First, you don't need the cast: the value of `a`

is implicitly converted to `unsigned int`

with the assignment to `b`

. So your statement is equivalent to:

```
unsigned int b = a;
```

Now, an important property of `unsigned`

integral types in C and C++ is that their values are always in the range [0, *max*], where *max* for `unsigned int`

is `UINT_MAX`

(it's defined in `limits.h`

). If you assign a value that's not in that range, it is converted to that range. So, if the value is negative, you add `UINT_MAX+1`

repeatedly to make it in the range [0, `UINT_MAX`

]. For your code above, it is as if we wrote: `unsigned int b = (UINT_MAX + a) + 1`

. This is not equal to `-a`

(534).

Note that the above is true whether the underlying representation is in two's complement, ones' complement, or sign-magnitude (or any other exotic encoding). One can see that with something like:

```
signed char c = -1;
unsigned int u = c;
printf("%u\n", u);
assert(u == UINT_MAX);
```

On a typical two's complement machine with a 4-byte `int`

, `c`

is `0xff`

, and `u`

is `0xffffffff`

. The compiler has to make sure that when value `-1`

is assigned to `u`

, it is converted to a value equal to `UINT_MAX`

.

Now going back to your code, the `printf`

format string is wrong for `b`

. You should use `%u`

. When you do, you will find that it prints the value of `UINT_MAX - 534 + 1`

instead of `534`

.

When used in the comparison operator `<`

, since `b`

is `unsigned int`

, `a`

is also converted to `unsigned int`

. This, given with `b = a`

; earlier, means that `a < b`

is false: `a`

as an `unsigned int`

is equal to `b`

.

Let's say you have a ones' complement machine, and you do:

```
signed char c = -1;
unsigned char uc = c;
```

Let's say a `char`

(signed or unsigned) is 8-bits on that machine. Then `c`

and `uc`

will store the following values and bit-patterns:

```
+----+------+-----------+
| c | -1 | 11111110 |
+----+------+-----------+
| uc | 255 | 11111111 |
+----+------+-----------+
```

Note that the bit patterns of `c`

and `uc`

are not the same. The compiler must make sure that `c`

has the value `-1`

, and `uc`

has the value `UCHAR_MAX`

, which is 255 on this machine.

There are more details on my answer to a question here on SO.