[ViewVC] Diff of: cvs/deliantra/server/server/dynbuf.C

Comparing deliantra/server/server/dynbuf.C (file contents):
Revision 1.6 by root, Tue Dec 26 08:54:59 2006 UTC vs.
Revision 1.38 by root, Sat Nov 17 23:40:03 2018 UTC

		1	/*
		2	* This file is part of Deliantra, the Roguelike Realtime MMORPG.
		3	*
		4	* Copyright (©) 2017,2018 Marc Alexander Lehmann / the Deliantra team
		5	* Copyright (©) 2005,2006,2007,2008,2009,2010,2011,2012,2013,2014,2015,2016 Marc Alexander Lehmann / Robin Redeker / the Deliantra team
		6	*
		7	* Deliantra is free software: you can redistribute it and/or modify it under
		8	* the terms of the Affero GNU General Public License as published by the
		9	* Free Software Foundation, either version 3 of the License, or (at your
		10	* option) any later version.
		11	*
		12	* This program is distributed in the hope that it will be useful,
		13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
		14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
		15	* GNU General Public License for more details.
		16	*
		17	* You should have received a copy of the Affero GNU General Public License
		18	* and the GNU General Public License along with this program. If not, see
		19	* <http://www.gnu.org/licenses/>.
		20	*
		21	* The authors can be reached via e-mail to <support@deliantra.net>
		22	*/
		23
1	#include "global.h"	24	#include "global.h"
2		25
3	#include <cstdio>	26	#include <cstdio>
4		27
5	dynbuf::dynbuf (int initial, int extend)	28	void
		29	dynbuf::init (int initial)
6	{	30	{
		31	cextend = extend;
7	_size = 0;	32	_size = 0;
8	ext = extend;	33
9	first = last = (chunk *) new char[sizeof (chunk) + initial];	34	first = last = (chunk *)salloc<char> (sizeof (chunk) + initial);
10		35	first->alloc = sizeof (chunk) + initial;
11	first->next = 0;	36	first->next = 0;
12	room = initial;	37
13	ptr = first->data;	38	ptr = first->data;
		39	end = ptr + initial;
14	}	40	}
15		41
16	dynbuf::~dynbuf ()	42	// frees a full chain and sets the pointer to zero
		43	void
		44	dynbuf::free (chunk *&chain)
17	{	45	{
18	clear ();	46	while (chain)
		47	{
		48	chunk *next = chain->next;
		49
		50	sfree<char> ((char *)chain, chain->alloc);
		51	chain = next;
		52	}
19	}	53	}
20		54
21	void	55	void
22	dynbuf::clear ()	56	dynbuf::clear ()
23	{	57	{
24	while (first)	58	cextend = extend;
25	{	59	free (first->next);
26	chunk *next = first->next;
27		60
28	delete[](char *) first;	61	_size = 0;
29	first = next;	62	ptr = first->data;
30	}	63	end = ptr + first->alloc - sizeof (chunk);
		64	last = first;
31	}	65	}
32		66
33	void	67	void
34	dynbuf::finish ()	68	dynbuf::finalise ()
35	{	69	{
36	// finalise current chunk	70	// finalise current chunk
37	_size += last->size = ptr - last->data;	71	_size += last->size = ptr - last->data;
38	}	72	}
39		73
40	void	74	void
41	dynbuf::_reserve (int size)	75	dynbuf::reserve (int size)
42	{	76	{
43	finish ();	77	finalise ();
44		78
45	do	79	do
46	{	80	{
47	ext += ext >> 1;	81	cextend += cextend >> 1;
48	ext = (ext + 15) & ~15;	82	cextend = (cextend + 15) & ~15;
49	}	83	}
50	while (ext < size);	84	while (cextend < size);
51		85
52	chunk add = (chunk ) new char[sizeof (chunk) + ext];	86	chunk add = (chunk ) salloc<char> (sizeof (chunk) + cextend);
53		87	add->alloc = sizeof (chunk) + cextend;
54	add->next = 0;	88	add->next = 0;
55		89
56	last->next = add;	90	last->next = add;
