1 | #define VARx(type,name) VAR(name, type name) |
1 | #define VARx(type,name) VAR(name, type name) |
2 | |
2 | |
3 | VARx(ev_tstamp, now_floor); /* last time we refreshed rt_time */ |
3 | VARx(ev_tstamp, now_floor) /* last time we refreshed rt_time */ |
4 | VARx(ev_tstamp, mn_now); /* monotonic clock "now" */ |
4 | VARx(ev_tstamp, mn_now) /* monotonic clock "now" */ |
5 | VARx(ev_tstamp, rt_now); |
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6 | VARx(ev_tstamp, diff); /* difference realtime - monotonic time */ |
5 | VARx(ev_tstamp, rtmn_diff) /* difference realtime - monotonic time */ |
7 | VARx(int, method); |
6 | VARx(int, backend) |
8 | |
7 | |
9 | VARx(int, have_monotonic); /* runtime */ |
8 | VARx(ev_tstamp, backend_fudge) /* assumed typical timer resolution */ |
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9 | VAR (backend_modify, void (*backend_modify)(EV_P_ int fd, int oev, int nev)) |
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10 | VAR (backend_poll , void (*backend_poll)(EV_P_ ev_tstamp timeout)) |
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11 | VARx(int, backend_fd) |
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12 | |
11 | VARx(ev_tstamp, method_fudge); /* assumed typical timer resolution */ |
13 | VARx(int, postfork) /* true if we need to recreate kernel state after fork */ |
12 | VAR (method_modify, void (*method_modify)(EV_P_ int fd, int oev, int nev)); |
14 | VARx(int, activecnt) /* total number of active events ("refcount") */ |
13 | VAR (method_poll , void (*method_poll)(EV_P_ ev_tstamp timeout)); |
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14 | |
15 | |
15 | VARx(int, activecnt); /* number of active events */ |
16 | #if EV_USE_SELECT || EV_GENWRAP |
16 | |
17 | VARx(void *, vec_ri) |
17 | #if EV_USE_SELECT |
18 | VARx(void *, vec_ro) |
18 | VARx(unsigned char *, vec_ri); |
19 | VARx(void *, vec_wi) |
19 | VARx(unsigned char *, vec_ro); |
20 | VARx(void *, vec_wo) |
20 | VARx(unsigned char *, vec_wi); |
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21 | VARx(unsigned char *, vec_wo); |
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22 | VARx(int, vec_max); |
21 | VARx(int, vec_max) |
23 | #endif |
22 | #endif |
24 | |
23 | |
25 | #if EV_USEV_POLL |
24 | #if EV_USE_POLL || EV_GENWRAP |
26 | VARx(struct pollfd *, polls); |
25 | VARx(struct pollfd *, polls) |
27 | VARx(int, pollmax); |
26 | VARx(int, pollmax) |
28 | VARx(int, pollcnt); |
27 | VARx(int, pollcnt) |
29 | VARx(int *, pollidxs); /* maps fds into structure indices */ |
28 | VARx(int *, pollidxs) /* maps fds into structure indices */ |
30 | VARx(int, pollidxmax); |
29 | VARx(int, pollidxmax) |
31 | #endif |
30 | #endif |
32 | |
31 | |
33 | #if EV_USE_EPOLL |
32 | #if EV_USE_EPOLL || EV_GENWRAP |
34 | VARx(int, epoll_fd); |
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35 | |
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36 | VARx(struct epoll_event *, events); |
33 | VARx(struct epoll_event *, epoll_events) |
37 | VARx(int, eventmax); |
34 | VARx(int, epoll_eventmax) |
38 | #endif |
35 | #endif |
39 | |
36 | |
40 | #if EV_USE_KQUEUE |
37 | #if EV_USE_KQUEUE || EV_GENWRAP |
41 | VARx(int, kqueue_fd); |
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42 | VARx(struct kevent *, kqueue_changes); |
38 | VARx(struct kevent *, kqueue_changes) |
43 | VARx(int, kqueue_changemax); |
39 | VARx(int, kqueue_changemax) |
44 | VARx(int, kqueue_changecnt); |
