// janssonxx - C++ wrapper for jansson // // author: Sean Middleditch // // janssonxx is free software; you can redistribute it and/or modify // it under the terms of the MIT license. See LICENSE for details. #if !defined(JANSSONXX_H) #define JANSSONXX_H 1 #include #include #include #include #include namespace jansson { // include in the jansson namespace #include class Iterator; // represents any JSON value class Value { public: // construct new Value with an undefined value Value() : _value(0) {} // free Value resources ~Value() { json_decref(_value); } // copy an existing Value Value(const Value& e) : _value(json_incref(e._value)) {} // make a reference to an existing json_t value explicit Value(json_t* value) : _value(json_incref(value)) {} // copy an existing Value Value& operator=(const Value& e) { if (&e != this) { json_decref(_value); _value = json_incref(e._value); } return *this; } // load a file as a JSON value static Value load_file(const char* path, json_error_t* error = 0) { return Value::_take(json_load_file(path, error)); } // load a string as a JSON value static Value load_string(const char* string, json_error_t* error = 0) { return Value::_take(json_loads(string, error)); } // write the value to a file int save_file(const char* path, int flags = 0) const { return json_dump_file(_value, path, flags); } // write the value to a string (caller must deallocate with free()!) char* save_string(int flags = 0) const { return json_dumps(_value, flags); } // construct Value from input static Value from(const char* value) { return Value::_take(json_string(value)); } static Value from(const std::string& value) { return from(value.c_str()); } static Value from(bool value) { return Value::_take(value ? json_true() : json_false()); } static Value from(signed int value) { return Value::_take(json_integer(value)); } static Value from(unsigned int value) { return Value::_take(json_integer(value)); } static Value from(signed short value) { return Value::_take(json_integer(value)); } static Value from(unsigned short value) { return Value::_take(json_integer(value)); } static Value from(signed long value) { return Value::_take(json_integer(value)); } static Value from(unsigned long value) { return Value::_take(json_integer(value)); } static Value from(float value) { return Value::_take(json_real(value)); } static Value from(double value) { return Value::_take(json_real(value)); } // create a new empty object static Value object() { return Value::_take(json_object()); } // create a new empty array static Value array() { return Value::_take(json_array()); } // create a new null value static Value null() { return Value::_take(json_null()); } // get the underlying json_t json_t* as_json() const { return _value; } // check value type bool is_undefined() const { return _value == 0; } bool is_object() const { return json_is_object(_value); } bool is_array() const { return json_is_array(_value); } bool is_string() const { return json_is_string(_value); } bool is_integer() const { return json_is_integer(_value); } bool is_real() const { return json_is_real(_value); } bool is_number() const { return json_is_number(_value); } bool is_true() const { return json_is_true(_value); } bool is_false() const { return json_is_false(_value); } bool is_boolean() const { return json_is_boolean(_value); } bool is_null() const { return json_is_null(_value); } // get size of array or object unsigned int size() const { if (is_object()) return json_object_size(_value); else return json_array_size(_value); } // get value at array index (const version) const Value at(unsigned int index) const { return Value(json_array_get(_value, index)); } const Value operator[](signed int index) const { return at(index); } const Value operator[](unsigned int index) const { return at(index); } const Value operator[](signed short index) const { return at(index); } const Value operator[](unsigned short index) const { return at(index); } const Value operator[](signed long index) const { return at(index); } const Value operator[](unsigned long index) const { return at(index); } // get value at array index (non-const version) Value at(unsigned int index) { return Value(json_array_get(_value, index)); } Value operator[](signed int index) { return at(index); } Value operator[](unsigned int index) { return at(index); } Value operator[](signed short index) { return at(index); } Value operator[](unsigned short index) { return at(index); } Value operator[](signed long index) { return at(index); } Value operator[](unsigned long index) { return at(index); } // get object property const Value get(const char* key) const { return Value(json_object_get(_value, key)); } const Value get(const std::string& key) const { return get(key.c_str()); } const Value operator[](const char* key) const { return get(key); } const Value operator[](const std::string& key) const { return get(key.c_str()); } // clear all array/object values void clear() { if (is_object()) json_object_clear(_value); else json_array_clear(_value); } // get value cast to specified type const char* as_cstring() const { return json_string_value(_value); } std::string as_string() const { const char* tmp = as_cstring(); return tmp == 0 ? "" : tmp; } int as_integer() const { return json_integer_value(_value); } double as_real() const { return json_real_value(_value); } double as_number() const { return json_number_value(_value); } bool as_boolean() const { return is_true(); } // set an object property (converts value to object is not one already) Value& set_key(const char* key, const Value& value) { json_object_set(_value, key, value.as_json()); return *this; } Value& set_key(const std::string& key, const Value& value) { return set_key(key.c_str(), value); } // set an array index (converts value to object is not one already) Value& set_at(unsigned int index, const Value& value) { if (index == size()) json_array_append(_value, value.as_json()); else json_array_set(_value, index, value.as_json()); return *this; } // delete an object key Value& del_key(const char* key) { json_object_del(_value, key); return *this; } Value& del_key(const std::string& key) { return del_key(key.c_str()); } // delete an item from an array by index Value& del_at(unsigned int index) { json_array_remove(_value, index); return *this; } // insert an item into an array at a given index Value& insert_at(unsigned int index, const Value& value) { json_array_insert(_value, index, value.as_json()); return *this; } private: // take ownership of a json_t (does not increase reference count) static Value _take(json_t* json) { Value v; v._value = json; return v; } // internal value pointer json_t* _value; }; // iterators over a JSON object class Iterator { public: // construct a new iterator for a given object Iterator(const Value& value) : _object(value), _iter(0) { _iter = json_object_iter(_object.as_json()); } // increment iterator void next() { _iter = json_object_iter_next(_object.as_json(), _iter); } Iterator& operator++() { next(); return *this; } // test if iterator is still valid bool valid() const { return _iter != 0; } operator bool() const { return valid(); } // get key const char* ckey() const { return json_object_iter_key(_iter); } std::string key() const { return ckey(); } // get value const Value value() const { return Value(json_object_iter_value(_iter)); } // dereference value const Value operator*() const { return value(); } private: // disallow copying Iterator(const Iterator&); Iterator& operator=(const Iterator&); // object being iterated over Value _object; // iterator value void* _iter; }; } // namespace jansson // stream JSON value out std::ostream& operator<<(std::ostream& os, const jansson::Value& value) { char* tmp = value.save_string(); if (tmp != 0) { os << tmp; free(tmp); } return os; } // read JSON value std::istream& operator>>(std::istream& is, jansson::Value& value) { std::stringstream tmp; while (is) tmp << static_cast(is.get()); value = jansson::Value::load_string(tmp.str().c_str()); return is; } #endif