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ðŸ“ X11
ðŸ“„ a.out.h(4.25 KB)
ðŸ“„ aio.h(7.28 KB)
ðŸ“„ aliases.h(1.98 KB)
ðŸ“„ alloca.h(1.17 KB)
ðŸ“ apache2
ðŸ“„ ar.h(1.69 KB)
ðŸ“„ argp.h(24.82 KB)
ðŸ“„ argz.h(5.91 KB)
ðŸ“ arpa
ðŸ“ asm
ðŸ“ asm-generic
ðŸ“„ assert.h(4.45 KB)
ðŸ“„ autosprintf.h(2.33 KB)
ðŸ“ bind9
ðŸ“ bits
ðŸ“ bsock
ðŸ“„ byteswap.h(1.37 KB)
ðŸ“„ bzlib.h(6.1 KB)
ðŸ“ c++
ðŸ“„ com_err.h(2.07 KB)
ðŸ“„ complex.h(7 KB)
ðŸ“„ cpio.h(2.21 KB)
ðŸ“„ cpuidle.h(844 B)
ðŸ“ criu
ðŸ“„ crypt.h(8.9 KB)
ðŸ“„ ctype.h(10.71 KB)
ðŸ“ curl
ðŸ“„ curses.h(97.29 KB)
ðŸ“„ cursesapp.h(6.62 KB)
ðŸ“„ cursesf.h(27.2 KB)
ðŸ“„ cursesm.h(19.22 KB)
ðŸ“„ cursesp.h(8.4 KB)
ðŸ“„ cursesw.h(48.55 KB)
ðŸ“„ cursslk.h(7.13 KB)
ðŸ“„ db.h(120.22 KB)
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ðŸ“ e2p
ðŸ“„ elf.h(170.73 KB)
ðŸ“„ endian.h(3.11 KB)
ðŸ“„ entities.h(4.81 KB)
ðŸ“„ envz.h(2.8 KB)
ðŸ“„ err.h(2.16 KB)
ðŸ“„ errno.h(1.64 KB)
ðŸ“„ error.h(1.99 KB)
ðŸ“ et
ðŸ“„ eti.h(2.82 KB)
ðŸ“„ etip.h(9.47 KB)
ðŸ“„ evdns.h(1.97 KB)
ðŸ“„ event.h(2.68 KB)
ðŸ“ event2
ðŸ“„ evhttp.h(1.99 KB)
ðŸ“„ evrpc.h(1.97 KB)
ðŸ“„ evutil.h(1.74 KB)
ðŸ“„ execinfo.h(1.49 KB)
ðŸ“„ expat.h(42.66 KB)
ðŸ“„ expat_config.h(3.43 KB)
ðŸ“„ expat_external.h(5.4 KB)
ðŸ“ ext2fs
ðŸ“„ fcntl.h(10.7 KB)
ðŸ“„ features.h(15.69 KB)
ðŸ“„ fenv.h(5.72 KB)
ðŸ“ finclude
ðŸ“„ fmtmsg.h(3.16 KB)
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ðŸ“„ form.h(18.17 KB)
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ðŸ“„ fstrm.h(12.71 KB)
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ðŸ“„ gdbm.h(10.1 KB)
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ðŸ“„ gdfontl.h(551 B)
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ðŸ“„ gdfontt.h(546 B)
ðŸ“„ gdfx.h(497 B)
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ðŸ“„ gelf.h(11.14 KB)
ðŸ“„ getopt.h(1.43 KB)
ðŸ“„ gettext-po.h(15.17 KB)
ðŸ“„ glob.h(6.46 KB)
ðŸ“ gnu
ðŸ“„ gnu-versions.h(2.29 KB)
ðŸ“„ gnumake.h(2.84 KB)
ðŸ“ google
ðŸ“„ gpg-error.h(66.29 KB)
ðŸ“„ gpgrt.h(66.29 KB)
ðŸ“„ grp.h(6.53 KB)
ðŸ“„ gshadow.h(4.42 KB)
ðŸ“ gssapi
ðŸ“„ gssapi.h(181 B)
ðŸ“ gssrpc
ðŸ“„ iconv.h(1.81 KB)
ðŸ“„ idn-free.h(2.41 KB)
ðŸ“„ idn-int.h(20 B)
ðŸ“„ idna.h(3.48 KB)
ðŸ“„ ieee754.h(4.79 KB)
ðŸ“„ ifaddrs.h(2.77 KB)
ðŸ“„ inttypes.h(11.61 KB)
ðŸ“„ jconfig-64.h(2.17 KB)
ðŸ“„ jconfig.h(246 B)
ðŸ“„ jerror.h(14.73 KB)
ðŸ“„ jmorecfg.h(14.7 KB)
ðŸ“„ jpegint.h(15.22 KB)
ðŸ“„ jpeglib.h(48.71 KB)
ðŸ“ json-c
ðŸ“ kadm5
ðŸ“„ kdb.h(67.66 KB)
ðŸ“„ keyutils.h(7.52 KB)
ðŸ“„ krad.h(8.72 KB)
ðŸ“ krb5
ðŸ“„ krb5.h(402 B)
ðŸ“„ langinfo.h(17.43 KB)
ðŸ“„ lastlog.h(126 B)
ðŸ“„ lber.h(14.95 KB)
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ðŸ“„ ldap.h(63.57 KB)
ðŸ“„ ldap_cdefs.h(9.24 KB)
ðŸ“„ ldap_features.h(1.77 KB)
ðŸ“„ ldap_schema.h(9.23 KB)
ðŸ“„ ldap_utf8.h(3.39 KB)
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ðŸ“„ libaio.h(8.73 KB)
