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Comparing rxvt-unicode/src/iom.h (file contents):
Revision 1.23 by root, Tue Nov 29 19:22:48 2005 UTC vs.
Revision 1.30 by root, Thu Oct 25 10:44:14 2007 UTC

1/* 1/*
2 iom.h -- generic I/O multiplexer 2 iom.h -- generic I/O multiplexer
3 Copyright (C) 2003, 2004 Marc Lehmann <gvpe@schmorp.de> 3 Copyright (C) 2003-2006 Marc Lehmann <gvpe@schmorp.de>
4 4
5 This file is part of GVPE. 5 This file is part of GVPE.
6 6
7 GVPE is free software; you can redistribute it and/or modify 7 GVPE is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by 8 it under the terms of the GNU General Public License as published by
26// - a vector template like simplevec or stl's vector 26// - a vector template like simplevec or stl's vector
27// - defines for all watcher types required in your app 27// - defines for all watcher types required in your app
28// edit iom_conf.h as appropriate. 28// edit iom_conf.h as appropriate.
29#include "iom_conf.h" 29#include "iom_conf.h"
30 30
31#if IOM_CHILD
32# undef IOM_SIG
33# define IOM_SIG 1
34#endif
35
31#include "callback.h" 36#include "callback.h"
32
33#ifndef IOM_IO
34# define IOM_IO 0
35#endif
36#ifndef IOM_TIME
37# define IOM_TIME 0
38#endif
39#ifndef IOM_CHECK
40# define IOM_CHECK 0
41#endif
42#ifndef IOM_IDLE
43# define IOM_IDLE 0
44#endif
45#ifndef IOM_SIG
46# define IOM_SIG 0
47#endif
48 37
49typedef double tstamp; 38typedef double tstamp;
50extern tstamp NOW; 39extern tstamp NOW;
51 40
52// TSTAMP_MAX must still fit into a positive struct timeval 41// TSTAMP_MAX must still fit into a positive struct timeval
53#define TSTAMP_MAX (double)(1UL<<31) 42#define TSTAMP_MAX (double)(1UL<<31)
43
44//#define IOM_LIBEVENT "event.h" *NOT* a supported feature
45#ifdef IOM_LIBEVENT
46# include <sys/time.h>
47# include IOM_LIBEVENT
48# undef IOM_IO
49# define IOM_IO 1
50#endif
54 51
55struct watcher; 52struct watcher;
56#if IOM_IO 53#if IOM_IO
57struct io_watcher; 54struct io_watcher;
58#endif 55#endif
65#if IOM_IDLE 62#if IOM_IDLE
66struct idle_watcher; 63struct idle_watcher;
67#endif 64#endif
68#if IOM_SIG 65#if IOM_SIG
69struct sig_watcher; 66struct sig_watcher;
67#endif
68#if IOM_CHILD
69struct child_watcher;
70#endif 70#endif
71 71
72template<class watcher> 72template<class watcher>
73struct io_manager_vec : vector<watcher *> { 73struct io_manager_vec : vector<watcher *> {
74 void erase_unordered (unsigned int pos) 74 void erase_unordered (unsigned int pos)
98 // set NOW 98 // set NOW
99 static void set_now (); 99 static void set_now ();
100#endif 100#endif
101 101
102 // register a watcher 102 // register a watcher
103#ifndef IOM_LIBEVENT
103#if IOM_IO 104#if IOM_IO
104 static void reg (io_watcher &w); static void unreg (io_watcher &w); 105 static void reg (io_watcher &w); static void unreg (io_watcher &w);
105#endif 106#endif
106#if IOM_TIME 107#if IOM_TIME
107 static void reg (time_watcher &w); static void unreg (time_watcher &w); 108 static void reg (time_watcher &w); static void unreg (time_watcher &w);
108#endif 109#endif
110#if IOM_SIG
111 static void reg (sig_watcher &w); static void unreg (sig_watcher &w);
112#endif
109#if IOM_CHECK 113#if IOM_CHECK
110 static void reg (check_watcher &w); static void unreg (check_watcher &w); 114 static void reg (check_watcher &w); static void unreg (check_watcher &w);
111#endif 115#endif
116#endif
112#if IOM_IDLE 117#if IOM_IDLE
113 static void reg (idle_watcher &w); static void unreg (idle_watcher &w); 118 static void reg (idle_watcher &w); static void unreg (idle_watcher &w);
114#endif 119#endif
115#if IOM_SIG 120#if IOM_CHILD
116 static void reg (sig_watcher &w); static void unreg (sig_watcher &w); 121 static void reg (child_watcher &w); static void unreg (child_watcher &w);
117#endif 122#endif
118 123
119 static void loop (); 124 static void loop ();
