Example #1
0
func CombineIn(operator string, f *dbox.Filter) string {
	values := ""
	for i, val := range f.Value.([]interface{}) {
		if i == 0 {
			values = f.Field + " " + operator + " (" + rdbms.StringValue(val, "oracle")
		} else {
			values += "," + rdbms.StringValue(val, "oracle")
		}
	}
	values += ")"
	return values
}
Example #2
0
func (fb *FilterBuilder) BuildFilter(f *dbox.Filter) (interface{}, error) {
	fm := ""
	if f.Op == dbox.FilterOpEqual {
		fm = fm + f.Field + "= " + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpNoEqual {
		fm = fm + f.Field + "<>" + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpGt {
		fm = fm + f.Field + " > " + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpGte {
		fm = fm + f.Field + " >= " + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpLt {
		fm = fm + f.Field + " < " + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpLte {
		fm = fm + f.Field + " <= " + rdbms.StringValue(f.Value, "oracle") + ""
	} else if f.Op == dbox.FilterOpIn {
		fm = CombineIn("IN", f)
	} else if f.Op == dbox.FilterOpNin {
		fm = CombineIn("NOT IN", f)
	} else if f.Op == dbox.FilterOpContains {
		fm = CombineIn("NOT IN", f)
	} else if f.Op == dbox.FilterOpOr || f.Op == dbox.FilterOpAnd {
		f
		fs := f.Value.([]*dbox.Filter)
		for _, ff := range fs {
			bf, _ := fb.BuildFilter(ff)
			if fm == "" {
				fm = "(" + cast.ToString(bf)
			} else {
				if f.Op == dbox.FilterOpOr {
					fm += " OR " + cast.ToString(bf)
				} else {
					fm += " AND " + cast.ToString(bf)
				}
			}
		}
		fm += ")"
	} else {
		//return nil, fmt.Errorf("Filter Op %s is not defined", f.Op)
	}

	return fm, nil
}
Example #3
0
func (q *Query) Cursor(in toolkit.M) (dbox.ICursor, error) {
	var e error

	dbname := q.Connection().Info().Database
	cursor := dbox.NewCursor(new(Cursor))

	session := q.Session()
	cursor.(*Cursor).session = session

	// driverName := q.GetDriverDB()
	driverName := q.Connection().(*Connection).GetDriver()
	// driverName = "oracle"
	var QueryString string

	/*
		parts will return E - map{interface{}}interface{}
		where each interface{} returned is slice of interfaces --> []interface{}
	*/
	quyerParts := q.Parts()
	c := crowd.From(&quyerParts)
	groupParts := c.Group(func(x interface{}) interface{} {
		return x.(*dbox.QueryPart).PartType
	}, nil).Exec()
	parts := map[interface{}]interface{}{}
	if len(groupParts.Result.Data().([]crowd.KV)) > 0 {
		for _, kv := range groupParts.Result.Data().([]crowd.KV) {
			parts[kv.Key] = kv.Value
		}
	}

	fromParts, hasFrom := parts[dbox.QueryPartFrom]
	procedureParts, hasProcedure := parts["procedure"]
	freeQueryParts, hasFreeQuery := parts["freequery"]

	if hasFrom {
		tablename := ""
		tablename = fromParts.([]*dbox.QueryPart)[0].Value.(string)

		selectParts, hasSelect := parts[dbox.QueryPartSelect]
		var attribute string
		incAtt := 0
		if hasSelect {
			for _, sl := range selectParts.([]*dbox.QueryPart) {
				for _, fid := range sl.Value.([]string) {
					if incAtt == 0 {
						attribute = fid
					} else {
						attribute = attribute + ", " + fid
					}
					incAtt++
				}
			}
		} else {
			_, hasUpdate := parts[dbox.QueryPartUpdate]
			_, hasInsert := parts[dbox.QueryPartInsert]
			_, hasDelete := parts[dbox.QueryPartDelete]
			_, hasSave := parts[dbox.QueryPartSave]

