Crow/include/crow/json.h

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#pragma once
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//#define CROW_JSON_NO_ERROR_CHECK
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//#define CROW_JSON_USE_MAP
#include <string>
#ifdef CROW_JSON_USE_MAP
#include <map>
#else
#include <unordered_map>
#endif
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#include <iostream>
#include <algorithm>
#include <memory>
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#include <vector>
#include <cmath>
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#include "crow/utility.h"
#include "crow/settings.h"
#include "crow/returnable.h"
#include "crow/logging.h"
using std::isinf;
using std::isnan;
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namespace crow
{
namespace mustache
{
class template_t;
}
namespace json
{
inline void escape(const std::string& str, std::string& ret)
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{
ret.reserve(ret.size() + str.size() + str.size() / 4);
for (auto c : str)
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{
switch (c)
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{
case '"': ret += "\\\""; break;
case '\\': ret += "\\\\"; break;
case '\n': ret += "\\n"; break;
case '\b': ret += "\\b"; break;
case '\f': ret += "\\f"; break;
case '\r': ret += "\\r"; break;
case '\t': ret += "\\t"; break;
default:
if (c >= 0 && c < 0x20)
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{
ret += "\\u00";
auto to_hex = [](char c) {
c = c & 0xf;
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if (c < 10)
return '0' + c;
return 'a' + c - 10;
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};
ret += to_hex(c / 16);
ret += to_hex(c % 16);
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}
else
ret += c;
break;
}
}
}
inline std::string escape(const std::string& str)
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{
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std::string ret;
escape(str, ret);
return ret;
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}
enum class type : char
{
Null,
False,
True,
Number,
String,
List,
Object,
Function
};
inline const char* get_type_str(type t)
{
switch (t)
{
case type::Number: return "Number";
case type::False: return "False";
case type::True: return "True";
case type::List: return "List";
case type::String: return "String";
case type::Object: return "Object";
case type::Function: return "Function";
default: return "Unknown";
}
}
enum class num_type : char
{
Signed_integer,
Unsigned_integer,
Floating_point,
Null
};
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class rvalue;
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rvalue load(const char* data, size_t size);
namespace detail
{
/// A read string implementation with comparison functionality.
struct r_string
{
r_string(){};
r_string(char* s, char* e):
s_(s), e_(e){};
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~r_string()
{
if (owned_)
delete[] s_;
}
r_string(const r_string& r)
{
*this = r;
}
r_string(r_string&& r)
{
*this = r;
}
r_string& operator=(r_string&& r)
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{
s_ = r.s_;
e_ = r.e_;
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owned_ = r.owned_;
if (r.owned_)
r.owned_ = 0;
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return *this;
}
r_string& operator=(const r_string& r)
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{
s_ = r.s_;
e_ = r.e_;
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owned_ = 0;
return *this;
}
operator std::string() const
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{
return std::string(s_, e_);
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}
const char* begin() const { return s_; }
const char* end() const { return e_; }
size_t size() const { return end() - begin(); }
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using iterator = const char*;
using const_iterator = const char*;
char* s_; ///< Start.
mutable char* e_; ///< End.
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uint8_t owned_{0};
friend std::ostream& operator<<(std::ostream& os, const r_string& s)
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{
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os << static_cast<std::string>(s);
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return os;
}
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private:
void force(char* s, uint32_t length)
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{
s_ = s;
e_ = s_ + length;
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owned_ = 1;
}
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friend rvalue crow::json::load(const char* data, size_t size);
friend bool operator==(const r_string& l, const r_string& r);
friend bool operator==(const std::string& l, const r_string& r);
friend bool operator==(const r_string& l, const std::string& r);
template<typename T, typename U>
inline static bool equals(const T& l, const U& r)
{
if (l.size() != r.size())
return false;
for (size_t i = 0; i < l.size(); i++)
{
if (*(l.begin() + i) != *(r.begin() + i))
return false;
}
return true;
}
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};
inline bool operator<(const r_string& l, const r_string& r)
{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
}
inline bool operator<(const r_string& l, const std::string& r)
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{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
}
inline bool operator<(const std::string& l, const r_string& r)
{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
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}
inline bool operator>(const r_string& l, const r_string& r)
{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
}
inline bool operator>(const r_string& l, const std::string& r)
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{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
}
inline bool operator>(const std::string& l, const r_string& r)
{
return std::lexicographical_compare(l.begin(), l.end(), r.begin(), r.end());
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}
inline bool operator==(const r_string& l, const r_string& r)
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{
return r_string::equals(l, r);
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}
inline bool operator==(const r_string& l, const std::string& r)
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{
return r_string::equals(l, r);
}
inline bool operator==(const std::string& l, const r_string& r)
{
return r_string::equals(l, r);
}
inline bool operator!=(const r_string& l, const r_string& r)
{
return !(l == r);
}
inline bool operator!=(const r_string& l, const std::string& r)
{
return !(l == r);
}
inline bool operator!=(const std::string& l, const r_string& r)
{
return !(l == r);
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}
} // namespace detail
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/// JSON read value.
///
/// Value can mean any json value, including a JSON object.
/// Read means this class is used to primarily read strings into a JSON value.
