[ViewVC] Diff of: cvs/deliantra/server/random

Comparing deliantra/server/random_maps/layout.C (file contents):
Revision 1.8 by root, Fri Jul 2 15:43:37 2010 UTC vs.
Revision 1.26 by root, Tue Jul 6 20:00:46 2010 UTC

…		…
23		23
24	#include <global.h>	24	#include <global.h>
25	#include <random_map.h>	25	#include <random_map.h>
26	#include <rproto.h>	26	#include <rproto.h>
27		27
		28	void noinline
28	layout::layout (int w, int h)	29	layout::alloc (int w, int h)
29	: w(w), h(h)
30	{	30	{
31	assert (sizeof (cell) == 1);	31	assert (sizeof (cell) == 1);
		32
		33	this->w = w;
		34	this->h = h;
32		35
33	// we store the layout in a single contiguous memory layout	36	// we store the layout in a single contiguous memory layout
34	// first part consists of pointers to each column, followed	37	// first part consists of pointers to each column, followed
35	// by the actual columns (not rows!)	38	// by the actual columns (not rows!)
36	int size = (sizeof (cell ) + sizeof (cell) h) * w;	39	size = (sizeof (cell ) + sizeof (cell) h) * w;
37
38	data = (cell **)salloc<char> (size);	40	data = (cell **)salloc<char> (size);
39		41
40	cell p = (cell )(data + w);	42	cell p = (cell )(data + w);
41		43
42	for (int x = w; x--; )	44	for (int x = 0; x < w; ++x)
43	data [x] = p + x * h;	45	data [x] = p + x * h;
44	}	46	}
45		47
		48	layout::layout (int w, int h)
		49	{
		50	alloc (w, h);
		51	}
		52
		53	layout::layout (layout &copy)
		54	{
		55	alloc (copy.w, copy.h);
		56
		57	memcpy (data [0], copy.data [0], sizeof (cell) * h * w);
		58	}
		59
		60	layout::layout (layout &orig, int x1, int y1, int x2, int y2)
		61	{
		62	w = x2 - x1;
		63	h = y2 - y1;
		64
		65	// we only allocate space for the pointers
		66	size = sizeof (cell ) w;
		67	data = (cell **)salloc<char> (size);
		68
		69	// and now we point back into the original layout
		70	for (int x = 0; x < w; ++x)
		71	data [x] = orig.data [x + x1] + y1;
		72	}
		73
46	layout::~layout ()	74	layout::~layout ()
47	{	75	{
48	int size = (sizeof (cell ) + sizeof (cell) h) * w;
49
50	sfree ((char *)data, size);	76	sfree ((char *)data, size);
51	}	77	}
52		78
53	void	79	void noinline
54	layout::fill (char fill)	80	layout::fill (char fill)
55	{	81	{
56	memset (data [0], fill, w * h);	82	//memset (data [0], fill, w * h); // only when contiguous :/
		83	fill_rect (0, 0, w, h, fill);
57	}	84	}
58		85
59	void	86	void noinline
		87	layout::replace (char from, char to)
		88	{
		89	for (int x = 0; x < w; ++x)
		90	for (int y = 0; y < h; ++y)
		91	if (data [x][y] == from)
		92	data [x][y] = to;
		93	}
		94
		95	void noinline
60	layout::rect (int x1, int y1, int x2, int y2, char fill)	96	layout::rect (int x1, int y1, int x2, int y2, char fill)
		97	{
		98	--x2;
		99
		100	memset (data [x1] + y1, fill, y2 - y1);
		101	memset (data [x2] + y1, fill, y2 - y1);
		102