			if hasUpdate || hasInsert || hasDelete || hasSave {
				return nil, errorlib.Error(packageName, modQuery, "Cursor",
					"Valid operation for a cursor is select only")
			}
		}

		aggrParts, hasAggr := parts[dbox.QueryPartAggr]

		var aggrExpression string
		if hasAggr {
			incAtt := 0
			// for _, aggr := range aggrParts.([]interface{}) {
			for _, aggr := range aggrParts.([]*dbox.QueryPart) {
				// qp := aggr.(*dbox.QueryPart)
				/* isi qp :  &{AGGR {$sum 1 Total Item}}*/
				aggrInfo := aggr.Value.(dbox.AggrInfo)
				/* isi Aggr Info :  {$sum 1 Total Item}*/

				if incAtt == 0 {
					aggrExpression = strings.Replace(aggrInfo.Op, "$", "", 1) + "(" +
						cast.ToString(aggrInfo.Field) + ")" + " as \"" + aggrInfo.Alias + "\""
				} else {
					aggrExpression += ", " + strings.Replace(aggrInfo.Op, "$", "", 1) + "(" +
						cast.ToString(aggrInfo.Field) + ")" + " as \"" + aggrInfo.Alias + "\""
				}
				incAtt++
			}
			/* isi Aggr Expression :  sum(1) as 'Total Item', max(amount) as 'Max Amount', avg(amount) as 'Average Amount'*/
		}

		var where interface{}
		whereParts, hasWhere := parts[dbox.QueryPartWhere]
		if hasWhere {
			fb := q.Connection().Fb()
			for _, p := range whereParts.([]*dbox.QueryPart) {
				fs := p.Value.([]*dbox.Filter)
				for _, f := range fs {
					if in != nil {
						f = rdbms.ReadVariable(f, in)
					}
					fb.AddFilter(f)
				}
			}
			where, e = fb.Build()
			if e != nil {
				return nil, errorlib.Error(packageName, modQuery, "Cursor",
					e.Error())
			}
		}

		var orderExpression string
		orderParts, hasOrder := parts[dbox.QueryPartOrder]
		if hasOrder {
			qp := orderParts.([]*dbox.QueryPart)[0]
			for i, fid := range qp.Value.([]string) {
				if i == 0 {
					if string(fid[0]) == "-" {
						orderExpression = strings.Replace(fid, "-", "", 1) + " DESC"
					} else {
						orderExpression = fid + " ASC"
					}
				} else {
					if string(fid[0]) == "-" {
						orderExpression += ", " + strings.Replace(fid, "-", "", 1) + " DESC"
					} else {
						orderExpression += ", " + fid + " ASC"
					}
				}
			}
			// for _, oval := range orderParts.([]interface{}) {
			// 	qp := oval.(*dbox.QueryPart)
			// 	for i, fid := range qp.Value.([]string) {
			// 		if i == 0 {
			// 			if string(fid[0]) == "-" {
			// 				orderExpression = strings.Replace(fid, "-", "", 1) + " DESC"
			// 			} else {
			// 				orderExpression = fid + " ASC"
			// 			}
			// 		} else {
			// 			if string(fid[0]) == "-" {
			// 				orderExpression += ", " + strings.Replace(fid, "-", "", 1) + " DESC"
			// 			} else {
			// 				orderExpression += ", " + fid + " ASC"
			// 			}
			// 		}
			// 	}
			// }
		}

		skip := 0
		skipParts, hasSkip := parts[dbox.QueryPartSkip]
		if hasSkip {
			skip = skipParts.([]*dbox.QueryPart)[0].Value.(int)
		}

		take := 0
		takeParts, hasTake := parts[dbox.QueryPartTake]
		if hasTake {
			take = takeParts.([]*dbox.QueryPart)[0].Value.(int)
		}

		partGroup, hasGroup := parts[dbox.QueryPartGroup]
		var groupExpression string
		if hasGroup {
			for _, aggr := range partGroup.([]*dbox.QueryPart) {
				// qp := aggr.(*dbox.QueryPart)
				groupValue := aggr.Value.([]string)
				for i, val := range groupValue {
					if i == 0 {
						groupExpression += val
					} else {
						groupExpression += ", " + val
					}
				}
			}
			/* isi group expression :  GROUP BY nama*/
		}

		if dbname != "" && tablename != "" && e != nil && skip == 0 && take == 0 && where == nil {

