Ejemplo n.º 1
0
        public void freeing_the_list_frees_all_chunks()
        {
            // Setup, and allocate a load of entries
            var memsize = Mega.Bytes(1);
            var mem     = new MemorySimulator(memsize);
            var alloc   = new Allocator(0, memsize, mem);
            var subject = new Vector <SampleElement>(alloc, mem);

            int full = (int)(Allocator.ArenaSize / sizeof(long)) * 2;

            var expected = (full * 8) + ((full / 32) * 8);

            Console.WriteLine("Expecting to allocate " + expected);
            if (expected >= memsize)
            {
                Assert.Fail("memsize is not big enough for the test");
            }

            for (int i = 0; i < full; i++)
            {
                subject.Push(Sample(i));
            }

            // Now free the whole list at once (including base ptr)
            subject.Deallocate();

            // check we've emptied memory
            alloc.GetState(out var allocatedBytes, out _, out var post_occupied, out _, out var post_refCount, out _);
            Assert.That(allocatedBytes, Is.Zero, "Expected no bytes allocated");
            Assert.That(post_occupied, Is.Zero, "Expected no arenas occupied");
            Assert.That(post_refCount, Is.Zero, "Expected no references");
        }
Ejemplo n.º 2
0
        public void running_a_scan_when_any_pointers_are_referenced_keeps_the_arena()
        {
            // scan takes a list of known references, and assumes anything
            // that's not in the list in not referenced. Any arena with nothing
            // referenced is reset.

            var mem     = new MemorySimulator(Mega.Bytes(1));
            var bump    = (Allocator.ArenaSize / 4) + 1; // three fit in each arena, with some spare
            var subject = new Allocator(512, Mega.Bytes(1), mem);

            var x1  = subject.Alloc(bump).Value;
            var ar1 = subject.CurrentArena();

            subject.Alloc(bump); subject.Alloc(bump); // fill up first arena

            var x2  = subject.Alloc(bump).Value;
            var ar2 = subject.CurrentArena();

            Assert.That(ar1, Is.Not.EqualTo(ar2), "Failed to trigger a new arena");

            // Check that both arenas are non-empty:
            Assert.That(subject.GetArenaOccupation(ar1).Value, Is.Not.Zero);
            Assert.That(subject.GetArenaOccupation(ar2).Value, Is.Not.Zero);

            // Run the scan (note we don't need all pointers, just one from each arena)
            var list = new Vector <long>(subject, mem);

            list.Push(x1);
            list.Push(x2);
            subject.ScanAndSweep(list);

            // Check nothing has been cleared
            Assert.That(subject.GetArenaOccupation(ar1).Value, Is.Not.Zero);
            Assert.That(subject.GetArenaOccupation(ar2).Value, Is.Not.Zero);
        }
Ejemplo n.º 3
0
        public void deallocating_the_hash_map_releases_memory()
        {
            var mem     = new MemorySimulator(Mega.Bytes(20));
            var alloc   = new Allocator(Mega.Bytes(10), Mega.Bytes(20), mem);
            var subject = new TaggedHashMap(256, alloc, mem);

            for (ulong i = 0; i < 128; i++)
            {
                subject.Add(i, i * 2);
            }


            // Check that memory is used...
            alloc.GetState(out var allocatedBytes, out var unallocatedBytes, out var occupiedArenas, out var emptyArenas, out var totalReferenceCount, out var largestContiguous);
            Assert.That(allocatedBytes, Is.GreaterThanOrEqualTo(6000), "Allocated bytes looks too small");
            //Assert.That(unallocatedBytes, Is.LessThan(Mega.Bytes(10)), "Unallocated bytes looks too big: "+unallocatedBytes);
            Assert.That(occupiedArenas, Is.EqualTo(1), "Occupied arenas looks wrong");
            Assert.That(emptyArenas, Is.GreaterThanOrEqualTo(100), "Empty arenas looks wrong");
            Assert.That(totalReferenceCount, Is.GreaterThan(2), "Reference count looks wrong");
            Assert.That(largestContiguous, Is.EqualTo(Allocator.ArenaSize), "Should not have exhausted memory!");

            // Release the hash map
            subject.Deallocate();

