3 * File name: ir/stat/firmstat_t.h
4 * Purpose: Statistics for Firm. Internal data structures.
8 * Copyright: (c) 2004 Universität Karlsruhe
9 * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE.
11 #ifndef _FIRMSTAT_T_H_
12 #define _FIRMSTAT_T_H_
21 #include "irgraph_t.h"
29 /* some useful macro. */
30 #define ARR_SIZE(a) (sizeof(a)/sizeof((a)[0]))
33 * just be make some things clear :-), the
36 #define HASH_MAP(type) hmap_##type
38 typedef pset hmap_node_entry_t;
39 typedef pset hmap_graph_entry_t;
40 typedef pset hmap_opt_entry_t;
41 typedef pset hmap_block_entry_t;
42 typedef pset hmap_ir_op;
43 typedef pset hmap_distrib_entry_t;
46 * possible address marker values
49 MARK_ADDRESS_CALC = 1, /**< the node is an address expression */
50 MARK_REF_ADR = 2, /**< the node is referenced by an address expression */
51 MARK_REF_NON_ADR = 4, /**< the node is referenced by a non-address expression */
55 * An entry in the address_mark set
57 typedef struct _address_mark_entry_t {
58 ir_node *node; /**< the node which this entry belongs to, needed for compare */
59 unsigned mark; /**< the mark, a bitmask of enum adr_marker_t */
60 } address_mark_entry_t;
63 * An entry for ir_nodes, used in ir_graph statistics.
65 typedef struct _node_entry_t {
66 counter_t cnt_alive; /**< amount of nodes in this entry */
67 counter_t new_node; /**< amount of new nodes for this entry */
68 counter_t into_Id; /**< amount of nodes that turned into Id's for this entry */
69 const ir_op *op; /**< the op for this entry */
72 enum leaf_call_state_t {
73 LCS_UNKNOWN = 0, /**< state is unknown yet */
74 LCS_LEAF_CALL = 1, /**< only leaf functions will be called */
75 LCS_NON_LEAF_CALL = 2, /**< at least one non-leaf function will be called or indetermined */
79 * An entry for ir_graphs. These numbers are calculated for every IR graph.
81 typedef struct _graph_entry_t {
82 HASH_MAP(node_entry_t) *opcode_hash; /**< hash map containing the opcode counter */
83 HASH_MAP(block_entry_t) *block_hash; /**< hash map containing the block counter */
84 counter_t cnt_walked; /**< walker walked over the graph */
85 counter_t cnt_walked_blocks; /**< walker walked over the graph blocks */
86 counter_t cnt_was_inlined; /**< number of times other graph were inlined */
87 counter_t cnt_got_inlined; /**< number of times this graph was inlined */
88 counter_t cnt_strength_red; /**< number of times strength reduction was successful on this graph */
89 counter_t cnt_edges; /**< number of DF edges in this graph */
90 counter_t cnt_all_calls; /**< number of all calls */
91 counter_t cnt_call_with_cnst_arg; /**< number of calls with const args */
92 counter_t cnt_indirect_calls; /**< number of indirect calls */
93 counter_t cnt_if_conv[IF_RESULT_LAST]; /**< number of if conversions */
94 counter_t cnt_real_func_call; /**< number real function call optimization */
95 unsigned num_tail_recursion; /**< number of tail recursion optimizations */
96 HASH_MAP(opt_entry_t) *opt_hash[HOOK_OPT_LAST]; /**< hash maps containing opcode counter for optimizations */
97 ir_graph *irg; /**< the graph of this object */
98 entity *ent; /**< the entity of this graph if one exists */
99 set *address_mark; /**< a set containing the address marks of the nodes */
100 unsigned is_deleted:1; /**< set if this irg was deleted */
101 unsigned is_leaf:1; /**< set, if this irg is a leaf function */
102 unsigned is_leaf_call:2; /**< set, if this irg calls only leaf functions */
103 unsigned is_recursive:1; /**< set, if this irg has recursive calls */
104 unsigned is_chain_call:1; /**< set, if this irg is a chain call */
105 unsigned is_analyzed:1; /**< helper: set, if this irg was already analysed */
109 * An entry for optimized ir_nodes
111 typedef struct _opt_entry_t {
112 counter_t count; /**< optimization counter */
113 const ir_op *op; /**< the op for this entry */
117 * An entry for a block in a ir-graph
119 typedef struct _block_entry_t {
120 counter_t cnt_nodes; /**< the counter of nodes in this block */
121 counter_t cnt_edges; /**< the counter of edges in this block */
122 counter_t cnt_in_edges; /**< the counter of edges incoming from other blocks to this block */
123 counter_t cnt_out_edges; /**< the counter of edges outgoing from this block to other blocks */
124 counter_t cnt_phi_data; /**< the counter of data Phi nodes in this block */
125 long block_nr; /**< block nr */
131 typedef struct _constant_info_t {
132 counter_t bits_count[32]; /**< distribution of bit sizes of constants */
133 counter_t others; /**< number of other constants */
137 typedef struct _dumper_t dumper_t;
140 * handler for dumping an IRG
142 * @param dmp the dumper
