test/tuple_test.cpp - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2021 The Eigen Team
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

 #include "main.h"

 #include <Eigen/Core>
 #include <Eigen/src/Core/arch/GPU/Tuple.h>

 using namespace Eigen::internal;
 using Eigen::internal::tuple_impl::tuple;

 void basic_tuple_test() {
   // Construction.
   tuple<> tuple0 {};
   tuple<int> tuple1 {1};
   tuple<int, float> tuple2 {3, 5.0f};
   tuple<int, float, double> tuple3 {7, 11.0f, 13.0};
   // Default construction.
   tuple<> tuple0default;
   EIGEN_UNUSED_VARIABLE(tuple0default)
   tuple<int> tuple1default;
   EIGEN_UNUSED_VARIABLE(tuple1default)
   tuple<int, float> tuple2default;
   EIGEN_UNUSED_VARIABLE(tuple2default)
   tuple<int, float, double> tuple3default;
   EIGEN_UNUSED_VARIABLE(tuple3default)

   // Assignment.
   tuple<> tuple0b = tuple0;
   EIGEN_UNUSED_VARIABLE(tuple0b)
   decltype(tuple1) tuple1b = tuple1;
   EIGEN_UNUSED_VARIABLE(tuple1b)
   decltype(tuple2) tuple2b = tuple2;
   EIGEN_UNUSED_VARIABLE(tuple2b)
   decltype(tuple3) tuple3b = tuple3;
   EIGEN_UNUSED_VARIABLE(tuple3b)

   // get.
   VERIFY_IS_EQUAL(tuple_impl::get<0>(tuple3), 7);
   VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple3), 11.0f);
   VERIFY_IS_EQUAL(tuple_impl::get<2>(tuple3), 13.0);

   // tuple_impl::tuple_size.
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple0)>::value, size_t(0));
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple1)>::value, size_t(1));
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple2)>::value, size_t(2));
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple3)>::value, size_t(3));

   // tuple_impl::tuple_cat.
   auto tuple2cat3 = tuple_impl::tuple_cat(tuple2, tuple3);
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple2cat3)>::value, size_t(5));
   VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple2cat3), 5.0f);
   VERIFY_IS_EQUAL(tuple_impl::get<3>(tuple2cat3), 11.0f);
   auto tuple3cat0 = tuple_impl::tuple_cat(tuple3, tuple0);
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple3cat0)>::value, size_t(3));
   auto singlecat = tuple_impl::tuple_cat(tuple3);
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(singlecat)>::value, size_t(3));
   auto emptycat = tuple_impl::tuple_cat();
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(emptycat)>::value, size_t(0));
   auto tuple0cat1cat2cat3 = tuple_impl::tuple_cat(tuple0, tuple1, tuple2, tuple3);
   VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple0cat1cat2cat3)>::value, size_t(6));

   // make_tuple.
   // The tuple types should uses values for the second and fourth parameters.
   double tmp = 20;
   auto tuple_make = tuple_impl::make_tuple(int(10), tmp, float(20.0f), tuple0);
   VERIFY( (std::is_same<decltype(tuple_make), tuple<int, double, float, tuple<> > >::value) );
   VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple_make), tmp);

   // forward_as_tuple.
   // The tuple types should uses references for the second and fourth parameters.
   auto tuple_forward = tuple_impl::forward_as_tuple(int(10), tmp, float(20.0f), tuple0);
   VERIFY( (std::is_same<decltype(tuple_forward), tuple<int, double&, float, tuple<>& > >::value) );
   VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple_forward), tmp);

   // tie.
   auto tuple_tie = tuple_impl::tie(tuple0, tuple1, tuple2, tuple3);
   VERIFY( (std::is_same<decltype(tuple_tie),
                         tuple<decltype(tuple0)&,
                               decltype(tuple1)&,
                               decltype(tuple2)&,
                               decltype(tuple3)&> >::value) );
   VERIFY_IS_EQUAL( (tuple_impl::get<1>(tuple_impl::get<2>(tuple_tie))), 5.0f );
   // Modify value and ensure tuple2 is updated.
   tuple_impl::get<1>(tuple_impl::get<2>(tuple_tie)) = 10.0f;
   VERIFY_IS_EQUAL( (tuple_impl::get<1>(tuple2)), 10.0f );

