/*
- * Copyright 2016 Facebook, Inc.
+ * Copyright 2017 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
OBJECT,
STRING,
};
- template<class T, class Enable = void> struct NumericTypeHelper;
+ template <class T, class Enable = void> struct NumericTypeHelper;
/*
* We support direct iteration of arrays, and indirect iteration of objects.
* Object value iterators dereference as the values in the object.
* Object item iterators dereference as pairs of (key, value).
*/
-private:
+ private:
typedef std::vector<dynamic> Array;
-public:
+
+ public:
+ typedef Array::iterator iterator;
typedef Array::const_iterator const_iterator;
typedef dynamic value_type;
+
struct const_key_iterator;
struct const_value_iterator;
struct const_item_iterator;
+ struct value_iterator;
+ struct item_iterator;
+
/*
* Creation routines for making dynamic objects and arrays. Objects
* are maps from key to value (so named due to json-related origins
* d["key"] = 12;
* d["something_else"] = dynamic::array(1, 2, 3, nullptr);
*/
-private:
+ private:
struct EmptyArrayTag {};
struct ObjectMaker;
-public:
+ public:
static void array(EmptyArrayTag);
template <class... Args>
static dynamic array(Args&& ...args);
* Constructors for integral and float types.
* Other types are SFINAEd out with NumericTypeHelper.
*/
- template<class T, class NumericType = typename NumericTypeHelper<T>::type>
+ template <class T, class NumericType = typename NumericTypeHelper<T>::type>
/* implicit */ dynamic(T t);
/*
* Create a dynamic that is an array of the values from the supplied
* iterator range.
*/
- template<class Iterator>
+ template <class Iterator>
explicit dynamic(Iterator first, Iterator last);
dynamic(dynamic const&);
*/
const_iterator begin() const;
const_iterator end() const;
+ iterator begin();
+ iterator end();
-private:
+ private:
/*
* Helper object returned by keys(), values(), and items().
*/
template <class T> struct IterableProxy;
-public:
+ public:
/*
* You can iterate over the keys, values, or items (std::pair of key and
* value) in an object. Calling these on non-objects will throw a TypeError.
IterableProxy<const_key_iterator> keys() const;
IterableProxy<const_value_iterator> values() const;
IterableProxy<const_item_iterator> items() const;
+ IterableProxy<value_iterator> values();
+ IterableProxy<item_iterator> items();
/*
* AssociativeContainer-style find interface for objects. Throws if
* const_item_iterator pointing to the item.
*/
const_item_iterator find(dynamic const&) const;
+ item_iterator find(dynamic const&);
/*
* If this is an object, returns whether it contains a field with
dynamic getDefault(const dynamic& k, dynamic&& v) const&;
dynamic getDefault(const dynamic& k, const dynamic& v = dynamic::object) &&;
dynamic getDefault(const dynamic& k, dynamic&& v) &&;
- template<class K, class V>
+ template <class K, class V>
dynamic& setDefault(K&& k, V&& v);
// MSVC 2015 Update 3 needs these extra overloads because if V were a
// defaulted template parameter, it causes MSVC to consider v an rvalue
// reference rather than a universal reference, resulting in it not being
// able to find the correct overload to construct a dynamic with.
- template<class K>
+ template <class K>
dynamic& setDefault(K&& k, dynamic&& v);
- template<class K>
+ template <class K>
dynamic& setDefault(K&& k, const dynamic& v = dynamic::object);
/*
*
* Invalidates iterators.
*/
- template<class K, class V> void insert(K&&, V&& val);
+ template <class K, class V> void insert(K&&, V&& val);
/*
* These functions merge two folly dynamic objects.
* removed, or end() if there are none. (The iteration order does
* not change.)
*/
- const_iterator erase(const_iterator it);
- const_iterator erase(const_iterator first, const_iterator last);
+ iterator erase(const_iterator it);
+ iterator erase(const_iterator first, const_iterator last);
const_key_iterator erase(const_key_iterator it);
const_key_iterator erase(const_key_iterator first, const_key_iterator last);
- const_value_iterator erase(const_value_iterator it);
- const_value_iterator erase(const_value_iterator first,
- const_value_iterator last);
+ value_iterator erase(const_value_iterator it);
+ value_iterator erase(const_value_iterator first, const_value_iterator last);
- const_item_iterator erase(const_item_iterator it);
- const_item_iterator erase(const_item_iterator first,
- const_item_iterator last);
+ item_iterator erase(const_item_iterator it);
+ item_iterator erase(const_item_iterator first, const_item_iterator last);
/*
* Append elements to an array. If this is not an array, throws
* TypeError.
*/
std::size_t hash() const;
-private:
+ private:
friend struct TypeError;
struct ObjectImpl;
- template<class T> struct TypeInfo;
- template<class T> struct CompareOp;
- template<class T> struct GetAddrImpl;
- template<class T> struct PrintImpl;
+ template <class T> struct TypeInfo;
+ template <class T> struct CompareOp;
+ template <class T> struct GetAddrImpl;
+ template <class T> struct PrintImpl;
explicit dynamic(Array&& array);
- template<class T> T const& get() const;
- template<class T> T& get();
- template<class T> T* get_nothrow() & noexcept;
- template<class T> T const* get_nothrow() const& noexcept;
- template<class T> T* get_nothrow() && noexcept = delete;
- template<class T> T* getAddress() noexcept;
- template<class T> T const* getAddress() const noexcept;
+ template <class T> T const& get() const;
+ template <class T> T& get();
+ template <class T> T* get_nothrow() & noexcept;
+ template <class T> T const* get_nothrow() const& noexcept;
+ template <class T> T* get_nothrow() && noexcept = delete;
+ template <class T> T* getAddress() noexcept;
+ template <class T> T const* getAddress() const noexcept;
- template<class T> T asImpl() const;
+ template <class T> T asImpl() const;
static char const* typeName(Type);
void destroy() noexcept;
void print(std::ostream&) const;
void print_as_pseudo_json(std::ostream&) const; // see json.cpp
-private:
+ private:
Type type_;
union Data {
explicit Data() : nul(nullptr) {}
~Data() {}
- // XXX: gcc does an ICE if we use std::nullptr_t instead of void*
- // here. See http://gcc.gnu.org/bugzilla/show_bug.cgi?id=50361
- void* nul;
+ std::nullptr_t nul;
Array array;
bool boolean;
double doubl;
//////////////////////////////////////////////////////////////////////
-}
+} // namespace folly
#include <folly/dynamic-inl.h>