57	last = add;	91	last = add;
58		92
59	room = ext;
60	ptr = last->data;	93	ptr = last->data;
		94	end = ptr + cextend;
61	}	95	}
62		96
63	void	97	void
64	dynbuf::linearise (void *data)	98	dynbuf::linearise (void *data)
65	{	99	{
66	char p = (char ) data;
67
68	last->size = ptr - last->data;	100	last->size = ptr - last->data;
69		101
70	for (chunk * c = first; c; c = c->next)	102	for (chunk *c = first; c; c = c->next)
71	{	103	{
72	memcpy (p, c->data, c->size);	104	memcpy (data, c->data, c->size);
73	p += c->size;	105	data = (void )(((char )data) + c->size);
74	}	106	}
75	}	107	}
76		108
77	char *	109	char *
78	dynbuf::linearise ()	110	dynbuf::_linearise (int extra)
79	{	111	{
80	if (first->next)	112	finalise ();
81	{
82	finish ();
83		113
84	chunk add = (chunk ) new char[sizeof (chunk) + _size];	114	chunk add = (chunk ) salloc<char> (sizeof (chunk) + _size + extra);
85		115	add->alloc = sizeof (chunk) + _size;
86	add->next = 0;	116	add->next = 0;
		117
87	linearise ((void *) add->data);	118	linearise ((void *)add->data);
88	clear ();	119	free (first);
89		120
90	first = last = add;	121	first = last = add;
91	ptr = last->data + _size;	122	ptr = last->data + _size;
		123	end = ptr + extra;
92	_size = 0;	124	_size = 0;
93	room = 0;
94	}
95		125
96	return first->data;	126	return first->data;
97	}	127	}
98		128
99	void	129	dynbuf::operator std::string ()
100	dynbuf::add (sint32 i)
101	{	130	{
102	char buf[max_sint32_size];	131	// could optimise
103	char *p = buf + sizeof (buf);	132	return std::string (linearise (), size ());
104	char neg;	133	}
105		134
106	uint32 val;	135	void
		136	dynbuf::splice (int offset, int olen, const char *s, int slen)
		137	{
		138	// how much bytes to extend (negative if shrinking)
		139	int adjust = slen - olen;
107		140
108	if (i < 0)	141	// linearise, unless everything fits in the last chunk
		142	if (offset < _size \|\| room () < adjust)
		143	_linearise (max (adjust, 0));
		144
		145	offset -= _size; // offset into chunk
		146
		147	// now move tail to final position
		148	char *pos = last->data + offset;
		149	char *src = pos + olen;
		150	char *dst = pos + slen;
		151	memmove (dst, src, ptr - src);
		152
		153	// now copy new content
		154	memcpy (pos, s, slen);
		155
		156	// finally adjust length
		157	ptr += adjust;
		158	}
		159
		160	void
		161	dynbuf_text::vprintf (const char *format, va_list ap)
		162	{
		163	int len;
		164
		165	{
		166	force (128);
		167
		168	va_list apc;
		169	va_copy (apc, ap);
		170	len = vsnprintf (ptr, end - ptr, format, apc);
		171	va_end (apc);
		172
		173	assert (len >= 0); // shield against broken vsnprintf's
		174
		175	// was enough room available
		176	if (ptr + len < end)
109	{	177	{
110	neg = '-';	178	ptr += len;
111	val = -i;	179	return;
		180	}
		181	}
		182
		183	// longer, try harder
		184	vsnprintf (force (len + 1), len + 1, format, ap);
		185
		186	ptr += len;
		187	}
		188
		189	void
		190	dynbuf_text::printf (const char *format, ...)
		191	{
		192	va_list ap;
		193	va_start (ap, format);
		194	vprintf (format, ap);
		195	va_end (ap);
		196	}
		197
		198	// simply return a mask with "bits" bits set
		199	static inline uint64
		200	m (int b)
		201	{
		202	return (uint64 (1) << b) - 1;
		203	}
		204
		205	// convert 9 digits to ascii, using only a single multiplication
		206	// (depending on cpu and compiler).
