Bridge++  Ver. 1.3.x
test_HMC_Wilson_Nf2.cpp
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1 
14 #include "test.h"
15 
16 #include "fopr.h"
17 #include "force_F_Wilson_Nf2.h"
18 
19 #include "action_F_Standard_lex.h"
20 #include "fprop_Standard_lex.h"
21 
22 #include "action.h"
23 #include "gaugeConfig.h"
24 #include "randomNumbers_Mseries.h"
25 #include "solver.h"
26 
27 #include "director_Smear.h"
28 #include "fopr_Smeared.h"
29 #include "force_F_Smeared.h"
30 #include "forceSmear.h"
31 #include "projection.h"
32 #include "smear.h"
33 
34 #include "hmc_General.h"
35 #include "builder_Integrator.h"
36 #include "file_utils.h"
37 
38 //====================================================================
40 
54 namespace Test_HMC_Wilson {
55  const std::string test_name = "HMC.Wilson.Nf2";
56 
57  //- test-private parameters
58  namespace {
59  const std::string filename_input = "test_HMC_Wilson_Nf2.yaml";
60  const std::string filename_output = "stdout";
61 
62  class Parameters_Test_HMC_Wilson : public Parameters {
63  public:
64  Parameters_Test_HMC_Wilson()
65  {
66  Register_string("gauge_config_status", "NULL");
67 
68  Register_string("gauge_config_type_input", "NULL");
69  Register_string("config_filename_input", "NULL");
70 
71  Register_string("gauge_config_type_output", "NULL");
72  Register_string("config_filename_output", "NULL");
73 
74  Register_int("trajectory_number", 0);
75  Register_int("trajectory_number_step", 0);
76  Register_int("save_config_interval", 0);
77 
78  Register_string("verbose_level", "NULL");
79 
80  Register_double("expected_result", 0.0);
81  }
82  };
83  }
84 
85  //- prototype declaration
86  int update_Nf2(void);
87 
88 #ifdef USE_TESTMANAGER_AUTOREGISTER
89  namespace {
90 #if defined(USE_GROUP_SU2)
91  // Nc=2 is not available.
92 #else
93  static const bool is_registered = TestManager::RegisterTest(
94  test_name,
95  update_Nf2
96  );
97 #endif
98  }
99 #endif
100 
101  //====================================================================
102  int update_Nf2(void)
103  {
104  // ##### parameter setup #####
105  int Nc = CommonParameters::Nc();
106  int Nvol = CommonParameters::Nvol();
107  int Ndim = CommonParameters::Ndim();
108 
109  unique_ptr<Parameters> params_test(new Parameters_Test_HMC_Wilson);
110  unique_ptr<Parameters> params_action_G(ParametersFactory::New("Action"));
111  unique_ptr<Parameters> params_fopr(ParametersFactory::New("Fopr"));
112  unique_ptr<Parameters> params_proj(ParametersFactory::New("Projection"));
113  unique_ptr<Parameters> params_smear(ParametersFactory::New("Smear"));
114  unique_ptr<Parameters> params_dr_smear(ParametersFactory::New("Director_Smear"));
115  unique_ptr<Parameters> params_solver_MD(ParametersFactory::New("Solver"));
116  unique_ptr<Parameters> params_solver_H(ParametersFactory::New("Solver"));
117  unique_ptr<Parameters> params_integrator(ParametersFactory::New("Builder_Integrator"));
118  unique_ptr<Parameters> params_hmc(ParametersFactory::New("HMC.General"));
119  unique_ptr<Parameters> params_all(new Parameters);
120 
121  params_all->Register_Parameters("Test_HMC_Wilson", params_test);
122  params_all->Register_Parameters("Action_G", params_action_G);
123  params_all->Register_Parameters("Fopr", params_fopr);
124  params_all->Register_Parameters("Projection", params_proj);
125  params_all->Register_Parameters("Smear", params_smear);
126  params_all->Register_Parameters("Director_Smear", params_dr_smear);
127  params_all->Register_Parameters("Solver_MD", params_solver_MD);
128  params_all->Register_Parameters("Solver_H", params_solver_H);
129  params_all->Register_Parameters("Builder_Integrator", params_integrator);
130  params_all->Register_Parameters("HMC_General", params_hmc);
131 
132  ParameterManager::read(filename_input, params_all);
133 
134  const string str_gconf_status = params_test->get_string("gauge_config_status");
135  const string str_gconf_read = params_test->get_string("gauge_config_type_input");
136  const string readfile = params_test->get_string("config_filename_input");
137  const string str_gconf_write = params_test->get_string("gauge_config_type_output");
138  const string writefile = params_test->get_string("config_filename_output");
139  int i_conf = params_test->get_int("trajectory_number");
