/* * MessagePack packing routine template * * Copyright (C) 2008-2010 FURUHASHI Sadayuki * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #if defined(__LITTLE_ENDIAN__) #define TAKE8_8(d) ((uint8_t*)&d)[0] #define TAKE8_16(d) ((uint8_t*)&d)[0] #define TAKE8_32(d) ((uint8_t*)&d)[0] #define TAKE8_64(d) ((uint8_t*)&d)[0] #elif defined(__BIG_ENDIAN__) #define TAKE8_8(d) ((uint8_t*)&d)[0] #define TAKE8_16(d) ((uint8_t*)&d)[1] #define TAKE8_32(d) ((uint8_t*)&d)[3] #define TAKE8_64(d) ((uint8_t*)&d)[7] #endif #ifndef msgpack_pack_append_buffer #error msgpack_pack_append_buffer callback is not defined #endif /* * Integer */ #define msgpack_pack_real_uint8(x, d) \ do { \ if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_8(d), 1); \ } else { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_8(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } while(0) #define msgpack_pack_real_uint16(x, d) \ do { \ if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_16(d), 1); \ } else if(d < (1<<8)) { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_16(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } else { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } \ } while(0) #define msgpack_pack_real_uint32(x, d) \ do { \ if(d < (1<<8)) { \ if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_32(d), 1); \ } else { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_32(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } else { \ if(d < (1<<16)) { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else { \ /* unsigned 32 */ \ unsigned char buf[5]; \ buf[0] = 0xce; _msgpack_store32(&buf[1], (uint32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } \ } \ } while(0) #define msgpack_pack_real_uint64(x, d) \ do { \ if(d < (1ULL<<8)) { \ if(d < (1ULL<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_64(d), 1); \ } else { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_64(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } else { \ if(d < (1ULL<<16)) { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else if(d < (1ULL<<32)) { \ /* unsigned 32 */ \ unsigned char buf[5]; \ buf[0] = 0xce; _msgpack_store32(&buf[1], (uint32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } else { \ /* unsigned 64 */ \ unsigned char buf[9]; \ buf[0] = 0xcf; _msgpack_store64(&buf[1], d); \ msgpack_pack_append_buffer(x, buf, 9); \ } \ } \ } while(0) #define msgpack_pack_real_int8(x, d) \ do { \ if(d < -(1<<5)) { \ /* signed 8 */ \ unsigned char buf[2] = {0xd0, TAKE8_8(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } else { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_8(d), 1); \ } \ } while(0) #define msgpack_pack_real_int16(x, d) \ do { \ if(d < -(1<<5)) { \ if(d < -(1<<7)) { \ /* signed 16 */ \ unsigned char buf[3]; \ buf[0] = 0xd1; _msgpack_store16(&buf[1], (int16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else { \ /* signed 8 */ \ unsigned char buf[2] = {0xd0, TAKE8_16(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } else if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_16(d), 1); \ } else { \ if(d < (1<<8)) { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_16(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } else { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } \ } \ } while(0) #define msgpack_pack_real_int32(x, d) \ do { \ if(d < -(1<<5)) { \ if(d < -(1<<15)) { \ /* signed 