int main()
{
alt_putstr("Hello from Nios II!\n");
alt_putstr("Input the char you would like to send.\n");
alt_putchar(*parallel_in);
alt_putstr("\n");
int c = alt_getchar();
alt_putstr("\n");
*transmit_enable = 0x0;
*load = 0x0;
*parallel_out = c;
usleep(1000);
*transmit_enable = 0x1;
*load = 0x1;
usleep(50);
*load = 0x0;
while (!*char_sent) {
}
*transmit_enable = 0x0;
while (!*char_received) {
}
alt_putchar(*parallel_in);
alt_putstr("\n");
return 0;
}
int main()
{
start_notch(
_binary_beeth5_noise_bin_start,
_binary_beeth5_noise_bin_end,
_alt_partition_beethout_start
);
//The notch filtering will be conducted in the background.
//Code to perform other useful tasks can be put here.
while(notch_busy());
//Read performance counter
unsigned int performance = notch_performance();
//Print time taken for filtering operation
char buf[16];
gcvt((float)performance/ALT_CPU_FREQ, 10, buf);
alt_putstr(" proc time = "); alt_putstr(buf); alt_putstr(" seconds \n");
//start_notch(
// _binary_beeth5_noise_bin_start,
// _binary_beeth5_noise_bin_end,
// PWM_0_BASE
// );
while(1);
}
void transmitIfBufferNotEmpty(char** pTransmit, char* pBufferHead, char* pBuffer, int* write) {
if(*load) {
*load = 0;
}
char c = '\0';
if(*write) {
c = readBuffer(pTransmit, pBufferHead, pBuffer);
if(c != '\0' && c != 0x60 ) {
alt_putstr("writing: ");
alt_putchar(c);
alt_putstr("\n");
*write = 0;
*data_bus_output = c;
usleep(1000);
*load = 1;
*transmit_enable = 1;
//alt_putchar(c);
*data_bus_LEDs = (*load) | (*transmit_enable << 1) | (*character_sent << 2) | (*character_received << 3);
//*data_bus_LEDs = c;
usleep(500);
}
}
if(*character_sent) {
alt_putstr("char sent\n");
*write = 1;
*transmit_enable = 0;
}
}
int main()
{
printf("Task 2! \n");
float x[N];
float y;
generateVector(x);
// timing
char buf[50];
clock_t exec_t1, exec_t2;
exec_t1 = times(NULL); // get system time before starting the process
// code START
y = sumVector (x, N);
//code END
exec_t2 = times(NULL); // get system time after finishing the process
gcvt((exec_t2 - exec_t1), 10, buf);
// gcvt convert a number to a string with decimal including a point, gcvt(value,number of digits,buffer)
// buffer 8,9 character longer than number, this is the memory block that stores the number
alt_putstr("proc time = "); alt_putstr(buf); alt_putstr("ticks\n");
//printf could be used if memory is enough
int i;
for (i=0; i<10; i++)
y = y/2.0;
gcvt((int)y, 10, buf);
alt_putstr("Result (divided by 1014) = "); alt_putstr(buf);
return 0;
}
int main()
{
char a[50];
clock_t t1,t2;
float x[255001]={0};
int i=0;
int n=4*255001;
float result1=0;
float result2=0;
float result3=0;
float result4=0;
float result5=0;
float result6=0;
for (i=0;i<255001;i++){
x[i]=i*0.001;
}
printf("hello world\n");
t1 = times(NULL);
result1=ALT_CI_SUM_VECTOR_0((int)x,n);
t2 = times(NULL);
result2=ALT_CI_SUM_VECTOR_0((int)x,n);
result3=ALT_CI_SUM_VECTOR_0((int)x,n);
result4=ALT_CI_SUM_VECTOR_0((int)x,n);
result5=ALT_CI_SUM_VECTOR_0((int)x,n);
result6=ALT_CI_SUM_VECTOR_0((int)x,n);
printf("%f\n",result1);
printf("%f\n",result2);
printf("%f\n",result3);
printf("%f\n",result4);
printf("%f\n",result5);