		207	// will generate a single 0 as output when v=lz=0
		208	static inline char *
		209	i2a_9 (char *ptr, uint32 v, bool lz)
		210	{
		211	// convert to 4.56 fixed-point representation
		212	// this should be optimal on 64 bit cpus, and rather
		213	// slow on 32 bit cpus. go figure :)
		214	const int bits = 7*8; // 7 bits per post-comma digit
		215
		216	uint64 u = v * ((m (bits) + 100000000) / 100000000); // 10**8
		217
		218	if (lz)
		219	{
		220	// output leading zeros
		221	// good compilers will compile this into only shifts, masks and adds
		222	ptr++ = char (u >> (bits - 0)) + '0'; u = (u & m (bits - 0)) 5;
		223	ptr++ = char (u >> (bits - 1)) + '0'; u = (u & m (bits - 1)) 5;
		224	ptr++ = char (u >> (bits - 2)) + '0'; u = (u & m (bits - 2)) 5;
		225	ptr++ = char (u >> (bits - 3)) + '0'; u = (u & m (bits - 3)) 5;
		226	ptr++ = char (u >> (bits - 4)) + '0'; u = (u & m (bits - 4)) 5;
		227	ptr++ = char (u >> (bits - 5)) + '0'; u = (u & m (bits - 5)) 5;
		228	ptr++ = char (u >> (bits - 6)) + '0'; u = (u & m (bits - 6)) 5;
		229	ptr++ = char (u >> (bits - 7)) + '0'; u = (u & m (bits - 7)) 5;
		230	*ptr++ = char (u >> (bits - 8)) + '0';
112	}	231	}
113	else	232	else
114	{	233	{
115	neg = 0;	234	// do not output leading zeroes (except if v == 0)
116	val = i;	235	// good compilers will compile this into completely branchless code
117	}	236	char digit, nz = 0;
118		237
119	do	238	digit = (u >> (bits - 0)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 0)) 5;
		239	digit = (u >> (bits - 1)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 1)) 5;
		240	digit = (u >> (bits - 2)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 2)) 5;
		241	digit = (u >> (bits - 3)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 3)) 5;
		242	digit = (u >> (bits - 4)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 4)) 5;
		243	digit = (u >> (bits - 5)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 5)) 5;
		244	digit = (u >> (bits - 6)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 6)) 5;
		245	digit = (u >> (bits - 7)); ptr = digit + '0'; nz \|= digit; ptr += nz ? 1 : 0; u = (u & m (bits - 7)) 5;
		246	digit = (u >> (bits - 8)); *ptr = digit + '0'; nz \|= digit; ptr += 1;
120	{	247	}
121	uint32 div = val / 10;
122	--p = '0' + char (val - div 10);
123		248
124	val = div;	249	return ptr;
125	}
126	while (val);
127
128	if (neg)
129	*--p = neg;
130
131	add ((void *) p, buf + sizeof (buf) - p);
132	}	250	}
133		251
134	void	252	void
135	dynbuf::add (sint64 i)	253	dynbuf_text::add (sint32 i)
136	{	254	{
137	if (i > -10000000 && i < 10000000)	255	force (sint32_digits);
138	{	256
139	add (sint32 (i));	257	*ptr = '-'; ptr += i < 0 ? 1 : 0;
140	return;	258	uint32 u = i < 0 ? -i : i;
		259
		260	if (expect_true (u < 10)) // we have a lot of single-digit numbers, so optimise
		261	*ptr++ = u + '0';
		262	else if (expect_true (u < 100)) // we have a lot of double-digit numbers, too :)
141	}	263	{
142		264	// let the compiler figure out sth. efficient here
143	char buf[max_sint64_size];	265	*ptr++ = u / 10 + '0';
144	char *p = buf + sizeof (buf);	266	*ptr++ = u % 10 + '0';
145	char neg;
146
147	uint64 val;
148
149	if (i < 0)
150	{	267	}
151	neg = '-';	268	else if (expect_true (u < 1000000000)) // 9 0's
152	val = -i;	269	ptr = i2a_9 (ptr, u, false);
153	}
154	else	270	else
155	{	271	{
156	neg = 0;	272	uint32 div = u / 1000000000;
