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pb.h
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pb.h
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#ifndef pb_h
#define pb_h
#ifndef PB_NS_BEGIN
# ifdef __cplusplus
# define PB_NS_BEGIN extern "C" {
# define PB_NS_END }
# else
# define PB_NS_BEGIN
# define PB_NS_END
# endif
#endif /* PB_NS_BEGIN */
#ifndef PB_STATIC
# if __GNUC__
# define PB_STATIC static __attribute((unused))
# else
# define PB_STATIC static
# endif
#endif
#ifdef PB_STATIC_API
# ifndef PB_IMPLEMENTATION
# define PB_IMPLEMENTATION
# endif
# define PB_API PB_STATIC
#endif
#if !defined(PB_API) && defined(_WIN32)
# ifdef PB_IMPLEMENTATION
# define PB_API __declspec(dllexport)
# else
# define PB_API __declspec(dllimport)
# endif
#endif
#ifndef PB_API
# define PB_API extern
#endif
#if defined(_MSC_VER) || defined(__UNIXOS2__) || defined(__SOL64__)
typedef unsigned char uint8_t;
typedef signed char int8_t;
typedef unsigned short uint16_t;
typedef signed short int16_t;
typedef unsigned int uint32_t;
typedef signed int int32_t;
typedef unsigned long long uint64_t;
typedef signed long long int64_t;
#ifndef INT64_MIN
# define INT64_MIN LLONG_MIN
#endif
#ifndef INT64_MAX
# define INT64_MAX LLONG_MAX
#endif
#elif defined(__SCO__) || defined(__USLC__) || defined(__MINGW32__)
# include <stdint.h>
#else
# include <inttypes.h>
# if (defined(__sun__) || defined(__digital__))
# if defined(__STDC__) && (defined(__arch64__) || defined(_LP64))
typedef unsigned long int uint64_t;
typedef signed long int int64_t;
# else
typedef unsigned long long uint64_t;
typedef signed long long int64_t;
# endif /* LP64 */
# endif /* __sun__ || __digital__ */
#endif
#include <stddef.h>
#include <limits.h>
PB_NS_BEGIN
/* types */
#define PB_WIRETYPES(X) /* X(id, name, fmt) */\
X(VARINT, "varint", 'v') X(64BIT, "64bit", 'q') X(BYTES, "bytes", 's') \
X(GSTART, "gstart", '!') X(GEND, "gend", '!') X(32BIT, "32bit", 'd') \
#define PB_TYPES(X) /* X(name, type, fmt) */\
X(double, double, 'F') X(float, float, 'f') \
X(int64, int64_t, 'I') X(uint64, uint64_t, 'U') \
X(int32, int32_t, 'i') X(fixed64, uint64_t, 'X') \
X(fixed32, uint32_t, 'x') X(bool, int, 'b') \
X(string, pb_Slice, 't') X(group, pb_Slice, 'g') \
X(message, pb_Slice, 'S') X(bytes, pb_Slice, 's') \
X(uint32, uint32_t, 'u') X(enum, int32_t, 'v') \
X(sfixed32, int32_t, 'y') X(sfixed64, int64_t, 'Y') \
X(sint32, int32_t, 'j') X(sint64, int64_t, 'J') \
typedef enum pb_WireType {
#define X(id,name,fmt) PB_T##id,
PB_WIRETYPES(X)
#undef X
PB_TWIRECOUNT
} pb_WireType;
typedef enum pb_FieldType {
PB_TNONE,
#define X(name,type,fmt) PB_T##name,
PB_TYPES(X)
#undef X
PB_TYPECOUNT
} pb_FieldType;
/* conversions */
PB_API uint64_t pb_expandsig (uint32_t v);
PB_API uint32_t pb_encode_sint32 ( int32_t v);
PB_API int32_t pb_decode_sint32 (uint32_t v);
PB_API uint64_t pb_encode_sint64 ( int64_t v);
PB_API int64_t pb_decode_sint64 (uint64_t v);
PB_API uint32_t pb_encode_float (float v);
PB_API float pb_decode_float (uint32_t v);
PB_API uint64_t pb_encode_double (double v);
PB_API double pb_decode_double (uint64_t v);
/* decode */
