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╒═══════════════════════════════╕
│ W E L C O M E │
│ To the VGA Trainer Program │ │
│ By │ │
│ DENTHOR of ASPHYXIA │ │ │
╘═══════════════════════════════╛ │ │
────────────────────────────────┘ │
────────────────────────────────┘
--==[ PART 4 ]==--
■ Introduction
Howdy all! Welcome to the fourth part of this trainer series! It's a
little late, but I am sure you will find that the wait was worth it,
becase today I am going to show you how to use a very powerful tool :
Virtual Screens.
If you would like to contact me, or the team, there are many ways you
can do it : 1) Write a message to Grant Smith in private mail here on
the Mailbox BBS.
2) Write a message here in the Programming conference here
on the Mailbox (Preferred if you have a general
programming query or problem others would benefit from)
3) Write to ASPHYXIA on the ASPHYXIA BBS.
4) Write to Denthor, Eze or Livewire on Connectix.
5) Write to : Grant Smith
P.O.Box 270 Kloof
3640
6) Call me (Grant Smith) at 73 2129 (leave a message if you
call during varsity)
NB : If you are a representative of a company or BBS, and want ASPHYXIA
to do you a demo, leave mail to me; we can discuss it.
NNB : If you have done/attempted a demo, SEND IT TO ME! We are feeling
quite lonely and want to meet/help out/exchange code with other demo
groups. What do you have to lose? Leave a message here and we can work
out how to transfer it. We really want to hear from you!
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
■ What is a Virtual Screen and why do we need it?
Let us say you are generating a complex screen numerous times on the fly
(for example scrolling up the screen then redrawing all the sprites for
each frame of a game you are writing.) Do you have any idea how awful it
would look if the user could actually see you erasing and redrawing each
sprite for each frame? Can you visualise the flicker effect this would
give off? Do you realise that there would be a "sprite doubling" effect
(where you see two copies of the same sprite next to each other)? In the
sample program I have included a part where I do not use virtual screens
to demonstrate these problems. Virtual screens are not the only way to
solve these problems, but they are definately the easiest to code in.
A virtual screen is this : a section of memory set aside that is exactly
like the VGA screen on which you do all your working, then "flip" it
on to your true screen. In EGA 640x350x16 you automatically have a
virtual page, and it is possible to have up to four on the MCGA using a
particular tweaked mode, but for our puposes we will set one up using base
memory.
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
■ Setting up a virtual screen
As you will have seen in the first part of this trainer series, the MCGA
screen is 64000 bytes big (320x200=64000). You may also have noticed that
in TP 6.0 you arn't allowed too much space for normal variables. For
example, saying :
VAR Virtual : Array [1..64000] of byte;
would be a no-no, as you wouldn't have any space for your other variables.
What is the solution? I hear you enquiring minds cry. The answer : pointers!
Pointers to not use up the base 64k allocated to you by TP 6.0, it gets
space from somewhere else in the base 640k memory of your computer. Here is
how you set them up :
Type Virtual = Array [1..64000] of byte; { The size of our Virtual Screen }
VirtPtr = ^Virtual; { Pointer to the virtual screen }
VAR Virscr : VirtPtr; { Our first Virtual screen }
Vaddr : word; { The segment of our virtual screen}
If you put this in a program as it stands, and try to acess VirScr, your
machine will probably crash. Why? Because you have to get the memory for
your pointers before you can acess them! You do that as follows :
Procedure SetUpVirtual;
BEGIN
GetMem (VirScr,64000);
vaddr := seg (virscr^);
END;
This procedure has got the memory for the screen, then set vaddr to the
screens segment. DON'T EVER LEAVE THIS PROCEDURE OUT OF YOUR PROGRAM!
If you leave it out, when you write to your virtual screen you will probably
be writing over DOS or some such thing. Not a good plan ;-).
When you have finished your program, you will want to free the memory
taken up by the virtual screen by doing the following :
Procedure ShutDown;
BEGIN
FreeMem (VirScr,64000);
END;
If you don't do this your other programs will have less memory to use for
themselves.
