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Mesh.cpp
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rGOOSEFEM GooseFEM
Mesh.cpp
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#include <catch2/catch.hpp>
#include <xtensor/xrandom.hpp>
#include <xtensor/xmath.hpp>
#include <GooseFEM/GooseFEM.h>
#define ISCLOSE(a,b) REQUIRE_THAT((a), Catch::WithinAbs((b), 1.e-12));
TEST_CASE("GooseFEM::Mesh", "Mesh.h")
{
SECTION("overlapping")
{
GooseFEM::Mesh::Quad4::Regular mesh(5, 5, 1.0);
auto coor_a = mesh.coor();
auto overlap_a = mesh.nodesTopEdge();
auto coor_b = mesh.coor();
auto overlap_b = mesh.nodesBottomEdge();
xt::view(coor_b, xt::all(), 1) += 5.0;
auto overlap = GooseFEM::Mesh::overlapping(coor_a, coor_b);
REQUIRE(xt::all(xt::equal(xt::view(overlap, 0, xt::all()), overlap_a)));
REQUIRE(xt::all(xt::equal(xt::view(overlap, 1, xt::all()), overlap_b)));
}
SECTION("ManualStitch")
{
GooseFEM::Mesh::Quad4::Regular mesh(5, 5, 1.0);
auto coor_a = mesh.coor();
auto conn_a = mesh.conn();
auto overlap_a = mesh.nodesTopEdge();
auto coor_b = mesh.coor();
auto conn_b = mesh.conn();
auto overlap_b = mesh.nodesBottomEdge();
xt::view(coor_b, xt::all(), 1) += 5.0;
GooseFEM::Mesh::ManualStitch stitch(coor_a, conn_a, overlap_a, coor_b, conn_b, overlap_b);
GooseFEM::Mesh::Quad4::Regular res(5, 10, 1.0);
REQUIRE(xt::allclose(stitch.coor(), res.coor()));
REQUIRE(xt::all(xt::equal(stitch.conn(), res.conn())));
REQUIRE(xt::all(xt::equal(stitch.nodemap(0), xt::arange<size_t>(6 * 6))));
REQUIRE(xt::all(xt::equal(stitch.nodemap(1), xt::arange<size_t>(6 * 6) + 5 * 6)));
REQUIRE(xt::all(xt::equal(stitch.elemmap(0), xt::arange<size_t>(5 * 5))));
REQUIRE(xt::all(xt::equal(stitch.elemmap(1), xt::arange<size_t>(5 * 5) + 5 * 5)));
REQUIRE(xt::all(xt::equal(stitch.nodeset(xt::arange<size_t>(6 * 6), 0), xt::arange<size_t>(6 * 6))));
REQUIRE(xt::all(xt::equal(stitch.nodeset(xt::arange<size_t>(6 * 6), 1), xt::arange<size_t>(6 * 6) + 5 * 6)));
REQUIRE(xt::all(xt::equal(stitch.elemset(xt::arange<size_t>(5 * 5), 0), xt::arange<size_t>(5 * 5))));
REQUIRE(xt::all(xt::equal(stitch.elemset(xt::arange<size_t>(5 * 5), 1), xt::arange<size_t>(5 * 5) + 5 * 5)));
REQUIRE(xt::all(xt::equal(stitch.nodeset(overlap_a, 0), stitch.nodeset(overlap_b, 1))));
}
SECTION("Stitch")
{
GooseFEM::Mesh::Quad4::Regular mesh(5, 5, 1.0);
auto coor_a = mesh.coor();
auto conn_a = mesh.conn();
auto overlap_a = mesh.nodesTopEdge();
auto nset = mesh.nodesLeftEdge();
auto eset = xt::eval(xt::arange<size_t>(mesh.nelem()));
auto coor_b = mesh.coor();
auto conn_b = mesh.conn();
auto overlap_b = mesh.nodesBottomEdge();
xt::view(coor_b, xt::all(), 1) += 5.0;
GooseFEM::Mesh::Stitch stitch;
stitch.push_back(coor_a, conn_a);
stitch.push_back(coor_b, conn_b);
GooseFEM::Mesh::Quad4::Regular res(5, 10, 1.0);
REQUIRE(xt::allclose(stitch.coor(), res.coor()));
REQUIRE(xt::all(xt::equal(stitch.conn(), res.conn())));
REQUIRE(xt::all(xt::equal(stitch.nodemap(0), xt::arange<size_t>(6 * 6))));
REQUIRE(xt::all(xt::equal(stitch.nodemap(1), xt::arange<size_t>(6 * 6) + 5 * 6)));
REQUIRE(xt::all(xt::equal(stitch.elemmap(0), xt::arange<size_t>(5 * 5))));
