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Port to ncurses

pull/3/head
Nicolò Balzarotti 2016-12-26 15:03:34 +01:00 committed by Racoonicorn
parent f61bb0e60f
commit e2e4ed8f93
2 changed files with 167 additions and 125 deletions
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16
README.md
View File

@ -1,3 +1,19 @@
# Roofus.c # Roofus.c
Clear the table Clear the table
# How to compile
Current version requires ncures (checkout the no-ncurses branch with
`git checkout no-ncurses`
if you don't want it).
Add the path to your LD_LIBRARY_PATH and then compile with the flag -lncurses
ubuntu example:
(as root)
apt-get install ncurses-dev
(compile)
`gcc ./Roofus.c -o roofus -lncurses`

276
Roofus.c
View File

@ -1,23 +1,26 @@
#define VERSION "0.30" #define VERSION "1.00"
#define N 9 #define N 9
#define USERNAME_LENGTH 10
#include <stdio.h> #include <stdio.h>
#include <time.h> #include <time.h>
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include <ncurses.h>
void restoregrid (); void restoregrid ();
void menu (); void menu ();
void play (); void play ();
void start (); void start ();
void move (char *dir); void move_ptr (int direction);
void nolow (); void nolow ();
void settings (); void settings ();
void ranking (); void ranking ();
void rules (); void rules ();
void printm (); void printm ();
int win (); int win ();
int error ();
int matrix[N][N] = {0}; int matrix[N][N] = {0};
int my_x; int my_x;
@ -28,83 +31,101 @@ int gridset = 0;
FILE *fp; FILE *fp;
int main () { int main () {
srand (time(NULL)); srand (time(NULL));
fp = fopen ("roofus.txt", "a+"); fp = fopen ("roofus.txt", "a+");
if (fp == NULL) { if (fp == NULL) {
printf ("Error opening file"); printw ("Error opening file");
refresh();
}else{ }else{
restoregrid (); restoregrid ();
menu (); menu ();
} }
fclose (fp); fclose (fp);
printf ("\n\n\n\nRoofus v%s", VERSION); printw ("\n\n\n\nRoofus v%s", VERSION);
refresh ();
endwin();
return 0; return 0;
} }
// restore last grid size // restore last grid size
void restoregrid () { void restoregrid () {
int gridtemp, length; int gridtemp, length;
fseek(fp, 0, SEEK_END); fseek(fp, 0, SEEK_END);
length = ftell(fp); length = ftell(fp);
fseek(fp, (length - 2), SEEK_SET); // go to grid size character fseek(fp, (length - 2), SEEK_SET); // go to grid size character
gridtemp = fgetc(fp) - 48; // -48 to convert char in int gridtemp = fgetc(fp) - 48; // -48 to convert char in int
if (gridtemp < 3 || gridtemp > 9) if (gridtemp < 3 || gridtemp > 9)
grid = 5; grid = 5;
else else
grid = gridtemp; grid = gridtemp;
} }
void menu (){ void menu (){
char mode[5]; int mode;
initscr();
noecho();
cbreak();
keypad(stdscr, true);
while (1) { while (1) {
system("clear"); clear();
printf ("~~~ ROOFUS ~~~\n\n[1] Play\n[2] Ranking\n[3] Settings\n[4] Rules\n[0] Exit\n\n"); printw ("~~~ ROOFUS ~~~\n\n[1] Play\n[2] Ranking\n[3] Settings\n[4] Rules\n[q] Quit\n\n");
scanf ("%5s", mode); refresh();
switch (mode[0]) { mode = getch();
case '0': return;
case '1': play (); break; switch (mode) {
case '2': ranking (); break; case 'q': return;
case '3': settings (); break; case '1': play (); break;
case '4': rules (); break; case '2': ranking (); break;
case '3': settings (); break;
case '4': rules (); break;
} }
} }
/* return 0; */
} }
void play () { void play () {
char dir[5], user[10]; char user[USERNAME_LENGTH];
char exit = 0; int direction;
int exit = 0;
int end = 0; int end = 0;
char *text = malloc (sizeof (text) * N); char *text = malloc (sizeof (text) * N);
moves = 0; moves = 0;
system("clear"); clear();
my_x = grid / 2; my_x = grid / 2;
my_y = grid / 2; my_y = grid / 2;
start (); start ();
printm ();
while (end == 0) { while (end == 0) {
printf ("\nLeft [a]; Up [w]; Right [d]; Down [s]. Menu [0]"); printw ("\nArrow to move, q to quit\n");
printf ("\nDirection? "); refresh();
scanf ("%5s", dir);
getchar (); direction = getch();
if (dir[0] == '0') { if (direction == 'q') {
