yq/pkg/yqlib/operator_strings.go

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package yqlib
import (
"container/list"
"fmt"
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"regexp"
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"strings"
)
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var StringInterpolationEnabled = true
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type changeCasePrefs struct {
ToUpperCase bool
}
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func encodeToYamlString(node *CandidateNode) (string, error) {
encoderPrefs := encoderPreferences{
format: YamlFormat,
indent: ConfiguredYamlPreferences.Indent,
}
result, err := encodeToString(node, encoderPrefs)
if err != nil {
return "", err
}
return chomper.ReplaceAllString(result, ""), nil
}
func evaluate(d *dataTreeNavigator, context Context, expStr string) (string, error) {
exp, err := ExpressionParser.ParseExpression(expStr)
if err != nil {
return "", err
}
result, err := d.GetMatchingNodes(context, exp)
if err != nil {
return "", err
}
if result.MatchingNodes.Len() == 0 {
return "", nil
}
node := result.MatchingNodes.Front().Value.(*CandidateNode)
if node.Kind != ScalarNode {
return encodeToYamlString(node)
}
return node.Value, nil
}
func interpolate(d *dataTreeNavigator, context Context, str string) (string, error) {
var sb strings.Builder
var expSb strings.Builder
inExpression := false
nestedBracketsCounter := 0
runes := []rune(str)
for i := 0; i < len(runes); i++ {
char := runes[i]
if !inExpression {
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if char == '\\' && i < len(runes)-1 {
switch runes[i+1] {
case '(':
inExpression = true
// skip the lparen
i++
continue
case '\\':
// skip the escaped backslash
i++
default:
log.Debugf("Ignoring non-escaping backslash @ %v[%d]", str, i)
}
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}
sb.WriteRune(char)
} else { // we are in an expression
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if char == ')' {
if nestedBracketsCounter == 0 {
// finished the expression!
log.Debugf("Expression is :%v", expSb.String())
value, err := evaluate(d, context, expSb.String())
if err != nil {
return "", err
}
inExpression = false
expSb = strings.Builder{} // reset this
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sb.WriteString(value)
continue
}
nestedBracketsCounter--
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} else if char == '(' {
nestedBracketsCounter++
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} else if char == '\\' && i < len(runes)-1 {
switch esc := runes[i+1]; esc {
case ')', '\\':
// write escaped character
expSb.WriteRune(esc)
i++
continue
default:
log.Debugf("Ignoring non-escaping backslash @ %v[%d]", str, i)
}
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}
expSb.WriteRune(char)
}
}
if inExpression {
log.Warning("unclosed interpolation string, skipping interpolation")
return str, nil
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}
return sb.String(), nil
}
func stringInterpolationOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
if !StringInterpolationEnabled {
return context.SingleChildContext(
createScalarNode(expressionNode.Operation.StringValue, expressionNode.Operation.StringValue),
), nil
}
if context.MatchingNodes.Len() == 0 {
value, err := interpolate(d, context, expressionNode.Operation.StringValue)
if err != nil {
return Context{}, err
}
node := createScalarNode(value, value)
return context.SingleChildContext(node), nil
}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
candidate := el.Value.(*CandidateNode)
value, err := interpolate(d, context.SingleChildContext(candidate), expressionNode.Operation.StringValue)
if err != nil {
return Context{}, err
}
node := createScalarNode(value, value)
results.PushBack(node)
}
return context.ChildContext(results), nil
}
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func trimSpaceOperator(_ *dataTreeNavigator, context Context, _ *ExpressionNode) (Context, error) {
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results := list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
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if node.guessTagFromCustomType() != "!!str" {
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return Context{}, fmt.Errorf("cannot trim %v, can only operate on strings. ", node.Tag)
}
newStringNode := node.CreateReplacement(ScalarNode, node.Tag, strings.TrimSpace(node.Value))
newStringNode.Style = node.Style
results.PushBack(newStringNode)
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}
return context.ChildContext(results), nil
}
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func toStringOperator(_ *dataTreeNavigator, context Context, _ *ExpressionNode) (Context, error) {
results := list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
var newStringNode *CandidateNode
if node.Tag == "!!str" {
newStringNode = node.CreateReplacement(ScalarNode, "!!str", node.Value)
} else if node.Kind == ScalarNode {
newStringNode = node.CreateReplacement(ScalarNode, "!!str", node.Value)
newStringNode.Style = DoubleQuotedStyle
} else {
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result, err := encodeToYamlString(node)
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if err != nil {
return Context{}, err
}
