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- /*
- Copyright 2011-2014 David Robillard <http://drobilla.net>
-
- Permission to use, copy, modify, and/or distribute this software for any
- purpose with or without fee is hereby granted, provided that the above
- copyright notice and this permission notice appear in all copies.
-
- THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
- */
-
- // C99
- #include <assert.h>
- #include <errno.h>
- #include <stdint.h>
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
-
- #define ZIX_INLINE
- #include "zix/digest.c"
- #include "zix/hash.c"
- #include "zix/btree.c"
-
- #include "sord_config.h"
- #include "sord_internal.h"
-
- #define SORD_LOG(prefix, ...) fprintf(stderr, "[Sord::" prefix "] " __VA_ARGS__)
-
- #ifdef SORD_DEBUG_ITER
- # define SORD_ITER_LOG(...) SORD_LOG("iter", __VA_ARGS__)
- #else
- # define SORD_ITER_LOG(...)
- #endif
- #ifdef SORD_DEBUG_SEARCH
- # define SORD_FIND_LOG(...) SORD_LOG("search", __VA_ARGS__)
- #else
- # define SORD_FIND_LOG(...)
- #endif
- #ifdef SORD_DEBUG_WRITE
- # define SORD_WRITE_LOG(...) SORD_LOG("write", __VA_ARGS__)
- #else
- # define SORD_WRITE_LOG(...)
- #endif
-
- #define NUM_ORDERS 12
- #define STATEMENT_LEN 3
- #define TUP_LEN STATEMENT_LEN + 1
- #define DEFAULT_ORDER SPO
- #define DEFAULT_GRAPH_ORDER GSPO
-
- #define TUP_FMT "(%s %s %s %s)"
- #define TUP_FMT_ELEM(e) ((e) ? sord_node_get_string(e) : (const uint8_t*)"*")
- #define TUP_FMT_ARGS(t) \
- TUP_FMT_ELEM((t)[0]), \
- TUP_FMT_ELEM((t)[1]), \
- TUP_FMT_ELEM((t)[2]), \
- TUP_FMT_ELEM((t)[3])
-
- #define TUP_S 0
- #define TUP_P 1
- #define TUP_O 2
- #define TUP_G 3
-
- /** Triple ordering */
- typedef enum {
- SPO, ///< Subject, Predicate, Object
- SOP, ///< Subject, Object, Predicate
- OPS, ///< Object, Predicate, Subject
- OSP, ///< Object, Subject, Predicate
- PSO, ///< Predicate, Subject, Object
- POS, ///< Predicate, Object, Subject
- GSPO, ///< Graph, Subject, Predicate, Object
- GSOP, ///< Graph, Subject, Object, Predicate
- GOPS, ///< Graph, Object, Predicate, Subject
- GOSP, ///< Graph, Object, Subject, Predicate
- GPSO, ///< Graph, Predicate, Subject, Object
- GPOS, ///< Graph, Predicate, Object, Subject
- } SordOrder;
-
- /** String name of each ordering (array indexed by SordOrder) */
- static const char* const order_names[NUM_ORDERS] = {
- "spo", "sop", "ops", "osp", "pso", "pos",
- "gspo", "gsop", "gops", "gosp", "gpso", "gpos"
- };
-
- /**
- Quads of indices for each order, from most to least significant
- (array indexed by SordOrder)
- */
- static const int orderings[NUM_ORDERS][TUP_LEN] = {
- { 0, 1, 2, 3 }, { 0, 2, 1, 3 }, // SPO, SOP
- { 2, 1, 0, 3 }, { 2, 0, 1, 3 }, // OPS, OSP
- { 1, 0, 2, 3 }, { 1, 2, 0, 3 }, // PSO, POS
- { 3, 0, 1, 2 }, { 3, 0, 2, 1 }, // GSPO, GSOP
- { 3, 2, 1, 0 }, { 3, 2, 0, 1 }, // GOPS, GOSP
- { 3, 1, 0, 2 }, { 3, 1, 2, 0 } // GPSO, GPOS
- };
-
- /** World */
- struct SordWorldImpl {
- ZixHash* nodes;
- SerdErrorSink error_sink;
- void* error_handle;
- };
-
- /** Store */
- struct SordModelImpl {
- SordWorld* world;
-
- /** Index for each possible triple ordering (may or may not exist).
- * Each index is a tree of SordQuad with the appropriate ordering.
