// Code generated by xlsx2proto. // DO NOT EDIT! package main import ( "encoding/json" "fmt" "os" "runtime" "strconv" "strings" "github.com/tealeg/xlsx" "mongo.games.com/game/proto" "mongo.games.com/game/protocol/server" ) var _ = strings.Split func AgcConvertDB_ActSign(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ActSignArray{ Arr: make([]*server.DB_ActSign, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ActSign{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Name = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Item_Id = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Grade = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Activity1(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Activity1Array{ Arr: make([]*server.DB_Activity1, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Activity1{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Parameter = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Turn = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } data.Title = proto.String(row.Cells[3].String()) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Costype = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Costp = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Cost = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Typee = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Propid = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Value = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Getype = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_AnimalColor(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_AnimalColorArray{ Arr: make([]*server.DB_AnimalColor, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_AnimalColor{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Desc = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.ColorChance = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ArtilleryRate(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ArtilleryRateArray{ Arr: make([]*server.DB_ArtilleryRate, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ArtilleryRate{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Shell = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Level = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } data.Desc = proto.String(row.Cells[3].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ArtillerySkin(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ArtillerySkinArray{ Arr: make([]*server.DB_ArtillerySkin, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ArtillerySkin{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.CannonId = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.ExprieTime = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Show = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Order = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } data.NameIcon = proto.String(row.Cells[7].String()) if len(row.Cells) < 8+1 { break } data.PicIcon = proto.String(row.Cells[8].String()) if len(row.Cells) < 9+1 { break } data.BaseIcon = proto.String(row.Cells[9].String()) if len(row.Cells) < 10+1 { break } data.ShellIcon = proto.String(row.Cells[10].String()) if len(row.Cells) < 11+1 { break } data.NetIcon = proto.String(row.Cells[11].String()) if len(row.Cells) < 12+1 { break } arrStr = strings.Split(row.Cells[12].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[12].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Vip = arrInt if len(row.Cells) < 13+1 { break } temp, _ = strconv.ParseInt(row.Cells[13].String(), 10, 32) data.Gold = proto.Int32(int32(temp)) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Diamond = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.Income = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.Speed = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } temp, _ = strconv.ParseInt(row.Cells[17].String(), 10, 32) data.Caught = proto.Int32(int32(temp)) if len(row.Cells) < 18+1 { break } temp, _ = strconv.ParseInt(row.Cells[18].String(), 10, 32) data.Introduce = proto.Int32(int32(temp)) if len(row.Cells) < 19+1 { break } data.Source = proto.String(row.Cells[19].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_BlackWhite(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_BlackWhiteArray{ Arr: make([]*server.DB_BlackWhite, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_BlackWhite{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.BlackOdds = arrInt if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.WhiteOdds = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_CardsJD(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_CardsJDArray{ Arr: make([]*server.DB_CardsJD, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_CardsJD{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Card1 = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Card1Score = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Card1HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } data.Change1Cards = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } data.Card2 = proto.String(row.Cells[5].String()) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Card2Score = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Card2HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } data.Change2Cards = proto.String(row.Cells[8].String()) if len(row.Cells) < 9+1 { break } data.Card3 = proto.String(row.Cells[9].String()) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Card3Score = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.Card3HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } data.Change3Cards = proto.String(row.Cells[12].String()) if len(row.Cells) < 13+1 { break } data.Card4 = proto.String(row.Cells[13].String()) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Card4Score = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.Card4HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } data.Change4Cards = proto.String(row.Cells[16].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_CardsYuLe(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_CardsYuLeArray{ Arr: make([]*server.DB_CardsYuLe, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_CardsYuLe{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Card1 = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Card1Score = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Card1HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } data.Change1Cards = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } data.Card2 = proto.String(row.Cells[5].String()) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Card2Score = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Card2HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } data.Change2Cards = proto.String(row.Cells[8].String()) if len(row.Cells) < 9+1 { break } data.Card3 = proto.String(row.Cells[9].String()) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Card3Score = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.Card3HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } data.Change3Cards = proto.String(row.Cells[12].String()) if len(row.Cells) < 13+1 { break } data.Card4 = proto.String(row.Cells[13].String()) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Card4Score = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.Card4HandNum = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } data.Change4Cards = proto.String(row.Cells[16].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ChessBilledRules(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ChessBilledRulesArray{ Arr: make([]*server.DB_ChessBilledRules, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ChessBilledRules{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.TypeId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.WinScore = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.LoseScore = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.DrawScore = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.WinTimes = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.OtherScore = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ChessMatchRules(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ChessMatchRulesArray{ Arr: make([]*server.DB_ChessMatchRules, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ChessMatchRules{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.ScoreMin = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ScoreMax = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.MatchScoreMin = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.MatchScoreMax = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MatchScoreLowStep = arrInt if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MatchScoreHightStep = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ChessRank(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ChessRankArray{ Arr: make([]*server.DB_ChessRank, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ChessRank{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Score = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ClientVer(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ClientVerArray{ Arr: make([]*server.DB_ClientVer, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ClientVer{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.PackageFlag = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } data.PackVers = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } data.GameVers = proto.String(row.Cells[3].