obs_vector_type * obs_vector_alloc_from_GENERAL_OBSERVATION(const conf_instance_type * conf_instance , const history_type * history, const ensemble_config_type * ensemble_config) {
if(!conf_instance_is_of_class(conf_instance, "GENERAL_OBSERVATION"))
util_abort("%s: internal error. expected \"GENERAL_OBSERVATION\" instance, got \"%s\".\n",
__func__, conf_instance_get_class_name_ref(conf_instance) );
const char * obs_key = conf_instance_get_name_ref(conf_instance);
const char * state_kw = conf_instance_get_item_value_ref( conf_instance, "DATA" );
if (ensemble_config_has_key( ensemble_config , state_kw )) {
const char * obs_key = conf_instance_get_name_ref(conf_instance);
int size = history_get_last_restart( history );
obs_vector_type * obs_vector = obs_vector_alloc( GEN_OBS , obs_key , ensemble_config_get_node(ensemble_config , state_kw ), size);
int obs_restart_nr = __conf_instance_get_restart_nr(conf_instance , obs_key , history , size);
const char * index_file = NULL;
const char * index_list = NULL;
const char * obs_file = NULL;
const char * error_covar_file = NULL;
if (conf_instance_has_item(conf_instance , "INDEX_FILE"))
index_file = conf_instance_get_item_value_ref( conf_instance, "INDEX_FILE" );
if (conf_instance_has_item(conf_instance , "INDEX_LIST"))
index_list = conf_instance_get_item_value_ref( conf_instance, "INDEX_LIST" );
if (conf_instance_has_item(conf_instance , "OBS_FILE"))
obs_file = conf_instance_get_item_value_ref( conf_instance, "OBS_FILE" );
if (conf_instance_has_item(conf_instance , "ERROR_COVAR"))
error_covar_file = conf_instance_get_item_value_ref( conf_instance, "ERROR_COVAR" );
{
const enkf_config_node_type * config_node = ensemble_config_get_node( ensemble_config , state_kw);
if (enkf_config_node_get_impl_type(config_node) == GEN_DATA) {
double scalar_error = -1;
double scalar_value = -1;
gen_obs_type * gen_obs ;
if (conf_instance_has_item(conf_instance , "VALUE")) {
scalar_value = conf_instance_get_item_value_double(conf_instance , "VALUE");
scalar_error = conf_instance_get_item_value_double(conf_instance , "ERROR");
}
/** The config system has ensured that we have either OBS_FILE or (VALUE and ERROR). */
gen_obs = gen_obs_alloc( enkf_config_node_get_ref( config_node ) , obs_key , obs_file , scalar_value , scalar_error , index_file , index_list , error_covar_file);
obs_vector_install_node( obs_vector , obs_restart_nr , gen_obs );
} else {
ert_impl_type impl_type = enkf_config_node_get_impl_type(config_node);
util_abort("%s: %s has implementation type:\'%s\' - expected:\'%s\'.\n",__func__ , state_kw , enkf_types_get_impl_name(impl_type) , enkf_types_get_impl_name(GEN_DATA));
}
}
return obs_vector;
} else {
fprintf(stderr,"** Warning the ensemble key:%s does not exist - observation:%s not added \n", state_kw , obs_key);
return NULL;
}
}
void test_create(enkf_config_node_type * config_node ) {
obs_vector_type * obs_vector = obs_vector_alloc( SUMMARY_OBS , "OBS" , config_node , 100 );
test_assert_true( obs_vector_is_instance( obs_vector ));
{
const int_vector_type * step_list = obs_vector_get_step_list( obs_vector );
{
summary_obs_type * obs_node = summary_obs_alloc( "FOPT" , "FOPT" , 10 , 1 , NULL , 0);
obs_vector_install_node( obs_vector , 10 , obs_node );
test_assert_int_equal( 1 , int_vector_size( step_list ));
test_assert_int_equal( 10 , int_vector_iget( step_list , 0));
}
{
summary_obs_type * obs_node = summary_obs_alloc( "FOPT" , "FOPT" , 10 , 1 , NULL , 0);
obs_vector_install_node( obs_vector , 10 , obs_node );
test_assert_int_equal( 1 , int_vector_size( step_list ));
test_assert_int_equal( 10 , int_vector_iget( step_list , 0));
}
{