		}
		if hasAggr {
			if hasSelect && attribute != "" {
				QueryString = "SELECT " + attribute + ", " + aggrExpression + " FROM " + tablename
			} else {
				QueryString = "SELECT " + aggrExpression + " FROM " + tablename
			}

		} else {
			if attribute == "" {
				QueryString = "SELECT * FROM " + tablename
			} else {
				QueryString = "SELECT " + attribute + " FROM " + tablename
			}
		}

		if hasWhere {
			QueryString += " WHERE " + cast.ToString(where)
		}
		if hasGroup {
			QueryString += " GROUP BY " + groupExpression
		}
		if hasOrder {
			QueryString += " ORDER BY " + orderExpression
		}

		if driverName == "mysql" {
			if hasSkip && hasTake {
				QueryString += " LIMIT " + cast.ToString(take) +
					" OFFSET " + cast.ToString(skip)
			} else if hasSkip && !hasTake {
				QueryString += " LIMIT " + cast.ToString(9999999) +
					" OFFSET " + cast.ToString(skip)
			} else if hasTake && !hasSkip {
				QueryString += " LIMIT " + cast.ToString(take)
			}
		} else if driverName == "mssql" {
			if hasSkip && hasTake {
				QueryString += " OFFSET " + cast.ToString(skip) + " ROWS FETCH NEXT " +
					cast.ToString(take) + " ROWS ONLY "
			} else if hasSkip && !hasTake {
				QueryString += " OFFSET " + cast.ToString(skip) + " ROWS"
			} else if hasTake && !hasSkip {
				top := "SELECT TOP " + cast.ToString(take) + " "
				QueryString = strings.Replace(QueryString, "SELECT", top, 1)
			}
			fmt.Println(" :: ", QueryString)
		} else if driverName == "oracle" {
			if hasSkip && hasTake {
				QueryString = "SELECT " + attribute + ", rownum as rnum FROM (" + QueryString +
					") where rownum <= " + cast.ToString(take+skip) + ")"
				QueryString = "SELECT " + attribute + " FROM (" + QueryString + " WHERE rnum > " + cast.ToString(skip)

			} else if hasSkip && !hasTake {
				QueryString = "SELECT " + attribute + ", rownum as rnum FROM (" + QueryString + "))"
				QueryString = "SELECT " + attribute + " FROM (" + QueryString + " WHERE rnum > " + cast.ToString(skip)

			} else if hasTake && !hasSkip {
				QueryString = "SELECT " + attribute + ", rownum as rnum FROM (" + QueryString +
					") where rownum <= " + cast.ToString(take) + ")"
				QueryString = "SELECT " + attribute + " FROM (" + QueryString
			}
		} else if driverName == "postgres" {
			if hasSkip && hasTake {
				QueryString += " LIMIT " + cast.ToString(take) +
					" OFFSET " + cast.ToString(skip)
			} else if hasSkip && !hasTake {
				QueryString += " LIMIT ALL" +
					" OFFSET " + cast.ToString(skip)
			} else if hasTake && !hasSkip {
				QueryString += " LIMIT " + cast.ToString(take)
			}
		}
		// toolkit.Println("driverName : ", driverName, " == >", QueryString)
		var querystmt string
		if where != nil {
			querystmt = "select count(*) from " + tablename +
				" where " + cast.ToString(where)
		} else {
			querystmt = "select count(*) from " + tablename
		}

