Source:SLASH'EM 0.0.7E7F2/mkmap.c

From NetHackWiki
Jump to navigation Jump to search

Below is the full text to mkmap.c from the source code of SLASH'EM 0.0.7E7F2. To link to a particular line, write [[Source:SLASH'EM 0.0.7E7F2/mkmap.c#line123]], for example.

Source code for vanilla NetHack is at Source code.


The NetHack General Public License applies to screenshots, source code and other content from NetHack.

This content was modified from the original NetHack source code distribution (by splitting up NetHack content between wiki pages, and possibly further editing). See the page history for a list of who changed it, and on what dates.

1.    /*	SCCS Id: @(#)mkmap.c	3.4	1996/05/23	*/
2.    /* Copyright (c) J. C. Collet, M. Stephenson and D. Cohrs, 1992   */
3.    /* NetHack may be freely redistributed.  See license for details. */
4.    
5.    #include "hack.h"
6.    #include "sp_lev.h"
7.    
8.    #define HEIGHT	(ROWNO - 1)
9.    #define WIDTH	(COLNO - 2)
10.   
11.   STATIC_DCL void FDECL(init_map,(SCHAR_P));
12.   STATIC_DCL void FDECL(init_fill,(SCHAR_P,SCHAR_P));
13.   STATIC_DCL schar FDECL(get_map,(int,int,SCHAR_P));
14.   STATIC_DCL void FDECL(pass_one,(SCHAR_P,SCHAR_P));
15.   STATIC_DCL void FDECL(pass_two,(SCHAR_P,SCHAR_P));
16.   STATIC_DCL void FDECL(pass_three,(SCHAR_P,SCHAR_P));
17.   STATIC_DCL void NDECL(wallify_map);
18.   STATIC_DCL void FDECL(join_map,(SCHAR_P,SCHAR_P));
19.   STATIC_DCL void FDECL(finish_map,(SCHAR_P,SCHAR_P,XCHAR_P,XCHAR_P));
20.   STATIC_DCL void FDECL(remove_room,(unsigned));
21.   void FDECL(mkmap, (lev_init *));
22.   
23.   char *new_locations;
24.   int min_rx, max_rx, min_ry, max_ry; /* rectangle bounds for regions */
25.   static int n_loc_filled;
26.   
27.   STATIC_OVL void
28.   init_map(bg_typ)
29.   	schar	bg_typ;
30.   {
31.   	register int i,j;
32.   
33.   	for(i=1; i<COLNO; i++)
34.   	    for(j=0; j<ROWNO; j++)
35.   		levl[i][j].typ = bg_typ;
36.   }
37.   
38.   STATIC_OVL void
39.   init_fill(bg_typ, fg_typ)
40.   	schar	bg_typ, fg_typ;
41.   {
42.   	register int i,j;
43.   	long limit, count;
44.   
45.   	limit = (WIDTH * HEIGHT * 2) / 5;
46.   	count = 0;
47.   	while(count < limit) {
48.   	    i = rn1(WIDTH-1, 2);
49.   	    j = rnd(HEIGHT-1);
50.   	    if (levl[i][j].typ == bg_typ) {
51.   		levl[i][j].typ = fg_typ;
52.   		count++;
53.   	    }
54.   	}
55.   }
56.   
57.   STATIC_OVL schar
58.   get_map(col,row, bg_typ)
59.   	int col,row;
60.   	schar	bg_typ;
61.   {
62.   	if (col <= 0 || row < 0 || col > WIDTH || row >= HEIGHT)
63.   		return bg_typ;
64.   	return levl[col][row].typ;
65.   }
66.   
67.   static int dirs[16] = {
68.       -1, -1 /**/, -1, 0 /**/, -1, 1 /**/,
69.        0, -1 /**/,              0, 1 /**/,
70.        1, -1 /**/,  1, 0 /**/,  1, 1};
71.   
72.   STATIC_OVL void
73.   pass_one(bg_typ, fg_typ)
74.   	schar	bg_typ, fg_typ;
75.   {
76.   	register int i,j;
77.   	short count, dr;
78.   
79.   	for(i=2; i<=WIDTH; i++)
80.   	    for(j=1; j<HEIGHT; j++) {
81.   		for(count=0, dr=0; dr < 8; dr++)
82.   		    if(get_map(i+dirs[dr*2], j+dirs[(dr*2)+1], bg_typ)
83.   								== fg_typ)
84.   			count++;
85.   
