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evaluator.go
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evaluator.go
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package conditions
import (
"encoding/json"
"fmt"
"math"
"reflect"
"regexp"
)
var (
falseExpr = &BooleanLiteral{Val: false}
defaultEpsilon = float64(1e-6)
)
// SetDefaultEpsilon sets the defaultEpsilon
func SetDefaultEpsilon(ep float64) {
defaultEpsilon = ep
}
// Evaluate takes an expr and evaluates it using given args
func Evaluate(expr Expr, args map[string]interface{}) (bool, error) {
if expr == nil {
return false, fmt.Errorf("Provided expression is nil")
}
result, err := evaluateSubtree(expr, args)
if err != nil {
return false, err
}
switch n := result.(type) {
case *BooleanLiteral:
return n.Val, nil
}
return false, fmt.Errorf("Unexpected result of the root expression: %#v", result)
}
// evaluateSubtree performs given expr evaluation recursively
func evaluateSubtree(expr Expr, args map[string]interface{}) (Expr, error) {
if expr == nil {
return falseExpr, fmt.Errorf("Provided expression is nil")
}
var (
err error
lv, rv Expr
)
switch n := expr.(type) {
case *ParenExpr:
return evaluateSubtree(n.Expr, args)
case *BinaryExpr:
lv, err = evaluateSubtree(n.LHS, args)
if err != nil {
return falseExpr, err
}
rv, err = evaluateSubtree(n.RHS, args)
if err != nil {
return falseExpr, err
}
return applyOperator(n.Op, lv, rv)
case *VarRef:
//index, err := strconv.Atoi(strings.Replace(n.Val, "$", "", -1))
index := n.Val
if err != nil {
return falseExpr, fmt.Errorf("Failed to resolve argument index %s: %s", n.Val, err.Error())
}
if _, ok := args[index]; !ok {
return falseExpr, fmt.Errorf("argument: %v not found", index)
}
typeof := reflect.TypeOf(args[index])
if typeof == nil {
return falseExpr, fmt.Errorf("Unsupported argument nil type")
}
kind := typeof.Kind()
switch kind {
case reflect.Int:
return &NumberLiteral{Val: float64(args[index].(int))}, nil
case reflect.Int32:
return &NumberLiteral{Val: float64(args[index].(int32))}, nil
case reflect.Int64:
return &NumberLiteral{Val: float64(args[index].(int64))}, nil
case reflect.Float32:
return &NumberLiteral{Val: float64(args[index].(float32))}, nil
case reflect.Float64:
return &NumberLiteral{Val: float64(args[index].(float64))}, nil
case reflect.String:
if num, ok := args[index].(json.Number); ok {
f, err := num.Float64()
if err != nil {
return falseExpr, fmt.Errorf("Unsupported JSON Number %v type: %s", args[index], kind)
}
return &NumberLiteral{Val: f}, nil
}
return &StringLiteral{Val: args[index].(string)}, nil
case reflect.Bool:
return &BooleanLiteral{Val: args[index].(bool)}, nil
case reflect.Slice:
switch args[index].(type) {
case []string:
ssl := NewSliceStringLiteral(args[index].([]string))
return ssl, nil
case []int:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]int) {
snl.Val = append(snl.Val, float64(v))
}
return snl, nil
case []int32:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]int32) {
snl.Val = append(snl.Val, float64(v))
}
return snl, nil
case []int64:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]int64) {
snl.Val = append(snl.Val, float64(v))
}
return snl, nil
case []float32:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]float32) {
snl.Val = append(snl.Val, float64(v))
}
return snl, nil
case []float64:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]float64) {
snl.Val = append(snl.Val, float64(v))
}
return snl, nil
case []json.Number:
snl := &SliceNumberLiteral{}
for _, v := range args[index].([]json.Number) {
f, _ := v.Float64()
snl.Val = append(snl.Val, f)
}
return snl, nil
case []interface{}:
items := args[index].([]interface{})
if len(items) != 0 {
item := items[0]
switch item.(type) {
case string:
val := []string{}
for _, v := range items {
val = append(val, v.(string))
}
ssl := NewSliceStringLiteral(val)
return ssl, nil
case float64:
snl := &SliceNumberLiteral{}
for _, v := range items {
snl.Val = append(snl.Val, v.(float64))
