/* Copyright (c) 2013 Dropbox, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ /* json11 * * json11 is a tiny JSON library for C++11, providing JSON parsing and * serialization. * * The core object provided by the library is json11::Json. A Json object * represents any JSON value: null, bool, number (int or double), string * (std::string), array (std::vector), or object (std::map). * * Json objects act like values: they can be assigned, copied, moved, compared * for equality or order, etc. There are also helper methods Json::dump, to * serialize a Json to a string, and Json::parse (static) to parse a std::string * as a Json object. * * Internally, the various types of Json object are represented by the JsonValue * class hierarchy. * * A note on numbers - JSON specifies the syntax of number formatting but not * its semantics, so some JSON implementations distinguish between integers and * floating-point numbers, while some don't. In json11, we choose the latter. * Because some JSON implementations (namely Javascript itself) treat all * numbers as the same type, distinguishing the two leads to JSON that will be * *silently* changed by a round-trip through those implementations. Dangerous! * To avoid that risk, json11 stores all numbers as double internally, but also * provides integer helpers. * * Fortunately, double-precision IEEE754 ('double') can precisely store any * integer in the range +/-2^53, which includes every 'int' on most systems. * (Timestamps often use int64 or long long to avoid the Y2038K problem; a * double storing microseconds since some epoch will be exact for +/- 275 * years.) */ #pragma once #include #include #include #include #include #include namespace json11 { enum JsonParse { STANDARD, COMMENTS }; class JsonValue; class Json final { public: // Types enum Type { NUL, NUMBER, BOOL, STRING, ARRAY, OBJECT }; // Array and object typedefs typedef std::vector array; typedef std::map object; // Constructors for the various types of JSON value. Json() noexcept; // NUL explicit Json(std::nullptr_t) noexcept; // NUL explicit Json(double value); // NUMBER explicit Json(int value); // NUMBER explicit Json(bool value); // BOOL explicit Json(const std::string &value); // STRING explicit Json(std::string &&value); // STRING explicit Json(const char *value); // STRING explicit Json(const array &values); // ARRAY explicit Json(array &&values); // ARRAY explicit Json(const object &values); // OBJECT explicit Json(object &&values); // OBJECT // Implicit constructor: anything with a to_json() function. template explicit Json(const T &t) : Json(t.to_json()) {} // Implicit constructor: map-like objects (std::map, std::unordered_map, etc) template < class M, typename std::enable_if< std::is_constructible< std::string, decltype(std::declval().begin()->first)>::value && std::is_constructible< Json, decltype(std::declval().begin()->second)>::value, int>::type = 0> explicit Json(const M &m) : Json(object(m.begin(), m.end())) {} // Implicit constructor: vector-like objects (std::list, std::vector, // std::set, etc) template ().begin())>::value, int>::type = 0> explicit Json(const V &v) : Json(array(v.begin(), v.end())) {} // This prevents Json(some_pointer) from accidentally producing a bool. Use // Json(bool(some_pointer)) if that behavior is desired. explicit Json(void *) = delete; // Accessors Type type() const; bool is_null() const { return type() == NUL; } bool is_number() const { return type() == NUMBER; } bool is_bool() const { return type() == BOOL; } bool is_string() const { return type() == STRING; } bool is_array() const { return type() == ARRAY; } bool is_object() const { return type() == OBJECT; } // Return the enclosed value if this is a number, 0 otherwise. Note that // json11 does not distinguish between integer and non-integer numbers - // number_value() and int_value() can both be applied to a NUMBER-typed // object. double number_value() const; int int_value() const; // Return the enclosed value if this is a boolean, false otherwise. bool bool_value() const; // Return the enclosed string if this is a string, "" otherwise. const std::string &string_value() const; // Return the enclosed std::vector if this is an array, or an empty vector // otherwise. const array &array_items() const; // Return the enclosed std::map if this is an object, or an empty map // otherwise. const object &object_items() const; // Return a reference to arr[i] if this is an array, Json() otherwise. const Json &operator[](size_t i) const; // Return a reference to obj[key] if this is an object, Json() otherwise. const Json &operator[](const std::string &key) const; // Serialize. void dump(std::string *out) const; std::string dump() const { std::string out; dump(&out); return out; } // Parse. If parse fails, return Json() and assign an error message to err. static Json parse(const std::string &in, std::string *err, JsonParse strategy = JsonParse::STANDARD); static Json parse(const char *in, std::string *err, JsonParse strategy = JsonParse::STANDARD) { if (in) { return parse(std::string(in), err, strategy); } else { *err = "null input"; return Json(nullptr); } } // Parse multiple objects, concatenated or separated by whitespace static std::vector parse_multi( const std::string &in, std::string::size_type *parser_stop_pos, std::string *err, JsonParse strategy = JsonParse::STANDARD); static inline std::vector parse_multi( const std::string &in, std::string *err, JsonParse strategy = JsonParse::STANDARD) { std::string::size_type parser_stop_pos; return parse_multi(in, &parser_stop_pos, err, strategy); } bool operator==(const Json &rhs) const; bool operator<(const Json &rhs) const; bool operator!=(const Json &rhs) const { return !(*this == rhs); } bool operator<=(const Json &rhs) const { return !(rhs < *this); } bool operator>(const Json &rhs) const { return (rhs < *this); } bool operator>=(const Json &rhs) const { return !(*this < rhs); } /* has_shape(types, err) * * Return true if this is a JSON object and, for each item in types, has a * field of the given type. If not, return false and set err to a descriptive * message. */ typedef std::initializer_list> shape; bool has_shape(const shape &types, std::string *err) const; private: std::shared_ptr m_ptr; }; // Internal class hierarchy - JsonValue objects are not exposed to users of this // API. class JsonValue { protected: friend class Json; friend class JsonInt; friend class JsonDouble; virtual Json::Type type() const = 0; virtual bool equals(const JsonValue *other) const = 0; virtual bool less(const JsonValue *other) const = 0; virtual void dump(std::string *out) const = 0; virtual double number_value() const; virtual int int_value() const; virtual bool bool_value() const; virtual const std::string &string_value() const; virtual const Json::array &array_items() const; virtual const Json &operator[](size_t i) const; virtual const Json::object &object_items() const; virtual const Json &operator[](const std::string &key) const; virtual ~JsonValue() {} }; } // namespace json11