32 */ \ unsigned char buf[5]; \ buf[0] = 0xd2; _msgpack_store32(&buf[1], (int32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } else if(d < -(1<<7)) { \ /* signed 16 */ \ unsigned char buf[3]; \ buf[0] = 0xd1; _msgpack_store16(&buf[1], (int16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else { \ /* signed 8 */ \ unsigned char buf[2] = {0xd0, TAKE8_32(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } else if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_32(d), 1); \ } else { \ if(d < (1<<8)) { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_32(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } else if(d < (1<<16)) { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else { \ /* unsigned 32 */ \ unsigned char buf[5]; \ buf[0] = 0xce; _msgpack_store32(&buf[1], (uint32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } \ } \ } while(0) #define msgpack_pack_real_int64(x, d) \ do { \ if(d < -(1LL<<5)) { \ if(d < -(1LL<<15)) { \ if(d < -(1LL<<31)) { \ /* signed 64 */ \ unsigned char buf[9]; \ buf[0] = 0xd3; _msgpack_store64(&buf[1], d); \ msgpack_pack_append_buffer(x, buf, 9); \ } else { \ /* signed 32 */ \ unsigned char buf[5]; \ buf[0] = 0xd2; _msgpack_store32(&buf[1], (int32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } \ } else { \ if(d < -(1<<7)) { \ /* signed 16 */ \ unsigned char buf[3]; \ buf[0] = 0xd1; _msgpack_store16(&buf[1], (int16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } else { \ /* signed 8 */ \ unsigned char buf[2] = {0xd0, TAKE8_64(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } \ } \ } else if(d < (1<<7)) { \ /* fixnum */ \ msgpack_pack_append_buffer(x, &TAKE8_64(d), 1); \ } else { \ if(d < (1LL<<16)) { \ if(d < (1<<8)) { \ /* unsigned 8 */ \ unsigned char buf[2] = {0xcc, TAKE8_64(d)}; \ msgpack_pack_append_buffer(x, buf, 2); \ } else { \ /* unsigned 16 */ \ unsigned char buf[3]; \ buf[0] = 0xcd; _msgpack_store16(&buf[1], (uint16_t)d); \ msgpack_pack_append_buffer(x, buf, 3); \ } \ } else { \ if(d < (1LL<<32)) { \ /* unsigned 32 */ \ unsigned char buf[5]; \ buf[0] = 0xce; _msgpack_store32(&buf[1], (uint32_t)d); \ msgpack_pack_append_buffer(x, buf, 5); \ } else { \ /* unsigned 64 */ \ unsigned char buf[9]; \ buf[0] = 0xcf; _msgpack_store64(&buf[1], d); \ msgpack_pack_append_buffer(x, buf, 9); \ } \ } \ } \ } while(0) static inline int msgpack_pack_uint8(msgpack_packer* x, uint8_t d) { msgpack_pack_real_uint8(x, d); } static inline int msgpack_pack_uint16(msgpack_packer* x, uint16_t d) { msgpack_pack_real_uint16(x, d); } static inline int msgpack_pack_uint32(msgpack_packer* x, uint32_t d) { msgpack_pack_real_uint32(x, d); } static inline int msgpack_pack_uint64(msgpack_packer* x, uint64_t d) { msgpack_pack_real_uint64(x, d); } static inline int msgpack_pack_int8(msgpack_packer* x, int8_t d) { msgpack_pack_real_int8(x, d); } static inline int msgpack_pack_int16(msgpack_packer* x, int16_t d) { msgpack_pack_real_int16(x, d); } static inline int msgpack_pack_int32(msgpack_packer* x, int32_t d) { msgpack_pack_real_int32(x, d); } static inline int msgpack_pack_int64(msgpack_packer* x, int64_t d) { msgpack_pack_real_int64(x, d); } //#ifdef msgpack_pack_inline_func_cint static inline int msgpack_pack_short(msgpack_packer* x, short d) { #if defined(SIZEOF_SHORT) #if SIZEOF_SHORT == 2 msgpack_pack_real_int16(x, d); #elif SIZEOF_SHORT == 4 msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #elif defined(SHRT_MAX) #if SHRT_MAX == 0x7fff msgpack_pack_real_int16(x, d); #elif SHRT_MAX == 0x7fffffff msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #else if(sizeof(short) == 2) { msgpack_pack_real_int16(x, d); } else if(sizeof(short) == 4) { msgpack_pack_real_int32(x, d); } else { msgpack_pack_real_int64(x, d); } #endif } static inline int msgpack_pack_int(msgpack_packer* x, int d) { #if defined(SIZEOF_INT) #if SIZEOF_INT == 2 msgpack_pack_real_int16(x, d); #elif SIZEOF_INT == 4 msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #elif defined(INT_MAX) #if INT_MAX == 0x7fff msgpack_pack_real_int16(x, d); #elif INT_MAX == 0x7fffffff msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #else if(sizeof(int) == 2) { msgpack_pack_real_int16(x, d); } else if(sizeof(int) == 4) { msgpack_pack_real_int32(x, d); } else { msgpack_pack_real_int64(x, d); } #endif } static inline int msgpack_pack_long(msgpack_packer* x, long d) { #if defined(SIZEOF_LONG) #if SIZEOF_LONG == 2 msgpack_pack_real_int16(x, d); #elif SIZEOF_LONG == 4 msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #elif defined(LONG_MAX) #if LONG_MAX == 0x7fffL msgpack_pack_real_int16(x, d); #elif LONG_MAX == 0x7fffffffL msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #else if(sizeof(long) == 2) { msgpack_pack_real_int16(x, d); } else if(sizeof(long) == 4) { msgpack_pack_real_int32(x, d); } else { msgpack_pack_real_int64(x, d); } #endif } static inline int msgpack_pack_long_long(msgpack_packer* x, long long d) { #if defined(SIZEOF_LONG_LONG) #if SIZEOF_LONG_LONG == 2 msgpack_pack_real_int16(x, d); #elif SIZEOF_LONG_LONG == 4 msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #elif defined(LLONG_MAX) #if LLONG_MAX == 0x7fffL msgpack_pack_real_int16(x, d); #elif LLONG_MAX == 0x7fffffffL msgpack_pack_real_int32(x, d); #else msgpack_pack_real_int64(x, d); #endif #else if(sizeof(long long) == 2) { msgpack_pack_real_int16(x, d); } else if(sizeof(long long) == 4) { msgpack_pack_real_int32(x, d); } else { msgpack_pack_real_int64(x, d); } #endif } static inline int msgpack_pack_unsigned_short(msgpack_packer* x, unsigned short d) { #if defined(SIZEOF_SHORT) #if SIZEOF_SHORT == 2 msgpack_pack_real_uint16(x, d); #elif SIZEOF_SHORT == 4 msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #elif defined(USHRT_MAX) #if USHRT_MAX == 0xffffU msgpack_pack_real_uint16(x, d); #elif USHRT_MAX == 0xffffffffU msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #else if(sizeof(unsigned short) == 2) { msgpack_pack_real_uint16(x, d); } else if(sizeof(unsigned short) == 4) { msgpack_pack_real_uint32(x, d); } else { msgpack_pack_real_uint64(x, d); } #endif } static inline int msgpack_pack_unsigned_int(msgpack_packer* x, unsigned int d) { #if defined(SIZEOF_INT) #if SIZEOF_INT == 2 msgpack_pack_real_uint16(x, d); #elif SIZEOF_INT == 4 msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #elif defined(UINT_MAX) #if UINT_MAX == 0xffffU msgpack_pack_real_uint16(x, d); #elif UINT_MAX == 0xffffffffU msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #else if(sizeof(unsigned int) == 2) { msgpack_pack_real_uint16(x, d); } else if(sizeof(unsigned int) == 4) { msgpack_pack_real_uint32(x, d); } else { msgpack_pack_real_uint64(x, d); } #endif } static inline int msgpack_pack_unsigned_long(msgpack_packer* x, unsigned long d) { #if