86.   		switch(count) {
87.   		  case 0 : /* death */
88.   		  case 1 :
89.   		  case 2:
90.   			  levl[i][j].typ = bg_typ;
91.   			  break;
92.   		  case 5:
93.   		  case 6:
94.   		  case 7:
95.   		  case 8:
96.   			  levl[i][j].typ = fg_typ;
97.   			  break;
98.   		  default:
99.   			  break;
100.  		  }
101.  	    }
102.  }
103.  
104.  #define new_loc(i,j)	*(new_locations+ ((j)*(WIDTH+1)) + (i))
105.  
106.  STATIC_OVL void
107.  pass_two(bg_typ, fg_typ)
108.  	schar	bg_typ, fg_typ;
109.  {
110.  	register int i,j;
111.  	short count, dr;
112.  
113.  	for(i=2; i<=WIDTH; i++)
114.  	    for(j=1; j<HEIGHT; j++) {
115.  		for(count=0, dr=0; dr < 8; dr++)
116.  		    if(get_map(i+dirs[dr*2], j+dirs[(dr*2)+1], bg_typ)
117.  								== fg_typ)
118.  			count++;
119.  		    if (count == 5)
120.  			new_loc(i,j) = bg_typ;
121.  		    else
122.  			new_loc(i,j) = get_map(i,j, bg_typ);
123.  	    }
124.  
125.  	for(i=2; i<=WIDTH; i++)
126.  	    for(j=1; j<HEIGHT; j++)
127.  		levl[i][j].typ = new_loc(i,j);
128.  }
129.  
130.  STATIC_OVL void
131.  pass_three(bg_typ, fg_typ)
132.  	schar	bg_typ, fg_typ;
133.  {
134.  	register int i,j;
135.  	short count, dr;
136.  
137.  	for(i=2; i<=WIDTH; i++)
138.  	    for(j=1; j<HEIGHT; j++) {
139.  		for(count=0, dr=0; dr < 8; dr++)
140.  		    if(get_map(i+dirs[dr*2], j+dirs[(dr*2)+1], bg_typ)
141.  								== fg_typ)
142.  			count++;
143.  		if (count < 3)
144.  		    new_loc(i,j) = bg_typ;
145.  		else
146.  		    new_loc(i,j) = get_map(i,j, bg_typ);
147.  	    }
148.  
149.  	for(i=2; i<=WIDTH; i++)
150.  	    for(j=1; j<HEIGHT; j++)
151.  		levl[i][j].typ = new_loc(i,j);
152.  }
153.  
154.  /*
155.   * use a flooding algorithm to find all locations that should
156.   * have the same rm number as the current location.
157.   * if anyroom is TRUE, use IS_ROOM to check room membership instead of
158.   * exactly matching levl[sx][sy].typ and walls are included as well.
159.   */
160.  void
161.  flood_fill_rm(sx, sy, rmno, lit, anyroom)
162.      int sx;
163.      register int sy;
164.      register int rmno;
165.      boolean lit;
166.      boolean anyroom;
167.  {
168.      register int i;
169.      int nx;
170.      schar fg_typ = levl[sx][sy].typ;
171.  
172.      /* back up to find leftmost uninitialized location */
173.      while (sx > 0 &&
174.  	  (anyroom ? IS_ROOM(levl[sx][sy].typ) : levl[sx][sy].typ == fg_typ) &&
175.  	  (int) levl[sx][sy].roomno != rmno)
176.  	sx--;
177.      sx++; /* compensate for extra decrement */
178.  
179.      /* assume sx,sy is valid */
180.      if(sx < min_rx) min_rx = sx;
181.      if(sy < min_ry) min_ry = sy;
182.  
183.      for(i=sx; i<=WIDTH && levl[i][sy].typ == fg_typ; i++) {
184.  	levl[i][sy].roomno = rmno;
185.  	levl[i][sy].lit = lit;
186.  	if(anyroom) {
187.  	    /* add walls to room as well */
188.  	    register int ii,jj;
189.  	    for(ii= (i == sx ? i-1 : i); ii <= i+1; ii++)
190.  		for(jj = sy-1; jj <= sy+1; jj++)
191.  		    if(isok(ii,jj) &&
192.  		       (IS_WALL(levl[ii][jj].typ) ||
193.  			IS_DOOR(levl[ii][jj].typ))) {
194.  			levl[ii][jj].edge = 1;
195.  			if(lit) levl[ii][jj].lit = lit;
196.  			if ((int) levl[ii][jj].roomno != rmno)
197.  			    levl[ii][jj].roomno = SHARED;
198.  		    }
199.  	}
200.  	n_loc_filled++;
201.      }
202.      nx = i;
203.  
