Firstborn/Library/PackageCache/com.unity.burst@1.7.3/Tests/Runtime/Shared/030-Expressions.cs
Schaken-Mods b486678290 Library -Artifacts
Library -Artifacts
2023-03-28 12:24:16 -05:00

1520 lines
42 KiB
C#

using System;
using Burst.Compiler.IL.Tests.Helpers;
using NUnit.Framework;
using Unity.Mathematics;
namespace Burst.Compiler.IL.Tests
{
internal partial class Expressions
{
[TestCompiler((uint)(1 << 20))]
[TestCompiler((uint)(1 << 15))]
[TestCompiler(UInt32.MaxValue)]
public static float ConvertUIntToFloat(uint rx)
{
var x = 2 * ((float)rx / uint.MaxValue - 0.5f);
return x;
}
[TestCompiler((int)(1 << 20))]
[TestCompiler((int)(1 << 15))]
[TestCompiler(int.MinValue)]
[TestCompiler(int.MaxValue)]
public static float ConvertIntToFloat(int rx)
{
return (float) rx / -((float) int.MinValue);
}
[TestCompiler((int)-1, (uint)17)]
[TestCompiler((int)(1 << 20), (uint)17)]
[TestCompiler((int)(1 << 15), (uint)17)]
[TestCompiler(int.MinValue, (uint)17)]
[TestCompiler(int.MaxValue, (uint)17)]
public static double ConvertIntToDouble(int rx, uint ry)
{
return (double)(rx + (int)ry) * 0.5;
}
[TestCompiler((int)-1, (uint)17)]
[TestCompiler((int)(1 << 20), (uint)17)]
[TestCompiler((int)(1 << 15), (uint)17)]
[TestCompiler(int.MinValue, (uint)17)]
[TestCompiler(int.MaxValue, (uint)17)]
public static double ConvertIntToDouble2(int rx, uint ry)
{
return (double)((uint)rx + ry) * 0.5;
}
[TestCompiler(int.MinValue)]
[TestCompiler(-15)]
[TestCompiler(-1)]
[TestCompiler(1)]
[TestCompiler(15)]
[TestCompiler(int.MaxValue)]
public static long ConvertIntToLong(int value)
{
return value;
}
[TestCompiler(int.MinValue)]
[TestCompiler(-15)]
[TestCompiler(-1)]
[TestCompiler(1)]
[TestCompiler(15)]
[TestCompiler(int.MaxValue)]
public static ulong ConvertIntToULong(int value)
{
return (ulong)value;
}
[TestCompiler]
public static ulong ConvertIntToLongConst()
{
return int.MaxValue;
}
[TestCompiler(1U)]
[TestCompiler(15U)]
[TestCompiler(uint.MaxValue)]
public static long ConvertUIntToLong(uint value)
{
return value;
}
[TestCompiler]
public static ulong ConvertUIntToLongConst()
{
return uint.MaxValue;
}
[TestCompiler(1U)]
[TestCompiler(15U)]
[TestCompiler(uint.MaxValue)]
public static ulong ConvertUIntToULong(uint value)
{
return value;
}
[TestCompiler]
public static ulong ConvertUIntToULongConst()
{
return uint.MaxValue;
}
[TestCompiler(short.MinValue)]
[TestCompiler((short)-15)]
[TestCompiler((short)-1)]
[TestCompiler((short)1)]
[TestCompiler((short)15)]
[TestCompiler(short.MaxValue)]
public static int ConvertShortToInt(short value)
{
return value;
}
[TestCompiler]
public static int ConvertShortToIntConstMin()
{
return short.MinValue;
}
[TestCompiler]
public static int ConvertShortToIntConstMax()
{
return short.MaxValue;
}
[TestCompiler]
public static int ConvertUShortToIntConstMax()
{
return ushort.MaxValue;
}
[TestCompiler]
public static uint ConvertUShortToUIntConstMax()
{
return ushort.MaxValue;
}
[TestCompiler(short.MinValue)]
[TestCompiler((short)-15)]
[TestCompiler((short)-1)]
[TestCompiler((short)1)]
[TestCompiler((short)15)]
[TestCompiler(short.MaxValue)]
public static long ConvertShortToLong(short value)
{
return value;
}
[TestCompiler]
public static long ConvertShortToLongConstMin()
{
return short.MinValue;
}
[TestCompiler]
public static long ConvertShortToLongConstMax()
{
return short.MaxValue;
}
[TestCompiler(short.MinValue)]
[TestCompiler((short)-15)]
[TestCompiler((short)-1)]
[TestCompiler((short)1)]
[TestCompiler((short)15)]
[TestCompiler(short.MaxValue)]
public static ulong ConvertShortToULong(short value)
{
return (ulong)value;
}
