/*===========================================================================*/
void _main(void) {
short i,j;
unsigned long measure_val;
char tmpstr[50] = "Measuring, please wait ...";
short modes[6] = { A_REPLACE,A_XOR,A_REVERSE,A_XOR,A_REPLACE,A_REVERSE};
LCD_BUFFER screen;
LCD_save(screen);
FontSetSys(F_4x6);
OSFreeTimer(USER_TIMER);
OSRegisterTimer(USER_TIMER,INITIAL_TIMER_VALUE);
ClearScreen();
DrawStr(0,0,tmpstr,A_REPLACE);
do {
//---------------------------------------------------------------------
// built-in OS line drawing routine ...
//---------------------------------------------------------------------
OSTimerRestart(USER_TIMER);
for (j=0;j<6 && !kbhit();j++) {
short used_mode = modes[j];
for (i=0; i<160;i++) DrawLine(80,50,i,8, used_mode);
for (i=8; i<100;i++) DrawLine(80,50,159,i, used_mode);
for (i=159;i>=0; i--) DrawLine(80,50,i,99, used_mode);
for (i=99; i>=8; i--) DrawLine(80,50,0,i, used_mode);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"OS Routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
memset(LCD_MEM,0,30*8);
DrawStr(0,0,tmpstr,A_REPLACE);
if (kbhit()) break;
//---------------------------------------------------------------------
// new line drawing routine ...
//---------------------------------------------------------------------
OSTimerRestart(USER_TIMER);
for (j=0;j<6 && !kbhit();j++) {
short used_mode = modes[j];
for (i=0; i<160;i++) FastDrawLine_R(LCD_MEM,80,50,i,8, used_mode);
for (i=8; i<100;i++) FastDrawLine_R(LCD_MEM,80,50,159,i, used_mode);
for (i=159;i>=0; i--) FastDrawLine_R(LCD_MEM,80,50,i,99, used_mode);
for (i=99; i>=8; i--) FastDrawLine_R(LCD_MEM,80,50,0,i, used_mode);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"Own Routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
memset(LCD_MEM,0,30*8);
DrawStr(0,0,tmpstr,A_REPLACE);
}
while (!kbhit());
ngetchx();
OSFreeTimer(USER_TIMER);
LCD_restore(screen);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
/*===========================================================================*/
void _main(void) {
#define bsize (100*20+4) // Size of a bitmap for a 160x100 screen.
int i;
LCD_BUFFER lcd;
static const SCR_RECT theScreen = {{0,0,159,99}};
unsigned char sscreen[bsize];
unsigned char sscreen2[bsize];
LCD_save(lcd);
BitmapGet(&theScreen,sscreen);
memset(sscreen2,0,bsize);
((BITMAP*)sscreen2)->NumRows=((BITMAP*)sscreen)->NumRows;
((BITMAP*)sscreen2)->NumCols=((BITMAP*)sscreen)->NumCols;
GKeyFlush();
for (i = 0; (i <= 360) && (!kbhit()); i++)
{
RotateSpriteX8_R(((BITMAP*)sscreen)->Data,((BITMAP*)sscreen2)->Data,160,100,80,50,i);
ClrScr();
FastCopyScreen160to240_R(100,((BITMAP*)sscreen2)->Data,LCD_MEM);
}
LCD_restore(lcd);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
#undef bsize
}
void _main(void) {
LCD_BUFFER backbuffer;
unsigned char buffer[100*5*4];
unsigned short i,j;
LCD_save(backbuffer);
ST_helpMsg("Sprite8Get() Demo - Press Key");
ngetchx();
for (j=0;j<64;j++) {
for (i=0;i<20;i++) {
Sprite8Get_R(j+(i<<3),0,100,backbuffer,((unsigned char*)buffer)+100*i);
}
ClrScr();