- */
- ZixBTree* indices[NUM_ORDERS];
-
- size_t n_quads;
- size_t n_iters;
- };
-
- /** Mode for searching or iteration */
- typedef enum {
- ALL, ///< Iterate over entire store
- SINGLE, ///< Iteration over a single element (exact search)
- RANGE, ///< Iterate over range with equal prefix
- FILTER_RANGE, ///< Iterate over range with equal prefix, filtering
- FILTER_ALL ///< Iterate to end of store, filtering
- } SearchMode;
-
- /** Iterator over some range of a store */
- struct SordIterImpl {
- const SordModel* sord; ///< Model being iterated over
- ZixBTreeIter* cur; ///< Current DB cursor
- SordQuad pat; ///< Pattern (in ordering order)
- SordOrder order; ///< Store order (which index)
- SearchMode mode; ///< Iteration mode
- int n_prefix; ///< Prefix for RANGE and FILTER_RANGE
- bool end; ///< True iff reached end
- bool skip_graphs; ///< Iteration should ignore graphs
- };
-
- static uint32_t
- sord_node_hash(const void* n)
- {
- const SordNode* node = (const SordNode*)n;
- uint32_t hash = zix_digest_start();
- hash = zix_digest_add(hash, node->node.buf, node->node.n_bytes);
- hash = zix_digest_add(hash, &node->node.type, sizeof(node->node.type));
- if (node->node.type == SERD_LITERAL) {
- hash = zix_digest_add(hash, &node->meta.lit, sizeof(node->meta.lit));
- }
- return hash;
- }
-
- static bool
- sord_node_hash_equal(const void* a, const void* b)
- {
- const SordNode* a_node = (const SordNode*)a;
- const SordNode* b_node = (const SordNode*)b;
- return (a_node == b_node)
- || ((a_node->node.type == b_node->node.type) &&
- (a_node->node.type != SERD_LITERAL ||
- (a_node->meta.lit.datatype == b_node->meta.lit.datatype &&
- !strncmp(a_node->meta.lit.lang,
- b_node->meta.lit.lang,
- sizeof(a_node->meta.lit.lang)))) &&
- (serd_node_equals(&a_node->node, &b_node->node)));
- }
-
- static void
- error(SordWorld* world, SerdStatus st, const char* fmt, ...)
- {
- va_list args;
- va_start(args, fmt);
- const SerdError e = { st, NULL, 0, 0, fmt, &args };
- if (world->error_sink) {
- world->error_sink(world->error_handle, &e);
- } else {
- fprintf(stderr, "error: ");
- vfprintf(stderr, fmt, args);
- }
- va_end(args);
- }
-
- SordWorld*
- sord_world_new(void)
- {
- SordWorld* world = (SordWorld*)malloc(sizeof(SordWorld));
- world->error_sink = NULL;
- world->error_handle = NULL;
-
- world->nodes = zix_hash_new(
- sord_node_hash, sord_node_hash_equal, sizeof(SordNode));
-
- return world;
- }
-
- static void
- free_node_entry(void* value, void* user_data)
- {
- SordNode* node = (SordNode*)value;
- if (node->node.type == SERD_LITERAL) {
- sord_node_free((SordWorld*)user_data, node->meta.lit.datatype);
- }
- free((uint8_t*)node->node.buf);
- }
-
- void
- sord_world_free(SordWorld* world)
- {
- zix_hash_foreach(world->nodes, free_node_entry, world);
- zix_hash_free(world->nodes);
- free(world);
- }
-
- void
- sord_world_set_error_sink(SordWorld* world,
- SerdErrorSink error_sink,
- void* handle)
- {
- world->error_sink = error_sink;
- world->error_handle = handle;
- }
-
- /** Compare nodes, considering NULL a wildcard match. */
- static inline int
- sord_node_compare(const SordNode* a, const SordNode* b)
- {
- if (a == b || !a || !b) {
- return 0; // Exact or wildcard match
- } else if (a->node.type != b->node.type) {
- return a->node.type - b->node.type;
- }
-
- int cmp = 0;
- switch (a->node.type) {
- case SERD_URI:
- case SERD_BLANK:
- return strcmp((const char*)a->node.buf, (const char*)b->node.buf);
- case SERD_LITERAL:
- cmp = strcmp((const char*)sord_node_get_string(a),
- (const char*)sord_node_get_string(b));
- if (cmp == 0) {
- // Note: Can't use sord_node_compare here since it does wildcards
- if (!a->meta.lit.datatype || !b->meta.lit.datatype) {
- cmp = a->meta.lit.datatype - b->meta.lit.datatype;
- } else {
- cmp = strcmp((const char*)a->meta.lit.datatype->node.buf,
- (const char*)b->meta.lit.datatype->node.buf);
- }
- }
- if (cmp == 0) {
- cmp = strcmp(a->meta.lit.lang, b->meta.lit.lang);
- }
- default:
- break;
- }
- return cmp;
- }
-
- bool
- sord_node_equals(const SordNode* a, const SordNode* b)
- {
- return a == b; // Nodes are interned
- }
-
- /** Return true iff IDs are equivalent, or one is a wildcard */
- static inline bool
- sord_id_match(const SordNode* a, const SordNode* b)
- {
- return !a || !b || (a == b);
- }
-
- static inline bool
- sord_quad_match_inline(const SordQuad x, const SordQuad y)
- {
- return sord_id_match(x[0], y[0])
- && sord_id_match(x[1], y[1])
- && sord_id_match(x[2], y[2])
- && sord_id_match(x[3], y[3]);
- }
-
- bool
- sord_quad_match(const SordQuad x, const SordQuad y)
- {
- return sord_quad_match_inline(x, y);
- }
-
- /**
- Compare two quad IDs lexicographically.
- NULL IDs (equal to 0) are treated as wildcards, always less than every
- other possible ID, except itself.
