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- // -*- mode: c++; coding: utf-8 -*-
- // ra-ra/test - Making ra::Small and its iterator work with expressions/traversal.
- // (c) Daniel Llorens - 2014-2023
- // This library is free software; you can redistribute it and/or modify it under
- // the terms of the GNU Lesser General Public License as published by the Free
- // Software Foundation; either version 3 of the License, or (at your option) any
- // later version.
- // See also small-0.cc.
- #include <iostream>
- #include <iterator>
- #include "ra/test.hh"
- #include "mpdebug.hh"
- using std::cout, std::endl, std::flush, ra::TestRecorder;
- using ra::mp::int_list, ra::int_c, ra::mp::print_int_list, ra::mp::ref;
- int main()
- {
- TestRecorder tr;
- tr.section("pieces of transpose(ra::Small)");
- {
- using lens = int_list<1, 2, 3, 4, 5>;
- using steps = int_list<1, 10, 100, 1000, 10000>;
- using c0 = ra::axis_indices<int_list<0, 1, 3, 2, 0>, int_c<0>>::type;
- using e0 = int_list<0, 4>;
- tr.info(print_int_list<e0> {}, " vs ", print_int_list<c0> {}).test(std::is_same_v<e0, c0>);
- using c1 = ra::axis_indices<int_list<0, 1, 3, 2, 0>, int_c<1>>::type;
- using e1 = int_list<1>;
- tr.info(print_int_list<e1> {}, " vs ", print_int_list<c1> {}).test(std::is_same_v<e1, c1>);
- using call = ra::axes_list_indices<int_list<0, 1, 3, 2, 0>, lens, steps>::type;
- using eall = std::tuple<int_list<0, 4>, int_list<1>, int_list<3>, int_list<2>>;
- tr.info(print_int_list<eall> {}, " vs ", print_int_list<call> {}).test(std::is_same_v<eall, call>);
- }
- tr.section("transpose(ra::Small)");
- {
- ra::Small<double, 2, 3> const a(ra::_0 + 10*ra::_1);
- tr.info("<0 1>").test_eq(a, ra::transpose<0, 1>(a));
- tr.info("<1 0>").test_eq(ra::Small<double, 3, 2>(10*ra::_0 + ra::_1), ra::transpose<1, 0>(a));
- tr.info("<0 0>").test_eq(ra::Small<double, 2> {0, 11}, ra::transpose<0, 0>(a));
- ra::Small<double, 2, 3> b(ra::_0 + 10*ra::_1);
- tr.info("<0 1>").test_eq(a, ra::transpose<0, 1>(a));
- tr.info("<1 0>").test_eq(ra::Small<double, 3, 2>(10*ra::_0 + ra::_1), ra::transpose<1, 0>(a));
- ra::transpose<0, 0>(b) = {7, 9};
- tr.info("<0 0>").test_eq(ra::Small<double, 2, 3>{7, 10, 20, 1, 9, 21}, b);
- ra::Small<double> x {99};
- auto xt = transpose<>(x);
- tr.info("<> rank").test_eq(0, xt.rank());
- tr.info("<>").test_eq(99, xt);
- ra::Small<double, 3, 3> x3 = ra::_0 - ra::_1;
- ra::Small<double, 3, 3> y3 = transpose<1, 0>(x3);
- tr.info("transpose copy").test_eq(y3, ra::_1 - ra::_0);
- x3() = transpose<1, 0>(y3());
- tr.info("transpose copy").test_eq(x3, ra::_0 - ra::_1);
- }
- tr.section("sizeof");
- {
- // These all static, but show the numbers if there's an error.
- tr.info("sizeof(ra::Small<double>)")
- .test_eq(sizeof(double), sizeof(ra::Small<double>));
- tr.info("sizeof(ra::Small<double, 0>)")
- .test(sizeof(double)==sizeof(ra::Small<double, 0>) || 0==sizeof(ra::Small<double, 0>)); // don't rely on either.
