# Calculating Ranges of Data Types in C

I'm working through K&R Second Edition, and can't figure out why I'm getting a certain result. The problem I'm solving is calculating upper and lower limits for data types. Specifically:

"Write a program to determine the ranges of char , short , int , and long variables, both signed and unsigned , by printing appropriate values from standard headers and by direct computation. Harder if you compute them: determine the ranges of the various floating-point types."

I've learned about bitwise operators and two's compliment, and have a solution I think should work for signed data types, but instead it's working for unsigned data types which doesn't make any sense to me. Here's the code:

``````#include <stdio.h>

main()
{
signed int i;

i = ~0;
i >>= 1;
printf("Upper limit: %d\n", i);
printf("Lower limit: %d\n", -i -1);
}
``````

This will result in -1 being printed for the upper limit, and 0 printed for the lower limit. However, if I change i to an unsigned int, I get the result I was expecting (2147483647 and -2147483648). I can't wrap my head around this, because my understanding is that an unsigned int can never be less than 0, and a signed int should work using these bitwise operators, ie, if it's a 32 bit system,

``````~0 == 11111111111111111111111111111111
``````

, and

``````~0 >> 1 == 011111111111111111111111111111111,
or 2147483647.
``````

Any idea where I'm going wrong?

by using `%d` you treat your value as `signed` to proceed by `printf`.

you may use `%u` instead.

As Magn3s1um pointed out you don't need to specify `signed` and `unsigned` for your particular task `printf` will make all job for you.

• @jsutterfield: If you had enabled all warnings (with `gcc`) a warning for formating an unsigned using a signed conversion (%d) would have appeared alerting you to the issue. Jul 22 '13 at 19:48

Output:

1. Note:
“In the expression `i >>= 1`, a negative value is shifted right. The C standard says this is an implementation-defined operation, and many implementations define it to be arithmetic shift. In an arithmetic shift, the most significant bit is unchanged (keeps MSB (signed bit) = `1`)".

(you can read: Right shifting negative numbers in C that `>>` is compiler dependent whether its singed or unsinfed shift, but probably in your case its doing an Arithmetic Shift.)

For this reason after code:

`````` i = ~0;
i >>= 1;
``````

`i` remains `~0`. that is in binary == `11111111111111111111111111111111`.

And because `~0` == `11111111111111111111111111111111` is == 2'c complement of `1` that is `-1`.

So when you prints with format string `%d` it print `-1`. You should use `%u` to print max unsigned value that is == `~0`.

Important to note here:

§6.2.6.2 Language 45, ©ISO/IEC ISO/IEC 9899:201x

(ones’ complement). Which of these applies is `implementation-deﬁned`, as is whether the value with sign bit `1` and all value bits zero (for the ﬁrst two), or with sign bit and all value bits 1 (for ones’ complement), is a trap representation or a normal value. In the case of sign and magnitude and ones’ complement, if this representation is a normal value it is called a negative zero.

`~0 >> 1 == 011111111111111111111111111111111` is wrong! (it may be but not happening in your system, according to output)

`~0 >> 1 == 111111111111111111111111111111111`, note MSB(signed bit) is `1`.

For unsigned shift, try following:

`~0U >> 1 == 011111111111111111111111111111111`

Notice Suffix `U` for unsigned.

2. Second printf:
Because `i` is `-1`, So in second expression `-i - 1` == `- (-1) - 1` == `1 - 1` == `0` so output is zero : `0`.

• The C standard does not define `i >>= 1` to be a signed shift. If `i` is negative, the behavior is undefined by the standard. It might be a right shift in the OP’s implementation, but it might not be, even though it produced -1 in this instance. Jul 22 '13 at 20:22
• @EricPostpischil True but I am writing according to OP output, that why I didn't write that because `i` is singed so `>>` is singed shift Jul 22 '13 at 20:24
• (a) It is not possible to determine from a single instance whether the shift is an arithmetic shift in the OP’s implementation. Doing so requires knowing the specification of the implementation. (b) To avoid giving learners the wrong impression about the language specification, blanket statements that a right-shift of an `int` is signed should be avoided. The assumptions should be explicitly stated. Jul 22 '13 at 20:26
• The first sentence could be changed “In the expression `i >>= 1`, a negative value is shifted right. The C standard says this is an implementation-defined operation, and many implementations define it to be arithmetic shift. In an arithmetic shift, the most significant bit is unchanged.” Jul 22 '13 at 20:37
• `~0` produces a value with all bits one. According to C 2011 (N1570) 6.2.6.2 paragraph 2, whether this is a trap representation or a normal value is implementation-defined. Since the OP is asking about code to explore an unknown C implementation, one should not rely on implementation-defined behavior. If `~0` is a trap representation, then the behavior is undefined. Jul 22 '13 at 20:55

Your compiler implements >> as arithmetic shift. Therefore, the MSB keeps it value of 1 and the shift does nothing.

That is, ~0 >> 1 is still ~0 because the shift sign-extends.

You may be interested in constant in limits.h and float.h header files

From `limits.h`:

``````+------------+------------------------------------------------------------------+--------------------------------+
| CHAR_BIT   | Number of bits in a char object (byte)                           | 8 or greater                   |
| SCHAR_MIN  | Minimum value for an object of type signed char                  | -127 (-2^7+1) or less          |
| SCHAR_MAX  | Maximum value for an object of type signed char                  | 127 (2^7-1) or greater         |
| UCHAR_MAX  | Maximum value for an object of type unsigned char                | 255 (2^8-1) or greater         |
| CHAR_MIN   | Minimum value for an object of type char                         | either SCHAR_MIN or 0          |
| CHAR_MAX   | Maximum value for an object of type char                         | either SCHAR_MAX or UCHAR_MAX  |
| MB_LEN_MAX | Maximum number of bytes in a multibyte character, for any locale | 1 or greater                   |
| SHRT_MIN   | Minimum value for an object of type short int                    | -32767 (-2^15+1) or less       |
| SHRT_MAX   | Maximum value for an object of type short int                    | 32767 (2^15-1) or greater      |
| USHRT_MAX  | Maximum value for an object of type unsigned short int           | 65535 (2^16-1) or greater      |
| INT_MIN    | Minimum value for an object of type int                          | -32767 (-2^15+1) or less       |
| INT_MAX    | Maximum value for an object of type int                          | 32767 (2^15-1) or greater      |
| UINT_MAX   | Maximum value for an object of type unsigned int                 | 65535 (2^16-1) or greater      |
| LONG_MIN   | Minimum value for an object of type long int                     | -2147483647 (-2^31+1) or less  |
| LONG_MAX   | Maximum value for an object of type long int                     | 2147483647 (2^31-1) or greater |
| ULONG_MAX  | Maximum value for an object of type unsigned long int            | 4294967295 (2^32-1) or greater |
+------------+------------------------------------------------------------------+--------------------------------+
``````
• The homework assignment is "Write a program to determine the ranges ..." Your solution comes down to "Write a program to show the contents of limits.h". Jul 22 '13 at 21:09

When you perform the bit shift on `i`, the compiler sees that `i` is a signed quantity, and performs an arithmetic right shift. It seems like you want that line of code to perform a logical right shift.

Change the line

`i >>= 1;`

to

`i = ((unsigned int)i) >> 1;`

Then it works!

``````Output:
Upper limit: 2147483647
Lower limit: -2147483648
``````