glib/gobject/gclosure.c
Xavier Claessens 707106c7a5 Fix Windows build errors in valgrind.h
valgrind.h is a verbatim copy taken from Valgrind project. Previously
that file had local changes that got dropped by last update. To avoid
regressing again, do not edit valgrind.h anymore and instead add a
gvalgrind.h wrapper that gets included instead.

This fix 2 errors:
- uintptr_t is not defined when including valgrind.h on mingw.
- MSVC compiler is not supported on amd64-Win64 platform.
2018-05-28 09:22:55 -04:00

1953 lines
64 KiB
C

/* GObject - GLib Type, Object, Parameter and Signal Library
* Copyright (C) 2000-2001 Red Hat, Inc.
* Copyright (C) 2005 Imendio AB
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* Public License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
/*
* MT safe with regards to reference counting.
*/
#include "config.h"
#include "../glib/gvalgrind.h"
#include <string.h>
#include <ffi.h>
#include "gclosure.h"
#include "gboxed.h"
#include "gobject.h"
#include "genums.h"
#include "gvalue.h"
#include "gvaluetypes.h"
#include "gtype-private.h"
/**
* SECTION:gclosure
* @short_description: Functions as first-class objects
* @title: Closures
*
* A #GClosure represents a callback supplied by the programmer. It
* will generally comprise a function of some kind and a marshaller
* used to call it. It is the responsibility of the marshaller to
* convert the arguments for the invocation from #GValues into
* a suitable form, perform the callback on the converted arguments,
* and transform the return value back into a #GValue.
*
* In the case of C programs, a closure usually just holds a pointer
* to a function and maybe a data argument, and the marshaller
* converts between #GValue and native C types. The GObject
* library provides the #GCClosure type for this purpose. Bindings for
* other languages need marshallers which convert between #GValues
* and suitable representations in the runtime of the language in
* order to use functions written in that language as callbacks. Use
* g_closure_set_marshal() to set the marshaller on such a custom
* closure implementation.
*
* Within GObject, closures play an important role in the
* implementation of signals. When a signal is registered, the
* @c_marshaller argument to g_signal_new() specifies the default C
* marshaller for any closure which is connected to this
* signal. GObject provides a number of C marshallers for this
* purpose, see the g_cclosure_marshal_*() functions. Additional C
* marshallers can be generated with the [glib-genmarshal][glib-genmarshal]
* utility. Closures can be explicitly connected to signals with
* g_signal_connect_closure(), but it usually more convenient to let
* GObject create a closure automatically by using one of the
* g_signal_connect_*() functions which take a callback function/user
* data pair.
*
* Using closures has a number of important advantages over a simple
* callback function/data pointer combination:
*
* - Closures allow the callee to get the types of the callback parameters,
* which means that language bindings don't have to write individual glue
* for each callback type.
*
* - The reference counting of #GClosure makes it easy to handle reentrancy
* right; if a callback is removed while it is being invoked, the closure
* and its parameters won't be freed until the invocation finishes.
*
* - g_closure_invalidate() and invalidation notifiers allow callbacks to be
* automatically removed when the objects they point to go away.
*/
#define CLOSURE_MAX_REF_COUNT ((1 << 15) - 1)
#define CLOSURE_MAX_N_GUARDS ((1 << 1) - 1)
#define CLOSURE_MAX_N_FNOTIFIERS ((1 << 2) - 1)
#define CLOSURE_MAX_N_INOTIFIERS ((1 << 8) - 1)
#define CLOSURE_N_MFUNCS(cl) (((cl)->n_guards << 1L))
/* same as G_CLOSURE_N_NOTIFIERS() (keep in sync) */
#define CLOSURE_N_NOTIFIERS(cl) (CLOSURE_N_MFUNCS (cl) + \
(cl)->n_fnotifiers + \
(cl)->n_inotifiers)
typedef union {
GClosure closure;
volatile gint vint;
} ClosureInt;
#define CHANGE_FIELD(_closure, _field, _OP, _value, _must_set, _SET_OLD, _SET_NEW) \
G_STMT_START { \
ClosureInt *cunion = (ClosureInt*) _closure; \
gint new_int, old_int, success; \
do \
{ \
ClosureInt tmp; \
tmp.vint = old_int = cunion->vint; \
_SET_OLD tmp.closure._field; \
tmp.closure._field _OP _value; \
_SET_NEW tmp.closure._field; \
new_int = tmp.vint; \
success = g_atomic_int_compare_and_exchange (&cunion->vint, old_int, new_int); \
} \
while (!success && _must_set); \
} G_STMT_END
#define SWAP(_closure, _field, _value, _oldv) CHANGE_FIELD (_closure, _field, =, _value, TRUE, *(_oldv) =, (void) )
#define SET(_closure, _field, _value) CHANGE_FIELD (_closure, _field, =, _value, TRUE, (void), (void) )
#define INC(_closure, _field) CHANGE_FIELD (_closure, _field, +=, 1, TRUE, (void), (void) )
#define INC_ASSIGN(_closure, _field, _newv) CHANGE_FIELD (_closure, _field, +=, 1, TRUE, (void), *(_newv) = )
#define DEC(_closure, _field) CHANGE_FIELD (_closure, _field, -=, 1, TRUE, (void), (void) )
#define DEC_ASSIGN(_closure, _field, _newv) CHANGE_FIELD (_closure, _field, -=, 1, TRUE, (void), *(_newv) = )
#if 0 /* for non-thread-safe closures */
#define SWAP(cl,f,v,o) (void) (*(o) = cl->f, cl->f = v)
#define SET(cl,f,v) (void) (cl->f = v)
#define INC(cl,f) (void) (cl->f += 1)
#define INC_ASSIGN(cl,f,n) (void) (cl->f += 1, *(n) = cl->f)
#define DEC(cl,f) (void) (cl->f -= 1)
#define DEC_ASSIGN(cl,f,n) (void) (cl->f -= 1, *(n) = cl->f)
#endif
enum {
FNOTIFY,
INOTIFY,
PRE_NOTIFY,
POST_NOTIFY
};
/* --- functions --- */
/**
* g_closure_new_simple:
* @sizeof_closure: the size of the structure to allocate, must be at least
* `sizeof (GClosure)`
* @data: data to store in the @data field of the newly allocated #GClosure
*
* Allocates a struct of the given size and initializes the initial
* part as a #GClosure. This function is mainly useful when
* implementing new types of closures.
