[ViewVC] Diff of: cvs/deliantra/Deliantra-Client/Client.xs

Comparing deliantra/Deliantra-Client/Client.xs (file contents):
Revision 1.321 by root, Sun Nov 18 01:15:04 2018 UTC vs.
Revision 1.330 by root, Sun Nov 18 15:24:24 2018 UTC

…		…
15		15
16	#include "EXTERN.h"	16	#include "EXTERN.h"
17	#include "perl.h"	17	#include "perl.h"
18	#include "XSUB.h"	18	#include "XSUB.h"
19		19
		20	#include "flat_hash_map.hpp"
		21
20	#ifdef _WIN32	22	#ifdef _WIN32
21	# undef pipe	23	# undef pipe
22	// microsoft vs. C	24	// microsoft vs. C
23	# define sqrtf(x) sqrt(x)	25	# define sqrtf(x) sqrt(x)
24	# define atan2f(x,y) atan2(x,y)	26	# define atan2f(x,y) atan2(x,y)
25	# define M_PI 3.14159265f	27	# define M_PI 3.14159265f
26	#endif	28	#endif
27		29
28	#include <assert.h>	30	#include <cassert>
29	#include <math.h>	31	#include <cmath>
30	#include <string.h>	32	#include <cstring>
31	#include <stdio.h>	33	#include <cstdio>
32	#include <stdlib.h>	34	#include <cstdlib>
		35
		36	#include <utility>
		37	#include <bitset>
33		38
34	#define USE_RWOPS 1 // for SDL_mixer:LoadMUS_RW	39	#define USE_RWOPS 1 // for SDL_mixer:LoadMUS_RW
35		40
36	#include <SDL.h>	41	#include <SDL.h>
37	#include <SDL_thread.h>	42	#include <SDL_thread.h>
…		…
195	}	200	}
196		201
197	return 0;	202	return 0;
198	}	203	}
199		204
200	typedef struct cf_layout {	205	struct cf_layout {
201	PangoLayout *pl;	206	PangoLayout *pl;
202	float r, g, b, a; // default color for rgba mode	207	float r, g, b, a; // default color for rgba mode
203	int base_height;	208	int base_height;
204	DC__Font font;	209	DC__Font font;
205	rc_t *rc;	210	rc_t rc;
206	} *DC__Layout;	211	};
		212
		213	typedef cf_layout *DC__Layout;
207		214
208	static DC__Font default_font;	215	static DC__Font default_font;
209	static PangoContext *opengl_context;	216	static PangoContext *opengl_context;
210	static PangoFontMap *opengl_fontmap;	217	static PangoFontMap *opengl_fontmap;
211		218
…		…
252	}	259	}
253		260
254	typedef uint16_t tileid;	261	typedef uint16_t tileid;
255	typedef uint16_t faceid;	262	typedef uint16_t faceid;
256		263
257	typedef struct {	264	struct maptex
		265	{
258	GLuint name;	266	GLuint name;
259	int w, h;	267	int w, h;
260	float s, t;	268	float s, t;
261	uint8_t r, g, b, a;	269	uint8_t r, g, b, a;
262	tileid smoothtile;	270	tileid smoothtile;
263	uint8_t smoothlevel;	271	uint8_t smoothlevel;
264	uint8_t unused; /* set to zero on use */	272	uint8_t unused; /* set to zero on use */
265	} maptex;	273	};
266		274
267	typedef struct {	275	struct mapcell
		276	{
268	uint32_t player;	277	uint32_t player;
269	tileid tile[3];	278	tileid tile[3];
270	uint16_t darkness;	279	uint16_t darkness;
271	uint8_t stat_width, stat_hp, flags, smoothmax;	280	uint8_t stat_width, stat_hp, flags, smoothmax;
272	} mapcell;	281	};
273		282
274	typedef struct {	283	struct maprow
		284	{
275	int32_t c0, c1;	285	int32_t c0, c1;
276	mapcell *col;	286	mapcell *col;
277	} maprow;	287	};
278		288
279	typedef struct map {	289	struct mapgrid {
280	int x, y, w, h;	290	int x, y, w, h;
281	int ox, oy; /* offset to virtual global coordinate system */	291	int ox, oy; /* offset to virtual global coordinate system */
282	int faces; tileid *face2tile; // [faceid]	292	int faces; tileid *face2tile; // [faceid]
283	int texs; maptex *tex; // [tileid]	293	int texs; maptex *tex; // [tileid]
284		294
285	int32_t rows;	295	int32_t rows;