gcvt(t2-t1, 10, a);
alt_putstr("Time = "); alt_putstr(a); alt_putstr("; ");
return 0;
}
int main() {
char input = 'A';
int i;
int j;
*enable = 0x0F;
while (input != 'E') {
alt_putstr("\nTo READ type 'R' and press enter.\n");
alt_putstr("\nTo WRITE type 'W' and press enter.\n");
alt_putstr("\nTo exit the program, enter 'E'\n");
input = alt_getchar();
//scanf("%c", &input);
// input = getchar();
if (input == 'R') {
*readWrite = 0x0F; // read
*address = 0x0;
for (j = 0; j < 127; j = j + 1) {
*address += 1;
*leds = *data;
}
//while (1) {
//*leds = *data;
//}
} else if (input == 'W') {
*readWrite = 0x0; // write
*address = 0x0;
for (i = 127; i > 0; i = i - 1) {
*data = i;
*address += 1;
}
}
}
return 0;
}
int main()
{
clock_t t1, t2, t3, t4, t5, t6;
char a[50], b[50], c[50];
printf("Hi, v2.1\n");
printf("Running algorithm for task: ");
printf((task)?"4+\n":"1-3\n");
printf("Dividing result by 1024 is: ");
printf((div_1024)?"ON\n":"OFF\n");
////////////////
//test case 1 //
////////////////
printf("gen vector 1, ");
generateVector(x1, N1, S1);
printf("sum vector 1\n");
float y1=0.0;
if (task) {t1 = times(NULL); y1 = sumVector_cos_custom(x1, N1); t2 = times(NULL);}
else {t1 = times(NULL); y1 = sumVector(x1, N1); t2 = times(NULL);}
gcvt(t2-t1, 10, a);
alt_putstr("Time = "); alt_putstr(a); alt_putstr("; ");
printf("Result = %f\n", ((div_1024)?y1/1024:y1));
/*/////////////
//test case 2 //
////////////////
printf("gen vector 2, ");
generateVector(x2, N2, S2);
printf("sum vector 2\n");
float y2=0.0;
if (task) {t3 = times(NULL); y2 = sumVector_cos_custom(x2, N2); t4 = times(NULL);}
else {t3 = times(NULL); y2 = sumVector(x2, N2); t4 = times(NULL);}
gcvt(t4-t3, 10, b);
alt_putstr("Time = "); alt_putstr(b); alt_putstr("; ");
printf("Result = %f\n", ((div_1024)?y2/1024:y2));
////////////////
//test case 3 //
////////////////
printf("gen vector 3, ");
generateVector(x3, N3, S3);
printf("sum vector 3\n");
float y3=0.0;
if (task) {t5 = times(NULL); y3 = sumVector_cos_custom(x3, N3); t6 = times(NULL);}
else {t5 = times(NULL); y3 = sumVector(x3, N3); t6 = times(NULL);}
gcvt(t6-t5, 10, c);
alt_putstr("Time = "); alt_putstr(c); alt_putstr("; ");
printf("Result = %f\n", ((div_1024)?y3/1024:y3));
*/
return 0;
}
int main(){
alt_putstr("Hello from Nios II!\n");
printf("Enter 'G' to begin...");
char input = alt_getchar();
while ('G' != input) {
input = alt_getchar();
}
if (input == 'G') {
printf("You're in!");
/* Event loop never exits. */
while (1){
if (*switches & 0x01) {
*leds = (~(*switches)) | ((*switches) & (0x01));
}
else {
*leds = *switches;
}
}
}
return 0;
}
void playerOnePlay() {
sendMissle();
receiveHitResult();
alt_putstr("Player 2's turn... ");
receiveMissle();
}
void gameInit() {
sramWrite(keepScore, 0);
sramWrite(counter, 0);
makeBoard();
alt_putstr("Welcome to Battleship!\n");
}
int main()
{
alt_putstr("Hello from Nios II!\n");
unsigned char led = 0;
volatile unsigned int i;
unsigned char * wiz830_base = (unsigned char*)0x08000000;
// SHAR(Source Hardware Address Register)
*(wiz830_base + 0x0008) = 0x00;
*(wiz830_base + 0x0009) = 0x08;
*(wiz830_base + 0x000a) = 0xDC;
*(wiz830_base + 0x000b) = 0x01;
