static int Main()
{
uint a = (uint)rand.Next();
CallConv2 t = new CallConv2();
t.vt1a.m = a;
VT2B vt1b = (VT2B)t.vt1a;
uint b = vt1b;
if (b != a)
{
Console.WriteLine("FAILED, b!=a");
return 1;
}
uint c = (uint)(VT2B)(VT2A)(VT2B)(uint)(VT2B)t.vt1a;
if (c != b)
{
Console.WriteLine("FAILED, c!=b");
return 1;
}
uint d = (uint)rand.Next();
uint e = UInt32.MinValue + 2;
uint f = UInt32.MaxValue / 2;
x = new VT2A();
VT2B[] yarr = new VT2B[2];
yarr[0] = new VT2B(e);
VT2B y = yarr[0];
x.m = d;
VT2B u = x * y - (new VT2B(f)) + yarr[0] + (VT2B)x + (VT2B)f + y * x + (uint)(x / (d % 2 == 0 ? (VT2B)(d / 2) : (VT2B)(d + 1 / 2)));
uint w = f5((VT2B)x, (VT2A)y) + t.f6(yarr, (VT2B)x) + f1(y, d) + (uint)t.f8((VT2A)(VT2B)d, (d % 2 == 0 ? (VT2B)(d / 2) : (VT2B)(d + 1 / 2)));
if (u != w)
{
Console.WriteLine("FAILED, u!=w");
Console.WriteLine(u);
Console.WriteLine(w);
return 1;
}
for (VT2B z = 3; z <= 10; z++, t.f2((VT2A)y, 1)) { }
if (f3(ref y, UInt32.MinValue) != 2)
{
Console.WriteLine("FAILED, f3(y,UInt32.MinValue)!=2");
Console.WriteLine(f3(ref y, UInt32.MinValue));
return 1;
}
VT2B* o = stackalloc VT2B[3];
o[0] = 1;
o[1] = 2;
o[2] = 3;
if ((t.f7((VT2A)o[2], o[0])) != 2)
{
Console.WriteLine("FAILED (t.f7((VT2A)o[2], o[0]))!=2");
Console.WriteLine(t.f7((VT2A)o[2], o[0]));
return 1;
}
VT2B[][,] arr = new VT2B[2][,];
arr[1] = f9();
arr[1][0, 0] = (VT2B)(*o);
if ((t.f10(arr[1][0, 0])) != 1)
{
Console.WriteLine("FAILED (t.f10(arr[1][0,0]))!=1");
Console.WriteLine(t.f10(arr[1][0, 0]));
return 1;
}
if ((t.f10(arr[1][0, 0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4)) != 6)
{
Console.WriteLine("FAILED (t.f10(arr[1][0,0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4))!=6");
Console.WriteLine(t.f10(arr[1][0, 0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4));
return 1;
}
Console.WriteLine("PASSED");
return 100;
}
private static int Main()
{
uint a = (uint)s_rand.Next();
CallConv2 t = new CallConv2();
t._vt1a.m = a;
VT2B vt1b = (VT2B)t._vt1a;
uint b = vt1b;
if (b != a)
{
Console.WriteLine("FAILED, b!=a");
return(1);
}
uint c = (uint)(VT2B)(VT2A)(VT2B)(uint)(VT2B)t._vt1a;
if (c != b)
{
Console.WriteLine("FAILED, c!=b");
return(1);
}
uint d = (uint)s_rand.Next();
uint e = UInt32.MinValue + 2;
uint f = UInt32.MaxValue / 2;
s_x = new VT2A();
VT2B[] yarr = new VT2B[2];
yarr[0] = new VT2B(e);
VT2B y = yarr[0];
s_x.m = d;
VT2B u = s_x * y - (new VT2B(f)) + yarr[0] + (VT2B)s_x + (VT2B)f + y * s_x + (uint)(s_x / (d % 2 == 0 ? (VT2B)(d / 2) : (VT2B)(d + 1 / 2)));
uint w = f5((VT2B)s_x, (VT2A)y) + t.f6(yarr, (VT2B)s_x) + f1(y, d) + (uint)t.f8((VT2A)(VT2B)d, (d % 2 == 0 ? (VT2B)(d / 2) : (VT2B)(d + 1 / 2)));
if (u != w)
{
Console.WriteLine("FAILED, u!=w");
Console.WriteLine(u);
Console.WriteLine(w);
return(1);
}
for (VT2B z = 3; z <= 10; z++, t.f2((VT2A)y, 1))
{
}
if (f3(ref y, UInt32.MinValue) != 2)
{
Console.WriteLine("FAILED, f3(y,UInt32.MinValue)!=2");
Console.WriteLine(f3(ref y, UInt32.MinValue));
return(1);
}
VT2B *o = stackalloc VT2B[3];
o[0] = 1;
o[1] = 2;
o[2] = 3;
if ((t.f7((VT2A)o[2], o[0])) != 2)
{
Console.WriteLine("FAILED (t.f7((VT2A)o[2], o[0]))!=2");
Console.WriteLine(t.f7((VT2A)o[2], o[0]));
return(1);
}
VT2B[][,] arr = new VT2B[2][, ];
arr[1] = f9();
arr[1][0, 0] = (VT2B)(*o);
if ((t.f10(arr[1][0, 0])) != 1)
{
Console.WriteLine("FAILED (t.f10(arr[1][0,0]))!=1");
Console.WriteLine(t.f10(arr[1][0, 0]));
return(1);
}
if ((t.f10(arr[1][0, 0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4)) != 6)
{
Console.WriteLine("FAILED (t.f10(arr[1][0,0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4))!=6");
Console.WriteLine(t.f10(arr[1][0, 0], t.f7((VT2A)(new VT2B(2)), (VT2B)o[0]), 4));
return(1);
}
Console.WriteLine("PASSED");
return(100);
}