yq/pkg/yqlib/treeops/path_postfix.go
2020-10-10 22:42:09 +11:00

159 lines
4.3 KiB
Go

package treeops
import (
"errors"
"fmt"
lex "github.com/timtadh/lexmachine"
)
var precedenceMap map[int]int
type PathElementType uint32
const (
PathKey PathElementType = 1 << iota
ArrayIndex
Operation
)
type OperationType uint32
const (
None OperationType = 1 << iota
Traverse
Or
And
Equals
EqualsSelf
Assign
DeleteChild
)
type PathElement struct {
PathElementType PathElementType
OperationType OperationType
Value interface{}
StringValue string
}
// debugging purposes only
func (p *PathElement) toString() string {
var result string = ``
switch p.PathElementType {
case PathKey:
result = result + fmt.Sprintf("PathKey - '%v'\n", p.Value)
case ArrayIndex:
result = result + fmt.Sprintf("ArrayIndex - '%v'\n", p.Value)
case Operation:
result = result + "Operation - "
switch p.OperationType {
case Or:
result = result + "OR\n"
case And:
result = result + "AND\n"
case Equals:
result = result + "EQUALS\n"
case EqualsSelf:
result = result + "EQUALS SELF\n"
case Assign:
result = result + "ASSIGN\n"
case Traverse:
result = result + "TRAVERSE\n"
case DeleteChild:
result = result + "DELETE CHILD\n"
}
}
return result
}
var operationTypeMapper map[int]OperationType
func initMaps() {
precedenceMap = make(map[int]int)
operationTypeMapper = make(map[int]OperationType)
precedenceMap[TokenIds["("]] = 0
precedenceMap[TokenIds["OR_OPERATOR"]] = 10
operationTypeMapper[TokenIds["OR_OPERATOR"]] = Or
precedenceMap[TokenIds["AND_OPERATOR"]] = 20
operationTypeMapper[TokenIds["AND_OPERATOR"]] = And
precedenceMap[TokenIds["EQUALS_OPERATOR"]] = 30
operationTypeMapper[TokenIds["EQUALS_OPERATOR"]] = Equals
precedenceMap[TokenIds["EQUALS_SELF_OPERATOR"]] = 30
operationTypeMapper[TokenIds["EQUALS_SELF_OPERATOR"]] = EqualsSelf
precedenceMap[TokenIds["DELETE_CHILD_OPERATOR"]] = 30
operationTypeMapper[TokenIds["DELETE_CHILD_OPERATOR"]] = DeleteChild
precedenceMap[TokenIds["ASSIGN_OPERATOR"]] = 35
operationTypeMapper[TokenIds["ASSIGN_OPERATOR"]] = Assign
precedenceMap[TokenIds["TRAVERSE_OPERATOR"]] = 40
operationTypeMapper[TokenIds["TRAVERSE_OPERATOR"]] = Traverse
}
func createOperationPathElement(opToken *lex.Token) PathElement {
var pathElement = PathElement{PathElementType: Operation, OperationType: operationTypeMapper[opToken.Type]}
return pathElement
}
type PathPostFixer interface {
ConvertToPostfix([]*lex.Token) ([]*PathElement, error)
}
type pathPostFixer struct {
}
func NewPathPostFixer() PathPostFixer {
return &pathPostFixer{}
}
func popOpToResult(opStack []*lex.Token, result []*PathElement) ([]*lex.Token, []*PathElement) {
var operatorToPushToPostFix *lex.Token
opStack, operatorToPushToPostFix = opStack[0:len(opStack)-1], opStack[len(opStack)-1]
var pathElement = createOperationPathElement(operatorToPushToPostFix)
return opStack, append(result, &pathElement)
}
func (p *pathPostFixer) ConvertToPostfix(infixTokens []*lex.Token) ([]*PathElement, error) {
var result []*PathElement
// surround the whole thing with quotes
var opStack = []*lex.Token{&lex.Token{Type: TokenIds["("]}}
var tokens = append(infixTokens, &lex.Token{Type: TokenIds[")"]})
for _, token := range tokens {
switch token.Type {
case TokenIds["PATH_KEY"], TokenIds["ARRAY_INDEX"], TokenIds["[+]"], TokenIds["[*]"], TokenIds["**"]:
var pathElement = PathElement{PathElementType: PathKey, Value: token.Value, StringValue: fmt.Sprintf("%v", token.Value)}
result = append(result, &pathElement)
case TokenIds["("]:
opStack = append(opStack, token)
case TokenIds[")"]:
for len(opStack) > 0 && opStack[len(opStack)-1].Type != TokenIds["("] {
opStack, result = popOpToResult(opStack, result)
}
if len(opStack) == 0 {
return nil, errors.New("Bad path expression, got close brackets without matching opening bracket")
}
// now we should have ( as the last element on the opStack, get rid of it
opStack = opStack[0 : len(opStack)-1]
default:
var currentPrecedence = precedenceMap[token.Type]
// pop off higher precedent operators onto the result
for len(opStack) > 0 && precedenceMap[opStack[len(opStack)-1].Type] >= currentPrecedence {
opStack, result = popOpToResult(opStack, result)
}
// add this operator to the opStack
opStack = append(opStack, token)
}
}
return result, nil
}