package yqlib import ( "container/list" "io" "os" yaml "gopkg.in/yaml.v3" ) type StreamEvaluator interface { Evaluate(filename string, reader io.Reader, node *PathTreeNode, printer Printer) error EvaluateFiles(expression string, filenames []string, printer Printer) error EvaluateNew(expression string, printer Printer) error } type streamEvaluator struct { treeNavigator DataTreeNavigator treeCreator PathTreeCreator fileIndex int } func NewStreamEvaluator() StreamEvaluator { return &streamEvaluator{treeNavigator: NewDataTreeNavigator(), treeCreator: NewPathTreeCreator()} } func (s *streamEvaluator) EvaluateNew(expression string, printer Printer) error { node, err := treeCreator.ParsePath(expression) if err != nil { return err } candidateNode := &CandidateNode{ Document: 0, Filename: "", Node: &yaml.Node{Tag: "!!null"}, FileIndex: 0, } inputList := list.New() inputList.PushBack(candidateNode) matches, errorParsing := treeNavigator.GetMatchingNodes(inputList, node) if errorParsing != nil { return errorParsing } return printer.PrintResults(matches) } func (s *streamEvaluator) EvaluateFiles(expression string, filenames []string, printer Printer) error { node, err := treeCreator.ParsePath(expression) if err != nil { return err } for _, filename := range filenames { reader, err := readStream(filename) if err != nil { return err } err = s.Evaluate(filename, reader, node, printer) if err != nil { return err } switch reader := reader.(type) { case *os.File: safelyCloseFile(reader) } } return nil } func (s *streamEvaluator) Evaluate(filename string, reader io.Reader, node *PathTreeNode, printer Printer) error { var currentIndex uint decoder := yaml.NewDecoder(reader) for { var dataBucket yaml.Node errorReading := decoder.Decode(&dataBucket) if errorReading == io.EOF { s.fileIndex = s.fileIndex + 1 return nil } else if errorReading != nil { return errorReading } candidateNode := &CandidateNode{ Document: currentIndex, Filename: filename, Node: &dataBucket, FileIndex: s.fileIndex, } inputList := list.New() inputList.PushBack(candidateNode) matches, errorParsing := treeNavigator.GetMatchingNodes(inputList, node) if errorParsing != nil { return errorParsing } err := printer.PrintResults(matches) if err != nil { return err } currentIndex = currentIndex + 1 } }