package data
import (
"encoding/json"
"errors"
"eta/eta_mobile/models/data_manage"
"eta/eta_mobile/utils"
"fmt"
"github.com/shopspring/decimal"
"math"
"regexp"
"sort"
"strings"
"time"
)
func CheckFormula(formula string) map[string]string {
mathFormula := []string{"MAX", "MIN", "ABS", "ACOS", "ASIN", "CEIL", "MOD", "POW", "ROUND", "SIGN", "SIN", "TAN", "LOG10", "LOG2", "LOG", "LN", "EXP"}
str := strings.ToUpper(formula)
for _, v := range mathFormula {
str = strings.Replace(str, v, "", -1)
}
str = strings.Replace(str, "(", "", -1)
str = strings.Replace(str, ")", "", -1)
byteMap := make(map[string]string)
for i := 0; i < len(str); i++ {
byteInt := str[i]
if byteInt >= 65 && byteInt <= 90 {
byteStr := string(byteInt)
if _, ok := byteMap[byteStr]; !ok {
byteMap[byteStr] = byteStr
}
}
}
return byteMap
}
type FormulaListItem struct {
Formula string `json:"f"`
Date string `json:"d"`
}
// CheckFormulaJson 检测计算公式json串是否异常
func CheckFormulaJson(formula string) (formulaSlice []string, err error) {
list := make([]FormulaListItem, 0)
err = json.Unmarshal([]byte(formula), &list)
if err != nil {
err = fmt.Errorf("公式串解析失败: json.Unmarshal Err: %v", err)
return
}
formulaSlice = make([]string, 0)
// 日期排序
for _, v := range list {
formulaSlice = append(formulaSlice, v.Formula)
}
return
}
type CalculateItems struct {
EdbInfoId int
DataMap map[string]float64
}
func ReplaceFormula(edbInfoIdArr []*data_manage.EdbInfo, valArr map[int]float64, formulaMap map[string]string, formulaStr string, edbInfoIdBytes []string) string {
// todo 处理min和max
funMap := GetFormulaMap()
for k, v := range funMap {
formulaStr = strings.Replace(formulaStr, k, v, -1)
}
replaceCount := 0
for dk, dv := range edbInfoIdArr {
if dk == 0 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
} else {
fmt.Println("valArr not found:", valArr, valOk)
}
} else {
fmt.Println("formulaMap not found:", dKey, dk)
}
}
if dk == 1 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
} else {
fmt.Println("valArr not found:", valArr, valOk)
}
} else {
fmt.Println("formulaMap not found:", dKey, dk)
}
}
if dk == 2 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 3 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 4 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 5 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 6 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 7 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 8 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 9 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 10 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 11 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 12 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 13 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 14 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 15 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 16 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 17 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 18 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 19 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 20 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 21 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 22 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 23 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 24 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
if dk == 25 {
dKey := edbInfoIdBytes[dk]
if _, ok := formulaMap[dKey]; ok { //公式中存在
if val, valOk := valArr[dv.EdbInfoId]; valOk { //值存在
dvStr := fmt.Sprintf("%v", val)
formulaStr = strings.Replace(formulaStr, dKey, dvStr, -1)
replaceCount++
}
}
}
}
for k, v := range funMap {
formulaStr = strings.Replace(formulaStr, v, k, -1)
}
if replaceCount == len(formulaMap) {
return formulaStr
} else {
return ""
}
}
func GetFormulaMap() map[string]string {
funMap := make(map[string]string)
funMap["MAX"] = "[@@]"
funMap["MIN"] = "[@!]"
