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authorDavid Robillard <d@drobilla.net>2011-09-28 21:31:44 +0000
committerDavid Robillard <d@drobilla.net>2011-09-28 21:31:44 +0000
commitdb7df61c02f28a86ebf496436d34a2d327c3ae30 (patch)
tree961b0f00f87155c03e50ff78ccc6518676fabaed /src/sord.c
parent84ad1bf1317992127aac405feedbfd68c7be6697 (diff)
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Remove glib dependency
git-svn-id: http://svn.drobilla.net/sord/trunk@163 3d64ff67-21c5-427c-a301-fe4f08042e5a
Diffstat (limited to 'src/sord.c')
-rw-r--r--src/sord.c250
1 files changed, 120 insertions, 130 deletions
diff --git a/src/sord.c b/src/sord.c
index eafc99f..241e5c9 100644
--- a/src/sord.c
+++ b/src/sord.c
@@ -23,8 +23,8 @@
#include <stdlib.h>
#include <string.h>
-// GLib
-#include <glib.h>
+#include "zix/hash.h"
+#include "zix/tree.h"
#include "sord-config.h"
#include "sord_internal.h"
@@ -54,7 +54,7 @@
#define DEFAULT_GRAPH_ORDER GSPO
#define TUP_FMT "(%s %s %s %s)"
-#define TUP_FMT_ELEM(e) ((e) ? sord_node_get_string(e) : "*")
+#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]), \
@@ -99,10 +99,10 @@ static const int orderings[NUM_ORDERS][TUP_LEN] = {
/** World */
struct SordWorldImpl {
- GHashTable* names; ///< URI or blank node identifier string => ID
- GHashTable* langs; ///< Language tag => Interned language tag
- GHashTable* literals; ///< Literal => ID
- size_t n_nodes; ///< Number of nodes
+ ZixHash* names; ///< URI or blank node identifier string => ID
+ ZixHash* langs; ///< Language tag => Interned language tag
+ ZixHash* literals; ///< Literal => ID
+ size_t n_nodes; ///< Number of nodes
};
/** Store */
@@ -113,7 +113,7 @@ struct SordModelImpl {
* If an index for e.g. SPO exists, it is a dictionary with
* (S P O) keys (as a SordTuplrID), and ignored values.
*/
- GSequence* indices[NUM_ORDERS];
+ ZixTree* indices[NUM_ORDERS];
size_t n_quads;
};
@@ -130,7 +130,7 @@ typedef enum {
/** Iterator over some range of a store */
struct SordIterImpl {
const SordModel* sord; ///< Store this is an iterator for
- GSequenceIter* cur; ///< Current DB cursor
+ ZixTreeIter* cur; ///< Current DB cursor
SordQuad pat; ///< Iteration pattern (in ordering order)
int ordering[TUP_LEN]; ///< Store ordering
SearchMode mode; ///< Iteration mode
@@ -143,17 +143,18 @@ static unsigned
sord_literal_hash(const void* n)
{
SordNode* node = (SordNode*)n;
- return g_str_hash(node->node.buf) + (node->lang ? g_str_hash(node->lang) : 0);
+ return zix_string_hash(node->node.buf)
+ + (node->lang ? zix_string_hash(node->lang) : 0);
}
-static gboolean
+static bool
sord_literal_equal(const void* a, const void* b)
{
SordNode* a_node = (SordNode*)a;
SordNode* b_node = (SordNode*)b;
return (a_node == b_node)
- || (g_str_equal(sord_node_get_string(a_node),
- sord_node_get_string(b_node))
+ || (zix_string_equal(sord_node_get_string(a_node),
+ sord_node_get_string(b_node))
&& (a_node->lang == b_node->lang)
&& (a_node->datatype == b_node->datatype));
}
@@ -162,32 +163,39 @@ SordWorld*
sord_world_new(void)
{
SordWorld* world = malloc(sizeof(struct SordWorldImpl));
- world->names = g_hash_table_new_full(g_str_hash, g_str_equal, 0, 0);
- world->langs = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, 0);
- world->literals = g_hash_table_new_full(sord_literal_hash, sord_literal_equal, 0, 0);
+ world->names = zix_hash_new(zix_string_hash, zix_string_equal);
+ world->langs = zix_hash_new(zix_string_hash, zix_string_equal);
+ world->literals = zix_hash_new(sord_literal_hash, sord_literal_equal);
world->n_nodes = 0;
return world;
}
static void
-free_hash_entry(void* key, void* value, void* user_data)