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class rvalue
{
static const int cached_bit = 2;
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static const int error_bit = 4;
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public:
rvalue() noexcept:
option_{error_bit}
{
}
rvalue(type t) noexcept:
lsize_{}, lremain_{}, t_{t}
{
}
rvalue(type t, char* s, char* e) noexcept:
start_{s}, end_{e}, t_{t}
{
determine_num_type();
}
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rvalue(const rvalue& r):
start_(r.start_), end_(r.end_), key_(r.key_), t_(r.t_), nt_(r.nt_), option_(r.option_)
{
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copy_l(r);
}
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rvalue(rvalue&& r) noexcept
{
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*this = std::move(r);
}
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rvalue& operator=(const rvalue& r)
{
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start_ = r.start_;
end_ = r.end_;
key_ = r.key_;
t_ = r.t_;
nt_ = r.nt_;
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option_ = r.option_;
copy_l(r);
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return *this;
}
rvalue& operator=(rvalue&& r) noexcept
{
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start_ = r.start_;
end_ = r.end_;
key_ = std::move(r.key_);
l_ = std::move(r.l_);
lsize_ = r.lsize_;
lremain_ = r.lremain_;
t_ = r.t_;
nt_ = r.nt_;
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option_ = r.option_;
return *this;
}
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explicit operator bool() const noexcept
{
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return (option_ & error_bit) == 0;
}
explicit operator int64_t() const
{
return i();
}
explicit operator uint64_t() const
{
return u();
}
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explicit operator int() const
{
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return static_cast<int>(i());
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}
/// Return any json value (not object or list) as a string.
explicit operator std::string() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() == type::Object || t() == type::List)
throw std::runtime_error("json type container");
#endif
switch (t())
{
case type::String:
return std::string(s());
case type::Null:
return std::string("null");
case type::True:
return std::string("true");
case type::False:
return std::string("false");
default:
return std::string(start_, end_ - start_);
}
}
/// The type of the JSON value.
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type t() const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (option_ & error_bit)
{
throw std::runtime_error("invalid json object");
}
#endif
return t_;
}
/// The number type of the JSON value.
num_type nt() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (option_ & error_bit)
{
throw std::runtime_error("invalid json object");
}
#endif
return nt_;
}
/// The integer value.
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int64_t i() const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
switch (t())
{
case type::Number:
case type::String:
return utility::lexical_cast<int64_t>(start_, end_ - start_);
default:
const std::string msg = "expected number, got: " + std::string(get_type_str(t()));
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throw std::runtime_error(msg);
}
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#endif
return utility::lexical_cast<int64_t>(start_, end_ - start_);
}
/// The unsigned integer value.
uint64_t u() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
switch (t())
{
case type::Number:
case type::String:
return utility::lexical_cast<uint64_t>(start_, end_ - start_);
default:
throw std::runtime_error(std::string("expected number, got: ") + get_type_str(t()));
}
#endif
return utility::lexical_cast<uint64_t>(start_, end_ - start_);
}
/// The double precision floating-point number value.
double d() const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() != type::Number)
throw std::runtime_error("value is not number");
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#endif
return utility::lexical_cast<double>(start_, end_ - start_);
}
/// The boolean value.
bool b() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() != type::True && t() != type::False)
throw std::runtime_error("value is not boolean");
#endif
return t() == type::True;
}
/// The string value.
detail::r_string s() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() != type::String)
throw std::runtime_error("value is not string");
#endif
unescape();
return detail::r_string{start_, end_};
}
/// The list or object value
std::vector<rvalue> lo()
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() != type::Object && t() != type::List)
throw std::runtime_error("value is not a container");
#endif
std::vector<rvalue> ret;
ret.reserve(lsize_);
for (uint32_t i = 0; i < lsize_; i++)
{
ret.emplace_back(l_[i]);
}
return ret;
}
/// Convert escaped string character to their original form ("\\n" -> '\n').
void unescape() const
{
if (*(start_ - 1))
{
char* head = start_;
char* tail = start_;
while (head != end_)
{
if (*head == '\\')
{
switch (*++head)
{
case '"': *tail++ = '"'; break;
case '\\': *tail++ = '\\'; break;
case '/': *tail++ = '/'; break;
case 'b': *tail++ = '\b'; break;
case 'f': *tail++ = '\f'; break;
case 'n': *tail++ = '\n'; break;
case 'r': *tail++ = '\r'; break;
case 't': *tail++ = '\t'; break;
case 'u':
{
auto from_hex = [](char c) {
if (c >= 'a')
return c - 'a' + 10;
if (c >= 'A')
return c - 'A' + 10;
return c - '0';
};
unsigned int code =
(from_hex(head[1]) << 12) +
(from_hex(head[2]) << 8) +
(from_hex(head[3]) << 4) +
from_hex(head[4]);
if (code >= 0x800)
{
*tail++ = 0xE0 | (code >> 12);
*tail++ = 0x80 | ((code >> 6) & 0x3F);
*tail++ = 0x80 | (code & 0x3F);
}
else if (code >= 0x80)
{
*tail++ = 0xC0 | (code >> 6);
*tail++ = 0x80 | (code & 0x3F);
}
else
{
*tail++ = code;
}
head += 4;
}
break;
}
}
else
*tail++ = *head;
head++;
}
end_ = tail;
*end_ = 0;
*(start_ - 1) = 0;
}
}
/// Check if the json object has the passed string as a key.
