#include "wordblox.h"
#include "constantstrings.h"
-void set_clue_across_word (Puzzle *p)
+/* export the clues to a text file */
+void do_export_clues (Puzzle *p)
+{
+ if (p->grid_frozen == false)
+ {
+ printf (UNFROZEN_GRID);
+ char ch = getchar ();
+ return;
+ }
+ char fname[256];
+ printf (INPUT_FILE);
+ fgets (fname, 256, stdin);
+ if (strlen(fname) == 1)
+ return;
+ char *filename = strtok (fname, "\n");
+
+ export_clues (p, filename);
+ printf (FILE_SAVED);
+ char ch = getchar ();
+}
+
+/* export the puzzle to a png file */
+void do_export_puzzle (Puzzle *p)
+{
+ if (p->grid_frozen == false)
+ {
+ printf (UNFROZEN_GRID);
+ char ch = getchar ();
+ return;
+ }
+ char fname[256];
+ printf (INPUT_FILE);
+ fgets (fname, 256, stdin);
+ if (strlen (fname) == 1)
+ return;
+ char* filename = strtok (fname, "\n");
+
+ printf (INPUT_EXPORT_ANSWERS);
+ char ans[3];
+ fgets (ans, 3, stdin);
+ bool solution;
+ solution = (toupper (ans[0]) == 'Y') ? true : false;
+
+ export_grid_image (p, filename, solution);
+ printf (FILE_SAVED);
+ char ch = getchar ();
+}
+
+/* reset the grid */
+void do_reset_puzzle (Puzzle *p)
+{
+ int grid_size = p->grid_size;
+ printf (INPUT_CONFIRM_RESET);
+ char conf[3];
+ fgets (conf, 3, stdin);
+ if (toupper (conf[0]) == 'Y')
+ init_puzzle (p, grid_size);
+}
+
+/* set clue for a word - only for frozen grid */
+void do_set_clue_word (Puzzle *p, enum ORIENTATION orient)
{
print_puzzle (p);
if (p->grid_frozen == false)
fgets (clue, MAX_CLUE_LENGTH, stdin);
char* cl = strtok (clue, "\n");
- bool res = set_across_clue (p, cl, index);
+ bool res;
+ res = set_clue (p, cl, index, orient);
+
if (res == false)
+ {
printf (NO_WORD_INDEX);
+ char ch = getchar ();
+ }
}
/* clear a cell in the grid */
-void clear_cell (Puzzle *p)
+void do_clear_cell (Puzzle *p)
{
print_puzzle (p);
if (p->grid_frozen == true)
}
/* add a down word to the grid */
-void add_down_word (Puzzle *p)
+void do_add_down_word (Puzzle *p)
{
print_puzzle (p);
if (p->grid_frozen == true)
int row, col;
printf (INPUT_WORD);
fgets (wd, MAX_PUZZLE_SIZE, stdin);
- char *word = strtok (wd, "\n");
- if (! is_valid_word (word))
+ char *word = is_valid_word (wd);
+ if (word == NULL)
{
printf (INVALID_WORD);
char ch = getchar ();
}
/* add an across word to the grid */
-void add_across_word (Puzzle *p)
+void do_add_across_word (Puzzle *p)
{
print_puzzle (p);
if (p->grid_frozen == true)
char wd[MAX_PUZZLE_SIZE];
int row, col;
printf (INPUT_WORD);
- fgets (wd, p->grid_size, stdin);
- char *word = strtok (wd, "\n");
- if (! is_valid_word (word))
+ fgets (wd, MAX_PUZZLE_SIZE, stdin);
+ char *word = is_valid_word (wd);
+ if (word == NULL)
{
printf (INVALID_WORD);
char ch = getchar ();
return;
- }
+ }
printf (INPUT_ROW);
row = get_num ();
printf (INPUT_COL);
print_puzzle (p);
char ch = getchar ();
}
+/* confirm exit */
+bool do_confirm_exit ()
+{
+ printf (INPUT_CONFIRM_EXIT);
+ char res[3];
+ fgets (res, 3, stdin);
+ if (toupper(res[0]) == 'Y')
+ return true;
+ else
+ return false;
+}
+/* main loop for the puzzle editor */
void puzzle_editor_loop (Puzzle *p, const char *filename)
{
bool loop = true;
while (loop)
{
- print_menu (WHITE, RED, PUZZLE_MENU_TITLE, PUZZLE_EDIT_MENU, 9, 50);
+ print_menu (WHITE, BLUE, PUZZLE_MENU_TITLE, PUZZLE_EDIT_MENU, 13, 50);
printf (INPUT_CHOICE);
int ch = get_num ();
switch (ch)
case 1: print_puzzle (p);
char ch = getchar ();
break;
- case 2: add_across_word (p);
+ case 2: do_add_across_word (p);
break;
- case 3: add_down_word (p);
+ case 3: do_add_down_word (p);
break;
- case 4: clear_cell (p);
+ case 4: do_clear_cell (p);
break;
case 5: freeze_puzzle (p);
print_puzzle (p);
print_puzzle (p);
ch = getchar ();
break;
- case 7: set_clue_across_word (p);
- print_puzzle (p);
- ch = getchar ();
+ case 7: do_set_clue_word (p, ACROSS);
break;
- case 8: save_puzzle (p, filename);
+ case 8: do_set_clue_word (p, DOWN);
+ break;
+ case 9: save_puzzle (p, filename);
printf ("%s\n",FILE_SAVED);
ch = getchar ();
break;
- case 9: loop = false;
- break;
+ case 10: do_reset_puzzle (p);
+ print_puzzle (p);
+ ch = getchar ();
+ break;
+ case 11: do_export_puzzle (p);
+ break;
+ case 12: do_export_clues (p);
+ break;
+ case 13: loop = ! do_confirm_exit ();
+ break;
}
}
}
/* open an existing puzzle */
-void open_puzzle ()
+void do_open_puzzle ()
{
Puzzle p;
printf (INPUT_FILE);
char fname[256];
fgets(fname, 256, stdin);
+ if (strlen (fname) == 1)
+ return;
char* filename = strtok (fname, "\n");
p = load_puzzle (filename);
puzzle_editor_loop (&p, filename);
}
/* create a new blank puzzle */
-void new_puzzle ()
+void do_new_puzzle ()
{
Puzzle p;
printf (INPUT_FILE);
char fname[256];
fgets (fname, 256, stdin);
+ if (strlen (fname) == 1)
+ return;
char* filename = strtok (fname, "\n");
printf (INPUT_GRID_SIZE);
int size;
int ch = get_num ();
switch (ch)
{
- case 1: new_puzzle ();
+ case 1: do_new_puzzle ();
break;
- case 2: open_puzzle ();
+ case 2: do_open_puzzle ();
break;
case 3: exit (0);
}
}
int main (int argc, char* argv[])
-{
+{
+ if (argc >= 2)
+ {
+ Puzzle p;
+ switch (argc)
+ {
+ case 2 : p = load_puzzle (argv[1]);
+ puzzle_editor_loop (&p, argv[1]);
+ break;
+ case 4 : if (strcmp (argv[2], "new") == 0)
+ {
+ int grid_size = atoi (argv[3]);
+ init_puzzle (&p, grid_size);
+ puzzle_editor_loop (&p, argv[1]);
+ break;
+ }
+ default: fprintf (stderr, USAGE_LINE_1, argv[0]);
+ fprintf (stderr, USAGE_LINE_2);
+ fprintf (stderr, USAGE_LINE_3);
+ exit (3);
+ }
+ }
return (main_loop ());
}