派生自 ruleprocess
ruleserver/ruleToformula.go
@@ -2,6 +2,7 @@ import ( "encoding/json" "github.com/gogo/protobuf/proto" "ruleprocess/cache" "ruleprocess/logger" "sort" @@ -9,6 +10,7 @@ "strings" "time" bigCache "basic.com/pubsub/cache.git" "basic.com/pubsub/protomsg.git" "github.com/knetic/govaluate" ) @@ -62,6 +64,7 @@ IsYolo bool // 是否是yolo数据 Location Rect // 记下每个目标的位置参数,最后给结果装配人脸数据的时候用的到 SdkName string Feature []byte ThftRes protomsg.ThftResult Liker []*protomsg.Baseinfo } @@ -97,7 +100,7 @@ IsYolo bool // 是否是yolo数据 SdkName string ThftRes protomsg.ThftResult Liker []*protomsg.Baseinfo // 如果是人脸的话尤其是比对,应存下他跟底库的人员的相似情况 yolo的话给nil就行 Feature []byte } // 每个算法对于当前帧画面自己提取的数据 @@ -227,6 +230,42 @@ } } } func Compare(args *SdkDatas, groupRule *protomsg.GroupRule) { compareFlag := false // 看看是否有只配人脸比对算法但没有配对比库的规则,如果有,则比对对象为全部底库 for j := 0; j < len(groupRule.Rules); j++ { if groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a972"{ if groupRule.Rules[j].SdkArgAlias == "对比底库" { compareFlag = true } } } if compareFlag { logger.Info("配置了对比底库参数") }else { logger.Info("没有配置对比底库参数") } for j := 0; j < len(groupRule.Rules); j++ { if groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a972" && groupRule.Rules[j].SdkArgAlias == "对比底库"{ for _, sdkData := range args.Sdkdata { if sdkData.SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" { // 搜索到人脸检测的sdkdata 现在关于人脸的只有他一个sdk,全找他 for _, areaMap := range sdkData.AreaMapList { // 拿区域中每个人脸特征值去对比,填充其liker if groupRule.Rules[j].PolygonId == areaMap.areaId { for _,arg := range areaMap.args { bytes := bigCache.Getdbpersonmsg(string(arg.Feature),true) binfos := protomsg.Binfos{} proto.Unmarshal(bytes,&binfos) arg.Liker = binfos.Infos logger.Info("-------------------成功给liker赋值:",arg.Liker) } } } } } } } } func RunRule(args *SdkDatas, groupRule *protomsg.GroupRule, taskId string) bool { defer func() { if err := recover(); err != nil { @@ -234,6 +273,7 @@ } }() logger.Info("+++++++++++规则开始运行+++++++++++++++++当前规则--:", *groupRule) Compare(args,groupRule) resultSplice := []*LittleRuleResult{} // 先过完条件规则 for j := 0; j < len(groupRule.Rules); j++ { @@ -315,7 +355,7 @@ timeEle.N = timeEle.InitN // 重置定时器 } } logger.Info("--------------------走这里了吗---------------") logger.Info("-------------------重置定时器并返回false---------------") return false } else { // 最后成功报警才把符合条件的人脸数据塞进结果标签里 @@ -330,7 +370,7 @@ // 配了人脸的算法才把人脸的数据甩出来打标签 flag11 := false for j := 0; j < len(groupRule.Rules); j++ { if groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a971" { if groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || groupRule.Rules[j].SdkId == "812b674b-2375-4589-919a-5c1c3278a972" { flag11 = true } } @@ -396,7 +436,7 @@ func putFaceToResult(rule *protomsg.Rule, am *AreaMap) []Arg { faces := []Arg{} if rule.SdkId == am.sdkId && rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a971" { if rule.SdkId == am.sdkId && rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a972" { if len(am.filterData) > 0 { for _, data := range am.filterData { faces = append(faces, data) @@ -409,7 +449,7 @@ func putYolosToResult(rule *protomsg.Rule, am *AreaMap) []Rect { locations := []Rect{} if rule.SdkId == am.sdkId && rule.SdkId != "812b674b-2375-4589-919a-5c1c3278a97e" && rule.SdkId != "812b674b-2375-4589-919a-5c1c3278a971" { if rule.SdkId == am.sdkId && rule.SdkId != "812b674b-2375-4589-919a-5c1c3278a97e" && rule.SdkId != "812b674b-2375-4589-919a-5c1c3278a972" { if len(am.filterData) > 0 { for _, data := range am.filterData { locations = append(locations, data.Location) @@ -442,7 +482,7 @@ if threshold <= obj.Score && size <= float64(obj.Rects.Width*obj.Rects.Height) && intersectionper <= PgsInterPercent(areaPoints, obj.Rects, widthScale, heigthScale) { // 这步要备齐表达式里所需要的所有参数 a.targetNum++ arg1 := Arg{obj.Score, PgsInterPercent(areaPoints, obj.Rects, widthScale, heigthScale), float64(obj.Rects.Width * obj.Rects.Height), obj.IsYolo, obj.Rects, obj.SdkName, obj.ThftRes, obj.Liker} arg1 := Arg{obj.Score, PgsInterPercent(areaPoints, obj.Rects, widthScale, heigthScale), float64(obj.Rects.Width * obj.Rects.Height), obj.IsYolo, obj.Rects, obj.SdkName, obj.Feature,obj.ThftRes,[]*protomsg.Baseinfo{}} //logger.Println("放进去的arg:-------", arg1) a.args = append(a.args, arg1) a.filterData = append(a.filterData, arg1) @@ -590,23 +630,24 @@ // 过滤规则先筛选出符合条件的目标数量 func filterRule(rule *protomsg.Rule, am *AreaMap) LittleRuleResult { if rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a971" { if rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a97e" || rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a972" { // 处理的是人脸算法 如果这条规则配置的是人脸算法,过滤完条件之后直接得出结果,因为肯定没有数量条件,自己拼接 logger.Error("规则的算法id和区域的算法id:",rule.SdkId,"===",am.sdkId) if rule.SdkId == am.sdkId && rule.PolygonId == am.areaId { // 算法和区域都得对的上 if rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a971" && rule.SdkArgAlias != "time_rule"{ if rule.SdkId == "812b674b-2375-4589-919a-5c1c3278a972" && rule.SdkArgAlias != "time_rule"{ // 只需要过滤阈值,过滤完后数组长度大于0即为报警,但要考虑如何对每一张都报警呢 argValue, err := strconv.ParseFloat(rule.SdkArgValue, 64) if err != nil { logger.Info("规则配置的阈值非法") logger.Error("规则配置的阈值非法") return LittleRuleResult{am.sdkName, rule.RuleWithPre + "" + "false", rule.Sort} } flag := "false" for _, obj := range am.filterData { for index := 0; index < len(obj.Liker); { // 将达不到阈值的相似者从相似者数组中删除 if float64(obj.Liker[index].CompareScore) < argValue { logger.Warn("=======================相似值:",float64(obj.Liker[index].CompareScore * 100)) if float64(obj.Liker[index].CompareScore * 100) < argValue { // Go 语言中切片删除元素的本质是:以被删除元素为分界点,将前后两个部分的内存重新连接起来。不用怀疑,数组删除元素就这么坑爹 obj.Liker = append(obj.Liker[:index], obj.Liker[index+1:]...) } else {