143 * @param entry the IR-graph hash map entry
145 typedef void (*dump_graph_FUNC)(dumper_t *dmp, graph_entry_t *entry);
148 * handler for dumper init
150 * @param dmp the dumper
151 * @param name name of the file to dump to
153 typedef void (*dump_init_FUNC)(dumper_t *dmp, const char *name);
156 * handler for dumper a constant info table
158 * @param dmp the dumper
160 typedef void (*dump_const_table_FUNC)(dumper_t *dmp, const constant_info_t *tbl);
163 * handler for dumper finish
165 * @param dmp the dumper
167 typedef void (*dump_finish_FUNC)(dumper_t *dmp);
172 typedef struct _statistic_info_t {
173 int stat_options; /**< statistic options: must be first */
174 struct obstack cnts; /**< obstack containing the counters */
175 HASH_MAP(graph_entry_t) *irg_hash; /**< hash map containing the counter for irgs */
176 HASH_MAP(ir_op) *ir_op_hash; /**< hash map containing all ir_ops (accessible by op_codes) */
177 pdeq *wait_q; /**< wait queue for leaf call decision */
178 int recursive; /**< flag for detecting recursive hook calls */
179 int in_dead_node_elim; /**< set, if dead node elimination runs */
180 ir_op *op_Phi0; /**< pseudo op for Phi0 */
181 ir_op *op_PhiM; /**< pseudo op for memory Phi */
182 ir_op *op_ProjM; /**< pseudo op for memory Proj */
183 ir_op *op_MulC; /**< pseudo op for multiplication by const */
184 ir_op *op_DivC; /**< pseudo op for division by const */
185 ir_op *op_ModC; /**< pseudo op for modulo by const */
186 ir_op *op_DivModC; /**< pseudo op for DivMod by const */
187 ir_op *op_SelSel; /**< pseudo op for Sel(Sel) */
188 ir_op *op_SelSelSel; /**< pseudo op for Sel(Sel(Sel)) */
189 dumper_t *dumper; /**< list of dumper */
190 int reassoc_run; /**< if set, reassociation is running */
191 constant_info_t const_info; /**< statistic info for constants */
195 * a dumper description
198 dump_graph_FUNC dump_graph; /**< handler for dumping an irg */
199 dump_const_table_FUNC dump_const_tbl; /**< handler for dumping a const table */
200 dump_init_FUNC init; /**< handler for init */
201 dump_finish_FUNC finish; /**< handler for finish */
202 FILE *f; /**< the file to dump to */
203 stat_info_t *status; /**< access to the global status */
204 dumper_t *next; /**< link to the next dumper */
208 * helper: get an ir_op from an opcode
210 ir_op *stat_get_op_from_opcode(opcode code);
213 * An entry in a distribution table
215 typedef struct _distrib_entry_t {
216 counter_t cnt; /**< the current count */
217 const void *object; /**< the object which is counted */
220 /** The type of the hash function for objects in distribution tables. */
221 typedef unsigned (*distrib_hash_fun)(const void *object);
224 * The distribution table.
226 typedef struct _distrib_tbl_t {
227 struct obstack cnts; /**< obstack containing the distrib_entry_t entries */
228 HASH_MAP(distrib_entry_t) *hash_map; /**< the hash map containing the distribution */
229 distrib_hash_fun hash_func; /**< the hash function for object in this distribution */
230 unsigned int_dist; /**< non-zero, if it's a integer distribution */
233 /* API for distribution tables */
236 * creates a new distribution table.
238 * @param cmp_func Compare function for objects in the distribution
239 * @param hash_func Hash function for objects in the distribution
241 distrib_tbl_t *stat_new_distrib_tbl(pset_cmp_fun cmp_func, distrib_hash_fun hash_func);
244 * creates a new distribution table for an integer distribution.
246 distrib_tbl_t *stat_new_int_distrib_tbl(void);
249 * destroys a distribution table.
251 void stat_delete_distrib_tbl(distrib_tbl_t *tbl);
254 * adds a new object count into the distribution table.
256 void stat_add_distrib_tbl(distrib_tbl_t *tbl, const void *object, const counter_t *cnt);
259 * adds a new key count into the integer distribution table.
261 void stat_add_int_distrib_tbl(distrib_tbl_t *tbl, int key, const counter_t *cnt);
264 * calculates the mean value of a distribution.
266 double stat_calc_mean_distrib_tbl(distrib_tbl_t *tbl);
268 /** evaluates each entry of a distribution table. */
269 typedef void (*eval_distrib_entry_fun)(const distrib_entry_t *entry);
272 * iterates over all entries in a distribution table
274 void stat_iterate_distrib_tbl(distrib_tbl_t *tbl, eval_distrib_entry_fun eval);
277 * update info on Consts.
279 * @param node The Const node
280 * @param graph The graph entry containing the call
282 void stat_update_const(stat_info_t *status, ir_node *node, graph_entry_t *graph);
285 * clears the const statistics for a new snapshot.
287 void stat_const_clear(stat_info_t *status);
290 * initialize the Const statistic.
292 void stat_init_const_cnt(stat_info_t *status);
294 #endif /* _FIRMSTAT_T_H_ */