public static void Constructor_Int()
{
int8 x = new int8(TestData_LHS[0].x0);
Assert.AreEqual(x.x0 == TestData_LHS[0].x0 &
x.x1 == TestData_LHS[0].x0 &
x.x2 == TestData_LHS[0].x0 &
x.x3 == TestData_LHS[0].x0 &
x.x4 == TestData_LHS[0].x0 &
x.x5 == TestData_LHS[0].x0 &
x.x6 == TestData_LHS[0].x0 &
x.x7 == TestData_LHS[0].x0, true);
}
public static void Constructor_Int_Int_Int_Int_Int_Int_Int_Int()
{
int8 x = new int8(TestData_LHS[0].x0, TestData_LHS[0].x1, TestData_LHS[0].x2, TestData_LHS[0].x3, TestData_LHS[0].x4, TestData_LHS[0].x5, TestData_LHS[0].x6, TestData_LHS[0].x7);
Assert.AreEqual(x.x0 == TestData_LHS[0].x0 &
x.x1 == TestData_LHS[0].x1 &
x.x2 == TestData_LHS[0].x2 &
x.x3 == TestData_LHS[0].x3 &
x.x4 == TestData_LHS[0].x4 &
x.x5 == TestData_LHS[0].x5 &
x.x6 == TestData_LHS[0].x6 &
x.x7 == TestData_LHS[0].x7, true);
}
public static void Int8()
{
bool result = true;
Random64 x = new Random64(47);
for (int i = 0; i < Tests.Int8.NUM_TESTS; i++)
{
bool8 b = x.NextBool8();
int8 a = maxmath.negate(Tests.Int8.TestData_LHS[i], b);
result &= maxmath.all(a == maxmath.select(Tests.Int8.TestData_LHS[i], -Tests.Int8.TestData_LHS[i], b));
}
Assert.AreEqual(true, result);
}
public static void NOT()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = ~TestData_LHS[i];
result &= x.x0 == (int)(~TestData_LHS[i].x0) &
x.x1 == (int)(~TestData_LHS[i].x1) &
x.x2 == (int)(~TestData_LHS[i].x2) &
x.x3 == (int)(~TestData_LHS[i].x3) &
x.x4 == (int)(~TestData_LHS[i].x4) &
x.x5 == (int)(~TestData_LHS[i].x5) &
x.x6 == (int)(~TestData_LHS[i].x6) &
x.x7 == (int)(~TestData_LHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void AND()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] & TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 & TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 & TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 & TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 & TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 & TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 & TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 & TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 & TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void OR()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] | TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 | TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 | TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 | TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 | TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 | TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 | TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 | TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 | TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Divide()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] / TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 / TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 / TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 / TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 / TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 / TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 / TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 / TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 / TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Remainder()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] % TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 % TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 % TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 % TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 % TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 % TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 % TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 % TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 % TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Multiply()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] * TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 * TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 * TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 * TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 * TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 * TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 * TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 * TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 * TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Subtract()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] - TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 - TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 - TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 - TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 - TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 - TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 - TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 - TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 - TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Add()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] + TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 + TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 + TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 + TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 + TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 + TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 + TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 + TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 + TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Int8()
{
bool result = true;
for (int i = 0; i < Tests.Int8.NUM_TESTS; i++)
{
int8 t = maxmath.sign(Tests.Int8.TestData_LHS[i]);
result &= t.x0 == ((Tests.Int8.TestData_LHS[i].x0 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x0 < 0) ? -1 : 1));
result &= t.x1 == ((Tests.Int8.TestData_LHS[i].x1 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x1 < 0) ? -1 : 1));
result &= t.x2 == ((Tests.Int8.TestData_LHS[i].x2 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x2 < 0) ? -1 : 1));
result &= t.x3 == ((Tests.Int8.TestData_LHS[i].x3 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x3 < 0) ? -1 : 1));
result &= t.x4 == ((Tests.Int8.TestData_LHS[i].x4 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x4 < 0) ? -1 : 1));
result &= t.x5 == ((Tests.Int8.TestData_LHS[i].x5 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x5 < 0) ? -1 : 1));
result &= t.x6 == ((Tests.Int8.TestData_LHS[i].x6 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x6 < 0) ? -1 : 1));
result &= t.x7 == ((Tests.Int8.TestData_LHS[i].x7 == 0) ? 0 : ((Tests.Int8.TestData_LHS[i].x7 < 0) ? -1 : 1));
}
Assert.AreEqual(true, result);
}
public static void XOR()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i] ^ TestData_RHS[i];
result &= x.x0 == (int)(TestData_LHS[i].x0 ^ TestData_RHS[i].x0) &
x.x1 == (int)(TestData_LHS[i].x1 ^ TestData_RHS[i].x1) &
x.x2 == (int)(TestData_LHS[i].x2 ^ TestData_RHS[i].x2) &
x.x3 == (int)(TestData_LHS[i].x3 ^ TestData_RHS[i].x3) &