120}; 125};
121 126
122struct watcher { 127struct watcher {
123 int active; /* 0 == inactive, else index into respective vector */ 128 int active; /* 0 == inactive, else index into respective vector */
124 129
130 bool is_active () { return active; }
131
125 watcher () : active (0) { } 132 watcher () : active (0) { }
126}; 133};
127 134
128#if IOM_IO 135#if IOM_IO
129enum { EVENT_READ = 1, EVENT_WRITE = 2 }; 136#ifdef IOM_LIBEVENT
137enum { EVENT_UNDEF = -1, EVENT_NONE = 0, EVENT_READ = EV_READ, EVENT_WRITE = EV_WRITE };
130 138
139void iom_io_c_callback (int fd, short events, void *data);
140
131struct io_watcher : watcher, callback2<void, io_watcher &, short> { 141struct io_watcher : watcher, callback<void (io_watcher &, short)> {
142 struct event ev;
143 int fd;
144
145 void set (int fd_, short events_) { fd = fd_; event_set (&ev, fd_, events_, iom_io_c_callback, (void *)this); }
146
147 void set (short events_) { set (fd, events_); }
148 void start () { event_add (&ev, 0); active = 1; }
149 void start (int fd_, short events_) { set (fd_, events_); start (); }
150 void stop () { if (active) event_del (&ev); active = 0; }
151
152 template<class O, class M>
153 io_watcher (O object, M method)
154 : callback<void (io_watcher &, short)> (object, method)
155 { }
156 ~io_watcher () { stop (); }
157};
158#else
159enum { EVENT_UNDEF = -1, EVENT_NONE = 0, EVENT_READ = 1, EVENT_WRITE = 2 };
160
161struct io_watcher : watcher, callback<void (io_watcher &, short)> {
132 int fd; 162 int fd;
133 short events; 163 short events;
134 164
135 void set (int fd_, short events_) { fd = fd_; events = events_; } 165 void set (int fd_, short events_) { fd = fd_; events = events_; }
136 166
137 void set (short events_) { set (fd, events_); } 167 void set (short events_) { set (fd, events_); }
138 void start () { io_manager::reg (*this); } 168 void start () { io_manager::reg (*this); }
139 void start (int fd_, short events_) { set (fd_, events_); io_manager::reg (*this); } 169 void start (int fd_, short events_) { set (fd_, events_); start (); }
140 void stop () { io_manager::unreg (*this); } 170 void stop () { io_manager::unreg (*this); }
141 171
142 template<class O1, class O2> 172 template<class O, class M>
143 io_watcher (O1 *object, void (O2::*method) (io_watcher &, short)) 173 io_watcher (O object, M method)
144 : callback2<void, io_watcher &, short> (object,method) 174 : callback<void (io_watcher &, short)> (object, method)
145 { } 175 { }
146 ~io_watcher () { stop (); } 176 ~io_watcher () { stop (); }
147}; 177};
148#endif 178#endif
179#endif
149 180
150#if IOM_TIME 181#if IOM_TIME
182#ifdef IOM_LIBEVENT
183void iom_time_c_callback (int fd, short events, void *data);
184
151struct time_watcher : watcher, callback1<void, time_watcher &> { 185struct time_watcher : watcher, callback<void (time_watcher &)> {
186 struct event ev;
152 tstamp at; 187 tstamp at;
153 188
154 void trigger (); 189 void trigger ();
155 190
156 void set (tstamp when) { at = when; } 191 void set (tstamp when) { at = when; }
157 void operator () () { trigger (); } 192 void operator () () { trigger (); }
158 void start () { io_manager::reg (*this); } 193 void start ()
194 {
195 struct timeval tv;
196 tv.tv_sec = (long)at;
197 tv.tv_usec = (long)((at - (tstamp)tv.tv_sec) * 1000000.);
198 evtimer_add (&ev, &tv);
199 active = 1;
200 }
159 void start (tstamp when) { set (when); io_manager::reg (*this); } 201 void start (tstamp when) { set (when); start (); }
160 void stop () { io_manager::unreg (*this); } 202 void stop () { if (active) evtimer_del (&ev); active = 0; }
161 203
162 template<class O1, class O2> 204 template<class O, class M>
163 time_watcher (O1 *object, void (O2::*method) (time_watcher &)) 205 time_watcher (O object, M method)
164 : callback1<void, time_watcher &> (object,method), at (0) 206 : callback<void (time_watcher &)> (object, method), at (0)
