/*
- * Copyright 2012 Facebook, Inc.
+ * Copyright 2016 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* limitations under the License.
*/
-#ifndef FOLLY_DYNAMIC_INL_H_
-#define FOLLY_DYNAMIC_INL_H_
+#pragma once
#include <functional>
#include <boost/iterator/iterator_adaptor.hpp>
#include <boost/iterator/iterator_facade.hpp>
-#include "folly/Likely.h"
-#include "folly/Conv.h"
-#include "folly/Format.h"
+#include <folly/Likely.h>
+#include <folly/Conv.h>
+#include <folly/Format.h>
//////////////////////////////////////////////////////////////////////
// This is a higher-order preprocessor macro to aid going from runtime
// types to the compile time type system.
-#define FB_DYNAMIC_APPLY(type, apply) do { \
- switch ((type)) { \
- case NULLT: apply(void*); break; \
- case ARRAY: apply(Array); break; \
- case BOOL: apply(bool); break; \
- case DOUBLE: apply(double); break; \
- case INT64: apply(int64_t); break; \
- case OBJECT: apply(ObjectImpl); break; \
- case STRING: apply(fbstring); break; \
- default: CHECK(0); abort(); \
- } \
-} while (0)
+#define FB_DYNAMIC_APPLY(type, apply) \
+ do { \
+ switch ((type)) { \
+ case NULLT: \
+ apply(void*); \
+ break; \
+ case ARRAY: \
+ apply(Array); \
+ break; \
+ case BOOL: \
+ apply(bool); \
+ break; \
+ case DOUBLE: \
+ apply(double); \
+ break; \
+ case INT64: \
+ apply(int64_t); \
+ break; \
+ case OBJECT: \
+ apply(ObjectImpl); \
+ break; \
+ case STRING: \
+ apply(std::string); \
+ break; \
+ default: \
+ CHECK(0); \
+ abort(); \
+ } \
+ } while (0)
//////////////////////////////////////////////////////////////////////
namespace folly {
+struct TypeError : std::runtime_error {
+ explicit TypeError(const std::string& expected, dynamic::Type actual);
+ explicit TypeError(const std::string& expected,
+ dynamic::Type actual1, dynamic::Type actual2);
+ ~TypeError();
+};
+
+
//////////////////////////////////////////////////////////////////////
namespace detail {
//////////////////////////////////////////////////////////////////////
-struct TypeError : std::runtime_error {
- explicit TypeError(const std::string& expected, dynamic::Type actual)
- : std::runtime_error(to<std::string>("TypeError: expected dynamic "
- "type `", expected, '\'', ", but had type `",
- dynamic::typeName(actual), '\''))
- {}
- explicit TypeError(const std::string& expected,
- dynamic::Type actual1, dynamic::Type actual2)
- : std::runtime_error(to<std::string>("TypeError: expected dynamic "
- "types `", expected, '\'', ", but had types `",
- dynamic::typeName(actual1), "' and `", dynamic::typeName(actual2),
- '\''))
- {}
-};
-
/*
* We're doing this instead of a simple member typedef to avoid the
* undefined behavior of parameterizing std::unordered_map<> with an
dynamic val_;
};
-template<class... Args>
-inline dynamic::ObjectMaker dynamic::object(Args&&... args) {
- return dynamic::ObjectMaker(std::forward<Args>(args)...);
+inline void dynamic::array(EmptyArrayTag) {}
+
+template <class... Args>
+inline dynamic dynamic::array(Args&& ...args) {
+ return dynamic(Array{std::forward<Args>(args)...}, PrivateTag());
+}
+
+// This looks like a case for perfect forwarding, but our use of
+// std::initializer_list for constructing dynamic arrays makes it less
+// functional than doing this manually.
+
+// TODO(ott, 10300209): When the initializer_list constructor is gone,
+// simplify this.
