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msgpack.hh
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msgpack.hh
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#ifndef GSTORE_MSGPACK_HH
#define GSTORE_MSGPACK_HH
#include "json.hh"
#include "small_vector.hh"
#include "straccum.hh"
#include <vector>
namespace msgpack {
using lcdf::Json;
using lcdf::Str;
using lcdf::String;
using lcdf::StringAccum;
namespace format {
enum {
ffixuint = 0x00, nfixuint = 0x80,
ffixmap = 0x80, nfixmap = 0x10,
ffixarray = 0x90, nfixarray = 0x10,
ffixstr = 0xA0, nfixstr = 0x20,
fnull = 0xC0,
ffalse = 0xC2, ftrue = 0xC3,
fbin8 = 0xC4, fbin16 = 0xC5, fbin32 = 0xC6,
fext8 = 0xC7, fext16 = 0xC8, fext32 = 0xC9,
ffloat32 = 0xCA, ffloat64 = 0xCB,
fuint8 = 0xCC, fuint16 = 0xCD, fuint32 = 0xCE, fuint64 = 0xCF,
fint8 = 0xD0, fint16 = 0xD1, fint32 = 0xD2, fint64 = 0xD3,
ffixext1 = 0xD4, ffixext2 = 0xD5, ffixext4 = 0xD6,
ffixext8 = 0xD7, ffixext16 = 0xD8,
fstr8 = 0xD9, fstr16 = 0xDA, fstr32 = 0xDB,
farray16 = 0xDC, farray32 = 0xDD,
fmap16 = 0xDE, fmap32 = 0xDF,
ffixnegint = 0xE0, nfixnegint = 0x20,
nfixint = nfixuint + nfixnegint
};
inline bool in_range(uint8_t x, unsigned low, unsigned n) {
return (unsigned) x - low < n;
}
inline bool in_wrapped_range(uint8_t x, unsigned low, unsigned n) {
return (unsigned) (int8_t) x - low < n;
}
inline bool is_fixint(uint8_t x) {
return in_wrapped_range(x, -nfixnegint, nfixint);
}
inline bool is_null_or_bool(uint8_t x) {
return in_range(x, fnull, 4);
}
inline bool is_bool(uint8_t x) {
return in_range(x, ffalse, 2);
}
inline bool is_fixstr(uint8_t x) {
return in_range(x, ffixstr, nfixstr);
}
inline bool is_fixarray(uint8_t x) {
return in_range(x, ffixarray, nfixarray);
}
inline bool is_fixmap(uint8_t x) {
return in_range(x, ffixmap, nfixmap);
}
inline char* write_null(char* s) {
*s++ = fnull;
return s;
}
inline char* write_bool(char* s, bool x) {
*s++ = ffalse + x;
return s;
}
template <size_t s> struct sized_writer {};
template <> struct sized_writer<4> {
static inline char* write_unsigned(char* s, uint32_t x) {
if (x < nfixuint)
*s++ = x;
else if (x < 256) {
*s++ = fuint8;
*s++ = x;
} else if (x < 65536) {
*s++ = fuint16;
s = write_in_net_order<uint16_t>(s, (uint16_t) x);
} else {
*s++ = fuint32;
s = write_in_net_order<uint32_t>(s, x);
}
return s;
}
static inline char* write_signed(char* s, int32_t x) {
if ((uint32_t) x + nfixnegint < nfixint)
*s++ = x;
else if ((uint32_t) x + 128 < 256) {
*s++ = fint8;
*s++ = x;
} else if ((uint32_t) x + 32768 < 65536) {
*s++ = fint16;
s = write_in_net_order<int16_t>(s, (int16_t) x);
} else {
*s++ = fint32;
s = write_in_net_order<int32_t>(s, x);
}
return s;
}
};
template <> struct sized_writer<8> {
static inline char* write_unsigned(char* s, uint64_t x) {
if (x < 4294967296ULL)
return sized_writer<4>::write_unsigned(s, (uint32_t) x);
else {
*s++ = fuint64;
return write_in_net_order<uint64_t>(s, x);
}
}
static inline char* write_signed(char* s, int64_t x) {
if (x + 2147483648ULL < 4294967296ULL)
return sized_writer<4>::write_signed(s, (int32_t) x);
else {
*s++ = fint64;
return write_in_net_order<int64_t>(s, x);
}
}
};
inline char* write_int(char* s, int x) {
return sized_writer<sizeof(x)>::write_signed(s, x);
}
inline char* write_int(char* s, unsigned x) {
return sized_writer<sizeof(x)>::write_unsigned(s, x);
}
inline char* write_int(char* s, long x) {
return sized_writer<sizeof(x)>::write_signed(s, x);
}
inline char* write_int(char* s, unsigned long x) {
return sized_writer<sizeof(x)>::write_unsigned(s, x);
}
#if HAVE_LONG_LONG && SIZEOF_LONG_LONG <= 8
inline char* write_int(char* s, long long x) {
return sized_writer<sizeof(x)>::write_signed(s, x);
}
inline char* write_int(char* s, unsigned long long x) {
return sized_writer<sizeof(x)>::write_unsigned(s, x);
}
#endif
inline char* write_wide_int64(char* s, uint64_t x) {
*s++ = fuint64;
return write_in_net_order<uint64_t>(s, x);
}
inline char* write_wide_int64(char* s, int64_t x) {
*s++ = fint64;
return write_in_net_order<int64_t>(s, x);
}
