json/src/json.hpp.re2c

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/*!
@file
@copyright The code is licensed under the MIT License
<http://opensource.org/licenses/MIT>,
Copyright (c) 2013-2015 Niels Lohmann.
@author Niels Lohmann <http://nlohmann.me>
@see https://github.com/nlohmann/json
*/
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#ifndef NLOHMANN_JSON_HPP
#define NLOHMANN_JSON_HPP
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#include <algorithm>
#include <array>
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#include <ciso646>
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#include <cmath>
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#include <cstdio>
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#include <functional>
#include <initializer_list>
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#include <iomanip>
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#include <iostream>
#include <iterator>
#include <limits>
#include <map>
#include <memory>
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#include <sstream>
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#include <string>
#include <type_traits>
#include <utility>
#include <vector>
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// enable ssize_t on MinGW
#ifdef __GNUC__
#ifdef __MINGW32__
#include <sys/types.h>
#endif
#endif
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/*!
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@brief namespace for Niels Lohmann
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@see https://github.com/nlohmann
*/
namespace nlohmann
{
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// Helper to determine whether there's a key_type for T.
// http://stackoverflow.com/a/7728728/266378
template<typename T>
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struct has_mapped_type
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{
private:
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template<typename C> static char test(typename C::mapped_type*);
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template<typename C> static int test(...);
public:
enum { value = sizeof(test<T>(0)) == sizeof(char) };
};
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/*!
@brief JSON
@tparam ObjectType type for JSON objects
(@c std::map by default)
@tparam ArrayType type for JSON arrays
(@c std::vector by default)
@tparam StringType type for JSON strings and object keys
(@c std::string by default)
@tparam BooleanType type for JSON booleans
(@c bool by default)
@tparam NumberIntegerType type for JSON integer numbers
(@c int64_t by default)
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@tparam NumberFloatType type for JSON floating-point numbers
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(@c double by default)
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@tparam AllocatorType type of the allocator to use
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(@c std::allocator by default)
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@note ObjectType trick from http://stackoverflow.com/a/9860911
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@see RFC 7159 <http://rfc7159.net/rfc7159>
@see ECMA 404 <http://www.ecma-international.org/publications/standards/Ecma-404.htm>
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*/
template <
template<typename U, typename V, typename... Args> class ObjectType = std::map,
template<typename U, typename... Args> class ArrayType = std::vector,
class StringType = std::string,
class BooleanType = bool,
class NumberIntegerType = int64_t,
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class NumberFloatType = double,
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template<typename U> class AllocatorType = std::allocator
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>
class basic_json
{
public:
/////////////////////
// container types //
/////////////////////
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/// the type of elements in a basic_json container
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using value_type = basic_json;
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/// the type of an element reference
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using reference = value_type&;
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/// the type of an element const reference
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using const_reference = const value_type&;
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/// a type to represent differences between iterators
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using difference_type = std::ptrdiff_t;
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/// a type to represent container sizes
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using size_type = std::size_t;
/// the allocator type
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using allocator_type = AllocatorType<basic_json>;
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/// the type of an element pointer
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using pointer = typename std::allocator_traits<allocator_type>::pointer;
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/// the type of an element const pointer
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using const_pointer = typename std::allocator_traits<allocator_type>::const_pointer;
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/// an iterator for a basic_json container
class iterator;
/// a const iterator for a basic_json container
class const_iterator;
/// a reverse iterator for a basic_json container
class reverse_iterator;
/// a const reverse iterator for a basic_json container
class const_reverse_iterator;
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/// returns the allocator associated with the container
inline static allocator_type get_allocator()
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{
return allocator_type();
}
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///////////////////////////
// JSON value data types //
///////////////////////////
/// a type for an object
using object_t =
ObjectType<StringType, basic_json, std::less<StringType>, AllocatorType<std::pair<const StringType, basic_json>>>;
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/// a type for an array
using array_t = ArrayType<basic_json, AllocatorType<basic_json>>;
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/// a type for a string
using string_t = StringType;
/// a type for a boolean
using boolean_t = BooleanType;
/// a type for a number (integer)
using number_integer_t = NumberIntegerType;
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/// a type for a number (floating-point)
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using number_float_t = NumberFloatType;
/// a type for list initialization
using list_init_t = std::initializer_list<basic_json>;
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/////////////////////////////////
// JSON value type enumeration //
/////////////////////////////////
/// JSON value type enumeration
enum class value_t : uint8_t
{
null, ///< null value
object, ///< object (unordered set of name/value pairs)
array, ///< array (ordered collection of values)
string, ///< string value
boolean, ///< boolean value
number_integer, ///< number value (integer)
number_float, ///< number value (floating-point)
discarded ///< (internal) indicates the parser callback chose not to keep the value
};
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////////////////////////
// JSON value storage //
////////////////////////
/// a JSON value
union json_value
{
/// object (stored with pointer to save storage)
object_t* object;
/// array (stored with pointer to save storage)
array_t* array;
/// string (stored with pointer to save storage)
string_t* string;
/// bolean
boolean_t boolean;
/// number (integer)
number_integer_t number_integer;
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/// number (floating-point)
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number_float_t number_float;
/// default constructor (for null values)
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inline json_value() noexcept = default;
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/// constructor for booleans
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inline json_value(boolean_t v) noexcept : boolean(v) {}
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/// constructor for numbers (integer)
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inline json_value(number_integer_t v) noexcept : number_integer(v) {}
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/// constructor for numbers (floating-point)
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inline json_value(number_float_t v) noexcept : number_float(v) {}
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/// constructor for empty values of a given type
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inline json_value(value_t t)
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{
switch (t)
{
case (value_t::null):
case (value_t::discarded):
{
break;
}
case (value_t::object):
{
AllocatorType<object_t> alloc;
object = alloc.allocate(1);
alloc.construct(object);
break;
}
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case (value_t::array):
{
AllocatorType<array_t> alloc;
array = alloc.allocate(1);
alloc.construct(array);
break;
}
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case (value_t::string):
{
AllocatorType<string_t> alloc;
string = alloc.allocate(1);
alloc.construct(string, "");
break;
}
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case (value_t::boolean):
{
boolean = boolean_t(false);
break;
}
case (value_t::number_integer):
{
number_integer = number_integer_t(0);
break;
}
case (value_t::number_float):
{
number_float = number_float_t(0.0);
break;
}
}
}
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/// constructor for strings
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inline json_value(const string_t& value)
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{
AllocatorType<string_t> alloc;
string = alloc.allocate(1);
alloc.construct(string, value);
}
/// constructor for objects
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inline json_value(const object_t& value)
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{
AllocatorType<object_t> alloc;
object = alloc.allocate(1);
alloc.construct(object, value);
}
/// constructor for arrays
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inline json_value(const array_t& value)
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{
AllocatorType<array_t> alloc;
array = alloc.allocate(1);
alloc.construct(array, value);
}
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};
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//////////////////////////
// JSON parser callback //
//////////////////////////
/// JSON callback event enumeration
enum class parse_event_t : uint8_t
{
object_start, ///< start an object scope (found a '{' token)
object_end, ///< end of an object scope (found '}' token)
array_start, ///< start of an array scope (found '[' token)
array_end, ///< end of an array scope (found ']' token)
key, ///< found an object key within an object scope
value ///< a value in an appropriate context (i.e., following a tag in an object scope)
};
/// per-element parser callback type
using parser_callback_t = std::function<bool(int depth, parse_event_t event,
const basic_json& parsed)>;
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/*!
@brief comparison operator for JSON value types
Returns an ordering that is similar to Python:
- order: null < boolean < number < object < array < string
- furthermore, each type is not smaller than itself
*/
friend bool operator<(const value_t lhs, const value_t rhs)
{
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static constexpr std::array<uint8_t, 7> order = {{
0, // null
3, // object
4, // array
5, // string
1, // boolean
2, // integer
2 // float
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}
};
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// discarded values are not comparable
if (lhs == value_t::discarded or rhs == value_t::discarded)
{
return false;
}
return order[static_cast<std::size_t>(lhs)] < order[static_cast<std::size_t>(rhs)];
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}
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//////////////////
// constructors //
//////////////////
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/*!
@brief create an empty value with a given type
@param value the type to create an value of
@exception std::bad_alloc if allocation for object, array, or string fails.
*/
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inline basic_json(const value_t value)
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: m_type(value), m_value(value)
{}
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/*!
