// run // Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package main import ( "fmt" "sort" ) // _Equal reports whether two slices are equal: the same length and all // elements equal. All floating point NaNs are considered equal. func _SliceEqual[Elem comparable](s1, s2 []Elem) bool { if len(s1) != len(s2) { return false } for i, v1 := range s1 { v2 := s2[i] if v1 != v2 { isNaN := func(f Elem) bool { return f != f } if !isNaN(v1) || !isNaN(v2) { return false } } } return true } // A _Set is a set of elements of some type. type _Set[Elem comparable] struct { m map[Elem]struct{} } // _Make makes a new set. func _Make[Elem comparable]() _Set[Elem] { return _Set[Elem]{m: make(map[Elem]struct{})} } // Add adds an element to a set. func (s _Set[Elem]) Add(v Elem) { s.m[v] = struct{}{} } // Delete removes an element from a set. If the element is not present // in the set, this does nothing. func (s _Set[Elem]) Delete(v Elem) { delete(s.m, v) } // Contains reports whether v is in the set. func (s _Set[Elem]) Contains(v Elem) bool { _, ok := s.m[v] return ok } // Len returns the number of elements in the set. func (s _Set[Elem]) Len() int { return len(s.m) } // Values returns the values in the set. // The values will be in an indeterminate order. func (s _Set[Elem]) Values() []Elem { r := make([]Elem, 0, len(s.m)) for v := range s.m { r = append(r, v) } return r } // _Equal reports whether two sets contain the same elements. func _Equal[Elem comparable](s1, s2 _Set[Elem]) bool { if len(s1.m) != len(s2.m) { return false } for v1 := range s1.m { if !s2.Contains(v1) { return false } } return true } // Copy returns a copy of s. func (s _Set[Elem]) Copy() _Set[Elem] { r := _Set[Elem]{m: make(map[Elem]struct{}, len(s.m))} for v := range s.m { r.m[v] = struct{}{} } return r } // AddSet adds all the elements of s2 to s. func (s _Set[Elem]) AddSet(s2 _Set[Elem]) { for v := range s2.m { s.m[v] = struct{}{} } } // SubSet removes all elements in s2 from s. // Values in s2 that are not in s are ignored. func (s _Set[Elem]) SubSet(s2 _Set[Elem]) { for v := range s2.m { delete(s.m, v) } } // Intersect removes all elements from s that are not present in s2. // Values in s2 that are not in s are ignored. func (s _Set[Elem]) Intersect(s2 _Set[Elem]) { for v := range s.m { if !s2.Contains(v) { delete(s.m, v) } } } // Iterate calls f on every element in the set. func (s _Set[Elem]) Iterate(f func(Elem)) { for v := range s.m { f(v) } } // Filter deletes any elements from s for which f returns false. func (s _Set[Elem]) Filter(f func(Elem) bool) { for v := range s.m { if !f(v) { delete(s.m, v) } } } func TestSet() { s1 := _Make[int]() if got := s1.Len(); got != 0 { panic(fmt.Sprintf("Len of empty set = %d, want 0", got)) } s1.Add(1) s1.Add(1) s1.Add(1) if got := s1.Len(); got != 1 { panic(fmt.Sprintf("(%v).Len() == %d, want 1", s1, got)) } s1.Add(2) s1.Add(3) s1.Add(4) if got := s1.Len(); got != 4 { panic(fmt.Sprintf("(%v).Len() == %d, want 4", s1, got)) } if !s1.Contains(1) { panic(fmt.Sprintf("(%v).Contains(1) == false, want true", s1)) } if s1.Contains(5) { panic(fmt.Sprintf("(%v).Contains(5) == true, want false", s1)) } vals := s1.Values() sort.Ints(vals) w1 := []int{1, 2, 3, 4} if !_SliceEqual(vals, w1) { panic(fmt.Sprintf("(%v).Values() == %v, want %v", s1, vals, w1)) } } func TestEqual() { s1 := _Make[string]() s2 := _Make[string]() if !_Equal(s1, s2) { panic(fmt.Sprintf("_Equal(%v, %v) = false, want true", s1, s2)) } s1.Add("hello") s1.Add("world") if got := s1.Len(); got != 2 { panic(fmt.Sprintf("(%v).Len() == %d, want 2", s1, got)) } if _Equal(s1, s2) { panic(fmt.Sprintf("_Equal(%v, %v) = true, want false", s1, s2)) } } func TestCopy() { s1 := _Make[float64]() s1.Add(0) s2 := s1.Copy() if !_Equal(s1, s2) { panic(fmt.Sprintf("_Equal(%v, %v) = false, want true", s1, s2)) } s1.Add(1) if _Equal(s1, s2) { panic(fmt.Sprintf("_Equal(%v, %v) = true, want false", s1, s2)) } } func TestAddSet() { s1 := _Make[int]() s1.Add(1) s1.Add(2) s2 := _Make[int]() s2.Add(2) s2.Add(3) s1.AddSet(s2) if got := s1.Len(); got != 3 { panic(fmt.Sprintf("(%v).Len() == %d, want 3", s1, got)) } s2.Add(1) if !_Equal(s1, s2) { panic(fmt.Sprintf("_Equal(%v, %v) = false, want true", s1, s2)) } } func TestSubSet() { s1 := _Make[int]() s1.Add(1) s1.Add(2) s2 := _Make[int]() s2.Add(2) s2.Add(3) s1.SubSet(s2) if got := s1.Len(); got != 1 { panic(fmt.Sprintf("(%v).Len() == %d, want 1", s1, got)) } if vals, want := s1.Values(), []int{1}; !_SliceEqual(vals, want) { panic(fmt.Sprintf("after SubSet got %v, want %v", vals, want)) } } func TestIntersect() { s1 := _Make[int]() s1.Add(1) s1.Add(2) s2 := _Make[int]() s2.Add(2) s2.Add(3) s1.Intersect(s2) if got := s1.Len(); got != 1 { panic(fmt.Sprintf("(%v).Len() == %d, want 1", s1, got)) } if vals, want := s1.Values(), []int{2}; !_SliceEqual(vals, want) { panic(fmt.Sprintf("after Intersect got %v, want %v", vals, want)) } } func TestIterate() { s1 := _Make[int]() s1.Add(1) s1.Add(2) s1.Add(3) s1.Add(4) tot := 0 s1.Iterate(func(i int) { tot += i }) if tot != 10 { panic(fmt.Sprintf("total of %v == %d, want 10", s1, tot)) } } func TestFilter() { s1 := _Make[int]() s1.Add(1) s1.Add(2) s1.Add(3) s1.Filter(func(v int) bool { return v%2 == 0 }) if vals, want := s1.Values(), []int{2}; !_SliceEqual(vals, want) { panic(fmt.Sprintf("after Filter got %v, want %v", vals, want)) } } func main() { TestSet() TestEqual() TestCopy() TestAddSet() TestSubSet() TestIntersect() TestIterate() TestFilter() }