for (i=0;i<20;i++) {
Sprite8_OR_R(i<<3,0,100,((unsigned char*)buffer)+100*i,LCD_MEM);
}
}
ST_helpMsg("Sprite16Get() Demo - Press Key");
ngetchx();
for (j=0;j<64;j++) {
for (i=0;i<10;i++) {
Sprite16Get_R(j+(i<<4),0,100,backbuffer,((unsigned short*)buffer)+100*i);
}
ClrScr();
for (i=0;i<10;i++) {
Sprite16_OR_R(i<<4,0,100,((unsigned short*)buffer)+100*i,LCD_MEM);
}
}
ST_helpMsg("Sprite32Get() Demo - Press Key");
ngetchx();
for (j=0;j<64;j++) {
for (i=0;i<5;i++) {
Sprite32Get_R(j+(i<<5),0,100,backbuffer,((unsigned long*)buffer)+100*i);
}
ClrScr();
for (i=0;i<5;i++) {
Sprite32_OR_R(i<<5,0,100,((unsigned long*)buffer)+100*i,LCD_MEM);
}
}
LCD_restore(backbuffer);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
/*===========================================================================*/
void _main(void) {
LCD_BUFFER screen;
short retval;
LCD_save(screen);
OSFreeTimer(USER_TIMER);
OSRegisterTimer(USER_TIMER,INITIAL_TIMER_VALUE);
retval = Test8();
if (retval != KEY_ESC) retval=Test16();
if (retval != KEY_ESC) retval=Test32();
OSFreeTimer(USER_TIMER);
LCD_restore(screen);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
void _main(void)
{
short l,c,k;
void *vecran;
LCD_BUFFER backbuffer;
LCD_save(backbuffer);
if(!(vecran=malloc(LCD_SIZE)))
return;
l=c=0;
do
{
DrawTiles16B(MAP_WIDTH,&map[l][c],vecran,sprts);
FastCopyScreen_R(vecran,LCD_MEM);
/*
memcpy(LCD_MEM,vecran,LCD_SIZE);
*/
k=ngetchx();
if(k==KEY_RIGHT && c<MAP_WIDTH-15)
c++;
if(k==KEY_LEFT && c>0)
c--;
if(k==KEY_DOWN && l<MAP_HEIGHT-8)
l++;
if(k==KEY_UP && l>0)
l--;
} while(k!=KEY_ESC);
free(vecran);
LCD_restore(backbuffer);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
void _main(void)
{
INT_HANDLER ai1,ai5;
void *bloc=malloc(BIG_VSCREEN_SIZE*2+LCD_SIZE*2); // 1 big_vscreen et 1 écran virtuel
void *vecran,*big_vscreen;
LCD_BUFFER backbuffer;
LCD_save(backbuffer);
if(!bloc)
return;
// Initialisations
vecran=bloc;
big_vscreen=bloc+LCD_SIZE*2;
ai1=GetIntVec(AUTO_INT_1);
ai5=GetIntVec(AUTO_INT_5);
SetIntVec(AUTO_INT_1,DUMMY_HANDLER);
SetIntVec(AUTO_INT_5,DUMMY_HANDLER);
if(GrayOn())
{
RenderMaps(big_vscreen,vecran);
GrayOff();
}
SetIntVec(AUTO_INT_1,ai1);
SetIntVec(AUTO_INT_5,ai5);
free(bloc);
LCD_restore(backbuffer);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
//=============================================================================
// as usual our main function ...
//=============================================================================
void _main(void) {
LCD_BUFFER lcd;
LCD_BUFFER doublebuffer;
short i;
short ball_to_update;
INT_HANDLER oldint1 = GetIntVec(AUTO_INT_1); // fetch default interrupt handler
INT_HANDLER oldint5 = GetIntVec(AUTO_INT_5); // fetch default interrupt handler
// save screen
LCD_save(lcd);
// install dummy interrupt handlers for AUTO_INT1 and AUTO_INT5
SetIntVec(AUTO_INT_1,DUMMY_HANDLER);
SetIntVec(AUTO_INT_5,DUMMY_HANDLER);
do {
// clear doublebuffer
memset(doublebuffer,0,LCD_SIZE);
for (i=0;i<NR_BALLS;i++) {
// NOTE: DRAWSPRITE is a macro defined at the beginning of this file!
