VictoriaMetrics/lib/uint64set/uint64set_test.go
Aliaksandr Valialkin ca259864e2 lib/storage: return back inmemory inverted index for recent hour
Issues fixed:
- Slow startup times. Now the index is loaded from cache during start.
- High memory usage related to superflouos index copies every 10 seconds.
2019-11-13 13:11:04 +02:00

386 lines
9.6 KiB
Go

package uint64set
import (
"fmt"
"math/rand"
"reflect"
"sort"
"testing"
"time"
)
func TestSetBasicOps(t *testing.T) {
for _, itemsCount := range []int{1, 2, 3, 4, 5, 6, 1e2, 1e3, 1e4, 1e5, 1e6, maxUnsortedBuckets * bitsPerBucket * 2} {
t.Run(fmt.Sprintf("items_%d", itemsCount), func(t *testing.T) {
testSetBasicOps(t, itemsCount)
})
}
}
func testSetBasicOps(t *testing.T, itemsCount int) {
var s Set
offset := uint64(time.Now().UnixNano())
// Verify operations on nil set
{
var sNil *Set
if n := sNil.SizeBytes(); n != 0 {
t.Fatalf("sNil.SizeBytes must return 0; got %d", n)
}
if sNil.Has(123) {
t.Fatalf("sNil shouldn't contain any item; found 123")
}
if n := sNil.Len(); n != 0 {
t.Fatalf("unexpected sNil.Len(); got %d; want 0", n)
}
result := sNil.AppendTo(nil)
if result != nil {
t.Fatalf("sNil.AppendTo(nil) must return nil")
}
buf := []uint64{1, 2, 3}
result = sNil.AppendTo(buf)
if !reflect.DeepEqual(result, buf) {
t.Fatalf("sNil.AppendTo(buf) must return buf")
}
sCopy := sNil.Clone()
if n := sCopy.Len(); n != 0 {
t.Fatalf("unexpected sCopy.Len() from nil set; got %d; want 0", n)
}
sCopy.Add(123)
if n := sCopy.Len(); n != 1 {
t.Fatalf("unexpected sCopy.Len() after adding an item; got %d; want 1", n)
}
sCopy.Add(123)
if n := sCopy.Len(); n != 1 {
t.Fatalf("unexpected sCopy.Len() after adding an item twice; got %d; want 1", n)
}
if !sCopy.Has(123) {
t.Fatalf("sCopy must contain 123")
}
sCopy.Del(123)
if n := sCopy.Len(); n != 0 {
t.Fatalf("unexpected sCopy.Len() after deleting the item; got %d; want 0", n)
}
sCopy.Del(123)
if n := sCopy.Len(); n != 0 {
t.Fatalf("unexpected sCopy.Len() after double deleting the item; got %d; want 0", n)
}
}
// Verify forward Add
itemsCount = (itemsCount / 2) * 2
for i := 0; i < itemsCount/2; i++ {
s.Add(uint64(i) + offset)
}
if n := s.Len(); n != itemsCount/2 {
t.Fatalf("unexpected s.Len() after forward Add; got %d; want %d", n, itemsCount/2)
}
if n := s.SizeBytes(); n == 0 {
t.Fatalf("s.SizeBytes() must be greater than 0")
}
// Verify backward Add
for i := 0; i < itemsCount/2; i++ {
s.Add(uint64(itemsCount-i-1) + offset)
}
if n := s.Len(); n != itemsCount {
t.Fatalf("unexpected s.Len() after backward Add; got %d; want %d", n, itemsCount)
}
// Verify repeated Add
for i := 0; i < itemsCount/2; i++ {
s.Add(uint64(i) + offset)
}
if n := s.Len(); n != itemsCount {
t.Fatalf("unexpected s.Len() after repeated Add; got %d; want %d", n, itemsCount)
}
// Verify Has on existing bits
for i := 0; i < itemsCount; i++ {
if !s.Has(uint64(i) + offset) {
t.Fatalf("missing bit %d", uint64(i)+offset)
}
}
// Verify Has on missing bits
for i := itemsCount; i < 2*itemsCount; i++ {
if s.Has(uint64(i) + offset) {