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ðŸ“„ libelf.h(19.84 KB)
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ðŸ“„ libgen.h(1.35 KB)
ðŸ“„ libintl.h(4.47 KB)
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ðŸ“ libpng16
ðŸ“ libxml2
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ðŸ“„ limits.h(5.29 KB)
ðŸ“„ link.h(7.05 KB)
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ðŸ“„ ltdl.h(5.58 KB)
ðŸ“ lua-5.1
ðŸ“ lzma
ðŸ“„ lzma.h(9.59 KB)
ðŸ“„ magic.h(5.46 KB)
ðŸ“„ malloc.h(5.96 KB)
ðŸ“„ math.h(52.07 KB)
ðŸ“„ mcheck.h(2.38 KB)
ðŸ“„ memory.h(955 B)
ðŸ“„ menu.h(11.91 KB)
ðŸ“ misc
ðŸ“„ mntent.h(3.28 KB)
ðŸ“„ monetary.h(1.76 KB)
ðŸ“„ mqueue.h(3.67 KB)
ðŸ“ mtd
ðŸ“ mysql
ðŸ“„ nc_tparm.h(4.1 KB)
ðŸ“ ncurses
ðŸ“„ ncurses.h(97.29 KB)
ðŸ“„ ncurses_dll.h(4.18 KB)
ðŸ“ ncursesw
ðŸ“„ ndbm.h(2.4 KB)
ðŸ“ net
ðŸ“ netash
ðŸ“ netatalk
ðŸ“ netax25
ðŸ“„ netdb.h(27.44 KB)
ðŸ“ neteconet
ðŸ“ netinet
ðŸ“ netipx
ðŸ“ netiucv
ðŸ“ netpacket
ðŸ“ netrom
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ðŸ“ nfs
ðŸ“„ nl_types.h(1.71 KB)
ðŸ“„ nlist.h(1.56 KB)
ðŸ“„ nss.h(1.83 KB)
ðŸ“„ obstack.h(20.81 KB)
ðŸ“ openssl
ðŸ“„ panel.h(4.03 KB)
ðŸ“„ paths.h(2.91 KB)
ðŸ“„ pcre.h(30.97 KB)
ðŸ“„ pcre2.h(43.75 KB)
ðŸ“„ pcre2posix.h(5.67 KB)
ðŸ“„ pcre_scanner.h(6.45 KB)
ðŸ“„ pcre_stringpiece.h(6.16 KB)
ðŸ“„ pcrecpp.h(25.91 KB)
ðŸ“„ pcrecpparg.h(6.62 KB)
ðŸ“„ pcreposix.h(5.32 KB)
ðŸ“ perf
ðŸ“„ png.h(140.77 KB)
ðŸ“„ pngconf.h(22.31 KB)
ðŸ“„ pnglibconf.h(7.39 KB)
ðŸ“„ poll.h(22 B)
ðŸ“„ pr29.h(2.07 KB)
ðŸ“„ printf.h(6.64 KB)
ðŸ“„ proc_service.h(3.39 KB)
ðŸ“„ profile.h(11.87 KB)
ðŸ“ protobuf-c
ðŸ“ protocols
ðŸ“„ pthread.h(40.3 KB)
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ðŸ“„ punycode.h(9.16 KB)
ðŸ“„ pwd.h(6.01 KB)
ðŸ“ python2.7
ðŸ“ python3.6m
ðŸ“ python3.8
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ðŸ“„ re_comp.h(962 B)
ðŸ“„ regex.h(24.14 KB)
ðŸ“„ regexp.h(1.41 KB)
ðŸ“„ resolv.h(11.79 KB)
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ðŸ“„ search.h(5.1 KB)
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ðŸ“„ sgtty.h(1.31 KB)
ðŸ“„ shadow.h(5.34 KB)
ðŸ“„ signal.h(11.96 KB)
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ðŸ“„ stab.h(264 B)
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ðŸ“„ stdint.h(8.27 KB)
ðŸ“„ stdio.h(29.46 KB)
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ðŸ“„ utmp.h(3.15 KB)
ðŸ“„ utmpx.h(4 KB)
ðŸ“ uuid
ðŸ“„ values.h(1.91 KB)
ðŸ“„ verto-module.h(6.48 KB)
ðŸ“„ verto.h(18.98 KB)
ðŸ“ video
ðŸ“„ wait.h(22 B)
ðŸ“„ wchar.h(30.38 KB)
ðŸ“„ wctype.h(5.42 KB)
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ðŸ“„ wordexp.h(2.44 KB)
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ðŸ“„ zconf.h(15.88 KB)
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ðŸ“„ zlib.h(94 KB)
ðŸ“„ zstd.h(117.16 KB)
ðŸ“„ zstd_errors.h(3.66 KB)

