using NUnit.Framework; using System; using System.Runtime.InteropServices; using Unity.Burst; using Unity.Collections; using Unity.Collections.LowLevel.Unsafe; using Unity.Collections.Tests; using Unity.Jobs; using Unity.Mathematics; using UnityEngine; using UnityEngine.TestTools; #if !NET_DOTS using System.Text.RegularExpressions; #endif using Assert = FastAssert; internal class NativeBitArrayTests : CollectionsTestFixture { [Test] public void NativeBitArray_Get_Set_Long() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.False(test.IsSet(123)); test.Set(123, true); Assert.True(test.IsSet(123)); Assert.False(test.TestAll(0, numBits)); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAny(0, numBits)); Assert.AreEqual(1, test.CountBits(0, numBits)); Assert.False(test.TestAll(0, 122)); Assert.True(test.TestNone(0, 122)); Assert.False(test.TestAny(0, 122)); test.Clear(); Assert.False(test.IsSet(123)); Assert.AreEqual(0, test.CountBits(0, numBits)); test.SetBits(40, true, 4); Assert.AreEqual(4, test.CountBits(0, numBits)); test.SetBits(0, true, numBits); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAll(0, numBits)); test.SetBits(0, false, numBits); Assert.True(test.TestNone(0, numBits)); Assert.False(test.TestAll(0, numBits)); test.SetBits(123, true, 7); Assert.True(test.TestAll(123, 7)); test.Clear(); test.SetBits(64, true, 64); Assert.AreEqual(false, test.IsSet(63)); Assert.AreEqual(true, test.TestAll(64, 64)); Assert.AreEqual(false, test.IsSet(128)); Assert.AreEqual(64, test.CountBits(64, 64)); Assert.AreEqual(64, test.CountBits(0, numBits)); test.Clear(); test.SetBits(65, true, 62); Assert.AreEqual(false, test.IsSet(64)); Assert.AreEqual(true, test.TestAll(65, 62)); Assert.AreEqual(false, test.IsSet(127)); Assert.AreEqual(62, test.CountBits(64, 64)); Assert.AreEqual(62, test.CountBits(0, numBits)); test.Clear(); test.SetBits(66, true, 64); Assert.AreEqual(false, test.IsSet(65)); Assert.AreEqual(true, test.TestAll(66, 64)); Assert.AreEqual(false, test.IsSet(130)); Assert.AreEqual(64, test.CountBits(66, 64)); Assert.AreEqual(64, test.CountBits(0, numBits)); test.Dispose(); } [Test] public void NativeBitArray_Get_Set_Short() { var numBits = 31; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.False(test.IsSet(13)); test.Set(13, true); Assert.True(test.IsSet(13)); Assert.False(test.TestAll(0, numBits)); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAny(0, numBits)); Assert.AreEqual(1, test.CountBits(0, numBits)); Assert.False(test.TestAll(0, 12)); Assert.True(test.TestNone(0, 12)); Assert.False(test.TestAny(0, 12)); test.Clear(); Assert.False(test.IsSet(13)); Assert.AreEqual(0, test.CountBits(0, numBits)); test.SetBits(4, true, 4); Assert.AreEqual(4, test.CountBits(0, numBits)); test.SetBits(0, true, numBits); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAll(0, numBits)); test.SetBits(0, false, numBits); Assert.True(test.TestNone(0, numBits)); Assert.False(test.TestAll(0, numBits)); test.SetBits(13, true, 7); Assert.True(test.TestAll(13, 7)); test.Clear(); test.SetBits(4, true, 4); Assert.AreEqual(false, test.IsSet(3)); Assert.AreEqual(true, test.TestAll(4, 4)); Assert.AreEqual(false, test.IsSet(18)); Assert.AreEqual(4, test.CountBits(4, 4)); Assert.AreEqual(4, test.CountBits(0, numBits)); test.Clear(); test.SetBits(5, true, 2); Assert.AreEqual(false, test.IsSet(4)); Assert.AreEqual(true, test.TestAll(5, 2)); Assert.AreEqual(false, test.IsSet(17)); Assert.AreEqual(2, test.CountBits(4, 4)); Assert.AreEqual(2, test.CountBits(0, numBits)); test.Clear(); test.SetBits(6, true, 