286	maprow *row;	296	maprow *row;
287	} *DC__Map;	297	};
288		298
289	static char *	299	typedef mapgrid *DC__Map;
		300
		301	template<typename T>
		302	static void
290	prepend (char *ptr, int sze, int inc)	303	prepend (T *&ptr, int sze, int inc)
291	{	304	{
292	char *p;	305	T *p;
293		306
294	New (0, p, sze + inc, char);	307	Newxz (p, sze + inc, T);
295	Zero (p, inc, char);
296	Move (ptr, p + inc, sze, char);	308	Move (ptr, p + inc, sze, T);
297	Safefree (ptr);	309	Safefree (ptr);
298		310
299	return p;	311	ptr = p;
300	}	312	}
301		313
302	static char *	314	template<typename T>
303	append (char *ptr, int sze, int inc)
304	{
305	Renew (ptr, sze + inc, char);
306	Zero (ptr + sze, inc, char);
307
308	return ptr;
309	}
310
311	#define Append(type,ptr,sze,inc) (ptr) = (type )append ((char )ptr, (sze) * sizeof (type), (inc) * sizeof (type))
312	#define Prepend(type,ptr,sze,inc) (ptr) = (type )prepend ((char )ptr, (sze) * sizeof (type), (inc) * sizeof (type))
313
314	static void	315	static void
		316	append (T *&ptr, int sze, int inc)
		317	{
		318	Renew (ptr, sze + inc, T);
		319	Zero (ptr + sze, inc, T);
		320	}
		321
		322	static void
315	need_facenum (struct map *self, faceid face)	323	need_facenum (struct mapgrid *self, faceid face)
316	{	324	{
317	while (self->faces <= face)	325	while (self->faces <= face)
318	{	326	{
319	Append (tileid, self->face2tile, self->faces, self->faces);	327	append (self->face2tile, self->faces, self->faces);
320	self->faces *= 2;	328	self->faces *= 2;
321	}	329	}
322	}	330	}
323		331
324	static void	332	static void
325	need_texid (struct map *self, int texid)	333	need_texid (struct mapgrid *self, int texid)
326	{	334	{
327	while (self->texs <= texid)	335	while (self->texs <= texid)
328	{	336	{
329	Append (maptex, self->tex, self->texs, self->texs);	337	append (self->tex, self->texs, self->texs);
330	self->texs *= 2;	338	self->texs *= 2;
331	}	339	}
332	}	340	}
333		341
334	static maprow *	342	static maprow *
335	map_get_row (DC__Map self, int y)	343	map_get_row (mapgrid *self, int y)
336	{	344	{
337	if (0 > y)	345	if (0 > y)
338	{	346	{
339	int extend = - y + MAP_EXTEND_Y;	347	int extend = - y + MAP_EXTEND_Y;
340	Prepend (maprow, self->row, self->rows, extend);	348	prepend (self->row, self->rows, extend);
341		349
342	self->rows += extend;	350	self->rows += extend;
343	self->y += extend;	351	self->y += extend;
344	y += extend;	352	y += extend;
345	}	353	}
346	else if (y >= self->rows)	354	else if (y >= self->rows)
347	{	355	{
348	int extend = y - self->rows + MAP_EXTEND_Y;	356	int extend = y - self->rows + MAP_EXTEND_Y;
349	Append (maprow, self->row, self->rows, extend);	357	append (self->row, self->rows, extend);
350	self->rows += extend;	358	self->rows += extend;
351	}	359	}
352		360
353	return self->row + y;	361	return self->row + y;
354	}	362	}
…		…
364	}	372	}
365		373
366	if (row->c0 > x)	374	if (row->c0 > x)
367	{	375	{
368	int extend = row->c0 - x + MAP_EXTEND_X;	376	int extend = row->c0 - x + MAP_EXTEND_X;
369	Prepend (mapcell, row->col, row->c1 - row->c0, extend);	377	prepend (row->col, row->c1 - row->c0, extend);
370	row->c0 -= extend;	378	row->c0 -= extend;
371	}	379	}
372	else if (x >= row->c1)	380	else if (x >= row->c1)
373	{	381	{
374	int extend = x - row->c1 + MAP_EXTEND_X;	382	int extend = x - row->c1 + MAP_EXTEND_X;
375	Append (mapcell, row->col, row->c1 - row->c0, extend);	383	append (row->col, row->c1 - row->c0, extend);
