void update_highway_and_river ()
{
// Update the offsets of the logs and traffic patterns
int i;
for (i = 0; i < N_ELEMENTS; i ++){
//update pattern of logs [7 + i]
update_pattern(&logs[i]);
//update pattern of traffic [1 + i]
update_pattern(&traffic[i]);
}
draw_logs();
draw_traffic();
}
void redraw ()
{
// This function assumes that PennSim is being run in double buffered mode
// In this mode we first clear the video memory buffer with lc4_reset_vmem,
// then draw the scene, then call lc4_blt_vmem to swap the buffer to the screen
// NOTE that you need to run PennSim with the following command:
// java -jar PennSim.jar -d
lc4_reset_vmem();
draw_lily_pads ();
draw_logs ();
draw_safe_zone ();
draw_traffic ();
draw_home_row ();
draw_frog ();
lc4_blt_vmem();
}
int main()
{
initSrv();
aptInit(APPID_APPLICATION);
gspGpuInit();
hidInit(NULL);
Handle fsuHandle;
srv_getServiceHandle(NULL, &fsuHandle, "fs:USER");
FSUSER_Initialize(fsuHandle);
aptSetupEventHandler();
init_map();
int i;
int j;
int p=4;
int d=0;
int q;
int frogx = 0;
int frogy = 0;
int carx[6][9];
int logx[5][6];
// Cant use rand.
//for(d=1;d<6;d++){
// while(p>4){
// p = rand();
// }
// carx[d]=26+p;
for(d=0;d<8;d++){
carx[0][d]=26;
if(d<5){
logx[0][d]=26;
}
d++;
}
for(d=1;d<8;d++){
if(d<5){
logx[0][d]=0;
}
carx[0][d]=0;
d++;
}
for(q=0;q<8;q++){
for(d=1; d<6; d++){
if(q<5){
if(d<5){
logx[d][q]=26+p+6;
}
}
carx[d][q]=26+p +6;
p=p+6;
}
p=0;
q++;
}
p= 0;
for(q=1;q<8;q++){
for(d=1;d<5;d++){
if(q<5){
if(d<5){
logx[d][q] = p-6;
}
}
carx[d][q]=p-6;
p=p-6;
}
p=0;
q++;
}
while(!aptGetStatus()){
u32 PAD=hidSharedMem[7];
if (PAD == BUTTON_UP){
frogy+= 1;
}
else if (PAD == BUTTON_DOWN){
frogy+= -1;
}
else if (PAD == BUTTON_LEFT){
frogx+= -1;
}
else if (PAD == BUTTON_RIGHT){
frogx+=1;
}
u32 regData=PAD|0x01000000;
init_map();
for(i=0;i<6;i++){
for(j=0;j<8;j++){
draw_car(carx[i][j],15+j*15);
if(i<5){
if(j<5){
draw_logs(logx[i][j],150+j*15);
}
}
}
}
draw_frog(frogx,frogy);
//Checks Colition
for(i=0;i<6;i++){
for(j=0;j<8;j++){
if(frogy==j+1){
if(frogx==carx[i][j]){
frogy =0;
frogx =0;
}
}
}
}
//Checks if frog in poodle
if(frogy >9){
for(i=0;i<5;i++){
for(j=0;j<5;j++){
if(frogy==j+10){
if(frogx==logx[i][j] || frogx==logx[i][j]+1 || frogx==logx[i][j]+2){
frogx= frogx -1;
}
else{
frogx =0;
frogy =0;
}
}
}
}
}
//reinitialize the cars :D
// Cant use f*****g rand
//for(p=0;p<6;p++){
// if(carx[p]==0){
// d=5;
// while(d>4){
// d = rand();
// }
// carx[p]= 26+d;
// }
// else {
// carx[p]=carx[p]-1;
// }
//}
for(i=0;i<6;i++){
for(j=0;j<9;j=j+2){
if(i<5){
if(j<5){
if(logx[i][j]==0){
logx[i][j]=26;
}
else{
logx[i][j]=logx[i][j]-1;
}
}
}
if(carx[i][j]==0){
carx[i][j] =26;
}
else{
carx[i][j]=carx[i][j]-1;
}
}
}
for(i=0;i<6;i++){
for(j=1;j<9;j=j+2){
if(i<5){
if(j<5){
if(logx[i][j]==26){
logx[i][j]=0;
}
else{
logx[i][j]=logx[i][j]+1;
}
}
}
if(carx[i][j]==26){
carx[i][j]=0;
}
else{
carx[i][j]= carx[i][j]+1;
}
}
}
copyBuffer();
swapBuffers();
GSPGPU_WriteHWRegs(NULL, 0x202A04, ®Data, 4);
svc_sleepThread(220000000);
}
svc_closeHandle(fsuHandle);
hidExit();
gspGpuInit();
aptExit();
svc_exitProcess();
return 0;
}
