yq/pkg/yqlib/lexer.go

package yqlib

import (
	"fmt"
	"regexp"
)

type expressionTokeniser interface {
	Tokenise(expression string) ([]*token, error)
}

type tokenType uint32

const (
	operationToken = 1 << iota
	openBracket
	closeBracket
	openCollect
	closeCollect
	openCollectObject
	closeCollectObject
	traverseArrayCollect
)

type token struct {
	TokenType            tokenType
	Operation            *Operation
	AssignOperation      *Operation // e.g. tag (GetTag) op becomes AssignTag if '=' follows it
	CheckForPostTraverse bool       // e.g. [1]cat should really be [1].cat
	Match                string
}

func (t *token) toString(detail bool) string {
	if t.TokenType == operationToken {
		if detail {
			return fmt.Sprintf("%v (%v)", t.Operation.toString(), t.Operation.OperationType.Precedence)
		}
		return t.Operation.toString()
	} else if t.TokenType == openBracket {
		return "("
	} else if t.TokenType == closeBracket {
		return ")"
	} else if t.TokenType == openCollect {
		return "["
	} else if t.TokenType == closeCollect {
		return "]"
	} else if t.TokenType == openCollectObject {
		return "{"
	} else if t.TokenType == closeCollectObject {
		return "}"
	} else if t.TokenType == traverseArrayCollect {
		return ".["

	} else {
		return "NFI"
	}
}

func unwrap(value string) string {
	return value[1 : len(value)-1]
}

func extractNumberParameter(value string) (int, error) {
	parameterParser := regexp.MustCompile(`.*\(([0-9]+)\)`)
	matches := parameterParser.FindStringSubmatch(value)
	var indent, errParsingInt = parseInt(matches[1])
	if errParsingInt != nil {
		return 0, errParsingInt
	}
	return indent, nil
}

func hasOptionParameter(value string, option string) bool {
	parameterParser := regexp.MustCompile(`.*\([^\)]*\)`)
	matches := parameterParser.FindStringSubmatch(value)
	if len(matches) == 0 {
		return false
	}
	parameterString := matches[0]
	optionParser := regexp.MustCompile(fmt.Sprintf("\\b%v\\b", option))
	return len(optionParser.FindStringSubmatch(parameterString)) > 0
}

func postProcessTokens(tokens []*token) []*token {
	var postProcessedTokens = make([]*token, 0)

	skipNextToken := false

	for index := range tokens {
		if skipNextToken {
			skipNextToken = false
		} else {
			postProcessedTokens, skipNextToken = handleToken(tokens, index, postProcessedTokens)
		}
	}

	return postProcessedTokens
}

func tokenIsOpType(token *token, opType *operationType) bool {
	return token.TokenType == operationToken && token.Operation.OperationType == opType
}

func handleToken(tokens []*token, index int, postProcessedTokens []*token) (tokensAccum []*token, skipNextToken bool) {
	skipNextToken = false
	currentToken := tokens[index]

	log.Debug("processing %v", currentToken.toString(true))

	if currentToken.TokenType == traverseArrayCollect {
		// `.[exp]`` works by creating a traversal array of [self, exp] and piping that into the traverse array operator
		//need to put a traverse array then a collect currentToken
		// do this by adding traverse then converting currentToken to collect

		log.Debug("  adding self")
		op := &Operation{OperationType: selfReferenceOpType, StringValue: "SELF"}
		postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})

		log.Debug("  adding traverse array")
		op = &Operation{OperationType: traverseArrayOpType, StringValue: "TRAVERSE_ARRAY"}
		postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})

		currentToken = &token{TokenType: openCollect}

	}

	if tokenIsOpType(currentToken, createMapOpType) {
		log.Debugf("tokenIsOpType: createMapOpType")
		// check the previous token is '[', means we are slice, but dont have a first number
		if tokens[index-1].TokenType == traverseArrayCollect {
			log.Debugf("previous token is : traverseArrayOpType")
			// need to put the number 0 before this token, as that is implied
			postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: createValueOperation(0, "0")})
		}
	}

	if index != len(tokens)-1 && currentToken.AssignOperation != nil &&
		tokenIsOpType(tokens[index+1], assignOpType) {
		log.Debug("  its an update assign")
		currentToken.Operation = currentToken.AssignOperation
		currentToken.Operation.UpdateAssign = tokens[index+1].Operation.UpdateAssign
		skipNextToken = true
	}

	log.Debug("  adding token to the fixed list")
	postProcessedTokens = append(postProcessedTokens, currentToken)

