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xo-numeric/xo-alloc2/utest/objectmodel.test.cpp

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/** @file objectmodel.test.cpp
*
* @author: Roland Conybeare, Dec 2025
*
* Testing rust-like split iface/data object model
* See xo-alloc2/README.md
*
* Ingredients:
* 1. abstract interface: all virtual methods. No assumptions about representation.
* No state (besides implict vtable pointer)
*
* Rules:
* 1. abstract interface must have no state besides implicit vtable pointer.
* This is a strongly-held principle, we're keeping data representation entirely
* separate
* 2. representations as passive as possible. No getters. All public members.
* Exceptions to this principle:
* - ctors (including copy/move ctors, when needed)
* - dtors
*
* Conventions:
* 1. abstract interface start with letter A, e.g. AComplex
* 2. representation struct names follow pattern DRepr, e.g. DPolar, DRect.
* Don't require "intended primary interface" in the name,
* since we're seeking ability to attach the same data to different interfaces
*
* Example Class Diagram
*
* AComplex
* ^
* |
* /------------------------+--------------------\
* | | |
* IComplex_DRectCoords IComplex_DPolarCoords IComplex_Any
* = IComplex_Specific = IComplex_Specific
* <DRectCoords> <DPolarCoords>
* ^ ^
* | |
* ... OUniqueBox
* <AComplex,DPolarCoords>
* ^
* |
* RComplex<AComplex>
* = RoutingFor<AComplex,OUniqueBox..>::RoutingType
* ^
* |
* ubox<AComplex,
* DPolarCoords>
*
* AComplex: abstract interface.
* explicit, type-erased, data pointer argument
* virtual AComplex::xcoord(void * data)
*
* DPolarCoords: passive representation
*
* IComplex_DPolarCoords: implement AComplex interface for representation DPolarCoords
* static methods with typed data pointer argument
* IComplex_DPolarCoords::xcoord(void * data)
* IComplex_DPolarCoords::_xcoord(DPolarCoords * data)
*
* OUniqueBox<AComplex,DPolarCoords>:
* a self-sufficient object, associating
* interface AComplex with representation DPolarCoords
* OUniqueBox .data() method is DPolarCoord*
* 'impure' in the sense that it mixes code+data
*
* RComplex<AComplex>: convenience interface for OUniqueBox
*
* ubox<AComplex,DPolarCOords>:
* self-sufficent object with convenient interface
*
* Application code will deal with ubox<AComplex,DPolarCoords>
*
*
*
*
*
*
**/
#include <catch2/catch.hpp>
#include <cmath>
#include <cassert>
namespace xo {
namespace ut {
namespace {
/** Associates an interface with an representation.
* Specialize to record such associations.
**/
template <typename Interface,
typename Data>
struct ISpecificFor;
/** type-erased implementation of AComplex, see below **/
struct IComplex_Any;
/** abstract interface for a complex number **/
struct AComplex {
using TypeErasedIface = IComplex_Any;
virtual double xcoord(void * data) const = 0;
virtual double ycoord(void * data) const = 0;
virtual double argument(void * data) const = 0;
virtual double magnitude(void * data) const = 0;
virtual void destruct(void * data) const = 0;
};
/** type-erased implementation of AComplex, for runtime polymorphism
* Usable by (and only by) overwriting with a typed implementation,
* such as IComplex_RectCoords or IComplex_PolarCoords.