		103	while (++x1 < x2)
		104	data [x1][y1] = data [x1][y2 - 1] = fill;
		105	}
		106
		107	void noinline
		108	layout::fill_rect (int x1, int y1, int x2, int y2, char fill)
61	{	109	{
62	for (; x1 < x2; ++x1)	110	for (; x1 < x2; ++x1)
63	memset (data [x1] + y1, fill, y2 - y1);	111	memset (data [x1] + y1, fill, y2 - y1);
64	}	112	}
65		113
66	void layout::border (char fill)
67	{
68	for (int i = 0; i < w; i++) data [i][0] = data [i][h - 1] = fill;
69	for (int j = 0; j < h; j++) data [0][j] = data [w - 1][j] = fill;
70	}
71
72	void	114	void
		115	layout::border (char fill)
		116	{
		117	rect (0, 0, w, h, fill);
		118	}
		119
		120	void noinline
73	layout::fill_rand (int percent)	121	layout::fill_rand (int percent)
74	{	122	{
75	percent = lerp (percent, 0, 100, 0, 256);	123	percent = lerp (percent, 0, 100, 0, 256);
76		124
77	for (int x = w - 1; --x > 0; )	125	for (int x = 0; x < w; ++x)
78	for (int y = h - 1; --y > 0; )	126	for (int y = 0; y < h; ++y)
79	data [x][y] = rmg_rndm (256) > percent ? 0 : '#';	127	data [x][y] = rmg_rndm (256) > percent ? 0 : '#';
80	}	128	}
81		129
82	/////////////////////////////////////////////////////////////////////////////	130	/////////////////////////////////////////////////////////////////////////////
83		131
84	// erode by cellular automata	132	// erode by cellular automata
85	void	133	void noinline
86	layout::erode_1_2 (int c1, int c2, int repeat)	134	layout::erode_1_2 (int c1, int c2, int repeat)
87	{	135	{
88	layout neu (w, h);	136	layout neu (w, h);
89		137
90	while (repeat--)	138	while (repeat--)
…		…
156	/////////////////////////////////////////////////////////////////////////////	204	/////////////////////////////////////////////////////////////////////////////
157	// isolation remover - ensures single connected area	205	// isolation remover - ensures single connected area
158		206
159	typedef fixed_stack<point> pointlist;	207	typedef fixed_stack<point> pointlist;
160		208
161	static noinline void	209	static void noinline
162	push_flood_fill (layout &dist, pointlist &seeds, int x, int y)	210	push_flood_fill (layout &dist, pointlist &seeds, int x, int y)
163	{	211	{
164	if (dist [x][y])	212	if (dist [x][y])
165	return;	213	return;
166		214
…		…
177	++y;	225	++y;
178	}	226	}
179		227
180	while (--y >= y0)	228	while (--y >= y0)
181	{	229	{
182	if (x > 0) push_flood_fill (dist, seeds, x - 1, y);	230	if (x > 0 && !dist [x - 1][y]) push_flood_fill (dist, seeds, x - 1, y);
183	if (x < dist.w - 1) push_flood_fill (dist, seeds, x + 1, y);	231	if (x < dist.w - 1 && !dist [x + 1][y]) push_flood_fill (dist, seeds, x + 1, y);
184	}	232	}
185	}	233	}
186		234
187	static inline void	235	static void inline
188	make_tunnel (layout &dist, pointlist &seeds, int x, int y, U8 d)	236	make_tunnel (layout &dist, pointlist &seeds, int x, int y, U8 d, int perturb)
