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- // -*- mode: c++; coding: utf-8 -*-
- // ra-ra/test - Test abilities of post v10 driverless frame matching Expr.
- // (c) Daniel Llorens - 2019-2023
- // 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.
- #include <iostream>
- #include <iterator>
- #include "ra/test.hh"
- using std::cout, std::endl, std::flush, ra::TestRecorder;
- template <int i> using UU = decltype(std::declval<ra::Unique<double, i>>().iter());
- using ra::int_c;
- int
- main()
- {
- TestRecorder tr(std::cout);
- tr.section("view");
- {
- ra::Big<int, 3> a({2, 3, 4}, (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1));
- ra::Big<int, 4> b({2, 2, 3, 4}, (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1));
- cout << a << endl;
- }
- tr.section("II");
- {
- ra::mp::int_list<6, 3, -4> x;
- constexpr int ma = ra::mp::fold_tuple(-99, x, [](auto && k, auto && a) { return max(k, std::decay_t<decltype(a)>::value); });
- constexpr int mi = ra::mp::fold_tuple(+99, x, [](auto && k, auto && a) { return min(k, std::decay_t<decltype(a)>::value); });
- constexpr int su = ra::mp::fold_tuple(0, x, [](auto && k, auto && a) { return k + std::decay_t<decltype(a)>::value; });
- cout << ma << endl;
- cout << mi << endl;
- cout << su << endl;
- }
- tr.section("static size - like Expr");
- {
- ra::Small<int, 2, 3, 4> a = (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1);
- ra::Small<int, 2, 3, 4, 5> b = (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1);
- #define EXPR expr([](auto && a, auto && b) { return a+b; }, start(a), start(b))
- tr.test_eq(4, EXPR.rank());
- tr.test_eq(b.len(0), EXPR.len(0));
- tr.test_eq(b.len(1), EXPR.len(1));
- tr.test_eq(b.len(2), EXPR.len(2));
- tr.test_eq(b.len(3), EXPR.len(3));
- tr.test_eq(2*3*4*5, size(EXPR));
- static_assert(4==ra::rank_s<decltype(EXPR)>());
- static_assert(b.len_s(0)==EXPR.len_s(0));
- static_assert(b.len_s(1)==EXPR.len_s(1));
- static_assert(b.len_s(2)==EXPR.len_s(2));
- static_assert(b.len_s(3)==EXPR.len_s(3));
- static_assert(2*3*4*5 == ra::size_s<decltype(EXPR)>());
- #undef EXPR
- }
- tr.section("check mismatches - static");
- {
- ra::Small<int, 2, 3, 4> a = (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1);
- ra::Small<int, 2, 4, 4, 5> b = (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1);
- // properly fails to compile, which we cannot check at present [ra42]
- // #define EXPR expr([](auto && a, auto && b) { return a+b; }, start(a), start(b))
- // tr.test_eq(2*3*4*5, ra::size_s<decltype(EXPR)>());
- // tr.test_eq(3, EXPR.len_s(1));
- // #undef EXPR
- // we can use non-static Match::check() as constexpr however.
- static_assert(!agree(a, b));
- }
- tr.section("static rank, dynamic size - like Expr");
- {
- ra::Big<int, 3> a({2, 3, 4}, (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1));
- ra::Big<int, 4> b({2, 3, 4, 5}, (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1));
- #define EXPR expr([](auto && a, auto && b) { return a+b; }, start(a), start(b))
- tr.test_eq(4, EXPR.rank());
- tr.test_eq(b.len(0), EXPR.len(0));
- tr.test_eq(b.len(1), EXPR.len(1));
- tr.test_eq(b.len(2), EXPR.len(2));
- tr.test_eq(b.len(3), EXPR.len(3));
- tr.test_eq(2*3*4*5, size(EXPR));
- // could check all statically through decltype, although Big cannot be constexpr yet.