typedef struct pb_Slice { const char *p, *start, *end; } pb_Slice;
#define pb_gettype(v) ((v) & 7)
#define pb_gettag(v) ((v) >> 3)
#define pb_pair(tag,type) ((tag) << 3 | ((type) & 7))
PB_API pb_Slice pb_slice (const char *p);
PB_API pb_Slice pb_lslice (const char *p, size_t len);
PB_API size_t pb_pos (const pb_Slice s);
PB_API size_t pb_len (const pb_Slice s);
PB_API size_t pb_readvarint32 (pb_Slice *s, uint32_t *pv);
PB_API size_t pb_readvarint64 (pb_Slice *s, uint64_t *pv);
PB_API size_t pb_readfixed32 (pb_Slice *s, uint32_t *pv);
PB_API size_t pb_readfixed64 (pb_Slice *s, uint64_t *pv);
PB_API size_t pb_readslice (pb_Slice *s, size_t len, pb_Slice *pv);
PB_API size_t pb_readbytes (pb_Slice *s, pb_Slice *pv);
PB_API size_t pb_readgroup (pb_Slice *s, uint32_t tag, pb_Slice *pv);
PB_API size_t pb_skipvarint (pb_Slice *s);
PB_API size_t pb_skipbytes (pb_Slice *s);
PB_API size_t pb_skipslice (pb_Slice *s, size_t len);
PB_API size_t pb_skipvalue (pb_Slice *s, uint32_t tag);
PB_API const char *pb_wtypename (int wiretype, const char *def);
PB_API const char *pb_typename (int type, const char *def);
PB_API int pb_typebyname (const char *name, int def);
PB_API int pb_wtypebyname (const char *name, int def);
PB_API int pb_wtypebytype (int type);
/* encode */
#define PB_SSO_SIZE (sizeof(pb_HeapBuffer))
typedef struct pb_HeapBuffer {
unsigned capacity;
char *buff;
} pb_HeapBuffer;
typedef struct pb_Buffer {
unsigned size : sizeof(unsigned)*CHAR_BIT - 1;
unsigned heap : 1;
union {
char buff[PB_SSO_SIZE];
pb_HeapBuffer h;
} u;
} pb_Buffer;
#define pb_onheap(b) ((b)->heap)
#define pb_bufflen(b) ((b)->size)
#define pb_buffer(b) (pb_onheap(b) ? (b)->u.h.buff : (b)->u.buff)
#define pb_addsize(b,sz) ((void)((b)->size += (unsigned)(sz)))
PB_API void pb_initbuffer (pb_Buffer *b);
PB_API void pb_resetbuffer (pb_Buffer *b);
PB_API char *pb_prepbuffsize (pb_Buffer *b, size_t len);
PB_API pb_Slice pb_result (const pb_Buffer *b);
PB_API size_t pb_addvarint32 (pb_Buffer *b, uint32_t v);
PB_API size_t pb_addvarint64 (pb_Buffer *b, uint64_t v);
PB_API size_t pb_addfixed32 (pb_Buffer *b, uint32_t v);
PB_API size_t pb_addfixed64 (pb_Buffer *b, uint64_t v);
PB_API size_t pb_addslice (pb_Buffer *b, pb_Slice s);
PB_API size_t pb_addbytes (pb_Buffer *b, pb_Slice s);
PB_API size_t pb_addlength (pb_Buffer *b, size_t len, size_t prealloc);
/* type info database state and name table */
typedef struct pb_State pb_State;
typedef struct pb_Name pb_Name;
typedef struct pb_Cache pb_Cache;
PB_API void pb_init (pb_State *S);
PB_API void pb_free (pb_State *S);
PB_API pb_Name *pb_newname (pb_State *S, pb_Slice s, pb_Cache *cache);
PB_API void pb_delname (pb_State *S, pb_Name *name);
PB_API pb_Name *pb_usename (pb_Name *name);
PB_API const pb_Name *pb_name (const pb_State *S, pb_Slice s, pb_Cache *cache);
/* type info */
typedef struct pb_Type pb_Type;
typedef struct pb_Field pb_Field;
#define PB_OK 0
#define PB_ERROR 1
#define PB_ENOMEM 2
PB_API int pb_load (pb_State *S, pb_Slice *s);
PB_API pb_Type *pb_newtype (pb_State *S, pb_Name *tname);
PB_API void pb_deltype (pb_State *S, pb_Type *t);
PB_API pb_Field *pb_newfield (pb_State *S, pb_Type *t, pb_Name *fname, int32_t number);