DRAWSPRITE(balls[i].x,balls[i].y);
}
// copy double buffer to visible screen
FastCopyScreen_R(doublebuffer,LCD_MEM);
for (ball_to_update=0;ball_to_update<NR_BALLS;ball_to_update++) {
// calculate new position of ball which should get updated
CalcNewPosition(&balls[ball_to_update],max_x,max_y);
// loop over all possible combinations and check for collision ...
for (i=0;i<NR_BALLS;i++) {
if (i==ball_to_update) continue; // don't check against myself
// NOTE: TESTCOLLIDE is a macro defined at the beginning of this file!
if (TESTCOLLIDE(balls[ball_to_update].newx,balls[ball_to_update].newy,balls[i].newx,balls[i].newy)) {
// collision detected -> exchange dirx/diry of involved balls
ExchangeDirections(&balls[ball_to_update],&balls[i]);
// recalculate new position of ball which should get updated
CalcNewPosition(&balls[ball_to_update],max_x,max_y);
// if we still stick together than this opponent then this
// is not the right target to change my direction ...
if (TESTCOLLIDE(balls[ball_to_update].newx,balls[ball_to_update].newy,balls[i].newx,balls[i].newy)) {
ExchangeDirections(&balls[ball_to_update],&balls[i]);
CalcNewPosition(&balls[ball_to_update],max_x,max_y);
}
}
}
// NOTE: this demo is somewhat sloppy. Normally we should not
// proceed if a collision is detected AND we shouldn't do the
// VERY simple collision detection routine above.
// But I don't care about this. It seems to be good enough
// to demonstrate the bouncing balls ...
balls[ball_to_update].x = balls[ball_to_update].newx;
balls[ball_to_update].y = balls[ball_to_update].newy;
}
}
while (!EscapePressed());
// restore old interrupt handlers
SetIntVec(AUTO_INT_1,oldint1);
SetIntVec(AUTO_INT_5,oldint5);
// restore screen
LCD_restore(lcd);
// empty the keyboard buffer and write "powered by ..." string
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
// Main Function
void _main(void)
{
signed char STATUS, a;
int plinkos;
unsigned char *Home = malloc(LCD_SIZE); // Allocate the SAVE_SCREEN buffer
if (Home == NULL) {
Error_Memory();
return;
}
LCD_save(Home); // Save LCD HomeScreen Contents
virtual_dark = malloc ( LCD_SIZE ); // Allocate the dark buffer
if (virtual_dark == NULL) {Error_Memory(); return; }
virtual_light=malloc ( LCD_SIZE ); // Allocate the light buffer
if (virtual_light == NULL) {
free(virtual_dark);
Error_Memory();
return;
}
randomize();
if (Gray_prep() == QUIT) {
Error_Memory();
goto end;
}
if (makefile() == QUIT) // Tests whether or not we need a default save file and installs one if the
// user doesn't already have one on their calc
goto end;
for(a = 10; a--;)
FADE_LIGHTER();
// Clears both Hidden Gray planes
ClearGrayScreen2B(Hiddenl, Hiddend);
GraySpriteX8_OR(52, 37, 27, titlel, titled, 7, Hiddenl, Hiddend);
FontSetSys (F_4x6);
GrayDBufSetHiddenAMSPlane (DARK_PLANE);
DrawStr(122, 94, "-- By Fisch", A_NORMAL);
GrayDBufSetHiddenAMSPlane (LIGHT_PLANE);
DrawStr(123, 95, "-- By Fisch", A_NORMAL);
GrayDBufToggleSync(); // switches two sets of planes
for(a = 10; a--;)
FADE_DARKER();
Waitkey();
NEW_GAME:
if ((STATUS = MENU()) == QUIT)
goto end;
if ((plinkos = PRODUCTS()) == QUIT)
goto end;
if ((STATUS = INTRO()) == QUIT)
goto end;
if ((STATUS = main_game(plinkos)) == QUIT)
goto end;
goto NEW_GAME;
end:
// Clean up at end of Program
Cleanup();
if (Home) {
LCD_restore(Home);
free(Home);
GKeyFlush();
ST_helpMsg("Plinko --By Travis Fischer");
}
}
/*===========================================================================*/
void _main(void) {
short i,j;
unsigned long measure_val;
char tmpstr[50] = "Measuring, please wait ...";
static const short modes[4] = {COLOR_LIGHTGRAY,COLOR_DARKGRAY,COLOR_BLACK,COLOR_WHITE};
unsigned short clippedcoord[4];
LCD_BUFFER screen;
LCD_save(screen);
OSFreeTimer(USER_TIMER);
OSRegisterTimer(USER_TIMER,INITIAL_TIMER_VALUE);
if (!GrayOn()) goto end;
//---------------------------------------------------------------------
// built-in OS line drawing routine ...