- */
- static int
- sord_quad_compare(const void* x_ptr, const void* y_ptr, void* user_data)
- {
- const int* const ordering = (const int*)user_data;
- const SordNode*const*const x = (const SordNode*const*)x_ptr;
- const SordNode*const*const y = (const SordNode*const*)y_ptr;
-
- for (int i = 0; i < TUP_LEN; ++i) {
- const int idx = ordering[i];
- const int cmp = sord_node_compare(x[idx], y[idx]);
- if (cmp) {
- return cmp;
- }
- }
-
- return 0;
- }
-
- static inline bool
- sord_iter_forward(SordIter* iter)
- {
- if (!iter->skip_graphs) {
- zix_btree_iter_increment(iter->cur);
- return zix_btree_iter_is_end(iter->cur);
- }
-
- SordNode** key = (SordNode**)zix_btree_get(iter->cur);
- const SordQuad initial = { key[0], key[1], key[2], key[3] };
- while (true) {
- zix_btree_iter_increment(iter->cur);
- if (zix_btree_iter_is_end(iter->cur))
- return true;
-
- key = (SordNode**)zix_btree_get(iter->cur);
- for (int i = 0; i < 3; ++i)
- if (key[i] != initial[i])
- return false;
- }
- assert(false);
- }
-
- /**
- Seek forward as necessary until `iter` points at a match.
- @return true iff iterator reached end of valid range.
- */
- static inline bool
- sord_iter_seek_match(SordIter* iter)
- {
- for (iter->end = true;
- !zix_btree_iter_is_end(iter->cur);
- sord_iter_forward(iter)) {
- const SordNode** const key = (const SordNode**)zix_btree_get(iter->cur);
- if (sord_quad_match_inline(key, iter->pat))
- return (iter->end = false);
- }
- return true;
- }
-
- /**
- Seek forward as necessary until `iter` points at a match, or the prefix
- no longer matches iter->pat.
- @return true iff iterator reached end of valid range.
- */
- static inline bool
- sord_iter_seek_match_range(SordIter* iter)
- {
- if (iter->end)
- return true;
-
- do {
- const SordNode** key = (const SordNode**)zix_btree_get(iter->cur);
-
- if (sord_quad_match_inline(key, iter->pat))
- return false; // Found match
-
- for (int i = 0; i < iter->n_prefix; ++i) {
- const int idx = orderings[iter->order][i];
- if (!sord_id_match(key[idx], iter->pat[idx])) {
- iter->end = true; // Reached end of valid range
- return true;
- }
- }
- } while (!sord_iter_forward(iter));
-
- return (iter->end = true); // Reached end
- }
-
- static SordIter*
- sord_iter_new(const SordModel* sord, ZixBTreeIter* cur, const SordQuad pat,
- SordOrder order, SearchMode mode, int n_prefix)
- {
- SordIter* iter = (SordIter*)malloc(sizeof(SordIter));
- iter->sord = sord;
- iter->cur = cur;
- iter->order = order;
- iter->mode = mode;
- iter->n_prefix = n_prefix;
- iter->end = false;
- iter->skip_graphs = order < GSPO;
- for (int i = 0; i < TUP_LEN; ++i) {
- iter->pat[i] = pat[i];
- }
-
- switch (iter->mode) {
- case ALL:
- case SINGLE:
- case RANGE:
- assert(
- sord_quad_match_inline((const SordNode**)zix_btree_get(iter->cur),
- iter->pat));
- break;
- case FILTER_RANGE:
- sord_iter_seek_match_range(iter);
- break;
- case FILTER_ALL:
- sord_iter_seek_match(iter);
- break;
- }
-
- #ifdef SORD_DEBUG_ITER
- SordQuad value;
- sord_iter_get(iter, value);
- SORD_ITER_LOG("New %p pat=" TUP_FMT " cur=" TUP_FMT " end=%d skip=%d\n",
- (void*)iter, TUP_FMT_ARGS(pat), TUP_FMT_ARGS(value),
- iter->end, iter->skip_graphs);
- #endif
-
- ++((SordModel*)sord)->n_iters;
- return iter;
- }
-
- const SordModel*
- sord_iter_get_model(SordIter* iter)
- {
- return iter->sord;
- }
-
- void
- sord_iter_get(const SordIter* iter, SordQuad id)
- {
- SordNode** key = (SordNode**)zix_btree_get(iter->cur);
- for (int i = 0; i < TUP_LEN; ++i) {
- id[i] = key[i];
- }
- }
-
- const SordNode*
- sord_iter_get_node(const SordIter* iter, SordQuadIndex index)
- {
- return iter ? ((SordNode**)zix_btree_get(iter->cur))[index] : NULL;
- }
-
- bool
- sord_iter_next(SordIter* iter)
- {
- if (iter->end)
- return true;
-
- const SordNode** key;
- iter->end = sord_iter_forward(iter);
- if (!iter->end) {
- switch (iter->mode) {
