// Ring of integers.

// General includes.
#include "cl_sysdep.h"

CL_PROVIDE(cl_I_ring)

// Specification.
#include "cln/integer_ring.h"


// Implementation.

#include "cln/integer.h"
#include "cln/integer_io.h"
#include "cl_I.h"

namespace cln {

static void I_fprint (cl_heap_ring* R, std::ostream& stream, const _cl_ring_element& x)
{
	unused R;
	fprint(stream,The(cl_I)(x));
}

static cl_boolean I_equal (cl_heap_ring* R, const _cl_ring_element& x, const _cl_ring_element& y)
{
	unused R;
	return equal(The(cl_I)(x),The(cl_I)(y));
}

static const _cl_ring_element I_zero (cl_heap_ring* R)
{
	return _cl_ring_element(R, (cl_I)0);
}

static cl_boolean I_zerop (cl_heap_ring* R, const _cl_ring_element& x)
{
	unused R;
	return zerop(The(cl_I)(x));
}

static const _cl_ring_element I_plus (cl_heap_ring* R, const _cl_ring_element& x, const _cl_ring_element& y)
{
	return _cl_ring_element(R, The(cl_I)(x) + The(cl_I)(y));
}

static const _cl_ring_element I_minus (cl_heap_ring* R, const _cl_ring_element& x, const _cl_ring_element& y)
{
	return _cl_ring_element(R, The(cl_I)(x) - The(cl_I)(y));
}

static const _cl_ring_element I_uminus (cl_heap_ring* R, const _cl_ring_element& x)
{
	return _cl_ring_element(R, - The(cl_I)(x));
}

static const _cl_ring_element I_one (cl_heap_ring* R)
{
	return _cl_ring_element(R, (cl_I)1);
}

static const _cl_ring_element I_canonhom (cl_heap_ring* R, const cl_I& x)
{
	return _cl_ring_element(R, (cl_I)x);
}

static const _cl_ring_element I_mul (cl_heap_ring* R, const _cl_ring_element& x, const _cl_ring_element& y)
{
	return _cl_ring_element(R, The(cl_I)(x) * The(cl_I)(y));
}

static const _cl_ring_element I_square (cl_heap_ring* R, const _cl_ring_element& x)
{
	return _cl_ring_element(R, square(The(cl_I)(x)));
}

static const _cl_ring_element I_expt_pos (cl_heap_ring* R, const _cl_ring_element& x, const cl_I& y)
{
	return _cl_ring_element(R, expt_pos(The(cl_I)(x),y));
}

static cl_boolean cl_I_p (const cl_number& x)
{
	return (cl_boolean)
	       (!x.pointer_p()
		? x.nonpointer_tag() == cl_FN_tag
		: x.pointer_type() == &cl_class_bignum
	       );
}

static cl_ring_setops I_setops = {
	I_fprint,
	I_equal
};
static cl_ring_addops I_addops = {
	I_zero,
	I_zerop,
	I_plus,
	I_minus,
	I_uminus
};
static cl_ring_mulops I_mulops = {
	I_one,
	I_canonhom,
	I_mul,
	I_square,
	I_expt_pos
};

static cl_number_ring_ops<cl_I> I_ops = {
	cl_I_p,
	equal,
	zerop,
	operator+,
	operator-,
	operator-,
	operator*,
	square,
	expt_pos
};

class cl_heap_integer_ring : public cl_heap_number_ring {
	SUBCLASS_cl_heap_ring()
public:
	// Constructor.
	cl_heap_integer_ring ()
		: cl_heap_number_ring (&I_setops,&I_addops,&I_mulops,
		                       (cl_number_ring_ops<cl_number>*) &I_ops)
		{ type = &cl_class_integer_ring; }
	// Destructor.
	~cl_heap_integer_ring () {}
};

static void cl_integer_ring_destructor (cl_heap* pointer)
{
	(*(cl_heap_integer_ring*)pointer).~cl_heap_integer_ring();
}

static void cl_integer_ring_dprint (cl_heap* pointer)
{
	unused pointer;
	fprint(cl_debugout, "(cl_integer_ring) cl_I_ring");
}

cl_class cl_class_integer_ring = {
	cl_integer_ring_destructor,
	cl_class_flags_number_ring,
	cl_integer_ring_dprint
};

// Constructor.
inline cl_integer_ring::cl_specialized_number_ring ()
	: cl_number_ring (new cl_heap_integer_ring()) {}

const cl_integer_ring cl_I_ring;

}  // namespace cln

CL_PROVIDE_END(cl_I_ring)