189	{	237	{
190	for (;;)	238	for (;;)
191	{	239	{
		240	point neigh[4];
		241	int ncnt = 0;
		242
		243	d += perturb > 1;
		244
192	if (x > 1 && U8 (dist [x - 1][y]) < d && dist [x - 1][y] > 1)	245	if (x > 0 && U8 (dist [x - 1][y]) < d && dist [x - 1][y] > 1) neigh [ncnt++] = point (x - 1, y);
193	--x;
194	else if (x < dist.w - 2 && U8 (dist [x + 1][y]) < d && dist [x + 1][y] > 1)	246	if (x < dist.w - 1 && U8 (dist [x + 1][y]) < d && dist [x + 1][y] > 1) neigh [ncnt++] = point (x + 1, y);
195	++x;
196	else if (y > 1 && U8 (dist [x][y - 1]) < d && dist [x][y - 1] > 1)	247	if (y > 0 && U8 (dist [x][y - 1]) < d && dist [x][y - 1] > 1) neigh [ncnt++] = point (x, y - 1);
197	--y;
198	else if (y < dist.h - 2 && U8 (dist [x][y + 1]) < d && dist [x][y + 1] > 1)	248	if (y < dist.h - 1 && U8 (dist [x][y + 1]) < d && dist [x][y + 1] > 1) neigh [ncnt++] = point (x, y + 1);
199	++y;	249
200	else	250	if (!ncnt)
201	break;	251	return;
		252
		253	point p = neigh [perturb ? rmg_rndm (ncnt) : 0];
		254
		255	seeds.push (p);
		256
		257	x = p.x;
		258	y = p.y;
202		259
203	d = dist [x][y];	260	d = dist [x][y];
204	dist [x][y] = 1;	261	dist [x][y] = 1;
205	seeds.push (point (x, y));
206	}	262	}
207	}	263	}
208		264
209	static void inline	265	static void inline
210	maybe_push (layout &dist, pointlist &seeds, int x, int y, U8 d)	266	maybe_push (layout &dist, pointlist &seeds, int x, int y, U8 d)
…		…
217	return;	273	return;
218		274
219	seeds.push (point (x, y));	275	seeds.push (point (x, y));
220	}	276	}
221		277
222	void	278	// isolation remover, works on a "distance" map
223	layout::isolation_remover (bool dirty)	279	// the map must be initialised with 0 == rooms, 255 = walls
		280	static void noinline
		281	isolation_remover (layout &dist, unsigned int perturb = 2)
224	{	282	{
225	layout dist (w, h);
226
227	// dist contains	283	// dist contains
228	// 0 == invisited rooms	284	// 0 == invisited rooms
229	// 1 == visited rooms	285	// 1 == visited rooms
230	// 2+ shortest distance to random near room	286	// 2+ shortest distance to random near room
231		287
232	// phase 1, initialise dist array, find seed	288	clamp_it (perturb, 0, 2);
		289
		290	// phase 1, find seed
233	int cnt = 0;	291	int cnt = 0;
234	int x, y;	292	int x, y;
235		293
236	for (int i = 0; i < w; ++i)	294	for (int i = 0; i < dist.w; ++i)
237	for (int j = 0; j < h; ++j)	295	for (int j = 0; j < dist.h; ++j)
238	{	296	if (!dist [i][j] && !rmg_rndm (++cnt))
239	if (data [i][j] == '#')
240	dist [i][j] = U8 (255);
241	else
242	{
243	dist [i][j] = 0;
244	if (!rmg_rndm (++cnt))
245	x = i, y = j;	297	x = i, y = j;
246	}
247	}
248		298
249	if (!cnt)	299	if (!cnt)
250	{	300	{
251	// map is completely massive, this is not good,	301	// map is completely massive, this is not good,
252	// so make it empty instead.	302	// so make it empty instead.