*(wiz830_base + 0x000c) = 0x02;
*(wiz830_base + 0x000d) = 0x03;
// GAR(Gateway IP Address Register)
*(wiz830_base + 0x0010) = 10;
*(wiz830_base + 0x0011) = 0;
*(wiz830_base + 0x0012) = 0;
*(wiz830_base + 0x0013) = 1;
// SUBR(Subnet Mask Register)
*(wiz830_base + 0x0014) = 255;
*(wiz830_base + 0x0015) = 0;
*(wiz830_base + 0x0016) = 0;
*(wiz830_base + 0x0017) = 0;
// SIPR(Source IP Register)
*(wiz830_base + 0x0018) = 10;
*(wiz830_base + 0x0019) = 0;
*(wiz830_base + 0x001a) = 0;
*(wiz830_base + 0x001b) = 2;
printf("%02x\n", *(wiz830_base + 0x0010));
printf("%02x\n", *(wiz830_base + 0x0011));
printf("%02x\n", *(wiz830_base + 0x0012));
printf("%02x\n", *(wiz830_base + 0x0013));
printf("\n");
printf("%02x\n", *(wiz830_base + 0x0014));
printf("%02x\n", *(wiz830_base + 0x0015));
printf("%02x\n", *(wiz830_base + 0x0016));
printf("%02x\n", *(wiz830_base + 0x0017));
printf("\n");
printf("%02x\n", *(wiz830_base + 0x0018));
printf("%02x\n", *(wiz830_base + 0x0019));
printf("%02x\n", *(wiz830_base + 0x001a));
printf("%02x\n", *(wiz830_base + 0x001b));
/* Event loop never exits. */
while (1){
for(i = 0; i < 20000; i++) ;
led++;
*((unsigned int*)0x00000030) = led;
}
return 0;
}
int getPlayerNum() {
alt_putstr("Are you player 1 or player 2? \n");
int num = alt_getchar();
if (num == '\n') {
num = alt_getchar();
}
return num;
}
void printBoard() {
int i, j;
alt_printf(" 0 1 2 3 4 5 6 7 8 9\n"); // prints the top row of number
for (i = 0; i < 10; i++) {
alt_printf("%x ", i);
for (j = 0; j < 10; j++) {
alt_printf("%c ", sramRead(j + i * 10));
}
alt_putstr("\n");
}
}
void print_array(volatile long* array, int size)
{
int i = 0;
for (i = 0; i < size; ++i) {
alt_printf("0x%x ", array[i]);
}
alt_putstr("\n");
}
int main() {
int input = 'A';
int i;
while (input != 'E') {
alt_putstr("\n");
alt_putstr("\nTo READ type 'R' and press enter.\n");
alt_putstr("\nTo WRITE type 'W' and press enter.\n");
alt_putstr("\nTo exit the program, enter 'E'\n");
input = alt_getchar();
if (input == 'R') {
*enable = 0x0;
*readWrite = 0x1; // read
for (i = 0; i < 128; i++) {
IOWR_ALTERA_AVALON_PIO_DIRECTION(*data, 0xFF);
(*address) = i;
*leds = *data;
alt_printf("%x \n", *data);
usleep(1000);
}
input = 'A';
alt_printf("Read complete\n");
} else if (input == 'W') {
*enable = 0x0;
*readWrite = 0x0; // write
IOWR_ALTERA_AVALON_PIO_DIRECTION(*data, 0x00000000);
for (i = 0; i < 128; i++) {
*address = i;
*data = 0x00000000;
*data = 127 - i;
alt_printf("%x\n", *data);
}
input = 'A';
}
}
return 0;
}
int main(void)
{
alt_putstr("Hello from Nios II!\n");
fill_arrays_with_random_values();
PERF_RESET(PERFORMANCE_COUNTER_0_BASE);
PERF_START_MEASURING(PERFORMANCE_COUNTER_0_BASE);
PERF_BEGIN(PERFORMANCE_COUNTER_0_BASE, 1);
shuffle_in_c(array_for_c, ARRAY_SIZE);
PERF_END(PERFORMANCE_COUNTER_0_BASE, 1);
PERF_BEGIN(PERFORMANCE_COUNTER_0_BASE, 2);
shuffle_with_custom_instruction(array_for_custom_instr, ARRAY_SIZE);
PERF_END(PERFORMANCE_COUNTER_0_BASE, 2);
PERF_BEGIN(PERFORMANCE_COUNTER_0_BASE, 3);
shuffle_with_accelerator(array_for_accelerator, ARRAY_SIZE);
PERF_END(PERFORMANCE_COUNTER_0_BASE, 3);
PERF_STOP_MEASURING(PERFORMANCE_COUNTER_0_BASE);
