[ViewVC] Diff of: cvs/libptytty/src/estl.h

Comparing libptytty/src/estl.h (file contents):
Revision 1.4 by root, Sat Jan 21 13:56:48 2012 UTC vs.
Revision 1.13 by root, Sat May 19 02:10:54 2012 UTC

…		…
2	#define ESTL_H_	2	#define ESTL_H_
3		3
4	#include <stdlib.h>	4	#include <stdlib.h>
5	#include <string.h>	5	#include <string.h>
6		6
		7	#include "ecb.h"
		8
7	template<typename T, typename U> static inline T min (T a, U b) { return a < (T)b ? a : (T)b; }	9	template<typename T, typename U> static inline T min (T a, U b) { return a < (T)b ? a : (T)b; }
8	template<typename T, typename U> static inline T max (T a, U b) { return a > (T)b ? a : (T)b; }	10	template<typename T, typename U> static inline T max (T a, U b) { return a > (T)b ? a : (T)b; }
9		11
10	template<typename T, typename U> static inline void swap (T& a, U& b) { T t = a; a = (T)b; b = (U)t; }	12	template<typename T, typename U> static inline void swap (T& a, U& b) { T t = a; a = (T)b; b = (U)t; }
11		13
12	template <typename I, typename T>	14	template <typename I, typename T>
13	I find (I first, I last, const T& value)	15	I find (I first, I last, const T& value)
…		…
16	++first;	18	++first;
17		19
18	return first;	20	return first;
19	}	21	}
20		22
21	/* simplevec taken (and heavily modified), from:	23	#include <new>
22	*	24
23	* MICO --- a free CORBA implementation	25	#if __cplusplus >= 201103L
24	* Copyright (C) 1997-98 Kay Roemer & Arno Puder	26	#include <type_traits>
25	* originally GPLv2 or any later	27	#endif
26	*/	28
		29	// original version taken from MICO, but this has been completely rewritten
		30	// known limitations w.r.t. std::vector
		31	// - many methods missing
		32	// - no error checking, no exceptions thrown (e.g. at())
		33	// - size_type is 32bit even on 64 bit hosts, so limited to 2**31 elements
		34	// - no allocator support
		35	// - we don't really care about const correctness, but we try
		36	// - we don't care about namespaces and stupid macros the user might define
		37	// - no bool specialisation
27	template<class T>	38	template<class T>
28	struct simplevec	39	struct simplevec
29	{	40	{
		41	#if ESTL_BIG_VECTOR
		42	// shoudl use size_t/ssize_t, but that's not portable enough for us
		43	typedef unsigned long size_type;
		44	typedef long difference_type;
		45	#else
		46	typedef uint32_t size_type;
		47	typedef int32_t difference_type;
		48	#endif
		49
		50	typedef T value_type;
30	typedef T *iterator;	51	typedef T *iterator;
31	typedef const T *const_iterator;	52	typedef const T *const_iterator;
32	typedef unsigned long size_type;	53	typedef T *pointer;
		54	typedef const T *const_pointer;
		55	typedef T &reference;
		56	typedef const T &const_reference;
		57	// missing: allocator_type
		58	// missing: reverse iterator
33		59
34	private:	60	private:
35	size_type _last, _size;	61	size_type sze, res;
36	T *_buf;	62	T *buf;
		63
		64	// we shamelessly optimise for "simple" types. everything
		65	// "not simple enough" will use the slow path.