x.x4 == (int)(TestData_LHS[i].x4 ^ TestData_RHS[i].x4) &
x.x5 == (int)(TestData_LHS[i].x5 ^ TestData_RHS[i].x5) &
x.x6 == (int)(TestData_LHS[i].x6 ^ TestData_RHS[i].x6) &
x.x7 == (int)(TestData_LHS[i].x7 ^ TestData_RHS[i].x7);
}
Assert.AreEqual(true, result);
}
public static void Int8()
{
bool result = true;
for (int i = 0; i < 8; i++)
{
int8 a = 0;
for (int j = 0; j < 8; j++)
{
a[j] = (int)j;
}
result &= (maxmath.all_dif(a) == true);
a[i] = (int)((i == 1) ? 2 : 1);
result &= (maxmath.all_dif(a) == false);
}
Assert.AreEqual(true, result);
}
public static void int8()
{
Random32 rng = new Random32(135);
for (int i = 0; i < 64; i++)
{
int8 x = rng.NextInt8();
uint8 n = rng.NextUInt8();
Assert.AreEqual(new int8((int)_intpow(x.x0, n.x0),
(int)_intpow(x.x1, n.x1),
(int)_intpow(x.x2, n.x2),
(int)_intpow(x.x3, n.x3),
(int)_intpow(x.x4, n.x4),
(int)_intpow(x.x5, n.x5),
(int)_intpow(x.x6, n.x6),
(int)_intpow(x.x7, n.x7)),
maxmath.intpow(x, n));
}
}
public static void int8()
{
Random32 rng = new Random32(135);
for (int i = 0; i < 64; i++)
{
int8 x = rng.NextInt8();
int8 y = rng.NextInt8();
Assert.AreEqual(new int8((int)math.lzcnt(x.x0),
(int)math.lzcnt(x.x1),
(int)math.lzcnt(x.x2),
(int)math.lzcnt(x.x3),
(int)math.lzcnt(x.x4),
(int)math.lzcnt(x.x5),
(int)math.lzcnt(x.x6),
(int)math.lzcnt(x.x7)),
maxmath.lzcnt(x));
}
}
public static void int8()
{
Random32 rng = new Random32(135);
for (int i = 0; i < 64; i++)
{
int8 x = rng.NextInt8();
int8 y = rng.NextInt8();
Assert.AreEqual(new uint8((uint)_gcd(x.x0, y.x0),
(uint)_gcd(x.x1, y.x1),
(uint)_gcd(x.x2, y.x2),
(uint)_gcd(x.x3, y.x3),
(uint)_gcd(x.x4, y.x4),
(uint)_gcd(x.x5, y.x5),
(uint)_gcd(x.x6, y.x6),
(uint)_gcd(x.x7, y.x7)),
maxmath.gcd(x, y));
}
}
public static void Cast_ToInt()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 x = TestData_LHS[i];
result &= x.x0 == TestData_LHS[i].x0 &
x.x1 == TestData_LHS[i].x1 &
x.x2 == TestData_LHS[i].x2 &
x.x3 == TestData_LHS[i].x3 &
x.x4 == TestData_LHS[i].x4 &
x.x5 == TestData_LHS[i].x5 &
x.x6 == TestData_LHS[i].x6 &
x.x7 == TestData_LHS[i].x7;
}
Assert.AreEqual(true, result);
}
public static void ShiftRight()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
for (int j = 0; j < 32; j++)
{
int8 x = TestData_LHS[i] >> j;
result &= x.x0 == (int)(TestData_LHS[i].x0 >> j) &
x.x1 == (int)(TestData_LHS[i].x1 >> j) &
x.x2 == (int)(TestData_LHS[i].x2 >> j) &
x.x3 == (int)(TestData_LHS[i].x3 >> j) &
x.x4 == (int)(TestData_LHS[i].x4 >> j) &
x.x5 == (int)(TestData_LHS[i].x5 >> j) &
x.x6 == (int)(TestData_LHS[i].x6 >> j) &
x.x7 == (int)(TestData_LHS[i].x7 >> j);
}
}
Assert.AreEqual(true, result);
}
public static void ShiftLeft()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
for (int j = 0; j < 32; j++)
{
int8 x = TestData_LHS[i] << j;
result &= x.x0 == (int)(TestData_LHS[i].x0 << j) &
x.x1 == (int)(TestData_LHS[i].x1 << j) &
x.x2 == (int)(TestData_LHS[i].x2 << j) &
x.x3 == (int)(TestData_LHS[i].x3 << j) &
x.x4 == (int)(TestData_LHS[i].x4 << j) &
x.x5 == (int)(TestData_LHS[i].x5 << j) &
x.x6 == (int)(TestData_LHS[i].x6 << j) &
x.x7 == (int)(TestData_LHS[i].x7 << j);
}
}
Assert.AreEqual(true, result);
}
public static void ShuffleSetter()
{
bool result = true;
for (int i = 0; i < NUM_TESTS; i++)
{
int8 v4_0 = TestData_LHS[i];
v4_0.v4_0 = Int4.TestData_LHS[i];
result &= v4_0.x0 == Int4.TestData_LHS[i].x;
result &= v4_0.x1 == Int4.TestData_LHS[i].y;
result &= v4_0.x2 == Int4.TestData_LHS[i].z;
result &= v4_0.x3 == Int4.TestData_LHS[i].w;
result &= v4_0.x4 == TestData_LHS[i].x4;