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_CrashSearch(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_CrashSearchArray{ Arr: make([]*server.DB_CrashSearch, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_CrashSearch{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Time = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Price = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Createroom(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_CreateroomArray{ Arr: make([]*server.DB_Createroom, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Createroom{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.GameId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.GameSite = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.GoldRange = arrInt if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.BetRange = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Fish(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FishArray{ Arr: make([]*server.DB_Fish, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Fish{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } data.NameE = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Gold = arrInt if len(row.Cells) < 4+1 { break } data.Icon = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Speed = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Exp = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.FrameCnt = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.FrameDelay = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Rate = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.ShowType = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.Show = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } temp, _ = strconv.ParseInt(row.Cells[12].String(), 10, 32) data.ShowScale = proto.Int32(int32(temp)) if len(row.Cells) < 13+1 { break } arrStr = strings.Split(row.Cells[13].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[13].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.ShowPos = arrInt if len(row.Cells) < 14+1 { break } data.DieSound = proto.String(row.Cells[14].String()) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.DieFrame = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.DieRotate = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } temp, _ = strconv.ParseInt(row.Cells[17].String(), 10, 32) data.DieEffect = proto.Int32(int32(temp)) if len(row.Cells) < 18+1 { break } temp, _ = strconv.ParseInt(row.Cells[18].String(), 10, 32) data.DieShake = proto.Int32(int32(temp)) if len(row.Cells) < 19+1 { break } temp, _ = strconv.ParseInt(row.Cells[19].String(), 10, 32) data.ShakeRange = proto.Int32(int32(temp)) if len(row.Cells) < 20+1 { break } data.Shape = proto.String(row.Cells[20].String()) if len(row.Cells) < 21+1 { break } temp, _ = strconv.ParseInt(row.Cells[21].String(), 10, 32) data.IsBoss = proto.Int32(int32(temp)) if len(row.Cells) < 22+1 { break } temp, _ = strconv.ParseInt(row.Cells[22].String(), 10, 32) data.ResId = proto.Int32(int32(temp)) if len(row.Cells) < 23+1 { break } data.DieParticle = proto.String(row.Cells[23].String()) if len(row.Cells) < 24+1 { break } temp, _ = strconv.ParseInt(row.Cells[24].String(), 10, 32) data.GroupShape = proto.Int32(int32(temp)) if len(row.Cells) < 25+1 { break } arrStr = strings.Split(row.Cells[25].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[25].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.GroupFishes = arrInt if len(row.Cells) < 26+1 { break } temp, _ = strconv.ParseInt(row.Cells[26].String(), 10, 32) data.Zorder = proto.Int32(int32(temp)) if len(row.Cells) < 27+1 { break } data.ResPng = proto.String(row.Cells[27].String()) if len(row.Cells) < 28+1 { break } data.ResPlist = proto.String(row.Cells[28].String()) if len(row.Cells) < 29+1 { break } data.ExportJson = proto.String(row.Cells[29].String()) if len(row.Cells) < 30+1 { break } data.AimIcon = proto.String(row.Cells[30].String()) if len(row.Cells) < 31+1 { break } temp, _ = strconv.ParseInt(row.Cells[31].String(), 10, 32) data.GameId = proto.Int32(int32(temp)) if len(row.Cells) < 32+1 { break } temp, _ = strconv.ParseInt(row.Cells[32].String(), 10, 32) data.Sort = proto.Int32(int32(temp)) if len(row.Cells) < 33+1 { break } temp, _ = strconv.ParseInt(row.Cells[33].String(), 10, 32) data.FishType = proto.Int32(int32(temp)) if len(row.Cells) < 34+1 { break } data.RandomCoin = proto.String(row.Cells[34].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FishOut(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FishOutArray{ Arr: make([]*server.DB_FishOut, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FishOut{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.SceneType = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Exp = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Multiple = arrInt if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Path = arrInt if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Count = arrInt if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.RefreshInterval = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Speed = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Event = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FishPath(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FishPathArray{ Arr: make([]*server.DB_FishPath, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FishPath{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.AppearTime = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.DisappearTime = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FishRoom(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FishRoomArray{ Arr: make([]*server.DB_FishRoom, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FishRoom{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.RoomId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } data.SumGold1 = proto.String(row.Cells[3].String()) if len(row.Cells) < 4+1 { break } data.SumGold2 = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } data.SumGold3 = proto.String(row.Cells[5].String()) if len(row.Cells) < 6+1 { break } data.SumGold4 = proto.String(row.Cells[6].String()) if len(row.Cells) < 7+1 { break } data.SumGold5 = proto.String(row.Cells[7].String()) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.BossCDTime = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.LittleBossCDTime = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } data.EnableBoss = proto.String(row.Cells[10].String()) if len(row.Cells) < 11+1 { break } data.EnableLittleBoss = proto.String(row.Cells[11].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FishSkill(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FishSkillArray{ Arr: make([]*server.DB_FishSkill, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FishSkill{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Vip = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Consume = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Item = arrInt if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.OtherConsumer = arrInt if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Multiple = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Duration = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.SkillGroups = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.GCD = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Cooldown = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } data.Hidden = proto.String(row.Cells[11].String()) if len(row.Cells) < 12+1 { break } data.Describe = proto.String(row.Cells[12].String()) if len(row.Cells) < 13+1 { break } data.Boss = proto.String(row.Cells[13].String()) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.Limit = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.Mutex = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } temp, _ = strconv.ParseInt(row.Cells[17].String(), 10, 32) data.MutexTime = proto.Int32(int32(temp)) if len(row.Cells) < 18+1 { break } temp, _ = strconv.ParseInt(row.Cells[18].String(), 10, 32) data.Fury = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FortuneGod_Odds(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FortuneGod_OddsArray{ Arr: make([]*server.DB_FortuneGod_Odds, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FortuneGod_Odds{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Rateodds3 = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Rateodds4 = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Rateodds5 = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FortuneGod_TurnRate(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FortuneGod_TurnRateArray{ Arr: make([]*server.DB_FortuneGod_TurnRate, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FortuneGod_TurnRate{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.ReturnRateMin = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ReturnRateMax = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Chance = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FortuneGod_Weight(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FortuneGod_WeightArray{ Arr: make([]*server.DB_FortuneGod_Weight, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FortuneGod_Weight{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Weight = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_FortuneGod_WeightCondition(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_FortuneGod_WeightConditionArray{ Arr: make([]*server.DB_FortuneGod_WeightCondition, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_FortuneGod_WeightCondition{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.IsNew = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.BetScope = arrInt if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.TrueCalcRate = arrInt if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.WeightId = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GamMatchLV(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GamMatchLVArray{ Arr: make([]*server.DB_GamMatchLV, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GamMatchLV{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } arrStr = strings.Split(row.Cells[1].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[1].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Star = arrInt if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Star2 = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.AwardType1 = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.AwardId1 = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Number1 = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.AwardType2 = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.AwardId2 = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Number2 = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.AwardType3 = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.AwardId3 = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } temp, _ = strconv.ParseInt(row.Cells[12].String(), 10, 32) data.Number3 = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameCoinPool(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameCoinPoolArray{ Arr: make([]*server.DB_GameCoinPool, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameCoinPool{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 64) data.InitValue = proto.Int64(int64(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 64) data.LowerLimit = proto.Int64(int64(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 64) data.UpperLimit = proto.Int64(int64(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 64) data.QuDu = proto.Int64(int64(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.UpperOdds = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.UpperOddsMax = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.LowerOdds = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.LowerOddsMax = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.ProfitRate = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameFree(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameFreeArray{ Arr: make([]*server.DB_GameFree, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameFree{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } data.Title = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.GameId = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.GameMode = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.FreeMode = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.GameRule = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.GameType = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.SceneType = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.RankType = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.SceneAdd = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } data.Desc = proto.String(row.Cells[11].String()) if len(row.Cells) < 12+1 { break } temp, _ = strconv.ParseInt(row.Cells[12].String(), 10, 32) data.ShowType = proto.Int32(int32(temp)) if len(row.Cells) < 13+1 { break } temp, _ = strconv.ParseInt(row.Cells[13].String(), 10, 32) data.SubShowType = proto.Int32(int32(temp)) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Flag = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.TestTakeCoin = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.ShowId = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } temp, _ = strconv.ParseInt(row.Cells[17].String(), 10, 64) data.LimitCoin = proto.Int64(int64(temp)) if len(row.Cells) < 18+1 { break } temp, _ = strconv.ParseInt(row.Cells[18].String(), 10, 64) data.MaxCoinLimit = proto.Int64(int64(temp)) if len(row.Cells) < 19+1 { break } temp, _ = strconv.ParseInt(row.Cells[19].String(), 10, 32) data.ServiceFee = proto.Int32(int32(temp)) if len(row.Cells) < 20+1 { break } temp, _ = strconv.ParseInt(row.Cells[20].String(), 10, 64) data.LowerThanKick = proto.Int64(int64(temp)) if len(row.Cells) < 21+1 { break } temp, _ = strconv.ParseInt(row.Cells[21].String(), 10, 32) data.BaseScore = proto.Int32(int32(temp)) if len(row.Cells) < 22+1 { break } temp, _ = strconv.ParseInt(row.Cells[22].String(), 10, 32) data.Turn = proto.Int32(int32(temp)) if len(row.Cells) < 23+1 { break } data.BetDec = proto.String(row.Cells[23].String()) if len(row.Cells) < 24+1 { break } temp, _ = strconv.ParseInt(row.Cells[24].String(), 10, 32) data.Bot = proto.Int32(int32(temp)) if len(row.Cells) < 25+1 { break } arrStr = strings.Split(row.Cells[25].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[25].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Ai = arrInt if len(row.Cells) < 26+1 { break } temp, _ = strconv.ParseInt(row.Cells[26].String(), 10, 32) data.Banker = proto.Int32(int32(temp)) if len(row.Cells) < 27+1 { break } temp, _ = strconv.ParseInt(row.Cells[27].String(), 10, 32) data.MaxChip = proto.Int32(int32(temp)) if len(row.Cells) < 28+1 { break } arrStr = strings.Split(row.Cells[28].String(), "|") arrInt64 = nil if len(arrStr) > 0 && row.Cells[28].String() != "" { arrInt64 = make([]int64, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 64) arrInt64[i] = int64(temp) } } data.OtherIntParams = arrInt64 if len(row.Cells) < 29+1 { break } arrStr = strings.Split(row.Cells[29].String(), "|") arrInt64 = nil if len(arrStr) > 0 && row.Cells[29].String() != "" { arrInt64 = make([]int64, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 64) arrInt64[i] = int64(temp) } } data.ChessScoreParams = arrInt64 if len(row.Cells) < 30+1 { break } arrStr = strings.Split(row.Cells[30].String(), "|") arrInt64 = nil if len(arrStr) > 0 && row.Cells[30].String() != "" { arrInt64 = make([]int64, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 64) arrInt64[i] = int64(temp) } } data.RankScoreParams = arrInt64 if len(row.Cells) < 31+1 { break } arrStr = strings.Split(row.Cells[31].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[31].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Jackpot = arrInt if len(row.Cells) < 32+1 { break } arrStr = strings.Split(row.Cells[32].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[32].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.RobotNumRng = arrInt if len(row.Cells) < 33+1 { break } arrStr = strings.Split(row.Cells[33].String(), "|") arrInt64 = nil if len(arrStr) > 0 && row.Cells[33].String() != "" { arrInt64 = make([]int64, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 64) arrInt64[i] = int64(temp) } } data.RobotTakeCoin = arrInt64 if len(row.Cells) < 34+1 { break } arrStr = strings.Split(row.Cells[34].String(), "|") arrInt64 = nil if len(arrStr) > 0 && row.Cells[34].String() != "" { arrInt64 = make([]int64, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 64) arrInt64[i] = int64(temp) } } data.RobotLimitCoin = arrInt64 if len(row.Cells) < 35+1 { break } temp, _ = strconv.ParseInt(row.Cells[35].String(), 10, 32) data.BetLimit = proto.Int32(int32(temp)) if len(row.Cells) < 36+1 { break } temp, _ = strconv.ParseInt(row.Cells[36].String(), 10, 32) data.TaxRate = proto.Int32(int32(temp)) if len(row.Cells) < 37+1 { break } temp, _ = strconv.ParseInt(row.Cells[37].String(), 10, 32) data.SameIpLimit = proto.Int32(int32(temp)) if len(row.Cells) < 38+1 { break } temp, _ = strconv.ParseInt(row.Cells[38].String(), 10, 32) data.SamePlaceLimit = proto.Int32(int32(temp)) if len(row.Cells) < 39+1 { break } data.GameDif = proto.String(row.Cells[39].String()) if len(row.Cells) < 40+1 { break } temp, _ = strconv.ParseInt(row.Cells[40].String(), 10, 32) data.GameClass = proto.Int32(int32(temp)) if len(row.Cells) < 41+1 { break } data.PlatformName = proto.String(row.Cells[41].String()) if len(row.Cells) < 42+1 { break } arrStr = strings.Split(row.Cells[42].