#include "firmstat.h"
+/*
+ * just be make some things clear :-), the
+ * poor man "generics"
+ */
+#define HASH_MAP(type) pset_##type
+
+typedef pset pset_node_entry_t;
+typedef pset pset_graph_entry_t;
+typedef pset pset_opt_entry_t;
+
/*
* 32 bit should be enough for now
*/
* An entry for ir_nodes
*/
typedef struct _node_entry_t {
- counter_t count; /**< amount of nodes in this entry */
+ counter_t cnt_alive; /**< amount of nodes in this entry */
counter_t new_node; /**< amount of new nodes for this entry */
counter_t into_Id; /**< amount of nodes that turned into Id's for this entry */
const ir_op *op; /**< the op for this entry */
* An entry for ir_graphs
*/
typedef struct _graph_entry_t {
- pset *opcode_hash; /**< hash map containing the opcode counter */
- counter_t walked; /**< walker walked over the graph */
- counter_t walked_blocks; /**< walker walked over the graph blocks */
- counter_t was_inlined; /**< number of times other graph were inlined */
- counter_t got_inlined; /**< number of times this graph was inlined */
- pset *opt_hash[STAT_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 */
- int deleted; /**< set if this irg was deleted */
+ HASH_MAP(node_entry_t) *opcode_hash; /**< hash map containing the opcode 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_edges; /**< number of DF edges in this graph */
+ HASH_MAP(opt_entry_t) *opt_hash[STAT_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 */
+ int deleted; /**< set if this irg was deleted */
} graph_entry_t;
/**
const ir_op *op; /**< the op for this entry */
} opt_entry_t;
+/** forward */
+typedef struct _dumper_t dumper_t;
+
+/**
+ * handler for dumping an IRG
+ *
+ * @param dmp the dumper
+ * @param entry the IR-graph hash map entry
+ */
+typedef void (*dump_graph_FUNC)(dumper_t *dmp, graph_entry_t *entry);
+
+/**
+ * handler for dumper init
+ *
+ * @param dmp the dumper
+ * @param name name of the file to dump to
+ */
+typedef void (*dump_init_FUNC)(dumper_t *dmp, const char *name);
+
+/**
+ * handler for dumper finish
+ *
+ * @param dmp the dumper
+ */
+typedef void (*dump_finish_FUNC)(dumper_t *dmp);
+
+
+/**
+ * a dumper description
+ */
+struct _dumper_t {
+ dump_graph_FUNC dump_graph; /**< handler for dumping an irg */
+ dump_init_FUNC init; /**< handler for init */
+ dump_finish_FUNC finish; /**< handler for finish */
+ FILE *f; /**< the file to dump to */
+ dumper_t *next; /**< link to the next dumper */
+};
+
/**
* statistics info
*/
typedef struct _statistic_info_t {
- struct obstack cnts; /**< obstack containing the counters */
- pset *opcode_hash; /**< hash map containing the opcode counter */
- pset *irg_hash; /**< hash map containing the counter for irgs */
- FILE *f; /**< outputfile */
- ir_op *op_Phi0; /**< needed pseudo op */
- int recursive; /**< flag for detecting recursive hook calls */
- int in_dead_node_elim; /**< set, if dead node elimination runs */
+ struct obstack cnts; /**< obstack containing the counters */
+ HASH_MAP(graph_entry_t) *irg_hash; /**< hash map containing the counter for irgs */
+ int recursive; /**< flag for detecting recursive hook calls */
+ int in_dead_node_elim; /**< set, if dead node elimination runs */