+inline dynamic::ObjectMaker dynamic::object() { return ObjectMaker(); }
+inline dynamic::ObjectMaker dynamic::object(dynamic&& a, dynamic&& b) {
+ return ObjectMaker(std::move(a), std::move(b));
+}
+inline dynamic::ObjectMaker dynamic::object(dynamic const& a, dynamic&& b) {
+ return ObjectMaker(a, std::move(b));
+}
+inline dynamic::ObjectMaker dynamic::object(dynamic&& a, dynamic const& b) {
+ return ObjectMaker(std::move(a), b);
+}
+inline dynamic::ObjectMaker
+dynamic::object(dynamic const& a, dynamic const& b) {
+ return ObjectMaker(a, b);
}
//////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////
+inline dynamic::dynamic(void (*)(EmptyArrayTag))
+ : type_(ARRAY)
+{
+ new (&u_.array) Array();
+}
+
inline dynamic::dynamic(ObjectMaker (*)())
: type_(OBJECT)
{
new (getAddress<ObjectImpl>()) ObjectImpl();
}
+inline dynamic::dynamic(StringPiece s)
+ : type_(STRING)
+{
+ new (&u_.string) std::string(s.data(), s.size());
+}
+
inline dynamic::dynamic(char const* s)
: type_(STRING)
{
- new (&u_.string) fbstring(s);
+ new (&u_.string) std::string(s);
}
inline dynamic::dynamic(std::string const& s)
: type_(STRING)
{
- new (&u_.string) fbstring(s);
+ new (&u_.string) std::string(s);
+}
+
+inline dynamic::dynamic(std::string&& s) : type_(STRING) {
+ new (&u_.string) std::string(std::move(s));
}
inline dynamic::dynamic(std::initializer_list<dynamic> il)
- : type_(ARRAY)
-{
- new (&u_.array) Array(il.begin(), il.end());
+ : dynamic(Array(std::move(il)), PrivateTag()) {}
+
+inline dynamic& dynamic::operator=(std::initializer_list<dynamic> il) {
+ (*this) = dynamic(Array(std::move(il)), PrivateTag());
+ return *this;
}
inline dynamic::dynamic(ObjectMaker&& maker)
*this = o;
}
-inline dynamic::dynamic(dynamic&& o)
+inline dynamic::dynamic(dynamic&& o) noexcept
: type_(NULLT)
{
*this = std::move(o);
}
-inline dynamic::~dynamic() { destroy(); }
+inline dynamic::~dynamic() noexcept { destroy(); }
template<class T>
dynamic::dynamic(T t) {
template <class It>
struct dynamic::IterableProxy {
typedef It const_iterator;
+ typedef typename It::value_type value_type;
/* implicit */ IterableProxy(const dynamic::ObjectImpl* o) : o_(o) { }
return &(get<ObjectImpl>());
}
-inline bool dynamic::isString() const { return get_nothrow<fbstring>(); }
+inline bool dynamic::isString() const {
+ return get_nothrow<std::string>();
+}
inline bool dynamic::isObject() const { return get_nothrow<ObjectImpl>(); }
inline bool dynamic::isBool() const { return get_nothrow<bool>(); }
inline bool dynamic::isArray() const { return get_nothrow<Array>(); }
return type_;
}
-inline fbstring dynamic::asString() const { return asImpl<fbstring>(); }
-inline double dynamic::asDouble() const { return asImpl<double>(); }
-inline int64_t dynamic::asInt() const { return asImpl<int64_t>(); }
-inline bool dynamic::asBool() const { return asImpl<bool>(); }
+inline std::string dynamic::asString() const {
+ return asImpl<std::string>();
+}
+inline double dynamic::asDouble() const {
+ return asImpl<double>();
+}
+inline int64_t dynamic::asInt() const {
+ return asImpl<int64_t>();
+}
+inline bool dynamic::asBool() const {
+ return asImpl<bool>();
+}
+
+inline const std::string& dynamic::getString() const& {
+ return get<std::string>();
+}
+inline double dynamic::getDouble() const& { return get<double>(); }
+inline int64_t dynamic::getInt() const& { return get<int64_t>(); }
+inline bool dynamic::getBool() const& { return get<bool>(); }
+
+inline std::string& dynamic::getString()& {
+ return get<std::string>();
+}
+inline double& dynamic::getDouble() & { return get<double>(); }
+inline int64_t& dynamic::getInt() & { return get<int64_t>(); }
+inline bool& dynamic::getBool() & { return get<bool>(); }
+
+inline std::string dynamic::getString()&& {
+ return std::move(get<std::string>());
+}
+inline double dynamic::getDouble() && { return get<double>(); }
+inline int64_t dynamic::getInt() && { return get<int64_t>(); }
+inline bool dynamic::getBool() && { return get<bool>(); }
+
+inline const char* dynamic::data() const& {
+ return get<std::string>().data();
+}
+inline const char* dynamic::c_str() const& {
+ return get<std::string>().c_str();
+}
+inline StringPiece dynamic::stringPiece() const {
+ return get<std::string>();
+}
template<class T>
struct dynamic::CompareOp {
};
template<>
struct dynamic::CompareOp<dynamic::ObjectImpl> {
- static bool comp(ObjectImpl const& a, ObjectImpl const& b) {
+ static bool comp(ObjectImpl const&, ObjectImpl const&) {
// This code never executes; it is just here for the compiler.