*
* |[<!-- language="C" -->
* typedef struct _MyClosure MyClosure;
* struct _MyClosure
* {
* GClosure closure;
* // extra data goes here
* };
*
* static void
* my_closure_finalize (gpointer notify_data,
* GClosure *closure)
* {
* MyClosure *my_closure = (MyClosure *)closure;
*
* // free extra data here
* }
*
* MyClosure *my_closure_new (gpointer data)
* {
* GClosure *closure;
* MyClosure *my_closure;
*
* closure = g_closure_new_simple (sizeof (MyClosure), data);
* my_closure = (MyClosure *) closure;
*
* // initialize extra data here
*
* g_closure_add_finalize_notifier (closure, notify_data,
* my_closure_finalize);
* return my_closure;
* }
* ]|
*
* Returns: (transfer none): a floating reference to a new #GClosure
*/
GClosure*
g_closure_new_simple (guint sizeof_closure,
gpointer data)
{
GClosure *closure;
gint private_size;
gchar *allocated;
g_return_val_if_fail (sizeof_closure >= sizeof (GClosure), NULL);
private_size = sizeof (GRealClosure) - sizeof (GClosure);
#ifdef ENABLE_VALGRIND
/* See comments in gtype.c about what's going on here... */
if (RUNNING_ON_VALGRIND)
{
private_size += sizeof (gpointer);
allocated = g_malloc0 (private_size + sizeof_closure + sizeof (gpointer));
*(gpointer *) (allocated + private_size + sizeof_closure) = allocated + sizeof (gpointer);
VALGRIND_MALLOCLIKE_BLOCK (allocated + private_size, sizeof_closure + sizeof (gpointer), 0, TRUE);
VALGRIND_MALLOCLIKE_BLOCK (allocated + sizeof (gpointer), private_size - sizeof (gpointer), 0, TRUE);
}
else
#endif
allocated = g_malloc0 (private_size + sizeof_closure);
closure = (GClosure *) (allocated + private_size);
SET (closure, ref_count, 1);
SET (closure, floating, TRUE);
closure->data = data;
return closure;
}
static inline void
closure_invoke_notifiers (GClosure *closure,
guint notify_type)
{
/* notifier layout:
* n_guards n_guards n_fnotif. n_inotifiers
* ->[[pre_guards][post_guards][fnotifiers][inotifiers]]
*
* CLOSURE_N_MFUNCS(cl) = n_guards + n_guards;
* CLOSURE_N_NOTIFIERS(cl) = CLOSURE_N_MFUNCS(cl) + n_fnotifiers + n_inotifiers
*
* constrains/catches:
* - closure->notifiers may be reloacted during callback
* - closure->n_fnotifiers and closure->n_inotifiers may change during callback
* - i.e. callbacks can be removed/added during invocation
* - must prepare for callback removal during FNOTIFY and INOTIFY (done via ->marshal= & ->data=)
* - must distinguish (->marshal= & ->data=) for INOTIFY vs. FNOTIFY (via ->in_inotify)
* + closure->n_guards is const during PRE_NOTIFY & POST_NOTIFY
* + none of the callbacks can cause recursion
* + closure->n_inotifiers is const 0 during FNOTIFY
*/
switch (notify_type)
{
GClosureNotifyData *ndata;
guint i, offs;
case FNOTIFY:
while (closure->n_fnotifiers)
{
guint n;
DEC_ASSIGN (closure, n_fnotifiers, &n);
ndata = closure->notifiers + CLOSURE_N_MFUNCS (closure) + n;
closure->marshal = (GClosureMarshal) ndata->notify;
closure->data = ndata->data;
ndata->notify (ndata->data, closure);
}
closure->marshal = NULL;
closure->data = NULL;
break;
case INOTIFY:
SET (closure, in_inotify, TRUE);
while (closure->n_inotifiers)
{
guint n;
DEC_ASSIGN (closure, n_inotifiers, &n);
ndata = closure->notifiers + CLOSURE_N_MFUNCS (closure) + closure->n_fnotifiers + n;
closure->marshal = (GClosureMarshal) ndata->notify;
closure->data = ndata->data;
ndata->notify (ndata->data, closure);
}
closure->marshal = NULL;
closure->data = NULL;
SET (closure, in_inotify, FALSE);
break;
case PRE_NOTIFY:
i = closure->n_guards;
offs = 0;
while (i--)
{
ndata = closure->notifiers + offs + i;
ndata->notify (ndata->data, closure);
}
break;
case POST_NOTIFY:
i = closure->n_guards;
offs = i;
while (i--)
{
ndata = closure->notifiers + offs + i;
ndata->notify (ndata->data, closure);
}
break;
}
}
static void
g_closure_set_meta_va_marshal (GClosure *closure,
GVaClosureMarshal va_meta_marshal)
{
GRealClosure *real_closure;
g_return_if_fail (closure != NULL);
g_return_if_fail (va_meta_marshal != NULL);
g_return_if_fail (closure->is_invalid == FALSE);
g_return_if_fail (closure->in_marshal == FALSE);
real_closure = G_REAL_CLOSURE (closure);
g_return_if_fail (real_closure->meta_marshal != NULL);
real_closure->va_meta_marshal = va_meta_marshal;
}
/**
* g_closure_set_meta_marshal: (skip)
* @closure: a #GClosure
* @marshal_data: (closure meta_marshal): context-dependent data to pass
* to @meta_marshal
* @meta_marshal: a #GClosureMarshal function
*
* Sets the meta marshaller of @closure. A meta marshaller wraps
* @closure->marshal and modifies the way it is called in some
* fashion. The most common use of this facility is for C callbacks.
* The same marshallers (generated by [glib-genmarshal][glib-genmarshal]),
* are used everywhere, but the way that we get the callback function
* differs. In most cases we want to use @closure->callback, but in
* other cases we want to use some different technique to retrieve the
* callback function.
*
* For example, class closures for signals (see
* g_signal_type_cclosure_new()) retrieve the callback function from a
* fixed offset in the class structure. The meta marshaller retrieves
* the right callback and passes it to the marshaller as the
* @marshal_data argument.
*/
void
g_closure_set_meta_marshal (GClosure *closure,
gpointer marshal_data,
GClosureMarshal meta_marshal)
{
GRealClosure *real_closure;
g_return_if_fail (closure != NULL);
g_return_if_fail (meta_marshal != NULL);
g_return_if_fail (closure->is_invalid == FALSE);
g_return_if_fail (closure->in_marshal == FALSE);
real_closure = G_REAL_CLOSURE (closure);
g_return_if_fail (real_closure->meta_marshal == NULL);
real_closure->meta_marshal = meta_marshal;
real_closure->meta_marshal_data = marshal_data;
}
/**
* g_closure_add_marshal_guards: (skip)
* @closure: a #GClosure
* @pre_marshal_data: (closure pre_marshal_notify): data to pass
* to @pre_marshal_notify
* @pre_marshal_notify: a function to call before the closure callback
* @post_marshal_data: (closure post_marshal_notify): data to pass
* to @post_marshal_notify
* @post_marshal_notify: a function to call after the closure callback
*
* Adds a pair of notifiers which get invoked before and after the
* closure callback, respectively. This is typically used to protect
* the extra arguments for the duration of the callback. See
* g_object_watch_closure() for an example of marshal guards.