[TestCompiler]
public static ulong ConvertShortToULongConstMin()
{
return unchecked((ulong)short.MinValue);
}
[TestCompiler]
public static ulong ConvertShortToULongConstMax()
{
return (ulong)short.MaxValue;
}
[TestCompiler(sbyte.MinValue)]
[TestCompiler((sbyte)-15)]
[TestCompiler((sbyte)-1)]
[TestCompiler((sbyte)1)]
[TestCompiler((sbyte)15)]
[TestCompiler(sbyte.MaxValue)]
public static long ConvertSbyteToLong(sbyte value)
{
return value;
}
[TestCompiler]
public static long ConvertSbyteToLongConstMin()
{
return sbyte.MinValue;
}
[TestCompiler]
public static long ConvertSbyteToLongConstMax()
{
return sbyte.MinValue;
}
[TestCompiler(sbyte.MinValue)]
[TestCompiler((sbyte)-15)]
[TestCompiler((sbyte)-1)]
[TestCompiler((sbyte)1)]
[TestCompiler((sbyte)15)]
[TestCompiler(sbyte.MaxValue)]
public static uint ConvertSbyteToUInt(sbyte value)
{
return (uint)value;
}
[TestCompiler]
public static uint ConvertSbyteToUIntConstMin()
{
return unchecked((uint)sbyte.MinValue);
}
[TestCompiler]
public static uint ConvertSbyteToUIntConstMax()
{
return unchecked((uint)sbyte.MinValue);
}
[Ignore("Incorrect results in mono")]
[TestCompiler(0.0f)]
[TestCompiler(1.0f)]
[TestCompiler(0.5f)]
[TestCompiler(0.1f)]
[TestCompiler(0.9f, OverrideResultOnMono = 135)]
public static byte ConvertFloatToByte(float value)
{
return (byte) (150 * value);
}
[TestCompiler(true, true)]
[TestCompiler(true, false)]
[TestCompiler(false, true)]
[TestCompiler(false, false)]
public static bool CompareEqualBool(bool left, bool right)
{
return left == right;
}
[TestCompiler(true, true)]
[TestCompiler(true, false)]
[TestCompiler(false, true)]
[TestCompiler(false, false)]
public static bool CompareNotEqualBool(bool left, bool right)
{
return left != right;
}
[TestCompiler(true)]
[TestCompiler(false)]
public static bool CompareBoolWithConst(bool left)
{
return left == false;
}
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(-1, -1)]
[TestCompiler(0, 0)]
public static bool CompareEqualInt32(int left, int right)
{
return left == right;
}
[TestCompiler(1)]
[TestCompiler(0)]
[TestCompiler(-1)]
public static bool CompareEqualInt32WithConst(int left)
{
return left == -1;
}
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(-1, -1)]
[TestCompiler(0, 0)]
public static bool CompareNotEqualInt32(int left, int right)
{
return left != right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(-1, 1)]
[TestCompiler(0, 1)]
public static bool CompareLessThanInt32(int left, int right)
{
return left < right;
}
[TestCompiler(1L, 5)]
[TestCompiler(1L, 1)]
[TestCompiler(0L, -1)]
[TestCompiler(-1L, 1)]
[TestCompiler(0L, 1)]
public static bool CompareLessThanInt64Int32(long left, int right)
{
return left < right;
}
[TestCompiler(1U, 5)]
[TestCompiler(1U, 1)]
[TestCompiler(0U, -1)]
[TestCompiler(0x80000000U, 1)]
[TestCompiler(0xFFFFFFFFU, 1)]
[TestCompiler(0U, 1)]
public static bool CompareLessThanUInt32Int32(uint left, int right)
{
return left < right;
}
[TestCompiler(1U, 5)]
[TestCompiler(1U, 1)]
[TestCompiler(0U, -1)]
[TestCompiler(0x80000000U, 1)]
[TestCompiler(0xFFFFFFFFU, 1)]
[TestCompiler(0U, 1)]
public static bool CompareGreaterThanUInt32Int32(uint left, int right)
{
return left > right;
}
[TestCompiler(5, 1U)]
[TestCompiler(1, 1U)]
[TestCompiler(-1, 0U)]
[TestCompiler(1, 0x80000000U)]
[TestCompiler(1, 0xFFFFFFFFU)]
[TestCompiler(1, 0U)]
public static bool CompareLessThanInt32UInt32(int left, uint right)
{
return left < right;
}
[TestCompiler(5, 1U)]
[TestCompiler(1, 1U)]
[TestCompiler(-1, 0U)]
[TestCompiler(1, 0x80000000U)]
[TestCompiler(1, 0xFFFFFFFFU)]
[TestCompiler(1, 0U)]