+ ir_op *op_Phi0; /**< needed pseudo op */
+ ir_op *op_PhiM; /**< needed pseudo op */
+ dumper_t *dumper; /**< list of dumper */
} stat_info_t;
+/**
+ * names of the optimizations
+ */
+static const char *opt_names[] = {
+ "straightening optimization",
+ "if simplification",
+ "algebraic simplification",
+ "Phi optmization",
+ "Write-After-Write optimization",
+ "Write-After-Read optimization",
+ "Tuple optimization",
+ "ID optimization",
+ "Constant evaluation",
+ "Lowered",
+};
+
+/**
+ * need this to be static
+ */
+static ir_op _op_Phi0, _op_PhiM;
+
+/* ---------------------------------------------------------------------------------- */
+
#define STAT_ENTER ++status->recursive
#define STAT_LEAVE --status->recursive
#define STAT_ENTER_SINGLE do { if (status->recursive > 0) return; ++status->recursive; } while (0)
*/
static inline void cnt_add(counter_t *dst, const counter_t *src)
{
- int i;
+ int i, carry = 0;
for (i = 0; i < STAT_CNT_NUM; ++i) {
- unsigned a = dst->cnt[i] + src->cnt[i];
- unsigned no_carry = a >= dst->cnt[i];
+ unsigned a = dst->cnt[i] + src->cnt[i] + carry;
+
+ if (carry)
+ carry = a <= dst->cnt[i];
+ else
+ carry = a < dst->cnt[i];
dst->cnt[i] = a;
- if (no_carry) {
- /* no carry */
+ if (! carry)
+ break;
+ }
+}
+
+/**
+ * add an integer to an counter
+ */
+static inline void cnt_add_i(counter_t *dst, int src)
+{
+ int i;
+ unsigned a = dst->cnt[0] + src;
+ unsigned carry = a < dst->cnt[i];
+
+ dst->cnt[0] = a;
+ if (! carry)
+ return;
+
+ for (i = 1; i < STAT_CNT_NUM; ++i) {
+ unsigned a = dst->cnt[i] + carry;
+
+ carry = a < dst->cnt[i];
+
+ dst->cnt[i] = a;
+
+ if (! carry)
break;
- }
}
}
elem = obstack_alloc(&status->cnts, sizeof(*elem));
/* clear counter */
- cnt_clr(&elem->count);
+ cnt_clr(&elem->cnt_alive);
cnt_clr(&elem->new_node);
cnt_clr(&elem->into_Id);
elem = obstack_alloc(&status->cnts, sizeof(*elem));
- cnt_clr(&elem->walked);
- cnt_clr(&elem->walked_blocks);
- cnt_clr(&elem->got_inlined);
- cnt_clr(&elem->was_inlined);
+ cnt_clr(&elem->cnt_walked);
+ cnt_clr(&elem->cnt_walked_blocks);
+ cnt_clr(&elem->cnt_got_inlined);
+ cnt_clr(&elem->cnt_was_inlined);
+ cnt_clr(&elem->cnt_edges);
/* new hash table for opcodes here */
elem->opcode_hash = new_pset(opcode_cmp, 5);
}
/**
- * walker for reachable nodes count
+ * Returns the ir_op for an IR-node,
+ * handles special cases and return pseudo op codes
*/
-static void count_nodes(ir_node *node, void *env)
+static ir_op *stat_get_irn_op(const ir_node *node)
{
- pset *set = env;
- node_entry_t *entry;
ir_op *op = get_irn_op(node);
if (op->code == iro_Phi && get_irn_arity(node) == 0) {
/* special case, a Phi0 node, count on extra counter */
op = status->op_Phi0;
}
+ else if (op->code == iro_Phi && get_irn_mode(node) == mode_M) {
+ /* special case, a Memory Phi node, count on extra counter */
+ op = status->op_PhiM;
+ }
+ return op;
+}
- entry = opcode_get_entry(op, set);
- cnt_inc(&entry->count);
+/**
+ * environment for the count walker
+ */
+typedef struct _cnt_env_t {
+ pset *set; /**< the hash map containing the ir_ops */
+ counter_t *cnt_edges; /**< the edges counter */
+} cnt_env_t;
+
+/**
+ * walker for reachable nodes count
+ */
+static void count_nodes(ir_node *node, void *env)