funMap["ABS"] = "[@#]"
funMap["CEIL"] = "[@$]"
funMap["COS"] = "[@%]"
funMap["FLOOR"] = "[@^]"
funMap["MOD"] = "[@&]"
funMap["POW"] = "[@*]"
funMap["ROUND"] = "[@(]"
return funMap
}
// 处理整个数据
func handleDateSaveDataMap(dateList []string, realSaveDataMap, saveDataMap map[string]map[int]float64, edbInfoIdArr []*data_manage.EdbInfo, emptyType int) {
var startDate, endDate string
var startDateT, endDateT time.Time
if emptyType == 2 || emptyType == 3 {
for k, _ := range realSaveDataMap {
if k > endDate {
endDate = k
}
if k < startDate || startDate == "" {
startDate = k
}
}
startDateT, _ = time.ParseInLocation(utils.FormatDate, startDate, time.Local)
endDateT, _ = time.ParseInLocation(utils.FormatDate, endDate, time.Local)
}
for _, date := range dateList {
tmpDataMap := realSaveDataMap[date]
for _, edbInfo := range edbInfoIdArr {
tmpEdbInfoId := edbInfo.EdbInfoId // 当前指标id
// 如果该日期不存在该指标数据,那么需要找寻前后日期的数据,进行填补
if _, ok := tmpDataMap[tmpEdbInfoId]; !ok {
//day := 0
//switch edbInfo.Frequency {
//case "周度":
// day = 7
//case "旬度":
// day = 15
//case "月度":
// day = 30
//case "季度":
// day = 90
//case "年度":
// day = 365
//}
// 需求池 255 指标运算文案修改,补数据遍历区间修改(2023-3-7 09:37:23修改)
switch emptyType {
case 0:
handleDateDataMap(realSaveDataMap, saveDataMap, date, tmpEdbInfoId, 35)
case 2:
handleDateDataMapBefore(realSaveDataMap, saveDataMap, date, tmpEdbInfoId, startDateT, endDateT)
case 3:
handleDateDataMapAfter(realSaveDataMap, saveDataMap, date, tmpEdbInfoId, startDateT, endDateT)
case 4:
handleDateDataMapZero(saveDataMap, date, tmpEdbInfoId)
}
}
}
}
}
// handleDataMap 处理单个日期的数据
func handleDateDataMap(realSaveDataMap, saveDataMap map[string]map[int]float64, date string, edbInfoId, day int) {
currDate, _ := time.ParseInLocation(utils.FormatDate, date, time.Local)
// 后一天
nextDateDayStr := currDate.AddDate(0, 0, 1).Format(utils.FormatDate)
// 前一天
preDateDayStr := currDate.AddDate(0, 0, -1).Format(utils.FormatDate)
for i := 1; i <= day; i++ {
// 下个日期的数据
{
if i >= 1 {
nextDateDayStr = currDate.AddDate(0, 0, i).Format(utils.FormatDate)
}
if findDataMap, hasFindDataMap := realSaveDataMap[nextDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
saveDataMap[date][edbInfoId] = val
return
}
}
}
// 上个日期的数据
{
if i >= 1 {
preDateDayStr = currDate.AddDate(0, 0, -i).Format(utils.FormatDate)
}
if findDataMap, hasFindDataMap := realSaveDataMap[preDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
saveDataMap[date][edbInfoId] = val
return
}
}
}
}
}
// handleDataByLinearRegression 插值法补充数据(线性方程式)
func handleDataByLinearRegression(edbInfoDataList []*data_manage.EdbDataList, handleDataMap map[string]float64) (err error) {
if len(edbInfoDataList) < 2 {
return
}
var startEdbInfoData *data_manage.EdbDataList
for _, v := range edbInfoDataList {
handleDataMap[v.DataTime] = v.Value
// 第一个数据就给过滤了,给后面的试用
if startEdbInfoData == nil {
startEdbInfoData = v
continue
}
// 获取两条数据之间相差的天数
startDataTime, _ := time.ParseInLocation(utils.FormatDate, startEdbInfoData.DataTime, time.Local)
