/* Sord, a lightweight RDF model library. * Copyright 2010-2011 David Robillard * * Sord is free software: you can redistribute it and/or modify it under * the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Sord is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public * License for details. * * You should have received a copy of the GNU Lesser General Public License * along with this program. If not, see . */ /** @file sord.h * Public Sord API. */ #ifndef SORD_SORD_H #define SORD_SORD_H #include #include #if defined _WIN32 || defined __CYGWIN__ #define SORD_LIB_IMPORT __declspec(dllimport) #define SORD_LIB_EXPORT __declspec(dllexport) #else #define SORD_LIB_IMPORT __attribute__ ((visibility("default"))) #define SORD_LIB_EXPORT __attribute__ ((visibility("default"))) #endif #ifdef SORD_SHARED // Building a shared library #ifdef SORD_INTERNAL // Building SORD (not using it) #define SORD_API SORD_LIB_EXPORT #else #define SORD_API SORD_LIB_IMPORT #endif #else // Building a static library #define SORD_API #endif /** @defgroup sord Sord * A lightweight RDF model library. * Sord stores RDF (subject object predicate) triples, where triples may * have an added "context" field, i.e. (subject object predicate context). * @{ */ typedef struct _Sord* Sord; ///< Quad store typedef struct _SordIter* SordIter; ///< Store iterator typedef struct _SordNode* SordNode; ///< Node /** Quad of IDs (statement), or a quad pattern. * Nodes are ordered (S P O G). The ID of the default graph is 0. */ typedef SordNode SordQuad[4]; /** Index into a SordQuad. */ typedef enum { SORD_SUBJECT = 0, ///< Subject SORD_PREDICATE = 1, ///< Predicate (a.k.a. "key") SORD_OBJECT = 2, ///< Object (a.k.a. "value") SORD_GRAPH = 3 ///< Graph (a.k.a. "context") } SordQuadIndex; /** Type of a node. */ typedef enum { SORD_URI = 1, ///< URI SORD_BLANK = 2, ///< Blank node identifier SORD_LITERAL = 3 ///< Literal (string with optional lang and/or type) } SordNodeType; /** Indexing option. */ typedef enum { SORD_SPO = 1, ///< Subject, Predicate, Object SORD_SOP = 1 << 1, ///< Subject, Object, Predicate SORD_OPS = 1 << 2, ///< Object, Predicate, Subject SORD_OSP = 1 << 3, ///< Object, Subject, Predicate SORD_PSO = 1 << 4, ///< Predicate, Subject, Object SORD_POS = 1 << 5 ///< Predicate, Object, Subject } SordIndexOption; /** @name Initialisation and Cleanup * @{ */ /** Create a new store. * @param indices SordIndexOption flags (e.g. SORD_SPO|SORD_OPS). * Be sure to choose indices such that there is an index where the most * significant node(s) are not variables for your queries. For example, * if you are going to make (? P O) queries, you should enable either * SORD_OPS or SORD_POS. * @param graphs If true, store (and index) graph contexts. */ SORD_API Sord sord_new(unsigned indices, bool graphs); /** Close and free @a sord. */ SORD_API void sord_free(Sord sord); /** @} */ /** @name Nodes * 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). * @{ */ /** Find a URI, creating a new one if necessary iff @a create is true. * Use sord_get_uri_counted instead if the length of @a str is known. */ SORD_API SordNode sord_get_uri(Sord sord, bool create, const uint8_t* str); /** Find a URI, creating a new one if necessary iff @a create is true. */ SORD_API SordNode sord_get_uri_counted(Sord sord, bool create, const uint8_t* str, int str_len); /** Find a blank, creating a new one if necessary iff @a create is true * Use sord_get_blank_counted instead if the length of @a str is known. */ SORD_API SordNode sord_get_blank(Sord sord, bool create, const uint8_t* str); /** Find a blank, creating a new one if necessary iff @a create is true. */ SORD_API SordNode sord_get_blank_counted(Sord sord, bool create, const uint8_t* str, int str_len); /** Find a literal, creating a new one if necessary iff @a create is true. * Use sord_get_literal_counted instead if the length of @a str is known. */ SORD_API SordNode sord_get_literal(Sord sord, bool create, SordNode type, const uint8_t* str, const char* lang); /** Find a literal, creating a new one if necessary iff @a create is true. */ SORD_API SordNode sord_get_literal_counted(Sord sord, bool create, SordNode type, const uint8_t* str, int str_len, const char* lang, uint8_t lang_len); /** Return the type of a node (SORD_URI, SORD_BLANK, or SORD_LITERAL). */ SORD_API SordNodeType sord_node_get_type(SordNode node); /** Return the string value of a node. */ SORD_API const uint8_t* sord_node_get_string(SordNode node); SORD_API const uint8_t* sord_node_get_string_counted(SordNode node, size_t* len); /** Get the language of a literal node. */ SORD_API const char* sord_literal_get_lang(SordNode node); /** Get the datatype URI of a literal node. */ SORD_API SordNode sord_literal_get_datatype(SordNode node); SORD_API bool sord_node_equals(const SordNode a, const SordNode b); /** @} */ /** @name Read Operations * @{ */ /** Return the number of nodes stored in @a sord. * Nodes are included in this count iff they are a part of a quad in @a sord. */ SORD_API int sord_num_nodes(Sord read); /** Return the number of quads stored in @a sord. */ SORD_API int sord_num_quads(Sord read); /** Return an iterator to the start of the store. */ SORD_API SordIter sord_begin(Sord read); /** Return an iterator that will iterate over each graph URI. */ SORD_API SordIter sord_graphs_begin(Sord read); /** Search for a triple pattern. * @return an iterator to the first match, or NULL if no matches found */ SORD_API SordIter sord_find(Sord sord, const SordQuad pat); /** @} */ /** @name Write Operations * @{ */ /** Add a quad to the store. */ SORD_API void sord_add(Sord sord, const SordQuad tup); /** Remove a quad from the store. * This function invalidates all iterators to @a sord (use sord_remove_iter * if this is undesirable) */ SORD_API void sord_remove(Sord sord, const SordQuad tup); /** Remove a quad from the store by iterator. * @a iter will be incremented to point at the next value. */ SORD_API void sord_remove_iter(Sord sord, SordIter iter); /** Remove a graph from the store. */ SORD_API void sord_remove_graph(Sord sord, SordNode graph); /** @} */ /** @name Iteration * @{ */ /** Set @a id to the quad pointed to by @a iter. */ SORD_API void sord_iter_get(SordIter iter, SordQuad tup); /** Return the store pointed to by @a iter. */ SORD_API Sord sord_iter_get_sord(SordIter iter); /** Increment @a iter to point to the next statement. */ SORD_API bool sord_iter_next(SordIter iter); /** Return true iff @a iter is at the end of its range. */ SORD_API bool sord_iter_end(SordIter iter); /** Free @a iter. */ SORD_API void sord_iter_free(SordIter iter); /** @} */ /** @name Utilities * @{ */ /** 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 never performs any database access. * @return true iff @a x and @a y match. */ SORD_API bool sord_quad_match(const SordQuad x, const SordQuad y); /** @} */ /** @name Serialisation * @{ */ SORD_API bool sord_read_file(Sord sord, const uint8_t* uri, const SordNode graph, const uint8_t* blank_prefix); SORD_API bool sord_read_file_handle(Sord sord, FILE* fd, const uint8_t* base_uri, const SordNode graph, const uint8_t* blank_prefix); /** @} */ /** @} */ #endif // SORD_SORD_H