summary_obs_type * obs_node = summary_obs_alloc( "FOPT" , "FOPT" , 10 , 1 , NULL , 0);
obs_vector_install_node( obs_vector , 5 , obs_node );
test_assert_int_equal( 2 , int_vector_size( step_list ));
test_assert_int_equal( 5 , int_vector_iget( step_list , 0));
test_assert_int_equal( 10 , int_vector_iget( step_list , 1));
}
{
summary_obs_type * obs_node = summary_obs_alloc( "FOPT" , "FOPT" , 10 , 1 , NULL , 0);
obs_vector_install_node( obs_vector , 15 , obs_node );
test_assert_int_equal( 3 , int_vector_size( step_list ));
test_assert_int_equal( 5 , int_vector_iget( step_list , 0));
test_assert_int_equal( 10 , int_vector_iget( step_list , 1));
test_assert_int_equal( 15 , int_vector_iget( step_list , 2));
}
}
obs_vector_free( obs_vector );
}
obs_vector_type * obs_vector_alloc_from_BLOCK_OBSERVATION(const conf_instance_type * conf_instance ,
const ecl_grid_type * grid ,
const ecl_sum_type * refcase ,
const history_type * history,
ensemble_config_type * ensemble_config) {
if(!conf_instance_is_of_class(conf_instance, "BLOCK_OBSERVATION"))
util_abort("%s: internal error. expected \"BLOCK_OBSERVATION\" instance, got \"%s\".\n",
__func__, conf_instance_get_class_name_ref(conf_instance) );
block_obs_source_type source_type = SOURCE_SUMMARY;
const char * obs_label = conf_instance_get_name_ref(conf_instance);
const char * source_string = conf_instance_get_item_value_ref(conf_instance , "SOURCE");
const char * field_name = conf_instance_get_item_value_ref(conf_instance , "FIELD");
const char * sum_kw = NULL;
bool OK = true;
if (strcmp(source_string , "FIELD") == 0) {
source_type = SOURCE_FIELD;
if (!ensemble_config_has_key( ensemble_config , field_name)) {
OK = false;
fprintf(stderr,"** Warning the ensemble key:%s does not exist - observation:%s not added \n", field_name , obs_label);
}
} else if (strcmp( source_string , "SUMMARY") == 0) {
source_type = SOURCE_SUMMARY;
sum_kw = __summary_kw( field_name );
} else
util_abort("%s: internal error \n",__func__);
if (OK) {
obs_vector_type * obs_vector = NULL;
int size = history_get_last_restart( history );
int obs_restart_nr ;
stringlist_type * summary_keys = stringlist_alloc_new();
stringlist_type * obs_pt_keys = conf_instance_alloc_list_of_sub_instances_of_class_by_name(conf_instance, "OBS");
int num_obs_pts = stringlist_get_size(obs_pt_keys);
double * obs_value = util_calloc(num_obs_pts , sizeof * obs_value);
double * obs_std = util_calloc(num_obs_pts , sizeof * obs_std );
int * obs_i = util_calloc(num_obs_pts , sizeof * obs_i );
int * obs_j = util_calloc(num_obs_pts , sizeof * obs_j );
int * obs_k = util_calloc(num_obs_pts , sizeof * obs_k );
obs_restart_nr = __conf_instance_get_restart_nr(conf_instance , obs_label , history , size);
/** Build the observation. */
for(int obs_pt_nr = 0; obs_pt_nr < num_obs_pts; obs_pt_nr++) {
const char * obs_key = stringlist_iget(obs_pt_keys, obs_pt_nr);
const conf_instance_type * obs_instance = conf_instance_get_sub_instance_ref(conf_instance, obs_key);
const char * error_mode = conf_instance_get_item_value_ref(obs_instance, "ERROR_MODE");
double error = conf_instance_get_item_value_double(obs_instance, "ERROR");
double value = conf_instance_get_item_value_double(obs_instance, "VALUE");
double min_error = conf_instance_get_item_value_double(obs_instance, "ERROR_MIN");
if (strcmp( error_mode , "REL") == 0)
error *= value;
else if (strcmp( error_mode , "RELMIN") == 0)
error = util_double_max( error * value , min_error );
obs_value[obs_pt_nr] = value;
obs_std [obs_pt_nr] = error;
/**
The input values i,j,k come from the user, and are offset 1. They
are immediately shifted with -1 to become C-based offset zero.