Editing: verto.h

/*
 * Copyright 2011 Red Hat, Inc.
 *
 * Permission is hereby granted, free of charge, to any person
 * obtaining a copy of this software and associated documentation files
 * (the "Software"), to deal in the Software without restriction,
 * including without limitation the rights to use, copy, modify, merge,
 * publish, distribute, sublicense, and/or sell copies of the Software,
 * and to permit persons to whom the Software is furnished to do so,
 * subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT.  IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */

#ifndef VERTO_H_
#define VERTO_H_

#include <time.h>   /* For time_t */
#include <unistd.h> /* For pid_t */

#ifdef WIN32
#include <windows.h>
typedef HANDLE verto_proc;
typedef DWORD verto_proc_status;
#else
#include <sys/types.h>
typedef pid_t verto_proc;
typedef int verto_proc_status;
#endif

#define VERTO_SIG_IGN ((verto_callback *) 1)

#ifdef __cplusplus
extern "C"
{
#endif /* __cplusplus */

typedef struct verto_ctx verto_ctx;
typedef struct verto_ev verto_ev;

typedef enum {
    VERTO_EV_TYPE_NONE = 0,
    VERTO_EV_TYPE_IO = 1,
    VERTO_EV_TYPE_TIMEOUT = 1 << 1,
    VERTO_EV_TYPE_IDLE = 1 << 2,
    VERTO_EV_TYPE_SIGNAL = 1 << 3,
    VERTO_EV_TYPE_CHILD = 1 << 4
} verto_ev_type;

typedef enum {
    VERTO_EV_FLAG_NONE = 0,
    VERTO_EV_FLAG_PERSIST = 1,
    VERTO_EV_FLAG_PRIORITY_LOW = 1 << 1,
    VERTO_EV_FLAG_PRIORITY_MEDIUM = 1 << 2,
    VERTO_EV_FLAG_PRIORITY_HIGH = 1 << 3,
    VERTO_EV_FLAG_IO_READ = 1 << 4,
    VERTO_EV_FLAG_IO_WRITE = 1 << 5,
    VERTO_EV_FLAG_IO_ERROR = 1 << 7,
    VERTO_EV_FLAG_IO_CLOSE_FD = 1 << 8,
    VERTO_EV_FLAG_REINITIABLE = 1 << 6,
    _VERTO_EV_FLAG_MUTABLE_MASK = VERTO_EV_FLAG_PRIORITY_LOW
                                  | VERTO_EV_FLAG_PRIORITY_MEDIUM
                                  | VERTO_EV_FLAG_PRIORITY_HIGH
                                  | VERTO_EV_FLAG_IO_READ
                                  | VERTO_EV_FLAG_IO_WRITE,
    _VERTO_EV_FLAG_MAX = VERTO_EV_FLAG_IO_CLOSE_FD
} verto_ev_flag;

typedef void (verto_callback)(verto_ctx *ctx, verto_ev *ev);