defined(SIZEOF_LONG) #if SIZEOF_LONG == 2 msgpack_pack_real_uint16(x, d); #elif SIZEOF_LONG == 4 msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #elif defined(ULONG_MAX) #if ULONG_MAX == 0xffffUL msgpack_pack_real_uint16(x, d); #elif ULONG_MAX == 0xffffffffUL msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #else if(sizeof(unsigned long) == 2) { msgpack_pack_real_uint16(x, d); } else if(sizeof(unsigned long) == 4) { msgpack_pack_real_uint32(x, d); } else { msgpack_pack_real_uint64(x, d); } #endif } static inline int msgpack_pack_unsigned_long_long(msgpack_packer* x, unsigned long long d) { #if defined(SIZEOF_LONG_LONG) #if SIZEOF_LONG_LONG == 2 msgpack_pack_real_uint16(x, d); #elif SIZEOF_LONG_LONG == 4 msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #elif defined(ULLONG_MAX) #if ULLONG_MAX == 0xffffUL msgpack_pack_real_uint16(x, d); #elif ULLONG_MAX == 0xffffffffUL msgpack_pack_real_uint32(x, d); #else msgpack_pack_real_uint64(x, d); #endif #else if(sizeof(unsigned long long) == 2) { msgpack_pack_real_uint16(x, d); } else if(sizeof(unsigned long long) == 4) { msgpack_pack_real_uint32(x, d); } else { msgpack_pack_real_uint64(x, d); } #endif } //#undef msgpack_pack_inline_func_cint //#endif /* * Float */ static inline int msgpack_pack_float(msgpack_packer* x, float d) { unsigned char buf[5]; buf[0] = 0xca; #if PY_VERSION_HEX >= 0x030B00A7 PyFloat_Pack4(d, (char *)&buf[1], 0); #else _PyFloat_Pack4(d, &buf[1], 0); #endif msgpack_pack_append_buffer(x, buf, 5); } static inline int msgpack_pack_double(msgpack_packer* x, double d) { unsigned char buf[9]; buf[0] = 0xcb; #if PY_VERSION_HEX >= 0x030B00A7 PyFloat_Pack8(d, (char *)&buf[1], 0); #else _PyFloat_Pack8(d, &buf[1], 0); #endif msgpack_pack_append_buffer(x, buf, 9); } /* * Nil */ static inline int msgpack_pack_nil(msgpack_packer* x) { static const unsigned char d = 0xc0; msgpack_pack_append_buffer(x, &d, 1); } /* * Boolean */ static inline int msgpack_pack_true(msgpack_packer* x) { static const unsigned char d = 0xc3; msgpack_pack_append_buffer(x, &d, 1); } static inline int msgpack_pack_false(msgpack_packer* x) { static const unsigned char d = 0xc2; msgpack_pack_append_buffer(x, &d, 1); } /* * Array */ static inline int msgpack_pack_array(msgpack_packer* x, unsigned int n) { if(n < 16) { unsigned char d = 0x90 | n; msgpack_pack_append_buffer(x, &d, 1); } else if(n < 65536) { unsigned char buf[3]; buf[0] = 0xdc; _msgpack_store16(&buf[1], (uint16_t)n); msgpack_pack_append_buffer(x, buf, 3); } else { unsigned char buf[5]; buf[0] = 0xdd; _msgpack_store32(&buf[1], (uint32_t)n); msgpack_pack_append_buffer(x, buf, 5); } } /* * Map */ static inline int msgpack_pack_map(msgpack_packer* x, unsigned int n) { if(n < 16) { unsigned char d = 0x80 | n; msgpack_pack_append_buffer(x, &TAKE8_8(d), 1); } else if(n < 65536) { unsigned char buf[3]; buf[0] = 0xde; _msgpack_store16(&buf[1], (uint16_t)n); msgpack_pack_append_buffer(x, buf, 3); } else { unsigned char buf[5]; buf[0] = 0xdf; _msgpack_store32(&buf[1], (uint32_t)n); msgpack_pack_append_buffer(x, buf, 5); } } /* * Raw */ static inline int msgpack_pack_raw(msgpack_packer* x, size_t l) { if (l < 32) { unsigned char d = 0xa0 | (uint8_t)l; msgpack_pack_append_buffer(x, &TAKE8_8(d), 1); } else if (x->use_bin_type && l < 256) { // str8 is new format introduced with bin. unsigned char buf[2] = {0xd9, (uint8_t)l}; msgpack_pack_append_buffer(x, buf, 