+free_node_entry(const void* key, void* value, void* user_data)
{
SordNode* node = (SordNode*)value;
if (node->node.type == SERD_LITERAL) {
sord_node_free((SordWorld*)user_data, node->datatype);
}
- g_free((uint8_t*)node->node.buf);
+ free((uint8_t*)node->node.buf);
free(node);
}
+static void
+free_lang_entry(const void* key, void* value, void* user_data)
+{
+ free(value);
+}
+
void
sord_world_free(SordWorld* world)
{
- g_hash_table_foreach(world->literals, free_hash_entry, world);
- g_hash_table_foreach(world->names, free_hash_entry, world);
- g_hash_table_unref(world->names);
- g_hash_table_unref(world->langs);
- g_hash_table_unref(world->literals);
+ zix_hash_foreach(world->literals, free_node_entry, world);
+ zix_hash_foreach(world->names, free_node_entry, world);
+ zix_hash_foreach(world->langs, free_lang_entry, world);
+ zix_hash_free(world->names);
+ zix_hash_free(world->langs);
+ zix_hash_free(world->literals);
free(world);
}
@@ -195,7 +203,7 @@ static inline int
sord_node_compare(const SordNode* a, const SordNode* b)
{
if (a == b || !a || !b) {
- return (const char*)a - (const char*)b;
+ return 0;
} else if (a->node.type != b->node.type) {
return a->node.type - b->node.type;
}
@@ -274,8 +282,9 @@ sord_quad_compare(const void* x_ptr, const void* y_ptr, void* user_data)
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)
+ if (cmp) {
return cmp;
+ }
}
return 0;
@@ -285,18 +294,18 @@ static inline bool
sord_iter_forward(SordIter* iter)
{
if (!iter->skip_graphs) {
- iter->cur = g_sequence_iter_next(iter->cur);
- return g_sequence_iter_is_end(iter->cur);
+ iter->cur = zix_tree_iter_next(iter->cur);
+ return zix_tree_iter_is_end(iter->cur);
}
- SordNode** key = (SordNode**)g_sequence_get(iter->cur);
+ SordNode** key = (SordNode**)zix_tree_get(iter->cur);
const SordQuad initial = { key[0], key[1], key[2], key[3] };
while (true) {
- iter->cur = g_sequence_iter_next(iter->cur);
- if (g_sequence_iter_is_end(iter->cur))
+ iter->cur = zix_tree_iter_next(iter->cur);
+ if (zix_tree_iter_is_end(iter->cur))
return true;
- key = (SordNode**)g_sequence_get(iter->cur);
+ key = (SordNode**)zix_tree_get(iter->cur);
for (int i = 0; i < 3; ++i)
if (key[i] != initial[i])
return false;
@@ -312,9 +321,9 @@ static inline bool
sord_iter_seek_match(SordIter* iter)
{
for (iter->end = true;
- !g_sequence_iter_is_end(iter->cur);
+ !zix_tree_iter_is_end(iter->cur);
sord_iter_forward(iter)) {
- const SordNode** const key = (const SordNode**)g_sequence_get(iter->cur);
+ const SordNode** const key = (const SordNode**)zix_tree_get(iter->cur);
if (sord_quad_match_inline(key, iter->pat))
return (iter->end = false);
}
@@ -333,7 +342,7 @@ sord_iter_seek_match_range(SordIter* iter)
return true;
do {
- const SordNode** key = (const SordNode**)g_sequence_get(iter->cur);
+ const SordNode** key = (const SordNode**)zix_tree_get(iter->cur);
if (sord_quad_match_inline(key, iter->pat))
return false; // Found match
@@ -351,7 +360,7 @@ sord_iter_seek_match_range(SordIter* iter)
}
static SordIter*
-sord_iter_new(const SordModel* sord, GSequenceIter* cur, const SordQuad pat,
+sord_iter_new(const SordModel* sord, ZixTreeIter* cur, const SordQuad pat,
SordOrder order, SearchMode mode, int n_prefix)
{
const int* ordering = orderings[order];
@@ -373,7 +382,7 @@ sord_iter_new(const SordModel* sord, GSequenceIter* cur, const SordQuad pat,
case SINGLE:
case RANGE:
assert(
- sord_quad_match_inline((const SordNode**)g_sequence_get(iter->cur),
+ sord_quad_match_inline((const SordNode**)zix_tree_get(iter->cur),
iter->pat));
break;
case FILTER_RANGE:
@@ -403,7 +412,7 @@ sord_iter_get_model(SordIter* iter)
void
