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I have an assignment in which we have to write two functions. Also must detect overflow conditions using the processor's condition codes and return 0 to indicate that an error has been encountered. I was able to write the functions.

 .file  "formula.c"  
    .text
.globl _nCr  
    .def    _nCr;   .scl    2;  .type   32; .endef  
_nCr:  
        pushl   %ebp  
    movl    %esp, %ebp  
    subl    $56, %esp  
    movl    8(%ebp), %eax  
    movl    %eax, (%esp)  
    testl %eax, %eax  
    call    _factorial  
    movl    %eax, -12(%ebp)  
    movl    12(%ebp), %eax  
    addl    $1, %eax  
    movl    %eax, (%esp)  
    call    _factorial  
    movl    %eax, -16(%ebp)  
    movl    12(%ebp), %eax  
    notl    %eax  
    addl    8(%ebp), %eax  
    movl    %eax, (%esp)  
    call    _factorial  
    movl    %eax, -20(%ebp)  
    movl    -16(%ebp), %eax  
    movl    %eax, %edx  
    imull   -20(%ebp), %edx  
    movl    %edx, -28(%ebp)  
    movl    -12(%ebp), %eax  
    movl    %eax, %edx  
    sarl    $31, %edx  
    idivl   -28(%ebp)  
    leave  
    ret  
.globl _factorial   
    .def    _factorial;  .scl    2;     .type   32;     .endef   
_factorial:  
    pushl   %ebp  
    movl    %esp, %ebp  
    subl    $16, %esp  
    movl    $1, -8(%ebp)  
    movl    $1, -4(%ebp)  
    jmp L3  
L4:   
    movl    -8(%ebp), %eax   
    imull   -4(%ebp), %eax  
    movl    %eax, -8(%ebp)  
    addl    $1, -4(%ebp)   
L3:
    movl    -4(%ebp), %eax  
    cmpl    8(%ebp), %eax  
    jle L4  
    movl    -8(%ebp), %eax  
    leave  
    ret  
    .def    ___main;    .scl    2;  .type   32; .endef  
    .section .rdata,"dr"  
    .align 4  

This function basically does n!/r!(n-r)!. The overflow occurs in factorial when the numbers get larger. I just do not understand how I would set the overflow conditions.

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2  
Overflow conditions are set automatically by arithmetic instructions. You just need to know how to read them. –  Mysticial Mar 21 '12 at 1:34
    
Thanks for the reply. I am supposed to be putting in my own condition flags. I'm just having trouble as to how I would put in my own condition flags. –  user1282285 Mar 21 '12 at 1:38
    
Based on the question and your comment it appears that this is homework, so I added the homework tag. If this isn't homework, feel free to remove the tag. –  Adam Mihalcin Mar 21 '12 at 1:41
    
@user1282285 You set the condition flags by performing the operations you want. Or am I missing something? –  Mysticial Mar 21 '12 at 1:44
1  
You will probably have an easier time if you write and understand the assembly yourself, rather than using GCC's generated assembly. –  duskwuff Mar 21 '12 at 1:52

2 Answers 2

1) Your arithmetic commands are the operations that could potentially set the overflow bit

2) The "JO" (jump on overflow) and "JNO" (jump on not overflow) allow you to branch, depending on whether an overflow occurred or not

3) You'd probably just set "%eax" to 0 after "JO".

4) Excellent, excellent resource if you're not already familiar with it:

Programming from the Ground Up, Jonathan Bartlett

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Thank you so much! The JO is extremely helpful. And also for the resource. –  user1282285 Mar 21 '12 at 2:09

On the x86 architecture, when an arithmetic instruction executes such as addl 8(%ebp), %eax the condition codes are set in the CPU status word. There are instructions whose behavior depends on condition codes.

You can have the code take an alternate path (execute a branch) on a given condition. The x86 has a family of conditional branching instructions under the Jxx mnemonics: JA, JAE, JB, JBE, JC, JCXZ, ..., JZ. For instance JZ means jump if zero: take a branch if the instruction produced a zero result, setting the zero flag. JO is jump on overflow.

A condition can also be converted to a byte datum and stored into a register or memory. This is useful for compiling C expressions like:

 x = (y != 3); /* if (y != 3) x = 1; else x = 0 */

It is done by the SETx group of instructions which are also numerous, like the conditional branches: SETA, SETAE, SETB, ..., SETZ. For instance SETZ will set a given byte to 1 if the zero condition is true. E.g.

 seto %bl  /* set bottom byte of B register to 1 if overflow flag set */
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