*/
void
g_closure_add_marshal_guards (GClosure *closure,
gpointer pre_marshal_data,
GClosureNotify pre_marshal_notify,
gpointer post_marshal_data,
GClosureNotify post_marshal_notify)
{
guint i;
g_return_if_fail (closure != NULL);
g_return_if_fail (pre_marshal_notify != NULL);
g_return_if_fail (post_marshal_notify != NULL);
g_return_if_fail (closure->is_invalid == FALSE);
g_return_if_fail (closure->in_marshal == FALSE);
g_return_if_fail (closure->n_guards < CLOSURE_MAX_N_GUARDS);
closure->notifiers = g_renew (GClosureNotifyData, closure->notifiers, CLOSURE_N_NOTIFIERS (closure) + 2);
if (closure->n_inotifiers)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers +
closure->n_inotifiers + 1)] = closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers + 0)];
if (closure->n_inotifiers > 1)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers +
closure->n_inotifiers)] = closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers + 1)];
if (closure->n_fnotifiers)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers + 1)] = closure->notifiers[CLOSURE_N_MFUNCS (closure) + 0];
if (closure->n_fnotifiers > 1)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers)] = closure->notifiers[CLOSURE_N_MFUNCS (closure) + 1];
if (closure->n_guards)
closure->notifiers[(closure->n_guards +
closure->n_guards + 1)] = closure->notifiers[closure->n_guards];
i = closure->n_guards;
closure->notifiers[i].data = pre_marshal_data;
closure->notifiers[i].notify = pre_marshal_notify;
closure->notifiers[i + 1].data = post_marshal_data;
closure->notifiers[i + 1].notify = post_marshal_notify;
INC (closure, n_guards);
}
/**
* g_closure_add_finalize_notifier: (skip)
* @closure: a #GClosure
* @notify_data: (closure notify_func): data to pass to @notify_func
* @notify_func: the callback function to register
*
* Registers a finalization notifier which will be called when the
* reference count of @closure goes down to 0. Multiple finalization
* notifiers on a single closure are invoked in unspecified order. If
* a single call to g_closure_unref() results in the closure being
* both invalidated and finalized, then the invalidate notifiers will
* be run before the finalize notifiers.
*/
void
g_closure_add_finalize_notifier (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
guint i;
g_return_if_fail (closure != NULL);
g_return_if_fail (notify_func != NULL);
g_return_if_fail (closure->n_fnotifiers < CLOSURE_MAX_N_FNOTIFIERS);
closure->notifiers = g_renew (GClosureNotifyData, closure->notifiers, CLOSURE_N_NOTIFIERS (closure) + 1);
if (closure->n_inotifiers)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers +
closure->n_inotifiers)] = closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers + 0)];
i = CLOSURE_N_MFUNCS (closure) + closure->n_fnotifiers;
closure->notifiers[i].data = notify_data;
closure->notifiers[i].notify = notify_func;
INC (closure, n_fnotifiers);
}
/**
* g_closure_add_invalidate_notifier: (skip)
* @closure: a #GClosure
* @notify_data: (closure notify_func): data to pass to @notify_func
* @notify_func: the callback function to register
*
* Registers an invalidation notifier which will be called when the
* @closure is invalidated with g_closure_invalidate(). Invalidation
* notifiers are invoked before finalization notifiers, in an
* unspecified order.
*/
void
g_closure_add_invalidate_notifier (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
guint i;
g_return_if_fail (closure != NULL);
g_return_if_fail (notify_func != NULL);
g_return_if_fail (closure->is_invalid == FALSE);
g_return_if_fail (closure->n_inotifiers < CLOSURE_MAX_N_INOTIFIERS);
closure->notifiers = g_renew (GClosureNotifyData, closure->notifiers, CLOSURE_N_NOTIFIERS (closure) + 1);
i = CLOSURE_N_MFUNCS (closure) + closure->n_fnotifiers + closure->n_inotifiers;
closure->notifiers[i].data = notify_data;
closure->notifiers[i].notify = notify_func;
INC (closure, n_inotifiers);
}
static inline gboolean
closure_try_remove_inotify (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
GClosureNotifyData *ndata, *nlast;
nlast = closure->notifiers + CLOSURE_N_NOTIFIERS (closure) - 1;
for (ndata = nlast + 1 - closure->n_inotifiers; ndata <= nlast; ndata++)
if (ndata->notify == notify_func && ndata->data == notify_data)
{
DEC (closure, n_inotifiers);
if (ndata < nlast)
*ndata = *nlast;
return TRUE;
}
return FALSE;
}
static inline gboolean
closure_try_remove_fnotify (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
GClosureNotifyData *ndata, *nlast;
nlast = closure->notifiers + CLOSURE_N_NOTIFIERS (closure) - closure->n_inotifiers - 1;
for (ndata = nlast + 1 - closure->n_fnotifiers; ndata <= nlast; ndata++)
if (ndata->notify == notify_func && ndata->data == notify_data)
{
DEC (closure, n_fnotifiers);
if (ndata < nlast)
*ndata = *nlast;
if (closure->n_inotifiers)
closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers)] = closure->notifiers[(CLOSURE_N_MFUNCS (closure) +
closure->n_fnotifiers +
closure->n_inotifiers)];
return TRUE;
}
return FALSE;
}
/**
* g_closure_ref:
* @closure: #GClosure to increment the reference count on
*
* Increments the reference count on a closure to force it staying
* alive while the caller holds a pointer to it.
*
* Returns: (transfer none): The @closure passed in, for convenience
*/
GClosure*
g_closure_ref (GClosure *closure)
{
guint new_ref_count;
g_return_val_if_fail (closure != NULL, NULL);
g_return_val_if_fail (closure->ref_count > 0, NULL);
g_return_val_if_fail (closure->ref_count < CLOSURE_MAX_REF_COUNT, NULL);
INC_ASSIGN (closure, ref_count, &new_ref_count);
g_return_val_if_fail (new_ref_count > 1, NULL);
return closure;
}
/**
* g_closure_invalidate:
* @closure: GClosure to invalidate
*
* Sets a flag on the closure to indicate that its calling
* environment has become invalid, and thus causes any future
* invocations of g_closure_invoke() on this @closure to be
* ignored. Also, invalidation notifiers installed on the closure will
* be called at this point. Note that unless you are holding a
* reference to the closure yourself, the invalidation notifiers may
* unref the closure and cause it to be destroyed, so if you need to
* access the closure after calling g_closure_invalidate(), make sure
* that you've previously called g_closure_ref().
*
* Note that g_closure_invalidate() will also be called when the
* reference count of a closure drops to zero (unless it has already
* been invalidated before).
*/
void
g_closure_invalidate (GClosure *closure)
{
g_return_if_fail (closure != NULL);
if (!closure->is_invalid)
{
gboolean was_invalid;
g_closure_ref (closure); /* preserve floating flag */
SWAP (closure, is_invalid, TRUE, &was_invalid);
/* invalidate only once */
if (!was_invalid)
closure_invoke_notifiers (closure, INOTIFY);
g_closure_unref (closure);
}
}
/**
* g_closure_unref:
* @closure: #GClosure to decrement the reference count on
*
* Decrements the reference count of a closure after it was previously
* incremented by the same caller. If no other callers are using the
* closure, then the closure will be destroyed and freed.
