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I'm really confused as to how stack pointers and byte pointers work. Here is the segment of code the problem is referencing:

v1  db  'AB'
v2  db  'CD'
v3  db  'EF

     mov  ax,@data
     mov  ds,ax
     mov  sp,0100h

;call the subroutine
     mov  ax,offset v1
     push ax
     mov  ax,offset v2
     push ax
     call subr

The subroutine is:

     push bp
     mov  bp,sp
     mov  si,[bp+6]
     add  si,1
     mov  dl,[si]
     mov  ah,2
     int  21h
     pop  bp

The three review questions associated with this problem have these answers:
1. After mov bp,sp in the subroutine, the value of the hex value in bp is 00F8.
2. The subroutine writes a single ASCII character to the standard output. It writes B.
3. The hex value in the sp register after the subroutine returns to the main program at the instruction at the label retsub is 00FC.

Can anyone walk me through the steps so that I can understand this process a little better?

The offset data table that I have is:

offset  00  01  02  03  04  05
data    41  42  43  44  45  46

The way that I approach this problem in my head is:

mov  sp,0100h      ;sp = 0100
mov  ax,offset v1  ;ax = 4142
push ax            ;4142 is pushed onto the stack
mov  ax,offset v2  ;ax = 4344
push ax            ;4344 is pushed onto the stack
call subr


This is as far as I understand and I'm sure I'm not even doing this part right. If you can, please break it down with what bp and sp is with each step so that I can follow along and hopefully apply this to another review problem.

share|improve this question
Btw, you don't need to load SS or SP explicitly at the beginning of .COM and .EXE programs. DOS takes care of loading SS:SP. Further, the stack size should be set with the appropriate stack segment definition or special keyword (if there's any supported by the assembler). ESP should not be loaded with an arbitrary hard-coded value, there must be space reserved for he stack. – Alexey Frunze Dec 13 '11 at 9:02
up vote 3 down vote accepted

Every push decrements sp by the size of the pushed element. Every pop increments sp similarly.

So, you begin with sp = 100h, then you

  1. subtract 2 with push ax
  2. subtract 2 with push ax
  3. subtract 2 with call subr because call pushes the return address and it's 16-bit here
  4. subtract 2 with push bp and arrive at sp = 0F8h
  5. add 2 with pop bp
  6. add 2 with ret and remove the 16-bit return address and arrive at sp = 0FCh
share|improve this answer
Thanks, this makes sense to me. – raphnguyen Dec 13 '11 at 9:21

After mov bp,sp in the subroutine, the value of the hex value in bp is 00F8

Yes, because sp is initialized with 100h then two word sized arguments are pushed (push ax), the subroutine is called which pushes the 2-byte return address onto the stack, and last push bp is executed which decrease sp with another 2 bytes. So we have 100h-2-2-2-2 = 00F8h. Stack grows downwards in memory on Intel CPUs.

The hex value in the sp register after the subroutine returns to the main program at the instruction at the label retsub is 00FC.

This is because the subroutine exits with a "pop bp" instruction, then a ret instruction which pops (read from and increase sp) an return address from the stack. So 00F8+2+2=00FC.

share|improve this answer
I don't see the FAR keyword anywhere (neither in the call instruction, nor in the ret instruction and there's no PROC), so the return address is 2-byte-long. The other 2 bytes come from push bp. – Alexey Frunze Dec 13 '11 at 8:51
Alex, you are correct. I was too quick in replying and did not think it through correctly. I've edited my answer and +1 yours. – Ville Krumlinde Dec 13 '11 at 9:16
Thanks, I think I understand the stack increment/decrement. I'm still a bit lost with indirect addressing and can't follow along with the code enough to know what it prints. – raphnguyen Dec 13 '11 at 9:21

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