package cache import ( "bytes" "io/ioutil" "runtime" "strconv" "sync" "testing" "time" ) type TestStruct struct { Num int Children []*TestStruct } func TestCache(t *testing.T) { tc := New(DefaultExpiration, 0) a, found := tc.Get("a") if found || a != nil { t.Error("Getting A found value that shouldn't exist:", a) } b, found := tc.Get("b") if found || b != nil { t.Error("Getting B found value that shouldn't exist:", b) } c, found := tc.Get("c") if found || c != nil { t.Error("Getting C found value that shouldn't exist:", c) } tc.Set("a", 1, DefaultExpiration) tc.Set("b", "b", DefaultExpiration) tc.Set("c", 3.5, DefaultExpiration) x, found := tc.Get("a") if !found { t.Error("a was not found while getting a2") } if x == nil { t.Error("x for a is nil") } else if a2 := x.(int); a2+2 != 3 { t.Error("a2 (which should be 1) plus 2 does not equal 3; value:", a2) } x, found = tc.Get("b") if !found { t.Error("b was not found while getting b2") } if x == nil { t.Error("x for b is nil") } else if b2 := x.(string); b2+"B" != "bB" { t.Error("b2 (which should be b) plus B does not equal bB; value:", b2) } x, found = tc.Get("c") if !found { t.Error("c was not found while getting c2") } if x == nil { t.Error("x for c is nil") } else if c2 := x.(float64); c2+1.2 != 4.7 { t.Error("c2 (which should be 3.5) plus 1.2 does not equal 4.7; value:", c2) } } func TestCacheTimes(t *testing.T) { var found bool tc := New(50*time.Millisecond, 1*time.Millisecond) tc.Set("a", 1, DefaultExpiration) tc.Set("b", 2, NoExpiration) tc.Set("c", 3, 20*time.Millisecond) tc.Set("d", 4, 70*time.Millisecond) <-time.After(25 * time.Millisecond) _, found = tc.Get("c") if found { t.Error("Found c when it should have been automatically deleted") } <-time.After(30 * time.Millisecond) _, found = tc.Get("a") if found { t.Error("Found a when it should have been automatically deleted") } _, found = tc.Get("b") if !found { t.Error("Did not find b even though it was set to never expire") } _, found = tc.Get("d") if !found { t.Error("Did not find d even though it was set to expire later than the default") } <-time.After(20 * time.Millisecond) _, found = tc.Get("d") if found { t.Error("Found d when it should have been automatically deleted (later than the default)") } } func TestNewFrom(t *testing.T) { m := map[string]Item{ "a": { Object: 1, Expiration: 0, }, "b": { Object: 2, Expiration: 0, }, } tc := NewFrom(DefaultExpiration, 0, m) a, found := tc.Get("a") if !found { t.Fatal("Did not find a") } if a.(int) != 1 { t.Fatal("a is not 1") } b, found := tc.Get("b") if !found { t.Fatal("Did not find b") } if b.(int) != 2 { t.Fatal("b is not 2") } } func TestStorePointerToStruct(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("foo", &TestStruct{Num: 1}, DefaultExpiration) x, found := tc.Get("foo") if !found { t.Fatal("*TestStruct was not found for foo") } foo := x.(*TestStruct) foo.Num++ y, found := tc.Get("foo") if !found { t.Fatal("*TestStruct was not found for foo (second time)") } bar := y.(*TestStruct) if bar.Num != 2 { t.Fatal("TestStruct.Num is not 2") } } func TestIncrementWithInt(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint", 1, DefaultExpiration) err := tc.Increment("tint", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tint") if !found { t.Error("tint was not found") } if x.(int) != 3 { t.Error("tint is not 3:", x) } } func TestIncrementWithInt8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint8", int8(1), DefaultExpiration) err := tc.Increment("tint8", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tint8") if !found { t.Error("tint8 was not found") } if x.(int8) != 3 { t.Error("tint8 is not 3:", x) } } func TestIncrementWithInt16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint16", int16(1), DefaultExpiration) err := tc.Increment("tint16", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tint16") if !found { t.Error("tint16 was not found") } if x.(int16) != 3 { t.Error("tint16 is not 3:", x) } } func TestIncrementWithInt32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint32", int32(1), DefaultExpiration) err := tc.Increment("tint32", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tint32") if !found { t.Error("tint32 was not found") } if x.(int32) != 3 { t.Error("tint32 is not 3:", x) } } func TestIncrementWithInt64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint64", int64(1), DefaultExpiration) err := tc.Increment("tint64", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tint64") if !found { t.Error("tint64 was not found") } if x.