func main() { s1 := "9/30/12" s2 := "1/10/14" fmt.Printf("Date %v \n", tk.MakeDate("1/2/06", s1)) fmt.Printf("Date %v \n", tk.MakeDate("1/2/06", s2)) }
func TestLoad(t *testing.T) { t.Skip() if econnect := connect(); econnect != nil { t.Error("Unable to connect to database") return } defer close() q := ctx.Query().From("tmpOutages").Select("Start Date", "Start Time", "Total") c := q.Cursor(nil) defer c.Close() var m tk.M for b, _ := c.Fetch(&m); b; b, _ = c.Fetch(&m) { //go func(m tk.M) { dt := tk.MakeDate("1/2/06", m.Get("Start Date", "1/1/1980").(string)).UTC() tm := tk.MakeDate("03:04� ", m.Get("Start Time", "00:00").(string)).UTC() //tm := tk.MakeDate("03:04� ", m.Get("Start Time", "00:00").(string)).UTC().Sub(tk.MakeDate("03:04", "00:00").UTC()) dt = tk.AddTime(dt, tm) fmt.Printf("Data %v has: %v\n", dt.Format("2-Jan-2006 03:04"), m.GetFloat64("Total")) //}(m) } }
func TestModeler(t *testing.T) { t.Skip() //var e error if econnect := connect(); econnect != nil { t.Error("Unable to connect to database") return } defer close() ormConn := orm.New(ctx) defer ormConn.Close() ormConn.DeleteMany(new(Outage), nil) cats := make([]OutageCategory, 0) ormConn.Find(new(OutageCategory), nil).FetchAll(&cats, true) findCat := func(id string) *OutageCategory { for _, v := range cats { if v.Id == id { return &v } } return new(OutageCategory).New() } q := ctx.Query().From("tmpOutages") c := q.Cursor(nil) defer c.Close() var m tk.M for b, _ := c.Fetch(&m); b; b, _ = c.Fetch(&m) { //if m.Get("Start Date") == "9/30/12" { //go func(m tk.M) { dt := tk.MakeDate("1/2/06", m.Get("Start Date", "1/1/1980").(string)).UTC() tm := tk.MakeDate("15:04� ", m.Get("Start Time", "00:00").(string)).UTC() dt = tk.AddTime(dt, tm) //fmt.Println(tm) dt2 := tk.MakeDate("1/2/06", m.Get("Finish Date", "1/1/1980").(string)).UTC() tm2 := tk.MakeDate("15:04� ", m.Get("Finish Time", "00:00").(string)).UTC() dt2 = tk.AddTime(dt2, tm2) o := new(Outage) o.PlantName = m.Get("Plant Name").(string) if strings.Contains(o.PlantName, "Ghazlan") { o.PlantName = "Ghazlan" } else if strings.Contains(o.PlantName, "Rabigh") { o.PlantName = "Rabigh" } o.UnitNo = m.Get("Unit No").(string) o.Year = dt.Year() o.Month = int(dt.Month()) o.PrepareId() o.Summaries = []OutageSummary{} b, e := ormConn.GetById(o, o.Id) if b { fmt.Printf("Data already exist for %s\n", o.Id) } else { fmt.Printf("Data is not exist for %s\n", o.Id) } i := OutageItem{} i.CategoryId = m.Get("Outage Type").(string) if strings.HasPrefix(i.CategoryId, "FO") { i.CategoryId = "FO" } else if i.CategoryId == "UC-" { i.CategoryId = "UC" } i.DateFrom = dt i.DateTo = dt2 i.Reason = m.Get("Outage Reason").(string) i.Hours = m.GetFloat64("Total") cat := findCat(i.CategoryId) if cat != nil { i.Valid = cat.Scan(i.Reason) } if i.Valid == false { found := false for _, cv := range cats { found = cv.Scan(i.Reason) if found { i.SuggestedCategoryId = cv.Id break } } } o.AddOutage(i, true) if e = ormConn.Save(o); e != nil { t.Errorf("Unable to save %s => %s", o.Id, e.Error()) } //}(m) //} } }