void ert_test_context_free( ert_test_context_type * test_context ) { if (test_context->enkf_main) enkf_main_free( test_context->enkf_main ); if (test_context->work_area) test_work_area_free( test_context->work_area ); if (test_context->rng) rng_free( test_context->rng ); free( test_context ); }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); const char * root_path = argv[1]; const char * config_file = argv[2]; const char * init_file = argv[3]; const char * forward_init_string = argv[4]; test_work_area_type * work_area = test_work_area_alloc(config_file ); test_work_area_copy_directory_content( work_area , root_path ); test_work_area_install_file( work_area , init_file ); test_work_area_set_store(work_area, true); bool strict = true; enkf_main_type * enkf_main = enkf_main_bootstrap( NULL , config_file , strict , true ); enkf_fs_type * init_fs = enkf_main_get_fs(enkf_main); enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); run_arg_type * run_arg = run_arg_alloc_ENSEMBLE_EXPERIMENT( init_fs , 0 ,0 , "simulations/run0"); enkf_node_type * field_node = enkf_state_get_node( state , "PORO" ); bool forward_init; test_assert_true( util_sscanf_bool( forward_init_string , &forward_init)); test_assert_bool_equal( enkf_node_use_forward_init( field_node ) , forward_init ); test_assert_bool_equal( forward_init, ensemble_config_have_forward_init( enkf_main_get_ensemble_config( enkf_main ))); util_clear_directory( "Storage" , true , true ); create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); if (forward_init) util_copy_file( init_file , "simulations/run0/petro.grdecl"); { bool_vector_type * iactive = bool_vector_alloc( enkf_main_get_ensemble_size(enkf_main) , true); int error = 0; stringlist_type * msg_list = stringlist_alloc_new(); enkf_state_load_from_forward_model( state , run_arg , &error , false , msg_list ); stringlist_free( msg_list ); bool_vector_free( iactive ); test_assert_int_equal(error, 0); } test_assert_true(check_original_exported_data_equal(field_node)); run_arg_free( run_arg ); enkf_main_free(enkf_main); test_work_area_free(work_area); }
void test_case_initialized() { test_work_area_type * work_area = test_work_area_alloc("enkf_main_case_initialized" ); { enkf_main_type * enkf_main = enkf_main_alloc_empty(); model_config_type * model_config = enkf_main_get_model_config(enkf_main); const char * new_case = "fs/case"; char * mount_point = util_alloc_sprintf("%s/%s" , model_config_get_enspath(model_config) , new_case); enkf_fs_create_fs(mount_point , BLOCK_FS_DRIVER_ID , NULL); test_assert_false(enkf_main_case_is_initialized(enkf_main , "does/not/exist" , NULL)); test_assert_true(enkf_main_case_is_initialized(enkf_main , new_case , NULL)); enkf_main_free(enkf_main); } test_work_area_free(work_area); }
int main (int argc, char ** argv) { text_splash(); init_debug(argv[0]); printf("\n"); printf("Documentation : %s \n","http://ert.nr.no"); printf("git commit : %s \n",ert_version_get_git_commit( )); printf("compile time : %s \n",ert_version_get_build_time( )); printf("site config : %s \n", site_config_get_location()); enkf_main_install_SIGNALS(); /* Signals common to both tui and gui. */ signal(SIGINT, util_abort_signal); /* Control C - tui only. */ if (argc < 2) { enkf_usage(); exit(1); } else { const char * model_config_file = argv[1]; stringlist_type * workflow_list = stringlist_alloc_new(); parse_workflows(argc, argv, workflow_list); if (!(util_entry_readable(model_config_file) && util_is_file(model_config_file))) util_exit("Can not read file %s - exiting \n", model_config_file); { char * abs_config = util_alloc_realpath(model_config_file); printf("model config : %s \n\n", abs_config); free(abs_config); } enkf_welcome(model_config_file); { res_config_type * res_config = res_config_alloc_load(model_config_file); util_chdir( res_config_get_config_directory( res_config )); { enkf_main_type * enkf_main = enkf_main_alloc(res_config, true, true); enkf_main_run_workflows(enkf_main, workflow_list); enkf_tui_main_menu(enkf_main); enkf_main_free(enkf_main); res_config_free(res_config); } } stringlist_free(workflow_list); util_abort_free_version_info(); /* No f*****g leaks ... */ } exit(0); }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); const char * root_path = argv[1]; const char * config_file = argv[2]; test_work_area_type * work_area = test_work_area_alloc(config_file); test_work_area_copy_directory_content( work_area , root_path ); { bool strict = true; enkf_main_type * enkf_main = enkf_main_bootstrap( NULL , config_file , strict , true ); test_assert_int_equal( 0 , test_load_manually_to_new_case(enkf_main)); enkf_main_free( enkf_main ); } test_work_area_free(work_area); exit(0); }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); const char * root_path = argv[1]; const char * config_file = argv[2]; const char * forward_init_string = argv[3]; test_work_area_type * work_area = test_work_area_alloc(config_file , false); test_work_area_copy_directory_content( work_area , root_path ); { bool forward_init; bool strict = true; enkf_main_type * enkf_main; test_assert_true( util_sscanf_bool( forward_init_string , &forward_init)); util_clear_directory( "Storage" , true , true ); enkf_main = enkf_main_bootstrap( NULL , config_file , strict , true ); { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_node_type * gen_param_node = enkf_state_get_node( state , "PARAM" ); { const enkf_config_node_type * gen_param_config_node = enkf_node_get_config( gen_param_node ); char * init_file1 = enkf_config_node_alloc_initfile( gen_param_config_node , NULL , 0); char * init_file2 = enkf_config_node_alloc_initfile( gen_param_config_node , "/tmp", 0); test_assert_bool_equal( enkf_config_node_use_forward_init( gen_param_config_node ) , forward_init ); test_assert_string_equal( init_file1 , "PARAM_INIT"); test_assert_string_equal( init_file2 , "/tmp/PARAM_INIT"); free( init_file1 ); free( init_file2 ); } test_assert_bool_equal( enkf_node_use_forward_init( gen_param_node ) , forward_init ); if (forward_init) test_assert_bool_not_equal( enkf_node_initialize( gen_param_node , 0 , enkf_state_get_rng( state )) , forward_init); // else hard_failure() } test_assert_bool_equal( forward_init, ensemble_config_have_forward_init( enkf_main_get_ensemble_config( enkf_main ))); if (forward_init) { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_fs_type * fs = enkf_main_get_fs( enkf_main ); enkf_node_type * gen_param_node = enkf_state_get_node( state , "PARAM" ); node_id_type node_id = {.report_step = 0 , .iens = 0, .state = ANALYZED }; create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); { run_mode_type run_mode = ENSEMBLE_EXPERIMENT; enkf_main_init_run(enkf_main , run_mode); /* This is ugly */ test_assert_false( enkf_node_has_data( gen_param_node , fs, node_id )); util_unlink_existing( "simulations/run0/PARAM_INIT" ); } { FILE * stream = util_fopen("simulations/run0/PARAM_INIT" , "w"); fprintf(stream , "0\n1\n2\n3\n" ); fclose( stream ); } { bool loadOK = true; stringlist_type * msg_list = stringlist_alloc_new(); { run_mode_type run_mode = ENSEMBLE_EXPERIMENT; enkf_main_init_run(enkf_main , run_mode); /* This is ugly */ } test_assert_true( enkf_node_forward_init( gen_param_node , "simulations/run0" , 0 )); enkf_state_forward_init( state , fs , &loadOK ); test_assert_true( loadOK ); enkf_state_load_from_forward_model( state , fs , &loadOK , false , msg_list ); stringlist_free( msg_list ); test_assert_true( loadOK ); { double value; test_assert_true( enkf_node_user_get( gen_param_node , fs , "0" , node_id , &value)); test_assert_double_equal( 0 , value); test_assert_true( enkf_node_user_get( gen_param_node , fs , "1" , node_id , &value)); test_assert_double_equal( 1 , value); test_assert_true( enkf_node_user_get( gen_param_node , fs , "2" , node_id , &value)); test_assert_double_equal( 2 , value); } } util_clear_directory( "simulations" , true , true ); create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); test_assert_true( util_is_file( "simulations/run0/PARAM.INC" )); { FILE * stream = util_fopen("simulations/run0/PARAM.INC" , "r"); double v0,v1,v2,v3; fscanf(stream , "%lg %lg %lg %lg" , &v0,&v1,&v2,&v3); fclose( stream ); test_assert_double_equal( 0 , v0); test_assert_double_equal( 1 , v1); test_assert_double_equal( 2 , v2); test_assert_double_equal( 3 , v3); } util_clear_directory( "simulations" , true , true ); } enkf_main_free( enkf_main ); } test_work_area_free( work_area ); }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); const char * root_path = argv[1]; const char * config_file = argv[2]; const char * init_file = argv[3]; const char * forward_init_string = argv[4]; test_work_area_type * work_area = test_work_area_alloc(config_file ); test_work_area_copy_directory_content( work_area , root_path ); test_work_area_install_file( work_area , init_file ); { bool forward_init; bool strict = true; enkf_main_type * enkf_main; test_assert_true( util_sscanf_bool( forward_init_string , &forward_init)); util_clear_directory( "Storage" , true , true ); enkf_main = enkf_main_bootstrap( config_file , strict , true ); { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_node_type * surface_node = enkf_state_get_node( state , "SURFACE" ); { const enkf_config_node_type * surface_config_node = enkf_node_get_config( surface_node ); char * init_file1 = enkf_config_node_alloc_initfile( surface_config_node , NULL , 0); char * init_file2 = enkf_config_node_alloc_initfile( surface_config_node , "/tmp", 0); test_assert_bool_equal( enkf_config_node_use_forward_init( surface_config_node ) , forward_init ); test_assert_string_equal( init_file1 , "Surface.irap"); test_assert_string_equal( init_file2 , "/tmp/Surface.irap"); free( init_file1 ); free( init_file2 ); } test_assert_bool_equal( enkf_node_use_forward_init( surface_node ) , forward_init ); if (forward_init) test_assert_bool_not_equal( enkf_node_initialize( surface_node , 0 , enkf_state_get_rng( state )) , forward_init); // else hard_failure() } test_assert_bool_equal( forward_init, ensemble_config_have_forward_init( enkf_main_get_ensemble_config( enkf_main ))); if (forward_init) { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_fs_type * fs = enkf_main_get_fs( enkf_main ); run_arg_type * run_arg = run_arg_alloc_ENSEMBLE_EXPERIMENT( fs , 0 ,0 , "simulations/run0"); enkf_node_type * surface_node = enkf_state_get_node( state , "SURFACE" ); node_id_type node_id = {.report_step = 0 , .iens = 0, .state = ANALYZED }; create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); { int error = 0; stringlist_type * msg_list = stringlist_alloc_new(); test_assert_false( enkf_node_has_data( surface_node , fs, node_id )); util_unlink_existing( "simulations/run0/Surface.irap" ); test_assert_false( enkf_node_forward_init( surface_node , "simulations/run0" , 0 )); enkf_state_forward_init( state , run_arg , &error ); test_assert_true(LOAD_FAILURE & error); error = 0; { enkf_fs_type * fs = enkf_main_get_fs(enkf_main); state_map_type * state_map = enkf_fs_get_state_map(fs); state_map_iset(state_map, 0, STATE_INITIALIZED); } enkf_state_load_from_forward_model(state, run_arg , &error, false, msg_list); stringlist_free( msg_list ); test_assert_true(LOAD_FAILURE & error); } util_copy_file( init_file , "simulations/run0/Surface.irap"); { int error = 0; stringlist_type * msg_list = stringlist_alloc_new(); test_assert_true( enkf_node_forward_init( surface_node , "simulations/run0" , 0 )); enkf_state_forward_init( state , run_arg , &error ); test_assert_int_equal(0, error); enkf_state_load_from_forward_model( state , run_arg , &error , false , msg_list ); stringlist_free( msg_list ); test_assert_int_equal(0, error); { double value; test_assert_true( enkf_node_user_get( surface_node , fs , "0" , node_id , &value)); test_assert_double_equal( 2735.7461 , value); test_assert_true( enkf_node_user_get( surface_node , fs , "5" , node_id , &value)); test_assert_double_equal( 2737.0122 , value); } } util_clear_directory( "simulations" , true , true ); create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); test_assert_true( util_is_file( "simulations/run0/SURFACE.INC" )); test_assert_true( enkf_node_fload( surface_node , "simulations/run0/SURFACE.INC")); { double value; test_assert_true( enkf_node_user_get( surface_node , fs , "0" , node_id , &value)); test_assert_double_equal( 2735.7461 , value); test_assert_true( enkf_node_user_get( surface_node , fs , "5" , node_id , &value)); test_assert_double_equal( 2737.0122 , value); } util_clear_directory( "simulations" , true , true ); } enkf_main_free( enkf_main ); } }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); const char * root_path = argv[1]; const char * config_file = argv[2]; const char * forward_init_string = argv[3]; test_work_area_type * work_area = test_work_area_alloc(config_file ); test_work_area_copy_directory_content( work_area , root_path ); { bool forward_init; bool strict = true; enkf_main_type * enkf_main; test_assert_true( util_sscanf_bool( forward_init_string , &forward_init)); util_clear_directory( "Storage" , true , true ); enkf_main = enkf_main_bootstrap( NULL , config_file , strict , true ); { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_node_type * gen_kw_node = enkf_state_get_node( state , "MULTFLT" ); { const enkf_config_node_type * gen_kw_config_node = enkf_node_get_config( gen_kw_node ); char * init_file1 = enkf_config_node_alloc_initfile( gen_kw_config_node , NULL , 0); char * init_file2 = enkf_config_node_alloc_initfile( gen_kw_config_node , "/tmp", 0); test_assert_bool_equal( enkf_config_node_use_forward_init( gen_kw_config_node ) , forward_init ); test_assert_string_equal( init_file1 , "MULTFLT_INIT"); test_assert_string_equal( init_file2 , "/tmp/MULTFLT_INIT"); free( init_file1 ); free( init_file2 ); } test_assert_bool_equal( enkf_node_use_forward_init( gen_kw_node ) , forward_init ); if (forward_init) test_assert_bool_not_equal( enkf_node_initialize( gen_kw_node , 0 , enkf_state_get_rng( state )) , forward_init); // else hard_failure() } test_assert_bool_equal( forward_init, ensemble_config_have_forward_init( enkf_main_get_ensemble_config( enkf_main ))); if (forward_init) { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_fs_type * fs = enkf_main_get_fs( enkf_main ); run_arg_type * run_arg = run_arg_alloc_ENSEMBLE_EXPERIMENT( fs , 0 , 0 , "simulations/run0"); enkf_node_type * gen_kw_node = enkf_state_get_node( state , "MULTFLT" ); node_id_type node_id = {.report_step = 0 , .iens = 0, .state = ANALYZED }; create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); { int error = 0; stringlist_type * msg_list = stringlist_alloc_new(); bool_vector_type * iactive = bool_vector_alloc( enkf_main_get_ensemble_size( enkf_main ) , true); test_assert_false( enkf_node_has_data( gen_kw_node , fs, node_id )); util_unlink_existing( "simulations/run0/MULTFLT_INIT" ); test_assert_false( enkf_node_forward_init( gen_kw_node , "simulations/run0" , 0 )); enkf_state_forward_init( state , run_arg , &error ); test_assert_true(LOAD_FAILURE & error); error = 0; { enkf_fs_type * fs = enkf_main_get_fs( enkf_main ); state_map_type * state_map = enkf_fs_get_state_map(fs); state_map_iset(state_map , 0 , STATE_INITIALIZED); } enkf_state_load_from_forward_model( state , run_arg , &error , false , msg_list ); stringlist_free( msg_list ); bool_vector_free( iactive ); test_assert_true(LOAD_FAILURE & error); } { FILE * stream = util_fopen("simulations/run0/MULTFLT_INIT" , "w"); fprintf(stream , "123456.0\n" ); fclose( stream ); } { int error = 0; stringlist_type * msg_list = stringlist_alloc_new(); test_assert_true( enkf_node_forward_init( gen_kw_node , "simulations/run0" , 0 )); enkf_state_forward_init( state , run_arg , &error ); test_assert_int_equal(0, error); enkf_state_load_from_forward_model( state , run_arg , &error , false , msg_list ); stringlist_free( msg_list ); test_assert_int_equal(0, error); { double value; test_assert_true( enkf_node_user_get( gen_kw_node , fs , "MULTFLT" , node_id , &value)); test_assert_double_equal( 123456.0 , value); } } test_assert_true( util_is_file ("simulations/run0/parameters.txt")); //Export of gen kw params util_clear_directory( "simulations" , true , true ); create_runpath( enkf_main ); test_assert_true( util_is_directory( "simulations/run0" )); test_assert_true( util_is_file( "simulations/run0/MULTFLT.INC" )); { FILE * stream = util_fopen("simulations/run0/MULTFLT.INC" , "r"); double value; fscanf(stream , "%lg" , &value); fclose( stream ); test_assert_double_equal( 123456.0 , value); } util_clear_directory( "simulations" , true , true ); run_arg_free( run_arg ); } enkf_main_free( enkf_main ); } test_work_area_free( work_area ); }