perf_print_formatted_report((void *) PERFORMANCE_COUNTER_0_BASE, ALT_CPU_FREQ, 3, ""
"shuffle_with_c", "shuffle_with_custom_instruction", "shuffle_with_accelerator");
//verify_arrays();
#ifdef SMALL_ARRAY
alt_putstr("Shuffle with C:\t\t\t");
print_array(array_for_c, ARRAY_SIZE);
alt_putstr("Shuffle with custom instruction:\t");
print_array(array_for_custom_instr, ARRAY_SIZE);
alt_putstr("Shuffle with accelerator:\t\t");
print_array(cache_bypass(array_for_accelerator), ARRAY_SIZE);
#endif
return 0;
}
int main() {
char input = 'A';
int i;
int j;
//*enable = 0x0F;
while (input != 'E') {
alt_putstr("\nTo READ type 'R' and press enter.\n");
alt_putstr("\nTo WRITE type 'W' and press enter.\n");
alt_putstr("\nTo exit the program, enter 'E'\n");
input = alt_getchar();
//scanf("%c", &input);
// input = getchar();
if (input == 'R') {
*enable = 0x0F;
*readWrite = 0x0F; // read
for (j = 0; j < 127; j = j + 1) {
usleep(100000);
(*address) = j;
*leds = *data;
alt_printf("sad%h ", *data);
}
} else if (input == 'W') {
*enable = 0x00;
*readWrite = 0x0; // write
*address = 0x0;
for (i = 127; i > 0; i = i - 1) {
*data = i;
(*address) += 1;
}
}
}
return 0;
}
int main()
{
alt_putstr("Hello from Nios II!\n");
//alt_putstr("Input the char you would like to send.\n");
//alt_putchar(*parallel_in);
//alt_putstr("\n");
//int c = alt_getchar();
//alt_putstr("\n");
int i = 0;
char hello[20] = "Hello, world! abc123";
while (i < 20) {
*transmit_enable = 0x0;
*load = 0x0;
//*parallel_out = c;
*data_bus_output = (hello[i]);
//getBits(*parallel_out);
//alt_putstr("\n*parallel_out\n");
//alt_putchar((*parallel_out >> 1));
//alt_putchar(*parallel_out);
*data_bus_output = setParity(*data_bus_output);
//getBits(*parallel_out);
//alt_putchar(getCharacter(*parallel_out));
//alt_putstr("\ngetCharacter(*parallel_out)\n");
//alt_putchar(getCharacter(*parallel_out));
usleep(1000);
*transmit_enable = 0x1;
*load = 0x1;
usleep(50);
*load = 0x0;
while (!*character_received) {
}
while (!*character_sent) {
}
*transmit_enable = 0x0;
/*if (getParity(*parallel_in)) {
alt_putstr("bad parity\n");
} else {
alt_putstr("good parity\n");
}*/
//getBits(*parallel_in);
alt_putchar(getCharacter(*data_bus_input));
//alt_putstr("\n");
i++;
}
return 0;
}
int main()
{
alt_putstr("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n");
char* xString = calloc(20, sizeof(char));
int i;
for(i = 0; i < 20; i++) {
int j;
for(j = 0; j < 20; j++) {
if(i == j) {
xString[j] = 0x58;
} else {
xString[j] = 0x20;
}
}
//system("clear");
//printf("\033c");
alt_putstr("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n");
/*printf("\033[2J");
alt_putstr("\033[2J");
alt_putstr("\033c");
printf("\033c");
system("clear");*/
/*alt_putstr("[2J");
alt_putstr("\033c[2J");
alt_putstr("\033");*/
//alt_putstr("\[2J");
printf("%s", xString);
usleep(500000);
}
//Event loop, never exits
while(1);
return 0;
}
void shuffle_with_accelerator(volatile long* array, int size)
{
// Set Start address and array size
IOWR_32DIRECT(ACCELERATOR_0_BASE, 0x0, (long ) array);
IOWR_32DIRECT(ACCELERATOR_0_BASE, 0x4, ARRAY_SIZE);
// Start
IOWR_32DIRECT(ACCELERATOR_0_BASE, 0x8, 1);