newStringNode = node.CreateReplacement(ScalarNode, "!!str", result)
newStringNode.Style = DoubleQuotedStyle
}
newStringNode.Tag = "!!str"
results.PushBack(newStringNode)
}
return context.ChildContext(results), nil
}
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func changeCaseOperator(_ *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
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results := list.New()
prefs := expressionNode.Operation.Preferences.(changeCasePrefs)
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
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if node.guessTagFromCustomType() != "!!str" {
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return Context{}, fmt.Errorf("cannot change case with %v, can only operate on strings. ", node.Tag)
}
value := ""
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if prefs.ToUpperCase {
value = strings.ToUpper(node.Value)
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} else {
value = strings.ToLower(node.Value)
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}
newStringNode := node.CreateReplacement(ScalarNode, node.Tag, value)
newStringNode.Style = node.Style
results.PushBack(newStringNode)
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}
return context.ChildContext(results), nil
}
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func getSubstituteParameters(d *dataTreeNavigator, block *ExpressionNode, context Context) (string, string, error) {
regEx := ""
replacementText := ""
regExNodes, err := d.GetMatchingNodes(context.ReadOnlyClone(), block.LHS)
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if err != nil {
return "", "", err
}
if regExNodes.MatchingNodes.Front() != nil {
regEx = regExNodes.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
log.Debug("regEx %v", regEx)
replacementNodes, err := d.GetMatchingNodes(context, block.RHS)
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if err != nil {
return "", "", err
}
if replacementNodes.MatchingNodes.Front() != nil {
replacementText = replacementNodes.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
return regEx, replacementText, nil
}
func substitute(original string, regex *regexp.Regexp, replacement string) (Kind, string, string) {
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replacedString := regex.ReplaceAllString(original, replacement)
return ScalarNode, "!!str", replacedString
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}
func substituteStringOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
//rhs block operator
//lhs of block = regex
//rhs of block = replacement expression
block := expressionNode.RHS
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regExStr, replacementText, err := getSubstituteParameters(d, block, context)
if err != nil {
return Context{}, err
}
regEx, err := regexp.Compile(regExStr)
if err != nil {
return Context{}, err
}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
if node.guessTagFromCustomType() != "!!str" {
return Context{}, fmt.Errorf("cannot substitute with %v, can only substitute strings. Hint: Most often you'll want to use '|=' over '=' for this operation", node.Tag)
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}
result := node.CreateReplacement(substitute(node.Value, regEx, replacementText))
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results.PushBack(result)
}
return context.ChildContext(results), nil
}
func addMatch(original []*CandidateNode, match string, offset int, name string) []*CandidateNode {
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newContent := append(original,
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createScalarNode("string", "string"))
if offset < 0 {
// offset of -1 means there was no match, force a null value like jq
newContent = append(newContent,
createScalarNode(nil, "null"),
)
} else {
newContent = append(newContent,
createScalarNode(match, match),
)
}
newContent = append(newContent,
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createScalarNode("offset", "offset"),
createScalarNode(offset, fmt.Sprintf("%v", offset)),
createScalarNode("length", "length"),
createScalarNode(len(match), fmt.Sprintf("%v", len(match))))
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if name != "" {
newContent = append(newContent,
createScalarNode("name", "name"),
createScalarNode(name, name),
)
}
return newContent
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}
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type matchPreferences struct {
Global bool
}
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func getMatches(matchPrefs matchPreferences, regEx *regexp.Regexp, value string) ([][]string, [][]int) {
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var allMatches [][]string
var allIndices [][]int
if matchPrefs.Global {
allMatches = regEx.FindAllStringSubmatch(value, -1)
allIndices = regEx.FindAllStringSubmatchIndex(value, -1)
} else {
allMatches = [][]string{regEx.FindStringSubmatch(value)}
allIndices = [][]int{regEx.FindStringSubmatchIndex(value)}
}
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log.Debug("allMatches, %v", allMatches)
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return allMatches, allIndices
}
func match(matchPrefs matchPreferences, regEx *regexp.Regexp, candidate *CandidateNode, value string, results *list.List) {
