open-vault/sdk/queue/priority_queue_test.go
2019-07-18 21:10:15 -04:00

210 lines
5.4 KiB
Go

package queue
import (
"container/heap"
"fmt"
"testing"
"time"
)
// Ensure we satisfy the heap.Interface
var _ heap.Interface = &queue{}
// some tests rely on the ordering of items from this method
func testCases() (tc []*Item) {
// create a slice of items with priority / times offest by these seconds
for i, m := range []time.Duration{
5,
183600, // 51 hours
15, // 15 seconds
45, // 45 seconds
900, // 15 minutes
300, // 5 minutes
7200, // 2 hours
183600, // 51 hours
7201, // 2 hours, 1 second
115200, // 32 hours
1209600, // 2 weeks
} {
n := time.Now()
ft := n.Add(time.Second * m)
tc = append(tc, &Item{
Key: fmt.Sprintf("item-%d", i),
Value: 1,
Priority: ft.Unix(),
})
}
return
}
func TestPriorityQueue_New(t *testing.T) {
pq := New()
if len(pq.data) != len(pq.dataMap) || len(pq.data) != 0 {
t.Fatalf("error in queue/map size, expected data and map to be initialized, got (%d) and (%d)", len(pq.data), len(pq.dataMap))
}
if pq.Len() != 0 {
t.Fatalf("expected new queue to have zero size, got (%d)", pq.Len())
}
}
func TestPriorityQueue_Push(t *testing.T) {
pq := New()
// don't allow nil pushing
if err := pq.Push(nil); err == nil {
t.Fatal("Expected error on pushing nil")
}
tc := testCases()
tcl := len(tc)
for _, i := range tc {
if err := pq.Push(i); err != nil {
t.Fatal(err)
}
}
if pq.Len() != tcl {
t.Fatalf("error adding items, expected (%d) items, got (%d)", tcl, pq.Len())
}
testValidateInternalData(t, pq, len(tc), false)
item, err := pq.Pop()
if err != nil {
t.Fatalf("error popping item: %s", err)
}
if tc[0].Priority != item.Priority {
t.Fatalf("expected tc[0] and popped item to match, got (%q) and (%q)", tc[0], item.Priority)
}
if tc[0].Key != item.Key {
t.Fatalf("expected tc[0] and popped item to match, got (%q) and (%q)", tc[0], item.Priority)
}
testValidateInternalData(t, pq, len(tc)-1, false)
// push item with no key
dErr := pq.Push(tc[1])
if dErr != ErrDuplicateItem {
t.Fatal(err)
}
// push item with no key
tc[2].Key = ""
kErr := pq.Push(tc[2])
if kErr != nil && kErr.Error() != "error adding item: Item Key is required" {
t.Fatal(kErr)
}
testValidateInternalData(t, pq, len(tc)-1, true)
// check nil,nil error for not found
i, err := pq.PopByKey("empty")
if err != nil && i != nil {
t.Fatalf("expected nil error for PopByKey of non-existing key, got: %s", err)
}
}
func TestPriorityQueue_Pop(t *testing.T) {
pq := New()
tc := testCases()
for _, i := range tc {
if err := pq.Push(i); err != nil {
t.Fatal(err)
}
}
topItem, err := pq.Pop()
if err != nil {
t.Fatalf("error calling pop: %s", err)
}
if tc[0].Priority != topItem.Priority {
t.Fatalf("expected tc[0] and popped item to match, got (%q) and (%q)", tc[0], topItem.Priority)
}
if tc[0].Key != topItem.Key {
t.Fatalf("expected tc[0] and popped item to match, got (%q) and (%q)", tc[0], topItem.Priority)
}
var items []*Item
items = append(items, topItem)
// pop the remaining items, compare size of input and output
i, _ := pq.Pop()
for ; i != nil; i, _ = pq.Pop() {
items = append(items, i)
}
if len(items) != len(tc) {
t.Fatalf("expected popped item count to match test cases, got (%d)", len(items))
}
}
func TestPriorityQueue_PopByKey(t *testing.T) {
pq := New()
tc := testCases()
for _, i := range tc {
if err := pq.Push(i); err != nil {
t.Fatal(err)
}
}
// grab the top priority item, to capture it's value for checking later
item, _ := pq.Pop()
oldPriority := item.Priority
oldKey := item.Key
// push the item back on, so it gets removed with PopByKey and we verify
// the top item has changed later
err := pq.Push(item)
if err != nil {
t.Fatalf("error re-pushing top item: %s", err)
}
popKeys := []int{2, 4, 7, 1, 0}
for _, i := range popKeys {
item, err := pq.PopByKey(fmt.Sprintf("item-%d", i))
if err != nil {
t.Fatalf("failed to pop item-%d, \n\terr: %s\n\titem: %#v", i, err, item)
}
}
testValidateInternalData(t, pq, len(tc)-len(popKeys), false)
// grab the top priority item again, to compare with the top item priority
// from above
item, _ = pq.Pop()
newPriority := item.Priority
newKey := item.Key
if oldPriority == newPriority || oldKey == newKey {
t.Fatalf("expected old/new key and priority to differ, got (%s/%s) and (%d/%d)", oldKey, newKey, oldPriority, newPriority)
}
testValidateInternalData(t, pq, len(tc)-len(popKeys)-1, true)
}
// testValidateInternalData checks the internal data structure of the PriorityQueue
// and verifies that items are in-sync. Use drain only at the end of a test,
// because it will mutate the input queue
func testValidateInternalData(t *testing.T, pq *PriorityQueue, expectedSize int, drain bool) {
actualSize := pq.Len()
if actualSize != expectedSize {
t.Fatalf("expected new queue size to be (%d), got (%d)", expectedSize, actualSize)
}
if len(pq.data) != len(pq.dataMap) || len(pq.data) != expectedSize {
t.Fatalf("error in queue/map size, expected data and map to be (%d), got (%d) and (%d)", expectedSize, len(pq.data), len(pq.dataMap))
}
if drain && pq.Len() > 0 {
// pop all the items, verify lengths
i, _ := pq.Pop()
for ; i != nil; i, _ = pq.Pop() {
expectedSize--
if len(pq.data) != len(pq.dataMap) || len(pq.data) != expectedSize {
t.Fatalf("error in queue/map size, expected data and map to be (%d), got (%d) and (%d)", expectedSize, len(pq.data), len(pq.dataMap))
}
}
}
}