package glob import ( "errors" "fmt" ) type node interface { children() []node append(node) } type nodeImpl struct { desc []node } func (n *nodeImpl) append(c node) { n.desc = append(n.desc, c) } func (n *nodeImpl) children() []node { return n.desc } type nodeList struct { nodeImpl not bool chars string } type nodeRange struct { nodeImpl not bool lo, hi rune } type nodeText struct { nodeImpl text string } type nodePattern struct{ nodeImpl } type nodeAny struct{ nodeImpl } type nodeSuper struct{ nodeImpl } type nodeSingle struct{ nodeImpl } type nodeAnyOf struct{ nodeImpl } type tree struct { root node current node path []node } func (t *tree) enter(c node) { if t.root == nil { t.root = c t.current = c return } t.current.append(c) t.path = append(t.path, c) t.current = c } func (t *tree) leave() { if len(t.path)-1 <= 0 { t.current = t.root t.path = nil return } t.path = t.path[:len(t.path)-1] t.current = t.path[len(t.path)-1] } type parseFn func(*tree, *lexer) (parseFn, error) func parse(lexer *lexer) (*nodePattern, error) { var parser parseFn root := &nodePattern{} tree := &tree{} tree.enter(root) for parser = parserMain; ; { next, err := parser(tree, lexer) if err != nil { return nil, err } if next == nil { break } parser = next } return root, nil } func parserMain(tree *tree, lexer *lexer) (parseFn, error) { for stop := false; !stop; { item := lexer.nextItem() switch item.t { case item_eof: stop = true continue case item_error: return nil, errors.New(item.s) case item_text: tree.current.append(&nodeText{text: item.s}) return parserMain, nil case item_any: tree.current.append(&nodeAny{}) return parserMain, nil case item_super: tree.current.append(&nodeSuper{}) return parserMain, nil case item_single: tree.current.append(&nodeSingle{}) return parserMain, nil case item_range_open: return parserRange, nil case item_terms_open: tree.enter(&nodeAnyOf{}) tree.enter(&nodePattern{}) return parserMain, nil case item_separator: tree.leave() tree.enter(&nodePattern{}) return parserMain, nil case item_terms_close: tree.leave() tree.leave() return parserMain, nil default: return nil, fmt.Errorf("unexpected token: %s", item) } } return nil, nil } func parserRange(tree *tree, lexer *lexer) (parseFn, error) { var ( not bool lo rune hi rune chars string ) for { item := lexer.nextItem() switch item.t { case item_eof: return nil, errors.New("unexpected end") case item_error: return nil, errors.New(item.s) case item_not: not = true case item_range_lo: r := []rune(item.s) if len(r) != 1 { return nil, fmt.Errorf("unexpected length of lo character") } lo = r[0] case item_range_between: // case item_range_hi: r := []rune(item.s) if len(r) != 1 { return nil, fmt.Errorf("unexpected length of hi character") } hi = r[0] if hi < lo { return nil, fmt.Errorf("hi character '%s' should be greater than lo '%s'", string(hi), string(lo)) } case item_text: chars = item.s case item_range_close: isRange := lo != 0 && hi != 0 isChars := chars != "" if isChars == isRange { return nil, fmt.Errorf("could not parse range") } if isRange { tree.current.append(&nodeRange{ lo: lo, hi: hi, not: not, }) } else { tree.current.append(&nodeList{ chars: chars, not: not, }) } return parserMain, nil } } }