ref: 2e592b5e00e8f2489eba725135e3aab33438a9c0
dir: /demo/main.c/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <string.h>
#include <stdint.h>
#include "endian.h"
#include <sys/stat.h>
#include <sys/types.h>
#include <limits.h>
#include <unistd.h>
#include "/sys/include/9curses.h"
#include "binheap.h"
#include "dungeon_generator.h"
/* compare two ints used as costs ;; 0 if same, <0 if higher than key; >0 if lower than key */
int compare_int(const void *key, const void *with) {
//printf("%d\n", *(const int *) key);
return (const int) ((*(Tile_Node *) key).cost - (*(Tile_Node *) with).cost);
}
/* returns the hardness cost of an int hardness */
int h_calc(int h) {
int hc = 0;
if(h >= 0 && h < 85) {
return 1;
}
if(h > 84 && h < 171) {
return 2;
}
if(h > 170 && h < 255) {
return 3;
}
return hc;
}
/* djikstra's take 2; with tunnelling */
void map_dungeon_t(Dungeon * dungeon) {
binheap_t h;
int i;
//Tile_Node tiles[dungeon->h][dungeon->w];
Tile_Node **tiles = calloc(dungeon->h, sizeof (Tile_Node*));
for(i = 0; i < dungeon->h; i++)
tiles[i] = calloc(dungeon->w, sizeof (Tile_Node));
binheap_init(&h, compare_int, NULL);
/* starts from top left */
int xs[8] = {-1,0,1,1,1,0,-1,-1};
int ys[8] = {-1,-1,-1,0,1,1,1,0};
int j;
/* set all indices and insert the default values */
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
tiles[i][j].y = i;
tiles[i][j].x = j;
tiles[i][j].cost = INT_MAX;
tiles[i][j].v = FALSE;
}
}
/* set the player's cost as 0: */
int px = dungeon->ss[dungeon->pc].p.x;
int py = dungeon->ss[dungeon->pc].p.y;
tiles[py][px].cost = 0;
tiles[py][px].v = TRUE;
binheap_insert(&h, &tiles[py][px]);
/* primary cost calculation logic */
binheap_node_t *p;
while((p = binheap_remove_min(&h))) {
int hx = ((Tile_Node *) p)->x;
int hy = ((Tile_Node *) p)->y;
int tc = ((Tile_Node *) p)->cost;
int i;
for(i = 0; i < 8; i++) {
int x = hx + xs[i];
int y = hy + ys[i];
if(x > 0 && x < dungeon->w-1 && y > 0 && y < dungeon->h-1) {
int hard = dungeon->d[y][x].h;
if(hard < 255) {
int trial_cost = tc + h_calc(hard);
if((tiles[y][x].cost > trial_cost && tiles[y][x].v == TRUE) || tiles[y][x].v == FALSE) {
tiles[y][x].cost = tc + h_calc(hard);
tiles[y][x].v = TRUE;
binheap_insert(&h, (void *) &tiles[y][x]);
}
}
}
}
}
/* copy the heatmap to the dungeon */
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
dungeon->cst[i][j] = tiles[i][j].cost;
}
}
/* clean up the heap */
binheap_delete(&h);
}
/* djikstra's take 2 */
void map_dungeon_nont(Dungeon * dungeon) {
binheap_t h;
//Tile_Node tiles[dungeon->h][dungeon->w];
//printf("h=%d w=%d tile_node size=%d\n", dungeon->h, dungeon->w, sizeof(Tile_Node));
Tile_Node **tiles = calloc(dungeon->h, sizeof (Tile_Node*));
int i;
for(i = 0; i < dungeon->h; i++)
tiles[i] = calloc(dungeon->w, sizeof (Tile_Node));
binheap_init(&h, compare_int, NULL);
/* starts from top left */
int xs[8] = {-1,0,1,1,1,0,-1,-1};
int ys[8] = {-1,-1,-1,0,1,1,1,0};
int j;
/* set all indices and insert the default values */
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
//printf("i=%d j=%d\n", i, j);
tiles[i][j].y = i;
tiles[i][j].x = j;
tiles[i][j].cost = INT_MAX;
tiles[i][j].v = FALSE;
}
}
/* set the player's cost as 0: */
int px = dungeon->ss[dungeon->pc].p.x;
int py = dungeon->ss[dungeon->pc].p.y;
tiles[py][px].cost = 0;
tiles[py][px].v = TRUE;
binheap_insert(&h, &tiles[py][px]);
/* primary cost calculation logic */
binheap_node_t *p;
while((p = binheap_remove_min(&h))) {