currDataTime, _ := time.ParseInLocation(utils.FormatDate, v.DataTime, time.Local)
betweenHour := int(currDataTime.Sub(startDataTime).Hours())
betweenDay := betweenHour / 24
// 如果相差一天,那么过滤
if betweenDay <= 1 {
startEdbInfoData = v
continue
}
// 生成线性方程式
var a, b float64
{
coordinateData := make([]utils.Coordinate, 0)
tmpCoordinate1 := utils.Coordinate{
X: 1,
Y: startEdbInfoData.Value,
}
coordinateData = append(coordinateData, tmpCoordinate1)
tmpCoordinate2 := utils.Coordinate{
X: float64(betweenDay) + 1,
Y: v.Value,
}
coordinateData = append(coordinateData, tmpCoordinate2)
a, b = utils.GetLinearResult(coordinateData)
if math.IsNaN(a) || math.IsNaN(b) {
err = errors.New("线性方程公式生成失败")
return
}
}
// 生成对应的值
{
for i := 1; i < betweenDay; i++ {
tmpDataTime := startDataTime.AddDate(0, 0, i)
aDecimal := decimal.NewFromFloat(a)
xDecimal := decimal.NewFromInt(int64(i) + 1)
bDecimal := decimal.NewFromFloat(b)
val, _ := aDecimal.Mul(xDecimal).Add(bDecimal).Round(4).Float64()
handleDataMap[tmpDataTime.Format(utils.FormatDate)] = val
}
}
startEdbInfoData = v
}
return
}
// HandleDataByLinearRegression 插值法补充数据(线性方程式)
func HandleDataByLinearRegression(edbInfoDataList []*data_manage.EdbDataList, handleDataMap map[string]float64) (err error) {
return handleDataByLinearRegression(edbInfoDataList, handleDataMap)
}
// CallCalculateComputeCorrelation 调用计算拟合残差的相关系数
func CallCalculateComputeCorrelation(data *data_manage.EdbInfoCalculateBatchSaveReqByEdbLib, lang string) (val string, err error, errMsg string) {
errMsg = "计算失败"
// 调用指标库去更新
reqJson, err := json.Marshal(data)
if err != nil {
errMsg = "计算相关系数参数解析异常!"
err = errors.New("参数解析失败,Err:" + err.Error())
return
}
respItem, err := CalculateComputeCorrelation(string(reqJson), lang)
if err != nil {
return
}
if respItem.Ret == 200 {
val = respItem.Data
}
return
}
// handleDateDataMapBefore 前值填充:空值优先以最近的前值填充,没有前值时,用后值填充
func handleDateDataMapBefore(realSaveDataMap, saveDataMap map[string]map[int]float64, date string, edbInfoId int, startDateT, endDateT time.Time) {
currDate, _ := time.ParseInLocation(utils.FormatDate, date, time.Local)
// 后一天
nextDateDay := currDate
// 前一天
preDateDay := currDate
for i := 1; preDateDay.After(startDateT) || preDateDay == startDateT; i++ {
// 上个日期的数据
{
preDateDay = currDate.AddDate(0, 0, -i)
preDateDayStr := preDateDay.Format(utils.FormatDate)
if findDataMap, hasFindDataMap := realSaveDataMap[preDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
fmt.Println(fmt.Sprintf("date:%s, 无值,取%s的值%.4f", date, preDateDayStr, val))
saveDataMap[date][edbInfoId] = val
return
}
}
}
}
for i := 1; nextDateDay.Before(endDateT) || nextDateDay == endDateT; i++ {
// 下个日期的数据
{
nextDateDay = currDate.AddDate(0, 0, i)
nextDateDayStr := nextDateDay.Format(utils.FormatDate)
if findDataMap, hasFindDataMap := realSaveDataMap[nextDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
fmt.Println(fmt.Sprintf("date:%s, 无值,取%s的值%.4f", date, nextDateDayStr, val))