+{
+ cnt_env_t *cenv = env;
+ node_entry_t *entry;
+ ir_op *op = stat_get_irn_op(node);
+ int arity = get_irn_arity(node);
+
+ entry = opcode_get_entry(op, cenv->set);
+
+ cnt_inc(&entry->cnt_alive);
+ cnt_add_i(cenv->cnt_edges, arity);
}
/**
- * count all reachable nodes in a graph
+ * count all alive nodes in a graph
*/
-static void count_nodes_in_graph(ir_graph *irg, pset *set)
+static void count_nodes_in_graph(graph_entry_t * global, graph_entry_t * graph)
{
- irg_walk_graph(irg, count_nodes, NULL, set);
+ cnt_env_t env;
+ node_entry_t *entry;
+
+ env.set = graph->opcode_hash;
+ env.cnt_edges = &graph->cnt_edges;
+
+ irg_walk_graph(graph->irg, count_nodes, NULL, &env);
+
+ /* assume we walk every graph only ONCE, we could sum here the global count */
+ for (entry = pset_first(graph->opcode_hash); entry; entry = pset_next(graph->opcode_hash)) {
+ node_entry_t *g_entry = opcode_get_entry(entry->op, global->opcode_hash);
+
+ /* update the node counter */
+ cnt_add(&g_entry->cnt_alive, &entry->cnt_alive);
+ }
+
+ /* update the edge counter */
+ cnt_add(&global->cnt_edges, &graph->cnt_edges);
+}
+
+/**
+ * register a dumper
+ */
+static void stat_register_dumper(dumper_t *dumper, const char *name)
+{
+ dumper->next = status->dumper;
+ status->dumper = dumper;
+
+ if (dumper->init)
+ dumper->init(dumper, name);
+}
+
+/**
+ * dumps an irg
+ */
+static void dump_graph(graph_entry_t *entry)
+{
+ dumper_t *dumper;
+
+ for (dumper = status->dumper; dumper; dumper = dumper->next) {
+ if (dumper->dump_graph)
+ dumper->dump_graph(dumper, entry);
+ }
+}
+
+/**
+ * finish the dumper
+ */
+static void dump_finish(void)
+{
+ dumper_t *dumper;
+
+ for (dumper = status->dumper; dumper; dumper = dumper->next) {
+ if (dumper->finish)
+ dumper->finish(dumper);
+ }
}
+/* ---------------------------------------------------------------------- */
+
+/**
+ * dumps a opcode hash into human readable form
+ */
+static void simple_dump_opcode_hash(dumper_t *dmp, pset *set)
+{
+ node_entry_t *entry;
+ counter_t f_alive;
+ counter_t f_new_node;
+ counter_t f_Id;
+
+ cnt_clr(&f_alive);
+ cnt_clr(&f_new_node);
+ cnt_clr(&f_Id);
+
+ fprintf(dmp->f, "%-16s %-8s %-8s %-8s\n", "Opcode", "alive", "created", "->Id");
+ for (entry = pset_first(set); entry; entry = pset_next(set)) {
+ fprintf(dmp->f, "%-16s %8d %8d %8d\n",
+ get_id_str(entry->op->name), entry->cnt_alive.cnt[0], entry->new_node.cnt[0], entry->into_Id.cnt[0]);
+
+ cnt_add(&f_alive, &entry->cnt_alive);
+ cnt_add(&f_new_node, &entry->new_node);
+ cnt_add(&f_Id, &entry->into_Id);
+ }
+ fprintf(dmp->f, "-------------------------------------------\n");
+ fprintf(dmp->f, "%-16s %8d %8d %8d\n", "Sum",
+ f_alive.cnt[0],
+ f_new_node.cnt[0],
+ f_Id.cnt[0]);
+}
+
+/**
+ * dumps a optimization hash into human readable form
+ */
+static void simple_dump_opt_hash(dumper_t *dmp, pset *set, int index)
+{
+ opt_entry_t *entry = pset_first(set);
+
+ if (entry) {
+ fprintf(dmp->f, "\n%s:\n", opt_names[index]);
+ fprintf(dmp->f, "%-16s %-8s\n", "Opcode", "deref");
+
+ for (; entry; entry = pset_next(set)) {
+ fprintf(dmp->f, "%-16s %8d\n",
+ get_id_str(entry->op->name), entry->count.cnt[0]);
+ }
+ }
+}
+
+/**
+ * dumps the endges count