            // Check that everything is released
            alloc.GetState(out allocatedBytes, out unallocatedBytes, out occupiedArenas, out emptyArenas, out totalReferenceCount, out largestContiguous);
            Assert.That(allocatedBytes, Is.EqualTo(0), "Memory was not freed");
            Assert.That(unallocatedBytes, Is.GreaterThan(Mega.Bytes(9)), "Unallocated bytes not correct");
            Assert.That(occupiedArenas, Is.EqualTo(0), "Some arenas still occupied");
            Assert.That(emptyArenas, Is.GreaterThanOrEqualTo(100), "Empty arenas looks wrong");
            Assert.That(totalReferenceCount, Is.EqualTo(0), "Some references still dangling");
            Assert.That(largestContiguous, Is.EqualTo(Allocator.ArenaSize), "Should not have exhausted memory!");
        }
Ejemplo n.º 4
0
        public void running_a_scan_when_no_pointers_are_referenced_resets_the_arena()
        {
            var bump    = (Allocator.ArenaSize / 4) + 1; // three fit in each arena, with some spare
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(512, Mega.Bytes(1), mem);

            subject.Alloc(bump);
            var ar1 = subject.CurrentArena();

            subject.Alloc(bump); subject.Alloc(bump); // fill up first arena

            var x2  = subject.Alloc(bump).Value;
            var ar2 = subject.CurrentArena();

            Assert.That(ar1, Is.Not.EqualTo(ar2), "Failed to trigger a new arena");

            // Check that both arenas are non-empty:
            Assert.That(subject.GetArenaOccupation(ar1).Value, Is.Not.Zero);
            Assert.That(subject.GetArenaOccupation(ar2).Value, Is.Not.Zero);

            // Run the scan (only including the second arena)
            var list = new Vector <long>(subject, mem);

            list.Push(x2);
            subject.ScanAndSweep(list);

            // Check nothing has been cleared
            Assert.That(subject.GetArenaOccupation(ar1).Value, Is.Zero, "Unreferenced arena was not reset");
            Assert.That(subject.GetArenaOccupation(ar2).Value, Is.Not.Zero);
        }
Ejemplo n.º 5
0
        public void can_create_a_vector_larger_than_the_arena_limit()
        {
            var memsize = Mega.Bytes(1);
            var mem     = new MemorySimulator(memsize);
            var subject = new Vector <SampleElement>(new Allocator(0, memsize, mem), mem);

            uint full = (uint)(Allocator.ArenaSize / sizeof(long)) * 2;

            var expected = (full * 8) + ((full / 32) * 8);

            Console.WriteLine("Expecting to allocate " + expected);
            if (expected >= memsize)
            {
                Assert.Fail("memsize is not big enough for the test");
            }

            for (int i = 0; i < full; i++)
            {
                subject.Push(Sample(i));
            }

            var res = subject.Get(full - 1);

            Assert.That(res.Value.a, Is.EqualTo(full - 1));
        }
Ejemplo n.º 6
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        public void trying_to_write_past_the_end_of_a_sibling_chain_will_fail()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Tree <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            //##### BUILD #####
            subject.SetRootValue(Sample[0]);

            // First child of root
            var ptrRes = subject.AddChild(subject.Root, Sample[1]); if (!ptrRes.Success)

            {
                Assert.Fail("Failed to add child 1");
            }

            // ( 1 )

            // Second child of root
            ptrRes = subject.AddChild(subject.Root, Sample[2]); if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child 2");
            }
            // ( 1, 2 )

            //##### ACTION #####
            // Try to write past the last index
            ptrRes = subject.InsertChild(parent: subject.Root, targetIndex: 3, element: Sample[3]);

            Assert.That(ptrRes.Success, Is.False, "Wrote pass the last valid index");
        }
Ejemplo n.º 7
0
        public void can_remove_values()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new TaggedHashMap(64, new Allocator(0, Mega.Bytes(1), mem), mem);

            subject.Add(50000000, 123);
            subject.Add(1, 456);

            var ok1 = subject.Get(1, out _);
            var ok2 = subject.Get(50000000, out _);
            var ok3 = subject.Get(50, out _);

            Assert.That(ok1, Is.True);
            Assert.That(ok2, Is.True);
            Assert.That(ok3, Is.False);

            // remove one value at beginning
            subject.Remove(1);

            ok1 = subject.Get(1, out _);
            ok2 = subject.Get(50000000, out _);
            ok3 = subject.Get(50, out _);

