// Copyright 2021 DeepMind Technologies Limited // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Tests for user/user_model.cc. #include #include #include #include #include #include #include "test/fixture.h" namespace mujoco { namespace { using ::testing::DoubleNear; using ::testing::IsNull; using ::testing::NotNull; using ::testing::HasSubstr; using ::testing::Pointwise; using UserFlexTest = MujocoTest; TEST_F(UserFlexTest, ParentMustHaveName) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()); EXPECT_THAT(error.data(), HasSubstr("required attribute missing: 'name'")); } TEST_F(UserFlexTest, InvalidDim) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()); EXPECT_THAT(error.data(), HasSubstr("Invalid dim, must be between 1 and 3")); } TEST_F(UserFlexTest, CountTooSmall) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()); EXPECT_THAT(error.data(), HasSubstr("Count too small")); } TEST_F(UserFlexTest, SpacingGreaterThanGeometry) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Spacing must be larger than geometry size")); } TEST_F(UserFlexTest, ScaleMinValue) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Scale must be larger than mjMINVAL")); } TEST_F(UserFlexTest, MassMinValue) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Mass and inertiabox must be larger than mjMINVAL")); } TEST_F(UserFlexTest, PointSizeNotMultipleOf3) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Point size must be a multiple of 3")); } TEST_F(UserFlexTest, ElementSize) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Element size must be a multiple of dim+1")); } TEST_F(UserFlexTest, PointAndElementNotInDirect) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Point and element required")); } TEST_F(UserFlexTest, UnknownFlexCompType) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("invalid keyword: 'unknown'")); } TEST_F(UserFlexTest, InvalidPinid) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("element 1 has point id 1, number of points is 1")); } TEST_F(UserFlexTest, MeshFileMissing) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("File is required")); } TEST_F(UserFlexTest, VertexOrFaceDataMissing) { const std::string xml_path = GetTestDataFilePath("user/testdata/malformed_flex_nofaces.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(m, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("Vertex and face data required")); } TEST_F(UserFlexTest, CreateBVHSuccess) { const std::string xml_path = GetTestDataFilePath("user/testdata/robot_arm.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, RigidFlex) { const std::string xml_path = GetTestDataFilePath("user/testdata/rigid_flex.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, FlexNotCollide) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, BoundingBoxCoordinates) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_kinematics(m, d); mj_flex(m, d); EXPECT_EQ(m->nflexvert, 5*5*5); EXPECT_EQ(m->nflexelem, 4*4*4*6); EXPECT_EQ(m->flex_dim[0], 3); // Cartesian coordinates EXPECT_EQ(d->flexvert_xpos[0], -1); EXPECT_EQ(d->flexvert_xpos[1], -2); EXPECT_EQ(d->flexvert_xpos[2], -3); EXPECT_EQ(d->flexvert_xpos[3*m->nflexvert-3], 3); EXPECT_EQ(d->flexvert_xpos[3*m->nflexvert-2], 2); EXPECT_EQ(d->flexvert_xpos[3*m->nflexvert-1], 1); // bounding box coordinates EXPECT_EQ(m->flex_vert0[0], 0); EXPECT_EQ(m->flex_vert0[1], 0); EXPECT_EQ(m->flex_vert0[2], 0); EXPECT_EQ(m->flex_vert0[3*m->nflexvert-3], 1); EXPECT_EQ(m->flex_vert0[3*m->nflexvert-2], 1); EXPECT_EQ(m->flex_vert0[3*m->nflexvert-1], 1); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, TrilinearCannotDoSelfCollision) { std::array error; static constexpr char xml_selfcoll[] = R"( )"; mjModel* m1 = LoadModelFromString(xml_selfcoll, error.data(), error.size()); EXPECT_THAT(m1, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("trilinear interpolation cannot do self-collision")); static constexpr char xml_internal[] = R"( )"; mjModel* m2 = LoadModelFromString(xml_internal, error.data(), error.size()); EXPECT_THAT(m2, IsNull()) << error.data(); EXPECT_THAT(error.data(), HasSubstr("trilinear interpolation cannot do internal")); } TEST_F(UserFlexTest, TrilinearInterpolation) { static constexpr char xml_trilinear[] = R"( )"; std::array error; mjModel* m1 = LoadModelFromString(xml_trilinear, error.data(), error.size()); ASSERT_THAT(m1, NotNull()) << error.data(); mjData* d1 = mj_makeData(m1); mj_step(m1, d1); static constexpr char xml_linear[] = R"( )"; mjModel* m2 = LoadModelFromString(xml_linear, error.data(), error.size()); ASSERT_THAT(m2, NotNull()) << error.data(); mjData* d2 = mj_makeData(m2); mj_step(m2, d2); EXPECT_EQ(m1->nflexvert, m2->nflexvert); for (int i = 0; i < 3*m1->nflexvert; ++i) { EXPECT_EQ(m1->flex_vert[i], d2->flexvert_xpos[i]); EXPECT_EQ(m1->flex_vert0[i], m2->flex_vert0[i]); EXPECT_EQ(d1->flexvert_xpos[i], d2->flexvert_xpos[i]); } EXPECT_EQ(m1->nM, m2->nM); for (int i = 0; i < m1->nM; ++i) { EXPECT_EQ(d1->qM[i], d2->qM[i]); } EXPECT_EQ(m1->nbody, m2->nbody); for (int i = 0; i < m2->nbody; ++i) { if (i == 0) { continue; } EXPECT_EQ(m1->body_mass[i], m2->body_mass[i]); for (int j = 0; j < 2; ++j) { EXPECT_EQ(m1->body_invweight0[i*2+j], m2->body_invweight0[i*2+j]); } for (int j = 0; j < 10; ++j) { EXPECT_NEAR(d1->cinert[10*i+j], d2->cinert[i*10+j], 1e-5) << i; EXPECT_NEAR(d1->crb[10*i+j], d2->crb[i*10+j], 1e-5) << i; } } EXPECT_EQ(d1->ncon, 4); EXPECT_EQ(d2->ncon, 4); for (int i = 0; i < d1->ncon; ++i) { EXPECT_EQ(d1->contact[i].dist, d2->contact[i].dist); EXPECT_EQ(d1->contact[i].mu, d2->contact[i].mu); for (int j = 0; j < 5; ++j) { EXPECT_EQ(d1->contact[i].friction[j], d2->contact[i].friction[j]); } for (int j = 0; j < 3; ++j) { EXPECT_EQ(d1->contact[i].pos[j], d2->contact[i].pos[j]); } for (int j = 0; j < 9; ++j) { EXPECT_EQ(d1->contact[i].frame[j], d2->contact[i].frame[j]); } for (int j = 0; j < 36; ++j) { EXPECT_EQ(d1->contact[i].H[j], d2->contact[i].H[j]); } } EXPECT_EQ(d1->nefc, 4*(d1->contact[0].dim-1)*2); EXPECT_EQ(d2->nefc, 4*(d2->contact[0].dim-1)*2); EXPECT_EQ(d1->nJ, d2->nJ); for (int i = 0; i < d1->nefc; ++i) { EXPECT_EQ(d1->efc_diagApprox[i], d2->efc_diagApprox[i]); EXPECT_EQ(d1->efc_D[i], d2->efc_D[i]); } mj_deleteModel(m1); mj_deleteModel(m2); mj_deleteData(d1); mj_deleteData(d2); } TEST_F(UserFlexTest, StiffnessMatrix) { static constexpr char xml[] = R"( )"; std::array error; mjModel* m = LoadModelFromString(xml, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); EXPECT_NE(m->flex_stiffness[0], 0); EXPECT_EQ(m->nflexnode, 8); // constants are in the kernel mjtNum ones[24], zeros[24], res[24]; for (int i = 0; i < 3*m->nflexnode; ++i) { zeros[i] = 0; ones[i] = 1; } mju_mulMatVec(res, m->flex_stiffness, ones, 3*m->nflexnode, 3*m->nflexnode); EXPECT_THAT(res, Pointwise(DoubleNear(1e-8), zeros)); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadTexture) { const std::string xml_path = GetTestDataFilePath("user/testdata/textured_torus_flex.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); EXPECT_THAT(m->nflextexcoord, 637); EXPECT_THAT(m->flex_elemtexcoord[0], 0); EXPECT_THAT(m->flex_elemtexcoord[1], 1); EXPECT_THAT(m->flex_elemtexcoord[2], 2); EXPECT_THAT(m->flex_elemtexcoord[3], 0); EXPECT_THAT(m->flex_elemtexcoord[4], 2); EXPECT_THAT(m->flex_elemtexcoord[5], 3); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHBinary_41_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_41_binary_vol_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHBinary_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_22_binary_vol_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHSurfaceBinary_41_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_41_binary_surf_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_kinematics(m, d); mj_flex(m, d); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 2); // first node x y z EXPECT_EQ(d->flexvert_xpos[0], -0.5 ); EXPECT_EQ(d->flexvert_xpos[1], -0.5 ); EXPECT_EQ(d->flexvert_xpos[2], 0 ); // first element EXPECT_EQ(m->flex_elem[0], 9-1 ); EXPECT_EQ(m->flex_elem[1], 4-1 ); EXPECT_EQ(m->flex_elem[2], 3-1 ); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHSurfaceBinary_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_22_binary_surf_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_kinematics(m, d); mj_flex(m, d); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 2); // first node x y z EXPECT_EQ(d->flexvert_xpos[0], -0.5 ); EXPECT_EQ(d->flexvert_xpos[1], -0.5 ); EXPECT_EQ(d->flexvert_xpos[2], 0 ); // first element EXPECT_EQ(m->flex_elem[0], 9-1 ); EXPECT_EQ(m->flex_elem[1], 4-1 ); EXPECT_EQ(m->flex_elem[2], 3-1 ); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHBinaryFTETWILD_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/shark_22_binary_vol_fTetWild.