		/*populate fetch.count*/
		var rowCount int

		rows, _ := cursor.(*Cursor).session.Query(querystmt)
		for rows.Next() {
			rows.Scan(&rowCount)
		}

		if rowCount <= skip {
			rowCount = 0
		} else {
			rowCount -= skip
		}
		if rowCount >= take && take > 0 {
			rowCount = take
		}
		cursor.(*Cursor).count = rowCount

		/*assign cursor.QueryString*/
		cursor.(*Cursor).QueryString = QueryString
	} else if hasProcedure {
		procCommand := procedureParts.([]*dbox.QueryPart)[0].Value.(interface{})

		spName := procCommand.(toolkit.M)["name"].(string) + " "
		params, hasParam := procCommand.(toolkit.M)["parms"]
		orderparam, hasOrder := procCommand.(toolkit.M)["orderparam"]
		ProcStatement := ""

		if driverName == "mysql" {
			paramstring := ""
			if hasParam && hasOrder {
				paramToolkit := params.(toolkit.M)
				orderString := orderparam.([]string)
				for i := 0; i < len(paramToolkit); i++ {
					if i == 0 {
						if strings.Contains(orderString[i], "@@") {
							paramstring = "(" + strings.Replace(orderString[i], "@@", "@", 1)
						} else if rdbms.StringValue(paramToolkit[orderString[i]], driverName) != "''" {
							paramstring = "(" + rdbms.StringValue(paramToolkit[orderString[i]], driverName)

						} else {
							paramstring = "("
						}

					} else {
						if strings.Contains(orderString[i], "@@") {
							paramstring += ", " + strings.Replace(orderString[i], "@@", "@", 1)
						} else {
							paramstring += ", " + rdbms.StringValue(paramToolkit[orderString[i]], driverName)

						}
					}
				}

			} else if hasParam && !hasOrder {
				return nil, errorlib.Error(packageName, modQuery, "procedure", "please provide order parameter")
			} else {
				paramstring = "("
			}
			paramstring += ");"

			ProcStatement = "CALL " + spName + paramstring
		} else if driverName == "mssql" {
			paramstring := ""
			incParam := 0
			if hasParam {
				for key, val := range params.(toolkit.M) {
					if key != "" {
						if incParam == 0 {
							paramstring = key + " = " + rdbms.StringValue(val, driverName) + ""

						} else {
							paramstring += ", " + key + " = " + rdbms.StringValue(val, driverName) + ""
						}
						incParam += 1
					}
				}
				paramstring += ";"
			}

			ProcStatement = "EXECUTE " + spName + paramstring
		} else if driverName == "oracle" {
			var paramstring string
			var variable string
			var isEmpty bool
			if hasParam && hasOrder {
				paramToolkit := params.(toolkit.M)
				orderString := orderparam.([]string)
				for i := 0; i < len(paramToolkit); i++ {
					if i == 0 {
						if strings.Contains(orderString[i], "@@") {
							variable = "var " + strings.Replace(orderString[i], "@@", "", 1) +
								" " + cast.ToString(paramToolkit[orderString[i]]) + ";"
							paramstring = "(" + strings.Replace(orderString[i], "@@", ":", 1)
							isEmpty = false
						} else if rdbms.StringValue(paramToolkit[orderString[i]], driverName) != "''" {
							paramstring = "(" + rdbms.StringValue(paramToolkit[orderString[i]], driverName)
							isEmpty = false
						}

					} else {
						if strings.Contains(orderString[i], "@@") {
							variable += "var " + strings.Replace(orderString[i], "@@", "", 1) +
								" " + cast.ToString(paramToolkit[orderString[i]]) + ";"
							paramstring += ", " + strings.Replace(orderString[i], "@@", ":", 1)
						} else {
							paramstring += ", " + rdbms.StringValue(paramToolkit[orderString[i]], driverName)

						}
					}
				}
				if !isEmpty {
					paramstring += ");"
				}
			} else if hasParam && !hasOrder {
				return nil, errorlib.Error(packageName, modQuery, "procedure", "please provide order parameter")
			}