subNames := regEx.SubexpNames()
allMatches, allIndices := getMatches(matchPrefs, regEx, value)
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// if all matches just has an empty array in it,
// then nothing matched
if len(allMatches) > 0 && len(allMatches[0]) == 0 {
return
}
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for i, matches := range allMatches {
capturesListNode := &CandidateNode{Kind: SequenceNode}
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match, submatches := matches[0], matches[1:]
for j, submatch := range submatches {
captureNode := &CandidateNode{Kind: MappingNode}
captureNode.AddChildren(addMatch(captureNode.Content, submatch, allIndices[i][2+j*2], subNames[j+1]))
capturesListNode.AddChild(captureNode)
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}
node := candidate.CreateReplacement(MappingNode, "!!map", "")
node.AddChildren(addMatch(node.Content, match, allIndices[i][0], ""))
node.AddKeyValueChild(createScalarNode("captures", "captures"), capturesListNode)
results.PushBack(node)
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}
}
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func capture(matchPrefs matchPreferences, regEx *regexp.Regexp, candidate *CandidateNode, value string, results *list.List) {
subNames := regEx.SubexpNames()
allMatches, allIndices := getMatches(matchPrefs, regEx, value)
// if all matches just has an empty array in it,
// then nothing matched
if len(allMatches) > 0 && len(allMatches[0]) == 0 {
return
}
for i, matches := range allMatches {
capturesNode := candidate.CreateReplacement(MappingNode, "!!map", "")
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_, submatches := matches[0], matches[1:]
for j, submatch := range submatches {
keyNode := createScalarNode(subNames[j+1], subNames[j+1])
var valueNode *CandidateNode
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offset := allIndices[i][2+j*2]
// offset of -1 means there was no match, force a null value like jq
if offset < 0 {
valueNode = createScalarNode(nil, "null")
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} else {
valueNode = createScalarNode(submatch, submatch)
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}
capturesNode.AddKeyValueChild(keyNode, valueNode)
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}
results.PushBack(capturesNode)
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}
}
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func extractMatchArguments(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (*regexp.Regexp, matchPreferences, error) {
regExExpNode := expressionNode.RHS
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matchPrefs := matchPreferences{}
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// we got given parameters e.g. match(exp; params)
if expressionNode.RHS.Operation.OperationType == blockOpType {
block := expressionNode.RHS
regExExpNode = block.LHS
replacementNodes, err := d.GetMatchingNodes(context, block.RHS)
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if err != nil {
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return nil, matchPrefs, err
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}
paramText := ""
if replacementNodes.MatchingNodes.Front() != nil {
paramText = replacementNodes.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
if strings.Contains(paramText, "g") {
paramText = strings.ReplaceAll(paramText, "g", "")
matchPrefs.Global = true
}
if strings.Contains(paramText, "i") {
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return nil, matchPrefs, fmt.Errorf(`'i' is not a valid option for match. To ignore case, use an expression like match("(?i)cat")`)
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}
if len(paramText) > 0 {
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return nil, matchPrefs, fmt.Errorf(`Unrecognised match params '%v', please see docs at https://mikefarah.gitbook.io/yq/operators/string-operators`, paramText)
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}
}
regExNodes, err := d.GetMatchingNodes(context.ReadOnlyClone(), regExExpNode)
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if err != nil {
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return nil, matchPrefs, err
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}
log.Debug(NodesToString(regExNodes.MatchingNodes))
regExStr := ""
if regExNodes.MatchingNodes.Front() != nil {
regExStr = regExNodes.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
log.Debug("regEx %v", regExStr)
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regEx, err := regexp.Compile(regExStr)
return regEx, matchPrefs, err
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}
func matchOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
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regEx, matchPrefs, err := extractMatchArguments(d, context, expressionNode)
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if err != nil {
return Context{}, err
}
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var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
if node.guessTagFromCustomType() != "!!str" {
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return Context{}, fmt.Errorf("cannot match with %v, can only match strings. Hint: Most often you'll want to use '|=' over '=' for this operation", node.Tag)