}
return snl, nil
case json.Number:
snl := &SliceNumberLiteral{}
for _, v := range items {
f, _ := v.(json.Number).Float64()
snl.Val = append(snl.Val, f)
}
return snl, nil
}
}
}
}
return falseExpr, fmt.Errorf("Unsupported argument %s type: %s", n.Val, kind)
}
return expr, nil
}
// applyOperator is a dispatcher of the evaluation according to operator
func applyOperator(op Token, l, r Expr) (*BooleanLiteral, error) {
switch op {
case AND:
return applyAND(l, r)
case OR:
return applyOR(l, r)
case EQ:
return applyEQ(l, r)
case NEQ:
return applyNQ(l, r)
case GT:
return applyGT(l, r)
case GTE:
return applyGTE(l, r)
case LT:
return applyLT(l, r)
case LTE:
return applyLTE(l, r)
case XOR:
return applyXOR(l, r)
case NAND:
return applyNAND(l, r)
case IN:
return applyIN(l, r)
case NOTIN:
return applyNOTIN(l, r)
case EREG:
return applyEREG(l, r)
case NEREG:
return applyNEREG(l, r)
case CONTAINS:
return applyCONTAINS(l, r)
case NOTCONTAINS:
return applyNOTCONTAINS(l, r)
}
return &BooleanLiteral{Val: false}, fmt.Errorf("Unsupported operator: %s", op)
}
// applyEREG applies EREG operation to l/r operands
func applyNEREG(l, r Expr) (*BooleanLiteral, error) {
result, err := applyEREG(l, r)
result.Val = !result.Val
return result, err
}
// applyEREG applies EREG operation to l/r operands
func applyEREG(l, r Expr) (*BooleanLiteral, error) {
var (
a string
b string
err error
match bool
)
a, err = getString(l)
if err != nil {
return nil, err
}
b, err = getString(r)
if err != nil {
return nil, err
}
match = false
match, err = regexp.MatchString(b, a)
// pp.Print(a, b, match)
return &BooleanLiteral{Val: match}, err
}
// applyNOTIN applies NOT IN operation to l/r operands
func applyNOTIN(l, r Expr) (*BooleanLiteral, error) {
result, err := applyIN(l, r)
if err != nil {
return nil, err
}
result.Val = !result.Val
return result, err
}
// applyIN applies IN operation to l/r operands
func applyIN(l, r Expr) (*BooleanLiteral, error) {
var (
err error
found bool
)
// pp.Print(l)
switch t := l.(type) {
case *StringLiteral:
var a string
var b map[string]struct{}
a, err = getString(l)
if err != nil {
return nil, err
}
b, err = getMapString(r)
if err != nil {
return nil, err
}
_, found = b[a]
case *NumberLiteral:
var a float64
var b []float64
a, err = getNumber(l)
if err != nil {
return nil, err
}
b, err = getSliceNumber(r)
if err != nil {
return nil, err
}
found = false
for _, e := range b {
if float64Equal(a, e, defaultEpsilon) {
found = true
}
}
default:
return nil, fmt.Errorf("Can not evaluate Literal of unknow type %s %T", t, t)
}
return &BooleanLiteral{Val: found}, nil
}
// applyCONTAINS applies CONTAINS operation to l/r operands
func applyCONTAINS(l, r Expr) (*BooleanLiteral, error) {
return applyIN(r, l)
}
// applyNOTCONTAINS applies NOT CONTAINS operation to l/r operands
func applyNOTCONTAINS(l, r Expr) (*BooleanLiteral, error) {
result, err := applyCONTAINS(l, r)
if err != nil {
return nil, err
}
result.Val = !result.Val
return result, err
}
// applyXOR applies || operation to l/r operands
func applyXOR(l, r Expr) (*BooleanLiteral, error) {
var (
a, b bool
err error
)
a, err = getBoolean(l)
if err != nil {
return nil, err
}
b, err = getBoolean(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a != b)}, nil
}
// applyNAND applies NAND operation to l/r operands
func applyNAND(l, r Expr) (*BooleanLiteral, error) {
var (
a, b bool
err error
)
a, err = getBoolean(l)
if err != nil {
return nil, err
}
b, err = getBoolean(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (!(a && b))}, nil
}
// applyAND applies && operation to l/r operands
func applyAND(l, r Expr) (*BooleanLiteral, error) {
var (
a, b bool
err error
)
a, err = getBoolean(l)
if err != nil {
return nil, err
}
b, err = getBoolean(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a && b)}, nil
}
// applyOR applies || operation to l/r operands
func applyOR(l, r Expr) (*BooleanLiteral, error) {
var (
a, b bool
err error
)
a, err = getBoolean(l)
if err != nil {
return nil, err
