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CHAP14.DOC
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1990-07-19
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134
CHAPTER 14 - ZOOM
There are only a couple of reasons for working at the assembler
level. Perhaps you're curious about how the PC functions at the
machine level. Maybe you want to optimize a time consuming
section of code. Maybe you want to work easily with the DOS
function calls and the BIOS calls (which will be introduced in a
later chapter). Or maybe you want raw speed.
Every time that I enter:
>dir /w
and watch DOS meander its way down the screen at a leisurely
pace, I think "Can't the computer go any faster?" Let's find
out. This is going to be a short chapter. Make a copy of
template.asm, and we'll call it zoom.asm. This is going to
overwrite the entire screen 200 times.{1}
Before we write to the screen, we need to know where the screen
is. When IBM designed the structure of the PC, they decided to
put the memory for the monochrome card in one place and the
memory for the color card in another place - apparently they
thought you might want to have both a color monitor and a
monochrome monitor running at the same time. The color monitor is
in segment 0B800 at offset 0, and the monochrome monitor is in
segment 0B000 at offset 0. We need to put the correct number into
the program, so you need to know whether you have a color card or
a monochrome card. If one segment number doesn't work, you can
try the other.
TEMPLATE.ASM
; - - - - - - - - - - START CODE BELOW THIS LINE
call show_regs_and_wait ; {2}
; we are about to start
; this marks the time
mov ax, 0B800h ; color seg. 0B000h is mono seg
mov es, ax ; es is at video card segment
mov cx, 2 ; do this whole thing twice
outer_loop:
____________________
1 It is now time for you to go out and get a book about the
internal structure and i/o interface of the PC. One good book is
"The Peter Norton Programmer's Guide To The IBM PC", by guess
who? It is clearly written and a good introduction. Another
quality book is "DOS Programmer's Reference" by Terry Dettmann.
It is very systematically laid out and is more techie oriented.
2 We need to initialize the video card to make sure it is in
the right place. This is the easiest way. The registers
themselves mean nothing to us.
______________________
The PC Assembler Tutor - Copyright (C) 1989 Chuck Nelson
Chapter 14 - Zoom 135
_________________
push cx ; save for outer loop instruction
mov cx, 100 ; 100 repeats ; zoom_loop count
mov al, '0' ; 100 characters starting at '0'
mov ah, 07h ; black background, white letters
zoom_loop: ; draw the screen 100 times
push cx
mov cx, 2000 ; 80 X 25 screen is 2000 words long
mov si, 0 ; start at offset 0000.
inner_loop: ; inner loop - fill the screen - 2000 words
mov es:[si], ax
add si, 2
loop inner_loop
inc al ; next higher ASCII character
pop cx ; zoom_loop count
loop zoom_loop
pop cx ; outer_loop count
loop outer_loop
call get_continue ; finished - this is for timing
; - - - - - - - - - - END CODE ABOVE THIS LINE
Show_regs_and_wait resets the video card, so we use it to make
sure the video memory is set at offset 0000. It then waits for
ENTER. At the end, get_continue waits for ENTER.{3} This way you
can mark the beginning and the end in order to time it. We set
the ES segment to the video segment. This is different depending
on whether you have a monochrome card or a color card. The
monochrome segment is at 0B000h and the color card is at 0B800h.
You need to know which kind of card you have so you can put the
right number into ES via AX.
Since the normal segment for SI is the DS segment, we need to put
in a segment override to use SI with the ES segment.
We start with the ASCII character '0' and then do the next 99
characters in increasing ASCII sequence. Technically, ASCII
characters end at 127, but the PC extended characters go up to
255, so we will start with ASCII 48d and end with ASCII 147d. The
zoom_loop changes the character 100 different times, and the
inner_loop fills the screen. That 07h in AH means that we will
have white characters on a black background. The outer loop has a
count of 2. This should be adjusted. If you have a medium speed
machine make it 4 (400 screen fills) and if you have a high speed
machine make it 8 (800 screen fills).
____________________
3 That is its mission in life. It is there so that you can
time blocks of code. If you want to find out how long some code
takes, repeat it 10,000 (or whatever is appropriate) times and
put get_continue in front of it and behind it. That way you can
control the start and mark the finish.
The PC Assembler Tutor 136
______________________
When this is done, the screen will be filled with characters so
you will need to use the DOS command
> cls
to clear the screen for anything else.
When it is all assembled and linked, get a cup of coffee and a
wristwatch with a second hand and we'll time it. Divide by 200
(or 400 or 800) to find out how long it takes to fill one screen.
If the characters are not on your screen, you probably have the
wrong segment address for your video card, so try the other one.
Are you ready to time it? Then ready, set, go.
Hmmm. On my machine 200 repeats takes about 4 seconds, while the
dir command takes about 1 second for one screen. That means that
zoom.asm is about 50 times faster. That's the difference between
someone running a 4 minute mile and someone running a 3hr. 20min.
mile. This is one of the reasons people like to work at the
assembler level.