//---------------------------------------------------------------------
GrayClearScreen_R();
OSTimerRestart(USER_TIMER);
for (j=0;j<4;j++) {
short used_color = modes[j];
for (i=-40; i<280;i++) GrayDrawClipLine(120,64,i,-40,used_color);
for (i=-40; i<168;i++) GrayDrawClipLine(120,64,280,i,used_color);
for (i=280;i>=-40; i--) GrayDrawClipLine(120,64,i,168,used_color);
for (i=168;i>=-40; i--) GrayDrawClipLine(120,64,-40,i,used_color);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"OS routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect(0,0,239,7,COLOR_WHITE,RECT_FILLED);
GrayDrawStrExt(0,0,tmpstr,A_NORMAL | A_CENTERED | A_SHADOWED,F_4x6);
if (ngetchx() == KEY_ESC) goto end;
//---------------------------------------------------------------------
// new line drawing routine ...
//---------------------------------------------------------------------
GrayClearScreen_R();
OSTimerRestart(USER_TIMER);
for (j=0;j<4;j++) {
short used_color = modes[j];
for (i=-40; i<280;i++) GrayClipDrawLine_R(120,64,i,-40,clippedcoord,used_color,GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),GrayFastDrawLine2B_R);
for (i=-40; i<280;i++) GrayClipDrawLine_R(120,64,280,i,clippedcoord,used_color,GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),GrayFastDrawLine2B_R);
for (i=280;i>=-40; i--) GrayClipDrawLine_R(120,64,i,168,clippedcoord,used_color,GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),GrayFastDrawLine2B_R);
for (i=168;i>=-40; i--) GrayClipDrawLine_R(120,64,-40,i,clippedcoord,used_color,GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),GrayFastDrawLine2B_R);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"Own routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect(0,0,239,7,COLOR_WHITE,RECT_FILLED);
GrayDrawStrExt(0,0,tmpstr,A_NORMAL | A_CENTERED | A_SHADOWED,F_4x6);
if (ngetchx() == KEY_ESC) goto end;
GrayOff();
ClrScr();
//---------------------------------------------------------------------
// built-in OS line drawing routine ...
//---------------------------------------------------------------------
OSTimerRestart(USER_TIMER);
for (j=0;j<4;j++) {
WIN_RECT rect = {120, 64, 0, -40};
for (i=-40; i<280;i++) {rect.x1 = i; DrawClipLine(&rect,&(SCR_RECT){{0, 0, 239, 127}},A_XOR); }
for (i=-40; i<168;i++) {rect.y1 = i; DrawClipLine(&rect,&(SCR_RECT){{0, 0, 239, 127}},A_XOR); }
for (i=280;i>=-40; i--) {rect.x1 = i; DrawClipLine(&rect,&(SCR_RECT){{0, 0, 239, 127}},A_XOR); }
for (i=168;i>=-40; i--) {rect.y1 = i; DrawClipLine(&rect,&(SCR_RECT){{0, 0, 239, 127}},A_XOR); }
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"OS routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect2B(0,0,239,7,COLOR_WHITE,RECT_FILLED,LCD_MEM,LCD_MEM);
GrayDrawStrExt2B(0,0,tmpstr,A_NORMAL | A_CENTERED,F_4x6,LCD_MEM,LCD_MEM);
if (ngetchx() == KEY_ESC) goto end;
//---------------------------------------------------------------------
// new line drawing routine ...