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
■ Putting a pixel to your virtual screen
This is very similar to putting a pixel to your normal MCGA screen, as
discussed in part one... here is our origonal putpixel :
Procedure PutPixel (X,Y : Integer; Col : Byte);
BEGIN
Mem [VGA:X+(Y*320)]:=col;
END;
For our virtual screen, we do the following :
Procedure VirtPutPixel (X,Y : Integer; Col : Byte);
BEGIN
Mem [Vaddr:X+(Y*320)]:=col;
END;
It seems quite wasteful to have two procedures doing exactly the same thing,
just to different screens, doesn't it? So why don't we combine the two like
this :
Procedure PutPixel (X,Y : Integer; Col : Byte; Where : Word);
BEGIN
Mem [Where:X+(Y*320)]:=col;
END;
To use this, you will say something like :
Putpixel (20,20,32,VGA);
PutPixel (30,30,64,Vaddr);
These two statements draw two pixels ... one to the VGA screen and one to
the virtual screen! Doesn't that make you jump with joy! ;-) You will
have noticed that we still can't actually SEE the virtual screen, so on to
the next part ...
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
■ How to "Flip" your virtual screen on to the true screen
You in fact already have to tools to do this yourselves from information
in the previous parts of this trainer series. We will of course use the
Move command, like so :
Move (Virscr^,mem [VGA:0],64000);
simple, eh? Yuo may want to wait for a verticle retrace (Part 2) before you
do that, as it may make the flip much smoother (and, alas, slower).
Note that most of our other procedures may be altered to support the
virtual screen, such as Cls etc. (see Part 1 of this series), using the
methoods described above (I have altered the CLS procedure in the sample
program given at the end of this Part.)
We of ASPHYXIA have used virtual screens in almost all of our demos.
Can you imagine how awful the SoftelDemo would have looked if you had to
watch us redrawing the moving background, text and vectorballs for EACH
FRAME? The flicker, doubling effects etc would have made it awful! So
we used a virtual screen, and are very pleased with the result.
Note, though, that to get the speed we needed to get the demo fast enough,
we wrote our sprites routines, flip routines, pallette routines etc. all
in assembly. The move command is very fast, but not as fast as ASM ;-)
=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
■ In closing
I am writing this on the varsity computers in between lectures. I prefer
writing & coding between 6pm and 4am, but it isn't a good plan when
varsity is on ;-), so this is the first part of the trainer series ever
written before 9pm.
I have been asked to do a part on scrolling the screen, so that is
probably what I will do for next week. Also, ASPHYXIA will soon be putting
up a small demo with source on the local boards. It will use routines
that we have discussed in this series, and demonstrate how powerful these
routines can be if used in the correct manner.
Some projects for you to do :
1) Rewrite the flip statement so that you can say :
flip (Vaddr,VGA);
flip (VGA,Vaddr);
( This is how ASPHYXIAS one works )
2) Put most of the routines (putpixel, cls, pal etc.) into a unit,
so that you do not need to duplicate the procedures in each program
you write. If you need help, leave me mail.
See you next week
- Denthor
┌──────────────┬─────────────────────────────────────────────────────────────
│ TUTPROG4.PAS │
└──────────────┘
{$X+} (* This is a handy little trick to know. If you put this at the top
of your program, you do not have to set a variable when calling
a function, i.e. you may just say 'READKEY' instead of
'CH:=READKEY' *)
USES Crt; (* This has a few nice functions in it, such as the
READKEY command. *)
CONST VGA = $a000; (* This sets the constant VGA to the segment of the
VGA screen. *)
Type Virtual = Array [1..64000] of byte; { The size of our Virtual Screen }
VirtPtr = ^Virtual; { Pointer to the virtual screen }
VAR Virscr : VirtPtr; { Our first Virtual screen }
Vaddr : word; { The segment of our virtual screen}
{──────────────────────────────────────────────────────────────────────────}
Procedure SetMCGA; { This procedure gets you into 320x200x256 mode. }
BEGIN
asm
mov ax,0013h
int 10h
end;
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure SetText; { This procedure returns you to text mode. }
BEGIN
asm
mov ax,0003h
int 10h
end;
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure Cls (Col : Byte; Where:Word);
{ This clears the screen to the specified color, on the VGA or on the
virtual screen }