376	row->c1 += extend;	384	row->c1 += extend;
377	}	385	}
378		386
379	return row->col + (x - row->c0);	387	return row->col + (x - row->c0);
380	}	388	}
381		389
382	static mapcell *	390	static mapcell *
383	map_get_cell (DC__Map self, int x, int y)	391	map_get_cell (mapgrid *self, int x, int y)
384	{	392	{
385	return row_get_cell (map_get_row (self, y), x);	393	return row_get_cell (map_get_row (self, y), x);
386	}	394	}
387		395
388	static void	396	static void
389	map_clear (DC__Map self)	397	map_clear (mapgrid *self)
390	{	398	{
391	int r;	399	int r;
392		400
393	for (r = 0; r < self->rows; r++)	401	for (r = 0; r < self->rows; r++)
394	Safefree (self->row[r].col);	402	Safefree (self->row[r].col);
…		…
412	(cell)->flags = 0; \	420	(cell)->flags = 0; \
413	(cell)->player = 0; \	421	(cell)->player = 0; \
414	} while (0)	422	} while (0)
415		423
416	static void	424	static void
417	map_blank (DC__Map self, int x0, int y0, int w, int h)	425	map_blank (mapgrid *self, int x0, int y0, int w, int h)
418	{	426	{
419	int x, y;	427	int x, y;
420	maprow *row;	428	maprow *row;
421	mapcell *cell;	429	mapcell *cell;
422		430
…		…
439	CELL_CLEAR (cell);	447	CELL_CLEAR (cell);
440	}	448	}
441	}	449	}
442	}	450	}
443		451
444	typedef struct {	452	struct smooth_key
		453	{
445	tileid tile;	454	tileid tile;
446	uint8_t x, y, level;	455	uint8_t x, y, level;
447	} smooth_key;	456
		457	bool operator == (const smooth_key &o) const
		458	{
		459	return tile == o.tile && x == o.x && y == o.y && level == o.level;
		460	}
		461	};
		462
		463	typedef ska::flat_hash_map<smooth_key, IV> smooth_hash;
		464
		465	namespace std {
		466	template <>
		467	struct hash<smooth_key>
		468	{
		469	size_t operator () (const smooth_key &v) const
		470	{
		471	return v.tile + (v.x << 8) + (v.y << 16) + (v.level << 24);
		472	}
		473	};
		474	}
448		475
449	static void	476	static void
450	smooth_or_bits (HV hv, smooth_key key, IV bits)	477	smooth_or_bits (smooth_hash &h, smooth_key &key, IV bits)
451	{	478	{
452	SV *sv = hv_fetch (hv, (char )key, sizeof (*key), 1);	479	auto &&it = h.find (key);
453		480
454	if (SvIOK (*sv))	481	if (it == h.end ())
455	SvIV_set (sv, SvIVX (sv) \| bits);	482	h.insert (std::make_pair (key, bits));
456	else	483	else
457	sv_setiv (*sv, bits);	484	it->second \|= bits;
458	}	485	}
459		486
460	static void	487	static void
461	music_finished (void)	488	music_finished (void)
462	{	489	{
…		…
1338	tc_restore ();	1365	tc_restore ();
1339		1366
1340	DC::Layout	1367	DC::Layout
1341	new (SV *klass)	1368	new (SV *klass)
1342	CODE:	1369	CODE:
1343	New (0, RETVAL, 1, struct cf_layout);	1370	RETVAL = new cf_layout;
1344		1371
1345	RETVAL->pl = pango_layout_new (opengl_context);	1372	RETVAL->pl = pango_layout_new (opengl_context);
1346	RETVAL->r = 1.;	1373	RETVAL->r = 1.;
1347	RETVAL->g = 1.;	1374	RETVAL->g = 1.;
1348	RETVAL->b = 1.;	1375	RETVAL->b = 1.;
1349	RETVAL->a = 1.;	1376	RETVAL->a = 1.;
1350	RETVAL->base_height = MIN_FONT_HEIGHT;	1377	RETVAL->base_height = MIN_FONT_HEIGHT;
1351	RETVAL->font = 0;	1378	RETVAL->font = 0;
1352	RETVAL->rc = rc_alloc ();
1353		1379
1354	pango_layout_set_wrap (RETVAL->pl, PANGO_WRAP_WORD_CHAR);	1380	pango_layout_set_wrap (RETVAL->pl, PANGO_WRAP_WORD_CHAR);
1355	layout_update_font (RETVAL);	1381	layout_update_font (RETVAL);
1356	OUTPUT:	1382	OUTPUT:
1357	RETVAL	1383	RETVAL
