func (s *ScenarioSimulation) GetData(k *knot.WebContext) interface{} {
k.Config.OutputType = knot.OutputJson
status := ""
msg := ""
res := []*ValueEquation{}
payloads := struct {
StartPeriod string
EndPeriod string
SelectedPlant []string
SelectedUnit []string
SelectedSimulation string
SelectedDescription string
}{}
e := k.GetPayload(&payloads)
if e != nil {
s.WriteLog(e)
}
start, _ := time.Parse(time.RFC3339, payloads.StartPeriod)
end, _ := time.Parse(time.RFC3339, payloads.EndPeriod)
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", start))
query = append(query, dbox.Lte("Dates", end))
if payloads.SelectedPlant != nil && len(payloads.SelectedPlant) > 0 {
query = append(query, dbox.In("Plant", payloads.SelectedPlant))
}
if payloads.SelectedUnit != nil && len(payloads.SelectedUnit) > 0 {
query = append(query, dbox.In("Unit", payloads.SelectedUnit))
}
csr, err := s.DB().Connection.NewQuery().From("ValueEquation").Select("Plant", "AvgNetGeneration", "VOMR", "TotalOutageDuration", "TotalDuration", "OperatingCost", "Revenue", "TotalLabourCost", "TotalMaterialCost", "TotalServicesCost", "TotalFuelCost").Where(query...).Cursor(nil)
if err != nil {
msg = err.Error()
status = "NOK"
} else {
status = "OK"
}
err = csr.Fetch(&res, 0, true)
defer csr.Close()
result := tk.M{}
result.Set("Status", status)
result.Set("Message", msg)
result.Set("Data", res)
return result
}
func filterCondition(cond toolkit.M) *dbox.Filter {
fb := new(dbox.Filter)
for key, val := range cond {
if key == "$and" || key == "$or" {
afb := []*dbox.Filter{}
for _, sVal := range val.([]interface{}) {
rVal := sVal.(map[string]interface{})
mVal := toolkit.M{}
for rKey, mapVal := range rVal {
mVal.Set(rKey, mapVal)
}
afb = append(afb, filterCondition(mVal))
}
if key == "$and" {
fb = dbox.And(afb...)
} else {
fb = dbox.Or(afb...)
}
} else {
if reflect.ValueOf(val).Kind() == reflect.Map {
mVal := val.(map[string]interface{})
tomVal, _ := toolkit.ToM(mVal)
switch {
case tomVal.Has("$eq"):
fb = dbox.Eq(key, tomVal["$eq"].(string))
case tomVal.Has("$ne"):
fb = dbox.Ne(key, tomVal["$ne"].(string))
case tomVal.Has("$regex"):
fb = dbox.Contains(key, tomVal["$regex"].(string))
case tomVal.Has("$gt"):
fb = dbox.Gt(key, tomVal["$gt"].(string))
case tomVal.Has("$gte"):
fb = dbox.Gte(key, tomVal["$gte"].(string))
case tomVal.Has("$lt"):
fb = dbox.Lt(key, tomVal["$lt"].(string))
case tomVal.Has("$lte"):
fb = dbox.Lte(key, tomVal["$lte"].(string))
}
} else {
fb = dbox.Eq(key, val)
}
}
}
return fb
}
func (m *ValueEquationComparison) GetData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
m.SetPayLoad(k)
type DataValue struct {
Revenue float64 `json:'Revenue'`
MaintenanceCost float64 `json:'MaintenanceCost'`
OperatingCost float64 `json:'OperatingCost'`
NetGeneration float64 `json:'NetGeneration'`
}
result, Result := tk.M{}, []DataValue{}
c := ctx.Connection
ve := ValueEquation{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
if m.SelectedPlant != nil && len(m.SelectedPlant) > 0 {
query = append(query, dbox.In("Plant", m.SelectedPlant))
}
if m.SelectedUnit != nil && len(m.SelectedUnit) > 0 {
query = append(query, dbox.In("Unit", m.SelectedUnit))
}
if m.SelectedUnitGroup != "ALL" {
query = append(query, dbox.In("UnitGroup", m.SelectedUnitGroup))
}
csr, e := c.NewQuery().
Where(query...).
Aggr(dbox.AggrSum, "Revenue", "Revenue").
Aggr(dbox.AggrSum, "MaintenanceCost", "MaintenanceCost").
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
Aggr(dbox.AggrSum, "NetGeneration", "NetGeneration").
From(ve.TableName()).Cursor(nil)
e = csr.Fetch(&Result, 0, false)
if e != nil {
return nil, e
}
csr.Close()
result.Set("Index", m.Index)
result.Set("DataValue", Result)
return result, nil
}
func TestFind(t *testing.T) {
ms := []toolkit.M{}
for i := 1; i <= 10; i++ {
m := toolkit.M{}
m.Set("_id", i)
m.Set("random", toolkit.RandInt(100))
ms = append(ms, m)
}
toolkit.Printf("Original Value\n%s\n", toolkit.JsonString(ms))
indexes := dbox.Find(ms, []*dbox.Filter{
//dbox.Or(dbox.Lt("random", 20), dbox.And(dbox.Gte("random", 60), dbox.Lte("random", 70)))})
dbox.And(dbox.Gte("random", 30), dbox.Lte("random", 80))})
records := []toolkit.M{}
for _, v := range indexes {
records = append(records, ms[v])
}
for _, r := range records {
toolkit.Printf("Record: %s \n", toolkit.JsonString(r))
}
toolkit.Printf("Find %d records of %d records\n", len(indexes), len(ms))
}
func filterCondition(cond toolkit.M) *dbox.Filter {
fb := new(dbox.Filter)
for key, val := range cond {
if key == "$and" || key == "$or" {
afb := []*dbox.Filter{}
for _, sVal := range val.([]interface{}) {
rVal := sVal.(map[string]interface{})
mVal := toolkit.M{}
for rKey, mapVal := range rVal {
mVal.Set(rKey, mapVal)
}
afb = append(afb, filterCondition(mVal))
}
if key == "$and" {
fb = dbox.And(afb...)
} else {
fb = dbox.Or(afb...)
}
} else {
if toolkit.TypeName(val) == "map[string]interface {}" {
mVal := val.(map[string]interface{})
tomVal, _ := toolkit.ToM(mVal)
switch {
case tomVal.Has("$eq"):
fb = dbox.Eq(key, tomVal["$eq"])
case tomVal.Has("$ne"):
fb = dbox.Ne(key, tomVal["$ne"])
case tomVal.Has("$regex"):
fb = dbox.Contains(key, toolkit.ToString(tomVal["$regex"]))
case tomVal.Has("$gt"):
fb = dbox.Gt(key, tomVal["$gt"])
case tomVal.Has("$gte"):
fb = dbox.Gte(key, tomVal["$gte"])
case tomVal.Has("$lt"):
fb = dbox.Lt(key, tomVal["$lt"])
case tomVal.Has("$lte"):
fb = dbox.Lte(key, tomVal["$lte"])
case tomVal.Has("$in"):
tval := make([]interface{}, 0, 0)
if toolkit.TypeName(tomVal["$in"]) == "[]interface {}" {
for _, tin := range tomVal["$in"].([]interface{}) {
tval = append(tval, tin)
}
} else {
tval = append(tval, tomVal["$in"])
}
fb = dbox.In(key, tval...)
case tomVal.Has("$nin"):
tval := make([]interface{}, 0, 0)
if toolkit.TypeName(tomVal["$nin"]) == "[]interface {}" {
for _, tin := range tomVal["$nin"].([]interface{}) {
tval = append(tval, tin)
}
} else {
tval = append(tval, tomVal["$nin"])
}
fb = dbox.Nin(key, tval...)
}
} else {
fb = dbox.Eq(key, val)
}
}
}
return fb
}
func (m *HistoricalValueEquation) GetSummaryData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
m.SetPayLoad(k)
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
Revenue float64 `json:'Revenue'`
MaintenanceCost float64 `json:'MaintenanceCost'`
OperatingCost float64 `json:'OperatingCost'`
}
result, DataChart, DataDetail := tk.M{}, []DataValue{}, []*DataValue{}
c := ctx.Connection
ve := new(ValueEquation)
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
csr, e := c.NewQuery().
Where(query...).
Select("Plant").
Aggr(dbox.AggrSum, "Revenue", "Revenue").
Aggr(dbox.AggrSum, "MaintenanceCost", "MaintenanceCost").
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
From(ve.TableName()).Group("Plant").Order("Plant").Cursor(nil)
if e != nil {
return nil, e
}
if csr != nil {
e = csr.Fetch(&DataChart, 0, false)
}
if e != nil {
return nil, e
}
csr.Close()
result.Set("DataChart", DataChart)
groupBy := "Plant"
if m.Scope == "Plant" {
groupBy = "Unit"
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
}
if m.Scope != "Unit" {
csr, e := c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "Revenue", "Revenue").
Aggr(dbox.AggrSum, "MaintenanceCost", "MaintenanceCost").
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
From(ve.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataDetail, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range DataDetail {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
}
result.Set("DataDetail", DataDetail)
return result, nil
}
// generateMORFlatCalculationSummary
func (m *GenMOR) generateMORFlatCalculationSummary() error {
ctx := m.BaseController.Ctx
c := ctx.Connection
var (
query []*dbox.Filter
)
tk.Println("Generating MOR Flat Calculation Summary..")
