I am unable to understand the following:
In java,
long l = 130L;
byte b = (byte)l;
If I print the value of b, why do I get 126? What is the bit representation of long l?

Bytes are signed in Java  so the range of values is 128 to 127 inclusive. The bit pattern for 130 as a long, when simply truncated to 8 bits, is the bit pattern for 126 as a byte. As another example:



You mean Java's types are signed, so bytes allow numbers between 128 and +127. 


A byte is a sequence of 8 bits, which makes 2^8 cases = 256. Half of them represent negative numbers, which is 128 to 1. Then there is the 0, and about the half, 1 to 127 represent the positive numbers. 130 as Int looks like 128 + 2 which is:
However, the Byte has just 8 digits, and the assignment takes just the bits as they are, but just the last ones:
The first bit indicates, it is a negative number. Now how much do you need to add to get to zero? Let's do it stepwise:
Lets do bigger steps. Just add 1s where we have zeros, but first we go back to x:
Now there is the turning point: we add another 1, and get zero (plus overflow)
If (x+y) + 1 = 0, x+y = 1. A minus 1 is, interestingly, not just the same as 1 (0000:0001) with a 'negativeflag' set ('1000:0001'), but looks completely different. However, the first position always tells you the sign: 1 always indicates negative. But what did we add before?
It doesn't have a 1 at the first position, so it is a positive value. We know how to deconstruct that?
And now it's clear: x+125 = 1 => x = 126 You may imagine the values, organized in a circle, with the 0 at the top (high noon) and positive values arranged like on a clock from 0 to 5 (but to 127), and the turning point at the bottom (127 + 1 => 128 [sic!].) Now you can go on clockwise, adding 1 leads to 127, 126, 125, ... 3, 2, 1 (at 11 o'clock) and finally 0 at the top again. For bigger numbers (small, int, long) take bigger clocks, with the zero always on top, the maximum and minimum always on bottom. But even a byte is much too big, to make a picture, so I made one of a nibble, a halfbyte: You can easily fill the holes in the picture, it's trivial! Btw.: the whole thing isn't called casting. Casting is only used between Objects. If you have something, which is in real a subtype:
this is just an assignment, since a String is (always) an Object. No casting involved.
This is a casting. To the more specific type. Not every object is a String. There is a small relationship to integer promotion, since every byte can be lossless transformed to long, but not every long to byte. However, even Byte and Long, the Objecttypes, aren't inherited from each other. You just don't get a warning, for


