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//
// MessagePack for C++ deserializing routine
//
// Copyright (C) 2017 KONDO Takatoshi
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
#ifndef MSGPACK_V2_CREATE_OBJECT_VISITOR_HPP
#define MSGPACK_V2_CREATE_OBJECT_VISITOR_HPP
#include "msgpack/unpack_decl.hpp"
#include "msgpack/unpack_exception.hpp"
#include "msgpack/v2/create_object_visitor_decl.hpp"
#include "msgpack/v2/null_visitor.hpp"
#include "msgpack/assert.hpp"
namespace msgpack {
/// @cond
MSGPACK_API_VERSION_NAMESPACE(v2) {
/// @endcond
namespace detail {
class create_object_visitor : public msgpack::v2::null_visitor {
public:
create_object_visitor(unpack_reference_func f, void* user_data, unpack_limit const& limit)
:m_func(f), m_user_data(user_data), m_limit(limit) {
m_stack.reserve(MSGPACK_EMBED_STACK_SIZE);
m_stack.push_back(&m_obj);
}
#if !defined(MSGPACK_USE_CPP03)
create_object_visitor(create_object_visitor&& other)
:m_func(other.m_func),
m_user_data(other.m_user_data),
m_limit(std::move(other.m_limit)),
m_stack(std::move(other.m_stack)),
m_zone(other.m_zone),
m_referenced(other.m_referenced) {
other.m_zone = MSGPACK_NULLPTR;
m_stack[0] = &m_obj;
}
create_object_visitor& operator=(create_object_visitor&& other) {
this->~create_object_visitor();
new (this) create_object_visitor(std::move(other));
return *this;
}
#endif // !defined(MSGPACK_USE_CPP03)
void init() {
m_stack.resize(1);
m_obj = msgpack::object();
m_stack[0] = &m_obj;
}
msgpack::object const& data() const
{
return m_obj;
}
msgpack::zone const& zone() const { return *m_zone; }
msgpack::zone& zone() { return *m_zone; }
void set_zone(msgpack::zone& zone) { m_zone = &zone; }
bool referenced() const { return m_referenced; }
void set_referenced(bool referenced) { m_referenced = referenced; }
// visit functions
bool visit_nil() {
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::NIL;
return true;
}
bool visit_boolean(bool v) {
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::BOOLEAN;
obj->via.boolean = v;
return true;
}
bool visit_positive_integer(uint64_t v) {
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::POSITIVE_INTEGER;
obj->via.u64 = v;
return true;
}
bool visit_negative_integer(int64_t v) {
msgpack::object* obj = m_stack.back();
if(v >= 0) {
obj->type = msgpack::type::POSITIVE_INTEGER;
obj->via.u64 = static_cast<uint64_t>(v);
}
else {
obj->type = msgpack::type::NEGATIVE_INTEGER;
obj->via.i64 = v;
}
return true;
}
bool visit_float32(float v) {
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::FLOAT32;
obj->via.f64 = v;
return true;
}
bool visit_float64(double v) {
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::FLOAT64;
obj->via.f64 = v;
return true;
}
bool visit_str(const char* v, uint32_t size) {
MSGPACK_ASSERT(v || size == 0);
if (size > m_limit.str()) throw msgpack::str_size_overflow("str size overflow");
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::STR;
if (m_func && m_func(obj->type, size, m_user_data)) {
obj->via.str.ptr = v;
obj->via.str.size = size;
set_referenced(true);
}
else {
if (v) {
char* tmp = static_cast<char*>(zone().allocate_align(size, MSGPACK_ZONE_ALIGNOF(char)));
std::memcpy(tmp, v, size);
obj->via.str.ptr = tmp;
obj->via.str.size = size;
}
else {
obj->via.str.ptr = MSGPACK_NULLPTR;
obj->via.str.size = 0;
}
}
return true;
}
bool visit_bin(const char* v, uint32_t size) {
MSGPACK_ASSERT(v || size == 0);
if (size > m_limit.bin()) throw msgpack::bin_size_overflow("bin size overflow");
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::BIN;
if (m_func && m_func(obj->type, size, m_user_data)) {
obj->via.bin.ptr = v;
obj->via.bin.size = size;