/**
 * Creates a new event context using an optionally specified implementation
 * and/or optionally specified required features.
 *
 * If you are an application that has already decided on using a particular
 * event loop implementation, you should not call this function, but instead
 * import the verto-NAME.h header and link against the verto-NAME.so, where
 * NAME is the implementation you wish to use.
 *
 * If you are a library, you should generally avoid creating event contexts
 * on your own but allow applications to pass in a verto_ctx you can use.
 *
 * There are two cases where you should use this function.  The first is
 * where you have a need to choose an implementation at run time, usually
 * for testing purposes.  The second and more common is when you simply
 * wish to remain implementation agnostic.  In this later case, you should
 * always call like this: verto_new(NULL, ...).  This lets verto choose the best
 * implementation to use.
 *
 * If impl is not NULL, a new context is returned which is backed by the
 * implementation specified. If the implementation specified is not
 * available or if the required types (reqtypes) are not provided by the
 * named implementation, NULL is returned. The parameter 'impl' can specify:
 *   * The full path to an implementation library
 *   * The name of the implementation library (i.e. - "glib" or "libev")
 *
 * If impl is NULL, verto will attempt to automatically determine the
 * best implementation to use.
 *
 * First, verto will attempt to use an existing, previously loaded
 * implementation. This is handled automatically by internal caching of either
 * the first implementation loaded or the one specified by verto_set_default().
 *
 * Second, verto will attempt to discern if you are already linked to any
 * of the supported implementations (to avoid wasting memory by loading
 * extra unnecessary libraries).  If you are linked to one supported
 * implementation, that implementation will be chosen.  If you are linked
 * to more than one supported implementation one of the ones linked to
 * will be chosen, but the order of the particular choice is undefined.
 *
 * Third, verto will attempt to load the compile-time default, if defined at
 * build time and available at runtime.
 *
 * Last, verto will attempt to load any implementation installed. The specific
 * order of this step is undefined.
 *
 * In all cases above, if the implementation does not support all the specified
 * features (reqtypes), it will be skipped and processing will continue from
 * where it left off. This means that if verto_new() returns non-NULL it is
 * guaranteed to support the features you specified.
 *
 * @see verto_set_default()
 * @param impl The implementation to use, or NULL.
 * @param reqtypes A bitwise or'd list of required event type features.
 * @return A new verto_ctx, or NULL on error.  Call verto_free() when done.
 */
verto_ctx *
verto_new(const char *impl, verto_ev_type reqtypes);

/**
 * Gets the default event context using an optionally specified implementation.
 *
 * This function is essentially a singleton version of verto_new().  However,
 * since this function must return the same loop as the *_default() call of
 * the underlying implementation (if such a function exists), it is NOT a
 * global singleton, but a per-implementation singleton. For this reason, you
 * must call verto_free() when you are done with this loop. Even after calling
 * verto_free() on the default verto_ctx, you can safely call verto_default()
 * again and receive a new reference to the same (internally default) loop.
 *
 * In all other respects, verto_default() acts exactly like verto_new().
 *
 * @see verto_new()
 * @see verto_free()
 * @param impl The implementation to use, or NULL.
 * @param reqtypes A bitwise or'd list of required event type features.
 * @return The default verto_ctx, or NULL on error.  Call verto_free() when done.
 */
verto_ctx *
verto_default(const char *impl, verto_ev_type reqtypes);

/**
 * Sets the default implementation to use by its name.
 *
 * This function returns 1 on success and 0 on failure.  It can fail for the
 * following reasons:
 *   1. The default implementation was already set via verto_set_default().
 *   2. The implementation specified could not be found.
 *   3. The implementation specified didn't support the features specified.
 *   4. The impl argument was NULL.
 *   5. verto_new() was already called.
 *   6. verto_default() was already called.
 *   7. verto_new_NAME() was already called.
 *   8. verto_default_NAME() was already called.
 *   9. verto_convert_NAME() was already called.
 *
 * @see verto_new()
 * @see verto_default()
 * @param impl The implementation to use.
 * @param reqtypes A bitwise or'd list of required event type features.
 * @return The default verto_ctx, or NULL on error.  Call verto_free() when done.
 */
int
verto_set_default(const char *impl, verto_ev_type reqtypes);

