#include #include #include #include #include #include "../util/create_env.h" /** @brief test_rand * * deserialize and serialize the time * */ axis2_status_t test_date_time(axutil_env_t *env) { axutil_date_time_t *date_time = NULL; axutil_date_time_t *ref = NULL; axutil_date_time_t *date_time_offset = NULL; axis2_char_t *time_str = "22:45:12"; axis2_char_t *date_str = "2000-12-12"; axis2_char_t *date_time_str = "2000-11-11T12:30:24"; axis2_status_t status = AXIS2_FAILURE; axutil_date_time_comp_result_t compare_res = AXIS2_DATE_TIME_COMP_RES_FAILURE; axis2_char_t *t_str = NULL, *d_str = NULL, *dt_str = NULL; int year , month , date , hour , min , sec , msec; date_time_offset = axutil_date_time_create_with_offset(env, 100); if(!date_time_offset) { printf("axutil_date_time_t creation failed.\n"); return AXIS2_FAILURE; } date_time = axutil_date_time_create(env); if(!date_time) { printf("axutil_date_time_t creation failed.\n"); return AXIS2_FAILURE; } status = axutil_date_time_deserialize_time(date_time, env, time_str); if(status) printf("axutil_date_time_t time string deserialization success.\n"); status = axutil_date_time_deserialize_date(date_time, env, date_str); if(status) printf("axutil_date_time_t date string deserialization success.\n"); status = axutil_date_time_deserialize_date_time(date_time, env, date_time_str); if(status) printf("axutil_date_time_t date time string deserialization success.\n"); ref = axutil_date_time_create(env); if(!ref) { printf("axutil_date_time_t creation failed.\n"); return AXIS2_FAILURE; } compare_res = axutil_date_time_compare(date_time, env, ref); if(compare_res == AXIS2_DATE_TIME_COMP_RES_FAILURE) { printf("axutil_date_time comparison failed.\n"); } status = axutil_date_time_deserialize_date_time(ref, env, date_time_str); if(status) printf("axutil_date_time_t date time string deserialization success.\n"); compare_res = axutil_date_time_compare(date_time, env, ref); if(compare_res == AXIS2_DATE_TIME_COMP_RES_EQUAL) { printf("axutil_date_time_t comparison success."); } status = axutil_date_time_set_date_time(date_time, env, 2008, 1, 8, 12, 18, 57, 799); if(status) { printf("axutil_date_time_t set date time success.\n"); } t_str = axutil_date_time_serialize_time(date_time, env); if(!t_str) { printf("axutil_date_time_t time serialization failed.\n"); } else { printf("axutil_date_time_t Time: %s\n", t_str); } d_str = axutil_date_time_serialize_date(date_time, env); if(!d_str) { printf("axutil_date_time_t date serialization failed.\n"); } else { printf("axutil_date_time_t Date: %s\n", d_str); } dt_str = axutil_date_time_serialize_date_time(date_time, env); if(!dt_str) { printf("axutil_date_time_t date time serialization failed.\n"); } else { printf("axutil_date_time_t Date Time: %s\n", dt_str); } year = axutil_date_time_get_year(date_time,env); month=axutil_date_time_get_month(date_time,env); date = axutil_date_time_get_day(date_time,env); hour = axutil_date_time_get_hour(date_time,env); min = axutil_date_time_get_minute(date_time,env); sec = axutil_date_time_get_second(date_time,env); msec = axutil_date_time_get_msec(date_time,env); printf("axutil_date_time_t year: %d \n",year); printf("axutil_date_time_t month: %d \n",month); printf("axutil_date_time_t date: %d \n",date); printf("axutil_date_time_t hour: %d \n",hour); printf("axutil_date_time_t min: %d \n",min); printf("axutil_date_time_t sec: %d \n",sec); printf("axutil_date_time_t msec: %d \n",msec); axutil_date_time_free(date_time,env); axutil_date_time_free(ref, env); axutil_date_time_free(date_time_offset, env); return AXIS2_SUCCESS; } int main() { axutil_env_t *env = NULL; int status = AXIS2_SUCCESS; env = create_environment(); status = test_date_time(env); if(status != AXIS2_SUCCESS) { printf("axutil_date_time_t test failed"); } else { printf("axutil_date_time_t test successful"); } axutil_env_free(env); return 0; }