**/
struct IComplex_Any : public AComplex {
virtual double xcoord(void *) const final override { assert(false); return 0.0; }
virtual double ycoord(void *) const final override { assert(false); return 0.0; }
virtual double argument(void *) const final override { assert(false); return 0.0; }
virtual double magnitude(void *) const final override { assert(false); return 0.0; }
virtual void destruct(void *) const final override { assert(false); }
};
template <typename Repr>
struct IComplex_Specific : public AComplex {
static double _xcoord(Repr *);
static double _ycoord(Repr *);
static double _argument(Repr *);
static double _magnitude(Repr *);
static void _destruct(Repr *);
virtual double xcoord(void * data) const final override { return _xcoord((Repr*)data); }
virtual double ycoord(void * data) const final override { return _ycoord((Repr*)data); }
virtual double argument(void * data) const final override { return _argument((Repr*)data); }
virtual double magnitude(void * data) const final override { return _magnitude((Repr*)data); }
virtual void destruct(void * data) const final override { _destruct((Repr*)data); }
};
// ----- Placeholder for opaque data -----
// Placeholder used for template specialization
struct DOpaquePlaceholder {};
using IComplex_DOpaquePlaceholder = IComplex_Any;
template <>
struct ISpecificFor<AComplex, DOpaquePlaceholder> {
using ImplType = IComplex_Any;
};
// ----- Polar Coordinates -----
/** complex number, represented using polar coordinates **/
struct DPolarCoords {
DPolarCoords(double arg, double mag) : arg_{arg}, mag_{mag} {}
double arg_;
double mag_;
};
/** implementation of AComplex interface with representation DPolarCoords **/
using IComplex_DPolarCoords = IComplex_Specific<DPolarCoords>;
template <>
double
IComplex_Specific<DPolarCoords>::_xcoord(DPolarCoords * data) {
return data->mag_ * std::cos(data->arg_);
};
template <>
double IComplex_Specific<DPolarCoords>::_ycoord(DPolarCoords * data) {
return data->mag_ * std::sin(data->arg_);
};
template <>
double
IComplex_Specific<DPolarCoords>::_argument(DPolarCoords * data) {
return data->arg_;
}
template <>
double
IComplex_Specific<DPolarCoords>::_magnitude(DPolarCoords * data) {
return data->mag_;
}
template <>
void
IComplex_Specific<DPolarCoords>::_destruct(DPolarCoords *) {
/*trivial*/
}
template <>
struct ISpecificFor<AComplex, DPolarCoords> {
using ImplType = IComplex_Specific<DPolarCoords>;
};
// ----- Rectangular Coordinates -----
/** complex number, represented using rectangular coordinates **/
struct DRectCoords {
DRectCoords(double x, double y) : x_{x}, y_{y} {}
double x_;
double y_;
};
/** implementation of AComplex interface with representation DRectCoords **/
using IComplex_DRectCoords = IComplex_Specific<DRectCoords>;
template <>
double
IComplex_Specific<DRectCoords>::_xcoord(DRectCoords * data) {
return data->x_;
};
template <>
double
IComplex_Specific<DRectCoords>::_ycoord(DRectCoords * data) {
return data->y_;
};
template <>
double
IComplex_Specific<DRectCoords>::_argument(DRectCoords * data) {
return std::atan(data->y_ / data->x_);
}
template <>
double
IComplex_Specific<DRectCoords>::_magnitude(DRectCoords * data) {
double x = data->x_;
double y = data->y_;
return std::sqrt(x*x + y*y);
}
template <>
void
IComplex_Specific<DRectCoords>::_destruct(DRectCoords * /*data*/) {
/*trivial*/
}
template <>
struct ISpecificFor<AComplex, DRectCoords> {
using ImplType = IComplex_Specific<DRectCoords>;
};
// ----- box with unique pointer -----
/**
* Creates a 'classic object-oriented'
* instance that has both interface+data.
*
* OUniqueBox uses a unique_ptr to hold data,
* so lifetime ends (unless moved) when this OUniqueBox
* goes out of scope
*
* policy:
* In our object model, these are not intended to be used
* for state; instead create them just-in-time.
*
*
* @tparam ISpecific will be a specific interface,
* such as ISpecificFor<AComplex, DRectCoords>
*
* Example:
* OUniqueBox<AComplex, DRectCoords> z1 = ..;
* z1._xcoord(z1.data());
**/
template <typename AInterface, typename Data>
struct OUniqueBox : ISpecificFor<AInterface, Data>::ImplType {
using DataType = Data;
using DataBox = std::unique_ptr<Data>;
explicit OUniqueBox(DataBox d) : data_{std::move(d)} {}
Data * data() const { return data_.get(); }
DataBox data_;
};
// ----- polymorphic box -----
/**
* Unqiuely-owned instance with runtime polymorphism.