*/
void
g_closure_unref (GClosure *closure)
{
guint new_ref_count;
g_return_if_fail (closure != NULL);
g_return_if_fail (closure->ref_count > 0);
if (closure->ref_count == 1) /* last unref, invalidate first */
g_closure_invalidate (closure);
DEC_ASSIGN (closure, ref_count, &new_ref_count);
if (new_ref_count == 0)
{
closure_invoke_notifiers (closure, FNOTIFY);
g_free (closure->notifiers);
#ifdef ENABLE_VALGRIND
/* See comments in gtype.c about what's going on here... */
if (RUNNING_ON_VALGRIND)
{
gchar *allocated;
allocated = (gchar *) G_REAL_CLOSURE (closure);
allocated -= sizeof (gpointer);
g_free (allocated);
VALGRIND_FREELIKE_BLOCK (allocated + sizeof (gpointer), 0);
VALGRIND_FREELIKE_BLOCK (closure, 0);
}
else
#endif
g_free (G_REAL_CLOSURE (closure));
}
}
/**
* g_closure_sink:
* @closure: #GClosure to decrement the initial reference count on, if it's
* still being held
*
* Takes over the initial ownership of a closure. Each closure is
* initially created in a "floating" state, which means that the initial
* reference count is not owned by any caller. g_closure_sink() checks
* to see if the object is still floating, and if so, unsets the
* floating state and decreases the reference count. If the closure
* is not floating, g_closure_sink() does nothing. The reason for the
* existence of the floating state is to prevent cumbersome code
* sequences like:
* |[<!-- language="C" -->
* closure = g_cclosure_new (cb_func, cb_data);
* g_source_set_closure (source, closure);
* g_closure_unref (closure); // GObject doesn't really need this
* ]|
* Because g_source_set_closure() (and similar functions) take ownership of the
* initial reference count, if it is unowned, we instead can write:
* |[<!-- language="C" -->
* g_source_set_closure (source, g_cclosure_new (cb_func, cb_data));
* ]|
*
* Generally, this function is used together with g_closure_ref(). Ane example
* of storing a closure for later notification looks like:
* |[<!-- language="C" -->
* static GClosure *notify_closure = NULL;
* void
* foo_notify_set_closure (GClosure *closure)
* {
* if (notify_closure)
* g_closure_unref (notify_closure);
* notify_closure = closure;
* if (notify_closure)
* {
* g_closure_ref (notify_closure);
* g_closure_sink (notify_closure);
* }
* }
* ]|
*
* Because g_closure_sink() may decrement the reference count of a closure
* (if it hasn't been called on @closure yet) just like g_closure_unref(),
* g_closure_ref() should be called prior to this function.
*/
void
g_closure_sink (GClosure *closure)
{
g_return_if_fail (closure != NULL);
g_return_if_fail (closure->ref_count > 0);
/* floating is basically a kludge to avoid creating closures
* with a ref_count of 0. so the initial ref_count a closure has
* is unowned. with invoking g_closure_sink() code may
* indicate that it takes over that intiial ref_count.
*/
if (closure->floating)
{
gboolean was_floating;
SWAP (closure, floating, FALSE, &was_floating);
/* unref floating flag only once */
if (was_floating)
g_closure_unref (closure);
}
}
/**
* g_closure_remove_invalidate_notifier: (skip)
* @closure: a #GClosure
* @notify_data: data which was passed to g_closure_add_invalidate_notifier()
* when registering @notify_func
* @notify_func: the callback function to remove
*
* Removes an invalidation notifier.
*
* Notice that notifiers are automatically removed after they are run.
*/
void
g_closure_remove_invalidate_notifier (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
g_return_if_fail (closure != NULL);
g_return_if_fail (notify_func != NULL);
if (closure->is_invalid && closure->in_inotify && /* account removal of notify_func() while it's called */
((gpointer) closure->marshal) == ((gpointer) notify_func) &&
closure->data == notify_data)
closure->marshal = NULL;
else if (!closure_try_remove_inotify (closure, notify_data, notify_func))
g_warning (G_STRLOC ": unable to remove uninstalled invalidation notifier: %p (%p)",
notify_func, notify_data);
}
/**
* g_closure_remove_finalize_notifier: (skip)
* @closure: a #GClosure
* @notify_data: data which was passed to g_closure_add_finalize_notifier()
* when registering @notify_func
* @notify_func: the callback function to remove
*
* Removes a finalization notifier.
*
* Notice that notifiers are automatically removed after they are run.
*/
void
g_closure_remove_finalize_notifier (GClosure *closure,
gpointer notify_data,
GClosureNotify notify_func)
{
g_return_if_fail (closure != NULL);
g_return_if_fail (notify_func != NULL);
if (closure->is_invalid && !closure->in_inotify && /* account removal of notify_func() while it's called */
((gpointer) closure->marshal) == ((gpointer) notify_func) &&
closure->data == notify_data)
closure->marshal = NULL;
else if (!closure_try_remove_fnotify (closure, notify_data, notify_func))
g_warning (G_STRLOC ": unable to remove uninstalled finalization notifier: %p (%p)",
notify_func, notify_data);
}
/**
* g_closure_invoke:
* @closure: a #GClosure
* @return_value: (optional) (out): a #GValue to store the return
* value. May be %NULL if the callback of @closure
* doesn't return a value.
* @n_param_values: the length of the @param_values array
* @param_values: (array length=n_param_values): an array of
* #GValues holding the arguments on which to
* invoke the callback of @closure
* @invocation_hint: (nullable): a context-dependent invocation hint
*
* Invokes the closure, i.e. executes the callback represented by the @closure.
