// Copyright 2017 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package sets import ( "sort" "testing" ) func checkSameIntSet(t *testing.T, set *IntSet, unique []int) { // Check that lengths are the same. want := len(unique) got := set.Len() if got != want { t.Errorf("NewIntSet(%v) want length %v, got %v", unique, want, got) } // Check that all ints are present in set. for _, s := range unique { want := true got := set.Contains(s) if got != want { t.Errorf("Contains(%v) want %v, got %v", s, want, got) } } // Check that all elements are present in ints. sort.Ints(unique) for i, got := range set.Sorted() { want := unique[i] if got != want { t.Errorf("Sorted(%d) want %v, got %v", i, want, got) } } } type enumTest int const ( et0 enumTest = iota et1 et2 et3 et4 ) func TestNewIntSet(t *testing.T) { empty := NewIntSet() want := 0 got := empty.Len() if got != want { t.Errorf("NewIntSet() want length %v, got %v", want, got) } unique := []int{0, 1, 2} set := NewIntSet(unique...) checkSameIntSet(t, set, unique) // Append an already-present element. nonUnique := append(unique, unique[0]) set = NewIntSet(nonUnique...) // Non-unique unique should collapse to one. want = len(unique) got = set.Len() if got != want { t.Errorf("NewIntSet(%v) want length %v, got %v", nonUnique, want, got) } // Initialize with enum values cast to int. set = NewIntSet(int(et0), int(et1), int(et2)) checkSameIntSet(t, set, unique) } func TestIntSet_Copy(t *testing.T) { // Check both copies represent the same set. base := []int{1, 2, 3} orig := NewIntSet(base...) cpy := orig.Copy() checkSameIntSet(t, orig, base) checkSameIntSet(t, cpy, base) // Check the two copies are independent. more := []int{4} orig.Insert(more...) more = append(base, more...) checkSameIntSet(t, orig, more) checkSameIntSet(t, cpy, base) } func TestIntSet_Insert(t *testing.T) { unique := []int{0, 1, 2} set := NewIntSet(unique...) // Insert existing element, which should basically be a no-op. set.Insert(unique[0]) checkSameIntSet(t, set, unique) // Actually insert new unique elements (cast from enum values this time). additional := []int{int(et3), int(et4)} longer := append(unique, additional...) set.Insert(additional...) checkSameIntSet(t, set, longer) } func TestIntSet_Delete(t *testing.T) { unique := []int{0, 1, 2} set := NewIntSet(unique...) // Delete non-existent element, which should basically be a no-op. set.Delete(int(et4)) checkSameIntSet(t, set, unique) // Actually delete existing elements. set.Delete(unique[1:]...) checkSameIntSet(t, set, unique[:1]) } func TestIntSet_Intersect(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} // Check Intersect(nil) returns an empty set. setA := NewIntSet(input1...) got := setA.Intersect(nil) checkSameIntSet(t, got, []int{}) // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check Intersect returns the correct result. setB := NewIntSet(input2...) got = setA.Intersect(setB) want := []int{3, 5} checkSameIntSet(t, got, want) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) // Reverse the inputs and verify Intersect produces the same results. setA = NewIntSet(input2...) setB = NewIntSet(input1...) got = setA.Intersect(setB) checkSameIntSet(t, got, want) // Check the sources are again unchanged. checkSameIntSet(t, setA, input2) checkSameIntSet(t, setB, input1) } func TestIntSet_Disjoint(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} input3 := []int{98, 99, 100} // Check that sets are always disjoint with the empty set or nil setA := NewIntSet(input1...) emptySet := NewIntSet() if disjoint := setA.Disjoint(nil); !disjoint { t.Errorf("Disjoint(%s, %v) want %v, got %v", setA, nil, true, disjoint) } if disjoint := setA.Disjoint(emptySet); !disjoint { t.Errorf("Disjoint(%s, %s) want %v, got %v", setA, emptySet, true, disjoint) } if disjoint := emptySet.Disjoint(setA); !disjoint { t.Errorf("Disjoint(%s, %s) want %v, got %v", emptySet, setA, true, disjoint) } if disjoint := emptySet.Disjoint(emptySet); !disjoint { t.Errorf("Disjoint(%s, %s) want %v, got %v", emptySet, emptySet, true, disjoint) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, emptySet, []int{}) // Check two non-empty, non-nil disjoint sets. setC := NewIntSet(input3...) if disjoint := setA.Disjoint(setC); !disjoint { t.Errorf("Disjoint(%s, %s) want %v, got %v", setA, setC, true, disjoint) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setC, input3) // Check that two intersecting sets are not Disjoint. setB := NewIntSet(input2...) if disjoint := setA.Disjoint(setB); disjoint { t.Errorf("Disjoint(%s, %s) want %v, got %v", setA, setB, false, disjoint) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) } func TestIntSet_Difference(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} input3 := []int{98, 99, 100} // Check Difference(nil) returns a copy of the receiver. setA := NewIntSet(input1...) got := setA.Difference(nil) checkSameIntSet(t, got, input1) // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check A - A returns the empty set. got = setA.Difference(setA) if !got.Empty() { t.Errorf("Difference(%s, %s).Empty() want %v, got %v", setA, setA, true, false) } checkSameIntSet(t, got, []int{}) // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check