253	clear ();	303	dist.fill (1);
254	border ();
255	return;	304	return;
256	}	305	}
257		306
258	fixed_stack<point> seeds (w * h * 5);	307	fixed_stack<point> seeds (dist.w * dist.h * 5);
259		308
260	// found first free space - picking the first one gives	309	// found first free space - picking the first one gives
261	// us a slight bias for tunnels, but usually you won't	310	// us a slight bias for tunnels, but usually you won't
262	// notice that in-game	311	// notice that in-game
263	seeds.push (point (x, y));	312	seeds.push (point (x, y));
264		313
265	// phase 2, while we have seeds, if	314	// phase 2, while we have seeds, if
266	// seed is empty, floodfill, else grow	315	// seed is empty, floodfill, else grow
267		316
		317	int rem_index = 0; // used to remove "somewhat ordered"
		318
268	while (seeds.size)	319	while (seeds.size)
269	{	320	{
270	coroapi::cede_to_tick ();	321	coroapi::cede_to_tick ();
271		322
		323	int i = perturb
		324	? rmg_rndm (max (0, seeds.size - 8), seeds.size - 1)
		325	: rem_index ++ % seeds.size;
		326
272	point p = seeds.remove (rmg_rndm (seeds.size));	327	point p = seeds.remove (i);
273		328
274	x = p.x;	329	x = p.x;
275	y = p.y;	330	y = p.y;
276		331
277	if (!dist [x][y])	332	if (!dist [x][y])
278	{	333	{
279	// found new isolated area, make tunnel	334	// found new isolated area, make tunnel
280	if (!dirty)
281	push_flood_fill (dist, seeds, x, y);	335	push_flood_fill (dist, seeds, x, y);
282
283	make_tunnel (dist, seeds, x, y, 255);	336	make_tunnel (dist, seeds, x, y, 254, perturb);
284
285	if (dirty)
286	push_flood_fill (dist, seeds, x, y);
287	}	337	}
288	else	338	else
289	{	339	{
290	// nothing here, continue to expand	340	// nothing here, continue to expand
291	U8 d = U8 (dist [x][y]) + 1;	341	U8 d = U8 (dist [x][y]) + 1;
…		…
294	if (x > 0) maybe_push (dist, seeds, x - 1, y, d);	344	if (x > 0) maybe_push (dist, seeds, x - 1, y, d);
295	if (y < dist.h - 1) maybe_push (dist, seeds, x, y + 1, d);	345	if (y < dist.h - 1) maybe_push (dist, seeds, x, y + 1, d);
296	if (y > 0) maybe_push (dist, seeds, x, y - 1, d);	346	if (y > 0) maybe_push (dist, seeds, x, y - 1, d);
297	}	347	}
298	}	348	}
		349	}
		350
		351	void
		352	layout::isolation_remover (int perturb)
		353	{
		354	layout dist (w - 2, h - 2); // map without border
		355
		356	for (int x = 1; x < w - 1; ++x)
		357	for (int y = 1; y < h - 1; ++y)
		358	dist [x - 1][y - 1] = data [x][y] == '#' ? U8 (255) : 0;
		359
		360	::isolation_remover (dist, perturb);
299		361
300	// now copy the tunnels over	362	// now copy the tunnels over
301	for (int x = 0; x < w; ++x)	363	for (int x = 1; x < w - 1; ++x)
302	for (int y = 0; y < h; ++y)	364	for (int y = 1; y < h - 1; ++y)
303	if (data [x][y] == '#' && dist [x][y] == 1)	365	if (data [x][y] == '#' && dist [x - 1][y - 1] == 1)
304	data [x][y] = 0;	366	data [x][y] = 0;
305	}
306
307	/////////////////////////////////////////////////////////////////////////////
308
309	// inspired mostly by http://www.jimrandomh.org/misc/caves.txt
310	void
311	layout::gen_cave (int subtype)
312	{
313	switch (subtype)
314	{
315	// a rough cave
316	case 0:
317	fill_rand (rmg_rndm (80, 95));
318	break;
319
320	// corridors
321	case 1:
322	fill_rand (rmg_rndm (5, 40));
323	erode_1_2 (5, 2, 10);
324	erode_1_2 (5, -1, 10);
325	erode_1_2 (5, 2, 1);
