Mercurial > hg > early-roguelike
view rogue4/daemon.c @ 182:1fe660009fd3
rogue4: don't try to close the scorefile if it isn't open.
The MSVC library uses a debug assertion to prevent closing file
descriptors that are negative. This is always the case with the
scoreboard file descriptor if the scoreboard has been compiled out.
| author | John "Elwin" Edwards |
|---|---|
| date | Fri, 31 Jul 2015 20:12:33 -0400 |
| parents | f2951c4e28d9 |
| children | 1b73a8641b37 |
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/* * Contains functions for dealing with things that happen in the * future. * * @(#)daemon.c 4.4 (Berkeley) 1/12/82 * * Rogue: Exploring the Dungeons of Doom * Copyright (C) 1980, 1981, 1982 Michael Toy, Ken Arnold and Glenn Wichman * All rights reserved. * * See the file LICENSE.TXT for full copyright and licensing information. */ #include <curses.h> #include "rogue.h" #define EMPTY 0 #define DAEMON -1 #define _X_ { EMPTY } struct delayed_action d_list[MAXDAEMONS] = { _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, _X_, }; /* * d_slot: * Find an empty slot in the daemon/fuse list */ struct delayed_action * d_slot() { register int i; register struct delayed_action *dev; for (i = 0, dev = d_list; i < MAXDAEMONS; i++, dev++) if (dev->d_type == EMPTY) return dev; #ifdef WIZARD debug("Ran out of fuse slots"); #endif return NULL; } /* * find_slot: * Find a particular slot in the table */ struct delayed_action * find_slot(func) register int (*func)(); { register int i; register struct delayed_action *dev; for (i = 0, dev = d_list; i < MAXDAEMONS; i++, dev++) if (dev->d_type != EMPTY && func == dev->d_func) return dev; return NULL; } /* * start_daemon: * Start a daemon, takes a function. */ start_daemon(func, arg, type) int (*func)(), arg, type; { register struct delayed_action *dev; dev = d_slot(); dev->d_type = type; dev->d_func = func; dev->d_arg = arg; dev->d_time = DAEMON; } /* * kill_daemon: * Remove a daemon from the list */ kill_daemon(func) int (*func)(); { register struct delayed_action *dev; if ((dev = find_slot(func)) == NULL) return; /* * Take it out of the list */ dev->d_type = EMPTY; } /* * do_daemons: * Run all the daemons that are active with the current flag, * passing the argument to the function. */ do_daemons(flag) register int flag; { register struct delayed_action *dev; /* * Loop through the devil list */ for (dev = d_list; dev <= &d_list[MAXDAEMONS-1]; dev++) /* * Executing each one, giving it the proper arguments */ if (dev->d_type == flag && dev->d_time == DAEMON) (*dev->d_func)(dev->d_arg); } /* * fuse: * Start a fuse to go off in a certain number of turns */ fuse(func, arg, time, type) int (*func)(), arg, time, type; { register struct delayed_action *wire; wire = d_slot(); wire->d_type = type; wire->d_func = func; wire->d_arg = arg; wire->d_time = time; } /* * lengthen: * Increase the time until a fuse goes off */ lengthen(func, xtime) int (*func)(); int xtime; { register struct delayed_action *wire; if ((wire = find_slot(func)) == NULL) return; wire->d_time += xtime; } /* * extinguish: * Put out a fuse */ extinguish(func) int (*func)(); { register struct delayed_action *wire; if ((wire = find_slot(func)) == NULL) return; wire->d_type = EMPTY; } /* * do_fuses: * Decrement counters and start needed fuses */ do_fuses(flag) register int flag; { register struct delayed_action *wire; /* * Step though the list */ for (wire = d_list; wire <= &d_list[MAXDAEMONS-1]; wire++) { /* * Decrementing counters and starting things we want. We also need * to remove the fuse from the list once it has gone off. */ if (flag == wire->d_type && wire->d_time > 0 && --wire->d_time == 0) { wire->d_type = EMPTY; (*wire->d_func)(wire->d_arg); } } }