# How can I get decimal from string hexdecimal

How can I get decimal from string hexdecimal:
I have `unsigned char* hexBuffer = "eb89f0a36e463d";.` And I have `unsigned char* hex[5] ={'\\','x'};.`
I copy from `hexBuffer` first two char `"eb"` to `hex[2] = 'e'; hex[3] = 'b';`.
Now i have string `"\xeb"` or `"\xEB"` inside hex.
As we all know `0xEB` its ahexdecimal and we can convert to `235` decimal.

How can I convert `"\xEB"` to `235(int)`?

(Thanks to jedwards)
My Answer (maybe it will be useful for someone):

``````/*only for lower case & digits*/
unsigned char hash[57] ="e1b026972ba2c787780a243e0a80ec8299e14d9d92b3ce24358b1f04";
unsigned char chr =0;
int dec[28] ={0}; int i = 0;int c =0;
while( *hash )
{
c++;
(*hash >= 0x30 && *hash <= 0x39) ? ( chr = *hash - 0x30) : ( chr = *hash - 0x61 + 10);
*hash++;
if ( c == 1) dec[i] = chr * 16; else{ dec[i] += chr; c = 0; dec[i++];}
}
``````
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Typically I see homebrew implementations of hex2dec functions look like:

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

unsigned char hex2dec_nibble(unsigned char n)
{
// Numbers
if(n >= 0x30 && n <= 0x39)
{
return (n-0x30);
}
// Upper case
else if(n >= 0x41 && n <= 0x46)
{
return (n-0x41+10);
}
// Lower case
else if(n >= 0x61 && n <= 0x66)
{
return (n-0x61+10);
}
else
{
return -1;
}
}

int main()
{
unsigned char t;
t = '0';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'A';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'F';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'G';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'a';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'f';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = 'g';  printf("%c = %d\n", t, hex2dec_nibble(t));
t = '=';  printf("%c = %d\n", t, hex2dec_nibble(t));
}
``````

Which displays:

``````0 = 0
A = 10
F = 15
G = 255
a = 10
f = 15
g = 255
= = 255
``````

I'll leave it as an exercise for you to go from nibble to byte and then from byte to arbitrary length string.

Note: I only used `#include` and `printf` to demonstrate the functionality of the `hex2dec_nibble` function. Its not necessary to use these.

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I don't think you understood my answer. At least its not reflected in your comment. I didn't say anything about the code you wrote. – jedwards May 20 '12 at 4:22
I understand, and the code I posted in this answer will get you to E=14 and B=11. To go from 14 and 11 to 235 you follow the same rules you would in any base. In this case it would be (14 * 16) + 11. You multiply the upper nibble by 16 and add it to the lower nibble. – jedwards May 20 '12 at 4:29

The function you want is called `sscanf.`

http://www.cplusplus.com/reference/clibrary/cstdio/sscanf/

``````int integer;
sscanf(hexBuffer, "%x", &integer);
``````
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Why do you need this without sscanf? Do you not have access to the cstd library? – OmnipotentEntity May 20 '12 at 3:44
Is this homework? – jedwards May 20 '12 at 3:51
That's not really a reason why, though. Are you just trying to learn C by reimplementing the standard library? What purpose are you trying to serve? – OmnipotentEntity May 20 '12 at 3:51
@MakeKaker, well, you can always take `E * 16^1 + B * 16^0`. Mind you there's no power operator. – chris May 20 '12 at 3:59
E*16^1 = 224 not 1616 – OmnipotentEntity May 20 '12 at 4:16

In C++11 you can use one of the string to unsigned integral type and integral conversion functions:

``````long i = std::stol("ff", nullptr, 16); // convert base 16 string. Accepts 0x prefix.
``````

Of course, this requires that your string represents a number that can fit into the integer type on the LHS of the expression.

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