shared between worlds, and this should be avoided if possible for performance reasons.void sord_world_free (SordWorld *world)¶
Free world.SordNode* sord_new_uri (SordWorld *world, const uint8_t *uri)¶
Get a URI node from a string. Note this function measures str, which is a common bottleneck. Use sord_node_from_serd_node instead if str is already measured.SordNode* sord_new_relative_uri (SordWorld *world, const uint8_t *str, const uint8_t *base_uri)¶
Get a URI node from a relative URI string.SordNode* sord_new_blank (SordWorld *world, const uint8_t *str)¶
Get a blank node from a string. Note this function measures str, which is a common bottleneck. Use sord_node_from_serd_node instead if str is already measured.SordNode* sord_new_literal (SordWorld *world, SordNode *datatype, const uint8_t *str, const char *lang)¶
Get a literal node from a string. Note this function measures str, which is a common bottleneck. Use sord_node_from_serd_node instead if str is already measured.SordNode* sord_node_copy (const SordNode *node)¶
Copy a node (obtain a reference). Node that since nodes are interned and reference counted, this does not actually create a deep copy of node.void sord_node_free (SordWorld *world, SordNode *node)¶
Free a node (drop a reference).SordNodeType sord_node_get_type (const SordNode *node)¶
Return the type of a node (SORD_URI, SORD_BLANK, or SORD_LITERAL).const uint8_t* sord_node_get_string (const SordNode *node)¶
Return the string value of a node.const uint8_t* sord_node_get_string_counted (const SordNode *node, size_t *len)¶
Return the string value of a node, and set len to its length.const char* sord_node_get_language (const SordNode *node)¶
Return the language of a literal node (or NULL).SordNode* sord_node_get_datatype (const SordNode *node)¶
Return the datatype URI of a literal node (or NULL).SerdNodeFlags sord_node_get_flags (const SordNode *node)¶
Return the flags (string attributes) of a node.bool sord_node_is_inline_object (const SordNode *node)¶
Return true iff node can be serialised as an inline object. More specifically, this returns true iff the node is the object field of exactly one statement, and therefore can be inlined since it needn't be referred to by name.bool sord_node_equals (const SordNode *a, const SordNode *b)¶
Return true iff a is equal to b. Note this is much faster than comparing the node's strings.const SerdNode* sord_node_to_serd_node (const SordNode *node)¶
Return a SordNode as a SerdNode. The returned node is shared and must not be freed or modified.SordNode* sord_node_from_serd_node (SordWorld *world, SerdEnv *env, const SerdNode *node, const SerdNode *datatype, const SerdNode *lang)¶
Create a new SordNode from a SerdNode. The returned node must be freed using sord_node_free.SordModel* sord_new (SordWorld *world, unsignedindices, boolgraphs)¶
Create a new model. Parameters:world The world in which to make this
model.
indices SordIndexOption flags (e.g. SORD_SPO|SORD_OPS). Be sure to enable
an index where the most significant node(s) are not variables in your queries
(e.g. to make (? P O) queries, enable either SORD_OPS or SORD_POS).
graphs If true, store (and index) graph contexts.
void sord_free (SordModel *model)¶
Close and free model.SordWorld* sord_get_world (SordModel *model)¶
Get the world associated with model.size_t sord_num_nodes (const SordWorld *world)¶
Return the number of nodes stored in world. Nodes are included in this count iff they are a part of a quad in world.size_t sord_num_quads (const SordModel *model)¶
Return the number of quads stored in model.SordIter* sord_begin (const SordModel *model)¶
Return an iterator to the start of model.SordIter* sord_find (SordModel *model, const SordQuadpat)¶
Search for statements by a quad pattern. Returns:an iterator to the first match, or NULL if no
matches found.
SordIter* sord_search (SordModel *model, const SordNode *s, const SordNode *p, const SordNode *o, const SordNode *g)¶
Search for statements by nodes. Returns:an iterator to the first match, or NULL if no
matches found.
bool sord_ask (SordModel *model, const SordNode *s, const SordNode *p, const SordNode *o, const SordNode *g)¶
Return true iff a statement exists.uint64_t sord_count (SordModel *model, const SordNode *s, const SordNode *p, const SordNode *o, const SordNode *g)¶
Return the number of matching statements.bool sord_contains (SordModel *model, const SordQuadpat)¶
Check if model contains a triple pattern.bool sord_add (SordModel *model, const SordQuadquad)¶
Add a quad to a model.void sord_remove (SordModel *model, const SordQuadquad)¶
Remove a quad from a model. Note that is it illegal to remove while iterating over model.SordInserter* sord_inserter_new (SordModel *model, SerdEnv *env)¶
Create an inserter for writing statements to a model.void sord_inserter_free (SordInserter *inserter)¶
Free an inserter.SerdStatus sord_inserter_set_base_uri (SordInserter *inserter, const SerdNode *uri)¶
Set the current base URI for writing to the model. Note this function can be safely casted to SerdBaseSink.SerdStatus sord_inserter_set_prefix (SordInserter *inserter, const SerdNode *name, const SerdNode *uri)¶
Set a namespace prefix for writing to the model. Note this function can be safely casted to SerdPrefixSink.SerdStatus sord_inserter_write_statement (SordInserter *inserter, SerdStatementFlagsflags, const SerdNode *graph, const SerdNode *subject, const SerdNode *predicate, const SerdNode *object, const SerdNode *object_datatype, const SerdNode *object_lang)¶
Write a statement to the model. Note this function can be safely casted to SerdStatementSink.void sord_iter_get (const SordIter *iter, SordQuadquad)¶
Set quad to the quad pointed to by iter.const SordNode* sord_iter_get_node (const SordIter *iter, SordQuadIndexindex)¶
Return a field of the quad pointed to by iter.const SordModel* sord_iter_get_model (SordIter *iter)¶
Return the store pointed to by iter.bool sord_iter_next (SordIter *iter)¶
Increment iter to point to the next statement.bool sord_iter_end (const SordIter *iter)¶
Return true iff iter is at the end of its range.void sord_iter_free (SordIter *iter)¶
Free iter.bool sord_quad_match (const SordQuadx, const SordQuady)¶
Match two quads (using ID comparison only). This function is a straightforward and fast equivalence match with wildcard support (ID 0 is a wildcard). It does not actually read node data. Returns:true iff x and y match.
SerdReader* sord_new_reader (SordModel *model, SerdEnv *env, SerdSyntaxsyntax, SordNode *graph)¶
Return a reader that will read into model.bool sord_write (SordModel *model, SerdWriter *writer, SordNode *graph)¶
Write a model to a writer.bool sord_write_iter (SordIter *iter, SerdWriter *writer)¶
Write a range to a writer. This increments iter to its end, then frees it.Author¶
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