// Wait for Done
while (IORD_32DIRECT(ACCELERATOR_0_BASE, 0xC) != 1) {
alt_putstr("Waiting for accelerator\n");
}
}
void verify_arrays(void)
{
int i = 0;
for (i = 0; i < ARRAY_SIZE; ++i) {
if (array_for_c[i] != array_for_custom_instr[i]
|| array_for_custom_instr[i] != ((long*)cache_bypass(array_for_accelerator))[i]) {
alt_printf("Verification failed for index 0x%x: 0x%x, 0x%x, 0x%x",
i, array_for_c[i], array_for_custom_instr[i],
array_for_accelerator[i]);
while (1)
;
}
}
alt_putstr("Verifying OK\n");
}
int main()
{
alt_putstr("Hello from Nios II!\n");
printf("Hello from Nios II!\n");
int count = 0;
int delay;
while(1)
{
IOWR_ALTERA_AVALON_PIO_DATA(PIO_BASE, count & 0x01);
delay = 0;
while(delay < 2000000){
delay++;
}
count++;
}
return 0;
}
int main(){
alt_putstr("Hello from Nios II!\n");
char input;
input = alt_getchar();
if (input == 'G') {
/* Event loop never exits. */
while (1){
if (*(switches & 0x01) == 0) {
*leds = *switches;
}
else {
*leds = ~*switches;
}
}
}
return 0;
}
int main()
{
alt_putstr("Hello from Nios II!\n");
char msg[26] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
int j;
for (j = 0; j < strlen(msg); j++) {
*transmit_enable = 0x0;
*load = 0x0;
*data_bus_output = setParity(msg[j]);
usleep(1000);
*load = 0x1;
*transmit_enable = 0x1;
usleep(50);
*load = 0x0;
while(!*character_sent);
*transmit_enable = 0x0;
usleep(25000);
}
return 0;
}
int main( void )
{
unsigned char buf[4];
alt_putstr("Boot\n");
// I2C Clock Setting
IOWR( IIC_0_BASE, 1, 42 ); // 100kHz (50,000kHz / 100kHz / 12 = 41.6...)
// IOWR( IIC_0_BASE, 1, 11 ); // 400kHz (50,000kHz / 400kHz / 12 = 10.4...)
buf[0] = 0;
iic_write( 0x1D, 1, buf );
iic_read( 0x1D, 1, buf );
alt_printf( "DEVID %x\n", buf[0] );
/* Event loop never exits. */
while( 1 ) {
;
}
return 0;
}
int main() {
*transmit_enable = 0;
*sram_we = 1;
*sram_oe = 1;
gameInit();
int playerNum = getPlayerNum();
printBoard();
while (sramRead(keepScore) < 11) {
switch (playerNum) {
case '1':
playerOnePlay();
break;
case '2':
playerTwoPlay();
break;
}
}
alt_putstr("You win!");
return 0;
}
int main()
{
unsigned int row, col;
unsigned int i = 0;
unsigned int j = 0;
pixbuf_t *pixbuf;
graphics_init();
pixbuf = graphics_get_final_buffer();
alt_putstr("Restoring default palette\n");
switch_palette(&palette_332);
graphics_clear_screen();
// Draw to edges of screen
graphics_draw_rectangle(pixbuf, 0, 0, 640-1, 480-1, 0xE0);
graphics_draw_rectangle(pixbuf, 1, 1, 640-2, 480-2, 0xFF);
ALT_CI_CI_FRAME_DONE_0;
// Draw the colors at the top of the screen
for (i = 0; i < sizeof(color_array); i++)
{
graphics_draw_rectangle(pixbuf, i, 0, i, 0, color_array[i]);
}
// Cycle through a pattern
for (i = 0; i < 256; i++)
{
graphics_draw_rectangle(pixbuf, 300, 50, 301, 127, color_array[i % sizeof(color_array)]);
graphics_draw_rectangle(pixbuf, 201, 111, 400, 230, color_array[(i+4) % sizeof(color_array)]);
graphics_draw_rectangle(pixbuf, 100, 200, 500, 430, color_array[(i+8) % sizeof(color_array)]);
ALT_CI_CI_FRAME_DONE_0;
for (j = 0; j < 10000; j++)
{
// Do nothing
}
}
graphics_clear_screen();
// Draw a geometric pattern in the most inefficient way possible...