printf ("\nAre you sure? [y/n] "); printw ("\nAre you sure? [y/n] ");
scanf ("%c", &exit); refresh();
exit = getch();
if (exit == 'y') { if (exit == 'y') {
return; return;
} else { } else {
dir[0] = '1'; direction = '1';
getchar (); getchar ();
} }
} }
move (dir);
move_ptr (direction);
printm (); printm ();
end = win (); end = win ();
if (end != 0) { if (end != 0) {
printf ("Enter your name: "); echo();
scanf ("%10s", user); printw ("Enter your name: ");
refresh();
getnstr(user, USERNAME_LENGTH); // read at most
} }
} }
sprintf (text, "%li %d %s %d\n", time(NULL), moves, user, grid); sprintf (text, "%li %d %s %d\n", time(NULL), moves, user, grid);
refresh();
fputs (text, fp); fputs (text, fp);
free (text); free (text);
return; return;
@ -118,52 +139,50 @@ void start () {
} }
} }
nolow (); nolow ();
printm();
} }
void move (char *dir) { void move_ptr (int direction) {
int xinit = my_x, yinit = my_y; int xinit = my_x, yinit = my_y;
int stop = 0, del = 0; int stop = 0, del = 0;
int i, j; int i, j;
// move pointer // move_ptr pointer
switch (dir[0]) { switch (direction) {
case 'a': case KEY_LEFT:
if (my_x != 0) { if (my_x != 0) {
my_x--; my_x--;
} else { } else {
stop = error ();
}
break;
case 'd':
if (my_x < grid - 1) {
my_x++;
} else {
stop = error ();
}
break;
case 'w':
if (my_y > 0) {
my_y--;
} else {
stop = error ();
}
break;
case 's':
if(my_y < grid - 1) {
my_y++;
} else {
stop = error ();
}
break;
case 'o':
stop = 1; stop = 1;
break;
default:
stop = error ();
break;
} }
break;
case KEY_RIGHT:
if (my_x < grid - 1) {
my_x++;
} else {
stop = 1;
}
break;
case KEY_UP:
if (my_y > 0) {
my_y--;
} else {
stop = 1;
}
break;
case KEY_DOWN:
if(my_y < grid - 1) {
my_y++;
} else {
stop = 1;
}
break;
default:
stop = 1;
break;
}
if (stop == 0) { if (stop == 0) {
// change values // change values
if (*dir == 'd') { if (direction == KEY_RIGHT) {
for (j = my_x; j < grid; j++) { for (j = my_x; j < grid; j++) {
if (matrix[my_y][j] != 0) { if (matrix[my_y][j] != 0) {
matrix[my_y][j] = matrix[my_y][j] - matrix[yinit][xinit]; matrix[my_y][j] = matrix[my_y][j] - matrix[yinit][xinit];
@ -174,7 +193,7 @@ void move (char *dir) {
} }
} }
} }
if (*dir == 'a') { if (direction == KEY_LEFT) {
for (j = 0; j < xinit; j++) { for (j = 0; j < xinit; j++) {
if (matrix[my_y][j] != 0) { if (matrix[my_y][j] != 0) {
matrix[my_y][j] = matrix[my_y][j] - matrix[my_y][xinit]; matrix[my_y][j] = matrix[my_y][j] - matrix[my_y][xinit];
@ -185,7 +204,7 @@ void move (char *dir) {
} }
} }
} }
if (*dir == 'w'){ if (direction == KEY_UP){
for (i = my_y; i >= 0; i--) { for (i = my_y; i >= 0; i--) {
if (matrix[i][my_x] != 0) { if (matrix[i][my_x] != 0) {
matrix[i][my_x] = matrix[i][my_x] - matrix[yinit][xinit]; matrix[i][my_x] = matrix[i][my_x] - matrix[yinit][xinit];
@ -196,7 +215,7 @@ void move (char *dir) {
} }
} }
} }
if (*dir == 's'){ if (direction == KEY_DOWN){
for (i = my_y; i < grid; i++) { for (i = my_y; i < grid; i++) {
if(matrix[i][my_x] != 0) { if(matrix[i][my_x] != 0) {
matrix[i][my_x] = matrix[i][my_x] - matrix[yinit][xinit]; matrix[i][my_x] = matrix[i][my_x] - matrix[yinit][xinit];
@ -226,23 +245,25 @@ void nolow () {
} }
void settings () { void settings () {
char setting[5]; int setting;
int menu = 0; int menu = 0;
system("clear"); clear();
printf ("> Settings\n\n"); printw ("> Settings\n\n");
while (menu == 0) { while (menu == 0) {
printf ("Menu [0]\nGrid size? [3-9] "); printw ("Menu [q]\nGrid size? [3-9]");
scanf ("%5s", setting); refresh();
switch (setting[0]) { setting = getch();
case '0': menu = 1; break; switch (setting) {
case '3': grid = 3; gridset = 1; menu = 1; break; case 'q': menu = 1; break;
case '4': grid = 4; gridset = 1; menu = 1; break; case '3': grid = 3; gridset = 1; menu = 1; break;
case '5': grid = 5; gridset = 1; menu = 1; break; case '4': grid = 4; gridset = 1; menu = 1; break;
case '6': grid = 6; gridset = 1; menu = 1; break; case '5': grid = 5; gridset = 1; menu = 1; break;