*
* Unlike OUniqueBox<AInterface, ..> can use for variant data
* without additional overhead. Tradeoff is that avoiding such
* overhead excludes std::unique_ptr.
*
* We're going to instead rely on AInterface providing a destruct() method,
* so in practice get the deleter from interface state.
*
* Possibly means we need all abstract interfaces to share a common base
**/
template <typename AInterface, typename Data = DOpaquePlaceholder>
struct OUniqueAny : ISpecificFor<AInterface, Data>::ImplType {
/* note: Data can be void here */
using DataType = Data;
using DataBox = Data*;
explicit OUniqueAny() {}
/* unsatisfactory b/c doesn't enforce that @p d is heap-allocated */
explicit OUniqueAny(DataBox d) : data_{std::move(d)} {}
~OUniqueAny() {
if (data_ != nullptr) {
this->destruct(data_);
delete data_;
this->data_ = nullptr;
}
}
/** note: load-bearing for routing classes such as RComplex<OUniqueAny> **/
Data * data() const { return data_; }
DataBox data_ = nullptr;
};
// ----- Router; RFoo pairs with AFoo -----
template <typename Object>
struct RComplex : public Object {
RComplex() {}
RComplex(Object::DataBox data) : Object{std::move(data)} {}
double xcoord() const { return Object::_xcoord(Object::data()); }
double ycoord() const { return Object::_ycoord(Object::data()); }
double argument() const { return Object::_argument(Object::data()); }
double magnitude() const { return Object::_magnitude(Object::data()); }
};
template <typename AInterface, typename Object>
struct RoutingFor;
template <typename Object>
struct RoutingFor<AComplex, Object> {
using RoutingType = RComplex<Object>;
};
template <typename AInterface, typename Object>
using RoutingType = RoutingFor<AComplex, Object>::RoutingType;
// ----- unique box; coordinates with OUniqueBox -----
/** boxed object, held by unique pointer
*
* Example:
* ubox<AComplex, DRectCoords> z1 = ..;
* z1.xcoord();
**/
template <typename AInterface, typename Data>
struct ubox : public RoutingType<AComplex, OUniqueBox<AComplex, Data>> {
using Super = RoutingType<AComplex, OUniqueBox<AComplex, Data>>;
explicit ubox(Super::DataBox d) : Super{std::move(d)} {}
};
// ----- unique any; coordinates with OUniqueAny -----
/** boxed object, held by unique-pointer equiavelent.
*
* Example:
* std::unique_ptr<DRectCoords> z1_in = std::make_unique<DRectCoords>(1.0, 0.0):
* uany<AComplex> z1{z1_in.release()};
*
* z1.xcoord();
**/
template <typename AInterface, typename Data = DOpaquePlaceholder>
struct uany : public RoutingType<AComplex, OUniqueAny<AComplex, Data>> {
using Super = RoutingType<AComplex, OUniqueAny<AComplex, Data>>;
uany() {}
explicit uany(Super::DataBox d) : Super(d) {}
/** move constructor from a different representation.
* allowed given:
* - same abstract interface
* - same strategy (unique / refcounted / ..)