40 | VARx(int, kqueue_changecnt) |
45 | VARx(struct kevent *, kqueue_events); |
41 | VARx(struct kevent *, kqueue_events) |
46 | VARx(int, kqueue_eventmax); |
42 | VARx(int, kqueue_eventmax) |
47 | #endif |
43 | #endif |
48 | |
44 | |
49 | VARx(ANFD *, anfds); |
45 | #if EV_USE_PORT || EV_GENWRAP |
50 | VARx(int, anfdmax); |
46 | VARx(struct port_event *, port_events) |
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47 | VARx(int, port_eventmax) |
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48 | #endif |
51 | |
49 | |
52 | VAR (pendings, ANPENDING *pendings [NUMPRI]); |
50 | VARx(ANFD *, anfds) |
53 | VAR (pendingmax, int pendingmax [NUMPRI]); |
51 | VARx(int, anfdmax) |
54 | VAR (pendingcnt, int pendingcnt [NUMPRI]); |
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55 | |
52 | |
56 | VARx(int *, fdchanges); |
53 | VAR (pendings, ANPENDING *pendings [NUMPRI]) |
57 | VARx(int, fdchangemax); |
54 | VAR (pendingmax, int pendingmax [NUMPRI]) |
58 | VARx(int, fdchangecnt); |
55 | VAR (pendingcnt, int pendingcnt [NUMPRI]) |
59 | |
56 | |
60 | VARx(struct ev_timer **, timers); |
57 | VARx(int *, fdchanges) |
61 | VARx(int, timermax); |
58 | VARx(int, fdchangemax) |
62 | VARx(int, timercnt); |
59 | VARx(int, fdchangecnt) |
63 | |
60 | |
64 | VARx(struct ev_periodic **, periodics); |
61 | VARx(struct ev_timer **, timers) |
65 | VARx(int, periodicmax); |
62 | VARx(int, timermax) |
66 | VARx(int, periodiccnt); |
63 | VARx(int, timercnt) |
67 | |
64 | |
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65 | #if EV_PERIODIC_ENABLE || EV_GENWRAP |
68 | VARx(struct ev_idle **, idles); |
66 | VARx(struct ev_periodic **, periodics) |
69 | VARx(int, idlemax); |
67 | VARx(int, periodicmax) |
70 | VARx(int, idlecnt); |
68 | VARx(int, periodiccnt) |
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69 | #endif |
71 | |
70 | |
72 | VARx(struct ev_prepare **, prepares); |
71 | VARx(struct ev_idle **, idles) |
73 | VARx(int, preparemax); |
72 | VARx(int, idlemax) |
74 | VARx(int, preparecnt); |
73 | VARx(int, idlecnt) |
75 | |
74 | |
76 | VARx(struct ev_check **, checks); |
75 | VARx(struct ev_prepare **, prepares) |
77 | VARx(int, checkmax); |
76 | VARx(int, preparemax) |
78 | VARx(int, checkcnt); |
77 | VARx(int, preparecnt) |
79 | |
78 | |
80 | VAR (childs, struct ev_child *childs [PID_HASHSIZE]); |
79 | VARx(struct ev_check **, checks) |
81 | VARx(struct ev_signal, childev); |
80 | VARx(int, checkmax) |
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81 | VARx(int, checkcnt) |
82 | |
82 | |
83 | VARx(struct ev_io, sigev); |
83 | #if EV_FORK_ENABLE || EV_GENWRAP |
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84 | VARx(struct ev_fork **, forks) |
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85 | VARx(int, forkmax) |
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86 | VARx(int, forkcnt) |
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87 | #endif |
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88 | |
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89 | #if EV_USE_INOTIFY || EV_GENWRAP |
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90 | VARx(int, fs_fd) |
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91 | VARx(ev_io, fs_w); |
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92 | VAR (fs_hash, ANFS fs_hash [EV_INOTIFY_HASHSIZE]) |
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93 | #endif |
84 | |
94 | |
85 | #undef VARx |
95 | #undef VARx |
86 | |
96 | |