inline char* write_float(char* s, float x) {
*s++ = ffloat32;
return write_in_net_order<float>(s, x);
}
inline char* write_double(char* s, double x) {
*s++ = ffloat64;
return write_in_net_order<double>(s, x);
}
inline char* write_string(char* s, const char *data, int len) {
if (len < nfixstr)
*s++ = 0xA0 + len;
else if (len < 256) {
*s++ = fstr8;
*s++ = len;
} else if (len < 65536) {
*s++ = fstr16;
s = write_in_net_order<uint16_t>(s, (uint16_t) len);
} else {
*s++ = fstr32;
s = write_in_net_order<uint32_t>(s, len);
}
memcpy(s, data, len);
return s + len;
}
inline char* write_string(char* s, Str x) {
return write_string(s, x.data(), x.length());
}
template <typename T>
inline char* write_string(char* s, const lcdf::String_base<T>& x) {
return write_string(s, x.data(), x.length());
}
inline char* write_array_header(char* s, uint32_t size) {
if (size < nfixarray) {
*s++ = ffixarray + size;
return s;
} else if (size < 65536) {
*s++ = farray16;
return write_in_net_order<uint16_t>(s, (uint16_t) size);
} else {
*s++ = farray32;
return write_in_net_order<uint32_t>(s, (uint32_t) size);
}
}
inline char* write_map_header(char* s, uint32_t size) {
if (size < nfixmap) {
*s++ = ffixmap + size;
return s;
} else if (size < 65536) {
*s++ = fmap16;
return write_in_net_order<uint16_t>(s, (uint16_t) size);
} else {
*s++ = fmap32;
return write_in_net_order<uint32_t>(s, (uint32_t) size);
}
}
} // namespace format
struct array_t {
uint32_t size;
array_t(uint32_t s)
: size(s) {
}
};
inline array_t array(uint32_t size) {
return array_t(size);
}
struct object_t {
uint32_t size;
object_t(uint32_t s)
: size(s) {
}
};
inline object_t object(uint32_t size) {
return object_t(size);
}
template <typename T>
class unparser {
public:
inline unparser(T& base)
: base_(base) {
}
template <typename X>
inline unparser(T& base, const X& x)
: base_(base) {
*this << x;
}
inline void clear() {
base_.clear();
}
inline unparser<T>& null() {
base_.append((char) format::fnull);
return *this;
}
inline unparser<T>& operator<<(const Json::null_t&) {
return null();
}
inline unparser<T>& operator<<(int x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
inline unparser<T>& operator<<(unsigned x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
inline unparser<T>& operator<<(long x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
inline unparser<T>& operator<<(unsigned long x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
#if HAVE_LONG_LONG && SIZEOF_LONG_LONG <= 8
inline unparser<T>& operator<<(long long x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
inline unparser<T>& operator<<(unsigned long long x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_int(s, x));
return *this;
}
#endif
inline unparser<T>& write_wide(int64_t x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_wide_int64(s, x));
return *this;
}
inline unparser<T>& write_wide(uint64_t x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_wide_int64(s, x));
return *this;
}
inline unparser<T>& operator<<(float x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_float(s, x));
return *this;
}
inline unparser<T>& operator<<(double x) {
char* s = base_.reserve(sizeof(x) + 1);
base_.set_end(format::write_double(s, x));
return *this;
}
inline unparser<T>& operator<<(Str x) {
char* s = base_.reserve(5 + x.length());
base_.set_end(format::write_string(s, x.data(), x.length()));
return *this;
}
template <typename X>
inline unparser<T>& operator<<(const lcdf::String_base<X>& x) {
char* s = base_.reserve(5 + x.length());
base_.set_end(format::write_string(s, x.data(), x.length()));
return *this;
}
inline unparser<T>& operator<<(array_t x) {
char* s = base_.reserve(5);
base_.set_end(format::write_array_header(s, x.size));
return *this;
}
inline unparser<T>& write_array_header(uint32_t size) {
char* s = base_.reserve(5);
base_.set_end(format::write_array_header(s, size));
return *this;
}
inline unparser<T>& operator<<(object_t x) {
char* s = base_.reserve(5);
base_.set_end(format::write_map_header(s, x.size));
return *this;
}