   // Assignment.
   int x = -1;
   float y = -1;
   double z = -1;
   tuple_impl::tie(x, y, z) = tuple3;
   VERIFY_IS_EQUAL(x, tuple_impl::get<0>(tuple3));
   VERIFY_IS_EQUAL(y, tuple_impl::get<1>(tuple3));
   VERIFY_IS_EQUAL(z, tuple_impl::get<2>(tuple3));
   tuple<int, float, double> tuple3c(-2, -2.0f, -2.0);
   tuple3c = std::move(tuple3b);
   VERIFY_IS_EQUAL(tuple_impl::get<0>(tuple3c), tuple_impl::get<0>(tuple3));
   VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple3c), tuple_impl::get<1>(tuple3));
   VERIFY_IS_EQUAL(tuple_impl::get<2>(tuple3c), tuple_impl::get<2>(tuple3));
 }

 void eigen_tuple_test() {
   tuple<Eigen::Matrix3d, Eigen::MatrixXd> tuple;
   tuple_impl::get<0>(tuple).setRandom();
   tuple_impl::get<1>(tuple).setRandom(10, 10);

   auto tuple_tie = tuple_impl::tie(tuple_impl::get<0>(tuple), tuple_impl::get<1>(tuple));
   tuple_impl::get<1>(tuple_tie).setIdentity();
   VERIFY(tuple_impl::get<1>(tuple).isIdentity());
 }

 EIGEN_DECLARE_TEST(tuple)
 {
   CALL_SUBTEST(basic_tuple_test());
   CALL_SUBTEST(eigen_tuple_test());
 }
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2021 The Eigen Team
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

	#include "main.h"

	#include <Eigen/Core>
	#include <Eigen/src/Core/arch/GPU/Tuple.h>

	using namespace Eigen::internal;
	using Eigen::internal::tuple_impl::tuple;

	void basic_tuple_test() {
	// Construction.
	tuple<> tuple0 {};
	tuple<int> tuple1 {1};
	tuple<int, float> tuple2 {3, 5.0f};
	tuple<int, float, double> tuple3 {7, 11.0f, 13.0};
	// Default construction.
	tuple<> tuple0default;
	EIGEN_UNUSED_VARIABLE(tuple0default)
	tuple<int> tuple1default;
	EIGEN_UNUSED_VARIABLE(tuple1default)
	tuple<int, float> tuple2default;
	EIGEN_UNUSED_VARIABLE(tuple2default)
	tuple<int, float, double> tuple3default;
	EIGEN_UNUSED_VARIABLE(tuple3default)

	// Assignment.
	tuple<> tuple0b = tuple0;
	EIGEN_UNUSED_VARIABLE(tuple0b)
	decltype(tuple1) tuple1b = tuple1;
	EIGEN_UNUSED_VARIABLE(tuple1b)
	decltype(tuple2) tuple2b = tuple2;
	EIGEN_UNUSED_VARIABLE(tuple2b)
	decltype(tuple3) tuple3b = tuple3;
	EIGEN_UNUSED_VARIABLE(tuple3b)

	// get.
	VERIFY_IS_EQUAL(tuple_impl::get<0>(tuple3), 7);
	VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple3), 11.0f);
	VERIFY_IS_EQUAL(tuple_impl::get<2>(tuple3), 13.0);

	// tuple_impl::tuple_size.
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple0)>::value, size_t(0));
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple1)>::value, size_t(1));
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple2)>::value, size_t(2));
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple3)>::value, size_t(3));

