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construct/include/ircd/json/value.h

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/*
* Copyright (C) 2017 Charybdis Development Team
* Copyright (C) 2017 Jason Volk <jason@zemos.net>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice is present in all copies.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#define HAVE_IRCD_JSON_VALUE_H
namespace ircd::json
{
struct value;
size_t serialized(const bool &);
size_t serialized(const value *const &begin, const value *const &end);
using values = std::initializer_list<value>;
size_t serialized(const values &);
string_view stringify(mutable_buffer &, const value *const &begin, const value *const &end);
}
/// A primitive of the ircd::json system representing a value at runtime.
///
/// This holds state for values apropos a JSON object or array. Value's
/// data can either be in the form of a JSON string or it can be some native
/// machine state. The serial flag indicates the former.
///
/// Value can can hold any of the JSON types in either of these states.
/// This is accomplished with runtime switching and branching but this is
/// still lightweight and without a vtable pointer. The structure is just
/// the size of two pointers like a string_view; we commandeer bits of the
/// second word to hold type, flags, and length information. Thus we can hold
/// large vectors of values at 16 byte alignment and not 24 byte.
///
/// Value is capable of allocation and ownership of its internal data and copy
/// semantics. This is primarily to support recursion and various developer
/// conveniences like nested initializer_list's etc. It is better to
/// std::move() a value than copy it, but the full copy semantic is supported;
/// however, if serial=false then a copy will stringify the data into JSON and
/// the destination will be serial=true,alloc=true; thus copying of complex
/// native values never occurs.
///
/// Take careful note of a quirk with `operator string_view()`: when the
/// value is a STRING type string_view()'ing the value will never show
/// the string with surrounding quotes in view. This is because the value
/// accepts both quoted and unquoted strings as input from the developer, then
/// always serializes correctly; unquoted strings are more natural to work
/// with. This does not apply to other types like OBJECT and array as
/// string_view()'ing those when in a serial state will show surrounding '{'
/// etc.
///
struct ircd::json::value
{
union // xxx std::variant
{
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int64_t integer;
double floating;
const char *string;
const struct value *array;
const struct member *object;
};
uint64_t len : 57; ///< length indicator
enum type type : 3; ///< json::type indicator
uint64_t serial : 1; ///< only *string is used. type indicates JSON
uint64_t alloc : 1; ///< indicates the pointer for type is owned
uint64_t floats : 1; ///< for NUMBER type, integer or floating
static const string_view literal_null;
static const string_view literal_true;
static const string_view literal_false;
static const string_view empty_string;
static const string_view empty_number;
static const string_view empty_object;
static const string_view empty_array;
using create_string_closure = std::function<void (const mutable_buffer &)>;
void create_string(const size_t &len, const create_string_closure &);
public:
bool null() const; ///< literal null or assets are really null
bool empty() const; ///< null() or assets are empty
bool undefined() const;
bool operator!() const; ///< null() or undefined() or empty() or asset Falsy
operator string_view() const; ///< NOTE unquote()'s the string value
explicit operator double() const;
explicit operator int64_t() const;
explicit operator std::string() const; ///< NOTE full stringify() of value
template<class T> explicit value(const T &specialized);
value(const string_view &sv, const enum type &);
template<size_t N> value(const char (&)[N]);
value(const char *const &s);
value(const string_view &sv);
value(const struct member *const &, const size_t &len);
value(std::unique_ptr<const struct member[]>, const size_t &len); // alloc = true
value(const struct value *const &, const size_t &len);
value(std::unique_ptr<const struct value[]>, const size_t &len); // alloc = true
value(const members &); // alloc = true
value(const nullptr_t &);
value();
value(value &&) noexcept;
value(const value &);
value &operator=(value &&) noexcept;
value &operator=(const value &);
~value() noexcept;
friend bool operator==(const value &a, const value &b);
friend bool operator!=(const value &a, const value &b);
friend bool operator<=(const value &a, const value &b);
friend bool operator>=(const value &a, const value &b);
friend bool operator<(const value &a, const value &b);
friend bool operator>(const value &a, const value &b);
friend enum type type(const value &a);
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friend bool defined(const value &);
friend size_t serialized(const value &);
friend string_view stringify(mutable_buffer &, const value &);