	if tokenIsOpType(currentToken, createMapOpType) {
		log.Debugf("tokenIsOpType: createMapOpType")
		// check the next token is ']', means we are slice, but dont have a second number
		if index != len(tokens)-1 && tokens[index+1].TokenType == closeCollect {
			log.Debugf("next token is : closeCollect")
			// need to put the number 0 before this token, as that is implied
			lengthOp := &Operation{OperationType: lengthOpType}
			postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: lengthOp})
		}
	}

	if index != len(tokens)-1 &&
		((currentToken.TokenType == openCollect && tokens[index+1].TokenType == closeCollect) ||
			(currentToken.TokenType == openCollectObject && tokens[index+1].TokenType == closeCollectObject)) {
		log.Debug("  adding empty")
		op := &Operation{OperationType: emptyOpType, StringValue: "EMPTY"}
		postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})
	}

	if index != len(tokens)-1 && currentToken.CheckForPostTraverse &&

		(tokenIsOpType(tokens[index+1], traversePathOpType) ||
			(tokens[index+1].TokenType == traverseArrayCollect)) {
		log.Debug("  adding pipe because the next thing is traverse")
		op := &Operation{OperationType: shortPipeOpType, Value: "PIPE", StringValue: "."}
		postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})
	}
	if index != len(tokens)-1 && currentToken.CheckForPostTraverse &&
		tokens[index+1].TokenType == openCollect {

		log.Debug("  adding traverArray because next is opencollect")
		op := &Operation{OperationType: traverseArrayOpType}
		postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})
	}
	return postProcessedTokens, skipNextToken
}
Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`package yqlib`

			`import (`
			`"fmt"`
			`"regexp"`
			`)`

			`type expressionTokeniser interface {`
			`Tokenise(expression string) ([]*token, error)`
			`}`

			`type tokenType uint32`

			`const (`
			`operationToken = 1 << iota`
			`openBracket`
			`closeBracket`
			`openCollect`
			`closeCollect`
			`openCollectObject`
			`closeCollectObject`
			`traverseArrayCollect`
			`)`

			`type token struct {`
			`TokenType tokenType`
			`Operation *Operation`
			`AssignOperation *Operation // e.g. tag (GetTag) op becomes AssignTag if '=' follows it`
			`CheckForPostTraverse bool // e.g. [1]cat should really be [1].cat`
			`Match string`
			`}`

			`func (t *token) toString(detail bool) string {`
			`if t.TokenType == operationToken {`
			`if detail {`
			`return fmt.Sprintf("%v (%v)", t.Operation.toString(), t.Operation.OperationType.Precedence)`
			`}`
			`return t.Operation.toString()`
			`} else if t.TokenType == openBracket {`
			`return "("`
			`} else if t.TokenType == closeBracket {`
			`return ")"`
			`} else if t.TokenType == openCollect {`
			`return "["`
			`} else if t.TokenType == closeCollect {`
			`return "]"`
			`} else if t.TokenType == openCollectObject {`
			`return "{"`
			`} else if t.TokenType == closeCollectObject {`
			`return "}"`
			`} else if t.TokenType == traverseArrayCollect {`
			`return ".["`

			`} else {`
			`return "NFI"`
			`}`
			`}`

			`func unwrap(value string) string {`
			`return value[1 : len(value)-1]`
			`}`

			`func extractNumberParameter(value string) (int, error) {`
			parameterParser := regexp.MustCompile(`.*\(([0-9]+)\)`)
			`matches := parameterParser.FindStringSubmatch(value)`
Slice array (#1403) 2022-10-29 07:15:21 +00:00			`var indent, errParsingInt = parseInt(matches[1])`
Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`if errParsingInt != nil {`
			`return 0, errParsingInt`
			`}`
Slice array (#1403) 2022-10-29 07:15:21 +00:00			`return indent, nil`
Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`}`

			`func hasOptionParameter(value string, option string) bool {`
			parameterParser := regexp.MustCompile(`.\([^\)]\)`)
			`matches := parameterParser.FindStringSubmatch(value)`
			`if len(matches) == 0 {`
			`return false`
			`}`
			`parameterString := matches[0]`
			`optionParser := regexp.MustCompile(fmt.Sprintf("\\b%v\\b", option))`
			`return len(optionParser.FindStringSubmatch(parameterString)) > 0`
			`}`

			`func postProcessTokens(tokens []token) []token {`
			`var postProcessedTokens = make([]*token, 0)`