BEGIN
Fillchar (Mem [where:0],64000,col);
END;
{──────────────────────────────────────────────────────────────────────────}
procedure WaitRetrace; assembler;
{ This waits until you are in a Verticle Retrace ... this means that all
screen manipulation you do only appears on screen in the next verticle
retrace ... this removes most of the "fuzz" that you see on the screen
when changing the pallette. It unfortunately slows down your program
by "synching" your program with your monitor card ... it does mean
that the program will run at almost the same speed on different
speeds of computers which have similar monitors. In our SilkyDemo,
we used a WaitRetrace, and it therefore runs at the same (fairly
fast) speed when Turbo is on or off. }
label
l1, l2;
asm
mov dx,3DAh
l1:
in al,dx
and al,08h
jnz l1
l2:
in al,dx
and al,08h
jz l2
end;
{──────────────────────────────────────────────────────────────────────────}
Procedure SetUpVirtual;
{ This sets up the memory needed for the virtual screen }
BEGIN
GetMem (VirScr,64000);
vaddr := seg (virscr^);
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure ShutDown;
{ This frees the memory used by the virtual screen }
BEGIN
FreeMem (VirScr,64000);
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure PutPixel (X,Y : Integer; Col : Byte; Where : Word);
{ This puts a pixel at X,Y using color col, on VGA or the Virtual Screen}
BEGIN
Mem [Where:X+(Y*320)]:=col;
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure Flip;
{ This flips the virtual screen to the VGA screen. }
BEGIN
Move (Virscr^,mem [VGA:0],64000);
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure BlockMove;
{ This tests various ways of moving a block around the screen }
VAR loop1,loop2,loop3:Integer;
BEGIN
For loop1:=1 to 50 do BEGIN { This draw a block }
for loop2:=1 to 50 do { directly to VGA, no }
for loop3:=1 to 50 do { flipping }
putpixel (loop1+loop2,loop3,32,VGA);
cls (0,VGA);
END;
For loop1:=1 to 50 do BEGIN { This draws a block }
for loop2:=1 to 50 do { to the virtual screen, }
for loop3:=1 to 50 do { then flips it to VGA }
putpixel (loop1+loop2,loop3,32,Vaddr);
flip;
cls (0,Vaddr);
END;
For loop1:=1 to 50 do BEGIN { This draws a block }
for loop2:=1 to 50 do { to the virtual screen, }
for loop3:=1 to 50 do { waits for a retrace, }
putpixel (loop1+loop2,loop3,32,Vaddr); { then flips it to VGA }
waitretrace;
flip;
cls (0,Vaddr);
END;
END;
{──────────────────────────────────────────────────────────────────────────}
Procedure PatternDraw;
{ This test the speed of flipping by drawing two patterns and flipping
them }
VAR loop1,loop2:integer;
BEGIN
for loop1:=1 to 100 do { This draws pattern one }
for loop2:=1 to 100 do { to the virtual screen }
putpixel (loop1,loop2,loop1,Vaddr); { then flips it to VGA }
flip;
for loop1:=1 to 100 do { This draws pattern two }
for loop2:=1 to 100 do { to the virtual screen }
putpixel (loop1,loop2,loop2,Vaddr); { then flips it to VGA }
flip;
END;
BEGIN
ClrScr;
Writeln ('This program will demonstrate the power of virtual screens.');
Writeln ('A block will firstly move across the screen, being drawn and');
Writeln ('erased totally on the VGA. Then the same block will move');
Writeln ('across, but will be drawn on the virtual screen and flipped');
Writeln ('to the VGA screen without a retrace (see part 2). The the');
Writeln ('block will go again, with flipping and a retrace.');
Writeln;
Writeln ('I will then draw a pattern, flip it to VGA, draw another');
Writeln ('pattern, flip it to VGA, and repeat that until a key is pressed.');
Writeln ('This will demonstrate that even when I put down 10000 pixels,');
Writeln ('then flip them to the VGA, it is still relatively fast. ');
Writeln; Writeln;
Writeln ('Hit any key to continue ...');
readkey;
setmcga;
setupvirtual;
cls (0,vaddr); { After you have got the memory for the virtual screen,
it is usually filled with random garbage. It is always
wise to clear the virtual screen directly afterwards }
BlockMove;
Repeat
PatternDraw;
Until keypressed;
Readkey;
settext;
shutdown;
Writeln ('All done. This concludes the fourth sample program in the ASPHYXIA');
Writeln ('Training series. You may reach DENTHOR under the name of GRANT');
Writeln ('SMITH on the MailBox BBS, or leave a message to ASPHYXIA on the');
Writeln ('ASPHYXIA BBS. Get the numbers from Roblist, or write to :');
Writeln (' Grant Smith');
Writeln (' P.O. Box 270');
Writeln (' Kloof');
Writeln (' 3640');
Writeln ('I hope to hear from you soon!');
Writeln; Writeln;
Write ('Hit any key to exit ...');
Readkey;
END.