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bool has(const char* str) const
{
return has(std::string(str));
}
bool has(const std::string& str) const
{
struct Pred
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{
bool operator()(const rvalue& l, const rvalue& r) const
{
return l.key_ < r.key_;
};
bool operator()(const rvalue& l, const std::string& r) const
{
return l.key_ < r;
};
bool operator()(const std::string& l, const rvalue& r) const
{
return l < r.key_;
};
};
if (!is_cached())
{
std::sort(begin(), end(), Pred());
set_cached();
}
auto it = lower_bound(begin(), end(), str, Pred());
return it != end() && it->key_ == str;
}
int count(const std::string& str)
{
return has(str) ? 1 : 0;
}
rvalue* begin() const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::Object && t() != type::List)
throw std::runtime_error("value is not a container");
#endif
return l_.get();
}
rvalue* end() const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::Object && t() != type::List)
throw std::runtime_error("value is not a container");
#endif
return l_.get() + lsize_;
}
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const detail::r_string& key() const
{
return key_;
}
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size_t size() const
{
if (t() == type::String)
return s().size();
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::Object && t() != type::List)
throw std::runtime_error("value is not a container");
#endif
return lsize_;
}
const rvalue& operator[](int index) const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::List)
throw std::runtime_error("value is not a list");
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if (index >= static_cast<int>(lsize_) || index < 0)
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throw std::runtime_error("list out of bound");
#endif
return l_[index];
}
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const rvalue& operator[](size_t index) const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::List)
throw std::runtime_error("value is not a list");
if (index >= lsize_)
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throw std::runtime_error("list out of bound");
#endif
return l_[index];
}
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const rvalue& operator[](const char* str) const
{
return this->operator[](std::string(str));
}
const rvalue& operator[](const std::string& str) const
{
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#ifndef CROW_JSON_NO_ERROR_CHECK
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if (t() != type::Object)
throw std::runtime_error("value is not an object");
#endif
struct Pred
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{
bool operator()(const rvalue& l, const rvalue& r) const
{
return l.key_ < r.key_;
};
bool operator()(const rvalue& l, const std::string& r) const
{
return l.key_ < r;
};
bool operator()(const std::string& l, const rvalue& r) const
{
return l < r.key_;
};
};
if (!is_cached())
{
std::sort(begin(), end(), Pred());
set_cached();
}
auto it = lower_bound(begin(), end(), str, Pred());
if (it != end() && it->key_ == str)
return *it;
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#ifndef CROW_JSON_NO_ERROR_CHECK
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throw std::runtime_error("cannot find key");
#else
static rvalue nullValue;
return nullValue;
#endif
}
void set_error()
{
option_ |= error_bit;
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}
bool error() const
{
return (option_ & error_bit) != 0;
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}
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std::vector<std::string> keys() const
{
#ifndef CROW_JSON_NO_ERROR_CHECK
if (t() != type::Object)
throw std::runtime_error("value is not an object");
#endif
std::vector<std::string> ret;
ret.reserve(lsize_);
for (uint32_t i = 0; i < lsize_; i++)
{
ret.emplace_back(std::string(l_[i].key()));
}
return ret;
}
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private:
bool is_cached() const
{
return (option_ & cached_bit) != 0;
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}
void set_cached() const
{
option_ |= cached_bit;
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}
void copy_l(const rvalue& r)
{
if (r.t() != type::Object && r.t() != type::List)
return;
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lsize_ = r.lsize_;
lremain_ = 0;
l_.reset(new rvalue[lsize_]);
std::copy(r.begin(), r.end(), begin());
}
void emplace_back(rvalue&& v)
{
if (!lremain_)
{
int new_size = lsize_ + lsize_;
if (new_size - lsize_ > 60000)
new_size = lsize_ + 60000;
if (new_size < 4)
new_size = 4;
rvalue* p = new rvalue[new_size];
rvalue* p2 = p;
for (auto& x : *this)
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*p2++ = std::move(x);
l_.reset(p);
lremain_ = new_size - lsize_;
}
l_[lsize_++] = std::move(v);
lremain_--;
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}
/// Determines num_type from the string.