			ProcStatement = variable + "EXECUTE " + spName + paramstring

		} else if driverName == "postgres" {
			paramstring := ""
			if hasParam && hasOrder {
				paramToolkit := params.(toolkit.M)
				orderString := orderparam.([]string)
				for i := 0; i < len(paramToolkit); i++ {
					if i == 0 {
						if strings.Contains(orderString[i], "@@") {
							paramstring = "(" + strings.Replace(orderString[i], "@@", "@", 1)
						} else if rdbms.StringValue(paramToolkit[orderString[i]], driverName) != "''" {
							paramstring = "(" + rdbms.StringValue(paramToolkit[orderString[i]], driverName)

						} else {
							paramstring = "("
						}

					} else {
						if strings.Contains(orderString[i], "@@") {
							paramstring += ", " + strings.Replace(orderString[i], "@@", "@", 1)
						} else {
							paramstring += ", " + rdbms.StringValue(paramToolkit[orderString[i]], driverName)

						}
					}

					// fmt.Println("Print value order", paramstring)
				}

			} else if hasParam && !hasOrder {

				return nil, errorlib.Error(packageName, modQuery, "procedure", "please provide order parameter")

			} else {
				paramstring = "("
			}
			paramstring += ")"

			ProcStatement = "SELECT " + spName + paramstring
		}

		cursor.(*Cursor).QueryString = ProcStatement

		// fmt.Println("Proc Statement : ", ProcStatement)
	} else if hasFreeQuery {
		querySyntax := freeQueryParts.([]*dbox.QueryPart)[0].Value.(interface{})
		syntax := querySyntax.(toolkit.M)["syntax"].(string)
		cursor.(*Cursor).QueryString = syntax
	}
	return cursor, nil
}
Example #4
0
func (q *Query) Exec(parm toolkit.M) error {
	var e error
	if parm == nil {
		parm = toolkit.M{}
	}

	dbname := q.Connection().Info().Database
	driverName := q.Connection().(*Connection).GetDriver()
	// driverName = "oracle"
	tablename := ""

	if parm == nil {
		parm = toolkit.M{}
	}
	data := parm.Get("data", nil)
	// fmt.Println("Hasil ekstraksi Param : ", data)

	/*========================EXTRACT FIELD, DATA AND FORMAT DATE=============================*/

	var attributes string
	var values string
	var setUpdate, statement string
	var i int

	dataM, e := toolkit.ToM(data)
	if e != nil {
		return errorlib.Error(packageName, modQuery, "Exec: data extraction", "Data encoding error: "+e.Error())
	}

	if data != nil {
		for field, val := range dataM {
			namaField := field
			dataValues := val
			stringValues := rdbms.StringValue(dataValues, driverName)
			if i == 0 {
				attributes = "(" + namaField
				values = "(" + stringValues
				setUpdate = namaField + " = " + stringValues
			} else {
				attributes += ", " + namaField
				values += ", " + stringValues
				setUpdate += ", " + namaField + " = " + stringValues
			}
			i += 1
		}
		attributes += ")"
		values += ")"
	}

	/*=================================END OF EXTRACTION=======================================*/

	temp := ""
	quyerParts := q.Parts()
	c := crowd.From(&quyerParts)
	groupParts := c.Group(func(x interface{}) interface{} {
		qp := x.(*dbox.QueryPart)
		temp = toolkit.JsonString(qp)
		return qp.PartType
	}, nil).Exec()
	parts := map[interface{}]interface{}{}
	if len(groupParts.Result.Data().([]crowd.KV)) > 0 {
		for _, kv := range groupParts.Result.Data().([]crowd.KV) {
			parts[kv.Key] = kv.Value
		}
	}

	fromParts, hasFrom := parts[dbox.QueryPartFrom]
	if !hasFrom {

		return errorlib.Error(packageName, "Query", modQuery, "Invalid table name")
	}
	tablename = fromParts.([]*dbox.QueryPart)[0].Value.(string)