REQUIRE(xt::all(xt::equal(stitch.elemmap(1), xt::arange<size_t>(5 * 5) + 5 * 5)));
REQUIRE(xt::all(xt::equal(stitch.nodeset(xt::arange<size_t>(6 * 6), 0), xt::arange<size_t>(6 * 6))));
REQUIRE(xt::all(xt::equal(stitch.nodeset(xt::arange<size_t>(6 * 6), 1), xt::arange<size_t>(6 * 6) + 5 * 6)));
REQUIRE(xt::all(xt::equal(stitch.elemset(xt::arange<size_t>(5 * 5), 0), xt::arange<size_t>(5 * 5))));
REQUIRE(xt::all(xt::equal(stitch.elemset(xt::arange<size_t>(5 * 5), 1), xt::arange<size_t>(5 * 5) + 5 * 5)));
REQUIRE(xt::all(xt::equal(stitch.nodeset(overlap_a, 0), stitch.nodeset(overlap_b, 1))));
REQUIRE(xt::all(xt::equal(stitch.nodeset({nset, nset}), xt::arange<size_t>(0, 6 * 6 + 5 * 6, 6))));
REQUIRE(xt::all(xt::equal(stitch.elemset({eset, eset}), xt::arange<size_t>(2 * 5 * 5))));
}
SECTION("edgesize")
{
GooseFEM::Mesh::Quad4::Regular mesh(2, 2, 10.0);
auto s = GooseFEM::Mesh::edgesize(mesh.coor(), mesh.conn());
auto t = GooseFEM::Mesh::edgesize(mesh.coor(), mesh.conn(), mesh.getElementType());
REQUIRE(xt::allclose(s, 10.0));
REQUIRE(xt::allclose(t, 10.0));
}
SECTION("coordination")
{
GooseFEM::Mesh::Quad4::Regular mesh(3, 3);
auto N = GooseFEM::Mesh::coordination(mesh.conn());
xt::xtensor<size_t, 1> ret = {1, 2, 2, 1, 2, 4, 4, 2, 2, 4, 4, 2, 1, 2, 2, 1};
REQUIRE(xt::all(xt::equal(N, ret)));
}
SECTION("centers")
{
GooseFEM::Mesh::Quad4::Regular mesh(2, 2, 2.0);
xt::xtensor<double, 2> c = {
{1.0, 1.0},
{3.0, 1.0},
{1.0, 3.0},
{3.0, 3.0}};
REQUIRE(xt::allclose(GooseFEM::Mesh::centers(mesh.coor(), mesh.conn()), c));
}
SECTION("elem2node")
{
GooseFEM::Mesh::Quad4::Regular mesh(3, 3);
auto tonode = GooseFEM::Mesh::elem2node(mesh.conn());
REQUIRE(tonode.size() == 16);
REQUIRE(tonode[0] == std::vector<size_t>{0});
REQUIRE(tonode[1] == std::vector<size_t>{0, 1});
REQUIRE(tonode[2] == std::vector<size_t>{1, 2});
REQUIRE(tonode[3] == std::vector<size_t>{2});
REQUIRE(tonode[4] == std::vector<size_t>{0, 3});
REQUIRE(tonode[5] == std::vector<size_t>{0, 1, 3, 4});
REQUIRE(tonode[6] == std::vector<size_t>{1, 2, 4, 5});
REQUIRE(tonode[7] == std::vector<size_t>{2, 5});
REQUIRE(tonode[8] == std::vector<size_t>{3, 6});
REQUIRE(tonode[9] == std::vector<size_t>{3, 4, 6, 7});
REQUIRE(tonode[10] == std::vector<size_t>{4, 5, 7, 8});
REQUIRE(tonode[11] == std::vector<size_t>{5, 8});
REQUIRE(tonode[12] == std::vector<size_t>{6});
REQUIRE(tonode[13] == std::vector<size_t>{6, 7});
REQUIRE(tonode[14] == std::vector<size_t>{7, 8});
REQUIRE(tonode[15] == std::vector<size_t>{8});
}
SECTION("elemmap2nodemap")
{
GooseFEM::Mesh::Quad4::Regular mesh(3, 3);
xt::xtensor<size_t, 1> elmap0 = {
0, 1, 2,
3, 4, 5,
6, 7, 8
};
xt::xtensor<size_t, 1> elmap1 = {
2, 0, 1,
5, 3, 4,
8, 6, 7
};
xt::xtensor<size_t, 1> elmap2 = {
1, 2, 0,
4, 5, 3,
7, 8, 6
};
xt::xtensor<size_t, 1> nodemap0 = {
0, 1, 2, 3,
4, 5, 6, 7,
8, 9, 10, 11,
12, 13, 14, 15
};
xt::xtensor<size_t, 1> nodemap1 = {
2, 0, 1, 2,
6, 4, 5, 6,
10, 8, 9, 10,
14, 15, 13, 14
};
xt::xtensor<size_t, 1> nodemap2 = {
1, 2, 0, 1,
5, 6, 4, 5,
9, 10, 8, 9,
13, 14, 15, 13
};