326	break;
327
328	// somewhat open, roundish
329	case 2:
330	fill_rand (45);
331	erode_1_2 (5, 0, 5);
332	erode_1_2 (5, 1, 1);
333	break;
334
335	// wide open, some room-like structures
336	case 3:
337	fill_rand (45);
338	erode_1_2 (5, 2, 4);
339	erode_1_2 (5, -1, 3);
340	break;
341	}
342
343	border ();
344	isolation_remover ();
345	}	367	}
346		368
347	/////////////////////////////////////////////////////////////////////////////	369	/////////////////////////////////////////////////////////////////////////////
348		370
349	//+GPL	371	//+GPL
…		…
351	/* puts doors at appropriate locations in a maze. */	373	/* puts doors at appropriate locations in a maze. */
352	void	374	void
353	layout::doorify ()	375	layout::doorify ()
354	{	376	{
355	int ndoors = w * h / 60; /* reasonable number of doors. */	377	int ndoors = w * h / 60; /* reasonable number of doors. */
356	int doorlocs = 0; /* # of available doorlocations */
357		378
358	uint16 doorlist_x = salloc<uint16> (w h);	379	coroapi::cede_to_tick ();
359	uint16 doorlist_y = salloc<uint16> (w h);	380
		381	fixed_stack<point> doorloc (w * h);
360		382
361	/* make a list of possible door locations */	383	/* make a list of possible door locations */
362	for (int i = 1; i < w - 1; i++)	384	for (int i = 1; i < w - 1; i++)
363	for (int j = 1; j < h - 1; j++)	385	for (int j = 1; j < h - 1; j++)
364	{	386	{
365	int sindex = surround_flag (*this, i, j);	387	int sindex = surround_flag (*this, i, j);
366		388
367	if (sindex == 3 \|\| sindex == 12) /* these are possible door sindex */	389	if (sindex == 3 \|\| sindex == 12) /* these are possible door sindex */
368	{	390	doorloc.push (point (i, j));
369	doorlist_x [doorlocs] = i;
370	doorlist_y [doorlocs] = j;
371	doorlocs++;
372	}
373	}	391	}
374		392
375	while (ndoors > 0 && doorlocs > 0)	393	while (ndoors && doorloc.size)
376	{	394	{
377	int di = rmg_rndm (doorlocs);	395	point p = doorloc.remove (rmg_rndm (doorloc.size));
378	int i = doorlist_x [di];	396
379	int j = doorlist_y [di];
380	int sindex = surround_flag (*this, i, j);	397	int sindex = surround_flag (*this, p.x, p.y);
381		398
382	if (sindex == 3 \|\| sindex == 12) /* these are possible door sindex */	399	if (sindex == 3 \|\| sindex == 12) /* these are possible door sindex */
383	{	400	{
384	data [i][j] = 'D';	401	data [p.x][p.y] = 'D';
385	ndoors--;	402	--ndoors;
386	}	403	}
387
388	/* reduce the size of the list */
389	doorlocs--;
390	doorlist_x[di] = doorlist_x [doorlocs];
391	doorlist_y[di] = doorlist_y [doorlocs];
392	}	404	}
393
394	sfree (doorlist_x, w * h);
395	sfree (doorlist_y, w * h);
396	}	405	}
397		406
398	/* takes a map and makes it symmetric: adjusts Xsize and	407	/* takes a map and makes it symmetric: adjusts Xsize and
399	* Ysize to produce a symmetric map.	408	* Ysize to produce a symmetric map.
400	*/	409	*/
…		…
458	//-GPL	467	//-GPL
459		468
460	void	469	void
461	layout::rotate (int rotation)	470	layout::rotate (int rotation)
462	{	471	{
		472	coroapi::cede_to_tick ();
		473
463	switch (rotation & 3)	474	switch (rotation & 3)
464	{	475	{
465	case 2: /* a reflection */	476	case 2: /* a reflection */
466	{	477	{
467	layout new_layout (w, h);	478	layout new_layout (w, h);
…		…
619	{	630	{
620	layout new_layout (w * 2 - 1, h * 2 - 1);	631	layout new_layout (w * 2 - 1, h * 2 - 1);
621		632
