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expr.go
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expr.go
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// Copyright 2019 Bytedance Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package tagexpr
import (
"fmt"
)
// Expr expression
type Expr struct {
expr ExprNode
}
// parseExpr parses the expression.
func parseExpr(expr string) (*Expr, error) {
e := newGroupExprNode()
p := &Expr{
expr: e,
}
s := expr
_, err := p.parseExprNode(&s, e)
if err != nil {
return nil, fmt.Errorf("%q (syntax error): %s", expr, err.Error())
}
sortPriority(e.RightOperand())
err = p.checkSyntax()
if err != nil {
return nil, err
}
return p, nil
}
// run calculates the value of expression.
func (p *Expr) run(field string, tagExpr *TagExpr) interface{} {
return p.expr.Run(field, tagExpr)
}
func (p *Expr) parseOperand(expr *string) (e ExprNode) {
for _, fn := range funcList {
if e = fn(p, expr); e != nil {
return e
}
}
if e = readStringExprNode(expr); e != nil {
return e
}
if e = readDigitalExprNode(expr); e != nil {
return e
}
if e = readBoolExprNode(expr); e != nil {
return e
}
if e = readNilExprNode(expr); e != nil {
return e
}
return nil
}
func (*Expr) parseOperator(expr *string) (e ExprNode) {
s := *expr
if len(s) < 2 {
return nil
}
defer func() {
if e != nil && *expr == s {
*expr = (*expr)[2:]
}
}()
a := s[:2]
switch a {
// case "<<":
// case ">>":
// case "&^":
case "||":
return newOrExprNode()
case "&&":
return newAndExprNode()
case "==":
return newEqualExprNode()
case ">=":
return newGreaterEqualExprNode()
case "<=":
return newLessEqualExprNode()
case "!=":
return newNotEqualExprNode()
}
defer func() {
if e != nil {
*expr = (*expr)[1:]
}
}()
switch a[0] {
// case '&':
// case '|':
// case '^':
case '+':
return newAdditionExprNode()
case '-':
return newSubtractionExprNode()
case '*':
return newMultiplicationExprNode()
case '/':
return newDivisionExprNode()
case '%':
return newRemainderExprNode()
case '<':
return newLessExprNode()
case '>':
return newGreaterExprNode()
}
return nil
}
func (p *Expr) parseExprNode(expr *string, e ExprNode) (ExprNode, error) {
trimLeftSpace(expr)
if *expr == "" {
return nil, nil
}
operand := p.readSelectorExprNode(expr)
if operand == nil {
var subExprNode *string
operand, subExprNode = readGroupExprNode(expr)
if operand != nil {
_, err := p.parseExprNode(subExprNode, operand)
if err != nil {
return nil, err
}
} else {
operand = p.parseOperand(expr)
}
}
if operand == nil {
return nil, fmt.Errorf("parsing pos: %q", *expr)
}
trimLeftSpace(expr)
operator := p.parseOperator(expr)
if operator == nil {
e.SetRightOperand(operand)
operand.SetParent(e)
return operand, nil
}
if _, ok := e.(*groupExprNode); ok {
operator.SetLeftOperand(operand)
operand.SetParent(operator)
e.SetRightOperand(operator)
operator.SetParent(e)
} else {
e.SetRightOperand(operand)
operand.SetParent(e)
operator.SetLeftOperand(e)
operator.SetParent(e.Parent())
operator.Parent().SetRightOperand(operator)
e.SetParent(operator)
}
return p.parseExprNode(expr, operator)
}
func (p *Expr) checkSyntax() error {
return nil
}
/**
* Priority:
* () ! bool float64 string nil
* * / %
* + -
* < <= > >=
* == !=
* &&
* ||
**/
func sortPriority(e ExprNode) {
for subSortPriority(e) {
}
}
func subSortPriority(e ExprNode) bool {
if e == nil {
return false
}
leftChanged := subSortPriority(e.LeftOperand())
rightChanged := subSortPriority(e.RightOperand())
if getPriority(e) > getPriority(e.LeftOperand()) {
leftOperandToParent(e)
return true
}
return leftChanged || rightChanged
}
func getPriority(e ExprNode) (i int) {
// defer func() {
// fmt.Printf("expr:%T %d\n", e, i)
// }()
switch e.(type) {
default: // () ! bool float64 string nil
return 7
case *multiplicationExprNode, *divisionExprNode, *remainderExprNode: // * / %
return 6
case *additionExprNode, *subtractionExprNode: // + -
return 5
case *lessExprNode, *lessEqualExprNode, *greaterExprNode, *greaterEqualExprNode: // < <= > >=
return 4
case *equalExprNode, *notEqualExprNode: // == !=
return 3
case *andExprNode: // &&
return 2
case *orExprNode: // ||
return 1
}
}
func leftOperandToParent(e ExprNode) {
le := e.LeftOperand()
if le == nil {
return
}
e.SetLeftOperand(le.RightOperand())
le.SetRightOperand(e)
p := e.Parent()
// if p == nil {
// return
// }
if p.LeftOperand() == e {
p.SetLeftOperand(le)
} else {
p.SetRightOperand(le)
}
le.SetParent(p)
e.SetParent(le)
}
// ExprNode expression interface
type ExprNode interface {
SetParent(ExprNode)
Parent() ExprNode
LeftOperand() ExprNode
RightOperand() ExprNode
SetLeftOperand(ExprNode)
SetRightOperand(ExprNode)
Run(string, *TagExpr) interface{}
}
var _ ExprNode = new(exprBackground)
type exprBackground struct {
parent ExprNode
leftOperand ExprNode
rightOperand ExprNode
}
func (eb *exprBackground) SetParent(e ExprNode) {
eb.parent = e
}
func (eb *exprBackground) Parent() ExprNode {
return eb.parent
}
func (eb *exprBackground) LeftOperand() ExprNode {
return eb.leftOperand
}
func (eb *exprBackground) RightOperand() ExprNode {
return eb.rightOperand
}
func (eb *exprBackground) SetLeftOperand(left ExprNode) {
eb.leftOperand = left
}
func (eb *exprBackground) SetRightOperand(right ExprNode) {
eb.rightOperand = right
}
func (*exprBackground) Run(string, *TagExpr) interface{} { return nil }