(int64) != 3 { t.Error("tint64 is not 3:", x) } } func TestIncrementWithUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint", uint(1), DefaultExpiration) err := tc.Increment("tuint", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuint") if !found { t.Error("tuint was not found") } if x.(uint) != 3 { t.Error("tuint is not 3:", x) } } func TestIncrementWithUintptr(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuintptr", uintptr(1), DefaultExpiration) err := tc.Increment("tuintptr", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuintptr") if !found { t.Error("tuintptr was not found") } if x.(uintptr) != 3 { t.Error("tuintptr is not 3:", x) } } func TestIncrementWithUint8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint8", uint8(1), DefaultExpiration) err := tc.Increment("tuint8", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuint8") if !found { t.Error("tuint8 was not found") } if x.(uint8) != 3 { t.Error("tuint8 is not 3:", x) } } func TestIncrementWithUint16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint16", uint16(1), DefaultExpiration) err := tc.Increment("tuint16", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuint16") if !found { t.Error("tuint16 was not found") } if x.(uint16) != 3 { t.Error("tuint16 is not 3:", x) } } func TestIncrementWithUint32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint32", uint32(1), DefaultExpiration) err := tc.Increment("tuint32", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuint32") if !found { t.Error("tuint32 was not found") } if x.(uint32) != 3 { t.Error("tuint32 is not 3:", x) } } func TestIncrementWithUint64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint64", uint64(1), DefaultExpiration) err := tc.Increment("tuint64", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("tuint64") if !found { t.Error("tuint64 was not found") } if x.(uint64) != 3 { t.Error("tuint64 is not 3:", x) } } func TestIncrementWithFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(1.5), DefaultExpiration) err := tc.Increment("float32", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3.5 { t.Error("float32 is not 3.5:", x) } } func TestIncrementWithFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(1.5), DefaultExpiration) err := tc.Increment("float64", 2) if err != nil { t.Error("Error incrementing:", err) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3.5 { t.Error("float64 is not 3.5:", x) } } func TestIncrementFloatWithFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(1.5), DefaultExpiration) err := tc.IncrementFloat("float32", 2) if err != nil { t.Error("Error incrementfloating:", err) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3.5 { t.Error("float32 is not 3.5:", x) } } func TestIncrementFloatWithFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(1.5), DefaultExpiration) err := tc.IncrementFloat("float64", 2) if err != nil { t.Error("Error incrementfloating:", err) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3.5 { t.Error("float64 is not 3.5:", x) } } func TestDecrementWithInt(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int", int(5), DefaultExpiration) err := tc.Decrement("int", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("int") if !found { t.Error("int was not found") } if x.(int) != 3 { t.Error("int is not 3:", x) } } func TestDecrementWithInt8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int8", int8(5), DefaultExpiration) err := tc.Decrement("int8", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("int8") if !found { t.Error("int8 was not found") } if x.(int8) != 3 { t.Error("int8 is not 3:", x) } } func TestDecrementWithInt16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int16", int16(5), DefaultExpiration) err := tc.Decrement("int16", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("int16") if !found { t.Error("int16 was not found") } if x.(int16) != 3 { t.Error("int16 is not 3:", x) } } func TestDecrementWithInt32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int32", int32(5), DefaultExpiration) err := tc.Decrement("int32", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("int32") if !found { t.Error("int32 was not found") } if x.(int32) != 3 { t.Error("int32 is not 3:", x) } } func TestDecrementWithInt64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int64", int64(5), DefaultExpiration) err := tc.Decrement("int64", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("int64") if !found { t.Error("int64 was not found") } if x.(int64) != 3 { t.Error("int64 is not 3:", x) } } func TestDecrementWithUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint", uint(5), DefaultExpiration) err := tc.Decrement("uint", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uint") if !found { t.Error("uint was not found") } if x.