1358		1384
1359	void	1385	void
1360	DESTROY (DC::Layout self)	1386	DESTROY (DC::Layout self)
1361	CODE:	1387	CODE:
1362	g_object_unref (self->pl);	1388	g_object_unref (self->pl);
1363	rc_free (self->rc);
1364	Safefree (self);	1389	delete self;
1365		1390
1366	void	1391	void
1367	set_text (DC::Layout self, SV *text_)	1392	set_text (DC::Layout self, SV *text_)
1368	CODE:	1393	CODE:
1369	{	1394	{
…		…
1623	}	1648	}
1624		1649
1625	void	1650	void
1626	render (DC::Layout self, float x, float y, int flags = 0)	1651	render (DC::Layout self, float x, float y, int flags = 0)
1627	CODE:	1652	CODE:
1628	rc_clear (self->rc);	1653	self->rc.clear ();
1629	pango_opengl_render_layout_subpixel (	1654	pango_opengl_render_layout_subpixel (
1630	self->pl,	1655	self->pl,
1631	self->rc,	1656	&self->rc,
1632	x * PANGO_SCALE, y * PANGO_SCALE,	1657	x * PANGO_SCALE, y * PANGO_SCALE,
1633	self->r, self->g, self->b, self->a,	1658	self->r, self->g, self->b, self->a,
1634	flags	1659	flags
1635	);	1660	);
1636	// we assume that context_change actually clears/frees stuff	1661	// we assume that context_change actually clears/frees stuff
…		…
1647	gl_BlendFuncSeparate (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA,	1672	gl_BlendFuncSeparate (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA,
1648	GL_ONE , GL_ONE_MINUS_SRC_ALPHA);	1673	GL_ONE , GL_ONE_MINUS_SRC_ALPHA);
1649	glEnable (GL_ALPHA_TEST);	1674	glEnable (GL_ALPHA_TEST);
1650	glAlphaFunc (GL_GREATER, 7.f / 255.f);	1675	glAlphaFunc (GL_GREATER, 7.f / 255.f);
1651		1676
1652	rc_draw (self->rc);	1677	self->rc.draw ();
1653		1678
1654	glDisable (GL_ALPHA_TEST);	1679	glDisable (GL_ALPHA_TEST);
1655	glDisable (GL_BLEND);	1680	glDisable (GL_BLEND);
1656	glDisable (GL_TEXTURE_2D);	1681	glDisable (GL_TEXTURE_2D);
1657	}	1682	}
…		…
1871	PROTOTYPES: DISABLE	1896	PROTOTYPES: DISABLE
1872		1897
1873	DC::Map	1898	DC::Map
1874	new (SV *klass)	1899	new (SV *klass)
1875	CODE:	1900	CODE:
1876	New (0, RETVAL, 1, struct map);	1901	New (0, RETVAL, 1, mapgrid);
1877	RETVAL->x = 0;	1902	RETVAL->x = 0;
1878	RETVAL->y = 0;	1903	RETVAL->y = 0;
1879	RETVAL->w = 0;	1904	RETVAL->w = 0;
1880	RETVAL->h = 0;	1905	RETVAL->h = 0;
1881	RETVAL->ox = 0;	1906	RETVAL->ox = 0;
…		…
2027	self->ox += dx; self->x += dx;	2052	self->ox += dx; self->x += dx;
2028	self->oy += dy; self->y += dy;	2053	self->oy += dy; self->y += dy;
2029		2054
2030	while (self->y < 0)	2055	while (self->y < 0)
2031	{	2056	{
2032	Prepend (maprow, self->row, self->rows, MAP_EXTEND_Y);	2057	prepend (self->row, self->rows, MAP_EXTEND_Y);
2033		2058
2034	self->rows += MAP_EXTEND_Y;	2059	self->rows += MAP_EXTEND_Y;
2035	self->y += MAP_EXTEND_Y;	2060	self->y += MAP_EXTEND_Y;
2036	}	2061	}
2037	}	2062	}
…		…
2193	draw (DC::Map self, int mx, int my, int sw, int sh, int Tw, int Th, U32 player = 0xffffffff, int sdx = 0, int sdy = 0)	2218	draw (DC::Map self, int mx, int my, int sw, int sh, int Tw, int Th, U32 player = 0xffffffff, int sdx = 0, int sdy = 0)
2194	CODE:	2219	CODE:
2195	{	2220	{
2196	int x, y, z;	2221	int x, y, z;
2197		2222
2198	HV smooth = (HV )sv_2mortal ((SV *)newHV ());
2199	uint32_t smooth_level[256 / 32]; // one bit for every possible smooth level
2200	static uint8_t smooth_max[256][256]; // egad, fast and wasteful on memory (64k)	2223	static uint8_t smooth_max[256][256]; // egad, fast and wasteful on memory (64k), also, static!
