I have a question regarding an implementation in x86 assembly of 64 bit multiplication. I've posted the code with as far as I was able to get in understanding it. I'm at a loss as to what the rest does (and it's possible I have made errors in what I've already done). Any direction would be appreciated.

```
dest at %ebp+8
x at %ebp+12
y at %ebp+16
movl 16(%ebp), %esi //Move y into %esi
movl 12(%ebp), %eax //Move x into %eax
movl %eax, %edx //Move x into %edx
sarl $31, %edx //Shift x right 31 bits (only sign bit remains)
movl 20(%ebp), %ecx //Move the low order bits of y into %ecx
imull %eax, %ecx //Multiply the contents of %ecx (low order bits of y) by x
movl %edx, %ebx //Copy sign bit of x to ebx
imull %esi, %ebx //Multiply sign bit of x in ebx by high order bits of y
addl %ebx, %ecx //Add the signed upper order bits of y to the lower order bits (What happens when this overflows?)
mull %esi //Multiply the contents of eax (x) by y
leal (%ecx,%edx), %edx
movl 8(%ebp), %ecx
movl %eax, (%ecx)
movl %edx, 4(%ecx)
```

unsigned32x64 multiplication only needs`imul`

+`mul`

and 2 adds (godbolt.org/g/VC6i9T): the upper half of the 32-bit input is zero, not 0 or -1, so the`x_h * y_h`

term disappears. (And BTW, gcc could have done a better job here, with cmov / sub instead of actually multiplying by the upper half of x. And it could have generated it with`cdq`

.) Actual 64x64 multiplication takes fewer instructions (no sign-extending the upper half). – Peter Cordes Jun 13 '18 at 7:15