return false;
}
};
-inline bool dynamic::operator<(dynamic const& o) const {
- if (UNLIKELY(type_ == OBJECT || o.type_ == OBJECT)) {
- throw TypeError("object", type_);
- }
- if (type_ != o.type_) {
- return type_ < o.type_;
- }
-
-#define FB_X(T) return CompareOp<T>::comp(*getAddress<T>(), \
- *o.getAddress<T>())
- FB_DYNAMIC_APPLY(type_, FB_X);
-#undef FB_X
-}
-
-inline bool dynamic::operator==(dynamic const& o) const {
- if (type() != o.type()) {
- if (isNumber() && o.isNumber()) {
- auto& integ = isInt() ? *this : o;
- auto& doubl = isInt() ? o : *this;
- return integ.asInt() == doubl.asDouble();
- }
- return false;
- }
-
-#define FB_X(T) return *getAddress<T>() == *o.getAddress<T>();
- FB_DYNAMIC_APPLY(type_, FB_X);
-#undef FB_X
-}
-
inline dynamic& dynamic::operator+=(dynamic const& o) {
if (type() == STRING && o.type() == STRING) {
- *getAddress<fbstring>() += *o.getAddress<fbstring>();
+ *getAddress<std::string>() += *o.getAddress<std::string>();
return *this;
}
*this = detail::numericOp<std::plus>(*this, o);
return *this;
}
-inline dynamic& dynamic::operator=(dynamic const& o) {
- if (&o != this) {
- destroy();
-#define FB_X(T) new (getAddress<T>()) T(*o.getAddress<T>())
- FB_DYNAMIC_APPLY(o.type_, FB_X);
-#undef FB_X
- type_ = o.type_;
- }
- return *this;
-}
-
-inline dynamic& dynamic::operator=(dynamic&& o) {
- if (&o != this) {
- destroy();
-#define FB_X(T) new (getAddress<T>()) T(std::move(*o.getAddress<T>()))
- FB_DYNAMIC_APPLY(o.type_, FB_X);
-#undef FB_X
- type_ = o.type_;
- }
- return *this;
-}
-
-inline dynamic& dynamic::operator[](dynamic const& k) {
- if (!isObject() && !isArray()) {
- throw TypeError("object/array", type());
- }
- if (isArray()) {
- return at(k);
- }
- auto& obj = get<ObjectImpl>();
- auto ret = obj.insert({k, nullptr});
- return ret.first->second;
-}
-
-inline dynamic const& dynamic::operator[](dynamic const& idx) const {
+inline dynamic const& dynamic::operator[](dynamic const& idx) const& {
return at(idx);
}
-inline dynamic dynamic::getDefault(const dynamic& k, const dynamic& v) const {
- auto& obj = get<ObjectImpl>();
- auto it = obj.find(k);
- return it == obj.end() ? v : it->second;
-}
-
-inline dynamic&& dynamic::getDefault(const dynamic& k, dynamic&& v) const {
- auto& obj = get<ObjectImpl>();
- auto it = obj.find(k);
- if (it != obj.end()) {
- v = it->second;
- }
-
- return std::move(v);
+inline dynamic dynamic::operator[](dynamic const& idx) && {
+ return std::move((*this)[idx]);
}
template<class K, class V> inline dynamic& dynamic::setDefault(K&& k, V&& v) {
std::forward<V>(v))).first->second;
}
-inline dynamic const& dynamic::at(dynamic const& idx) const {
- return const_cast<dynamic*>(this)->at(idx);
+inline dynamic* dynamic::get_ptr(dynamic const& idx) & {
+ return const_cast<dynamic*>(const_cast<dynamic const*>(this)->get_ptr(idx));
}
-inline dynamic& dynamic::at(dynamic const& idx) {
- if (!isObject() && !isArray()) {
- throw TypeError("object/array", type());
- }
-
- if (auto* parray = get_nothrow<Array>()) {