2201	smooth_key skey;
2202	int pl_x, pl_y;	2224	int pl_x, pl_y;
2203	maptex pl_tex;	2225	maptex pl_tex;
2204	rc_t *rc = rc_alloc ();	2226	rc_t rc;
2205	rc_t *rc_ov = rc_alloc ();	2227	rc_t rc_ov;
2206	rc_key_t key;	2228	rc_key_t key;
2207	rc_array_t *arr;	2229	rc_t::array_t *arr;
2208		2230
2209	pl_tex.name = 0;	2231	pl_tex.name = 0;
2210		2232
2211	// that's current max. sorry.	2233	// that's current max. sorry.
2212	if (sw > 255) sw = 255;	2234	if (sw > 255) sw = 255;
2213	if (sh > 255) sh = 255;	2235	if (sh > 255) sh = 255;
2214
2215	// clear key, in case of extra padding
2216	memset (&skey, 0, sizeof (skey));
2217		2236
2218	memset (&key, 0, sizeof (key));	2237	memset (&key, 0, sizeof (key));
2219	key.r = 255;	2238	key.r = 255;
2220	key.g = 255;	2239	key.g = 255;
2221	key.b = 255;	2240	key.b = 255;
…		…
2227	my += self->y;	2246	my += self->y;
2228		2247
2229	// first pass: determine smooth_max	2248	// first pass: determine smooth_max
2230	// rather ugly, if you ask me	2249	// rather ugly, if you ask me
2231	// could also be stored inside mapcell and updated on change	2250	// could also be stored inside mapcell and updated on change
2232	memset (smooth_max, 0, sizeof (smooth_max));	2251	memset (smooth_max, 0, sizeof (smooth_max[0]) * (sh + 1));
2233		2252
2234	for (y = 0; y < sh; y++)	2253	for (y = 0; y < sh; y++)
2235	if (0 <= y + my && y + my < self->rows)	2254	if (0 <= y + my && y + my < self->rows)
2236	{	2255	{
2237	maprow *row = self->row + (y + my);	2256	maprow *row = self->row + (y + my);
…		…
2252	glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);	2271	glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
2253	glTexEnvi (GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE);	2272	glTexEnvi (GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE);
2254		2273
2255	for (z = 0; z <= 2; z++)	2274	for (z = 0; z <= 2; z++)
2256	{	2275	{
2257	memset (smooth_level, 0, sizeof (smooth_level));	2276	std::bitset<256> smooth_level; // one bit for every possible smooth level
		2277	smooth_key skey;
		2278	smooth_hash smooth;
2258	key.texname = -1;	2279	key.texname = -1;
2259		2280
2260	for (y = 0; y < sh; y++)	2281	for (y = 0; y < sh; y++)
2261	if (0 <= y + my && y + my < self->rows)	2282	if (0 <= y + my && y + my < self->rows)
2262	{	2283	{
…		…
2279		2300
2280	if (!tex.name)	2301	if (!tex.name)
2281	tex = self->tex [TEXID_NOFACE]; /* missing, replace by noface */	2302	tex = self->tex [TEXID_NOFACE]; /* missing, replace by noface */
2282		2303
2283	key.texname = tex.name;	2304	key.texname = tex.name;
2284	arr = rc_array (rc, &key);	2305	arr = &rc.array (key);
2285	}	2306	}
2286		2307
2287	px = (x + 1) * Th - tex.w;	2308	px = (x + 1) * Th - tex.w;
2288	py = (y + 1) * Tw - tex.h;	2309	py = (y + 1) * Tw - tex.h;
2289		2310
…		…
2293	pl_y = py;	2314	pl_y = py;
2294	pl_tex = tex;	2315	pl_tex = tex;
2295	continue;	2316	continue;
2296	}	2317	}
2297		2318
2298	rc_t2f_v3f (arr, 0 , 0 , px , py , 0);	2319	arr->t2f_v3f (0 , 0 , px , py , 0);
2299	rc_t2f_v3f (arr, 0 , tex.t, px , py + tex.h, 0);	2320	arr->t2f_v3f (0 , tex.t, px , py + tex.h, 0);
2300	rc_t2f_v3f (arr, tex.s, tex.t, px + tex.w, py + tex.h, 0);	2321	arr->t2f_v3f (tex.s, tex.t, px + tex.w, py + tex.h, 0);
2301	rc_t2f_v3f (arr, tex.s, 0 , px + tex.w, py , 0);	2322	arr->t2f_v3f (tex.s, 0 , px + tex.w, py , 0);
2302		2323
2303	// update smooth hash	2324	// update smooth hash
2304	if (tex.smoothtile)	2325	if (tex.smoothtile)
2305	{	2326	{
2306	skey.tile = tex.smoothtile;	2327	skey.tile = tex.smoothtile;
2307	skey.level = tex.smoothlevel;	2328	skey.level = tex.smoothlevel;
2308		2329
2309	smooth_level [tex.smoothlevel >> 5] \|= ((uint32_t)1) << (tex.smoothlevel & 31);	2330	smooth_level[tex.smoothlevel] = 1;
2310		2331
2311	// add bits to current tile and all neighbours. skey.x\|y is	2332	// add bits to current tile and all neighbours. skey.x\|y is
2312	// shifted +1\|+1 so we always stay positive.	2333	// shifted +1\|+1 so we always stay positive.