PB_API void pb_delfield (pb_State *S, pb_Type *t, pb_Field *f);
PB_API const pb_Type *pb_type (const pb_State *S, const pb_Name *tname);
PB_API const pb_Field *pb_fname (const pb_Type *t, const pb_Name *tname);
PB_API const pb_Field *pb_field (const pb_Type *t, int32_t number);
PB_API const pb_Name *pb_oneofname (const pb_Type *t, int oneof_index);
PB_API int pb_nexttype (const pb_State *S, const pb_Type **ptype);
PB_API int pb_nextfield (const pb_Type *t, const pb_Field **pfield);
/* util: memory pool */
#define PB_POOLSIZE 4096
typedef struct pb_Pool {
void *pages;
void *freed;
size_t obj_size;
} pb_Pool;
PB_API void pb_initpool (pb_Pool *pool, size_t obj_size);
PB_API void pb_freepool (pb_Pool *pool);
PB_API void *pb_poolalloc (pb_Pool *pool);
PB_API void pb_poolfree (pb_Pool *pool, void *obj);
/* util: hash table */
typedef struct pb_Table pb_Table;
typedef struct pb_Entry pb_Entry;
typedef ptrdiff_t pb_Key;
PB_API void pb_inittable (pb_Table *t, size_t entrysize);
PB_API void pb_freetable (pb_Table *t);
PB_API size_t pb_resizetable (pb_Table *t, size_t size);
PB_API pb_Entry *pb_gettable (const pb_Table *t, pb_Key key);
PB_API pb_Entry *pb_settable (pb_Table *t, pb_Key key);
PB_API int pb_nextentry (const pb_Table *t, const pb_Entry **pentry);
struct pb_Table {
unsigned size;
unsigned lastfree;
unsigned entry_size : sizeof(unsigned)*CHAR_BIT - 1;
unsigned has_zero : 1;
pb_Entry *hash;
};
struct pb_Entry {
ptrdiff_t next;
pb_Key key;
};
/* fields */
#define PB_CACHE_SIZE (53)
typedef struct pb_NameEntry {
struct pb_NameEntry *next;
unsigned hash : 32;
unsigned length : 16;
unsigned refcount : 16;
} pb_NameEntry;
typedef struct pb_NameTable {
size_t size;
size_t count;
pb_NameEntry **hash;
} pb_NameTable;
typedef struct pb_CacheSlot {
const char *name;
unsigned hash;
} pb_CacheSlot;
struct pb_Cache {
pb_CacheSlot slots[PB_CACHE_SIZE][2];
unsigned hash;
};
struct pb_State {
pb_NameTable nametable;
pb_Table types;
pb_Pool typepool;
pb_Pool fieldpool;
};
struct pb_Field {
pb_Name *name;
pb_Type *type;
pb_Name *default_value;
int32_t number;
int32_t sort_index;
unsigned oneof_idx : 24;
unsigned type_id : 5; /* PB_T* enum */
unsigned repeated : 1;
unsigned packed : 1;
unsigned scalar : 1;
};
struct pb_Type {
pb_Name *name;
const char *basename;
pb_Field **field_sort;
pb_Table field_tags;
pb_Table field_names;
pb_Table oneof_index;
unsigned oneof_count; /* extra field count from oneof entries */
unsigned oneof_field; /* extra field in oneof declarations */
unsigned field_count : 28;
unsigned is_enum : 1;
unsigned is_map : 1;
unsigned is_proto3 : 1;
unsigned is_dead : 1;
};
PB_NS_END
#endif /* pb_h */
#if defined(PB_IMPLEMENTATION) && !defined(pb_implemented)
#define pb_implemented
#define PB_MAX_SIZET ((unsigned)~0 - 100)
#define PB_MAX_HASHSIZE ((unsigned)~0 - 100)
#define PB_MIN_STRTABLE_SIZE 16
#define PB_MIN_HASHTABLE_SIZE 8
#define PB_HASHLIMIT 5
#include <assert.h>
#include <stdlib.h>
#include <string.h>
PB_NS_BEGIN
/* conversions */
PB_API uint32_t pb_encode_sint32(int32_t value)
{ return ((uint32_t)value << 1) ^ -(value < 0); }
PB_API int32_t pb_decode_sint32(uint32_t value)
