1
0
mirror of https://github.com/cc65/cc65.git synced 2024-11-12 07:07:19 +00:00
cc65/samples/lynx/tgidemo.c
Greg King 9f2d27d9c1 Added Atari Lynx versions of three sample programs.
The Lynx target can't build the usual versions because its library doesn't have conio output and stdio.
2022-03-19 01:21:52 -04:00

180 lines
3.8 KiB
C

/* Tgidemo modified for the Atari Lynx.
**
** Press any of the Lynx's option buttons to go to the next screen.
*/
#include <cc65.h>
#include <conio.h>
#include <tgi.h>
#include <time.h>
#define COLOR_BACK TGI_COLOR_BLACK
#define COLOR_FORE TGI_COLOR_WHITE
/*****************************************************************************/
/* Data */
/*****************************************************************************/
/* Driver stuff */
static unsigned MaxX;
static unsigned MaxY;
static unsigned AspectRatio;
/*****************************************************************************/
/* Code */
/*****************************************************************************/
/* The Lynx draws too fast. This function delays
** the drawing so that we can watch it.
*/
static void wait (unsigned char ticks)
{
clock_t T = clock () + ticks;
while (clock () < T) {}
}
static void DoCircles (void)
{
unsigned char I;
unsigned char Color = COLOR_BACK;
const unsigned X = MaxX / 2;
const unsigned Y = MaxY / 2;
const unsigned Limit = (X < Y) ? Y : X;
tgi_setcolor (COLOR_FORE);
tgi_clear ();
tgi_line (0, 0, MaxX, MaxY);
tgi_line (0, MaxY, MaxX, 0);
while (!kbhit ()) {
Color = (Color == COLOR_FORE) ? COLOR_BACK : COLOR_FORE;
tgi_setcolor (Color);
for (I = 10; I <= Limit; I += 10) {
tgi_ellipse (X, Y, I, tgi_imulround (I, AspectRatio));
wait (9);
}
}
cgetc ();
}
static void DoCheckerboard (void)
{
unsigned X, Y;
unsigned char Color = COLOR_BACK;
tgi_clear ();
while (1) {
for (Y = 0; Y <= MaxY - 2; Y += 10) {
for (X = 0; X <= MaxX; X += 10) {
Color = (Color == COLOR_FORE) ? COLOR_BACK : COLOR_FORE;
tgi_setcolor (Color);
tgi_bar (X, Y, X+9, Y+9);
if (kbhit ()) {
cgetc ();
return;
}
wait (1);
}
Color = Color == COLOR_FORE ? COLOR_BACK : COLOR_FORE;
}
Color = Color == COLOR_FORE ? COLOR_BACK : COLOR_FORE;
}
}
static void DoDiagram (void)
{
int XOrigin, YOrigin;
int Amp;
int X, Y;
unsigned I;
tgi_setcolor (COLOR_FORE);
tgi_clear ();
/* Determine zero and amplitude */
YOrigin = MaxY / 2;
XOrigin = 10;
Amp = (MaxY - 19) / 2;
/* Y axis */
tgi_line (XOrigin, 10, XOrigin, MaxY-10);
tgi_line (XOrigin-2, 12, XOrigin, 10);
tgi_lineto (XOrigin+2, 12);
/* X axis */
tgi_line (XOrigin, YOrigin, MaxX-10, YOrigin);
tgi_line (MaxX-12, YOrigin-2, MaxX-10, YOrigin);
tgi_lineto (MaxX-12, YOrigin+2);
/* Sine */
tgi_gotoxy (XOrigin, YOrigin);
for (I = 0; I <= 360; ++I) {
/* Calculate the next points */
X = (int)(((long)(MaxX - 19) * I) / 360);
Y = (int)(((long)Amp * -_sin (I)) / 256);
/* Draw the line */
tgi_lineto (XOrigin + X, YOrigin + Y);
}
cgetc ();
}
static void DoLines (void)
{
unsigned X;
const unsigned Min = (MaxX < MaxY) ? MaxX : MaxY;
tgi_setcolor (COLOR_FORE);
tgi_clear ();
for (X = 0; X <= Min; X += 10) {
tgi_line (0, 0, Min, X);
tgi_line (0, 0, X, Min);
tgi_line (Min, Min, 0, Min-X);
tgi_line (Min, Min, Min-X, 0);
wait (9);
}
cgetc ();
}
void main (void)
{
/* Install the driver */
tgi_install (tgi_static_stddrv);
tgi_init ();
/* Get stuff from the driver */
MaxX = tgi_getmaxx ();
MaxY = tgi_getmaxy ();
AspectRatio = tgi_getaspectratio ();
/* Do graphics stuff */
DoCircles ();
DoCheckerboard ();
DoDiagram ();
DoLines ();
}