622	new_layout.clear ();	633	new_layout.clear ();
623		634
		635	coroapi::cede_to_tick ();
		636
624	for (int i = 0; i < w; i++)	637	for (int i = 0; i < w; i++)
625	for (int j = 0; j < h; j++)	638	for (int j = 0; j < h; j++)
626	switch (data [i][j])	639	switch (data [i][j])
627	{	640	{
628	case '#': expand_wall (new_layout, i, j, *this); break;	641	case '#': expand_wall (new_layout, i, j, *this); break;
…		…
710		723
711	return -1;	724	return -1;
712	}	725	}
713		726
714	int	727	int
715	make_wall (char **maze, int x, int y, int dir)	728	make_wall (layout &maze, int x, int y, int dir)
716	{	729	{
717	maze[x][y] = 'D'; /* mark a door */	730	maze[x][y] = 'D'; /* mark a door */
718		731
719	switch (dir)	732	switch (dir)
720	{	733	{
…		…
737		750
738	void	751	void
739	layout::roomify ()	752	layout::roomify ()
740	{	753	{
741	int tries = w * h / 30;	754	int tries = w * h / 30;
		755
		756	coroapi::cede_to_tick ();
742		757
743	for (int ti = 0; ti < tries; ti++)	758	for (int ti = 0; ti < tries; ti++)
744	{	759	{
745	/* starting location for looking at creating a door */	760	/* starting location for looking at creating a door */
746	int dx = rmg_rndm (w);	761	int dx = rmg_rndm (w);
…		…
769	else	784	else
770	make_wall (*this, dx, dy, 1);	785	make_wall (*this, dx, dy, 1);
771	}	786	}
772	}	787	}
773		788
		789	//-GPL
		790
774	/////////////////////////////////////////////////////////////////////////////	791	/////////////////////////////////////////////////////////////////////////////
		792
		793	// inspired mostly by http://www.jimrandomh.org/misc/caves.txt
		794	void
		795	layout::gen_cave (int subtype)
		796	{
		797	switch (subtype)
		798	{
		799	// a rough cave
		800	case 0:
		801	fill_rand (rmg_rndm (85, 97));
		802	break;
		803
		804	// corridors
		805	case 1:
		806	fill_rand (rmg_rndm (5, 40));
		807	erode_1_2 (5, 2, 10);
		808	erode_1_2 (5, -1, 10);
		809	erode_1_2 (5, 2, 1);
		810	break;
		811
		812	// somewhat open, some room-like structures
		813	case 2:
		814	fill_rand (45);
		815	erode_1_2 (5, 2, 4);
		816	erode_1_2 (5, -1, 3);
		817	break;
		818
		819	// wide open, roundish
		820	case 3:
		821	fill_rand (45);
		822	erode_1_2 (5, 0, 5);
		823	erode_1_2 (5, 1, 1);
		824	break;
		825	}
		826
		827	border ();
		828	isolation_remover (1);
		829	}
		830
		831	void
		832	layout::gen_castle ()
		833	{
		834	fill ('#');
		835
		836	for (int n = w * h / 30 + 1; n--; )
		837	{
		838	int rw = rmg_rndm (6, 10);
		839	int rh = rmg_rndm (6, 10);
		840
		841	if (rw > w \|\| rh > h)
		842	continue;
		843
		844	int rx = rmg_rndm (0, w - rw);
		845	int ry = rmg_rndm (0, h - rh);
		846
		847	rect (rx, ry, rx + rw, ry + rh, '#');
		848	fill_rect (rx + 1, ry + 1, rx + rw - 1, ry + rh - 1, 0);
		849	}
		850
		851	border ();
		852	isolation_remover (0);
		853	}
		854
		855	static void
		856	gen_mixed_ (layout &maze, random_map_params *RP)
		857	{
		858	if (maze.w > maze.h && maze.w > 16)
		859	{
		860	int m = rmg_rndm (8, maze.w - 8);
		861
		862	layout m1 (maze, 0, 0, m , maze.h); gen_mixed_ (m1, RP);
		863	layout m2 (maze, m, 0, maze.w, maze.h); gen_mixed_ (m2, RP);
		864	}
		865	else if (maze.h > 16)
		866	{
		867	int m = rmg_rndm (8, maze.h - 8);
		868
		869	layout m1 (maze, 0, 0, maze.w, m ); gen_mixed_ (m1, RP);
		870	layout m2 (maze, 0, m, maze.w, maze.h); gen_mixed_ (m2, RP);