public static bool CompareGreaterThanInt32UInt32(int left, uint right)
{
return left > right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(-1, 1)]
[TestCompiler(0, 1)]
public static bool CompareGreaterThanInt32(int left, int right)
{
return left > right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static bool CompareGreaterOrEqualInt32(int left, int right)
{
return left >= right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static bool CompareLessOrEqualInt32(int left, int right)
{
return left <= right;
}
[TestCompiler]
public static bool CompareEqualFloatConstant()
{
return 0 == float.NaN;
}
[TestCompiler]
public static bool CompareNotEqualFloatConstant()
{
return 0 != float.NaN;
}
[TestCompiler]
public static bool CompareLessThanFloatConstant()
{
return 0 < float.NaN;
}
[TestCompiler]
public static bool CompareLessThanEqualFloatConstant()
{
return 0 <= float.NaN;
}
[TestCompiler]
public static bool CompareGreaterThanFloatConstant()
{
return 0 > float.NaN;
}
[TestCompiler]
public static bool CompareLGreaterThanEqualFloatConstant()
{
return 0 >= float.NaN;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareEqualFloat(float left, float right)
{
return left == right;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, -0)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareNotEqualFloat(float left, float right)
{
return left != right;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, -0)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareLessThanFloat(float left, float right)
{
return left < right;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, -0)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareLessThanEqualFloat(float left, float right)
{
return left <= right;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, -0)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareGreaterThanFloat(float left, float right)
{
return left > right;
}
[TestCompiler(DataRange.Minus100To100, DataRange.Minus100To100)]
[TestCompiler(0, -0)]
[TestCompiler(0, float.NaN)]
[TestCompiler(float.NaN, float.NaN)]
[TestCompiler(float.PositiveInfinity, float.NegativeInfinity)]
[TestCompiler(float.PositiveInfinity, float.PositiveInfinity)]
[TestCompiler(float.NegativeInfinity, float.NegativeInfinity)]
public static bool CompareGreaterThanEqualFloat(float left, float right)
{
return left >= right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericAdd(int left, int right)
{
return left + right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericSub(int left, int right)
{
return left - right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericDiv(int left, int right)
{
return left / right;
}
[TestCompiler(1L, 5)]
[TestCompiler(1L, 1)]
[TestCompiler(0L, -1)]
[TestCompiler(40L, -1)]
[TestCompiler(-10L, 3)]
[TestCompiler(0L, 13)]
[TestCompiler(4L, 7)]
[TestCompiler(125L, 7)]
public static long BinaryNumericDiv64(long left, int right)
{
return left / right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericRem(int left, int right)
{
return left % right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericMul(int left, int right)
{
return left * right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericAnd(int left, int right)
{
return left & right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericOr(int left, int right)
{
return left | right;
}
[TestCompiler(1, 5)]
[TestCompiler(1, 1)]
[TestCompiler(0, -1)]
[TestCompiler(40, -1)]
[TestCompiler(-10, 3)]
[TestCompiler(0, 13)]
[TestCompiler(4, 7)]
[TestCompiler(125, 7)]
public static int BinaryNumericXor(int left, int right)
