package match import ( "fmt" "strings" ) type Kind int // todo use String for Kind, and self.Kind() in every matcher.String() const ( KindRaw Kind = iota KindEveryOf KindAnyOf KindAny KindSuper KindSingle KindComposition KindPrefix KindSuffix KindPrefixSuffix KindRange KindList KindMin KindMax KindBTree KindContains ) type Matcher interface { Match(string) bool Index(string) (int, []int) Len() int String() string } type Matchers []Matcher func (m Matchers) String() string { var s []string for _, matcher := range m { s = append(s, fmt.Sprint(matcher)) } return fmt.Sprintf("%s", strings.Join(s, ",")) } func appendIfNotAsPrevious(target []int, val int) []int { l := len(target) if l != 0 && target[l-1] == val { return target } return append(target, val) } // mergeSegments merges and sorts given already SORTED and UNIQUE segments. func mergeSegments(segments [][]int) []int { var current []int for _, s := range segments { if current == nil { current = s continue } var next []int for x, y := 0, 0; x < len(current) || y < len(s); { if x >= len(current) { next = append(next, s[y:]...) break } if y >= len(s) { next = append(next, current[x:]...) break } xValue := current[x] yValue := s[y] switch { case xValue == yValue: x++ y++ next = appendIfNotAsPrevious(next, xValue) case xValue < yValue: next = appendIfNotAsPrevious(next, xValue) x++ case yValue < xValue: next = appendIfNotAsPrevious(next, yValue) y++ } } current = next } return current }