for (row = 0; row < 480; row++)
{
for (col = 0; col < 640; col++)
{
if (row == col) {
graphics_draw_rectangle(pixbuf, col, row, col, row, 0xFF);
}
if (row == col - 160) {
graphics_draw_rectangle(pixbuf, col, row, col, row, 0xFF);
}
if (480 - row - 1 == col) {
graphics_draw_rectangle(pixbuf, col, row, col, row, 0xFF);
}
if (480 - row - 1 == col - 160) {
graphics_draw_rectangle(pixbuf, col, row, col, row, 0xFF);
}
}
}
ALT_CI_CI_FRAME_DONE_0;
for ( i = 0; i < 100000; i++)
{
//wait for a while
}
graphics_clear_screen();
int genesis_value;
while(1)
{
genesis_value = IORD_32DIRECT(GENESIS_0_BASE, 0);
if ((genesis_value)& (1 << 4)){
graphics_draw_rectangle(pixbuf, 100, 100, 150, 150, 0x1A);
}
else
graphics_draw_rectangle(pixbuf, 100, 100, 150, 150, 0x0);
if ((genesis_value)& (1 << 5)){
graphics_draw_rectangle(pixbuf, 200, 200, 250, 250, 0xE0);
}
else
graphics_draw_rectangle(pixbuf, 200, 200, 250, 250, 0x0);
if ((genesis_value)& (1 << 6)){
graphics_draw_rectangle(pixbuf, 300, 300, 350, 350, 0x03);
}
else
graphics_draw_rectangle(pixbuf, 300, 300, 350, 350, 0x0);
ALT_CI_CI_FRAME_DONE_0;
// Do nothing
}
return 0;
}
int main()
{
unsigned int row = 0;
unsigned int col = 0;
unsigned int delay = 0;
unsigned int color;
int i;
// Clear the screen first.
alt_putstr("Clear the screen\n");
for (col = 0; col < FRAME_WIDTH; col = col + 4) {
for (row = 0; row < FRAME_HEIGHT; ++row) {
color = 0;
IOWR_32DIRECT(SRAM_0_BASE, row * FRAME_WIDTH + col, color << 24 | color << 16 | color << 8 | color << 0);
}
}
// Print first 16 elements of current palette
print_palette(16);
// Switch to EGA colour palette
switch_palette(&palette_ega);
print_palette(16);
alt_putstr("Screen painting demo\n");
// Cycle through the colours of the EGA colour palette
for (i = 0; i < 16; i++) {
for (delay = 0; delay < 700/*2000*/; delay++) {
unsigned int tdelay = delay;
for (tdelay; tdelay > 0; tdelay--) {}
}
for (row=0; row<480; row++) {
for (col = 0; col < 640; col=col+4) {
color = i;
IOWR_32DIRECT(SRAM_0_BASE, row * 640 + col, color << 24 | color << 16 | color << 8 | color << 0);
}
}
}
alt_putstr("\nStarting Stephen Test Pattern\n");
int p;
for (p = 0; p < palette_count; p++)
{
switch_palette(palettes[p]);
alt_putstr("Clear the screen\n");
for (col = 0; col < FRAME_WIDTH; col = col + 4) {
for (row = 0; row < FRAME_HEIGHT; row++) {
color = 0;
IOWR_32DIRECT(SRAM_0_BASE, row * FRAME_WIDTH + col, color << 24 | color << 16 | color << 8 | color << 0);
}
}
//Now draw the test pattern
for (row = 0; row < 480; row++)
{
for (col = 0; col < 640; col = col + 4)
{
color = ((row + col) % 256) << 0 | ((row + col) % 256) << 8 | ((row + col) % 256) << 16 | ((row + col) % 256) << 24;
if (row == 0 || row == 479)
{