		66	static bool is_simple_enough ()
		67	{
		68	return 1; // we are not there yet
		69	#if __cplusplus >= 201103L
		70	return std::is_trivially_assignable<T, T>::value
		71	&& std::is_trivially_constructable<T>::value
		72	&& std::is_trivially_copyable<T>::value
		73	&& std::is_trivially_destructible<T>::value;
		74	#elif ECB_GCC_VERSION(4,4)
		75	return __has_trivial_assign (T)
		76	&& __has_trivial_constructor (T)
		77	&& __has_trivial_copy (T)
		78	&& __has_trivial_destructor (T);
		79	#else
		80	return 0;
		81	#endif
		82	}
		83
		84	static void construct (iterator a, size_type n = 1)
		85	{
		86	if (!is_simple_enough ())
		87	while (n--)
		88	new (*a++) T ();
		89	}
		90
		91	static void destruct (iterator a, size_type n = 1)
		92	{
		93	if (!is_simple_enough ())
		94	while (n--)
		95	(*a++).~T ();
		96	}
		97
		98	template<class I>
		99	static void cop_new (iterator a, I b) { new (a) T (*b); }
		100	template<class I>
		101	static void cop_set (iterator a, I b) { a = b ; }
		102
		103	static void copy_higher (iterator dst, iterator src, size_type n, void (*op)(iterator, iterator) = cop_new)
		104	{
		105	if (is_simple_enough ())
		106	memmove (dst, src, sizeof (T) * n);
		107	else
		108	while (n--)
		109	op (dst + n, src + n);
		110	}
		111
		112	template<class I>
		113	static void copy (iterator dst, I src, size_type n, void (*op)(iterator, I) = cop_new)
		114	{
		115	while (n--)
		116	op (dst++, src++);
		117	}
		118
		119	static void copy (iterator dst, iterator src, size_type n, void (*op)(iterator, iterator) = cop_new)
		120	{
		121	if (is_simple_enough ())
		122	memcpy (dst, src, sizeof (T) * n);
		123	else
		124	copy<iterator> (dst, src, n, op);
		125	}
		126
		127	static T *alloc (size_type n) ecb_cold
		128	{
		129	return (T )::operator new ((size_t) (sizeof (T) n));
		130	}
		131
		132	void dealloc () ecb_cold
		133	{
		134	destruct (buf, sze);
		135	::operator delete (buf);
		136	}
		137
		138	size_type good_size (size_type n) ecb_cold
		139	{
		140	return n ? 2UL << ecb_ld32 (n) : 5;
		141	}
		142
		143	void ins (iterator where, size_type n)
		144	{
		145	size_type pos = where - begin ();
		146
		147	if (ecb_expect_false (sze + n > res))
		148	{
		149	res = good_size (sze + n);
		150
		151	T *nbuf = alloc (res);
		152	copy (nbuf, buf, sze, cop_new);
		153	dealloc ();
		154	buf = nbuf;
		155	}
		156
		157	construct (buf + sze, n);
		158	copy_higher (buf + pos + n, buf + pos, sze - pos, cop_set);
		159	sze += n;
		160	}
37		161
38	public:	162	public:
39	const_iterator begin () const { return &_buf[0]; }
40	iterator begin () { return &_buf[0]; }
41
42	const_iterator end () const { return &_buf[_last]; }
43	iterator end () { return &_buf[_last]; }
44
45	size_type capacity () const { return _size; }	163	size_type capacity () const { return res; }
46	size_type size () const { return _last; }	164	size_type size () const { return sze; }
		165	bool empty () const { return size () == 0; }
47		166
48	private:	167	size_t max_size () const
49	static T *alloc (size_type n)
50	{	168	{
51	return (T )::operator new ((size_t) (n sizeof (T)));	169	return (~(size_type)0) >> 1;
52	}	170	}
53		171
54	static void dealloc (T *buf)	172	const_iterator begin () const { return &buf [ 0]; }
55	{	173	iterator begin () { return &buf [ 0]; }
56	if (buf)	174	const_iterator end () const { return &buf [sze ]; }
57	::operator delete (buf);	175	iterator end () { return &buf [sze ]; }
58	}	176	const_reference front () const { return buf [ 0]; }
		177	reference front () { return buf [ 0]; }
		178	const_reference back () const { return buf [sze - 1]; }
		179	reference back () { return buf [sze - 1]; }
