# Memory address calculation in “Smashing The Stack For Fun And Profit”

I am reading "Smashing The Stack For Fun And Profit"

In the section of "Buffer Overflows", I see this:

``````    0x8000490 <main>:       pushl  %ebp
0x8000491 <main+1>:     movl   %esp,%ebp
0x8000493 <main+3>:     subl   \$0x4,%esp
0x8000496 <main+6>:     movl   \$0x0,0xfffffffc(%ebp)
0x800049d <main+13>:    pushl  \$0x3
0x800049f <main+15>:    pushl  \$0x2
0x80004a1 <main+17>:    pushl  \$0x1
0x80004a3 <main+19>:    call   0x8000470 <function>
0x80004ab <main+27>:    movl   \$0x1,0xfffffffc(%ebp)
0x80004b2 <main+34>:    movl   0xfffffffc(%ebp),%eax
0x80004b5 <main+37>:    pushl  %eax
0x80004b6 <main+38>:    pushl  \$0x80004f8
0x80004bb <main+43>:    call   0x8000378 <printf>
0x80004c3 <main+51>:    movl   %ebp,%esp
0x80004c5 <main+53>:    popl   %ebp
0x80004c6 <main+54>:    ret
0x80004c7 <main+55>:    nop
``````

"We can see that when calling function() the RET will be 0x8004a8, and we want to jump past the assignment at 0x80004ab. The next instruction we want to execute is the at 0x8004b2. A little math tells us the distance is 8 bytes."

I don't get the answer here. 0x80004b2 - 0x80004ab = 7, right? Why the author says it is 8? Do I miss any point here?

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