			`skipNextToken := false`

			`for index := range tokens {`
			`if skipNextToken {`
			`skipNextToken = false`
			`} else {`
			`postProcessedTokens, skipNextToken = handleToken(tokens, index, postProcessedTokens)`
			`}`
			`}`

			`return postProcessedTokens`
			`}`

Can use expressions in slice #1419 2022-11-10 07:03:18 +00:00			`func tokenIsOpType(token token, opType operationType) bool {`
			`return token.TokenType == operationToken && token.Operation.OperationType == opType`
			`}`

Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`func handleToken(tokens []token, index int, postProcessedTokens []token) (tokensAccum []*token, skipNextToken bool) {`
			`skipNextToken = false`
			`currentToken := tokens[index]`

			`log.Debug("processing %v", currentToken.toString(true))`

			`if currentToken.TokenType == traverseArrayCollect {`
			// `.[exp]`` works by creating a traversal array of [self, exp] and piping that into the traverse array operator
			`//need to put a traverse array then a collect currentToken`
			`// do this by adding traverse then converting currentToken to collect`

			`log.Debug(" adding self")`
			`op := &Operation{OperationType: selfReferenceOpType, StringValue: "SELF"}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})`

			`log.Debug(" adding traverse array")`
			`op = &Operation{OperationType: traverseArrayOpType, StringValue: "TRAVERSE_ARRAY"}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})`

			`currentToken = &token{TokenType: openCollect}`

			`}`

Can use expressions in slice #1419 2022-11-10 07:03:18 +00:00			`if tokenIsOpType(currentToken, createMapOpType) {`
			`log.Debugf("tokenIsOpType: createMapOpType")`
			`// check the previous token is '[', means we are slice, but dont have a first number`
			`if tokens[index-1].TokenType == traverseArrayCollect {`
			`log.Debugf("previous token is : traverseArrayOpType")`
			`// need to put the number 0 before this token, as that is implied`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: createValueOperation(0, "0")})`
			`}`
			`}`

Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`if index != len(tokens)-1 && currentToken.AssignOperation != nil &&`
Can use expressions in slice #1419 2022-11-10 07:03:18 +00:00			`tokenIsOpType(tokens[index+1], assignOpType) {`
Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`log.Debug(" its an update assign")`
			`currentToken.Operation = currentToken.AssignOperation`
			`currentToken.Operation.UpdateAssign = tokens[index+1].Operation.UpdateAssign`
			`skipNextToken = true`
			`}`

			`log.Debug(" adding token to the fixed list")`
			`postProcessedTokens = append(postProcessedTokens, currentToken)`

Can use expressions in slice #1419 2022-11-10 07:03:18 +00:00			`if tokenIsOpType(currentToken, createMapOpType) {`
			`log.Debugf("tokenIsOpType: createMapOpType")`
			`// check the next token is ']', means we are slice, but dont have a second number`
			`if index != len(tokens)-1 && tokens[index+1].TokenType == closeCollect {`
			`log.Debugf("next token is : closeCollect")`
			`// need to put the number 0 before this token, as that is implied`
			`lengthOp := &Operation{OperationType: lengthOpType}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: lengthOp})`
			`}`
			`}`

Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`if index != len(tokens)-1 &&`
			`((currentToken.TokenType == openCollect && tokens[index+1].TokenType == closeCollect) \|\|`
			`(currentToken.TokenType == openCollectObject && tokens[index+1].TokenType == closeCollectObject)) {`
			`log.Debug(" adding empty")`
			`op := &Operation{OperationType: emptyOpType, StringValue: "EMPTY"}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})`
			`}`

			`if index != len(tokens)-1 && currentToken.CheckForPostTraverse &&`
Can use expressions in slice #1419 2022-11-10 07:03:18 +00:00
			`(tokenIsOpType(tokens[index+1], traversePathOpType) \|\|`
Using new lexer by alecthomas! (#1270) 2022-07-13 04:45:28 +00:00			`(tokens[index+1].TokenType == traverseArrayCollect)) {`
			`log.Debug(" adding pipe because the next thing is traverse")`
			`op := &Operation{OperationType: shortPipeOpType, Value: "PIPE", StringValue: "."}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})`
			`}`
			`if index != len(tokens)-1 && currentToken.CheckForPostTraverse &&`
			`tokens[index+1].TokenType == openCollect {`

			`log.Debug(" adding traverArray because next is opencollect")`
			`op := &Operation{OperationType: traverseArrayOpType}`
			`postProcessedTokens = append(postProcessedTokens, &token{TokenType: operationToken, Operation: op})`
			`}`
			`return postProcessedTokens, skipNextToken`
			`}`