- case ALL:
- // At the end if the cursor is (assigned above)
- break;
- case SINGLE:
- iter->end = true;
- SORD_ITER_LOG("%p reached single end\n", (void*)iter);
- break;
- case RANGE:
- SORD_ITER_LOG("%p range next\n", (void*)iter);
- // At the end if the MSNs no longer match
- key = (const SordNode**)zix_btree_get(iter->cur);
- assert(key);
- for (int i = 0; i < iter->n_prefix; ++i) {
- const int idx = orderings[iter->order][i];
- if (!sord_id_match(key[idx], iter->pat[idx])) {
- iter->end = true;
- SORD_ITER_LOG("%p reached non-match end\n", (void*)iter);
- break;
- }
- }
- break;
- case FILTER_RANGE:
- // Seek forward to next match, stopping if prefix changes
- sord_iter_seek_match_range(iter);
- break;
- case FILTER_ALL:
- // Seek forward to next match
- sord_iter_seek_match(iter);
- break;
- }
- } else {
- SORD_ITER_LOG("%p reached index end\n", (void*)iter);
- }
-
- if (iter->end) {
- SORD_ITER_LOG("%p Reached end\n", (void*)iter);
- return true;
- } else {
- #ifdef SORD_DEBUG_ITER
- SordQuad tup;
- sord_iter_get(iter, tup);
- SORD_ITER_LOG("%p Increment to " TUP_FMT "\n",
- (void*)iter, TUP_FMT_ARGS(tup));
- #endif
- return false;
- }
- }
-
- bool
- sord_iter_end(const SordIter* iter)
- {
- return !iter || iter->end;
- }
-
- void
- sord_iter_free(SordIter* iter)
- {
- SORD_ITER_LOG("%p Free\n", (void*)iter);
- if (iter) {
- --((SordModel*)iter->sord)->n_iters;
- zix_btree_iter_free(iter->cur);
- free(iter);
- }
- }
-
- /**
- Return true iff `sord` has an index for `order`.
- If `graphs` is true, `order` will be modified to be the
- corresponding order with a G prepended (so G will be the MSN).
- */
- static inline bool
- sord_has_index(SordModel* sord, SordOrder* order, int* n_prefix, bool graphs)
- {
- if (graphs) {
- *order = (SordOrder)(*order + GSPO);
- *n_prefix += 1;
- }
-
- return sord->indices[*order];
- }
-
- /**
- Return the best available index for a pattern.
- @param pat Pattern in standard (S P O G) order
- @param mode Set to the (best) iteration mode for iterating over results
- @param n_prefix Set to the length of the range prefix
- (for `mode` == RANGE and `mode` == FILTER_RANGE)
- */
- static inline SordOrder
- sord_best_index(SordModel* sord,
- const SordQuad pat,
- SearchMode* mode,
- int* n_prefix)
- {
- const bool graph_search = (pat[TUP_G] != 0);
-
- const unsigned sig
- = (pat[0] ? 1 : 0) * 0x100
- + (pat[1] ? 1 : 0) * 0x010
- + (pat[2] ? 1 : 0) * 0x001;
-
- SordOrder good[2] = { (SordOrder)-1, (SordOrder)-1 };
-
- #define PAT_CASE(sig, m, g0, g1, np) \
- case sig: \
- *mode = m; \
- good[0] = g0; \
- good[1] = g1; \
- *n_prefix = np; \
- break
-
- // Good orderings that don't require filtering
- *mode = RANGE;
- *n_prefix = 0;
- switch (sig) {
- case 0x000:
- if (graph_search) {
- *mode = RANGE;
- *n_prefix = 1;
- return DEFAULT_GRAPH_ORDER;
- } else {
- *mode = ALL;
- return DEFAULT_ORDER;
- }
- case 0x111:
- *mode = SINGLE;
- return graph_search ? DEFAULT_GRAPH_ORDER : DEFAULT_ORDER;
-
- PAT_CASE(0x001, RANGE, OPS, OSP, 1);
- PAT_CASE(0x010, RANGE, POS, PSO, 1);
- PAT_CASE(0x011, RANGE, OPS, POS, 2);
- PAT_CASE(0x100, RANGE, SPO, SOP, 1);
- PAT_CASE(0x101, RANGE, SOP, OSP, 2);
- PAT_CASE(0x110, RANGE, SPO, PSO, 2);
- }
-
- if (*mode == RANGE) {
- if (sord_has_index(sord, &good[0], n_prefix, graph_search)) {
- return good[0];
- } else if (sord_has_index(sord, &good[1], n_prefix, graph_search)) {
- return good[1];
- }
- }
-
- // Not so good orderings that require filtering, but can
- // still be constrained to a range
- switch (sig) {
- PAT_CASE(0x011, FILTER_RANGE, OSP, PSO, 1);
- PAT_CASE(0x101, FILTER_RANGE, SPO, OPS, 1);
- PAT_CASE(0x110, FILTER_RANGE, SOP, POS, 1);
- default: break;
- }
-
- if (*mode == FILTER_RANGE) {
- if (sord_has_index(sord, &good[0], n_prefix, graph_search)) {
- return good[0];
- } else if (sord_has_index(sord, &good[1], n_prefix, graph_search)) {