Years := []int{2013, 2014, 2015}
query = []*dbox.Filter{}
query = append(query, dbox.Gte("TopElement", "Maintenance"))
MORSummaryList := []MORSummary{}
csr, e := c.NewQuery().Select("Element").From(new(MORSummary).TableName()).Where(query...).Group("Element").Cursor(nil)
if e != nil {
return e
}
e = csr.Fetch(&MORSummaryList, 0, false)
if e != nil {
return e
}
csr.Close()
for _, year := range Years {
query = []*dbox.Filter{}
query = append(query, dbox.Gte("Period", time.Date(year, 1, 1, 0, 0, 0, 0, time.UTC)))
query = append(query, dbox.Lt("Period", time.Date((year+1), 1, 1, 0, 0, 0, 0, time.UTC)))
MaintenanceCostList := []MaintenanceCost{}
csr, e := c.NewQuery().From(new(MaintenanceCost).TableName()).Where(query...).Cursor(nil)
if e != nil {
return e
}
e = csr.Fetch(&MaintenanceCostList, 0, false)
if e != nil {
return e
}
csr.Close()
Plants := crowd.From(&MaintenanceCostList).Group(func(x interface{}) interface{} {
return x.(MaintenanceCost).Plant
}, nil).Exec().Result.Data().([]crowd.KV)
for _, p := range Plants {
plant := p.Key.(string)
EqType := crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
return x.(MaintenanceCost).Plant == plant
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCost).EquipmentType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, eqt := range EqType {
eq := eqt.Key.(string)
ActType := crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCost).MaintenanceActivityType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, a := range ActType {
act := a.Key.(string)
OrderType := crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCost).OrderType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, o := range OrderType {
order := o.Key.(string)
for _, mor := range MORSummaryList {
d := new(MORCalculationFlatSummary)
d.PeriodYear = year
d.OrderType = order
if len(eq) == 1 {
d.EquipmentType = "Other"
} else {
d.EquipmentType = eq
}
if len(eq) == 1 {
d.EquipmentTypeDescription = "Other"
} else {
EqTypeDesc := crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq
}).Exec().Result.Data().([]MaintenanceCost)
if len(EqTypeDesc) > 0 {
d.EquipmentTypeDescription = EqTypeDesc[0].EquipmentTypeDesc
}
}
d.ActivityType = act
d.Plant = PlantNormalization(plant)
d.Element = mor.Element
d.MOCount = len(OrderType)
switch d.Element {
case "Internal Labor":
d.Value = crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCost).InternalLaborActual
}).Exec().Result.Sum
break
case "Internal Material":
d.Value = crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCost).InternalMaterialActual
}).Exec().Result.Sum
break
case "Direct Material":
d.Value = crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCost).DirectMaterialActual
}).Exec().Result.Sum
break
case "External Service":
d.Value = crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCost).ExternalServiceActual
}).Exec().Result.Sum
break
default:
break
}
_, e := ctx.InsertOut(d)
if e != nil {
tk.Println(e)
break
}
}
}
}
}
}
}
tk.Println(len(MORSummaryList))
return nil
}
func (d *DataSourceController) filterParse(where toolkit.M) *dbox.Filter {
field := where.Get("field", "").(string)
value := fmt.Sprintf("%v", where["value"])
if key := where.Get("key", "").(string); key == "Eq" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Eq(field, valueInt)
} else {
return dbox.Eq(field, value)
}
} else if key == "Ne" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Ne(field, valueInt)
} else {
return dbox.Ne(field, value)
}
} else if key == "Lt" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Lt(field, valueInt)
} else {
return dbox.Lt(field, value)
}
} else if key == "Lte" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Lte(field, valueInt)
} else {
return dbox.Lte(field, value)
}
} else if key == "Gt" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Gt(field, valueInt)
} else {
return dbox.Gt(field, value)
}
} else if key == "Gte" {
valueInt, errv := strconv.Atoi(fmt.Sprintf("%v", where["value"]))
if errv == nil {
return dbox.Gte(field, valueInt)
} else {
return dbox.Gte(field, value)
}
} else if key == "In" {
valueArray := []interface{}{}
for _, e := range strings.Split(value, ",") {
valueArray = append(valueArray, strings.Trim(e, ""))
}
return dbox.In(field, valueArray...)
} else if key == "Nin" {
valueArray := []interface{}{}
for _, e := range strings.Split(value, ",") {
valueArray = append(valueArray, strings.Trim(e, ""))
}
return dbox.Nin(field, valueArray...)
} else if key == "Contains" {
return dbox.Contains(field, value)
} else if key == "Or" {
subs := where.Get("value", []interface{}{}).([]interface{})
filtersToMerge := []*dbox.Filter{}
for _, eachSub := range subs {
eachWhere, _ := toolkit.ToM(eachSub)
filtersToMerge = append(filtersToMerge, d.filterParse(eachWhere))
}
return dbox.Or(filtersToMerge...)
} else if key == "And" {
subs := where.Get("value", []interface{}{}).([]interface{})
filtersToMerge := []*dbox.Filter{}
for _, eachSub := range subs {
eachWhere, _ := toolkit.ToM(eachSub)
filtersToMerge = append(filtersToMerge, d.filterParse(eachWhere))
}
return dbox.And(filtersToMerge...)
}
return nil
}
func (m *HistoricalValueEquation) GetDataQuality(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
Count float64 `json:'Count'`
CapacityPayment_Data float64 `json:'CapacityPayment_Data'`
EnergyPayment_Data float64 `json:'EnergyPayment_Data'`
StartupPayment_Data float64 `json:'StartupPayment_Data'`
Penalty_Data float64 `json:'Penalty_Data'`
Incentive_Data float64 `json:'Incentive_Data'`
MaintenanceCost_Data float64 `json:'MaintenanceCost_Data'`
MaintenanceDuration_Data float64 `json:'MaintenanceDuration_Data'`
PrimaryFuel1st_Data float64 `json:'PrimaryFuel1st_Data'`
PrimaryFuel2nd_Data float64 `json:'PrimaryFuel2nd_Data'`
BackupFuel_Data float64 `json:'BackupFuel_Data'`
FuelTransport_Data float64 `json:'FuelTransport_Data'`
}
m.SetPayLoad(k)
var e error = nil
result := []*DataValue{}
c := ctx.Connection
vedq := ValueEquationDataQuality{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
if m.Scope == "Unit" || (m.Scope == "Plant" && m.Selected != nil && len(m.Selected) == 1) {
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
if m.Scope == "Unit" {
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
} else {
query = append(query, dbox.Eq("Plant", m.Selected[0]))
}
temp := []*ValueEquationDataQuality{}
csr, e := ctx.Find(new(ValueEquationDataQuality), tk.M{}.Set("where", dbox.And(query...)))
if csr != nil {
e = csr.Fetch(&temp, 0, false)
}
csr.Close()
if e != nil {
return nil, e
} else {
m.GetValueEquationDocument(ctx, temp)
return temp, e
}
} else {
csr, e := c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "1", "Count").
Aggr(dbox.AggrSum, "CapacityPayment_Data", "CapacityPayment_Data").
Aggr(dbox.AggrSum, "EnergyPayment_Data", "EnergyPayment_Data").
Aggr(dbox.AggrSum, "StartupPayment_Data", "StartupPayment_Data").
Aggr(dbox.AggrSum, "Penalty_Data", "Penalty_Data").
Aggr(dbox.AggrSum, "Incentive_Data", "Incentive_Data").
Aggr(dbox.AggrSum, "MaintenanceCost_Data", "MaintenanceCost_Data").
Aggr(dbox.AggrSum, "MaintenanceDuration_Data", "MaintenanceDuration_Data").
Aggr(dbox.AggrSum, "PrimaryFuel1st_Data", "PrimaryFuel1st_Data").
Aggr(dbox.AggrSum, "PrimaryFuel2nd_Data", "PrimaryFuel2nd_Data").
Aggr(dbox.AggrSum, "BackupFuel_Data", "BackupFuel_Data").
Aggr(dbox.AggrSum, "FuelTransport_Data", "FuelTransport_Data").
From(vedq.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&result, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range result {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
}
return result, e
}
func (m *HistoricalValueEquation) GetRevenueData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
CapacityPayment float64 `json:'CapacityPayment'`
EnergyPayment float64 `json:'EnergyPayment'`
StartupPayment float64 `json:'StartupPayment'`
PenaltyAmount float64 `json:'PenaltyAmount'`
Incentive float64 `json:'Incentive'`
Revenue float64 `json:'Revenue'`
}
m.SetPayLoad(k)
result, DataChartRevenue, DataChartRevenueEx := tk.M{}, []*DataValue{}, []*DataValue{}
c := ctx.Connection
ve := ValueEquation{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
csr, e := c.NewQuery().
Where(query...).
Aggr(dbox.AggrSum, "CapacityPayment", "CapacityPayment").
Aggr(dbox.AggrSum, "EnergyPayment", "EnergyPayment").
