package api import ( "encoding/json" "fmt" "sort" "strconv" "strings" "time" "../../routers/restful" "github.com/Anderson-Lu/gofasion/gofasion" "github.com/xormplus/xorm" ) //包含报表模块前端需要的各种数据格式转换 func praseReportform(sqlnamestr string, parammaps *gofasion.Fasion, tx *xorm.Session, checked string) (queryData map[string]interface{}, err error) { sql, p := restful.GetSqlByNameDBT(sqlnamestr, tx) s_params := make([]interface{}, 0) if sql != "" { paramslist := strings.Split(p, ",") if len(paramslist) > 0 && p != "" { for _, value := range paramslist { s_params = append(s_params, parammaps.Get(strings.Trim(value, " ")).ValueStr()) } } } queryList, err := tx.SQL(sql, s_params...).Query().List() if err != nil { return nil, err } if len(queryList) == 0 { return nil, nil } temstr := "" //除特殊接口外,去接口名称的前10位做同一类型的转换 switch sqlnamestr { case "getAccuracyAllHL", "getAccuracyAllQX", "getAccuracyAllJH", "getFeedEffMR", "getFeedEffHL", "getHomepageCB", "getAccuraa", "judgenurFTReportDetail": temstr = sqlnamestr default: temstr = sqlnamestr[:10] } // 根据名称选择不通类型的转换-(可自动扩展,不需要使用之前的) switch temstr { case "getAccurac", "getFeedEff": queryData, err = getAccuracy(queryList) // 不定参数 case "getprocess": //queryData, err = getAccuracyV3v1(queryList) queryData, err = getAccuracyV3(queryList) // 统计分析 过程分析 if sqlnamestr == "getprocessAnalysisTB" { quertDataList := queryData["list"] query := quertDataList.(map[string]interface{}) querys, _ := GetprocessAnalysisTB(parammaps, tx, quertDataList, queryList) query["data1"] = querys["WTime"] query["data2"] = querys["data2"] query["data3"] = querys["realWandT"] query["data5"] = querys["data5"] } case "getHomepro": queryData, err = getAccuracyV3(queryList) case "getAccuracyAllHL", "getAccuracyAllQX", "getAccuracyAllJH", "getFeedEffMR", "getFeedEffHL", "getHomepageCB", "getAccuraa": queryData, err = getAccuracyV2(queryList) //固定维度 日期 case "getMateria": sql1, p1 := restful.GetSqlByNameDBT(sqlnamestr+("sum"), tx) s_params1 := make([]interface{}, 0) if sql1 != "" { paramslist1 := strings.Split(p1, ",") if len(paramslist1) > 0 && p != "" { for _, value := range paramslist1 { s_params1 = append(s_params1, parammaps.Get(strings.Trim(value, " ")).ValueStr()) } } } queryListSum, _ := tx.SQL(sql1, s_params1...).Query().List() queryData, err = getAccuracyV4(queryList, queryListSum, checked) case "getPriceAn": queryData, err = getAccuracyV5(queryList) case "getJT1Accu": queryData, err = getAccuracyV6(queryList) //固定维度 牧场 case "judgenurFT": queryData, err = getAccuracyV7(queryList) case "judgenurFTReportDetail": queryData, err = getAccuracyV8(queryList) case "downloadPl": var sql2, p2 string s_params2 := make([]interface{}, 0) if sqlnamestr == "downloadPlanSFJD" { sql2, p2 = restful.GetSqlByNameDBT("countfl", tx) //s_params1 := make([]interface{}, 0) if sql2 != "" { paramslist1 := strings.Split(p2, ",") if len(paramslist1) > 0 && p != "" { for _, value := range paramslist1 { s_params2 = append(s_params2, parammaps.Get(strings.Trim(value, " ")).ValueStr()) } } } } queryList2, _ := tx.SQL(sql2, s_params2...).Query().List() var flleight string if len(queryList2) > 0 { flleight, _ = queryList2[0]["flcount"].