@ -20,37 +20,31 @@ void Multiplier(void* arg1, void* arg2) {
class PinnableSliceTest : public testing : : Test {
public :
void AssertEmpty ( const PinnableSlice & slice ) {
ASSERT_EQ ( 0 , slice . size ( ) ) ;
ASSERT_FALSE ( slice . IsPinned ( ) ) ;
}
void AssertSameData ( const std : : string & expected ,
const PinnableSlice & slice ) {
std : : string got ;
got . assign ( slice . data ( ) , slice . size ( ) ) ;
ASSERT_EQ ( expected , got ) ;
}
// Asserts that pinnable is in a clean state after being moved to
// another PinnableSlice.
// It asserts by trying to pin the slice.
void AssertCleanState ( PinnableSlice & pinnable , const Slice & slice ) {
AssertEmpty ( pinnable ) ;
pinnable . PinSelf ( slice ) ;
AssertSameData ( slice . ToString ( ) , pinnable ) ;
int res = 1 ;
int n2 = 2 ;
pinnable . PinSlice ( slice , Multiplier , & res , & n2 ) ;
AssertSameData ( slice . ToString ( ) , pinnable ) ;
ASSERT_EQ ( 1 , res ) ;
pinnable . Reset ( ) ;
ASSERT_EQ ( 2 , res ) ;
}
} ;
// Test that the external buffer is moved instead of being copied.
TEST_F ( PinnableSliceTest , MoveExternalBuffer ) {
Slice s ( " 123 " ) ;
std : : string buf ;
PinnableSlice v1 ( & buf ) ;
v1 . PinSelf ( s ) ;
PinnableSlice v2 ( std : : move ( v1 ) ) ;
ASSERT_EQ ( buf . data ( ) , v2 . data ( ) ) ;
ASSERT_EQ ( & buf , v2 . GetSelf ( ) ) ;
PinnableSlice v3 ;
v3 = std : : move ( v2 ) ;
ASSERT_EQ ( buf . data ( ) , v3 . data ( ) ) ;
ASSERT_EQ ( & buf , v3 . GetSelf ( ) ) ;
}
TEST_F ( PinnableSliceTest , Move ) {
int n2 = 2 ;
int res = 1 ;
@ -72,7 +66,6 @@ TEST_F(PinnableSliceTest, Move) {
ASSERT_EQ ( 1 , res ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
// v2 is cleaned up.
ASSERT_EQ ( 2 , res ) ;
@ -84,7 +77,6 @@ TEST_F(PinnableSliceTest, Move) {
PinnableSlice v2 ( std : : move ( v1 ) ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
{
@ -106,7 +98,6 @@ TEST_F(PinnableSliceTest, Move) {
ASSERT_EQ ( 2 , res ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
// The Cleanable moved from v1 to v2 will be Reset.
ASSERT_EQ ( 4 , res ) ;
@ -127,7 +118,6 @@ TEST_F(PinnableSliceTest, Move) {
ASSERT_EQ ( 1 , res ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
// The Cleanable moved from v1 to v2 will be Reset.
ASSERT_EQ ( 2 , res ) ;
@ -142,7 +132,6 @@ TEST_F(PinnableSliceTest, Move) {
v2 = std : : move ( v1 ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
{
@ -160,7 +149,6 @@ TEST_F(PinnableSliceTest, Move) {
ASSERT_EQ ( 2 , res ) ;
AssertSameData ( const_str1 , v2 ) ;
AssertCleanState ( v1 , slice2 ) ;
}
// No Cleanable is moved from v1 to v2, so no more cleanup.
ASSERT_EQ ( 2 , res ) ;