void determine_num_type()
{
if (t_ != type::Number)
{
nt_ = num_type::Null;
return;
}
const std::size_t len = end_ - start_;
const bool has_minus = std::memchr(start_, '-', len) != nullptr;
const bool has_e = std::memchr(start_, 'e', len) != nullptr || std::memchr(start_, 'E', len) != nullptr;
const bool has_dec_sep = std::memchr(start_, '.', len) != nullptr;
if (has_dec_sep || has_e)
nt_ = num_type::Floating_point;
else if (has_minus)
nt_ = num_type::Signed_integer;
else
nt_ = num_type::Unsigned_integer;
}
mutable char* start_;
mutable char* end_;
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detail::r_string key_;
std::unique_ptr<rvalue[]> l_;
uint32_t lsize_;
uint16_t lremain_;
type t_;
num_type nt_{num_type::Null};
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mutable uint8_t option_{0};
friend rvalue load_nocopy_internal(char* data, size_t size);
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friend rvalue load(const char* data, size_t size);
friend std::ostream& operator<<(std::ostream& os, const rvalue& r)
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{
switch (r.t_)
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{
case type::Null: os << "null"; break;
case type::False: os << "false"; break;
case type::True: os << "true"; break;
case type::Number:
{
switch (r.nt())
{
case num_type::Floating_point: os << r.d(); break;
case num_type::Signed_integer: os << r.i(); break;
case num_type::Unsigned_integer: os << r.u(); break;
case num_type::Null: throw std::runtime_error("Number with num_type Null");
}
}
break;
case type::String: os << '"' << r.s() << '"'; break;
case type::List:
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{
os << '[';
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bool first = true;
for (auto& x : r)
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{
if (!first)
os << ',';
first = false;
os << x;
}
os << ']';
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}
break;
case type::Object:
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{
os << '{';
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bool first = true;
for (auto& x : r)
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{
if (!first)
os << ',';
os << '"' << escape(x.key_) << "\":";
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first = false;
os << x;
}
os << '}';
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}
break;
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case type::Function: os << "custom function"; break;
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}
return os;
}
};
namespace detail
{
}
inline bool operator==(const rvalue& l, const std::string& r)
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{
return l.s() == r;
}
inline bool operator==(const std::string& l, const rvalue& r)
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{
return l == r.s();
}
inline bool operator!=(const rvalue& l, const std::string& r)
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{
return l.s() != r;
}
inline bool operator!=(const std::string& l, const rvalue& r)
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{
return l != r.s();
}
inline bool operator==(const rvalue& l, double r)
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{
return l.d() == r;
}
inline bool operator==(double l, const rvalue& r)
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{
return l == r.d();
}
inline bool operator!=(const rvalue& l, double r)
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{
return l.d() != r;
}
inline bool operator!=(double l, const rvalue& r)
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{
return l != r.d();
}
inline rvalue load_nocopy_internal(char* data, size_t size)
{
// Defend against excessive recursion
static constexpr unsigned max_depth = 10000;
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//static const char* escaped = "\"\\/\b\f\n\r\t";
struct Parser
{
Parser(char* data, size_t /*size*/):
data(data)
{
}
bool consume(char c)
{
if (CROW_UNLIKELY(*data != c))
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return false;
data++;
return true;
}
void ws_skip()
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{
while (*data == ' ' || *data == '\t' || *data == '\r' || *data == '\n')
++data;
};
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rvalue decode_string()
{
if (CROW_UNLIKELY(!consume('"')))
return {};
char* start = data;
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uint8_t has_escaping = 0;
while (1)
{
if (CROW_LIKELY(*data != '"' && *data != '\\' && *data != '\0'))
{
data++;
}
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else if (*data == '"')
{
*data = 0;
*(start - 1) = has_escaping;
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data++;
return {type::String, start, data - 1};
}
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else if (*data == '\\')
{
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has_escaping = 1;
data++;
switch (*data)
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{
case 'u':
{
auto check = [](char c) {
return ('0' <= c && c <= '9') ||
('a' <= c && c <= 'f') ||
('A' <= c && c <= 'F');
};
if (!(check(*(data + 1)) &&
check(*(data + 2)) &&
check(*(data + 3)) &&
check(*(data + 4))))
return {};
}
data += 5;
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break;
case '"':
case '\\':
case '/':
case 'b':
case 'f':
case 'n':
case 'r':
case 't':
data++;
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break;
default:
return {};
}
}
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else
return {};
}
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return {};
}
rvalue decode_list(unsigned depth)
{
rvalue ret(type::List);
if (CROW_UNLIKELY(!consume('[')) || CROW_UNLIKELY(depth > max_depth))
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{
ret.set_error();
return ret;
}
ws_skip();
if (CROW_UNLIKELY(*data == ']'))
{
data++;
return ret;
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}
while (1)
{
auto v = decode_value(depth + 1);
if (CROW_UNLIKELY(!v))
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{
ret.set_error();
break;
}
ws_skip();
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ret.emplace_back(std::move(v));
if (*data == ']')
{
data++;
break;
}
if (CROW_UNLIKELY(!consume(',')))
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{
ret.set_error();
break;
}
ws_skip();
}
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return ret;
}
rvalue decode_number()
{
char* start = data;
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enum NumberParsingState
{
Minus,
AfterMinus,
ZeroFirst,
Digits,
DigitsAfterPoints,
E,
DigitsAfterE,
Invalid,
} state{Minus};
while (CROW_LIKELY(state != Invalid))
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{
switch (*data)
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{
case '0':
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state = static_cast<NumberParsingState>("\2\2\7\3\4\6\6"[state]);
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/*if (state == NumberParsingState::Minus || state == NumberParsingState::AfterMinus)
