typedef pset hmap_graph_entry_t;
typedef pset hmap_opt_entry_t;
typedef pset hmap_block_entry_t;
+typedef pset hmap_be_block_entry_t;
+typedef pset hmap_reg_pressure_entry_t;
+typedef pset hmap_perm_stat_entry_t;
+typedef pset hmap_perm_class_entry_t;
typedef pset hmap_ir_op;
typedef pset hmap_distrib_entry_t;
+/**
+ * An entry in a distribution table
+ */
+typedef struct _distrib_entry_t {
+ counter_t cnt; /**< the current count */
+ const void *object; /**< the object which is counted */
+} distrib_entry_t;
+
+/** The type of the hash function for objects in distribution tables. */
+typedef unsigned (*distrib_hash_fun)(const void *object);
+
+/**
+ * The distribution table.
+ */
+typedef struct _distrib_tbl_t {
+ struct obstack cnts; /**< obstack containing the distrib_entry_t entries */
+ HASH_MAP(distrib_entry_t) *hash_map; /**< the hash map containing the distribution */
+ distrib_hash_fun hash_func; /**< the hash function for object in this distribution */
+ unsigned int_dist; /**< non-zero, if it's a integer distribution */
+} distrib_tbl_t;
+
/**
* possible address marker values
*/
LCS_NON_LEAF_CALL = 2, /**< at least one non-leaf function will be called or indetermined */
};
+/**
+ * Graph counter indexes. The first one are accumulated once, the other are always deleted before an
+ * snapshot is taken.
+ */
+enum graph_counter_names {
+ gcnt_acc_walked, /**< walker walked over the graph, accumulated */
+ gcnt_acc_walked_blocks, /**< walker walked over the graph blocks, accumulated */
+ gcnt_acc_was_inlined, /**< number of times other graph were inlined, accumulated */
+ gcnt_acc_got_inlined, /**< number of times this graph was inlined, accumulated */
+ gcnt_acc_strength_red, /**< number of times strength reduction was successful on this graph, accumulated */
+ gcnt_acc_real_func_call, /**< number real function call optimization, accumulated */
+
+ /* --- non-accumulated values from here */
+ _gcnt_non_acc, /**< first non-accumulated counter */
+
+ gcnt_edges = _gcnt_non_acc, /**< number of DF edges in this graph */
+ gcnt_all_calls, /**< number of all calls */
+ gcnt_call_with_cnst_arg, /**< number of calls with const args */
+ gcnt_indirect_calls, /**< number of indirect calls */
+ gcnt_pure_adr_ops, /**< number of pure address operation */
+ gcnt_all_adr_ops, /**< number of all address operation */
+ gcnt_global_adr, /**< number of global load/store addresses. */
+ gcnt_local_adr, /**< number of local load/store addresses. */
+ gcnt_param_adr, /**< number of parameter load/store addresses. */
+ gcnt_this_adr, /**< number of this load/store addresses. */
+ gcnt_other_adr, /**< number of other load/store addresses. */
+ gcnt_if_conv, /**< number of if conversions */
+
+ /* --- must be the last enum constant --- */
+ _gcnt_last = gcnt_if_conv + IF_RESULT_LAST /**< number of counters */
+};
+
/**
* An entry for ir_graphs. These numbers are calculated for every IR graph.
