add targets

src/pipes_test.c

@@ -6,6 +6,9 @@
     #include <sys/ioctl.h>
     #include <unistd.h>
     #include <termio.h>
+#elif _WIN32
+    #include <windows.h>
+    #include <conio.h>
 #endif
 
 #define DEBUGGER_PIPES_TO_NUMBERS 0
@@ -21,7 +24,8 @@
 //#define GRID_GROESSE_Y 60
 #define MIN_LAENGE_PIPE 6
 #define MAX_LAENGE_PIPE 6
-#define SLEEP_TIMER 5000              // in nano seconds
+#define SLEEP_TIMER 0              // in nano seconds
+// #define SLEEP_TIMER 5000              // in nano seconds
 #define COLOR_CHANGING_PROBABILITY 5   // format: "(1 : your_number)", for every direction change
 
 #define RESET_COLOR "\033[0m"
@@ -40,6 +44,7 @@ void random_color() {
     color = colors[rand() % (sizeof(colors) / sizeof(colors[0]))];
 }
 
+#ifdef __linux__
 int getch_pipes(){ 
     int ch;
     struct termios oldattr, newattr;
@@ -56,15 +61,21 @@ int getch_pipes(){
 
     return ch; 
 }
+#endif
 
-void print_grid(int x, int y, char **grid) {
+void print_grid(int x, int y, char **grid, int how_many_targets) {
+    int target_count = 0;
     for (int i = 0; i < y; i++) {
         printf("\n");
         for (int j = 0; j < x; j++) {
-            if (!DEBUGGER_PIPES_TO_NUMBERS){
+            if(grid[i][j] == 3){
+                target_count += 1;
+            }if (!DEBUGGER_PIPES_TO_NUMBERS){
                 if(grid[i][j] == 0){
                     printf(FILLER);
-                } else if(grid[i][j] != 0 && grid[i][j] != 1 && grid[i][j] != 2){
+                } else if(grid[i][j] == 3){
+                    printf("%s█","\033[31m" );
+                } else if(grid[i][j] != 0 && grid[i][j] != 1 && grid[i][j] != 2 && grid[i][j] != 3){
                     return;
 
                 } else if(grid[i - 1][j] == 0 && grid[i + 1][j] == 0 && grid[i][j - 1] != 0 && grid[i][j + 1] != 0 && grid[i][j] == 1  ){
@@ -130,6 +141,10 @@ void print_grid(int x, int y, char **grid) {
                 } else if(grid[i - 1][j] == 2 && grid[i + 1][j] == 2 && grid[i][j - 1] == 2 && grid[i][j + 1] == 2 && grid[i][j] == 2  ){
                     printf("%s┃", color);
 
+
+                } else if(grid[i][j] == 3){
+                    printf("✨");
+
                     
 
                 } else if(grid[i - 1][j] != 0 && grid[i + 1][j] != 0 && grid[i][j - 1] != 0 && grid[i][j + 1] != 0 && grid[i][j] == 0  ){
@@ -159,9 +174,26 @@ void print_grid(int x, int y, char **grid) {
             }
         }
     }
+    if (target_count+1 <= 8*how_many_targets - 4*how_many_targets) {
+        printf("\e[1;1H\e[2J");
+        printf("\n");
+        printf(" █     █   █████   █     █    █      █   █████   ██   █\n");
+        printf(" ██   ██  █     █  █     █    █      █  █     █  ███  █\n");
+        printf("  █████   █     █  █     █    █      █  █     █  █ ██ █\n");
+        printf("    █     █     █  █     █     █ ██ █   █     █  █  ███\n");
+        printf("    █      █████    █████       █  █     █████   █   ██\n");
+        printf("\n");
+        printf("Targets overritten: %i\n", 8*how_many_targets-target_count);
+        if (8*how_many_targets-target_count >= 14) {
+            printf("\nspecial achivement!!!!!!\n");
+        }
+        printf("'q' for start menue");
+        return;
+    }
+
 }
 
-void generate_pipe_x(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x_start, int *y_start, int laenge) {
+void generate_pipe_x(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x_start, int *y_start, int laenge, int how_many_targets) {
     if(laenge < 0){
         for (int i = *x_start; i > *x_start + laenge; i--) {
             if (i <= -laenge/2 -1) {
@@ -170,7 +202,7 @@ void generate_pipe_x(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
             }
             grid[*y_start][i] = INFILL_X_PIPE;
             printf("\33[H\033[J");
-            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid);
+            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid, how_many_targets);
             usleep(SLEEP_TIMER);
         }
     } else{
@@ -181,7 +213,7 @@ void generate_pipe_x(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
             }
             grid[*y_start][i] = INFILL_X_PIPE;
             printf("\33[H\033[J");
-            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid);
+            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid, how_many_targets);
             usleep(SLEEP_TIMER);
         }
     }
@@ -189,7 +221,7 @@ void generate_pipe_x(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
     *x_start += laenge;
 }
 