int hx = ((Tile_Node *) p)->x;
int hy = ((Tile_Node *) p)->y;
int tc = ((Tile_Node *) p)->cost;
int i;
for(i = 0; i < 8; i++) {
int x = hx + xs[i];
int y = hy + ys[i];
if(x > 0 && x < dungeon->w-1 && y > 0 && y < dungeon->h-1) {
int hard = dungeon->d[y][x].h;
if(hard == 0) {
int trial_cost = tc + h_calc(hard);
if((tiles[y][x].cost > trial_cost && tiles[y][x].v == TRUE) || tiles[y][x].v == FALSE) {
tiles[y][x].cost = tc + h_calc(hard);
tiles[y][x].v = TRUE;
binheap_insert(&h, (void *) &tiles[y][x]);
}
}
}
}
}
/* copy the heatmap to the dungeon */
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
dungeon->csnt[i][j] = tiles[i][j].cost;
}
}
/* clean up the heap */
binheap_delete(&h);
}
/* reads from a dungeon file */
void read_dungeon(Dungeon * dungeon, char * path) {
FILE * file;
file = fopen(path, "rb+");
if(file == NULL) {
fprintf(stderr, "FILE ERROR: Could not open dungeon file at %s! read_dungeon()\n", path);
exit(1);
}
/* read the file-type marker */
fseek(file, 0, SEEK_SET);
char marker[6];
fread(marker, 1, 6, file);
/* read the file version marker */
fseek(file, 6, SEEK_SET);
uint32_t file_version;
uint32_t file_version_be;
fread(&file_version_be, sizeof(uint32_t), 1, file);
// endian is miss
//file_version = be32toh(file_version_be);
dungeon->v = file_version;
/* read the size of file */
fseek(file, 10, SEEK_SET);
uint32_t size;
uint32_t size_be;
fread(&size_be, sizeof(uint32_t), 1, file);
//size = be32toh(size_be);
size = size_be;
dungeon->s = size;
/* read the hardness values in */
fseek(file, 14, SEEK_SET);
int i;
int j;
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
int h;
int8_t h_8;
fread(&h_8, sizeof(int8_t), 1, file);
h = (int) h_8;
dungeon->d[i][j].h = h;
}
}
/* read in rooms in dungeon */
fseek(file, 1694, SEEK_SET);
/* might want to make this just counted in 4's by the loop below, but w/e, math, amirite? */
int room_i = 0;
int room_count = (size - 1693) / 4;
dungeon->nr = room_count;
dungeon->r = calloc(room_count, sizeof(Room));
/* could probably be replaced with a getpos() call for complete-ness */
int pos;
for(pos = 1694; pos < size; pos += 4) {
int x_8;
int w_8;
int y_8;
int h_8;
fread(&x_8, sizeof(int8_t), 1, file);
fread(&w_8, sizeof(int8_t), 1, file);
fread(&y_8, sizeof(int8_t), 1, file);
fread(&h_8, sizeof(int8_t), 1, file);
dungeon->r[room_i].tl.x = (int8_t) x_8;
dungeon->r[room_i].w = (int8_t) w_8;
dungeon->r[room_i].tl.y = (int8_t) y_8;
dungeon->r[room_i].h = (int8_t) h_8;
dungeon->r[room_i].br.x = ((int8_t) x_8) + dungeon->r[room_i].w-1;
dungeon->r[room_i].br.y = ((int8_t) y_8) + dungeon->r[room_i].h-1;
room_i++;
}
/* populate the rooms and corridors if not in rooms */
/* add rooms to the dungeon buffer */
int h;
for(h = 0; h < dungeon->nr; h++) {
for(i = dungeon->r[h].tl.y; i < dungeon->r[h].br.y+1; i++) {
for(j = dungeon->r[h].tl.x; j < dungeon->r[h].br.x+1; j++) {
dungeon->d[i][j].c = '.';
}
}
}
/* add corridors to the dungeon buffer */
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
if(dungeon->d[i][j].c != '.' && dungeon->d[i][j].h == 0) {
dungeon->d[i][j].c = '#';
dungeon->d[i][j].p = 1;
}
}
}
fclose(file);
}
/* writes the dungeon file to ~/.rlg327/dungeon */
void write_dungeon(Dungeon * dungeon, char * path) {
FILE * file;
/* folder creation logic */
char * env_home = getenv("HOME");
char * fdir_path;
fdir_path = calloc(strlen(env_home) + 9, sizeof(char));
strcpy(fdir_path, env_home);
strcat(fdir_path, "/.rlg327");
mkdir(fdir_path, S_IRWXU);
