MonoThreadsSync *synchronisation;
} MonoObject;
+#ifdef MONO_BIG_ARRAYS
+typedef guint64 mono_array_size_t;
+typedef gint64 mono_array_lower_bound_t;
+#define MONO_ARRAY_MAX_INDEX G_MAXINT64
+#define MONO_ARRAY_MAX_SIZE G_MAXUINT64
+#else
+typedef guint32 mono_array_size_t;
+typedef gint32 mono_array_lower_bound_t;
+#define MONO_ARRAY_MAX_INDEX ((gint32) 0x7fffffff)
+#define MONO_ARRAY_MAX_SIZE ((guint32) 0xffffffff)
+#endif
+
typedef struct {
- guint32 length;
- guint32 lower_bound;
+ mono_array_size_t length;
+ mono_array_lower_bound_t lower_bound;
} MonoArrayBounds;
typedef struct {
/* bounds is NULL for szarrays */
MonoArrayBounds *bounds;
/* total number of elements of the array */
- guint32 max_length;
+ mono_array_size_t max_length;
/* we use double to ensure proper alignment on platforms that need it */
double vector [MONO_ZERO_LEN_ARRAY];
} MonoArray;
mono_object_new_from_token (MonoDomain *domain, MonoImage *image, guint32 token);
MonoArray*
-mono_array_new (MonoDomain *domain, MonoClass *eclass, guint32 n);
+mono_array_new (MonoDomain *domain, MonoClass *eclass, mono_array_size_t n);
MonoArray*
mono_array_new_full (MonoDomain *domain, MonoClass *array_class,
- guint32 *lengths, guint32 *lower_bounds);
+ mono_array_size_t *lengths, mono_array_size_t *lower_bounds);
MonoArray *
-mono_array_new_specific (MonoVTable *vtable, guint32 n);
+mono_array_new_specific (MonoVTable *vtable, mono_array_size_t n);
MonoArray*
mono_array_clone (MonoArray *array);