- if (idx >= parray->size()) {
- throw std::out_of_range("out of range in dynamic array");
- }
- if (!idx.isInt()) {
- throw TypeError("int64", idx.type());
- }
- return (*parray)[idx.asInt()];
- }
+inline dynamic& dynamic::at(dynamic const& idx) & {
+ return const_cast<dynamic&>(const_cast<dynamic const*>(this)->at(idx));
+}
- auto* pobj = get_nothrow<ObjectImpl>();
- assert(pobj);
- auto it = find(idx);
- if (it == items().end()) {
- throw std::out_of_range(to<std::string>(
- "couldn't find key ", idx.asString(), " in dynamic object"));
- }
- return const_cast<dynamic&>(it->second);
+inline dynamic dynamic::at(dynamic const& idx) && {
+ return std::move(at(idx));
}
inline bool dynamic::empty() const {
return !size();
}
-inline std::size_t dynamic::size() const {
- if (auto* ar = get_nothrow<Array>()) {
- return ar->size();
- }
- if (auto* obj = get_nothrow<ObjectImpl>()) {
- return obj->size();
- }
- if (auto* str = get_nothrow<fbstring>()) {
- return str->size();
- }
- throw TypeError("array/object", type());
-}
-
inline std::size_t dynamic::count(dynamic const& key) const {
return find(key) != items().end();
}
template<class K, class V> inline void dynamic::insert(K&& key, V&& val) {
auto& obj = get<ObjectImpl>();
- auto rv = obj.insert(std::make_pair(std::forward<K>(key),
- std::forward<V>(val)));
- if (!rv.second) {
- // note, the second use of std:forward<V>(val) is only correct
- // if the first one did not result in a move. obj[key] = val
- // would be preferrable but doesn't compile because dynamic
- // is (intentionally) not default constructable
- rv.first->second = std::forward<V>(val);
+ auto rv = obj.insert({ std::forward<K>(key), nullptr });
+ rv.first->second = std::forward<V>(val);
+}
+
+inline void dynamic::update(const dynamic& mergeObj) {
+ if (!isObject() || !mergeObj.isObject()) {
+ throw TypeError("object", type(), mergeObj.type());
+ }
+
+ for (const auto& pair : mergeObj.items()) {
+ (*this)[pair.first] = pair.second;
+ }
+}
+
+inline void dynamic::update_missing(const dynamic& mergeObj1) {
+ if (!isObject() || !mergeObj1.isObject()) {
+ throw TypeError("object", type(), mergeObj1.type());
}
+
+ // Only add if not already there
+ for (const auto& pair : mergeObj1.items()) {
+ if ((*this).find(pair.first) == (*this).items().end()) {
+ (*this)[pair.first] = pair.second;
+ }
+ }
+}
+
+inline dynamic dynamic::merge(
+ const dynamic& mergeObj1,
+ const dynamic& mergeObj2) {
+
+ // No checks on type needed here because they are done in update_missing
+ // Note that we do update_missing here instead of update() because
+ // it will prevent the extra writes that would occur with update()
+ auto ret = mergeObj2;
+ ret.update_missing(mergeObj1);
+ return ret;
}
inline std::size_t dynamic::erase(dynamic const& key) {
return get<Array>().erase(arr.begin() + (it - arr.begin()));
}
-inline dynamic::const_iterator
-dynamic::erase(const_iterator first, const_iterator last) {
- auto& arr = get<Array>();
- return get<Array>().erase(
- arr.begin() + (first - arr.begin()),
