// Copyright (c) 2015, Emir Pasic. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package treemap import ( "fmt" "testing" "github.com/emirpasic/gods/trees/avltree" ) func TestMapPut(t *testing.T) { m := NewWithIntComparator() m.Put(5, "e") m.Put(6, "f") m.Put(7, "g") m.Put(3, "c") m.Put(4, "d") m.Put(1, "x") m.Put(2, "b") m.Put(1, "a") //overwrite if actualValue := m.Size(); actualValue != 7 { t.Errorf("Got %v expected %v", actualValue, 7) } if actualValue, expectedValue := m.Keys(), []interface{}{1, 2, 3, 4, 5, 6, 7}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue, expectedValue := m.Values(), []interface{}{"a", "b", "c", "d", "e", "f", "g"}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } // key,expectedValue,expectedFound tests1 := [][]interface{}{ {1, "a", true}, {2, "b", true}, {3, "c", true}, {4, "d", true}, {5, "e", true}, {6, "f", true}, {7, "g", true}, {8, nil, false}, } for _, test := range tests1 { // retrievals actualValue, actualFound := m.Get(test[0]) if actualValue != test[1] || actualFound != test[2] { t.Errorf("Got %v expected %v", actualValue, test[1]) } } } func TestMapAVLPut(t *testing.T) { m := NewWithTree(avltree.NewWithIntComparator()) m.Put(5, "e") m.Put(6, "f") m.Put(7, "g") m.Put(3, "c") m.Put(4, "d") m.Put(1, "x") m.Put(2, "b") m.Put(1, "a") //overwrite if actualValue := m.Size(); actualValue != 7 { t.Errorf("Got %v expected %v", actualValue, 7) } if actualValue, expectedValue := m.Keys(), []interface{}{1, 2, 3, 4, 5, 6, 7}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue, expectedValue := m.Values(), []interface{}{"a", "b", "c", "d", "e", "f", "g"}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } // key,expectedValue,expectedFound tests1 := [][]interface{}{ {1, "a", true}, {2, "b", true}, {3, "c", true}, {4, "d", true}, {5, "e", true}, {6, "f", true}, {7, "g", true}, {8, nil, false}, } for _, test := range tests1 { // retrievals actualValue, actualFound := m.Get(test[0]) if actualValue != test[1] || actualFound != test[2] { t.Errorf("Got %v expected %v", actualValue, test[1]) } } } func TestMapRemove(t *testing.T) { m := NewWithIntComparator() m.Put(5, "e") m.Put(6, "f") m.Put(7, "g") m.Put(3, "c") m.Put(4, "d") m.Put(1, "x") m.Put(2, "b") m.Put(1, "a") //overwrite m.Remove(5) m.Remove(6) m.Remove(7) m.Remove(8) m.Remove(5) if actualValue, expectedValue := m.Keys(), []interface{}{1, 2, 3, 4}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue, expectedValue := m.Values(), []interface{}{"a", "b", "c", "d"}; !sameElements(actualValue, expectedValue) { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue := m.Size(); actualValue != 4 { t.Errorf("Got %v expected %v", actualValue, 4) } tests2 := [][]interface{}{ {1, "a", true}, {2, "b", true}, {3, "c", true}, {4, "d", true}, {5, nil, false}, {6, nil, false}, {7, nil, false}, {8, nil, false}, } for _, test := range tests2 { actualValue, actualFound := m.Get(test[0]) if actualValue != test[1] || actualFound != test[2] { t.Errorf("Got %v expected %v", actualValue, test[1]) } } m.Remove(1) m.Remove(4) m.Remove(2) m.Remove(3) m.Remove(2) m.Remove(2) if actualValue, expectedValue := fmt.Sprintf("%s", m.Keys()), "[]"; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue, expectedValue := fmt.Sprintf("%s", m.Values()), "[]"; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if actualValue := m.Size(); actualValue != 0 { t.Errorf("Got %v expected %v", actualValue, 0) } if actualValue := m.Empty(); actualValue != true { t.Errorf("Got %v expected %v", actualValue, true) } } func sameElements(a []interface{}, b []interface{}) bool { if len(a) != len(b) { return false } for _, av := range a { found := false for _, bv := range b { if av == bv { found = true break } } if !found { return false } } return true } func TestMapEach(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) count := 0 m.Each(func(key interface{}, value interface{}) { count++ if actualValue, expectedValue := count, value; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } switch value { case 1: if actualValue, expectedValue := key, "a"; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case 2: if actualValue, expectedValue := key, "b"; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case 3: if actualValue, expectedValue := key, "c"; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } default: t.Errorf("Too many") } }) } func TestMapMap(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) mappedMap := m.Map(func(key1 interface{}, value1 interface{}) (key2 interface{}, value2 interface{}) { return key1, value1.