Can you explain the bits I'm getting from unpack?

I'm relatively inexperienced with Perl, but my question concerns the unpack function when getting the bits for a numeric value. For example:

``````my \$bits = unpack("b*", 1);
print \$bits;
``````

This results in 10001100 being printed, which is 140 in decimal. In the reverse order it's 49 in decimal. Any other values I've tried seem to give the incorrect bits.

However, when I run \$bits through pack, it produces 1 again.
Is there something I'm missing here? Thanks.

-Rob

Edit:
As an aside, I'm continually amazed at how quick it is to get answers to questions on this site, so to everyone who responded to this question, thank you Sirs, they were all of them informative.

Edit2:
It seems that I jumped to conclusions when I thought my problem was solved. Maybe I should briefly explain what it is I'm trying do.
I need to covert an integer value that could be as big as 24 bits long (the point being that it could be bigger than one byte) into a bit string. This much can be accomplished using unpack and pack as suggested by @ikegami, but I also need to find a way to convert that bit string back into it's original integer (not a string representation of it).
As I mentioned, I'm relatively inexperienced with Perl, and I've been trying with no success.

Edit3:
I found what seems to be an optimal solution:

``````my \$bits = sprintf("%032b", \$num);
print "\$bits\n";
my \$orig = unpack("N", pack("B32", substr("0" x 32 . \$bits, -32)));
print "\$orig\n";
``````
-

You're trying to convert an integer to binary and then back. While you can do that with pack and then unpack, the better way is to use sprintf or printf with the `%b` format:

``````my \$int = 5;
my \$bits = sprintf "%024b\n", \$int;
print "\$bits\n";
``````

To go the other way (converting a string of 0s & 1s to an integer), the best way is to use the oct function with a `0b` prefix:

``````my \$orig = oct("0b\$bits");
print "\$orig\n";
``````

As the others explained, `unpack` expects a string to unpack, so if you have an integer, you first have to `pack` it into a string. The `%b` format expects an integer to begin with.

If you need to do a lot of this on bytes, and speed is crucial, you could build a lookup table:

``````my @binary = map { sprintf '%08b', \$_ } 0 .. 255;

print \$binary[\$int];  # Assuming \$int is between 0 and 255
``````
-

This might be obvious, but the other answers haven't pointed it out explicitly: The second argument in `unpack("b*", 1)` is being typecast to the string `"1"`, which has an ASCII value of `31` in hex (with the most significant nibble first).

The corresponding binary would be `00110001`, which is reversed to `10001100` in your output because you used `"b*"` instead of `"B*"`. These correspond to the opposite "endian" forms of the binary representation. "Endian-ness" is just whether the most-significant bits go at the start or the end of the binary representation.

-

Yes, you're missing that different machines support different "endianness". And perl is treating `1` like `'1'` so ( 0x31 ). So, you're seeing 1 -> 1000 (in ascending order) and 3 -> 1100.

"Wrong" depends on perspective and whether or not you gave perl enough information to know what encoding and endianness you wanted.

From `pack`:

``````b A bit string (ascending bit order inside each byte, like vec()).
B A bit string (descending bit order inside each byte).
``````

I think this is what you want:

``````unpack( 'B*', chr(1))
``````
-
You need more than one byte for endianness to come into play. –  ikegami Apr 21 '11 at 20:15
Then again, the article talks about endianness of bits. I've never seen it used that way, though. –  ikegami Apr 21 '11 at 20:17
Cheers, that did the trick. –  Rob Apr 21 '11 at 20:41

The `ord(1)` is 49. You must want something like `sprintf("%064b", 1)`, although that does seem like overkill.

-

You didn't specify what you expect. I'm guessing you're expecting `00000001`.

That's the correct bits for the byte you provided, at least on non-EBCDIC systems. Remember, the input of unpack is a string (mostly strings of bytes). Perhaps you wanted

``````unpack('b*', pack('C', 1))
``````

Update: As others have pointed out, the above gives `10000000`. For `00000001`, you'd use

``````unpack('B*', pack('C', 1))  # 00000001
``````
-
Thanks. It seems that's what I was looking for. Although, is this the only way to accomplish the task, with a nested pack. I mean maybe it is very efficient, but if not, I just wondering if there's another way to go about. I will have to execute this command many times. –  Rob Apr 21 '11 at 20:32
@Rob: yes, there's another way. The nested pack is only needed because unpack works on strings, not numbers; if you have a number, you should probably just use sprintf (see tchrist's answer) –  ysth Apr 21 '11 at 21:00
@Rob, `"\x01"`, `chr(1)` and `pack('C', 1)` are produce the same string. –  ikegami Apr 21 '11 at 21:08
@Rob: Did you really just ask whether something is the only way to do it — in Perl? :) –  tchrist Apr 21 '11 at 23:04
@ikegami: you forgot `v1` :) (and `"\cA"`, `"\1"`, `use charnames ':full'; "\N{START OF HEADING}"`, etc) –  ysth Apr 22 '11 at 0:10

You want "B" instead of "b".

``````\$ perl -E'say unpack "b*", "1"'
10001100

\$ perl -E'say unpack "B*", "1"'
00110001
``````

pack

-