diff --git a/Makefile.am b/Makefile.am index 9310afa6..ce5efd17 100644 --- a/Makefile.am +++ b/Makefile.am @@ -1,12 +1,17 @@ +.PHONY: header_only + +# the order is important: header before other sources +CORE_SOURCES = src/json.h src/json.cc + noinst_PROGRAMS = json_unit json_parser FLAGS = -Wall -Wextra -pedantic -Weffc++ -Wcast-align -Wcast-qual -Wctor-dtor-privacy -Wdisabled-optimization -Wformat=2 -Winit-self -Wmissing-declarations -Wmissing-include-dirs -Wold-style-cast -Woverloaded-virtual -Wredundant-decls -Wshadow -Wsign-conversion -Wsign-promo -Wstrict-overflow=5 -Wswitch -Wundef -Wno-unused -Wnon-virtual-dtor -Wreorder -json_unit_SOURCES = src/json.cc src/json.h test/catch.hpp test/json_unit.cc +json_unit_SOURCES = $(CORE_SOURCES) test/catch.hpp test/json_unit.cc json_unit_CXXFLAGS = $(FLAGS) -std=c++11 json_unit_CPPFLAGS = -I$(top_srcdir)/src -I$(top_srcdir)/test -Dprivate=public -json_parser_SOURCES = src/json.cc src/json.h benchmark/parse.cc +json_parser_SOURCES = $(CORE_SOURCES) benchmark/parse.cc json_parser_CXXFLAGS = -O3 -std=c++11 -flto json_parser_CPPFLAGS = -I$(top_srcdir)/src -I$(top_srcdir)/benchmark @@ -26,4 +31,9 @@ pretty: $(SOURCES) parser: - make CXXFLAGS="" json_parser \ No newline at end of file + make CXXFLAGS="" json_parser + +header_only/json.h: $(CORE_SOURCES) + cat $(CORE_SOURCES) | $(SED) 's/#include "json.h"//' > header_only/json.h + +BUILT_SOURCES = header_only/json.h diff --git a/README.md b/README.md index 34b53ce4..6756ccb6 100644 --- a/README.md +++ b/README.md @@ -26,7 +26,7 @@ Other aspects were not so important to us: ## Integration -All you need to do is add +The two required source files are in the `src` directory. All you need to do is add ```cpp #include "json.h" @@ -37,6 +37,8 @@ using json = nlohmann::json; to the files you want to use JSON objects. Furthermore, you need to compile the file `json.cc` and link it to your binaries. Do not forget to set the necessary switches to enable C++11 (e.g., `-std=c++11` for GCC and Clang). +If you want a single header file, use the `json.h` file from the `header_only` directory. + ## Examples Here are some examples to give you an idea how to use the class. @@ -254,6 +256,16 @@ The above copyright notice and this permission notice shall be included in all c 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. +## Thanks + +I deeply appreciate the help of the following people. + +- [Teemperor](https://github.com/Teemperor) implemented CMake support and lcov integration and realized escape handling in the string parser. +- [elliotgoodrich](https://github.com/elliotgoodrich) fixed an issue with double deletion in the iterator classes. +- [kirkshoop](https://github.com/kirkshoop) made the iterators of the class composable to other libraries. + +Thanks a lot for helping out! + ## Execute unit tests with CMake To compile and run the tests, you need to execute @@ -289,7 +301,7 @@ The unit tests can then be executed with $ ./json_unit =============================================================================== -All tests passed (863 assertions in 10 test cases) +All tests passed (887 assertions in 10 test cases) ``` For more information, have a look at the file [.travis.yml](https://github.com/nlohmann/json/blob/master/.travis.yml). diff --git a/configure.ac b/configure.ac index 18a30c6c..a41c85df 100644 --- a/configure.ac +++ b/configure.ac @@ -5,6 +5,7 @@ AM_INIT_AUTOMAKE([foreign subdir-objects]) AM_SILENT_RULES([yes]) AC_PROG_CXX +AC_PROG_SED AC_CONFIG_FILES(Makefile) AC_OUTPUT diff --git a/header_only/json.h b/header_only/json.h new file mode 100644 index 00000000..2a35fddd --- /dev/null +++ b/header_only/json.h @@ -0,0 +1,2701 @@ +/*! +@file +@copyright The code is licensed under the MIT License + , + Copyright (c) 2013-2014 Niels Lohmann. + +@author Niels Lohmann + +@see https://github.com/nlohmann/json +*/ + +#pragma once + +#include // std::initializer_list +#include // std::istream, std::ostream +#include // std::map +#include // std::string +#include // std::vector +#include // std::iterator + +namespace nlohmann +{ + +/*! +@brief JSON for Modern C++ + +The size of a JSON object is 16 bytes: 8 bytes for the value union whose +largest item is a pointer type and another 8 byte for an element of the +type union. The latter only needs 1 byte - the remaining 7 bytes are wasted +due to alignment. + +@see http://stackoverflow.com/questions/7758580/writing-your-own-stl-container/7759622#7759622 + +@bug Numbers are currently handled too generously. There are several formats + that are forbidden by the standard, but are accepted by the parser. + +@todo Implement json::swap() +@todo Implement json::insert(), json::emplace(), json::emplace_back, json::erase +@todo Implement json::reverse_iterator, json::const_reverse_iterator, + json::rbegin(), json::rend(), json::crbegin(), json::crend()? +*/ +class json +{ + // forward declaration to friend this class + public: + class iterator; + class const_iterator; + + public: + /// possible types of a JSON object + enum class value_type : uint8_t + { + /// ordered collection of values + array = 0, + /// unordered set of name/value pairs + object, + /// null value + null, + /// string value + string, + /// Boolean value + boolean, + /// number value (integer) + number, + /// number value (float) + number_float + }; + + /// a type for an object + using object_t = std::map; + /// a type for an array + using array_t = std::vector; + /// a type for a string + using string_t = std::string; + /// a type for a Boolean + using boolean_t = bool; + /// a type for an integer number + using number_t = int; + /// a type for a floating point number + using number_float_t = double; + /// a type for list initialization + using list_init_t = std::initializer_list; + + /// a JSON value + union value + { + /// array as pointer to array_t + array_t* array; + /// object as pointer to object_t + object_t* object; + /// string as pointer to string_t + string_t* string; + /// Boolean + boolean_t boolean; + /// number (integer) + number_t number; + /// number (float) + number_float_t number_float; + + /// default constructor + value() = default; + /// constructor for arrays + value(array_t*); + /// constructor for objects + value(object_t*); + /// constructor for strings + value(string_t*); + /// constructor for Booleans + value(boolean_t); + /// constructor for numbers (integer) + value(number_t); + /// constructor for numbers (float) + value(number_float_t); + }; + + public: + /// create an object according to given type + json(const value_type); + /// create a null object + json() = default; + /// create a null object + json(std::nullptr_t) noexcept; + /// create a string object from a C++ string + json(const std::string&); + /// create a string object from a C++ string (move) + json(std::string&&); + /// create a string object from a C string + json(const char*); + /// create a Boolean object + json(const bool) noexcept; + /// create a number object + json(const int) noexcept; + /// create a number object + json(const double) noexcept; + /// create an array + json(const array_t&); + /// create an array (move) + json(array_t&&); + /// create an object + json(const object_t&); + /// create an object (move) + json(object_t&&); + /// create from an initializer list (to an array or object) + json(list_init_t); + + /// copy constructor + json(const json&); + /// move constructor + json(json&&) noexcept; + + /// copy assignment + json& operator=(json) noexcept; + + /// destructor + ~json() noexcept; + + /// create from string representation + static json parse(const std::string&); + /// create from string representation + static json parse(const char*); + + private: + /// return the type as string + std::string