- arr.begin() + (last - arr.begin()));
-}
-
inline dynamic::const_key_iterator dynamic::erase(const_key_iterator it) {
return const_key_iterator(get<ObjectImpl>().erase(it.base()));
}
}
inline void dynamic::resize(std::size_t sz, dynamic const& c) {
- auto& array = get<Array>();
- array.resize(sz, c);
+ auto& arr = get<Array>();
+ arr.resize(sz, c);
}
inline void dynamic::push_back(dynamic const& v) {
- auto& array = get<Array>();
- array.push_back(v);
+ auto& arr = get<Array>();
+ arr.push_back(v);
}
inline void dynamic::push_back(dynamic&& v) {
- auto& array = get<Array>();
- array.push_back(std::move(v));
+ auto& arr = get<Array>();
+ arr.push_back(std::move(v));
}
-inline std::size_t dynamic::hash() const {
- switch (type()) {
- case OBJECT:
- case ARRAY:
- case NULLT:
- throw TypeError("not null/object/array", type());
- case INT64:
- return std::hash<int64_t>()(asInt());
- case DOUBLE:
- return std::hash<double>()(asDouble());
- case BOOL:
- return std::hash<bool>()(asBool());
- case STRING:
- return std::hash<fbstring>()(asString());
- default:
- CHECK(0); abort();
- }
+inline void dynamic::pop_back() {
+ auto& arr = get<Array>();
+ arr.pop_back();
}
//////////////////////////////////////////////////////////////////////
-template<class T> struct dynamic::TypeInfo {
- static char const name[];
- static Type const type;
-};
+inline dynamic::dynamic(Array&& r, PrivateTag) : type_(ARRAY) {
+ new (&u_.array) Array(std::move(r));
+}
+
+#define FOLLY_DYNAMIC_DEC_TYPEINFO(T, str, val) \
+ template <> struct dynamic::TypeInfo<T> { \
+ static constexpr const char* name = str; \
+ static constexpr dynamic::Type type = val; \
+ }; \
+ //
+
+FOLLY_DYNAMIC_DEC_TYPEINFO(void*, "null", dynamic::NULLT)
+FOLLY_DYNAMIC_DEC_TYPEINFO(bool, "boolean", dynamic::BOOL)
+FOLLY_DYNAMIC_DEC_TYPEINFO(std::string, "string", dynamic::STRING)
+FOLLY_DYNAMIC_DEC_TYPEINFO(dynamic::Array, "array", dynamic::ARRAY)
+FOLLY_DYNAMIC_DEC_TYPEINFO(double, "double", dynamic::DOUBLE)
+FOLLY_DYNAMIC_DEC_TYPEINFO(int64_t, "int64", dynamic::INT64)
+FOLLY_DYNAMIC_DEC_TYPEINFO(dynamic::ObjectImpl, "object", dynamic::OBJECT)
+
+#undef FOLLY_DYNAMIC_DEC_TYPEINFO
template<class T>
T dynamic::asImpl() const {
case INT64: return to<T>(*get_nothrow<int64_t>());
case DOUBLE: return to<T>(*get_nothrow<double>());
case BOOL: return to<T>(*get_nothrow<bool>());
- case STRING: return to<T>(*get_nothrow<fbstring>());
+ case STRING:
+ return to<T>(*get_nothrow<std::string>());
default:
throw TypeError("int/double/bool/string", type());
}
// Return a T* to our type, or null if we're not that type.
template<class T>
-T* dynamic::get_nothrow() {
+T* dynamic::get_nothrow() & noexcept {
if (type_ != TypeInfo<T>::type) {
return nullptr;
}
}
template<class T>
-T const* dynamic::get_nothrow() const {
+T const* dynamic::get_nothrow() const& noexcept {
return const_cast<dynamic*>(this)->get_nothrow<T>();
}
// Return T* for where we can put a T, without type checking. (Memory
// might be uninitialized, even.)