}
b, err = getBoolean(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a || b)}, nil
}
// applyEQ applies == operation to l/r operands
func applyEQ(l, r Expr) (*BooleanLiteral, error) {
var (
as, bs string
an, bn float64
ab, bb bool
err error
)
as, err = getString(l)
if err == nil {
bs, err = getString(r)
if err != nil {
return falseExpr, fmt.Errorf("Cannot compare string with non-string")
}
return &BooleanLiteral{Val: (as == bs)}, nil
}
an, err = getNumber(l)
if err == nil {
bn, err = getNumber(r)
if err != nil {
return falseExpr, fmt.Errorf("Cannot compare number with non-number")
}
return &BooleanLiteral{Val: float64Equal(an, bn, defaultEpsilon)}, nil
}
ab, err = getBoolean(l)
if err == nil {
bb, err = getBoolean(r)
if err != nil {
return falseExpr, fmt.Errorf("Cannot compare boolean with non-boolean")
}
return &BooleanLiteral{Val: (ab == bb)}, nil
}
return falseExpr, nil
}
// applyNQ applies != operation to l/r operands
func applyNQ(l, r Expr) (*BooleanLiteral, error) {
result, err := applyEQ(l, r)
if err != nil {
return nil, err
}
result.Val = !result.Val
return result, err
}
// applyGT applies > operation to l/r operands
func applyGT(l, r Expr) (*BooleanLiteral, error) {
var (
a, b float64
err error
)
a, err = getNumber(l)
if err != nil {
return nil, err
}
b, err = getNumber(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a > b)}, nil
}
// applyGTE applies >= operation to l/r operands
func applyGTE(l, r Expr) (*BooleanLiteral, error) {
var (
a, b float64
err error
)
a, err = getNumber(l)
if err != nil {
return nil, err
}
b, err = getNumber(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a > b) || float64Equal(a, b, defaultEpsilon)}, nil
}
// applyLT applies < operation to l/r operands
func applyLT(l, r Expr) (*BooleanLiteral, error) {
var (
a, b float64
err error
)
a, err = getNumber(l)
if err != nil {
return nil, err
}
b, err = getNumber(r)
if err != nil {
return nil, err
}
return &BooleanLiteral{Val: (a < b)}, nil
}
// applyLTE applies <= operation to l/r operands
func applyLTE(l, r Expr) (*BooleanLiteral, error) {
var (
a, b float64
err error
)
a, err = getNumber(l)
if err != nil {
return falseExpr, err
}
b, err = getNumber(r)
if err != nil {
return falseExpr, err
}
return &BooleanLiteral{Val: (a < b) || float64Equal(a, b, defaultEpsilon)}, nil
}
// getBoolean performs type assertion and returns boolean value or error
func getBoolean(e Expr) (bool, error) {
switch n := e.(type) {
case *BooleanLiteral:
return n.Val, nil
default:
return false, fmt.Errorf("Literal is not a boolean: %v", n)
}
}
// getString performs type assertion and returns string value or error
func getString(e Expr) (string, error) {
switch n := e.(type) {
case *StringLiteral:
return n.Val, nil
default:
return "", fmt.Errorf("Literal is not a string: %v", n)
}
}
// getSliceNumber performs type assertion and returns []float64 value or error
func getSliceNumber(e Expr) ([]float64, error) {
switch n := e.(type) {
case *SliceNumberLiteral:
return n.Val, nil
default:
return []float64{}, fmt.Errorf("Literal is not a slice of float64: %v", n)
}
}
// getMapString performs type assertion and returns map[string]struct{} value or error
func getMapString(e Expr) (map[string]struct{}, error) {
switch n := e.(type) {
case *SliceStringLiteral:
return n.m, nil
default:
return nil, fmt.Errorf("Literal is not a slice of string: %v", n)
}
}
// getNumber performs type assertion and returns float64 value or error
func getNumber(e Expr) (float64, error) {
switch n := e.(type) {
case *NumberLiteral:
return n.Val, nil
default:
return 0, fmt.Errorf("Literal is not a number: %v", n)
}
}
func float64Equal(a float64, b float64, epsilon float64) bool {
absA := math.Abs(a)
absB := math.Abs(b)
diff := math.Abs(a - b)
zero := float64(0)
if a == b {
return true
}
if diff > epsilon {
return false
}
if a == zero || b == zero {
return diff < epsilon*math.SmallestNonzeroFloat32
}
return diff/math.Min((absA+absB), math.MaxFloat64) < epsilon
}