case '7': grid = 7; gridset = 1; menu = 1; break; case '6': grid = 6; gridset = 1; menu = 1; break;
case '8': grid = 8; gridset = 1; menu = 1; break; case '7': grid = 7; gridset = 1; menu = 1; break;
case '9': grid = 9; gridset = 1; menu = 1; break; case '8': grid = 8; gridset = 1; menu = 1; break;
default: printf("Retry\n"); break; case '9': grid = 9; gridset = 1; menu = 1; break;
default: printw("Retry\n"); break;
refresh();
} }
} }
} }
@ -261,7 +282,6 @@ void ranking () {
int grid_val = grid; int grid_val = grid;
int printed; int printed;
rewind (fp); rewind (fp);
getchar ();
do { do {
fscanf (fp, "%li %d %s %d", &result[i].res_time, &result[i].moves, result[i].user, &result[i].grid); fscanf (fp, "%li %d %s %d", &result[i].res_time, &result[i].moves, result[i].user, &result[i].grid);
i++; i++;
@ -276,55 +296,63 @@ void ranking () {
} }
} }
do { do {
system("clear"); clear();
if (grid_val >= 3 && grid_val <= 9) if (grid_val >= 3 && grid_val <= 9)
printf ("Best results (%dx%d matrix):\n\n", grid_val, grid_val); {
printw ("Best results (%dx%d matrix):\n\n", grid_val, grid_val);
refresh();
}
else if (grid_val == 1) else if (grid_val == 1)
printf ("Best results:\n\n"); printw ("Best results:\n\n");
printed = 0; printed = 0;
for (i = 0; result[i].moves != 0; i++) { for (i = 0; result[i].moves != 0; i++) {
if ((result[i].grid == grid_val || grid_val == 1) && printed < 9) { if ((result[i].grid == grid_val || grid_val == 1) && printed < 9) {
time_string[i] = ctime(&result[i].res_time); time_string[i] = ctime(&result[i].res_time);
printf ("# %d - %3d moves\t- (%dx%d matrix) - %s\t- %s", printed + 1, result[i].moves, result[i].grid, result[i].grid, result[i].user, time_string[i]); printw ("# %d - %3d moves\t- (%dx%d matrix) - %s\t- %s", printed + 1, result[i].moves, result[i].grid, result[i].grid, result[i].user, time_string[i]);
refresh();
printed++; printed++;
} }
} }
if (printed == 0) { if (printed == 0) {
printf ("Nothing to show...\n"); printw ("Nothing to show...\n");
refresh();
} }
printw ("\nMenu [q]; To filter by matrix size [3-9]; No filter [1] ");
refresh();
do { do {
printf ("\nMenu [0]; To filter by matrix size [3-9]; No filter [1] "); grid_val = getch() - '0';
scanf ("%1d", &grid_val); // exit with 'q' - '0'
getchar(); } while ((grid_val < 3 || grid_val > 9) && grid_val != 1 && grid_val != 'q'-'0');
} while ((grid_val < 3 || grid_val > 9) && grid_val != 1 && grid_val != 0); } while (grid_val != ('q'-'0'));
} while (grid_val != 0);
} }
void rules () { void rules () {
system("clear"); clear();
getchar (); printw ("> Rules\n\n");
printf ("> Rules\n\n"); printw ("Delete numbers on the table by moving the pointer.\n");
printf ("Delete numbers on the table by moving the pointer.\n"); printw ("That's all you need to know\n");
printf ("That's all you need to know\n"); refresh();
getchar (); getch();
} }
// print matrix // print matrix
void printm () { void printm () {
int i, j; int i, j;
system("clear"); clear();
printf ("\n\n"); printw ("\n\n");
for (i = 0; i < grid; i++) { for (i = 0; i < grid; i++) {
for (j = 0;j < grid; j++) { for (j = 0;j < grid; j++) {
if (i == my_y && j == my_x) if (i == my_y && j == my_x)
printf ("> "); printw ("> ");
if (matrix[i][j] != 0) if (matrix[i][j] != 0)
printf ("%d\t", matrix[i][j]); printw ("%d\t", matrix[i][j]);
else else
printf (" \t"); printw (" \t");
} }
printf ("\n\n"); printw ("\n\n");
} }
refresh();
} }
int win () { int win () {
@ -335,17 +363,15 @@ int win () {
count++; count++;
} }
} }
if (count >= grid * (grid - 1)) { if (count >= grid * (grid - 1)) {
printf ("\nYou win! Moves: %d\n", moves); printw ("\nYou win! Moves: %d\n", moves);
refresh ();
getchar (); getchar ();
return 1; return 1;
}else{ }else{
printf ("\nYou still need to delete %d numbers. Moves: %d", grid * (grid - 1) - count, moves); printw ("\nYou still need to delete %d numbers. Moves: %d", grid * (grid - 1) - count, moves);
refresh();
return 0; return 0;
} }
} }
int error () {
printf ("ERROR!!!");
return 1;
}