*/
typedef struct _graph_entry_t {
- struct obstack recalc_cnts; /**< obstack containing the counters that are recalculated */
- HASH_MAP(node_entry_t) *opcode_hash; /**< hash map containing the opcode counter */
- HASH_MAP(block_entry_t) *block_hash; /**< hash map containing the block counter */
- HASH_MAP(block_entry_t) *extbb_hash; /**< hash map containing the extended block counter */
- counter_t cnt_walked; /**< walker walked over the graph */
- counter_t cnt_walked_blocks; /**< walker walked over the graph blocks */
- counter_t cnt_was_inlined; /**< number of times other graph were inlined */
- counter_t cnt_got_inlined; /**< number of times this graph was inlined */
- counter_t cnt_strength_red; /**< number of times strength reduction was successful on this graph */
- counter_t cnt_edges; /**< number of DF edges in this graph */
- counter_t cnt_all_calls; /**< number of all calls */
- counter_t cnt_call_with_cnst_arg; /**< number of calls with const args */
- counter_t cnt_indirect_calls; /**< number of indirect calls */
- counter_t cnt_if_conv[IF_RESULT_LAST]; /**< number of if conversions */
- counter_t cnt_real_func_call; /**< number real function call optimization */
- unsigned num_tail_recursion; /**< number of tail recursion optimizations */
- HASH_MAP(opt_entry_t) *opt_hash[FS_OPT_MAX]; /**< hash maps containing opcode counter for optimizations */
- ir_graph *irg; /**< the graph of this object */
- entity *ent; /**< the entity of this graph if one exists */
- set *address_mark; /**< a set containing the address marks of the nodes */
- unsigned is_deleted:1; /**< set if this irg was deleted */
- unsigned is_leaf:1; /**< set, if this irg is a leaf function */
- unsigned is_leaf_call:2; /**< set, if this irg calls only leaf functions */
- unsigned is_recursive:1; /**< set, if this irg has recursive calls */
- unsigned is_chain_call:1; /**< set, if this irg is a chain call */
- unsigned is_analyzed:1; /**< helper: set, if this irg was already analysed */
+ struct obstack recalc_cnts; /**< obstack containing the counters that are recalculated */
+ HASH_MAP(node_entry_t) *opcode_hash; /**< hash map containing the opcode counter */
+ HASH_MAP(block_entry_t) *block_hash; /**< hash map containing the block counter */
+ HASH_MAP(block_entry_t) *extbb_hash; /**< hash map containing the extended block counter */
+ HASH_MAP(be_block_entry_t) *be_block_hash; /**< hash map containing backend block information */
+ counter_t cnt[_gcnt_last]; /**< counter */
+ unsigned num_tail_recursion; /**< number of tail recursion optimizations */
+ HASH_MAP(opt_entry_t) *opt_hash[FS_OPT_MAX]; /**< hash maps containing opcode counter for optimizations */
+ ir_graph *irg; /**< the graph of this object */
+ ir_entity *ent; /**< the entity of this graph if one exists */
+ set *address_mark; /**< a set containing the address marks of the nodes */
+ unsigned is_deleted:1; /**< set if this irg was deleted */
+ unsigned is_leaf:1; /**< set, if this irg is a leaf function */
+ unsigned is_leaf_call:2; /**< set, if this irg calls only leaf functions */
+ unsigned is_recursive:1; /**< set, if this irg has recursive calls */
+ unsigned is_chain_call:1; /**< set, if this irg is a chain call */
+ unsigned is_analyzed:1; /**< helper: set, if this irg was already analysed */
} graph_entry_t;
/**
const ir_op *op; /**< the op for this entry */
} opt_entry_t;
+/**
+ * An entry for register pressure.
+ */
+typedef struct _reg_pressure_entry_t {
+ const char *class_name; /**< name of the register class */
+ int pressure; /**< the register pressure for this class */
+} reg_pressure_entry_t;
+
+/**
+ * An entry for permutation statistics.
+ */
+typedef struct _perm_stat_entry_t {
+ ir_node *perm; /**< the perm node */
+ int size; /**< complete size */
+ int real_size; /**< number of pairs with different registers */
+ int n_copies; /**< number of copies created for lowering */
+ int n_exchg; /**< number of exchanges created for lowering */
+ distrib_tbl_t *cycles; /**< distribution of cycle lengths */
+ distrib_tbl_t *chains; /**< distribution of chain lengths */
+} perm_stat_entry_t;
+
+/**
+ * An entry for permutation statistics per class.