4); Assert.AreEqual(false, test.IsSet(5)); Assert.AreEqual(true, test.TestAll(6, 4)); Assert.AreEqual(false, test.IsSet(10)); Assert.AreEqual(4, test.CountBits(6, 4)); Assert.AreEqual(4, test.CountBits(0, numBits)); test.Dispose(); } [Test] public void NativeBitArray_Get_Set_Tiny() { var numBits = 7; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.False(test.IsSet(3)); test.Set(3, true); Assert.True(test.IsSet(3)); Assert.False(test.TestAll(0, numBits)); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAny(0, numBits)); Assert.AreEqual(1, test.CountBits(0, numBits)); Assert.False(test.TestAll(0, 2)); Assert.True(test.TestNone(0, 2)); Assert.False(test.TestAny(0, 2)); test.Clear(); Assert.False(test.IsSet(3)); Assert.AreEqual(0, test.CountBits(0, numBits)); test.SetBits(3, true, 4); Assert.AreEqual(4, test.CountBits(0, numBits)); test.SetBits(0, true, numBits); Assert.False(test.TestNone(0, numBits)); Assert.True(test.TestAll(0, numBits)); test.SetBits(0, false, numBits); Assert.True(test.TestNone(0, numBits)); Assert.False(test.TestAll(0, numBits)); test.Dispose(); } [Test] public unsafe void NativeBitArray_Throws() { var numBits = 256; Assert.Throws(() => { new NativeBitArray(numBits, Allocator.None); }); using (var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory)) { Assert.DoesNotThrow(() => { test.TestAll(0, numBits); }); Assert.DoesNotThrow(() => { test.TestAny(numBits - 1, numBits); }); Assert.Throws(() => { test.IsSet(-1); }); Assert.Throws(() => { test.IsSet(numBits); }); Assert.Throws(() => { test.TestAny(0, 0); }); Assert.Throws(() => { test.TestAny(numBits, 1); }); Assert.Throws(() => { test.TestAny(numBits - 1, 0); }); // GetBits numBits must be 1-64. Assert.Throws(() => { test.GetBits(0, 0); }); Assert.Throws(() => { test.GetBits(0, 65); }); Assert.DoesNotThrow(() => { test.GetBits(63, 2); }); } } void GetBitsTest(ref NativeBitArray test, int pos, int numBits) { test.SetBits(pos, true, numBits); Assert.AreEqual(numBits, test.CountBits(0, test.Length)); Assert.AreEqual(0xfffffffffffffffful >> (64 - numBits), test.GetBits(pos, numBits)); test.Clear(); } [Test] public void NativeBitArray_GetBits() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); GetBitsTest(ref test, 0, 5); GetBitsTest(ref test, 1, 3); GetBitsTest(ref test, 0, 63); GetBitsTest(ref test, 0, 64); GetBitsTest(ref test, 1, 63); GetBitsTest(ref test, 1, 64); GetBitsTest(ref test, 62, 5); GetBitsTest(ref test, 127, 3); GetBitsTest(ref test, 250, 6); GetBitsTest(ref test, 254, 2); test.Dispose(); } static void SetBitsTest(ref NativeBitArray test, int pos, ulong value, int numBits) { test.SetBits(pos, value, numBits); if (value != test.GetBits(pos, numBits)) throw new Exception("Assert.Equals(value, test.GetBits(pos, numBits)) failed"); test.Clear(); } [Test] public void NativeBitArray_SetBits() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); SetBitsTest(ref test, 0, 16, 5); SetBitsTest(ref test, 1, 7, 3); SetBitsTest(ref test, 1, 32, 64); SetBitsTest(ref test, 62, 6, 5); SetBitsTest(ref test, 127, 1, 3); SetBitsTest(ref test, 60, 0xaa, 8); test.Dispose(); } static void CopyBitsTest(ref NativeBitArray test, int dstPos, int srcPos, int numBits) { for (int pos = 0; pos < test.Length; pos += 64) { test.SetBits(pos, 0xaaaaaaaaaaaaaaaaul, 64); } test.SetBits(srcPos, true, numBits); test.Copy(dstPos, srcPos, numBits); Assert.AreEqual(true, test.TestAll(dstPos, numBits)); for (int pos = 0; pos < test.Length; ++pos) { if ((pos >= dstPos && pos < dstPos + numBits) || (pos >= srcPos && pos < srcPos + numBits)) { Assert.AreEqual(true, test.IsSet(pos)); } else { Assert.AreEqual((0 != (pos & 1)), test.IsSet(pos)); } } test.Clear(); } [Test] public void NativeBitArray_Copy() { var numBits = 512; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); CopyBitsTest(ref test, 1, 16, 12); // short up to 64-bits copy CopyBitsTest(ref test, 1, 80, 63); // short up to 64-bits copy CopyBitsTest(ref test, 1, 11, 12); // short up to 64-bits copy overlapped CopyBitsTest(ref test, 11, 1, 12); // short up to 64-bits copy overlapped CopyBitsTest(ref test, 1, 16, 76); // short up to 128-bits copy CopyBitsTest(ref test, 1, 80, 127); // short up to 128-bits copy CopyBitsTest(ref test, 1, 11, 76); // short up to 128-bits copy overlapped CopyBitsTest(ref test, 11, 1, 76); // short up to 128-bits copy overlapped CopyBitsTest(ref test, 1, 81, 255); // long copy aligned CopyBitsTest(ref test, 8, 0, 255); // long copy overlapped aligned CopyBitsTest(ref test, 1, 80, 255); // long copy unaligned CopyBitsTest(ref test, 80, 1, 255); // long copy overlapped unaligned test.Dispose(); } [Test] [IgnoreInPortableTests("Portable Test Runner can't do the FixedString128 compare.")] public unsafe void NativeBitArray_CopyBetweenBitArrays() { var numBits = 512; var str = new FixedString128Bytes("aAbBcCdDeEfFgGhHiIjJkKlLmMnNoOpPqQrRsStTuUvVwWxXyYzZ"); AtomicSafetyHandle ash; DisposeSentinel ds; DisposeSentinel.Create(out ash, out ds, 1, Allocator.Temp); var test0 = NativeBitArrayUnsafeUtility.ConvertExistingDataToNativeBitArray(&str.bytes.offset0000, 64, Allocator.None); NativeBitArrayUnsafeUtility.SetAtomicSafetyHandle(ref test0, ash); var test1 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); var test2 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); for (int pos = 0; pos < test0.Length; pos += 64) { test1.SetBits(pos, 0x5555555555555555ul, 64); test2.SetBits(pos, 0xaaaaaaaaaaaaaaaaul, 64); } test1.Copy(1, ref test0, 205, 211); test1.Copy(214, ref test0, 0, 205); test2.Copy(205, ref test1, 1, 211); test2.Copy(0, ref test1, 214, 205); test0.Copy(0, ref test2, 0, 512); Assert.AreEqual(str, "aAbBcCdDeEfFgGhHiIjJkKlLmMnNoOpPqQrRsStTuUvVwWxXyYzZ"); test0.Dispose(); test1.Dispose(); test2.Dispose(); } [Test] public unsafe void NativeBitArray_Copy_Throws() { var numBits = 512; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.Throws(() => { CopyBitsTest(ref test, 0, numBits - 1, 16); }); // short up to 64-bits copy out of bounds Assert.Throws(() => { CopyBitsTest(ref test, numBits - 1, 0, 16); }); // short up to 64-bits copy out of bounds Assert.Throws(() => { CopyBitsTest(ref test, 0, numBits - 1, 80); }); // short up to 128-bits copy out of bounds Assert.Throws(() => { CopyBitsTest(ref test, numBits - 1, 0, 80); }); // short up to 128-bits copy out of bounds Assert.Throws(() => { CopyBitsTest(ref test, 1, numBits - 7, 127); }); // long copy aligned Assert.Throws(() => { CopyBitsTest(ref test, numBits - 7, 1, 127); }); // long copy aligned Assert.Throws(() => { CopyBitsTest(ref test, 2, numBits - 1, 127); }); // long copy unaligned Assert.Throws(() => { CopyBitsTest(ref test, numBits - 1, 2, 127); }); // long copy unaligned test.Dispose(); } [Test] public unsafe void NativeBitArray_Find() { var numBits = 512; using (var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory)) { test.SetBits(0, true, 11); for (var i = 0; i < 256; ++i) { Assert.AreEqual(11, test.Find(0, i + 1)); } for (var j = 0; j < 64; ++j) { for (var i = 0; i < 256; ++i) { var numBitsToFind = 7 + i; var pos = 37 + j; test.SetBits(0, true, test.Length); test.SetBits(pos, false, numBitsToFind); Assert.AreEqual(pos, test.Find(0, numBitsToFind)); //, $"{j}/{i}: pos {pos}, numBitsToFind {numBitsToFind}"); Assert.AreEqual(pos, test.Find(pos, numBitsToFind)); //, $"{j}/{i}:pos {pos}, numBitsToFind {numBitsToFind}"); Assert.AreEqual(pos, test.Find(0, numBitsToFind)); //, $"{j}/{i}: pos {pos}, numBitsToFind {numBitsToFind}"); Assert.AreEqual(pos, test.Find(pos, numBitsToFind)); //, $"{j}/{i}: pos {pos}, numBitsToFind {numBitsToFind}"); Assert.IsTrue(test.TestNone(test.Find(0, numBitsToFind), numBitsToFind)); Assert.AreEqual(int.MaxValue, test.Find(pos + 1, numBitsToFind)); //, $"{j}/{i}: pos {pos}, numBitsToFind {numBitsToFind}"); } } } } [Test] public unsafe void NativeBitArray_Find_With_Begin_End() { var numBits = 512; using (var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory)) { Assert.AreEqual(0, test.Find(0, 2, 1)); Assert.AreEqual(1, test.Find(1, 2, 1)); test.SetBits(0, true, 6); Assert.AreEqual(int.MaxValue, test.Find(0, 2, 1)); for (var j = 0; j < 64; ++j) { for (var i = 0; i < 256; ++i) { var numBitsToFind = 7 + i; var padding = 11; var begin = 37 + j; var end = begin + padding + numBitsToFind; var count = end - begin; test.Clear(); test.SetBits(begin, true, count); test.SetBits(begin + padding + 1, false, numBitsToFind - 1); Assert.AreEqual(begin + padding + 1, test.Find(begin, count, numBitsToFind - 1)); //, $"{j}/{i}: begin {begin}, end {end}, count {count}, numBitsToFind {numBitsToFind}"); Assert.AreEqual(int.MaxValue, test.Find(begin, count, numBitsToFind)); //, $"{j}/{i}: begin {begin}, end {end}, count {count}, numBitsToFind {numBitsToFind}"); } } } } [Test] public unsafe void NativeBitArray_Find_Throws() { var numBits = 512; using (var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory)) { Assert.Throws(() => { test.Find(0, 0, 1); }); // empty range Assert.Throws(() => { test.Find(0, 1, 0); }); // zero bits Assert.Throws(() => { test.Find(0, 1, 2); }); // numBits is larger than range Assert.Throws(() => { test.Find(10, 0, 0); }); // empty range, numBits is less than 1 Assert.Throws(() => { test.Find(1, 10, -2); }); // numBits can't be negative } } [Test] public void NativeBitArray_AsNativeArray_Byte() { var numBits = 64; var test0 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); var test1 = test0.AsNativeArray(); Assert.AreEqual(numBits / 8, test1.Length); test1[0] = 0x10; test1[1] = 0x32; test1[2] = 0x54; test1[3] = 0x76; test1[4] = 0x98; test1[5] = 0xba; test1[6] = 0xdc; test1[7] = 0xfe; for (var i = 0; i < 16; ++i) { NUnit.Framework.Assert.AreEqual(i, test0.GetBits(i * 4, 4)); } test0.Dispose(); test1.Dispose(); } [Test] public void NativeBitArray_AsNativeArray_Uint() { var numBits = 64; var test0 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); var test1 = test0.AsNativeArray(); Assert.AreEqual(numBits / 32, test1.Length); test1[0] = 0x76543210; test1[1] = 0xfedcba98; for (var i = 0; i < 16; ++i) { NUnit.Framework.Assert.AreEqual(i, test0.GetBits(i * 4, 4)); } test0.Dispose(); test1.Dispose(); } [Test] public void NativeBitArray_AsNativeArray_Ulong() { var numBits = 64; var test0 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); var test1 = test0.AsNativeArray(); Assert.AreEqual(numBits / 64, test1.Length); test1[0] = 0xfedcba9876543210; for (var i = 0; i < 16; ++i) { NUnit.Framework.Assert.AreEqual(i, test0.GetBits(i * 4, 4)); } test0.Dispose(); test1.Dispose(); } [StructLayout(LayoutKind.Explicit, Size = 16)] internal struct SizeMismatch128 { } [StructLayout(LayoutKind.Explicit, Size=7)] internal struct SizeMismatch56 { } [Test] public void