sord_iter_get(const SordIter* iter, SordQuad id)
{
- SordNode** key = (SordNode**)g_sequence_get(iter->cur);
+ SordNode** key = (SordNode**)zix_tree_get(iter->cur);
for (int i = 0; i < TUP_LEN; ++i) {
id[i] = key[i];
}
@@ -429,7 +438,7 @@ sord_iter_next(SordIter* iter)
case RANGE:
SORD_ITER_LOG("%p range next\n", (void*)iter);
// At the end if the MSNs no longer match
- key = (const SordNode**)g_sequence_get(iter->cur);
+ key = (const SordNode**)zix_tree_get(iter->cur);
assert(key);
for (int i = 0; i < iter->n_prefix; ++i) {
const int idx = iter->ordering[i];
@@ -573,10 +582,15 @@ sord_new(SordWorld* world, unsigned indices, bool graphs)
sord->n_quads = 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] = g_sequence_new(NULL);
+ sord->indices[i] = zix_tree_new(
+ false, sord_quad_compare, (void*)ordering);
if (graphs) {
- sord->indices[i + (NUM_ORDERS / 2)] = g_sequence_new(NULL);
+ sord->indices[i + (NUM_ORDERS / 2)] = zix_tree_new(
+ false, sord_quad_compare, (void*)g_ordering);
} else {
sord->indices[i + (NUM_ORDERS / 2)] = NULL;
}
@@ -587,7 +601,8 @@ sord_new(SordWorld* world, unsigned indices, bool graphs)
}
if (!sord->indices[DEFAULT_ORDER]) {
- sord->indices[DEFAULT_ORDER] = g_sequence_new(NULL);
+ sord->indices[DEFAULT_ORDER] = zix_tree_new(
+ false, sord_quad_compare, (void*)orderings[DEFAULT_ORDER]);
}
return sord;
@@ -598,18 +613,18 @@ sord_node_free_internal(SordWorld* world, SordNode* node)
{
assert(node->refs == 0);
if (node->node.type == SERD_LITERAL) {
- if (!g_hash_table_remove(world->literals, node)) {
+ if (zix_hash_remove(world->literals, node)) {
fprintf(stderr, "Failed to remove literal from hash.\n");
return;
}
sord_node_free(world, node->datatype);
} else {
- if (!g_hash_table_remove(world->names, node->node.buf)) {
+ if (zix_hash_remove(world->names, node->node.buf)) {
fprintf(stderr, "Failed to remove resource from hash.\n");
return;
}
}
- g_free((uint8_t*)node->node.buf);
+ free((uint8_t*)node->node.buf);
free(node);
}
@@ -660,16 +675,16 @@ sord_free(SordModel* sord)
sord_iter_free(i);
// Free quads
- for (GSequenceIter* i = g_sequence_get_begin_iter(sord->indices[DEFAULT_ORDER]);
- !g_sequence_iter_is_end(i);
- i = g_sequence_iter_next(i)) {
- free(g_sequence_get(i));
+ for (ZixTreeIter* i = zix_tree_begin(sord->indices[DEFAULT_ORDER]);
+ !zix_tree_iter_is_end(i);
+ i = zix_tree_iter_next(i)) {
+ free(zix_tree_get(i));
}
// Free indices
for (unsigned i = 0; i < NUM_ORDERS; ++i)
if (sord->indices[i])
- g_sequence_free(sord->indices[i]);
+ zix_tree_free(sord->indices[i]);
free(sord);
}
@@ -698,67 +713,47 @@ sord_begin(const SordModel* sord)
if (sord_num_quads(sord) == 0) {
return NULL;
} else {
- GSequenceIter* cur = g_sequence_get_begin_iter(sord->indices[DEFAULT_ORDER]);
+ ZixTreeIter* cur = zix_tree_begin(sord->indices[DEFAULT_ORDER]);
SordQuad pat = { 0, 0, 0, 0 };
return sord_iter_new(sord, cur, pat, DEFAULT_ORDER, ALL, 0);
}
}
-static inline GSequenceIter*
-index_search(GSequence* db, const SordQuad search_key, const int* ordering)
+static inline ZixTreeIter*
+index_search(ZixTree* db, const SordQuad search_key)
{
- return g_sequence_search(
- db, (void*)search_key, sord_quad_compare, (void*)ordering);
+ ZixTreeIter* iter = NULL;
+ zix_tree_find(db, (void*)search_key, &iter);
+ if (!iter) {
+ fprintf(stderr, "SEARCH FAILED\n");
+ }
+ return iter;
}
-static inline GSequenceIter*
-index_lower_bound_iter(GSequenceIter* i, const SordQuad search_key)
+static inline ZixTreeIter*
+index_lower_bound(ZixTree* db, const SordQuad search_key)
{
- /* i is now at the position where search_key would be inserted,
- but this is not necessarily a match, and we need the leftmost...