*/
void
g_closure_invoke (GClosure *closure,
GValue /*out*/ *return_value,
guint n_param_values,
const GValue *param_values,
gpointer invocation_hint)
{
GRealClosure *real_closure;
g_return_if_fail (closure != NULL);
real_closure = G_REAL_CLOSURE (closure);
g_closure_ref (closure); /* preserve floating flag */
if (!closure->is_invalid)
{
GClosureMarshal marshal;
gpointer marshal_data;
gboolean in_marshal = closure->in_marshal;
g_return_if_fail (closure->marshal || real_closure->meta_marshal);
SET (closure, in_marshal, TRUE);
if (real_closure->meta_marshal)
{
marshal_data = real_closure->meta_marshal_data;
marshal = real_closure->meta_marshal;
}
else
{
marshal_data = NULL;
marshal = closure->marshal;
}
if (!in_marshal)
closure_invoke_notifiers (closure, PRE_NOTIFY);
marshal (closure,
return_value,
n_param_values, param_values,
invocation_hint,
marshal_data);
if (!in_marshal)
closure_invoke_notifiers (closure, POST_NOTIFY);
SET (closure, in_marshal, in_marshal);
}
g_closure_unref (closure);
}
gboolean
_g_closure_supports_invoke_va (GClosure *closure)
{
GRealClosure *real_closure;
g_return_val_if_fail (closure != NULL, FALSE);
real_closure = G_REAL_CLOSURE (closure);
return
real_closure->va_marshal != NULL &&
(real_closure->meta_marshal == NULL ||
real_closure->va_meta_marshal != NULL);
}
void
_g_closure_invoke_va (GClosure *closure,
GValue /*out*/ *return_value,
gpointer instance,
va_list args,
int n_params,
GType *param_types)
{
GRealClosure *real_closure;
g_return_if_fail (closure != NULL);
real_closure = G_REAL_CLOSURE (closure);
g_closure_ref (closure); /* preserve floating flag */
if (!closure->is_invalid)
{
GVaClosureMarshal marshal;
gpointer marshal_data;
gboolean in_marshal = closure->in_marshal;
g_return_if_fail (closure->marshal || real_closure->meta_marshal);
SET (closure, in_marshal, TRUE);
if (real_closure->va_meta_marshal)
{
marshal_data = real_closure->meta_marshal_data;
marshal = real_closure->va_meta_marshal;
}
else
{
marshal_data = NULL;
marshal = real_closure->va_marshal;
}
if (!in_marshal)
closure_invoke_notifiers (closure, PRE_NOTIFY);
marshal (closure,
return_value,
instance, args,
marshal_data,
n_params, param_types);
if (!in_marshal)
closure_invoke_notifiers (closure, POST_NOTIFY);
SET (closure, in_marshal, in_marshal);
}
g_closure_unref (closure);
}
/**
* g_closure_set_marshal: (skip)
* @closure: a #GClosure
* @marshal: a #GClosureMarshal function
*
* Sets the marshaller of @closure. The `marshal_data`
* of @marshal provides a way for a meta marshaller to provide additional
* information to the marshaller. (See g_closure_set_meta_marshal().) For
* GObject's C predefined marshallers (the g_cclosure_marshal_*()
* functions), what it provides is a callback function to use instead of
* @closure->callback.
*/
void
g_closure_set_marshal (GClosure *closure,
GClosureMarshal marshal)
{
g_return_if_fail (closure != NULL);
g_return_if_fail (marshal != NULL);
if (closure->marshal && closure->marshal != marshal)
g_warning ("attempt to override closure->marshal (%p) with new marshal (%p)",
closure->marshal, marshal);
else
closure->marshal = marshal;
}
void
_g_closure_set_va_marshal (GClosure *closure,
GVaClosureMarshal marshal)
{
GRealClosure *real_closure;
g_return_if_fail (closure != NULL);
g_return_if_fail (marshal != NULL);
real_closure = G_REAL_CLOSURE (closure);
if (real_closure->va_marshal && real_closure->va_marshal != marshal)
g_warning ("attempt to override closure->va_marshal (%p) with new marshal (%p)",
real_closure->va_marshal, marshal);
else
real_closure->va_marshal = marshal;
}
/**
* g_cclosure_new: (skip)
* @callback_func: the function to invoke
* @user_data: (closure callback_func): user data to pass to @callback_func
* @destroy_data: destroy notify to be called when @user_data is no longer used
*
* Creates a new closure which invokes @callback_func with @user_data as
* the last parameter.
*
* Returns: (transfer none): a floating reference to a new #GCClosure
*/
GClosure*
g_cclosure_new (GCallback callback_func,
gpointer user_data,
GClosureNotify destroy_data)
{
GClosure *closure;
g_return_val_if_fail (callback_func != NULL, NULL);
closure = g_closure_new_simple (sizeof (GCClosure), user_data);
if (destroy_data)
g_closure_add_finalize_notifier (closure, user_data, destroy_data);
((GCClosure*) closure)->callback = (gpointer) callback_func;
return closure;
}
/**
* g_cclosure_new_swap: (skip)
* @callback_func: the function to invoke
* @user_data: (closure callback_func): user data to pass to @callback_func
* @destroy_data: destroy notify to be called when @user_data is no longer used
*
* Creates a new closure which invokes @callback_func with @user_data as
* the first parameter.
*
* Returns: (transfer none): a floating reference to a new #GCClosure
*/
GClosure*
g_cclosure_new_swap (GCallback callback_func,
gpointer user_data,
GClosureNotify destroy_data)
{
GClosure *closure;
g_return_val_if_fail (callback_func != NULL, NULL);
closure = g_closure_new_simple (sizeof (GCClosure), user_data);
if (destroy_data)
g_closure_add_finalize_notifier (closure, user_data, destroy_data);
((GCClosure*) closure)->callback = (gpointer) callback_func;
SET (closure, derivative_flag, TRUE);
return closure;
}
static void
g_type_class_meta_marshal (GClosure *closure,
GValue /*out*/ *return_value,
guint n_param_values,
const GValue *param_values,
gpointer invocation_hint,
gpointer marshal_data)
{
GTypeClass *class;
gpointer callback;
/* GType itype = (GType) closure->data; */
guint offset = GPOINTER_TO_UINT (marshal_data);
class = G_TYPE_INSTANCE_GET_CLASS (g_value_peek_pointer (param_values + 0), itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
if (callback)
closure->marshal (closure,
return_value,
n_param_values, param_values,
invocation_hint,
callback);
}
static void
g_type_class_meta_marshalv (GClosure *closure,
GValue *return_value,
gpointer instance,
va_list args,
gpointer marshal_data,
int n_params,
GType *param_types)
{
GRealClosure *real_closure;
GTypeClass *class;
gpointer callback;
/* GType itype = (GType) closure->data; */
guint offset = GPOINTER_TO_UINT (marshal_data);
real_closure = G_REAL_CLOSURE (closure);
class = G_TYPE_INSTANCE_GET_CLASS (instance, itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
if (callback)
real_closure->va_marshal (closure,
return_value,
instance, args,
callback,
n_params,
param_types);
}
static void
g_type_iface_meta_marshal (GClosure *closure,
GValue /*out*/ *return_value,
guint n_param_values,
const GValue *param_values,
gpointer invocation_hint,
gpointer marshal_data)
{
GTypeClass *class;
gpointer callback;
GType itype = (GType) closure->data;
guint offset = GPOINTER_TO_UINT (marshal_data);
class = G_TYPE_INSTANCE_GET_INTERFACE (g_value_peek_pointer (param_values + 0), itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
if (callback)
closure->marshal (closure,
return_value,
n_param_values, param_values,
invocation_hint,
callback);
}
gboolean
_g_closure_is_void (GClosure *closure,
gpointer instance)
{
GRealClosure *real_closure;
GTypeClass *class;
gpointer callback;
GType itype;
guint offset;
if (closure->is_invalid)
return TRUE;
real_closure = G_REAL_CLOSURE (closure);
if (real_closure->meta_marshal == g_type_iface_meta_marshal)
{
itype = (GType) closure->data;
offset = GPOINTER_TO_UINT (real_closure->meta_marshal_data);
class = G_TYPE_INSTANCE_GET_INTERFACE (instance, itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
return callback == NULL;
}
else if (real_closure->meta_marshal == g_type_class_meta_marshal)
{
offset = GPOINTER_TO_UINT (real_closure->meta_marshal_data);
class = G_TYPE_INSTANCE_GET_CLASS (instance, itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
return callback == NULL;
}
return FALSE;
}
static void
g_type_iface_meta_marshalv (GClosure *closure,
GValue *return_value,
gpointer instance,
va_list args,
gpointer marshal_data,
int n_params,
GType *param_types)
{
GRealClosure *real_closure;
GTypeClass *class;
gpointer callback;
GType itype = (GType) closure->data;
guint offset = GPOINTER_TO_UINT (marshal_data);
real_closure = G_REAL_CLOSURE (closure);
class = G_TYPE_INSTANCE_GET_INTERFACE (instance, itype, GTypeClass);
callback = G_STRUCT_MEMBER (gpointer, class, offset);
if (callback)
real_closure->va_marshal (closure,
return_value,
instance, args,
callback,
n_params,
param_types);
}
/**
* g_signal_type_cclosure_new:
* @itype: the #GType identifier of an interface or classed type
* @struct_offset: the offset of the member function of @itype's class
* structure which is to be invoked by the new closure
*
* Creates a new closure which invokes the function found at the offset
* @struct_offset in the class structure of the interface or classed type
* identified by @itype.