t.Fatalf("unexpected bit found: %d", uint64(i)+offset)
}
}
// Verify Clone and Equal
sCopy := s.Clone()
if n := sCopy.Len(); n != itemsCount {
t.Fatalf("unexpected sCopy.Len(); got %d; want %d", n, itemsCount)
}
for i := 0; i < itemsCount; i++ {
if !sCopy.Has(uint64(i) + offset) {
t.Fatalf("missing bit %d on sCopy", uint64(i)+offset)
}
}
if !sCopy.Equal(&s) {
t.Fatalf("s must equal to sCopy")
}
if !s.Equal(sCopy) {
t.Fatalf("sCopy must equal to s")
}
if s.Len() > 0 {
var sEmpty Set
if s.Equal(&sEmpty) {
t.Fatalf("s mustn't equal to sEmpty")
}
sNew := s.Clone()
sNew.Del(offset)
if sNew.Equal(&s) {
t.Fatalf("sNew mustn't equal to s")
}
if s.Equal(sNew) {
t.Fatalf("s mustn't equal to sNew")
}
sNew.Add(offset - 123)
if sNew.Equal(&s) {
t.Fatalf("sNew mustn't equal to s")
}
if s.Equal(sNew) {
t.Fatalf("s mustn't equal to sNew")
}
}
// Verify AppendTo
a := s.AppendTo(nil)
if len(a) != itemsCount {
t.Fatalf("unexpected len of exported array; got %d; want %d; array:\n%d", len(a), itemsCount, a)
}
if !sort.SliceIsSorted(a, func(i, j int) bool { return a[i] < a[j] }) {
t.Fatalf("unsorted result returned from AppendTo: %d", a)
}
m := make(map[uint64]bool)
for _, x := range a {
m[x] = true
}
for i := 0; i < itemsCount; i++ {
if !m[uint64(i)+offset] {
t.Fatalf("missing bit %d in the exported bits; array:\n%d", uint64(i)+offset, a)
}
}
// Verify union
{
const unionOffset = 12345
var s1, s2 Set
for i := 0; i < itemsCount; i++ {
s1.Add(uint64(i) + offset)
s2.Add(uint64(i) + offset + unionOffset)
}
s1.Union(&s2)
expectedLen := 2 * itemsCount
if itemsCount > unionOffset {
expectedLen = itemsCount + unionOffset
}
if n := s1.Len(); n != expectedLen {
t.Fatalf("unexpected s1.Len() after union; got %d; want %d", n, expectedLen)
}
// Verify union on empty set.
var s3 Set
s3.Union(&s1)
expectedLen = s1.Len()
if n := s3.Len(); n != expectedLen {
t.Fatalf("unexpected s3.Len() after union with empty set; got %d; want %d", n, expectedLen)
}
}
// Verify intersect
{
const intersectOffset = 12345
var s1, s2 Set
for i := 0; i < itemsCount; i++ {
s1.Add(uint64(i) + offset)
s2.Add(uint64(i) + offset + intersectOffset)
}
s1.Intersect(&s2)
expectedLen := 0
if itemsCount > intersectOffset {
expectedLen = itemsCount - intersectOffset
}
if n := s1.Len(); n != expectedLen {
t.Fatalf("unexpected s1.Len() after intersect; got %d; want %d", n, expectedLen)
}
// Verify intersect on empty set.
var s3 Set
s2.Intersect(&s3)
expectedLen = 0
if n := s2.Len(); n != 0 {
t.Fatalf("unexpected s3.Len() after intersect with empty set; got %d; want %d", n, expectedLen)
}
}
// Verify subtract
{
const subtractOffset = 12345
var s1, s2 Set
for i := 0; i < itemsCount; i++ {
s1.Add(uint64(i) + offset)
s2.Add(uint64(i) + offset + subtractOffset)
}
s1.Subtract(&s2)
expectedLen := itemsCount
if itemsCount > subtractOffset {
expectedLen = subtractOffset
}
if n := s1.Len(); n != expectedLen {
t.Fatalf("unexpected s1.Len() after subtract; got %d; want %d", n, expectedLen)
}
// Verify subtract from empty set.
