I am doing several floating point operations in a routine written in C++ and compiled with Visual C++ 2008. I also have optimizations activated (/O2).

The code in C++ looks roughly like this:

```
int Calculate( CalculationParams ¶ms )
{
const ConfigurationParams& configParams = ConfigReader::Instance().Parameters();
float m1 = configParams.p1 * configParams.p2;
float m2 = configParams.p3 * configParams.p4;
float m3 = configParams.p5 * configParams.p6;
....
}
```

ConfigReader is a singleton that contains a structure of parameters used for the calculation. This is meant to be referenced to by the configParams reference.

With optimization activated, on some rare occasions I get calculation errors with completely incorrect results.

Looking at the dissassembly I see this:

```
int Calculate( CalculationParams ¶ms )
{
...
const ConfigurationParams& configParams = ConfigReader::Instance().Parameters();
call ConfigReader::Instance()
move ebx, eax
float m1 = configParams.p1 * configParams.p2;
fld dword ptr[ebx + 0D4h]
add ebx, 8
fmul dword ptr [ebx + 0ECh]
float m2 = configParams.p3 * configParams.p2;
float m3 = configParams.p4 * configParams.p2;
...
}
```

First of all, we see that it does not call Parameters(). This is understandable since the parameters structure lies in the class, 8 bytes in (after two other floats). So after the call, eax has the address to the ConfigReader CLASS (not the ConfigurationParams structure).

Then it attempts to load a float. This is where the problem occurs. For some reason the offset for the load operation is incorrect for an ebx that is pointing to the ConfigReader class. It should add 8 first for the offset to be correct.

Is it possible that the compiler assumes that the fld operation will take longer than the add operation and that somehow ebx will have 8 added to it before the float is loaded from memory? Can this work? Could our occasional problem stem from an interrupt happening right at this point and causing ebx to not have the offset of 8 by the time the float is loaded?

I would expect that the only way for this to be correct is for the add operation to be before fld. It is hard to understand that this works at all...

Is there any way to turn off this kind of rearrangement optimization?

Edit: ConfigReader looks like this

```
class ConfigReader
{
public:
static ConfigReader& Instance();
const ConfigurationParams& Parameters() const { return myParameters; }
private:
ConfigReader();
float internalParam1;
float internalParam2;
ConfigurationParams myParameters;
}
struct ConfigurationParams
{
char s1[10];
char s2[50];
int i1;
int i2;
int i3;
int i4;
int i5;
int i6;
int i7;
int i8;
int i9;
int i10;
int i11;
int i12;
int i13;
int i14;
int i15;
int i16;
int i17;
int i18;
int i19;
int i20;
int i21;
int i22;
int i23;
float f1;
float f2;
int i25;
int i26;
int i27;
int i28;
int i29;
int i30;
int i31;
bool b1;
float f3;
float f4;
float f5;
float p1;
float p3;
float p4;
float f9;
float f10;
float f11;
float f12;
float p2;
float f14;
float f15;
float f16;
int i32;
int i33;
int i34;
int i35;
```

}