type_name() const noexcept; + + /// dump the object (with pretty printer) + std::string dump(const bool, const unsigned int, unsigned int = 0) const noexcept; + + public: + /// explicit value conversion + template + T get() const; + + /// implicit conversion to string representation + operator const std::string() const; + /// implicit conversion to integer (only for numbers) + operator int() const; + /// implicit conversion to double (only for numbers) + operator double() const; + /// implicit conversion to Boolean (only for Booleans) + operator bool() const; + /// implicit conversion to JSON vector (not for objects) + operator array_t() const; + /// implicit conversion to JSON map (only for objects) + operator object_t() const; + + /// serialize to stream + friend std::ostream& operator<<(std::ostream& o, const json& j) + { + o << j.dump(); + return o; + } + /// serialize to stream + friend std::ostream& operator>>(const json& j, std::ostream& o) + { + o << j.dump(); + return o; + } + + /// deserialize from stream + friend std::istream& operator>>(std::istream& i, json& j) + { + j = parser(i).parse(); + return i; + } + /// deserialize from stream + friend std::istream& operator<<(json& j, std::istream& i) + { + j = parser(i).parse(); + return i; + } + + /// explicit serialization + std::string dump(int = -1) const noexcept; + + /// add an object/array to an array + json& operator+=(const json&); + /// add a string to an array + json& operator+=(const std::string&); + /// add a null object to an array + json& operator+=(const std::nullptr_t); + /// add a string to an array + json& operator+=(const char*); + /// add a Boolean to an array + json& operator+=(bool); + /// add a number to an array + json& operator+=(int); + /// add a number to an array + json& operator+=(double); + + /// add a pair to an object + json& operator+=(const object_t::value_type&); + /// add a list of elements to array or list of pairs to object + json& operator+=(list_init_t); + + /// add an object/array to an array + void push_back(const json&); + /// add an object/array to an array (move) + void push_back(json&&); + /// add a string to an array + void push_back(const std::string&); + /// add a null object to an array + void push_back(const std::nullptr_t); + /// add a string to an array + void push_back(const char*); + /// add a Boolean to an array + void push_back(bool); + /// add a number to an array + void push_back(int); + /// add a number to an array + void push_back(double); + + /// add a pair to an object + void push_back(const object_t::value_type&); + /// add a list of elements to array or list of pairs to object + void push_back(list_init_t); + + /// operator to set an element in an array + json& operator[](const int); + /// operator to get an element in an array + const json& operator[](const int) const; + /// operator to get an element in an array + json& at(const int); + /// operator to get an element in an array + const json& at(const int) const; + + /// operator to set an element in an object + json& operator[](const std::string&); + /// operator to set an element in an object + json& operator[](const char*); + /// operator to get an element in an object + const json& operator[](const std::string&) const; + /// operator to set an element in an object + json& at(const std::string&); + /// operator to set an element in an object + json& at(const char*); + /// operator to get an element in an object + const json& at(const std::string&) const; + /// operator to get an element in an object + const json& at(const char*) const; + + /// return the number of stored values + std::size_t size() const noexcept; + /// checks whether object is empty + bool empty() const noexcept; + /// removes all elements from compounds and resets values to default + void clear() noexcept; + + /// return the type of the object + value_type type() const noexcept; + + /// find an element in an object (returns end() iterator otherwise) + iterator find(const std::string&); + /// find an element in an object (returns end() iterator otherwise) + const_iterator find(const std::string&) const; + /// find an element in an object (returns end() iterator otherwise) + iterator find(const char*); + /// find an element in an object (returns end() iterator otherwise) + const_iterator find(const char*) const; + + /// lexicographically compares the values + bool operator==(const json&) const noexcept; + /// lexicographically compares the values + bool operator!=(const json&) const noexcept; + + /// returns an iterator to the beginning (array/object) + iterator begin() noexcept; + /// returns an iterator to the end (array/object) + iterator end() noexcept; + /// returns an iterator to the beginning (array/object) + const_iterator begin() const noexcept; + /// returns an iterator to the end (array/object) + const_iterator end() const noexcept; + /// returns an iterator to the beginning (array/object) + const_iterator cbegin() const noexcept; + /// returns an iterator to the end (array/object) + const_iterator cend() const noexcept; + + private: + /// the type of this object + value_type type_ = value_type::null; + + /// the payload + value value_ {}; + + public: + /// an iterator + class iterator : public std::iterator + { + friend class json; + friend class json::const_iterator; + public: + iterator() = default; + iterator(json*); + iterator(const iterator&); + ~iterator(); + + iterator& operator=(iterator); + bool operator==(const iterator&) const; + bool operator!=(const iterator&) const; + iterator& operator++(); + json& operator*() const; + json* operator->() const; + + /// getter for the key (in case of objects) + std::string key() const; + /// getter for the value + json& value() const; + + private: + /// a JSON value + json* object_ = nullptr; + /// an iterator for JSON arrays + array_t::iterator* vi_ = nullptr; + /// an iterator for JSON objects + object_t::iterator* oi_ = nullptr; + }; + + /// a const iterator + class const_iterator : public std::iterator + { + friend class json; + + public: + const_iterator() = default; + const_iterator(const json*); + const_iterator(const const_iterator&); + const_iterator(const json::iterator&); + ~const_iterator(); + + const_iterator& operator=(const_iterator); + bool operator==(const const_iterator&) const; + bool operator!=(const const_iterator&) const; + const_iterator& operator++(); + const json& operator*() const; + const json* operator->() const; + + /// getter for the key (in case of objects) + std::string key() const; + /// getter for the value + const json& value() const; + + private: + /// a JSON value + const json* object_ = nullptr; + /// an iterator for JSON arrays + array_t::const_iterator* vi_ = nullptr; + /// an iterator for JSON objects + object_t::const_iterator* oi_ = nullptr; + }; + + private: + /// a helper class to parse a JSON object + class parser + { + public: + /// a parser reading from a C string + parser(const char*); + /// a parser reading from a C++ string + parser(const std::string&); + /// a parser reading from an input stream + parser(std::istream&); + /// destructor of the parser + ~parser() = default; + + // no copy constructor + parser(const parser&) = delete; + // no copy assignment + parser& operator=(parser) = delete; + + /// parse and return a JSON object + json parse(); + + private: + /// read the next character, stripping whitespace + bool next(); + /// raise an exception with an error message + inline void error(const std::string&) __attribute__((noreturn)); + /// parse a quoted string + inline std::string parseString(); + /// parse a Boolean "true" + inline void parseTrue(); + /// parse a Boolean "false" + inline void parseFalse(); + /// parse a null object + inline