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CompNode.go
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package comp
import (
"fmt"
"strings"
)
var (
//需要一个全局控制的函数
FuncLi map[string]CompMark
)
const (
//常量:最小的变量索引
Coust_a byte = 97
)
func init() {
FuncLi = make(map[string]CompMark)
}
//注册函数
func RegisterComp(name string, f CompMark) {
FuncLi[name] = f
}
/*
输入字符串;输出运算对象
现在支持+-*/还有自定义的函数
"(a+b*c-4)/rand(6+21,100)"
不支持负号开头
*/
func NewCompNode(exp string) *CompNode {
arr := compStringToArray(exp)
result, _ := createComp(arr)
return result
}
type CompMark func(node *CompNode, et *CompEvent) int64
//计算对象
type CompNode struct {
Obj string //对象
Var string //属性(变量)
Val int64 //值数据
Num1 *CompNode //数据1
Mark string //运算符号
Num2 *CompNode //数据2
}
func (cn *CompNode) String() string {
if cn.Mark == "+" || cn.Mark == "-" || cn.Mark == "*" || cn.Mark == "/" || cn.Mark == "%" {
return "(" + cn.Num1.String() + " " + cn.Mark + " " + cn.Num2.String() + ")"
} else if cn.Mark == "." {
return cn.Obj + "." + cn.Var
} else if cn.Mark != "" {
return cn.Mark + "(" + cn.Num1.String() + "," + cn.Num2.String() + ")"
} else if cn.Var != "" {
return cn.Var
} else {
return fmt.Sprint(cn.Val)
}
}
//循环计算
func (cn *CompNode) CompVal(et *CompEvent) (result int64) {
switch cn.Mark {
case "":
result = et.GetVal(cn)
case ".":
result = et.GetObjAttr(cn)
case "+":
result = cn.Num1.CompVal(et) + cn.Num2.CompVal(et)
case "-":
result = cn.Num1.CompVal(et) - cn.Num2.CompVal(et)
case "*":
result = cn.Num1.CompVal(et) * cn.Num2.CompVal(et)
case "/":
result = cn.Num1.CompVal(et) / cn.Num2.CompVal(et)
case "%":
result = cn.Num1.CompVal(et) % cn.Num2.CompVal(et)
default:
if f, ok := FuncLi[cn.Mark]; ok {
//找到函数
result = f(cn, et)
} else {
fmt.Println(" CompNode Error. Not exist Func ", cn.Mark, ". on CompNode:", cn)
}
}
return
}
//运算数据
func compStringToArray(exp string) (result []string) {
arr := []rune(exp)
tmp := NewStringBuilder()
result = make([]string, 0, len(arr))
for len(arr) > 0 {
switch arr[0] {
case '-', '+', '*', '/', '%', '(', ')', ',':
if !tmp.IsEmpty() {
result = append(result, tmp.ToString())
tmp.Clear()
}
result = append(result, string(arr[0]))
default:
tmp.AppendRune(arr[0])
}
arr = arr[1:]
}
if !tmp.IsEmpty() {
result = append(result, tmp.ToString())
}
// fmt.Println(result)
return
}
//算符号优先
func checkPriority(mark string) int {
priority := 10
switch mark {
case "+", "-":
priority = 0
case "*", "/", "%":
priority = 1
}
return priority
}
func newComp(v string) *CompNode {
result := new(CompNode)
if t, ok := NewString(v).ToInt64(); ok == nil {
result.Val = t
} else if index := strings.IndexRune(v, '.'); index >= 0 {
//对象的属性变量
result.Obj = v[:index]
result.Var = v[index+1:]
result.Mark = "."
} else {
result.Var = v
}
return result
}
//生成运算对象
func createComp(arr []string) (result *CompNode, resarr []string) {
numsk := make(Stack, 0, 20)
marksk := make(StackMark, 0, 20)
arrfor:
for len(arr) > 0 {
data := arr[0]
arr = arr[1:]
if _, ok := FuncLi[data]; ok {
//找到了函数
//函数部分,双参数的部分
marksk.Push(data)
result, resarr = createComp(arr[1:]) //函数都会带括号
numsk.Push(result)
arr = resarr
result, resarr = createComp(arr)
numsk.Push(result)
arr = resarr
} else {
switch data {
case "(":
//要嵌套调用
result, resarr = createComp(arr)
numsk.Push(result)
arr = resarr
case ")", ",":
//结束当前调用
break arrfor
case "-", "+", "*", "/", "%":
//符号
if marksk.Len() == 0 {
marksk.Push(data)
} else {
curpt := checkPriority(data)
for numsk.Len() >= 2 {
propt := checkPriority(marksk.Get())
//优先级
if curpt <= propt {
num2, num1 := numsk.Pop(), numsk.Pop()
mark := marksk.Pop()
cn := new(CompNode)
cn.Num1 = num1
cn.Num2 = num2
cn.Mark = mark
numsk.Push(cn)
} else {
break
}
}
marksk.Push(data)
}
default:
//数值
cn := newComp(data)
numsk.Push(cn)
}
}
}
for numsk.Len() >= 2 {
num2, num1 := numsk.Pop(), numsk.Pop()
mark := marksk.Pop()
cn := new(CompNode)
cn.Num1 = num1
cn.Num2 = num2
cn.Mark = mark
numsk.Push(cn)
}
cn := numsk.Get()
return cn, arr
}
type Stack []*CompNode
func (sk Stack) Len() int {
return len(sk)
}
func (sk *Stack) Push(v *CompNode) {
*sk = append(*sk, v)
}
func (sk *Stack) Pop() (result *CompNode) {
result = (*sk)[sk.Len()-1]
*sk = (*sk)[:sk.Len()-1]
return
}
func (sk Stack) IsEmpty() bool {
return len(sk) == 0
}
func (sk Stack) Get() (result *CompNode) {
return sk[sk.Len()-1]
}
type StackMark []string
func (sk StackMark) Len() int {
return len(sk)
}
func (sk *StackMark) Push(v string) {
*sk = append(*sk, v)
}
func (sk *StackMark) Pop() (result string) {
result = (*sk)[sk.Len()-1]
*sk = (*sk)[:sk.Len()-1]
return
}
func (sk StackMark) IsEmpty() bool {
return len(sk) == 0
}
func (sk StackMark) Get() (result string) {
return sk[sk.Len()-1]
}