result &= v4_0.x5 == TestData_LHS[i].x5;
result &= v4_0.x6 == TestData_LHS[i].x6;
result &= v4_0.x7 == TestData_LHS[i].x7;
int8 v4_1 = TestData_LHS[i];
v4_1.v4_1 = Int4.TestData_LHS[i];
result &= v4_1.x0 == TestData_LHS[i].x0;
result &= v4_1.x1 == Int4.TestData_LHS[i].x;
result &= v4_1.x2 == Int4.TestData_LHS[i].y;
result &= v4_1.x3 == Int4.TestData_LHS[i].z;
result &= v4_1.x4 == Int4.TestData_LHS[i].w;
result &= v4_1.x5 == TestData_LHS[i].x5;
result &= v4_1.x6 == TestData_LHS[i].x6;
result &= v4_1.x7 == TestData_LHS[i].x7;
int8 v4_2 = TestData_LHS[i];
v4_2.v4_2 = Int4.TestData_LHS[i];
result &= v4_2.x0 == TestData_LHS[i].x0;
result &= v4_2.x1 == TestData_LHS[i].x1;
result &= v4_2.x2 == Int4.TestData_LHS[i].x;
result &= v4_2.x3 == Int4.TestData_LHS[i].y;
result &= v4_2.x4 == Int4.TestData_LHS[i].z;
result &= v4_2.x5 == Int4.TestData_LHS[i].w;
result &= v4_2.x6 == TestData_LHS[i].x6;
result &= v4_2.x7 == TestData_LHS[i].x7;
int8 v4_3 = TestData_LHS[i];
v4_3.v4_3 = Int4.TestData_LHS[i];
result &= v4_3.x0 == TestData_LHS[i].x0;
result &= v4_3.x1 == TestData_LHS[i].x1;
result &= v4_3.x2 == TestData_LHS[i].x2;
result &= v4_3.x3 == Int4.TestData_LHS[i].x;
result &= v4_3.x4 == Int4.TestData_LHS[i].y;
result &= v4_3.x5 == Int4.TestData_LHS[i].z;
result &= v4_3.x6 == Int4.TestData_LHS[i].w;
result &= v4_3.x7 == TestData_LHS[i].x7;
int8 v4_4 = TestData_LHS[i];
v4_4.v4_4 = Int4.TestData_LHS[i];
result &= v4_4.x0 == TestData_LHS[i].x0;
result &= v4_4.x1 == TestData_LHS[i].x1;
result &= v4_4.x2 == TestData_LHS[i].x2;
result &= v4_4.x3 == TestData_LHS[i].x3;
result &= v4_4.x4 == Int4.TestData_LHS[i].x;
result &= v4_4.x5 == Int4.TestData_LHS[i].y;
result &= v4_4.x6 == Int4.TestData_LHS[i].z;
result &= v4_4.x7 == Int4.TestData_LHS[i].w;
int8 v3_0 = TestData_LHS[i];
v3_0.v3_0 = Int3.TestData_LHS[i];
result &= v3_0.x0 == Int3.TestData_LHS[i].x;
result &= v3_0.x1 == Int3.TestData_LHS[i].y;
result &= v3_0.x2 == Int3.TestData_LHS[i].z;
result &= v3_0.x3 == TestData_LHS[i].x3;
result &= v3_0.x4 == TestData_LHS[i].x4;
result &= v3_0.x5 == TestData_LHS[i].x5;
result &= v3_0.x6 == TestData_LHS[i].x6;
result &= v3_0.x7 == TestData_LHS[i].x7;
int8 v3_1 = TestData_LHS[i];
v3_1.v3_1 = Int3.TestData_LHS[i];
result &= v3_1.x0 == TestData_LHS[i].x0;
result &= v3_1.x1 == Int3.TestData_LHS[i].x;
result &= v3_1.x2 == Int3.TestData_LHS[i].y;
result &= v3_1.x3 == Int3.TestData_LHS[i].z;
result &= v3_1.x4 == TestData_LHS[i].x4;
result &= v3_1.x5 == TestData_LHS[i].x5;
result &= v3_1.x6 == TestData_LHS[i].x6;
result &= v3_1.x7 == TestData_LHS[i].x7;
int8 v3_2 = TestData_LHS[i];
v3_2.v3_2 = Int3.TestData_LHS[i];
result &= v3_2.x0 == TestData_LHS[i].x0;
result &= v3_2.x1 == TestData_LHS[i].x1;
result &= v3_2.x2 == Int3.TestData_LHS[i].x;
result &= v3_2.x3 == Int3.TestData_LHS[i].y;
result &= v3_2.x4 == Int3.TestData_LHS[i].z;
result &= v3_2.x5 == TestData_LHS[i].x5;
result &= v3_2.x6 == TestData_LHS[i].x6;
result &= v3_2.x7 == TestData_LHS[i].x7;
int8 v3_3 = TestData_LHS[i];
v3_3.v3_3 = Int3.TestData_LHS[i];
result &= v3_3.x0 == TestData_LHS[i].x0;
result &= v3_3.x1 == TestData_LHS[i].x1;
result &= v3_3.x2 == TestData_LHS[i].x2;
result &= v3_3.x3 == Int3.TestData_LHS[i].x;
result &= v3_3.x4 == Int3.TestData_LHS[i].y;
result &= v3_3.x5 == Int3.TestData_LHS[i].z;
result &= v3_3.x6 == TestData_LHS[i].x6;
result &= v3_3.x7 == TestData_LHS[i].x7;
int8 v3_4 = TestData_LHS[i];
v3_4.v3_4 = Int3.TestData_LHS[i];
result &= v3_4.x0 == TestData_LHS[i].x0;
result &= v3_4.x1 == TestData_LHS[i].x1;
result &= v3_4.x2 == TestData_LHS[i].x2;