+ */
+typedef struct _perm_class_entry_t {
+ const char *class_name; /**< name of the register class */
+ int n_regs; /**< number of register in this class */
+ HASH_MAP(perm_stat_entry_t) *perm_stat; /**< statistics about all perm nodes of this class */
+} perm_class_entry_t;
+
+/**
+ * An entry for a block or extended block in a ir-graph
+ */
+typedef struct _be_block_entry_t {
+ long block_nr; /**< block nr */
+ distrib_tbl_t *sched_ready; /**< distribution of ready nodes per block */
+ /**< the highest register pressures for this block for each register class */
+ HASH_MAP(reg_pressure_entry_t) *reg_pressure;
+ HASH_MAP(perm_class_entry_t) *perm_class_stat; /**< statistics about perm nodes for each register class */
+} be_block_entry_t;
+
+/**
+ * Block counter indexes. The first one are accumulated once, the other are always deleted before an
+ * snapshot is taken.
+ */
+enum block_counter_names {
+ bcnt_nodes, /**< the counter of nodes in this block */
+ bcnt_edges, /**< the counter of edges in this block */
+ bcnt_in_edges, /**< the counter of edges incoming from other blocks to this block */
+ bcnt_out_edges, /**< the counter of edges outgoing from this block to other blocks */
+ bcnt_phi_data, /**< the counter of data Phi nodes in this block */
+
+ /* --- must be the last enum constant --- */
+ _bcnt_last /**< number of counters */
+};
+
/**
* An entry for a block or extended block in a ir-graph
*/
typedef struct _block_entry_t {
- counter_t cnt_nodes; /**< the counter of nodes in this block */
- counter_t cnt_edges; /**< the counter of edges in this block */
- counter_t cnt_in_edges; /**< the counter of edges incoming from other blocks to this block */
- counter_t cnt_out_edges; /**< the counter of edges outgoing from this block to other blocks */
- counter_t cnt_phi_data; /**< the counter of data Phi nodes in this block */
- long block_nr; /**< block nr */
+ counter_t cnt[_bcnt_last]; /**< counter */
+ long block_nr; /**< block nr */
} block_entry_t;
/** An entry for an extended block in a ir-graph */
typedef struct _statistic_info_t {
unsigned stat_options; /**< statistic options: field must be first */
struct obstack cnts; /**< obstack containing the counters that are incremented */
+ struct obstack be_data; /**< obstack containing backend statistics data */
HASH_MAP(graph_entry_t) *irg_hash; /**< hash map containing the counter for irgs */
HASH_MAP(ir_op) *ir_op_hash; /**< hash map containing all ir_ops (accessible by op_codes) */
pdeq *wait_q; /**< wait queue for leaf call decision */
FILE *f; /**< the file to dump to */
stat_info_t *status; /**< access to the global status */
dumper_t *next; /**< link to the next dumper */
+ pset *func_map; /**< pset containing all registered functions */
+ unsigned tag; /**< the id tag of the dumper */
};
/**
* helper: get an ir_op from an opcode
*/
-ir_op *stat_get_op_from_opcode(opcode code);
-
-/**
- * An entry in a distribution table
- */
-typedef struct _distrib_entry_t {
- counter_t cnt; /**< the current count */
- const void *object; /**< the object which is counted */
-} distrib_entry_t;
-
-/** The type of the hash function for objects in distribution tables. */
-typedef unsigned (*distrib_hash_fun)(const void *object);
-
-/**
- * The distribution table.