{
return left ^ right;
}
[TestCompiler(1, 0)]
[TestCompiler(1, 5)]
[TestCompiler(7, 10)]
[TestCompiler(-1, 1)]
public static int BinaryNumericShiftLeft(int left, int right)
{
return left << right;
}
[TestCompiler(1, 0)]
[TestCompiler(1, 5)]
[TestCompiler(7, 10)]
[TestCompiler(-1, 1)]
public static int BinaryNumericShiftRight(int left, int right)
{
return left >> right;
}
[TestCompiler(1U, 0)]
[TestCompiler(1U, 5)]
[TestCompiler(7U, 10)]
[TestCompiler(0xFFFFFFFFU, 1)]
public static uint BinaryNumericShiftLeftUInt32(uint left, int right)
{
return left << right;
}
[TestCompiler(1U, 0)]
[TestCompiler(1U, 5)]
[TestCompiler(7U, 10)]
[TestCompiler(0x80000000U, 1)]
[TestCompiler(0xFFFFFFFFU, 1)]
public static uint BinaryNumericShiftRightUInt32(uint left, int right)
{
return left >> right;
}
[TestCompiler(1U, 0)]
[TestCompiler(1U, 5)]
[TestCompiler(7U, 10)]
[TestCompiler(0x80000000U, 1)]
[TestCompiler(0xFFFFFFFFU, 1)]
public static int BinaryNumericShiftRightUIntToInt32(uint left, int right)
{
return ((int)left) >> right;
}
[TestCompiler]
public static int ConstantMinus1()
{
return -1;
}
[TestCompiler]
public static int Constant1()
{
return 1;
}
[TestCompiler]
public static int Constant2()
{
return 2;
}
[TestCompiler]
public static int Constant3()
{
return 3;
}
[TestCompiler]
public static int Constant4()
{
return 4;
}
[TestCompiler]
public static int Constant5()
{
return 5;
}
[TestCompiler]
public static int Constant6()
{
return 6;
}
[TestCompiler]
public static int Constant7()
{
return 7;
}
[TestCompiler]
public static int Constant8()
{
return 8;
}
[TestCompiler]
public static int Constant121()
{
return 121;
}
[TestCompiler]
public static bool ReturnBoolTrue()
{
return true;
}
[TestCompiler]
public static bool ReturnBoolFalse()
{
return false;
}
[TestCompiler((int)0x10203040)]
[TestCompiler((int)0x20203040)]
[TestCompiler((int)0x30203040)]
[TestCompiler((int)0x40203040)]
[TestCompiler((int)0x50203040)]
[TestCompiler((int)0x60203040)]
[TestCompiler((int)0x70203040)]
public static int AddOverflowInt(int x)
{
x += 0x70506070;
return x;
}
[TestCompiler]
public static int test_expr_add_one_to_zero()
{
var x = 0;
x++;
return x;
}
[TestCompiler(1f)]
public static float test_expr_add_multiples(float a)
{
return a + a + a + a;
}
[TestCompiler(1f, 2f)]
public static float test_expr_add_two_arguments(float a, float b)
{
return a + b;
}
[TestCompiler(3f, 4f)]
public static float test_expr_multiply_two_arguments(float a, float b)
{
return a * b;
}
[TestCompiler(3f)]
[TestCompiler(-4f)]
[TestCompiler(0f)]
public static float test_expr_negateResult_float(float a)
{
return -a;
}
[TestCompiler((sbyte)3)]
[TestCompiler((sbyte)-4)]
[TestCompiler((sbyte)0)]
[TestCompiler(sbyte.MinValue)]
[TestCompiler(sbyte.MaxValue)]
public static int test_expr_negateResult_sbyte(sbyte a)
{
return -a;
}
[TestCompiler((byte)3)]
[TestCompiler((byte)0)]
[TestCompiler(byte.MaxValue, OverrideManagedResult = -255)] // TODO: IL2CPP on macOS currently produces incorrect result of "1". Remove this OverrideManagedResult when that bug is fixed.
public static int test_expr_negateResult_byte(byte a)
{
return -a;
}
[TestCompiler((short)3)]
[TestCompiler((short)-4)]
[TestCompiler((short)0)]
[TestCompiler(short.MinValue)]
[TestCompiler(short.MaxValue)]
public static int test_expr_negateResult_short(short a)
{
return -a;
}
[TestCompiler((ushort)3)]
[TestCompiler((ushort)0)]
[TestCompiler(ushort.MaxValue, OverrideManagedResult = -65535)] // TODO: IL2CPP on macOS currently produces incorrect result of "1". Remove this OverrideManagedResult when that bug is fixed.