{ return (value >> 1) ^ -(int32_t)(value & 1); }
PB_API uint64_t pb_encode_sint64(int64_t value)
{ return ((uint64_t)value << 1) ^ -(value < 0); }
PB_API int64_t pb_decode_sint64(uint64_t value)
{ return (value >> 1) ^ -(int64_t)(value & 1); }
PB_API uint64_t pb_expandsig(uint32_t value)
{ uint64_t m = (uint64_t)1U << 31; return (value ^ m) - m; }
PB_API uint32_t pb_encode_float(float value)
{ union { uint32_t u32; float f; } u; u.f = value; return u.u32; }
PB_API float pb_decode_float(uint32_t value)
{ union { uint32_t u32; float f; } u; u.u32 = value; return u.f; }
PB_API uint64_t pb_encode_double(double value)
{ union { uint64_t u64; double d; } u; u.d = value; return u.u64; }
PB_API double pb_decode_double(uint64_t value)
{ union { uint64_t u64; double d; } u; u.u64 = value; return u.d; }
/* decode */
PB_API pb_Slice pb_slice(const char *s)
{ return s ? pb_lslice(s, strlen(s)) : pb_lslice(NULL, 0); }
PB_API size_t pb_pos(const pb_Slice s) { return s.p - s.start; }
PB_API size_t pb_len(const pb_Slice s) { return s.end - s.p; }
static size_t pb_readvarint_slow(pb_Slice *s, uint64_t *pv) {
const char *p = s->p;
uint64_t n = 0;
int i = 0;
while (s->p < s->end && i < 10) {
int b = *s->p++;
n |= ((uint64_t)b & 0x7F) << (7*i++);
if ((b & 0x80) == 0) {
*pv = n;
return i;
}
}
s->p = p;
return 0;
}
static size_t pb_readvarint32_fallback(pb_Slice *s, uint32_t *pv) {
const uint8_t *p = (const uint8_t*)s->p, *o = p;
uint32_t b, n;
for (;;) {
n = *p++ - 0x80, n += (b = *p++) << 7; if (!(b & 0x80)) break;
n -= 0x80 << 7, n += (b = *p++) << 14; if (!(b & 0x80)) break;
n -= 0x80 << 14, n += (b = *p++) << 21; if (!(b & 0x80)) break;
n -= 0x80 << 21, n += (b = *p++) << 28; if (!(b & 0x80)) break;
/* n -= 0x80 << 28; */
if (!(*p++ & 0x80)) break;
if (!(*p++ & 0x80)) break;
if (!(*p++ & 0x80)) break;
if (!(*p++ & 0x80)) break;
if (!(*p++ & 0x80)) break;
return 0;
}
*pv = n;
s->p = (const char*)p;
return p - o;
}
static size_t pb_readvarint64_fallback(pb_Slice *s, uint64_t *pv) {
const uint8_t *p = (const uint8_t*)s->p, *o = p;
uint32_t b, n1, n2 = 0, n3 = 0;
for (;;) {
n1 = *p++ - 0x80, n1 += (b = *p++) << 7; if (!(b & 0x80)) break;
n1 -= 0x80 << 7, n1 += (b = *p++) << 14; if (!(b & 0x80)) break;
n1 -= 0x80 << 14, n1 += (b = *p++) << 21; if (!(b & 0x80)) break;
n1 -= 0x80 << 21, n2 += (b = *p++) ; if (!(b & 0x80)) break;
n2 -= 0x80 , n2 += (b = *p++) << 7; if (!(b & 0x80)) break;
n2 -= 0x80 << 7, n2 += (b = *p++) << 14; if (!(b & 0x80)) break;
n2 -= 0x80 << 14, n2 += (b = *p++) << 21; if (!(b & 0x80)) break;
n2 -= 0x80 << 21, n3 += (b = *p++) ; if (!(b & 0x80)) break;
n3 -= 0x80 , n3 += (b = *p++) << 7; if (!(b & 0x80)) break;
return 0;
}
*pv = n1 | ((uint64_t)n2 << 28) | ((uint64_t)n3 << 56);
s->p = (const char*)p;
return p - o;
}
PB_API pb_Slice pb_lslice(const char *s, size_t len) {
pb_Slice slice;
slice.start = slice.p = s;
slice.end = s + len;
return slice;
}
PB_API size_t pb_readvarint32(pb_Slice *s, uint32_t *pv) {
uint64_t u64;
size_t ret;
if (s->p >= s->end) return 0;
if (!(*s->p & 0x80)) return *pv = *s->p++, 1;
if (pb_len(*s) >= 10 || !(s->end[-1] & 0x80))