2313		2334
2314	// bits is ___n cccc CCCC bbbb	2335	// bits is ___n cccc CCCC bbbb
…		…
2322		2343
2323	// corners: 1 ┛· 2 ·┗ 4 ·· 8 ··	2344	// corners: 1 ┛· 2 ·┗ 4 ·· 8 ··
2324	// ·· ·· ·┏ ┓·	2345	// ·· ·· ·┏ ┓·
2325		2346
2326	// full tile	2347	// full tile
2327	skey.x = x + 1; skey.y = y + 1; smooth_or_bits (smooth, &skey, 0x1000);	2348	skey.x = x + 1; skey.y = y + 1; smooth_or_bits (smooth, skey, 0x1000);
2328		2349
2329	// borders	2350	// borders
2330	skey.x = x + 2; skey.y = y + 1; smooth_or_bits (smooth, &skey, 0x0091);	2351	skey.x = x + 2; skey.y = y + 1; smooth_or_bits (smooth, skey, 0x0091);
2331	skey.x = x + 1; skey.y = y + 2; smooth_or_bits (smooth, &skey, 0x0032);	2352	skey.x = x + 1; skey.y = y + 2; smooth_or_bits (smooth, skey, 0x0032);
2332	skey.x = x ; skey.y = y + 1; smooth_or_bits (smooth, &skey, 0x0064);	2353	skey.x = x ; skey.y = y + 1; smooth_or_bits (smooth, skey, 0x0064);
2333	skey.x = x + 1; skey.y = y ; smooth_or_bits (smooth, &skey, 0x00c8);	2354	skey.x = x + 1; skey.y = y ; smooth_or_bits (smooth, skey, 0x00c8);
2334		2355
2335	// corners	2356	// corners
2336	skey.x = x + 2; skey.y = y + 2; smooth_or_bits (smooth, &skey, 0x0100);	2357	skey.x = x + 2; skey.y = y + 2; smooth_or_bits (smooth, skey, 0x0100);
2337	skey.x = x ; skey.y = y + 2; smooth_or_bits (smooth, &skey, 0x0200);	2358	skey.x = x ; skey.y = y + 2; smooth_or_bits (smooth, skey, 0x0200);
2338	skey.x = x ; skey.y = y ; smooth_or_bits (smooth, &skey, 0x0400);	2359	skey.x = x ; skey.y = y ; smooth_or_bits (smooth, skey, 0x0400);
2339	skey.x = x + 2; skey.y = y ; smooth_or_bits (smooth, &skey, 0x0800);	2360	skey.x = x + 2; skey.y = y ; smooth_or_bits (smooth, skey, 0x0800);
2340	}	2361	}
2341	}	2362	}
2342		2363
2343	if (expect_false (z == 2) && expect_false (cell->flags))	2364	if (expect_false (z == 2) && expect_false (cell->flags))
2344	{	2365	{
2345	// overlays such as the speech bubble, probably more to come	2366	// overlays such as the speech bubble, probably more to come
2346	if (cell->flags & 1)	2367	if (cell->flags & 1)
2347	{	2368	{
2348	rc_key_t key_ov = key;	2369	rc_key_t key_ov = key;
2349	maptex tex = self->tex [TEXID_SPEECH];	2370	maptex tex = self->tex[TEXID_SPEECH];
2350	rc_array_t *arr;
2351	int px = x * Tw + Tw * 2 / 32;	2371	int px = x * Tw + Tw * 2 / 32;
2352	int py = y * Th - Th * 6 / 32;	2372	int py = y * Th - Th * 6 / 32;
2353		2373
2354	key_ov.texname = tex.name;	2374	key_ov.texname = tex.name;
2355	arr = rc_array (rc_ov, &key_ov);	2375	rc_t::array_t &arr = rc_ov.array (key_ov);
2356		2376
2357	rc_t2f_v3f (arr, 0 , 0 , px , py , 0);	2377	arr.t2f_v3f (0 , 0 , px , py , 0);
2358	rc_t2f_v3f (arr, 0 , tex.t, px , py + Th, 0);	2378	arr.t2f_v3f (0 , tex.t, px , py + Th, 0);
2359	rc_t2f_v3f (arr, tex.s, tex.t, px + Tw, py + Th, 0);	2379	arr.t2f_v3f (tex.s, tex.t, px + Tw, py + Th, 0);
2360	rc_t2f_v3f (arr, tex.s, 0 , px + Tw, py , 0);	2380	arr.t2f_v3f (tex.s, 0 , px + Tw, py , 0);
2361	}	2381	}
2362	}	2382	}
2363	}	2383	}
2364	}	2384	}
2365		2385
2366	rc_draw (rc);	2386	rc.draw ();
2367	rc_clear (rc);	2387	rc.clear ();
2368		2388
2369	// go through all smoothlevels, lowest to highest, then draw.	2389	// go through all smoothlevels, lowest to highest, then draw.