void parseNull(); + /// a helper function to expect a certain character + inline void expect(const char); + + private: + /// a buffer of the input + std::string buffer_ {}; + /// the current character + char current_ {}; + /// the position inside the input buffer + std::size_t pos_ = 0; + }; +}; + +} + +/// user-defined literal operator to create JSON objects from strings +nlohmann::json operator "" _json(const char*, std::size_t); +/*! +@file +@copyright The code is licensed under the MIT License + , + Copyright (c) 2013-2014 Niels Lohmann. + +@author Niels Lohmann + +@see https://github.com/nlohmann/json +*/ + + + +#include // std::isdigit, std::isspace +#include // std::size_t +#include // std::runtime_error +#include // std::swap, std::move + +namespace nlohmann +{ + +/////////////////////////////////// +// CONSTRUCTORS OF UNION "value" // +/////////////////////////////////// + +json::value::value(array_t* _array): array(_array) {} +json::value::value(object_t* object_): object(object_) {} +json::value::value(string_t* _string): string(_string) {} +json::value::value(boolean_t _boolean) : boolean(_boolean) {} +json::value::value(number_t _number) : number(_number) {} +json::value::value(number_float_t _number_float) : number_float(_number_float) {} + + +///////////////////////////////// +// CONSTRUCTORS AND DESTRUCTOR // +///////////////////////////////// + +/*! +Construct an empty JSON given the type. + +@param t the type from the @ref json::type enumeration. + +@post Memory for array, object, and string are allocated. +*/ +json::json(const value_type t) + : type_(t) +{ + switch (type_) + { + case (value_type::array): + { + value_.array = new array_t(); + break; + } + case (value_type::object): + { + value_.object = new object_t(); + break; + } + case (value_type::string): + { + value_.string = new string_t(); + break; + } + case (value_type::boolean): + { + value_.boolean = boolean_t(); + break; + } + case (value_type::number): + { + value_.number = number_t(); + break; + } + case (value_type::number_float): + { + value_.number_float = number_float_t(); + break; + } + default: + { + break; + } + } +} + +/*! +Construct a null JSON object. +*/ +json::json(std::nullptr_t) noexcept : json() +{} + +/*! +Construct a string JSON object. + +@param s a string to initialize the JSON object with +*/ +json::json(const std::string& s) + : type_(value_type::string), value_(new string_t(s)) +{} + +json::json(std::string&& s) + : type_(value_type::string), value_(new string_t(std::move(s))) +{} + +json::json(const char* s) + : type_(value_type::string), value_(new string_t(s)) +{} + +json::json(const bool b) noexcept + : type_(value_type::boolean), value_(b) +{} + +json::json(const int i) noexcept + : type_(value_type::number), value_(i) +{} + +json::json(const double f) noexcept + : type_(value_type::number_float), value_(f) +{} + +json::json(const array_t& a) + : type_(value_type::array), value_(new array_t(a)) +{} + +json::json(array_t&& a) + : type_(value_type::array), value_(new array_t(std::move(a))) +{} + +json::json(const object_t& o) + : type_(value_type::object), value_(new object_t(o)) +{} + +json::json(object_t&& o) + : type_(value_type::object), value_(new object_t(std::move(o))) +{} + +/*! +This function is a bit tricky as it uses an initializer list of JSON objects +for both arrays and objects. This is not supported by C++, so we use the +following trick. Both initializer lists for objects and arrays will transform +to a list of JSON objects. The only difference is that in case of an object, +the list will contain JSON array objects with two elements - one for the key +and one for the value. As a result, it is sufficient to check if each element +of the initializer list is an array (1) with two elements (2) whose first +element is of type string (3). If this is the case, we treat the whole +initializer list as list of pairs to construct an object. If not, we pass it +as is to create an array. + +@bug With the described approach, we would fail to recognize an array whose + first element is again an arrays as array. +*/ +json::json(list_init_t a) +{ + // check if each element is an array with two elements whose first element + // is a string + for (const auto& element : a) + { + if (element.type_ != value_type::array or + element.size() != 2 or + element[0].type_ != value_type::string) + { + + // the initializer list describes an array + type_ = value_type::array; + value_ = new array_t(a); + return; + } + } + + // the initializer list is a list of pairs + type_ = value_type::object; + value_ = new object_t(); + for (const json& element : a) + { + const std::string k = element[0]; + value_.object->emplace(std::make_pair(std::move(k), + std::move(element[1]))); + } +} + +/*! +A copy constructor for the JSON class. + +@param o the JSON object to copy +*/ +json::json(const json& o) + : type_(o.type_) +{ + switch (type_) + { + case (value_type::array): + { + value_.array = new array_t(*o.value_.array); + break; + } + case (value_type::object): + { + value_.object = new object_t(*o.value_.object); + break; + } + case (value_type::string): + { + value_.string = new string_t(*o.value_.string); + break; + } + case (value_type::boolean): + { + value_.boolean = o.value_.boolean; + break; + } + case (value_type::number): + { + value_.number = o.value_.number; + break; + } + case (value_type::number_float): + { + value_.number_float = o.value_.number_float; + break; + } + default: + { + break; + } + } +} + +/*! +A move constructor for the JSON class. + +@param o the JSON object to move + +@post The JSON object \p o is invalidated. +*/ +json::json(json&& o) noexcept + : type_(std::move(o.type_)), value_(std::move(o.value_)) +{ + // invalidate payload + o.type_ = value_type::null; + o.value_ = {}; +} + +/*! +A copy assignment operator for the JSON class, following the copy-and-swap +idiom. + +@param o A JSON object to assign to this object. +*/ +json& json::operator=(json o) noexcept +{ + std::swap(type_, o.type_); + std::swap(value_, o.value_); + return *this; +} + +json::~json() noexcept +{ + switch (type_) + { + case (value_type::array): + { + delete value_.array; + break; + } + case (value_type::object): + { + delete value_.object; + break; + } + case (value_type::string): + { + delete value_.string; + break; + } + default: + { + // nothing to do for non-pointer types + break; + } + } +} + +/*! +@param s a string representation of a JSON object +@return a JSON object +*/ +json json::parse(const std::string& s) +{ + return parser(s).parse(); +} + +/*! +@param s a string representation of a JSON object +@return a JSON object +*/ +json json::parse(const char* s) +{ + return parser(s).parse(); +} + + +std::string json::type_name() const noexcept +{ + switch (type_) + { + case (value_type::array): + { + return "array"; + } + case (value_type::object): + { + return "object"; + } + case (value_type::null): + { + return "null"; + } + case (value_type::string): + { + return "string"; + } + case (value_type::boolean): + { + return "boolean"; + } + default: + { + return "number"; + } + } +} + + +/////////////////////////////// +// OPERATORS AND CONVERSIONS // +/////////////////////////////// + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is not string +*/ +template<> +std::string json::get() const +{ + switch (type_) + { + case (value_type::string): + return *value_.string; + default: + throw std::logic_error("cannot cast " + type_name() + " to JSON string"); + } +} + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is not number (int or float) +*/ +template<> +int json::get() const +{ + switch (type_) + { + case (value_type::number): + return value_.number; + case (value_type::number_float): + return