REQUIRE(xt::all(xt::equal(GooseFEM::Mesh::elemmap2nodemap(elmap0, mesh.coor(), mesh.conn()), nodemap0)));
REQUIRE(xt::all(xt::equal(GooseFEM::Mesh::elemmap2nodemap(elmap1, mesh.coor(), mesh.conn()), nodemap1)));
REQUIRE(xt::all(xt::equal(GooseFEM::Mesh::elemmap2nodemap(elmap2, mesh.coor(), mesh.conn()), nodemap2)));
}
SECTION("elemmap2nodemap - example 1")
{
GooseFEM::Mesh::Quad4::FineLayer mesh(3, 3);
xt::xtensor<int, 1> elemval = {
1, 0, 0,
1, 0, 0,
1, 0, 0
};
xt::xtensor<int, 1> elemval_r1 = {
0, 1, 0,
0, 1, 0,
0, 1, 0
};
xt::xtensor<int, 1> elemval_r2 = {
0, 0, 1,
0, 0, 1,
0, 0, 1
};
xt::xtensor<int, 1> nodeval = {
1, 0, 0, 1,
1, 0, 0, 1,
1, 0, 0, 1,
1, 0, 0, 1
};
xt::xtensor<int, 1> nodeval_r1 = {
0, 1, 0, 0,
0, 1, 0, 0,
0, 1, 0, 0,
0, 1, 0, 0
};
xt::xtensor<int, 1> nodeval_r2 = {
0, 0, 1, 0,
0, 0, 1, 0,
0, 0, 1, 0,
0, 0, 1, 0
};
{
auto elemmap = mesh.roll(0);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(1);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r1, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r1, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(2);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r2, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r2, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(3);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(4);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r1, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r1, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(5);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r2, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r2, xt::view(nodeval, xt::keep(nodemap)))));
}
}
SECTION("elemmap2nodemap - example 2")
{
GooseFEM::Mesh::Quad4::FineLayer mesh(3, 3);
xt::xtensor<int, 1> elemval = {
1, 0, 0,
0, 1, 0,
0, 0, 1
};
xt::xtensor<int, 1> elemval_r1 = {
0, 1, 0,
0, 0, 1,
1, 0, 0
};
xt::xtensor<int, 1> elemval_r2 = {
0, 0, 1,
1, 0, 0,
0, 1, 0
};
xt::xtensor<int, 1> nodeval = {
1, 0, 0, 1,
0, 1, 0, 0,
0, 0, 1, 0,
1, 0, 0, 1
};
xt::xtensor<int, 1> nodeval_r1 = {
0, 1, 0, 0,
0, 0, 1, 0,
1, 0, 0, 1,
0, 1, 0, 0
};
xt::xtensor<int, 1> nodeval_r2 = {
0, 0, 1, 0,
1, 0, 0, 1,
0, 1, 0, 0,
0, 0, 1, 0
};
{
auto elemmap = mesh.roll(0);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(1);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r1, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r1, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(2);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r2, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r2, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(3);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(4);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r1, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r1, xt::view(nodeval, xt::keep(nodemap)))));
}
{
auto elemmap = mesh.roll(5);
auto nodemap = GooseFEM::Mesh::elemmap2nodemap(elemmap, mesh.coor(), mesh.conn());
REQUIRE(xt::all(xt::equal(elemval_r2, xt::view(elemval, xt::keep(elemmap)))));
REQUIRE(xt::all(xt::equal(nodeval_r2, xt::view(nodeval, xt::keep(nodemap)))));
}
}
}
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