204.      if(isok(sx,sy-1)) {
205.  	for(i=sx; i<nx; i++) {
206.  	    if(levl[i][sy-1].typ == fg_typ) {
207.  		if ((int) levl[i][sy-1].roomno != rmno)
208.  		    flood_fill_rm(i,sy-1,rmno,lit,anyroom);
209.  	    } else {
210.  		if((i>sx || isok(i-1,sy-1)) &&
211.  		      levl[i-1][sy-1].typ == fg_typ) {
212.  		    if ((int) levl[i-1][sy-1].roomno != rmno)
213.  			flood_fill_rm(i-1,sy-1,rmno,lit,anyroom);
214.  		}
215.  		if((i<nx-1 || isok(i+1,sy-1)) &&
216.  		      levl[i+1][sy-1].typ == fg_typ) {
217.  		    if ((int) levl[i+1][sy-1].roomno != rmno)
218.  			flood_fill_rm(i+1,sy-1,rmno,lit,anyroom);
219.  		}
220.  	    }
221.      }
222.      }
223.      if(isok(sx,sy+1)) {
224.  	for(i=sx; i<nx; i++) {
225.  	    if(levl[i][sy+1].typ == fg_typ) {
226.  		if ((int) levl[i][sy+1].roomno != rmno)
227.  		    flood_fill_rm(i,sy+1,rmno,lit,anyroom);
228.  	    } else {
229.  		if((i>sx || isok(i-1,sy+1)) &&
230.  		      levl[i-1][sy+1].typ == fg_typ) {
231.  		    if ((int) levl[i-1][sy+1].roomno != rmno)
232.  			flood_fill_rm(i-1,sy+1,rmno,lit,anyroom);
233.  		}
234.  		if((i<nx-1 || isok(i+1,sy+1)) &&
235.  		      levl[i+1][sy+1].typ == fg_typ) {
236.  		    if ((int) levl[i+1][sy+1].roomno != rmno)
237.  			flood_fill_rm(i+1,sy+1,rmno,lit,anyroom);
238.  		}
239.  	    }
240.      }
241.      }
242.      if(nx > max_rx) max_rx = nx - 1; /* nx is just past valid region */
243.      if(sy > max_ry) max_ry = sy;
244.  }
245.  
246.  /*
247.   *	If we have drawn a map without walls, this allows us to
248.   *	auto-magically wallify it.  Taken from lev_main.c.
249.   */
250.  STATIC_OVL void
251.  wallify_map()
252.  {
253.  
254.      int x, y, xx, yy;
255.  
256.      for(x = 1; x < COLNO; x++)
257.  	for(y = 0; y < ROWNO; y++)
258.  	    if(levl[x][y].typ == STONE) {
259.  		for(yy = y - 1; yy <= y+1; yy++)
260.  		    for(xx = x - 1; xx <= x+1; xx++)
261.  			if(isok(xx,yy) && levl[xx][yy].typ == ROOM) {
262.  			    if(yy != y)	levl[x][y].typ = HWALL;
263.  			    else	levl[x][y].typ = VWALL;
264.  			}
265.  	    }
266.  }
267.  
268.  STATIC_OVL void
269.  join_map(bg_typ, fg_typ)
270.  	schar	bg_typ, fg_typ;
271.  {
272.      register struct mkroom *croom, *croom2;
273.  
274.      register int i, j;
275.      int sx, sy;
276.      coord sm, em;
277.  
278.      /* first, use flood filling to find all of the regions that need joining */
279.      for(i=2; i<=WIDTH; i++)
280.  	for(j=1; j<HEIGHT; j++) {
281.  	    if(levl[i][j].typ == fg_typ && levl[i][j].roomno == NO_ROOM) {
282.  		min_rx = max_rx = i;
283.  		min_ry = max_ry = j;
284.  		n_loc_filled = 0;
285.  		flood_fill_rm(i,j,nroom+ROOMOFFSET,FALSE,FALSE);
286.  		if(n_loc_filled > 3) {
287.  		    add_room(min_rx, min_ry, max_rx, max_ry,
288.  			     FALSE, OROOM, TRUE);
289.  		    rooms[nroom-1].irregular = TRUE;
290.  		    if(nroom >= (MAXNROFROOMS*2))
291.  			goto joinm;
292.  		} else {
293.  		    /*
294.  		     * it's a tiny hole; erase it from the map to avoid
295.  		     * having the player end up here with no way out.