(uint) != 3 { t.Error("uint is not 3:", x) } } func TestDecrementWithUintptr(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uintptr", uintptr(5), DefaultExpiration) err := tc.Decrement("uintptr", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uintptr") if !found { t.Error("uintptr was not found") } if x.(uintptr) != 3 { t.Error("uintptr is not 3:", x) } } func TestDecrementWithUint8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint8", uint8(5), DefaultExpiration) err := tc.Decrement("uint8", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uint8") if !found { t.Error("uint8 was not found") } if x.(uint8) != 3 { t.Error("uint8 is not 3:", x) } } func TestDecrementWithUint16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint16", uint16(5), DefaultExpiration) err := tc.Decrement("uint16", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uint16") if !found { t.Error("uint16 was not found") } if x.(uint16) != 3 { t.Error("uint16 is not 3:", x) } } func TestDecrementWithUint32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint32", uint32(5), DefaultExpiration) err := tc.Decrement("uint32", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uint32") if !found { t.Error("uint32 was not found") } if x.(uint32) != 3 { t.Error("uint32 is not 3:", x) } } func TestDecrementWithUint64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint64", uint64(5), DefaultExpiration) err := tc.Decrement("uint64", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("uint64") if !found { t.Error("uint64 was not found") } if x.(uint64) != 3 { t.Error("uint64 is not 3:", x) } } func TestDecrementWithFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(5.5), DefaultExpiration) err := tc.Decrement("float32", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3.5 { t.Error("float32 is not 3:", x) } } func TestDecrementWithFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(5.5), DefaultExpiration) err := tc.Decrement("float64", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3.5 { t.Error("float64 is not 3:", x) } } func TestDecrementFloatWithFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(5.5), DefaultExpiration) err := tc.DecrementFloat("float32", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3.5 { t.Error("float32 is not 3:", x) } } func TestDecrementFloatWithFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(5.5), DefaultExpiration) err := tc.DecrementFloat("float64", 2) if err != nil { t.Error("Error decrementing:", err) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3.5 { t.Error("float64 is not 3:", x) } } func TestIncrementInt(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint", 1, DefaultExpiration) n, err := tc.IncrementInt("tint", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tint") if !found { t.Error("tint was not found") } if x.(int) != 3 { t.Error("tint is not 3:", x) } } func TestIncrementInt8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint8", int8(1), DefaultExpiration) n, err := tc.IncrementInt8("tint8", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tint8") if !found { t.Error("tint8 was not found") } if x.(int8) != 3 { t.Error("tint8 is not 3:", x) } } func TestIncrementInt16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint16", int16(1), DefaultExpiration) n, err := tc.IncrementInt16("tint16", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tint16") if !found { t.Error("tint16 was not found") } if x.(int16) != 3 { t.Error("tint16 is not 3:", x) } } func TestIncrementInt32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint32", int32(1), DefaultExpiration) n, err := tc.IncrementInt32("tint32", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tint32") if !found { t.Error("tint32 was not found") } if x.(int32) != 3 { t.Error("tint32 is not 3:", x) } } func TestIncrementInt64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tint64", int64(1), DefaultExpiration) n, err := tc.IncrementInt64("tint64", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tint64") if !found { t.Error("tint64 was not found") } if x.(int64) != 3 { t.Error("tint64 is not 3:", x) } } func TestIncrementUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint", uint(1), DefaultExpiration) n, err := tc.IncrementUint("tuint", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuint") if !found { t.Error("tuint was not found") } if x.