*
* Returns: (transfer none): a floating reference to a new #GCClosure
*/
GClosure*
g_signal_type_cclosure_new (GType itype,
guint struct_offset)
{
GClosure *closure;
g_return_val_if_fail (G_TYPE_IS_CLASSED (itype) || G_TYPE_IS_INTERFACE (itype), NULL);
g_return_val_if_fail (struct_offset >= sizeof (GTypeClass), NULL);
closure = g_closure_new_simple (sizeof (GClosure), (gpointer) itype);
if (G_TYPE_IS_INTERFACE (itype))
{
g_closure_set_meta_marshal (closure, GUINT_TO_POINTER (struct_offset), g_type_iface_meta_marshal);
g_closure_set_meta_va_marshal (closure, g_type_iface_meta_marshalv);
}
else
{
g_closure_set_meta_marshal (closure, GUINT_TO_POINTER (struct_offset), g_type_class_meta_marshal);
g_closure_set_meta_va_marshal (closure, g_type_class_meta_marshalv);
}
return closure;
}
#include <ffi.h>
static ffi_type *
value_to_ffi_type (const GValue *gvalue,
gpointer *value,
gint *enum_tmpval,
gboolean *tmpval_used)
{
ffi_type *rettype = NULL;
GType type = g_type_fundamental (G_VALUE_TYPE (gvalue));
g_assert (type != G_TYPE_INVALID);
if (enum_tmpval)
{
g_assert (tmpval_used != NULL);
*tmpval_used = FALSE;
}
switch (type)
{
case G_TYPE_BOOLEAN:
case G_TYPE_CHAR:
case G_TYPE_INT:
rettype = &ffi_type_sint;
*value = (gpointer)&(gvalue->data[0].v_int);
break;
case G_TYPE_ENUM:
/* enums are stored in v_long even though they are integers, which makes
* marshalling through libffi somewhat complicated. They need to be
* marshalled as signed ints, but we need to use a temporary int sized
* value to pass to libffi otherwise it'll pull the wrong value on
* BE machines with 32-bit integers when treating v_long as 32-bit int.
*/
g_assert (enum_tmpval != NULL);
rettype = &ffi_type_sint;
*enum_tmpval = g_value_get_enum (gvalue);
*value = enum_tmpval;
*tmpval_used = TRUE;
break;
case G_TYPE_FLAGS:
g_assert (enum_tmpval != NULL);
rettype = &ffi_type_uint;
*enum_tmpval = g_value_get_flags (gvalue);
*value = enum_tmpval;
*tmpval_used = TRUE;
break;
case G_TYPE_UCHAR:
case G_TYPE_UINT:
rettype = &ffi_type_uint;
*value = (gpointer)&(gvalue->data[0].v_uint);
break;
case G_TYPE_STRING:
case G_TYPE_OBJECT:
case G_TYPE_BOXED:
case G_TYPE_PARAM:
case G_TYPE_POINTER:
case G_TYPE_INTERFACE:
case G_TYPE_VARIANT:
rettype = &ffi_type_pointer;
*value = (gpointer)&(gvalue->data[0].v_pointer);
break;
case G_TYPE_FLOAT:
rettype = &ffi_type_float;
*value = (gpointer)&(gvalue->data[0].v_float);
break;
case G_TYPE_DOUBLE:
rettype = &ffi_type_double;
*value = (gpointer)&(gvalue->data[0].v_double);
break;
case G_TYPE_LONG:
rettype = &ffi_type_slong;
*value = (gpointer)&(gvalue->data[0].v_long);
break;
case G_TYPE_ULONG:
rettype = &ffi_type_ulong;
*value = (gpointer)&(gvalue->data[0].v_ulong);
break;
case G_TYPE_INT64:
rettype = &ffi_type_sint64;
*value = (gpointer)&(gvalue->data[0].v_int64);
break;
case G_TYPE_UINT64:
rettype = &ffi_type_uint64;
*value = (gpointer)&(gvalue->data[0].v_uint64);
break;
default:
rettype = &ffi_type_pointer;
*value = NULL;
g_warning ("value_to_ffi_type: Unsupported fundamental type: %s", g_type_name (type));
break;
}
return rettype;
}
static void
value_from_ffi_type (GValue *gvalue, gpointer *value)
{
ffi_arg *int_val = (ffi_arg*) value;
switch (g_type_fundamental (G_VALUE_TYPE (gvalue)))
{
case G_TYPE_INT:
g_value_set_int (gvalue, (gint) *int_val);
break;
case G_TYPE_FLOAT:
g_value_set_float (gvalue, *(gfloat*)value);
break;
case G_TYPE_DOUBLE:
g_value_set_double (gvalue, *(gdouble*)value);
break;
case G_TYPE_BOOLEAN:
g_value_set_boolean (gvalue, (gboolean) *int_val);
break;
case G_TYPE_STRING:
g_value_take_string (gvalue, *(gchar**)value);
break;
case G_TYPE_CHAR:
g_value_set_schar (gvalue, (gint8) *int_val);
break;
case G_TYPE_UCHAR:
g_value_set_uchar (gvalue, (guchar) *int_val);
break;
case G_TYPE_UINT:
g_value_set_uint (gvalue, (guint) *int_val);
break;
case G_TYPE_POINTER:
g_value_set_pointer (gvalue, *(gpointer*)value);
break;
case G_TYPE_LONG:
g_value_set_long (gvalue, (glong) *int_val);
break;
case G_TYPE_ULONG:
g_value_set_ulong (gvalue, (gulong) *int_val);
break;
case G_TYPE_INT64:
g_value_set_int64 (gvalue, (gint64) *int_val);
break;
case G_TYPE_UINT64:
g_value_set_uint64 (gvalue, (guint64) *int_val);
break;
case G_TYPE_BOXED:
g_value_take_boxed (gvalue, *(gpointer*)value);
break;
case G_TYPE_ENUM:
g_value_set_enum (gvalue, (gint) *int_val);
break;
case G_TYPE_FLAGS:
g_value_set_flags (gvalue, (guint) *int_val);
break;
case G_TYPE_PARAM:
g_value_take_param (gvalue, *(gpointer*)value);
break;
case G_TYPE_OBJECT:
g_value_take_object (gvalue, *(gpointer*)value);
break;
case G_TYPE_VARIANT:
g_value_take_variant (gvalue, *(gpointer*)value);
break;
default:
g_warning ("value_from_ffi_type: Unsupported fundamental type: %s",
g_type_name (g_type_fundamental (G_VALUE_TYPE (gvalue))));
}
}
typedef union {
gpointer _gpointer;
float _float;