IOWR_32DIRECT(SRAM_0_BASE, row * 640 + col, 0xFFFFFFFF);
}
else if (col == 0)
{
IOWR_32DIRECT(SRAM_0_BASE, row * 640 + col, 0x000000FF | color);
}
else if (col == 636)
{
IOWR_32DIRECT(SRAM_0_BASE, row * 640 + col, 0xFF000000 | color);
}
else
{
IOWR_32DIRECT(SRAM_0_BASE, row * 640 + col, color);
}
}
}
}
alt_putstr("Done.\n");
return 0;
}
int main()
{
//fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK);
alt_putstr("Hello from Nios II!\n");
*character_received = 0;
char *msg = "Hello from a different Nios II!";
int j;
unsigned char incoming;
while (1) {
//msg = fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK);
if (*character_received) {
incoming = getCharacter(*data_bus_input);
alt_printf("Incoming: %c \n", incoming);
while(*character_received) {
}
}
return 0;
/*if (msg[0] == '#') {
for (j = 0; j < 16; j++) {
*transmit_enable = 0x0;
*load = 0x0;
*parallel_out = setParity(msg[j]);
usleep(1000);
*transmit_enable = 0x1;
*load = 0x1;
usleep(50);
*load = 0x0;
usleep(50);
}
msg = "#";
}*/
}
//FOR NIOS
//fcntl(STDIN_FILENO, F_SETFL, O_NONBLOCK);
//Tests
//sram_malloc_test();
//sram_free_test();
//Game Init
/*setup_interrupt();
initializeGame();
pSramAliens = sram_malloc(sizeof(struct Alien) * (ALIEN_COLS * ALIEN_ROWS));
int pSramBulletBuffer = sram_malloc((sizeof(struct Projectile) * (ALIEN_COLS * ALIEN_WIDTH * VOID_HEIGHT)) + sizeof(struct Projectile));
//printf("%i\n", sizeof(struct Projectile) * (ALIEN_COLS * ALIEN_WIDTH * VOID_HEIGHT));
//New Game
gameOver = 0;
unsigned int gameStartTime = *game_time;
unsigned int previousUpdateBoard = *game_time;
unsigned int previousUpdateBullets = *game_time;
initRandomAliens(pSramAliens);
initProjectileBuffer(pSramBulletBuffer);
pBuffer = calloc(TRANSMIT_BUFFER_SIZE, sizeof(char));
pBufferHead = pBuffer;
pTransmit = pBuffer;
*data_bus_output = 0xAF;
//while(1);
char hello[20] = "Hello, world! abc123";
int i;
for(i = 0; i < 20; i++) {
writeBuffer(hello[i]);
}
transmitIfBufferNotEmpty();
//Game Event Loop
while(1) {
if(gameOver) {
if(gameOver == 1) {
printf("\nAliens Win!\n");
} else if(gameOver ==2) {
printf("\nGunner Win!\n");
}
return 0;
}
//gameOver =1;
if(((*game_time) - previousUpdateBoard) > 10) {
alienShift = ((*game_time) / 10) % 8;
//alienShift = 2;
//updateDisplay(pSramAliens, pSramBulletBuffer, gunnerX, (*game_time) % 2, alienShift);
previousUpdateBoard = (*game_time);
}
if(((*game_time) - previousUpdateBullets) > 5) {
updateProjectileNodes();
previousUpdateBullets = (*game_time);
}
moveGunnerLeft(&gunnerX);
moveGunnerRight(&gunnerX);
//shootGunner(&gunnerX);
shootAliens();
}
return 0;*/
}
void playerTwoPlay() {
alt_putstr("Player 1's turn... ");
receiveMissle();
sendMissle();
receiveHitResult();
}
