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rulengine.go
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rulengine.go
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package rulengine
import (
"bufio"
"fmt"
"github.com/xlvector/rulengine/expression"
"github.com/xlvector/rulengine/facts"
"github.com/xlvector/rulengine/logic"
"os"
"strings"
)
type RuleEngine struct {
expressions [][]string
expressionNames []string
varCountInExpressions []int
expressionIndex map[string][]int
rules [][]string
actions []string
ruleIndex map[string][]int
}
func NewRuleEngine() *RuleEngine {
ret := RuleEngine{}
ret.expressions = [][]string{}
ret.expressionNames = []string{}
ret.varCountInExpressions = []int{}
ret.expressionIndex = make(map[string][]int)
ret.ruleIndex = make(map[string][]int)
ret.rules = [][]string{}
ret.actions = []string{}
return &ret
}
func (self *RuleEngine) AddExpression(expr string, name string) {
tks := expression.Tokenize(expr)
reversePolishExpr := expression.ToReversePolishNotation(tks)
size := len(self.expressions)
nv := 0
for _, tk := range reversePolishExpr {
if tk[0] == '$' {
_, ok := self.expressionIndex[tk]
if !ok {
self.expressionIndex[tk] = []int{}
}
self.expressionIndex[tk] = append(self.expressionIndex[tk], size)
nv += 1
}
}
self.varCountInExpressions = append(self.varCountInExpressions, nv)
self.expressionNames = append(self.expressionNames, name)
self.expressions = append(self.expressions, reversePolishExpr)
}
func (self *RuleEngine) GetFiredExpressions(data *facts.FactCollection) []string {
counter := make(map[int]int)
for _, k := range data.Keys() {
ids, ok := self.expressionIndex[k]
if ok {
for _, id := range ids {
v, exist := counter[id]
if !exist {
counter[id] = 1
} else {
counter[id] = v + 1
}
}
}
}
firedExpressions := []string{}
for k, v := range counter {
if v == self.varCountInExpressions[k] {
fmt.Println(self.expressions[k])
ret := expression.CalcReversePolishNotation(self.expressions[k], data)
if ret == "true" {
fmt.Println("fire expression", self.expressionNames[k], self.expressions[k])
firedExpressions = append(firedExpressions, self.expressionNames[k])
}
}
}
return firedExpressions
}
func (self *RuleEngine) AddRule(rule *logic.Rule) {
andOrRule := logic.AndOrFormat(rule.Expression)
for _, e := range andOrRule.Sets {
keys := strings.Split(e.ToString(), "\t")
size := len(self.rules)
self.rules = append(self.rules, keys)
self.actions = append(self.actions, rule.Action)
for _, key := range keys {
_, ok := self.ruleIndex[key]
if ok {
self.ruleIndex[key] = append(self.ruleIndex[key], size)
} else {
self.ruleIndex[key] = []int{size}
}
}
}
}
type Action struct {
Name string
Reason string
}
func (self *RuleEngine) GetAction(data *facts.FactCollection) []*Action {
exprs := self.GetFiredExpressions(data)
ret := []*Action{}
keys := make(map[string]bool)
for _, key := range exprs {
keys[key] = true
}
checked := make(map[string]bool)
checkedRules := make(map[int]bool)
counter := make(map[int]int)
for {
if len(keys) == 0 {
break
}
for key, _ := range keys {
checked[key] = true
ids, ok := self.ruleIndex[key]
if ok {
for _, id := range ids {
_, ok2 := counter[id]
if ok2 {
counter[id] += 1
} else {
counter[id] = 1
}
}
}
}
for id, c := range counter {
if len(self.rules[id]) == c {
_, ok := checkedRules[id]
if ok {
continue
}
checkedRules[id] = true
ret = append(ret, &(Action{Name: self.actions[id], Reason: strings.Join(self.rules[id], "&")}))
_, ok = checked[self.actions[id]]
if ok {
continue
}
keys[self.actions[id]] = true
}
}
for key, _ := range checked {
delete(keys, key)
}
}
return ret
}
type ActionRecord struct {
Action string `json:"action"`
Reasons []string `json:"reasons"`
}
func ConverActionListToActionRecords(actions []*Action) []*ActionRecord {
dict := make(map[string][]int)
for k, a := range actions {
_, ok := dict[a.Name]
if !ok {
dict[a.Name] = []int{}
}
dict[a.Name] = append(dict[a.Name], k)
}
ret := []*ActionRecord{}
for a, ids := range dict {
ar := ActionRecord{
Action: a,
Reasons: []string{},
}
for _, i := range ids {
ar.Reasons = append(ar.Reasons, actions[i].Reason)
}
ret = append(ret, &ar)
}
return ret
}
func (self *RuleEngine) Load(fname string) {
f, err := os.Open(fname)
if err != nil {
panic(err)
}
defer f.Close()
reader := bufio.NewReader(f)
for {
line, err := reader.ReadString('\n')
if err != nil {
break
}
line = strings.Trim(line, "\n")
if strings.Contains(line, ":=") {
tks := strings.Split(line, ":=")
self.AddExpression(strings.Trim(tks[1], " "), strings.Trim(tks[0], " "))
continue
}
if strings.Contains(line, "->") {
tks := strings.Split(line, "->")
rule := logic.Rule{Expression: tks[0], Action: strings.Trim(tks[1], " ")}
self.AddRule(&rule)
}
}
}