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[42].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MaxBetCoin = arrInt if len(row.Cells) < 43+1 { break } temp, _ = strconv.ParseInt(row.Cells[43].String(), 10, 32) data.PlayNumLimit = proto.Int32(int32(temp)) if len(row.Cells) < 44+1 { break } temp, _ = strconv.ParseInt(row.Cells[44].String(), 10, 32) data.CreateRoomNum = proto.Int32(int32(temp)) if len(row.Cells) < 45+1 { break } temp, _ = strconv.ParseInt(row.Cells[45].String(), 10, 32) data.MatchTrueMan = proto.Int32(int32(temp)) if len(row.Cells) < 46+1 { break } temp, _ = strconv.ParseInt(row.Cells[46].String(), 10, 32) data.PlayerWaterRate = proto.Int32(int32(temp)) if len(row.Cells) < 47+1 { break } temp, _ = strconv.ParseInt(row.Cells[47].String(), 10, 32) data.MatchMode = proto.Int32(int32(temp)) if len(row.Cells) < 48+1 { break } temp, _ = strconv.ParseInt(row.Cells[48].String(), 10, 32) data.KillingRate = proto.Int32(int32(temp)) if len(row.Cells) < 49+1 { break } temp, _ = strconv.ParseInt(row.Cells[49].String(), 10, 32) data.BetWaterRate = proto.Int32(int32(temp)) if len(row.Cells) < 50+1 { break } temp, _ = strconv.ParseInt(row.Cells[50].String(), 10, 32) data.Lottery = proto.Int32(int32(temp)) if len(row.Cells) < 51+1 { break } data.LotteryConfig = proto.String(row.Cells[51].String()) if len(row.Cells) < 52+1 { break } arrStr = strings.Split(row.Cells[52].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[52].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.BalanceLine = arrInt if len(row.Cells) < 53+1 { break } temp, _ = strconv.ParseInt(row.Cells[53].String(), 10, 32) data.JackpotRatio = proto.Int32(int32(temp)) if len(row.Cells) < 54+1 { break } temp, _ = strconv.ParseInt(row.Cells[54].String(), 10, 32) data.JackpotMin = proto.Int32(int32(temp)) if len(row.Cells) < 55+1 { break } arrStr = strings.Split(row.Cells[55].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[55].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.ChessGradeLimit = arrInt if len(row.Cells) < 56+1 { break } temp, _ = strconv.ParseInt(row.Cells[56].String(), 10, 32) data.LeaveDeduct = proto.Int32(int32(temp)) if len(row.Cells) < 57+1 { break } temp, _ = strconv.ParseInt(row.Cells[57].String(), 10, 32) data.LeaveCombat = proto.Int32(int32(temp)) if len(row.Cells) < 58+1 { break } temp, _ = strconv.ParseInt(row.Cells[58].String(), 10, 32) data.IntuseCannonMin = proto.Int32(int32(temp)) if len(row.Cells) < 59+1 { break } temp, _ = strconv.ParseInt(row.Cells[59].String(), 10, 32) data.IntuseCannonMax = proto.Int32(int32(temp)) if len(row.Cells) < 60+1 { break } temp, _ = strconv.ParseInt(row.Cells[60].String(), 10, 32) data.BossDrainageBet = proto.Int32(int32(temp)) if len(row.Cells) < 61+1 { break } temp, _ = strconv.ParseInt(row.Cells[61].String(), 10, 32) data.Draw = proto.Int32(int32(temp)) if len(row.Cells) < 62+1 { break } temp, _ = strconv.ParseInt(row.Cells[62].String(), 10, 64) data.Fluctuate = proto.Int64(int64(temp)) if len(row.Cells) < 63+1 { break } data.FluctuateMax = proto.String(row.Cells[63].String()) if len(row.Cells) < 64+1 { break } temp, _ = strconv.ParseInt(row.Cells[64].String(), 10, 32) data.Ratio = proto.Int32(int32(temp)) if len(row.Cells) < 65+1 { break } temp, _ = strconv.ParseInt(row.Cells[65].String(), 10, 64) data.MinValue = proto.Int64(int64(temp)) if len(row.Cells) < 66+1 { break } temp, _ = strconv.ParseInt(row.Cells[66].String(), 10, 64) data.MaxValue = proto.Int64(int64(temp)) if len(row.Cells) < 67+1 { break } temp, _ = strconv.ParseInt(row.Cells[67].String(), 10, 32) data.DrainageBet = proto.Int32(int32(temp)) if len(row.Cells) < 68+1 { break } temp, _ = strconv.ParseInt(row.Cells[68].String(), 10, 32) data.DiamondDrop = proto.Int32(int32(temp)) if len(row.Cells) < 69+1 { break } temp, _ = strconv.ParseInt(row.Cells[69].String(), 10, 32) data.NegativeMax = proto.Int32(int32(temp)) if len(row.Cells) < 70+1 { break } temp, _ = strconv.ParseInt(row.Cells[70].String(), 10, 32) data.RatioMax = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameItem(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameItemArray{ Arr: make([]*server.DB_GameItem, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameItem{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.ShowLocation = arrInt if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Classify = arrInt if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Effect0 = arrInt if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Effect = arrInt if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.SaleType = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.SaleGold = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Composition = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.CompositionMax = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.Time = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } data.Location = proto.String(row.Cells[12].String()) if len(row.Cells) < 13+1 { break } data.Describe = proto.String(row.Cells[13].String()) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 64) data.Num = proto.Int64(int64(temp)) if len(row.Cells) < 15+1 { break } data.Value = proto.String(row.Cells[15].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameMatchLevel(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameMatchLevelArray{ Arr: make([]*server.DB_GameMatchLevel, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameMatchLevel{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.GameFreeId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.MatchLevel = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.RobotUpRatio = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.UpGrade = arrInt if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.UpGradeOdds = arrInt if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.DownGrade = arrInt if len(row.Cells) < 7+1 { break } arrStr = strings.Split(row.Cells[7].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[7].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.DownGradeOdds = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameRule(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameRuleArray{ Arr: make([]*server.DB_GameRule, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameRule{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.GameId = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.GameMode = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Params = arrInt if len(row.Cells) < 5+1 { break } data.RuleDesc = proto.String(row.Cells[5].String()) if len(row.Cells) < 6+1 { break } data.GameDif = proto.String(row.Cells[6].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GameSubsidy(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GameSubsidyArray{ Arr: make([]*server.DB_GameSubsidy, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GameSubsidy{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.LimitNum = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Get = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Times = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Game_Drop(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Game_DropArray{ Arr: make([]*server.DB_Game_Drop, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Game_Drop{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.GameId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Bet = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.ItemName1 = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.ItemId1 = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Rate1 = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Amount1 = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Game_Introduction(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Game_IntroductionArray{ Arr: make([]*server.DB_Game_Introduction, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Game_Introduction{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } data.Story = proto.String(row.Cells[3].String()) if len(row.Cells) < 4+1 { break } data.AwardTitle = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.LevelMax = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Game_Pet(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Game_PetArray{ Arr: make([]*server.DB_Game_Pet, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Game_Pet{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.PetId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Grade = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Level = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Fragment = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Amount = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.AwardType = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Award = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.AwardRate = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Game_Role(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Game_RoleArray{ Arr: make([]*server.DB_Game_Role, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Game_Role{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.RoleId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Grade = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Level = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Fragment = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Amount = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.AwardType = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Award = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.AwardRate = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_GiftBox(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_GiftBoxArray{ Arr: make([]*server.DB_GiftBox, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_GiftBox{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Rate = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } if row.Cells[2].String() != "" { pairs := strings.Split(row.Cells[2].String(), ";") resultMap := make(map[int64]int64) for _, pair := range pairs { kv := strings.Split(pair, ",") key, err := strconv.ParseInt(kv[0], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[0]) continue } value, err := strconv.ParseInt(kv[1], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[1]) continue } resultMap[key] = value } data.ItemID = resultMap } break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_IceAgeElementRate(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_IceAgeElementRateArray{ Arr: make([]*server.DB_IceAgeElementRate, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_IceAgeElementRate{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.ModeName = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ModeType = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Params = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Legend_Odds(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Legend_OddsArray{ Arr: make([]*server.DB_Legend_Odds, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Legend_Odds{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Rateodds3 = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Rateodds4 = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Rateodds5 = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Legend_TurnRate(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Legend_TurnRateArray{ Arr: make([]*server.DB_Legend_TurnRate, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Legend_TurnRate{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.ReturnRateMin = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ReturnRateMax = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Chance = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Legend_Weight(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Legend_WeightArray{ Arr: make([]*server.DB_Legend_Weight, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Legend_Weight{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Weight = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Legend_WeightCondition(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Legend_WeightConditionArray{ Arr: make([]*server.DB_Legend_WeightCondition, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Legend_WeightCondition{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.IsNew = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } arrStr = strings.Split(row.Cells[2].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[2].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.BetScope = arrInt if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.TrueCalcRate = arrInt if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.WeightId = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_MatchRank(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_MatchRankArray{ Arr: make([]*server.DB_MatchRank, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_MatchRank{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } arrStr = strings.Split(row.Cells[1].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[1].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.RankStar = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Name(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_NameArray{ Arr: make([]*server.DB_Name, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Name{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_NameBoy(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_NameBoyArray{ Arr: make([]*server.DB_NameBoy, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_NameBoy{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_NameGirl(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_NameGirlArray{ Arr: make([]*server.DB_NameGirl, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_NameGirl{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_NewPlayer(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_NewPlayerArray{ Arr: make([]*server.DB_NewPlayer, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_NewPlayer{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Condition1 = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 64) data.ConditionValue1 = proto.Int64(int64(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Condition2 = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 64) data.ConditionValue2 = proto.Int64(int64(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Bond = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.AddType = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 64) data.AddMax = proto.Int64(int64(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 64) data.AddMin = proto.Int64(int64(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.TianHuRate = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_PhoneLottery(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_PhoneLotteryArray{ Arr: make([]*server.DB_PhoneLottery, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_PhoneLottery{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Name = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Item_Id = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Grade = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Odd = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Oddrate1 = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Odd2 = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Oddrate2 = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Odd3 = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Oddrate3 = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.Oddrate4 = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_PlayerExp(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_PlayerExpArray{ Arr: make([]*server.DB_PlayerExp, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_PlayerExp{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Exp = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_PlayerInfo(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_PlayerInfoArray{ Arr: make([]*server.DB_PlayerInfo, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_PlayerInfo{} for { if len(row.Cells) < 0+1 { break } data.City = proto.String(row.Cells[0].String()) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.Head = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.Name = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Sex = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Id = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_PlayerType(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_PlayerTypeArray{ Arr: make([]*server.DB_PlayerType, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_PlayerType{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.GameFreeId = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.PayLowerLimit = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.PayUpperLimit = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.GameTimeLowerLimit = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.GameTimeUpperLimit = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.TotalInLowerLimit = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.TotalInUpperLimit = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.OddsLowerLimit = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.OddsUpperLimit = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.LuckyRate = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } temp, _ = strconv.ParseInt(row.Cells[12].String(), 10, 32) data.ChangeCardRate = proto.Int32(int32(temp)) if len(row.Cells) < 13+1 { break } arrStr = strings.Split(row.Cells[13].