A - C simply returns elements in A if A and C are disjoint. setC := NewIntSet(input3...) got = setA.Difference(setC) checkSameIntSet(t, got, input1) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setC, input3) // Check A - B returns elements in A not in B. setB := NewIntSet(input2...) got = setA.Difference(setB) want := []int{1, 4, 6} checkSameIntSet(t, got, want) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) // Check B - A returns elements in B not in A. got = setB.Difference(setA) want = []int{2} checkSameIntSet(t, got, want) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) } func TestIntSet_Unique(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} input3 := []int{98, 99, 100} // Check Unique(nil) returns a copy of the receiver. setA := NewIntSet(input1...) got := setA.Unique(nil) checkSameIntSet(t, got, input1) // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check Unique returns only elements in A and B not in both A and B. setB := NewIntSet(input2...) got = setA.Unique(setB) want := []int{1, 2, 4, 6} checkSameIntSet(t, got, want) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) // Check Unique of two disjoint sets is the Union of those sets. setC := NewIntSet(input3...) got = setA.Unique(setC) union := setA.Union(setC) if equal := union.Equal(got); !equal { t.Errorf("Union of disjoint Equal(%s, %s) want %v, got %v", union, got, true, equal) } // Check Unique is the Union of A - B and B - A. aNotInB := setA.Difference(setB) bNotInA := setB.Difference(setA) union = aNotInB.Union(bNotInA) want = []int{1, 2, 4, 6} checkSameIntSet(t, union, want) got = setA.Unique(setB) if equal := union.Equal(got); !equal { t.Errorf("Union of differences Equal(%s, %s) want %v, got %v", union, got, true, equal) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) } func TestIntSet_Equal(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} input3 := []int{1, 3, 4, 5, 7} // Check Equal(nil) returns false. setA := NewIntSet(input1...) if equal := setA.Equal(nil); equal { t.Errorf("Equal(%s, %v) want %v, got %v", setA, nil, false, true) } // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check Equal returns true for a set and itself. if equal := setA.Equal(setA); !equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, setA, true, false) } // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check Equal returns false for sets of non-equal length. setB := NewIntSet(input2...) if equal := setA.Equal(setB); equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, setB, false, true) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) // Check Equal returns false for equal-length sets with different elements. setC := NewIntSet(input3...) if equal := setA.Equal(setC); equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, setC, false, true) } if equal := setC.Equal(setA); equal { t.Errorf("Equal(%s, %s) want %v, got %v", setC, setA, false, true) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setC, input3) // Check Equal returns true for a set with itself. if equal := setA.Equal(setA); !equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, setA, true, false) } // Also check the source is unchanged. checkSameIntSet(t, setA, input1) // Check Equal returns true for two separate equal sets. anotherA := NewIntSet(input1...) if equal := setA.Equal(anotherA); !equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, anotherA, true, false) } // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, anotherA, input1) // Check for equality comparing to nil struct. var nilSet *IntSet if equal := nilSet.Equal(setA); equal { t.Errorf("Equal(%s, %s) want %v, got %v", nilSet, setA, false, true) } if equal := setA.Equal(nilSet); equal { t.Errorf("Equal(%s, %s) want %v, got %v", setA, nilSet, false, true) } if equal := nilSet.Equal(nilSet); !equal { t.Errorf("Equal(%s, %s) want %v, got %v", nilSet, nilSet, true, false) } // Edge case: consider the empty set to be different than the nil set. emptySet := NewIntSet() if equal := nilSet.Equal(emptySet); equal { t.Errorf("Equal(%s, %s) want %v, got %v", nilSet, emptySet, false, true) } if equal := emptySet.Equal(nilSet); equal { t.Errorf("Equal(%s, %s) want %v, got %v", emptySet, nilSet, false, true) } if equal := emptySet.Equal(emptySet); !equal { t.Errorf("Equal(%s, %s) want %v, got %v", emptySet, emptySet, true, false) } } func TestIntSet_Union(t *testing.T) { input1 := []int{1, 3, 4, 5, 6} input2 := []int{2, 3, 5} // Check Union(nil) returns a copy of the receiver. setA := NewIntSet(input1...) got := setA.Union(nil) checkSameIntSet(t, got, input1) // Check that the receiver is unchanged. checkSameIntSet(t, setA, input1) // Check Union returns the correct result. setB := NewIntSet(input2...) got = setA.Union(setB) want := []int{1, 2, 3, 4, 5, 6} checkSameIntSet(t, got, want) // Also check the sources are unchanged. checkSameIntSet(t, setA, input1) checkSameIntSet(t, setB, input2) // Reverse the inputs and verify Union produces the same results. setA = NewIntSet(input2...) setB = NewIntSet(input1...) got = setA.Union(setB) checkSameIntSet(t, got, want) // Check the sources are again unchanged. checkSameIntSet(t, setA, input2) checkSameIntSet(t, setB, input1) }