template<class T>
-T* dynamic::getAddress() {
+T* dynamic::getAddress() noexcept {
return GetAddrImpl<T>::get(u_);
}
template<class T>
-T const* dynamic::getAddress() const {
+T const* dynamic::getAddress() const noexcept {
return const_cast<dynamic*>(this)->getAddress<T>();
}
template<class T> struct dynamic::GetAddrImpl {};
template<> struct dynamic::GetAddrImpl<void*> {
- static void** get(Data& d) { return &d.nul; }
+ static void** get(Data& d) noexcept { return &d.nul; }
};
template<> struct dynamic::GetAddrImpl<dynamic::Array> {
- static Array* get(Data& d) { return &d.array; }
+ static Array* get(Data& d) noexcept { return &d.array; }
};
template<> struct dynamic::GetAddrImpl<bool> {
- static bool* get(Data& d) { return &d.boolean; }
+ static bool* get(Data& d) noexcept { return &d.boolean; }
};
template<> struct dynamic::GetAddrImpl<int64_t> {
- static int64_t* get(Data& d) { return &d.integer; }
+ static int64_t* get(Data& d) noexcept { return &d.integer; }
};
template<> struct dynamic::GetAddrImpl<double> {
- static double* get(Data& d) { return &d.doubl; }
+ static double* get(Data& d) noexcept { return &d.doubl; }
};
-template<> struct dynamic::GetAddrImpl<fbstring> {
- static fbstring* get(Data& d) { return &d.string; }
+template <>
+struct dynamic::GetAddrImpl<std::string> {
+ static std::string* get(Data& d) noexcept {
+ return &d.string;
+ }
};
template<> struct dynamic::GetAddrImpl<dynamic::ObjectImpl> {
static_assert(sizeof(ObjectImpl) <= sizeof(Data::objectBuffer),
" amount of space depending on its template parameters. This is "
"weird. Make objectBuffer bigger if you want to compile dynamic.");
- static ObjectImpl* get(Data& d) {
+ static ObjectImpl* get(Data& d) noexcept {
void* data = &d.objectBuffer;
return static_cast<ObjectImpl*>(data);
}
return const_cast<dynamic*>(this)->get<T>();
}
-inline char const* dynamic::typeName(Type t) {
-#define FB_X(T) return TypeInfo<T>::name
- FB_DYNAMIC_APPLY(t, FB_X);
-#undef FB_X
-}
-
-inline void dynamic::destroy() {
- // This short-circuit speeds up some microbenchmarks.
- if (type_ == NULLT) return;
-
-#define FB_X(T) detail::Destroy::destroy(getAddress<T>())
- FB_DYNAMIC_APPLY(type_, FB_X);
-#undef FB_X
- type_ = NULLT;
- u_.nul = nullptr;
-}
-
//////////////////////////////////////////////////////////////////////
/*
out << t;
}
};
+// Otherwise, null, being (void*)0, would print as 0.
+template <>
+struct dynamic::PrintImpl<void*> {
+ static void print(dynamic const& /* d */,
+ std::ostream& out,
+ void* const& nul) {
+ DCHECK_EQ((void*)0, nul);
+ out << "null";
+ }
+};
template<>
struct dynamic::PrintImpl<dynamic::ObjectImpl> {
static void print(dynamic const& d,
FormatValue<int64_t>(val_.asInt()).format(arg, cb);
break;
case dynamic::STRING:
- FormatValue<fbstring>(val_.asString()).format(arg, cb);
+ FormatValue<std::string>(val_.asString()).format(arg, cb);
break;
case dynamic::DOUBLE:
FormatValue<double>(val_.asDouble()).format(arg, cb);
FormatValue(val_.at(arg.splitIntKey())).format(arg, cb);
break;
case dynamic::OBJECT:
- FormatValue(val_.at(arg.splitKey().toFbstring())).format(arg, cb);
+ FormatValue(val_.at(arg.splitKey().toString())).format(arg, cb);
break;
}
}
const dynamic& val_;
};
-}
+template <class V>
+class FormatValue<detail::DefaultValueWrapper<dynamic, V>> {
+ public:
+ explicit FormatValue(
+ const detail::DefaultValueWrapper<dynamic, V>& val)
+ : val_(val) { }
-#undef FB_DYNAMIC_APPLY
+ template <class FormatCallback>
+ void format(FormatArg& arg, FormatCallback& cb) const {
+ auto& c = val_.container;
+ switch (c.type()) {
+ case dynamic::NULLT:
+ case dynamic::BOOL:
+ case dynamic::INT64:
+ case dynamic::STRING:
+ case dynamic::DOUBLE:
+ FormatValue<dynamic>(c).format(arg, cb);
+ break;
+ case dynamic::ARRAY:
+ {
+ int key = arg.splitIntKey();
+ if (key >= 0 && size_t(key) < c.size()) {
+ FormatValue<dynamic>(c.at(key)).format(arg, cb);
+ } else{
+ FormatValue<V>(val_.defaultValue).format(arg, cb);
+ }
+ }
+ break;
+ case dynamic::OBJECT:
+ {
+ auto pos = c.find(arg.splitKey());
+ if (pos != c.items().end()) {
+ FormatValue<dynamic>(pos->second).format(arg, cb);
+ } else {
+ FormatValue<V>(val_.defaultValue).format(arg, cb);
+ }
+ }
+ break;
+ }
+ }
-#endif
+ private:
+ const detail::DefaultValueWrapper<dynamic, V>& val_;
+};
+
+} // namespaces
+
+#undef FB_DYNAMIC_APPLY