static_cast(value_.number_float); + default: + throw std::logic_error("cannot cast " + type_name() + " to JSON number"); + } +} + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is not number (int or float) +*/ +template<> +double json::get() const +{ + switch (type_) + { + case (value_type::number): + return static_cast(value_.number); + case (value_type::number_float): + return value_.number_float; + default: + throw std::logic_error("cannot cast " + type_name() + " to JSON number"); + } +} + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is not boolean +*/ +template<> +bool json::get() const +{ + switch (type_) + { + case (value_type::boolean): + return value_.boolean; + default: + throw std::logic_error("cannot cast " + type_name() + " to JSON Boolean"); + } +} + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is an object +*/ +template<> +json::array_t json::get() const +{ + if (type_ == value_type::array) + { + return *value_.array; + } + if (type_ == value_type::object) + { + throw std::logic_error("cannot cast " + type_name() + " to JSON array"); + } + + array_t result; + result.push_back(*this); + return result; +} + +/*! +@exception std::logic_error if the function is called for JSON objects whose + type is not object +*/ +template<> +json::object_t json::get() const +{ + if (type_ == value_type::object) + { + return *value_.object; + } + else + { + throw std::logic_error("cannot cast " + type_name() + " to JSON object"); + } +} + +json::operator const std::string() const +{ + return get(); +} + +json::operator int() const +{ + return get(); +} + +json::operator double() const +{ + return get(); +} + +json::operator bool() const +{ + return get(); +} + +json::operator array_t() const +{ + return get(); +} + +json::operator object_t() const +{ + return get(); +} + +/*! +Internal implementation of the serialization function. + +\param prettyPrint whether the output shall be pretty-printed +\param indentStep the indent level +\param currentIndent the current indent level (only used internally) +*/ +std::string json::dump(const bool prettyPrint, const unsigned int indentStep, + unsigned int currentIndent) const noexcept +{ + // helper function to return whitespace as indentation + const auto indent = [prettyPrint, ¤tIndent]() + { + return prettyPrint ? std::string(currentIndent, ' ') : std::string(); + }; + + switch (type_) + { + case (value_type::string): + { + return std::string("\"") + *value_.string + "\""; + } + + case (value_type::boolean): + { + return value_.boolean ? "true" : "false"; + } + + case (value_type::number): + { + return std::to_string(value_.number); + } + + case (value_type::number_float): + { + return std::to_string(value_.number_float); + } + + case (value_type::array): + { + if (value_.array->empty()) + { + return "[]"; + } + + std::string result = "["; + + // increase indentation + if (prettyPrint) + { + currentIndent += indentStep; + result += "\n"; + } + + for (array_t::const_iterator i = value_.array->begin(); i != value_.array->end(); ++i) + { + if (i != value_.array->begin()) + { + result += prettyPrint ? ",\n" : ", "; + } + result += indent() + i->dump(prettyPrint, indentStep, currentIndent); + } + + // decrease indentation + if (prettyPrint) + { + currentIndent -= indentStep; + result += "\n"; + } + + return result + indent() + "]"; + } + + case (value_type::object): + { + if (value_.object->empty()) + { + return "{}"; + } + + std::string result = "{"; + + // increase indentation + if (prettyPrint) + { + currentIndent += indentStep; + result += "\n"; + } + + for (object_t::const_iterator i = value_.object->begin(); i != value_.object->end(); ++i) + { + if (i != value_.object->begin()) + { + result += prettyPrint ? ",\n" : ", "; + } + result += indent() + "\"" + i->first + "\": " + i->second.dump(prettyPrint, indentStep, + currentIndent); + } + + // decrease indentation + if (prettyPrint) + { + currentIndent -= indentStep; + result += "\n"; + } + + return result + indent() + "}"; + } + + // actually only value_type::null - but making the compiler happy + default: + { + return "null"; + } + } +} + +/*! +Serialization function for JSON objects. The function tries to mimick Python's +\p json.dumps() function, and currently supports its \p indent parameter. + +\param indent if 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 + +\see https://docs.python.org/2/library/json.html#json.dump +*/ +std::string json::dump(int indent) const noexcept +{ + if (indent >= 0) + { + return dump(true, static_cast(indent)); + } + else + { + return dump(false, 0); + } +} + + +/////////////////////////////////////////// +// ADDING ELEMENTS TO OBJECTS AND ARRAYS // +/////////////////////////////////////////// + +json& json::operator+=(const json& o) +{ + push_back(o); + return *this; +} + +json& json::operator+=(const std::string& s) +{ + push_back(json(s)); + return *this; +} + +json& json::operator+=(const char* s) +{ + push_back(json(s)); + return *this; +} + +json& json::operator+=(std::nullptr_t) +{ + push_back(json()); + return *this; +} + +json& json::operator+=(bool b) +{ + push_back(json(b)); + return *this; +} + +/*! +Adds a number (int) to the current object. This is done by wrapping the number +into a JSON and call push_back for this. + +@param i A number (int) to add to the array. +*/ +json& json::operator+=(int i) +{ + push_back(json(i)); + return *this; +} + +/*! +Adds a number (float) to the current object. This is done by wrapping the +number into a JSON and call push_back for this. + +@param f A number (float) to add to the array. +*/ +json& json::operator+=(double f) +{ + push_back(json(f)); + return *this; +} + +/*! +@todo comment me +*/ +json& json::operator+=(const object_t::value_type& p) +{ + return operator[](p.first) = p.second; +} + +/*! +@todo comment me +*/ +json& json::operator+=(list_init_t a) +{ + push_back(a); + return *this; +} + +/*! +This function implements the actual "adding to array" function and is called +by all other push_back or operator+= functions. If the function is called for +an array, the passed element is added to the array. + +@param o The element to add to the array. + +@pre The JSON object is an array or null. +@post The JSON object is an array whose last element is the passed element o. +@exception std::runtime_error The function was called for a JSON type that + does not support addition to an array (e.g., int or string). + +@note Null objects are silently transformed into an array before the addition. +*/ +void json::push_back(const json& o) +{ + // push_back only works for null objects or arrays + if (not(type_ == value_type::null or type_ == value_type::array)) + { + throw std::runtime_error("cannot add element to " + type_name()); + } + + // transform null object into an array + if (type_ == value_type::null) + { + type_ = value_type::array; + value_.array = new array_t; + } + + // add element to array + value_.array->push_back(o); +} + +/*! +This function implements the actual "adding to array" function and is called +by all other push_back or operator+= functions. If the function is called for +an array, the passed element is added to the array using move semantics. + +@param o The element to add to the array. + +@pre The JSON object is an array or null. +@post The JSON object is an array whose last element is the passed element o. +@post The element o is destroyed. +@exception std::runtime_error The function was called for a JSON type that + does not support addition to an array (e.g., int or string). + +@note Null objects are silently transformed into an array before the addition. +@note This function applies move semantics for the given element. +*/ +void json::push_back(json&& o) +{ + // push_back only works for null