void * enkf_main_init_case_from_existing_JOB( void * self , const stringlist_type * args) { enkf_main_type * enkf_main = enkf_main_safe_cast( self ); const char * source_case = stringlist_iget( args , 0 ); enkf_fs_type * source_fs = enkf_main_mount_alt_fs( enkf_main , source_case , true ); { enkf_fs_type * target_fs; if (stringlist_get_size(args) > 1) { const char * current_case = enkf_main_get_current_fs(enkf_main); const char * target_case = stringlist_iget( args , 1 ); if (0 != strcmp(current_case, target_case)) { target_fs = enkf_main_mount_alt_fs( enkf_main , target_case , true ); } else target_fs = enkf_fs_get_ref( enkf_main_get_fs(enkf_main) ); // Using get_ref so that we can unconditionally call decref() further down. } else target_fs = enkf_fs_get_ref( enkf_main_get_fs(enkf_main) ); // Using get_ref so that we can unconditionally call decref() further down. enkf_main_init_case_from_existing(enkf_main, source_fs, 0, ANALYZED, target_fs); enkf_fs_decref(target_fs); } enkf_fs_decref(source_fs); return NULL; }
void * enkf_main_analysis_update_JOB( void * self , const stringlist_type * args) { enkf_main_type * enkf_main = enkf_main_safe_cast( self ); enkf_fs_type * source_fs = enkf_main_mount_alt_fs( enkf_main , stringlist_iget(args , 0 ) , false); enkf_fs_type * target_fs = enkf_main_mount_alt_fs( enkf_main , stringlist_iget(args , 1 ) , true); enkf_main_smoother_update( enkf_main , source_fs , target_fs); enkf_fs_decref( source_fs ); enkf_fs_decref( target_fs ); return NULL; }
void test_init_case_job(ert_test_context_type * test_context, const char * job_name , const char * job_file) { stringlist_type * args = stringlist_alloc_new(); enkf_main_type * enkf_main = ert_test_context_get_main(test_context); test_assert_true( ert_test_context_install_workflow_job( test_context , "JOB" , job_file ) ); //Test init current case from existing { enkf_fs_type * cur_fs = enkf_main_mount_alt_fs( enkf_main , "new_current_case" , true ); enkf_main_select_fs(enkf_main, "new_current_case"); test_assert_ptr_not_equal(cur_fs , enkf_main_get_fs( enkf_main )); stringlist_append_copy( args, "default"); //case to init from test_assert_true( ert_test_context_run_worklow_job( test_context , "JOB" , args) ); enkf_fs_decref(cur_fs); } { const char * current_case = enkf_main_get_current_fs( enkf_main ); test_assert_string_equal(current_case, "new_current_case"); test_assert_true(enkf_fs_has_node(enkf_main_get_fs(enkf_main), "PERMZ", PARAMETER, 0, 0, ANALYZED)); enkf_fs_type * default_fs = enkf_main_mount_alt_fs( enkf_main , "default" , true ); state_map_type * default_state_map = enkf_fs_get_state_map(default_fs); state_map_type * current_state_map = enkf_fs_get_state_map(enkf_main_get_fs(enkf_main)); test_assert_int_equal(state_map_get_size(default_state_map), state_map_get_size(current_state_map)); enkf_fs_decref(default_fs); } //Test init case from existing case: stringlist_clear(args); stringlist_append_copy(args, "default"); //case to init from stringlist_append_copy(args, "new_not_current_case"); test_assert_true( ert_test_context_run_worklow_job( test_context , "JOB" , args) ); { enkf_fs_type * fs = enkf_main_mount_alt_fs(enkf_main, "new_not_current_case", true); test_assert_not_NULL( fs ); test_assert_true( enkf_fs_has_node(fs, "PERMZ", PARAMETER, 0, 0, ANALYZED )); enkf_fs_type * default_fs = enkf_main_mount_alt_fs( enkf_main , "default" , true ); state_map_type * default_state_map = enkf_fs_get_state_map(default_fs); state_map_type * new_state_map = enkf_fs_get_state_map(fs); test_assert_int_equal(state_map_get_size(default_state_map), state_map_get_size(new_state_map)); enkf_fs_decref(fs); } stringlist_free( args ); }
void enkf_tui_fs_initialize_case_from_copy(void * arg) { int prompt_len =50; char * source_case; int ens_size; int last_report; int src_step; state_enum src_state; enkf_main_type * enkf_main = enkf_main_safe_cast( arg ); ens_size = enkf_main_get_ensemble_size( enkf_main ); last_report = enkf_main_get_history_length( enkf_main ); source_case = enkf_tui_fs_alloc_existing_case( enkf_main , "Initialize from case" , prompt_len); if (source_case != NULL) { src_step = util_scanf_int_with_limits("Source report step",prompt_len , 0 , last_report); src_state = enkf_tui_util_scanf_state("Source analyzed/forecast [A|F]" , prompt_len , false); enkf_fs_type * source_fs = enkf_main_mount_alt_fs( enkf_main , source_case , false ); enkf_main_init_current_case_from_existing(enkf_main, source_fs , src_step , src_state); enkf_fs_decref(source_fs); } util_safe_free( source_case ); }