saveDataMap[date][edbInfoId] = val
return
}
}
}
}
return
}
// handleDateDataMapAfter 后值填充:空值优先以最近的后值填充,没有后值时,用前值填充
func handleDateDataMapAfter(realSaveDataMap, saveDataMap map[string]map[int]float64, date string, edbInfoId int, startDateT, endDateT time.Time) {
currDate, _ := time.ParseInLocation(utils.FormatDate, date, time.Local)
// 后一天
nextDateDay := currDate
// 前一天
preDateDay := currDate
for i := 1; nextDateDay.Before(endDateT) || nextDateDay == endDateT; i++ {
// 下个日期的数据
{
nextDateDay = currDate.AddDate(0, 0, i)
nextDateDayStr := nextDateDay.Format(utils.FormatDate)
if findDataMap, hasFindDataMap := realSaveDataMap[nextDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
fmt.Println(fmt.Sprintf("date:%s, 无值,取%s的值%.4f", date, nextDateDayStr, val))
saveDataMap[date][edbInfoId] = val
return
}
}
}
}
for i := 1; preDateDay.After(startDateT) || preDateDay == startDateT; i++ {
// 上个日期的数据
{
preDateDay = currDate.AddDate(0, 0, -i)
preDateDayStr := preDateDay.Format(utils.FormatDate)
if findDataMap, hasFindDataMap := realSaveDataMap[preDateDayStr]; hasFindDataMap { // 下一个日期有数据
if val, hasFindItem := findDataMap[edbInfoId]; hasFindItem {
fmt.Println(fmt.Sprintf("date:%s, 无值,取%s的值%.4f", date, preDateDayStr, val))
saveDataMap[date][edbInfoId] = val
return
}
}
}
}
return
}
// handleDateDataMapZero 等于0
func handleDateDataMapZero(saveDataMap map[string]map[int]float64, date string, edbInfoId int) {
saveDataMap[date][edbInfoId] = 0
return
}
func GetMaxMinEdbInfo(formula string) string {
//formula := "A+min(A,B,max(A,C))"
// todo 无法处理max里嵌套max或者min的情况
// 使用正则表达式匹配MAX和MIN函数及其参数
regex := regexp.MustCompile(`(?i)(MAX|MIN)\((.*?)\)`)
matches := regex.FindAllStringSubmatch(formula, -1)
// 遍历匹配结果,输出MAX和MIN函数及其参数
for _, match := range matches {
if len(match) == 3 {
parameter := strings.ToLower(match[0]) // 参数
formula = strings.ReplaceAll(formula, match[0], parameter)
fmt.Printf("formula: %s\n", formula)
}
}
formula = strings.ReplaceAll(formula, "max", "MAX")
formula = strings.ReplaceAll(formula, "min", "MIN")
return formula
}
// HandleDataByLinearRegressionToList 插值法补充数据(线性方程式)
func HandleDataByLinearRegressionToList (edbInfoDataList []*data_manage.EdbDataList, handleDataMap map[string]float64) (dataTimeList []string,valueList []float64, err error) {
if len(edbInfoDataList) < 2 {
return
}
var startEdbInfoData *data_manage.EdbDataList
for _, v := range edbInfoDataList {
handleDataMap[v.DataTime] = v.Value
dataTimeList = append(dataTimeList, v.DataTime)
// 第一个数据就给过滤了,给后面的试用
if startEdbInfoData == nil {
startEdbInfoData = v
//startEdbInfoData.DataTime = startEdbInfoData.DataTime[:5]+ "01-01"
continue
}
// 获取两条数据之间相差的天数
startDataTime, _ := time.ParseInLocation(utils.FormatDate, startEdbInfoData.DataTime, time.Local)
currDataTime, _ := time.ParseInLocation(utils.FormatDate, v.DataTime, time.Local)
betweenHour := int(currDataTime.Sub(startDataTime).Hours())
betweenDay := betweenHour / 24
// 如果相差一天,那么过滤
if betweenDay <= 1 {
startEdbInfoData = v
continue
}