59		180
60	size_type good_size (size_type n)	181	void reserve (size_type sz)
61	{	182	{
62	return max (n, _size ? _size * 2 : 5);	183	if (ecb_expect_true (sz <= res))
63	}	184	return;
64		185
65	void reserve (iterator where, size_type n)	186	sz = good_size (sz);
		187	T *nbuf = alloc (sz);
		188
		189	copy (nbuf, begin (), sze);
		190	dealloc ();
		191
		192	buf = nbuf;
		193	res = sz;
		194	}
		195
		196	void resize (size_type sz)
66	{	197	{
67	if (_last + n <= _size)	198	reserve (sz);
68	memmove (where + n, where, (end () - where) * sizeof (T));	199
		200	if (is_simple_enough ())
		201	sze = sz;
69	else	202	else
70	{	203	{
71	size_type sz = _last + n;	204	while (sze < sz) construct (buf + sze++);
72	sz = good_size (sz);	205	while (sze > sz) destruct (buf + --sze);
73	T *nbuf = alloc (sz);
74
75	if (_buf)
76	{
77	memcpy (nbuf, begin (), (where - begin ()) * sizeof (T));
78	memcpy (nbuf + (where - begin ()) + n, where, (end () - where) * sizeof (T));
79	dealloc (_buf);
80	}
81
82	_buf = nbuf;
83	_size = sz;
84	}	206	}
85	}	207	}
86		208
87	public:
88	void reserve (size_type sz)
89	{
90	if (_size < sz)
91	{
92	sz = good_size (sz);
93	T *nbuf = alloc (sz);
94
95	if (_buf)
96	{
97	memcpy (nbuf, begin (), size () * sizeof (T));
98	dealloc (_buf);
99	}
100
101	_buf = nbuf;
102	_size = sz;
103	}
104	}
105
106	simplevec ()	209	simplevec ()
107	: _last(0), _size(0), _buf(0)	210	: sze(0), res(0), buf(0)
108	{	211	{
109	}	212	}
110		213
111	simplevec (size_type n, const T& t = T ())	214	simplevec (size_type n, const T &t = T ())
112	: _last(0), _size(0), _buf(0)
113	{	215	{
114	insert (begin (), n, t);	216	sze = res = n;
115	}	217	buf = alloc (sze);
116		218
117	simplevec (const_iterator first, const_iterator last)	219	while (n--)
118	: _last(0), _size(0), _buf(0)	220	new (buf + n) T (t);
		221	}
		222
		223	template<class I>
		224	simplevec (I first, I last)
119	{	225	{
120	insert (begin (), first, last);	226	sze = res = last - first;
		227	buf = alloc (sze);
		228	copy (buf, first, sze);
121	}	229	}
122		230
123	simplevec (const simplevec<T> &v)	231	simplevec (const simplevec<T> &v)
124	: _last(0), _size(0), _buf(0)	232	: sze(0), res(0), buf(0)
125	{	233	{
126	reserve (v._last);	234	sze = res = v.size ();
127	memcpy (_buf, v.begin (), v.size () * sizeof (T));	235	buf = alloc (sze);
128	_last = v._last;	236	copy (buf, v.begin (), sze);
		237	}
		238
		239	~simplevec ()
		240	{
		241	dealloc ();
		242	}
		243
		244	void swap (simplevec<T> &t)
		245	{
		246	::swap (sze, t.sze);
		247	::swap (res, t.res);
		248	::swap (buf, t.buf);
		249	}
		250
		251	void clear ()
		252	{
		253	destruct (buf, sze);
		254	sze = 0;
		255	}
		256
		257	void push_back (const T &t)
		258	{
		259	reserve (sze + 1);
		260	new (buf + sze++) T (t);
		261	}
		262
		263	void pop_back ()
		264	{
		265	destruct (buf + --sze);
		266	}
		267
		268	const_reference operator [](size_type idx) const { return buf[idx]; }
		269	reference operator [](size_type idx) { return buf[idx]; }
		270
		271	const_reference at (size_type idx) const { return buf [idx]; }
		272	reference at (size_type idx) { return buf [idx]; }
		273
		274	template<class I>
		275	void assign (I first, I last)
		276	{
		277	swap (simplevec<T> (first, last));
		278	}
		279
		280	void assign (size_type n, const T &t)
		281	{
		282	swap (simplevec<T> (n, t));
129	}	283	}
130		284
131	simplevec<T> &operator= (const simplevec<T> &v)	285	simplevec<T> &operator= (const simplevec<T> &v)
132	{	286	{
133	if (this != &v)	287	assign (v.begin (), v.end ());
134	{
135	_last = 0;
136	reserve (v._last);
137	memcpy (_buf, v.begin (), v.size () * sizeof (T));