(string) fmt.Println(flleight) } flleightint, _ := strconv.Atoi(flleight) queryData, err = getAccuracyV9(queryList, sqlnamestr, flleightint) //投料简打、累加 default: queryData, err = nil, nil } return } func getAccuracyV9(queryList []map[string]interface{}, sqlnamestr string, flleightint int) (map[string]interface{}, error) { queryData := make(map[string]interface{}) chartData := make(map[string]interface{}) mapc3 := make(map[string]interface{}) data2 := []interface{}{} data1 := []interface{}{} mapc3["label"] = "车次" mapc3["prop"] = "projname" data1 = append(data1, mapc3) mapc3 = make(map[string]interface{}) mapc3["label"] = "TMR" mapc3["prop"] = "tmrtname" data1 = append(data1, mapc3) mapc3 = make(map[string]interface{}) //if sqlnamestr == "downloadPlanSFJD": //mapc3["label"] = "时间" //mapc3["prop"] = "plantime" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) // //mapc3["label"] = "班组" //mapc3["prop"] = "times" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) // //mapc3["label"] = "驾驶员" //mapc3["prop"] = "driver" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) // //mapc3["label"] = "日系数比例" //mapc3["prop"] = "rate" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) // //mapc3["label"] = "牛头数" //mapc3["prop"] = "feedpcount" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) // //mapc3["label"] = "配方模板" //mapc3["prop"] = "templetname" //data1 = append(data1, mapc3) //mapc3 = make(map[string]interface{}) //####################################################################################### mtem := make(map[interface{}]interface{}) var stem []string for i := 0; i < len(queryList); i++ { // 获取所有饲料种类 if _, ok := mtem[queryList[i]["fname"]]; ok { continue } stem = append(stem, queryList[i]["fname"].(string)) mtem[queryList[i]["fname"]] = struct{}{} } sort.Strings(stem) fmt.Println(stem) stemEnd := []string{} if sqlnamestr == "downloadPlanSFJD" { bb := stem[len(stem)-flleightint : len(stem) : len(stem)] aa := stem[0 : len(stem)-flleightint : len(stem)] stemEnd = append(stemEnd, bb...) stemEnd = append(stemEnd, aa...) //fmt.Println(stemEnd) } else { stemEnd = stem } //logging.Info("导出数据 ",stemEnd ) fmt.Println(stemEnd) for _, va := range stemEnd { mapc3["label"] = va mapc3["prop"] = va data1 = append(data1, mapc3) mapc3 = make(map[string]interface{}) } if queryList[0]["sumlweight"] != nil { mapc3["label"] = "合计" mapc3["prop"] = "sumlweight" } data1 = append(data1, mapc3) mapc3 = make(map[string]interface{}) var tem interface{} mapc2 := make(map[string]interface{}) for i := 0; i < len(queryList); i++ { // 获取所有饲料种类 if i == 0 { tem = queryList[i]["projname"] mapc2 = queryList[i] for key := range mtem { mapc2[xorm.String(key)] = "0" } mapc2[xorm.String(queryList[i]["fname"])] = queryList[i]["lweight"] } if tem == queryList[i]["projname"] { mapc2[xorm.String(queryList[i]["fname"])] = queryList[i]["lweight"] } else { data2 = append(data2, mapc2) tem = queryList[i]["projname"] mapc2 = queryList[i] for key := range mtem { mapc2[xorm.String(key)] = "0" } mapc2[xorm.String(queryList[i]["fname"])] = queryList[i]["lweight"] } } data2 = append(data2, mapc2) chartData["data1"] = data1 chartData["data2"] = data2 queryData["list"] = chartData queryData["code"] = 0 queryData["message"] = "ok" queryData["data"] = queryList return queryData, nil } func getAccuracyV8(queryList []map[string]interface{}) (map[string]interface{}, error) { queryData := make(map[string]interface{}) chartData := make(map[string]interface{}) //list := make(map[string]interface{}) data := []interface{}{} for i := 0; i < len(queryList); i++ { dry, _ := strconv.ParseFloat(queryList[i]["dry"].(string), 64) Hrate, _ := strconv.ParseFloat(queryList[i]["Hrate"].(string), 64) Srate, _ := strconv.ParseFloat(queryList[i]["Srate"].(string), 64) trans35f, _ := strconv.ParseFloat(queryList[i]["trans35f"].(string), 64) jcrate, _ := strconv.ParseFloat(queryList[i]["jcrate"].(string), 64) uprice, _ := strconv.ParseFloat(queryList[i]["uprice"].(string), 64) kprice, _ := strconv.ParseFloat(queryList[i]["dry"].(string), 64) adf, _ := strconv.ParseFloat(queryList[i]["adf"].(string), 64) ca, _ := strconv.ParseFloat(queryList[i]["ca"].