INFO: No output directory specified (--dir) INFO: Using directory: "Test_Magnetic_Constant_20251212_130904" INFO: Regenerating c-file: Test_Magnetic_Constant.c WARNING: Full-path code-generator "/u/data/pkwi/McStas/mcstas/3.x-dev/bin/mcstas-antlr -I$MCSTAS" not found!! WARNING: Attempting replacement by "mcstas-antlr -I$MCSTAS" DEBUG: CMD: mcstas-antlr -I$MCSTAS -t -o ./Test_Magnetic_Constant.c Test_Magnetic_Constant.instr 2025-12-12 13:09:34.136 | DEBUG | mccode_antlr.translators.c:sort_include_hierarchy:41 - sort includes :Pol_Bfield(0):pol-lib :Pol_Bfield_stop(0):pol-lib :Pol_FieldBox(0):pol-lib 2025-12-12 13:09:34.137 | DEBUG | mccode_antlr.translators.c:sort_include_hierarchy:66 - sorted to pol-lib 2025-12-12 13:09:34.137 | DEBUG | mccode_antlr.translators.c:sort_include_hierarchy:66 - sorted to pol-lib 2025-12-12 13:09:34.137 | DEBUG | mccode_antlr.translators.c:sort_include_hierarchy:66 - sorted to pol-lib 2025-12-12 13:09:41.674 | INFO | mccode_antlr.translators.c:include_source:341 - pol-lib.c requested read_table-lib but is has not been included yet! 2025-12-12 13:09:42.614 | INFO | mccode_antlr.translators.c:include_source:341 - pol-lib.c requested interpolation-lib but is has not been included yet! The instrument has 2 parameters ----------------------------------------------------------- Generating single GPU kernel or single CPU section layout: ----------------------------------------------------------- Generating GPU/CPU -DFUNNEL layout: -> GPU kernel from component Origin -> GPU kernel from component source -> GPU kernel from component polSetter -> GPU kernel from component pollambdaMonitor1x -> GPU kernel from component pollambdaMonitor1y -> GPU kernel from component pollambdaMonitor1z -> GPU kernel from component armMSF -> GPU kernel from component msf -> GPU kernel from component msf_onoff -> GPU kernel from component msf_onoff_stop -> GPU kernel from component msfieldbox -> GPU kernel from component msf_onoff2 -> GPU kernel from component msf_onoff2_stop -> GPU kernel from component pollambdaMonitor2x -> GPU kernel from component pollambdaMonitor2y -> GPU kernel from component pollambdaMonitor2z -> GPU kernel from component mpollambdaMonitor2x -> GPU kernel from component mpollambdaMonitor2y -> GPU kernel from component mpollambdaMonitor2z ----------------------------------------------------------- DEBUG: CMD: mcstas-antlr -I$MCSTAS finished INFO: Recompiling: ./Test_Magnetic_Constant.out DEBUG: CMD: nvc -o ./Test_Magnetic_Constant.out ./Test_Magnetic_Constant.c -lm -Wl,-O2 -Wl,--sort-common -Wl,--as-needed -Wl,-z,relro -Wl,-z,now -Wl,--disable-new-dtags -Wl,--gc-sections -Wl,--allow-shlib-undefined -Wl,-rpath,/u/data/pkwi/McStas/mcstas/3.x-dev/miniconda3/lib -Wl,-rpath-link,/u/data/pkwi/McStas/mcstas/3.x-dev/miniconda3/lib -L/u/data/pkwi/McStas/mcstas/3.x-dev/miniconda3/lib -mtune=haswell -fPIC -O2 -isystem /u/data/pkwi/McStas/mcstas/3.x-dev/miniconda3/include -DUSE_MPI -lmpi -Wl,-rpath,/opt/nvidia/hpc_sdk/Linux_x86_64/25.9/comm_libs/12.9/openmpi4/openmpi-4.1.5/lib -L,/opt/nvidia/hpc_sdk/Linux_x86_64/25.9/comm_libs/12.9/openmpi4/openmpi-4.1.5/lib -I/opt/nvidia/hpc_sdk/Linux_x86_64/25.9/comm_libs/12.9/openmpi4/openmpi-4.1.5/include -fast -Minfo=accel -acc=gpu -gpu=mem:managed -DOPENACC "./Test_Magnetic_Constant.c", line 93: warning: Routine "mcgenstate" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_particle mcgenstate(void); ^ Remark: individual warnings can be suppressed with "--diag_suppress " "./Test_Magnetic_Constant.c", line 95: warning: Routine "mcsetstate" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_particle mcsetstate(double x, double y, double z, double vx, double vy, double vz, double t, double sx, double sy, double sz, double p, int mcgravitation, void * mcMagnet, int allow_backprop); ^ "./Test_Magnetic_Constant.c", line 97: warning: Routine "mcgetstate" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_particle mcgetstate(_class_particle mcparticle, double * x, double * y, double * z, double * vx, double * vy, double * vz, double * t, double * sx, double * sy, double * sz, double * p); ^ "./Test_Magnetic_Constant.c", line 111: warning: Routine "particle_getvar" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double