2370	// this is basically counting sort	2390	// this is basically counting sort
2371	{	2391	{
2372	int w, b;	2392	int w, b;
2373		2393
2374	glEnable (GL_TEXTURE_2D);	2394	glEnable (GL_TEXTURE_2D);
2375	glBegin (GL_QUADS);	2395	glBegin (GL_QUADS);
2376	for (w = 0; w < 256 / 32; ++w)	2396	for (int level = 0; level < smooth_level.size (); ++level)
		2397	if (smooth_level[level])
		2398	for (auto &&it = smooth.begin (); it != smooth.end (); ++it)
2377	{	2399	{
2378	uint32_t smask = smooth_level [w];	2400	smooth_key &skey = it->first;
2379	if (smask)	2401	IV bits = it->second;
2380	for (b = 0; b < 32; ++b)	2402
2381	if (smask & (((uint32_t)1) << b))	2403	if (!(bits & 0x1000)
		2404	&& skey.level == level
		2405	&& level > smooth_max [skey.x][skey.y])
2382	{	2406	{
2383	int level = (w << 5) \| b;	2407	maptex tex = self->tex [skey.tile];
		2408	int px = (((int)skey.x) - 1) * Tw;
		2409	int py = (((int)skey.y) - 1) * Th;
		2410	int border = bits & 15;
		2411	int corner = (bits >> 8) & ~(bits >> 4) & 15;
		2412	float dx = tex.s * .0625f; // 16 images/row
		2413	float dy = tex.t * .5f ; // 2 images/column
		2414
2384	HE *he;	2415	if (tex.name)
2385
2386	hv_iterinit (smooth);
2387	while ((he = hv_iternext (smooth)))
2388	{	2416	{
2389	smooth_key skey = (smooth_key )HeKEY (he);	2417	// this time avoiding texture state changes
2390	IV bits = SvIVX (HeVAL (he));	2418	// save gobs of state changes.
2391		2419	if (key.texname != tex.name)
2392	if (!(bits & 0x1000)
2393	&& skey->level == level
2394	&& level > smooth_max [skey->x][skey->y])
2395	{	2420	{
2396	maptex tex = self->tex [skey->tile];
2397	int px = (((int)skey->x) - 1) * Tw;
2398	int py = (((int)skey->y) - 1) * Th;
2399	int border = bits & 15;
2400	int corner = (bits >> 8) & ~(bits >> 4) & 15;
2401	float dx = tex.s * .0625f; // 16 images/row
2402	float dy = tex.t * .5f ; // 2 images/column
2403
2404	if (tex.name)
2405	{
2406	// this time avoiding texture state changes
2407	// save gobs of state changes.
