package eval import ( "context" "errors" "fmt" "os" "strings" "unicode" "src.elv.sh/pkg/eval/vals" "src.elv.sh/pkg/glob" "src.elv.sh/pkg/parse" ) // An ephemeral value generated when evaluating tilde and wildcards. type globPattern struct { glob.Pattern Flags globFlag Buts []string TypeCb func(os.FileMode) bool } type globFlag uint var typeCbMap = map[string]func(os.FileMode) bool{ "dir": os.FileMode.IsDir, "regular": os.FileMode.IsRegular, } const ( // noMatchOK indicates that the "nomatch-ok" glob index modifier was // present. noMatchOK globFlag = 1 << iota ) func (f globFlag) Has(g globFlag) bool { return (f & g) == g } var _ vals.ErrIndexer = globPattern{} var ( ErrMustFollowWildcard = errors.New("must follow wildcard") ErrModifierMustBeString = errors.New("modifier must be string") ErrWildcardNoMatch = errors.New("wildcard has no match") ErrMultipleTypeModifiers = errors.New("only one type modifier allowed") ErrUnknownTypeModifier = errors.New("unknown type modifier") ) var runeMatchers = map[string]func(rune) bool{ "control": unicode.IsControl, "digit": unicode.IsDigit, "graphic": unicode.IsGraphic, "letter": unicode.IsLetter, "lower": unicode.IsDigit, "mark": unicode.IsMark, "number": unicode.IsNumber, "print": unicode.IsPrint, "punct": unicode.IsPunct, "space": unicode.IsSpace, "symbol": unicode.IsSymbol, "title": unicode.IsTitle, "upper": unicode.IsUpper, } func (gp globPattern) Kind() string { return "glob-pattern" } func (gp globPattern) Index(k any) (any, error) { modifierv, ok := k.(string) if !ok { return nil, ErrModifierMustBeString } modifier := modifierv switch { case modifier == "nomatch-ok": gp.Flags |= noMatchOK case strings.HasPrefix(modifier, "but:"): gp.Buts = append(gp.Buts, modifier[len("but:"):]) case modifier == "match-hidden": lastSeg, err := gp.lastWildSeg() if err != nil { return nil, err } gp.Segments[len(gp.Segments)-1] = glob.Wild{ Type: lastSeg.Type, MatchHidden: true, Matchers: lastSeg.Matchers, } case strings.HasPrefix(modifier, "type:"): if gp.TypeCb != nil { return nil, ErrMultipleTypeModifiers } typeName := modifier[len("type:"):] cb, ok := typeCbMap[typeName] if !ok { return nil, ErrUnknownTypeModifier } gp.TypeCb = cb default: var matcher func(rune) bool if m, ok := runeMatchers[modifier]; ok { matcher = m } else if strings.HasPrefix(modifier, "set:") { set := modifier[len("set:"):] matcher = func(r rune) bool { return strings.ContainsRune(set, r) } } else if strings.HasPrefix(modifier, "range:") { rangeExpr := modifier[len("range:"):] badRangeExpr := fmt.Errorf("bad range modifier: %s", parse.Quote(rangeExpr)) runes := []rune(rangeExpr) if len(runes) != 3 { return nil, badRangeExpr } from, sep, to := runes[0], runes[1], runes[2] switch sep { case '-': matcher = func(r rune) bool { return from <= r && r <= to } case '~': matcher = func(r rune) bool { return from <= r && r < to } default: return nil, badRangeExpr } } else { return nil, fmt.Errorf("unknown modifier %s", vals.ReprPlain(modifierv)) } err := gp.addMatcher(matcher) return gp, err } return gp, nil } func (gp globPattern) Concat(v any) (any, error) { switch rhs := v.(type) { case string: var segs []glob.Segment segs = append(segs, gp.Segments...) segs = append(segs, stringToSegments(rhs)...) return globPattern{Pattern: glob.Pattern{Segments: segs}, Flags: gp.Flags, Buts: gp.Buts, TypeCb: gp.TypeCb}, nil case globPattern: // We know rhs contains exactly one segment. gp.append(rhs.Segments[0]) gp.Flags |= rhs.Flags gp.Buts = append(gp.Buts, rhs.Buts...) // This handles illegal cases such as `**[type:regular]x*[type:directory]`. if gp.TypeCb != nil && rhs.TypeCb != nil { return nil, ErrMultipleTypeModifiers } if rhs.TypeCb != nil { gp.TypeCb = rhs.TypeCb } return gp, nil } return nil, vals.ErrConcatNotImplemented } func (gp globPattern) RConcat(v any) (any, error) { switch lhs := v.(type) { case string: segs := stringToSegments(lhs) // We know gp contains exactly one segment. segs = append(segs, gp.Segments[0]) return globPattern{Pattern: glob.Pattern{Segments: segs}, Flags: gp.Flags, Buts: gp.Buts, TypeCb: gp.TypeCb}, nil } return nil, vals.ErrConcatNotImplemented } func (gp *globPattern) lastWildSeg() (glob.Wild, error) { if len(gp.Segments) == 0 { return glob.Wild{}, ErrBadglobPattern } if !glob.IsWild(gp.Segments[len(gp.Segments)-1]) { return glob.Wild{}, ErrMustFollowWildcard } return gp.Segments[len(gp.Segments)-1].(glob.Wild), nil } func (gp *globPattern) addMatcher(matcher func(rune) bool) error { lastSeg, err := gp.lastWildSeg() if err != nil { return err } gp.Segments[len(gp.Segments)-1] = glob.Wild{ Type: lastSeg.Type, MatchHidden: lastSeg.MatchHidden, Matchers: append(lastSeg.Matchers, matcher), } return nil } func (gp *globPattern) append(segs ...glob.Segment) { gp.Segments = append(gp.Segments, segs...) } func wildcardToSegment(s string) (glob.Segment, error) { switch s { case "*": return glob.Wild{Type: glob.Star, MatchHidden: false, Matchers: nil}, nil case "**": return glob.Wild{Type: glob.StarStar, MatchHidden: false, Matchers: nil}, nil case "?": return glob.Wild{Type: glob.Question, MatchHidden: false, Matchers: nil}, nil default: return nil, fmt.Errorf("bad wildcard: %q", s) } } func stringToSegments(s string) []glob.Segment { segs := []glob.Segment{} for i := 0; i < len(s); { j := i for ; j < len(s) && s[j] != '/'; j++ { } if j > i { segs = append(segs, glob.Literal{Data: s[i:j]}) } if j < len(s) { for ; j < len(s) && s[j] == '/'; j++ { } segs = append(segs, glob.Slash{}) i = j } else { break } } return segs } func doGlob(ctx context.Context, gp globPattern) ([]any, error) { but := make(map[string]struct{}) for _, s := range gp.Buts { but[s] = struct{}{} } vs := make([]any, 0) if !gp.Glob(func(pathInfo glob.PathInfo) bool { select { case <-ctx.Done(): logger.Println("glob aborted") return false default: } if _, ignore := but[pathInfo.Path]; ignore { return true } if gp.TypeCb == nil || gp.TypeCb(pathInfo.Info.Mode()) { vs = append(vs, pathInfo.Path) } return true }) { return nil, ErrInterrupted } if len(vs) == 0 && !gp.Flags.Has(noMatchOK) { return nil, ErrWildcardNoMatch } return vs, nil }