#include "rbdl/rbdl.h" #include "rbdl/rbdl_utils.h" #include "luamodel.h" #include #include #include using namespace std; using namespace RigidBodyDynamics::Math; void usage (const char* argv_0) { cerr << "Usage: " << argv_0 << "[-v] [-m] [-d] " << endl; cerr << " -v | --verbose enable additional output" << endl; cerr << " -d | --dof-overview print an overview of the degress of freedom" << endl; cerr << " -m | --model-hierarchy print the hierarchy of the model" << endl; cerr << " -o | --body-origins print the origins of all bodies that have names" << endl; cerr << " -c | --center_of_mass print center of mass for bodies and full model" << endl; cerr << " -h | --help print this help" << endl; exit (1); } int main (int argc, char *argv[]) { if (argc < 2 || argc > 4) { usage(argv[0]); } bool verbose = false; bool dof_overview = false; bool model_hierarchy = false; bool body_origins = false; bool center_of_mass = false; string filename = argv[1]; for (int i = 1; i < argc; i++) { if (string(argv[i]) == "-v" || string (argv[i]) == "--verbose") verbose = true; else if (string(argv[i]) == "-d" || string (argv[i]) == "--dof-overview") dof_overview = true; else if (string(argv[i]) == "-m" || string (argv[i]) == "--model-hierarchy") model_hierarchy = true; else if (string(argv[i]) == "-o" || string (argv[i]) == "--body-origins") body_origins = true; else if (string(argv[i]) == "-c" || string (argv[i]) == "--center-of-mass") center_of_mass = true; else if (string(argv[i]) == "-h" || string (argv[i]) == "--help") usage(argv[0]); else filename = argv[i]; } RigidBodyDynamics::Model model; if (!RigidBodyDynamics::Addons::LuaModelReadFromFile(filename.c_str(), &model, verbose)) { cerr << "Loading of lua model failed!" << endl; return -1; } cout << "Model loading successful!" << endl; if (dof_overview) { cout << "Degree of freedom overview:" << endl; cout << RigidBodyDynamics::Utils::GetModelDOFOverview(model); } if (model_hierarchy) { cout << "Model Hierarchy:" << endl; cout << RigidBodyDynamics::Utils::GetModelHierarchy (model); } if (body_origins) { cout << "Body Origins:" << endl; cout << RigidBodyDynamics::Utils::GetNamedBodyOriginsOverview(model); } if (center_of_mass) { VectorNd q_zero (VectorNd::Zero (model.q_size)); VectorNd qdot_zero (VectorNd::Zero (model.qdot_size)); RigidBodyDynamics::UpdateKinematics (model, q_zero, qdot_zero, qdot_zero); for (unsigned int i = 1; i < model.mBodies.size(); i++) { if (model.mBodies[i].mIsVirtual) continue; SpatialRigidBodyInertia rbi_base = model.X_base[i].apply(model.I[i]); Vector3d body_com = rbi_base.h / rbi_base.m; cout << setw(12) << model.GetBodyName (i) << ": " << setw(10) << body_com.transpose() << endl; } Vector3d model_com; double mass; RigidBodyDynamics::Utils::CalcCenterOfMass (model, q_zero, qdot_zero, mass, model_com); cout << setw(14) << "Model COM: " << setw(10) << model_com.transpose() << endl; cout << setw(14) << "Model mass: " << mass << endl; } return 0; }