296.  		     */
297.  		    for(sx = min_rx; sx<=max_rx; sx++)
298.  			for(sy = min_ry; sy<=max_ry; sy++)
299.  			    if ((int) levl[sx][sy].roomno ==
300.  				    nroom + ROOMOFFSET) {
301.  				levl[sx][sy].typ = bg_typ;
302.  				levl[sx][sy].roomno = NO_ROOM;
303.  			    }
304.  		}
305.  	    }
306.  	}
307.  
308.  joinm:
309.      /*
310.       * Ok, now we can actually join the regions with fg_typ's.
311.       * The rooms are already sorted due to the previous loop,
312.       * so don't call sort_rooms(), which can screw up the roomno's
313.       * validity in the levl structure.
314.       */
315.      for(croom = &rooms[0], croom2 = croom + 1; croom2 < &rooms[nroom]; ) {
316.  	/* pick random starting and end locations for "corridor" */
317.  	if(!somexy(croom, &sm) || !somexy(croom2, &em)) {
318.  	    /* ack! -- the level is going to be busted */
319.  	    /* arbitrarily pick centers of both rooms and hope for the best */
320.  	    impossible("No start/end room loc in join_map.");
321.  	    sm.x = croom->lx + ((croom->hx - croom->lx) / 2);
322.  	    sm.y = croom->ly + ((croom->hy - croom->ly) / 2);
323.  	    em.x = croom2->lx + ((croom2->hx - croom2->lx) / 2);
324.  	    em.y = croom2->ly + ((croom2->hy - croom2->ly) / 2);
325.  	}
326.  
327.  	(void) dig_corridor(&sm, &em, FALSE, fg_typ, bg_typ);
328.  
329.  	/* choose next region to join */
330.  	/* only increment croom if croom and croom2 are non-overlapping */
331.  	if(croom2->lx > croom->hx ||
332.  	   ((croom2->ly > croom->hy || croom2->hy < croom->ly) && rn2(3))) {
333.  	    croom = croom2;
334.  	}
335.  	croom2++; /* always increment the next room */
336.      }
337.  }
338.  
339.  STATIC_OVL void
340.  finish_map(fg_typ, bg_typ, lit, walled)
341.  	schar	fg_typ, bg_typ;
342.  	boolean	lit, walled;
343.  {
344.  	int	i, j;
345.  
346.  	if(walled) wallify_map();
347.  
348.  	if(lit) {
349.  	    for(i=1; i<COLNO; i++)
350.  		for(j=0; j<ROWNO; j++)
351.  		    if((!IS_ROCK(fg_typ) && levl[i][j].typ == fg_typ) ||
352.  		       (!IS_ROCK(bg_typ) && levl[i][j].typ == bg_typ) ||
353.  		       (bg_typ == TREE && levl[i][j].typ == bg_typ) ||
354.  			(walled && IS_WALL(levl[i][j].typ)))
355.  			levl[i][j].lit = TRUE;
356.  	    for(i = 0; i < nroom; i++)
357.  		rooms[i].rlit = 1;
358.  	}
359.  	/* light lava even if everything's otherwise unlit */
360.  	for(i=1; i<COLNO; i++)
361.  	    for(j=0; j<ROWNO; j++)
362.  		if (levl[i][j].typ == LAVAPOOL)
363.  		    levl[i][j].lit = TRUE;
364.  }
365.  
366.  /*
367.   * When level processed by join_map is overlaid by a MAP, some rooms may no
368.   * longer be valid.  All rooms in the region lx <= x < hx, ly <= y < hy are
369.   * removed.  Rooms partially in the region are truncated.  This function
370.   * must be called before the REGIONs or ROOMs of the map are processed, or
371.   * those rooms will be removed as well.  Assumes roomno fields in the
372.   * region are already cleared, and roomno and irregular fields outside the
373.   * region are all set.
