Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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/*
* upb - a minimalist implementation of protocol buffers.
*
* Copyright (c) 2009 Google Inc. See LICENSE for details.
* Author: Josh Haberman <jhaberman@gmail.com>
*
* This file defines very fast int->upb_value (inttable) and string->upb_value
* (strtable) hash tables.
*
* The table uses chained scatter with Brent's variation (inspired by the Lua
* implementation of hash tables). The hash function for strings is Austin
* Appleby's "MurmurHash."
*
* The inttable uses uintptr_t as its key, which guarantees it can be used to
* store pointers or integers of at least 32 bits (upb isn't really useful on
* systems where sizeof(void*) < 4).
*
* This header is internal to upb; its interface should not be considered
* public or stable.
*
* The table must be homogenous (all values of the same type). We currently
* enforce this on insert but store the full upb_value (with type) anyway.
* This is required with the current interface because lookups vend a pointer
* to the table's internal storage.
*/
#ifndef UPB_TABLE_H_
#define UPB_TABLE_H_
#include "upb.h"
#ifdef __cplusplus
extern "C" {
#endif
typedef union {
uintptr_t num;
const char *str; // We own, nullz.
} upb_tabkey;
#define UPB_TABKEY_NUM(n) {n}
#ifdef UPB_C99
#define UPB_TABKEY_STR(s) {.str = s}
#endif
// TODO(haberman): C++
#define UPB_TABKEY_NONE {0}
typedef struct _upb_tabent {
upb_tabkey key;
_upb_value val;
// Internal chaining. This is const so we can create static initializers for
// tables. We cast away const sometimes, but *only* when the containing
// upb_table is known to be non-const. This requires a bit of care, but
// the subtlety is confined to table.c.
const struct _upb_tabent *next;
} upb_tabent;
typedef struct {
size_t count; // Number of entries in the hash part.
size_t mask; // Mask to turn hash value -> bucket.
upb_ctype_t type; // Type of all values.
uint8_t size_lg2; // Size of the hash table part is 2^size_lg2 entries.
const upb_tabent *entries; // Hash table.
} upb_table;
typedef struct {
upb_table t;
} upb_strtable;
#define UPB_STRTABLE_INIT(count, mask, type, size_lg2, entries) \
{{count, mask, type, size_lg2, entries}}
typedef struct {
upb_table t; // For entries that don't fit in the array part.
const _upb_value *array; // Array part of the table.
size_t array_size; // Array part size.
size_t array_count; // Array part number of elements.
} upb_inttable;
#define UPB_INTTABLE_INIT(count, mask, type, size_lg2, ent, a, asize, acount) \
{{count, mask, type, size_lg2, ent}, a, asize, acount}
#define UPB_EMPTY_INTTABLE_INIT(type) \
UPB_INTTABLE_INIT(0, 0, type, 0, NULL, NULL, 0, 0)
#define UPB_ARRAY_EMPTYENT UPB_VALUE_INIT_INT64(-1)
UPB_INLINE size_t upb_table_size(const upb_table *t) {
if (t->size_lg2 == 0)
return 0;
else
return 1 << t->size_lg2;
}
// Internal-only functions, in .h file only out of necessity.
UPB_INLINE bool upb_tabent_isempty(const upb_tabent *e) {
return e->key.num == 0;
}
UPB_INLINE upb_tabkey upb_intkey(uintptr_t key) {
upb_tabkey k = {key}; return k;
}
UPB_INLINE const upb_tabent *upb_inthash(const upb_table *t, upb_tabkey key) {
return t->entries + ((uint32_t)key.num & t->mask);
}
UPB_INLINE bool upb_arrhas(_upb_value v) {
return v.uint64 != (uint64_t)-1;
}
uint32_t MurmurHash2(const void *key, size_t len, uint32_t seed);
// Initialize and uninitialize a table, respectively. If memory allocation
// failed, false is returned that the table is uninitialized.
bool upb_inttable_init(upb_inttable *table, upb_ctype_t type);
bool upb_strtable_init(upb_strtable *table, upb_ctype_t type);
void upb_inttable_uninit(upb_inttable *table);
void upb_strtable_uninit(upb_strtable *table);
// Returns the number of values in the table.
size_t upb_inttable_count(const upb_inttable *t);
UPB_INLINE size_t upb_strtable_count(const upb_strtable *t) {
return t->t.count;
}
// Inserts the given key into the hashtable with the given value. The key must
// not already exist in the hash table. For string tables, the key must be
// NULL-terminated, and the table will make an internal copy of the key.
// Inttables must not insert a value of UINTPTR_MAX.