double _double;
gint _gint;
guint _guint;
glong _glong;
gulong _gulong;
gint64 _gint64;
guint64 _guint64;
} va_arg_storage;
static ffi_type *
va_to_ffi_type (GType gtype,
va_list *va,
va_arg_storage *storage)
{
ffi_type *rettype = NULL;
GType type = g_type_fundamental (gtype);
g_assert (type != G_TYPE_INVALID);
switch (type)
{
case G_TYPE_BOOLEAN:
case G_TYPE_CHAR:
case G_TYPE_INT:
case G_TYPE_ENUM:
rettype = &ffi_type_sint;
storage->_gint = va_arg (*va, gint);
break;
case G_TYPE_UCHAR:
case G_TYPE_UINT:
case G_TYPE_FLAGS:
rettype = &ffi_type_uint;
storage->_guint = va_arg (*va, guint);
break;
case G_TYPE_STRING:
case G_TYPE_OBJECT:
case G_TYPE_BOXED:
case G_TYPE_PARAM:
case G_TYPE_POINTER:
case G_TYPE_INTERFACE:
case G_TYPE_VARIANT:
rettype = &ffi_type_pointer;
storage->_gpointer = va_arg (*va, gpointer);
break;
case G_TYPE_FLOAT:
/* Float args are passed as doubles in varargs */
rettype = &ffi_type_float;
storage->_float = (float)va_arg (*va, double);
break;
case G_TYPE_DOUBLE:
rettype = &ffi_type_double;
storage->_double = va_arg (*va, double);
break;
case G_TYPE_LONG:
rettype = &ffi_type_slong;
storage->_glong = va_arg (*va, glong);
break;
case G_TYPE_ULONG:
rettype = &ffi_type_ulong;
storage->_gulong = va_arg (*va, gulong);
break;
case G_TYPE_INT64:
rettype = &ffi_type_sint64;
storage->_gint64 = va_arg (*va, gint64);
break;
case G_TYPE_UINT64:
rettype = &ffi_type_uint64;
storage->_guint64 = va_arg (*va, guint64);
break;
default:
rettype = &ffi_type_pointer;
storage->_guint64 = 0;
g_warning ("va_to_ffi_type: Unsupported fundamental type: %s", g_type_name (type));
break;
}
return rettype;
}
/**
* g_cclosure_marshal_generic:
* @closure: A #GClosure.
* @return_gvalue: A #GValue to store the return value. May be %NULL
* if the callback of closure doesn't return a value.
* @n_param_values: The length of the @param_values array.
* @param_values: An array of #GValues holding the arguments
* on which to invoke the callback of closure.
* @invocation_hint: The invocation hint given as the last argument to
* g_closure_invoke().
* @marshal_data: Additional data specified when registering the
* marshaller, see g_closure_set_marshal() and
* g_closure_set_meta_marshal()
*
* A generic marshaller function implemented via
* [libffi](http://sourceware.org/libffi/).
*
* Normally this function is not passed explicitly to g_signal_new(),
* but used automatically by GLib when specifying a %NULL marshaller.
*
* Since: 2.30
*/
void
g_cclosure_marshal_generic (GClosure *closure,
GValue *return_gvalue,
guint n_param_values,
const GValue *param_values,
gpointer invocation_hint,
gpointer marshal_data)
{
ffi_type *rtype;
void *rvalue;
int n_args;
ffi_type **atypes;
void **args;
int i;
ffi_cif cif;
GCClosure *cc = (GCClosure*) closure;
gint *enum_tmpval;
gboolean tmpval_used = FALSE;
enum_tmpval = g_alloca (sizeof (gint));
if (return_gvalue && G_VALUE_TYPE (return_gvalue))
{
rtype = value_to_ffi_type (return_gvalue, &rvalue, enum_tmpval, &tmpval_used);
}
else
{
rtype = &ffi_type_void;
}
rvalue = g_alloca (MAX (rtype->size, sizeof (ffi_arg)));
n_args = n_param_values + 1;
atypes = g_alloca (sizeof (ffi_type *) * n_args);
args = g_alloca (sizeof (gpointer) * n_args);
if (tmpval_used)
enum_tmpval = g_alloca (sizeof (gint));
if (G_CCLOSURE_SWAP_DATA (closure))
{
atypes[n_args-1] = value_to_ffi_type (param_values + 0,
&args[n_args-1],
enum_tmpval,
&tmpval_used);
atypes[0] = &ffi_type_pointer;
args[0] = &closure->data;
}
else
{
atypes[0] = value_to_ffi_type (param_values + 0,
&args[0],
enum_tmpval,
&tmpval_used);
atypes[n_args-1] = &ffi_type_pointer;
args[n_args-1] = &closure->data;
}
for (i = 1; i < n_args - 1; i++)
{
if (tmpval_used)
enum_tmpval = g_alloca (sizeof (gint));
atypes[i] = value_to_ffi_type (param_values + i,
&args[i],
enum_tmpval,
&tmpval_used);
}
if (ffi_prep_cif (&cif, FFI_DEFAULT_ABI, n_args, rtype, atypes) != FFI_OK)
return;
ffi_call (&cif, marshal_data ? marshal_data : cc->callback, rvalue, args);
if (return_gvalue && G_VALUE_TYPE (return_gvalue))
value_from_ffi_type (return_gvalue, rvalue);
}
/**
* g_cclosure_marshal_generic_va:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: (nullable): a #GValue to store the return
* value. May be %NULL if the callback of @closure doesn't return a
* value.
* @instance: (type GObject.TypeInstance): the instance on which the closure is
* invoked.
* @args_list: va_list of arguments to be passed to the closure.
* @marshal_data: (nullable): additional data specified when
* registering the marshaller, see g_closure_set_marshal() and
* g_closure_set_meta_marshal()
* @n_params: the length of the @param_types array
* @param_types: (array length=n_params): the #GType of each argument from
* @args_list.
*
* A generic #GVaClosureMarshal function implemented via
* [libffi](http://sourceware.org/libffi/).