157	val = i;	273	uint32 rem = u % 1000000000;
		274
		275	ptr = i2a_9 (ptr, div, false);
		276	ptr = i2a_9 (ptr, rem, true);
		277	}
		278	}
		279
		280	void
		281	dynbuf_text::add (sint64 i)
		282	{
		283	force (sint64_digits);
		284
		285	*ptr = '-'; ptr += i < 0 ? 1 : 0;
		286	uint64 u = i < 0 ? -i : i;
		287
		288	// split the number into a 1-digit part
		289	// (#19) and two 9 digit parts (9..18 and 0..8)
		290
		291	// good compilers will only use multiplications here
		292
		293	if (u < 10) // we have a lot of single-digit numbers, so optimise
		294	*ptr++ = u + '0';
		295	else if (expect_true (u < 1000000000)) // 9 0's
		296	ptr = i2a_9 (ptr, u, false);
		297	else if (expect_true (u < UINT64_C (1000000000000000000))) // 18 0's
158	}	298	{
		299	uint32 div = u / 1000000000;
		300	uint32 rem = u % 1000000000;
159		301
160	do	302	ptr = i2a_9 (ptr, div, false);
		303	ptr = i2a_9 (ptr, rem, true);
		304	}
		305	else
		306	{
		307	// a biggy, split off the topmost digit
		308	uint32 div = u / UINT64_C (1000000000000000000);
		309	uint64 rem = u % UINT64_C (1000000000000000000);
		310
		311	*ptr++ = div + '0';
		312
		313	u = rem;
		314
161	{	315	{
162	uint64 div = val / 10;	316	uint32 div = u / 1000000000;
163	--p = '0' + char (val - div 10);	317	uint32 rem = u % 1000000000;
164		318
165	val = div;	319	ptr = i2a_9 (ptr, div, true);
		320	ptr = i2a_9 (ptr, rem, true);
166	}	321	}
167	while (val);	322	}
168
169	if (neg)
170	*--p = neg;
171
172	add ((void *) p, buf + sizeof (buf) - p);
173	}	323	}
		324
		325	dynbuf_text::operator char *()
		326	{
		327	*this << '\0';
		328	linearise ();
		329	--ptr;
		330	return first->data;
		331	}
		332
		333	void
		334	dynbuf_text::add_abilities (const char *name, uint32 abilities)
		335	{
		336	if (!abilities)
		337	return;
		338
		339	*this << '(' << name;
		340
		341	const char *sep = ": ";
		342	for_all_bits_sparse_32 (abilities, i)
		343	{
		344	*this << sep; sep = ", ";
		345	*this << attacks [i];
		346	}
		347
		348	*this << ')';
		349	}
		350
		351	void
		352	dynbuf_text::add_paths (const char *name, uint32 paths)
		353	{
		354	if (!paths)
		355	return;
		356
		357	*this << '(' << name;
		358
		359	const char *sep = ": ";
		360	for (int i = 0; i < NRSPELLPATHS; ++i)
		361	if (paths & (1 << i))
		362	{
		363	*this << sep; sep = ", ";
		364	*this << spellpathnames [i];
		365	}
		366
		367	*this << ')';
		368	}
		369
		370	#if 0
		371	struct dynbuf_test_class {
		372	dynbuf_test_class ()
		373	{
		374	sint64 s = 0;
		375	for (int i = 0; i < 10000000; ++i)
		376	{
		377	char b1[256], b2[256];
		378
		379	dynbuf_text db;
		380	db.add (s);
		381	db.add (char (0));
		382
		383	db.linearise (b1);
		384	sprintf (b2, "%ld", s);
		385
		386	if (strcmp (b1, b2))
		387	printf ("<%s,%s>\n", b1, b2);
		388
		389	if (i < 20)
		390	s = (sint64) pow (10., i);
		391	else
		392	s = (sint64) exp (random () * (43.6682723752766 / RAND_MAX));
		393	}
		394
		395	exit (0);
		396	}
		397	} dynbuf_test;
		398	#endif
		399

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Comparing deliantra/server/server/dynbuf.C (file contents): Revision 1.6 by root, Tue Dec 26 08:54:59 2006 UTC vs. Revision 1.38 by root, Sat Nov 17 23:40:03 2018 UTC

Diff Legend

Comparing deliantra/server/server/dynbuf.C (file contents):
Revision 1.6 by root, Tue Dec 26 08:54:59 2006 UTC vs.
Revision 1.38 by root, Sat Nov 17 23:40:03 2018 UTC