138	_last = v._last;
139	}
140
141	return *this;	288	return *this;
142	}	289	}
143		290
144	~simplevec ()
145	{
146	dealloc (_buf);
147	}
148
149	const T &front () const { return _buf[ 0]; }
150	T &front () { return _buf[ 0]; }
151	const T &back () const { return _buf[_last-1]; }
152	T &back () { return _buf[_last-1]; }
153
154	bool empty () const
155	{
156	return _last == 0;
157	}
158
159	void clear ()
160	{
161	_last = 0;
162	}
163
164	void push_back (const T &t)
165	{
166	reserve (_last+1);
167	*end () = t;
168	++_last;
169	}
170
171	void push_back (T &t)
172	{
173	reserve (_last+1);
174	*end () = t;
175	++_last;
176	}
177
178	void pop_back ()
179	{
180	--_last;
181	}
182
183	const T &operator [](size_type idx) const { return _buf[idx]; }
184	T &operator [](size_type idx) { return _buf[idx]; }
185
186	iterator insert (iterator pos, const T &t)	291	iterator insert (iterator pos, const T &t)
187	{	292	{
188	long at = pos - begin ();	293	size_type at = pos - begin ();
		294
189	reserve (pos, 1);	295	ins (pos, 1);
190	pos = begin () + at;	296	buf [at] = t;
191	*pos = t;
192	++_last;
193	return pos;
194	}
195		297
		298	return buf + at;
		299	}
		300
		301	template<class I>
196	iterator insert (iterator pos, const_iterator first, const_iterator last)	302	iterator insert (iterator pos, I first, I last)
197	{	303	{
198	long n = last - first;	304	size_type n = last - first;
199	long at = pos - begin ();	305	size_type at = pos - begin ();
200		306
201	if (n > 0)	307	ins (pos, n);
202	{	308	copy (buf + at, first, n, cop_set);
203	reserve (pos, n);
204	pos = begin ()+at;
205	memcpy (pos, first, (last - first) * sizeof (T));
206	_last += n;
207	}
208		309
209	return pos;	310	return buf + at;
210	}	311	}
211		312
212	iterator insert (iterator pos, size_type n, const T &t)	313	iterator insert (iterator pos, size_type n, const T &t)
213	{	314	{
214	long at = pos - begin ();	315	size_type at = pos - begin ();
215		316
216	if (n > 0)	317	ins (pos, n);
217	{
218	reserve (pos, n);
219	pos = begin () + at;
220	for (int i = 0; i < n; ++i)
221	pos[i] = t;
222	_last += n;
223	}
224		318
225	return pos;	319	for (iterator i = buf + at; n--; )
		320	*i++ = t;
		321
		322	return buf + at;
226	}	323	}
227		324
228	void erase (iterator first, iterator last)	325	void erase (iterator first, iterator last)
229	{	326	{
230	if (last != first)	327	size_t n = last - first;
231	{	328
		329	if (is_simple_enough ())
232	memmove (first, last, (end () - last) * sizeof (T));	330	memmove (first, last, sizeof (T) * n);
233	_last -= last - first;	331	else
234	}	332	copy<iterator> (first, last, n, cop_new);
		333
		334	sze -= n;
		335	destruct (buf + sze, n);
235	}	336	}
236		337
237	void erase (iterator pos)	338	void erase (iterator pos)
238	{	339	{
239	if (pos != end ())	340	if (pos != end ())
240	{	341	erase (pos, pos + 1);
241	memmove (pos, pos + 1, (end () - (pos + 1)) * sizeof (T));
242	--_last;
243	}
244	}
245
246	void swap (simplevec<T> &t)
247	{
248	::swap(_last, t._last);
249	::swap(_size, t._size);
250	::swap(_buf, t._buf);
251	}	342	}
252	};	343	};
253		344
254	template<class T>	345	template<class T>
255	bool operator ==(const simplevec<T> &v1, const simplevec<T> &v2)	346	bool operator ==(const simplevec<T> &v1, const simplevec<T> &v2)

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Comparing libptytty/src/estl.h (file contents): Revision 1.4 by root, Sat Jan 21 13:56:48 2012 UTC vs. Revision 1.13 by root, Sat May 19 02:10:54 2012 UTC

Diff Legend

Comparing libptytty/src/estl.h (file contents):
Revision 1.4 by root, Sat Jan 21 13:56:48 2012 UTC vs.
Revision 1.13 by root, Sat May 19 02:10:54 2012 UTC