/* mkdir will return -1 when it fails, but it will fail if the file exists so it doesn't especially matter to catch it as no output would be provided */
file = fopen(path, "wb+");
if(file == NULL) {
fprintf(stderr, "FILE ERROR: Could not open dungeon file at %s! write_dungeon()\n", path);
exit(1);
}
/* write the file-type marker */
fseek(file, 0, SEEK_SET);
char marker[7];
strcpy(marker, "RLG327");
fwrite(marker, sizeof(char), 6, file);
/* write the file version marker */
fseek(file, 6, SEEK_SET);
uint32_t file_version = 0;
//uint32_t file_version_be = htobe32(file_version);
uint32_t file_version_be = file_version;
fwrite(&file_version_be, sizeof(uint32_t), 1, file);
/* write the size of the file ;; unsure how to properly calculate */
fseek(file, 10, SEEK_SET);
uint32_t size = 1693 + (4 * dungeon->nr);
//uint32_t size_be = htobe32(size);
uint32_t size_be = size;
fwrite(&size_be, sizeof(uint32_t), 1, file);
/* row-major dungeon matrix */
fseek(file, 14, SEEK_SET);
int pos = 14;
int i;
int j;
for(i = 0; i < dungeon->h; i++) {
for(j = 0; j < dungeon->w; j++) {
fseek(file, pos, SEEK_SET);
int8_t h;
h = (int8_t)(dungeon->d[i][j].h);
fwrite(&h, sizeof(int8_t), 1, file);
pos++;
}
}
/* room positions ;; 4 bytes per room */
fseek(file, 1694, SEEK_SET);
for(i = 0; i < dungeon->nr; i++) {
int8_t x = (int8_t) dungeon->r[i].tl.x;
int8_t w = (int8_t) dungeon->r[i].w;
int8_t y = (int8_t) dungeon->r[i].tl.y;
int8_t h = (int8_t) dungeon->r[i].h;
fwrite(&x, sizeof(int8_t), 1, file);
fwrite(&w, sizeof(int8_t), 1, file);
fwrite(&y, sizeof(int8_t), 1, file);
fwrite(&h, sizeof(int8_t), 1, file);
}
free(fdir_path);
fclose(file);
}
/* parses commandline arguments */
void test_args(int argc, char ** argv, int this, int * s, int * l, int *p, int *cp, int *nm, int *nnc) {
if(strcmp(argv[this], "--save") == 0) {
*s = TRUE;
} else if(strcmp(argv[this], "--load") == 0) {
*l = TRUE;
} else if(strcmp(argv[this], "-f") == 0) {
*p = TRUE;
*cp = this+1;
if(this+1 > argc-1) {
printf("Invalid filename argument!\n");
*p = FALSE;
}
} else if(strcmp(argv[this], "--nummon") == 0) {
*nm = atoi(argv[this+1]);
} else if(strcmp(argv[this], "--no-ncurses") == 0) {
*nnc = TRUE;
}
}
/* monster list view */
void monster_list(Dungeon * dungeon) {
clear();
/* monster view array and population */
//char mons [dungeon->ns-1][30];
char **mons = calloc(dungeon->ns-1, sizeof(char*));
int i;
for(i = 0; i < dungeon->ns-1; i++)
mons[i] = calloc(30, sizeof(char));
for(i = 1; i < dungeon->ns; i++) {
char ns[6];
char ew[5];
int hd = dungeon->ss[0].p.y - dungeon->ss[i].p.y;
int wd = dungeon->ss[0].p.x - dungeon->ss[i].p.x;
if(hd > 0)
strcpy(ns, "north");
else
strcpy(ns, "south");
if(wd > 0)
strcpy(ew, "west");
else
strcpy(ew, "east");
sprintf(mons[i-1], "%c, %2d %s and %2d %s", dungeon->ss[i].c, abs(hd), ns, abs(wd), ew);
}
/* secondary window */
WINDOW *w;
w = newwin(24, 80, 0, 0);
Bool scroll = FALSE;
int top = 0;
int bot;
if(24 < dungeon->ns -1) {
scroll = TRUE;
bot = 23;
} else {
bot = dungeon->ns -2;
}
int j;
for(;;) {
/* put the monster view to the screen */
for(i = top, j = 0; i < dungeon->ns -1 && i <= bot && j < 24; i++, j++) {
mvprintw(j, 0, mons[i]);
}
/* handle user interaction */
MLV: ;
int32_t k;
k = getch();
switch(k) {
case KEY_UP:
/* scroll up */
if(scroll == FALSE)
goto MLV;
if(top-1 >= 0) {
top--;
bot--;
}
clear();
break;
case KEY_DOWN:
/* scroll down */
if(scroll == FALSE)
goto MLV;
if(bot+1 < dungeon->ns-1) {
bot++;
top++;
}
clear();