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 429); EXPECT_EQ(m->nflexelem, 1073); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHASCII_41_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_41_ascii_vol_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHASCII_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_22_ascii_vol_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHSurfaceASCII_41_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_41_ascii_surf_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_kinematics(m, d); mj_flex(m, d); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 2); // first node x y z EXPECT_EQ(d->flexvert_xpos[0], -0.5 ); EXPECT_EQ(d->flexvert_xpos[1], -0.5 ); EXPECT_EQ(d->flexvert_xpos[2], 0 ); // first element EXPECT_EQ(m->flex_elem[0], 9-1 ); EXPECT_EQ(m->flex_elem[1], 4-1 ); EXPECT_EQ(m->flex_elem[2], 3-1 ); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHSurfaceASCII_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/cube_22_ascii_surf_gmshApp.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); mj_kinematics(m, d); mj_flex(m, d); EXPECT_EQ(m->nflexvert, 14); EXPECT_EQ(m->nflexelem, 24); EXPECT_EQ(m->flex_dim[0], 2); // first node x y z EXPECT_EQ(d->flexvert_xpos[0], -0.5 ); EXPECT_EQ(d->flexvert_xpos[1], -0.5 ); EXPECT_EQ(d->flexvert_xpos[2], 0 ); // first element EXPECT_EQ(m->flex_elem[0], 9-1 ); EXPECT_EQ(m->flex_elem[1], 4-1 ); EXPECT_EQ(m->flex_elem[2], 3-1 ); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHASCIIFTETWILD_22_Success) { const std::string xml_path = GetTestDataFilePath("user/testdata/shark_22_ascii_vol_fTetWild.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); ASSERT_THAT(m, NotNull()) << error.data(); mjData* d = mj_makeData(m); EXPECT_EQ(m->nflexvert, 425); EXPECT_EQ(m->nflexelem, 1070); EXPECT_EQ(m->flex_dim[0], 3); mj_step(m, d); mj_deleteModel(m); mj_deleteData(d); } TEST_F(UserFlexTest, LoadMSHASCII_41_MissingNodeHeader_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_41_ascii_missing_node_header.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: All nodes must be in single block")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_41_MissingNodeIndex_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_41_ascii_missing_node_index.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: Node tags must be sequential")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_41_MissingElementHeader_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_41_ascii_missing_element_header.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: All elements must be in single block")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_41_MissingElement_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_41_ascii_missing_element.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: Error reading Elements")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_41_MismatchBetweenMaxNodesAndNodesInBlock_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_41_ascii_mismatch_between_max_nodes_and_nodes_in_block.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: Maximum number of nodes must be equal to number of nodes in a block\nElement 'flexcomp', line 22\n")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_22_MissingNumNodes_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_22_ascii_missing_num_nodes.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); // TODO(mohammadhamid): Replace with an assertion about the error message. For // some reason, on Windows the error message is different on GH Actions EXPECT_THAT(m, IsNull()); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_22_MissingNode_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_22_ascii_missing_node.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: Error reading node tags")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_22_MissingNumElements_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_shark_22_ascii_missing_num_elements.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); // TODO(mohammadhamid): Replace with an assertion about the error message. For // some reason, on Windows the error message is different on GH Actions EXPECT_THAT(m, IsNull()); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_22_MissingElement_Fail) { const std::string xml_path = GetTestDataFilePath( "user/testdata/malformed_cube_22_ascii_missing_element.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_THAT(error.data(), HasSubstr( "XML Error: Error: Error reading Elements")); mj_deleteModel(m); } TEST_F(UserFlexTest, LoadMSHASCII_dim_missing_in_xml) { const std::string xml_path = GetTestDataFilePath( "user/testdata/cube_22_ascii_vol_gmshApp_missing_dim.xml"); std::array error; mjModel* m = mj_loadXML(xml_path.c_str(), 0, error.data(), error.size()); EXPECT_EQ(m->flex_dim[0], 3); mj_deleteModel(m); } } // namespace } // namespace mujoco