/**
 * Sets the allocator to use for verto_ctx and verto_ev objects.
 *
 * If you plan to set the allocator, you MUST call this function before any
 * other verto_*() calls.
 *
 * @see verto_new()
 * @see verto_default()
 * @see verto_add_io()
 * @see verto_add_timeout()
 * @see verto_add_idle()
 * @see verto_add_signal()
 * @see verto_add_child()
 * @param resize The allocator to use (behaves like realloc();
 *        resize(ptr, 0) must free memory at ptr.)
 * @param hierarchical Zero if the allocator is not hierarchical
 */
int
verto_set_allocator(void *(*resize)(void *mem, size_t size), int hierarchical);

/**
 * Frees a verto_ctx.
 *
 * When called on a default verto_ctx, the reference will be freed but the
 * internal default loop will still be available via another call to
 * verto_default().
 *
 * @see verto_new()
 * @see verto_default()
 * @param ctx The verto_ctx to free.
 */
void
verto_free(verto_ctx *ctx);

/**
 * Frees global state.
 *
 * Remove and free all allocated global state.  Call only when no further
 * contexts exist and all threads have exited.
 *
 * @see verto_new()
 * @see verto_free()
 * @see verto_default()
 */
void
verto_cleanup(void);

/**
 * Run the verto_ctx forever, or at least until verto_break() is called.
 *
 * @see verto_break()
 * @param ctx The verto_ctx to run.
 */
void
verto_run(verto_ctx *ctx);

/**
 * Run the verto_ctx once. May block.
 *
 * @param ctx The verto_ctx to run once.
 */
void
verto_run_once(verto_ctx *ctx);

/**
 * Exits the currently running verto_ctx.
 *
 * @see verto_run()
 * @param ctx The verto_ctx to exit.
 */
void
verto_break(verto_ctx *ctx);

/**
 * Re-initializes the verto_ctx.
 *
 * This function deletes all events, except those which have set the
 * VERTO_EV_FLAG_REINITIABLE flag. If you fork(), you MUST call this in the
 * child process after the fork!
 *
 * If this function fails it indicates that at least one
 * VERTO_EV_FLAG_REINITIABLE event was not rearmed or that ctx was NULL.
 *
 * @see verto_new()
 * @see verto_default()
 * @param ctx The verto_ctx to re-initialize.
 * @return Non-zero on success, 0 on error.
 */
int
verto_reinitialize(verto_ctx *ctx);

/**
 * Adds a callback executed when a file descriptor is ready to be read/written.
 *
 * All verto_ev events are automatically freed when their parent verto_ctx is
 * freed. You do not need to free them manually. If VERTO_EV_FLAG_PERSIST is
 * provided, the event will repeat until verto_del() is called. If
 * VERTO_EV_FLAG_PERSIST is not provided, the event will be freed automatically
 * after its execution. In either case, you may call verto_del() at any time
 * to prevent the event from executing.
 * If VERTO_EV_FLAG_IO_CLOSE_FD is provided the passed in fd is automatically
 * closed when the event is freed with verto_del()
 *
 * NOTE: On Windows, the underlying select() only works with sockets. As such,
 * any attempt to add a non-socket io event on Windows will produce undefined
 * results and may even crash.
 *
 * @see verto_del()
 * @param ctx The verto_ctx which will fire the callback.
 * @param flags The flags to set (at least one VERTO_EV_FLAG_IO* required).
 * @param callback The callback to fire.
 * @param fd The file descriptor to watch for reads.
 * @return The verto_ev registered with the event context or NULL on error.
 */
verto_ev *
verto_add_io(verto_ctx *ctx, verto_ev_flag flags,
             verto_callback *callback, int fd);