set_referenced(true);
}
else {
if (v) {
char* tmp = static_cast<char*>(zone().allocate_align(size, MSGPACK_ZONE_ALIGNOF(char)));
std::memcpy(tmp, v, size);
obj->via.bin.ptr = tmp;
obj->via.bin.size = size;
}
else {
obj->via.bin.ptr = MSGPACK_NULLPTR;
obj->via.bin.size = 0;
}
}
return true;
}
bool visit_ext(const char* v, uint32_t size) {
MSGPACK_ASSERT(v || size == 0);
if (size > m_limit.ext()) throw msgpack::ext_size_overflow("ext size overflow");
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::EXT;
if (m_func && m_func(obj->type, size, m_user_data)) {
obj->via.ext.ptr = v;
obj->via.ext.size = static_cast<uint32_t>(size - 1);
set_referenced(true);
}
else {
if (v) {
char* tmp = static_cast<char*>(zone().allocate_align(size, MSGPACK_ZONE_ALIGNOF(char)));
std::memcpy(tmp, v, size);
obj->via.ext.ptr = tmp;
obj->via.ext.size = static_cast<uint32_t>(size - 1);
}
else {
obj->via.ext.ptr = MSGPACK_NULLPTR;
obj->via.ext.size = 0;
}
}
return true;
}
bool start_array(uint32_t num_elements) {
if (num_elements > m_limit.array()) throw msgpack::array_size_overflow("array size overflow");
if (m_stack.size() > m_limit.depth()) throw msgpack::depth_size_overflow("depth size overflow");
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::ARRAY;
obj->via.array.size = num_elements;
if (num_elements == 0) {
obj->via.array.ptr = MSGPACK_NULLPTR;
}
else {
#if SIZE_MAX == UINT_MAX
if (num_elements > SIZE_MAX/sizeof(msgpack::object))
throw msgpack::array_size_overflow("array size overflow");
#endif // SIZE_MAX == UINT_MAX
size_t size = num_elements*sizeof(msgpack::object);
obj->via.array.ptr =
static_cast<msgpack::object*>(m_zone->allocate_align(size, MSGPACK_ZONE_ALIGNOF(msgpack::object)));
}
m_stack.push_back(obj->via.array.ptr);
return true;
}
bool start_array_item() {
return true;
}
bool end_array_item() {
++m_stack.back();
return true;
}
bool end_array() {
m_stack.pop_back();
return true;
}
bool start_map(uint32_t num_kv_pairs) {
if (num_kv_pairs > m_limit.map()) throw msgpack::map_size_overflow("map size overflow");
if (m_stack.size() > m_limit.depth()) throw msgpack::depth_size_overflow("depth size overflow");
msgpack::object* obj = m_stack.back();
obj->type = msgpack::type::MAP;
obj->via.map.size = num_kv_pairs;
if (num_kv_pairs == 0) {
obj->via.map.ptr = MSGPACK_NULLPTR;
}
else {
#if SIZE_MAX == UINT_MAX
if (num_kv_pairs > SIZE_MAX/sizeof(msgpack::object_kv))
throw msgpack::map_size_overflow("map size overflow");
#endif // SIZE_MAX == UINT_MAX
size_t size = num_kv_pairs*sizeof(msgpack::object_kv);
obj->via.map.ptr =
static_cast<msgpack::object_kv*>(m_zone->allocate_align(size, MSGPACK_ZONE_ALIGNOF(msgpack::object_kv)));
}
m_stack.push_back(reinterpret_cast<msgpack::object*>(obj->via.map.ptr));
return true;
}
bool start_map_key() {
return true;
}
bool end_map_key() {
++m_stack.back();
return true;
}
bool start_map_value() {
return true;
}
bool end_map_value() {
++m_stack.back();
return true;
}
bool end_map() {
m_stack.pop_back();
return true;
}
void parse_error(size_t /*parsed_offset*/, size_t /*error_offset*/) {
throw msgpack::parse_error("parse error");
}
void insufficient_bytes(size_t /*parsed_offset*/, size_t /*error_offset*/) {
throw msgpack::insufficient_bytes("insufficient bytes");
}
private:
public:
unpack_reference_func m_func;
void* m_user_data;
unpack_limit m_limit;
msgpack::object m_obj;
std::vector<msgpack::object*> m_stack;
msgpack::zone* m_zone;
bool m_referenced;
};
} // detail
/// @cond
} // MSGPACK_API_VERSION_NAMESPACE(v2)
/// @endcond
} // namespace msgpack
#endif // MSGPACK_V2_CREATE_OBJECT_VISITOR_HPP
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