result &= v3_4.x3 == TestData_LHS[i].x3;
result &= v3_4.x4 == Int3.TestData_LHS[i].x;
result &= v3_4.x5 == Int3.TestData_LHS[i].y;
result &= v3_4.x6 == Int3.TestData_LHS[i].z;
result &= v3_4.x7 == TestData_LHS[i].x7;
int8 v3_5 = TestData_LHS[i];
v3_5.v3_5 = Int3.TestData_LHS[i];
result &= v3_5.x0 == TestData_LHS[i].x0;
result &= v3_5.x1 == TestData_LHS[i].x1;
result &= v3_5.x2 == TestData_LHS[i].x2;
result &= v3_5.x3 == TestData_LHS[i].x3;
result &= v3_5.x4 == TestData_LHS[i].x4;
result &= v3_5.x5 == Int3.TestData_LHS[i].x;
result &= v3_5.x6 == Int3.TestData_LHS[i].y;
result &= v3_5.x7 == Int3.TestData_LHS[i].z;
int8 v2_0 = TestData_LHS[i];
v2_0.v2_0 = Int2.TestData_LHS[i];
result &= v2_0.x0 == Int2.TestData_LHS[i].x;
result &= v2_0.x1 == Int2.TestData_LHS[i].y;
result &= v2_0.x2 == TestData_LHS[i].x2;
result &= v2_0.x3 == TestData_LHS[i].x3;
result &= v2_0.x4 == TestData_LHS[i].x4;
result &= v2_0.x5 == TestData_LHS[i].x5;
result &= v2_0.x6 == TestData_LHS[i].x6;
result &= v2_0.x7 == TestData_LHS[i].x7;
int8 v2_1 = TestData_LHS[i];
v2_1.v2_1 = Int2.TestData_LHS[i];
result &= v2_1.x0 == TestData_LHS[i].x0;
result &= v2_1.x1 == Int2.TestData_LHS[i].x;
result &= v2_1.x2 == Int2.TestData_LHS[i].y;
result &= v2_1.x3 == TestData_LHS[i].x3;
result &= v2_1.x4 == TestData_LHS[i].x4;
result &= v2_1.x5 == TestData_LHS[i].x5;
result &= v2_1.x6 == TestData_LHS[i].x6;
result &= v2_1.x7 == TestData_LHS[i].x7;
int8 v2_2 = TestData_LHS[i];
v2_2.v2_2 = Int2.TestData_LHS[i];
result &= v2_2.x0 == TestData_LHS[i].x0;
result &= v2_2.x1 == TestData_LHS[i].x1;
result &= v2_2.x2 == Int2.TestData_LHS[i].x;
result &= v2_2.x3 == Int2.TestData_LHS[i].y;
result &= v2_2.x4 == TestData_LHS[i].x4;
result &= v2_2.x5 == TestData_LHS[i].x5;
result &= v2_2.x6 == TestData_LHS[i].x6;
result &= v2_2.x7 == TestData_LHS[i].x7;
int8 v2_3 = TestData_LHS[i];
v2_3.v2_3 = Int2.TestData_LHS[i];
result &= v2_3.x0 == TestData_LHS[i].x0;
result &= v2_3.x1 == TestData_LHS[i].x1;
result &= v2_3.x2 == TestData_LHS[i].x2;
result &= v2_3.x3 == Int2.TestData_LHS[i].x;
result &= v2_3.x4 == Int2.TestData_LHS[i].y;
result &= v2_3.x5 == TestData_LHS[i].x5;
result &= v2_3.x6 == TestData_LHS[i].x6;
result &= v2_3.x7 == TestData_LHS[i].x7;
int8 v2_4 = TestData_LHS[i];
v2_4.v2_4 = Int2.TestData_LHS[i];
result &= v2_4.x0 == TestData_LHS[i].x0;
result &= v2_4.x1 == TestData_LHS[i].x1;
result &= v2_4.x2 == TestData_LHS[i].x2;
result &= v2_4.x3 == TestData_LHS[i].x3;
result &= v2_4.x4 == Int2.TestData_LHS[i].x;
result &= v2_4.x5 == Int2.TestData_LHS[i].y;
result &= v2_4.x6 == TestData_LHS[i].x6;
result &= v2_4.x7 == TestData_LHS[i].x7;
int8 v2_5 = TestData_LHS[i];
v2_5.v2_5 = Int2.TestData_LHS[i];
result &= v2_5.x0 == TestData_LHS[i].x0;
result &= v2_5.x1 == TestData_LHS[i].x1;
result &= v2_5.x2 == TestData_LHS[i].x2;
result &= v2_5.x3 == TestData_LHS[i].x3;
result &= v2_5.x4 == TestData_LHS[i].x4;
result &= v2_5.x5 == Int2.TestData_LHS[i].x;
result &= v2_5.x6 == Int2.TestData_LHS[i].y;
result &= v2_5.x7 == TestData_LHS[i].x7;
int8 v2_6 = TestData_LHS[i];
v2_6.v2_6 = Int2.TestData_LHS[i];
result &= v2_6.x0 == TestData_LHS[i].x0;
result &= v2_6.x1 == TestData_LHS[i].x1;
result &= v2_6.x2 == TestData_LHS[i].x2;
result &= v2_6.x3 == TestData_LHS[i].x3;
result &= v2_6.x4 == TestData_LHS[i].x4;
result &= v2_6.x5 == TestData_LHS[i].x5;
result &= v2_6.x6 == Int2.TestData_LHS[i].x;
result &= v2_6.x7 == Int2.TestData_LHS[i].y;
}
Assert.AreEqual(true, result);
}
return(generic <T>(dinx.insert(int8(src), in int8(in dst), index)));
return(generic <T>(Bits.range(int8(src), i0, i1)));