@brief create a null object (implicitly)
@ingroup container
*/
inline basic_json() noexcept = default;
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/// create a null object (explicitly)
inline basic_json(std::nullptr_t) noexcept
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: basic_json(value_t::null)
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{}
/// create an object (explicit)
inline basic_json(const object_t& value)
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: m_type(value_t::object), m_value(value)
{}
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/// create an object (implicit)
template <class V, typename
std::enable_if<
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std::is_constructible<typename object_t::key_type, typename V::key_type>::value and
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std::is_constructible<basic_json, typename V::mapped_type>::value, int>::type
= 0>
inline basic_json(const V& value)
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: m_type(value_t::object)
{
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AllocatorType<object_t> alloc;
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m_value.object = alloc.allocate(1);
using std::begin;
using std::end;
alloc.construct(m_value.object, begin(value), end(value));
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}
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/// create an array (explicit)
inline basic_json(const array_t& value)
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: m_type(value_t::array), m_value(value)
{}
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/// create an array (implicit)
template <class V, typename
std::enable_if<
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not std::is_same<V, typename basic_json::iterator>::value and
not std::is_same<V, typename basic_json::const_iterator>::value and
not std::is_same<V, typename basic_json::reverse_iterator>::value and
not std::is_same<V, typename basic_json::const_reverse_iterator>::value and
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not std::is_same<V, typename array_t::iterator>::value and
not std::is_same<V, typename array_t::const_iterator>::value and
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std::is_constructible<basic_json, typename V::value_type>::value, int>::type
= 0>
inline basic_json(const V& value)
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: m_type(value_t::array)
{
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AllocatorType<array_t> alloc;
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m_value.array = alloc.allocate(1);
using std::begin;
using std::end;
alloc.construct(m_value.array, begin(value), end(value));
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}
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/// create a string (explicit)
inline basic_json(const string_t& value)
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: m_type(value_t::string), m_value(value)
{}
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/// create a string (explicit)
inline basic_json(const typename string_t::value_type* value)
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: basic_json(string_t(value))
{}
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/// create a string (implicit)
template <class V, typename
std::enable_if<
std::is_constructible<string_t, V>::value, int>::type
= 0>
inline basic_json(const V& value)
: basic_json(string_t(value))
{}
/// create a boolean (explicit)
inline basic_json(boolean_t value)
: m_type(value_t::boolean), m_value(value)
{}
/// create an integer number (explicit)
inline basic_json(const number_integer_t& value)
: m_type(value_t::number_integer), m_value(value)
{}
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/// create an int number to support enum type (implicit)
inline basic_json(const int int_enum)
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: basic_json(static_cast<number_integer_t>(int_enum))
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{}
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/// create an integer number (implicit)
template<typename T, typename
std::enable_if<
std::is_constructible<number_integer_t, T>::value and
std::numeric_limits<T>::is_integer, T>::type
= 0>
inline basic_json(const T value) noexcept
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: basic_json(number_integer_t(value))
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{}
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/// create a floating-point number (explicit)
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inline basic_json(const number_float_t& value)
: m_type(value_t::number_float), m_value(value)
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{
// replace infinity and NAN by null
if (not std::isfinite(value))
{
m_type = value_t::null;
m_value = json_value();
}
}
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/// create a floating-point number (implicit)
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template<typename T, typename = typename
std::enable_if<
std::is_constructible<number_float_t, T>::value and
std::is_floating_point<T>::value>::type
>
inline basic_json(const T value) noexcept
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: basic_json(number_float_t(value))
{}
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/// create a container (array or object) from an initializer list
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inline basic_json(list_init_t init, bool type_deduction = true,
value_t manual_type = value_t::array)
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{
// the initializer list could describe an object
bool is_object = true;
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// check if each element is an array with two elements whose first element
// is a string
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for (const auto& element : init)
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{
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if (element.m_type != value_t::array or element.size() != 2
or element[0].m_type != value_t::string)
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{
// we found an element that makes it impossible to use the
// initializer list as object
is_object = false;
break;
}
}
// adjust type if type deduction is not wanted
if (not type_deduction)
{
// if array is wanted, do not create an object though possible
if (manual_type == value_t::array)
{
is_object = false;
}
// if object is wanted but impossible, throw an exception
if (manual_type == value_t::object and not is_object)
{
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throw std::logic_error("cannot create JSON object from initializer list");
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}
}
if (is_object)
{
// the initializer list is a list of pairs -> create object
m_type = value_t::object;
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m_value = value_t::object;
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for (auto& element : init)
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{
m_value.object->emplace(std::move(*(element[0].m_value.string)), std::move(element[1]));
}
}
else
{
// the initializer list describes an array -> create array
m_type = value_t::array;
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AllocatorType<array_t> alloc;
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m_value.array = alloc.allocate(1);
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alloc.construct(m_value.array, std::move(init));
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}
}
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/// explicitly create an array from an initializer list
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inline static basic_json array(list_init_t init = list_init_t())
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{
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return basic_json(init, false, value_t::array);
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}
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/// explicitly create an object from an initializer list
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inline static basic_json object(list_init_t init = list_init_t())
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{
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return basic_json(init, false, value_t::object);
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}
/// construct an array with count copies of given value
inline basic_json(size_type count, const basic_json& other)
: m_type(value_t::array)
{
AllocatorType<array_t> alloc;
m_value.array = alloc.allocate(1);
alloc.construct(m_value.array, count, other);
}
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/// construct a JSON container given an iterator range
template <class T, typename
std::enable_if<
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std::is_same<T, typename basic_json::iterator>::value or
std::is_same<T, typename basic_json::const_iterator>::value
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, int>::type
= 0>
inline basic_json(T first, T last)
{
// make sure iterator fits the current value
if (first.m_object != last.m_object or
first.m_object->m_type != last.m_object->m_type)
{
throw std::runtime_error("iterators are not compatible");
}
// set the type
m_type = first.m_object->m_type;
// check if iterator range is complete for non-compound values
switch (m_type)
{
case value_t::number_integer:
case value_t::number_float:
case value_t::boolean:
case value_t::string:
{
if (first.m_it.generic_iterator != 0 or last.m_it.generic_iterator != 1)
{
throw std::out_of_range("iterators out of range");
}
break;
}
default:
{
break;
}
}
switch (m_type)
{
case value_t::number_integer:
{
m_value.number_integer = first.m_object->m_value.number_integer;
break;
}
case value_t::number_float:
{
m_value.number_float = first.m_object->m_value.number_float;
break;
}
case value_t::boolean:
{
m_value.boolean = first.m_object->m_value.boolean;
break;
}
case value_t::string:
{
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m_value = *first.m_object->m_value.string;
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break;
}
case value_t::object:
{
AllocatorType<object_t> alloc;
m_value.object = alloc.allocate(1);
alloc.construct(m_value.object, first.m_it.object_iterator, last.m_it.object_iterator);
break;
}
case value_t::array:
{
AllocatorType<array_t> alloc;
m_value.array = alloc.allocate(1);
alloc.construct(m_value.array, first.m_it.array_iterator, last.m_it.array_iterator);
break;
}
default:
{
throw std::runtime_error("cannot use construct with iterators from " + first.m_object->type_name());
}
}
}
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///////////////////////////////////////
// other constructors and destructor //
///////////////////////////////////////
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/*!
@brief copy constructor
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@exception std::bad_alloc if allocation for object, array, or string fails.
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@ingroup container
*/
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inline basic_json(const basic_json& other)
: m_type(other.m_type)
{
switch (m_type)
{
case (value_t::null):
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case (value_t::discarded):
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{
break;
}
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case (value_t::object):
{
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m_value = *other.m_value.object;
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break;
}
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case (value_t::array):
{
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m_value = *other.m_value.array;
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break;
}
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2015-01-31 19:13:11 +00:00
case (value_t::string):
{
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m_value = *other.m_value.string;
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break;
}
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case (value_t::boolean):
{
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m_value = other.m_value.boolean;
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break;
}
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case (value_t::number_integer):
{
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m_value = other.m_value.number_integer;
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break;
}
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case (value_t::number_float):
{
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m_value = other.m_value.number_float;
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break;
}
}
}
/// move constructor
inline basic_json(basic_json&& other) noexcept
: m_type(std::move(other.m_type)),
m_value(std::move(other.m_value))
{
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// invalidate payload
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other.m_type = value_t::null;
other.m_value = {};
}
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/*!
@brief copy assignment
@ingroup container
*/
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inline reference& operator=(basic_json other) noexcept (
std::is_nothrow_move_constructible<value_t>::value and
std::is_nothrow_move_assignable<value_t>::value and
std::is_nothrow_move_constructible<json_value>::value and
std::is_nothrow_move_assignable<json_value>::value
)
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{
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using std::swap;
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std::swap(m_type, other.m_type);
std::swap(m_value, other.m_value);
return *this;
}
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/*!
@brief destructor
@ingroup container
*/
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inline ~basic_json() noexcept
{
switch (m_type)
{
case (value_t::object):
{
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AllocatorType<object_t> alloc;
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alloc.destroy(m_value.object);
alloc.deallocate(m_value.object, 1);
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m_value.object = nullptr;
break;
}
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case (value_t::array):
{
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AllocatorType<array_t> alloc;
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alloc.destroy(m_value.array);
alloc.deallocate(m_value.array, 1);
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m_value.array = nullptr;
break;
}
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case (value_t::string):
{
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AllocatorType<string_t> alloc;
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alloc.destroy(m_value.string);
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alloc.deallocate(m_value.string, 1);
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m_value.string = nullptr;
break;
}
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default:
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{
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// all other types need no specific destructor
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break;
}
}
}
public:
///////////////////////
// object inspection //
///////////////////////
/*!
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@brief serialization
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Serialization function for JSON objects. The function tries to mimick
Python's @p json.dumps() function, and currently supports its @p indent
parameter.