unparser<T>& operator<<(const Json& j);
template <typename X>
inline unparser<T>& write(const X& x) {
return *this << x;
}
private:
T& base_;
};
class streaming_parser {
public:
inline streaming_parser();
inline void reset();
inline bool empty() const;
inline bool done() const;
inline bool success() const;
inline bool error() const;
inline size_t consume(const char* first, size_t length,
const String& str = String());
inline const char* consume(const char* first, const char* last,
const String& str = String());
const uint8_t* consume(const uint8_t* first, const uint8_t* last,
const String& str = String());
inline Json& result();
inline const Json& result() const;
private:
enum {
st_final = -2, st_error = -1, st_normal = 0, st_partial = 1,
st_string = 2
};
struct selem {
Json* jp;
int size;
};
int state_;
small_vector<selem, 2> stack_;
String str_;
Json json_;
Json jokey_;
};
class parser {
public:
explicit inline parser(const char* s)
: s_(reinterpret_cast<const unsigned char*>(s)), str_() {
}
explicit inline parser(const unsigned char* s)
: s_(s), str_() {
}
explicit inline parser(const String& str)
: s_(reinterpret_cast<const uint8_t*>(str.begin())), str_(str) {
}
inline const char* position() const {
return reinterpret_cast<const char*>(s_);
}
inline bool try_read_null() {
if (*s_ == format::fnull) {
++s_;
return true;
} else
return false;
}
inline int read_tiny_int() {
assert(format::is_fixint(*s_));
return (int8_t) *s_++;
}
inline parser& read_tiny_int(int& x) {
x = read_tiny_int();
return *this;
}
template <typename T>
inline parser& read_int(T& x) {
if (format::is_fixint(*s_)) {
x = (int8_t) *s_;
++s_;
} else {
assert((uint32_t) *s_ - format::fuint8 < 8);
hard_read_int(x);
}
return *this;
}
inline parser& operator>>(int& x) {
return read_int(x);
}
inline parser& operator>>(long& x) {
return read_int(x);
}
inline parser& operator>>(long long& x) {
return read_int(x);
}
inline parser& operator>>(unsigned& x) {
return read_int(x);
}
inline parser& operator>>(unsigned long& x) {
return read_int(x);
}
inline parser& operator>>(unsigned long long& x) {
return read_int(x);
}
inline parser& operator>>(bool& x) {
assert(format::is_bool(*s_));
x = *s_ - format::ffalse;
++s_;
return *this;
}
inline parser& operator>>(double& x) {
assert(*s_ == format::ffloat64);
x = read_in_net_order<double>(s_ + 1);
s_ += 9;
return *this;
}
parser& operator>>(Str& x);
parser& operator>>(String& x);
inline parser& read_array_header(unsigned& size) {
if (format::is_fixarray(*s_)) {
size = *s_ - format::ffixarray;
s_ += 1;
} else if (*s_ == format::farray16) {
size = read_in_net_order<uint16_t>(s_ + 1);
s_ += 3;
} else {
assert(*s_ == format::farray32);
size = read_in_net_order<uint32_t>(s_ + 1);
s_ += 5;
}
return *this;
}
template <typename T> parser& operator>>(::std::vector<T>& x);
inline parser& operator>>(Json& j);
inline parser& skip_primitives(unsigned n) {
for (; n != 0; --n) {
if (format::is_fixint(*s_) || format::is_null_or_bool(*s_))
s_ += 1;
else if (format::is_fixstr(*s_))
s_ += 1 + (*s_ - format::ffixstr);
else if (*s_ == format::fuint8 || *s_ == format::fint8)
s_ += 2;
else if (*s_ == format::fuint16 || *s_ == format::fint16)
s_ += 3;
else if (*s_ == format::fuint32 || *s_ == format::fint32
|| *s_ == format::ffloat32)
s_ += 5;
else if (*s_ == format::fstr8 || *s_ == format::fbin8)
s_ += 2 + s_[1];
else if (*s_ == format::fstr16 || *s_ == format::fbin16)
s_ += 3 + read_in_net_order<uint16_t>(s_ + 1);
else if (*s_ == format::fstr32 || *s_ == format::fbin32)
s_ += 5 + read_in_net_order<uint32_t>(s_ + 1);
}
return *this;
}
inline parser& skip_primitive() {
return skip_primitives(1);
}
inline parser& skip_array_size() {
if (format::is_fixarray(*s_))
s_ += 1;
else if (*s_ == format::farray16)
s_ += 3;
else {
assert(*s_ == format::farray32);
s_ += 5;
}
return *this;
}
private:
const uint8_t* s_;
String str_;
template <typename T> void hard_read_int(T& x);
};
template <typename T>
void parser::hard_read_int(T& x) {
switch (*s_) {
case format::fuint8:
x = s_[1];
s_ += 2;
break;