(string), 64) cdry, _ := strconv.ParseFloat(queryList[i]["cdry"].(string), 64) cad, _ := strconv.ParseFloat(queryList[i]["cad"].(string), 64) cndf, _ := strconv.ParseFloat(queryList[i]["cndf"].(string), 64) cp, _ := strconv.ParseFloat(queryList[i]["cp"].(string), 64) cpd, _ := strconv.ParseFloat(queryList[i]["cpd"].(string), 64) fat, _ := strconv.ParseFloat(queryList[i]["fat"].(string), 64) ndf, _ := strconv.ParseFloat(queryList[i]["ndf"].(string), 64) nm, _ := strconv.ParseFloat(queryList[i]["nm"].(string), 64) nmd, _ := strconv.ParseFloat(queryList[i]["nmd"].(string), 64) nuint, _ := strconv.ParseFloat(queryList[i]["nuint"].(string), 64) p, _ := strconv.ParseFloat(queryList[i]["p"].(string), 64) pd, _ := strconv.ParseFloat(queryList[i]["pd"].(string), 64) starch, _ := strconv.ParseFloat(queryList[i]["starch"].(string), 64) trans4f, _ := strconv.ParseFloat(queryList[i]["trans4f"].(string), 64) list := make(map[string]interface{}) list["ft"] = dry list["index"] = "干物质(kg)" list["tmr"] = TransFloat(dry * Hrate) list["cyl"] = TransFloat(dry * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = jcrate list["index"] = "粗精比(%)" list["tmr"] = TransFloat(jcrate * Hrate) list["cyl"] = TransFloat(jcrate * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = uprice list["index"] = "日粮成本(元)" list["tmr"] = TransFloat(uprice * Hrate) list["cyl"] = TransFloat(uprice * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = kprice list["index"] = "公斤奶成本" list["tmr"] = TransFloat(kprice * Hrate) list["cyl"] = TransFloat(kprice * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = cdry list["index"] = "粗料中的干物质" list["tmr"] = TransFloat(cdry * Hrate) list["cyl"] = TransFloat(cdry * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = nm list["index"] = " 产奶净能(MJ)" list["tmr"] = TransFloat(nm * Hrate) list["cyl"] = TransFloat(nm * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = nuint list["index"] = "奶牛能量单位(NND)" list["tmr"] = TransFloat(nuint * Hrate) list["cyl"] = TransFloat(nuint * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = cp list["index"] = "粗蛋白(g)" list["tmr"] = TransFloat(cp * Hrate) list["cyl"] = TransFloat(cp * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = cpd list["index"] = "粗蛋白(%DM)" list["tmr"] = TransFloat(cpd * Hrate) list["cyl"] = TransFloat(cpd * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = ca list["index"] = "钙(g)" list["tmr"] = TransFloat(ca * Hrate) list["cyl"] = TransFloat(ca * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = p list["index"] = "磷(g)" list["tmr"] = TransFloat(p * Hrate) list["cyl"] = TransFloat(p * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = nmd list["index"] = "产奶净能(Mcal/DM)" list["tmr"] = TransFloat(nmd * Hrate) list["cyl"] = TransFloat(nmd * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = fat list["index"] = "脂肪" list["tmr"] = TransFloat(fat * Hrate) list["cyl"] = TransFloat(fat * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = starch list["index"] = "淀粉" list["tmr"] = TransFloat(starch * Hrate) list["cyl"] = TransFloat(starch * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = ndf list["index"] = "NDF(%DM)" list["tmr"] = TransFloat(ndf * Hrate) list["cyl"] = TransFloat(ndf * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = cndf list["index"] = "粗料中的NDF(%DM)" list["tmr"] = TransFloat(cndf * Hrate) list["cyl"] = TransFloat(cndf * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = adf list["index"] = " ADF(%DM)" list["tmr"] = TransFloat(adf * Hrate) list["cyl"] = TransFloat(adf * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = cad list["index"] = "钙(%DM)" list["tmr"] = TransFloat(cad * Hrate) list["cyl"] = TransFloat(cad * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = pd list["index"] = " 磷(%DM)" list["tmr"] = TransFloat(pd * Hrate) list["cyl"] = TransFloat(pd * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = trans35f list["index"] = "(3.5)FCR(kg/DM)" list["tmr"] = TransFloat(trans35f * Hrate) list["cyl"] = TransFloat(trans35f * Srate) data = append(data, list) list = make(map[string]interface{}) list["ft"] = trans4f list["index"] = "(4.0)FCR(kg/DM)" list["tmr"] = TransFloat(trans4f * Hrate) list["cyl"] = TransFloat(trans4f * Srate) data = append(data, list) } chartData["data"] = data queryData["list"] = chartData queryData["code"] = 0 queryData["message"] = "ok" queryData["data"] = queryList return queryData, nil } func TransFloat(flo float64) float64 { hf, _ := strconv.ParseFloat(fmt.Sprintf("%.3f", float64(flo)), 64) return hf } func getAccuracyV7(queryList []map[string]interface{}) (map[string]interface{}, error) { queryData := make(map[string]interface{}) chartData := make(map[string]interface{}) //list := make(map[string]interface{}) data := []interface{}{} for i := 0; i < len(queryList); i++ { dry, _ := strconv.ParseFloat(queryList[i]["dry"].(string), 64) Hrate, _ := strconv.ParseFloat(queryList[i]["Hrate"].(string), 64) Srate, _ := strconv.ParseFloat(queryList[i]["Srate"].(string), 64) trans35f, _ := strconv.ParseFloat(queryList[i]["trans35f"].(string), 64) jcrate, _ := strconv.ParseFloat(queryList[i]["jcrate"].(string), 64) uprice, _ := strconv.ParseFloat(queryList[i]["uprice"].(string), 64) kprice, _ := strconv.ParseFloat(queryList[i]["dry"].(string), 64) list := make(map[string]interface{}) list["tname"] = queryList[i]["tname"] list["ftid"] = queryList[i]["ftid"] list["ft"] = dry list["index"] = "干物质(kg)" list["tmr"] = TransFloat(dry * Hrate) list["cyl"] = TransFloat(dry * Srate) data = append(data, list) list = make(map[string]interface{}) list["tname"] = queryList[i]["tname"] list["ftid"] = queryList[i]["ftid"] list["ft"] = trans35f list["index"] = "(3.5)FCR(kg/DM)" list["tmr"] = TransFloat(trans35f * Hrate) list["cyl"] = TransFloat(trans35f * Srate) data = append(data, list) list = make(map[string]interface{}) list["tname"] = queryList[i]["tname"] list["ftid"] = queryList[i]["ftid"] list["ft"] = jcrate list["index"] = "粗精比(%)" list["tmr"] = TransFloat(jcrate * Hrate) list["cyl"] = TransFloat(jcrate * Srate) data = append(data, list) list = make(map[string]interface{}) list["tname"] = queryList[i]["tname"] list["ftid"] = queryList[i]["ftid"] list["ft"] = uprice list["index"] = "日粮成本(元)" list["tmr"] = TransFloat(uprice * Hrate) list["cyl"] = TransFloat(uprice * Srate) data = append(data, list) list = make(map[string]interface{}) list["tname"] = queryList[i]["tname"] list["ftid"] = queryList[i]["ftid"] list["ft"] = kprice list["index"] = "公斤奶成本" list["tmr"] = TransFloat(kprice * Hrate) list["cyl"] = TransFloat(kprice * Srate) data = append(data, list) } chartData["data"] = data queryData["list"] = chartData queryData["code"] = 0 queryData["message"] = "ok" queryData["data"] = queryList return queryData, nil } func getAccuracyV6(queryList []map[string]interface{}) (map[string]interface{}, error) { queryData := make(map[string]interface{}) chartData := make(map[string]interface{}) data := []interface{}{} data1 := []interface{}{} data2 := []interface{}{} data3 := []interface{}{} data4 := []interface{}{} for i := 0; i < len(queryList); i++ { data = append(data, queryList[i]["牧场"]) data1 = append(data1, queryList[i]["field1"]) data2 = append(data2, queryList[i]["field2"]) data3 = append(data3, queryList[i]["field3"]) data4 = append(data4, queryList[i]["field4"]) } chartData["data1"] = data