(uint) != 3 { t.Error("tuint is not 3:", x) } } func TestIncrementUintptr(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuintptr", uintptr(1), DefaultExpiration) n, err := tc.IncrementUintptr("tuintptr", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuintptr") if !found { t.Error("tuintptr was not found") } if x.(uintptr) != 3 { t.Error("tuintptr is not 3:", x) } } func TestIncrementUint8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint8", uint8(1), DefaultExpiration) n, err := tc.IncrementUint8("tuint8", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuint8") if !found { t.Error("tuint8 was not found") } if x.(uint8) != 3 { t.Error("tuint8 is not 3:", x) } } func TestIncrementUint16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint16", uint16(1), DefaultExpiration) n, err := tc.IncrementUint16("tuint16", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuint16") if !found { t.Error("tuint16 was not found") } if x.(uint16) != 3 { t.Error("tuint16 is not 3:", x) } } func TestIncrementUint32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint32", uint32(1), DefaultExpiration) n, err := tc.IncrementUint32("tuint32", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuint32") if !found { t.Error("tuint32 was not found") } if x.(uint32) != 3 { t.Error("tuint32 is not 3:", x) } } func TestIncrementUint64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("tuint64", uint64(1), DefaultExpiration) n, err := tc.IncrementUint64("tuint64", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("tuint64") if !found { t.Error("tuint64 was not found") } if x.(uint64) != 3 { t.Error("tuint64 is not 3:", x) } } func TestIncrementFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(1.5), DefaultExpiration) n, err := tc.IncrementFloat32("float32", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3.5 { t.Error("Returned number is not 3.5:", n) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3.5 { t.Error("float32 is not 3.5:", x) } } func TestIncrementFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(1.5), DefaultExpiration) n, err := tc.IncrementFloat64("float64", 2) if err != nil { t.Error("Error incrementing:", err) } if n != 3.5 { t.Error("Returned number is not 3.5:", n) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3.5 { t.Error("float64 is not 3.5:", x) } } func TestDecrementInt8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int8", int8(5), DefaultExpiration) n, err := tc.DecrementInt8("int8", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("int8") if !found { t.Error("int8 was not found") } if x.(int8) != 3 { t.Error("int8 is not 3:", x) } } func TestDecrementInt16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int16", int16(5), DefaultExpiration) n, err := tc.DecrementInt16("int16", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("int16") if !found { t.Error("int16 was not found") } if x.(int16) != 3 { t.Error("int16 is not 3:", x) } } func TestDecrementInt32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int32", int32(5), DefaultExpiration) n, err := tc.DecrementInt32("int32", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("int32") if !found { t.Error("int32 was not found") } if x.(int32) != 3 { t.Error("int32 is not 3:", x) } } func TestDecrementInt64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int64", int64(5), DefaultExpiration) n, err := tc.DecrementInt64("int64", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("int64") if !found { t.Error("int64 was not found") } if x.(int64) != 3 { t.Error("int64 is not 3:", x) } } func TestDecrementUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint", uint(5), DefaultExpiration) n, err := tc.DecrementUint("uint", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uint") if !found { t.Error("uint was not found") } if x.(uint) != 3 { t.Error("uint is not 3:", x) } } func TestDecrementUintptr(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uintptr", uintptr(5), DefaultExpiration) n, err := tc.DecrementUintptr("uintptr", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uintptr") if !found { t.Error("uintptr was not found") } if x.(uintptr) != 3 { t.Error("uintptr is not 3:", x) } } func TestDecrementUint8(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint8", uint8(5), DefaultExpiration) n, err := tc.DecrementUint8("uint8", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uint8") if !found { t.Error("uint8 was not found") } if x.(uint8) != 3 { t.Error("uint8 is not 3:", x) } } func TestDecrementUint16(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint16", uint16(5), DefaultExpiration) n, err := tc.DecrementUint16("uint16", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uint16") if !found { t.Error("uint16 was not found") } if x.