165 { } 207 {
208 evtimer_set (&ev, iom_time_c_callback, (void *)this);
209 }
166 ~time_watcher () { stop (); } 210 ~time_watcher () { stop (); }
167}; 211};
212#else
213struct time_watcher : watcher, callback<void (time_watcher &)> {
214 tstamp at;
215
216 void trigger ();
217
218 void set (tstamp when) { at = when; }
219 void operator () () { trigger (); }
220 void start () { io_manager::reg (*this); }
221 void start (tstamp when) { set (when); start (); }
222 void stop () { io_manager::unreg (*this); }
223
224 template<class O, class M>
225 time_watcher (O object, M method)
226 : callback<void (time_watcher &)> (object, method), at (0)
227 { }
228 ~time_watcher () { stop (); }
229};
230#endif
168#endif 231#endif
169 232
170#if IOM_CHECK 233#if IOM_CHECK
171// run before checking for new events 234// run before checking for new events
172struct check_watcher : watcher, callback1<void, check_watcher &> { 235struct check_watcher : watcher, callback<void (check_watcher &)> {
173 void start () { io_manager::reg (*this); }
174 void stop () { io_manager::unreg (*this); } 236 void start () { io_manager::reg (*this); }
237 void stop () { io_manager::unreg (*this); }
175 238
176 template<class O1, class O2> 239 template<class O, class M>
177 check_watcher (O1 *object, void (O2::*method) (check_watcher &)) 240 check_watcher (O object, M method)
178 : callback1<void, check_watcher &> (object,method) 241 : callback<void (check_watcher &)> (object, method)
179 { } 242 { }
180 ~check_watcher () { stop (); } 243 ~check_watcher () { stop (); }
181}; 244};
182#endif 245#endif
183 246
184#if IOM_IDLE 247#if IOM_IDLE
185// run after checking for any i/o, but before waiting 248// run after checking for any i/o, but before waiting
186struct idle_watcher : watcher, callback1<void, idle_watcher &> { 249struct idle_watcher : watcher, callback<void (idle_watcher &)> {
187 void start () { io_manager::reg (*this); }
188 void stop () { io_manager::unreg (*this); } 250 void start () { io_manager::reg (*this); }
251 void stop () { io_manager::unreg (*this); }
189 252
190 template<class O1, class O2> 253 template<class O, class M>
191 idle_watcher (O1 *object, void (O2::*method) (idle_watcher &)) 254 idle_watcher (O object, M method)
192 : callback1<void, idle_watcher &> (object,method) 255 : callback<void (idle_watcher &)> (object, method)
193 { } 256 { }
194 ~idle_watcher () { stop (); } 257 ~idle_watcher () { stop (); }
195}; 258};
196#endif 259#endif
197 260
198#if IOM_SIG 261#if IOM_SIG
199struct sig_watcher : watcher, callback1<void, sig_watcher &> { 262struct sig_watcher : watcher, callback<void (sig_watcher &)> {
200 int signum; 263 int signum;
201 264
202 void start (int signum); 265 void start (int signum);
203 void stop () { io_manager::unreg (*this); } 266 void stop () { io_manager::unreg (*this); }
204 267
205 template<class O1, class O2> 268 template<class O, class M>
206 sig_watcher (O1 *object, void (O2::*method) (sig_watcher &)) 269 sig_watcher (O object, M method)
207 : callback1<void, sig_watcher &> (object,method), signum (-1) 270 : callback<void(sig_watcher &)> (object, method), signum (0)
208 { } 271 { }
209 ~sig_watcher () { stop (); } 272 ~sig_watcher () { stop (); }
210}; 273};
211#endif 274#endif
212 275
213#endif 276#if IOM_CHILD
277struct child_watcher : watcher, callback<void (child_watcher &, int)> {
278 int /*pid_t*/ pid;
214 279
280 void start (int pid) { this->pid = pid; io_manager::reg (*this); }
281 void stop () { io_manager::unreg (*this); }
282
283 template<class O, class M>
284 child_watcher (O object, M method)
285 : callback<void (child_watcher &, int)> (object, method), pid (0)
286 { }
287 ~child_watcher () { stop (); }
288};
289#endif
290
291#endif
292

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