/**
 * Adds a callback executed after a period of time.
 *
 * All verto_ev events are automatically freed when their parent verto_ctx is
 * freed. You do not need to free them manually. If VERTO_EV_FLAG_PERSIST is
 * provided, the event will repeat until verto_del() is called. If
 * VERTO_EV_FLAG_PERSIST is not provided, the event will be freed automatically
 * after its execution. In either case, you may call verto_del() at any time
 * to prevent the event from executing.
 *
 * @see verto_del()
 * @param ctx The verto_ctx which will fire the callback.
 * @param flags The flags to set.
 * @param callback The callback to fire.
 * @param interval Time period to wait before firing (in milliseconds).
 * @return The verto_ev registered with the event context.
 */
verto_ev *
verto_add_timeout(verto_ctx *ctx, verto_ev_flag flags,
                  verto_callback *callback, time_t interval);

/**
 * Adds a callback executed when there is nothing else to do.
 *
 * All verto_ev events are automatically freed when their parent verto_ctx is
 * freed. You do not need to free them manually. If VERTO_EV_FLAG_PERSIST is
 * provided, the event will repeat until verto_del() is called. If
 * VERTO_EV_FLAG_PERSIST is not provided, the event will be freed automatically
 * after its execution. In either case, you may call verto_del() at any time
 * to prevent the event from executing.
 *
 * @see verto_del()
 * @param ctx The verto_ctx which will fire the callback.
 * @param flags The flags to set.
 * @param callback The callback to fire.
 * @return The verto_ev registered with the event context.
 */
verto_ev *
verto_add_idle(verto_ctx *ctx, verto_ev_flag flags,
               verto_callback *callback);

/**
 * Adds a callback executed when a signal is received.
 *
 * All verto_ev events are automatically freed when their parent verto_ctx is
 * freed. You do not need to free them manually. If VERTO_EV_FLAG_PERSIST is
 * provided, the event will repeat until verto_del() is called. If
 * VERTO_EV_FLAG_PERSIST is not provided, the event will be freed automatically
 * after its execution. In either case, you may call verto_del() at any time
 * to prevent the event from executing.
 *
 * NOTE: If you attempt to ignore a signal without the VERTO_EV_FLAG_PERSIST
 * flag, this function fails.
 *
 * NOTE: SIGCHLD is expressly not supported. If you want this notification,
 * please use verto_add_child().
 *
 * WARNNIG: Signal events can only be reliably received in the default verto_ctx
 * in some implementations.  Attempting to receive signal events in non-default
 * loops may result in assert() failures.
 *
 * WARNING: While verto does its best to protect you from crashes, there is
 * essentially no way to do signal events if you mix multiple implementations in
 * a single process. Attempting to do so will result in undefined behavior,
 * and potentially even a crash. You have been warned.
 *
 * @see verto_add_child()
 * @see verto_repeat()
 * @see verto_del()
 * @param ctx The verto_ctx which will fire the callback.
 * @param flags The flags to set.
 * @param callback The callback to fire.
 * @param signal The signal to watch for.
 * @return The verto_ev registered with the event context.
 */
verto_ev *
verto_add_signal(verto_ctx *ctx, verto_ev_flag flags,
                 verto_callback *callback, int signal);

/**
 * Adds a callback executed when a child process exits.
 *
 * This event will be freed automatically after its execution. Due to the
 * nature of a process' life-cycle, child events cannot persist (processes only
 * exit once). This function returns NULL if you attempt to use
 * VERTO_EV_FLAG_PERSIST. You may, of course, call verto_del() at any time to
 * prevent the callback from firing.
 *
 * @see verto_del()
 * @param ctx The verto_ctx which will fire the callback.
 * @param flags The flags to set.
 * @param callback The callback to fire.
 * @param child The pid (POSIX) or handle (Win32) of the child to watch for.
 * @return The verto_ev registered with the event context.
 */
verto_ev *
verto_add_child(verto_ctx *ctx, verto_ev_flag flags,
                verto_callback *callback, verto_proc proc);

/**
 * Sets the private pointer of the verto_ev.
 *
 * The free callback will be called in two cases:
 *   1. When the event is deleted (manually or automatically)
 *   2. When verto_set_private() is called again, unless
 *      free is NULL.
 *
 * @see verto_get_private()
 * @param ev The verto_ev
 * @param priv The private value to store
 * @param free The callback used to free the data or NULL
 */
void
verto_set_private(verto_ev *ev, void *priv, verto_callback *free);