- */
-
- if (g_sequence_iter_is_begin(i)) {
- return i;
- } else if (g_sequence_iter_is_end(i)) {
- i = g_sequence_iter_prev(i);
+ ZixTreeIter* iter = NULL;
+ zix_tree_find(db, (void*)search_key, &iter);
+ if (!iter) {
+ return NULL;
}
- if (!sord_quad_match_inline(search_key, g_sequence_get(i))) {
- // No match, but perhaps immediately after a match
- GSequenceIter* const prev = g_sequence_iter_prev(i);
- if (!sord_quad_match_inline(search_key, g_sequence_get(prev))) {
- return i; // No match (caller must check)
- } else {
- i = prev;
+ ZixTreeIter* prev = NULL;
+ while ((prev = zix_tree_iter_prev(iter))) {
+ if (!prev) {
+ return iter;
}
- }
- /* i now points to some matching element,
- but not necessarily the first...
- */
- assert(sord_quad_match_inline(search_key, g_sequence_get(i)));
-
- while (!g_sequence_iter_is_begin(i)) {
- if (sord_quad_match_inline(search_key, g_sequence_get(i))) {
- GSequenceIter* const prev = g_sequence_iter_prev(i);
- if (sord_quad_match_inline(search_key, g_sequence_get(prev))) {
- i = prev;
- continue;
- }
+ const SordNode** const key = (const SordNode**)zix_tree_get(prev);
+ if (!sord_quad_match_inline(key, search_key)) {
+ return iter;
}
- break;
- }
- return i;
-}
+ iter = prev;
+ }
-static inline GSequenceIter*
-index_lower_bound(GSequence* db, const SordQuad search_key, const int* ordering)
-{
- GSequenceIter* i = g_sequence_search(
- db, (void*)search_key, sord_quad_compare, (void*)ordering);
- return index_lower_bound_iter(i, search_key);
+ return iter;
}
SordIter*
@@ -767,10 +762,9 @@ sord_find(SordModel* sord, const SordQuad pat)
if (!pat[0] && !pat[1] && !pat[2] && !pat[3])
return sord_begin(sord);
- SearchMode mode;
- int prefix_len;
- const SordOrder index_order = sord_best_index(sord, pat, &mode, &prefix_len);
- const int* const ordering = orderings[index_order];
+ SearchMode mode;
+ int prefix_len;
+ const SordOrder index_order = sord_best_index(sord, pat, &mode, &prefix_len);
SORD_FIND_LOG("Find " TUP_FMT " index=%s mode=%d prefix_len=%d ordering=%d%d%d%d\n",
TUP_FMT_ARGS(pat), order_names[index_order], mode, prefix_len,
@@ -779,13 +773,13 @@ sord_find(SordModel* sord, const SordQuad pat)
if (pat[0] && pat[1] && pat[2] && pat[3])
mode = SINGLE; // No duplicate quads (Sord is a set)
- GSequence* const db = sord->indices[index_order];
- GSequenceIter* const cur = index_lower_bound(db, pat, ordering);
- if (g_sequence_iter_is_end(cur)) {
+ ZixTree* const db = sord->indices[index_order];
+ ZixTreeIter* const cur = index_lower_bound(db, pat);
+ if (zix_tree_iter_is_end(cur)) {
SORD_FIND_LOG("No match found\n");
return NULL;
}
- const SordNode** const key = (const SordNode**)g_sequence_get(cur);
+ const SordNode** const key = (const SordNode**)zix_tree_get(cur);
if (!key || ( (mode == RANGE || mode == SINGLE)
&& !sord_quad_match_inline(pat, key) )) {
SORD_FIND_LOG("No match found\n");
@@ -807,7 +801,15 @@ sord_contains(SordModel* sord, const SordQuad pat)
static SordNode*
sord_lookup_name(SordWorld* world, const uint8_t* str)
{
- return g_hash_table_lookup(world->names, str);
+ return zix_hash_find(world->names, str);
+}
+
+char*
+sord_strndup(const char* str, size_t len)
+{
+ char* dup = malloc(len + 1);
+ memcpy(dup, str, len + 1);
+ return dup;
}
static SordNode*
@@ -820,7 +822,7 @@ sord_new_node(SerdType type, const uint8_t* data,
node->datatype = datatype;
node->refs = 1;
node->refs_as_obj = 0;
- node->node.buf = (uint8_t*)g_strdup((const char*)data);
+ node->node.buf = (uint8_t*)sord_strndup((const char*)data, n_bytes);