particle_getvar(_class_particle *p, char *name, int *suc); ^ "./Test_Magnetic_Constant.c", line 115: warning: Routine "str_comp" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int str_comp(char *str1, char *str2); ^ "./Test_Magnetic_Constant.c", line 143: warning: Routine "particle_getvar_void" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] void* particle_getvar_void(_class_particle *p, char *name, int *suc); ^ "./Test_Magnetic_Constant.c", line 115: warning: Routine "str_comp" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int str_comp(char *str1, char *str2); ^ "./Test_Magnetic_Constant.c", line 175: warning: Routine "particle_setvar_void" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int particle_setvar_void(_class_particle *, char *, void*); ^ "./Test_Magnetic_Constant.c", line 200: warning: Routine "particle_setvar_void_array" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int particle_setvar_void_array(_class_particle *, char *, void*, int); ^ "./Test_Magnetic_Constant.c", line 213: warning: Routine "particle_restore" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] void particle_restore(_class_particle *p, _class_particle *p0); ^ "./Test_Magnetic_Constant.c", line 230: warning: Routine "particle_getuservar_byid" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double particle_getuservar_byid(_class_particle *p, int id, int *suc){ ^ "./Test_Magnetic_Constant.c", line 241: warning: Routine "particle_uservar_init" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] void particle_uservar_init(_class_particle *p){ ^ "./Test_Magnetic_Constant.c", line 308: warning: Routine "noprintf" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int noprintf(); ^ "./Test_Magnetic_Constant.c", line 310: warning: Routine "str_len" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] size_t str_len(const char *s); ^ "./Test_Magnetic_Constant.c", line 661: warning: Routine "mcget_ncount" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] unsigned long long int mcget_ncount(void); /* wrapper to set mcncount */ ^ "./Test_Magnetic_Constant.c", line 882: warning: Routine "_randnorm2" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _randnorm2(randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 899: warning: Routine "kiss_srandom" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] uint64_t *kiss_srandom(uint64_t state[7], uint64_t seed); ^ "./Test_Magnetic_Constant.c", line 901: warning: Routine "kiss_random" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] uint64_t kiss_random(uint64_t state[7]); ^ "./Test_Magnetic_Constant.c", line 909: warning: Routine "_rand01" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _rand01(randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 911: warning: Routine "_randpm1" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _randpm1(randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 913: warning: Routine "_rand0max" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _rand0max(double max, randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 915: warning: Routine "_randminmax" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _randminmax(double min, double max, randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 917: warning: Routine "_randtriangle" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double _randtriangle(randstate_t* state); ^ "./Test_Magnetic_Constant.c", line 1013: warning: Routine "coords_set" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_set(MCNUM x, MCNUM y, MCNUM z); ^ "./Test_Magnetic_Constant.c", line 1015: warning: Routine "coords_get" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_get(Coords a, MCNUM *x, MCNUM *y, MCNUM *z); ^ "./Test_Magnetic_Constant.c", line 1017: warning: Routine "coords_add" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_add(Coords a, Coords b); ^ "./Test_Magnetic_Constant.c", line 1019: warning: Routine "coords_sub" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_sub(Coords a, Coords b); ^ "./Test_Magnetic_Constant.c", line 1021: warning: Routine "coords_neg" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_neg(Coords a); ^ "./Test_Magnetic_Constant.c", line 1023: warning: Routine "coords_scale" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_scale(Coords b, double scale); ^ "./Test_Magnetic_Constant.c", line 1025: warning: Routine "coords_sp" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double coords_sp(Coords a, Coords b); ^ "./Test_Magnetic_Constant.c", line 1027: warning: Routine "coords_xp" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] Coords coords_xp(Coords b, Coords c); ^ "./Test_Magnetic_Constant.c", line 1029: warning: Routine "coords_len" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double coords_len(Coords a); ^ "./Test_Magnetic_Constant.c", line 4640: warning: variable "num" was declared but never referenced [declared_but_not_referenced] int num = 3; ^ "./Test_Magnetic_Constant.c", line 6341: warning: variable "status" was set but never used [set_but_not_used] int status; ^ "./Test_Magnetic_Constant.c", line 7578: warning: Routine "Table_Index" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Index(t_Table Table, long i, long j); /* get indexed value */ ^ "./Test_Magnetic_Constant.c", line 7580: warning: Routine "Table_Value" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Value(t_Table Table, double X, long j); /* search X in 1st column and return interpolated value in j-column */ ^ "./Test_Magnetic_Constant.c", line 7587: warning: Routine "Table_Value2d" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Value2d(t_Table Table, double X, double Y); /* same as Table_Index with non-integer indices and 2d interpolation */ ^ "./Test_Magnetic_Constant.c", line 7607: warning: Routine "Table_Interp1d" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Interp1d(double x, double x1, double y1, double x2, double y2); ^ "./Test_Magnetic_Constant.c", line 7609: warning: Routine "Table_Interp1d_nearest" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Interp1d_nearest(double x, double x1, double y1, double x2, double y2); ^ "./Test_Magnetic_Constant.c", line 7611: warning: Routine "Table_Interp2d" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double Table_Interp2d(double x, double y, double x1, double y1, double x2, double y2, ^ "/usr/include/math.h", line 30: warning: #warning directive: A macro called log was already defined when was included. [warning_directive] # warning A macro called log was already defined when was included. ^ "/usr/include/math.h", line 31: warning: #warning directive: This will cause compilation problems. [warning_directive] # warning This will cause compilation problems. ^ "./Test_Magnetic_Constant.c", line 9191: warning: Routine "interpolator_interpolate" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double *interpolator_interpolate(struct interpolator_struct *interpolator, ^ "./Test_Magnetic_Constant.c", line 9202: warning: Routine "interpolator_interpolate3_3" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double *interpolator_interpolate3_3(struct interpolator_struct *interpolator, ^ "./Test_Magnetic_Constant.c", line 9292: warning: Routine "kdtree_squaredDistance" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] double kdtree_squaredDistance(vertex* a, vertex* b) ^ "./Test_Magnetic_Constant.c", line 9308: warning: Routine "kdtree_borderCheck" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] void kdtree_borderCheck(vertex *v, treeNode *thisNode, ^ "./Test_Magnetic_Constant.c", line 9343: warning: Routine "kdtree_partition" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int kdtree_partition(vertex **points, int d, int left, int right, int pivot) ^ "./Test_Magnetic_Constant.c", line 9422: warning: Routine "kdtree_nearestNeighbour_helper" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] void kdtree_nearestNeighbour_helper(vertex* v, treeNode *tree, ^ "./Test_Magnetic_Constant.c", line 9462: warning: Routine "kdtree_nearestNeighbour" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] vertex* kdtree_nearestNeighbour(vertex* v, treeNode *tree) { ^ "./Test_Magnetic_Constant.c", line 9536: warning: Routine "interpolator_offset" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] long interpolator_offset(int dim, long *dimInfo, long *indices) { ^ "./Test_Magnetic_Constant.c", line 9767: warning: variable "count" was declared but never referenced [declared_but_not_referenced] long count=0; ^ "./Test_Magnetic_Constant.c", line 9869: warning: missing return statement at end of non-void function "interpolator_interpolate" [implicit_return_from_non_void_function] } // interpolator_interpolate ^ "./Test_Magnetic_Constant.c", line 10446: warning: variable "tc2" was set but never used [set_but_not_used] Coords tc1, tc2; ^ "./Test_Magnetic_Constant.c", line 11863: warning: enumerated type mixed with another type [mixed_enum_type] enum field_functions ff=field_type; ^ "./Test_Magnetic_Constant.c", line 12147: warning: incompatible redefinition of macro "exit" (declared at line 640) [bad_macro_redef] #define exit(...) noprintf() ^ "./Test_Magnetic_Constant.c", line 12148: warning: incompatible redefinition of macro "strcmp" (declared at line 9819) [bad_macro_redef] #define strcmp(a,b) str_comp(a,b) ^ "./Test_Magnetic_Constant.c", line 12159: warning: Routine "class_Progress_bar_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Progress_bar *class_Progress_bar_trace(_class_Progress_bar *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12249: warning: Routine "class_Source_simple_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Source_simple *class_Source_simple_trace(_class_Source_simple *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12352: warning: Routine "class_Set_pol_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Set_pol *class_Set_pol_trace(_class_Set_pol *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12413: warning: Routine "class_PolLambda_monitor_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_PolLambda_monitor *class_PolLambda_monitor_trace(_class_PolLambda_monitor *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12502: warning: Routine "class_Pol_Bfield_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Pol_Bfield *class_Pol_Bfield_trace(_class_Pol_Bfield *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12613: warning: Routine "class_Pol_Bfield_stop_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Pol_Bfield_stop *class_Pol_Bfield_stop_trace(_class_Pol_Bfield_stop *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12624: warning: variable "nofield" was declared but never referenced [declared_but_not_referenced] int nofield=0; ^ "./Test_Magnetic_Constant.c", line 12674: warning: Routine "class_Pol_FieldBox_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_Pol_FieldBox *class_Pol_FieldBox_trace(_class_Pol_FieldBox *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12685: warning: variable "hit" was set but never used [set_but_not_used] int hit; ^ "./Test_Magnetic_Constant.c", line 12726: warning: Routine "class_MeanPolLambda_monitor_trace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] _class_MeanPolLambda_monitor *class_MeanPolLambda_monitor_trace(_class_MeanPolLambda_monitor *_comp, _class_particle *_particle) { ^ "./Test_Magnetic_Constant.c", line 12817: warning: Routine "raytrace" will be treated as sequential because its "routine" directive doesn't specify a level of parallelism [no_routine_type] int raytrace(_class_particle* _particle) { /* single event propagation, called by mccode_main for Test_Magnetic_Constant:TRACE */ ^ "./Test_Magnetic_Constant.c", line 14617: warning: variable "t" was declared but never referenced [declared_but_not_referenced] time_t t; ^ "./Test_Magnetic_Constant.c", line 14618: warning: variable "ct" was set but never used [set_but_not_used] clock_t ct; ^ "./Test_Magnetic_Constant.c", line 1517: warning: variable "mcstartdate" was set but never used [set_but_not_used] static long mcstartdate = 0; /* start simulation time */ ^ "./Test_Magnetic_Constant.c", line 2986: warning: function "strcpy_valid" was declared but never referenced [declared_but_not_referenced] static char *strcpy_valid(char *valid, char *original) ^ mcgenstate: 104, Generating acc routine seq Generating NVIDIA GPU code particle_getvar: 118, Generating acc routine seq Generating NVIDIA GPU code particle_getvar_void: 150, Generating acc routine seq Generating NVIDIA GPU code particle_setvar_void: 177, Generating acc routine seq