**/
template <typename Data2>
uany(uany<AInterface, Data2> && other)
requires (std::is_same_v<Data, DOpaquePlaceholder>
|| std::is_convertible_v<Data2*, Data>)
: Super(reinterpret_cast<other.data_)
{
/* necessary, so other's dtor is compliant */
other.data_ = nullptr;
}
};
} /*namespace*/
// ----- UNIT TESTS -----
TEST_CASE("objectmodel-specific-1", "[objectmodel]")
{
/* arg=0, mag=1 -> 1+0i */
DPolarCoords polar{0.0, 1.0};
IComplex_Specific<DPolarCoords> polar_iface;
REQUIRE(polar_iface._xcoord(&polar) == 1.0);
REQUIRE(polar_iface._ycoord(&polar) == 0.0);
REQUIRE(polar_iface._argument(&polar) == 0.0);
REQUIRE(polar_iface._magnitude(&polar) == 1.0);
}
TEST_CASE("objectmodel-specific-2", "[objectmodel]")
{
/* arg=0, mag=1 -> 1+0i */
DRectCoords rect{1.0, 0.0};
IComplex_Specific<DRectCoords> rect_iface;
REQUIRE(rect_iface._xcoord(&rect) == 1.0);
REQUIRE(rect_iface._ycoord(&rect) == 0.0);
REQUIRE(rect_iface._argument(&rect) == 0.0);
REQUIRE(rect_iface._magnitude(&rect) == 1.0);
}
TEST_CASE("uniquebox-1", "[objectmodel]")
{
OUniqueBox<AComplex, DPolarCoords> box
{std::make_unique<DPolarCoords>(0.0, 1.0)};
REQUIRE(box.xcoord(box.data()) == 1.0);
REQUIRE(box.ycoord(box.data()) == 0.0);
REQUIRE(box.argument(box.data()) == 0.0);
REQUIRE(box.magnitude(box.data()) == 1.0);
}
TEST_CASE("router-1", "[objectmodel]")
{
using Object = OUniqueBox<AComplex, DPolarCoords>;
RComplex<Object> box{std::make_unique<DPolarCoords>(0.0, 1.0)};
REQUIRE(box.xcoord() == 1.0);
REQUIRE(box.ycoord() == 0.0);
REQUIRE(box.argument() == 0.0);
REQUIRE(box.magnitude() == 1.0);
}
TEST_CASE("routing-type-1", "[objectmodel]")
{
using Object = OUniqueBox<AComplex, DPolarCoords>;
RoutingType<AComplex, Object> box{std::make_unique<DPolarCoords>(0.0, 1.0)};
REQUIRE(box.xcoord() == 1.0);
REQUIRE(box.ycoord() == 0.0);
REQUIRE(box.argument() == 0.0);
REQUIRE(box.magnitude() == 1.0);
}
TEST_CASE("ubox-1", "[objectmodel]")
{
ubox<AComplex,DPolarCoords> box{std::make_unique<DPolarCoords>(0.0, 1.0)};
REQUIRE(box.xcoord() == 1.0);
REQUIRE(box.ycoord() == 0.0);
REQUIRE(box.argument() == 0.0);
REQUIRE(box.magnitude() == 1.0);
}
TEST_CASE("ubox-2", "[objectmodel]")
{
ubox<AComplex,DRectCoords> box{std::make_unique<DRectCoords>(1.0, 0.0)};
REQUIRE(box.xcoord() == 1.0);
REQUIRE(box.ycoord() == 0.0);
REQUIRE(box.argument() == 0.0);
REQUIRE(box.magnitude() == 1.0);
}
TEST_CASE("uany-1", "[objectmodel]")
{
/* default ctor */
uany<AComplex> any;
}
TEST_CASE("uany-2", "[objectmodel]")
{
/* equivalent to ubox<AComplex,DRectCoords>, but impl doesn't use std::unique_ptr */
uany<AComplex,DRectCoords> any{new DRectCoords{1.0, 0.0}};
REQUIRE(any.xcoord() == 1.0);
REQUIRE(any.ycoord() == 0.0);
REQUIRE(any.argument() == 0.0);
REQUIRE(any.magnitude() == 1.0);
}
TEST_CASE("uany-3", "[objectmodel]")
{
/* equivalent to ubox<AComplex,DRectCoords>, but impl doesn't use std::unique_ptr */
uany<AComplex,DRectCoords> z1{new DRectCoords{1.0, 0.0}};
/* should be able to assign to a variant uany */
uany<AComplex> uany = std::move(z1);
}
} /*namespace ut*/
} /*namespace xo*/
/* end objectmodel.test.cp */
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