NativeBitArray_AsNativeArray_ThrowsOnSizeMismatch() { var numBits = 64; var test0 = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.Throws(() => { test0.AsNativeArray(); }); Assert.Throws(() => { test0.AsNativeArray(); }); test0.Dispose(); } // Burst error BC1071: Unsupported assert type // [BurstCompile(CompileSynchronously = true)] struct NativeBitArrayTestParallelReader : IJob { [ReadOnly] public NativeBitArray reader; public void Execute() { var rd = reader; Assert.Throws(() => { rd.Set(7, false); }); Assert.True(reader.IsSet(7)); } } [Test] public void NativeBitArray_ParallelReader() { var numBits = 256; var reader = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); reader.Set(7, true); var readerJob = new NativeBitArrayTestParallelReader { reader = reader }.Schedule(); var from = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.Throws(() => { reader.Copy(7, ref from, 30, 10); } /* attempt to write into reader after job is scheduled */); from.Dispose(); reader.Dispose(readerJob); readerJob.Complete(); } // These tests require: // - JobsDebugger support for static safety IDs (added in 2020.1) // - Asserting throws #if !UNITY_DOTSRUNTIME [Test,DotsRuntimeIgnore] public void NativeBitArray_UseAfterFree_UsesCustomOwnerTypeName() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); SetBitsTest(ref test, 0, 16, 5); test.Dispose(); NUnit.Framework.Assert.That(() => test.IsSet(0), Throws.Exception.TypeOf() .With.Message.Contains($"The {test.GetType()} has been deallocated")); } [Test,DotsRuntimeIgnore] public void NativeBitArray_AtomicSafetyHandle_AllocatorTemp_UniqueStaticSafetyIds() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Temp, NativeArrayOptions.ClearMemory); // All collections that use Allocator.Temp share the same core AtomicSafetyHandle. // This test verifies that containers can proceed to assign unique static safety IDs to each // AtomicSafetyHandle value, which will not be shared by other containers using Allocator.Temp. var test0 = new NativeBitArray(numBits, Allocator.Temp, NativeArrayOptions.ClearMemory); var test1 = new NativeBitArray(numBits, Allocator.Temp, NativeArrayOptions.ClearMemory); SetBitsTest(ref test0, 0, 16, 5); test0.Dispose(); NUnit.Framework.Assert.That(() => test0.IsSet(0), Throws.Exception.With.TypeOf() .With.Message.Contains($"The {test0.GetType()} has been deallocated")); SetBitsTest(ref test1, 0, 16, 5); test1.Dispose(); NUnit.Framework.Assert.That(() => test1.IsSet(0), Throws.Exception.With.TypeOf() .With.Message.Contains($"The {test1.GetType()} has been deallocated")); } #endif [BurstCompile(CompileSynchronously = true)] struct NativeBitArrayCreateAndUseAfterFreeBurst : IJob { public void Execute() { var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Temp, NativeArrayOptions.ClearMemory); SetBitsTest(ref test, 0, 16, 5); test.Dispose(); SetBitsTest(ref test, 0, 16, 5); } } #if !NET_DOTS && !UNITY_DOTSRUNTIME // DOTS-Runtime does throw an exception. [Test] public void NativeBitArray_CreateAndUseAfterFreeInBurstJob_UsesCustomOwnerTypeName() { // Make sure this isn't the first container of this type ever created, so that valid static safety data exists var numBits = 256; var test = new NativeBitArray(numBits, Allocator.Persistent, NativeArrayOptions.ClearMemory); test.Dispose(); var job = new NativeBitArrayCreateAndUseAfterFreeBurst { }; // Two things: // 1. This exception is logged, not thrown; thus, we use LogAssert to detect it. // 2. Calling write operation after container.Dispose() emits an unintuitive error message. For now, all this test cares about is