* - We compute a value for the entity based on the Sel nodes.
*/
-#include "irnode.h"
-#include "entity.h"
-#include "type.h"
-
+#include "firm_types.h"
/* The number of array elements we assume if not both bounds are given. */
#define DEFAULT_N_ARRAY_ELEMENTS 1
entity *get_Sel_accessed_entity (ir_node *sel, int pos);
*/
+int get_irn_loop_call_depth(ir_node *n);
+/** Return loop depth of node.
+ *
+ * Returns the loop depth of n in the control flow. I.e., we
+ * go from the node to the block to the loop the block is in,
+ * and return its depth. */
+int get_irn_cfloop_depth(ir_node *n);
+int get_irn_recursion_depth(ir_node *n);
/** Get the weighted interprocedural loop depth of the node.
The depth is estimated by a heuristic. The heuristic consideres
/** Heuristic merging recursion and loop depth. */
double get_irn_final_cost(ir_node *n);
-/** Get accumulated execution frequencies.
+/** Get accumulated(really?) execution frequencies.
* A heuristic weights the recursions. */
-double get_type_estimated_n_instances(type *clss);
-double get_type_estimated_mem_consumption_bytes(type *tp);
+double get_type_estimated_n_instances(ir_type *clss);
+double get_type_estimated_mem_consumption_bytes(ir_type *tp);
/** Estimates the size of an object.
*
* The heuristic mainly affects array sizes.
* Further this ignores padding for alignment, especially of small fields. */
-int get_type_estimated_size_bytes(type *tp);
+int get_type_estimated_size_bytes(ir_type *tp);
/** Estimates the number of fields of a single Object.
- * The heuristic mainly affects array sizes. */
-int get_type_estimated_n_fields(type *tp);
-double get_type_estimated_n_casts(type *clss);
+ * The heuristic mainly affects array sizes.
+ * @@@ Misses inherited fields! */
+int get_type_estimated_n_fields(ir_type *tp);
+double get_type_estimated_n_casts(ir_type *clss);
-double get_class_estimated_n_upcasts(type *clss);
-double get_class_estimated_n_downcasts(type *clss);
+double get_class_estimated_n_upcasts(ir_type *clss);
+double get_class_estimated_n_downcasts(ir_type *clss);
/** Returns the number of accesses to the dispatch table.
*
* This includes the initialization of the pointer field, and accesses
* to virtual fields (as instance marker in Java). Certainly this
* includes virtual method calls. */
-double get_class_estimated_n_dyncalls(type *clss);
+double get_class_estimated_n_dyncalls(ir_type *clss);
/** Returns the number of writes to the dispatch pointer.
* This is the same as the number of allocations. */
-double get_class_estimated_dispatch_writes(type *clss);
+double get_class_estimated_dispatch_writes(ir_type *clss);
/** Returns the number of reads of the dispatch pointer. */
-double get_class_estimated_dispatch_reads (type *clss);
+double get_class_estimated_dispatch_reads (ir_type *clss);
double get_entity_estimated_n_loads(entity *ent);
double get_entity_estimated_n_stores(entity *ent);
temperature_inconsistent
} irp_temperature_state;
-void accumulate_temperatures(void);
-void free_accumulated_temperatures(void);
-
/** An auxiliary/temporary function */
-int is_jack_rts_class(type *t);
+int is_jack_rts_class(ir_type *t);
int is_jack_rts_entity(entity *e);
#endif /* _FIELD_TEMPERATURE_H_ */