2); } else if (l < 65536) { unsigned char buf[3]; buf[0] = 0xda; _msgpack_store16(&buf[1], (uint16_t)l); msgpack_pack_append_buffer(x, buf, 3); } else { unsigned char buf[5]; buf[0] = 0xdb; _msgpack_store32(&buf[1], (uint32_t)l); msgpack_pack_append_buffer(x, buf, 5); } } /* * bin */ static inline int msgpack_pack_bin(msgpack_packer *x, size_t l) { if (!x->use_bin_type) { return msgpack_pack_raw(x, l); } if (l < 256) { unsigned char buf[2] = {0xc4, (unsigned char)l}; msgpack_pack_append_buffer(x, buf, 2); } else if (l < 65536) { unsigned char buf[3] = {0xc5}; _msgpack_store16(&buf[1], (uint16_t)l); msgpack_pack_append_buffer(x, buf, 3); } else { unsigned char buf[5] = {0xc6}; _msgpack_store32(&buf[1], (uint32_t)l); msgpack_pack_append_buffer(x, buf, 5); } } static inline int msgpack_pack_raw_body(msgpack_packer* x, const void* b, size_t l) { if (l > 0) msgpack_pack_append_buffer(x, (const unsigned char*)b, l); return 0; } /* * Ext */ static inline int msgpack_pack_ext(msgpack_packer* x, char typecode, size_t l) { if (l == 1) { unsigned char buf[2]; buf[0] = 0xd4; buf[1] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 2); } else if(l == 2) { unsigned char buf[2]; buf[0] = 0xd5; buf[1] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 2); } else if(l == 4) { unsigned char buf[2]; buf[0] = 0xd6; buf[1] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 2); } else if(l == 8) { unsigned char buf[2]; buf[0] = 0xd7; buf[1] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 2); } else if(l == 16) { unsigned char buf[2]; buf[0] = 0xd8; buf[1] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 2); } else if(l < 256) { unsigned char buf[3]; buf[0] = 0xc7; buf[1] = l; buf[2] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 3); } else if(l < 65536) { unsigned char buf[4]; buf[0] = 0xc8; _msgpack_store16(&buf[1], (uint16_t)l); buf[3] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 4); } else { unsigned char buf[6]; buf[0] = 0xc9; _msgpack_store32(&buf[1], (uint32_t)l); buf[5] = (unsigned char)typecode; msgpack_pack_append_buffer(x, buf, 6); } } /* * Pack Timestamp extension type. Follows msgpack-c pack_template.h. */ static inline int msgpack_pack_timestamp(msgpack_packer* x, int64_t seconds, uint32_t nanoseconds) { if ((seconds >> 34) == 0) { /* seconds is unsigned and fits in 34 bits */ uint64_t data64 = ((uint64_t)nanoseconds << 34) | (uint64_t)seconds; if ((data64 & 0xffffffff00000000L) == 0) { /* no nanoseconds and seconds is 32bits or smaller. timestamp32. */ unsigned char buf[4]; uint32_t data32 = (uint32_t)data64; msgpack_pack_ext(x, -1, 4); _msgpack_store32(buf, data32); msgpack_pack_raw_body(x, buf, 4); } else { /* timestamp64 */ unsigned char buf[8]; msgpack_pack_ext(x, -1, 8); _msgpack_store64(buf, data64); msgpack_pack_raw_body(x, buf, 8); } } else { /* seconds is signed or >34bits */ unsigned char buf[12]; _msgpack_store32(&buf[0], nanoseconds); _msgpack_store64(&buf[4], seconds); msgpack_pack_ext(x, -1, 12); msgpack_pack_raw_body(x, buf, 12); } return 0; } #undef msgpack_pack_append_buffer #undef TAKE8_8 #undef TAKE8_16 #undef TAKE8_32 #undef TAKE8_64 #undef msgpack_pack_real_uint8 #undef msgpack_pack_real_uint16 #undef msgpack_pack_real_uint32 #undef msgpack_pack_real_uint64 #undef msgpack_pack_real_int8 #undef msgpack_pack_real_int16 #undef msgpack_pack_real_int32 #undef msgpack_pack_real_int64