# What happens when I assign a negative value to an unsigned int? [duplicate]

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signed to unsigned conversion in C - is it always safe?

Let's say I declare a variable of type unsigned int : `unsigned int x = -1;`

Now -1 in two's complement (assuming 32 bit machine) is 0xFFFFFFFF. Now when I assigned this value to x, did the value 0x7FFFFFFF get assigned to x?

If it were so, then printf ("%d",x); would have printed the decimal equivalent of 0x7FFFFFFF, right? But, clearly this isn't happening, as the value that gets printed is -1. What am I missing here?

Edit: I know that we can use the %u format specifier to print unsigned values. But that doesn't help answer the question above.

## marked as duplicate by Oliver Charlesworth, Tim Post♦Aug 22 '11 at 20:31

• Where did `0x7FFFFFFF` come from? – Evan Mulawski Aug 22 '11 at 19:48
• @Evan: Flipping the MSB. Just a guess, since I don't know how the conversion really happens – n0nChun Aug 22 '11 at 19:59
• Section 6.3.1.3 of the C99 standard should answer your question. But this should answer your question a little better stackoverflow.com/questions/50605/… – Joe Aug 22 '11 at 20:16

The `"%d"` format is for (signed) int values. If you use it with an unsigned value, it could print something other than the actual value. Use `"%u"` to see the actual value, or `%x` to see it in hexadecimal.

In the declaration

``````unsigned int x = -1;
``````

the expression `-1` is of type int, and has the value -1. The initializer converts this value from int to unsigned int. The rules for signed-to-unsigned conversion say that the value is reduced modulo `UINT_MAX + 1`, so `-1` will convert to `UINT_MAX` (which is probably `0xffffffff` or `4294967295` if `unsigned int` is 32 bits).

You simply cannot assign a negative value to an object of an unsigned type. Any such value will be converted to the unsigned type before it's assigned, and the result will always be >= 0.

• But Keith, then, 0x FF FF FF FF has MSB 1, which is used to denote negative numbers, right? Then what have we really gained by assigning a negative value to a variable of type unsigned int? – n0nChun Aug 22 '11 at 20:03
• @n0nChun: That's not the only way negative numbers can be represented. 2's-complement is the most common method; others are 1s'-complement and sign-and-magnitude (all three are permitted by the C standard). And the point is that you literally cannot assign a negative value to an unsigned int; any negative value will be implicitly converted, resulting in a non-negative unsigned value. Furthermore, `unsigned int` isn't necessarily 32 bits; it can be as small as 16 bits. `-1` will always convert to `UINT_MAX`, which isn't necessarily `0xffffffff`. – Keith Thompson Aug 22 '11 at 20:30
• @n0nChun the MSB is not used to denote negative numbers in unsigned ints. if you use `%u`, you will see 2 * 0x7fffffff. The maximum for unsigned ints is 2 times larger. – Daniel Aug 22 '11 at 20:34
• @Daniel: 2 times as large plus 1. – Keith Thompson Aug 22 '11 at 20:52
• @keith Thanks for the correction. Because there is no need for +/- 0, there is one more negative number than positive number. Each negative number maps to an unsigned number, so that's where the +1 comes from. – Daniel Aug 22 '11 at 21:51

Use `%u` instead of `%d` in order to print unsigned values. Then you should see 0xFFFFFFFF.

• I know that but doesn't answer my question – n0nChun Aug 22 '11 at 19:54
• Assigning -1 to an unsigned int does not just remove the sign bit (0x7FF...) it will still be 0xFF..., use this `printf("%1\$u : 0x%1\$X\n", x);` to see for your self. – Joe Aug 22 '11 at 19:57
• `x = -1` and `x = 0xFFFFFFFF` should yield the same thing. `x = 0x7FFFFFFF` is a different value, and you won't get it from any of the above assignments. If this still doesn't clarify it, then I'm not sure what else you're asking... – Eran Zimmerman Aug 22 '11 at 19:59
• Forget that you've got an unsigned int, and just think of it as a space in memory. When you assigned your variable to -1, what you're really saying is store the value of the signed int -1 to this space in memory. Then with printf, %d is asking it to read a signed int from that space in memory. Both of these are consistent so you'll get back a -1. Your space in memory could be a variable of any type and you'll still see "-1". – asc99c Aug 22 '11 at 20:15
• @asc99c - While your printf '%d' explanation is correct your assignment is not. The C99 specification actually specifies the behavior for this, it is not just simple memory assignment. 2) Otherwise, if the new type is unsigned, the value is converted by repeatedly adding or subtracting one more than the maximum value that can be represented in the new type until the value is in the range of the new type. – Joe Aug 22 '11 at 20:28

What is happening is that you convert the value first to unsigned int, assigning 0xffffffff to x. Then using printf("%d\n") you will convert the value back to signed int still keeping the value of 0xffffffff. Thus printing -1.

• Close, but not quite. He converts, not casts the value (the conversion is implicit, not done via a cast operator). And the `printf` call doesn't perform a type conversion; rather, it probably interprets the representation of the unsigned value as if it were a signed value (type-punning). (Strictly speaking the behavior of the `printf` call is undefined.) – Keith Thompson Aug 22 '11 at 19:56
• Yes you are right, I'm using the wrong word. Looking at the asm output from gcc will show two mov, resulting in just interpretation of the value. – Rickard Aug 22 '11 at 19:57