}
match(matchPrefs, regEx, node, node.Value, results)
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}
return context.ChildContext(results), nil
}
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func captureOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
regEx, matchPrefs, err := extractMatchArguments(d, context, expressionNode)
if err != nil {
return Context{}, err
}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
if node.guessTagFromCustomType() != "!!str" {
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return Context{}, fmt.Errorf("cannot match with %v, can only match strings. Hint: Most often you'll want to use '|=' over '=' for this operation", node.Tag)
}
capture(matchPrefs, regEx, node, node.Value, results)
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}
return context.ChildContext(results), nil
}
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func testOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
regEx, _, err := extractMatchArguments(d, context, expressionNode)
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if err != nil {
return Context{}, err
}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
if node.guessTagFromCustomType() != "!!str" {
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return Context{}, fmt.Errorf("cannot match with %v, can only match strings. Hint: Most often you'll want to use '|=' over '=' for this operation", node.Tag)
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}
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matches := regEx.FindStringSubmatch(node.Value)
results.PushBack(createBooleanCandidate(node, len(matches) > 0))
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}
return context.ChildContext(results), nil
}
func joinStringOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
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log.Debugf("joinStringOperator")
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joinStr := ""
rhs, err := d.GetMatchingNodes(context.ReadOnlyClone(), expressionNode.RHS)
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if err != nil {
return Context{}, err
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}
if rhs.MatchingNodes.Front() != nil {
joinStr = rhs.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
if node.Kind != SequenceNode {
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return Context{}, fmt.Errorf("cannot join with %v, can only join arrays of scalars", node.Tag)
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}
result := node.CreateReplacement(join(node.Content, joinStr))
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results.PushBack(result)
}
return context.ChildContext(results), nil
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}
func join(content []*CandidateNode, joinStr string) (Kind, string, string) {
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var stringsToJoin []string
for _, node := range content {
str := node.Value
if node.Tag == "!!null" {
str = ""
}
stringsToJoin = append(stringsToJoin, str)
}
return ScalarNode, "!!str", strings.Join(stringsToJoin, joinStr)
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}
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func splitStringOperator(d *dataTreeNavigator, context Context, expressionNode *ExpressionNode) (Context, error) {
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log.Debugf("splitStringOperator")
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splitStr := ""
rhs, err := d.GetMatchingNodes(context.ReadOnlyClone(), expressionNode.RHS)
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if err != nil {
return Context{}, err
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}
if rhs.MatchingNodes.Front() != nil {
splitStr = rhs.MatchingNodes.Front().Value.(*CandidateNode).Value
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}
var results = list.New()
for el := context.MatchingNodes.Front(); el != nil; el = el.Next() {
node := el.Value.(*CandidateNode)
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if node.Tag == "!!null" {
continue
}
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if node.guessTagFromCustomType() != "!!str" {
return Context{}, fmt.Errorf("cannot split %v, can only split strings", node.Tag)
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}
kind, tag, content := split(node.Value, splitStr)
result := node.CreateReplacement(kind, tag, "")
result.AddChildren(content)
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results.PushBack(result)
}
return context.ChildContext(results), nil
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}
func split(value string, spltStr string) (Kind, string, []*CandidateNode) {
var contents []*CandidateNode
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if value != "" {
log.Debug("going to spltStr[%v]", spltStr)
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var newStrings = strings.Split(value, spltStr)
contents = make([]*CandidateNode, len(newStrings))
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for index, str := range newStrings {
contents[index] = &CandidateNode{Kind: ScalarNode, Tag: "!!str", Value: str}
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}
}
return SequenceNode, "!!seq", contents
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}