whether it contains the // expected type name. job.Run(); LogAssert.Expect(LogType.Exception, new Regex($"InvalidOperationException: The {Regex.Escape(test.GetType().ToString())} has been declared as \\[ReadOnly\\] in the job, but you are writing to it")); } #endif void findWithPattern(ref NativeBitArray test, byte pattern, int numBits) { for (int pos = 0; pos < test.Length; pos += 8) { test.SetBits(pos, pattern, 8); } var bitCount = math.countbits((int)pattern); var numEmptyBits = test.Length - (test.Length / 8 * bitCount); for (int i = 0; i < numEmptyBits; i += numBits) { var pos = test.Find(0, numBits); Assert.AreNotEqual(int.MaxValue, pos, $"{i}"); test.SetBits(pos, true, numBits); } Assert.True(test.TestAll(0, test.Length)); } [Test] public void NativeBitArray_FindWithPattern() { var test = new NativeBitArray(512, Allocator.Persistent, NativeArrayOptions.ClearMemory); // Separated test for some more interesting patterns findWithPattern(ref test, 0x81, 1); findWithPattern(ref test, 0x81, 2); findWithPattern(ref test, 0x81, 3); findWithPattern(ref test, 0x81, 6); findWithPattern(ref test, 0x88, 3); findWithPattern(ref test, 0x99, 2); findWithPattern(ref test, 0xaa, 1); findWithPattern(ref test, 0xc3, 1); findWithPattern(ref test, 0xc3, 2); findWithPattern(ref test, 0xc3, 4); findWithPattern(ref test, 0xe7, 1); findWithPattern(ref test, 0xe7, 2); // Test all patterns for (int i = 0; i < 256; i++) { findWithPattern(ref test, (byte)i, 1); } test.Dispose(); } [Test] public void NativeBitArray_FindInTinyBitArray() { var test = new NativeBitArray(3, Allocator.Persistent, NativeArrayOptions.ClearMemory); Assert.AreEqual(3, test.Length); test.SetBits(0, 0x55, test.Length); Assert.AreEqual(1, test.Find(0, 1)); Assert.AreEqual(1, test.Find(0, test.Length, 1)); test.SetBits(1, true, 1); Assert.True(test.TestAll(0, test.Length)); Assert.AreEqual(int.MaxValue, test.Find(0, test.Length, 1)); test.Dispose(); } [Test] public void NativeBitArray_FindLastUnsetBit([NUnit.Framework.Range(1, 64)] int numBits) { using (var bits = new NativeBitArray(numBits, Allocator.Persistent)) { // Set all bits to one then unset a single bit to find. for (int i = 0; i < numBits; ++i) { bits.SetBits(0, true, numBits); bits.Set(i, false); Assert.AreEqual(i, bits.Find(0, 1)); } } } [Test] public void NativeBitArray_CustomAllocatorTest() { AllocatorManager.Initialize(); var allocatorHelper = new AllocatorHelper(AllocatorManager.Persistent); allocatorHelper.Allocator.Initialize(); using (var bitset = new NativeBitArray(1, allocatorHelper.Allocator.Handle)) { } Assert.IsTrue(allocatorHelper.Allocator.WasUsed); allocatorHelper.Allocator.Dispose(); allocatorHelper.Dispose(); AllocatorManager.Shutdown(); } [BurstCompile] struct BurstedCustomAllocatorJob : IJob { [NativeDisableUnsafePtrRestriction] public unsafe CustomAllocatorTests.CountingAllocator* Allocator; public void Execute() { unsafe { using (var container = new NativeBitArray(1, Allocator->Handle)) { } } } } [Test] public unsafe void NativeBitArray_BurstedCustomAllocatorTest() { AllocatorManager.Initialize(); var allocatorHelper = new AllocatorHelper(AllocatorManager.Persistent); ref var allocator = ref allocatorHelper.Allocator; allocatorHelper.Allocator.Initialize(); var allocatorPtr = (CustomAllocatorTests.CountingAllocator*)UnsafeUtility.AddressOf(ref allocator); unsafe { var handle = new BurstedCustomAllocatorJob {Allocator = allocatorPtr}.Schedule(); handle.Complete(); } Assert.IsTrue(allocator.WasUsed); allocator.Dispose(); allocatorHelper.Dispose(); AllocatorManager.Shutdown(); } }