package yqlib import ( "errors" "fmt" logging "gopkg.in/op/go-logging.v1" ) type expressionPostFixer interface { ConvertToPostfix([]*token) ([]*Operation, error) } type expressionPostFixerImpl struct { } func newExpressionPostFixer() expressionPostFixer { return &expressionPostFixerImpl{} } func popOpToResult(opStack []*token, result []*Operation) ([]*token, []*Operation) { var newOp *token opStack, newOp = opStack[0:len(opStack)-1], opStack[len(opStack)-1] log.Debugf("popped %v from opstack to results", newOp.toString(true)) return opStack, append(result, newOp.Operation) } func validateNoOpenTokens(token *token) error { if token.TokenType == openCollect { return fmt.Errorf(("Bad expression, could not find matching `]`")) } else if token.TokenType == openCollectObject { return fmt.Errorf(("Bad expression, could not find matching `}`")) } else if token.TokenType == openBracket { return fmt.Errorf(("Bad expression, could not find matching `)`")) } return nil } func (p *expressionPostFixerImpl) ConvertToPostfix(infixTokens []*token) ([]*Operation, error) { var result []*Operation // surround the whole thing with brackets var opStack = []*token{{TokenType: openBracket}} var tokens = append(infixTokens, &token{TokenType: closeBracket}) for _, currentToken := range tokens { log.Debugf("postfix processing currentToken %v", currentToken.toString(true)) switch currentToken.TokenType { case openBracket, openCollect, openCollectObject: opStack = append(opStack, currentToken) log.Debugf("put %v onto the opstack", currentToken.toString(true)) case closeCollect, closeCollectObject: var opener tokenType = openCollect var collectOperator = collectOpType if currentToken.TokenType == closeCollectObject { opener = openCollectObject collectOperator = collectObjectOpType } for len(opStack) > 0 && opStack[len(opStack)-1].TokenType != opener { missingClosingTokenErr := validateNoOpenTokens(opStack[len(opStack)-1]) if missingClosingTokenErr != nil { return nil, missingClosingTokenErr } opStack, result = popOpToResult(opStack, result) } if len(opStack) == 0 { return nil, errors.New("Bad path expression, got close collect 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] log.Debugf("deleting open bracket from opstack") //and append a collect to the result // hack - see if there's the optional traverse flag // on the close op - move it to the traverse array op // allows for .["cat"]? prefs := traversePreferences{} closeTokenMatch := currentToken.Match if closeTokenMatch[len(closeTokenMatch)-1:] == "?" { prefs.OptionalTraverse = true } result = append(result, &Operation{OperationType: collectOperator}) log.Debugf("put collect onto the result") if opener != openCollect { result = append(result, &Operation{OperationType: shortPipeOpType}) log.Debugf("put shortpipe onto the result") } //traverseArrayCollect is a sneaky op that needs to be included too //when closing a ] if len(opStack) > 0 && opStack[len(opStack)-1].Operation != nil && opStack[len(opStack)-1].Operation.OperationType == traverseArrayOpType { opStack[len(opStack)-1].Operation.Preferences = prefs opStack, result = popOpToResult(opStack, result) } case closeBracket: for len(opStack) > 0 && opStack[len(opStack)-1].TokenType != openBracket { missingClosingTokenErr := validateNoOpenTokens(opStack[len(opStack)-1]) if missingClosingTokenErr != nil { return nil, missingClosingTokenErr } 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 = currentToken.Operation.OperationType.Precedence // pop off higher precedent operators onto the result for len(opStack) > 0 && opStack[len(opStack)-1].TokenType == operationToken && opStack[len(opStack)-1].Operation.OperationType.Precedence > currentPrecedence { opStack, result = popOpToResult(opStack, result) } // add this operator to the opStack opStack = append(opStack, currentToken) log.Debugf("put %v onto the opstack", currentToken.toString(true)) } } log.Debugf("opstackLen: %v", len(opStack)) if log.IsEnabledFor(logging.DEBUG) { log.Debugf("PostFix Result:") for _, currentToken := range result { log.Debugf("> %v", currentToken.toString()) } } return result, nil }