Aggr(dbox.AggrSum, "StartupPayment", "StartupPayment").
Aggr(dbox.AggrSum, "PenaltyAmount", "PenaltyAmount").
Aggr(dbox.AggrSum, "Incentive", "Incentive").
Aggr(dbox.AggrSum, "Revenue", "Revenue").
From(ve.TableName()).Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataChartRevenue, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
csr, e = c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "CapacityPayment", "CapacityPayment").
Aggr(dbox.AggrSum, "EnergyPayment", "EnergyPayment").
Aggr(dbox.AggrSum, "StartupPayment", "StartupPayment").
Aggr(dbox.AggrSum, "PenaltyAmount", "PenaltyAmount").
Aggr(dbox.AggrSum, "Incentive", "Incentive").
Aggr(dbox.AggrSum, "Revenue", "Revenue").
From(ve.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataChartRevenueEx, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range DataChartRevenueEx {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
return result.Set("DataChartRevenue", DataChartRevenue).Set("DataChartRevenueEx", DataChartRevenueEx), e
}
func (m *HistoricalValueEquation) GetOperatingData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
OperatingCost float64 `json:'OperatingCost'`
FuelTransportCost float64 `json:'FuelTransportCost'`
Capacity float64 `json:'Capacity'`
NetGeneration float64 `json:'NetGeneration'`
}
type DataTableType struct {
IsPrimaryFuel bool `json:'IsPrimaryFuel'`
FuelType string `json:'FuelType'`
ConvertedFuelConsumed float64 `json:'ConvertedFuelConsumed'`
FuelCostPerUnit float64 `json:'FuelCostPerUnit'`
FuelCost float64 `json:'FuelCost'`
}
m.SetPayLoad(k)
result, DataChart, DataTable, DataTotal, DataDetail := tk.M{}, []tk.M{}, []*DataTableType{}, []*DataValue{}, []*DataValue{}
c := ctx.Connection
ve := ValueEquation{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
// Getting "DataTable" - skip, need $unwind [ $Fuel ]
tempValueEquation := []ValueEquation{}
csr, e := c.NewQuery().
Where(query...).Select("Id").
From(ve.TableName()).Cursor(nil)
if csr != nil {
e = csr.Fetch(&tempValueEquation, 0, false)
}
csr.Close()
VEId := []interface{}{}
for _, i := range tempValueEquation {
VEId = append(VEId, i.Id)
}
csr, e = c.NewQuery().
Where(query...).
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
Aggr(dbox.AggrSum, "FuelTransportCost", "FuelTransportCost").
From(ve.TableName()).Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataTotal, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
if m.Scope != "Unit" {
csr, e = c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "Capacity", "Capacity").
Aggr(dbox.AggrSum, "NetGeneration", "NetGeneration").
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
From(ve.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataDetail, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range DataDetail {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
}
query = append(query[0:0], dbox.In("VEId", VEId...))
csr, e = c.NewQuery().
Where(query...).
Select("IsPrimaryFuel", "FuelType").
Aggr(dbox.AggrSum, "ConvertedFuelConsumed", "ConvertedFuelConsumed").
Aggr(dbox.AggrSum, "FuelCostPerUnit", "FuelCostPerUnit").
Aggr(dbox.AggrSum, "FuelCost", "FuelCost").
From(new(ValueEquationFuel).TableName()).Group("IsPrimaryFuel", "FuelType").Order("IsPrimaryFuel", "FuelType").Cursor(nil)
if csr != nil {
e = csr.Fetch(&DataTable, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
result.Set("DataChart", DataChart).Set("DataTable", DataTable).Set("DataTotal", DataTotal).Set("DataDetail", DataDetail)
return result, e
}
func (m *HistoricalValueEquation) GetMaintenanceData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
m.SetPayLoad(k)
type DataValue struct {
ID string
DataSource string `json:'DataSource'`
WorkOrderType string `json:'WorkOrderType'`
Plant string `json:'Plant'`
Unit string `json:'Unit'`
LaborCost float64 `json:'LaborCost'`
MaterialCost float64 `json:'MaterialCost'`
ServiceCost float64 `json:'ServiceCost'`
}
result, DataMainEx, DataOrder, DataChart, DataTable, Temp, IDList := tk.M{}, []*DataValue{}, []*DataValue{}, []tk.M{}, []DataValue{}, []tk.M{}, []interface{}{}
c := ctx.Connection
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
// Get DataMainEx
csr, e := c.NewQuery().
Where(query...).
Select(groupBy).
Aggr(dbox.AggrSum, "TotalLabourCost", "LaborCost").
Aggr(dbox.AggrSum, "TotalMaterialCost", "MaterialCost").
Aggr(dbox.AggrSum, "TotalServicesCost", "ServiceCost").
From(new(ValueEquation).TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if e != nil {
return nil, e
}
if csr != nil {
e = csr.Fetch(&DataMainEx, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range DataMainEx {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
csr, e = c.NewQuery().
Where(query...).Select("Id").
From(new(ValueEquation).TableName()).Cursor(nil)
if e != nil {
return nil, e
}
if csr != nil {
e = csr.Fetch(&Temp, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range Temp {
IDList = append(IDList, i.GetInt("id"))
}
query = []*dbox.Filter{}
query = append(query, dbox.In("VEId", IDList...))
// Get DataTable
csr, e = c.NewQuery().
Where(query...).
Select("DataSource", "WorkOrderType").
Aggr(dbox.AggrSum, "LaborCost", "LaborCost").
Aggr(dbox.AggrSum, "MaterialCost", "MaterialCost").
Aggr(dbox.AggrSum, "ServiceCost", "ServiceCost").
From(new(ValueEquationDetails).TableName()).Group("DataSource", "WorkOrderType").
Order("DataSource").
Cursor(nil)
if e != nil {
return nil, e
}
if csr != nil {
e = csr.Fetch(&DataTable, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
// Get DataOrder - For Visualisation
csr, e = c.NewQuery().
Where(query...).
Select("WorkOrderType").
From(new(ValueEquationTop10).TableName()).Group("WorkOrderType").Cursor(nil)
if e != nil {
return nil, e
}
if csr != nil {
e = csr.Fetch(&DataOrder, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range DataOrder {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
// Data Chart - set for empty, if you want to add it. its available on the previous version while its still using beego.
result.Set("DataMainEx", DataMainEx).Set("DataOrder", DataOrder).Set("DataChart", DataChart).Set("DataTable", DataTable)
return result, nil
}
// generateDurationIntervalSummary ...