- tr.info("sizeof(ra::Small<double, 1>)")
- .test_eq(sizeof(double), sizeof(ra::Small<double, 1>));
- tr.info("sizeof(ra::Small<double, 2>)")
- .test_eq(2*sizeof(double), sizeof(ra::Small<double, 2>));
- }
- tr.section("internal fields");
- {
- {
- using A = ra::Small<double, 10, 10>;
- alignas(A) double storage[sizeof(A)/sizeof(double)];
- A * a = new (&storage) A();
- std::fill(a->data(), a->data()+100, 0.);
- storage[99] = 1.3;
- std::cout << (*a) << std::endl;
- tr.test_eq(1.3, a->data()[99]);
- tr.test_eq(1.3, (*a)(9, 9));
- }
- {
- ra::Small<double, 2, 3> a {1, 2, 3, 4, 5, 6};
- tr.test_eq(2*3*sizeof(double), sizeof(a));
- tr.test_eq(1, a.data()[0]);
- }
- }
- tr.section("top level generics");
- {
- ra::Small<double, 2, 3> a {1, 2, 3, 4, 5, 6};
- tr.test_eq(ra::Small<ra::dim_t, 2> {2, 3}, shape(a));
- tr.test_eq(3u, ra::size(std::array<double, 3>()));
- }
- tr.section("static step computation");
- {
- using d = int_list<3, 4, 5>;
- using s = ra::default_steps<d>;
- tr.info("step 0").test_eq(20, ref<s, 0>::value);
- tr.info("step 1").test_eq(5, ref<s, 1>::value);
- tr.info("step 2").test_eq(1, ref<s, 2>::value);
- }
- tr.section("subscripts");
- {
- tr.section("with scalar indices");
- {
- ra::Small<double, 3, 2> s { 1, 4, 2, 5, 3, 6 };
- auto s0 = s();
- double check0[6] = { 1, 4, 2, 5, 3, 6 };
- tr.test(std::equal(s0.begin(), s0.end(), check0));
- auto s1 = s(1);
- double check1[3] = { 2, 5 };
- cout << "s1: " << s1(0) << ", " << s1(1) << endl;
- tr.test(s1(0)==2 && s1(1)==5);
- tr.test(std::equal(s1.begin(), s1.end(), check1));
- tr.test_eq(5, s(1, 1));
- }
- tr.section("using SmallView as rvalue");
- {
- ra::Small<double, 3, 2> s { 1, 4, 2, 5, 3, 6 };
- // use as rvalue.
- s(0) = { 3, 2 };
- s(1) = { 5, 4 };
- s(2) = { 7, 6 };
- cout << s << endl;
- tr.test_eq(ra::Small<double, 3, 2> { 3, 2, 5, 4, 7, 6 }, s);
- ra::Small<double, 3, 2> z = s;
- z *= -1;
- // check that SmallView = SmallView copies contents, just as View = View.
- s(0) = z(2);
- s(1) = z(1);
- s(2) = z(0);
- tr.test_eq(ra::Small<double, 3, 2> { -3, -2, -5, -4, -7, -6 }, z);
- tr.test_eq(ra::Small<double, 3, 2> { -7, -6, -5, -4, -3, -2 }, s);
- }
- tr.section("with tuples");
- {
- ra::Small<double, 3, 2> s { 1, 4, 2, 5, 3, 6 };
- ra::Small<int, 2> i2 { 1, 1 };
- ra::Small<int, 1> i1 { 1 };
- ra::Small<int, 0> i0 { };
- double check2[1] = { 5 };
- double check1[2] = { 2, 5 };
- double check0[6] = { 1, 4, 2, 5, 3, 6 };
- auto k2 = s.at(i2);
- tr.test_eq(0, ra::rank(k2));
- tr.test_eq(check2[0], k2);
- auto k1 = s.at(i1).begin(); tr.test(std::equal(check1, check1+2, k1));
- auto k0 = s.at(i0).begin(); tr.test(std::equal(check0, check0+6, k0));
- }
- tr.section("with rank 1 subscripts");
- {
- ra::Small<double, 3, 2> s { 1, 4, 2, 5, 3, 6 };
- tr.test_eq(ra::Small<int, 2> { 1, 4 }, s(0));
- tr.test_eq(ra::Small<int, 2> { 2, 5 }, s(1));
- tr.test_eq(ra::Small<int, 2> { 3, 6 }, s(2));
- tr.test_eq(ra::Small<int, 3> { 1, 2, 3 }, s(ra::all, 0));
- tr.test_eq(ra::Small<int, 3> { 4, 5, 6 }, s(ra::all, 1));
- tr.test_eq(1, s(ra::all, 1).rank());
- // check STL iterator.
