package yqlib import ( "strconv" "strings" ) type PathParser interface { ParsePath(path string) []string MatchesNextPathElement(nodeContext NodeContext, nodeKey string) bool IsPathExpression(pathElement string) bool } type pathParser struct{} func NewPathParser() PathParser { return &pathParser{} } func matchesString(expression string, value string) bool { var prefixMatch = strings.TrimSuffix(expression, "*") if prefixMatch != expression { log.Debug("prefix match, %v", strings.HasPrefix(value, prefixMatch)) return strings.HasPrefix(value, prefixMatch) } return value == expression } func (p *pathParser) IsPathExpression(pathElement string) bool { return pathElement == "*" || pathElement == "**" || strings.Contains(pathElement, "==") } /** * node: node that we may traverse/visit * head: path element expression to match against * tail: remaining path element expressions * pathStack: stack of actual paths we've matched to get to node * nodeKey: actual value of this nodes 'key' or index. */ func (p *pathParser) MatchesNextPathElement(nodeContext NodeContext, nodeKey string) bool { head := nodeContext.Head if head == "**" || head == "*" { return true } if strings.Contains(head, "==") { log.Debug("ooh deep recursion time") result := strings.SplitN(head, "==", 2) path := strings.TrimSpace(result[0]) value := strings.TrimSpace(result[1]) log.Debug("path %v", path) log.Debug("value %v", value) DebugNode(nodeContext.Node) navigationStrategy := FilterMatchingNodesNavigationStrategy(value) navigator := NewDataNavigator(navigationStrategy) err := navigator.Traverse(nodeContext.Node, p.ParsePath(path)) if err != nil { log.Error(err.Error()) } //crap handle error log.Debug("done deep recursing, found %v matches", len(navigationStrategy.GetVisitedNodes())) return len(navigationStrategy.GetVisitedNodes()) > 0 } if head == "+" { log.Debug("head is +, nodeKey is %v", nodeKey) var _, err = strconv.ParseInt(nodeKey, 10, 64) // nolint if err == nil { return true } } return matchesString(head, nodeKey) } func (p *pathParser) ParsePath(path string) []string { if path == "" { return []string{} } return p.parsePathAccum([]string{}, path) } func (p *pathParser) parsePathAccum(paths []string, remaining string) []string { head, tail := p.nextYamlPath(remaining) if tail == "" { return append(paths, head) } return p.parsePathAccum(append(paths, head), tail) } func (p *pathParser) nextYamlPath(path string) (pathElement string, remaining string) { switch path[0] { case '[': // e.g [0].blah.cat -> we need to return "0" and "blah.cat" return p.search(path[1:], []uint8{']'}, true) case '"': // e.g "a.b".blah.cat -> we need to return "a.b" and "blah.cat" return p.search(path[1:], []uint8{'"'}, true) case '(': // e.g "a.b".blah.cat -> we need to return "a.b" and "blah.cat" return p.search(path[1:], []uint8{')'}, true) default: // e.g "a.blah.cat" -> return "a" and "blah.cat" return p.search(path[0:], []uint8{'.', '[', '"', '('}, false) } } func (p *pathParser) search(path string, matchingChars []uint8, skipNext bool) (pathElement string, remaining string) { for i := 0; i < len(path); i++ { var char = path[i] if p.contains(matchingChars, char) { var remainingStart = i + 1 if skipNext { remainingStart = remainingStart + 1 } else if !skipNext && char != '.' { remainingStart = i } if remainingStart > len(path) { remainingStart = len(path) } return path[0:i], path[remainingStart:] } } return path, "" } func (p *pathParser) contains(matchingChars []uint8, candidate uint8) bool { for _, a := range matchingChars { if a == candidate { return true } } return false }