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@param indent sif indent is nonnegative, then array elements and object
members will be pretty-printed with that indent level. An indent level of 0
will only insert newlines. -1 (the default) selects the most compact
representation
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@see https://docs.python.org/2/library/json.html#json.dump
*/
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inline string_t dump(const int indent = -1) const noexcept
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{
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std::stringstream ss;
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if (indent >= 0)
{
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dump(ss, true, static_cast<unsigned int>(indent));
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}
else
{
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dump(ss, false, 0);
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}
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return ss.str();
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}
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/// return the type of the object (explicit)
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inline value_t type() const noexcept
{
return m_type;
}
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// return whether value is null
inline bool is_null() const noexcept
{
return m_type == value_t::null;
}
// return whether value is boolean
inline bool is_boolean() const noexcept
{
return m_type == value_t::boolean;
}
// return whether value is number
inline bool is_number() const noexcept
{
return (m_type == value_t::number_integer) or (m_type == value_t::number_float);
}
// return whether value is object
inline bool is_object() const noexcept
{
return m_type == value_t::object;
}
// return whether value is array
inline bool is_array() const noexcept
{
return m_type == value_t::array;
}
// return whether value is string
inline bool is_string() const noexcept
{
return m_type == value_t::string;
}
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// return whether value is discarded
inline bool is_discarded() const noexcept
{
return m_type == value_t::discarded;
}
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/// return the type of the object (implicit)
inline operator value_t() const noexcept
{
return m_type;
}
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private:
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//////////////////////
// value conversion //
//////////////////////
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/// get an object (explicit)
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template <class T, typename
std::enable_if<
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std::is_convertible<typename object_t::key_type, typename T::key_type>::value and
std::is_convertible<basic_json, typename T::mapped_type>::value
, int>::type = 0>
inline T get_impl(T*) const
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{
switch (m_type)
{
case (value_t::object):
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{
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return T(m_value.object->begin(), m_value.object->end());
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}
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default:
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{
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throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
2015-04-08 20:23:40 +00:00
}
}
}
/// get an object (explicit)
inline object_t get_impl(object_t*) const
{
switch (m_type)
{
case (value_t::object):
{
return *(m_value.object);
}
default:
{
throw std::logic_error("cannot cast " + type_name() + " to object");
}
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}
}
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/// get an array (explicit)
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template <class T, typename
std::enable_if<
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std::is_convertible<basic_json, typename T::value_type>::value and
not std::is_same<basic_json, typename T::value_type>::value and
not std::is_arithmetic<T>::value and
not std::is_convertible<std::string, T>::value and
not has_mapped_type<T>::value
, int>::type = 0>
inline T get_impl(T*) const
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{
switch (m_type)
{
case (value_t::array):
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{
T to_vector;
std::transform(m_value.array->begin(), m_value.array->end(),
std::inserter(to_vector, to_vector.end()), [](basic_json i)
{
return i.get<typename T::value_type>();
});
return to_vector;
}
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default:
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{
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throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
2015-04-08 20:23:40 +00:00
}
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}
}
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/// get an array (explicit)
template <class T, typename
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std::enable_if<
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std::is_convertible<basic_json, T>::value and
not std::is_same<basic_json, T>::value
, int>::type = 0>
inline std::vector<T> get_impl(std::vector<T>*) const
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{
switch (m_type)
{
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case (value_t::array):
{
std::vector<T> to_vector;
to_vector.reserve(m_value.array->size());
std::transform(m_value.array->begin(), m_value.array->end(),
std::inserter(to_vector, to_vector.end()), [](basic_json i)
{
return i.get<T>();
});
return to_vector;
}
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default:
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{
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throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
2015-04-08 20:23:40 +00:00
}
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}
}
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/// get an array (explicit)
template <class T, typename
std::enable_if<
std::is_same<basic_json, typename T::value_type>::value and
not has_mapped_type<T>::value
, int>::type = 0>
inline T get_impl(T*) const
{
switch (m_type)
{
case (value_t::array):
{
return T(m_value.array->begin(), m_value.array->end());
}
default:
{
throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
}
}
}
inline array_t get_impl(array_t*) const
{
switch (m_type)
{
case (value_t::array):
{
return *(m_value.array);
}
default:
{
throw std::logic_error("cannot cast " + type_name() + " to array");
}
}
}
/// get a string (explicit)
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template <typename T, typename
std::enable_if<
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std::is_convertible<string_t, T>::value
, int>::type = 0>
inline T get_impl(T*) const
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{
switch (m_type)
{
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case (value_t::string):
{
return *m_value.string;
}
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default:
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{
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throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
2015-04-08 20:23:40 +00:00
}
2015-01-31 19:13:11 +00:00
}
}
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/// get a number (explicit)
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template<typename T, typename
std::enable_if<
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std::is_arithmetic<T>::value
, int>::type = 0>
inline T get_impl(T*) const
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{
switch (m_type)
{
case (value_t::number_integer):
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{
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return static_cast<T>(m_value.number_integer);
2015-04-08 20:23:40 +00:00
}
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case (value_t::number_float):
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{
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return static_cast<T>(m_value.number_float);
2015-04-08 20:23:40 +00:00
}
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default:
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{
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throw std::logic_error("cannot cast " + type_name() + " to " + typeid(T).name());
2015-04-08 20:23:40 +00:00
}
}
}
/// get a boolean (explicit)
inline boolean_t get_impl(boolean_t*) const
{
switch (m_type)
{
case (value_t::boolean):
{
return m_value.boolean;
}
default:
{
throw std::logic_error("cannot cast " + type_name() + " to " + typeid(boolean_t).name());
}
2015-01-31 19:13:11 +00:00
}
}
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public:
/// get a value (explicit)
// <http://stackoverflow.com/a/8315197/266378>
template<typename T>
inline T get() const
{
return get_impl(static_cast<T*>(nullptr));
}
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/// get a value (implicit)
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template<typename T>
inline operator T() const
{
return get<T>();
}
////////////////////
// element access //
////////////////////
/// access specified element with bounds checking
inline reference at(size_type idx)
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{
// at only works for arrays
if (m_type != value_t::array)
{
throw std::runtime_error("cannot use at with " + type_name());
}
return m_value.array->at(idx);
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}
/// access specified element with bounds checking
inline const_reference at(size_type idx) const
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{
// at only works for arrays
if (m_type != value_t::array)
{
throw std::runtime_error("cannot use at with " + type_name());
}
return m_value.array->at(idx);
}
/// access specified element with bounds checking
inline reference at(const typename object_t::key_type& key)
{
// at only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use at with " + type_name());
}
return m_value.object->at(key);
}
/// access specified element with bounds checking
inline const_reference at(const typename object_t::key_type& key) const
{
// at only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use at with " + type_name());
}
return m_value.object->at(key);
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}
/// access specified element
inline reference operator[](size_type idx)
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{
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// implicitly convert null to object
if (m_type == value_t::null)
{
m_type = value_t::array;
2015-04-11 17:26:12 +00:00
AllocatorType<array_t> alloc;
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m_value.array = alloc.allocate(1);
alloc.construct(m_value.array);
}
// [] only works for arrays
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if (m_type != value_t::array)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
for (size_t i = m_value.array->size(); i <= idx; ++i)
2015-02-21 12:24:07 +00:00
{
m_value.array->push_back(basic_json());
}
return m_value.array->operator[](idx);
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}
/// access specified element
inline const_reference operator[](size_type idx) const
2015-01-31 19:13:11 +00:00
{
// at only works for arrays
if (m_type != value_t::array)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
return m_value.array->operator[](idx);
2015-01-31 19:13:11 +00:00
}
/// access specified element
inline reference operator[](const typename object_t::key_type& key)
{
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// implicitly convert null to object
if (m_type == value_t::null)
{
m_type = value_t::object;
2015-04-11 17:26:12 +00:00
AllocatorType<object_t> alloc;
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m_value.object = alloc.allocate(1);
alloc.construct(m_value.object);
}
2015-02-21 12:24:07 +00:00
// [] only works for objects
2015-01-31 19:13:11 +00:00
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
return m_value.object->operator[](key);
}
/// access specified element
inline const_reference operator[](const typename object_t::key_type& key) const
{
// at only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
return m_value.object->operator[](key);
}
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/// access specified element (needed for clang)
2015-04-11 17:26:12 +00:00
template<typename T, std::size_t n>
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inline reference operator[](const T (&key)[n])
{
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// implicitly convert null to object
if (m_type == value_t::null)
{
m_type = value_t::object;
2015-05-10 15:30:41 +00:00
m_value = value_t::object;
2015-02-18 21:28:56 +00:00
}
2015-01-31 19:13:11 +00:00
// at only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
return m_value.object->operator[](key);
}
/// access specified element (needed for clang)
2015-04-11 17:26:12 +00:00
template<typename T, std::size_t n>
inline const_reference operator[](const T (&key)[n]) const
{
// at only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use [] with " + type_name());
}
return m_value.object->operator[](key);
}
2015-04-12 12:14:00 +00:00
/// access the first element
inline reference front()
{
return *begin();
}
/// access the first element
inline const_reference front() const
{
return *cbegin();
}
/// access the last element
inline reference back()
{
auto tmp = end();
--tmp;
return *tmp;
}
/// access the last element
inline const_reference back() const
{
auto tmp = cend();
--tmp;
return *tmp;
}
/// remove element given an iterator
template <class T, typename
std::enable_if<
2015-04-27 21:09:51 +00:00
std::is_same<T, typename basic_json::iterator>::value or
std::is_same<T, typename basic_json::const_iterator>::value
, int>::type
= 0>
inline T erase(T pos)
{
// make sure iterator fits the current value
if (this != pos.m_object or m_type != pos.m_object->m_type)
{
throw std::runtime_error("iterator does not fit current value");
}
T result = end();
switch (m_type)
{
case value_t::number_integer:
case value_t::number_float:
case value_t::boolean:
case value_t::string:
{
if (pos.m_it.generic_iterator != 0)
{
throw std::out_of_range("iterator out of range");
}
if (m_type == value_t::string)
{
delete m_value.string;
m_value.string = nullptr;
}
m_type = value_t::null;
break;
}
case value_t::object:
{
result.m_it.object_iterator = m_value.object->erase(pos.m_it.object_iterator);
break;
}
case value_t::array:
{
result.m_it.array_iterator = m_value.array->erase(pos.m_it.array_iterator);
break;
}
default:
{
throw std::runtime_error("cannot use erase with " + type_name());
}
}
return result;
}
/// remove elements given an iterator range
template <class T, typename
std::enable_if<
2015-04-27 21:09:51 +00:00
std::is_same<T, typename basic_json::iterator>::value or
std::is_same<T, typename basic_json::const_iterator>::value
, int>::type
= 0>
inline T erase(T first, T last)
{
// make sure iterator fits the current value
if (this != first.m_object or this != last.m_object or
m_type != first.m_object->m_type or m_type != last.m_object->m_type)
{
throw std::runtime_error("iterators do not fit current value");
}
T result = end();
switch (m_type)
{
case value_t::number_integer:
case value_t::number_float:
case value_t::boolean:
case value_t::string:
{
if (first.m_it.generic_iterator != 0 or last.m_it.generic_iterator != 1)
{
throw std::out_of_range("iterators out of range");
}
if (m_type == value_t::string)
{
delete m_value.string;
m_value.string = nullptr;
}
m_type = value_t::null;
break;
}
case value_t::object:
{
result.m_it.object_iterator = m_value.object->erase(first.m_it.object_iterator,
last.m_it.object_iterator);
break;
}
case value_t::array:
{
result.m_it.array_iterator = m_value.array->erase(first.m_it.array_iterator,
last.m_it.array_iterator);
break;
}
default:
{
throw std::runtime_error("cannot use erase with " + type_name());
}
}
return result;
}
/// remove element from an object given a key
inline size_type erase(const typename object_t::key_type& key)
{
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// this erase only works for objects
if (m_type != value_t::object)
{
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throw std::runtime_error("cannot use erase with " + type_name());
}
return m_value.object->erase(key);
}
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/// remove element from an array given an index
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inline void erase(const size_type idx)
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{
// this erase only works for arrays
if (m_type != value_t::array)
{
throw std::runtime_error("cannot use erase with " + type_name());
}
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if (idx >= size())
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{
throw std::out_of_range("index out of range");
}
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m_value.array->erase(m_value.array->begin() + static_cast<difference_type>(idx));
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}
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/// find an element in an object
inline iterator find(typename object_t::key_type key)
{
auto result = end();
if (m_type == value_t::object)
{
result.m_it.object_iterator = m_value.object->find(key);
}
return result;
}
/// find an element in an object
inline const_iterator find(typename object_t::key_type key) const
{
auto result = cend();
if (m_type == value_t::object)
{
result.m_it.object_iterator = m_value.object->find(key);
}
return result;
}
/// returns the number of occurrences of a key in an object
inline size_type count(typename object_t::key_type key) const
{
// return 0 for all nonobject types
return (m_type == value_t::object) ? m_value.object->count(key) : 0;
}
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///////////////
// iterators //
///////////////
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/*!