*/
obs_i[obs_pt_nr] = conf_instance_get_item_value_int( obs_instance, "I") - 1;
obs_j[obs_pt_nr] = conf_instance_get_item_value_int( obs_instance, "J") - 1;
obs_k[obs_pt_nr] = conf_instance_get_item_value_int( obs_instance, "K") - 1;
if (source_type == SOURCE_SUMMARY) {
char * summary_key = smspec_alloc_block_ijk_key( SUMMARY_KEY_JOIN_STRING , sum_kw ,
obs_i[obs_pt_nr] + 1 ,
obs_j[obs_pt_nr] + 1 ,
obs_k[obs_pt_nr] + 1 );
stringlist_append_owned_ref( summary_keys , summary_key );
}
}
if (source_type == SOURCE_FIELD) {
const enkf_config_node_type * config_node = ensemble_config_get_node( ensemble_config , field_name);
const field_config_type * field_config = enkf_config_node_get_ref( config_node );
block_obs_type * block_obs = block_obs_alloc_complete(obs_label, source_type , NULL , field_config , grid , num_obs_pts, obs_i, obs_j, obs_k, obs_value, obs_std);
if (block_obs != NULL) {
obs_vector = obs_vector_alloc( BLOCK_OBS , obs_label , ensemble_config_get_node(ensemble_config , field_name), size );
obs_vector_install_node( obs_vector , obs_restart_nr , block_obs);
}
} else if (source_type == SOURCE_SUMMARY) {
OK = true;
if (refcase != NULL) {
for (int i=0; i < stringlist_get_size( summary_keys ); i++) {
const char * sum_key = stringlist_iget( summary_keys , i );
if (!ecl_sum_has_key(refcase , sum_key)) {
/*
If the
*/
fprintf(stderr,"** Warning missing summary %s for cell: (%d,%d,%d) in refcase - make sure that \"BPR %d %d %d\" is included in ECLIPSE summary specification \n" ,
sum_key , obs_i[i]+1 , obs_j[i]+1 , obs_k[i]+1 , obs_i[i]+1 , obs_j[i]+1 , obs_k[i]+1 );
//OK = false;
}
}
}
if (OK) {
// We can create the container node and add the summary nodes.
enkf_config_node_type * container_config = ensemble_config_add_container( ensemble_config , NULL );
for (int i=0; i < stringlist_get_size( summary_keys ); i++) {
const char * sum_key = stringlist_iget( summary_keys , i );
enkf_config_node_type * child_node = ensemble_config_add_summary( ensemble_config , sum_key , LOAD_FAIL_WARN );
enkf_config_node_update_container( container_config , child_node );
}
{
block_obs_type * block_obs = block_obs_alloc_complete(obs_label, source_type , summary_keys , enkf_config_node_get_ref(container_config) ,
grid , num_obs_pts, obs_i, obs_j, obs_k, obs_value, obs_std);
if (block_obs != NULL) {
obs_vector = obs_vector_alloc( BLOCK_OBS , obs_label , container_config, size );
obs_vector_install_node( obs_vector , obs_restart_nr , block_obs);
}
}
}
} else
util_abort("%s: invalid source value \n",__func__);
free(obs_value);
free(obs_std);
free(obs_i);
free(obs_j);
free(obs_k);
stringlist_free(obs_pt_keys);
stringlist_free(summary_keys);
return obs_vector;
} else {
fprintf(stderr,"** Warning the ensemble key:%s does not exist - observation:%s not added \n", field_name , obs_label);
return NULL;
}
}