public static int test_expr_negateResult_ushort(ushort a)
{
return -a;
}
[TestCompiler(3)]
[TestCompiler(-4)]
[TestCompiler(0)]
[TestCompiler(int.MinValue)]
[TestCompiler(int.MaxValue)]
public static int test_expr_negateResult_int(int a)
{
return -a;
}
[TestCompiler(3u)]
[TestCompiler(0u)]
[TestCompiler(uint.MaxValue)]
public static long test_expr_negateResult_uint(uint a)
{
return -a;
}
[TestCompiler((long)3)]
[TestCompiler((long)-4)]
[TestCompiler((long)0)]
[TestCompiler(long.MinValue)]
[TestCompiler(long.MaxValue)]
public static long test_expr_negateResult_long(long a)
{
return -a;
}
[TestCompiler]
public static float test_expr_return_constant()
{
return 12f;
}
[TestCompiler]
public static float test_multiple_assigment()
{
float x, y, z;
x = y = z = 5.0F;
return x + y + z;
}
[TestCompiler(4f, 9f)]
public static float test_expr_various_math(float a, float b)
{
return (a + b) * b * b * 0.4f / (a + a + a * 0.2f);
}
[TestCompiler(4.1f)]
public static float test_expr_multiply_int_by_float(float a)
{
var i = 18;
return i * a;
}
[TestCompiler(4f)]
public static int test_expr_cast_float_to_int(float a)
{
return (int)a;
}
[TestCompiler(4)]
public static float test_expr_cast_int_to_float(int a)
{
return a;
}
[TestCompiler(5)]
public static int test_expr_assign_to_argument(int a)
{
a = a * a;
return a;
}
[TestCompiler(7)]
public static int test_expr_postincrement(int input)
{
var a = input++;
return a + input;
}
[TestCompiler(2)]
[TestCompiler(3)]
public static int test_expr_mod(int input)
{
return input % 2;
}
[TestCompiler(0, 0)]
[TestCompiler(0, 1)]
[TestCompiler(1, 0)]
[TestCompiler(1, 1)]
public static int test_expr_xor(int a, int b)
{
return a ^ b;
}
[TestCompiler(1, 2)]
[TestCompiler(0, 0)]
[TestCompiler(1, 0)]
[TestCompiler(1, 1)]
public static int test_expr_or(int a, int b)
{
return a | b;
}
[TestCompiler(1, 3)]
[TestCompiler(0, 0)]
[TestCompiler(1, 0)]
[TestCompiler(1, 1)]
public static int test_expr_and(int a, int b)
{
return a & b;
}
[TestCompiler(-100000.0F)]
public static float test_math_large_values(float a)
{
return (a * a) + ((a + 3.0F) * a);
}
[TestCompiler(1)]
[TestCompiler(150)]
[TestCompiler(-1)]
[TestCompiler(-150)]
public static int test_expr_shift_right(int n)
{
return n >> 3;
}
[TestCompiler(1)]
[TestCompiler(31)]
public static int test_expr_shift(int n)
{
int a = 5;
a <<= n;
a += (a >> 31);
return a;
}
[TestCompiler(2)]
[TestCompiler(-3)]
public static int test_expr_complement(int input)
{
return ~input;
}
[TestCompiler]
public static int test_expr_sizeof_int()
{
return sizeof(int);
}
[TestCompiler(-1)]
[TestCompiler(0)]
[TestCompiler(12)]
public static int test_expr_generic_equatable(int a)
{
if (EqualityTester<int>.Check(a, 12))
return 1;
else
return 0;
}
struct EqualityTester<TKey> where TKey : IEquatable<TKey>
{
public static bool Check(TKey value1, TKey value2)
{
return value1.Equals(value2);
}
}
[TestCompiler(0)]
[TestCompiler(1)]
[TestCompiler(-1)]
public static bool test_expr_bool_passing(int a)
{
return a == 0;
}
const int ConstValue = 5;
[TestCompiler]
public static int test_expr_load_static_constant()
{
return ConstValue;
}
[TestCompiler(1)]
[TestCompiler(-1)]
public static int OutInt32(int a)
{
int b;
OutputInt32(out b);
return a + b;
}
[TestCompiler(-1)]
[TestCompiler(1)]
public static int CallPushAndPop(int a)
{
int result = 0;
int value;
TryAdd(a, out value);
result += value * 10;
TryAdd(a * 2, out value);
result += value * 10;
TryAdd(a * 3, out value);
result += value * 10;
TryAdd(a * 4, out value);
result += value * 10;
return result;
}
private static readonly Yoyo[] StaticArray2 = new Yoyo[5];
struct Yoyo
{
#pragma warning disable 0169, 0649
public int a;
private int b;