{
state = NumberParsingState::ZeroFirst;
}
else if (state == NumberParsingState::Digits ||
state == NumberParsingState::DigitsAfterE ||
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state == NumberParsingState::DigitsAfterPoints)
{
// ok; pass
}
else if (state == NumberParsingState::E)
{
state = NumberParsingState::DigitsAfterE;
}
else
return {};*/
break;
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
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state = static_cast<NumberParsingState>("\3\3\7\3\4\6\6"[state]);
while (*(data + 1) >= '0' && *(data + 1) <= '9')
data++;
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/*if (state == NumberParsingState::Minus || state == NumberParsingState::AfterMinus)
{
state = NumberParsingState::Digits;
}
else if (state == NumberParsingState::Digits ||
state == NumberParsingState::DigitsAfterE ||
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state == NumberParsingState::DigitsAfterPoints)
{
// ok; pass
}
else if (state == NumberParsingState::E)
{
state = NumberParsingState::DigitsAfterE;
}
else
return {};*/
break;
case '.':
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state = static_cast<NumberParsingState>("\7\7\4\4\7\7\7"[state]);
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/*
if (state == NumberParsingState::Digits || state == NumberParsingState::ZeroFirst)
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{
state = NumberParsingState::DigitsAfterPoints;
}
else
return {};
*/
break;
case '-':
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state = static_cast<NumberParsingState>("\1\7\7\7\7\6\7"[state]);
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/*if (state == NumberParsingState::Minus)
{
state = NumberParsingState::AfterMinus;
}
else if (state == NumberParsingState::E)
{
state = NumberParsingState::DigitsAfterE;
}
else
return {};*/
break;
case '+':
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state = static_cast<NumberParsingState>("\7\7\7\7\7\6\7"[state]);
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/*if (state == NumberParsingState::E)
{
state = NumberParsingState::DigitsAfterE;
}
else
return {};*/
break;
case 'e':
case 'E':
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state = static_cast<NumberParsingState>("\7\7\7\5\5\7\7"[state]);
/*if (state == NumberParsingState::Digits ||
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state == NumberParsingState::DigitsAfterPoints)
{
state = NumberParsingState::E;
}
else
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return {};*/
break;
default:
if (CROW_LIKELY(state == NumberParsingState::ZeroFirst ||
state == NumberParsingState::Digits ||
state == NumberParsingState::DigitsAfterPoints ||
state == NumberParsingState::DigitsAfterE))
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return {type::Number, start, data};
else
return {};
}
data++;
}
return {};
}
rvalue decode_value(unsigned depth)
{
switch (*data)
{
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case '[':
return decode_list(depth + 1);
case '{':
return decode_object(depth + 1);
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case '"':
return decode_string();
case 't':
if ( //e-data >= 4 &&
data[1] == 'r' &&
data[2] == 'u' &&
data[3] == 'e')
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{
data += 4;
return {type::True};
}
else
return {};
case 'f':
if ( //e-data >= 5 &&
data[1] == 'a' &&
data[2] == 'l' &&
data[3] == 's' &&
data[4] == 'e')
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{
data += 5;
return {type::False};
}
else
return {};
case 'n':
if ( //e-data >= 4 &&
data[1] == 'u' &&
data[2] == 'l' &&
data[3] == 'l')
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{
data += 4;
return {type::Null};
}
else
return {};
//case '1': case '2': case '3':
//case '4': case '5': case '6':
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//case '7': case '8': case '9':
//case '0': case '-':
default:
return decode_number();
}
return {};
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}
rvalue decode_object(unsigned depth)
{
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rvalue ret(type::Object);
if (CROW_UNLIKELY(!consume('{')) || CROW_UNLIKELY(depth > max_depth))
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{
ret.set_error();
return ret;
}
ws_skip();
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if (CROW_UNLIKELY(*data == '}'))
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{
data++;
return ret;
}
while (1)
{
auto t = decode_string();
if (CROW_UNLIKELY(!t))
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{
ret.set_error();
break;
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}
ws_skip();
if (CROW_UNLIKELY(!consume(':')))
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{
ret.set_error();
break;
}
// TODO(ipkn) caching key to speed up (flyweight?)
// I have no idea how flyweight could apply here, but maybe some speedup can happen if we stopped checking type since decode_string returns a string anyway
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auto key = t.s();
ws_skip();
auto v = decode_value(depth + 1);
if (CROW_UNLIKELY(!v))
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{
ret.set_error();
break;
}
ws_skip();
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v.key_ = std::move(key);
ret.emplace_back(std::move(v));
if (CROW_UNLIKELY(*data == '}'))
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{
data++;
break;
}
if (CROW_UNLIKELY(!consume(',')))
2014-04-18 22:12:56 +00:00
{
ret.set_error();
break;
}
ws_skip();
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}
return ret;
}
2014-04-18 22:12:56 +00:00
rvalue parse()
{
ws_skip();
auto ret = decode_value(0); // or decode object?
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ws_skip();
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if (ret && *data != '\0')
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ret.set_error();
return ret;
}
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char* data;
};
return Parser(data, size).parse();
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}
2014-04-19 20:41:53 +00:00
inline rvalue load(const char* data, size_t size)
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{
char* s = new char[size + 1];
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memcpy(s, data, size);
s[size] = 0;
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auto ret = load_nocopy_internal(s, size);
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if (ret)
ret.key_.force(s, size);
else
delete[] s;
return ret;
}
2014-04-19 20:41:53 +00:00
inline rvalue load(const char* data)
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{
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return load(data, strlen(data));
2014-04-18 22:12:56 +00:00
}
2014-04-19 20:41:53 +00:00
inline rvalue load(const std::string& str)
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{
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return load(str.data(), str.size());
2014-04-18 22:12:56 +00:00
}
2022-07-21 21:45:40 +00:00
struct wvalue_reader;
/// JSON write value.