func (d *GenWOListSummary) generateDurationIntervalSummary() error {
years := [3]int{2013, 2014, 2015}
c := d.Ctx.Connection
csr, e := c.NewQuery().From(new(TempMstPlant).TableName()).Cursor(nil)
if e != nil {
return e
} else {
defer csr.Close()
}
MstPlantData := []tk.M{}
e = csr.Fetch(&MstPlantData, 0, false)
for _, year := range years {
query := []*dbox.Filter{}
yearFirst := strconv.Itoa(year)
yearFirst = yearFirst + "-01-01 00:00:00.000"
yearLast := strconv.Itoa(year + 1)
yearLast = yearLast + "-01-01 00:00:00.000"
query = append(query, dbox.And(dbox.Gte("ActualStart", yearFirst), dbox.Lte("ActualFinish", yearLast)))
csr1, e := c.NewQuery().From(new(WOList).TableName()).Where(query...).Order("ActualStart").Cursor(nil)
if e != nil {
return e
} else {
defer csr1.Close()
}
datas := []tk.M{}
e = csr1.Fetch(&datas, 0, false)
if len(datas) > 0 {
for _, data := range datas {
woles := new(WOListSummary)
woles.PeriodYear = year
woles.OrderType = data.GetString("type")
woles.FunctionalLocation = data.GetString("functionallocation")
query = nil
query = append(query, dbox.Eq("FunctionalLocationCode", data.GetString("functionallocation")))
csr2, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Select("CatProf").Cursor(nil)
if e != nil {
return e
} else {
defer csr2.Close()
}
tempResult := []tk.M{}
e = csr2.Fetch(&tempResult, 0, false)
if len(tempResult) > 0 {
woles.EquipmentType = tempResult[0].GetString("catprof")
}
woles.MainenanceOrderCode = data.GetString("ordercode")
woles.NotificationCode = data.GetString("notificationcode")
query = nil
query = append(query, dbox.Eq("FunctionalLocationCode", data.GetString("plant")))
csr3, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Select("Description").Cursor(nil)
if e != nil {
return e
} else {
defer csr3.Close()
}
tempResult = []tk.M{}
e = csr3.Fetch(&tempResult, 0, false)
if len(tempResult) > 0 {
woles.Plant = tempResult[0].GetString("description")
}
woles.PlanStart, e = time.Parse(time.RFC3339, data["scheduledstart"].(string))
if e != nil {
return e
}
woles.PlanEnd, e = time.Parse(time.RFC3339, data["scheduledfinish"].(string))
if e != nil {
return e
}
subTime := woles.PlanEnd.Sub(woles.PlanStart)
woles.PlanDuration = subTime.Hours()
woles.ActualStart, e = time.Parse(time.RFC3339, data.GetString("actualstart"))
if e != nil {
return e
}
woles.ActualEnd, e = time.Parse(time.RFC3339, data.GetString("actualfinish"))
if e != nil {
return e
}
subTime = woles.ActualEnd.Sub(woles.ActualStart)
woles.ActualDuration = subTime.Hours()
actualstartPart := strings.Split(woles.ActualStart.String(), " ")
actualstartPart = []string{actualstartPart[0], actualstartPart[1]}
query = nil
query = append(query, dbox.Lt("ActualFinish", strings.Join(actualstartPart, " ")))
query = append(query, dbox.Eq("FunctionalLocation", woles.FunctionalLocation))
csr4, e := c.NewQuery().Select("ActualFinish").From(new(WOList).TableName()).Order("-ActualFinish").Where(query...).Cursor(nil)
if e != nil {
return e
} else {
defer csr4.Close()
}
tempResult = []tk.M{}
e = csr4.Fetch(&tempResult, 0, false)
if len(tempResult) > 0 {
woles.LastMaintenanceEnd, e = time.Parse(time.RFC3339, tempResult[0].GetString("actualfinish"))
}
if woles.ActualStart.String() != "" && woles.LastMaintenanceEnd.String() != "" {
subTime = woles.ActualStart.Sub(woles.LastMaintenanceEnd)
woles.LastMaintenanceInterval = subTime.Seconds() / 86400
}
woles.Cost = data.GetFloat64("actualcost")
plantTypes := crowd.From(&MstPlantData).Where(func(x interface{}) interface{} {
return x.(tk.M).GetString("plantcode") == data.GetString("plant")
}).Exec().Result.Data().([]tk.M)
if len(plantTypes) > 0 {
woles.PlantType = plantTypes[0].GetString("plantcode")
}
for {
e = d.Ctx.Insert(woles)
if e == nil {
break
} else {
d.Ctx.Connection.Connect()
}
}
}
}
}
return nil
}
// generatePreventiveCorrectiveSummary
func (s *GenPreventiveCorrectiveSummary) generatePreventiveCorrectiveSummary() error {
var e error
ctx := s.BaseController.Ctx
c := ctx.Connection
years := [3]int{2013, 2014, 2015}
sintax := "select Distinct(Element) from MORSummary"
csr, e := c.NewQuery().Command("freequery", tk.M{}.Set("syntax", sintax)).Cursor(nil)
defer csr.Close()
if e != nil {
return e
}
MROElements := []tk.M{}
e = csr.Fetch(&MROElements, 0, false)
csr1, e := c.NewQuery().From(new(MasterEquipmentType).TableName()).Cursor(nil)
defer csr1.Close()
if e != nil {
return e
}
query := []*dbox.Filter{}
for _, year := range years {
yearFirst := strconv.Itoa(year)
yearFirst = yearFirst + "-01-01 00:00:00.000"
yearLast := strconv.Itoa(year + 1)
yearLast = yearLast + "-01-01 00:00:00.000"
query = append(query, dbox.And(dbox.Gte("Period", yearFirst), dbox.Lte("Period", yearLast)))
csr2, e := c.NewQuery().From(new(MaintenanceCost).TableName()).Where(query...).Cursor(nil)
defer csr2.Close()
if e != nil {
return e
}
datas := []tk.M{}
e = csr2.Fetch(&datas, 0, false)
Plants := crowd.From(&datas).Group(func(x interface{}) interface{} {
return x.(tk.M).GetString("plant")
}, nil).Exec().Result.Data().([]crowd.KV)
if len(Plants) > 0 {
for _, p := range Plants {
plant := p.Key.(string)
EqType := crowd.From(&datas).Where(func(x interface{}) interface{} {
period := x.(tk.M).GetString("period")
return strings.Contains(period, strconv.Itoa(year)) && x.(tk.M).GetString("plant") == plant
}).Exec().Result.Data().([]tk.M)
if len(EqType) > 0 {
EquipmentTypes := crowd.From(&EqType).Group(func(x interface{}) interface{} {
return x.(tk.M).GetString("equipmenttype")
}, nil).Exec().Result.Data().([]crowd.KV)
for _, eq := range EquipmentTypes {
EquipmentType := eq.Key.(string)
ActType := crowd.From(&EqType).Where(func(x interface{}) interface{} {
return x.(tk.M).GetString("equipmenttype") == EquipmentType
}).Exec().Result.Data().([]tk.M)
if len(ActType) > 0 {
MaintActivityTypes := crowd.From(&ActType).Group(func(x interface{}) interface{} {
return x.(tk.M).GetString("maintenanceactivitytype")
}, nil).Exec().Result.Data().([]crowd.KV)
for _, act := range MaintActivityTypes {
MaintActivityType := act.Key.(string)
OrderType := crowd.From(&ActType).Where(func(x interface{}) interface{} {
return x.(tk.M).GetString("maintenanceactivitytype") == MaintActivityType
}).Exec().Result.Data().([]tk.M)
if len(OrderType) > 0 {
OrderTypes := crowd.From(&OrderType).Group(func(x interface{}) interface{} {
return x.(tk.M).GetString("ordertype")
}, nil).Exec().Result.Data().([]crowd.KV)
for _, order := range OrderTypes {
OrderTypeString := order.Key.(string)
OrderNo := crowd.From(&OrderType).Where(func(x interface{}) interface{} {
return x.(tk.M).GetString("ordertype") == OrderTypeString
}).Exec().Result.Data().([]tk.M)
if len(OrderNo) > 0 {
Equipment := crowd.From(&OrderNo).Group(func(x interface{}) interface{} {
return x.(tk.M).GetString("equipment")
}, nil).Exec().Result.Data().([]crowd.KV)
for _, eqNo := range Equipment {
eqNoString := eqNo.Key.(string)
for _, element := range MROElements {
_ = element
pcs := new(PreventiveCorrectiveSummary)
pcs.PeriodYear = year
pcs.OrderType = OrderTypeString
pcs.EquipmentNo = eqNoString
equipmentDescription := crowd.From(&OrderNo).Where(func(x interface{}) interface{} {
return x.(tk.M).GetString("equipment") == eqNoString
}).Exec().Result.Data().([]tk.M)
if len(equipmentDescription) > 0 {
pcs.EquipmentDescription = equipmentDescription[0].GetString("equipmentdesc")
}
if len(EquipmentTypes) == 1 {
pcs.EquipmentType = "Other"
pcs.EquipmentTypeDescription = "Other"
} else {
pcs.EquipmentType = EquipmentType
pcs.EquipmentTypeDescription = equipmentDescription[0].GetString("equipmenttypedesc")
}
pcs.ActivityType = MaintActivityType
pcs.Plant = PlantNormalization(plant)
pcs.Element = element.GetString("element")
result := float64(len(equipmentDescription) / len(MROElements))
pcs.MOCount = int(Round(result, .5, 2))
switch element.GetString("element") {
case "Internal Labor":
pcs.Value = crowd.From(&equipmentDescription).Sum(func(x interface{}) interface{} {
return x.(tk.M).GetFloat64("internallaboractual")
}).Exec().Result.Sum
break
case "Internal Material":
pcs.Value = crowd.From(&equipmentDescription).Sum(func(x interface{}) interface{} {
return x.(tk.M).GetFloat64("internalmaterialactual")
}).Exec().Result.Sum
break
case "Direct Material":
pcs.Value = crowd.From(&equipmentDescription).Sum(func(x interface{}) interface{} {
return x.(tk.M).GetFloat64("directmaterialactual")
}).Exec().Result.Sum
break
case "External Service":
pcs.Value = crowd.From(&equipmentDescription).Sum(func(x interface{}) interface{} {
return x.(tk.M).GetFloat64("externalserviceactual")
}).Exec().Result.Sum
break
}
_, e := ctx.InsertOut(pcs)
if e != nil {
log.Println(e.Error())
}
}
}
}
}
}
}
}
}
}
}
}
}
return e
}
func (m *HistoricalValueEquation) GetPerformanceData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
NetGeneration float64 `json:'NetGeneration'`
PrctWAF float64 `json:'PrctWAF'`
}
m.SetPayLoad(k)
var e error = nil
result := []*DataValue{}
c := ctx.Connection
ve := ValueEquation{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
csr, e := c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "NetGeneration", "NetGeneration").
Aggr(dbox.AggrAvr, "PrctWAF", "PrctWAF").