- return good[1];
- }
- }
-
- if (graph_search) {
- *mode = FILTER_RANGE;
- *n_prefix = 1;
- return DEFAULT_GRAPH_ORDER;
- } else {
- *mode = FILTER_ALL;
- return DEFAULT_ORDER;
- }
- }
-
- SordModel*
- sord_new(SordWorld* world, unsigned indices, bool graphs)
- {
- SordModel* sord = (SordModel*)malloc(sizeof(struct SordModelImpl));
- sord->world = world;
- sord->n_quads = 0;
- sord->n_iters = 0;
-
- for (unsigned i = 0; i < (NUM_ORDERS / 2); ++i) {
- const int* const ordering = orderings[i];
- const int* const g_ordering = orderings[i + (NUM_ORDERS / 2)];
-
- if (indices & (1 << i)) {
- sord->indices[i] = zix_btree_new(
- sord_quad_compare, (void*)ordering, NULL);
- if (graphs) {
- sord->indices[i + (NUM_ORDERS / 2)] = zix_btree_new(
- sord_quad_compare, (void*)g_ordering, NULL);
- } else {
- sord->indices[i + (NUM_ORDERS / 2)] = NULL;
- }
- } else {
- sord->indices[i] = NULL;
- sord->indices[i + (NUM_ORDERS / 2)] = NULL;
- }
- }
-
- if (!sord->indices[DEFAULT_ORDER]) {
- sord->indices[DEFAULT_ORDER] = zix_btree_new(
- sord_quad_compare, (void*)orderings[DEFAULT_ORDER], NULL);
- }
- if (graphs && !sord->indices[DEFAULT_GRAPH_ORDER]) {
- sord->indices[DEFAULT_GRAPH_ORDER] = zix_btree_new(
- sord_quad_compare, (void*)orderings[DEFAULT_GRAPH_ORDER], NULL);
- }
-
- return sord;
- }
-
- static void
- sord_node_free_internal(SordWorld* world, SordNode* node)
- {
- assert(node->refs == 0);
-
- // Cache pointer to buffer to free after node removal and destruction
- const uint8_t* const buf = node->node.buf;
-
- // Remove node from hash (which frees the node)
- if (zix_hash_remove(world->nodes, node)) {
- error(world, SERD_ERR_INTERNAL, "failed to remove node from hash\n");
- }
-
- // Free buffer
- free((uint8_t*)buf);
- }
-
- static void
- sord_add_quad_ref(SordModel* sord, const SordNode* node, SordQuadIndex i)
- {
- if (node) {
- assert(node->refs > 0);
- ++((SordNode*)node)->refs;
- if (node->node.type != SERD_LITERAL && i == SORD_OBJECT) {
- ++((SordNode*)node)->meta.res.refs_as_obj;
- }
- }
- }
-
- static void
- sord_drop_quad_ref(SordModel* sord, const SordNode* node, SordQuadIndex i)
- {
- if (!node) {
- return;
- }
-
- assert(node->refs > 0);
- if (node->node.type != SERD_LITERAL && i == SORD_OBJECT) {
- assert(node->meta.res.refs_as_obj > 0);
- --((SordNode*)node)->meta.res.refs_as_obj;
- }
- if (--((SordNode*)node)->refs == 0) {
- sord_node_free_internal(sord_get_world(sord), (SordNode*)node);
- }
- }
-
- void
- sord_free(SordModel* sord)
- {
- if (!sord)
- return;
-
- // Free nodes
- SordQuad tup;
- SordIter* i = sord_begin(sord);
- for (; !sord_iter_end(i); sord_iter_next(i)) {
- sord_iter_get(i, tup);
- for (int t = 0; t < TUP_LEN; ++t) {
- sord_drop_quad_ref(sord, tup[t], (SordQuadIndex)t);
- }
- }
- sord_iter_free(i);
-
- // Free quads
- ZixBTreeIter* t = zix_btree_begin(sord->indices[DEFAULT_ORDER]);
- for (; !zix_btree_iter_is_end(t); zix_btree_iter_increment(t)) {
- free(zix_btree_get(t));
- }
- zix_btree_iter_free(t);
-
- // Free indices
- for (unsigned o = 0; o < NUM_ORDERS; ++o)
- if (sord->indices[o])
- zix_btree_free(sord->indices[o]);
-
- free(sord);
- }
-
- SordWorld*
- sord_get_world(SordModel* sord)
- {
- return sord->world;
- }
-
- size_t
- sord_num_quads(const SordModel* sord)
- {
- return sord->n_quads;
- }
-
- size_t
- sord_num_nodes(const SordWorld* world)
- {
- return zix_hash_size(world->nodes);
- }
-
- SordIter*
- sord_begin(const SordModel* sord)
- {
- if (sord_num_quads(sord) == 0) {
- return NULL;
- } else {
- ZixBTreeIter* cur = zix_btree_begin(sord->indices[DEFAULT_ORDER]);
- SordQuad pat = { 0, 0, 0, 0 };
- return sord_iter_new(sord, cur, pat, DEFAULT_ORDER, ALL, 0);
- }
- }
-
- SordIter*
- sord_find(SordModel* sord, const SordQuad pat)
- {
- if (!pat[0] && !pat[1] && !pat[2] && !pat[3])
- return sord_begin(sord);
-
- SearchMode mode;