///
/// Value can mean any json value, including a JSON object.<br>
/// Write means this class is used to primarily assemble JSON objects using keys and values and export those into a string.
class wvalue : public returnable
{
friend class crow::mustache::template_t;
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friend struct wvalue_reader;
public:
using object =
#ifdef CROW_JSON_USE_MAP
std::map<std::string, wvalue>;
#else
std::unordered_map<std::string, wvalue>;
#endif
using list = std::vector<wvalue>;
type t() const { return t_; }
/// Create an empty json value (outputs "{}" instead of a "null" string)
static crow::json::wvalue empty_object() { return crow::json::wvalue(std::move(crow::json::wvalue::object())); }
private:
type t_{type::Null}; ///< The type of the value.
num_type nt{num_type::Null}; ///< The specific type of the number if \ref t_ is a number.
union number
{
double d;
int64_t si;
uint64_t ui;
public:
constexpr number() noexcept:
ui() {} /* default constructor initializes unsigned integer. */
constexpr number(std::uint64_t value) noexcept:
ui(value) {}
constexpr number(std::int64_t value) noexcept:
si(value) {}
constexpr number(double value) noexcept:
d(value) {}
2021-12-10 23:38:30 +00:00
} num; ///< Value if type is a number.
std::string s; ///< Value if type is a string.
std::unique_ptr<list> l; ///< Value if type is a list.
std::unique_ptr<object> o; ///< Value if type is a JSON object.
std::function<std::string(std::string&)> f; ///< Value if type is a function (C++ lambda)
public:
wvalue():
returnable("application/json") {}
wvalue(std::nullptr_t):
returnable("application/json"), t_(type::Null) {}
wvalue(bool value):
returnable("application/json"), t_(value ? type::True : type::False) {}
wvalue(std::uint8_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Unsigned_integer), num(static_cast<std::uint64_t>(value)) {}
wvalue(std::uint16_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Unsigned_integer), num(static_cast<std::uint64_t>(value)) {}
wvalue(std::uint32_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Unsigned_integer), num(static_cast<std::uint64_t>(value)) {}
wvalue(std::uint64_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Unsigned_integer), num(static_cast<std::uint64_t>(value)) {}
wvalue(std::int8_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Signed_integer), num(static_cast<std::int64_t>(value)) {}
wvalue(std::int16_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Signed_integer), num(static_cast<std::int64_t>(value)) {}
wvalue(std::int32_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Signed_integer), num(static_cast<std::int64_t>(value)) {}
wvalue(std::int64_t value):
returnable("application/json"), t_(type::Number), nt(num_type::Signed_integer), num(static_cast<std::int64_t>(value)) {}
wvalue(float value):
returnable("application/json"), t_(type::Number), nt(num_type::Floating_point), num(static_cast<double>(value)) {}
wvalue(double value):
returnable("application/json"), t_(type::Number), nt(num_type::Floating_point), num(static_cast<double>(value)) {}
wvalue(char const* value):
returnable("application/json"), t_(type::String), s(value) {}
wvalue(std::string const& value):
returnable("application/json"), t_(type::String), s(value) {}
wvalue(std::string&& value):
returnable("application/json"), t_(type::String), s(std::move(value)) {}
wvalue(std::initializer_list<std::pair<std::string const, wvalue>> initializer_list):
returnable("application/json"), t_(type::Object), o(new object(initializer_list)) {}
wvalue(object const& value):
returnable("application/json"), t_(type::Object), o(new object(value)) {}
wvalue(object&& value):
returnable("application/json"), t_(type::Object), o(new object(std::move(value))) {}
wvalue(const list& r):
returnable("application/json")
{
t_ = type::List;
l = std::unique_ptr<list>(new list{});
l->reserve(r.size());
for (auto it = r.begin(); it != r.end(); ++it)
l->emplace_back(*it);
}
wvalue(list& r):
returnable("application/json")
{
t_ = type::List;
l = std::unique_ptr<list>(new list{});
l->reserve(r.size());
for (auto it = r.begin(); it != r.end(); ++it)
l->emplace_back(*it);
}
/// Create a write value from a read value (useful for editing JSON strings).