objects or arrays + if (not(type_ == value_type::null or type_ == value_type::array)) + { + throw std::runtime_error("cannot add element to " + type_name()); + } + + // transform null object into an array + if (type_ == value_type::null) + { + type_ = value_type::array; + value_.array = new array_t; + } + + // add element to array (move semantics) + value_.array->emplace_back(std::move(o)); + // invalidate object + o.type_ = value_type::null; +} + +void json::push_back(const std::string& s) +{ + push_back(json(s)); +} + +void json::push_back(const char* s) +{ + push_back(json(s)); +} + +void json::push_back(std::nullptr_t) +{ + push_back(json()); +} + +void json::push_back(bool b) +{ + push_back(json(b)); +} + +/*! +Adds a number (int) to the current object. This is done by wrapping the number +into a JSON and call push_back for this. + +@param i A number (int) to add to the array. +*/ +void json::push_back(int i) +{ + push_back(json(i)); +} + +/*! +Adds a number (float) to the current object. This is done by wrapping the +number into a JSON and call push_back for this. + +@param f A number (float) to add to the array. +*/ +void json::push_back(double f) +{ + push_back(json(f)); +} + +/*! +@todo comment me +*/ +void json::push_back(const object_t::value_type& p) +{ + operator[](p.first) = p.second; +} + +/*! +@todo comment me +*/ +void json::push_back(list_init_t a) +{ + bool is_array = false; + + // check if each element is an array with two elements whose first element + // is a string + for (const auto& element : a) + { + if (element.type_ != value_type::array or + element.size() != 2 or + element[0].type_ != value_type::string) + { + // the initializer list describes an array + is_array = true; + break; + } + } + + if (is_array) + { + for (const json& element : a) + { + push_back(element); + } + } + else + { + for (const json& element : a) + { + const object_t::value_type tmp {element[0].get(), element[1]}; + push_back(tmp); + } + } +} + +/*! +This operator realizes read/write access to array elements given an integer +index. Bounds will not be checked. + +@note The "index" variable should be of type size_t as it is compared against + size() and used in the at() function. However, the compiler will have + problems in case integer literals are used. In this case, an implicit + conversion to both size_t and JSON is possible. Therefore, we use int as + type and convert it to size_t where necessary. + +@param index the index of the element to return from the array +@return reference to element for the given index + +@pre Object is an array. +@exception std::domain_error if object is not an array +*/ +json& json::operator[](const int index) +{ + // this [] operator only works for arrays + if (type_ != value_type::array) + { + throw std::domain_error("cannot add entry with index " + + std::to_string(index) + " to " + type_name()); + } + + // return reference to element from array at given index + return (*value_.array)[static_cast(index)]; +} + +/*! +This operator realizes read-only access to array elements given an integer +index. Bounds will not be checked. + +@note The "index" variable should be of type size_t as it is compared against + size() and used in the at() function. However, the compiler will have + problems in case integer literals are used. In this case, an implicit + conversion to both size_t and JSON is possible. Therefore, we use int as + type and convert it to size_t where necessary. + +@param index the index of the element to return from the array +@return read-only reference to element for the given index + +@pre Object is an array. +@exception std::domain_error if object is not an array +*/ +const json& json::operator[](const int index) const +{ + // this [] operator only works for arrays + if (type_ != value_type::array) + { + throw std::domain_error("cannot get entry with index " + + std::to_string(index) + " from " + type_name()); + } + + // return element from array at given index + return (*value_.array)[static_cast(index)]; +} + +/*! +This function realizes read/write access to array elements given an integer +index. Bounds will be checked. + +@note The "index" variable should be of type size_t as it is compared against + size() and used in the at() function. However, the compiler will have + problems in case integer literals are used. In this case, an implicit + conversion to both size_t and JSON is possible. Therefore, we use int as + type and convert it to size_t where necessary. + +@param index the index of the element to return from the array +@return reference to element for the given index + +@pre Object is an array. +@exception std::domain_error if object is not an array +@exception std::out_of_range if index is out of range (via std::vector::at) +*/ +json& json::at(const int index) +{ + // this function only works for arrays + if (type_ != value_type::array) + { + throw std::domain_error("cannot add entry with index " + + std::to_string(index) + " to " + type_name()); + } + + // return reference to element from array at given index + return value_.array->at(static_cast(index)); +} + +/*! +This operator realizes read-only access to array elements given an integer +index. Bounds will be checked. + +@note The "index" variable should be of type size_t as it is compared against + size() and used in the at() function. However, the compiler will have + problems in case integer literals are used. In this case, an implicit + conversion to both size_t and JSON is possible. Therefore, we use int as + type and convert it to size_t where necessary. + +@param index the index of the element to return from the array +@return read-only reference to element for the given index + +@pre Object is an array. +@exception std::domain_error if object is not an array +@exception std::out_of_range if index is out of range (via std::vector::at) +*/ +const json& json::at(const int index) const +{ + // this function only works for arrays + if (type_ != value_type::array) + { + throw std::domain_error("cannot get entry with index " + + std::to_string(index) + " from " + type_name()); + } + + // return element from array at given index + return value_.array->at(static_cast(index)); +} + +/*! +@copydoc json::operator[](const char* key) +*/ +json& json::operator[](const std::string& key) +{ + return operator[](key.c_str()); +} + +/*! +This operator realizes read/write access to object elements given a string +key. + +@param key the key index of the element to return from the object +@return reference to a JSON object for the given key (null if key does not + exist) + +@pre Object is an object or a null object. +@post null objects are silently converted to objects. + +@exception std::domain_error if object is not an object (or null) +*/ +json& json::operator[](const char* key) +{ + // implicitly convert null to object + if (type_ == value_type::null) + { + type_ = value_type::object; + value_.object = new object_t; + } + + // this [] operator only works for objects + if (type_ != value_type::object) + { + throw std::domain_error("cannot add entry with key " + + std::string(key) + " to " + type_name()); + } + + // if the key does not exist, create it + if (value_.object->find(key) == value_.object->end()) + { + (*value_.object)[key] = json(); + } + + // return reference to element from array at given index + return (*value_.object)[key]; +} + +/*! +This operator realizes read-only access to object elements given a string +key. + +@param key the key index of the element to return from the object +@return read-only reference to element for the given key + +@pre Object is an object. +@exception std::domain_error if object is not an object +@exception std::out_of_range if key is not found in object +*/ +const