- int n_prefix;
- const SordOrder index_order = sord_best_index(sord, pat, &mode, &n_prefix);
-
- SORD_FIND_LOG("Find " TUP_FMT " index=%s mode=%d n_prefix=%d\n",
- TUP_FMT_ARGS(pat), order_names[index_order], mode, n_prefix);
-
- if (pat[0] && pat[1] && pat[2] && pat[3])
- mode = SINGLE; // No duplicate quads (Sord is a set)
-
- ZixBTree* const db = sord->indices[index_order];
- ZixBTreeIter* cur = NULL;
- zix_btree_lower_bound(db, pat, &cur);
- if (zix_btree_iter_is_end(cur)) {
- SORD_FIND_LOG("No match found\n");
- zix_btree_iter_free(cur);
- return NULL;
- }
- const SordNode** const key = (const SordNode**)zix_btree_get(cur);
- if (!key || ( (mode == RANGE || mode == SINGLE)
- && !sord_quad_match_inline(pat, key) )) {
- SORD_FIND_LOG("No match found\n");
- zix_btree_iter_free(cur);
- return NULL;
- }
-
- return sord_iter_new(sord, cur, pat, index_order, mode, n_prefix);
- }
-
- SordIter*
- sord_search(SordModel* model,
- const SordNode* s,
- const SordNode* p,
- const SordNode* o,
- const SordNode* g)
- {
- SordQuad pat = { s, p, o, g };
- return sord_find(model, pat);
- }
-
- SordNode*
- sord_get(SordModel* model,
- const SordNode* s,
- const SordNode* p,
- const SordNode* o,
- const SordNode* g)
- {
- if ((bool)s + (bool)p + (bool)o != 2) {
- return NULL;
- }
-
- SordIter* i = sord_search(model, s, p, o, g);
- SordNode* ret = NULL;
- if (!s) {
- ret = sord_node_copy(sord_iter_get_node(i, SORD_SUBJECT));
- } else if (!p) {
- ret = sord_node_copy(sord_iter_get_node(i, SORD_PREDICATE));
- } else if (!o) {
- ret = sord_node_copy(sord_iter_get_node(i, SORD_OBJECT));
- }
-
- sord_iter_free(i);
- return ret;
- }
-
- bool
- sord_ask(SordModel* model,
- const SordNode* s,
- const SordNode* p,
- const SordNode* o,
- const SordNode* g)
- {
- SordQuad pat = { s, p, o, g };
- return sord_contains(model, pat);
- }
-
- uint64_t
- sord_count(SordModel* model,
- const SordNode* s,
- const SordNode* p,
- const SordNode* o,
- const SordNode* g)
- {
- SordIter* i = sord_search(model, s, p, o, g);
- uint64_t n = 0;
- for (; !sord_iter_end(i); sord_iter_next(i)) {
- ++n;
- }
- sord_iter_free(i);
- return n;
- }
-
- bool
- sord_contains(SordModel* sord, const SordQuad pat)
- {
- SordIter* iter = sord_find(sord, pat);
- bool ret = (iter != NULL);
- sord_iter_free(iter);
- return ret;
- }
-
- static uint8_t*
- sord_strndup(const uint8_t* str, size_t len)
- {
- uint8_t* dup = (uint8_t*)malloc(len + 1);
- memcpy(dup, str, len + 1);
- return dup;
- }
-
- SordNodeType
- sord_node_get_type(const SordNode* node)
- {
- switch (node->node.type) {
- case SERD_BLANK:
- return SORD_BLANK;
- case SERD_LITERAL:
- return SORD_LITERAL;
- case SERD_URI:
- return SORD_URI;
- default:
- fprintf(stderr, "error: invalid node type\n");
- return (SordNodeType)0;
- }
- }
-
- const uint8_t*
- sord_node_get_string(const SordNode* node)
- {
- return node->node.buf;
- }
-
- const uint8_t*
- sord_node_get_string_counted(const SordNode* node, size_t* len)
- {
- *len = node->node.n_chars;
- return node->node.buf;
- }
-
- const char*
- sord_node_get_language(const SordNode* node)
- {
- if (node->node.type != SERD_LITERAL || !node->meta.lit.lang[0]) {
- return NULL;
- }
- return node->meta.lit.lang;
- }
-
- SordNode*
- sord_node_get_datatype(const SordNode* node)
- {
- return (node->node.type == SERD_LITERAL) ? node->meta.lit.datatype : NULL;
- }
-
- SerdNodeFlags
- sord_node_get_flags(const SordNode* node)
- {
- return node->node.flags;
- }
-
- bool
- sord_node_is_inline_object(const SordNode* node)
- {
- return (node->node.type == SERD_BLANK) && (node->meta.res.refs_as_obj == 1);
- }
-
- static SordNode*
- sord_insert_node(SordWorld* world, const SordNode* key, bool copy)
- {
- SordNode* node = NULL;
- ZixStatus st = zix_hash_insert(world->nodes, key, (const void**)&node);
- switch (st) {
- case ZIX_STATUS_EXISTS:
- ++node->refs;
- break;