#pragma warning restore 0169, 0649
}
private static bool TryAdd(int a, out int result)
{
result = a + 5;
return true;
}
public static void OutputInt32(out int value)
{
value = 5;
}
[TestCompiler]
public static long TypeConversionAndOverflow()
{
byte ba = 0xFF;
byte bb = 1;
sbyte sba = 127;
sbyte sbb = 1;
short sa = 0x7FFF;
short sb = 1;
ushort usa = 0xFFFF;
ushort usb = 1;
uint x = 0xFFFFFFFF;
int y = 1;
long z = 1;
return (ba + bb) + (sba + sbb) + (sa + sb) + (usa + usb) + (x + y) + (x + z);
}
private static void AssignValue(int switchValue, ref float value)
{
value = 0.0F;
if (switchValue == 0)
return;
value = 1.0F;
if (switchValue == 1)
return;
value = 2.0F;
return;
}
[TestCompiler(0)]
[TestCompiler(1)]
[TestCompiler(2)]
public static float test_expr_return_from_branch(int test)
{
float ret_val = -1.0F;
AssignValue(test, ref ret_val);
return ret_val;
}
[TestCompiler(DataRange.Standard, DataRange.Standard)]
public static bool BoolOrFunction(bool left, int x)
{
return left | ReturnBool(x);
}
private static bool ReturnBool(int x)
{
return x > 5;
}
[TestCompiler]
public static unsafe uint TestStackAlloc()
{
uint* result = stackalloc uint[4];
for (uint i = 0; i < 4; i++)
{
result[i] = i + 1;
}
uint sum = 0;
for (uint i = 0; i < 4; i++)
{
sum += result[i];
}
return sum;
}
public static int BoolRefUser(ref bool isDone)
{
return 1;
}
[TestCompiler]
public static int LocalBoolPassedByRef()
{
var isDone = false;
return BoolRefUser(ref isDone);
}
public enum TestEnum
{
v0 = 0,
v1 = 1,
v2 = 2,
v3 = 3,
v4 = 4,
v5 = 5,
v6 = 6,
}
public static float SameCode(TestEnum val1, TestEnum val2)
{
float diff = val2 - val1;
return diff;
}
[TestCompiler]
public static float EnumToFloatConversion()
{
return SameCode(TestEnum.v6, TestEnum.v0);
}
public enum SByteEnum : sbyte
{
A = 0, B = 6, C = -128
}
[TestCompiler(SByteEnum.C)]
public static float TestSByteEnum(SByteEnum a)
{
return (float) a;
}
public enum UnsignedEnum : uint
{
A = 0, B = 6, C = 0xFFFFFFFF
}
[TestCompiler(UnsignedEnum.C)]
public static float TestUnsignedEnum(UnsignedEnum a)
{
return (float) a;
}
[TestCompiler(1)]
public static int AddOvf(int x)
{
return checked(x + 1);
}
[TestCompiler(1)]
public static int MulOvf(int x)
{
return checked(x * 2);
}
[TestCompiler(1)]
public static int SubOvf(int x)
{
return checked(x - 1);
}
[TestCompiler(1u)]
public static uint SubOvfUn(uint x)
{
return checked(x - 1);
}
[TestCompiler(1u)]
public static uint BgeUn(uint x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x >= 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1)]
public static int Bgt(int x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x > 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1)]
public static int Beq(int x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x == 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1)]
public static int Bge(int x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x >= 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1)]
public static int Ble(int x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x <= 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1)]
public static int Blt(int x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x < 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1u)]
public static uint BgtUn(uint x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x > 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1u)]
public static uint BgtUnS(uint x)
{
return x > 1 ? 1 : x;
}
[TestCompiler(1u)]
public static uint BleUn(uint x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x <= 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1u)]