(uint16) != 3 { t.Error("uint16 is not 3:", x) } } func TestDecrementUint32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint32", uint32(5), DefaultExpiration) n, err := tc.DecrementUint32("uint32", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uint32") if !found { t.Error("uint32 was not found") } if x.(uint32) != 3 { t.Error("uint32 is not 3:", x) } } func TestDecrementUint64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint64", uint64(5), DefaultExpiration) n, err := tc.DecrementUint64("uint64", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("uint64") if !found { t.Error("uint64 was not found") } if x.(uint64) != 3 { t.Error("uint64 is not 3:", x) } } func TestDecrementFloat32(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float32", float32(5), DefaultExpiration) n, err := tc.DecrementFloat32("float32", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("float32") if !found { t.Error("float32 was not found") } if x.(float32) != 3 { t.Error("float32 is not 3:", x) } } func TestDecrementFloat64(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("float64", float64(5), DefaultExpiration) n, err := tc.DecrementFloat64("float64", 2) if err != nil { t.Error("Error decrementing:", err) } if n != 3 { t.Error("Returned number is not 3:", n) } x, found := tc.Get("float64") if !found { t.Error("float64 was not found") } if x.(float64) != 3 { t.Error("float64 is not 3:", x) } } func TestAdd(t *testing.T) { tc := New(DefaultExpiration, 0) err := tc.Add("foo", "bar", DefaultExpiration) if err != nil { t.Error("Couldn't add foo even though it shouldn't exist") } err = tc.Add("foo", "baz", DefaultExpiration) if err == nil { t.Error("Successfully added another foo when it should have returned an error") } } func TestReplace(t *testing.T) { tc := New(DefaultExpiration, 0) err := tc.Replace("foo", "bar", DefaultExpiration) if err == nil { t.Error("Replaced foo when it shouldn't exist") } tc.Set("foo", "bar", DefaultExpiration) err = tc.Replace("foo", "bar", DefaultExpiration) if err != nil { t.Error("Couldn't replace existing key foo") } } func TestDelete(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("foo", "bar", DefaultExpiration) tc.Delete("foo") x, found := tc.Get("foo") if found { t.Error("foo was found, but it should have been deleted") } if x != nil { t.Error("x is not nil:", x) } } func TestItemCount(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("foo", "1", DefaultExpiration) tc.Set("bar", "2", DefaultExpiration) tc.Set("baz", "3", DefaultExpiration) if n := tc.ItemCount(); n != 3 { t.Errorf("Item count is not 3: %d", n) } } func TestFlush(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("foo", "bar", DefaultExpiration) tc.Set("baz", "yes", DefaultExpiration) tc.Flush() x, found := tc.Get("foo") if found { t.Error("foo was found, but it should have been deleted") } if x != nil { t.Error("x is not nil:", x) } x, found = tc.Get("baz") if found { t.Error("baz was found, but it should have been deleted") } if x != nil { t.Error("x is not nil:", x) } } func TestIncrementOverflowInt(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("int8", int8(127), DefaultExpiration) err := tc.Increment("int8", 1) if err != nil { t.Error("Error incrementing int8:", err) } x, _ := tc.Get("int8") int8 := x.(int8) if int8 != -128 { t.Error("int8 did not overflow as expected; value:", int8) } } func TestIncrementOverflowUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint8", uint8(255), DefaultExpiration) err := tc.Increment("uint8", 1) if err != nil { t.Error("Error incrementing int8:", err) } x, _ := tc.Get("uint8") uint8 := x.(uint8) if uint8 != 0 { t.Error("uint8 did not overflow as expected; value:", uint8) } } func TestDecrementUnderflowUint(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("uint8", uint8(0), DefaultExpiration) err := tc.Decrement("uint8", 1) if err != nil { t.Error("Error decrementing int8:", err) } x, _ := tc.Get("uint8") uint8 := x.