- {
- int check0[] = { 1, 2, 3 };
- int check1[] = { 4, 5, 6 };
- tr.test(std::ranges::equal(check0, check0+3, s(ra::all, 0).begin(), s(ra::all, 0).end()));
- tr.test(std::ranges::equal(check1, check1+3, s(ra::all, 1).begin(), s(ra::all, 1).end()));
- tr.test(std::ranges::equal(s(ra::all, 0).begin(), s(ra::all, 0).end(), check0, check0+3));
- tr.test(std::ranges::equal(s(ra::all, 1).begin(), s(ra::all, 1).end(), check1, check1+3));
- }
- tr.test_eq(1, s(ra::all, 0)[0]);
- tr.test_eq(2, s(ra::all, 0)[1]);
- tr.test_eq(3, s(ra::all, 0)[2]);
- tr.test_eq(4, s(ra::all, 1)(0));
- tr.test_eq(5, s(ra::all, 1)(1));
- tr.test_eq(6, s(ra::all, 1)(2));
- using I0 = ra::Small<ra::dim_t, 1>;
- tr.test_eq(1, s(ra::all, 0).at(I0 {0}));
- tr.test_eq(2, s(ra::all, 0).at(I0 {1}));
- tr.test_eq(3, s(ra::all, 0).at(I0 {2}));
- tr.test_eq(4, s(ra::all, 1).at(I0 {0}));
- tr.test_eq(5, s(ra::all, 1).at(I0 {1}));
- tr.test_eq(6, s(ra::all, 1).at(I0 {2}));
- }
- tr.section("with rank 1 subscripts, result rank > 1");
- {
- ra::Small<double, 3, 2, 2> s = 100*ra::_0 + 10*ra::_1 + 1*ra::_2;
- cout << s << endl;
- auto t = s(ra::all, 1, ra::all);
- tr.test_eq(2, t.rank());
- tr.test_eq(3, t.len(0));
- tr.test_eq(2, t.len(1));
- tr.test_eq(10, t(0, 0));
- tr.test_eq(11, t(0, 1));
- tr.test_eq(110, t(1, 0));
- tr.test_eq(111, t(1, 1));
- tr.test_eq(210, t(2, 0));
- tr.test_eq(211, t(2, 1));
- tr.test_eq(ra::Small<int, 3, 2> { 10, 11, 110, 111, 210, 211 }, t);
- tr.test_eq(4, t.step(0));
- tr.test_eq(1, t.step(1));
- // check STL iterator.
- {
- int check[] = { 10, 11, 110, 111, 210, 211 };
- tr.test(std::ranges::equal(t.begin(), t.end(), check, check+6));
- tr.test(std::ranges::equal(check, check+6, t.begin(), t.end()));
- }
- }
- }
- tr.section("Small<> can be constexpr");
- {
- constexpr ra::Small<int, 2, 2> a = {1, 2, 3, 4};
- using Va = int_c<int(a(1, 0))>;
- tr.test_eq(3, Va::value);
- using Vc = int_c<sum(a)>; // constexpr reduction!