public static uint BltUn(uint x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x < 1 ? 1 : x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x * x *
x * x * x * x;
}
[TestCompiler(1u)]
public static uint BltUnS(uint x)
{
// We need a non-short opcode, therefore the branch has to be big enough for the offset to not fit in a byte:
return x < 1 ? 1 : 0u;
}
[TestCompiler(true)]
public static int Brtrue(bool x)
{
return x ? 1 : 0;
}
[TestCompiler(false)]
public static int Brfalse(bool x)
{
return !x ? 1 : 0;
}
[TestCompiler(1)]
public static sbyte ConvI1(int x)
{
return (sbyte) x;
}
[TestCompiler(1)]
public static short ConvI2(int x)
{
return (short) x;
}
[TestCompiler(1u)]
public static sbyte ConvOvfI1Un(uint x)
{
return checked((sbyte) x);
}
[TestCompiler(1u)]
public static short ConvOvfI2Un(uint x)
{
return checked((short) x);
}
[TestCompiler(1u)]
public static int ConvOvfI4Un(uint x)
{
return checked((int) x);
}
[TestCompiler(1ul)]
public static long ConvOvfI8Un(ulong x)
{
return checked((long) x);
}
[TestCompiler(1u)]
public static byte ConvOvfU1Un(uint x)
{
return checked((byte) x);
}
[TestCompiler(1u)]
public static ushort ConvOvfU2Un(uint x)
{
return checked((ushort) x);
}
[TestCompiler(1ul)]
public static uint ConvOvfU4Un(ulong x)
{
return checked((uint) x);
}
[TestCompiler(1)]
public static sbyte ConvOvfI1(int x)
{
return checked((sbyte) x);
}
[TestCompiler(1)]
public static short ConvOvfI2(int x)
{
return checked((short) x);
}
[TestCompiler(1)]
public static int ConvOvfI4(long x)
{
return checked((int) x);
}
[TestCompiler(1)]
public static long ConvOvfI8(double x)
{
return checked((long) x);
}
[TestCompiler(1)]
public static byte ConvOvfU1(int x)
{
return checked((byte) x);
}
[TestCompiler(1)]
public static ushort ConvOvfU2(int x)
{
return checked((ushort) x);
}
[TestCompiler(1)]
public static uint ConvOvfU4(int x)
{
return checked((uint) x);
}
[TestCompiler(1)]
public static ulong ConvOvfU8(double x)
{
return checked((ulong) x);
}
private static readonly int[] MyArray = { 0, 1, 2 };
[TestCompiler((byte)0)]
public static int LdelemByte(byte index) => MyArray[index];
[TestCompiler((ushort)0)]
public static int LdelemUInt16(ushort index) => MyArray[index];
[TestCompiler((uint)0)]
public static int LdelemUInt32(uint index) => MyArray[index];
[TestCompiler((ulong)0)]
public static int LdelemUInt64(ulong index) => MyArray[index];
[TestCompiler((short)0)]
public static int LdelemInt16(short index) => MyArray[index];
[TestCompiler(0)]
public static int LdelemInt32(int index) => MyArray[index];
[TestCompiler((long)0)]
public static int LdelemInt64(long index) => MyArray[index];
[TestCompiler(1.0f)]
public static float FSubByDenormBecomesFAdd(float x)
{
return x - 1.40129846432481707092e-45f;
}
[TestCompiler(1.0f)]
public static float FSubByDenormBecomesFAddWithVec(float x)
{
var r = x - new float2(1.40129846432481707092e-45f, -1.40129846432481707092e-45f);
return r.x * r.y;
}
private struct SomeStructWithCasts
{
public int I;
public static implicit operator int(SomeStructWithCasts s)
{
return s.I;
}
public static implicit operator int4x4(SomeStructWithCasts s)
{
return s.I;
}
public static explicit operator double(SomeStructWithCasts s)
{
return s.I;
}
public static explicit operator double4x4(SomeStructWithCasts s)
{
return s.I;
}
}
[TestCompiler(0)]
public static int ImplicitCastsWork(int i)
{
var something = new SomeStructWithCasts { I = i };
if (i < 0)
{
return something;
}
else
{
int4x4 s = something;
return s.c0.x;
}
}
[TestCompiler(0)]
public static double ExplicitCastsWork(int i)
{
var something = new SomeStructWithCasts { I = i };
if (i < 0)
{
return (double)something;
}
else
{
var s = (double4x4)something;
return s.c0.x;
}
}
}
}