wvalue(const rvalue& r):
returnable("application/json")
{
t_ = r.t();
switch (r.t())
{
case type::Null:
case type::False:
case type::True:
case type::Function:
return;
case type::Number:
nt = r.nt();
if (nt == num_type::Floating_point)
num.d = r.d();
else if (nt == num_type::Signed_integer)
num.si = r.i();
else
num.ui = r.u();
return;
case type::String:
s = r.s();
return;
case type::List:
l = std::unique_ptr<list>(new list{});
l->reserve(r.size());
for (auto it = r.begin(); it != r.end(); ++it)
l->emplace_back(*it);
return;
case type::Object:
o = std::unique_ptr<object>(new object{});
for (auto it = r.begin(); it != r.end(); ++it)
o->emplace(it->key(), *it);
return;
}
}
wvalue(const wvalue& r):
returnable("application/json")
{
t_ = r.t();
switch (r.t())
{
case type::Null:
case type::False:
case type::True:
return;
case type::Number:
nt = r.nt;
if (nt == num_type::Floating_point)
num.d = r.num.d;
else if (nt == num_type::Signed_integer)
num.si = r.num.si;
else
num.ui = r.num.ui;
return;
case type::String:
s = r.s;
return;
case type::List:
l = std::unique_ptr<list>(new list{});
l->reserve(r.size());
for (auto it = r.l->begin(); it != r.l->end(); ++it)
l->emplace_back(*it);
return;
case type::Object:
o = std::unique_ptr<object>(new object{});
o->insert(r.o->begin(), r.o->end());
return;
case type::Function:
f = r.f;
}
}
wvalue(wvalue&& r):
returnable("application/json")
{
2014-04-17 14:06:41 +00:00
*this = std::move(r);
}
wvalue& operator=(wvalue&& r)
2014-04-17 14:06:41 +00:00
{
t_ = r.t_;
2022-06-20 02:48:03 +00:00
nt = r.nt;
num = r.num;
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s = std::move(r.s);
l = std::move(r.l);
o = std::move(r.o);
return *this;
}
/// Used for compatibility, same as \ref reset()
void clear()
{
reset();
}
void reset()
{
t_ = type::Null;
l.reset();
o.reset();
}
wvalue& operator=(std::nullptr_t)
{
reset();
return *this;
}
wvalue& operator=(bool value)
{
reset();
if (value)
t_ = type::True;
else
t_ = type::False;
return *this;
}
wvalue& operator=(double value)
{
reset();
t_ = type::Number;
num.d = value;
nt = num_type::Floating_point;
return *this;
}
wvalue& operator=(unsigned short value)
{
reset();
t_ = type::Number;
num.ui = value;
nt = num_type::Unsigned_integer;
return *this;
}
wvalue& operator=(short value)
{
reset();
t_ = type::Number;
num.si = value;
nt = num_type::Signed_integer;
return *this;
}
wvalue& operator=(long long value)
{
reset();
t_ = type::Number;
num.si = value;
nt = num_type::Signed_integer;
return *this;
}
wvalue& operator=(long value)
{
reset();
t_ = type::Number;
num.si = value;
nt = num_type::Signed_integer;
return *this;
}
wvalue& operator=(int value)
{
reset();
t_ = type::Number;
num.si = value;
nt = num_type::Signed_integer;
return *this;
}
wvalue& operator=(unsigned long long value)
{
reset();
t_ = type::Number;
num.ui = value;
nt = num_type::Unsigned_integer;
return *this;
}
wvalue& operator=(unsigned long value)
{
reset();
t_ = type::Number;
num.ui = value;
nt = num_type::Unsigned_integer;
return *this;
}
wvalue& operator=(unsigned int value)
{
reset();
t_ = type::Number;
num.ui = value;
nt = num_type::Unsigned_integer;
return *this;
}
2021-12-10 23:38:30 +00:00
wvalue& operator=(const char* str)
{
reset();
t_ = type::String;
s = str;
return *this;
}
2021-12-10 23:38:30 +00:00
wvalue& operator=(const std::string& str)
{
reset();
t_ = type::String;
s = str;
return *this;
}
wvalue& operator=(list&& v)
2017-05-12 02:43:27 +00:00
{
if (t_ != type::List)
reset();
t_ = type::List;
if (!l)
l = std::unique_ptr<list>(new list{});
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l->clear();
l->resize(v.size());
size_t idx = 0;
for (auto& x : v)
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{
(*l)[idx++] = std::move(x);
}
return *this;
}
template<typename T>
wvalue& operator=(const std::vector<T>& v)
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{
if (t_ != type::List)
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reset();
t_ = type::List;
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if (!l)
l = std::unique_ptr<list>(new list{});
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l->clear();
l->resize(v.size());
size_t idx = 0;
for (auto& x : v)
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{
(*l)[idx++] = x;
}
return *this;
}
wvalue& operator=(std::initializer_list<std::pair<std::string const, wvalue>> initializer_list)
{
if (t_ != type::Object)
{
reset();
t_ = type::Object;
o = std::unique_ptr<object>(new object(initializer_list));
}
else
{
#if defined(__APPLE__) || defined(__MACH__) || defined (__FreeBSD__)
o = std::unique_ptr<object>(new object(initializer_list));
#else
(*o) = initializer_list;
#endif
}
return *this;
}
wvalue& operator=(object const& value)
{
if (t_ != type::Object)
{
reset();
t_ = type::Object;
o = std::unique_ptr<object>(new object(value));
}
else
{
#if defined(__APPLE__) || defined(__MACH__) || defined (__FreeBSD__)
o = std::unique_ptr<object>(new object(value));
#else
(*o) = value;
#endif
}
return *this;
}
wvalue& operator=(object&& value)
{
if (t_ != type::Object)
{
reset();
t_ = type::Object;
o = std::unique_ptr<object>(new object(std::move(value)));
}
else
{
(*o) = std::move(value);
}
return *this;
}
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wvalue& operator=(std::function<std::string(std::string&)>&& func)
{
reset();
t_ = type::Function;
f = std::move(func);
return *this;
}
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wvalue& operator[](unsigned index)
{
if (t_ != type::List)
reset();
t_ = type::List;
if (!l)
l = std::unique_ptr<list>(new list{});
if (l->size() < index + 1)
l->resize(index + 1);
return (*l)[index];
}
int count(const std::string& str)
{
if (t_ != type::Object)
return 0;
if (!o)
return 0;
return o->count(str);
}
wvalue& operator[](const std::string& str)
{
if (t_ != type::Object)
reset();
t_ = type::Object;
if (!o)
o = std::unique_ptr<object>(new object{});
return (*o)[str];
}
std::vector<std::string> keys() const
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{
if (t_ != type::Object)
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return {};
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std::vector<std::string> result;
for (auto& kv : *o)
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{
result.push_back(kv.first);
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}
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return result;
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}
std::string execute(std::string txt = "") const //Not using reference because it cannot be used with a default rvalue
{
if (t_ != type::Function)
return "";
return f(txt);
}
/// If the wvalue is a list, it returns the length of the list, otherwise it returns 1.
