#ifndef VERTO_MODULE_TYPES
#define VERTO_MODULE_TYPES
typedef void verto_mod_ctx;
typedef void verto_mod_ev;
#endif
#define VERTO_MODULE_VERSION 3
#define VERTO_MODULE_TABLE(name) verto_module_table_ ## name
#define VERTO_MODULE(name, symb, types) \
static verto_ctx_funcs name ## _funcs = { \
name ## _ctx_new, \
name ## _ctx_default, \
name ## _ctx_free, \
name ## _ctx_run, \
name ## _ctx_run_once, \
name ## _ctx_break, \
name ## _ctx_reinitialize, \
name ## _ctx_set_flags, \
name ## _ctx_add, \
name ## _ctx_del \
}; \
verto_module VERTO_MODULE_TABLE(name) = { \
VERTO_MODULE_VERSION, \
# name, \
# symb, \
types, \
&name ## _funcs, \
}; \
verto_ctx * \
verto_new_ ## name() \
{ \
return verto_convert(name, 0, NULL); \
} \
verto_ctx * \
verto_default_ ## name() \
{ \
return verto_convert(name, 1, NULL); \
}
typedef struct {
/* Required */ verto_mod_ctx *(*ctx_new)();
/* Optional */ verto_mod_ctx *(*ctx_default)();
/* Required */ void (*ctx_free)(verto_mod_ctx *ctx);
/* Optional */ void (*ctx_run)(verto_mod_ctx *ctx);
/* Required */ void (*ctx_run_once)(verto_mod_ctx *ctx);
/* Optional */ void (*ctx_break)(verto_mod_ctx *ctx);
/* Optional */ void (*ctx_reinitialize)(verto_mod_ctx *ctx);
/* Optional */ void (*ctx_set_flags)(verto_mod_ctx *ctx,
const verto_ev *ev,
verto_mod_ev *modev);
/* Required */ verto_mod_ev *(*ctx_add)(verto_mod_ctx *ctx,
const verto_ev *ev,
verto_ev_flag *flags);
/* Required */ void (*ctx_del)(verto_mod_ctx *ctx,
const verto_ev *ev,
verto_mod_ev *modev);
} verto_ctx_funcs;
typedef struct {
unsigned int vers;
const char *name;
const char *symb;
verto_ev_type types;
verto_ctx_funcs *funcs;
} verto_module;
/**
* Converts an existing implementation specific loop to a verto_ctx.
*
* This function also sets the internal default implementation so that future
* calls to verto_new(NULL) or verto_default(NULL) will use this specific
* implementation if it was not already set.
*
* @param name The name of the module (unquoted)
* @param deflt Whether the ctx is the default context or not
* @param ctx The context to store
* @return A new verto_ctx, or NULL on error. Call verto_free() when done.
*/
#define verto_convert(name, deflt, ctx) \
verto_convert_module(&VERTO_MODULE_TABLE(name), deflt, ctx)
/**
* Converts an existing implementation specific loop to a verto_ctx.
*
* If you are a module implementation, you probably want the macro above. This
* function is generally used directly only when an application is attempting
* to expose a home-grown event loop to verto.
*
* If deflt is non-zero and a default ctx was already defined for this module
* and ctx is not NULL, than ctx will be free'd and the previously defined
* default will be returned.
*
* If ctx is non-NULL, than the pre-existing verto_mod_ctx will be converted to
* to a verto_ctx; if deflt is non-zero than this verto_mod_ctx will also be
* marked as the default loop for this process. If ctx is NULL, than the
* appropriate constructor will be called: either module->ctx_new() or
* module->ctx_default() depending on the boolean value of deflt. If
* module->ctx_default is NULL and deflt is non-zero, than module->ctx_new()
* will be called and the resulting verto_mod_ctx will be utilized as the
* default.
*
* This function also sets the internal default implementation so that future
* calls to verto_new(NULL) or verto_default(NULL) will use this specific
* implementation if it was not already set.
*
* @param name The name of the module (unquoted)
* @param ctx The context private to store
* @return A new verto_ctx, or NULL on error. Call verto_free() when done.
*/
verto_ctx *
verto_convert_module(const verto_module *module, int deflt, verto_mod_ctx *ctx);
/**
* Calls the callback of the verto_ev and then frees it via verto_del().
*
* The verto_ev is not freed (verto_del() is not called) if it is a signal event.
*
* @see verto_add_read()
* @see verto_add_write()
* @see verto_add_timeout()
* @see verto_add_idle()
* @see verto_add_signal()
* @see verto_add_child()
* @see verto_del()
* @param ev The verto_ev
*/
void
verto_fire(verto_ev *ev);
/**
* Sets the status of the pid/handle which caused this event to fire.
*
* This function does nothing if the verto_ev is not a child type.
*
* @see verto_add_child()
* @param ev The verto_ev to set the status in.
* @param status The pid/handle status.
*/
void
verto_set_proc_status(verto_ev *ev, verto_proc_status status);
/**
* Sets the state of the fd which caused this event to fire.
*
* This function does nothing if the verto_ev is not a io type.
*
* Only the flags VERTO_EV_FLAG_IO_(READ|WRITE|ERROR) are supported. All other
* flags are unset.
*
* @see verto_add_io()
* @param ev The verto_ev to set the state in.
* @param state The fd state.
*/
void
verto_set_fd_state(verto_ev *ev, verto_ev_flag state);
#endif /* VERTO_MODULE_H_ */