case format::fuint16:
x = read_in_net_order<uint16_t>(s_ + 1);
s_ += 3;
break;
case format::fuint32:
x = read_in_net_order<uint32_t>(s_ + 1);
s_ += 5;
break;
case format::fuint64:
x = read_in_net_order<uint64_t>(s_ + 1);
s_ += 9;
break;
case format::fint8:
x = (int8_t) s_[1];
s_ += 2;
break;
case format::fint16:
x = read_in_net_order<int16_t>(s_ + 1);
s_ += 3;
break;
case format::fint32:
x = read_in_net_order<int32_t>(s_ + 1);
s_ += 5;
break;
case format::fint64:
x = read_in_net_order<int64_t>(s_ + 1);
s_ += 9;
break;
}
}
template <typename T>
unparser<T>& unparser<T>::operator<<(const Json& j) {
if (j.is_null())
base_.append(char(format::fnull));
else if (j.is_b())
base_.append(char(format::ffalse + j.as_b()));
else if (j.is_u()) {
char* x = base_.reserve(9);
base_.set_end(format::write_int(x, j.as_u()));
} else if (j.is_i()) {
char* x = base_.reserve(9);
base_.set_end(format::write_int(x, j.as_i()));
} else if (j.is_d()) {
char* x = base_.reserve(9);
base_.set_end(format::write_double(x, j.as_d()));
} else if (j.is_s()) {
char* x = base_.reserve(j.as_s().length() + 5);
base_.set_end(format::write_string(x, j.as_s()));
} else if (j.is_a()) {
char* x = base_.reserve(5);
base_.set_end(format::write_array_header(x, j.size()));
for (auto it = j.cabegin(); it != j.caend(); ++it)
*this << *it;
} else if (j.is_o()) {
char* x = base_.reserve(5);
base_.set_end(format::write_map_header(x, j.size()));
for (auto it = j.cobegin(); it != j.coend(); ++it) {
char* x = base_.reserve(it.key().length() + 5);
base_.set_end(format::write_string(x, it.key()));
*this << it.value();
}
} else
base_.append(char(format::fnull));
return *this;
}
inline String unparse(const Json& j) {
StringAccum sa;
unparser<StringAccum>(sa, j);
return sa.take_string();
}
template <typename T, typename X>
inline T& unparse(T& s, const X& x) {
unparser<T>(s) << x;
return s;
}
template <typename T, typename X>
inline T& unparse_wide(T& s, const X& x) {
unparser<T>(s).write_wide(x);
return s;
}
template <typename T>
parser& parser::operator>>(::std::vector<T>& x) {
uint32_t sz;
if ((uint32_t) *s_ - format::ffixarray < format::nfixarray) {
sz = *s_ - format::ffixarray;
++s_;
} else if (*s_ == format::farray16) {
sz = read_in_net_order<uint16_t>(s_ + 1);
s_ += 3;
} else {
assert(*s_ == format::farray32);
sz = read_in_net_order<uint32_t>(s_ + 1);
s_ += 5;
}
for (; sz != 0; --sz) {
x.push_back(T());
parse(x.back());
}
return *this;
}
inline streaming_parser::streaming_parser()
: state_(st_normal) {
}
inline void streaming_parser::reset() {
state_ = st_normal;
stack_.clear();
}
inline bool streaming_parser::empty() const {
return state_ == st_normal && stack_.empty();
}
inline bool streaming_parser::done() const {
return state_ < 0;
}
inline bool streaming_parser::success() const {
return state_ == st_final;
}
inline bool streaming_parser::error() const {
return state_ == st_error;
}
inline const char* streaming_parser::consume(const char* first,
const char* last,
const String& str) {
return reinterpret_cast<const char*>
(consume(reinterpret_cast<const uint8_t*>(first),
reinterpret_cast<const uint8_t*>(last), str));
}
inline size_t streaming_parser::consume(const char* first, size_t length,
const String& str) {
const uint8_t* ufirst = reinterpret_cast<const uint8_t*>(first);
return consume(ufirst, ufirst + length, str) - ufirst;
}
inline Json& streaming_parser::result() {
return json_;
}
inline const Json& streaming_parser::result() const {
return json_;
}
inline parser& parser::operator>>(Json& j) {
using std::swap;
streaming_parser sp;
while (!sp.done())
s_ = sp.consume(s_, s_ + 4096, str_);
if (sp.success())
swap(j, sp.result());
return *this;
}
inline Json parse(const char* first, const char* last) {
streaming_parser sp;
first = sp.consume(first, last, String());
if (sp.success())
return sp.result();
return Json();
}
inline Json parse(const String& str) {
streaming_parser sp;
sp.consume(str.begin(), str.end(), str);
if (sp.success())
return sp.result();
return Json();
}
} // namespace msgpack
#endif