Generating NVIDIA GPU code particle_setvar_void_array: 202, Generating acc routine seq Generating NVIDIA GPU code particle_restore: 214, Generating acc routine seq Generating NVIDIA GPU code particle_getuservar_byid: 230, Generating acc routine seq Generating NVIDIA GPU code particle_uservar_init: 241, Generating acc routine seq Generating NVIDIA GPU code noprintf: 1565, Generating acc routine seq Generating NVIDIA GPU code str_comp: 1569, Generating acc routine seq Generating NVIDIA GPU code str_len: 1578, Generating acc routine seq Generating NVIDIA GPU code mcget_ncount: 4258, Generating acc routine seq Generating NVIDIA GPU code coords_set: 4692, Generating acc routine seq Generating NVIDIA GPU code coords_get: 4703, Generating acc routine seq Generating NVIDIA GPU code coords_add: 4712, Generating acc routine seq Generating NVIDIA GPU code coords_sub: 4724, Generating acc routine seq Generating NVIDIA GPU code coords_neg: 4736, Generating acc routine seq Generating NVIDIA GPU code coords_scale: 4746, Generating acc routine seq Generating NVIDIA GPU code coords_sp: 4756, Generating acc routine seq Generating NVIDIA GPU code coords_xp: 4764, Generating acc routine seq Generating NVIDIA GPU code coords_len: 4774, Generating acc routine seq Generating NVIDIA GPU code coords_print: 4796, Generating acc routine seq Generating NVIDIA GPU code coords_norm: 4803, Generating acc routine seq Generating NVIDIA GPU code rot_set_rotation: 4849, Generating acc routine seq Generating NVIDIA GPU code rot_test_identity: 4884, Generating acc routine seq Generating NVIDIA GPU code rot_mul: 4895, Generating acc routine seq Generating NVIDIA GPU code rot_copy: 4912, Generating acc routine seq Generating NVIDIA GPU code rot_transpose: 4923, Generating acc routine seq Generating NVIDIA GPU code rot_apply: 4939, Generating acc routine seq Generating NVIDIA GPU code vec_prod_func: 4968, Generating acc routine seq Generating NVIDIA GPU code scalar_prod: 4979, Generating acc routine seq Generating NVIDIA GPU code norm_func: 4983, Generating acc routine seq Generating NVIDIA GPU code mccoordschange: 5160, Generating acc routine seq Generating NVIDIA GPU code mccoordschange_polarisation: 5191, Generating acc routine seq Generating NVIDIA GPU code normal_vec: 5208, Generating acc routine seq Generating NVIDIA GPU code solve_2nd_order: 5307, Generating acc routine seq Generating NVIDIA GPU code _randvec_target_circle: 5391, Generating acc routine seq Generating NVIDIA GPU code _randvec_target_rect_angular: 5457, Generating acc routine seq Generating NVIDIA GPU code _randvec_target_rect_real: 5534, Generating acc routine seq Generating NVIDIA GPU code kiss_srandom: 5806, Generating acc routine seq Generating NVIDIA GPU code kiss_random: 5818, Generating acc routine seq Generating NVIDIA GPU code _hash: 5850, Generating acc routine seq Generating NVIDIA GPU code _randnorm2: 5891, Generating acc routine seq Generating NVIDIA GPU code _randtriangle: 5902, Generating acc routine seq Generating NVIDIA GPU code _rand01: 5907, Generating acc routine seq Generating NVIDIA GPU code _randpm1: 5915, Generating acc routine seq Generating NVIDIA GPU code _rand0max: 5923, Generating acc routine seq Generating NVIDIA GPU code _randminmax: 5930, Generating acc routine seq Generating NVIDIA GPU code mcsetstate: 6608, Generating acc routine seq Generating NVIDIA GPU code mcgetstate: 6648, Generating acc routine seq Generating NVIDIA GPU code inside_rectangle: 6708, Generating acc routine seq Generating NVIDIA GPU code box_intersect: 6725, Generating acc routine seq Generating NVIDIA GPU code cylinder_intersect: 6840, Generating acc routine seq Generating NVIDIA GPU code sphere_intersect: 6895, Generating acc routine seq Generating NVIDIA GPU code Table_Index: 8389, Generating acc routine seq Generating NVIDIA GPU code Table_Value: 8457, Generating acc routine seq Generating NVIDIA GPU code Table_Value2d: 8536, Generating acc routine seq Generating NVIDIA GPU code Table_Interp1d: 9004, Generating acc routine seq Generating NVIDIA GPU code Table_Interp1d_nearest: 9020, Generating acc routine seq Generating NVIDIA GPU code Table_Interp2d: 9038, Generating acc routine seq Generating NVIDIA