140  const int Ntraj = params_test->get_int("trajectory_number_step");
141  const int i_save_conf = params_test->get_int("save_config_interval");
142  const string str_vlevel = params_test->get_string("verbose_level");
143 
144  const bool do_check = params_test->is_set("expected_result");
145  const double expected_result = do_check ? params_test->get_double("expected_result") : 0.0;
146 
147  const string str_action_G_type = params_action_G->get_string("action_type");
148  const string str_fopr_type = params_fopr->get_string("fermion_type");
149  const string str_gmset_type = params_fopr->get_string("gamma_matrix_type");
150  const string str_proj_type = params_proj->get_string("projection_type");
151  const string str_smear_type = params_smear->get_string("smear_type");
152  const string str_solver_MD_type = params_solver_MD->get_string("solver_type");
153  const string str_solver_H_type = params_solver_H->get_string("solver_type");
154  const int Nlevels = params_integrator->get_int("number_of_levels");
155  const std::vector<int> level_action = params_integrator->get_int_vector("level_of_actions");
156 
157  Bridge::VerboseLevel vl = vout.set_verbose_level(str_vlevel);
158 
159  //- print input parameters
160  vout.general(vl, " gconf_status = %s\n", str_gconf_status.c_str());
161  vout.general(vl, " gconf_read = %s\n", str_gconf_read.c_str());
162  vout.general(vl, " readfile = %s\n", readfile.c_str());
163  vout.general(vl, " gconf_write = %s\n", str_gconf_write.c_str());
164  vout.general(vl, " writefile = %s\n", writefile.c_str());
165  vout.general(vl, " i_conf = %d\n", i_conf);
166  vout.general(vl, " Ntraj = %d\n", Ntraj);
167  vout.general(vl, " i_save_conf = %d\n", i_save_conf);
168  vout.general(vl, " vlevel = %s\n", str_vlevel.c_str());
169  vout.general(vl, " gmset_type = %s\n", str_gmset_type.c_str());
170  vout.general(vl, " proj_type = %s\n", str_proj_type.c_str());
171  vout.general(vl, " smear_type = %s\n", str_smear_type.c_str());
172  vout.general(vl, " solver_MD_type = %s\n", str_solver_MD_type.c_str());
173  vout.general(vl, " solver_H_type = %s\n", str_solver_H_type.c_str());
174  vout.general(vl, "\n");
175 
176  //- input parameter check
177  int err = 0;
178  err += ParameterCheck::non_NULL(str_gconf_status);
179  err += ParameterCheck::non_negative(i_conf);
180  err += ParameterCheck::non_negative(Ntraj);
181  err += ParameterCheck::non_negative(i_save_conf);
182 
183  if (err) {
184  vout.crucial(vl, "%s: Input parameters have not been set.\n", test_name.c_str());
185  exit(EXIT_FAILURE);
186  }
187 
188 
189  // ##### object setup #####
190  unique_ptr<Field_G> U(new Field_G(Nvol, Ndim));
191  unique_ptr<GaugeConfig> gconf_read(new GaugeConfig(str_gconf_read));
192  unique_ptr<GaugeConfig> gconf_write(new GaugeConfig(str_gconf_write));
193 
194  if (str_gconf_status == "Continue") {
195  gconf_read->read_file(U, readfile);
196  } else if (str_gconf_status == "Cold_start") {
197  U->set_unit();
198  } else if (str_gconf_status == "Hot_start") {
199  int i_seed_noise = 1234567;
200  unique_ptr<RandomNumbers> rand(new RandomNumbers_Mseries(i_seed_noise));
201  U->set_random(rand);
202  } else {
203  vout.crucial(vl, "%s: unsupported gconf status \"%s\".\n", test_name.c_str(), str_gconf_status.c_str());
204  exit(EXIT_FAILURE);
205  }
206 
207  unique_ptr<Action> action_G(Action::New(str_action_G_type));
208  action_G->set_parameters(*params_action_G);
209 
210  //-- N_f=2 part
211  unique_ptr<Fopr> fopr(Fopr::New(str_fopr_type, str_gmset_type));
212  fopr->set_parameters(*params_fopr);
213 
214  unique_ptr<Force> force_fopr(new Force_F_Wilson_Nf2(str_gmset_type));
215  // define fermion force (SA)
216  force_fopr->set_parameters(*params_fopr);
217 
218  // define smearing method (SA)
219  unique_ptr<Projection> proj(Projection::New(str_proj_type));
220  unique_ptr<Smear> smear(Smear::New(str_smear_type, proj));
221  smear->set_parameters(*params_smear);
222 
223  // define force smearing method (SA)
224  unique_ptr<ForceSmear> force_smear(ForceSmear::New(str_smear_type, proj));
225  force_smear->set_parameters(*params_smear);
226 
227  unique_ptr<Director> dr_smear(new Director_Smear(smear));
228  dr_smear->set_parameters(*params_dr_smear);
229 
230  unique_ptr<Fopr> fopr_smear(Fopr::New("Smeared", fopr, dr_smear));