node->node.n_bytes = n_bytes;
node->node.n_chars = n_chars;
node->node.flags = flags;
@@ -833,10 +835,10 @@ const char*
sord_intern_lang(SordWorld* world, const char* lang)
{
if (lang) {
- char* ilang = g_hash_table_lookup(world->langs, lang);
+ char* ilang = zix_hash_find(world->langs, lang);
if (!ilang) {
- ilang = g_strdup(lang);
- g_hash_table_insert(world->langs, ilang, ilang);
+ ilang = sord_strndup(lang, strlen(lang));
+ zix_hash_insert(world->langs, ilang, ilang);
}
lang = ilang;
}
@@ -859,7 +861,7 @@ sord_lookup_literal(SordWorld* world, SordNode* type,
key.node.flags = 0;
key.node.type = SERD_LITERAL;
- SordNode* id = g_hash_table_lookup(world->literals, &key);
+ SordNode* id = zix_hash_find(world->literals, &key);
if (id) {
return id;
} else {
@@ -937,8 +939,8 @@ sord_new_uri_counted(SordWorld* world, const uint8_t* str,
}
node = sord_new_node(SERD_URI, str, n_bytes, n_chars, 0, 0, 0);
- assert(!g_hash_table_lookup(world->names, node->node.buf));
- g_hash_table_insert(world->names, (char*)node->node.buf, node);
+ assert(!zix_hash_find(world->names, node->node.buf));
+ zix_hash_insert(world->names, (char*)node->node.buf, node);
sord_add_node(world, node);
return node;
}
@@ -961,7 +963,7 @@ sord_new_blank_counted(SordWorld* world, const uint8_t* str,
}
node = sord_new_node(SERD_BLANK, str, n_bytes, n_chars, 0, 0, 0);
- g_hash_table_insert(world->names, (char*)node->node.buf, node);
+ zix_hash_insert(world->names, (char*)node->node.buf, node);
sord_add_node(world, node);
return node;
}
@@ -989,7 +991,7 @@ sord_new_literal_counted(SordWorld* world, SordNode* datatype,
node = sord_new_node(SERD_LITERAL,
str, n_bytes, n_chars, flags,
sord_node_copy(datatype), lang);
- g_hash_table_insert(world->literals, node, node); // FIXME: correct?
+ zix_hash_insert(world->literals, node, node); // FIXME: correct?
sord_add_node(world, node);
assert(node->refs == 1);
return node;
@@ -1103,17 +1105,7 @@ sord_node_copy(const SordNode* node)
static inline bool
sord_add_to_index(SordModel* sord, const SordNode** tup, SordOrder order)
{
- assert(sord->indices[order]);
- const int* const ordering = orderings[order];
- GSequenceIter* const cur = index_search(sord->indices[order], tup, ordering);
- GSequenceIter* const match = index_lower_bound_iter(cur, tup);
- if (!g_sequence_iter_is_end(match)
- && !sord_quad_compare(g_sequence_get(match), tup, (void*)ordering)) {
- return false; // Quad already stored in this index
- }
-
- g_sequence_insert_before(cur, tup);
- return true;
+ return !zix_tree_insert(sord->indices[order], tup, NULL);
}
bool
@@ -1142,7 +1134,7 @@ sord_add(SordModel* sord, const SordQuad tup)
sord_add_quad_ref(sord, tup[i], i);
++sord->n_quads;
- assert(sord->n_quads == (size_t)g_sequence_get_length(sord->indices[SPO]));
+ //assert(sord->n_quads == (size_t)zix_tree_get_length(sord->indices[SPO]));
return true;
}
@@ -1154,14 +1146,12 @@ sord_remove(SordModel* sord, const SordQuad tup)
SordNode** quad = NULL;
for (unsigned i = 0; i < NUM_ORDERS; ++i) {
if (sord->indices[i]) {
- const int* const ordering = orderings[i];
- GSequenceIter* const cur = index_lower_bound(
- sord->indices[i], tup, ordering);
- if (!g_sequence_iter_is_end(cur)) {
+ ZixTreeIter* const cur = index_search(sord->indices[i], tup);
+ if (!zix_tree_iter_is_end(cur)) {
if (!quad) {
- quad = g_sequence_get(cur);
+ quad = zix_tree_get(cur);
}
- g_sequence_remove(cur);
+ zix_tree_remove(sord->indices[i], cur);
} else {
assert(i == 0); // Assuming index coherency
return; // Quad not found, do nothing