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ATT syntax.

I'm trying to understand a practice problem we talked about in class.

We were given the following partial assembly code for a switch statement:

movl  8(%ebp), %eax
addl  $2, %eax
cmpl  $6, %eax
ja    .L2
jmp   *.L8(,%eax,4)

//rest of switch statement would go here

.L8
 .long   .L3
 .long   .L2
 .long   .L4
 .long   .L5
 .long   .L6
 .long   .L6
 .long   .L7

I know that the second portion is the jump table. What I can't figure out is how to calculate the original C-level switch case values. How can I do this?

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1 Answer 1

up vote 1 down vote accepted

Analyze the code.

The function's parameter + 2 is used as an index into the table. So, the constants start at -2 and go on to -1, 0, etc.

The maximum constant is 4, see there's a check for parameter + 2 > 6, or, equivalently, for parameter > 4. The number of elements in the table reflects that too.

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I don't know why I couldn't see that, makes perfect sense. Thanks. –  amorimluc Jan 30 '13 at 5:29
    
Strictly speaking, the compiler is free to reorganize and optimize code in any weird way so long as the end behavior isn't altered. This means that in real-world scenarios you may be unable to always see the same constants in the disassembly as in the original C code. You may not see there a slightest trace of switch either. –  Alexey Frunze Jan 30 '13 at 5:33

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