@brief returns an iterator to the first element
@ingroup container
*/
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inline iterator begin() noexcept
{
iterator result(this);
result.set_begin();
return result;
}
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/*!
@brief returns a const iterator to the first element
@ingroup container
*/
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inline const_iterator begin() const noexcept
{
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return cbegin();
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}
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/*!
@brief returns a const iterator to the first element
@ingroup container
*/
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inline const_iterator cbegin() const noexcept
{
const_iterator result(this);
result.set_begin();
return result;
}
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/*!
@brief returns an iterator to one past the last element
@ingroup container
*/
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inline iterator end() noexcept
{
iterator result(this);
result.set_end();
return result;
}
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/*!
@brief returns a const iterator to one past the last element
@ingroup container
*/
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inline const_iterator end() const noexcept
{
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return cend();
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}
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/*!
@brief returns a const iterator to one past the last element
@ingroup container
*/
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inline const_iterator cend() const noexcept
{
const_iterator result(this);
result.set_end();
return result;
}
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/*!
@brief returns a reverse iterator to the first element
@ingroup reversiblecontainer
*/
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inline reverse_iterator rbegin() noexcept
{
return reverse_iterator(end());
}
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/*!
@brief returns a const reverse iterator to the first element
@ingroup reversiblecontainer
*/
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inline const_reverse_iterator rbegin() const noexcept
{
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return crbegin();
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}
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/*!
@brief returns a reverse iterator to one past the last element
@ingroup reversiblecontainer
*/
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inline reverse_iterator rend() noexcept
{
return reverse_iterator(begin());
}
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/*!
@brief returns a const reverse iterator to one past the last element
@ingroup reversiblecontainer
*/
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inline const_reverse_iterator rend() const noexcept
{
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return crend();
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}
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/*!
@brief returns a const reverse iterator to the first element
@ingroup reversiblecontainer
*/
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inline const_reverse_iterator crbegin() const noexcept
{
return const_reverse_iterator(cend());
}
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/*!
@brief returns a const reverse iterator to one past the last element
@ingroup reversiblecontainer
*/
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inline const_reverse_iterator crend() const noexcept
{
return const_reverse_iterator(cbegin());
}
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//////////////
// capacity //
//////////////
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/*!
@brief checks whether the container is empty
@ingroup container
*/
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inline bool empty() const noexcept
{
switch (m_type)
{
case (value_t::null):
{
return true;
}
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case (value_t::array):
{
return m_value.array->empty();
}
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case (value_t::object):
{
return m_value.object->empty();
}
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default:
{
// all other types are nonempty
return false;
}
}
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}
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/*!
@brief returns the number of elements
@ingroup container
*/
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inline size_type size() const noexcept
{
switch (m_type)
{
case (value_t::null):
{
return 0;
}
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case (value_t::array):
{
return m_value.array->size();
}
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case (value_t::object):
{
return m_value.object->size();
}
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default:
{
// all other types have size 1
return 1;
}
}
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}
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/*!
@brief returns the maximum possible number of elements
@ingroup container
*/
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inline size_type max_size() const noexcept
{
switch (m_type)
{
case (value_t::null):
{
return 0;
}
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case (value_t::array):
{
return m_value.array->max_size();
}
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case (value_t::object):
{
return m_value.object->max_size();
}
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default:
{
// all other types have max_size 1
return 1;
}
}
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}
///////////////
// modifiers //
///////////////
/// clears the contents
inline void clear() noexcept
{
switch (m_type)
{
case (value_t::null):
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case (value_t::discarded):
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{
break;
}
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case (value_t::number_integer):
{
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m_value.number_integer = 0;
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break;
}
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case (value_t::number_float):
{
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m_value.number_float = 0.0;
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break;
}
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case (value_t::boolean):
{
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m_value.boolean = false;
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break;
}
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case (value_t::string):
{
m_value.string->clear();
break;
}
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case (value_t::array):
{
m_value.array->clear();
break;
}
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case (value_t::object):
{
m_value.object->clear();
break;
}
}
}
/// add an object to an array
inline void push_back(basic_json&& value)
{
// push_back only works for null objects or arrays
if (not(m_type == value_t::null or m_type == value_t::array))
{
throw std::runtime_error("cannot add element to " + type_name());
}
// transform null object into an array
if (m_type == value_t::null)
{
m_type = value_t::array;
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m_value = value_t::array;
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}
// add element to array (move semantics)
m_value.array->push_back(std::move(value));
// invalidate object
value.m_type = value_t::null;
}
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/// add an object to an array
inline reference operator+=(basic_json&& value)
{
push_back(std::move(value));
return *this;
}
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/// add an object to an array
inline void push_back(const basic_json& value)
{
// push_back only works for null objects or arrays
if (not(m_type == value_t::null or m_type == value_t::array))
{
throw std::runtime_error("cannot add element to " + type_name());
}
// transform null object into an array
if (m_type == value_t::null)
{
m_type = value_t::array;
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m_value = value_t::array;
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}
// add element to array
m_value.array->push_back(value);
}
/// add an object to an array
inline reference operator+=(const basic_json& value)
{
push_back(value);
return *this;
}
/// add an object to an object
inline void push_back(const typename object_t::value_type& value)
{
// push_back only works for null objects or objects
if (not(m_type == value_t::null or m_type == value_t::object))
{
throw std::runtime_error("cannot add element to " + type_name());
}
// transform null object into an object
if (m_type == value_t::null)
{
m_type = value_t::object;
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m_value = value_t::object;
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}
// add element to array
m_value.object->insert(value);
}
/// add an object to an object
inline reference operator+=(const typename object_t::value_type& value)
{
push_back(value);
return operator[](value.first);
}
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/*!
@brief exchanges the values
@ingroup container
*/
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inline void swap(reference other) noexcept (
std::is_nothrow_move_constructible<value_t>::value and
std::is_nothrow_move_assignable<value_t>::value and
std::is_nothrow_move_constructible<json_value>::value and
std::is_nothrow_move_assignable<json_value>::value
)
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{
std::swap(m_type, other.m_type);
std::swap(m_value, other.m_value);
}
/// swaps the contents
inline void swap(array_t& other)
{
// swap only works for arrays
if (m_type != value_t::array)
{
throw std::runtime_error("cannot use swap with " + type_name());
}
// swap arrays
std::swap(*(m_value.array), other);
}
/// swaps the contents
inline void swap(object_t& other)
{
// swap only works for objects
if (m_type != value_t::object)
{
throw std::runtime_error("cannot use swap with " + type_name());
}
// swap arrays
std::swap(*(m_value.object), other);
}
/// swaps the contents
inline void swap(string_t& other)
{
// swap only works for strings
if (m_type != value_t::string)
{
throw std::runtime_error("cannot use swap with " + type_name());
}
// swap arrays
std::swap(*(m_value.string), other);
}
//////////////////////////////////////////
// lexicographical comparison operators //
//////////////////////////////////////////
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/*!
@brief comparison: equal
@ingroup container
*/
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friend bool operator==(const_reference lhs, const_reference rhs) noexcept
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{
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const auto lhs_type = lhs.type();
const auto rhs_type = rhs.type();
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if (lhs_type == rhs_type)
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{
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switch (lhs_type)
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{
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case (value_t::array):
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return *lhs.m_value.array == *rhs.m_value.array;
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case (value_t::object):
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return *lhs.m_value.object == *rhs.m_value.object;
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case (value_t::null):
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return true;
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case (value_t::string):
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return *lhs.m_value.string == *rhs.m_value.string;
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case (value_t::boolean):
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return lhs.m_value.boolean == rhs.m_value.boolean;
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case (value_t::number_integer):
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return lhs.m_value.number_integer == rhs.m_value.number_integer;
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case (value_t::number_float):
return approx(lhs.m_value.number_float, rhs.m_value.number_float);
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case (value_t::discarded):
return false;
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}
}
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else if (lhs_type == value_t::number_integer and rhs_type == value_t::number_float)
{
return approx(static_cast<number_float_t>(lhs.m_value.number_integer),
rhs.m_value.number_float);
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}
else if (lhs_type == value_t::number_float and rhs_type == value_t::number_integer)
{
return approx(lhs.m_value.number_float,
static_cast<number_float_t>(rhs.m_value.number_integer));
}
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return false;
}
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/*!
@brief comparison: not equal
@ingroup container
*/
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friend bool operator!=(const_reference lhs, const_reference rhs) noexcept
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{
return not (lhs == rhs);
}
/// comparison: less than
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friend bool operator<(const_reference lhs, const_reference rhs) noexcept
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{
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const auto lhs_type = lhs.type();
const auto rhs_type = rhs.type();
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if (lhs_type == rhs_type)
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{
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switch (lhs_type)
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{
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case (value_t::array):
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return *lhs.m_value.array < *rhs.m_value.array;
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case (value_t::object):
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return *lhs.m_value.object < *rhs.m_value.object;
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case (value_t::null):
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return false;
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case (value_t::string):
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return *lhs.m_value.string < *rhs.m_value.string;
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case (value_t::boolean):
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return lhs.m_value.boolean < rhs.m_value.boolean;
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case (value_t::number_integer):
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return lhs.m_value.number_integer < rhs.m_value.number_integer;
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case (value_t::number_float):
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return lhs.m_value.number_float < rhs.m_value.number_float;
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case (value_t::discarded):
return false;
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}
}
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else if (lhs_type == value_t::number_integer and rhs_type == value_t::number_float)
{
return static_cast<number_float_t>(lhs.m_value.number_integer) <
rhs.m_value.number_float;
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}
else if (lhs_type == value_t::number_float and rhs_type == value_t::number_integer)
{
return lhs.m_value.number_float <
static_cast<number_float_t>(rhs.m_value.number_integer);
}
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// We only reach this line if we cannot compare values. In that case,
// we compare types.