            Assert.That(ok1, Is.False);
            Assert.That(ok2, Is.True);
            Assert.That(ok3, Is.False);
        }
Ejemplo n.º 8
0
        public void Vector__vs__LinkedList()
        {
            var sara_time   = new Stopwatch();
            var dotnet_time = new Stopwatch();

            var mem    = new MemorySimulator(Mega.Bytes(50));
            var sara   = new Vector <int>(new Allocator(0, Mega.Bytes(50), mem), mem);
            var dotnet = new LinkedList <int>();

            sara_time.Start();
            for (int i = 0; i < 2500; i++)
            {
                sara.Push(i);
            }
            for (int i = 0; i < 2500; i++)
            {
                sara.Pop();
            }
            sara_time.Stop();


            dotnet_time.Start();
            for (int i = 0; i < 2500; i++)
            {
                dotnet.AddLast(i);
            }
            for (int i = 0; i < 2500; i++)
            {
                dotnet.RemoveLast();
            }
            dotnet_time.Stop();

            Assert.Pass("SArA: " + sara_time.Elapsed + " ; dotnet: " + dotnet_time.Elapsed);
        }
Ejemplo n.º 9
0
        public void stress_test()
        {
            var rnd = new Random();
            // we deliberately use a small initial size to stress the scaling.
            // if you can afford to oversize the map, that will make things a lot faster
            var mem     = new MemorySimulator(Mega.Bytes(10));
            var subject = new TaggedHashMap(100, new Allocator(0, Mega.Bytes(10), mem), mem);

            subject.Add(0, 1);
            for (int i = 0; i < /*100000*/ 25_000; i++) // 25'000 should be under a second
            {
                if (!subject.Put((ulong)rnd.Next(1, 1_000_000), (ulong)i, true))
                {
                    Assert.Fail("Put rejected the change");
                }
                subject.Remove((ulong)rnd.Next(1, 1_000_000));
            }

            Assert.That(subject.Count, Is.GreaterThan(1000)); // there will probably be key collisions

            var ok = subject.Get(0, out var val);

            Assert.That(ok, Is.True);
            Assert.That(val, Is.EqualTo(1));
        }
Ejemplo n.º 10
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        public void building_and_walking_a_tree()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Tree <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            //##### BUILD #####
            subject.SetRootValue(Sample[0]);

            // First child of root
            var ptrRes = subject.AddChild(subject.Root, Sample[1]);

            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }

            // Second child of root
            ptrRes = subject.AddChild(subject.Root, Sample[2]);
            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }
            var rc2 = ptrRes.Value;

            // Child of second child
            ptrRes = subject.AddChild(rc2, Sample[3]);
            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }

            //##### WALK #####
            var body1 = subject.ReadBody(subject.Root);

            Assert.That(body1, Is.EqualTo(Sample[0]));

            var child1Res = subject.Child(subject.Root);

            Assert.IsTrue(child1Res.Success);

            var child1childRes = subject.Child(child1Res.Value);

            Assert.IsFalse(child1childRes.Success);

            var child2Res = subject.Sibling(child1Res.Value);

            Assert.IsTrue(child2Res.Success);

            var child3Res = subject.Sibling(child2Res.Value);

            Assert.IsFalse(child3Res.Success);

            var child2childRes = subject.Child(child2Res.Value);

            Assert.IsTrue(child2childRes.Success);
            var body_c2c1 = subject.ReadBody(child2childRes.Value);

            Assert.That(body_c2c1, Is.EqualTo(Sample[3]));
        }
Ejemplo n.º 11
0
        public void can_allocate_memory_from_a_pool_and_get_a_pointer()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(10), mem);

            long ptr = subject.Alloc(byteCount: Kilo.Bytes(1)).Value;

            Assert.That(ptr, Is.GreaterThanOrEqualTo(100));
        }
Ejemplo n.º 12
0
        [Test] // The vector class can be used to store larger chunks of data
        public void requesting_a_block_larger_than_a_single_area_fails()
        {
            // Doing this to keep things very simple
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(512, Mega.Bytes(1), mem);

            var result = subject.Alloc(Allocator.ArenaSize * 2);

            Assert.That(result.Success, Is.False);
        }
Ejemplo n.º 13
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        public void a_second_allocation_returns_different_memory()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(10), mem);

            long ptr1 = subject.Alloc(byteCount: 256).Value;
            long ptr2 = subject.Alloc(byteCount: 256).Value;

