Here is a demo with a rotating cube using MadPascal. X16 with "-mhz 24" from MADRAFi.
X16 release 47
cube1.prg
load "cube1.prg",8
greeting
rotating one cube with madpascal.
rotating one cube with madpascal.
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- cube1.prg
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Re: rotating one cube with madpascal.
Thanks for checking this one. I think if you wish to make it prettier you would need to use frame buffer to hide flickering.
a8 examples have implementations using such buffering.
a8 examples have implementations using such buffering.
ATARI
Re: rotating one cube with madpascal.
Thanks for the info.
I did it without a buffer.
I just did a quick clss in asm.
I'm not familiar with the buffers yet.
greeting
I did it without a buffer.
I just did a quick clss in asm.
I'm not familiar with the buffers yet.
greeting
Code: Select all
program cube;
uses x16_vera, x16, crt,graph;
const Linien =12;
Ecken =8;
distanz =2000.0;
sinphi =0.195090322016;
cosphi =0.980785280411;
var start,
Ende : array [0..Linien] of smallint;
x, y, z : array [0..Ecken] of real;
x2d, y2d : array [0..Ecken] of smallint;
Alt : array [0..Linien*4] of smallint;
Laenge : real;
Add_X , Add_Y : word ;
d: cardinal;
f:byte;
tempX, tempY, tempZ: real;
procedure clss;
begin
asm
lda #0
sta $9f20
lda #0
sta $9f21
lda #$10
sta $9f22
lda #1
ldx #0
loop1:
ldy #150
loop:
sta $9f23
sta $9f23
dey
bne loop
dex
bne loop1
end;
end;
procedure XRotation;
var i: byte;
begin
for i := 0 to Ecken-1 do
begin
tempY:=y[i];
tempZ:=z[i];
y[i] :=tempY*cosphi - tempZ*sinphi;
z[i] :=tempZ*cosphi + tempY*sinphi;
end;
pause(1);
end;
procedure YRotation;
var i: byte;
begin
for i := 0 to Ecken-1 do
begin
tempX:=x[i];
tempZ:=z[i];
x[i] :=tempX*cosphi - tempZ*sinphi;
z[i] :=tempZ*cosphi + tempX*sinphi;
end;
end;
procedure ZRotation;
var i: byte;
begin
for i := 0 to Ecken-1 do
begin
tempX:=x[i];
tempY:=y[i];
x[i] :=tempX*cosphi - tempY*sinphi;
y[i] :=tempY*cosphi + tempX*sinphi;
end;
clss;
end;
procedure Zeichne_Wuerfel;
var i,x : byte;
begin
for i := 0 to Linien-1 do
begin
x:=i shl 2;
Alt[x]:=x2d[start[i]];
Alt[x+1]:=y2d[start[i]];
Alt[x+2]:=x2d[Ende[i]];
Alt[x+3]:=y2d[Ende[i]];
MoveTo (Alt[x],Alt[x+1]);
LineTo (Alt[x+2],Alt[x+3]);
end;
end;
procedure Wandle_3D_2D;
var i:byte;
f:real;
begin
for i := 0 to Ecken-1 do
begin
f := 1000.0 / (distanz-z[i]);
x2d[i]:=TRUNC(x[i]*f) + Add_X;
y2d[i]:=TRUNC(y[i]*f) + Add_Y;
end;
end;
procedure SetzePunkte;
begin
x[0]:=-Laenge;
y[0]:= Laenge;
z[0]:= Laenge;
x[1]:= Laenge;
y[1]:= Laenge;
z[1]:= Laenge;
x[2]:= Laenge;
y[2]:=-Laenge;
z[2]:= Laenge;
x[3]:=-Laenge;
y[3]:=-Laenge;
z[3]:= Laenge;
x[4]:=-Laenge;
y[4]:= Laenge;
z[4]:=-Laenge;
x[5]:= Laenge;
y[5]:= Laenge;
z[5]:=-Laenge;
x[6]:= Laenge;
y[6]:=-Laenge;
z[6]:=-Laenge;
x[7]:=-Laenge;
y[7]:=-Laenge;
z[7]:=-Laenge;
end;
procedure SetzeLinien;
begin
start[ 0]:=0; Ende[ 0]:=1;
start[ 1]:=1; Ende[ 1]:=2;
start[ 2]:=2; Ende[ 2]:=3;
start[ 3]:=3; Ende[ 3]:=0;
start[ 4]:=0; Ende[ 4]:=4;
start[ 5]:=1; Ende[ 5]:=5;
start[ 6]:=2; Ende[ 6]:=6;
start[ 7]:=3; Ende[ 7]:=7;
start[ 8]:=4; Ende[ 8]:=5;
start[ 9]:=5; Ende[ 9]:=6;
start[10]:=6; Ende[10]:=7;
start[11]:=7; Ende[11]:=4;
end;
begin
InitGraph(X16_MODE_320x240);
Poke($9f25,0);
Laenge:=ScreenHeight shr 1 - 10;
Add_X :=ScreenWidth shr 1;
Add_Y :=ScreenHeight shr 1;
fillchar(Alt, sizeof(Alt), 0);
SetzePunkte;
SetzeLinien;
YRotation;
ZRotation;
repeat
XRotation;
//YRotation;
//ZRotation;
Wandle_3D_2D;
clss;
Zeichne_Wuerfel;
until keypressed;
end.