void * enkf_main_create_case_JOB( void * self , const stringlist_type * args) { enkf_main_type * enkf_main = enkf_main_safe_cast( self ); const char * new_case = stringlist_iget( args , 0 ); enkf_fs_type * fs = enkf_main_mount_alt_fs( enkf_main , new_case , true ); enkf_fs_decref( fs ); return NULL; }
void * enkf_main_analysis_update_JOB( void * self , const stringlist_type * args) { enkf_main_type * enkf_main = enkf_main_safe_cast( self ); enkf_fs_type * target_fs; int target_step; int_vector_type * step_list; bool decrease_ref = false; // Argument 0: Which case to write to if (stringlist_get_size(args)) { const char * target_fs_name = stringlist_iget( args , 0 ); if (strcmp( target_fs_name , CURRENT_CASE_STRING) == 0) target_fs = enkf_main_get_fs( enkf_main ); else { target_fs = enkf_main_mount_alt_fs( enkf_main , target_fs_name , true); decrease_ref = true; } } else target_fs = enkf_main_get_fs( enkf_main ); { // Argument 1: The number of the step to write to if (stringlist_get_size(args) > 1) util_sscanf_int(stringlist_iget( args , 1) , &target_step); else target_step = 0; // Argument 2 - ??: The timesteps to use in the update if (stringlist_get_size( args ) > 2) { char * step_args = stringlist_alloc_joined_substring(args , 2 , stringlist_get_size(args) , " "); step_list = string_util_alloc_active_list( step_args ); free( step_args ); } else { int stride = 1; time_map_type * time_map = enkf_fs_get_time_map( enkf_main_get_fs( enkf_main )); step_list = enkf_main_update_alloc_step_list( enkf_main , 0 , time_map_get_last_step( time_map ) , stride); } enkf_main_UPDATE( enkf_main , step_list , target_fs , target_step , SMOOTHER_UPDATE); int_vector_free( step_list ); if (decrease_ref) enkf_fs_decref( target_fs ); } return NULL; }
void enkf_main_select_fs( enkf_main_type * enkf_main , const char * case_path ) { if (enkf_main_case_is_current( enkf_main , case_path )) return; /* We have tried to select the currently selected case - just return. */ else { enkf_fs_type * new_fs = enkf_main_mount_alt_fs( enkf_main , case_path , true ); if (enkf_main->dbase == new_fs) util_abort("%s : return reference to current FS in situation where that should not happen.\n",__func__); if (new_fs != NULL) enkf_main_set_fs( enkf_main , new_fs , case_path); else { const char * ens_path = model_config_get_enspath( enkf_main->model_config ); util_exit("%s: select filesystem %s:%s failed \n",__func__ , ens_path , case_path ); } enkf_fs_decref( new_fs ); } }
static bool enkf_main_case_is_initialized__( const enkf_main_type * enkf_main , enkf_fs_type * fs , bool_vector_type * __mask) { stringlist_type * parameter_keys = ensemble_config_alloc_keylist_from_var_type( enkf_main->ensemble_config , PARAMETER ); bool_vector_type * mask; bool initialized = true; int ikey = 0; if (__mask != NULL) mask = __mask; else mask = bool_vector_alloc(0 , true ); while ((ikey < stringlist_get_size( parameter_keys )) && (initialized)) { const enkf_config_node_type * config_node = ensemble_config_get_node( enkf_main->ensemble_config , stringlist_iget( parameter_keys , ikey) ); int iens = 0; do { if (bool_vector_safe_iget( mask , iens)) { node_id_type node_id = {.report_step = 0 , .iens = iens , .state = ANALYZED }; initialized = enkf_config_node_has_node( config_node , fs , node_id); } iens++; } while ((iens < enkf_main->ens_size) && (initialized)); ikey++; } stringlist_free( parameter_keys ); if (__mask == NULL) bool_vector_free( mask ); return initialized; } bool enkf_main_case_is_initialized( const enkf_main_type * enkf_main , const char * case_name , bool_vector_type * __mask) { enkf_fs_type * fs = enkf_main_mount_alt_fs(enkf_main , case_name , false ); if (fs) { bool initialized = enkf_main_case_is_initialized__(enkf_main , fs , __mask); enkf_fs_decref( fs ); return initialized; } else return false; }
static void enkf_tui_fs_copy_ensemble__( enkf_main_type * enkf_main, const char * source_case, const char * target_case, int report_step_from, state_enum state_from, int report_step_to, state_enum state_to, bool only_parameters) { msg_type * msg = msg_alloc("Copying: " , false); ensemble_config_type * config = enkf_main_get_ensemble_config(enkf_main); int ens_size = enkf_main_get_ensemble_size(enkf_main); char * ranking_key; const int * ranking_permutation = NULL; int * identity_permutation; ranking_table_type * ranking_table = enkf_main_get_ranking_table( enkf_main ); if (ranking_table_get_size( ranking_table ) > 0) { util_printf_prompt("Name of ranking to resort by (or blank)" , 50 , '=' , "=> "); ranking_key = util_alloc_stdin_line(); if (ranking_table_has_ranking( ranking_table , ranking_key )) ranking_permutation = ranking_table_get_permutation( ranking_table , ranking_key ); else { fprintf(stderr," Sorry: ranking:%s does not exist \n", ranking_key ); return; } } identity_permutation = util_calloc( ens_size , sizeof * identity_permutation ); { int iens; for (iens =0; iens < ens_size; iens++) identity_permutation[iens] = iens; } if (ranking_permutation == NULL) ranking_permutation = identity_permutation; { /* If the current target_case does not exist it is automatically created by the select_write_dir function */ enkf_fs_type * src_fs = enkf_main_mount_alt_fs( enkf_main , source_case , false ); enkf_fs_type * target_fs = enkf_main_mount_alt_fs( enkf_main , target_case , true ); stringlist_type * nodes = ensemble_config_alloc_keylist_from_var_type(config, PARAMETER); { int num_nodes = stringlist_get_size(nodes); msg_show(msg); for(int i = 0; i < num_nodes; i++) { const char * key = stringlist_iget(nodes, i); enkf_config_node_type * config_node = ensemble_config_get_node(config , key); msg_update(msg , key); enkf_node_copy_ensemble(config_node, src_fs , target_fs , report_step_from, state_from, report_step_to , state_to , ens_size , ranking_permutation); } } enkf_fs_decref( src_fs ); enkf_fs_decref( target_fs ); msg_free(msg , true); stringlist_free(nodes); } free( identity_permutation ); }
int main(int argc, char ** argv) { const char * config_file = argv[1]; test_work_area_type * work_area = test_work_area_alloc( "enkf_main_fs" ); char * model_config; util_alloc_file_components( config_file , NULL , &model_config , NULL); test_work_area_copy_parent_content( work_area , config_file ); { const char * site_config = "/project/res/etc/ERT/site-config"; enkf_main_type * enkf_main = enkf_main_bootstrap( site_config , model_config , false , false ); enkf_main_select_fs( enkf_main , "enkf"); test_assert_true( enkf_main_case_is_current( enkf_main , "enkf")); test_assert_false( enkf_main_case_is_current( enkf_main , "default_fs")); test_assert_false( enkf_main_case_is_current( enkf_main , "does_not_exist")); test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); { enkf_fs_type * fs_ref = enkf_main_get_fs_ref( enkf_main ); test_assert_int_equal( 2 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_fs_decref( fs_ref ); test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); } { state_map_type * map1 = enkf_fs_get_state_map( enkf_main_get_fs( enkf_main )); state_map_type * map2 = enkf_main_alloc_readonly_state_map(enkf_main , "enkf"); test_assert_true(state_map_equal( map1 , map2 )); state_map_free( map2 ); } { enkf_fs_type * fs1 = enkf_main_mount_alt_fs( enkf_main , "default" , false ); enkf_fs_type * fs2 = enkf_main_mount_alt_fs( enkf_main , "enkf" , false ); test_assert_int_equal( 2 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); test_assert_int_equal( 2 , enkf_fs_get_refcount( fs2 )); test_assert_int_equal( 1 , enkf_fs_get_refcount( fs1 )); enkf_fs_decref( fs1 ); enkf_fs_decref( fs2 ); } { enkf_fs_type * enkf_fs = enkf_main_mount_alt_fs( enkf_main , "enkf" , false ); enkf_main_select_fs( enkf_main , "default"); test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_fs_decref( enkf_fs ); } { enkf_fs_type * default_fs = enkf_main_mount_alt_fs( enkf_main , "default" , false ); test_assert_int_equal( 2 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_main_select_fs( enkf_main , "default"); test_assert_int_equal( 2 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_fs_decref( default_fs ); test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); } /*****************************************************************/ { enkf_fs_type * fs = enkf_main_mount_alt_fs( enkf_main , "default" , false ); test_assert_int_equal( 2 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_main_set_fs( enkf_main , fs , NULL ); enkf_fs_decref( fs ); test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); } { enkf_fs_type * fs = enkf_main_mount_alt_fs( enkf_main , "enkf" , false ); enkf_fs_type * current = enkf_main_mount_alt_fs( enkf_main , "default" , false ); test_assert_int_equal( 2 , enkf_fs_get_refcount( current )); test_assert_int_equal( 1 , enkf_fs_get_refcount( fs)); enkf_main_set_fs( enkf_main , fs , NULL); test_assert_int_equal( 2 , enkf_fs_get_refcount( fs)); test_assert_int_equal( 1 , enkf_fs_get_refcount( current )); enkf_fs_decref( current ); enkf_fs_decref( fs); } test_assert_int_equal( 1 , enkf_fs_get_refcount( enkf_main_get_fs( enkf_main ))); enkf_main_free( enkf_main ); } test_work_area_free( work_area ); exit(0); }