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return lhs_type < rhs_type;
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}
/// comparison: less than or equal
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friend bool operator<=(const_reference lhs, const_reference rhs) noexcept
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{
return not (rhs < lhs);
}
/// comparison: greater than
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friend bool operator>(const_reference lhs, const_reference rhs) noexcept
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{
return not (lhs <= rhs);
}
/// comparison: greater than or equal
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friend bool operator>=(const_reference lhs, const_reference rhs) noexcept
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{
return not (lhs < rhs);
}
///////////////////
// serialization //
///////////////////
/// serialize to stream
friend std::ostream& operator<<(std::ostream& o, const basic_json& j)
{
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// read width member and use it as indentation parameter if nonzero
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const bool prettyPrint = (o.width() > 0);
const auto indentation = (prettyPrint ? o.width() : 0);
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// reset width to 0 for subsequent calls to this stream
o.width(0);
// do the actual serialization
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j.dump(o, prettyPrint, static_cast<int>(indentation));
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return o;
}
/// serialize to stream
friend std::ostream& operator>>(const basic_json& j, std::ostream& o)
{
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o << j;
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return o;
}
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/////////////////////
// deserialization //
/////////////////////
/// deserialize from string
static basic_json parse(const string_t& s, parser_callback_t cb = nullptr)
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{
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return parser(s, cb).parse();
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}
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/// deserialize from stream
static basic_json parse(std::istream& i, parser_callback_t cb = nullptr)
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{
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return parser(i, cb).parse();
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}
/// deserialize from stream
friend std::istream& operator>>(std::istream& i, basic_json& j)
{
j = parser(i).parse();
return i;
}
/// deserialize from stream
friend std::istream& operator<<(basic_json& j, std::istream& i)
{
j = parser(i).parse();
return i;
}
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private:
///////////////////////////
// convenience functions //
///////////////////////////
/// return the type as string
inline string_t type_name() const noexcept
{
switch (m_type)
{
case (value_t::null):
{
return "null";
}
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case (value_t::object):
{
return "object";
}
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case (value_t::array):
{
return "array";
}
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case (value_t::string):
{
return "string";
}
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case (value_t::boolean):
{
return "boolean";
}
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case (value_t::discarded):
{
return "discarded";
}
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default:
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{
return "number";
}
}
}
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/*!
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@brief escape a string
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Escape a string by replacing certain special characters by a sequence of an
escape character (backslash) and another character and other control
characters by a sequence of "\u" followed by a four-digit hex
representation.
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@param o the stream to write the escaped string to
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@param s the string to escape
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*/
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static void escape_string(std::ostream& o, const string_t& s) noexcept
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{
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for (const auto c : s)
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{
switch (c)
{
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// quotation mark (0x22)
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case '"':
{
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o << "\\\"";
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break;
}
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// reverse solidus (0x5c)
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case '\\':
{
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o << "\\\\";
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break;
}
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// backspace (0x08)
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case '\b':
{
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o << "\\b";
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break;
}
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// formfeed (0x0c)
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case '\f':
{
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o << "\\f";
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break;
}
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// newline (0x0a)
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case '\n':
{
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o << "\\n";
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break;
}
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// carriage return (0x0d)
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case '\r':
{
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o << "\\r";
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break;
}
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// horizontal tab (0x09)
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case '\t':
{
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o << "\\t";
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break;
}
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default:
{
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if (c >= 0 and c <= 0x1f)
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{
// control characters (everything between 0x00 and 0x1f)
// -> create four-digit hex representation
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o << "\\u" << std::hex << std::setw(4) << std::setfill('0') << int(c);
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}
else
{
// all other characters are added as-is
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o << c;
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}
break;
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}
}
}
}
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/*!
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@brief internal implementation of the serialization function
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This function is called by the public member function dump and organizes
the serializaion internally. The indentation level is propagated as
additional parameter. In case of arrays and objects, the function is called
recursively. Note that
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- strings and object keys are escaped using escape_string()
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- integer numbers are converted implictly via operator<<
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- floating-point numbers are converted to a string using "%g" format
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@param o stream to write to
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@param prettyPrint whether the output shall be pretty-printed
@param indentStep the indent level
@param currentIndent the current indent level (only used internally)
*/
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inline void dump(std::ostream& o, const bool prettyPrint, const unsigned int indentStep,
const unsigned int currentIndent = 0) const noexcept
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{
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// variable to hold indentation for recursive calls
auto new_indent = currentIndent;
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switch (m_type)
{
case (value_t::object):
{
if (m_value.object->empty())
{
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o << "{}";
return;
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}
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o << "{";
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// increase indentation
if (prettyPrint)
{
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new_indent += indentStep;
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o << "\n";
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}
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for (auto i = m_value.object->cbegin(); i != m_value.object->cend(); ++i)
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{
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if (i != m_value.object->cbegin())
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{
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o << (prettyPrint ? ",\n" : ",");
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}
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o << string_t(new_indent, ' ') << "\"";
escape_string(o, i->first);
o << "\":" << (prettyPrint ? " " : "");
i->second.dump(o, prettyPrint, indentStep, new_indent);
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}
// decrease indentation
if (prettyPrint)
{
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new_indent -= indentStep;
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o << "\n";
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}
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o << string_t(new_indent, ' ') + "}";
return;
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}
case (value_t::array):
{
if (m_value.array->empty())
{
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o << "[]";
return;
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}
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o << "[";
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// increase indentation
if (prettyPrint)
{
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new_indent += indentStep;
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o << "\n";
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}
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for (auto i = m_value.array->cbegin(); i != m_value.array->cend(); ++i)
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{
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if (i != m_value.array->cbegin())
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{
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o << (prettyPrint ? ",\n" : ",");
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}
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o << string_t(new_indent, ' ');
i->dump(o, prettyPrint, indentStep, new_indent);
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}
// decrease indentation
if (prettyPrint)
{
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new_indent -= indentStep;
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o << "\n";
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}
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o << string_t(new_indent, ' ') << "]";
return;
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}
case (value_t::string):
{
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o << string_t("\"");
escape_string(o, *m_value.string);
o << "\"";
return;
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}
case (value_t::boolean):
{
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o << (m_value.boolean ? "true" : "false");
return;
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}
case (value_t::number_integer):
{
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o << m_value.number_integer;
return;
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}
case (value_t::number_float):
{
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// 15 digits of precision allows round-trip IEEE 754
// string->double->string
o << std::setprecision(15) << m_value.number_float;
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return;
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}
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case (value_t::discarded):
{
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o << "<discarded>";
return;
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}
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default:
{
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o << "null";
return;
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}
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}
}
/// "equality" comparison for floating point numbers
template<typename T>
inline static bool approx(const T a, const T b)
{
return not (a > b or a < b);
}
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private:
//////////////////////
// member variables //
//////////////////////
/// the type of the current element
value_t m_type = value_t::null;
/// the value of the current element
json_value m_value = {};
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private:
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///////////////
// iterators //
///////////////
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/// an iterator value
union internal_iterator
{
/// iterator for JSON objects
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typename object_t::iterator object_iterator;
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/// iterator for JSON arrays
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typename array_t::iterator array_iterator;
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/// generic iterator for all other value types
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difference_type generic_iterator;
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/// default constructor
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internal_iterator() : generic_iterator(-1) {}
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};
public:
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/// a random access iterator for the basic_json class
class iterator : public std::iterator<std::random_access_iterator_tag, basic_json>
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{
// allow basic_json class to access m_it
friend class basic_json;
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public:
/// the type of the values when the iterator is dereferenced
using value_type = typename basic_json::value_type;
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/// a type to represent differences between iterators
using difference_type = typename basic_json::difference_type;
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/// defines a pointer to the type iterated over (value_type)
using pointer = typename basic_json::pointer;
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/// defines a reference to the type iterated over (value_type)
using reference = typename basic_json::reference;
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/// the category of the iterator
using iterator_category = typename std::bidirectional_iterator_tag;
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/// default constructor
inline iterator() = default;
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/// constructor for a given JSON instance
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inline iterator(pointer object) noexcept : m_object(object)
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{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator = typename object_t::iterator();
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator = typename array_t::iterator();
break;
}
default:
{
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m_it.generic_iterator = -1;
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break;
}
}
}
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/// copy constructor
inline iterator(const iterator& other) noexcept
: m_object(other.m_object), m_it(other.m_it)
{}
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/// copy assignment
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inline iterator& operator=(iterator other) noexcept (
std::is_nothrow_move_constructible<pointer>::value and
std::is_nothrow_move_assignable<pointer>::value and
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std::is_nothrow_move_constructible<internal_iterator>::value and
std::is_nothrow_move_assignable<internal_iterator>::value
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)
{
std::swap(m_object, other.m_object);
std::swap(m_it, other.m_it);
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return *this;
}
private:
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/// set the iterator to the first value
inline void set_begin() noexcept
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator = m_object->m_value.object->begin();
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator = m_object->m_value.array->begin();
break;
}
case (basic_json::value_t::null):
{
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// set to end so begin()==end() is true: null is empty
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m_it.generic_iterator = 1;
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break;
}
default:
{
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m_it.generic_iterator = 0;
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break;
}
}
}
/// set the iterator past the last value
inline void set_end() noexcept
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator = m_object->m_value.object->end();
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator = m_object->m_value.array->end();
break;
}
default:
{
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m_it.generic_iterator = 1;
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break;
}
}
}
public:
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/// return a reference to the value pointed to by the iterator
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inline reference operator*()
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{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return m_it.object_iterator->second;
}
case (basic_json::value_t::array):
{
return *m_it.array_iterator;
}
case (basic_json::value_t::null):
{
throw std::out_of_range("cannot get value");
}
default:
{
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if (m_it.generic_iterator == 0)
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{
return *m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// dereference the iterator
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inline pointer operator->()