return pb_readvarint32_fallback(s, pv);
if ((ret = pb_readvarint_slow(s, &u64)) != 0)
*pv = (uint32_t)u64;
return ret;
}
PB_API size_t pb_readvarint64(pb_Slice *s, uint64_t *pv) {
if (s->p >= s->end) return 0;
if (!(*s->p & 0x80)) return *pv = *s->p++, 1;
if (pb_len(*s) >= 10 || !(s->end[-1] & 0x80))
return pb_readvarint64_fallback(s, pv);
return pb_readvarint_slow(s, pv);
}
PB_API size_t pb_readfixed32(pb_Slice *s, uint32_t *pv) {
int i;
uint32_t n = 0;
if (s->p + 4 > s->end)
return 0;
for (i = 3; i >= 0; --i) {
n <<= 8;
n |= s->p[i] & 0xFF;
}
s->p += 4;
*pv = n;
return 4;
}
PB_API size_t pb_readfixed64(pb_Slice *s, uint64_t *pv) {
int i;
uint64_t n = 0;
if (s->p + 8 > s->end)
return 0;
for (i = 7; i >= 0; --i) {
n <<= 8;
n |= s->p[i] & 0xFF;
}
s->p += 8;
*pv = n;
return 8;
}
PB_API size_t pb_readslice(pb_Slice *s, size_t len, pb_Slice *pv) {
if (pb_len(*s) < len)
return 0;
pv->start = s->start;
pv->p = s->p;
pv->end = s->p + len;
s->p = pv->end;
return len;
}
PB_API size_t pb_readbytes(pb_Slice *s, pb_Slice *pv) {
const char *p = s->p;
uint64_t len;
if (pb_readvarint64(s, &len) == 0 || pb_len(*s) < len) {
s->p = p;
return 0;
}
pv->start = s->start;
pv->p = s->p;
pv->end = s->p + len;
s->p = pv->end;
return s->p - p;
}
PB_API size_t pb_readgroup(pb_Slice *s, uint32_t tag, pb_Slice *pv) {
const char *p = s->p;
uint32_t newtag = 0;
size_t count;
assert(pb_gettype(tag) == PB_TGSTART);
while ((count = pb_readvarint32(s, &newtag)) != 0) {
if (pb_gettype(newtag) == PB_TGEND) {
if (pb_gettag(newtag) != pb_gettag(tag))
break;
pv->start = s->start;
pv->p = p;
pv->end = s->p - count;
return s->p - p;
}
if (pb_skipvalue(s, newtag) == 0) break;
}
s->p = p;
return 0;
}
PB_API size_t pb_skipvalue(pb_Slice *s, uint32_t tag) {
const char *p = s->p;
size_t ret = 0;
pb_Slice data;
switch (pb_gettype(tag)) {
default: break;
case PB_TVARINT: ret = pb_skipvarint(s); break;
case PB_T64BIT: ret = pb_skipslice(s, 8); break;
case PB_TBYTES: ret = pb_skipbytes(s); break;
case PB_T32BIT: ret = pb_skipslice(s, 4); break;
case PB_TGSTART: ret = pb_readgroup(s, tag, &data); break;
}
if (!ret) s->p = p;
return ret;
}
PB_API size_t pb_skipvarint(pb_Slice *s) {
const char *p = s->p, *op = p;
while (p < s->end && (*p & 0x80) != 0) ++p;
if (p >= s->end) return 0;
s->p = ++p;
return p - op;
}
PB_API size_t pb_skipbytes(pb_Slice *s) {
const char *p = s->p;
uint64_t var;
if (!pb_readvarint64(s, &var)) return 0;
if (pb_len(*s) < var) {
s->p = p;
return 0;
}
s->p += var;
return s->p - p;
}
PB_API size_t pb_skipslice(pb_Slice *s, size_t len) {
if (s->p + len > s->end) return 0;
s->p += len;
return len;
}
PB_API int pb_wtypebytype(int type) {
switch (type) {
case PB_Tdouble: return PB_T64BIT;
case PB_Tfloat: return PB_T32BIT;
case PB_Tint64: return PB_TVARINT;
case PB_Tuint64: return PB_TVARINT;
case PB_Tint32: return PB_TVARINT;
case PB_Tfixed64: return PB_T64BIT;
case PB_Tfixed32: return PB_T32BIT;
case PB_Tbool: return PB_TVARINT;
case PB_Tstring: return PB_TBYTES;
case PB_Tmessage: return PB_TBYTES;
case PB_Tbytes: return PB_TBYTES;
case PB_Tuint32: return PB_TVARINT;
case PB_Tenum: return PB_TVARINT;
case PB_Tsfixed32: return PB_T32BIT;