json& json::operator[](const std::string& key) const +{ + // this [] operator only works for objects + if (type_ != value_type::object) + { + throw std::domain_error("cannot get entry with key " + + std::string(key) + " from " + type_name()); + } + + // search for the key + const auto it = value_.object->find(key); + + // make sure the key exists in the object + if (it == value_.object->end()) + { + throw std::out_of_range("key " + key + " not found"); + } + + // return element from array at given key + return it->second; +} + +/*! +@copydoc json::at(const char* key) +*/ +json& json::at(const std::string& key) +{ + return at(key.c_str()); +} + +/*! +This function realizes read/write access to object elements given a string +key. + +@param key the key index of the element to return from the object +@return reference to a JSON object for the given key (exception if key does not + exist) + +@pre Object is an object. + +@exception std::domain_error if object is not an object +@exception std::out_of_range if key was not found (via std::map::at) +*/ +json& json::at(const char* key) +{ + // this function operator only works for objects + if (type_ != value_type::object) + { + throw std::domain_error("cannot add entry with key " + + std::string(key) + " to " + type_name()); + } + + // return reference to element from array at given index + return value_.object->at(key); +} + +/*! +@copydoc json::at(const char *key) const +*/ +const json& json::at(const std::string& key) const +{ + return at(key.c_str()); +} + +/*! +This operator realizes read-only access to object elements given a string +key. + +@param key the key index of the element to return from the object +@return read-only reference to element for the given key + +@pre Object is an object. +@exception std::domain_error if object is not an object +@exception std::out_of_range if key is not found (via std::map::at) +*/ +const json& json::at(const char* key) const +{ + // this [] operator only works for objects + if (type_ != value_type::object) + { + throw std::domain_error("cannot get entry with key " + + std::string(key) + " from " + type_name()); + } + + // return element from array at given key + return value_.object->at(key); +} + + +/*! +Returns the size of the JSON object. + +@return the size of the JSON object; the size is the number of elements in + compounds (array and object), 1 for value types (true, false, number, + string), and 0 for null. + +@invariant The size is reported as 0 if and only if empty() would return true. +*/ +std::size_t json::size() const noexcept +{ + switch (type_) + { + case (value_type::array): + { + return value_.array->size(); + } + case (value_type::object): + { + return value_.object->size(); + } + case (value_type::null): + { + return 0; + } + default: + { + return 1; + } + } +} + +/*! +Returns whether a JSON object is empty. + +@return true for null objects and empty compounds (array and object); false + for value types (true, false, number, string) and filled compounds + (array and object). + +@invariant Empty would report true if and only if size() would return 0. +*/ +bool json::empty() const noexcept +{ + switch (type_) + { + case (value_type::array): + { + return value_.array->empty(); + } + case (value_type::object): + { + return value_.object->empty(); + } + case (value_type::null): + { + return true; + } + default: + { + return false; + } + } +} + +/*! +Removes all elements from compounds and resets values to default. + +@invariant Clear will set any value type to its default value which is empty + for compounds, false for booleans, 0 for integer numbers, and 0.0 + for floating numbers. +*/ +void json::clear() noexcept +{ + switch (type_) + { + case (value_type::array): + { + value_.array->clear(); + break; + } + case (value_type::object): + { + value_.object->clear(); + break; + } + case (value_type::string): + { + value_.string->clear(); + break; + } + case (value_type::boolean): + { + value_.boolean = {}; + break; + } + case (value_type::number): + { + value_.number = {}; + break; + } + case (value_type::number_float): + { + value_.number_float = {}; + break; + } + default: + { + break; + } + } +} + +json::value_type json::type() const noexcept +{ + return type_; +} + +json::iterator json::find(const std::string& key) +{ + return find(key.c_str()); +} + +json::const_iterator json::find(const std::string& key) const +{ + return find(key.c_str()); +} + +json::iterator json::find(const char* key) +{ + if (type_ != value_type::object) + { + return end(); + } + else + { + const object_t::iterator i = value_.object->find(key); + if (i != value_.object->end()) + { + json::iterator result(this); + delete result.oi_; + result.oi_ = nullptr; + result.oi_ = new object_t::iterator(i); + return result; + } + else + { + return end(); + } + } +} + +json::const_iterator json::find(const char* key) const +{ + if (type_ != value_type::object) + { + return end(); + } + else + { + const object_t::const_iterator i = value_.object->find(key); + if (i != value_.object->end()) + { + json::const_iterator result(this); + delete result.oi_; + result.oi_ = nullptr; + result.oi_ = new object_t::const_iterator(i); + return result; + } + else + { + return end(); + } + } +} + +bool json::operator==(const json& o) const noexcept +{ + switch (type_) + { + case (value_type::array): + { + if (o.type_ == value_type::array) + { + return *value_.array == *o.value_.array; + } + break; + } + case (value_type::object): + { + if (o.type_ == value_type::object) + { + return *value_.object == *o.value_.object; + } + break; + } + case (value_type::null): + { + if (o.type_ == value_type::null) + { + return true; + } + break; + } + case (value_type::string): + { + if (o.type_ == value_type::string) + { + return *value_.string == *o.value_.string; + } + break; + } + case (value_type::boolean): + { + if (o.type_ == value_type::boolean) + { + return value_.boolean == o.value_.boolean; + } + break; + } + case (value_type::number): + { + if (o.type_ == value_type::number) + { + return value_.number == o.value_.number; + } + if (o.type_ == value_type::number_float) + { + return value_.number == static_cast(o.value_.number_float); + } + break; + } + case (value_type::number_float): + { + if (o.type_ == value_type::number) + { + return value_.number_float == static_cast(o.value_.number); + } + if (o.type_ == value_type::number_float) + { + return value_.number_float == o.value_.number_float; + } + break; + } + } + + return false; +} + +bool json::operator!=(const json& o) const noexcept +{ + return not operator==(o); +} + + +json::iterator json::begin() noexcept +{ + return json::iterator(this); +} + +json::iterator json::end() noexcept +{ + return json::iterator(); +} + +json::const_iterator json::begin() const noexcept +{ + return json::const_iterator(this); +} + +json::const_iterator json::end() const noexcept +{ + return json::const_iterator(); +} + +json::const_iterator json::cbegin() const noexcept +{ + return json::const_iterator(this); +} + +json::const_iterator json::cend() const noexcept +{ + return json::const_iterator(); +} + + +json::iterator::iterator(json* j) : object_(j) +{ + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + vi_ = new array_t::iterator(object_->value_.array->begin()); + } + if (object_->type_ == json::value_type::object) + { + oi_ = new object_t::iterator(object_->value_.object->begin()); + } + } +} + +json::iterator::iterator(const json::iterator& o) : object_(o.object_) +{ + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + vi_ = new array_t::iterator(*(o.vi_)); + } + if (object_->type_ == json::value_type::object) + { + oi_ = new object_t::iterator(*(o.oi_)); + } + } +} + +json::iterator::~iterator() +{ + delete vi_; + delete oi_; +} + +json::iterator& json::iterator::operator=(json::iterator o) +{ + std::swap(object_, o.object_); + std::swap(vi_, o.vi_); + std::swap(oi_, o.oi_); + return *this; +} + +bool json::iterator::operator==(const json::iterator& o) const +{ + if (object_ != o.object_) + { + return false; + } + + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + return (vi_ == o.vi_); + } + if (object_->type_ == json::value_type::object) + { + return (oi_ == o.oi_); + } + } + + return true; +} + +bool json::iterator::operator!