gmqcc/stat.cpp

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#include <string.h>
#include <stdlib.h>
#include "gmqcc.h"
/*
* strdup does it's own malloc, we need to track malloc. We don't want
* to overwrite malloc though, infact, we can't really hook it at all
* without library specific assumptions. So we re implement strdup.
*/
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char *stat_mem_strdup(const char *src, bool empty) {
size_t len = 0;
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char *ptr = nullptr;
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if (!src)
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return nullptr;
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len = strlen(src);
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if ((!empty ? len : true) && (ptr = (char*)mem_a(len + 1))) {
memcpy(ptr, src, len);
ptr[len] = '\0';
}
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return ptr;
}
/*
* The reallocate function for resizing vectors.
*/
void _util_vec_grow(void **a, size_t i, size_t s) {
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vector_t *d = vec_meta(*a);
size_t m = 0;
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void *p = nullptr;
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if (*a) {
m = 2 * d->allocated + i;
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p = mem_r(d, s * m + sizeof(vector_t));
} else {
m = i + 1;
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p = mem_a(s * m + sizeof(vector_t));
((vector_t*)p)->used = 0;
}
d = (vector_t*)p;
d->allocated = m;
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*a = d + 1;
}
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void _util_vec_delete(void *data) {
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mem_d(vec_meta(data));
}
/*
* Hash table for generic data, based on dynamic memory allocations
* all around. This is the internal interface, please look for
* EXPOSED INTERFACE comment below
*/
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struct hash_node_t {
char *key; /* the key for this node in table */
void *value; /* pointer to the data as void* */
hash_node_t *next; /* next node (linked list) */
};
size_t hash(const char *key);
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size_t util_hthash(hash_table_t *ht, const char *key) {
return hash(key) % ht->size;
}
static hash_node_t *_util_htnewpair(const char *key, void *value) {
hash_node_t *node;
if (!(node = (hash_node_t*)mem_a(sizeof(hash_node_t))))
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return nullptr;
if (!(node->key = util_strdupe(key))) {
mem_d(node);
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return nullptr;
}
node->value = value;
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node->next = nullptr;
return node;
}
/*
* EXPOSED INTERFACE for the hashtable implementation
* util_htnew(size) -- to make a new hashtable
* util_htset(table, key, value, sizeof(value)) -- to set something in the table
* util_htget(table, key) -- to get something from the table
* util_htdel(table) -- to delete the table
*/
hash_table_t *util_htnew(size_t size) {
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hash_table_t *hashtable = nullptr;
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if (size < 1)
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return nullptr;
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if (!(hashtable = (hash_table_t*)mem_a(sizeof(hash_table_t))))
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return nullptr;
if (!(hashtable->table = (hash_node_t**)mem_a(sizeof(hash_node_t*) * size))) {
mem_d(hashtable);
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return nullptr;
}
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hashtable->size = size;
memset(hashtable->table, 0, sizeof(hash_node_t*) * size);
return hashtable;
}
void util_htseth(hash_table_t *ht, const char *key, size_t bin, void *value) {
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hash_node_t *newnode = nullptr;
hash_node_t *next = nullptr;
hash_node_t *last = nullptr;
next = ht->table[bin];
while (next && next->key && strcmp(key, next->key) > 0)
last = next, next = next->next;
/* already in table, do a replace */
if (next && next->key && strcmp(key, next->key) == 0) {
next->value = value;
} else {
/* not found, grow a pair man :P */
newnode = _util_htnewpair(key, value);
if (next == ht->table[bin]) {
newnode->next = next;
ht->table[bin] = newnode;
} else if (!next) {
last->next = newnode;
} else {
newnode->next = next;
last->next = newnode;
}
}
}
void util_htset(hash_table_t *ht, const char *key, void *value) {
util_htseth(ht, key, util_hthash(ht, key), value);
}
void *util_htgeth(hash_table_t *ht, const char *key, size_t bin) {
hash_node_t *pair = ht->table[bin];
while (pair && pair->key && strcmp(key, pair->key) > 0)
pair = pair->next;
if (!pair || !pair->key || strcmp(key, pair->key) != 0)
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return nullptr;
return pair->value;
}
void *util_htget(hash_table_t *ht, const char *key) {
return util_htgeth(ht, key, util_hthash(ht, key));
}
void *code_util_str_htgeth(hash_table_t *ht, const char *key, size_t bin);
void *code_util_str_htgeth(hash_table_t *ht, const char *key, size_t bin) {
hash_node_t *pair;
size_t len, keylen;
int cmp;
keylen = strlen(key);
pair = ht->table[bin];
while (pair && pair->key) {
len = strlen(pair->key);
if (len < keylen) {
pair = pair->next;
continue;
}
if (keylen == len) {
cmp = strcmp(key, pair->key);
if (cmp == 0)
return pair->value;
if (cmp < 0)
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return nullptr;
pair = pair->next;
continue;
}
cmp = strcmp(key, pair->key + len - keylen);
if (cmp == 0) {
uintptr_t up = (uintptr_t)pair->value;
up += len - keylen;
return (void*)up;
}
pair = pair->next;
}
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return nullptr;
}
/*
* Free all allocated data in a hashtable, this is quite the amount
* of work.
*/
void util_htrem(hash_table_t *ht, void (*callback)(void *data)) {
size_t i = 0;
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for (; i < ht->size; ++i) {
hash_node_t *n = ht->table[i];
hash_node_t *p;
/* free in list */
while (n) {
if (n->key)
mem_d(n->key);
if (callback)
callback(n->value);
p = n;
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n = p->next;
mem_d(p);
}
}
/* free table */
mem_d(ht->table);
mem_d(ht);
}
void util_htrmh(hash_table_t *ht, const char *key, size_t bin, void (*cb)(void*)) {
hash_node_t **pair = &ht->table[bin];
hash_node_t *tmp;
while (*pair && (*pair)->key && strcmp(key, (*pair)->key) > 0)
pair = &(*pair)->next;
tmp = *pair;
if (!tmp || !tmp->key || strcmp(key, tmp->key) != 0)
return;
if (cb)
(*cb)(tmp->value);
*pair = tmp->next;
mem_d(tmp->key);
mem_d(tmp);
}
void util_htrm(hash_table_t *ht, const char *key, void (*cb)(void*)) {
util_htrmh(ht, key, util_hthash(ht, key), cb);
}
void util_htdel(hash_table_t *ht) {
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util_htrem(ht, nullptr);
}