break;
case 27:
/* ESC */
return;
break;
default:
goto MLV;
}
wrefresh(w);
}
delwin(w);
print_dungeon(dungeon, 0, 0);
}
/* processes pc movements ;; validity checking is in monsters.c's gen_move_sprite() */
void parse_pc(Dungeon * dungeon, Bool * run, Bool * regen) {
GCH: ;
int32_t k;
k = getch();
if(k == 'Q') {
*run = FALSE;
return;
}
switch(k) {
case 'h':
H: ;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x - 1;
break;
case '4':
goto H;
case 'l':
L: ;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x + 1;
break;
case '6':
goto L;
case 'k':
K: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y - 1;
break;
case '8':
goto K;
case 'j':
J: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y + 1;
break;
case '2':
goto J;
case 'y':
Y: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y - 1;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x - 1;
break;
case '7':
goto Y;
case 'u':
U: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y - 1;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x + 1;
break;
case '9':
goto U;
case 'n':
N: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y + 1;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x + 1;
break;
case '3':
goto N;
case 'b':
B: ;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y + 1;
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x - 1;
break;
case '1':
goto B;
case '<':
/* stair up */
if(dungeon->ss[0].p.x == dungeon->su.x && dungeon->ss[0].p.y == dungeon->su.y)
*regen = TRUE;
break;
case '>':
/* stair down */
if(dungeon->ss[0].p.x == dungeon->sd.x && dungeon->ss[0].p.y == dungeon->sd.y)
*regen = TRUE;
break;
case '5':
break;
case ' ':
break;
case 'm':
monster_list(dungeon);
print_dungeon(dungeon, 0, 0);
goto GCH;
default:
goto GCH;
}
/* movement validity check */
if(dungeon->d[dungeon->ss[dungeon->pc].to.y][dungeon->ss[dungeon->pc].to.x].h > 0) {
dungeon->ss[dungeon->pc].to.x = dungeon->ss[dungeon->pc].p.x;
dungeon->ss[dungeon->pc].to.y = dungeon->ss[dungeon->pc].p.y;
} else {
dungeon->ss[dungeon->pc].p.x = dungeon->ss[dungeon->pc].to.x;
dungeon->ss[dungeon->pc].p.y = dungeon->ss[dungeon->pc].to.y;
}
dungeon->ss[0].t += (100 / dungeon->ss[0].s.s);
/* check for killing an NPC */
int sn = 0;
int i;
for(i = 1; i < dungeon->ns; i++) {
if(i != sn) {
if((dungeon->ss[i].to.x == dungeon->ss[sn].to.x) && (dungeon->ss[i].to.y == dungeon->ss[sn].to.y) && dungeon->ss[sn].a == TRUE)
dungeon->ss[i].a = FALSE;
}
}
}
/* Basic procedural dungeon generator */
int main(int argc, char * argv[]) {
/*** process commandline arguments ***/
int max_args = 8;
int saving = FALSE;
int loading = FALSE;
int pathing = FALSE;
int nnc = FALSE;
int num_mon = 1;
int custom_path = 0;
if(argc > 2 && argc <= max_args) {
/* both --save and --load */
int i;
for(i = 1; i < argc; i++) {
test_args(argc, argv, i, &saving, &loading, &pathing, &custom_path, &num_mon, &nnc);
}
} else if(argc == 2) {
/* one arg */
test_args(argc, argv, 1, &saving, &loading, &pathing, &custom_path, &num_mon, &nnc);
} else if(argc > max_args) {
/* more than 2 commandline arguments, argv[0] is gratuitous */
printf("Too many arguments!\n");
} else {
/* other; most likely 0 */
}
/*** end processing commandline arguments ***/
/* init the dungeon with default dungeon size and a max of 12 rooms */
srand(time(NULL));
/* create 2 char pointers so as not to pollute the original HOME variable */
char * env_path = getenv("home");
if(env_path == NULL)
env_path = "/usr/seh/";
