int test_load_manually_to_new_case(enkf_main_type * enkf_main) {
int result = 0;
int iens = 0;
int iter = 0;
const char * casename = "new_case";
enkf_main_select_fs( enkf_main , casename );
enkf_fs_type * fs = enkf_main_get_fs( enkf_main );
run_arg_type * run_arg = run_arg_alloc_ENSEMBLE_EXPERIMENT(fs , iens , iter , "simulations/run0");
{
arg_pack_type * arg_pack = arg_pack_alloc();
arg_pack_append_ptr( arg_pack , enkf_main_iget_state(enkf_main, 0));
arg_pack_append_ptr( arg_pack , run_arg );
arg_pack_append_bool( arg_pack , true );
arg_pack_append_owned_ptr( arg_pack , stringlist_alloc_new() , stringlist_free__);
arg_pack_append_bool( arg_pack, true );
arg_pack_append_ptr( arg_pack, &result );
enkf_state_load_from_forward_model_mt(arg_pack);
arg_pack_free(arg_pack);
}
return result;
}
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);
}
ert_run_context_type * ert_run_context_alloc_ENSEMBLE_EXPERIMENT(enkf_fs_type * fs , const bool_vector_type * iactive ,
path_fmt_type * runpath_fmt ,
subst_list_type * subst_list ,
int iter) {
ert_run_context_type * context = ert_run_context_alloc( iactive , ENSEMBLE_EXPERIMENT , fs , fs , NULL , iter);
{
stringlist_type * runpath_list = ert_run_context_alloc_runpath_list( iactive , runpath_fmt , subst_list , iter );
for (int iens = 0; iens < bool_vector_size( iactive ); iens++) {
if (bool_vector_iget( iactive , iens )) {
run_arg_type * arg = run_arg_alloc_ENSEMBLE_EXPERIMENT( fs , iens , iter , stringlist_iget( runpath_list , iens));
vector_append_owned_ref( context->run_args , arg , run_arg_free__);
}
}
stringlist_free( runpath_list );
}
return context;
}
void forward_initialize_node(enkf_main_type * enkf_main, const char * init_file, enkf_node_type * field_node) {
{
const int ens_size = enkf_main_get_ensemble_size( enkf_main );
bool_vector_type * iactive = bool_vector_alloc(0, false);
bool_vector_iset( iactive , ens_size - 1 , true );
enkf_main_create_run_path(enkf_main , iactive , 0);
bool_vector_free(iactive);
}
{
int iens = 0;
enkf_state_type * state = enkf_main_iget_state( enkf_main , iens );
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_state_forward_init( state , run_arg);
}
}
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 );
}