            Assert.That(ptr1, Is.Not.EqualTo(ptr2));
        }
Ejemplo n.º 14
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        public void can_check_for_presence_of_a_key()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new TaggedHashMap(64, new Allocator(0, Mega.Bytes(1), mem), mem);

            subject.Add(123, 0);
            subject.Add(1, 456);

            Assert.That(subject.ContainsKey(123), Is.True);
            Assert.That(subject.ContainsKey(321), Is.False);
        }
Ejemplo n.º 15
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        public void can_remove_last_child_by_an_index()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Tree <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            //##### BUILD #####
            subject.SetRootValue(Sample[0]);

            // First child of root
            var ptrRes = subject.AddChild(subject.Root, Sample[1]); if (!ptrRes.Success)

            {
                Assert.Fail("Failed to add child 1");
            }

            // ( 1 )

            // Second child of root
            ptrRes = subject.AddChild(subject.Root, Sample[2]); if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child 2");
            }
            // ( 1, 2 )

            // Third child of root
            ptrRes = subject.AddChild(subject.Root, Sample[3]); if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child 3");
            }
            // ( 1, 2, 3 )

            //##### ACTION #####
            // Delete first item
            subject.RemoveChild(parent: subject.Root, targetIndex: 2);
            // ( 1, 2 )


            //##### WALK #####
            var wres1 = subject.Child(subject.Root);
            var wres2 = subject.SiblingR(wres1);

            Assert.That(wres2.Success, Is.True, "Failed to get full chain");

            Assert.That(subject.SiblingR(wres2).Success, Is.False, "Resulting chain was too long");

            var newChild1 = subject.ReadBody(wres1.Value);

            Assert.That(newChild1, Is.EqualTo(Sample[1]), "Incorrect data (1)");

            var newChild2 = subject.ReadBody(wres2.Value);

            Assert.That(newChild2, Is.EqualTo(Sample[2]), "Incorrect data (2)");
        }
Ejemplo n.º 16
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        public void put_can_replace_an_existing_value()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new TaggedHashMap(64, new Allocator(0, Mega.Bytes(1), mem), mem);

            subject.Put(1, 1, true);
            subject.Put(1, 2, true);  // overwrite
            subject.Put(1, 3, false); // silently abort

            subject.Get(1, out var result);
            Assert.That(result, Is.EqualTo(2));
        }
Ejemplo n.º 17
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        public void allocating_enough_memory_changes_arena()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(1), mem);

            int  first  = subject.CurrentArena();
            long ptr1   = subject.Alloc(Allocator.ArenaSize).Value;
            long ptr2   = subject.Alloc(Kilo.Bytes(1)).Value;
            int  second = subject.CurrentArena();

            Assert.That(ptr1, Is.Not.EqualTo(ptr2));
            Assert.That(first, Is.Not.EqualTo(second));
        }
Ejemplo n.º 18
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        public void deallocating_an_old_allocation_does_nothing()
        {
            // Older items just hang around until the entire arena is abandoned
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(10), mem);

            long ptr1 = subject.Alloc(byteCount: 256).Value;
            long ptr2 = subject.Alloc(byteCount: 256).Value;

            subject.Deref(ptr1);
            long ptr3 = subject.Alloc(byteCount: 512).Value;

            Assert.That(ptr3, Is.GreaterThan(ptr2));
        }
Ejemplo n.º 19
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        public void can_directly_deallocate_a_pointer()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(10), mem);

            long ptr = subject.Alloc(byteCount: 256).Value;

            subject.Deref(ptr);

            var ar   = subject.CurrentArena();
            var refs = subject.ArenaRefCount(ar);

            Assert.That(refs.Value, Is.Zero);
        }
Ejemplo n.º 20
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        public void memory_exhaustion_results_in_an_error_code()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(10, Mega.Bytes(1), mem);

            Result <long> result = default;

            for (int i = 0; i < 17; i++)
            {
                result = subject.Alloc(Allocator.ArenaSize - 1);
            }