From(ve.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&result, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range result {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
return result, e
}
func doGenerateMaintenanceDataBrowser(wg *sync.WaitGroup, d *GenDataBrowser, plant PowerPlantCoordinates) {
var e error
ctx := d.BaseController.Ctx
c := ctx.Connection
saveDatas := []orm.IModel{}
plantCodeStr := plant.PlantCode
dataCount := 0
tmpPlantCondition := conditions.Get(plantCodeStr)
if tmpPlantCondition != nil {
plantCondition := tmpPlantCondition.(tk.M)
length := plantCondition.GetInt("length")
dets := plantCondition.Get("det").([]tk.M)
dets = append(dets, tk.M{})
turbinesCodes := []string{}
genIDTempTable := tk.GenerateRandomString("", 20)
detsLen := len(dets) - 1
tk.Printf("detsLen: %v \n", detsLen)
for i, det := range dets {
freeQuery := false
tk.Println(i)
tk.Printf("dets: %#v \n", det)
assets := []FunctionalLocation{}
systemAssets := []FunctionalLocation{}
desc := det.GetString("desc")
query := []*dbox.Filter{}
query = append(query, dbox.Contains("FunctionalLocationCode", plantCodeStr))
query = append(query, dbox.Eq("PIPI", plantCodeStr))
queryStr := "select * from FunctionalLocation where FunctionalLocationCode like('%" + plantCodeStr + "%') and PIPI = '" + plantCodeStr + "' "
if i == 0 {
query = append(query, dbox.Contains("Description", desc))
if plantCodeStr == "2220" {
query = append(query, dbox.Lte("LEN(FunctionalLocationCode)", length))
} else {
query = append(query, dbox.Eq("LEN(FunctionalLocationCode)", length))
}
} else if i == 1 && detsLen == 2 {
query = append(query, dbox.Contains("Description", desc))
if plantCodeStr == "2220" {
query = append(query, dbox.Lte("LEN(FunctionalLocationCode)", length))
} else {
query = append(query, dbox.Eq("LEN(FunctionalLocationCode)", length))
}
} else {
tk.Printf("turbinesCodes: %v \n", len(turbinesCodes))
if len(turbinesCodes) > 1 {
maxLength := 1000
maxLoop := tk.ToInt(tk.ToFloat64(len(turbinesCodes)/maxLength, 0, tk.RoundingUp), tk.RoundingUp)
for i := 0; i <= maxLoop; i++ {
datas := []string{}
if i != maxLoop {
datas = turbinesCodes[i*maxLength : (i*maxLength)+maxLength]
} else {
datas = turbinesCodes[i*maxLength:]
}
tmpNotIn := []orm.IModel{}
for _, val := range datas {
tmpData := new(GenDataBrowserNotInTmp)
tmpData.ID = genIDTempTable
tmpData.FLCode = val
tmpNotIn = append(tmpNotIn, tmpData)
}
// tk.Printf("tmpNotIn: %v \n", len(tmpNotIn))
e = ctx.InsertBulk(tmpNotIn)
ErrorHandler(e, "generateMaintenanceDataBrowser")
}
queryStr = queryStr + " and FunctionalLocationCode not in(select flcode from GenDataBrowserNotInTmp where ID = '" + genIDTempTable + "')"
freeQuery = true
}
}
if freeQuery {
csrDet, e := c.NewQuery().Command("freequery", tk.M{}.Set("syntax", queryStr)).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&assets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
} else {
csrDet, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(dbox.And(query...)).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&assets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
}
tk.Printf("-- assets: %v \n", len(assets))
if len(assets) > 0 {
relatedAssets := []FunctionalLocation{}
for _, asset := range assets {
if plantCodeStr == "2110" {
if len(asset.FunctionalLocationCode) <= 13 {
query = []*dbox.Filter{}
query = append(query,
dbox.And(
dbox.Eq("PG", "MP1"),
dbox.Eq("PIPI", plantCodeStr),
dbox.Contains("FunctionalLocationCode", asset.FunctionalLocationCode),
dbox.And(
dbox.Lte("LEN(FunctionalLocationCode)", 13),
dbox.Gte("LEN(FunctionalLocationCode)", 12),
),
),
)
csrDet, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&systemAssets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
}
if systemAssets == nil || len(systemAssets) == 0 {
query = []*dbox.Filter{}
if i != 2 {
query = append(query, dbox.Contains("FunctionalLocationCode", asset.FunctionalLocationCode))
} else {
query = append(query, dbox.Eq("FunctionalLocationCode", asset.FunctionalLocationCode))
}
csrDet, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&relatedAssets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
for _, relasset := range relatedAssets {
isTurbineSystem := false
if relasset.FunctionalLocationCode == asset.FunctionalLocationCode && i != 2 {
isTurbineSystem = true
}
newEquipment := d.getNewEquipmentType(relasset.ObjectType, isTurbineSystem)
if newEquipment != "" {
if i != 2 {
turbinesCodes = append(turbinesCodes, relasset.FunctionalLocationCode)
}
for _, year := range years {
data := DataBrowser{}
data.PeriodYear = year
data.FunctionalLocation = relasset.FunctionalLocationCode
data.FLDescription = relasset.Description
data.IsTurbine = false
// tk.Printf("%v | %v | ", relasset.FunctionalLocationCode, i)
if relasset.FunctionalLocationCode == asset.FunctionalLocationCode && i != 2 {
data.IsTurbine = true
// tk.Println(" isTurbine: TRUE")
} else {
// tk.Println(" isTurbine: FALSE")
data.TurbineParent = asset.FunctionalLocationCode
}
data.AssetType = "Other"
if i == 0 {
data.AssetType = "Steam"
} else if i == 1 {
data.AssetType = "Gas"
}
data.EquipmentType = newEquipment
data.EquipmentTypeDescription = newEquipment
data.Plant = plant
data.PlantCode = plant.PlantCode
if data.IsTurbine {
info := GeneralInfo{}
substr := ""
substrValInt := 0
if data.AssetType == "Steam" {
substrValInt = 1
substr = "ST"
} else if data.AssetType == "Gas" {
substrValInt = 2
}
if substrValInt != 0 {
tmpInfo := crowd.From(&generalInfos).Where(func(x interface{}) interface{} {
y := x.(GeneralInfo)
substr = substr + data.FunctionalLocation[len(data.FunctionalLocation)-substrValInt:]
return strings.Contains(strings.ToLower(strings.Trim(y.Plant, " ")), strings.ToLower(plant.PlantName)) && y.Unit == substr
}).Exec().Result.Data().([]GeneralInfo)
if len(tmpInfo) > 0 {
info = tmpInfo[0]
}
if info.Id != "" {
data.TInfShortName = info.Unit
data.TInfManufacturer = info.Manufacturer
data.TInfModel = info.Model
data.TInfUnitType = info.UnitType
data.TInfInstalledCapacity = info.InstalledCapacity
data.TInfOperationalCapacity = info.OperationalCapacity
data.TInfPrimaryFuel = info.PrimaryFuel1
data.TInfPrimaryFuel2 = info.PrimaryFuel2Startup
data.TInfBackupFuel = info.BackupFuel
data.TInfHeatRate = info.HeatRate
data.TInfEfficiency = info.Efficiency
commDate, e := time.Parse("01/02/2006", "01/01"+tk.ToString(info.CommissioningDate))
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfCommisioningDate = commDate
if info.RetirementPlan != "" {
retirementPlanStr := strings.Split(info.RetirementPlan, "(")[0]
retirementPlan, e := time.Parse("01/02/2006", "01/01"+retirementPlanStr)
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfRetirementPlan = retirementPlan
}
installedMWH := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "InstalledMWH" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfInstalledMWH = installedMWH.Value
actualEnergyGeneration := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "ActualEnergyGeneration" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfActualEnergyGeneration = actualEnergyGeneration.Value
capacityFactor := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "CapacityFactor" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfCapacityFactor = capacityFactor.Value
actualFuelConsumption := crowd.From(&generalInfoActualFuelConsumption).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoActualFuelConsumption)
return y.GenID == info.Id && y.Year == year
}).Exec().Result.Data().([]GeneralInfoActualFuelConsumption)[0]
data.TInfActualFuelConsumption_CrudeBarrel = actualFuelConsumption.CrudeBarrel
data.TInfActualFuelConsumption_DieselBarrel = actualFuelConsumption.DieselBarrel
data.TInfActualFuelConsumption_GASMMSCF = actualFuelConsumption.GASMMSCF
data.TInfActualFuelConsumption_HFOBarrel = actualFuelConsumption.HFOBarrel
fuelCostCrowd := crowd.From(&fuelCosts).Where(func(x interface{}) interface{} {
y := x.(FuelCost)
unitID := strings.Replace(
strings.Replace(
strings.Replace(
strings.Replace(y.UnitId, ".", "", -1), " 0", "", -1), " ", "", -1), "C.C ", "", -1)
return y.Year == year && y.Plant == data.Plant.PlantName && unitID == data.TInfShortName
})
data.TInfUpdateEnergyGeneration = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.EnergyNetProduction
}).Exec().Result.Data().(float64)
data.TInfUpdateFuelConsumption = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.PrimaryFuelConsumed
}).Exec().Result.Data().(float64)
}
}
// Vibrations handled by sql query
}
// Maintenance handled by sql query
// FailureNotifications handled by sql query
// MROElements handled by sql query
// Operationals handled by sql query
// e = ctx.Insert(&data)
saveDatas = append(saveDatas, &data)
dataCount++
if len(saveDatas) == 1000 {
mugen.Lock()
e = ctx.InsertBulk(saveDatas)
mugen.Unlock()
ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Printf("%v : %v \n", plantCodeStr, dataCount)
saveDatas = []orm.IModel{}
