- Fix P15-8-init-cycle-detection.patch: replace visiting+error with seen+silent-skip to eliminate 11 false-positive 'dependency cycle detected' errors on shared deps - Fix P0-daemon-fix-init-notify-unwrap.patch: remove eprintln! for missing INIT_NOTIFY (expected for oneshot_async services, ~7 daemons affected) - Fix driver-manager hotplug loop: add PERMANENTLY_SKIPPED static set shared between hotplug handler and DriverConfig::probe() to stop infinite re-probing of Fatal/NotSupported/deferred-exhausted device+driver pairs (e.g. ided) - Fix driver-manager log_timeline: suppress repeated EPIPE/ENOENT errors with AtomicI32 dedup and AtomicBool one-shot guards for boot timeline JSON - Add driver-manager SIGTERM handler, ACPI bus registration, --status mode, driver reap loop, graceful shutdown, and reduced deferred retries (30→3)
3.2 KiB
Title: Generic Value Container
Generic Value Container
The [struct@GObject.Value] structure is basically a variable container
that consists of a type identifier and a specific value of that type. The
type identifier within a GValue structure always determines the type of the
associated value.
To create an undefined GValue structure, simply create a zero-filled
GValue structure. To initialize the GValue, use the
[method@GObject.Value.init] function. A GValue cannot be used until it
is initialized.
Once you have finished using a GValue, you must call
[method@GObject.Value.unset] to ensure that all the resources associated
with the GValue are freed.
The basic type operations (such as freeing and copying) are determined by
the [struct@GObject.TypeValueTable] associated with the type ID stored in
the GValue. Other GValue operations (such as converting values between
types) are provided by this interface.
The code in the example program below demonstrates GValue's features:
#include <glib-object.h>
static void
int2string (const GValue *src_value,
GValue *dest_value)
{
if (g_value_get_int (src_value) == 42)
g_value_set_static_string (dest_value, "An important number");
else
g_value_set_static_string (dest_value, "What's that?");
}
int
main (int argc,
char *argv[])
{
// GValues must be initialized
GValue a = G_VALUE_INIT;
GValue b = G_VALUE_INIT;
const char *message;
// The GValue starts empty
g_assert (!G_VALUE_HOLDS_STRING (&a));
// Put a string in it
g_value_init (&a, G_TYPE_STRING);
g_assert (G_VALUE_HOLDS_STRING (&a));
g_value_set_static_string (&a, "Hello, world!");
g_printf ("%s\n", g_value_get_string (&a));
// Reset it to its pristine state
g_value_unset (&a);
// It can then be reused for another type
g_value_init (&a, G_TYPE_INT);
g_value_set_int (&a, 42);
// Attempt to transform it into a GValue of type STRING
g_value_init (&b, G_TYPE_STRING);
// An INT is transformable to a STRING
g_assert (g_value_type_transformable (G_TYPE_INT, G_TYPE_STRING));
g_value_transform (&a, &b);
g_printf ("%s\n", g_value_get_string (&b));
// Attempt to transform it again using a custom transform function
g_value_register_transform_func (G_TYPE_INT, G_TYPE_STRING, int2string);
g_value_transform (&a, &b);
g_printf ("%s\n", g_value_get_string (&b));
g_value_unset (&b);
g_value_unset (&a);
return 0;
}
For letting a GValue own (and memory manage) arbitrary types or pointers,
they need to become a boxed type. The example below shows how
the pointer mystruct of type MyStruct is used as a boxed type.
typedef struct { ... } MyStruct;
G_DEFINE_BOXED_TYPE (MyStruct, my_struct, my_struct_copy, my_struct_free)
// These two lines normally go in a public header. By GObject convention,
// the naming scheme is NAMESPACE_TYPE_NAME:
#define MY_TYPE_STRUCT (my_struct_get_type ())
GType my_struct_get_type (void);
void
foo (void)
{
GValue *value = g_new0 (GValue, 1);
g_value_init (value, MY_TYPE_STRUCT);
g_value_set_boxed (value, mystruct);
// [... your code ....]
g_value_unset (value);
g_free (value);
}