	// tuple_impl::tuple_cat.
	auto tuple2cat3 = tuple_impl::tuple_cat(tuple2, tuple3);
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple2cat3)>::value, size_t(5));
	VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple2cat3), 5.0f);
	VERIFY_IS_EQUAL(tuple_impl::get<3>(tuple2cat3), 11.0f);
	auto tuple3cat0 = tuple_impl::tuple_cat(tuple3, tuple0);
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple3cat0)>::value, size_t(3));
	auto singlecat = tuple_impl::tuple_cat(tuple3);
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(singlecat)>::value, size_t(3));
	auto emptycat = tuple_impl::tuple_cat();
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(emptycat)>::value, size_t(0));
	auto tuple0cat1cat2cat3 = tuple_impl::tuple_cat(tuple0, tuple1, tuple2, tuple3);
	VERIFY_IS_EQUAL(tuple_impl::tuple_size<decltype(tuple0cat1cat2cat3)>::value, size_t(6));

	// make_tuple.
	// The tuple types should uses values for the second and fourth parameters.
	double tmp = 20;
	auto tuple_make = tuple_impl::make_tuple(int(10), tmp, float(20.0f), tuple0);
	VERIFY( (std::is_same<decltype(tuple_make), tuple<int, double, float, tuple<> > >::value) );
	VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple_make), tmp);

	// forward_as_tuple.
	// The tuple types should uses references for the second and fourth parameters.
	auto tuple_forward = tuple_impl::forward_as_tuple(int(10), tmp, float(20.0f), tuple0);
	VERIFY( (std::is_same<decltype(tuple_forward), tuple<int, double&, float, tuple<>& > >::value) );
	VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple_forward), tmp);

	// tie.
	auto tuple_tie = tuple_impl::tie(tuple0, tuple1, tuple2, tuple3);
	VERIFY( (std::is_same<decltype(tuple_tie),
	tuple<decltype(tuple0)&,
	decltype(tuple1)&,
	decltype(tuple2)&,
	decltype(tuple3)&> >::value) );
	VERIFY_IS_EQUAL( (tuple_impl::get<1>(tuple_impl::get<2>(tuple_tie))), 5.0f );
	// Modify value and ensure tuple2 is updated.
	tuple_impl::get<1>(tuple_impl::get<2>(tuple_tie)) = 10.0f;
	VERIFY_IS_EQUAL( (tuple_impl::get<1>(tuple2)), 10.0f );

	// Assignment.
	int x = -1;
	float y = -1;
	double z = -1;
	tuple_impl::tie(x, y, z) = tuple3;
	VERIFY_IS_EQUAL(x, tuple_impl::get<0>(tuple3));
	VERIFY_IS_EQUAL(y, tuple_impl::get<1>(tuple3));
	VERIFY_IS_EQUAL(z, tuple_impl::get<2>(tuple3));
	tuple<int, float, double> tuple3c(-2, -2.0f, -2.0);
	tuple3c = std::move(tuple3b);
	VERIFY_IS_EQUAL(tuple_impl::get<0>(tuple3c), tuple_impl::get<0>(tuple3));
	VERIFY_IS_EQUAL(tuple_impl::get<1>(tuple3c), tuple_impl::get<1>(tuple3));
	VERIFY_IS_EQUAL(tuple_impl::get<2>(tuple3c), tuple_impl::get<2>(tuple3));
	}

	void eigen_tuple_test() {
	tuple<Eigen::Matrix3d, Eigen::MatrixXd> tuple;
	tuple_impl::get<0>(tuple).setRandom();
	tuple_impl::get<1>(tuple).setRandom(10, 10);

	auto tuple_tie = tuple_impl::tie(tuple_impl::get<0>(tuple), tuple_impl::get<1>(tuple));
	tuple_impl::get<1>(tuple_tie).setIdentity();
	VERIFY(tuple_impl::get<1>(tuple).isIdentity());
	}

	EIGEN_DECLARE_TEST(tuple)
	{
	CALL_SUBTEST(basic_tuple_test());
	CALL_SUBTEST(eigen_tuple_test());
	}