- tr.test_eq(10, Vc::value);
- constexpr ra::Small<int> b = { 9 }; // needs std::fill
- using Vb = int_c<int(b)>;
- tr.test_eq(9, Vb::value);
- }
- tr.section("custom steps. List init is row-major regardless.");
- {
- auto test = [&tr](auto && a)
- {
- tr.test_eq(1, a(0, 0));
- tr.test_eq(2, a(0, 1));
- tr.test_eq(3, a(0, 2));
- tr.test_eq(4, a(1, 0));
- tr.test_eq(5, a(1, 1));
- tr.test_eq(6, a(1, 2));
- tr.test_eq(1, a(0)(0));
- tr.test_eq(2, a(0)(1));
- tr.test_eq(3, a(0)(2));
- tr.test_eq(4, a(1)(0));
- tr.test_eq(5, a(1)(1));
- tr.test_eq(6, a(1)(2));
- using A = std::decay_t<decltype(a(0))>;
- using dim1 = std::array<ra::dim_t, 1>;
- auto lens = ra::mp::tuple_values<ra::dim_t, typename A::lens>();
- auto steps = ra::mp::tuple_values<ra::dim_t, typename A::steps>();
- tr.test_eq(dim1 {3}, ra::start(lens));
- tr.test_eq(dim1 {2}, ra::start(steps));
- };
- ra::SmallArray<double, int_list<2, 3>, int_list<1, 2>> a { 1, 2, 3, 4, 5, 6 };
- ra::SmallArray<double, int_list<2, 3>, int_list<1, 2>> b { {1, 2, 3}, {4, 5, 6} };
- test(a);
- test(b);
- }
- tr.section("SmallArray converted to SmallView");
- {
- ra::Small<double, 2, 3> a { 1, 2, 3, 4, 5, 6 };
- ra::SmallView<double, int_list<2, 3>, int_list<3, 1>> b = a();
- tr.test_eq(a, b);
- // non-default steps (fortran / column major order).
- ra::SmallArray<double, int_list<2, 3>, int_list<1, 2>> ax { 1, 2, 3, 4, 5, 6 };
- ra::SmallView<double, int_list<2, 3>, int_list<1, 2>> bx = ax();
- tr.test_eq(a, ax);
- tr.test_eq(a, bx);
- // check iterators.
- tr.test(std::ranges::equal(a.begin(), a.end(), ax.begin(), ax.end()));
- tr.test(std::ranges::equal(ax.begin(), ax.end(), a.begin(), a.end()));
- tr.test(std::ranges::equal(b.begin(), b.end(), bx.begin(), bx.end()));
- tr.test(std::ranges::equal(bx.begin(), bx.end(), b.begin(), b.end()));
- // check memory order.
- double fcheck[6] = { 1, 4, 2, 5, 3, 6 };
- tr.test(std::equal(fcheck, fcheck+6, ax.data()));
- tr.test(std::equal(fcheck, fcheck+6, bx.data()));
- // views work as views.
- bx = 77.;
- tr.test_eq(77., ax);
- b = 99.;
- tr.test_eq(99., a);
- }
- tr.section("expr with Small, rank 1");
- {
- ra::Small<double, 3> a { 1, 4, 2 };
- tr.test_eq(3, a.iter().len(0));
- #define TEST(plier) \
- { \
- double s = 0; \
- plier(ra::expr([&s](double & a) { s += a; }, a.iter())); \
- tr.test_eq(7, s); \
- }
- TEST(ply_ravel);
- TEST(ply);
- #undef TEST
- }
- tr.section("expr with Small, rank 2");
- {
- ra::Small<double, 3, 2> a { 1, 4, 2, 5, 3, 6 };
- tr.test_eq(3, a.iter().len(0));
- tr.test_eq(2, a.iter().len(1));
- #define TEST(plier) \
- { \
- double s = 0; \
- plier(ra::expr([&s](double & a) { s += a; }, a.iter())); \
- tr.test_eq(21, s); \
- }
- TEST(ply_ravel);
- TEST(ply);
- #undef TEST
- #define TEST(plier) \
- { \
- ra::Small<double, 3, 2> b; \
- plier(ra::expr([](double & a, double & b) { b = -a; }, a.iter(), b.iter())); \
- tr.test_eq(-1, b(0, 0)); \
- tr.test_eq(-4, b(0, 1)); \
- tr.test_eq(-2, b(1, 0)); \
- tr.test_eq(-5, b(1, 1)); \
- tr.test_eq(-3, b(2, 0)); \
- tr.test_eq(-6, b(2, 1)); \
- }
- TEST(ply_ravel);
- TEST(ply);
- #undef TEST
- }
- tr.section("Small as value type in var-size array");
- {
- {
- // This pain with rank 0 arrays and ra::scalar can be avoided with ply; see e.g. grid_interp_n() in src/grid.cc.