- static_assert(4==ra::rank_s<decltype(EXPR)>());
- tr.test_eq(ra::ANY, EXPR.len_s(0));
- tr.test_eq(ra::ANY, EXPR.len_s(1));
- tr.test_eq(ra::ANY, EXPR.len_s(2));
- tr.test_eq(ra::ANY, EXPR.len_s(3));
- tr.test_eq(ra::ANY, ra::size_s<decltype(EXPR)>());
- cout << EXPR << endl;
- #undef EXPR
- }
- tr.section("check mismatches - dynamic (explicit)");
- {
- {
- ra::Big<int, 3> a({2, 3, 4}, 0);
- ra::Big<int, 4> b({2, 4, 4, 5}, 0);
- tr.test(!ra::agree(a, b));
- // TestRecorder sees mismatches as another kind of error, it used to happen this would RA_ASSERT instead.
- // FIXME This isn't true for static mismatches, which will fail to compile.
- tr.expectfail().test_eq(a, b);
- }
- {
- ra::Big<int, 3> a({2, 3, 4}, 0);
- ra::Big<int, 4> b({2, 3, 4, 5}, 0);
- tr.test(ra::agree(a, b));
- tr.test_eq(a, b);
- }
- }
- tr.section("dynamic rank - Expr driver selection is broken in this case.");
- {
- ra::Big<int, 3> as({2, 3, 4}, (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1));
- ra::Big<int> ad({2, 3, 4}, (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1));
- ra::Big<int, 4> bs({2, 3, 4, 5}, (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1));
- ra::Big<int> bd({2, 3, 4, 5}, (ra::_0+1)*1000 + (ra::_1+1)*100 + (ra::_2+1)*10 + (ra::_3+1));
- #define EXPR(a, b) expr([](auto && a, auto && b) { return a+b; }, start(a), start(b))
- auto test = [&tr](auto tag, auto && a, auto && b)
- {
- tr.section(tag);
- tr.test_eq(4, EXPR(a, b).rank());
- tr.info("0d").test_eq(b.len(0), EXPR(a, b).len(0));
- tr.test_eq(b.len(1), EXPR(a, b).len(1));
- tr.test_eq(b.len(2), EXPR(a, b).len(2));
- tr.test_eq(b.len(3), EXPR(a, b).len(3));
- tr.info("0-size()").test_eq(2*3*4*5, size(EXPR(a, b)));
- tr.test_eq(ra::ANY, ra::rank_s<decltype(EXPR(a, b))>());
- tr.test_eq(ra::ANY, ra::size_s<decltype(EXPR(a, b))>());
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(0));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(1));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(2));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(3));
- tr.info("0-size_s()").test_eq(ra::ANY, ra::size_s<decltype(EXPR(a, b))>());
- };
- test("sta-dyn", as, bd);
- test("dyn-sta", ad, bs);
- test("dyn-dyn", ad, bd);
- #undef EXPR
- }
- tr.section("cases with periodic axes - dynamic (broken with Expr)");
- {
- ra::Big<int, 3> a({2, 3, 4}, (ra::_0+1)*100 + (ra::_1+1)*10 + (ra::_2+1));
- auto b = a(ra::all, ra::insert<1>, ra::iota(4, 0, 0));
- #define EXPR(a, b) expr([](auto && a, auto && b) { return a+b; }, start(a), start(b))
- tr.test_eq(4, EXPR(a, b).rank());
- tr.test_eq(b.len(0), EXPR(a, b).len(0));
- tr.test_eq(a.len(1), EXPR(a, b).len(1));
- tr.test_eq(b.len(2), EXPR(a, b).len(2));
- tr.test_eq(b.len(3), EXPR(a, b).len(3));
- tr.test_eq(2*3*4*4, size(EXPR(a, b)));
- // could check all statically through decltype, although Big cannot be constexpr yet.