GPU code kdtree_squaredDistance: 9293, Generating acc routine seq Generating NVIDIA GPU code kdtree_borderCheck: 9310, Generating acc routine seq Generating NVIDIA GPU code kdtree_partition: 9344, Generating acc routine seq Generating NVIDIA GPU code kdtree_nearestNeighbour_helper: 9424, Generating acc routine seq Generating NVIDIA GPU code kdtree_nearestNeighbour: 9462, Generating acc routine seq Generating NVIDIA GPU code interpolator_offset: 9536, Generating acc routine seq Generating NVIDIA GPU code interpolator_load: 9751, Generating copyin(array[:prod]) [if not already present] interpolator_interpolate: 9816, Generating acc routine seq Generating NVIDIA GPU code CUDA global memory used for indices interpolator_interpolate3_3: 9881, Generating acc routine seq Generating NVIDIA GPU code magnetic_field_dispatcher: 9968, Generating acc routine seq Generating NVIDIA GPU code mcmagnet_get_field: 10007, Generating acc routine seq Generating NVIDIA GPU code mcmagnet_push: 10048, Generating acc routine seq Generating NVIDIA GPU code CUDA global memory used for mcMagnet mcmagnet_pop: 10093, Generating acc routine seq Generating NVIDIA GPU code const_magnetic_field: 10118, Generating acc routine seq Generating NVIDIA GPU code rot_magnetic_field: 10128, Generating acc routine seq Generating NVIDIA GPU code majorana_magnetic_field: 10142, Generating acc routine seq Generating NVIDIA GPU code gradient_magnetic_field: 10158, Generating acc routine seq Generating NVIDIA GPU code GetMonoPolFNFM: 10185, Generating acc routine seq Generating NVIDIA GPU code GetMonoPolRefProb: 10214, Generating acc routine seq Generating NVIDIA GPU code SetMonoPolRefOut: 10238, Generating acc routine seq Generating NVIDIA GPU code SetMonoPolTransOut: 10265, Generating acc routine seq Generating NVIDIA GPU code SimpleNumMagnetPrecession: 10285, Generating acc routine seq Generating NVIDIA GPU code 10318, Reference argument passing prevents parallelization: BzTemp Reference argument passing prevents parallelization: ByTemp Reference argument passing prevents parallelization: BxTemp GetConstantField: 10380, Generating acc routine seq Generating NVIDIA GPU code init: 12118, Generating update device(_source_var,_pollambdaMonitor2z_var,_msfieldbox_var,_polSetter_var,_pollambdaMonitor1x_var,_pollambdaMonitor1y_var,_Origin_var,_msf_onoff_var,_msf_onoff_stop_var,_msf_onoff2_var,_msf_var,_msf_onoff2_stop_var,_mpollambdaMonitor2z_var,_pollambdaMonitor1z_var,_pollambdaMonitor2x_var,_pollambdaMonitor2y_var,_instrument_var,_mpollambdaMonitor2x_var,_mpollambdaMonitor2y_var,_armMSF_var) class_Progress_bar_trace: 12159, Generating acc routine seq Generating NVIDIA GPU code class_Source_simple_trace: 12249, Generating acc routine seq Generating NVIDIA GPU code class_Set_pol_trace: 12352, Generating acc routine seq Generating NVIDIA GPU code class_PolLambda_monitor_trace: 12413, Generating acc routine seq Generating NVIDIA GPU code class_Pol_Bfield_trace: 12502, Generating acc routine seq Generating NVIDIA GPU code CUDA global memory used for mcMagnet class_Pol_Bfield_stop_trace: 12613, Generating acc routine seq Generating NVIDIA GPU code class_Pol_FieldBox_trace: 12674, Generating acc routine seq Generating NVIDIA GPU code class_MeanPolLambda_monitor_trace: 12726, Generating acc routine seq Generating NVIDIA GPU code raytrace: 12817, Generating acc routine seq Generating NVIDIA GPU code raytrace_all: 13261, Generating implicit firstprivate(gpu_innerloop) Generating NVIDIA GPU code 13275, #pragma acc loop gang(numgangs), vector(vecsize) /* blockIdx.x threadIdx.x */ 13261, Local memory used for particleN 13275, Generating implicit firstprivate(mpi_node_rank,_particle,seed,ncount) finally: 14009, Generating update self(_pollambdaMonitor2z_var,_source_var,_msfieldbox_var,_polSetter_var,_pollambdaMonitor1x_var,_pollambdaMonitor1y_var,_Origin_var,_msf_onoff_var,_msf_onoff_stop_var,_msf_onoff2_var,_msf_var,_msf_onoff2_stop_var,_mpollambdaMonitor2z_var,_pollambdaMonitor1z_var,_pollambdaMonitor2x_var,_pollambdaMonitor2y_var,_instrument_var,_mpollambdaMonitor2x_var,_mpollambdaMonitor2y_var,_armMSF_var) mcenabletrace: 6050, Generating update device(mcdotrace) DEBUG: CMD: nvc finished INFO: ===