assemblygraphicsemu8086vga

Graphics mode in assembly 8086


I have a variable that is called average and in my DATASEG, it changes every time because the user enters a different input every time. What I want to do is to go to the graphics mode (VGA) and then print there Your average is: and then the average I know how to change to the graphics mode like this:

mov ax, 13h  
int 10h

After printing the average I want to print below if the average is above 75 You are a good student, keep up the good work and if not. Don't worry you will get better! Thanks in advance.


Solution

  • I am assuming: PC VGA x86 MS DOS platform

    It does not really matter if real or emulated unless you want low level IO access which might not work properly on emulation like DOSBOX ...

    1. Video/Text modes

      So to switch between video and text modes you need to use VGA BIOS:

      mov ax,mode ; here select which mode you want
      int 16      ; this calls EGA/VGA/VESA BIOS
      

      There are many video modes here two very important ones:

      mode | type  | segment | resolution         | align
      ----------------------------------------------------
      03   | text  | B800h   | 80x25 chars        | 2 Byte
      19   | video | A000h   | 320x200x256 colors | 1 Byte
      

      In video mode 19 you print/peek pixel by accessing memory at segment A000h where offset is computed like this:

      offset = 320*y + x
      

      The 320x200 mode fits entirely into 64 KByte segment so you do not need to switch pages. This makes it ideal for simple asm gfx programs ....

      Mode 3 is text mode where each character has 2 BYTEs one is color and the other is extended ASCII code. Again print/peek is done by accessing WORD at segment B800h where offset is:

      offset = (80*y + x) * 2
      

      Not sure what order is the two bytes in anymore it was ages ago but you can easily test if writing A at 0B800:0000 will render A in top left corner or 0B800:0001 instead. IIRC colors in text modes are just first 16 colors from palette and the color byte encodes ink paper brightness and flash. This text mode is also the default mode your MS-DOS shell is working in so you should set it back before program exit.

      So your program should look like this:

       start:
           mov ax,19 ; set video mode
           int 16      
      
       mainloop:
           ; here your stuff
      
       exit:
           mov ax,3
           int 16
           ret
      
    2. Printing strings

      For starters you can combine text and video modes ... Like I do here:

      it is a simple game where menus are in text mode (where printing is easy and just matter of copying the string into VRAM) and the sprite graphics game is on 320x200x256c video mode.

      When you want to print in gfx mode you first need to have some Font in the memory. If you look at the EGA/VGA BIOS documentation you can obtain the font located in EGA/VGA ROM and use directly that. I also created this image (IIRC using Trident 9000 256/512KB VGA font) which I use as a mono-spaced font for OpenGL and other stuff (where accessing VGA BIOS is not possible or wanted)...

      font

      Here GLSL example of using it for printing You can port it to CPU/VGA/asm but the printing on CPU is much more simpler no need for such horrible things like in GLSL fragment.

      So you just need to compute image position from ASCII code and copy its pixels into VRAM. Of coarse having bitmap in asm is not easy and much easier is to have it directly in binary form (as set of db) so you can write some simple C++ (or whatever) script which loads image and converts it to asm source ...

      Here is some ancient 320x200x256 colors printing lib I wrote in NASM ages ago (using EGA/VGA Font directly):

       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       ;GFX mode 13h print librrary ver:1.0
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       ;txti       init font adress
       ;char       cx=color,al=ASCII,scr:di<=al ;cl=ch => no background
       ;print      scr:di <= ds:si ,cx=color cl=ch => no background
       ;printl     scr:di text after call ,cx=color ...
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       txti:   pusha           ;init font adress
           push es
           mov ax,1130h    ; VGA BIOS - font info
           mov bh,3        ; font 8 x 8 pixels
           int 10h         ; ES:BP returns font address
           mov [cs:fonts],es   ;get font adr
           mov [cs:fonto],bp
           pop es
           popa
           ret
       fonts   dw 0        ; font address for printing ...
       fonto   dw 0
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       char:   pusha       ;cx=color,al=ASCII,scr:di<=al ;cl=ch => no background
           push    ds
           push    es
           push    word 0A000h
           pop es
           sub     ah,ah
           shl     ax,3
           mov     ds,[cs:fonts]
           mov     si,[cs:fonto]
           add     si,ax
           mov     dh,8
       .char0: mov     dl,8
           lodsb
           mov     ah,al
       .char1: mov     al,cl
           rcl     ah,1
           jc  .char2
           mov     al,ch
       .char2: cmp     cl,ch
           jz  .char3
           mov     [es:di],al
       .char3: inc     di
           dec     dl
           jnz     .char1
           add     di,320-8
           dec     dh
           jnz     .char0
           pop es
           pop     ds
           popa
           ret
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       print:  pusha       ;scr:di <= ds:si ,cx=color cl=ch => no background
       .l0:    lodsb
           or  al,al
           jz  .esc
           call    char
           add     di,8
           jmp     short .l0
       .esc:   popa
           ret
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       printl: mov [cs:.dat],si    ;scr:di text after call ,cx=color ...
           pop si
           push    ax
           push    di
           push    ds
           push    cs
           pop ds
       .l0:    lodsb
           or  al,al
           jz  .esc
           call    char
           add     di,8
           jmp     short .l0
       .esc:   pop ds
           pop di
           pop ax
           push    si
           add di,9*320
           mov si,[cs:.dat]
           ret
       .dat:   dw  0
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       ;;; end. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
       ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
      

      So to use it the program should be like:

       start:
           call txti ; just once at program startup
      
           mov di,50+320*10
           mov cx,127
           call printl
           db  'SPEKTRA software & hardware',0
      
           mov di,50+320*30
           mov cx,127
           call printl
           db  'print test',0
      

      The print is used by setting ds,si so it points to your null terminated string. As you can see printl does not need that as it uses string located directly after the printl call and program continues after it ... This way you do not need pointer setting instructions nor any additional labes ... The colors are in cl,ch one is ink and the other is paper. If cl==ch then no paper will be rendered just the ink pixels that is useful if you got image or gfx background behind the text ... The values for colors might not be visible I taken the colors from one of mine games which sets its own palette so if nothing is visible try to set different cl,ch like mov cx,0305h Take a look at this:

    3. Print numbers

      Printing non negative integer number value is a matter of dividing the number by base (10) and printing the remainder + '0' in reverse order as characters ...

      In hex it is even easier as each digit corresponds to nibble <0-15> so for 16 bit in you take highest 4 bits convert to char either by xlat table or by adding '0' or 'A' depending if value is below 10 ... so no divisions just bit shift/mask ... print the char and shift left the value by 4 bits to process next digit ...

      btw in gfx modes is often much nicer and user friendly to instead of printing a value as a number render a progress bar like stuff instead which is much much more easier ... collapses to single loop rendering H or V line ... like REP STOSB :) ...

    4. VESA

      For Super VGA video modes above 320x200x8bpp we need to add page crossings of data as VRAM does not fit 64KByte segment anymore. I strongly suggest to use VESA (VBE) api for this. The idea is to have the A000:0000 segment be mapped to certain segment of the VRAM which we can change at any time. For more info on how see these:

      In case your gfx card does not have VESA/VBE for most cards its possible to add it by using UniVBE 5.3 or newer utility under MS-DOS.