		871	}
		872	else
		873	{
		874	RP->map_layout_style = rmg_rndm (NROFLAYOUTS - 2) + 1;
		875
		876	if (RP->map_layout_style == LAYOUT_MULTIPLE)
		877	++RP->map_layout_style;
		878
		879	maze.generate (RP);
		880	}
		881
		882	coroapi::cede_to_tick ();
		883	}
		884
		885	// recursive subdivision with random sublayouts
		886	static void
		887	gen_mixed (layout &maze, random_map_params *RP)
		888	{
		889	random_map_params &rp = *new random_map_params (RP);
		890	gen_mixed_ (maze, &rp);
		891	delete &rp;
		892
		893	maze.border ();
		894
		895	// exits currently do not work so well, as they
		896	// are currently often found together, so nuke entrances
		897	maze.replace ('<', ' ');
		898
		899	maze.isolation_remover (0);
		900	}
		901
		902	//+GPL
775		903
776	/* function selects the maze function and gives it whatever	904	/* function selects the maze function and gives it whatever
777	arguments it needs. */	905	arguments it needs. */
778	void	906	void
779	layout::generate (random_map_params *RP)	907	layout::generate (random_map_params *RP)
…		…
839	if (rmg_rndm (2))	967	if (rmg_rndm (2))
840	doorify ();	968	doorify ();
841		969
842	break;	970	break;
843		971
		972	case LAYOUT_CASTLE:
		973	gen_castle ();
		974
		975	if (rmg_rndm (2))
		976	doorify ();
		977
		978	break;
		979
		980	case LAYOUT_MULTIPLE:
		981	gen_mixed (*this, RP);
		982	break;
		983
844	default:	984	default:
845	abort ();	985	abort ();
846	}	986	}
		987	}
847		988
848	/* rotate the maze randomly */	989	//-GPL
849	rotate (rmg_rndm (4));
850
851	symmetrize (RP->symmetry_used);
852		990
853	#if 0	991	#if 0
854	print ();//D	992	static void
855	#endif	993	gen_village (layout &maze)
		994	{
		995	maze.clear ();
		996	maze.border ();
856		997
857	if (RP->expand2x)	998	for (int n = maze.w * maze.h / 200 + 1; n--; )
858	expand2x ();	999	{
859	}	1000	int rw = rmg_rndm (6, 10);
		1001	int rh = rmg_rndm (6, 10);
860		1002
861	//-GPL	1003	int rx = rmg_rndm (2, maze.w - rw - 2);
		1004	int ry = rmg_rndm (2, maze.h - rh - 2);
862		1005
863	#if 0	1006	maze.rect (rx, ry, rx + rw, ry + rh, '#');
		1007	}
		1008
		1009	maze.border ();
		1010	maze.isolation_remover (2);
		1011	}
		1012
864	static struct demo	1013	static struct demo
865	{	1014	{
866	demo ()	1015	demo ()
867	{	1016	{
868	rmg_rndm.seed (time (0));	1017	rmg_rndm.seed (time (0));
		1018	extern void hack();hack ();
869		1019
870	for(int i=1;i<10;i)	1020	for(int i=1;i<100;i++)
871	{	1021	{
872	layout maze (10, 10);	1022	layout maze (40, 30);
873	maze.fill_rand (90);	1023	maze.fill_rand (99);
874	maze.border ();	1024	maze.border ();
875	maze.isolation_remover ();	1025	maze.isolation_remover (2);
876	maze.doorify ();
877	maze.symmetrize (rmg_rndm (2, 4));
878	maze.rotate (rmg_rndm (4));
879	maze.expand2x ();
880	maze.print ();	1026	maze.print ();
881	}	1027	}
882		1028
883	exit (1);	1029	exit (1);
884	}	1030	}

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Comparing deliantra/server/random_maps/layout.C (file contents): Revision 1.8 by root, Fri Jul 2 15:43:37 2010 UTC vs. Revision 1.26 by root, Tue Jul 6 20:00:46 2010 UTC

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Comparing deliantra/server/random_maps/layout.C (file contents):
Revision 1.8 by root, Fri Jul 2 15:43:37 2010 UTC vs.
Revision 1.26 by root, Tue Jul 6 20:00:46 2010 UTC