I have a framework which uses 16 bit floats, and I wanted to separate its components to then use for 32bit floats. In my first approach I used bit shifts and similar, and while that worked, it was wildly chaotic to read.

I then wanted to use custom bit sized structs instead, and use a union to write to that struct.

The code to reproduce the issue:

```
#include <iostream>
#include <stdint.h>
union float16_and_int16
{
struct
{
uint16_t Mantissa : 10;
uint16_t Exponent : 5;
uint16_t Sign : 1;
} Components;
uint16_t bitMask;
};
int main()
{
uint16_t input = 0x153F;
float16_and_int16 result;
result.bitMask = input;
printf("Mantissa: %#010x\n", result.Components.Mantissa);
printf("Exponent: %#010x\n", result.Components.Exponent);
printf("Sign: %#010x\n", result.Components.Sign);
return 0;
}
```

In the example I would expect my Mantissa to be 0x00000054, the exponent to be 0x0000001F, and sign 0x00000001

Instead I get Mantissa: 0x0000013f, Exponent: 0x00000005, Sign: 0x00000000

Which means that from my bit mask first the Sign was taken (first bit), next 5 bits to exponent, then 10 bit to mantissa, so the order is inverse of what I wanted. Why is that happening?

maymake it legal (either by default or through a switch), but type punning via unions is not standard-compliant C++.