int main(int argc , char ** argv) { enkf_main_install_SIGNALS(); { const char * config_file = argv[1]; const char * init_file = argv[2]; const char * forward_init_string = argv[3]; bool forward_init; bool strict = true; enkf_main_type * enkf_main; test_assert_true( util_sscanf_bool( forward_init_string , &forward_init)); util_clear_directory( "/tmp/Storage" , true , true ); enkf_main = enkf_main_bootstrap( NULL , config_file , strict , true ); { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_node_type * surface_node = enkf_state_get_node( state , "SURFACE" ); { const enkf_config_node_type * surface_config_node = enkf_node_get_config( surface_node ); char * init_file1 = enkf_config_node_alloc_initfile( surface_config_node , NULL , 0); char * init_file2 = enkf_config_node_alloc_initfile( surface_config_node , "/tmp", 0); test_assert_bool_equal( enkf_config_node_use_forward_init( surface_config_node ) , forward_init ); test_assert_string_equal( init_file1 , "Surface.irap"); test_assert_string_equal( init_file2 , "/tmp/Surface.irap"); free( init_file1 ); free( init_file2 ); } test_assert_bool_equal( enkf_node_use_forward_init( surface_node ) , forward_init ); if (forward_init) test_assert_bool_not_equal( enkf_node_initialize( surface_node , 0 , enkf_state_get_rng( state )) , forward_init); // else hard_failure() } test_assert_bool_equal( forward_init, ensemble_config_have_forward_init( enkf_main_get_ensemble_config( enkf_main ))); if (forward_init) { enkf_state_type * state = enkf_main_iget_state( enkf_main , 0 ); enkf_fs_type * fs = enkf_main_get_fs( enkf_main ); enkf_node_type * surface_node = enkf_state_get_node( state , "SURFACE" ); node_id_type node_id = {.report_step = 0 , .iens = 0, .state = ANALYZED }; create_runpath( enkf_main ); test_assert_true( util_is_directory( "/tmp/simulations/run0" )); { bool loadOK = true; stringlist_type * msg_list = stringlist_alloc_new(); { run_mode_type run_mode = ENSEMBLE_EXPERIMENT; enkf_main_init_run(enkf_main , run_mode); /* This is ugly */ } test_assert_false( enkf_node_has_data( surface_node , fs, node_id )); util_unlink_existing( "/tmp/simulations/run0/Surface.irap" ); test_assert_false( enkf_node_forward_init( surface_node , "/tmp/simulations/run0" , 0 )); enkf_state_forward_init( state , fs , &loadOK ); test_assert_false( loadOK ); loadOK = true; enkf_state_load_from_forward_model( state , fs , &loadOK , false , msg_list ); stringlist_free( msg_list ); test_assert_false( loadOK ); } util_copy_file( init_file , "/tmp/simulations/run0/Surface.irap"); { bool loadOK = true; stringlist_type * msg_list = stringlist_alloc_new(); { run_mode_type run_mode = ENSEMBLE_EXPERIMENT; enkf_main_init_run(enkf_main , run_mode); /* This is ugly */ } test_assert_true( enkf_node_forward_init( surface_node , "/tmp/simulations/run0" , 0 )); enkf_state_forward_init( state , fs , &loadOK ); test_assert_true( loadOK ); enkf_state_load_from_forward_model( state , fs , &loadOK , false , msg_list ); stringlist_free( msg_list ); test_assert_true( loadOK ); { double value; test_assert_true( enkf_node_user_get( surface_node , fs , "0" , node_id , &value)); test_assert_double_equal( 2735.7461 , value); test_assert_true( enkf_node_user_get( surface_node , fs , "5" , node_id , &value)); test_assert_double_equal( 2737.0122 , value); } } util_clear_directory( "/tmp/simulations" , true , true ); create_runpath( enkf_main ); test_assert_true( util_is_directory( "/tmp/simulations/run0" )); test_assert_true( util_is_file( "/tmp/simulations/run0/SURFACE.INC" )); test_assert_true( enkf_node_fload( surface_node , "/tmp/simulations/run0/SURFACE.INC")); { double value; test_assert_true( enkf_node_user_get( surface_node , fs , "0" , node_id , &value)); test_assert_double_equal( 2735.7461 , value); test_assert_true( enkf_node_user_get( surface_node , fs , "5" , node_id , &value)); test_assert_double_equal( 2737.0122 , value); } util_clear_directory( "/tmp/simulations" , true , true ); } enkf_main_free( enkf_main ); } }
void test_create() { enkf_main_type * enkf_main = enkf_main_alloc_empty(); test_assert_true( enkf_main_is_instance( enkf_main ) ); enkf_main_free( enkf_main ); }
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); }