// 生成线性方程式
var a, b float64
{
coordinateData := make([]utils.Coordinate, 0)
tmpCoordinate1 := utils.Coordinate{
X: 1,
Y: startEdbInfoData.Value,
}
coordinateData = append(coordinateData, tmpCoordinate1)
tmpCoordinate2 := utils.Coordinate{
X: float64(betweenDay) + 1,
Y: v.Value,
}
coordinateData = append(coordinateData, tmpCoordinate2)
a, b = utils.GetLinearResult(coordinateData)
if math.IsNaN(a) || math.IsNaN(b) {
err = errors.New("线性方程公式生成失败")
return
}
}
// 生成对应的值
{
for i := 1; i < betweenDay; i++ {
tmpDataTime := startDataTime.AddDate(0, 0, i)
aDecimal := decimal.NewFromFloat(a)
xDecimal := decimal.NewFromInt(int64(i) + 1)
bDecimal := decimal.NewFromFloat(b)
val, _ := aDecimal.Mul(xDecimal).Add(bDecimal).Round(4).Float64()
handleDataMap[tmpDataTime.Format(utils.FormatDate)] = val
dataTimeList = append(dataTimeList, tmpDataTime.Format(utils.FormatDate))
valueList = append(valueList, val)
}
}
startEdbInfoData = v
}
return
}
// HandleDataByLinearRegressionToList 保证生成365个数据点的线性插值法
func HandleDataByLinearRegressionToListV2(edbInfoDataList []*data_manage.EdbDataList, handleDataMap map[string]float64) (dataTimeList []string, valueList []float64, err error) {
if len(edbInfoDataList) < 2 {
return
}
// 确保至少有两天数据来生成线性方程
if len(edbInfoDataList) < 2 {
err = errors.New("至少需要两天的数据来执行线性插值")
return
}
// 对数据按日期排序,确保顺序正确
sort.Slice(edbInfoDataList, func(i, j int) bool {
t1, _ := time.ParseInLocation(utils.FormatDate, edbInfoDataList[i].DataTime, time.Local)
t2, _ := time.ParseInLocation(utils.FormatDate, edbInfoDataList[j].DataTime, time.Local)
return t1.Before(t2)
})
startEdbInfoData := edbInfoDataList[0]
endEdbInfoData := edbInfoDataList[len(edbInfoDataList)-1]
// 计算起始和结束日期间实际的天数
startDate, _ := time.ParseInLocation(utils.FormatDate, startEdbInfoData.DataTime, time.Local)
endDate, _ := time.ParseInLocation(utils.FormatDate, endEdbInfoData.DataTime, time.Local)
actualDays := endDate.Sub(startDate).Hours() / 24
// 生成365个数据点,首先处理已有数据
for _, v := range edbInfoDataList {
handleDataMap[v.DataTime] = v.Value
dataTimeList = append(dataTimeList, v.DataTime)
valueList = append(valueList, v.Value)
}
// 如果已有数据跨越天数不足365天,则对缺失的日期进行线性插值
if actualDays < 365 {
// 使用已有数据点生成线性方程(这里简化处理,实际可能需更细致处理边界情况)
var a, b float64
coordinateData := []utils.Coordinate{
{X: 1, Y: startEdbInfoData.Value},
{X: float64(len(edbInfoDataList)), Y: endEdbInfoData.Value},
}
a, b = utils.GetLinearResult(coordinateData)
if math.IsNaN(a) || math.IsNaN(b) {
err = errors.New("线性方程公式生成失败")
return
}
// 对剩余日期进行插值
for i := 1; i < 365; i++ {
day := startDate.AddDate(0, 0, i)
if _, exists := handleDataMap[day.Format(utils.FormatDate)]; !exists {
aDecimal := decimal.NewFromFloat(a)
xDecimal := decimal.NewFromInt(int64(i) + 1)
bDecimal := decimal.NewFromFloat(b)
val, _ := aDecimal.Mul(xDecimal).Add(bDecimal).Round(4).Float64()
handleDataMap[day.Format(utils.FormatDate)] = val
dataTimeList = append(dataTimeList, day.Format(utils.FormatDate))
valueList = append(valueList, val)
}
}
}
return
}