- */
-typedef struct _distrib_tbl_t {
- struct obstack cnts; /**< obstack containing the distrib_entry_t entries */
- HASH_MAP(distrib_entry_t) *hash_map; /**< the hash map containing the distribution */
- distrib_hash_fun hash_func; /**< the hash function for object in this distribution */
- unsigned int_dist; /**< non-zero, if it's a integer distribution */
-} distrib_tbl_t;
+ir_op *stat_get_op_from_opcode(ir_opcode code);
/* API for distribution tables */
*/
void stat_add_int_distrib_tbl(distrib_tbl_t *tbl, int key, const counter_t *cnt);
+/**
+ * increases object count by one
+ */
+void stat_inc_distrib_tbl(distrib_tbl_t *tbl, const void *object);
+
+/**
+ * increases key count by one
+ */
+void stat_inc_int_distrib_tbl(distrib_tbl_t *tbl, int key);
+
+/**
+ * inserts a new object with count 0 into the distribution table
+ * if object is already present, nothing happens
+ */
+void stat_insert_distrib_tbl(distrib_tbl_t *tbl, const void *object);
+
+/**
+ * inserts a new key with count 0 into the integer distribution table
+ * if key is already present, nothing happens
+ */
+void stat_insert_int_distrib_tbl(distrib_tbl_t *tbl, int key);
+
+/**
+ * returns the sum over all counters in a distribution table
+ */
+int stat_get_count_distrib_tbl(distrib_tbl_t *tbl);
+
/**
* calculates the mean value of a distribution.
*/
double stat_calc_mean_distrib_tbl(distrib_tbl_t *tbl);
+/**
+ * calculates the average value of a distribution
+ */
+double stat_calc_avg_distrib_tbl(distrib_tbl_t *tbl);
+
/** evaluates each entry of a distribution table. */
-typedef void (*eval_distrib_entry_fun)(const distrib_entry_t *entry);
+typedef void (*eval_distrib_entry_fun)(const distrib_entry_t *entry, void *env);
/**
* iterates over all entries in a distribution table
*/
-void stat_iterate_distrib_tbl(distrib_tbl_t *tbl, eval_distrib_entry_fun eval);
+void stat_iterate_distrib_tbl(distrib_tbl_t *tbl, eval_distrib_entry_fun eval, void *env);
/**
* update info on Consts.
*/
const char *stat_fc_name(float_classify_t classification);
+/**
+ * Update the register pressure of a block
+ *
+ * @param irg the irg containing the block
+ * @param block the block for which the reg pressure should be set
+ * @param pressure the pressure
+ * @param class_name the name of the register class
+ */
+void stat_be_block_regpressure(ir_graph *irg, ir_node *block, int pressure, const char *class_name);
+
+/**
+ * Update the distribution of ready nodes of a block
+ *
+ * @param irg the irg containing the block
+ * @param block the block for which the reg pressure should be set
+ * @param num_ready the number of ready nodes
+ */
+void stat_be_block_sched_ready(ir_graph *irg, ir_node *block, int num_ready);
+
+/**
+ * Update the permutation statistic of a block
+ *
+ * @param class_name the name of the register class
+ * @param perm the perm node
+ * @param block the block containing the perm
+ * @param size the size of the perm
+ * @param real_size number of pairs with different registers
+ */
+void stat_be_block_stat_perm(const char *class_name, int n_regs, ir_node *perm, ir_node *block,
+ int size, int real_size);
+
+/**
+ * Update the permutation statistic of a single perm
+ *
+ * @param class_name the name of the register class
+ * @param perm the perm node
+ * @param block the block containing the perm
+ * @param is_chain 1 if chain, 0 if cycle
+ * @param size length of the cycle/chain
+ * @param n_ops the number of ops representing this cycle/chain after lowering
+ */
+void stat_be_block_stat_permcycle(const char *class_name, ir_node *perm, ir_node *block,
+ int is_chain, int size, int n_ops);
+
+/**
+ * Register an additional function for all dumper. This function
+ * is called in dump_snapshot once for each graph_entry and dumper.
+ *
+ * @param func the dump function to register
+ */
+void stat_register_dumper_func(dump_graph_FUNC func);
+
#endif /* _FIRMSTAT_T_H_ */