}
/*ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Println("save 1")*/
}
}
}
} else {
// with system assets
if i != 2 {
turbinesCodes = append(turbinesCodes, asset.FunctionalLocationCode)
}
for _, year := range years {
data := DataBrowser{}
data.PeriodYear = year
data.FunctionalLocation = asset.FunctionalLocationCode
data.FLDescription = asset.Description
data.IsTurbine = false
data.IsSystem = false
// tk.Printf("%v | %v | ", asset.FunctionalLocationCode, i)
if asset.FunctionalLocationCode == asset.FunctionalLocationCode && i != 2 {
data.IsTurbine = true
data.IsSystem = true
// tk.Println(" isTurbine: TRUE")
} else {
// tk.Println(" isTurbine: FALSE")
data.TurbineParent = asset.FunctionalLocationCode
data.SystemParent = asset.FunctionalLocationCode
}
data.AssetType = "Other"
if i == 0 {
data.AssetType = "Steam"
} else if i == 1 {
data.AssetType = "Gas"
}
data.EquipmentType = "System"
data.EquipmentTypeDescription = "System"
data.Plant = plant
data.PlantCode = plant.PlantCode
if data.IsTurbine {
info := GeneralInfo{}
substr := ""
substrValInt := 0
if data.AssetType == "Steam" {
substrValInt = 1
substr = "ST"
} else if data.AssetType == "Gas" {
substrValInt = 2
}
if substrValInt != 0 {
tmpInfo := crowd.From(&generalInfos).Where(func(x interface{}) interface{} {
y := x.(GeneralInfo)
substr = substr + data.FunctionalLocation[len(data.FunctionalLocation)-substrValInt:]
return strings.Contains(strings.ToLower(strings.Trim(y.Plant, " ")), strings.ToLower(plant.PlantName)) && y.Unit == substr
}).Exec().Result.Data().([]GeneralInfo)
if len(tmpInfo) > 0 {
info = tmpInfo[0]
}
if info.Id != "" {
data.TInfShortName = info.Unit
data.TInfManufacturer = info.Manufacturer
data.TInfModel = info.Model
data.TInfUnitType = info.UnitType
data.TInfInstalledCapacity = info.InstalledCapacity
data.TInfOperationalCapacity = info.OperationalCapacity
data.TInfPrimaryFuel = info.PrimaryFuel1
data.TInfPrimaryFuel2 = info.PrimaryFuel2Startup
data.TInfBackupFuel = info.BackupFuel
data.TInfHeatRate = info.HeatRate
data.TInfEfficiency = info.Efficiency
commDate, e := time.Parse("01/02/2006", "01/01"+tk.ToString(info.CommissioningDate))
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfCommisioningDate = commDate
if info.RetirementPlan != "" {
retirementPlanStr := strings.Split(info.RetirementPlan, "(")[0]
retirementPlan, e := time.Parse("01/02/2006", "01/01"+retirementPlanStr)
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfRetirementPlan = retirementPlan
}
installedMWH := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "InstalledMWH" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfInstalledMWH = installedMWH.Value
actualEnergyGeneration := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "ActualEnergyGeneration" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfActualEnergyGeneration = actualEnergyGeneration.Value
capacityFactor := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "CapacityFactor" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfCapacityFactor = capacityFactor.Value
actualFuelConsumption := crowd.From(&generalInfoActualFuelConsumption).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoActualFuelConsumption)
return y.GenID == info.Id && y.Year == year
}).Exec().Result.Data().([]GeneralInfoActualFuelConsumption)[0]
data.TInfActualFuelConsumption_CrudeBarrel = actualFuelConsumption.CrudeBarrel
data.TInfActualFuelConsumption_DieselBarrel = actualFuelConsumption.DieselBarrel
data.TInfActualFuelConsumption_GASMMSCF = actualFuelConsumption.GASMMSCF
data.TInfActualFuelConsumption_HFOBarrel = actualFuelConsumption.HFOBarrel
fuelCostCrowd := crowd.From(&fuelCosts).Where(func(x interface{}) interface{} {
y := x.(FuelCost)
unitID := strings.Replace(
strings.Replace(
strings.Replace(
strings.Replace(y.UnitId, ".", "", -1), " 0", "", -1), " ", "", -1), "C.C ", "", -1)
return y.Year == year && y.Plant == data.Plant.PlantName && unitID == data.TInfShortName
})
data.TInfUpdateEnergyGeneration = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.EnergyNetProduction
}).Exec().Result.Data().(float64)
data.TInfUpdateFuelConsumption = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.PrimaryFuelConsumed
}).Exec().Result.Data().(float64)
}
}
// Vibrations handled by sql query
}
// Maintenance handled by sql query
// FailureNotifications handled by sql query
// MROElements handled by sql query
// Operationals handled by sql query
// e = ctx.Insert(&data)
// dataCount++
saveDatas = append(saveDatas, &data)
dataCount++
if len(saveDatas) == 1000 {
mugen.Lock()
e = ctx.InsertBulk(saveDatas)
mugen.Unlock()
ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Printf("%v : %v \n", plantCodeStr, dataCount)
saveDatas = []orm.IModel{}
}
/*ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Println("save 2")*/
}
for _, sysAsset := range systemAssets {
query = []*dbox.Filter{}
if i != 2 {
query = append(query, dbox.Contains("FunctionalLocationCode", sysAsset.FunctionalLocationCode))
} else {
query = append(query, dbox.Eq("FunctionalLocationCode", sysAsset.FunctionalLocationCode))
}
csrDet, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&relatedAssets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
for _, relasset := range relatedAssets {
isTurbineSystem := false
if (relasset.FunctionalLocationCode == asset.FunctionalLocationCode || relasset.FunctionalLocationCode == sysAsset.FunctionalLocationCode) && i != 2 {
isTurbineSystem = true
}
newEquipment := d.getNewEquipmentType(relasset.ObjectType, isTurbineSystem)
if newEquipment != "" {
if i != 2 {
turbinesCodes = append(turbinesCodes, relasset.FunctionalLocationCode)
}
for _, year := range years {
data := DataBrowser{}
data.PeriodYear = year
data.FunctionalLocation = relasset.FunctionalLocationCode
data.FLDescription = relasset.Description
data.IsTurbine = false
data.IsSystem = false
// tk.Printf("%v | %v | ", relasset.FunctionalLocationCode, i)
if relasset.FunctionalLocationCode == sysAsset.FunctionalLocationCode && i != 2 {
data.IsTurbine = true
data.IsSystem = true
// tk.Println(" isTurbine: TRUE")
} else {
// tk.Println(" isTurbine: FALSE")
data.TurbineParent = asset.FunctionalLocationCode
data.SystemParent = asset.FunctionalLocationCode
}
data.AssetType = "Other"
if i == 0 {
data.AssetType = "Steam"
} else if i == 1 {
data.AssetType = "Gas"
}
data.EquipmentType = newEquipment
data.EquipmentTypeDescription = newEquipment
data.Plant = plant
data.PlantCode = plant.PlantCode
if data.IsTurbine {
info := GeneralInfo{}
substr := ""
substrValInt := 0
if data.AssetType == "Steam" {
substrValInt = 1
substr = "ST"
} else if data.AssetType == "Gas" {
substrValInt = 2
}
if substrValInt != 0 {
tmpInfo := crowd.From(&generalInfos).Where(func(x interface{}) interface{} {
y := x.(GeneralInfo)
substr = substr + data.FunctionalLocation[len(data.FunctionalLocation)-substrValInt:]
return strings.Contains(strings.ToLower(strings.Trim(y.Plant, " ")), strings.ToLower(plant.PlantName)) && y.Unit == substr
}).Exec().Result.Data().([]GeneralInfo)
if len(tmpInfo) > 0 {
info = tmpInfo[0]
}
if info.Id != "" {
data.TInfShortName = info.Unit
data.TInfManufacturer = info.Manufacturer
data.TInfModel = info.Model
data.TInfUnitType = info.UnitType
data.TInfInstalledCapacity = info.InstalledCapacity
data.TInfOperationalCapacity = info.OperationalCapacity
data.TInfPrimaryFuel = info.PrimaryFuel1
data.TInfPrimaryFuel2 = info.PrimaryFuel2Startup
data.TInfBackupFuel = info.BackupFuel
data.TInfHeatRate = info.HeatRate
data.TInfEfficiency = info.Efficiency
commDate, e := time.Parse("01/02/2006", "01/01"+tk.ToString(info.CommissioningDate))
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfCommisioningDate = commDate
if info.RetirementPlan != "" {
retirementPlanStr := strings.Split(info.RetirementPlan, "(")[0]
retirementPlan, e := time.Parse("01/02/2006", "01/01"+retirementPlanStr)
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfRetirementPlan = retirementPlan
}
installedMWH := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "InstalledMWH" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfInstalledMWH = installedMWH.Value
actualEnergyGeneration := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "ActualEnergyGeneration" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfActualEnergyGeneration = actualEnergyGeneration.Value
capacityFactor := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "CapacityFactor" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfCapacityFactor = capacityFactor.Value
actualFuelConsumption := crowd.From(&generalInfoActualFuelConsumption).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoActualFuelConsumption)
return y.GenID == info.Id && y.Year == year
}).Exec().Result.Data().([]GeneralInfoActualFuelConsumption)[0]
data.TInfActualFuelConsumption_CrudeBarrel = actualFuelConsumption.CrudeBarrel
data.TInfActualFuelConsumption_DieselBarrel = actualFuelConsumption.DieselBarrel