            Assert.That(result.Success, Is.False);
        }
Ejemplo n.º 21
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        public void Vector__vs__List()
        {
            var sara_time   = new Stopwatch();
            var dotnet_time = new Stopwatch();

            var mem    = new MemorySimulator(Mega.Bytes(50));
            var sara   = new Vector <int>(new Allocator(0, Mega.Bytes(50), mem), mem);
            var dotnet = new List <int>();

            sara_time.Start();
            int saraSum = 0;

            for (int i = 0; i < 2500; i++)
            {
                saraSum += i;
                sara.Push(i);
            }
            for (int i = 0; i < 2500; i++)
            {
                saraSum -= sara.Get((uint)i).Value;
            }
            for (int i = 0; i < 2500; i++)
            {
                sara.Pop();
            }
            sara_time.Stop();


            dotnet_time.Start();
            int dotnetSum = 0;

            for (int i = 0; i < 2500; i++)
            {
                dotnetSum += i;
                dotnet.Add(i);
            }
            for (int i = 0; i < 2500; i++)
            {
                dotnetSum -= dotnet[i];
            }
            for (int i = 0; i < 2500; i++)
            {
                dotnet.RemoveAt(dotnet.Count - 1);
            }
            dotnet_time.Stop();

            Assert.Pass("SArA: " + sara_time.Elapsed + " result = " + saraSum + "; dotnet: " + dotnet_time.Elapsed + " result = " + dotnetSum);
        }
Ejemplo n.º 22
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        public void popping_the_last_item_from_a_list_gives_its_value()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Vector <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            Assert.That(subject.Length(), Is.Zero);

            subject.Push(Sample1());
            subject.Push(Sample2());

            Assert.That(subject.Length(), Is.EqualTo(2));

            Assert.That(subject.Pop().Value, Is.EqualTo(Sample2()));
            Assert.That(subject.Pop().Value, Is.EqualTo(Sample1()));
            Assert.That(subject.Length(), Is.Zero);
        }
Ejemplo n.º 23
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        public void can_continue_a_sibling_chain_without_going_to_parent()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Tree <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            //##### BUILD #####
            subject.SetRootValue(Sample[0]);

            // First child of root
            var ptrRes = subject.AddChild(subject.Root, Sample[1]); if (!ptrRes.Success)

            {
                Assert.Fail("Failed to add child");
            }

            // Second child of root
            ptrRes = subject.AddChild(subject.Root, Sample[2]); if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }
            var rc2 = ptrRes.Value;

            // Child of second child
            ptrRes = subject.AddChild(rc2, Sample[3]); if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }

            //##### ACTION #####
            // add a third child to root by second child
            ptrRes = subject.AddSibling(rc2, Sample[4]);
            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add sibling");
            }

            //##### WALK #####
            var wres = subject.Child(subject.Root);

            wres = subject.SiblingR(wres);
            wres = subject.SiblingR(wres);

            Assert.That(wres.Success, Is.True, "Failed to get full chain");
            var final = subject.ReadBody(wres.Value);

            Assert.That(final, Is.EqualTo(Sample[4]), "Incorrect data");
        }
Ejemplo n.º 24
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        public void TaggedHashMap__vs__Dictionary()
        {
            var rnd         = new Random();
            var sara_time   = new Stopwatch();
            var dotnet_time = new Stopwatch();

            var mem    = new MemorySimulator(Mega.Bytes(50));
            var sara   = new TaggedHashMap(0, new Allocator(0, Mega.Bytes(50), mem), mem);
            var dotnet = new Dictionary <ulong, ulong>(0);

            sara_time.Start();
            for (ulong i = 0; i < 2500; i++)
            {
                var insKey = (ulong)rnd.Next(1, 1000000);
                var remKey = (ulong)rnd.Next(1, 1000000);

                if (!sara.Put(insKey, i, true))
                {
                    Assert.Fail("Put rejected the change at " + i);
                }
                sara.Remove(remKey);
            }
            sara_time.Stop();


            dotnet_time.Start();
            for (ulong i = 0; i < 2500; i++)
            {
                var insKey = (ulong)rnd.Next(1, 1000000);
                var remKey = (ulong)rnd.Next(1, 1000000);

                if (dotnet.ContainsKey(insKey))
                {
                    dotnet[insKey] = i;
                }
                else
                {
                    dotnet.Add(insKey, i);
                }

                dotnet.Remove(remKey);
            }
            dotnet_time.Stop();

            Assert.Pass("SArA: " + sara_time.Elapsed + "; dotnet: " + dotnet_time.Elapsed);
        }
Ejemplo n.º 25
0
        public void can_store_and_read_array_elements()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Vector <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            Assert.That(subject.Length(), Is.Zero);

            subject.Push(Sample1());
            subject.Push(Sample2());

            Assert.That(subject.Length(), Is.EqualTo(2));

            var r = subject.Get(0).Value;

