package set import ( "sort" "strings" ) // Set implements basic string set operations, not thread-safe. type Set map[string]struct{} // New creates a new set. func New() Set { var s = make(Set) return s } // FromSlice initializes a set from a slice. func FromSlice(vs []string) Set { s := New() for _, v := range vs { s.Add(v) } return s } // Clear removes all elements. func (s Set) Clear() { for k := range s { delete(s, k) } } // Add adds an element. func (s Set) Add(v string) Set { s[v] = struct{}{} return s } // Len returns number of elements in set. func (s Set) Len() int { return len(s) } // IsEmpty returns if set has zero elements. func (s Set) IsEmpty() bool { return s.Len() == 0 } // Equals returns true, if sets contain the same elements. func (s Set) Equals(t Set) bool { for k := range s { if !t.Contains(k) { return false } } return s.Len() == t.Len() } // Contains returns membership status. func (s Set) Contains(v string) bool { _, ok := (s)[v] return ok } // Intersection returns a new set containing all elements found in both sets. func (s Set) Intersection(t Set) Set { u := New() for k := range s { if t.Contains(k) { u.Add(k) } } return u } // Union returns the union of two sets. func (s Set) Union(t Set) Set { u := New() for k := range s { u.Add(k) } for k := range t { u.Add(k) } return u } // Slice returns all elements as a slice. func (s Set) Slice() (result []string) { for k := range s { result = append(result, k) } return } // Sorted returns all elements as a slice, sorted. func (s Set) Sorted() (result []string) { for k := range s { result = append(result, k) } sort.Strings(result) return } // TopK returns at most k sorted elements. func (s Set) TopK(k int) Set { var top []string for i, v := range s.Sorted() { if i < k { top = append(top, v) } } return FromSlice(top) } // Product returns a slice of pairs, representing the cartesian product of two sets. func (s Set) Product(t Set) (result [][]string) { for k := range s { for l := range t { result = append(result, []string{k, l}) } } return } // Jaccard returns the jaccard index of sets s and t, between 0 and 1, where 1 // means equality. func (s Set) Jaccard(t Set) float64 { if s.IsEmpty() && t.IsEmpty() { return 1 } if u := s.Union(t); u.IsEmpty() { return 0 } else { return float64(s.Intersection(t).Len()) / float64(u.Len()) } } // Join joins elements from a set with given separator. func (s Set) Join(sep string) string { return strings.Join(s.Slice(), sep) } // Max returns the size of the largest set. func Max(ss ...Set) (max int) { for _, s := range ss { if s.Len() > max { max = s.Len() } } return } // Min returns the size of the smallest set. func Min(ss ...Set) (min int) { min = 2 << 30 for _, s := range ss { if s.Len() < min { min = s.Len() } } return } // Filter returns a set containing all elements, which satisfy a given predicate. func Filter(s Set, f func(string) bool) Set { t := New() for v := range s { if f(v) { t.Add(v) } } return t }