chartData["data2"] = data1 chartData["data3"] = data2 chartData["data4"] = data3 chartData["data5"] = data4 queryData["list"] = chartData queryData["code"] = 0 queryData["message"] = "ok" queryData["data"] = queryList return queryData, nil } func getAccuracyV5(queryList []map[string]interface{}) (map[string]interface{}, error) { queryData := make(map[string]interface{}) chartData := make(map[string]interface{}) datamap1 := make(map[string]interface{}) datamap2 := make(map[string]interface{}) temsmap := make(map[interface{}]interface{}) mapc2 := make(map[interface{}]interface{}) data3 := []interface{}{} datamap2child := make(map[string]interface{}) data2 := []interface{}{} data1 := []interface{}{} var dtem interface{} var temstr interface{} var typestr interface{} count2 := 0 a := 0 for i := 0; i < len(queryList); i++ { if i == 0 { temstr = queryList[i]["fname"] typestr = queryList[i]["typestr"] } if temstr == queryList[i]["fname"] { temsmap[queryList[i]["feedname"]] = 1 } if _, ok := mapc2[queryList[i]["feedname"]]; !ok { mapc2[queryList[i]["feedname"]] = count2 mapc2[count2] = queryList[i]["feedname"] count2++ } } //for i := 0; i= queryList[i]["日期"].(string) { break } } } for ; dates.Format("2006-01-02") < dates1; dates = dates.Add(24 * time.Hour) { data["data"] = append(data["data"], "") } } } } data["data"] = append(data["data"], queryList[i]["准确率"]) a++ } if a < len(e2)-1 { for k := 0; k < len(e2)-a; k++ { data["data"] = append(data["data"], "") } } t = append(t, data) chartData["data1"] = e1 chartData["data2"] = e2 chartData["data3"] = t queryData["list"] = chartData queryData["code"] = 0 queryData["message"] = "ok" queryData["data"] = queryList return queryData, nil } //统计分析过程分析data值拆分 func GetprocessAnalysisTB(parammaps *gofasion.Fasion, tx *xorm.Session, quertDataList interface{}, queryList []map[string]interface{}) (query map[string]interface{}, err error) { sql1, p1 := restful.GetSqlByNameDBT("getweightjson", tx) s_params1 := make([]interface{}, 0) if sql1 != "" { paramslist := strings.Split(p1, ",") if len(paramslist) > 0 && p1 != "" { for _, value := range paramslist { s_params1 = append(s_params1, parammaps.Get(strings.Trim(value, " ")).ValueStr()) } } } queryList2, err := tx.SQL(sql1, s_params1...).Query().List() if err != nil { fmt.Println("查询配料出错") return nil, err } //fmt.Printf("%T\n",queryList2[0]["weightjson"]) b, _ := json.Marshal(&quertDataList) var m map[string]interface{} _ = json.Unmarshal(b, &m) msg := queryList2[0]["weightjson"].(string) weightjson := make([]map[string]string, 0) json.Unmarshal([]byte(msg), &weightjson) //fmt.Println(len(weightjson)) realWandT := make([]interface{}, 0) for i := 0; i < len(weightjson); i++ { oneSlice := make([]interface{}, 0) oneSlice = append(oneSlice, weightjson[i]["mt"]) oneSlice = append(oneSlice, weightjson[i]["w"]) realWandT = append(realWandT, oneSlice) } WTime := make([]interface{}, 0) for z := 0; z < len(weightjson); z++ { WTime = append(WTime, weightjson[z]["mt"]) } data2 := make([]interface{}, 0) for i := 0; i < len(queryList); i++ { querySlice := make([]interface{}, 0) querySlice = append(querySlice, queryList[i]["timedate"], queryList[i]["lweight"]) data2 = append(data2, querySlice) } data5 := make([]interface{}, 0) for i := 0; i < len(queryList); i++ { querySlice := make([]interface{}, 0) querySlice = append(querySlice, queryList[i]["intime"], queryList[i]["actualweight"], queryList[i]["allname"], queryList[i]["fname"]) data5 = append(data5, querySlice) } query1 := make(map[string]interface{}, 0) query1["WTime"] = WTime query1["data2"] = data2 query1["data5"] = data5 query1["realWandT"] = realWandT return query1, nil }