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{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return &(m_it.object_iterator->second);
}
case (basic_json::value_t::array):
{
return &*m_it.array_iterator;
}
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case (basic_json::value_t::null):
{
throw std::out_of_range("cannot get value");
}
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default:
{
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if (m_it.generic_iterator == 0)
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{
return m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// post-increment (it++)
inline iterator operator++(int)
{
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auto result = *this;
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switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator++;
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator++;
break;
}
default:
{
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m_it.generic_iterator++;
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break;
}
}
return result;
}
/// pre-increment (++it)
inline iterator& operator++()
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
++m_it.object_iterator;
break;
}
case (basic_json::value_t::array):
{
++m_it.array_iterator;
break;
}
default:
{
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++m_it.generic_iterator;
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break;
}
}
return *this;
}
/// post-decrement (it--)
inline iterator operator--(int)
{
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auto result = *this;
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switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator--;
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator--;
break;
}
default:
{
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m_it.generic_iterator--;
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break;
}
}
return result;
}
/// pre-decrement (--it)
inline iterator& operator--()
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
--m_it.object_iterator;
break;
}
case (basic_json::value_t::array):
{
--m_it.array_iterator;
break;
}
default:
{
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--m_it.generic_iterator;
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break;
}
}
return *this;
}
/// comparison: equal
inline bool operator==(const iterator& other) const
{
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// if objects are not the same, the comparison is undefined
if (m_object != other.m_object)
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{
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throw std::domain_error("cannot compare iterators of different containers");
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}
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return (m_it.object_iterator == other.m_it.object_iterator);
}
case (basic_json::value_t::array):
{
return (m_it.array_iterator == other.m_it.array_iterator);
}
default:
{
return (m_it.generic_iterator == other.m_it.generic_iterator);
}
}
}
/// comparison: not equal
inline bool operator!=(const iterator& other) const
{
return not operator==(other);
}
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/// comparison: smaller
inline bool operator<(const iterator& other) const
{
// if objects are not the same, the comparison is undefined
if (m_object != other.m_object)
{
throw std::domain_error("cannot compare iterators of different containers");
}
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator< for object iterators");
}
case (basic_json::value_t::array):
{
return (m_it.array_iterator < other.m_it.array_iterator);
}
default:
{
return (m_it.generic_iterator < other.m_it.generic_iterator);
}
}
}
/// comparison: less than or equal
inline bool operator<=(const iterator& other) const
{
return not other.operator < (*this);
}
/// comparison: greater than
inline bool operator>(const iterator& other) const
{
return not operator<=(other);
}
/// comparison: greater than or equal
inline bool operator>=(const iterator& other) const
{
return not operator<(other);
}
/// add to iterator
inline iterator& operator+=(difference_type i)
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator+= for object iterators");
}
case (basic_json::value_t::array):
{
m_it.array_iterator += i;
break;
}
default:
{
m_it.generic_iterator += i;
break;
}
}
return *this;
}
/// subtract from iterator
inline iterator& operator-=(difference_type i)
{
return operator+=(-i);
}
/// add to iterator
inline iterator operator+(difference_type i)
{
auto result = *this;
result += i;
return result;
}
/// subtract from iterator
inline iterator operator-(difference_type i)
{
auto result = *this;
result -= i;
return result;
}
/// return difference
inline difference_type operator-(const iterator& other) const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator- for object iterators");
return 0;
}
case (basic_json::value_t::array):
{
return m_it.array_iterator - other.m_it.array_iterator;
}
default:
{
return m_it.generic_iterator - other.m_it.generic_iterator;
}
}
}
/// access to successor
inline reference operator[](difference_type n)
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator[] for object iterators");
}
case (basic_json::value_t::array):
{
return *(m_it.array_iterator + n);
}
case (basic_json::value_t::null):
{
throw std::out_of_range("cannot get value");
}
default:
{
if (m_it.generic_iterator == -n)
{
return *m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// return the key of an object iterator
inline typename object_t::key_type key() const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return m_it.object_iterator->first;
}
default:
{
throw std::domain_error("cannot use key() for non-object iterators");
}
}
}
/// return the key of an iterator
inline reference value()
{
return operator*();
}
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private:
/// associated JSON instance
pointer m_object = nullptr;
/// the actual iterator of the associated instance
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internal_iterator m_it;
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};
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/// a const random access iterator for the basic_json class
class const_iterator : public std::iterator<std::random_access_iterator_tag, const basic_json>
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{
// allow basic_json class to access m_it
friend class basic_json;
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public:
/// the type of the values when the iterator is dereferenced
using value_type = typename basic_json::value_type;
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/// a type to represent differences between iterators
using difference_type = typename basic_json::difference_type;
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/// defines a pointer to the type iterated over (value_type)
using pointer = typename basic_json::const_pointer;
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/// defines a reference to the type iterated over (value_type)
using reference = typename basic_json::const_reference;
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/// the category of the iterator
using iterator_category = typename std::bidirectional_iterator_tag;
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/// default constructor
inline const_iterator() = default;
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/// constructor for a given JSON instance
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inline const_iterator(pointer object) noexcept : m_object(object)
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{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
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m_it.object_iterator = typename object_t::iterator();
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break;
}
case (basic_json::value_t::array):
{
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m_it.array_iterator = typename array_t::iterator();
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break;
}
default:
{
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m_it.generic_iterator = -1;
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break;
}
}
}
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/// copy constructor given a nonconst iterator
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inline const_iterator(const iterator& other) noexcept : m_object(other.m_object)
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{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator = other.m_it.object_iterator;
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator = other.m_it.array_iterator;
break;
}
default:
{
m_it.generic_iterator = other.m_it.generic_iterator;
break;
}
}
}
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/// copy constructor
inline const_iterator(const const_iterator& other) noexcept
: m_object(other.m_object), m_it(other.m_it)
{}
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/// copy assignment
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inline const_iterator& operator=(const_iterator other) noexcept(
std::is_nothrow_move_constructible<pointer>::value and
std::is_nothrow_move_assignable<pointer>::value and
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std::is_nothrow_move_constructible<internal_iterator>::value and
std::is_nothrow_move_assignable<internal_iterator>::value
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)
{
std::swap(m_object, other.m_object);
std::swap(m_it, other.m_it);
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return *this;
}
private:
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/// set the iterator to the first value
inline void set_begin() noexcept
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
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m_it.object_iterator = m_object->m_value.object->begin();
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break;
}
case (basic_json::value_t::array):
{
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m_it.array_iterator = m_object->m_value.array->begin();
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break;
}
case (basic_json::value_t::null):
{
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// set to end so begin()==end() is true: null is empty
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m_it.generic_iterator = 1;
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break;
}
default:
{
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m_it.generic_iterator = 0;
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break;
}
}
}
/// set the iterator past the last value
inline void set_end() noexcept
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
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m_it.object_iterator = m_object->m_value.object->end();
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break;
}
case (basic_json::value_t::array):
{
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m_it.array_iterator = m_object->m_value.array->end();
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break;
}
default:
{
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m_it.generic_iterator = 1;
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break;
}
}
}
public:
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/// return a reference to the value pointed to by the iterator
inline reference operator*() const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return m_it.object_iterator->second;
}
case (basic_json::value_t::array):
{
return *m_it.array_iterator;
}
case (basic_json::value_t::null):
{
throw std::out_of_range("cannot get value");
}
default:
{
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if (m_it.generic_iterator == 0)
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{
return *m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// dereference the iterator
inline pointer operator->() const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return &(m_it.object_iterator->second);
}
case (basic_json::value_t::array):
{
return &*m_it.array_iterator;
}
default:
{
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if (m_it.generic_iterator == 0)
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{
return m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// post-increment (it++)
inline const_iterator operator++(int)
{
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auto result = *this;
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switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator++;
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator++;
break;
}
default:
{
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m_it.generic_iterator++;
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break;
}
}
return result;
}
/// pre-increment (++it)
inline const_iterator& operator++()
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
++m_it.object_iterator;
break;
}
case (basic_json::value_t::array):
{
++m_it.array_iterator;
break;
}
default:
{
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++m_it.generic_iterator;
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break;
}
}
return *this;
}
/// post-decrement (it--)
inline const_iterator operator--(int)
{
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auto result = *this;
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switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
m_it.object_iterator--;
break;
}
case (basic_json::value_t::array):
{
m_it.array_iterator--;
break;
}
default:
{
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m_it.generic_iterator--;
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break;
}
}
return result;
}
/// pre-decrement (--it)
inline const_iterator& operator--()
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
--m_it.object_iterator;
break;
}
case (basic_json::value_t::array):
{
--m_it.array_iterator;
break;
}
default:
{
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--m_it.generic_iterator;
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break;
}
}
return *this;
}
/// comparison: equal
inline bool operator==(const const_iterator& other) const
{
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// if objects are not the same, the comparison is undefined
if (m_object != other.m_object)
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{
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throw std::domain_error("cannot compare iterators of different containers");
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}
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return (m_it.object_iterator == other.m_it.object_iterator);
}
case (basic_json::value_t::array):
{
return (m_it.array_iterator == other.m_it.array_iterator);
}
default:
{
return (m_it.generic_iterator == other.m_it.generic_iterator);
}
}
}
/// comparison: not equal
inline bool operator!=(const const_iterator& other) const
{
return not operator==(other);
}
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/// comparison: smaller
inline bool operator<(const const_iterator& other) const
{
// if objects are not the same, the comparison is undefined
if (m_object != other.m_object)
{
throw std::domain_error("cannot compare iterators of different containers");
}
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator< for object iterators");
}
case (basic_json::value_t::array):
{
return (m_it.array_iterator < other.m_it.array_iterator);
}
default:
{
return (m_it.generic_iterator < other.m_it.generic_iterator);
}
}
}
/// comparison: less than or equal
inline bool operator<=(const const_iterator& other) const
{
return not other.operator < (*this);
}
/// comparison: greater than
inline bool operator>(const const_iterator& other) const
{
return not operator<=(other);
}
/// comparison: greater than or equal
inline bool operator>=(const const_iterator& other) const
{
return not operator<(other);
}
/// add to iterator
inline const_iterator& operator+=(difference_type i)
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator+= for object iterators");
}
case (basic_json::value_t::array):
{
m_it.array_iterator += i;
break;
}
default:
{
m_it.generic_iterator += i;
break;
}
}
return *this;
}
/// subtract from iterator
inline const_iterator& operator-=(difference_type i)
{
return operator+=(-i);
}
/// add to iterator
inline const_iterator operator+(difference_type i)
{
auto result = *this;
result += i;
return result;
}
/// subtract from iterator
inline const_iterator operator-(difference_type i)
{
auto result = *this;
result -= i;
return result;
}
/// return difference
inline difference_type operator-(const const_iterator& other) const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator- for object iterators");
}
case (basic_json::value_t::array):
{
return m_it.array_iterator - other.m_it.array_iterator;
}
default:
{
return m_it.generic_iterator - other.m_it.generic_iterator;
}
}
}
/// access to successor
inline reference operator[](difference_type n) const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
throw std::domain_error("cannot use operator[] for object iterators");
}
case (basic_json::value_t::array):
{
return *(m_it.array_iterator + n);
}
case (basic_json::value_t::null):
{
throw std::out_of_range("cannot get value");
}
default:
{
if (m_it.generic_iterator == -n)
{
return *m_object;
}
else
{
throw std::out_of_range("cannot get value");
}
}
}
}
/// return the key of an object iterator
inline typename object_t::key_type key() const
{
switch (m_object->m_type)
{
case (basic_json::value_t::object):
{
return m_it.object_iterator->first;
}
default:
{
throw std::domain_error("cannot use key() for non-object iterators");
}
}
}
/// return the value of an iterator
inline reference value() const
{
return operator*();
}
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private:
/// associated JSON instance
pointer m_object = nullptr;
/// the actual iterator of the associated instance
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internal_iterator m_it;
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};
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/// a reverse random access iterator for the basic_json class
class reverse_iterator : private std::reverse_iterator<typename basic_json::iterator>
{
public:
inline reverse_iterator(const typename
std::reverse_iterator<typename basic_json::iterator>::iterator_type&
it)
: std::reverse_iterator<basic_json::iterator>(it) {}
/// return the key of an object iterator
inline typename object_t::key_type key() const
{
return this->base().key();
}
/// return the value of an iterator
inline reference value() const
{
return this->base().operator * ();
}
};
/// a const reverse random access iterator for the basic_json class
class const_reverse_iterator : private std::reverse_iterator<typename basic_json::const_iterator>
{
public:
inline const_reverse_iterator(const typename
std::reverse_iterator<typename basic_json::const_iterator>::iterator_type& it)
: std::reverse_iterator<basic_json::const_iterator>(it) {}
/// return the key of an object iterator
inline typename object_t::key_type key() const
{
return this->base().key();
}
/// return the value of an iterator
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inline const_reference value() const
{
return this->base().operator * ();
}
};
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private:
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//////////////////////
// lexer and parser //
//////////////////////
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/*!
