well I have figured out an answer for my own question. It may be useful for others who have just started to learn ASM and come up with same interpreting problem that i had.
first of all lets look at what is happening in the code:
movl $3, %eax #Read system call
movl $0, %ebx #file descriptor (STDIN)
movl $number, %ecx #the address to which data is to be read into.
movl $4, %edx #number of bytes to be read
Till here what is happening is : program waits for the user to enter a number.
But , what actually is being read is the ASCII code for the "bytes".
Thus when a user enters '2' what actually is read is 0x32 or (110010 in binary or
its decimal equivalent is 50)
The keyboard driver arranges to put these bits in a special memory location that is written when something is read from the input.
What is true for the input is same for output. When a memory location contains a binary sequence that is reported on the screen , similar ASCII conversion is applied.
(considering only ASCII standard for the moment)
INPUT------> ASCII CONVERSION--------> converted data (bytes)
STORED BYTES-------->ASCII CONVERSION--------->Output Data
so , now the question arises why the output (actually the contents of %ebx ) of this program
are not as expected...?
In our program, we are not displaying anything to screen. All echo $? is doing is simply reading whatever there is in ebx -- that is 110010 (50). If you want echo $? to display 2, then you have got to put 2 (i.e. 00010) in ebx.
The echo $? program is "interpreting" the contents of the memory (ebx) as an integer, not a character.
This is what that makes the difference!
And other thing that has to do is with the "little endian" intel architecture.
when you enter 4523 , why do we get output as "52" and not 53, 50 etc?....
In little endian architecture , when you enter the number 4523, '4' is read
and is stored in least significant byte in the address 'number'
If you compile/run program on big endian you may have different results (vice-versa)
And the most important thing is : when you "echo $?" the least significant byte of %ebx
That is why we get output 52 i.e '4'.
This is a tricky and difficult concept to understand and explain. You have to spend some time thinking over this. Once you get it, you feel great.