public void AllocateTooSmallSize() { PersistentHeap heap = InitHeap("HeapAllocateInARowTest", 5); try { try { heap.Allocate(-1); Assert.Fail("Should throw exception"); } catch (InvalidElementSizeException) { } heap.Allocate(4); try { heap.Allocate(3); Assert.Fail("Should throw exception"); } catch (InvalidElementSizeException) { } } finally { heap.Close(); } }
private static void PutGetTestAssert(byte[] buffer, PersistentHeap heap) { int token = heap.Allocate(buffer.Length); heap.Put(token, buffer); TestHelper.AssertByteArraysAreSame(buffer, heap.Get(token)); }
public void FreeMiddleSpaceTest() { PersistentHeap heap = InitHeap("HeapFreeMiddleSpaceTest", 5); try { heap.Allocate(4); int middle = heap.Allocate(6); heap.Allocate(7); heap.Free(middle); } finally { heap.Close(); } }
public void FreeLastSpaceTest() { PersistentHeap heap = InitHeap("HeapFreeLastSpaceTest", 5); try { heap.Allocate(4); heap.Allocate(6); int lastSpace = heap.Allocate(7); heap.Free(lastSpace); } finally { heap.Close(); } }
private static int PutGetAssert(byte[] bytes, PersistentHeap heap) { Debug.Assert(bytes.Length >= 4, "Your byte[] is too small to be put"); int space1 = heap.Allocate(bytes.Length); heap.Put(space1, bytes); TestHelper.AssertByteArraysAreSame(bytes, heap.Get(space1)); return(space1); }
public void AllocateSplitTest() { PersistentHeap heap = InitHeap("HeapAllocateSplitTest", 9); try { int space1 = PutGetAssert(new byte[] { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 }, heap); int space2 = PutGetAssert(new byte[] { 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24 }, heap); int space3 = PutGetAssert(new byte[] { 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36 }, heap); int space4 = PutGetAssert(new byte[] { 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48 }, heap); heap.Free(space2); int space2_3 = heap.Allocate(4); Assert.IsTrue(space2 < space2_3); Assert.IsTrue(space2_3 < space3); } finally { heap.Close(); } }
public void FreeMergeAfterTest() { PersistentHeap heap = InitHeap("HeapFreeMergeAfterTest", 5); try { heap.Allocate(4); heap.Allocate(6); heap.Allocate(7); int previous = heap.Allocate(8); int after = heap.Allocate(10); heap.Allocate(5); heap.Free(after); heap.Free(previous); } finally { heap.Close(); } }
public void FreeMergeBeforeTest() { PersistentHeap heap = InitHeap("HeapFreeMergeBeforeTest", 5); try { heap.Allocate(4); heap.Allocate(6); int before = heap.Allocate(7); int next = heap.Allocate(8); heap.Allocate(10); heap.Allocate(5); heap.Free(before); heap.Free(next); } finally { heap.Close(); } }
public void FreeAddSpaceToEndOfFreeListTest() { PersistentHeap heap = InitHeap("HeapFreeAddSpaceToEndOfFreeListTest", 5); try { heap.Allocate(4); heap.Allocate(6); int toFree1 = heap.Allocate(7); heap.Allocate(8); heap.Allocate(10); int last = heap.Allocate(5); heap.Free(toFree1); heap.Free(last); } finally { heap.Close(); } }
public void FreeMergeBothTest() { PersistentHeap heap = InitHeap("HeapFreeMergeBothTest", 5); try { heap.Allocate(4); heap.Allocate(6); int before = heap.Allocate(7); int middle = heap.Allocate(8); int after = heap.Allocate(10); heap.Allocate(5); heap.Free(after); heap.Free(before); heap.Free(middle); } finally { heap.Close(); } }