static xbt_mallocator_t action_mallocator = NULL;
static int action_mallocator_allocated_size = 0;
static void* surf_action_mallocator_new_f(void);
-static void surf_action_mallocator_free_f(void* action);
+#define surf_action_mallocator_free_f xbt_free_f
static void surf_action_mallocator_reset_f(void* action);
/**
return xbt_malloc(action_mallocator_allocated_size);
}
-static void surf_action_mallocator_free_f(void* action) {
- xbt_free(action);
-}
-
static void surf_action_mallocator_reset_f(void* action) {
memset(action, 0, action_mallocator_allocated_size);
}
action->refcount++;
}
-/*
-void surf_action_suspend(surf_action_t action)
-{
- action->suspended = 1;
-}*/
-
/*
* Maxmin action
*/
+
+/* added to manage the communication action's heap */
+void surf_action_lmm_update_index_heap(void *action, int i) {
+ surf_action_lmm_t a = action;
+ a->index_heap = i;
+}
+/* insert action on heap using a given key and a hat (heap_action_type)
+ * a hat can be of three types for communications:
+ *
+ * NORMAL = this is a normal heap entry stating the date to finish transmitting
+ * LATENCY = this is a heap entry to warn us when the latency is payed
+ * MAX_DURATION =this is a heap entry to warn us when the max_duration limit is reached
+ */
+void surf_action_lmm_heap_insert(xbt_heap_t heap, surf_action_lmm_t action, double key,
+ enum heap_action_type hat)
+{
+ action->hat = hat;
+ xbt_heap_push(heap, action, key);
+}
+
+void surf_action_lmm_heap_remove(xbt_heap_t heap, surf_action_lmm_t action)
+{
+ action->hat = NOTSET;
+ if (action->index_heap >= 0) {
+ xbt_heap_remove(heap, action->index_heap);
+ }
+}