@brief lexical analysis
This class organizes the lexical analysis during JSON deserialization. The
core of it is a scanner generated by re2c <http://re2c.org> that processes
a buffer and recognizes tokens according to RFC 7159 and ECMA-404.
*/
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class lexer
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{
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public:
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/// token types for the parser
enum class token_type
{
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uninitialized, ///< indicating the scanner is uninitialized
literal_true, ///< the "true" literal
literal_false, ///< the "false" literal
literal_null, ///< the "null" literal
value_string, ///< a string - use get_string() for actual value
value_number, ///< a number - use get_number() for actual value
begin_array, ///< the character for array begin "["
begin_object, ///< the character for object begin "{"
end_array, ///< the character for array end "]"
end_object, ///< the character for object end "}"
name_separator, ///< the name separator ":"
value_separator, ///< the value separator ","
parse_error, ///< indicating a parse error
end_of_input ///< indicating the end of the input buffer
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};
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/// the char type to use in the lexer
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using lexer_char_t = unsigned char;
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/// constructor with a given buffer
inline lexer(const string_t& s) noexcept
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: m_stream(nullptr), m_buffer(s)
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{
m_content = reinterpret_cast<const lexer_char_t*>(s.c_str());
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m_start = m_cursor = m_content;
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m_limit = m_content + s.size();
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}
inline lexer(std::istream* s) noexcept
: m_stream(s)
{
getline(*m_stream, m_buffer);
m_content = reinterpret_cast<const lexer_char_t*>(m_buffer.c_str());
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m_start = m_cursor = m_content;
m_limit = m_content + m_buffer.size();
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}
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/// default constructor
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inline lexer() = default;
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/*!
@brief create a string from a Unicode code point
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@param codepoint1 the code point (can be high surrogate)
@param codepoint2 the code point (can be low surrogate or 0)
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@return string representation of the code point
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@exception std::out_of_range if code point is >0x10ffff
@exception std::invalid_argument if the low surrogate is invalid
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@see <http://en.wikipedia.org/wiki/UTF-8#Sample_code>
*/
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inline static string_t to_unicode(const std::size_t codepoint1,
const std::size_t codepoint2 = 0)
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{
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string_t result;
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// calculate the codepoint from the given code points
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std::size_t codepoint = codepoint1;
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if (codepoint1 >= 0xD800 and codepoint1 <= 0xDBFF)
{
if (codepoint2 >= 0xDC00 and codepoint2 <= 0xDFFF)
{
codepoint =
// high surrogate occupies the most significant 22 bits
(codepoint1 << 10)
// low surrogate occupies the least significant 15 bits
+ codepoint2
// there is still the 0xD800, 0xDC00 and 0x10000 noise
// in the result so we have to substract with:
// (0xD800 << 10) + DC00 - 0x10000 = 0x35FDC00
- 0x35FDC00;
}
else
{
throw std::invalid_argument("missing or wrong low surrogate");
}
}
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if (codepoint <= 0x7f)
{
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// 1-byte characters: 0xxxxxxx (ASCII)
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result.append(1, static_cast<typename string_t::value_type>(codepoint));
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}
else if (codepoint <= 0x7ff)
{
// 2-byte characters: 110xxxxx 10xxxxxx
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result.append(1, static_cast<typename string_t::value_type>(0xC0 | ((codepoint >> 6) & 0x1F)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | (codepoint & 0x3F)));
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}
else if (codepoint <= 0xffff)
{
// 3-byte characters: 1110xxxx 10xxxxxx 10xxxxxx
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result.append(1, static_cast<typename string_t::value_type>(0xE0 | ((codepoint >> 12) & 0x0F)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | ((codepoint >> 6) & 0x3F)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | (codepoint & 0x3F)));
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}
else if (codepoint <= 0x10ffff)
{
// 4-byte characters: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
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result.append(1, static_cast<typename string_t::value_type>(0xF0 | ((codepoint >> 18) & 0x07)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | ((codepoint >> 12) & 0x3F)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | ((codepoint >> 6) & 0x3F)));
result.append(1, static_cast<typename string_t::value_type>(0x80 | (codepoint & 0x3F)));
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}
else
{
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throw std::out_of_range("code points above 0x10FFFF are invalid");
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}
return result;
}
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/// return name of values of type token_type
inline static std::string token_type_name(token_type t) noexcept
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{
switch (t)
{
case (token_type::uninitialized):
return "<uninitialized>";
case (token_type::literal_true):
return "true literal";
case (token_type::literal_false):
return "false literal";
case (token_type::literal_null):
return "null literal";
case (token_type::value_string):
return "string literal";
case (token_type::value_number):
return "number literal";
case (token_type::begin_array):
return "[";
case (token_type::begin_object):
return "{";
case (token_type::end_array):
return "]";
case (token_type::end_object):
return "}";
case (token_type::name_separator):
return ":";
case (token_type::value_separator):
return ",";
case (token_type::end_of_input):
return "<end of input>";
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default:
return "<parse error>";
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}
}
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/*!
This function implements a scanner for JSON. It is specified using
regular expressions that try to follow RFC 7159 and ECMA-404 as close
as possible. These regular expressions are then translated into a
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deterministic finite automaton (DFA) by the tool re2c
<http://re2c.org>. As a result, the translated code for this function
consists of a large block of code with goto jumps.
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@return the class of the next token read from the buffer
*/
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inline token_type scan() noexcept
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{
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// pointer for backtracking information
m_marker = nullptr;
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// remember the begin of the token
m_start = m_cursor;
/*!re2c
re2c:define:YYCTYPE = lexer_char_t;
re2c:define:YYCURSOR = m_cursor;
re2c:define:YYLIMIT = m_limit;
re2c:define:YYMARKER = m_marker;
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re2c:define:YYFILL = "yyfill(); // LCOV_EXCL_LINE";
re2c:yyfill:parameter = 0;
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re2c:indent:string = " ";
re2c:indent:top = 1;
re2c:labelprefix = "basic_json_parser_";
// whitespace
ws = [ \t\n\r]+;
ws { return scan(); }
// structural characters
"[" { return token_type::begin_array; }
"]" { return token_type::end_array; }
"{" { return token_type::begin_object; }
"}" { return token_type::end_object; }
"," { return token_type::value_separator; }
":" { return token_type::name_separator; }
// literal names
"null" { return token_type::literal_null; }
"true" { return token_type::literal_true; }
"false" { return token_type::literal_false; }
// number
decimal_point = [.];
digit = [0-9];
digit_1_9 = [1-9];
e = [eE];
minus = [-];
plus = [+];
zero = [0];
exp = e (minus|plus)? digit+;
frac = decimal_point digit+;
int = (zero|digit_1_9 digit*);
number = minus? int frac? exp?;
number { return token_type::value_number; }
// string
quotation_mark = [\"];
escape = [\\];
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unescaped = [^\"\\\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0A\x0B\x0C\x0D\x0E\x0F];
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single_escaped = [\"\\/bfnrt];
unicode_escaped = [u][0-9a-fA-F]{4};
escaped = escape (single_escaped | unicode_escaped);
char = unescaped | escaped;
string = quotation_mark char* quotation_mark;
string { return token_type::value_string; }
// end of file
'\000' { return token_type::end_of_input; }
// anything else is an error
. { return token_type::parse_error; }
*/
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}
/// append data from the stream to the internal buffer
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inline void yyfill() noexcept
{
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if (not m_stream or not * m_stream)
{
return;
}
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const ssize_t offset_start = m_start - m_content;
const ssize_t offset_marker = m_marker - m_start;
const ssize_t offset_cursor = m_cursor - m_start;
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m_buffer.erase(0, static_cast<size_t>(offset_start));
std::string line;
std::getline(*m_stream, line);
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m_buffer += "\n" + line; // add line with newline symbol
m_content = reinterpret_cast<const lexer_char_t*>(m_buffer.c_str());
m_start = m_content;
m_marker = m_start + offset_marker;
m_cursor = m_start + offset_cursor;
m_limit = m_start + m_buffer.size() - 1;
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}
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/// return string representation of last read token
inline string_t get_token() const noexcept
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{
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return string_t(reinterpret_cast<typename string_t::const_pointer>(m_start),
static_cast<size_t>(m_cursor - m_start));
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}
/*!
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@brief return string value for string tokens
The function iterates the characters between the opening and closing
quotes of the string value. The complete string is the range
[m_start,m_cursor). Consequently, we iterate from m_start+1 to
m_cursor-1.
We differentiate two cases:
1. Escaped characters. In this case, a new character is constructed
according to the nature of the escape. Some escapes create new
characters (e.g., @c "\\n" is replaced by @c "\n"), some are copied
as is (e.g., @c "\\\\"). Furthermore, Unicode escapes of the shape
@c "\\uxxxx" need special care. In this case, to_unicode takes care
of the construction of the values.
