0
.text 
Assignment:  .asciz "Assignment 1b: inout\n" #string
.global  main
formatstr:   .asciz "%ld"                   #long interger 64 bits long
printstr:    .asciz "%ld\n"                 #long interger plus next line

main:
movq     $Assignment, %rdi              #address of string
movq     $0, %rax                       #no vector arguments for printf
call     printf                         #prints the string
call     power                          #call the subroutine inout
movq     $0, %rdi                       #load zero into rdi (register)
call     exit       

power:
pushq %rbp                              #push base pointer
movq %rsp, %rbp                         #move stack pointer to base pointer
subq $8, %rsp                           #reserve stack space for variable
movq $formatstr, %rdi                   #load first argument of scanf
leaq -8(%rbp), %rsi                     #load adress of stack var in rsi
movq $0, %rax                           #no vector refisters for scanf
call scanf                              #calls scanf 
movq -8(%rbp), %rbx                     #moves scanned interger (base) into rbx
movq %rbp, %rsp                         #moves rstackpointer to basepointer
popq %rbp                               #takes basepointer from stack
pushq %rbp                              #push basic pointer
movq %rsp, %rbp                         #moves stack pointer to basepointer
subq $8, %rsp                           #reserve stack space for 2nd variable
movq $formatstr, %rdi                   #load first argument of scanf
leaq -8(%rbp), %rsi                     #load adress of stack var in rsi
movq $0, %rax                           #no vector refisters for scanf
call scanf                              #calls scanf
movq -8(%rbp), %rcx                     #moves scanned interger (exp) into rcx
movq %rbp, %rsp                         #moves basepointer to stackpointer
popq %rbp                               #takes basepointer from stack
movq %rbx, %rax                         #moves 1st var into rax
movq $1, %rdx                           #sets rdx to 1
jmp loop                                #jumps to loop
loop:
incq %rdx                               #increments rdx by 1
mulq %rbx                               #multiplies rax by rbx
cmpq %rdx, %rcx                         #checks if rdx <  rcx
jl  loop    
movq $printstr, %rdi                    #load first argument for printf
movq -8(%rax), %rsi                         #load 2nd argument (number) for printf
movq $0, %rax                           #no vector argument
call printf                             #prints
movq %rbp, %rsp                         #moves rsp to rbp
popq %rbp                               #takes rbp from stack
ret                                     #return from subroutine

the scanning for input function works since i have checked this by putting the printf function after the scan function. but putting the two integers in the loop and printing the result wont work. the loop continues as long as rax is smaller than the second integer. and everytime the loop runs rax is multiplied by the first integer.

  • mul writes RDX:RAX, clobbering your loop counter. Use imul %rbx, %rax. (And BTW, if you care about efficiency, you can do x^N in O(log2(N)) multiplies by squaring and right-shifting the counter, instead of N multiplies the simple way.) – Peter Cordes Oct 1 '18 at 15:06
  • That was the closest duplicate I could find. Not perfect, but felixcloutier.com/x86/MUL.html explains what MUL does. IDK if there are any other problems in your code. You don't seem to describe it being an infinite loop, only the desired behaviour, so it doesn't seem to be a minimal reproducible example. – Peter Cordes Oct 1 '18 at 15:16

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