package avlkeydup import ( "bytes" "encoding/gob" "io/ioutil" "log" "testing" "474420502.top/eson/structure/compare" "github.com/Pallinder/go-randomdata" "github.com/davecgh/go-spew/spew" "github.com/emirpasic/gods/trees/avltree" "github.com/emirpasic/gods/trees/redblacktree" ) func loadTestData() []int { data, err := ioutil.ReadFile("../l.log") if err != nil { log.Println(err) } var l []int decoder := gob.NewDecoder(bytes.NewReader(data)) decoder.Decode(&l) return l } func TestIterator(t *testing.T) { tree := New(compare.Int) for _, v := range []int{1, 2, 7, 4, 5, 6, 7, 14, 15, 20, 30, 21, 3} { // t.Error(v) tree.Put(v, v) } // ` AVLTree // │ ┌── 30 // │ │ └── 21 // │ ┌── 20 // │ │ └── 15 // └── 14 // │ ┌── 7 // │ ┌── 7 // │ │ └── 6 // └── 5 // │ ┌── 4 // │ │ └── 3 // └── 2 // └── 1` iter := tree.Iterator() // root start point l := []int{14, 15, 20, 21, 30} for i := 0; iter.Next(); i++ { if iter.Value().(int) != l[i] { t.Error("iter Next error", iter.Value(), l[i]) } } iter.Next() if iter.Value().(int) != 30 { t.Error("Next == false", iter.Value(), iter.Next(), iter.Value()) } l = []int{21, 20, 15, 14, 7, 7, 6, 5, 4, 3, 2, 1} for i := 0; iter.Prev(); i++ { // cur is 30 next is 21 if iter.Value().(int) != l[i] { t.Error(iter.Value()) } } if iter.Prev() != false { t.Error("Prev is error, cur is tail, val = 1 Prev return false") } if iter.Value().(int) != 1 { // cur is 1 t.Error("next == false", iter.Value(), iter.Prev(), iter.Value()) } if iter.Next() != true && iter.Value().(int) != 2 { t.Error("next to prev is error") } } func TestGetRange(t *testing.T) { tree := New(compare.Int) for _, v := range []int{5, 6, 8, 10, 13, 17, 1, 2, 40, 30} { tree.Put(v, v) } // t.Error(tree.debugString()) // t.Error(tree.getArountNode(20)) // t.Error(tree.Values()) result := tree.GetRange(0, 20) if spew.Sprint(result) != "[1 2 5 6 8 10 13 17]" { t.Error(result) } result = tree.GetRange(-5, -1) if spew.Sprint(result) != "[]" { t.Error(result) } result = tree.GetRange(7, 20) if spew.Sprint(result) != "[8 10 13 17]" { t.Error(result) } result = tree.GetRange(30, 40) if spew.Sprint(result) != "[30 40]" { t.Error(result) } result = tree.GetRange(30, 60) if spew.Sprint(result) != "[30 40]" { t.Error(result) } result = tree.GetRange(40, 40) if spew.Sprint(result) != "[40]" { t.Error(result) } result = tree.GetRange(50, 60) if spew.Sprint(result) != "[]" { t.Error(result) } result = tree.GetRange(50, 1) if spew.Sprint(result) != "[40 30 17 13 10 8 6 5 2 1]" { t.Error(result) } result = tree.GetRange(30, 20) if spew.Sprint(result) != "[30]" { t.Error(result) } } func TestGetAround(t *testing.T) { tree := New(compare.Int) for _, v := range []int{7, 14, 14, 14, 16, 17, 20, 30, 21, 40, 50, 3, 40, 40, 40, 15} { tree.Put(v, v) } var Result string Result = spew.Sprint(tree.GetAround(14)) if Result != "[7 14 14]" { t.Error(tree.Values()) t.Error("14 is root, tree.GetAround(14)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(17)) if Result != "[16 17 20]" { t.Error(tree.Values()) t.Error("tree.GetAround(17)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(3)) if Result != "[ 3 7]" { t.Error(tree.Values()) t.Error("tree.GetAround(3)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(40)) if