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// Copyright 2019 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef dap_serialization_h
#define dap_serialization_h
#include "typeof.h"
#include "types.h"
#include <cstddef> // ptrdiff_t
#include <type_traits>
namespace dap {
// Field describes a single field of a struct.
struct Field {
std::string name; // name of the field
ptrdiff_t offset; // offset of the field to the base of the struct
const TypeInfo* type; // type of the field
};
////////////////////////////////////////////////////////////////////////////////
// Deserializer
////////////////////////////////////////////////////////////////////////////////
// Deserializer is the interface used to decode data from structured storage.
// Methods that return a bool use this to indicate success.
class Deserializer {
public:
virtual ~Deserializer() = default;
// deserialization methods for simple data types.
// If the stored object is not of the correct type, then these function will
// return false.
virtual bool deserialize(boolean*) const = 0;
virtual bool deserialize(integer*) const = 0;
virtual bool deserialize(number*) const = 0;
virtual bool deserialize(string*) const = 0;
virtual bool deserialize(object*) const = 0;
virtual bool deserialize(any*) const = 0;
// count() returns the number of elements in the array object referenced by
// this Deserializer.
virtual size_t count() const = 0;
// array() calls the provided std::function for deserializing each array
// element in the array object referenced by this Deserializer.
virtual bool array(const std::function<bool(Deserializer*)>&) const = 0;
// field() calls the provided std::function for deserializing the field with
// the given name from the struct object referenced by this Deserializer.
virtual bool field(const std::string& name,
const std::function<bool(Deserializer*)>&) const = 0;
// deserialize() delegates to TypeOf<T>::type()->deserialize().
template <typename T,
typename = std::enable_if<TypeOf<T>::has_custom_serialization>>
inline bool deserialize(T*) const;
// deserialize() decodes an array.
template <typename T>
inline bool deserialize(dap::array<T>*) const;
// deserialize() decodes an optional.
template <typename T>
inline bool deserialize(dap::optional<T>*) const;
// deserialize() decodes an variant.
template <typename T0, typename... Types>
inline bool deserialize(dap::variant<T0, Types...>*) const;
// deserialize() decodes the struct field f with the given name.
template <typename T>
inline bool field(const std::string& name, T* f) const;
};
template <typename T, typename>
bool Deserializer::deserialize(T* ptr) const {
return TypeOf<T>::type()->deserialize(this, ptr);
}
template <typename T>
bool Deserializer::deserialize(dap::array<T>* vec) const {
auto n = count();
vec->resize(n);
size_t i = 0;
if (!array([&](Deserializer* d) { return d->deserialize(&(*vec)[i++]); })) {
return false;
}
return true;
}
template <typename T>
bool Deserializer::deserialize(dap::optional<T>* opt) const {
T v;
if (deserialize(&v)) {
*opt = v;
}
return true;
}
template <typename T0, typename... Types>
bool Deserializer::deserialize(dap::variant<T0, Types...>* var) const {
return deserialize(&var->value);
}
template <typename T>
bool Deserializer::field(const std::string& name, T* v) const {
return this->field(name,
[&](const Deserializer* d) { return d->deserialize(v); });
}
////////////////////////////////////////////////////////////////////////////////
// Serializer
////////////////////////////////////////////////////////////////////////////////
class FieldSerializer;
// Serializer is the interface used to encode data to structured storage.
// A Serializer is associated with a single storage object, whos type and value
// is assigned by a call to serialize().
// If serialize() is called multiple times on the same Serializer instance,
// the last type and value is stored.
// Methods that return a bool use this to indicate success.
class Serializer {
public:
virtual ~Serializer() = default;
// serialization methods for simple data types.
virtual bool serialize(boolean) = 0;
virtual bool serialize(integer) = 0;
virtual bool serialize(number) = 0;
virtual bool serialize(const string&) = 0;
virtual bool serialize(const dap::object&) = 0;
virtual bool serialize(const any&) = 0;
// array() encodes count array elements to the array object referenced by this
// Serializer. The std::function will be called count times, each time with a
// Serializer that should be used to encode the n'th array element's data.
virtual bool array(size_t count, const std::function<bool(Serializer*)>&) = 0;
// object() begins encoding the object referenced by this Serializer.
// The std::function will be called with a FieldSerializer to serialize the
// object's fields.
virtual bool object(const std::function<bool(dap::FieldSerializer*)>&) = 0;
// remove() deletes the object referenced by this Serializer.
// remove() can be used to serialize optionals with no value assigned.
virtual void remove() = 0;
// serialize() delegates to TypeOf<T>::type()->serialize().
template <typename T,
typename = std::enable_if<TypeOf<T>::has_custom_serialization>>
inline bool serialize(const T&);
// serialize() encodes the given array.
template <typename T>
inline bool serialize(const dap::array<T>&);
// serialize() encodes the given optional.
template <typename T>
inline bool serialize(const dap::optional<T>& v);
// serialize() encodes the given variant.
template <typename T0, typename... Types>
inline bool serialize(const dap::variant<T0, Types...>&);
// deserialize() encodes the given string.
inline bool serialize(const char* v);
protected:
static inline const TypeInfo* get_any_type(const any&);
static inline const void* get_any_val(const any&);
};
inline const TypeInfo* Serializer::get_any_type(const any& a){
return a.type;
}
const void* Serializer::get_any_val(const any& a) {
return a.value;
}
template <typename T, typename>
bool Serializer::serialize(const T& object) {
return TypeOf<T>::type()->serialize(this, &object);
}
template <typename T>
bool Serializer::serialize(const dap::array<T>& vec) {
auto it = vec.begin();
return array(vec.size(), [&](Serializer* s) { return s->serialize(*it++); });
}
template <typename T>
bool Serializer::serialize(const dap::optional<T>& opt) {
if (!opt.has_value()) {
remove();
return true;
}
return serialize(opt.value());
}
template <typename T0, typename... Types>
bool Serializer::serialize(const dap::variant<T0, Types...>& var) {
return serialize(var.value);
}
bool Serializer::serialize(const char* v) {
return serialize(std::string(v));
}
////////////////////////////////////////////////////////////////////////////////
// FieldSerializer
////////////////////////////////////////////////////////////////////////////////
// FieldSerializer is the interface used to serialize fields of an object.
class FieldSerializer {
public:
using SerializeFunc = std::function<bool(Serializer*)>;
template <typename T>
using IsSerializeFunc = std::is_convertible<T, SerializeFunc>;
virtual ~FieldSerializer() = default;
// field() encodes a field to the struct object referenced by this Serializer.
// The SerializeFunc will be called with a Serializer used to encode the
// field's data.
virtual bool field(const std::string& name, const SerializeFunc&) = 0;
// field() encodes the field with the given name and value.
template <
typename T,
typename = typename std::enable_if<!IsSerializeFunc<T>::value>::type>
inline bool field(const std::string& name, const T& v);
};
template <typename T, typename>
bool FieldSerializer::field(const std::string& name, const T& v) {
return this->field(name, [&](Serializer* s) { return s->serialize(v); });
}
} // namespace dap
#endif // dap_serialization_h