(uint8) if uint8 != 255 { t.Error("uint8 did not underflow as expected; value:", uint8) } } // TODO: Ring buffer is more efficient but doesn't guarantee that the actually // oldest items are removed, just some old items. This shouldn't be significant // for large caches, but we can't test it easily. // // func TestDeleteLRU(t *testing.T) { // tc := NewWithLRU(1*time.Second, 0, 1) // tc.Set("foo", 0, DefaultExpiration) // tc.Set("bar", 1, DefaultExpiration) // tc.Set("baz", 2, DefaultExpiration) // tc.Get("foo") // tc.Get("baz") // time.Sleep(5 * time.Millisecond) // tc.Get("bar") // // Bar was accessed most recently, and should be the only value that // // stays. // tc.DeleteLRU() // if tc.ItemCount() != 1 { // t.Error("tc.ItemCount() is not 1") // } // if _, found := tc.Get("bar"); !found { // t.Error("bar was not found") // } // } func TestDeleteLRU(t *testing.T) { tc := NewWithLRU(1*time.Second, 0, 1) tc.Set("foo", 0, DefaultExpiration) tc.Set("bar", 1, DefaultExpiration) tc.Set("baz", 2, DefaultExpiration) tc.DeleteLRU() if tc.ItemCount() != 1 { t.Error("tc.ItemCount() is not 1") } } func TestOnEvicted(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Set("foo", 3, DefaultExpiration) if tc.onEvicted != nil { t.Fatal("tc.onEvicted is not nil") } works := false tc.OnEvicted(func(k string, v interface{}) { if k == "foo" && v.(int) == 3 { works = true } tc.Set("bar", 4, DefaultExpiration) }) tc.Delete("foo") x, _ := tc.Get("bar") if !works { t.Error("works bool not true") } if x.(int) != 4 { t.Error("bar was not 4") } } func TestCacheSerialization(t *testing.T) { tc := New(DefaultExpiration, 0) testFillAndSerialize(t, tc) // Check if gob.Register behaves properly even after multiple gob.Register // on c.Items (many of which will be the same type) testFillAndSerialize(t, tc) } func testFillAndSerialize(t *testing.T, tc *Cache) { tc.Set("a", "a", DefaultExpiration) tc.Set("b", "b", DefaultExpiration) tc.Set("c", "c", DefaultExpiration) tc.Set("expired", "foo", 1*time.Millisecond) tc.Set("*struct", &TestStruct{Num: 1}, DefaultExpiration) tc.Set("[]struct", []TestStruct{ {Num: 2}, {Num: 3}, }, DefaultExpiration) tc.Set("[]*struct", []*TestStruct{ {Num: 4}, {Num: 5}, }, DefaultExpiration) tc.Set("structception", &TestStruct{ Num: 42, Children: []*TestStruct{ {Num: 6174}, {Num: 4716}, }, }, DefaultExpiration) fp := &bytes.Buffer{} err := tc.Save(fp) if err != nil { t.Fatal("Couldn't save cache to fp:", err) } oc := New(DefaultExpiration, 0) err = oc.Load(fp) if err != nil { t.Fatal("Couldn't load cache from fp:", err) } a, found := oc.Get("a") if !found { t.Error("a was not found") } if a.(string) != "a" { t.Error("a is not a") } b, found := oc.Get("b") if !found { t.Error("b was not found") } if b.(string) != "b" { t.Error("b is not b") } c, found := oc.Get("c") if !found { t.Error("c was not found") } if c.(string) != "c" { t.Error("c is not c") } <-time.After(5 * time.Millisecond) _, found = oc.Get("expired") if found { t.Error("expired was found") } s1, found := oc.Get("*struct") if !found { t.Error("*struct was not found") } if s1.(*TestStruct).Num != 1 { t.Error("*struct.Num is not 1") } s2, found := oc.Get("[]struct") if !found { t.Error("[]struct was not found") } s2r := s2.([]TestStruct) if len(s2r) != 2 { t.Error("Length of s2r is not 2") } if s2r[0].Num != 2 { t.Error("s2r[0].Num is not 2") } if s2r[1].Num != 3 { t.Error("s2r[1].Num is not 3") } s3, found := oc.get("[]*struct") if !found { t.Error("[]*struct was not found") } s3r := s3.([]*TestStruct) if len(s3r) != 2 { t.Error("Length of s3r is not 2") } if s3r[0].Num != 4 { t.Error("s3r[0].Num is not 4") } if s3r[1].Num != 5 { t.Error("s3r[1].Num is not 5") } s4, found := oc.get("structception") if !found { t.Error("structception was not found") } s4r := s4.(*TestStruct) if len(s4r.Children) != 2 { t.Error("Length of s4r.Children is not 2") } if s4r.Children[0].Num != 6174 { t.Error("s4r.Children[0].Num is not 6174") } if s4r.Children[1].Num != 4716 { t.Error("s4r.Children[1].Num is not 4716") } } func TestFileSerialization(t *testing.T) { tc := New(DefaultExpiration, 0) tc.Add("a", "a", DefaultExpiration) tc.Add("b", "b", DefaultExpiration) f, err := ioutil.TempFile("", "go-cache-cache.dat") if err != nil { t.Fatal("Couldn't create cache file:", err) } fname := f.Name() f.Close() tc.SaveFile(fname) oc := New(DefaultExpiration, 0) oc.Add("a", "aa", 0) // this should not be overwritten err = oc.LoadFile(fname) if err != nil { t.Error(err) } a, found := oc.Get("a") if !found { t.Error("a was not found") } astr := a.(string) if astr != "aa" { if astr == "a" { t.Error("a was overwritten") } else { t.Error("a is not aa") } } b, found := oc.Get("b") if !found { t.Error("b was not found") } if b.