374.   */
375.  void
376.  remove_rooms(lx, ly, hx, hy)
377.      int lx, ly, hx, hy;
378.  {
379.      int i;
380.      struct mkroom *croom;
381.  
382.      for (i = nroom - 1; i >= 0; --i) {
383.  	croom = &rooms[i];
384.  	if (croom->hx < lx || croom->lx >= hx ||
385.  	    croom->hy < ly || croom->ly >= hy) continue; /* no overlap */
386.  
387.  	if (croom->lx < lx || croom->hx >= hx ||
388.  	    croom->ly < ly || croom->hy >= hy) { /* partial overlap */
389.  	    /* TODO: ensure remaining parts of room are still joined */
390.  
391.  	    if (!croom->irregular) impossible("regular room in joined map");
392.  	} else {
393.  	    /* total overlap, remove the room */
394.  	    remove_room((unsigned)i);
395.  	}
396.      }
397.  }
398.  
399.  /*
400.   * Remove roomno from the rooms array, decrementing nroom.  Also updates
401.   * all level roomno values of affected higher numbered rooms.  Assumes
402.   * level structure contents corresponding to roomno have already been reset.
403.   * Currently handles only the removal of rooms that have no subrooms.
404.   */
405.  STATIC_OVL void
406.  remove_room(roomno)
407.      unsigned roomno;
408.  {
409.      struct mkroom *croom = &rooms[roomno];
410.      struct mkroom *maxroom = &rooms[--nroom];
411.      int i, j;
412.      unsigned oroomno;
413.  
414.      if (croom != maxroom) {
415.  	/* since the order in the array only matters for making corridors,
416.  	 * copy the last room over the one being removed on the assumption
417.  	 * that corridors have already been dug. */
418.  	(void) memcpy((genericptr_t)croom, (genericptr_t)maxroom,
419.  			sizeof(struct mkroom));
420.   
421.  	/* since maxroom moved, update affected level roomno values */
422.  	oroomno = nroom + ROOMOFFSET;
423.  	roomno += ROOMOFFSET;
424.  	for (i = croom->lx; i <= croom->hx; ++i)
425.  	    for (j = croom->ly; j <= croom->hy; ++j) {
426.  		if (levl[i][j].roomno == oroomno)
427.  		    levl[i][j].roomno = roomno;
428.  	    }
429.      }
430.      maxroom->hx = -1;			/* just like add_room */
431.  }
432.  
433.  #define N_P1_ITER	1	/* tune map generation via this value */
434.  #define N_P2_ITER	1	/* tune map generation via this value */
435.  #define N_P3_ITER	2	/* tune map smoothing via this value */
436.  
437.  void
438.  mkmap(init_lev)
439.  	lev_init	*init_lev;
440.  {
441.  	schar	bg_typ = init_lev->bg,
442.  		fg_typ = init_lev->fg;
443.  	boolean smooth = init_lev->smoothed,
444.  		join = init_lev->joined;
445.  	xchar   lit = init_lev->lit,
446.  		walled = init_lev->walled;
447.  	int i;
448.  
449.  	if(lit < 0)
450.  	    lit = (rnd(1+abs(depth(&u.uz))) < 11 && rn2(77)) ? 1 : 0;
451.  
452.  	new_locations = (char *)alloc((WIDTH+1) * HEIGHT);
453.  
454.  	init_map(bg_typ);
455.  	init_fill(bg_typ, fg_typ);
456.  
457.  	for(i = 0; i < N_P1_ITER; i++)
458.  	    pass_one(bg_typ, fg_typ);
459.  
460.  	for(i = 0; i < N_P2_ITER; i++)
461.  	pass_two(bg_typ, fg_typ);
462.  
463.  	if(smooth)
464.  	    for(i = 0; i < N_P3_ITER; i++)
465.  		pass_three(bg_typ, fg_typ);
466.  
467.  	if(join)
468.  	    join_map(bg_typ, fg_typ);
469.  
470.  	finish_map(fg_typ, bg_typ, (boolean)lit, (boolean)walled);
471.  	/* a walled, joined level is cavernous, not mazelike -dlc */
472.  	if (walled && join) {
473.  	    level.flags.is_maze_lev = FALSE;
474.  	    level.flags.is_cavernous_lev = TRUE;
475.  	}
476.  	free(new_locations);
477.  }
478.  
479.  /*mkmap.c*/