data.TInfActualFuelConsumption_GASMMSCF = actualFuelConsumption.GASMMSCF
data.TInfActualFuelConsumption_HFOBarrel = actualFuelConsumption.HFOBarrel
fuelCostCrowd := crowd.From(&fuelCosts).Where(func(x interface{}) interface{} {
y := x.(FuelCost)
unitID := strings.Replace(
strings.Replace(
strings.Replace(
strings.Replace(y.UnitId, ".", "", -1), " 0", "", -1), " ", "", -1), "C.C ", "", -1)
return y.Year == year && y.Plant == data.Plant.PlantName && unitID == data.TInfShortName
})
data.TInfUpdateEnergyGeneration = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.EnergyNetProduction
}).Exec().Result.Data().(float64)
data.TInfUpdateFuelConsumption = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.PrimaryFuelConsumed
}).Exec().Result.Data().(float64)
}
}
// Vibrations handled by sql query
}
// Maintenance handled by sql query
// FailureNotifications handled by sql query
// MROElements handled by sql query
// Operationals handled by sql query
// e = ctx.Insert(&data)
saveDatas = append(saveDatas, &data)
dataCount++
if len(saveDatas) == 1000 {
mugen.Lock()
e = ctx.InsertBulk(saveDatas)
mugen.Unlock()
ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Printf("%v : %v \n", plantCodeStr, dataCount)
saveDatas = []orm.IModel{}
}
/*ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Println("save 3")*/
}
}
}
}
}
} else {
// another plant(s)
query = []*dbox.Filter{}
if i != detsLen {
query = append(query, dbox.Contains("FunctionalLocationCode", asset.FunctionalLocationCode))
} else {
query = append(query, dbox.Eq("FunctionalLocationCode", asset.FunctionalLocationCode))
}
csrDet, e := c.NewQuery().From(new(FunctionalLocation).TableName()).Where(query...).Cursor(nil)
ErrorHandler(e, "generateMaintenanceDataBrowser")
e = csrDet.Fetch(&relatedAssets, 0, false)
ErrorHandler(e, "generateMaintenanceDataBrowser")
csrDet.Close()
tk.Printf("-- related assets: %v \n", len(relatedAssets))
for _, relasset := range relatedAssets {
isTurbineSystem := false
if relasset.FunctionalLocationCode == asset.FunctionalLocationCode && i != detsLen {
isTurbineSystem = true
}
newEquipment := ""
newEquipment = d.getNewEquipmentType(relasset.ObjectType, isTurbineSystem)
if newEquipment != "" {
if i != detsLen {
turbinesCodes = append(turbinesCodes, relasset.FunctionalLocationCode)
}
for _, year := range years {
_ = year
data := DataBrowser{}
data.PeriodYear = year
data.FunctionalLocation = relasset.FunctionalLocationCode
data.FLDescription = relasset.Description
data.IsTurbine = false
if relasset.FunctionalLocationCode == asset.FunctionalLocationCode && i != detsLen {
data.IsTurbine = true
} else {
data.TurbineParent = asset.FunctionalLocationCode
}
data.AssetType = "Other"
if i == 0 {
data.AssetType = "Steam"
} else if i == 1 && detsLen > 1 {
data.AssetType = "Gas"
}
data.EquipmentType = newEquipment
data.EquipmentTypeDescription = newEquipment
data.Plant = plant
data.PlantCode = plant.PlantCode
if data.IsTurbine {
info := GeneralInfo{}
substr := ""
substrValInt := 0
if data.AssetType == "Steam" {
// substrValInt = 1
substrValInt = 2
substr = "ST" + substr
} else if data.AssetType == "Gas" {
substrValInt = 2
substr = "GT" + substr
}
if substrValInt != 0 {
tmpInfo := crowd.From(&generalInfos).Where(func(x interface{}) interface{} {
y := x.(GeneralInfo)
substr = data.FunctionalLocation[len(data.FunctionalLocation)-substrValInt:]
return strings.Contains(strings.ToLower(strings.Trim(y.Plant, " ")), strings.ToLower(plant.PlantName)) && y.Unit == substr
}).Exec().Result.Data().([]GeneralInfo)
if len(tmpInfo) > 0 {
info = tmpInfo[0]
}
if info.Id != "" {
data.TInfShortName = info.Unit
data.TInfManufacturer = info.Manufacturer
data.TInfModel = info.Model
data.TInfUnitType = info.UnitType
data.TInfInstalledCapacity = info.InstalledCapacity
data.TInfOperationalCapacity = info.OperationalCapacity
data.TInfPrimaryFuel = info.PrimaryFuel1
data.TInfPrimaryFuel2 = info.PrimaryFuel2Startup
data.TInfBackupFuel = info.BackupFuel
data.TInfHeatRate = info.HeatRate
data.TInfEfficiency = info.Efficiency
commDate, e := time.Parse("01/02/2006", "01/01"+tk.ToString(info.CommissioningDate))
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfCommisioningDate = commDate
if info.RetirementPlan != "" {
retirementPlanStr := strings.Split(info.RetirementPlan, "(")[0]
retirementPlan, e := time.Parse("01/02/2006", "01/01"+retirementPlanStr)
ErrorHandler(e, "generateMaintenanceDataBrowser")
data.TInfRetirementPlan = retirementPlan
}
installedMWH := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "InstalledMWH" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfInstalledMWH = installedMWH.Value
actualEnergyGeneration := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "ActualEnergyGeneration" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfActualEnergyGeneration = actualEnergyGeneration.Value
capacityFactor := crowd.From(&generalInfoDetails).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoDetails)
return y.GenID == info.Id && y.Type == "CapacityFactor" && y.Year == year
}).Exec().Result.Data().([]GeneralInfoDetails)[0]
data.TInfCapacityFactor = capacityFactor.Value
actualFuelConsumption := crowd.From(&generalInfoActualFuelConsumption).Where(func(x interface{}) interface{} {
y := x.(GeneralInfoActualFuelConsumption)
return y.GenID == info.Id && y.Year == year
}).Exec().Result.Data().([]GeneralInfoActualFuelConsumption)[0]
data.TInfActualFuelConsumption_CrudeBarrel = actualFuelConsumption.CrudeBarrel
data.TInfActualFuelConsumption_DieselBarrel = actualFuelConsumption.DieselBarrel
data.TInfActualFuelConsumption_GASMMSCF = actualFuelConsumption.GASMMSCF
data.TInfActualFuelConsumption_HFOBarrel = actualFuelConsumption.HFOBarrel
fuelCostCrowd := crowd.From(&fuelCosts).Where(func(x interface{}) interface{} {
y := x.(FuelCost)
unitID := strings.Replace(
strings.Replace(
strings.Replace(
strings.Replace(y.UnitId, ".", "", -1), " 0", "", -1), " ", "", -1), "C.C ", "", -1)
return y.Year == year && y.Plant == data.Plant.PlantName && unitID == data.TInfShortName
})
data.TInfUpdateEnergyGeneration = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.EnergyNetProduction
}).Exec().Result.Data().(float64)
data.TInfUpdateFuelConsumption = fuelCostCrowd.Sum(func(x interface{}) interface{} {
y := x.(FuelCost)
return y.PrimaryFuelConsumed
}).Exec().Result.Data().(float64)
}
}
// Vibrations handled by sql query
}
// Maintenance handled by sql query
// FailureNotifications handled by sql query
// MROElements handled by sql query
// Operationals handled by sql query
// e = ctx.Insert(&data)
saveDatas = append(saveDatas, &data)
dataCount++
if len(saveDatas) == 1000 {
mugen.Lock()
e = ctx.InsertBulk(saveDatas)
mugen.Unlock()
ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Printf("%v : %v \n", plantCodeStr, dataCount)
saveDatas = []orm.IModel{}
}
/*ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Println("save 4")*/
}
}
}
}
}
}
}
e = c.NewQuery().Delete().From(new(GenDataBrowserNotInTmp).TableName()).SetConfig("multiexec", true).Where(dbox.Eq("ID", genIDTempTable)).Exec(nil)
if len(saveDatas) > 0 {
e = ctx.InsertBulk(saveDatas)
ErrorHandler(e, "generateMaintenanceDataBrowser")
tk.Printf("%v : %v \n", plantCodeStr, dataCount)
}
}
mugen.Lock()
dataCounts.Set(plantCodeStr, dataCount)
mugen.Unlock()
wg.Done()
}
func (m *HistoricalValueEquation) GetAssetWorkData(ctx *orm.DataContext, k *knot.WebContext) (interface{}, error) {
type DataValue struct {
ID string
Plant string `json:'Plant'`
Unit string `json:'Unit'`
ValueEquationCost float64 `json:'ValueEquationCost'`
MaxPowerGeneration float64 `json:'MaxPowerGeneration'`
PotentialRevenue float64 `json:'PotentialRevenue'`
NetGeneration float64 `json:'NetGeneration'`
Revenue float64 `json:'Revenue'`
ForcedOutages float64 `json:'ForcedOutages'`
ForcedOutagesLoss float64 `json:'ForcedOutagesLoss'`
UnforcedOutages float64 `json:'UnforcedOutages'`
UnforcedOutagesLoss float64 `json:'UnforcedOutagesLoss'`
TotalLabourCost float64 `json:'TotalLabourCost'`
TotalMaterialCost float64 `json:'TotalMaterialCost'`
TotalServicesCost float64 `json:'TotalServicesCost'`
MaintenanceCost float64 `json:'MaintenanceCost'`
OperatingCost float64 `json:'OperatingCost'`
}
m.SetPayLoad(k)
var e error = nil
result := []*DataValue{}
c := ctx.Connection
ve := ValueEquation{}
query := []*dbox.Filter{}
query = append(query, dbox.Gte("Dates", m.StartPeriod))
query = append(query, dbox.Lte("Dates", m.EndPeriod))
groupBy := "Plant"
switch m.Scope {
case "Kingdom":
break
case "Plant":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Plant", m.Selected))
}
groupBy = "Unit"
break
case "Phase":
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Phase", m.Selected))
}
break
case "Unit":
query = append(query, dbox.Eq("Plant", m.SelectedPlant))
if m.Selected != nil && len(m.Selected) > 0 {
query = append(query, dbox.In("Unit", m.Selected))
}
groupBy = "Unit"
break
default:
break
}
csr, e := c.NewQuery().