//
// If a table resize was required but memory allocation failed, false is
// returned and the table is unchanged.
bool upb_inttable_insert(upb_inttable *t, uintptr_t key, upb_value val);
bool upb_strtable_insert(upb_strtable *t, const char *key, upb_value val);
// Looks up key in this table, returning a pointer to the table's internal copy
// of the user's inserted data, or NULL if this key is not in the table. The
// returned pointer is invalidated by inserts.
bool upb_inttable_lookup(const upb_inttable *t, uintptr_t key, upb_value *v);
bool upb_strtable_lookup(const upb_strtable *t, const char *key, upb_value *v);
// Removes an item from the table. Returns true if the remove was successful,
// and stores the removed item in *val if non-NULL.
bool upb_inttable_remove(upb_inttable *t, uintptr_t key, upb_value *val);
bool upb_strtable_remove(upb_strtable *t, const char *key, upb_value *val);
// Handy routines for treating an inttable like a stack. May not be mixed with
// other insert/remove calls.
bool upb_inttable_push(upb_inttable *t, upb_value val);
upb_value upb_inttable_pop(upb_inttable *t);
// Convenience routines for inttables with pointer keys.
bool upb_inttable_insertptr(upb_inttable *t, const void *key, upb_value val);
bool upb_inttable_removeptr(upb_inttable *t, const void *key, upb_value *val);
bool upb_inttable_lookupptr(
const upb_inttable *t, const void *key, upb_value *val);
// Optimizes the table for the current set of entries, for both memory use and
// lookup time. Client should call this after all entries have been inserted;
// inserting more entries is legal, but will likely require a table resize.
void upb_inttable_compact(upb_inttable *t);
// A special-case inlinable version of the lookup routine for 32-bit integers.
UPB_INLINE bool upb_inttable_lookup32(const upb_inttable *t, uint32_t key,
upb_value *v) {
if (key < t->array_size) {
_upb_value arrval = t->array[key];
if (upb_arrhas(arrval)) {
_upb_value_setval(v, arrval, t->t.type);
return true;
} else {
return false;
}
} else {
const upb_tabent *e;
if (t->t.entries == NULL) return NULL;
for (e = upb_inthash(&t->t, upb_intkey(key)); true; e = e->next) {
if ((uint32_t)e->key.num == key) {
_upb_value_setval(v, e->val, t->t.type);
return true;
}
if (e->next == NULL) return false;
}
}
}
/* upb_strtable_iter **********************************************************/
// Strtable iteration. Order is undefined. Insertions invalidate iterators.
// upb_strtable_iter i;
// upb_strtable_begin(&i, t);
// for(; !upb_strtable_done(&i); upb_strtable_next(&i)) {
// const char *key = upb_strtable_iter_key(&i);
// const upb_value val = upb_strtable_iter_value(&i);
// // ...
// }
typedef struct {
const upb_strtable *t;
const upb_tabent *e;
} upb_strtable_iter;
void upb_strtable_begin(upb_strtable_iter *i, const upb_strtable *t);
void upb_strtable_next(upb_strtable_iter *i);
UPB_INLINE bool upb_strtable_done(upb_strtable_iter *i) { return i->e == NULL; }
UPB_INLINE const char *upb_strtable_iter_key(upb_strtable_iter *i) {
return i->e->key.str;
}
UPB_INLINE upb_value upb_strtable_iter_value(upb_strtable_iter *i) {
return _upb_value_val(i->e->val, i->t->t.type);
}
/* upb_inttable_iter **********************************************************/
// Inttable iteration. Order is undefined. Insertions invalidate iterators.
// upb_inttable_iter i;
// upb_inttable_begin(&i, t);
// for(; !upb_inttable_done(&i); upb_inttable_next(&i)) {
// uintptr_t key = upb_inttable_iter_key(&i);
// upb_value val = upb_inttable_iter_value(&i);
// // ...
// }
typedef struct {
const upb_inttable *t;
union {
const upb_tabent *ent; // For hash iteration.
const _upb_value *val; // For array iteration.
} ptr;
uintptr_t arrkey;
bool array_part;
} upb_inttable_iter;
void upb_inttable_begin(upb_inttable_iter *i, const upb_inttable *t);
void upb_inttable_next(upb_inttable_iter *i);
UPB_INLINE bool upb_inttable_done(upb_inttable_iter *i) {
return i->ptr.ent == NULL;
}
UPB_INLINE uintptr_t upb_inttable_iter_key(upb_inttable_iter *i) {
return i->array_part ? i->arrkey : i->ptr.ent->key.num;
}
UPB_INLINE upb_value upb_inttable_iter_value(upb_inttable_iter *i) {
return _upb_value_val(
i->array_part ? *i->ptr.val : i->ptr.ent->val, i->t->t.type);
}
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif /* UPB_TABLE_H_ */