*
* Since: 2.30
*/
void
g_cclosure_marshal_generic_va (GClosure *closure,
GValue *return_value,
gpointer instance,
va_list args_list,
gpointer marshal_data,
int n_params,
GType *param_types)
{
ffi_type *rtype;
void *rvalue;
int n_args;
ffi_type **atypes;
void **args;
va_arg_storage *storage;
int i;
ffi_cif cif;
GCClosure *cc = (GCClosure*) closure;
gint *enum_tmpval;
gboolean tmpval_used = FALSE;
va_list args_copy;
enum_tmpval = g_alloca (sizeof (gint));
if (return_value && G_VALUE_TYPE (return_value))
{
rtype = value_to_ffi_type (return_value, &rvalue, enum_tmpval, &tmpval_used);
}
else
{
rtype = &ffi_type_void;
}
rvalue = g_alloca (MAX (rtype->size, sizeof (ffi_arg)));
n_args = n_params + 2;
atypes = g_alloca (sizeof (ffi_type *) * n_args);
args = g_alloca (sizeof (gpointer) * n_args);
storage = g_alloca (sizeof (va_arg_storage) * n_params);
if (G_CCLOSURE_SWAP_DATA (closure))
{
atypes[n_args-1] = &ffi_type_pointer;
args[n_args-1] = &instance;
atypes[0] = &ffi_type_pointer;
args[0] = &closure->data;
}
else
{
atypes[0] = &ffi_type_pointer;
args[0] = &instance;
atypes[n_args-1] = &ffi_type_pointer;
args[n_args-1] = &closure->data;
}
G_VA_COPY (args_copy, args_list);
/* Box non-primitive arguments */
for (i = 0; i < n_params; i++)
{
GType type = param_types[i] & ~G_SIGNAL_TYPE_STATIC_SCOPE;
GType fundamental = G_TYPE_FUNDAMENTAL (type);
atypes[i+1] = va_to_ffi_type (type,
&args_copy,
&storage[i]);
args[i+1] = &storage[i];
if ((param_types[i] & G_SIGNAL_TYPE_STATIC_SCOPE) == 0)
{
if (fundamental == G_TYPE_STRING && storage[i]._gpointer != NULL)
storage[i]._gpointer = g_strdup (storage[i]._gpointer);
else if (fundamental == G_TYPE_PARAM && storage[i]._gpointer != NULL)
storage[i]._gpointer = g_param_spec_ref (storage[i]._gpointer);
else if (fundamental == G_TYPE_BOXED && storage[i]._gpointer != NULL)
storage[i]._gpointer = g_boxed_copy (type, storage[i]._gpointer);
else if (fundamental == G_TYPE_VARIANT && storage[i]._gpointer != NULL)
storage[i]._gpointer = g_variant_ref_sink (storage[i]._gpointer);
}
if (fundamental == G_TYPE_OBJECT && storage[i]._gpointer != NULL)
storage[i]._gpointer = g_object_ref (storage[i]._gpointer);
}
va_end (args_copy);
if (ffi_prep_cif (&cif, FFI_DEFAULT_ABI, n_args, rtype, atypes) != FFI_OK)
return;
ffi_call (&cif, marshal_data ? marshal_data : cc->callback, rvalue, args);
/* Unbox non-primitive arguments */
for (i = 0; i < n_params; i++)
{
GType type = param_types[i] & ~G_SIGNAL_TYPE_STATIC_SCOPE;
GType fundamental = G_TYPE_FUNDAMENTAL (type);
if ((param_types[i] & G_SIGNAL_TYPE_STATIC_SCOPE) == 0)
{
if (fundamental == G_TYPE_STRING && storage[i]._gpointer != NULL)
g_free (storage[i]._gpointer);
else if (fundamental == G_TYPE_PARAM && storage[i]._gpointer != NULL)
g_param_spec_unref (storage[i]._gpointer);
else if (fundamental == G_TYPE_BOXED && storage[i]._gpointer != NULL)
g_boxed_free (type, storage[i]._gpointer);
else if (fundamental == G_TYPE_VARIANT && storage[i]._gpointer != NULL)
g_variant_unref (storage[i]._gpointer);
}
if (fundamental == G_TYPE_OBJECT && storage[i]._gpointer != NULL)
g_object_unref (storage[i]._gpointer);
}
if (return_value && G_VALUE_TYPE (return_value))
value_from_ffi_type (return_value, rvalue);
}
/**
* g_cclosure_marshal_VOID__VOID:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 1
* @param_values: a #GValue array holding only the instance
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__BOOLEAN:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gboolean parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gboolean arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__CHAR:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gchar parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gchar arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__UCHAR:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #guchar parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, guchar arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__INT:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gint parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gint arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__UINT:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #guint parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, guint arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__LONG:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #glong parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, glong arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__ULONG:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gulong parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gulong arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__ENUM:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the enumeration parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gint arg1, gpointer user_data)` where the #gint parameter denotes an enumeration type..
*/
/**
* g_cclosure_marshal_VOID__FLAGS:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the flags parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gint arg1, gpointer user_data)` where the #gint parameter denotes a flags type.
*/
/**
* g_cclosure_marshal_VOID__FLOAT:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gfloat parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gfloat arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__DOUBLE:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gdouble parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gdouble arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__STRING:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gchar* parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, const gchar *arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__PARAM:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #GParamSpec* parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, GParamSpec *arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__BOXED:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #GBoxed* parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, GBoxed *arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__POINTER:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #gpointer parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, gpointer arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__OBJECT:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #GObject* parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, GObject *arg1, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_VOID__VARIANT:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 2
* @param_values: a #GValue array holding the instance and the #GVariant* parameter
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, GVariant *arg1, gpointer user_data)`.
*
* Since: 2.26
*/
/**
* g_cclosure_marshal_VOID__UINT_POINTER:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: ignored
* @n_param_values: 3
* @param_values: a #GValue array holding instance, arg1 and arg2
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `void (*callback) (gpointer instance, guint arg1, gpointer arg2, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_BOOLEAN__FLAGS:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: a #GValue which can store the returned #gboolean
* @n_param_values: 2
* @param_values: a #GValue array holding instance and arg1
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `gboolean (*callback) (gpointer instance, gint arg1, gpointer user_data)` where the #gint parameter
* denotes a flags type.
*/
/**
* g_cclosure_marshal_BOOL__FLAGS:
*
* Another name for g_cclosure_marshal_BOOLEAN__FLAGS().
*/
/**
* g_cclosure_marshal_STRING__OBJECT_POINTER:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: a #GValue, which can store the returned string
* @n_param_values: 3
* @param_values: a #GValue array holding instance, arg1 and arg2
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `gchar* (*callback) (gpointer instance, GObject *arg1, gpointer arg2, gpointer user_data)`.
*/
/**
* g_cclosure_marshal_BOOLEAN__OBJECT_BOXED_BOXED:
* @closure: the #GClosure to which the marshaller belongs
* @return_value: a #GValue, which can store the returned string
* @n_param_values: 3
* @param_values: a #GValue array holding instance, arg1 and arg2
* @invocation_hint: the invocation hint given as the last argument
* to g_closure_invoke()
* @marshal_data: additional data specified when registering the marshaller
*
* A marshaller for a #GCClosure with a callback of type
* `gboolean (*callback) (gpointer instance, GBoxed *arg1, GBoxed *arg2, gpointer user_data)`.
*
* Since: 2.26
*/