case PB_Tsfixed64: return PB_T64BIT;
case PB_Tsint32: return PB_TVARINT;
case PB_Tsint64: return PB_TVARINT;
default: return PB_TWIRECOUNT;
}
}
PB_API const char *pb_wtypename(int wiretype, const char *def) {
switch (wiretype) {
#define X(id,name,fmt) case PB_T##id: return name;
PB_WIRETYPES(X)
#undef X
default: return def ? def : "<unknown>";
}
}
PB_API const char *pb_typename(int type, const char *def) {
switch (type) {
#define X(name,type,fmt) case PB_T##name: return #name;
PB_TYPES(X)
#undef X
default: return def ? def : "<unknown>";
}
}
PB_API int pb_typebyname(const char *name, int def) {
static struct entry { const char *name; int value; } names[] = {
#define X(name,type,fmt) { #name, PB_T##name },
PB_TYPES(X)
#undef X
{ NULL, 0 }
};
struct entry *p;
for (p = names; p->name != NULL; ++p)
if (strcmp(p->name, name) == 0)
return p->value;
return def;
}
PB_API int pb_wtypebyname(const char *name, int def) {
static struct entry { const char *name; int value; } names[] = {
#define X(id,name,fmt) { name, PB_T##id },
PB_WIRETYPES(X)
#undef X
{ NULL, 0 }
};
struct entry *p;
for (p = names; p->name != NULL; ++p)
if (strcmp(p->name, name) == 0)
return p->value;
return def;
}
/* encode */
PB_API pb_Slice pb_result(const pb_Buffer *b)
{ pb_Slice slice = pb_lslice(pb_buffer(b), b->size); return slice; }
PB_API void pb_initbuffer(pb_Buffer *b)
{ memset(b, 0, sizeof(pb_Buffer)); }
PB_API void pb_resetbuffer(pb_Buffer *b)
{ if (pb_onheap(b)) free(b->u.h.buff); pb_initbuffer(b); }
static int pb_write32(char *buff, uint32_t n) {
int p, c = 0;
do {
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n;
} while (0);
return *buff++ = p, ++c;
}
static int pb_write64(char *buff, uint64_t n) {
int p, c = 0;
do {
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F; if ((n >>= 7) == 0) break; *buff++ = p | 0x80, ++c;
p = n & 0x7F;
} while (0);
return *buff++ = p, ++c;
}
PB_API char *pb_prepbuffsize(pb_Buffer *b, size_t len) {
size_t capacity = pb_onheap(b) ? b->u.h.capacity : PB_SSO_SIZE;
if (b->size + len > capacity) {
char *newp, *oldp = pb_onheap(b) ? b->u.h.buff : NULL;
size_t expected = b->size + len;
size_t newsize = PB_SSO_SIZE;
while (newsize < PB_MAX_SIZET/2 && newsize < expected)
newsize += newsize >> 1;
if (newsize < expected) return NULL;
if ((newp = (char*)realloc(oldp, newsize)) == NULL) return NULL;
if (!pb_onheap(b)) memcpy(newp, pb_buffer(b), b->size);
b->heap = 1;
b->u.h.buff = newp;
b->u.h.capacity = (unsigned)newsize;
}
return &pb_buffer(b)[b->size];
}
PB_API size_t pb_addslice(pb_Buffer *b, pb_Slice s) {
size_t len = pb_len(s);
char *buff = pb_prepbuffsize(b, len);
if (buff == NULL) return 0;
memcpy(buff, s.p, len);
pb_addsize(b, len);
return len;
}
PB_API size_t pb_addlength(pb_Buffer *b, size_t len, size_t prealloc) {
char buff[10], *s;
size_t bl, ml, rl = 0;
if ((bl = pb_bufflen(b)) < len)
return 0;
ml = pb_write64(buff, bl - len);
s = pb_buffer(b) + len - prealloc;
assert(ml >= prealloc);
if (ml > prealloc) {
if (pb_prepbuffsize(b, (rl = ml - prealloc)) == NULL) return 0;
s = pb_buffer(b) + len - prealloc;
memmove(s+ml, s+prealloc, bl - len);
}
memcpy(s, buff, ml);
pb_addsize(b, rl);