-void generate_pipe_y(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x_start, int *y_start, int laenge) {
+void generate_pipe_y(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x_start, int *y_start, int laenge, int how_many_targets) {
     if(laenge < 0){
         for (int i = *y_start; i > *y_start + laenge/2; i--) {
             if (i <= -laenge/2) {
@@ -198,7 +230,7 @@ void generate_pipe_y(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
             }
             grid[i][*x_start] = INFILL_Y_PIPE;
             printf("\33[H\033[J");
-            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid);
+            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid, how_many_targets);
             usleep(SLEEP_TIMER);
         }
     } else{
@@ -209,7 +241,7 @@ void generate_pipe_y(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
             }
             grid[i][*x_start] = INFILL_Y_PIPE;
             printf("\33[H\033[J");
-            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid);
+            print_grid(GRID_GROESSE_X, GRID_GROESSE_Y, grid, how_many_targets);
             usleep(SLEEP_TIMER);
         }
     }
@@ -217,6 +249,23 @@ void generate_pipe_y(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x
     *y_start += laenge/2;
 }
 
+void generate_target(int GRID_GROESSE_X, int GRID_GROESSE_Y, char **grid, int *x_start, int *y_start, int laenge) {
+    int abstand_vom_rand_x = 6;
+    int abstand_vom_rand_y = 3;
+    int target_x = 0;
+    int target_y = 0;
+    while (target_x <= abstand_vom_rand_x || target_x >= GRID_GROESSE_X - abstand_vom_rand_x || target_y <= abstand_vom_rand_y || target_y >= GRID_GROESSE_Y - abstand_vom_rand_y) {  
+        target_x = ((rand() % GRID_GROESSE_X));
+        target_y = ((rand() % GRID_GROESSE_Y));
+    }
+    for (int j = target_y; j < target_y + 2; j++) {
+        for (int i = target_x; i < target_x + 4; i++) {
+                grid[j][i] = 3;
+            }
+    }
+}
+    
+
 int pipes(int GRID_GROESSE_X, int GRID_GROESSE_Y) {
 //int main() {
 //    system("chcp 65001 >null"); 
@@ -245,6 +294,11 @@ int pipes(int GRID_GROESSE_X, int GRID_GROESSE_Y) {
     }
     
     int richtungswechsler = 1;
+    int how_many_targets = 3;
+    for (int i = 1; i <= how_many_targets; i++) {
+        generate_target(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+    }
+    generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, 1, how_many_targets);
 
     while (!DEBUGGER_RANDOM) {
 
@@ -254,18 +308,21 @@ int pipes(int GRID_GROESSE_X, int GRID_GROESSE_Y) {
             }
 
             laenge = ((rand() %max_l)+min_l);
-
+        
-            char key_input = (char)getch_pipes();
+            #ifdef __linux__
-
+                char key_input = (char)getch_pipes();
+            #elif _WIN32
+                char key_input = (char)getch();
+            #endif
             switch (key_input) {
-                case 'h': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1); break;
+                case 'h': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1, how_many_targets); break;
-                case 'a': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1); break;
+                case 'a': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1, how_many_targets); break;
-                case 'l': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge); break;
+                case 'l': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets); break;
-                case 'd': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge); break;
+                case 'd': generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets); break;
-                case 'j': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge); break;
+                case 'j': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets); break;
-                case 's': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge); break;
+                case 's': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets); break;
-                case 'k': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1); break;
+                case 'k': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1, how_many_targets); break;
-                case 'w': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1); break;
+                case 'w': generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1, how_many_targets); break;
                 case 'q': return 0;
                 default: continue;
             }
@@ -283,25 +340,25 @@ int pipes(int GRID_GROESSE_X, int GRID_GROESSE_Y) {
             }
 
             if (richtungswechsler == 1) {
-                generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+                generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
                 richtungswechsler *= -1;
             } else {
-                generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+                generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
                 richtungswechsler *= -1;
             }
         }
     }
 
     if (DEBUGGER_RANDOM) {
-        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
-        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
-        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
-        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -0.1);
+        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -0.1, how_many_targets);
-        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1.05);
+        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1.05, how_many_targets);
-        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1);
+        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * -1, how_many_targets);
-        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * 0.1);
+        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * 0.1, how_many_targets);
-        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * 0.9);
+        generate_pipe_y(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge * 0.9, how_many_targets);
-        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge);
+        generate_pipe_x(GRID_GROESSE_X, GRID_GROESSE_Y, grid, &x_start, &y_start, laenge, how_many_targets);
     }