231  // define smeared fermion operator (SA)
232  unique_ptr<Force> force_fopr_smear(
233  new Force_F_Smeared(force_fopr, force_smear, dr_smear));
234  // define smeared fermion force (SA)
235 
236  unique_ptr<Solver> solver_MD(Solver::New(str_solver_MD_type, fopr_smear));
237  solver_MD->set_parameters(*params_solver_MD);
238  unique_ptr<Fprop> fprop_MD(new Fprop_Standard_lex(solver_MD));
239 
240  unique_ptr<Solver> solver_H(Solver::New(str_solver_H_type, fopr_smear));
241  solver_H->set_parameters(*params_solver_H);
242  unique_ptr<Fprop> fprop_H(new Fprop_Standard_lex(solver_H));
243 
244  unique_ptr<Action> action_F(
245  new Action_F_Standard_lex(fopr_smear, force_fopr_smear,
246  fprop_MD, fprop_H));
247  // define fermion action (SA)
248 
249 
250  ActionList actions(Nlevels);
251  actions.append(level_action[0], action_F);
252  actions.append(level_action[1], action_G);
253 
254  std::vector<Director *> directors(1);
255  directors[0] = (Director *)dr_smear.get(); // register director[0] (SA)
256 
257  unique_ptr<Builder_Integrator> builder(new Builder_Integrator(actions, directors));
258  builder->set_parameters(*params_integrator);
259  Integrator *integrator = builder->build();
260 
261  //- Random number is initialized with a parameter specified by i_conf
262  unique_ptr<RandomNumbers> rand(new RandomNumbers_Mseries(i_conf));
263 
264  HMC_General hmc(actions, directors, integrator, rand); // define hmc_leapfrog (SA)
265  hmc.set_parameters(*params_hmc);
266 
267  unique_ptr<Timer> timer(new Timer(test_name));
268 
269 
270  // #### Execution main part ####
271  timer->start();
272 
273  vout.general(vl, "HMC: Ntraj = %d\n", Ntraj); // a number of trajectory (SA)
274 
275  double result = 0.0;
276  for (int traj = 0; traj < Ntraj; ++traj) {
277  vout.general(vl, "\n");
278  vout.general(vl, "traj = %d\n", traj);
279 
280  result = hmc.update(*U); // hmc update (SA)
281 
282  if ((i_conf + traj + 1) % i_save_conf == 0) {
283  std::string filename = FileUtils::generate_filename("%s-%06d", writefile.c_str(), (i_conf + traj + 1));
284  gconf_write->write_file(U, filename);
285  }
286  }
287 
288  gconf_write->write_file(U, writefile);
289 
290  timer->report();
291 
292 
293  if (do_check) {
294  return Test::verify(result, expected_result);
295  } else {
296  vout.detailed(vl, "check skipped: expected_result not set.\n\n");
297  return EXIT_SKIP;
298  }
299  }
300 } // namespace Test_HMC_Wilson
EXIT_SKIP
#define EXIT_SKIP
Definition: test.h:17
RandomNumbers_Mseries
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Definition: randomNumbers_Mseries.h:46
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Definition: parameters.h:38
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static Parameters * New(const std::string &realm)
Definition: parameters_factory.h:69
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Definition: test_HMC_Wilson_Nf2.cpp:102
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Definition: action_list.cpp:27
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Definition: integrator.h:31
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Definition: field_G.h:38
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Definition: test_HMC_Wilson_Leapfrog_Nf2.cpp:53
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Definition: director.h:37
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Definition: timer.cpp:44
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Definition: fprop_Standard_lex.h:32
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Definition: test_HMC_Wilson_Leapfrog_Nf2.cpp:54
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Definition: force_F_Wilson_Nf2.h:45
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Definition: action_list.h:40
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Definition: director_Smear.h:51
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Definition: test.cpp:27
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Definition: force_F_Smeared.h:39
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Definition: gaugeConfig.h:61
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Definition: action_F_Standard_lex.h:35
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