var s3 Set
s3.Subtract(&s2)
expectedLen = 0
if n := s3.Len(); n != 0 {
t.Fatalf("unexpected s3.Len() after subtract from empty set; got %d; want %d", n, expectedLen)
}
}
// Verify Del
itemsDeleted := 0
for i := itemsCount / 2; i < itemsCount-itemsCount/4; i++ {
s.Del(uint64(i) + offset)
itemsDeleted++
}
if n := s.Len(); n != itemsCount-itemsDeleted {
t.Fatalf("unexpected s.Len() after Del; got %d; want %d", n, itemsCount-itemsDeleted)
}
a = s.AppendTo(a[:0])
if len(a) != itemsCount-itemsDeleted {
t.Fatalf("unexpected len of exported array; got %d; want %d", len(a), itemsCount-itemsDeleted)
}
m = make(map[uint64]bool)
for _, x := range a {
m[x] = true
}
for i := 0; i < itemsCount; i++ {
if i >= itemsCount/2 && i < itemsCount-itemsCount/4 {
if m[uint64(i)+offset] {
t.Fatalf("unexpected bit found after deleting: %d", uint64(i)+offset)
}
} else {
if !m[uint64(i)+offset] {
t.Fatalf("missing bit %d in the exported bits after deleting", uint64(i)+offset)
}
}
}
// Try Del for non-existing items
for i := itemsCount / 2; i < itemsCount-itemsCount/4; i++ {
s.Del(uint64(i) + offset)
s.Del(uint64(i) + offset)
s.Del(uint64(i) + offset + uint64(itemsCount))
}
if n := s.Len(); n != itemsCount-itemsDeleted {
t.Fatalf("unexpected s.Len() after Del for non-existing items; got %d; want %d", n, itemsCount-itemsDeleted)
}
// Verify sCopy has the original data
if n := sCopy.Len(); n != itemsCount {
t.Fatalf("unexpected sCopy.Len(); got %d; want %d", n, itemsCount)
}
for i := 0; i < itemsCount; i++ {
if !sCopy.Has(uint64(i) + offset) {
t.Fatalf("missing bit %d on sCopy", uint64(i)+offset)
}
}
}
func TestSetSparseItems(t *testing.T) {
for _, itemsCount := range []int{1e2, 1e3, 1e4} {
t.Run(fmt.Sprintf("items_%d", itemsCount), func(t *testing.T) {
testSetSparseItems(t, itemsCount)
})
}
}
func testSetSparseItems(t *testing.T, itemsCount int) {
var s Set
m := make(map[uint64]bool)
for i := 0; i < itemsCount; i++ {
x := rand.Uint64()
s.Add(x)
m[x] = true
}
if n := s.Len(); n != len(m) {
t.Fatalf("unexpected Len(); got %d; want %d", n, len(m))
}
if n := s.SizeBytes(); n == 0 {
t.Fatalf("SizeBytes() must return value greater than 0")
}
// Check Has
for x := range m {
if !s.Has(x) {
t.Fatalf("missing item %d", x)
}
}
for i := 0; i < itemsCount; i++ {
x := uint64(i)
if m[x] {
continue
}
if s.Has(x) {
t.Fatalf("unexpected item found %d", x)
}
}
// Check Clone
sCopy := s.Clone()
if n := sCopy.Len(); n != len(m) {
t.Fatalf("unexpected sCopy.Len(); got %d; want %d", n, len(m))
}
for x := range m {
if !sCopy.Has(x) {
t.Fatalf("missing item %d on sCopy", x)
}
}
// Check AppendTo
a := s.AppendTo(nil)
if len(a) != len(m) {
t.Fatalf("unexpected len for AppendTo result; got %d; want %d", len(a), len(m))
}
if !sort.SliceIsSorted(a, func(i, j int) bool { return a[i] < a[j] }) {
t.Fatalf("unsorted result returned from AppendTo: %d", a)
}
for _, x := range a {
if !m[x] {
t.Fatalf("unexpected item found in AppendTo result: %d", x)
}
}
// Check Del
for x := range m {
s.Del(x)
s.Del(x)
s.Del(x + 1)
s.Del(x - 1)
}
if n := s.Len(); n != 0 {
t.Fatalf("unexpected number of items left after Del; got %d; want 0", n)
}
a = s.AppendTo(a[:0])
if len(a) != 0 {
t.Fatalf("unexpected number of items returned from AppendTo after Del; got %d; want 0; items\n%d", len(a), a)
}
// Check items in sCopy
if n := sCopy.Len(); n != len(m) {
t.Fatalf("unexpected sCopy.Len() after Del; got %d; want %d", n, len(m))
}
for x := range m {
if !sCopy.Has(x) {
t.Fatalf("missing item %d on sCopy after Del", x)
}
}
}