            Assert.That(r, Is.EqualTo(Sample1()));
            Assert.That(subject.Get(1).Value, Is.EqualTo(Sample2()));
        }
Ejemplo n.º 26
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        public void can_overwrite_entries_by_explicit_index()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Vector <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            Assert.That(subject.Length(), Is.Zero);

            subject.Push(Sample1());
            subject.Push(Sample2());

            Assert.That(subject.Length(), Is.EqualTo(2));

            subject.Set(0, Sample3());

            Assert.That(subject.Get(0).Value, Is.EqualTo(Sample3()));
            Assert.That(subject.Get(1).Value, Is.EqualTo(Sample2()));
        }
Ejemplo n.º 27
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        public void elements_per_chunk_is_reasonable()
        {
            Console.WriteLine(Allocator.ArenaSize);


            var mem_a = new MemorySimulator(Kilo.Bytes(80));
            var mem_b = new MemorySimulator(Kilo.Bytes(80));
            var mem_c = new MemorySimulator(Kilo.Bytes(80));

            var structVector    = new Vector <SampleElement>(new Allocator(0, Kilo.Bytes(80), mem_a), mem_a);
            var bigStructVector = new Vector <HugeStruct>   (new Allocator(0, Kilo.Bytes(80), mem_b), mem_b);
            var byteVector      = new Vector <byte>         (new Allocator(0, Kilo.Bytes(80), mem_c), mem_c);

            Assert.That(byteVector.ElemsPerChunk, Is.LessThan(70));      // Not too big on small elements
            Assert.That(structVector.ElemsPerChunk, Is.GreaterThan(30));
            Assert.That(bigStructVector.ElemsPerChunk, Is.LessThan(32)); // scales down to fit arenas
        }
Ejemplo n.º 28
0
        public void after_deleting_root_node_all_memory_should_be_released()
        {
            var mem   = new MemorySimulator(Mega.Bytes(1));
            var alloc = new Allocator(0, Mega.Bytes(1), mem);

            alloc.GetState(out var bytes, out _, out _, out _, out _, out _);
            Assert.That(bytes, Is.Zero, "Allocator did not start empty");

            //##### BUILD #####
            var subject = new Tree <SampleElement>(alloc, mem);

            subject.SetRootValue(Sample[0]);

            // First child of root
            var ptrRes = subject.AddChild(subject.Root, Sample[1]);

            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }

            // Second child of root
            ptrRes = subject.AddChild(subject.Root, Sample[2]);
            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }
            var rc2 = ptrRes.Value;

            // Child of second child
            ptrRes = subject.AddChild(rc2, Sample[3]);
            if (!ptrRes.Success)
            {
                Assert.Fail("Failed to add child");
            }

            alloc.GetState(out bytes, out _, out _, out _, out _, out _);
            Assert.That(bytes, Is.Not.Zero, "No memory was allocated");

            //##### Destroy #####
            subject.Deallocate();

            alloc.GetState(out bytes, out _, out _, out _, out _, out _);
            Assert.That(bytes, Is.Zero, "Not all memory was released");
        }
Ejemplo n.º 29
0
        public void can_add_elements_after_removing_them()
        {
            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Vector <SampleElement>(new Allocator(0, Mega.Bytes(1), mem), mem);

            Assert.That(subject.Length(), Is.Zero);

            subject.Push(Sample1());
            subject.Push(Sample2());

            Assert.That(subject.Length(), Is.EqualTo(2));

            subject.Pop();
            subject.Push(Sample3());

            Assert.That(subject.Get(1).Value, Is.EqualTo(Sample3()), "Get 1 is wrong");
            Assert.That(subject.Get(0).Value, Is.EqualTo(Sample1()), "Get 0 is wrong");
        }
Ejemplo n.º 30
0
        public void can_add_and_remove_current_referenced_pointers()
        {
            // This increments and decrements ref counts?
            // Free is the equivalent of directly setting ref count to zero? Or is it just a synonym for Deref?
            // We can keep an overall refcount for the arena and ignore the individual references (except for the head, as an optimisation)
            // We don't protect from double-free

            var mem     = new MemorySimulator(Mega.Bytes(1));
            var subject = new Allocator(100, Mega.Bytes(1), mem);

            long ptr = subject.Alloc(byteCount: 256).Value;

            subject.Reference(ptr);
            subject.Reference(ptr);
            subject.Deref(ptr);

            Assert.Pass();
        }