(int) * value1.(int) }) if actualValue, _ := mappedMap.Get("a"); actualValue != 1 { t.Errorf("Got %v expected %v", actualValue, "mapped: a") } if actualValue, _ := mappedMap.Get("b"); actualValue != 4 { t.Errorf("Got %v expected %v", actualValue, "mapped: b") } if actualValue, _ := mappedMap.Get("c"); actualValue != 9 { t.Errorf("Got %v expected %v", actualValue, "mapped: c") } if mappedMap.Size() != 3 { t.Errorf("Got %v expected %v", mappedMap.Size(), 3) } } func TestMapSelect(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) selectedMap := m.Select(func(key interface{}, value interface{}) bool { return key.(string) >= "a" && key.(string) <= "b" }) if actualValue, _ := selectedMap.Get("a"); actualValue != 1 { t.Errorf("Got %v expected %v", actualValue, "value: a") } if actualValue, _ := selectedMap.Get("b"); actualValue != 2 { t.Errorf("Got %v expected %v", actualValue, "value: b") } if selectedMap.Size() != 2 { t.Errorf("Got %v expected %v", selectedMap.Size(), 2) } } func TestMapAny(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) any := m.Any(func(key interface{}, value interface{}) bool { return value.(int) == 3 }) if any != true { t.Errorf("Got %v expected %v", any, true) } any = m.Any(func(key interface{}, value interface{}) bool { return value.(int) == 4 }) if any != false { t.Errorf("Got %v expected %v", any, false) } } func TestMapAll(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) all := m.All(func(key interface{}, value interface{}) bool { return key.(string) >= "a" && key.(string) <= "c" }) if all != true { t.Errorf("Got %v expected %v", all, true) } all = m.All(func(key interface{}, value interface{}) bool { return key.(string) >= "a" && key.(string) <= "b" }) if all != false { t.Errorf("Got %v expected %v", all, false) } } func TestMapFind(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) foundKey, foundValue := m.Find(func(key interface{}, value interface{}) bool { return key.(string) == "c" }) if foundKey != "c" || foundValue != 3 { t.Errorf("Got %v -> %v expected %v -> %v", foundKey, foundValue, "c", 3) } foundKey, foundValue = m.Find(func(key interface{}, value interface{}) bool { return key.(string) == "x" }) if foundKey != nil || foundValue != nil { t.Errorf("Got %v at %v expected %v at %v", foundValue, foundKey, nil, nil) } } func TestMapChaining(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) chainedMap := m.Select(func(key interface{}, value interface{}) bool { return value.(int) > 1 }).Map(func(key interface{}, value interface{}) (interface{}, interface{}) { return key.(string) + key.(string), value.(int) * value.(int) }) if actualValue := chainedMap.Size(); actualValue != 2 { t.Errorf("Got %v expected %v", actualValue, 2) } if actualValue, found := chainedMap.Get("aa"); actualValue != nil || found { t.Errorf("Got %v expected %v", actualValue, nil) } if actualValue, found := chainedMap.Get("bb"); actualValue != 4 || !found { t.Errorf("Got %v expected %v", actualValue, 4) } if actualValue, found := chainedMap.Get("cc"); actualValue != 9 || !found { t.Errorf("Got %v expected %v", actualValue, 9) } } func TestMapIteratorNextOnEmpty(t *testing.T) { m := NewWithStringComparator() it := m.Iterator() it = m.Iterator() for it.Next() { t.Errorf("Shouldn't iterate on empty map") } } func TestMapIteratorPrevOnEmpty(t *testing.T) { m := NewWithStringComparator() it := m.Iterator() it = m.Iterator() for it.Prev() { t.Errorf("Shouldn't iterate on empty map") } } func TestMapIteratorNext(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) it := m.Iterator() count := 0 for it.Next() { count++ key := it.Key() value := it.Value() switch key { case "a": if actualValue, expectedValue := value, 1; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case "b": if actualValue, expectedValue := value, 2; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case "c": if actualValue, expectedValue := value, 3; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } default: t.Errorf("Too many") } if actualValue, expectedValue := value, count; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } } if actualValue, expectedValue := count, 3; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } } func TestMapIteratorPrev(t *testing.T) { m := NewWithStringComparator() m.Put("c", 3) m.Put("a", 1) m.Put("b", 2) it := m.Iterator() for it.Next() { } countDown := m.Size() for it.Prev() { key := it.Key() value := it.Value() switch key { case "a": if actualValue, expectedValue := value, 1; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case "b": if actualValue, expectedValue := value, 2; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } case "c": if actualValue, expectedValue := value, 3; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } default: t.Errorf("Too many") } if actualValue, expectedValue := value, countDown; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } countDown-- } if actualValue, expectedValue := countDown, 0; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } } func TestMapIteratorBegin(t *testing.T) { m := NewWithIntComparator() it := m.Iterator() it.Begin() m.Put(3, "c") m.Put(1, "a") m.Put(2, "b") for it.Next() { } it.Begin() it.Next() if key, value := it.Key(), it.Value(); key != 1 || value != "a" { t.Errorf("Got %v,%v expected %v,%v", key, value, 1, "a") } } func TestMapTreeIteratorEnd(t *testing.T) { m := NewWithIntComparator() it := m.Iterator() m.Put(3, "c") m.Put(1, "a") m.Put(2, "b") it.End() it.Prev() if key, value := it.Key(), it.Value(); key != 3 || value != "c" { t.Errorf("Got %v,%v expected %v,%v", key, value, 3, "c") } } func TestMapIteratorFirst(t *testing.T) { m := NewWithIntComparator() m.Put(3, "c") m.Put(1, "a") m.Put(2, "b") it := m.Iterator() if actualValue, expectedValue := it.First(), true; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if key, value := it.Key(), it.Value(); key != 1 || value != "a" { t.Errorf("Got %v,%v expected %v,%v", key, value, 1, "a") } } func TestMapIteratorLast(t *testing.T) { m := NewWithIntComparator() m.Put(3, "c") m.Put(1, "a") m.Put(2, "b") it := m.Iterator() if actualValue, expectedValue := it.Last(), true; actualValue != expectedValue { t.Errorf("Got %v expected %v", actualValue, expectedValue) } if key, value := it.Key(), it.Value(); key != 3 || value != "c" { t.Errorf("Got %v,%v expected %v,%v", key, value, 3, "c") } } func benchmarkGet(b *testing.B, m *Map, size int) { for i := 0; i < b.N; i++ { for n := 0; n < size; n++ { m.Get(n) } } } func benchmarkPut(b *testing.B, m *Map, size int) { for i := 0; i < b.N; i++ { for n := 0; n < size; n++ { m.Put(n, struct{}{}) } } } func benchmarkRemove(b *testing.B, m *Map, size int) { for i := 0; i < b.N; i++ { for n := 0; n < size; n++ { m.Remove(n) } } } func BenchmarkTreeMapGet100(b *testing.B) { b.StopTimer() size := 100 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkGet(b, m, size) } func BenchmarkTreeMapGet1000(b *testing.B) { b.StopTimer() size := 1000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkGet(b, m, size) } func BenchmarkTreeMapGet10000(b *testing.B) { b.StopTimer() size := 10000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkGet(b, m, size) } func BenchmarkTreeMapGet100000(b *testing.B) { b.StopTimer() size := 100000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkGet(b, m, size) } func BenchmarkTreeMapPut100(b *testing.B) { b.StopTimer() size := 100 m := NewWithIntComparator() b.StartTimer() benchmarkPut(b, m, size) } func BenchmarkTreeMapPut1000(b *testing.B) { b.StopTimer() size := 1000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkPut(b, m, size) } func BenchmarkTreeMapPut10000(b *testing.B) { b.StopTimer() size := 10000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkPut(b, m, size) } func BenchmarkTreeMapPut100000(b *testing.B) { b.StopTimer() size := 100000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkPut(b, m, size) } func BenchmarkTreeMapRemove100(b *testing.B) { b.StopTimer() size := 100 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkRemove(b, m, size) } func BenchmarkTreeMapRemove1000(b *testing.B) { b.StopTimer() size := 1000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkRemove(b, m, size) } func BenchmarkTreeMapRemove10000(b *testing.B) { b.StopTimer() size := 10000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkRemove(b, m, size) } func BenchmarkTreeMapRemove100000(b *testing.B) { b.StopTimer() size := 100000 m := NewWithIntComparator() for n := 0; n < size; n++ { m.Put(n, struct{}{}) } b.StartTimer() benchmarkRemove(b, m, size) }