libki/include/ki/pclass/VectorProperty.h

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#pragma once
#include <vector>
#include <memory>
#include "ki/pclass/Property.h"
#include "ki/util/exception.h"
namespace ki
{
namespace pclass
{
// Forward declare for our helpers
template <typename ValueT>
class VectorProperty;
namespace detail
{
/**
* Provides default implementations for vector_object_helper.
*/
template <typename ValueT>
struct default_vector_object_helper
{
static ValueT copy(VectorProperty<ValueT> &prop, const int index)
{
// In cases where ValueT is not a pointer, and does not derive from PropertyClass,
// just call the copy constructor.
return ValueT(prop.at(index));
}
static const PropertyClass *get_object(const VectorProperty<ValueT> &prop, const int index)
{
// ValueT does not derive from PropertyClass, and so, this property is not
// storing an object.
throw runtime_error(
"Tried calling get_object() on a property that does not store an object."
);
}
static void set_object(VectorProperty<ValueT> &prop,
std::unique_ptr<PropertyClass> &object, const int index)
{
// ValueT does not derive from PropertyClass, and so, this property is not
// storing an object.
throw runtime_error(
"Tried calling set_object() on a property that does not store an object."
);
}
};
/**
* Provides default implementations of copy()
* for static_object_helper where ValueT is a pointer type.
* @tparam ValueT The type of the value (as a non-pointer type).
*/
template <typename ValueT>
struct pointer_vector_object_helper
{
static ValueT *copy(const VectorProperty<ValueT *> &prop)
{
// The copy constructor for all pointers is to copy the pointer
// without creating a new copy of the object it's pointing to.
return prop.m_value;
}
static const PropertyClass *get_object(
const VectorProperty<ValueT *> &prop, const int index)
{
// By default, assume that ValueT is not a
throw runtime_error(
"Tried calling get_object() on a property that does not store an object."
);
}
static void set_object(VectorProperty<ValueT *> &prop,
std::unique_ptr<PropertyClass> &object, const int index)
{
throw runtime_error(
"Tried calling set_object() on a property that does not store an object."
);
}
};
/**
* A helper utility that provides the right implementation of copy(),
* get_object() and set_object(), based on characteristics of type: ValueT.
*/
template <
typename ValueT,
typename Enable = void
>
struct vector_object_helper : default_vector_object_helper<ValueT>
{
using default_vector_object_helper<ValueT>::copy;
using default_vector_object_helper<ValueT>::get_object;
using default_vector_object_helper<ValueT>::set_object;
};
/**
* Specialization for when ValueT is:
* - Not a pointer; but
* - does derive from PropertyClass
*/
template <typename ValueT>
struct vector_object_helper<
ValueT,
typename std::enable_if<
std::is_base_of<PropertyClass, ValueT>::value
>::type
>
: default_vector_object_helper<ValueT>
{
using default_vector_object_helper<ValueT>::copy;
static const PropertyClass *get_object(
const VectorProperty<ValueT> &prop, const int index)
{
// ValueT does derive from PropertyClass, and we have an instance of ValueT,
// so we can cast down to a PropertyClass pointer.
return dynamic_cast<const PropertyClass *>(&prop.at(index));
}
static void set_object(VectorProperty<ValueT> &prop,
std::unique_ptr<PropertyClass> &object, const int index)
{
// Ensure that object is not nullptr
if (!object)
throw runtime_error("Value cannot be null.");
// Ensure that object is exactly the type of the property.
assert_type_match(prop.get_type(), object->get_type());
// ValueT does derive from PropertyClass, but we don't store a pointer,
// so we need to copy the value in.
prop.at(index) = *dynamic_cast<ValueT *>(object.get());
}
};
/**
* Specialization for when ValueT is:
* - A pointer; but
* - does not derive from PropertyClass
*/
template <typename ValueT>
struct vector_object_helper<
ValueT *,
typename std::enable_if<
!std::is_base_of<PropertyClass, ValueT>::value
>::type
>
: pointer_vector_object_helper<ValueT>
{
using pointer_vector_object_helper<ValueT>::copy;
using pointer_vector_object_helper<ValueT>::get_object;
using pointer_vector_object_helper<ValueT>::set_object;
};
/**
* Specialization for when ValueT is:
* - A pointer; and
* - does derive from PropertyClass
*/
template <typename ValueT>
struct vector_object_helper<
ValueT *,
typename std::enable_if<
std::is_base_of<PropertyClass, ValueT>::value
>::type
>
: pointer_vector_object_helper<ValueT>
{
using pointer_vector_object_helper<ValueT>::copy;
static const PropertyClass *get_object(
const VectorProperty<ValueT *> &prop, const int index)
{
// ValueT does derive from PropertyClass, and we have a pointer to an instance
// of ValueT, so we can cast down to a PropertyClass pointer.