/* char * path = calloc(strlen(env_path) + 17, sizeof(char)); */
char * path = calloc(strlen(env_path) + 50, sizeof(char));
strcpy(path, env_path);
strcat(path, "/.rlg327");
if(pathing == TRUE) {
strcat(path, "/");
strcat(path, argv[custom_path]);
} else {
strcat(path, "/dungeon");
}
/* persistent player character */
Bool regen = FALSE;
Sprite p_pc;
/*** dungeon generation starts here ***/
DUNGEN: ;
Dungeon *dungeon = init_dungeon(21, 80, 12);
if(loading == FALSE) {
gen_dungeon(dungeon);
gen_corridors(dungeon);
} else {
read_dungeon(dungeon, path);
}
/*** dungeon is fully initiated ***/
Sprite pc = gen_sprite(dungeon, '@', -1, -1, 1);
add_sprite(dungeon, pc);
int i;
for(i = 0; i < num_mon; i++) {
Sprite m = gen_sprite(dungeon,'m' , -1, -1, 1);
m.sn = i;
add_sprite(dungeon, m);
}
map_dungeon_nont(dungeon);
map_dungeon_t(dungeon);
/*** dungeon is fully generated ***/
//binheap_t h;
//binheap_init(&h, compare_move, NULL);
/* main loop */
//Event nexts[dungeon->ns]
if(regen == TRUE) {
int px = dungeon->ss[0].p.x;
int py = dungeon->ss[0].p.y;
dungeon->ss[0] = p_pc;
dungeon->ss[0].p.x = px;
dungeon->ss[0].p.y = py;
dungeon->ss[0].to.x = px;
dungeon->ss[0].to.y = py;
}
for(i = 1; i < dungeon->ns; i++) {
gen_move_sprite(dungeon, i);
//nexts[i] = next;
}
if(regen == TRUE)
goto PNC;
/* ncurses or not ;; this will likely amount to nothing */
void (*printer)(Dungeon*, int, int);
if(nnc == FALSE) {
printer = &print_dungeon;
initscr();
raw();
noecho();
curs_set(0);
set_escdelay(25);
keypad(stdscr, TRUE);
} else {
printer = &print_dungeon_nnc;
}
PNC: ;
regen = FALSE;
print_dungeon(dungeon, 0, 0);
Bool first = TRUE;
Bool run = TRUE;
while(run == TRUE) {
//int32_t key;
//key = getch();
int l = 0;
for(i = 0; i < dungeon->ns; i++) {
if(dungeon->ss[i].t < dungeon->ss[l].t) {
l = i;
}
}
if(l == dungeon->pc || first == TRUE) {
parse_pc(dungeon, &run, ®en);
if(regen == TRUE) {
p_pc = dungeon->ss[0];
goto DUNFREE;
}
//gen_move_sprite(dungeon, l);
map_dungeon_nont(dungeon);
map_dungeon_t(dungeon);
int sn = 0;
for(i = 1; i < dungeon->ns; i++) {
if(i != sn) {
if((dungeon->ss[i].p.x == dungeon->ss[sn].p.x) && (dungeon->ss[i].p.y == dungeon->ss[sn].p.y) && dungeon->ss[sn].a == TRUE)
dungeon->ss[i].a = FALSE;
}
}
print_dungeon(dungeon, 0, 0);
} else {
parse_move(dungeon, l);
gen_move_sprite(dungeon, l);
}
//print_dungeon(dungeon, 1, 0); /* prints non-tunneling dijkstra's */
//print_dungeon(dungeon, 0, 1); /* prints tunneling dijkstra's */
//clear();
refresh();
/** --- game over sequence checking --- **/
/* note: this will stop the game before the new world gets drawn since the monster will move to the player and thus kill him */
if(dungeon->go == TRUE || dungeon->ss[dungeon->pc].a == FALSE)
break;
Bool any = check_any_monsters(dungeon);
if(any == FALSE) {
//printf("You win!\n");
goto END;
}
first = FALSE;
}
printer(dungeon, 0, 0);
//printf("Game Over!\n");
/*** tear down sequence ***/
//binheap_delete(&h);
END: ;
delwin(stdscr);
endwin();
if(saving == TRUE) {
write_dungeon(dungeon, path);
}
DUNFREE: ;
/* free our arrays */
for(i = 0; i < dungeon->h; i++) {
free(dungeon->d[i]);
}
free(dungeon->d);
for(i = 0; i < dungeon->h; i++) {
free(dungeon->p[i]);
}
free(dungeon->p);
free(dungeon->r);
free(dungeon->ss);
for(i = 0; i < dungeon->h; i++) {
free(dungeon->csnt[i]);
}
free(dungeon->csnt);
for(i = 0; i < dungeon->h; i++) {
free(dungeon->cst[i]);
}
free(dungeon->cst);
if(regen == TRUE)
goto DUNGEN;
free(path);
return 0;
}