- case ZIX_STATUS_SUCCESS:
- assert(node->refs == 1);
- if (copy) {
- node->node.buf = sord_strndup(node->node.buf, node->node.n_bytes);
- }
- if (node->node.type == SERD_LITERAL) {
- node->meta.lit.datatype = sord_node_copy(node->meta.lit.datatype);
- }
- return node;
- default:
- assert(!node);
- error(world, SERD_ERR_INTERNAL,
- "error inserting node `%s'\n", key->node.buf);
- }
-
- if (!copy) {
- // Free the buffer we would have copied if a new node was created
- free((uint8_t*)key->node.buf);
- }
-
- return node;
- }
-
- static SordNode*
- sord_new_uri_counted(SordWorld* world, const uint8_t* str,
- size_t n_bytes, size_t n_chars, bool copy)
- {
- if (!serd_uri_string_has_scheme(str)) {
- error(world, SERD_ERR_BAD_ARG,
- "attempt to map invalid URI `%s'\n", str);
- return NULL; // Can't intern relative URIs
- }
-
- const SordNode key = {
- { str, n_bytes, n_chars, 0, SERD_URI }, 1, { { 0 } }
- };
-
- return sord_insert_node(world, &key, copy);
- }
-
- SordNode*
- sord_new_uri(SordWorld* world, const uint8_t* str)
- {
- const SerdNode node = serd_node_from_string(SERD_URI, str);
- return sord_new_uri_counted(world, str, node.n_bytes, node.n_chars, true);
- }
-
- SordNode*
- sord_new_relative_uri(SordWorld* world,
- const uint8_t* str,
- const uint8_t* base_str)
- {
- if (serd_uri_string_has_scheme(str)) {
- return sord_new_uri(world, str);
- }
- SerdURI buri = SERD_URI_NULL;
- SerdNode base = serd_node_new_uri_from_string(base_str, NULL, &buri);
- SerdNode node = serd_node_new_uri_from_string(str, &buri, NULL);
-
- SordNode* ret = sord_new_uri_counted(
- world, node.buf, node.n_bytes, node.n_chars, false);
-
- serd_node_free(&base);
- return ret;
- }
-
- static SordNode*
- sord_new_blank_counted(SordWorld* world, const uint8_t* str,
- size_t n_bytes, size_t n_chars)
- {
- const SordNode key = {
- { str, n_bytes, n_chars, 0, SERD_BLANK }, 1, { { 0 } }
- };
-
- return sord_insert_node(world, &key, true);
- }
-
- SordNode*
- sord_new_blank(SordWorld* world, const uint8_t* str)
- {
- const SerdNode node = serd_node_from_string(SERD_URI, str);
- return sord_new_blank_counted(world, str, node.n_bytes, node.n_chars);
- }
-
- static SordNode*
- sord_new_literal_counted(SordWorld* world,
- SordNode* datatype,
- const uint8_t* str,
- size_t n_bytes,
- size_t n_chars,
- SerdNodeFlags flags,
- const char* lang)
- {
- SordNode key = {
- { str, n_bytes, n_chars, flags, SERD_LITERAL }, 1, { { 0 } }
- };
- key.meta.lit.datatype = datatype;
- memset(key.meta.lit.lang, 0, sizeof(key.meta.lit.lang));
- if (lang) {
- strncpy(key.meta.lit.lang, lang, sizeof(key.meta.lit.lang));
- }
-
- return sord_insert_node(world, &key, true);
- }
-
- SordNode*
- sord_new_literal(SordWorld* world, SordNode* datatype,
- const uint8_t* str, const char* lang)
- {
- SerdNodeFlags flags = 0;
- size_t n_bytes = 0;
- size_t n_chars = serd_strlen(str, &n_bytes, &flags);
- return sord_new_literal_counted(world, datatype,
- str, n_bytes, n_chars, flags,
- lang);
- }
-
- SordNode*
- sord_node_from_serd_node(SordWorld* world,
- SerdEnv* env,
- const SerdNode* sn,
- const SerdNode* datatype,
- const SerdNode* lang)
- {
- if (!sn) {
- return NULL;
- }
-
- SordNode* datatype_node = NULL;
- SordNode* ret = NULL;
- switch (sn->type) {
- case SERD_NOTHING:
- return NULL;
- case SERD_LITERAL:
- datatype_node = sord_node_from_serd_node(
- world, env, datatype, NULL, NULL),
- ret = sord_new_literal_counted(
- world,
- datatype_node,
- sn->buf,
- sn->n_bytes,
- sn->n_chars,
- sn->flags,
- lang ? (const char*)lang->buf : NULL);
- sord_node_free(world, datatype_node);
- return ret;
- case SERD_URI:
- if (serd_uri_string_has_scheme(sn->buf)) {
- return sord_new_uri_counted(
- world, sn->buf, sn->n_bytes, sn->n_chars, true);
- } else {
- SerdURI base_uri;
- serd_env_get_base_uri(env, &base_uri);
- SerdURI abs_uri;
- SerdNode abs_uri_node = serd_node_new_uri_from_node(