Where(query...).Select(groupBy).
Aggr(dbox.AggrSum, "ValueEquationCost", "ValueEquationCost").
Aggr(dbox.AggrSum, "MaxPowerGeneration", "MaxPowerGeneration").
Aggr(dbox.AggrSum, "PotentialRevenue", "PotentialRevenue").
Aggr(dbox.AggrSum, "NetGeneration", "NetGeneration").
Aggr(dbox.AggrSum, "Revenue", "Revenue").
Aggr(dbox.AggrSum, "ForcedOutages", "ForcedOutages").
Aggr(dbox.AggrSum, "ForcedOutagesLoss", "ForcedOutagesLoss").
Aggr(dbox.AggrSum, "UnforcedOutages", "UnforcedOutages").
Aggr(dbox.AggrSum, "UnforcedOutagesLoss", "UnforcedOutagesLoss").
Aggr(dbox.AggrSum, "TotalLabourCost", "TotalLabourCost").
Aggr(dbox.AggrSum, "TotalMaterialCost", "TotalMaterialCost").
Aggr(dbox.AggrSum, "TotalServicesCost", "TotalServicesCost").
Aggr(dbox.AggrSum, "MaintenanceCost", "MaintenanceCost").
Aggr(dbox.AggrSum, "OperatingCost", "OperatingCost").
From(ve.TableName()).Group(groupBy).Order(groupBy).Cursor(nil)
if csr != nil {
e = csr.Fetch(&result, 0, false)
}
csr.Close()
if e != nil {
return nil, e
}
for _, i := range result {
if i.Unit != "" {
i.ID = i.Unit
} else {
i.ID = i.Plant
}
}
return result, e
}
func (s *GenWODurationSummary) generateDurationCostWorkOrderSummary() error {
ctx := s.BaseController.Ctx
c := ctx.Connection
var (
query []*dbox.Filter
)
tk.Println("Generating Duration Cost Work Order Summary..")
Years := []int{2013, 2014, 2015}
query = []*dbox.Filter{}
EqTypes := []MappedEquipmentType{}
csr, e := c.NewQuery().From(new(MappedEquipmentType).TableName()).Cursor(nil)
defer csr.Close()
if e != nil {
return e
}
e = csr.Fetch(&EqTypes, 0, false)
if e != nil {
return e
}
for _, year := range Years {
query = []*dbox.Filter{}
query = append(query, dbox.Gte("Period", time.Date(year, 1, 1, 0, 0, 0, 0, time.UTC)))
query = append(query, dbox.Lt("Period", time.Date((year+1), 1, 1, 0, 0, 0, 0, time.UTC)))
MaintenanceCostByHours := []MaintenanceCostByHour{}
csr, e := c.NewQuery().From(new(MaintenanceCostByHour).TableName()).Where(query...).Cursor(nil)
if e != nil {
return e
}
e = csr.Fetch(&MaintenanceCostByHours, 0, false)
if e != nil {
return e
}
csr.Close()
MaintenanceCostList := []MaintenanceCost{}
csr, e = c.NewQuery().From(new(MaintenanceCost).TableName()).Where(query...).Cursor(nil)
if e != nil {
return e
}
e = csr.Fetch(&MaintenanceCostList, 0, false)
if e != nil {
return e
}
csr.Close()
Plants := crowd.From(&MaintenanceCostByHours).Group(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).Plant
}, nil).Exec().Result.Data().([]crowd.KV)
for _, p := range Plants {
plant := p.Key.(string)
EqType := crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).Plant == plant
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).EquipmentType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, eqt := range EqType {
eq := eqt.Key.(string)
ActType := crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCostByHour)
return o.Plant == plant && o.EquipmentType == eq
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).MaintenanceActivityType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, a := range ActType {
act := a.Key.(string)
OrderType := crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCostByHour)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Group(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).OrderType
}, nil).Exec().Result.Data().([]crowd.KV)
for _, o := range OrderType {
order := o.Key.(string)
d := new(WODurationSummary)
d.PeriodYear = year
d.OrderType = order
if len(eq) == 1 {
d.EquipmentType = "Other"
} else {
d.EquipmentType = eq
}
if len(eq) == 1 {
d.EquipmentTypeDescription = "Other"
} else {
EqTypeDesc := crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCostByHour)
return o.Plant == plant && o.EquipmentType == eq
}).Exec().Result.Data().([]MaintenanceCostByHour)
if len(EqTypeDesc) > 0 {
d.EquipmentTypeDescription = EqTypeDesc[0].EquipmentTypeDesc
}
}
d.ActivityType = act
d.Plant = PlantNormalization(plant)
d.PlanValue = crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCostByHour)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).PlanVal
}).Exec().Result.Sum
d.ActualValue = crowd.From(&MaintenanceCostByHours).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCostByHour)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCostByHour).Actual
}).Exec().Result.Sum
d.WOCount = len(OrderType)
d.Cost = crowd.From(&MaintenanceCostList).Where(func(x interface{}) interface{} {
o := x.(MaintenanceCost)
return o.Plant == plant && o.EquipmentType == eq && o.MaintenanceActivityType == act
}).Sum(func(x interface{}) interface{} {
return x.(MaintenanceCost).PeriodTotalActual
}).Exec().Result.Sum
_, e := ctx.InsertOut(d)
tk.Println("#")
if e != nil {
tk.Println(e)
break
}
}
}
}
}
}
return e
}
func (a *DataFlowController) GetDataMonitoring(r *knot.WebContext) interface{} {
r.Config.OutputType = knot.OutputJson
payload := map[string]interface{}{}
e := r.GetPayload(&payload)
if e != nil {
return helper.CreateResult(false, nil, e.Error())
}
status := tk.ToString(payload["status"])
filters := []*dbox.Filter{}
var filter *dbox.Filter
filter = new(dbox.Filter)
if strings.Contains(strings.ToLower(status), "run") {
filters = append(filters, dbox.Eq("status", "RUN"))
} else {
filters = append(filters, dbox.Ne("status", "RUN"))
}
take := tk.ToInt(payload["take"], tk.RoundingAuto)
skip := tk.ToInt(payload["skip"], tk.RoundingAuto)
start := tk.ToString(payload["startdate"])
end := tk.ToString(payload["enddate"])
search := tk.ToString(payload["search"])
startdate := time.Now()
enddate := time.Now()
if start != "" {
startdate, _ = time.Parse(time.RFC3339, start)
filters = append(filters, dbox.Gte("startdate", startdate))
startdate = startdate.AddDate(0, 0, 1)
startdate = startdate.Add(time.Duration(-1) * time.Second)
filters = append(filters, dbox.Lte("startdate", startdate))
}
if end != "" && !strings.Contains(strings.ToLower(status), "run") {
enddate, _ = time.Parse(time.RFC3339, end)
filters = append(filters, dbox.Gte("enddate", enddate))
enddate = enddate.AddDate(0, 0, 1)
enddate = enddate.Add(time.Duration(-1) * time.Second)
filters = append(filters, dbox.Lte("enddate", enddate))
}
if search != "" {
filters = append(filters, dbox.Or(dbox.Contains("flow.name", search), dbox.Contains("flow.description", search)))
}
filter = dbox.And(filters...)
dataDs := []colonycore.DataFlowProcess{}
cursor, err := colonycore.Finds(new(colonycore.DataFlowProcess), tk.M{}.Set("where", filter).Set("take", take).Set("skip", skip).Set("order", []string{"-startdate"}))
cursorCount, _ := colonycore.Finds(new(colonycore.DataFlowProcess), tk.M{}.Set("where", filter))
res := tk.M{}
if cursor != nil {
cursor.Fetch(&dataDs, 0, false)
defer cursor.Close()
defer cursorCount.Close()
res.Set("total", cursorCount.Count())
} else {
res.Set("total", 0)
}
if err != nil && cursor != nil {
return helper.CreateResult(false, nil, err.Error())
}
res.Set("data", dataDs)
return helper.CreateResult(true, res, "success")
}
