{
name = data_out_pool (value, dict_get_encoding (old_dict),
var_get_write_format (flip->new_names_var),
- flip->pool);
+ settings_get_fmt_settings (), flip->pool);
}
var_names_add (flip->pool, &flip->new_names, name);
}
return CMD_SUCCESS;
error:
- dict_destroy (new_dict);
+ dict_unref (new_dict);
destroy_flip_pgm (flip);
return CMD_CASCADING_FAILURE;
}
return false;
}
- for (case_idx = 0; case_idx < flip->n_cases; )
+ for (case_idx = 0; case_idx < flip->n_cases;)
{
unsigned long read_cases = MIN (flip->n_cases - case_idx,
case_capacity);
c = case_create (casereader_get_proto (reader));
data_in (ss_cstr (flip->old_names.names[flip->cases_read]), flip->encoding,
- FMT_A, case_data_rw_idx (c, 0), 8, flip->encoding);
+ FMT_A, settings_get_fmt_settings (), case_data_rw_idx (c, 0),
+ 8, flip->encoding);
for (i = 0; i < flip->n_cases; i++)
{
flip->error = true;
return NULL;
}
- case_data_rw_idx (c, i + 1)->f = in;
+ *case_num_rw_idx (c, i + 1) = in;
}
flip->cases_read++;
Returns true if successful read, false if an I/O occurred
during destruction or previously. */
static void
-flip_casereader_destroy (struct casereader *reader UNUSED, void *flip_)
+flip_casereader_destroy (struct casereader *reader, void *flip_)
{
struct flip_pgm *flip = flip_;
if (flip->error)