=(const json::iterator& o) const +{ + return not operator==(o); +} + +json::iterator& json::iterator::operator++() +{ + // iterator cannot be incremented + if (object_ == nullptr) + { + return *this; + } + + switch (object_->type_) + { + case (json::value_type::array): + { + if (++(*vi_) == object_->value_.array->end()) + { + object_ = nullptr; + } + break; + } + case (json::value_type::object): + { + if (++(*oi_) == object_->value_.object->end()) + { + object_ = nullptr; + } + break; + } + default: + { + object_ = nullptr; + } + } + return *this; +} + +json& json::iterator::operator*() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::runtime_error("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return **vi_; + } + case (json::value_type::object): + { + return (*oi_)->second; + } + default: + { + return *object_; + } + } +} + +json* json::iterator::operator->() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::runtime_error("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return &(**vi_); + } + case (json::value_type::object): + { + return &((*oi_)->second); + } + default: + { + return object_; + } + } +} + +std::string json::iterator::key() const +{ + if (object_ != nullptr and object_->type_ == json::value_type::object) + { + return (*oi_)->first; + } + else + { + throw std::out_of_range("cannot get key"); + } +} + +json& json::iterator::value() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::out_of_range("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return **vi_; + } + case (json::value_type::object): + { + return (*oi_)->second; + } + default: + { + return *object_; + } + } +} + + +json::const_iterator::const_iterator(const json* j) : object_(j) +{ + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + vi_ = new array_t::const_iterator(object_->value_.array->begin()); + } + if (object_->type_ == json::value_type::object) + { + oi_ = new object_t::const_iterator(object_->value_.object->begin()); + } + } +} + +json::const_iterator::const_iterator(const json::const_iterator& o) : object_(o.object_) +{ + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + vi_ = new array_t::const_iterator(*(o.vi_)); + } + if (object_->type_ == json::value_type::object) + { + oi_ = new object_t::const_iterator(*(o.oi_)); + } + } +} + +json::const_iterator::const_iterator(const json::iterator& o) : object_(o.object_) +{ + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + vi_ = new array_t::const_iterator(*(o.vi_)); + } + if (object_->type_ == json::value_type::object) + { + oi_ = new object_t::const_iterator(*(o.oi_)); + } + } +} + +json::const_iterator::~const_iterator() +{ + delete vi_; + delete oi_; +} + +json::const_iterator& json::const_iterator::operator=(json::const_iterator o) +{ + std::swap(object_, o.object_); + std::swap(vi_, o.vi_); + std::swap(oi_, o.oi_); + return *this; +} + +bool json::const_iterator::operator==(const json::const_iterator& o) const +{ + if (object_ != o.object_) + { + return false; + } + + if (object_ != nullptr) + { + if (object_->type_ == json::value_type::array) + { + return (vi_ == o.vi_); + } + if (object_->type_ == json::value_type::object) + { + return (oi_ == o.oi_); + } + } + + return true; +} + +bool json::const_iterator::operator!=(const json::const_iterator& o) const +{ + return not operator==(o); +} + +json::const_iterator& json::const_iterator::operator++() +{ + // iterator cannot be incremented + if (object_ == nullptr) + { + return *this; + } + + switch (object_->type_) + { + case (json::value_type::array): + { + if (++(*vi_) == object_->value_.array->end()) + { + object_ = nullptr; + } + break; + } + case (json::value_type::object): + { + if (++(*oi_) == object_->value_.object->end()) + { + object_ = nullptr; + } + break; + } + default: + { + object_ = nullptr; + } + } + return *this; +} + +const json& json::const_iterator::operator*() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::runtime_error("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return **vi_; + } + case (json::value_type::object): + { + return (*oi_)->second; + } + default: + { + return *object_; + } + } +} + +const json* json::const_iterator::operator->() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::runtime_error("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return &(**vi_); + } + case (json::value_type::object): + { + return &((*oi_)->second); + } + default: + { + return object_; + } + } +} + +std::string json::const_iterator::key() const +{ + if (object_ != nullptr and object_->type_ == json::value_type::object) + { + return (*oi_)->first; + } + else + { + throw std::out_of_range("cannot get key"); + } +} + +const json& json::const_iterator::value() const +{ + // dereferencing end() is an error + if (object_ == nullptr) + { + throw std::out_of_range("cannot get value"); + } + + switch (object_->type_) + { + case (json::value_type::array): + { + return **vi_; + } + case (json::value_type::object): + { + return (*oi_)->second; + } + default: + { + return *object_; + } + } +} + + +/*! +Initialize the JSON parser given a string \p s. + +@note After initialization, the function @ref parse has to be called manually. + +@param s string to parse + +@post \p s is copied to the buffer @ref buffer_ and the first character is + read. Whitespace is skipped. +*/ +json::parser::parser(const char* s) + : buffer_(s) +{ + // read first character + next(); +} + +/*! +@copydoc json::parser::parser(const char* s) +*/ +json::parser::parser(const std::string& s) + : buffer_(s) +{ + // read first character + next(); +} + +/*! +Initialize the JSON parser given an input stream \p _is. + +@note After initialization, the function @ref parse has to be called manually. + +\param _is input stream to parse + +@post \p _is is copied to the buffer @ref buffer_ and the firsr character is + read. Whitespace is skipped. + +*/ +json::parser::parser(std::istream& _is) +{ + while (_is) + { + std::string input_line; + std::getline(_is, input_line); + buffer_ += input_line; + } + + // read first character + next(); +} + +json json::parser::parse() +{ + switch (current_) + { + case ('{'): + { + // explicitly set result to object to cope with {} + json result(value_type::object); + + next(); + + // process nonempty object + if (current_ != '}') + { + do + { + // key + auto key = parseString(); + + // colon + expect(':'); + + // value + result[std::move(key)] = parse(); + key.clear(); + } + while (current_ == ',' and next()); + } + + // closing brace + expect('}'); + + return result; + } + + case ('['): + { + // explicitly set result to array to cope with [] + json result(value_type::array); + + next(); + + // process nonempty array + if (current_ != ']') + { + do + { + result.push_back(parse()); + } + while (current_ == ',' and next()); + } + + // closing bracket + expect(']'); + + return result; + } + + case ('\"'): + { + return json(parseString()); + } + + case ('t'): + { + parseTrue(); + return json(true); + } + + case ('f'): + { + parseFalse(); + return json(false); + } + + case ('n'): + { + parseNull(); + return json(); + } + + case ('-'): + case ('0'): + case ('1'): + case ('2'): + case ('3'): + case ('4'): + case ('5'): + case ('6'): + case ('7'): + case ('8'): + case ('9'): + { + // remember position of number's first character + const auto _firstpos_ = pos_ - 1; + + while (next() and (std::isdigit(current_) || current_ == '.' + || current_ == 'e' || current_ == 'E' + || current_ == '+' || current_ == '-')); + + try + { + const auto float_val = std::stod(buffer_.substr(_firstpos_, pos_ - _firstpos_)); + const auto int_val = static_cast(float_val); + + // check if conversion loses precision + if (float_val == int_val) + { + // we would not lose precision -> int + return json(int_val); + } + else + { + // we would lose precision -> float + return json(float_val); + } + } + catch (...) + { + error("error translating " + + buffer_.substr(_firstpos_, pos_ - _firstpos_) + " to number"); + } + } + + default: + { + error("unexpected character"); + } + } +} + +/*! +This function reads the next character from the buffer while ignoring all +trailing whitespace. If another character could be read, the function returns +true. If the end of the buffer is reached, false is returned. + +@return whether another non-whitespace character could be read + +@post current_ holds the next character +*/ +bool json::parser::next() +{ + if (pos_ == buffer_.size()) + { + return false; + } + + current_ = buffer_[pos_++]; + + // skip trailing whitespace + while (std::isspace(current_)) + { + if (pos_ == buffer_.size()) + { + return false; + } + + current_ = buffer_[pos_++]; + } + + return true; +} + +/*! +This function encapsulates the error reporting functions of the parser class. +It throws a \p std::invalid_argument exception with a description where the +error occurred (given as the number of characters read), what went wrong (using +the error message \p msg), and the last read token. + +@param msg an error message +@return This function does not return. + +@exception std::invalid_argument whenever the function is called +*/ +void json::parser::error(const std::string& msg) +{ + throw std::invalid_argument("parse error at position " + + std::to_string(pos_) + ": " + msg + + ", last read: '" + current_ + "'"); +} + +/*! +Parses a string after opening quotes (\p ") where read. + +@return the parsed string + +@pre An opening quote \p " was read in the main parse function @ref parse. + pos_ is the position after the opening quote. + +@post The character after the closing quote \p " is the current character @ref + current_. Whitespace is skipped. + +@todo Unicode escapes such as \uxxxx are missing - see + https://github.com/nlohmann/json/issues/12 +*/ +std::string json::parser::parseString() +{ + // true if and only if the amount of backslashes before the current + // character is even + bool evenAmountOfBackslashes = true; + + // the result of the parse process + std::string result; + + // iterate with pos_ over the whole string + for (; pos_ < buffer_.size(); pos_++) + { + char currentChar = buffer_[pos_]; + + // uneven amount of backslashes means the user wants to escape something + if (!evenAmountOfBackslashes) + { + // slash, backslash and quote are copied as is + if (currentChar == '/' or currentChar == '\\' or currentChar == '"') + { + result += currentChar; + } + else + { + // all other characters are replaced by their respective + // special character + switch (currentChar) + { + 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; + } + default: + { + error("expected one of \\, /, b, f, n, r, t behind backslash."); + } + } + // TODO implement \uXXXX + } + } + else + { + if (currentChar == '"') + { + // currentChar is a quote, so we found the end of the string + + // set pos_ behind the trailing quote + pos_++; + // find next char to parse + next(); + + // bring the result of the parsing process back to the caller + return result; + } + else if (currentChar != '\\') + { + // All non-backslash characters are added to the end of the + // result string. The only backslashes we want in the result + // are the ones that are escaped (which happens above). + result += currentChar; + } + } + + // remember if we have an even amount of backslashes before the current + // character + if (currentChar == '\\') + { + // jump between even/uneven for each backslash we encounter + evenAmountOfBackslashes = not evenAmountOfBackslashes; + } + else + { + // zero backslashes are also an even number, so as soon as we + // encounter a non-backslash the chain of backslashes breaks and + // we start again from zero + evenAmountOfBackslashes = true; + } + } + + // we iterated over the whole string without finding a unescaped quote + // so the given string is malformed + error("expected '\"'"); +} + +/*! +This function is called in case a \p "t" is read in the main parse function +@ref parse. In the standard, the \p "true" token is the only candidate, so the +next three characters are expected to be \p "rue". In case of a mismatch, an +error is raised via @ref error. + +@pre A \p "t" was read in the main parse function @ref parse. +@post The character after the \p "true" is the current character. Whitespace is + skipped. +*/ +void json::parser::parseTrue() +{ + if (buffer_.substr(pos_, 3) != "rue") + { + error("expected true"); + } + + pos_ += 3; + + // read next character + next(); +} + +/*! +This function is called in case an \p "f" is read in the main parse function +@ref parse. In the standard, the \p "false" token is the only candidate, so the +next four characters are expected to be \p "alse". In case of a mismatch, an +error is raised via @ref error. + +@pre An \p "f" was read in the main parse function. +@post The character after the \p "false" is the current character. Whitespace + is skipped. +*/ +void json::parser::parseFalse() +{ + if (buffer_.substr(pos_, 4) != "alse") + { + error("expected false"); + } + + pos_ += 4; + + // read next character + next(); +} + +/*! +This function is called in case an \p "n" is read in the main parse function +@ref parse. In the standard, the \p "null" token is the only candidate, so the +next three characters are expected to be \p "ull". In case of a mismatch, an +error is raised via @ref error. + +@pre An \p "n" was read in the main parse function. +@post The character after the \p "null" is the current character. Whitespace is + skipped. +*/ +void json::parser::parseNull() +{ + if (buffer_.substr(pos_, 3) != "ull") + { + error("expected null"); + } + + pos_ += 3; + + // read next character + next(); +} + +/*! +This function wraps functionality to check whether the current character @ref +current_ matches a given character \p c. In case of a match, the next character +of the buffer @ref buffer_ is read. In case of a mismatch, an error is raised +via @ref error. + +@param c character that is expected + +@post The next chatacter is read. Whitespace is skipped. +*/ +void json::parser::expect(const char c) +{ + if (current_ != c) + { + std::string msg = "expected '"; + msg.append(1, c); + msg += "'"; + error(msg); + } + else + { + next(); + } +} + +} + +/*! +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 +*/ +nlohmann::json operator "" _json(const char* s, std::size_t) +{ + return nlohmann::json::parse(s); +} diff --git a/src/json.cc b/src/json.cc index f7da724c..5fb80e8c 100644 --- a/src/json.cc +++ b/src/json.cc @@ -2039,6 +2039,9 @@ Parses a string after opening quotes (\p ") where read. @post The character after the closing quote \p " is the current character @ref current_. Whitespace is skipped. + +@todo Unicode escapes such as \uxxxx are missing - see + https://github.com/nlohmann/json/issues/12 */ std::string json::parser::parseString() { @@ -2106,7 +2109,6 @@ std::string json::parser::parseString() { // currentChar is a quote, so we found the end of the string - // set pos_ behind the trailing quote pos_++; // find next char to parse