2408	if (key.texname != tex.name)
2409	{
2410	self->tex [skey->tile].unused = 0;	2421	self->tex [skey.tile].unused = 0;
2411		2422
2412	glEnd ();	2423	glEnd ();
2413	glBindTexture (GL_TEXTURE_2D, key.texname = tex.name);	2424	glBindTexture (GL_TEXTURE_2D, key.texname = tex.name);
2414	glBegin (GL_QUADS);	2425	glBegin (GL_QUADS);
2415	}	2426	}
2416		2427
2417	if (border)	2428	if (border)
2418	{	2429	{
2419	float ox = border * dx;	2430	float ox = border * dx;
2420		2431
2421	glTexCoord2f (ox , 0.f ); glVertex2i (px , py );	2432	glTexCoord2f (ox , 0.f ); glVertex2i (px , py );
2422	glTexCoord2f (ox , dy ); glVertex2i (px , py + Th);	2433	glTexCoord2f (ox , dy ); glVertex2i (px , py + Th);
2423	glTexCoord2f (ox + dx, dy ); glVertex2i (px + Tw, py + Th);	2434	glTexCoord2f (ox + dx, dy ); glVertex2i (px + Tw, py + Th);
2424	glTexCoord2f (ox + dx, 0.f ); glVertex2i (px + Tw, py );	2435	glTexCoord2f (ox + dx, 0.f ); glVertex2i (px + Tw, py );
2425	}	2436	}
2426		2437
2427	if (corner)	2438	if (corner)
2428	{	2439	{
2429	float ox = corner * dx;	2440	float ox = corner * dx;
2430		2441
2431	glTexCoord2f (ox , dy ); glVertex2i (px , py );	2442	glTexCoord2f (ox , dy ); glVertex2i (px , py );
2432	glTexCoord2f (ox , dy * 2.f); glVertex2i (px , py + Th);	2443	glTexCoord2f (ox , dy * 2.f); glVertex2i (px , py + Th);
2433	glTexCoord2f (ox + dx, dy * 2.f); glVertex2i (px + Tw, py + Th);	2444	glTexCoord2f (ox + dx, dy * 2.f); glVertex2i (px + Tw, py + Th);
2434	glTexCoord2f (ox + dx, dy ); glVertex2i (px + Tw, py );	2445	glTexCoord2f (ox + dx, dy ); glVertex2i (px + Tw, py );
2435	}
2436	}
2437	}	2446	}
2438	}	2447	}
2439	}	2448	}
2440	}	2449	}
2441		2450
2442	glEnd ();	2451	glEnd ();
2443	glDisable (GL_TEXTURE_2D);	2452	glDisable (GL_TEXTURE_2D);
2444	key.texname = -1;	2453	key.texname = -1;
2445	}	2454	}
2446
2447	hv_clear (smooth);
2448	}	2455	}
2449		2456
2450	if (pl_tex.name)	2457	if (pl_tex.name)
2451	{	2458	{
2452	maptex tex = pl_tex;	2459	maptex tex = pl_tex;
2453	int px = pl_x + sdx;	2460	int px = pl_x + sdx;
2454	int py = pl_y + sdy;	2461	int py = pl_y + sdy;
2455		2462
2456	key.texname = tex.name;	2463	key.texname = tex.name;
2457	arr = rc_array (rc, &key);	2464	rc_t::array_t &arr = rc.array (key);
2458		2465
2459	rc_t2f_v3f (arr, 0 , 0 , px , py , 0);	2466	arr.t2f_v3f (0 , 0 , px , py , 0);
2460	rc_t2f_v3f (arr, 0 , tex.t, px , py + tex.h, 0);	2467	arr.t2f_v3f (0 , tex.t, px , py + tex.h, 0);
2461	rc_t2f_v3f (arr, tex.s, tex.t, px + tex.w, py + tex.h, 0);	2468	arr.t2f_v3f (tex.s, tex.t, px + tex.w, py + tex.h, 0);
2462	rc_t2f_v3f (arr, tex.s, 0 , px + tex.w, py , 0);	2469	arr.t2f_v3f (tex.s, 0 , px + tex.w, py , 0);
2463		2470
2464	rc_draw (rc);	2471	rc.draw ();
2465	}	2472	}
2466		2473
2467	rc_draw (rc_ov);	2474	rc_ov.draw ();
2468	rc_clear (rc_ov);	2475	rc_ov.clear ();
2469		2476
2470	glDisable (GL_BLEND);	2477	glDisable (GL_BLEND);
2471	rc_free (rc);
2472	rc_free (rc_ov);
2473		2478
2474	// top layer: overlays such as the health bar	2479	// top layer: overlays such as the health bar
2475	for (y = 0; y < sh; y++)	2480	for (y = 0; y < sh; y++)
2476	if (0 <= y + my && y + my < self->rows)	2481	if (0 <= y + my && y + my < self->rows)
2477	{	2482	{

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Comparing deliantra/Deliantra-Client/Client.xs (file contents): Revision 1.321 by root, Sun Nov 18 01:15:04 2018 UTC vs. Revision 1.330 by root, Sun Nov 18 15:24:24 2018 UTC

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Comparing deliantra/Deliantra-Client/Client.xs (file contents):
Revision 1.321 by root, Sun Nov 18 01:15:04 2018 UTC vs.
Revision 1.330 by root, Sun Nov 18 15:24:24 2018 UTC