friend std::ostream &operator<<(std::ostream &, const value &);
};
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namespace ircd::json
{
template<> value::value(const double &floating);
template<> value::value(const uint64_t &integer);
template<> value::value(const int64_t &integer);
template<> value::value(const float &floating);
template<> value::value(const uint32_t &integer);
template<> value::value(const int32_t &integer);
template<> value::value(const uint16_t &integer);
template<> value::value(const int16_t &integer);
template<> value::value(const bool &boolean);
template<> value::value(const std::string &str);
}
static_assert(sizeof(ircd::json::value) == 16, "");
inline
ircd::json::value::value()
:string{nullptr}
,len{0}
,type{STRING}
,serial{false}
,alloc{false}
,floats{false}
{}
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inline
ircd::json::value::value(const string_view &sv,
const enum type &type)
:string{sv.data()}
,len{sv.size()}
,type{type}
,serial{type == STRING? surrounds(sv, '"') : true}
,alloc{false}
,floats{false}
{}
inline
ircd::json::value::value(const char *const &s)
:string{s}
,len{strlen(s)}
,type{json::type(s, std::nothrow)}
,serial{type == STRING? surrounds(s, '"') : true}
,alloc{false}
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,floats{false}
{}
template<size_t N>
ircd::json::value::value(const char (&str)[N])
:string{str}
,len{strnlen(str, N)}
,type{json::type(str, std::nothrow)}
,serial{type == STRING? surrounds(str, '"') : true}
,alloc{false}
,floats{false}
{}
template<> inline
ircd::json::value::value(const std::string &str)
:value{string_view{str}}
{}
inline
ircd::json::value::value(const string_view &sv)
:value{sv, json::type(sv, std::nothrow)}
{}
template<class T>
ircd::json::value::value(const T &t)
:value{static_cast<string_view>(t)}
{
static_assert(std::is_base_of<ircd::string_view, T>() ||
std::is_convertible<ircd::string_view, T>(), "");
}
inline
ircd::json::value::value(const nullptr_t &)
:value
{
literal_null, type::LITERAL
}{}
template<> inline
ircd::json::value::value(const bool &boolean)
:value
{
boolean? literal_true : literal_false, type::LITERAL
}{}
inline
ircd::json::value::value(const struct value *const &array,
const size_t &len)
:array{array}
,len{len}
,type{ARRAY}
,serial{false}
,alloc{false}
,floats{false}
{
}
inline
ircd::json::value::value(std::unique_ptr<const struct value[]> array,
const size_t &len)
:array{array.get()}
,len{len}
,type{ARRAY}
,serial{false}
,alloc{true}
,floats{false}
{
array.release();
}
inline
ircd::json::value::value(const struct member *const &object,
const size_t &len)
:object{object}
,len{len}
,type{OBJECT}
,serial{false}
,alloc{false}
,floats{false}
{}
inline
ircd::json::value::value(std::unique_ptr<const struct member[]> object,
const size_t &len)
:object{object.get()}
,len{len}
,type{OBJECT}
,serial{false}
,alloc{true}
,floats{false}
{
object.release();
}
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template<> inline
ircd::json::value::value(const int64_t &integer)
:integer{integer}
,len{0}
,type{NUMBER}
,serial{false}
,alloc{false}
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,floats{false}
{}
template<> inline
ircd::json::value::value(const double &floating)
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:floating{floating}
,len{0}
,type{NUMBER}
,serial{false}
,alloc{false}
,floats{true}
{}
template<>
__attribute__((warning("uint64_t narrows to int64_t when used in json::value")))
inline
ircd::json::value::value(const uint64_t &integer)
:value{int64_t(integer)}
{}
template<> inline
ircd::json::value::value(const float &floating)
:value{double(floating)}
{}
template<> inline
ircd::json::value::value(const int32_t &integer)
:value{int64_t(integer)}
{}
template<> inline
ircd::json::value::value(const uint32_t &integer)
:value{int64_t(integer)}
{}
template<> inline
ircd::json::value::value(const int16_t &integer)
:value{int64_t(integer)}
{}
template<> inline
ircd::json::value::value(const uint16_t &integer)
:value{int64_t(integer)}
{}
inline
ircd::json::value::value(value &&other)
noexcept
:integer{other.integer}
,len{other.len}
,type{other.type}
,serial{other.serial}
,alloc{other.alloc}
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,floats{other.floats}
{
other.alloc = false;
}
inline ircd::json::value &
ircd::json::value::operator=(value &&other)
noexcept
{
this->~value();
integer = other.integer;
len = other.len;
type = other.type;
serial = other.serial;
alloc = other.alloc;
other.alloc = false;
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floats = other.floats;
return *this;
}
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inline bool
ircd::json::defined(const value &a)
{
return !a.undefined();
}
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inline enum ircd::json::type
ircd::json::type(const value &a)
{
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return a.type;
}
inline size_t
ircd::json::serialized(const bool &b)
{
constexpr const size_t t
{
strlen("true")
};
constexpr const size_t f
{
strlen("false")
};
return b? t : f;
}