std::size_t size() const
{
if (t_ != type::List)
return 1;
return l->size();
}
/// Returns an estimated size of the value in bytes.
size_t estimate_length() const
{
switch (t_)
{
case type::Null: return 4;
case type::False: return 5;
case type::True: return 4;
case type::Number: return 30;
case type::String: return 2 + s.size() + s.size() / 2;
case type::List:
{
size_t sum{};
if (l)
{
for (auto& x : *l)
{
sum += 1;
sum += x.estimate_length();
}
}
return sum + 2;
}
case type::Object:
{
size_t sum{};
if (o)
{
for (auto& kv : *o)
{
sum += 2;
sum += 2 + kv.first.size() + kv.first.size() / 2;
sum += kv.second.estimate_length();
}
}
return sum + 2;
}
case type::Function:
return 0;
}
return 1;
}
private:
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inline void dump_string(const std::string& str, std::string& out) const
{
out.push_back('"');
escape(str, out);
out.push_back('"');
}
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inline void dump_internal(const wvalue& v, std::string& out) const
{
switch (v.t_)
{
case type::Null: out += "null"; break;
case type::False: out += "false"; break;
case type::True: out += "true"; break;
case type::Number:
{
if (v.nt == num_type::Floating_point)
{
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if (isnan(v.num.d) || isinf(v.num.d))
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{
out += "null";
CROW_LOG_WARNING << "Invalid JSON value detected (" << v.num.d << "), value set to null";
break;
}
enum
{
start,
decp, // Decimal point
zero
} f_state;
char outbuf[128];
#ifdef _MSC_VER
sprintf_s(outbuf, sizeof(outbuf), "%f", v.num.d);
#else
snprintf(outbuf, sizeof(outbuf), "%f", v.num.d);
#endif
char *p = &outbuf[0], *o = nullptr; // o is the position of the first trailing 0
f_state = start;
while (*p != '\0')
{
//std::cout << *p << std::endl;
char ch = *p;
switch (f_state)
{
case start: // Loop and lookahead until a decimal point is found
if (ch == '.')
{
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char fch = *(p + 1);
// if the first character is 0, leave it be (this is so that "1.00000" becomes "1.0" and not "1.")
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if (fch != '\0' && fch == '0') p++;
f_state = decp;
}
p++;
break;
case decp: // Loop until a 0 is found, if found, record its position
if (ch == '0')
{
f_state = zero;
o = p;
}
p++;
break;
case zero: // if a non 0 is found (e.g. 1.00004) remove the earlier recorded 0 position and look for more trailing 0s
if (ch != '0')
{
o = nullptr;
f_state = decp;
}
p++;
break;
}
}
if (o != nullptr) // if any trailing 0s are found, terminate the string where they begin
*o = '\0';
out += outbuf;
}
else if (v.nt == num_type::Signed_integer)
{
out += std::to_string(v.num.si);
}
else
{
out += std::to_string(v.num.ui);
}
}
break;
case type::String: dump_string(v.s, out); break;
case type::List:
{
out.push_back('[');
if (v.l)
{
bool first = true;
for (auto& x : *v.l)
{
if (!first)
{
out.push_back(',');
}
first = false;
dump_internal(x, out);
}
}
out.push_back(']');
}
break;
case type::Object:
{
out.push_back('{');
if (v.o)
{
bool first = true;
for (auto& kv : *v.o)
{
if (!first)
{
out.push_back(',');
}
first = false;
dump_string(kv.first, out);
out.push_back(':');
dump_internal(kv.second, out);
}
}
out.push_back('}');
}
break;
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case type::Function:
out += "custom function";
break;
}
}
public:
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std::string dump() const
{
std::string ret;
ret.reserve(estimate_length());
dump_internal(*this, ret);
return ret;
}
};
// Used for accessing the internals of a wvalue
struct wvalue_reader
{
int64_t get(int64_t fallback)
{
if (ref.t() != type::Number || ref.nt == num_type::Floating_point)
return fallback;
return ref.num.si;
}
double get(double fallback)
{
if (ref.t() != type::Number || ref.nt != num_type::Floating_point)
return fallback;
return ref.num.d;
}
bool get(bool fallback)
{
if (ref.t() == type::True) return true;
if (ref.t() == type::False) return false;
return fallback;
}
std::string get(const std::string& fallback)
{
if (ref.t() != type::String) return fallback;
return ref.s;
}
const wvalue& ref;
};
//std::vector<asio::const_buffer> dump_ref(wvalue& v)
//{
//}
} // namespace json
} // namespace crow