This code looks complex, because the author tried to pack as much functionality into one line as possible. (Were I in a grouchier mood I'd call this "showing off" and would probably complain if a junior tried to check this in.) However, no single part of that line of code is complex; just break it apart piece by piece and examine each bit.
For starters, that first line is just rubbish;
ToInt32("a") throws a
FormatException because you didn't specify the base of 16, as:
ToInt32("a", 16). If you fix it, though, it's going to return
10.ToString("x") which is
"a". So ignore that line, it does nothing useful. (We can imagine the author meant to use something like
Encoding.UTF8.GetBytes() to return
0x61, but they did not.)
The second line, you break down each bit and see what it does:
This is pretty easy: it's going to take an array of strings and join them together, using
String.Empty as the separator (IOW, no separation.)
Here's we're using LINQ to build up an
IEnumerable of strings; it's going to loop through the characters in the string, one at a time, and execute the lambda expression on each one.
c => Convert.ToString(
Convert.ToUInt32(c.ToString(), 16), 2).PadLeft(4, '0')));
Here's where it gets messy, because even for me matching up those parenthesis by eye is a pain, but if you expand the nested function calls into temporaries, you get:
s = c.ToString(); // Convert the character to a string
u = Convert.ToUInt32(s, 16); // Convert a string of hex digits to a uint
b = Convert.ToString(u, 2); // Convert a uint to a string of binary digits.
return b.PadLeft(4, '0'))); // Add 0s to make the string at least 4 digits.
Each one of those "returned" values becomes the next element in the enumerable, which is returned by
Select, which is then joined.
The end result here is that you start with a string of hexadecimal digits from 0 - F which, when read as a number, has some particular numeric value, and you end up with a string of binary digits 0 and 1 which, when read as a number, has the same numeric value. IOW, you are "converting" a string of hex digits into an "equivalet" string of binary digits.