- sn, &base_uri, &abs_uri);
- ret = sord_new_uri_counted(world,
- abs_uri_node.buf,
- abs_uri_node.n_bytes,
- abs_uri_node.n_chars,
- true);
- serd_node_free(&abs_uri_node);
- return ret;
- }
- case SERD_CURIE: {
- SerdChunk uri_prefix;
- SerdChunk uri_suffix;
- if (serd_env_expand(env, sn, &uri_prefix, &uri_suffix)) {
- error(world, SERD_ERR_BAD_CURIE,
- "failed to expand CURIE `%s'\n", sn->buf);
- return NULL;
- }
- const size_t uri_len = uri_prefix.len + uri_suffix.len;
- uint8_t* buf = (uint8_t*)malloc(uri_len + 1);
- memcpy(buf, uri_prefix.buf, uri_prefix.len);
- memcpy(buf + uri_prefix.len, uri_suffix.buf, uri_suffix.len);
- buf[uri_len] = '\0';
- ret = sord_new_uri_counted(
- world, buf, uri_prefix.len + uri_suffix.len,
- uri_prefix.len + uri_suffix.len, false); // FIXME: UTF-8
- return ret;
- }
- case SERD_BLANK:
- return sord_new_blank_counted(world, sn->buf, sn->n_bytes, sn->n_chars);
- }
- return NULL;
- }
-
- const SerdNode*
- sord_node_to_serd_node(const SordNode* node)
- {
- return node ? &node->node : &SERD_NODE_NULL;
- }
-
- void
- sord_node_free(SordWorld* world, SordNode* node)
- {
- if (!node) {
- return;
- }
-
- assert(node->refs > 0);
- if (--node->refs == 0) {
- sord_node_free_internal(world, node);
- }
- }
-
- SordNode*
- sord_node_copy(const SordNode* node)
- {
- SordNode* copy = (SordNode*)node;
- if (copy) {
- ++copy->refs;
- }
- return copy;
- }
-
- static inline bool
- sord_add_to_index(SordModel* sord, const SordNode** tup, SordOrder order)
- {
- return !zix_btree_insert(sord->indices[order], tup);
- }
-
- bool
- sord_add(SordModel* sord, const SordQuad tup)
- {
- SORD_WRITE_LOG("Add " TUP_FMT "\n", TUP_FMT_ARGS(tup));
- if (!tup[0] || !tup[1] || !tup[2]) {
- error(sord->world, SERD_ERR_BAD_ARG,
- "attempt to add quad with NULL field\n");
- return false;
- } else if (sord->n_iters > 0) {
- error(sord->world, SERD_ERR_BAD_ARG, "added tuple during iteration\n");
- }
-
- const SordNode** quad = (const SordNode**)malloc(sizeof(SordQuad));
- memcpy(quad, tup, sizeof(SordQuad));
-
- for (unsigned i = 0; i < NUM_ORDERS; ++i) {
- if (sord->indices[i]) {
- if (!sord_add_to_index(sord, quad, (SordOrder)i)) {
- assert(i == 0); // Assuming index coherency
- free(quad);
- return false; // Quad already stored, do nothing
- }
- }
- }
-
- for (int i = 0; i < TUP_LEN; ++i)
- sord_add_quad_ref(sord, tup[i], (SordQuadIndex)i);
-
- ++sord->n_quads;
- return true;
- }
-
- void
- sord_remove(SordModel* sord, const SordQuad tup)
- {
- SORD_WRITE_LOG("Remove " TUP_FMT "\n", TUP_FMT_ARGS(tup));
- if (sord->n_iters > 0) {
- error(sord->world, SERD_ERR_BAD_ARG, "remove with iterator\n");
- }
-
- SordNode* quad = NULL;
- for (unsigned i = 0; i < NUM_ORDERS; ++i) {
- if (sord->indices[i]) {
- if (zix_btree_remove(sord->indices[i], tup, (void**)&quad, NULL)) {
- assert(i == 0); // Assuming index coherency
- return; // Quad not found, do nothing
- }
- }
- }
-
- free(quad);
-
- for (int i = 0; i < TUP_LEN; ++i)
- sord_drop_quad_ref(sord, tup[i], (SordQuadIndex)i);
-
- --sord->n_quads;
- }
-
- SerdStatus
- sord_erase(SordModel* sord, SordIter* iter)
- {
- if (sord->n_iters > 1) {
- error(sord->world, SERD_ERR_BAD_ARG, "erased with many iterators\n");
- }
-
- SordQuad tup;
- sord_iter_get(iter, tup);
-
- SORD_WRITE_LOG("Remove " TUP_FMT "\n", TUP_FMT_ARGS(tup));
-
- SordNode* quad = NULL;
- for (unsigned i = 0; i < NUM_ORDERS; ++i) {
- if (sord->indices[i]) {
- if (zix_btree_remove(sord->indices[i], tup, (void**)&quad,
- i == iter->order ? &iter->cur : NULL)) {
- return (i == 0) ? SERD_ERR_NOT_FOUND : SERD_ERR_INTERNAL;
- }
- }
- }
- iter->end = zix_btree_iter_is_end(iter->cur);
-
- free(quad);
-
- for (int i = 0; i < TUP_LEN; ++i)
- sord_drop_quad_ref(sord, tup[i], (SordQuadIndex)i);
-
- --sord->n_quads;
- return SERD_SUCCESS;
- }
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