INFO: Using directory: "1" INFO: Using existing c-file: ./Test_mask.c INFO: Using existing binary: ./Test_mask.out INFO: === Simulation 'Test_mask' (/home/nexmap/pkwi/TESTS/2024-12-06/ANTLR_mpi_x_16_1e7_Linux_1e7/Test_mask/Test_mask.instr): running on 16 nodes (master is 'elearn1.fysik.dtu.dk', MPI version 3.1). Instrument parameters for Test_mask (/home/nexmap/pkwi/TESTS/2024-12-06/ANTLR_mpi_x_16_1e7_Linux_1e7/Test_mask/Test_mask.instr) [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize [Test_mask] Initialize --------------------------------------------------------------------- global_process_list_master->num_elements: 1 name of process [0]: test_incoherent component index [0]: 2 --------------------------------------------------------------------- global_material_list_master->num_elements: 1 name of material [0]: test_material component index [0]: 3 my_absoprtion [0]: 4.000000 number of processes [0]: 1 --------------------------------------------------------------------- global_geometry_list_master->num_elements: 1 name of geometry [0]: volume_1 component index [0]: 7 Volume.name [0]: volume_1 Volume.p_physics.is_vacuum [0]: 0 Volume.p_physics.my_absorption [0]: 4.000000 Volume.p_physics.number of processes [0]: 1 Volume.geometry.shape [0]: box Volume.geometry.center.x [0]: 0.000000 Volume.geometry.center.y [0]: 0.000000 Volume.geometry.center.z [0]: 10.400000 Volume.geometry.rotation_matrix[0] [0]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [0]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [0]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [0]: [0.000000 0.000000 1.000000] name of geometry [1]: volume_2 component index [1]: 8 Volume.name [1]: volume_2 Volume.p_physics.is_vacuum [1]: 0 Volume.p_physics.my_absorption [1]: 4.000000 Volume.p_physics.number of processes [1]: 1 Volume.geometry.shape [1]: box Volume.geometry.center.x [1]: 0.000000 Volume.geometry.center.y [1]: 0.010000 Volume.geometry.center.z [1]: 10.410000 Volume.geometry.rotation_matrix[0] [1]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [1]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [1]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [1]: [0.000000 0.000000 1.000000] name of geometry [2]: mask_1_1 component index [2]: 9 Volume.name [2]: mask_1_1 Volume.geometry.shape [2]: box Volume.geometry.center.x [2]: 0.000000 Volume.geometry.center.y [2]: 0.000000 Volume.geometry.center.z [2]: 10.400000 Volume.geometry.rotation_matrix[0] [2]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [2]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [2]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [2]: [0.000000 0.000000 1.000000] name of geometry [3]: mask_1_2 component index [3]: 10 Volume.name [3]: mask_1_2 Volume.geometry.shape [3]: box Volume.geometry.center.x [3]: 0.000000 Volume.geometry.center.y [3]: 0.000000 Volume.geometry.center.z [3]: 10.400000 Volume.geometry.rotation_matrix[0] [3]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [3]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [3]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [3]: [0.000000 0.000000 1.000000] name of geometry [4]: mask_2_1 component index [4]: 11 Volume.name [4]: mask_2_1 Volume.geometry.shape [4]: box Volume.geometry.center.x [4]: 0.000000 Volume.geometry.center.y [4]: 0.000000 Volume.geometry.center.z [4]: 10.400000 Volume.geometry.rotation_matrix[0] [4]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [4]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [4]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [4]: [0.000000 0.000000 1.000000] name of geometry [5]: mask_2_2 component index [5]: 12 Volume.name [5]: mask_2_2 Volume.geometry.shape [5]: box Volume.geometry.center.x [5]: 0.000000 Volume.geometry.center.y [5]: 0.000000 Volume.geometry.center.z [5]: 10.400000 Volume.geometry.rotation_matrix[0] [5]: [1.000000 0.000000 0.000000] Volume.geometry.rotation_matrix[1] [5]: [0.000000 1.000000 0.000000] Volume.geometry.rotation_matrix[2] [5]: [0.000000 0.000000 1.000000] Volume.geometry.focus_data_array.elements[0].Aim [5]: [0.000000 0.000000 1.000000] --------------------------------------------------------------------- number_of_volumes = 7 number_of_masks = 4 number_of_masked_volumes = 2 ---- Overview of the lists generated for each volume ---- List overview for surrounding vacuum LIST: Children for Volume 0 = [1,2,3,4,5,6] LIST: Direct_children for Volume 0 = [1,2] LIST: Intersect_check_list for Volume 0 = [3,4,5,6] LIST: Mask_intersect_list for Volume 0 = [2] LIST: Destinations_list for Volume 0 = [] LIST: Reduced_destinations_list for Volume 0 = [] LIST: Next_volume_list for Volume 0 = [2] LIST: mask_list for Volume 0 = [] LIST: masked_by_list for Volume 0 = [] LIST: masked_by_mask_index_list for Volume 0 = [] mask_mode for Volume 0 = 0 List overview for volume_1 with box shape made of test_material LIST: Children for Volume 1 = [3,4,5,6] LIST: Direct_children for Volume 1 = [5,6] LIST: Intersect_check_list for Volume 1 = [3,4] LIST: Mask_intersect_list for Volume 1 = [] LIST: Destinations_list for Volume 1 = [2] LIST: Reduced_destinations_list for Volume 1 = [2] LIST: Next_volume_list for Volume 1 = [2] Is_vacuum for Volume 1 = 0 is_mask_volume for Volume 1 = 0 is_masked_volume for Volume 1 = 1 is_exit_volume for Volume 1 = 0 LIST: mask_list for Volume 1 = [] LIST: masked_by_list for Volume 1 = [3,4] LIST: masked_by_mask_index_list for Volume 1 = [0,1] mask_mode for Volume 1 = 1 List overview for volume_2 with box shape made of test_material LIST: Children for Volume 2 = [3,4,5,6] LIST: Direct_children for Volume 2 = [5,6] LIST: Intersect_check_list for Volume 2 = [3,4,5,6] LIST: Mask_intersect_list for Volume 2 = [] LIST: Destinations_list for Volume 2 = [0] LIST: Reduced_destinations_list for Volume 2 = [] LIST: Next_volume_list for Volume 2 = [0] Is_vacuum for Volume 2 = 0 is_mask_volume for Volume 2 = 0 is_masked_volume for Volume 2 = 1 is_exit_volume for Volume 2 = 0 LIST: mask_list for Volume 2 = [] LIST: masked_by_list for Volume 2 = [5,6] LIST: masked_by_mask_index_list for Volume 2 = [2,3] mask_mode for Volume 2 = 1 List overview for mask_1_1 with box shape made of Mask LIST: Children for Volume 3 = [] LIST: Direct_children for Volume 3 = [] LIST: Intersect_check_list for Volume 3 = [] LIST: Mask_intersect_list for Volume 3 = [] LIST: Destinations_list for Volume 3 = [0,2] LIST: Reduced_destinations_list for Volume 3 = [2] LIST: Next_volume_list for Volume 3 = [0,2] Is_vacuum for Volume 3 = 0 is_mask_volume for Volume 3 = 1 is_masked_volume for Volume 3 = 0 is_exit_volume for Volume 3 = 0 LIST: mask_list for Volume 3 = [1] LIST: masked_by_list for Volume 3 = [] LIST: masked_by_mask_index_list for Volume 3 = [] mask_mode for Volume 3 = 1 List overview for mask_1_2 with box shape made of Mask LIST: Children for Volume 4 = [] LIST: Direct_children for Volume 4 = [] LIST: Intersect_check_list for Volume 4 = [] LIST: Mask_intersect_list for Volume 4 = [] LIST: Destinations_list for Volume 4 = [0,2] LIST: Reduced_destinations_list for Volume 4 = [2] LIST: Next_volume_list for Volume 4 = [0,2] Is_vacuum for Volume 4 = 0 is_mask_volume for Volume 4 = 1 is_masked_volume for Volume 4 = 0 is_exit_volume for Volume 4 = 0 LIST: mask_list for Volume 4 = [1] LIST: masked_by_list for Volume 4 = [] LIST: masked_by_mask_index_list for Volume 4 = [] mask_mode for Volume 4 = 1 List overview for mask_2_1 with box shape made of Mask LIST: Children for Volume 5 = [3] LIST: Direct_children for Volume 5 = [3] LIST: Intersect_check_list for Volume 5 = [] LIST: Mask_intersect_list for Volume 5 = [] LIST: Destinations_list for Volume 5 = [0] LIST: Reduced_destinations_list for Volume 5 = [] LIST: Next_volume_list for Volume 5 = [0] Is_vacuum for Volume 5 = 0 is_mask_volume for Volume 5 = 1 is_masked_volume for Volume 5 = 0 is_exit_volume for Volume 5 = 0 LIST: mask_list for Volume 5 = [2] LIST: masked_by_list for Volume 5 = [] LIST: masked_by_mask_index_list for Volume 5 = [] mask_mode for Volume 5 = 1 List overview for mask_2_2 with box shape made of Mask LIST: Children for Volume 6 = [4] LIST: Direct_children for Volume 6 = [4] LIST: Intersect_check_list for Volume 6 = [] LIST: Mask_intersect_list for Volume 6 = [] LIST: Destinations_list for Volume 6 = [0] LIST: Reduced_destinations_list for Volume 6 = [] LIST: Next_volume_list for Volume 6 = [0] Is_vacuum for Volume 6 = 0 is_mask_volume for Volume 6 = 1 is_masked_volume for Volume 6 = 0 is_exit_volume for Volume 6 = 0 LIST: mask_list for Volume 6 = [2] LIST: masked_by_list for Volume 6 = [] LIST: masked_by_mask_index_list for Volume 6 = [] mask_mode for Volume 6 = 1 Union_master component test_sample initialized sucessfully *** TRACE end *** Save [Test_mask] Detector: m4pi_I=2.27584e-07 m4pi_ERR=7.20033e-11 m4pi_N=1e+07 "Events.dat" Detector: m4pi_1_I=0 m4pi_1_ERR=0 m4pi_1_N=0 "Events_1.dat" Detector: m4pi_2_I=3.10266e-09 m4pi_2_ERR=7.48154e-12 m4pi_2_N=174163 "Events_2.dat" Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Detector: m4pi_both_I=0 m4pi_both_ERR=0 m4pi_both_N=0 "Events_12.dat" Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] Finally [Test_mask: 1]. Time: 1 [s] INFO: Placing instr file copy Test_mask.instr in dataset 1 INFO: Placing generated c-code copy Test_mask.c in dataset 1