# How to perform operation on specific bits in perl

Lets assume I have a hexadecimal value 0x78. I need to add 1 to first 4 bits ie 3:0 and add 2 to last 4 bits ie. [7:4]. Further when I add 1 to 0xF it should not roll over to the next value and should stay as 0xF. Same applies for subtraction. The approach I have tried so far is:

``````\$byte=0x78;
\$byte2 = unpack('b4', \$byte);
print "byte2 = \$byte2 \n";
``````

--> Here the output is 1000 so I have tried to extract the first 4 bits, and similarly I can right shift and extract last 4 bits and perform the operation. But to perform addition or subtraction, I wanted to convert 1000 back to hex format so that I can do 0x8 +/- 1. For that I tried:

``````\$hex2 = sprintf('%02x', \$byte2);
print "hex2 = \$hex2 \n";
``````

--> Output is 3e8. I do not understand why I get 3e8 instead of just 8 or 08, since it is supposed to print only 2 values in hex format.

In the above command when I manually enter \$hex2 = sprintf('%02x', 0b1000); I get the correct result. So perl is taking it as a string rather than a numeric value. Is there some way I can convert that string to a binary number? Any other easier method or approach would be helpful.

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`unpack 'bX'` takes a string of bytes, but you passed a number. You just got lucky you got the right answer, since you're actually getting the binary of `37 38` (the Unicode code points of `7` and `8`) when you want the binary of `78`. –  ikegami Aug 20 '13 at 2:38
Binary is a text representation of a number. You don't want to work in binary (text), you want to work with numbers. Use the bitwise operators with `\$byte`. –  ikegami Aug 20 '13 at 2:42

We can get each byte by ANDing and shifting:

``````\$byte1 = \$byte & 0xf;
\$byte2 = (\$byte & 0xf0) >> 4;
printf "byte1: 0x%x\n", \$byte1;
printf "byte2: 0x%x\n", \$byte2;

# prints
byte1: 0x8
byte2: 0x7
``````

Addition/subtraction with special conditions you listed can be done on these bytes and the new value can be reconstructed with shifts and addition:

``````(\$byte1 < 0xf) ? (\$byte1 += 1) : (\$byte1 = 0xf);
(\$byte2 < 0xe) ? (\$byte2 += 2) : (\$byte2 = 0xf);
# or do subtraction stuff.

\$new_val = (\$byte2 << 4) + \$byte1;
printf "new val: 0x%x\n", \$new_val;

# prints
new val: 0x99
``````

You're getting '3e8' because \$byte2 is '1000', which, when translated into hex is '0x3e8'.

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I think you're better off with something like:

``````sub byte_to_two_nibbles(\$) {
my \$byte = shift;
return int(\$byte / 16), (\$byte % 16);
}

sub two_nibbles_to_byte(\$\$) {
return \$_[0] * 16 + \$_[1];
}

my (\$msn, \$lsn) = byte_to_two_nibbles 0x78;
\$msn += 1; \$msn = 15 if \$msn > 15;
\$lsn += 2; \$lsn = 15 if \$lsn > 15;
my \$result = two_nibbles_to_byte \$msn, \$lsn;
``````
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You can use oct function:

``````\$byte2 = oct("0b\$byte2");
my \$hex2 = sprintf('%02x', \$byte2);
print "hex2 = \$hex2 \n";
``````

Prints:

``````hex2 = 08
``````
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