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[13].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.CardValueRange = arrInt if len(row.Cells) < 14+1 { break } arrStr = strings.Split(row.Cells[14].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[14].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MatchPriority = arrInt if len(row.Cells) < 15+1 { break } arrStr = strings.Split(row.Cells[15].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[15].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.ExcludeMatch = arrInt if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.CardLibRate = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } arrStr = strings.Split(row.Cells[17].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[17].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.CardLibArr = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_PotOdd(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_PotOddArray{ Arr: make([]*server.DB_PotOdd, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_PotOdd{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } data.Title = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.VipOdd = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_RankCycle(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_RankCycleArray{ Arr: make([]*server.DB_RankCycle, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_RankCycle{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Start = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } data.End = proto.String(row.Cells[2].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_RankLevel(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_RankLevelArray{ Arr: make([]*server.DB_RankLevel, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_RankLevel{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.RankType = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Level = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } data.Name = proto.String(row.Cells[3].String()) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 64) data.Score = proto.Int64(int64(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_RankReward(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_RankRewardArray{ Arr: make([]*server.DB_RankReward, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_RankReward{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.RankType = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Level = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Award1Id = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Award1Num = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Award2Id = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.Award2Num = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } temp, _ = strconv.ParseInt(row.Cells[7].String(), 10, 32) data.Award3Id = proto.Int32(int32(temp)) if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Award3Num = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Sensitive_Words(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_Sensitive_WordsArray{ Arr: make([]*server.DB_Sensitive_Words, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Sensitive_Words{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Sensitive_Words = proto.String(row.Cells[1].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Shop(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ShopArray{ Arr: make([]*server.DB_Shop, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Shop{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.VipLevel = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ItemId = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Page = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Order = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.Type = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Location = arrInt if len(row.Cells) < 7+1 { break } data.Picture = proto.String(row.Cells[7].String()) if len(row.Cells) < 8+1 { break } data.Name = proto.String(row.Cells[8].String()) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Ad = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.AdTime = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } temp, _ = strconv.ParseInt(row.Cells[11].String(), 10, 32) data.RepeatTimes = proto.Int32(int32(temp)) if len(row.Cells) < 12+1 { break } arrStr = strings.Split(row.Cells[12].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[12].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.CoolingTime = arrInt if len(row.Cells) < 13+1 { break } arrStr = strings.Split(row.Cells[13].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[13].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Label = arrInt if len(row.Cells) < 14+1 { break } arrStr = strings.Split(row.Cells[14].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[14].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.AddArea = arrInt if len(row.Cells) < 15+1 { break } temp, _ = strconv.ParseInt(row.Cells[15].String(), 10, 32) data.Ratio = proto.Int32(int32(temp)) if len(row.Cells) < 16+1 { break } temp, _ = strconv.ParseInt(row.Cells[16].String(), 10, 32) data.Amount = proto.Int32(int32(temp)) if len(row.Cells) < 17+1 { break } temp, _ = strconv.ParseInt(row.Cells[17].String(), 10, 32) data.CostType = proto.Int32(int32(temp)) if len(row.Cells) < 18+1 { break } arrStr = strings.Split(row.Cells[18].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[18].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.CostArea = arrInt if len(row.Cells) < 19+1 { break } if row.Cells[19].String() != "" { pairs := strings.Split(row.Cells[19].String(), ";") resultMap := make(map[int64]int64) for _, pair := range pairs { kv := strings.Split(pair, ",") key, err := strconv.ParseInt(kv[0], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[0]) continue } value, err := strconv.ParseInt(kv[1], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[1]) continue } resultMap[key] = value } data.Award = resultMap } if len(row.Cells) < 20+1 { break } temp, _ = strconv.ParseInt(row.Cells[20].String(), 10, 32) data.EndTime = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_SlotRateWeight(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_SlotRateWeightArray{ Arr: make([]*server.DB_SlotRateWeight, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_SlotRateWeight{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.GameFreeId = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Pos = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } arrStr = strings.Split(row.Cells[3].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[3].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.NormCol1 = arrInt if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.NormCol2 = arrInt if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.NormCol3 = arrInt if len(row.Cells) < 6+1 { break } arrStr = strings.Split(row.Cells[6].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[6].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.NormCol4 = arrInt if len(row.Cells) < 7+1 { break } arrStr = strings.Split(row.Cells[7].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[7].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.NormCol5 = arrInt if len(row.Cells) < 8+1 { break } arrStr = strings.Split(row.Cells[8].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[8].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.FreeCol1 = arrInt if len(row.Cells) < 9+1 { break } arrStr = strings.Split(row.Cells[9].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[9].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.FreeCol2 = arrInt if len(row.Cells) < 10+1 { break } arrStr = strings.Split(row.Cells[10].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[10].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.FreeCol3 = arrInt if len(row.Cells) < 11+1 { break } arrStr = strings.Split(row.Cells[11].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[11].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.FreeCol4 = arrInt if len(row.Cells) < 12+1 { break } arrStr = strings.Split(row.Cells[12].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[12].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.FreeCol5 = arrInt if len(row.Cells) < 13+1 { break } arrStr = strings.Split(row.Cells[13].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[13].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MaryOut = arrInt if len(row.Cells) < 14+1 { break } arrStr = strings.Split(row.Cells[14].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[14].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.MaryMid = arrInt if len(row.Cells) < 15+1 { break } arrStr = strings.Split(row.Cells[15].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[15].