return ml + (bl - len);
}
PB_API size_t pb_addbytes(pb_Buffer *b, pb_Slice s) {
size_t ret, len = pb_len(s);
if (pb_prepbuffsize(b, len+5) == NULL) return 0;
ret = pb_addvarint32(b, (uint32_t)len);
return ret + pb_addslice(b, s);
}
PB_API size_t pb_addvarint32(pb_Buffer *b, uint32_t n) {
char *buff = pb_prepbuffsize(b, 5);
size_t l;
if (buff == NULL) return 0;
pb_addsize(b, l = pb_write32(buff, n));
return l;
}
PB_API size_t pb_addvarint64(pb_Buffer *b, uint64_t n) {
char *buff = pb_prepbuffsize(b, 10);
size_t l;
if (buff == NULL) return 0;
pb_addsize(b, l = pb_write64(buff, n));
return l;
}
PB_API size_t pb_addfixed32(pb_Buffer *b, uint32_t n) {
char *ch = pb_prepbuffsize(b, 4);
if (ch == NULL) return 0;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch = n & 0xFF;
pb_addsize(b, 4);
return 4;
}
PB_API size_t pb_addfixed64(pb_Buffer *b, uint64_t n) {
char *ch = pb_prepbuffsize(b, 8);
if (ch == NULL) return 0;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch++ = n & 0xFF; n >>= 8;
*ch = n & 0xFF;
pb_addsize(b, 8);
return 8;
}
/* memory pool */
PB_API void pb_initpool(pb_Pool *pool, size_t obj_size) {
memset(pool, 0, sizeof(pb_Pool));
pool->obj_size = obj_size;
assert(obj_size > sizeof(void*) && obj_size < PB_POOLSIZE/4);
}
PB_API void pb_freepool(pb_Pool *pool) {
void *page = pool->pages;
while (page) {
void *next = *(void**)((char*)page + PB_POOLSIZE - sizeof(void*));
free(page);
page = next;
}
pb_initpool(pool, pool->obj_size);
}
PB_API void *pb_poolalloc(pb_Pool *pool) {
void *obj = pool->freed;
if (obj == NULL) {
size_t objsize = pool->obj_size, offset;
void *newpage = malloc(PB_POOLSIZE);
if (newpage == NULL) return NULL;
offset = ((PB_POOLSIZE - sizeof(void*)) / objsize - 1) * objsize;
for (; offset > 0; offset -= objsize) {
void **entry = (void**)((char*)newpage + offset);
*entry = pool->freed, pool->freed = (void*)entry;
}
*(void**)((char*)newpage + PB_POOLSIZE - sizeof(void*)) = pool->pages;
pool->pages = newpage;
return newpage;
}
pool->freed = *(void**)obj;
return obj;
}
PB_API void pb_poolfree(pb_Pool *pool, void *obj)
{ *(void**)obj = pool->freed, pool->freed = obj; }
/* hash table */
#define pbT_offset(a,b) ((char*)(a) - (char*)(b))
#define pbT_index(a,b) ((pb_Entry*)((char*)(a) + (b)))
PB_API void pb_inittable(pb_Table *t, size_t entrysize)
{ memset(t, 0, sizeof(pb_Table)), t->entry_size = (unsigned)entrysize; }
PB_API void pb_freetable(pb_Table *t)
{ free(t->hash); pb_inittable(t, t->entry_size); }
static pb_Entry *pbT_hash(const pb_Table *t, pb_Key key) {
size_t h = ((size_t)key*2654435761U)&(t->size-1);
if (key && h == 0) h = 1;
return pbT_index(t->hash, h*t->entry_size);
}
static pb_Entry *pbT_newkey(pb_Table *t, pb_Key key) {
pb_Entry *mp, *on, *next, *f = NULL;
if (t->size == 0 && pb_resizetable(t, (size_t)t->size*2) == 0) return NULL;
if (key == 0) {
mp = t->hash;
t->has_zero = 1;
} else if ((mp = pbT_hash(t, key))->key != 0) {
while (t->lastfree > t->entry_size) {
pb_Entry *cur = pbT_index(t->hash, t->lastfree -= t->entry_size);
if (cur->key == 0 && cur->next == 0) { f = cur; break; }
}
if (f == NULL) return pb_resizetable(t, (size_t)t->size*2u) ?
