# Signed Hexadecimal string to long int function

I need a function to convert a 32bit or 24bit signed (in two's complement) hexadecimal string into a long int. Needs to work on both 32bit and 64bit machines (regardless of the size of long int) and work regardless of whether the machine is a two's complement machine or not.

SOLUTION:

``````long int hex2li (char hexStr[], int signedHex)
{
int bits = strlen (hexStr) * 4;

char *pEnd;
long long int result = strtoll (hexStr, &pEnd, 16);

if (pEnd[0] == '\0')
{
if (signedHex)
{
if (result >= (1LL << (bits - 1))) result -= (1LL << bits);
}

return (long int) result;
}

return LONG_MIN;
}
``````
-
It's not right - hex strings starting with `8`, `9`, `A`, `B`, `C`, `D` and `E` should all be negative too. –  caf May 7 '10 at 1:53
You're not going to be able to get a single function to do both types of string as FFFFFF means different things as a 24-bit signed hex number and a 32-bit signed hex number. Also, is working on a non-two's complement machine a genuine requirement? –  Charles Bailey May 8 '10 at 17:34
It looks like you are working on a machine where `long` is 32-bits. FFFFFFFF is greater than the maximum value representable in a 32-bit signed value so, 2^31 -1 is the largest representable value so that is used instead. –  Charles Bailey May 8 '10 at 17:36
I thought that you could use the length of the string to get the number of bytes so you know whether to interpret it as a 24 or 32 bit string. Basically I want a function that maps strings `FFFFFF` and `FFFFFFFF` to `-1`. –  Cheetah May 9 '10 at 10:03
Well, you could use the difference between `pEnd` and `hexStr` to see how many digits were converted but this would be a highly unusual interface. Do you really want to treat "00FFFF" and "FFFF" as different numbers? What does the spec say that you're getting your input from? –  Charles Bailey May 9 '10 at 10:09

For a 24-bit string:

When you parse the hex string, the standard `strtol` function will read it as an unsigned value in the range `0 -> 2^24 - 1`.

The range `0 -> 2^23 - 1` is correct, but the range `2^23 -> 2^24 - 1` needs to be mapped to `-2^23 -> -1` which is a simple subtraction which can be performed as follows.

``````if (result >= (1L << 23))
result -= (1L << 24);
``````

To convert a 32-bit string using the same technique you have to use an intermediate type that can represent a full 32-bit unsigned integer in a signed type for performing the subtraction. A `long long int` is guaranteed to be 64-bits so you can use this.

E.g.

``````long int ParseHexStr(const char *in, int bits)
{
char* endptr;
long long int result;

result = strtoll(in, &endptr, 16);

/*
** TODO - error checking, e.g. check endptr != in
**  Also check for range errors, signalled by LLONG_MIN
**  LLONG_MAX and a errno == ERANGE.
*/

if (result >= (1LL << (bits - 1))
result -= (1LL << bits);

return result;
}
``````
-
+1 Nice and simple, and takes care of the possibility that a long is bigger than 32 bits. –  Niall C. May 6 '10 at 15:03
It should also work even if your architecture isn't actually using two's complement which bit twiddling approaches won't; although I admit this is a bit of a curiosity given the predominance of two's complement architectures. –  Charles Bailey May 6 '10 at 15:13
+1 for working on non 2's complement architectures. –  Aidan Cully May 6 '10 at 15:20
How would I get a similar solution for 32 bit strings? –  Cheetah May 8 '10 at 13:54
That depends. If `long int` is longer that 32 bits then you can use exactly the same technique. If `long int` is exactly 32 bits and you're on a two's complement machine then you don't have to do anything. `strtol` will give the correct result. –  Charles Bailey May 8 '10 at 14:16

We have a `SIGN_EXTEND` macro, that looks like:

``````#define SIGN_EXTEND(X, SignBit, Type) \
(((Type) ((X) << (8 * sizeof(Type) - (SignBit) - 1))) >> \
(8 * sizeof(Type) - (SignBit) - 1))
``````

It relies on the `>>` operator 1-filling the input when the sign bit is set. Use it like:

``````SIGN_EXTEND(0x89abcd, 23, int32_t);
``````

For your problem, you could use:

``````long int hex2li (char string[])
{
char *pEnd;
long int result = SIGN_EXTEND(strtol (string, &pEnd, 16), 23, long int);

if(pEnd[0] == '\0')
return result;
return LONG_MIN;
}
``````
-
+1 for a generic MACRO that names the problem correctly. You could improve by using CHAR_BIT instead of 8, but that's only nitpicking. –  tristopia May 6 '10 at 15:54

This comparison is wrong: `if (toupper (string[0]) == 'F')`

You'll need to sign-extend for any value with the MSB set, so something like:

`if(strchr("89ABCDEF", toupper(string[0])) != NULL)`

-

Is there a reason why you cannot use strtol with radix 16?

-
He already is, but this isn't a complete solution as a `long` is larger than 24 bits and he has a 6-digit hex representation. –  Charles Bailey May 6 '10 at 15:30
``````  if (toupper (string[0]) == 'F')
{
return (result | 0xFF000000);
}
``````

this will produce number with correct sign.

``````  if (toupper (string[0]) == 'F')
{
return ( ~(result | 0xFF000000) + 1);
}
``````

this will always produce positive result

-
What about for the first digit being '8', '9', 'a', .. 'e'? It should still be negative. –  Aidan Cully May 6 '10 at 14:42
Not just 'F' - need to check for other values with the MSB set `if (result & 0x00800000)` –  David Gelhar May 6 '10 at 14:43
@Aidan Cully: "24bit Hexadecimal string" –  Andrey May 6 '10 at 14:48
@David Gelhar: i disagree. for example input was FFFFFF which mean -1. when converted to int it will become 00FFFFFF. We need to make it signed, so we fill higher digits | 0xFF000000 so it becomes real -1: 0xFFFFFFFF. –  Andrey May 6 '10 at 14:50
consider the 16-bit signed number `0x8000`. Its value as a signed decimal is `-32768`. The hex string that represents it is `"8000"`. The first digit is not `F`, but if you were to sign-extend it to 32-bits, the result should be `0xFFFF8000`, in order to continue representing the value `-32768`. –  Aidan Cully May 6 '10 at 14:53