- ra::Unique<ra::Small<double, 2>, 1> b({4}, ra::scalar(ra::Small<double, 2> { 3., 1. }));
- tr.test_eq(3., b(0)(0));
- tr.test_eq(1., b(0)(1));
- // if () returns rank 0 instead of scalar, otherwise ct error.
- // b(1) = ra::scalar(ra::Small<double, 2> { 7., 9. });
- // cout << b << endl;
- // if () returns scalar instead of rank 0, otherwise bug. (This is what happens).
- b(1) = ra::Small<double, 2> { 7., 9. };
- tr.test_eq(3., b(0)(0));
- tr.test_eq(1., b(0)(1));
- tr.test_eq(7., b(1)(0));
- tr.test_eq(9., b(1)(1));
- }
- {
- ra::Unique<double, 1> b({2}, { 3., 1. });
- tr.test_eq(3., b(0));
- tr.test_eq(1., b(1));
- b = ra::Small<double, 2> { 7., 9. };
- cout << b << endl;
- tr.test_eq(7., b(0));
- tr.test_eq(9., b(1));
- }
- {
- ra::Unique<double, 2> b({2, 2}, { 3., 1., 3., 1. });
- b(1) = ra::Small<double, 2> { 7., 9. };
- tr.test_eq(3., b(0, 0));
- tr.test_eq(1., b(0, 1));
- tr.test_eq(7., b(1, 0));
- tr.test_eq(9., b(1, 1));
- }
- {
- ra::Unique<ra::Small<double, 2>, 0> b(ra::scalar(ra::Small<double, 2>{3., 1.}));
- b = ra::scalar(ra::Small<double, 2> { 7., 9. });
- tr.test_eq(7., b()(0));
- tr.test_eq(9., b()(1));
- }
- {
- ra::Unique<ra::Small<double, 2>, 1> b({4}, ra::scalar(ra::Small<double, 2> { 3., 1. }));
- ra::Small<double, 2> u = b(1);
- tr.test_eq(3, u[0]);
- tr.test_eq(1, u[1]);
- ra::Small<double, 2> v(b(1));
- tr.test_eq(3, v[0]);
- tr.test_eq(1, v[1]);
- }
- }
- tr.section("transpose");
- {
- ra::Small<double, 2, 3> a { 1, 2, 3, 4, 5, 6 };
- tr.test_eq(ra::Small<double, 3, 2> { 1, 4, 2, 5, 3, 6 }, transpose<1, 0>(a));
- ra::transpose<1, 0>(a) = { 1, 2, 3, 4, 5, 6 };
- tr.test_eq(ra::Small<double, 2, 3> { 1, 3, 5, 2, 4, 6 }, a);
- }
- tr.section("diag");
- {
- ra::Small<double, 3, 3> a = ra::_0*3 + ra::_1;
- tr.test_eq(ra::Small<double, 3> { 0, 4, 8 }, diag(a));
- diag(a) = { 11, 22, 33 };
- tr.test_eq(ra::Small<double, 3, 3> { 11, 1, 2, 3, 22, 5, 6, 7, 33 }, a);
- }
- tr.section(".back()");
- {
- ra::Small<double, 3> a = ra::_0*3;
- tr.test_eq(0, a[0]);
- tr.test_eq(3, a[1]);
- tr.test_eq(6, a[2]);
- tr.test_eq(6, a.back());
- }
- // TODO Replace with uniform subscripting (ra::iota).
- tr.section("compile time subscripting of ra::Small (as)");
- {
- auto test_as = [&tr](auto && a, auto && b)
- {
- tr.test_eq(2, b.size());
- tr.test_eq(1, b[0]);
- tr.test_eq(2, b[1]);
- b = { 7, 8 };
- tr.test_eq(7, a[0]);
- tr.test_eq(8, a[1]);
- tr.test_eq(3, a[2]);
- };
- {
- ra::Small<double, 3> a = { 1, 2, 3 };
- test_as(a, a.as<2>());
- ra::Small<double, 6> b = { 1, 99, 2, 99, 3, 99 };
- ra::SmallView<double, int_list<3>, int_list<2>> c(b.data()); // TODO no syntax yet.