return dynamic_cast<const PropertyClass *>(prop.at(index));
}
static void set_object(VectorProperty<ValueT *> &prop,
std::unique_ptr<PropertyClass> &object, const int index)
{
// Ensure that object inherits the type of the property
if (object)
assert_type_match(prop.get_type(), object->get_type(), true);
// ValueT does derive from PropertyClass, and we have a pointer to an instance
// of PropertyClass, so cast the pointer up to a ValueT.
prop.at(index) = dynamic_cast<ValueT *>(object.release());
}
};
/**
* A helper utility that provides the right implementation of
* get_value() and set_value() based on whether ValueT is a pointer
* for vector properties.
*/
template <typename ValueT>
struct vector_value_helper
{
static Value get_value(const VectorProperty<ValueT> &prop, const int index)
{
return Value::make_reference<ValueT>(prop.at(index));
}
static void set_value(VectorProperty<ValueT> &prop,
Value value, const int index)
{
Value casted_value = value.as<ValueT>();
prop.at(index) = casted_value.get<ValueT>();
}
};
/**
* Specialization for when ValueT is a pointer.
*
* Dereference the pointer before creating Value instances.
* This is so that the Value stores a pointer to a ValueT instance,
* rather than storing a pointer to a pointer.
*/
template <typename ValueT>
struct vector_value_helper<ValueT *>
{
static Value get_value(const VectorProperty<ValueT *> &prop, const int index)
{
ValueT *value_ptr = prop.at(index);
if (value_ptr == nullptr)
throw runtime_error("Called get_value() but value is nullptr.");
return Value::make_reference<ValueT>(*value_ptr);
}
static void set_value(VectorProperty<ValueT *> &prop,
Value value, const int index)
{
Value casted_value = value.as<ValueT>();
prop.at(index) = casted_value.release<ValueT>();
}
};
}
/**
* A dynamically-sized array property.
*/
template <typename ValueT>
class VectorProperty : public std::vector<ValueT>, public IProperty
{
public:
// Do not allow copy assignment. Once a property has been constructed,
// it shouldn't be able to change.
VectorProperty<ValueT> &operator=(const VectorProperty<ValueT> &that) = delete;
VectorProperty(PropertyClass &object,
const std::string &name, const Type &type)
: IProperty(object, name, type)
{}
VectorProperty(PropertyClass &object,
const VectorProperty<ValueT> &that)
: IProperty(object, that)
{
// Copy vector values into this vector
for (auto i = 0; i < this->size(); i++)
this->push_back(detail::vector_value_helper<ValueT>::copy(*this, i));
}
constexpr bool is_pointer() const override
{
return std::is_pointer<ValueT>::value;
}
bool is_dynamic() const override
{
return true;
}
bool is_array() const override
{
return true;
}
std::size_t get_element_count() const override
{
return this->size();
}
void set_element_count(const std::size_t size) override
{
this->resize(size);
}
Value get_value(std::size_t index) const override
{
if (index < 0 || index >= this->size())
throw runtime_error("Index out of bounds.");
return detail::vector_value_helper<ValueT>::get_value(*this, index);
}
void set_value(Value value, std::size_t index) override
{
if (index < 0 || index >= this->size())
throw runtime_error("Index out of bounds.");
return detail::vector_value_helper<ValueT>::set_value(*this, value, index);
}
const PropertyClass *get_object(const std::size_t index) const override
{
if (index < 0 || index >= this->size())
throw runtime_error("Index out of bounds.");
return detail::vector_object_helper<ValueT>::get_object(*this, index);
}
void set_object(std::unique_ptr<PropertyClass> &object, std::size_t index) override
{
if (index < 0 || index >= this->size())
throw runtime_error("Index out of bounds.");
return detail::vector_object_helper<ValueT>::set_object(*this, object, index);
}
};
}
}