using NUnit.Framework; using Unity.Burst; using Unity.Mathematics; namespace Burst.Compiler.IL.Tests { internal class TestConstArrays { [TestCompiler] public static int ReadFromIntArray() { return StructWithConstArray1.IntValues[1]; } [TestCompiler] public static unsafe int ReadViaFixed() { fixed (int* ptr = StructWithConstArray1.IntValues) { return ptr[2]; } } [TestCompiler] public static int ReadFromColorArray() { var color = StructWithConstArrayWithStruct1.Colors[1]; return ((color.R * 255) + color.G) * 255 + color.B; } [TestCompiler] public static int ReadFromColorArray2() { var color = StaticArrayStruct.Colors[1]; return ((color.R * 255) + color.G) * 255 + color.B; } struct StructWithConstArray1 { public static readonly int[] IntValues = new int[4] { 1, 2, 3, 4 }; } struct StructWithConstArrayWithStruct1 { public static readonly Color[] Colors = { new Color(), new Color(1, 2, 3, 255) }; } private struct Color { public Color(byte r, byte g, byte b, byte a) { R = r; G = g; B = b; A = a; } public byte R, G, B, A; } private struct StaticArrayStruct { public static readonly double[] Doubles = { 3, 6, 9, 42, 43 }; public static readonly byte[] Bytes = { 1, 2, 3 }; public static readonly ushort[] UShorts = { 2, 6, 8, 2, 0 }; public static readonly int[] Ints = { -6, 6, 50 }; public static readonly int[] ZeroData = { 0, 0, 0, 0 }; public static readonly int[] ZeroLength = { }; public static readonly Color[] ZeroLengthStruct = { }; public static readonly Color[] Colors = { new Color(), new Color(1, 2, 3, 255) }; public static readonly int3[] Positions = { new int3(0, 0, 1), new int3(0, 1, 0), new int3(1, 0, 0) }; } [TestCompiler] public static int TestStaticReadonlyArrayLength() { return StaticArrayStruct.Doubles.Length + StaticArrayStruct.Bytes.Length + StaticArrayStruct.UShorts.Length + StaticArrayStruct.Ints.Length + StaticArrayStruct.ZeroData.Length + StaticArrayStruct.ZeroLength.Length + StaticArrayStruct.ZeroLengthStruct.Length + StaticArrayStruct.Colors.Length + StaticArrayStruct.Positions.Length; } private struct StructP { public static readonly int[] Value = new int[One()]; public static int One() { return 1; } } [TestCompiler] public static int TestStaticReadonlyArrayNonConstantLength() { return StructP.Value.Length; } private struct StructQ { public static readonly int[] Value = new int[10]; public static int One() { return 1; } static StructQ() { Value[One()] = 1; } } [TestCompiler] public static int TestStaticReadonlyArrayWithNonConstantStelemIndex() { return StructQ.Value[1]; } private struct StructR { #pragma warning disable 0649 public static int[] Value; #pragma warning restore 0649 static StructR() { Value[0] = 1; } } [TestCompiler(ExpectCompilerException = true, ExpectedDiagnosticId = DiagnosticId.ERR_LoadingFromManagedNonReadonlyStaticFieldNotSupported)] public static int TestStaticReadonlyArrayExplicitConstructionOfUninitialized() { return StructR.Value.Length; } private struct StructS { public static readonly int[] Value = new int[10]; static StructS() { Value[0] = 1; Value[1] = 2; Value[2] = 8; Value[3] = 2; Value[4] = 0; Value[5] = 2; Value[6] = 1; Value[7] = 2; Value[8] = 2; Value[9] = 3; } } [TestCompiler] public static int TestStaticReadonlyArrayExplicitConstruction() { int sum = 0; for (int i = 0; i < 10; i++) sum += StructS.Value[i]; return sum; } [TestCompiler] public static int TestStaticReadonlyArrayLdelem() { var doubles = StaticArrayStruct.Doubles[0]; for (int i = 1; i < StaticArrayStruct.Doubles.Length; i++) doubles += StaticArrayStruct.Doubles[i]; var bytes = StaticArrayStruct.Bytes[0]; for (int i = 1; i < StaticArrayStruct.Bytes.Length; i++) bytes += StaticArrayStruct.Bytes[i]; var ushorts = StaticArrayStruct.UShorts[0]; for (int i = 1; i < StaticArrayStruct.UShorts.Length; i++) ushorts += StaticArrayStruct.UShorts[i]; var ints = StaticArrayStruct.Ints[0]; for (int i = 1; i < StaticArrayStruct.Ints.Length; i++) ints += StaticArrayStruct.Ints[i]; ints += StaticArrayStruct.ZeroData[0]; for (int i = 1; i < StaticArrayStruct.ZeroData.Length; i++) ints += StaticArrayStruct.ZeroData[i]; for (int i = 0; i < StaticArrayStruct.ZeroLength.Length; i++) doubles += StaticArrayStruct.ZeroLength[i]; bytes = (byte)(StaticArrayStruct.Colors[0].R + StaticArrayStruct.Colors[0].G + StaticArrayStruct.Colors[0].B + StaticArrayStruct.Colors[0].A); for (int i = 1; i < StaticArrayStruct.Colors.Length; i++) bytes += (byte)(StaticArrayStruct.Colors[i].R + StaticArrayStruct.Colors[i].G + StaticArrayStruct.Colors[i].B + StaticArrayStruct.Colors[i].A); for (int i = 1; i < StaticArrayStruct.Positions.Length; i++) ints += math.dot(StaticArrayStruct.Positions[i - 1], StaticArrayStruct.Positions[i]); return (int)doubles + bytes + ushorts + ints; } private static T TakesRef(ref T x) { return x; } [TestCompiler] public static int TestStaticReadonlyArrayWithElementRef() { return TakesRef(ref StaticArrayStruct.Ints[1]); } [TestCompiler] public static int TestStaticReadonlyArrayWithElementVectorRef() { var x = TakesRef(ref StaticArrayStruct.Positions[1]); return math.dot(x, x); } [TestCompiler(1)] [TestCompiler(2)] [TestCompiler(3)] [TestCompiler(4)] public static int TestStaticReadonlyArrayWithDynamicLdelem(int count) { int sum = 0; for (int i = 0; i < count; i++) { sum += (int)StaticArrayStruct.Doubles[i]; } return sum; } public struct ContainerStruct { public SmallStruct A; public SmallStruct B; public static readonly ContainerStruct[] CoolStructs = { new ContainerStruct { A = new SmallStruct { a = 3, b = 5 }, B = new SmallStruct { a = 9, b = 10 } }, new ContainerStruct { A = new SmallStruct { a = 1, b = 5 }, B = new SmallStruct { a = 7, b = 8 } } }; } [TestCompiler] public static int TestStaticReadonlyArrayOfStructOfStructs() { return ContainerStruct.CoolStructs[0].A.a + ContainerStruct.CoolStructs[0].A.b + ContainerStruct.CoolStructs[0].B.a + ContainerStruct.CoolStructs[0].B.b + ContainerStruct.CoolStructs[1].A.a + ContainerStruct.CoolStructs[1].A.b + ContainerStruct.CoolStructs[1].B.a + ContainerStruct.CoolStructs[1].B.b; } /* There's currently no way of settings the safety checks on from here [TestCompiler(0xFFFFFFF, ExpectedException = typeof(IndexOutOfRangeException))] public static int TestStaticReadonlyLdelemDynamicIndexOfBounds(int x) { return StaticArrayStruct.Ints[x]; } */ public struct SmallStruct { public int a; public int b; } public struct NullArrayHolder { public static readonly int[] Array = null; } [TestCompiler()] public static int TestStaticReadonlyNullArray() { if (NullArrayHolder.Array == null) { return 40; } return 3; } } }