(string) != "b" { t.Error("b is not b") } } func TestSerializeUnserializable(t *testing.T) { tc := New(DefaultExpiration, 0) ch := make(chan bool, 1) ch <- true tc.Set("chan", ch, DefaultExpiration) fp := &bytes.Buffer{} err := tc.Save(fp) // this should fail gracefully if err.Error() != "gob NewTypeObject can't handle type: chan bool" { t.Error("Error from Save was not gob NewTypeObject can't handle type chan bool:", err) } } func BenchmarkCacheGetExpiring(b *testing.B) { benchmarkCacheGet(b, 5*time.Minute) } func BenchmarkCacheGetNotExpiring(b *testing.B) { benchmarkCacheGet(b, NoExpiration) } func benchmarkCacheGet(b *testing.B, exp time.Duration) { b.StopTimer() tc := New(exp, 0) tc.Set("foo", "bar", DefaultExpiration) b.StartTimer() for i := 0; i < b.N; i++ { tc.Get("foo") } } func BenchmarkCacheWithLRUGetExpiring(b *testing.B) { benchmarkCacheWithLRUGet(b, 5*time.Minute, 10) } func BenchmarkCacheWithLRUGetNotExpiring(b *testing.B) { benchmarkCacheWithLRUGet(b, NoExpiration, 10) } func benchmarkCacheWithLRUGet(b *testing.B, exp time.Duration, max int) { b.StopTimer() tc := NewWithLRU(exp, 0, max) tc.Set("foo", "bar", DefaultExpiration) b.StartTimer() for i := 0; i < b.N; i++ { tc.Get("foo") } } func BenchmarkRWMutexMapGet(b *testing.B) { b.StopTimer() m := map[string]string{ "foo": "bar", } mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.RLock() _, _ = m["foo"] mu.RUnlock() } } func BenchmarkRWMutexInterfaceMapGetStruct(b *testing.B) { b.StopTimer() s := struct{ name string }{name: "foo"} m := map[interface{}]string{ s: "bar", } mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.RLock() _, _ = m[s] mu.RUnlock() } } func BenchmarkRWMutexInterfaceMapGetString(b *testing.B) { b.StopTimer() m := map[interface{}]string{ "foo": "bar", } mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.RLock() _, _ = m["foo"] mu.RUnlock() } } func BenchmarkCacheGetConcurrentExpiring(b *testing.B) { benchmarkCacheGetConcurrent(b, 5*time.Minute) } func BenchmarkCacheGetConcurrentNotExpiring(b *testing.B) { benchmarkCacheGetConcurrent(b, NoExpiration) } func benchmarkCacheGetConcurrent(b *testing.B, exp time.Duration) { b.StopTimer() tc := New(exp, 0) tc.Set("foo", "bar", DefaultExpiration) wg := new(sync.WaitGroup) workers := runtime.NumCPU() each := b.N / workers wg.Add(workers) b.StartTimer() for i := 0; i < workers; i++ { go func() { for j := 0; j < each; j++ { tc.Get("foo") } wg.Done() }() } wg.Wait() } func BenchmarkCacheWithLRUGetConcurrentExpiring(b *testing.B) { benchmarkCacheWithLRUGetConcurrent(b, 5*time.Minute, 10) } func BenchmarkCacheWithLRUGetConcurrentNotExpiring(b *testing.B) { benchmarkCacheWithLRUGetConcurrent(b, NoExpiration, 10) } func benchmarkCacheWithLRUGetConcurrent(b *testing.B, exp time.Duration, max int) { b.StopTimer() tc := NewWithLRU(exp, 0, max) tc.Set("foo", "bar", DefaultExpiration) wg := new(sync.WaitGroup) workers := runtime.NumCPU() each := b.N / workers wg.Add(workers) b.StartTimer() for i := 0; i < workers; i++ { go func() { for j := 0; j < each; j++ { tc.Get("foo") } wg.Done() }() } wg.Wait() } func BenchmarkRWMutexMapGetConcurrent(b *testing.B) { b.StopTimer() m := map[string]string{ "foo": "bar", } mu := sync.RWMutex{} wg := new(sync.WaitGroup) workers := runtime.NumCPU() each := b.N / workers wg.Add(workers) b.StartTimer() for i := 0; i < workers; i++ { go func() { for j := 0; j < each; j++ { mu.RLock() _, _ = m["foo"] mu.RUnlock() } wg.Done() }() } wg.Wait() } func BenchmarkCacheGetManyConcurrentExpiring(b *testing.B) { benchmarkCacheGetManyConcurrent(b, 5*time.Minute) } func BenchmarkCacheGetManyConcurrentNotExpiring(b *testing.B) { benchmarkCacheGetManyConcurrent(b, NoExpiration) } func benchmarkCacheGetManyConcurrent(b *testing.B, exp time.Duration) { // This is the same as BenchmarkCacheGetConcurrent, but its result // can be compared against BenchmarkShardedCacheGetManyConcurrent // in sharded_test.go. b.StopTimer() n := 10000 tc := New(exp, 0) keys := make([]string, n) for i := 0; i < n; i++ { k := "foo" + strconv.Itoa(n) keys[i] = k tc.Set(k, "bar", DefaultExpiration) } each := b.N / n wg := new(sync.WaitGroup) wg.Add(n) for _, v := range keys { go func(key string) { for j := 0; j < each; j++ { tc.Get(key) } wg.Done() }(v) } b.StartTimer() wg.Wait() } func BenchmarkCacheWithLRUGetManyConcurrentExpiring(b *testing.B) { benchmarkCacheWithLRUGetManyConcurrent(b, 5*time.Minute, 10000) } func BenchmarkCacheWithLRUGetManyConcurrentNotExpiring(b *testing.B) { benchmarkCacheWithLRUGetManyConcurrent(b, NoExpiration, 10000) } func benchmarkCacheWithLRUGetManyConcurrent(b *testing.B, exp time.Duration, max int) { // This is the same as BenchmarkCacheWithLRUGetConcurrent, but its result // can be compared against BenchmarkShardedCacheWithLRUGetManyConcurrent // in sharded_test.go. b.StopTimer() n := 10000 tc := NewWithLRU(exp, 0, max) keys := make([]string, n) for i := 0; i < n; i++ { k := "foo" + strconv.Itoa(n) keys[i] = k tc.Set(k, "bar", DefaultExpiration) } each := b.N / n wg := new(sync.WaitGroup) wg.Add(n) for _, v := range keys { go func(key string) { for j := 0; j < each; j++ { tc.Get(key) } wg.Done() }(v) } b.StartTimer() wg.Wait() } func BenchmarkCacheSetExpiring(b *testing.B) { benchmarkCacheSet(b, 5*time.Minute) } func BenchmarkCacheSetNotExpiring(b *testing.B) { benchmarkCacheSet(b, NoExpiration) } func benchmarkCacheSet(b *testing.B, exp time.Duration) { b.StopTimer() tc := New(exp, 0) b.StartTimer() for i := 0; i < b.N; i++ { tc.Set("foo", "bar", DefaultExpiration) } } func BenchmarkRWMutexMapSet(b *testing.B) { b.StopTimer() m := map[string]string{} mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.Lock() m["foo"] = "bar" mu.Unlock() } } func BenchmarkCacheSetDelete(b *testing.B) { b.StopTimer() tc := New(DefaultExpiration, 0) b.StartTimer() for i := 0; i < b.N; i++ { tc.Set("foo", "bar", DefaultExpiration) tc.Delete("foo") } } func BenchmarkRWMutexMapSetDelete(b *testing.B) { b.StopTimer() m := map[string]string{} mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.Lock() m["foo"] = "bar" mu.Unlock() mu.Lock() delete(m, "foo") mu.Unlock() } } func BenchmarkCacheSetDeleteSingleLock(b *testing.B) { b.StopTimer() tc := New(DefaultExpiration, 0) b.StartTimer() for i := 0; i < b.N; i++ { tc.mu.Lock() tc.set("foo", "bar", DefaultExpiration) tc.delete("foo") tc.mu.Unlock() } } func BenchmarkRWMutexMapSetDeleteSingleLock(b *testing.B) { b.StopTimer() m := map[string]string{} mu := sync.RWMutex{} b.StartTimer() for i := 0; i < b.N; i++ { mu.Lock() m["foo"] = "bar" delete(m, "foo") mu.Unlock() } } func BenchmarkIncrementInt(b *testing.B) { b.StopTimer() tc := New(DefaultExpiration, 0) tc.Set("foo", 0, DefaultExpiration) b.StartTimer() for i := 0; i < b.N; i++ { tc.IncrementInt("foo", 1) } } func BenchmarkDeleteExpiredLoop(b *testing.B) { b.StopTimer() tc := New(5*time.Minute, 0) tc.mu.Lock() for i := 0; i < 100000; i++ { tc.set(strconv.Itoa(i), "bar", DefaultExpiration) } tc.mu.Unlock() b.StartTimer() for i := 0; i < b.N; i++ { tc.DeleteExpired() } } func TestGetWithExpiration(t *testing.T) { tc := New(DefaultExpiration, 0) a, expiration, found := tc.GetWithExpiration("a") if found || a != nil || !expiration.IsZero() { t.Error("Getting A found value that shouldn't exist:", a) } b, expiration, found := tc.GetWithExpiration("b") if found || b != nil || !expiration.IsZero() { t.Error("Getting B found value that shouldn't exist:", b) } c, expiration, found := tc.GetWithExpiration("c") if found || c != nil || !expiration.IsZero() { t.Error("Getting C found value that shouldn't exist:", c) } tc.Set("a", 1, DefaultExpiration) tc.Set("b", "b", DefaultExpiration) tc.Set("c", 3.5, DefaultExpiration) tc.Set("d", 1, NoExpiration) tc.Set("e", 1, 50*time.Millisecond) x, expiration, found := tc.GetWithExpiration("a") if !found { t.Error("a was not found while getting a2") } if x == nil { t.Error("x for a is nil") } else if a2 := x.(int); a2+2 != 3 { t.Error("a2 (which should be 1) plus 2 does not equal 3; value:", a2) } if !expiration.IsZero() { t.Error("expiration for a is not a zeroed time") } x, expiration, found = tc.GetWithExpiration("b") if !found { t.Error("b was not found while getting b2") } if x == nil { t.Error("x for b is nil") } else if b2 := x.(string); b2+"B" != "bB" { t.Error("b2 (which should be b) plus B does not equal bB; value:", b2) } if !expiration.IsZero() { t.Error("expiration for b is not a zeroed time") } x, expiration, found = tc.GetWithExpiration("c") if !found { t.Error("c was not found while getting c2") } if x == nil { t.Error("x for c is nil") } else if c2 := x.(float64); c2+1.2 != 4.7 { t.Error("c2 (which should be 3.5) plus 1.2 does not equal 4.7; value:", c2) } if !expiration.IsZero() { t.Error("expiration for c is not a zeroed time") } x, expiration, found = tc.GetWithExpiration("d") if !found { t.Error("d was not found while getting d2") } if x == nil { t.Error("x for d is nil") } else if d2 := x.(int); d2+2 != 3 { t.Error("d (which should be 1) plus 2 does not equal 3; value:", d2) } if !expiration.IsZero() { t.Error("expiration for d is not a zeroed time") } x, expiration, found = tc.GetWithExpiration("e") if !found { t.Error("e was not found while getting e2") } if x == nil { t.Error("x for e is nil") } else if e2 := x.(int); e2+2 != 3 { t.Error("e (which should be 1) plus 2 does not equal 3; value:", e2) } if expiration.UnixNano() != tc.items["e"].Expiration { t.Error("expiration for e is not the correct time") } if expiration.UnixNano() < time.Now().UnixNano() { t.Error("expiration for e is in the past") } }