- test_as(c, c.as<2>());
- }
- auto test_fra = [&tr](auto && a, auto && b)
- {
- tr.test_eq(2, b.size());
- tr.test_eq(2, b[0]);
- tr.test_eq(3, b[1]);
- b = { 7, 8 };
- tr.test_eq(1, a[0]);
- tr.test_eq(7, a[1]);
- tr.test_eq(8, a[2]);
- };
- {
- ra::Small<double, 3> a = { 1, 2, 3 };
- test_fra(a, a.as<2, 1>());
- ra::Small<double, 6> b = { 1, 99, 2, 99, 3, 99 };
- ra::SmallView<double, int_list<3>, int_list<2>> c(b.data()); // TODO no syntax yet.
- test_fra(c, c.as<2, 1>());
- }
- auto test_fra_rank_2 = [&tr](auto && a, auto && b)
- {
- tr.test_eq(2, b.len(0));
- tr.test_eq(2, b.len(1));
- tr.test_eq(ra::Small<double, 2, 2> { 3, 4, 5, 6 }, b);
- b = ra::Small<double, 2, 2> { 13, 14, 15, 16 };
- tr.test_eq(ra::Small<double, 3, 2> { 1, 2, 13, 14, 15, 16 }, a);
- };
- {
- ra::Small<double, 3, 2> a = { 1, 2, 3, 4, 5, 6 };
- test_fra_rank_2(a, a.as<2, 1>());
- ra::Small<double, 6, 2> b = { 1, 2, 99, 99, 3, 4, 99, 99, 5, 6, 99, 99 };
- ra::SmallView<double, int_list<3, 2>, int_list<4, 1>> c(b.data()); // TODO no syntax yet.
- test_fra_rank_2(c, c.as<2, 1>());
- }
- }
- tr.section("cat");
- {
- tr.test_eq(ra::Small<int, 4> {1, 2, 3, 4}, cat(ra::Small<int, 3> {1, 2, 3}, 4));
- tr.test_eq(ra::Small<int, 4> {4, 1, 2, 3}, cat(4, ra::Small<int, 3> {1, 2, 3}));
- tr.test_eq(ra::Small<int, 5> {1, 2, 3, 4, 5}, cat(ra::Small<int, 2> {1, 2}, ra::Small<int, 3> {3, 4, 5}));
- }
- tr.section("a demo on rank1of1 vs rank2");
- {
- // by prefix matching, first dim is 2 for both so they get matched. Then {1 2}
- // (a 'scalar') gets matched to 10 & 20 in succesion. This used to be forbidden in Small::Small(X && x), but now I value consistency more.
- ra::Small<ra::Small<double, 2>, 2> a = { {1, 2}, {3, 4} };
- ra::Small<double, 2, 2> b = { 10, 20, 30, 40 };
- cout << "a: " << a << endl;
- cout << "b: " << b << endl;
- // a = b; // TODO Check that this static fails
- cout << "a = b, a: " << a << endl;
- }
- // ASSIGNOPS for SmallBase.iter()
- {
- ra::Small<int, 3> s {1, 2, 3};
- s.iter() += 9;
- tr.test_eq(ra::start({10, 11, 12}), s);
- }
- #if __cpp_multidimensional_subscript >= 202110L
- tr.section("multidimensional []");
- {
- ra::Small<int, 3, 2, 4> a = ra::_0 + ra::_1 - ra::_2;
- tr.test_eq(a(ra::all, 0), a[ra::all, 0]);
- }
- #endif
- tr.section("deduction guides");
- {
- ra::SmallArray a {1, 2, 3}; // FIXME the deduction guide can't work for ra::Small
- tr.test_eq(ra::start({1, 2, 3}), a);
- }
- return tr.summary();
- }
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