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.JackPot = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_SystemChance(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_SystemChanceArray{ Arr: make([]*server.DB_SystemChance, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_SystemChance{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Desc = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.ChanceType = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.Coin = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.Rate = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Task(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_TaskArray{ Arr: make([]*server.DB_Task, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Task{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.ActivityType = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } temp, _ = strconv.ParseInt(row.Cells[4].String(), 10, 32) data.TaskType = proto.Int32(int32(temp)) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 64) data.TargetTimes = proto.Int64(int64(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 64) data.FinishTimes = proto.Int64(int64(temp)) if len(row.Cells) < 7+1 { break } if row.Cells[7].String() != "" { pairs := strings.Split(row.Cells[7].String(), ";") resultMap := make(map[int64]int64) for _, pair := range pairs { kv := strings.Split(pair, ",") key, err := strconv.ParseInt(kv[0], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[0]) continue } value, err := strconv.ParseInt(kv[1], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[1]) continue } resultMap[key] = value } data.Award = resultMap } if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.GameType = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } arrStr = strings.Split(row.Cells[9].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[9].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Position = arrInt break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_ThirdPlatformGameMapping(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_ThirdPlatformGameMappingArray{ Arr: make([]*server.DB_ThirdPlatformGameMapping, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_ThirdPlatformGameMapping{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } temp, _ = strconv.ParseInt(row.Cells[1].String(), 10, 32) data.SystemGameID = proto.Int32(int32(temp)) if len(row.Cells) < 2+1 { break } data.ThirdPlatformName = proto.String(row.Cells[2].String()) if len(row.Cells) < 3+1 { break } data.ThirdGameID = proto.String(row.Cells[3].String()) if len(row.Cells) < 4+1 { break } data.Desc = proto.String(row.Cells[4].String()) if len(row.Cells) < 5+1 { break } temp, _ = strconv.ParseInt(row.Cells[5].String(), 10, 32) data.ScreenOrientationType = proto.Int32(int32(temp)) if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.ThirdID = proto.Int32(int32(temp)) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_Tips(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_TipsArray{ Arr: make([]*server.DB_Tips, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_Tips{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } arrStr = strings.Split(row.Cells[1].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[1].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.GameId = arrInt if len(row.Cells) < 2+1 { break } data.Des = proto.String(row.Cells[2].String()) break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func AgcConvertDB_VIP(fi, fo string) { xlsxFile, err := xlsx.OpenFile(fi) if err != nil { fmt.Println("excel file open error:", err, "filename:", fi) return } if err := recover(); err != nil { fmt.Println(" panic,error=", err) var buf [4096]byte lens := runtime.Stack(buf[:], false) fmt.Println("stack--->", string(buf[:lens])) } for _, sheet := range xlsxFile.Sheets { arr := &server.DB_VIPArray{ Arr: make([]*server.DB_VIP, 0, len(sheet.Rows)), } for i, row := range sheet.Rows { if i <= 1 { continue } if len(row.Cells) == 0 { break } temp := int64(0) var arrInt []int32 var arrInt64 []int64 var arrStr []string var _ = arrInt var _ = arrStr var _ = arrInt64 temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data := &server.DB_VIP{} for { if len(row.Cells) < 0+1 { break } temp, _ = strconv.ParseInt(row.Cells[0].String(), 10, 32) data.Id = proto.Int32(int32(temp)) if len(row.Cells) < 1+1 { break } data.Name = proto.String(row.Cells[1].String()) if len(row.Cells) < 2+1 { break } temp, _ = strconv.ParseInt(row.Cells[2].String(), 10, 32) data.Count = proto.Int32(int32(temp)) if len(row.Cells) < 3+1 { break } temp, _ = strconv.ParseInt(row.Cells[3].String(), 10, 32) data.VipExp = proto.Int32(int32(temp)) if len(row.Cells) < 4+1 { break } arrStr = strings.Split(row.Cells[4].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[4].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Privilege1 = arrInt if len(row.Cells) < 5+1 { break } arrStr = strings.Split(row.Cells[5].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[5].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Privilege2 = arrInt if len(row.Cells) < 6+1 { break } temp, _ = strconv.ParseInt(row.Cells[6].String(), 10, 32) data.ShopId2 = proto.Int32(int32(temp)) if len(row.Cells) < 7+1 { break } arrStr = strings.Split(row.Cells[7].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[7].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Privilege3 = arrInt if len(row.Cells) < 8+1 { break } temp, _ = strconv.ParseInt(row.Cells[8].String(), 10, 32) data.Privilege4 = proto.Int32(int32(temp)) if len(row.Cells) < 9+1 { break } temp, _ = strconv.ParseInt(row.Cells[9].String(), 10, 32) data.Privilege5 = proto.Int32(int32(temp)) if len(row.Cells) < 10+1 { break } temp, _ = strconv.ParseInt(row.Cells[10].String(), 10, 32) data.Privilege6 = proto.Int32(int32(temp)) if len(row.Cells) < 11+1 { break } if row.Cells[11].String() != "" { pairs := strings.Split(row.Cells[11].String(), ";") resultMap := make(map[int64]int64) for _, pair := range pairs { kv := strings.Split(pair, ",") key, err := strconv.ParseInt(kv[0], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[0]) continue } value, err := strconv.ParseInt(kv[1], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[1]) continue } resultMap[key] = value } data.Privilege7 = resultMap } if len(row.Cells) < 12+1 { break } temp, _ = strconv.ParseInt(row.Cells[12].String(), 10, 32) data.Privilege7Price = proto.Int32(int32(temp)) if len(row.Cells) < 13+1 { break } temp, _ = strconv.ParseInt(row.Cells[13].String(), 10, 32) data.ShopId7 = proto.Int32(int32(temp)) if len(row.Cells) < 14+1 { break } temp, _ = strconv.ParseInt(row.Cells[14].String(), 10, 32) data.Privilege8 = proto.Int32(int32(temp)) if len(row.Cells) < 15+1 { break } arrStr = strings.Split(row.Cells[15].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[15].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.Param = arrInt if len(row.Cells) < 16+1 { break } arrStr = strings.Split(row.Cells[16].String(), "|") arrInt = nil if len(arrStr) > 0 && row.Cells[16].String() != "" { arrInt = make([]int32, len(arrStr), len(arrStr)) for i, v := range arrStr { temp, _ = strconv.ParseInt(strings.TrimSpace(v), 10, 32) arrInt[i] = int32(temp) } } data.RewardOutlineID = arrInt if len(row.Cells) < 17+1 { break } if row.Cells[17].String() != "" { pairs := strings.Split(row.Cells[17].String(), ";") resultMap := make(map[int64]int64) for _, pair := range pairs { kv := strings.Split(pair, ",") key, err := strconv.ParseInt(kv[0], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[0]) continue } value, err := strconv.ParseInt(kv[1], 10, 64) if err != nil { // 错误处理 fmt.Println("无法转换为int64:", kv[1]) continue } resultMap[key] = value } data.Award = resultMap } if len(row.Cells) < 18+1 { break } if row.Cells[18].String() != "" { arrStr = strings.Split(row.Cells[18].String(), "|") data.ParamName = arrStr } break } arr.Arr = append(arr.Arr, data) } byteData, err := proto.Marshal(arr) if err == nil { err := os.WriteFile(fo, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } byteData, err = json.MarshalIndent(arr, "", "\t") if err == nil { foJson := strings.Replace(fo, ".dat", ".json", -1) err := os.WriteFile(foJson, byteData, os.ModePerm) if err != nil { fmt.Println(err) } } break //only fetch first sheet } } func main() { AgcConvertDB_ActSign(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ActSign.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ActSign.dat`) AgcConvertDB_Activity1(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Activity1.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Activity1.dat`) AgcConvertDB_AnimalColor(`D:\trunk\src\games.yol.com\win88\xlsx\DB_AnimalColor.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_AnimalColor.dat`) AgcConvertDB_ArtilleryRate(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ArtilleryRate.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ArtilleryRate.dat`) AgcConvertDB_ArtillerySkin(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ArtillerySkin.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ArtillerySkin.dat`) AgcConvertDB_BlackWhite(`D:\trunk\src\games.yol.com\win88\xlsx\DB_BlackWhite.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_BlackWhite.dat`) AgcConvertDB_CardsJD(`D:\trunk\src\games.yol.com\win88\xlsx\DB_CardsJD.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_CardsJD.dat`) AgcConvertDB_CardsYuLe(`D:\trunk\src\games.yol.com\win88\xlsx\DB_CardsYuLe.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_CardsYuLe.dat`) AgcConvertDB_ChessBilledRules(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ChessBilledRules.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ChessBilledRules.dat`) AgcConvertDB_ChessMatchRules(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ChessMatchRules.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ChessMatchRules.dat`) AgcConvertDB_ChessRank(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ChessRank.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ChessRank.dat`) AgcConvertDB_ClientVer(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ClientVer.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ClientVer.dat`) AgcConvertDB_CrashSearch(`D:\trunk\src\games.yol.com\win88\xlsx\DB_CrashSearch.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_CrashSearch.dat`) AgcConvertDB_Createroom(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Createroom.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Createroom.dat`) AgcConvertDB_Fish(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Fish.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Fish.dat`) AgcConvertDB_FishOut(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FishOut.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FishOut.dat`) AgcConvertDB_FishPath(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FishPath.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FishPath.dat`) AgcConvertDB_FishRoom(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FishRoom.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FishRoom.dat`) AgcConvertDB_FishSkill(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FishSkill.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FishSkill.dat`) AgcConvertDB_FortuneGod_Odds(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FortuneGod_Odds.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FortuneGod_Odds.dat`) AgcConvertDB_FortuneGod_TurnRate(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FortuneGod_TurnRate.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FortuneGod_TurnRate.dat`) AgcConvertDB_FortuneGod_Weight(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FortuneGod_Weight.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FortuneGod_Weight.dat`) AgcConvertDB_FortuneGod_WeightCondition(`D:\trunk\src\games.yol.com\win88\xlsx\DB_FortuneGod_WeightCondition.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_FortuneGod_WeightCondition.dat`) AgcConvertDB_GamMatchLV(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GamMatchLV.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GamMatchLV.dat`) AgcConvertDB_GameCoinPool(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameCoinPool.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameCoinPool.dat`) AgcConvertDB_GameFree(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameFree.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameFree.dat`) AgcConvertDB_GameItem(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameItem.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameItem.dat`) AgcConvertDB_GameMatchLevel(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameMatchLevel.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameMatchLevel.dat`) AgcConvertDB_GameRule(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameRule.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameRule.dat`) AgcConvertDB_GameSubsidy(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GameSubsidy.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GameSubsidy.dat`) AgcConvertDB_Game_Drop(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Game_Drop.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Game_Drop.dat`) AgcConvertDB_Game_Introduction(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Game_Introduction.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Game_Introduction.dat`) AgcConvertDB_Game_Pet(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Game_Pet.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Game_Pet.dat`) AgcConvertDB_Game_Role(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Game_Role.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Game_Role.dat`) AgcConvertDB_GiftBox(`D:\trunk\src\games.yol.com\win88\xlsx\DB_GiftBox.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_GiftBox.dat`) AgcConvertDB_IceAgeElementRate(`D:\trunk\src\games.yol.com\win88\xlsx\DB_IceAgeElementRate.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_IceAgeElementRate.dat`) AgcConvertDB_Legend_Odds(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Legend_Odds.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Legend_Odds.dat`) AgcConvertDB_Legend_TurnRate(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Legend_TurnRate.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Legend_TurnRate.dat`) AgcConvertDB_Legend_Weight(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Legend_Weight.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Legend_Weight.dat`) AgcConvertDB_Legend_WeightCondition(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Legend_WeightCondition.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Legend_WeightCondition.dat`) AgcConvertDB_MatchRank(`D:\trunk\src\games.yol.com\win88\xlsx\DB_MatchRank.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_MatchRank.dat`) AgcConvertDB_Name(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Name.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Name.dat`) AgcConvertDB_NameBoy(`D:\trunk\src\games.yol.com\win88\xlsx\DB_NameBoy.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_NameBoy.dat`) AgcConvertDB_NameGirl(`D:\trunk\src\games.yol.com\win88\xlsx\DB_NameGirl.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_NameGirl.dat`) AgcConvertDB_NewPlayer(`D:\trunk\src\games.yol.com\win88\xlsx\DB_NewPlayer.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_NewPlayer.dat`) AgcConvertDB_PhoneLottery(`D:\trunk\src\games.yol.com\win88\xlsx\DB_PhoneLottery.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_PhoneLottery.dat`) AgcConvertDB_PlayerExp(`D:\trunk\src\games.yol.com\win88\xlsx\DB_PlayerExp.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_PlayerExp.dat`) AgcConvertDB_PlayerInfo(`D:\trunk\src\games.yol.com\win88\xlsx\DB_PlayerInfo.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_PlayerInfo.dat`) AgcConvertDB_PlayerType(`D:\trunk\src\games.yol.com\win88\xlsx\DB_PlayerType.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_PlayerType.dat`) AgcConvertDB_PotOdd(`D:\trunk\src\games.yol.com\win88\xlsx\DB_PotOdd.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_PotOdd.dat`) AgcConvertDB_RankCycle(`D:\trunk\src\games.yol.com\win88\xlsx\DB_RankCycle.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_RankCycle.dat`) AgcConvertDB_RankLevel(`D:\trunk\src\games.yol.com\win88\xlsx\DB_RankLevel.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_RankLevel.dat`) AgcConvertDB_RankReward(`D:\trunk\src\games.yol.com\win88\xlsx\DB_RankReward.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_RankReward.dat`) AgcConvertDB_Sensitive_Words(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Sensitive_Words.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Sensitive_Words.dat`) AgcConvertDB_Shop(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Shop.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Shop.dat`) AgcConvertDB_SlotRateWeight(`D:\trunk\src\games.yol.com\win88\xlsx\DB_SlotRateWeight.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_SlotRateWeight.dat`) AgcConvertDB_SystemChance(`D:\trunk\src\games.yol.com\win88\xlsx\DB_SystemChance.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_SystemChance.dat`) AgcConvertDB_Task(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Task.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Task.dat`) AgcConvertDB_ThirdPlatformGameMapping(`D:\trunk\src\games.yol.com\win88\xlsx\DB_ThirdPlatformGameMapping.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_ThirdPlatformGameMapping.dat`) AgcConvertDB_Tips(`D:\trunk\src\games.yol.com\win88\xlsx\DB_Tips.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_Tips.dat`) AgcConvertDB_VIP(`D:\trunk\src\games.yol.com\win88\xlsx\DB_VIP.xlsx`, `D:\trunk\src\games.yol.com\win88\data\DB_VIP.dat`) }