- static_assert(4==ra::rank_s<decltype(EXPR(a, b))>());
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(0));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(1));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(2));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(3));
- tr.test_eq(ra::ANY, ra::size_s<decltype(EXPR(a, b))>());
- cout << EXPR(a, b) << endl;
- // value test.
- ra::Big<int, 4> c({2, 3, 4, 4}, 0);
- c(ra::all, 0) = a(ra::all, ra::iota(4, 0, 0));
- c(ra::all, 1) = a(ra::all, ra::iota(4, 0, 0));
- c(ra::all, 2) = a(ra::all, ra::iota(4, 0, 0));
- tr.test_eq((a+c), EXPR(a, b));
- // order doesn't affect prefix matching with Expr
- tr.test_eq((a+c), EXPR(b, a));
- #undef EXPR
- }
- tr.section("broadcasting - like outer product");
- {
- ra::Big<int, 2> a({4, 3}, 10*ra::_1+100*ra::_0);
- ra::Big<int, 1> b({5}, ra::_0);
- cout << ra::start(ra::shape(from([](auto && a, auto && b) { return a-b; }, a, b))) << endl;
- #define EXPR(a, b) expr([](auto && a, auto && b) { return a-b; }, start(a(ra::dots<2>, ra::insert<1>)), start(b(ra::insert<2>, ra::dots<1>)))
- tr.test_eq(3, ra::rank_s<decltype(EXPR(a, b))>());
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(0));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(1));
- tr.test_eq(ra::ANY, EXPR(a, b).len_s(2));
- tr.test_eq(3, EXPR(a, b).rank());
- tr.test_eq(4, EXPR(a, b).len(0));
- tr.test_eq(3, EXPR(a, b).len(1));
- tr.test_eq(5, EXPR(a, b).len(2));
- tr.test_eq(from([](auto && a, auto && b) { return a-b; }, a, b), EXPR(a, b));
- #undef EXPR
- }
- tr.section("Expr has operatorX=");
- {
- ra::Big<int, 2> a({4, 3}, 10*ra::_1+100*ra::_0);
- expr([](auto & a) -> decltype(auto) { return a; }, start(a)) += 1;
- tr.test_eq(10*ra::_1 + 100*ra::_0 + 1, a);
- }
- tr.section("Compat with old Expr, from ra-0.cc");
- {
- int p[10] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
- int * pp = &p[0]; // force pointer decay in case we ever enforce p's shape
- ra::View<int> d(ra::pack<ra::Dim>(ra::Small<int, 3> {5, 1, 2}, ra::Small<int, 3> {1, 0, 5}), pp);
- #define EXPR expr([](auto && a, auto && b) { return a==b; }, ra::_0*1 + ra::_1*0 + ra::_2*5 + 1, start(d))
- tr.test(every(EXPR));
- auto x = EXPR;
- static_assert(ra::ANY==ra::size_s<decltype(x)>());
- static_assert(ra::ANY==ra::size_s<decltype(x)>());
- tr.test_eq(10, size(EXPR));
- }
- tr.section("BAD on any len_s(k) means size_s() is BAD");
- {
- using order = ra::mp::int_list<0, 1>;
- using T0 = ra::Expr<std::multiplies<void>, std::tuple<decltype(ra::iota<0>()), ra::Scalar<int>>, order>;
- ra::dim_t s0 = ra::size_s<T0>();
- using T1 = ra::Expr<std::multiplies<void>, std::tuple<decltype(ra::iota<1>()), ra::Scalar<int>>, order>;
- ra::dim_t s1 = ra::size_s<T1>();
- using T2 = ra::Expr<std::multiplies<void>, std::tuple<decltype(ra::iota<2>()), ra::Scalar<int>>, order>;
- ra::dim_t s2 = ra::size_s<T2>();
- tr.test_eq(ra::BAD, s0);
- tr.test_eq(ra::BAD, s1);
- tr.test_eq(ra::BAD, s2);
- }
- return tr.summary();
- }
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