2. Unescaped characters are copied as is.
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@return string value of current token without opening and closing quotes
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@exception std::out_of_range if to_unicode fails
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*/
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inline string_t get_string() const
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{
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string_t result;
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result.reserve(static_cast<size_t>(m_cursor - m_start - 2));
// iterate the result between the quotes
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for (const lexer_char_t* i = m_start + 1; i < m_cursor - 1; ++i)
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{
// process escaped characters
if (*i == '\\')
{
// read next character
++i;
switch (*i)
{
// the default escapes
case 't':
{
result += "\t";
break;
}
case 'b':
{
result += "\b";
break;
}
case 'f':
{
result += "\f";
break;
}
case 'n':
{
result += "\n";
break;
}
case 'r':
{
result += "\r";
break;
}
case '\\':
{
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result += "\\";
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break;
}
case '/':
{
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result += "/";
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break;
}
case '"':
{
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result += "\"";
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break;
}
// unicode
case 'u':
{
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// get code xxxx from uxxxx
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auto codepoint = std::strtoul(std::string(reinterpret_cast<typename string_t::const_pointer>(i + 1),
4).c_str(), nullptr, 16);
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if (codepoint >= 0xD800 and codepoint <= 0xDBFF)
{
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// make sure there is a subsequent unicode
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if ((i + 6 >= m_limit) or * (i + 5) != '\\' or * (i + 6) != 'u')
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{
throw std::invalid_argument("missing low surrogate");
}
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// get code yyyy from uxxxx\uyyyy
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auto codepoint2 = std::strtoul(std::string(reinterpret_cast<typename string_t::const_pointer>
(i + 7), 4).c_str(), nullptr, 16);
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result += to_unicode(codepoint, codepoint2);
// skip the next 11 characters (xxxx\uyyyy)
i += 11;
}
else
{
// add unicode character(s)
result += to_unicode(codepoint);
// skip the next four characters (xxxx)
i += 4;
}
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break;
}
}
}
else
{
// all other characters are just copied to the end of the
// string
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result.append(1, static_cast<typename string_t::value_type>(*i));
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}
}
return result;
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}
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/*!
@brief return number value for number tokens
This function translates the last token into a floating point number.
The pointer m_begin points to the beginning of the parsed number. We
pass this pointer to std::strtod which sets endptr to the first
character past the converted number. If this pointer is not the same as
m_cursor, then either more or less characters have been used during the
comparison. This can happen for inputs like "01" which will be treated
like number 0 followed by number 1.
@return the result of the number conversion or NAN if the conversion
read past the current token. The latter case needs to be treated by the
caller function.
@exception std::range_error if passed value is out of range
*/
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inline number_float_t get_number() const
{
// conversion
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typename string_t::value_type* endptr;
const auto float_val = std::strtod(reinterpret_cast<typename string_t::const_pointer>(m_start),
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&endptr);
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// return float_val if the whole number was translated and NAN
// otherwise
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return (reinterpret_cast<lexer_char_t*>(endptr) == m_cursor) ? float_val : NAN;
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}
private:
/// optional input stream
std::istream* m_stream;
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/// the buffer
string_t m_buffer;
/// the buffer pointer
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const lexer_char_t* m_content = nullptr;
/// pointer to the beginning of the current symbol
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const lexer_char_t* m_start = nullptr;
/// pointer for backtracking information
const lexer_char_t* m_marker = nullptr;
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/// pointer to the current symbol
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const lexer_char_t* m_cursor = nullptr;
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/// pointer to the end of the buffer
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const lexer_char_t* m_limit = nullptr;
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};
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/*!
@brief syntax analysis
*/
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class parser
{
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public:
/// constructor for strings
inline parser(const string_t& s, parser_callback_t cb = nullptr) : callback(cb), m_lexer(s)
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{
// read first token
get_token();
}
/// a parser reading from an input stream
inline parser(std::istream& _is, parser_callback_t cb = nullptr) : callback(cb),
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m_lexer(&_is)
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{
// read first token
get_token();
}
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/// public parser interface
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inline basic_json parse()
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{
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basic_json result = parse_internal(true);
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expect(lexer::token_type::end_of_input);
return result;
}
private:
/// the actual parser
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inline basic_json parse_internal(bool keep)
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{
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auto result = basic_json(value_t::discarded);
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switch (last_token)
{
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case (lexer::token_type::begin_object):
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{
if (keep and (not callback or (keep = callback(depth++, parse_event_t::object_start, result))))
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{
// explicitly set result to object to cope with {}
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result.m_type = value_t::object;
result.m_value = json_value(value_t::object);
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}
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// read next token
get_token();
// closing } -> we are done
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if (last_token == lexer::token_type::end_object)
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{
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get_token();
if (keep and callback and not callback(--depth, parse_event_t::object_end, result))
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{
result = basic_json(value_t::discarded);
}
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return result;
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}
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// no comma is expected here
unexpect(lexer::token_type::value_separator);
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// otherwise: parse key-value pairs
do
{
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// ugly, but could be fixed with loop reorganization
if (last_token == lexer::token_type::value_separator)
{
get_token();
}
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// store key
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expect(lexer::token_type::value_string);
const auto key = m_lexer.get_string();
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bool keep_tag = false;
if (keep)
{
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keep_tag = callback ? callback(depth, parse_event_t::key, basic_json(key)) : true;
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}
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// parse separator (:)
get_token();
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expect(lexer::token_type::name_separator);
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// parse and add value
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get_token();
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auto value = parse_internal(keep);
if (keep and keep_tag and not value.is_discarded())
{
result[key] = std::move(value);
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}
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}
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while (last_token == lexer::token_type::value_separator);
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// closing }
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expect(lexer::token_type::end_object);
get_token();
if (keep and callback and not callback(--depth, parse_event_t::object_end, result))
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{
result = basic_json(value_t::discarded);
}
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return result;
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}
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case (lexer::token_type::begin_array):
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{
if (keep and (not callback or (keep = callback(depth++, parse_event_t::array_start, result))))
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{
// explicitly set result to object to cope with []
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result.m_type = value_t::array;
result.m_value = json_value(value_t::array);
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}
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// read next token
get_token();
// closing ] -> we are done
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if (last_token == lexer::token_type::end_array)
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{
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get_token();
if (callback and not callback(--depth, parse_event_t::array_end, result))
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{
result = basic_json(value_t::discarded);
}
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return result;
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}
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// no comma is expected here
unexpect(lexer::token_type::value_separator);
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// otherwise: parse values
do
{
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// ugly, but could be fixed with loop reorganization
if (last_token == lexer::token_type::value_separator)
{
get_token();
}
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// parse value
auto value = parse_internal(keep);
if (keep and not value.is_discarded())
{
result.push_back(std::move(value));
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}
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}
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while (last_token == lexer::token_type::value_separator);
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// closing ]
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expect(lexer::token_type::end_array);
get_token();
if (keep and callback and not callback(--depth, parse_event_t::array_end, result))
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{
result = basic_json(value_t::discarded);
}
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return result;
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}
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case (lexer::token_type::literal_null):
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{
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get_token();
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result.m_type = value_t::null;
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break;
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}
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case (lexer::token_type::value_string):
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{
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const auto s = m_lexer.get_string();
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get_token();
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result = basic_json(s);
break;
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}
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case (lexer::token_type::literal_true):
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{
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get_token();
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result.m_type = value_t::boolean;
result.m_value = true;
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break;
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}
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case (lexer::token_type::literal_false):
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{
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get_token();
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result.m_type = value_t::boolean;
result.m_value = false;
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break;
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}
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case (lexer::token_type::value_number):
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{
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auto float_val = m_lexer.get_number();
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// NAN is returned if token could not be translated
// completely
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if (std::isnan(float_val))
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{
throw std::invalid_argument(std::string("parse error - ") +
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m_lexer.get_token() + " is not a number");
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}
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get_token();
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// check if conversion loses precision
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const auto int_val = static_cast<number_integer_t>(float_val);
if (approx(float_val, static_cast<number_float_t>(int_val)))
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{
// we basic_json not lose precision -> return int
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result.m_type = value_t::number_integer;
result.m_value = int_val;
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}
else
{
// we would lose precision -> returnfloat
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result.m_type = value_t::number_float;
result.m_value = float_val;
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}
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break;
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}
default:
{
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// the last token was unexpected
unexpect(last_token);
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}
}
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if (keep and callback and not callback(depth, parse_event_t::value, result))
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{
result = basic_json(value_t::discarded);
}
return result;
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}
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/// get next token from lexer
inline typename lexer::token_type get_token()
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{
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last_token = m_lexer.scan();
return last_token;
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}
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inline void expect(typename lexer::token_type t) const
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{
if (t != last_token)
{
std::string error_msg = "parse error - unexpected \'";
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error_msg += m_lexer.get_token();
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error_msg += "\' (" + lexer::token_type_name(last_token);
error_msg += "); expected " + lexer::token_type_name(t);
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throw std::invalid_argument(error_msg);
}
}
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inline void unexpect(typename lexer::token_type t) const
{
if (t == last_token)
{
std::string error_msg = "parse error - unexpected \'";
error_msg += m_lexer.get_token();
error_msg += "\' (";
error_msg += lexer::token_type_name(last_token) + ")";
throw std::invalid_argument(error_msg);
}
}
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private:
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/// levels of recursion
int depth = 0;
/// callback function
parser_callback_t callback;
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/// the type of the last read token
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typename lexer::token_type last_token = lexer::token_type::uninitialized;
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/// the lexer
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lexer m_lexer;
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};
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};
/////////////
// presets //
/////////////
/// default JSON class
using json = basic_json<>;
}
/////////////////////////
// nonmember functions //
/////////////////////////
// specialization of std::swap, and std::hash
namespace std
{
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/*!
@brief exchanges the values of two JSON objects
@ingroup container
*/
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template <>
inline void swap(nlohmann::json& j1,
nlohmann::json& j2) noexcept(
is_nothrow_move_constructible<nlohmann::json>::value and
is_nothrow_move_assignable<nlohmann::json>::value
)
{
j1.swap(j2);
}
/// hash value for JSON objects
template <>
struct hash<nlohmann::json>
{
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/// return a hash value for a JSON object
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inline std::size_t operator()(const nlohmann::json& j) const
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{
// a naive hashing via the string representation
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const auto& h = hash<nlohmann::json::string_t>();
return h(j.dump());
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}
};
}
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/*!
This operator implements a user-defined string literal for JSON objects. It can
be used by adding \p "_json" to a string literal and returns a JSON object if
no parse error occurred.
@param s a string representation of a JSON object
@return a JSON object
*/
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inline nlohmann::json operator "" _json(const char* s, std::size_t)
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{
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return nlohmann::json::parse(reinterpret_cast<nlohmann::json::string_t::value_type*>
(const_cast<char*>(s)));
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}
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#endif