	var where interface{}
	whereParts, hasWhere := parts[dbox.QueryPartWhere]
	if hasWhere {
		fb := q.Connection().Fb()
		for _, p := range whereParts.([]*dbox.QueryPart) {
			fs := p.Value.([]*dbox.Filter)
			for _, f := range fs {
				fb.AddFilter(f)
			}
		}

		where, e = fb.Build()
		if e != nil {

		} else {

		}

	}
	commandType := ""
	multi := false

	_, hasDelete := parts[dbox.QueryPartDelete]
	_, hasInsert := parts[dbox.QueryPartInsert]
	_, hasUpdate := parts[dbox.QueryPartUpdate]
	_, hasSave := parts[dbox.QueryPartSave]

	if hasDelete {
		commandType = dbox.QueryPartDelete
	} else if hasInsert {
		commandType = dbox.QueryPartInsert
	} else if hasUpdate {
		commandType = dbox.QueryPartUpdate
	} else if hasSave {
		commandType = dbox.QueryPartSave
	}

	var id string
	var idVal interface{}
	if data == nil {
		multi = true
	} else {
		if where == nil {
			id, idVal = toolkit.IdInfo(data)
			if id != "" {
				where = id + " = " + rdbms.StringValue(idVal, "non")
			}
		} else {
			multi = true
		}
	}

	session := q.Session()

	if dbname != "" && tablename != "" && multi == true {
	}

	if commandType == dbox.QueryPartInsert {
		if attributes != "" && values != "" {

			statement = "INSERT INTO " + tablename + " " + attributes + " VALUES " + values
			_, e = session.Exec(statement)
			if e != nil {
				fmt.Println(e.Error())
			}
		} else {
			return errorlib.Error(packageName, modQuery+".Exec", commandType,
				"please provide the data")
		}
	} else if commandType == dbox.QueryPartUpdate {
		if setUpdate != "" {
			var statement string
			if where != nil {
				statement = "UPDATE " + tablename + " SET " + setUpdate +
					" WHERE " + cast.ToString(where)
			} else {
				statement = "UPDATE " + tablename + " SET " + setUpdate
			}

			_, e = session.Exec(statement)
			if e != nil {
				return errorlib.Error(packageName, modQuery+".Exec", commandType,
					cast.ToString(e.Error()))
			}
		} else {
			return errorlib.Error(packageName, modQuery+".Exec", commandType,
				"please provide the data")
		}
	} else if commandType == dbox.QueryPartDelete {
		var statement string
		if where != nil {
			statement = "DELETE FROM " + tablename + " where " + cast.ToString(where)
		} else {
			statement = "DELETE FROM " + tablename
		}
		_, e = session.Exec(statement)
		if e != nil {
			return errorlib.Error(packageName, modQuery+".Exec", commandType,
				cast.ToString(e.Error()))
		}
	} else if commandType == dbox.QueryPartSave {
		if attributes != "" && values != "" {
			var querystmt string
			if where != nil {
				querystmt = "select 1 as data from " + tablename + " where " + cast.ToString(where)
			}
			var rowCount int
			if querystmt != "" {
				rows, _ := session.Query(querystmt)
				for rows.Next() {
					rows.Scan(&rowCount)
				}
			}

			var statement string
			if rowCount == 0 || where == nil {
				statement = "INSERT INTO " + tablename + " " +
					attributes + " VALUES " + values
			} else {
				statement = "UPDATE " + tablename + " SET " + setUpdate +
					" WHERE " + cast.ToString(where)
			}

			_, e = session.Exec(statement)

			if e != nil {
				return errorlib.Error(packageName, modQuery+".Exec", commandType,
					cast.ToString(e.Error()))
			}

		} else if values == "" {
			return errorlib.Error(packageName, modQuery+".Exec", commandType,
				"please provide the data")
		}
	}

	if e != nil {
		return errorlib.Error(packageName, modQuery+".Exec", commandType, e.Error())
	}
	defer session.Close()

	return nil
}