/**
 * Gets the private pointer of the verto_ev.
 *
 * @see verto_set_private()
 * @param ev The verto_ev
 * @return The verto_ev private pointer
 */
void *
verto_get_private(const verto_ev *ev);

/**
 * Gets the type of the verto_ev.
 *
 * @see verto_add_io()
 * @see verto_add_timeout()
 * @see verto_add_idle()
 * @see verto_add_signal()
 * @see verto_add_child()
 * @param ev The verto_ev
 * @return The verto_ev type
 */
verto_ev_type
verto_get_type(const verto_ev *ev);

/**
 * Gets the flags associated with the given verto_ev.
 *
 * @see verto_add_io()
 * @see verto_add_timeout()
 * @see verto_add_idle()
 * @see verto_add_signal()
 * @see verto_add_child()
 * @see verto_set_flags()
 * @param ev The verto_ev
 * @return The verto_ev type
 */
verto_ev_flag
verto_get_flags(const verto_ev *ev);

/**
 * Sets the flags associated with the given verto_ev.
 *
 * See _VERTO_EV_FLAG_MUTABLE_MASK for the flags that can be changed
 * with this function. All others will be ignored. If the flags specified
 * are the same as the flags the event already has, this function is a no-op.
 *
 * @see verto_add_io()
 * @see verto_add_timeout()
 * @see verto_add_idle()
 * @see verto_add_signal()
 * @see verto_add_child()
 * @see verto_get_flags()
 * @param ev The verto_ev
 * @param flags The flags for the event
 */
void
verto_set_flags(verto_ev *ev, verto_ev_flag flags);

/**
 * Gets the file descriptor associated with a read/write verto_ev.
 *
 * @see verto_add_io()
 * @param ev The verto_ev to retrieve the file descriptor from.
 * @return The file descriptor, or -1 if not a read/write event.
 */
int
verto_get_fd(const verto_ev *ev);

/**
 * Gets the file descriptor state from when the event fires.
 *
 * @see verto_add_io()
 * @param ev The verto_ev to retrieve the fd state from.
 * @return The fd state.
 */
verto_ev_flag
verto_get_fd_state(const verto_ev *ev);

/**
 * Gets the interval associated with a timeout verto_ev.
 *
 * @see verto_add_timeout()
 * @param ev The verto_ev to retrieve the interval from.
 * @return The interval, or 0 if not a timeout event.
 */
time_t
verto_get_interval(const verto_ev *ev);

/**
 * Gets the signal associated with a signal verto_ev.
 *
 * @see verto_add_signal()
 * @param ev The verto_ev to retrieve the signal from.
 * @return The signal, or -1 if not a signal event.
 */
int
verto_get_signal(const verto_ev *ev);

/**
 * Gets the process associated with a child verto_ev.
 *
 * @see verto_add_child()
 * @param ev The verto_ev to retrieve the process from.
 * @return The pid/handle, or 0/NULL if not a child event (POSIX/Win32).
 */
verto_proc
verto_get_proc(const verto_ev *ev);

/**
 * Gets the status of the process which caused this event to fire.
 *
 * @see verto_add_child()
 * @param ev The verto_ev to retrieve the status from.
 * @return The pid/handle status.
 */
verto_proc_status
verto_get_proc_status(const verto_ev *ev);

/**
 * Gets the verto_ctx associated with a verto_ev.
 *
 * This is a borrowed reference, don't attempt to free it!
 *
 * @param ev The verto_ev to retrieve the verto_ctx from.
 * @return The verto_ctx.
 */
verto_ctx *
verto_get_ctx(const verto_ev *ev);

/**
 * Removes an event from from the event context and frees it.
 *
 * The event and its contents cannot be used after this call.
 *
 * @see verto_add_io()
 * @see verto_add_timeout()
 * @see verto_add_idle()
 * @see verto_add_signal()
 * @see verto_add_child()
 * @param ev The event to delete.
 */
void
verto_del(verto_ev *ev);

/**
 * Returns the event types supported by this implementation.
 *
 * @param ctx The verto_ctx to query.
 * @return The event types supported.
 */
verto_ev_type
verto_get_supported_types(verto_ctx *ctx);

#ifdef __cplusplus
} /* extern "C" */
#endif /* __cplusplus */
#endif /* VERTO_H_ */

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