Result != "[30 40 40]" { t.Error(tree.Values()) t.Error("tree.GetAround(40)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(50)) if Result != "[40 50 ]" { t.Error(tree.Values()) t.Error("tree.GetAround(50)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(18)) if Result != "[17 20]" { t.Error(tree.Values()) t.Error("18 is not in list, tree.GetAround(18)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(5)) if Result != "[3 7]" { t.Error(tree.Values()) t.Error("5 is not in list, tree.GetAround(5)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(2)) if Result != "[ 3]" { t.Error(tree.Values()) t.Error("2 is not in list, tree.GetAround(2)) is error", Result) t.Error(tree.debugString()) } Result = spew.Sprint(tree.GetAround(100)) if Result != "[50 ]" { t.Error(tree.Values()) t.Error("50 is not in list, tree.GetAround(50)) is error", Result) t.Error(tree.debugString()) } } // for test error case func TestPutStable(t *testing.T) { // f, _ := os.OpenFile("./test.log", os.O_CREATE|os.O_TRUNC|os.O_RDWR, 0666) // log.SetOutput(f) // 0-1 3 | 2-3 7-8 | 4-7 12-16 | 8-15 20-32 | 16-31 33-58 l := []int{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 18, 19, 20, 21, 22, 30, 41, 41, 41} // tree := New(compare.Int) // for i := 0; i < 10; i++ { // tree.Put(randomdata.Number(0, 100)) // } // t.Error(tree.debugString()) // t.Error(tree.debugString(), tree.TraversalBreadth(), "\n", "-----------") } func TestPutComparatorRandom(t *testing.T) { for n := 0; n < 300000; n++ { tree := New(compare.Int) godsavl := avltree.NewWithIntComparator() content := "" m := make(map[int]int) for i := 0; len(m) < 10; i++ { v := randomdata.Number(0, 65535) if _, ok := m[v]; !ok { m[v] = v content += spew.Sprint(v) + "," tree.Put(v, v) godsavl.Put(v, v) } } if tree.String() != godsavl.String() { t.Error(godsavl.String()) t.Error(tree.debugString()) t.Error(content, n) break } } } func TestGet(t *testing.T) { tree := New(compare.Int) for _, v := range []int{2383, 7666, 3055, 39016, 57092, 27897, 36513, 1562, 22574, 23202} { tree.Put(v, v) } result := ` │ ┌── 57092 │ ┌── 39016 │ │ └── 36513 │ ┌── 27897 │ │ │ ┌── 23202 │ │ └── 22574 └── 7666 │ ┌── 3055 └── 2383 └── 1562 ` s1 := tree.String() s2 := "AVLTree" + result if s1 != s2 { t.Error(s1, s2) } for _, v := range []int{2383, 7666, 3055, 39016, 57092, 27897, 36513, 1562, 22574, 23202} { v, ok := tree.Get(v) if !ok { t.Error("the val not found ", v) } } if v, ok := tree.Get(10000); ok { t.Error("the val(10000) is not in tree, but is found", v) } } func TestRemoveAll(t *testing.T) { ALL: for c := 0; c < 50000; c++ { tree := New(compare.Int) gods := avltree.NewWithIntComparator() var l []int m := make(map[int]int) for i := 0; len(l) < 50; i++ { v := randomdata.Number(0, 100000) if _, ok := m[v]; !ok { m[v] = v l = append(l, v) tree.Put(v, v) gods.Put(v, v) } } for i := 0; i < 50; i++ { tree.Remove(l[i]) gods.Remove(l[i]) s1 := spew.Sprint(tree.Values()) s2 := spew.Sprint(gods.Values()) if s1 != s2 { t.Error("avl remove error", "avlsize = ", tree.Size()) t.Error(s1) t.Error(s2) break ALL } } } } func TestRemove(t *testing.T) { ALL: for N := 0; N < 500000; N++ { tree := New(compare.Int) gods := avltree.NewWithIntComparator() var l []int m := make(map[int]int) for i := 0; len(l) < 10; i++ { v := randomdata.Number(0, 100) if _, ok := m[v]; !ok { l = append(l, v) m[v] = v tree.Put(v, v) gods.Put(v, v) } } src1 := tree.String() src2 := gods.String() for i := 0; i < 10; i++ { tree.Remove(l[i]) gods.Remove(l[i]) if spew.Sprint(gods.Values()) != spew.Sprint(tree.Values()) && tree.size != 0 { // if gods.String() != tree.String() && gods.Size() != 0 && tree.size != 0 { t.Error(src1) t.Error(src2) t.Error(tree.debugString()) t.Error(gods.String()) t.Error(l[i]) // t.Error(tree.TraversalDepth(-1)) // t.Error(gods.Values()) break ALL } } } } func BenchmarkIterator(b *testing.B) { tree := New(compare.Int) l := loadTestData() for _, v := range l { tree.Put(v, v) } b.ResetTimer() b.StartTimer() b.N = 0 iter := tree.Iterator() for iter.Next() { b.N++ } for iter.Prev() { b.N++ } for iter.Next() { b.N++ } for iter.Prev() { b.N++ } } func BenchmarkRemove(b *testing.B) { tree := New(compare.Int) l := loadTestData() b.N = len(l) for _, v := range l { tree.Put(v, v) } b.ResetTimer() b.StartTimer() for i := 0; i < len(l); i++ { tree.Remove(l[i]) } } func BenchmarkGodsRemove(b *testing.B) { tree := avltree.NewWithIntComparator() l := loadTestData() b.N = len(l) for _, v := range l { tree.Put(v, v) } b.ResetTimer() b.StartTimer() for i := 0; i < len(l); i++ { tree.Remove(l[i]) } } func BenchmarkGodsRBRemove(b *testing.B) { tree := redblacktree.NewWithIntComparator() l := loadTestData() b.N = len(l) for _, v := range l { tree.Put(v, v) } b.ResetTimer() b.StartTimer() for i := 0; i < len(l); i++ { tree.Remove(l[i]) } } func BenchmarkGet(b *testing.B) { tree := New(compare.Int) l := loadTestData() b.N = len(l) for i := 0; i < b.N; i++ { tree.Put(l[i], l[i]) } b.ResetTimer() b.StartTimer() execCount := 10 b.N = len(l) * execCount for i := 0; i < execCount; i++ { for _, v := range l { tree.Get(v) } } } func BenchmarkGodsRBGet(b *testing.B) { tree := redblacktree.NewWithIntComparator() l := loadTestData() b.N = len(l) for i := 0; i < b.N; i++ { tree.Put(l[i], l[i]) } b.ResetTimer() b.StartTimer() execCount := 10 b.N = len(l) * execCount for i := 0; i < execCount; i++ { for _, v := range l { tree.Get(v) } } } func BenchmarkGodsAvlGet(b *testing.B) { tree := avltree.NewWithIntComparator() l := loadTestData() b.N = len(l) for i := 0; i < b.N; i++ { tree.Put(l[i], l[i]) } b.ResetTimer() b.StartTimer() execCount := 10 b.N = len(l) * execCount for i := 0; i < execCount; i++ { for _, v := range l { tree.Get(v) } } } func BenchmarkPut(b *testing.B) { l := loadTestData() b.ResetTimer() b.StartTimer() execCount := 10 b.N = len(l) * execCount for i := 0; i < execCount; i++ { tree := New(compare.Int) for _, v := range l { tree.Put(v, v) } } // b.Log(tree.count) } func BenchmarkGodsRBPut(b *testing.B) { tree := redblacktree.NewWithIntComparator() l := loadTestData() b.ResetTimer() b.StartTimer() b.N = len(l) for _, v := range l { tree.Put(v, v) } } func BenchmarkGodsPut(b *testing.B) { tree := avltree.NewWithIntComparator() l := loadTestData() b.ResetTimer() b.StartTimer() b.N = len(l) for _, v := range l { tree.Put(v, v) } }