//---------------------------------------------------------------------
ClrScr();
OSTimerRestart(USER_TIMER);
for (j=0;j<4;j++) {
for (i=-40; i<280;i++) ClipDrawLine_R(120,64,i,-40,clippedcoord,A_XOR,LCD_MEM,FastDrawLine_R);
for (i=-40; i<280;i++) ClipDrawLine_R(120,64,280,i,clippedcoord,A_XOR,LCD_MEM,FastDrawLine_R);
for (i=280;i>=-40; i--) ClipDrawLine_R(120,64,i,168,clippedcoord,A_XOR,LCD_MEM,FastDrawLine_R);
for (i=168;i>=-40; i--) ClipDrawLine_R(120,64,-40,i,clippedcoord,A_XOR,LCD_MEM,FastDrawLine_R);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"Own routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect2B(0,0,239,7,COLOR_WHITE,RECT_FILLED,LCD_MEM,LCD_MEM);
GrayDrawStrExt2B(0,0,tmpstr,A_NORMAL | A_CENTERED,F_4x6,LCD_MEM,LCD_MEM);
ngetchx();
end:
OSFreeTimer(USER_TIMER);
GrayOff();
LCD_restore(screen);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}
/*===========================================================================*/
void _main(void) {
short i,j;
unsigned long measure_val;
char tmpstr[50] = "Measuring, please wait ...";
short modes[4] = {COLOR_LIGHTGRAY,COLOR_DARKGRAY,COLOR_BLACK,COLOR_WHITE};
LCD_BUFFER screen;
LCD_save(screen);
if (!GrayOn()) return;
OSFreeTimer(USER_TIMER);
OSRegisterTimer(USER_TIMER,INITIAL_TIMER_VALUE);
GrayClearScreen_R();
GrayDrawStrExt(0,0,tmpstr,A_REPLACE|A_CENTERED|A_SHADOWED,F_4x6);
do {
//---------------------------------------------------------------------
// built-in OS line drawing routine ...
//---------------------------------------------------------------------
OSTimerRestart(USER_TIMER);
for (j=0;j<4 && !kbhit();j++) {
short used_color = modes[j];
for (i=0; i<160;i++) GrayDrawLine(80,50,i,8, used_color);
for (i=8; i<100;i++) GrayDrawLine(80,50,159,i, used_color);
for (i=159;i>=0; i--) GrayDrawLine(80,50,i,99, used_color);
for (i=99; i>=8; i--) GrayDrawLine(80,50,0,i, used_color);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"OS routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect(0,0,239,7,COLOR_WHITE,RECT_FILLED);
GrayDrawStrExt(0,0,tmpstr,A_REPLACE | A_CENTERED | A_SHADOWED,F_4x6);
if (kbhit()) break;
//---------------------------------------------------------------------
// new line drawing routine ...
//---------------------------------------------------------------------
OSTimerRestart(USER_TIMER);
for (j=0;j<4 && !kbhit();j++) {
short used_color = modes[j];
for (i=0; i<160;i++) GrayFastDrawLine2B_R(GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),80,50,i,8, used_color);
for (i=8; i<100;i++) GrayFastDrawLine2B_R(GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),80,50,159,i, used_color);
for (i=159;i>=0; i--) GrayFastDrawLine2B_R(GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),80,50,i,99, used_color);
for (i=99; i>=8; i--) GrayFastDrawLine2B_R(GrayGetPlane(LIGHT_PLANE),GrayGetPlane(DARK_PLANE),80,50,0,i, used_color);
}
measure_val = OSTimerCurVal(USER_TIMER);
sprintf(tmpstr,"Own routine took %lu ticks",INITIAL_TIMER_VALUE-measure_val);
GrayDrawRect(0,0,239,8,COLOR_WHITE,RECT_FILLED);
GrayDrawStrExt(0,0,tmpstr,A_REPLACE | A_CENTERED | A_SHADOWED,F_4x6);
}
while (!kbhit());
ngetchx();
OSFreeTimer(USER_TIMER);
GrayOff();
LCD_restore(screen);
GKeyFlush();
ST_helpMsg(EXTGRAPH_VERSION_PWDSTR);
}