pbT_newkey(t, key) : NULL;
if ((on = pbT_hash(t, mp->key)) != mp) {
while ((next = pbT_index(on, on->next)) != mp) on = next;
on->next = pbT_offset(f, on);
memcpy(f, mp, t->entry_size);
if (mp->next != 0) f->next += pbT_offset(mp, f), mp->next = 0;
} else {
if (mp->next != 0) f->next = pbT_offset(mp, f) + mp->next;
else assert(f->next == 0);
mp->next = pbT_offset(f, mp);
mp = f;
}
}
mp->key = key;
if (t->entry_size != sizeof(pb_Entry))
memset(mp+1, 0, t->entry_size - sizeof(pb_Entry));
return mp;
}
PB_API size_t pb_resizetable(pb_Table *t, size_t size) {
pb_Table nt = *t;
unsigned i, rawsize = t->size*t->entry_size;
unsigned newsize = PB_MIN_HASHTABLE_SIZE;
while (newsize < PB_MAX_HASHSIZE/t->entry_size && newsize < size)
newsize <<= 1;
if (newsize < size) return 0;
nt.size = newsize;
nt.lastfree = nt.entry_size * newsize;
nt.hash = (pb_Entry*)malloc(nt.lastfree);
if (nt.hash == NULL) return 0;
memset(nt.hash, 0, nt.lastfree);
for (i = 0; i < rawsize; i += t->entry_size) {
pb_Entry *olde = (pb_Entry*)((char*)t->hash + i);
pb_Entry *newe = pbT_newkey(&nt, olde->key);
if (nt.entry_size > sizeof(pb_Entry))
memcpy(newe+1, olde+1, nt.entry_size - sizeof(pb_Entry));
}
free(t->hash);
*t = nt;
return newsize;
}
PB_API pb_Entry *pb_gettable(const pb_Table *t, pb_Key key) {
pb_Entry *entry;
if (t == NULL || t->size == 0)
return NULL;
if (key == 0)
return t->has_zero ? t->hash : NULL;
for (entry = pbT_hash(t, key);
entry->key != key;
entry = pbT_index(entry, entry->next))
if (entry->next == 0) return NULL;
return entry;
}
PB_API pb_Entry *pb_settable(pb_Table *t, pb_Key key) {
pb_Entry *entry;
if ((entry = pb_gettable(t, key)) != NULL)
return entry;
return pbT_newkey(t, key);
}
PB_API int pb_nextentry(const pb_Table *t, const pb_Entry **pentry) {
size_t i = *pentry ? pbT_offset(*pentry, t->hash) : 0;
size_t size = (size_t)t->size*t->entry_size;
if (*pentry == NULL && t->has_zero) {
*pentry = t->hash;
return 1;
}
while (i += t->entry_size, i < size) {
pb_Entry *entry = pbT_index(t->hash, i);
if (entry->key != 0) {
*pentry = entry;
return 1;
}
}
*pentry = NULL;
return 0;
}
/* name table */
static void pbN_init(pb_State *S)
{ memset(&S->nametable, 0, sizeof(pb_NameTable)); }
PB_API pb_Name *pb_usename(pb_Name *name)
{ if (name != NULL) ++((pb_NameEntry*)name-1)->refcount; return name; }
static void pbN_free(pb_State *S) {
pb_NameTable *nt = &S->nametable;
size_t i;
for (i = 0; i < nt->size; ++i) {
pb_NameEntry *ne = nt->hash[i];
while (ne != NULL) {
pb_NameEntry *next = ne->next;
free(ne);
ne = next;
}
}
free(nt->hash);
pbN_init(S);
}
static unsigned pbN_calchash(pb_Slice s) {
size_t len = pb_len(s);
unsigned h = (unsigned)len;
size_t step = (len >> PB_HASHLIMIT) + 1;
for (; len >= step; len -= step)
h ^= ((h<<5) + (h>>2) + (unsigned char)(s.p[len - 1]));
return h;
}
static size_t pbN_resize(pb_State *S, size_t size) {
pb_NameTable *nt = &S->nametable;
pb_NameEntry **hash;
size_t i, newsize = PB_MIN_STRTABLE_SIZE;