+ */
+static void simple_dump_edges(dumper_t *dmp, counter_t *cnt)
+{
+ fprintf(dmp->f, "%-16s %8d\n", "Edges", cnt->cnt[0]);
+}
+
+/**
+ * dumps the IRG
+ */
+static void simple_dump_graph(dumper_t *dmp, graph_entry_t *entry)
+{
+ int dump_opts = 1;
+
+ if (entry->irg) {
+ ir_graph *const_irg = get_const_code_irg();
+
+ if (entry->irg == const_irg) {
+ fprintf(dmp->f, "\nConst code Irg %p", (void *)entry->irg);
+ }
+ else {
+ if (entry->ent)
+ fprintf(dmp->f, "\nEntity %s, Irg %p", get_entity_name(entry->ent), (void *)entry->irg);
+ else
+ fprintf(dmp->f, "\nIrg %p", (void *)entry->irg);
+ }
+
+ fprintf(dmp->f, " %swalked %d over blocks %d was inlined %d got inlined %d:\n",
+ entry->deleted ? "DELETED " : "",
+ entry->cnt_walked.cnt[0], entry->cnt_walked_blocks.cnt[0],
+ entry->cnt_was_inlined.cnt[0],
+ entry->cnt_got_inlined.cnt[0]
+ );
+ }
+ else {
+ fprintf(dmp->f, "\nGlobals counts:\n");
+ dump_opts = 0;
+ }
+
+ simple_dump_opcode_hash(dmp, entry->opcode_hash);
+ simple_dump_edges(dmp, &entry->cnt_edges);
+
+ /* effects of optimizations */
+ if (dump_opts) {
+ int i;
+
+ for (i = 0; i < sizeof(entry->opt_hash)/sizeof(entry->opt_hash[0]); ++i) {
+ simple_dump_opt_hash(dmp, entry->opt_hash[i], i);
+ }
+ }
+}
+
+/**
+ * initialise the simple dumper
+ */
+static void simple_init(dumper_t *dmp, const char *name)
+{
+ dmp->f = fopen(name, "w");
+}
+
+/**
+ * finishes the simple dumper
+ */
+static void simple_finish(dumper_t *dmp)
+{
+ fclose(dmp->f);
+ dmp->f = NULL;
+}
+
+/**
+ * the simple human readable dumper
+ */
+static dumper_t simple_dumper = {
+ simple_dump_graph,
+ simple_init,
+ simple_finish,
+ NULL,
+ NULL,
+};
+
+/* ---------------------------------------------------------------------- */
+
+/**
+ * count the nodes as needed:
+ *
+ * 1 normal (data) Phi's
+ * 2 memory Phi's
+ * 3 Proj
+ * 0 all other nodes
+ */
+static void csv_count_nodes(graph_entry_t *graph, counter_t cnt[])
+{
+ node_entry_t *entry;
+ int i;
+
+ for (i = 0; i < 4; ++i)
+ cnt_clr(&cnt[i]);
+
+ for (entry = pset_first(graph->opcode_hash); entry; entry = pset_next(graph->opcode_hash)) {
+ if (entry->op == op_Phi) {
+ /* normal Phi */
+ cnt_add(&cnt[1], &entry->cnt_alive);
+ }
+ else if (entry->op == status->op_PhiM) {
+ /* memory Phi */
+ cnt_add(&cnt[2], &entry->cnt_alive);
+ }
+ else if (entry->op == op_Proj) {
+ /* Proj */
+ cnt_add(&cnt[3], &entry->cnt_alive);
+ }
+ else {
+ /* all other nodes */
+ cnt_add(&cnt[0], &entry->cnt_alive);
+ }
+ }
+}
+
+/**
+ * dumps the IRG
+ */
+static void csv_dump_graph(dumper_t *dmp, graph_entry_t *entry)
+{
+ const char *name;
+
+ counter_t cnt[4];
+
+ if (entry->irg) {
+ ir_graph *const_irg = get_const_code_irg();
+
+ if (entry->irg == const_irg) {
+ name = "<Const code Irg>";
+ return;
+ }
+ else {
+ if (entry->ent)
+ name = get_entity_name(entry->ent);
+ else
+ name = "<UNKNOWN IRG>";
+ }
+
+ csv_count_nodes(entry, cnt);
+
+ fprintf(dmp->f, "%-40s, %p, %d, %d, %d, %d\n",
+ name,
+ entry->irg,
+ cnt[0].cnt[0],
+ cnt[1].cnt[0],
+ cnt[2].cnt[0],
+ cnt[3].cnt[0]
+ );
+ }
+}
+
+/**
+ * initialise the simple dumper
+ */
+static void csv_init(dumper_t *dmp, const char *name)
+{
+ dmp->f = fopen(name, "a");
+}
+
+/**
+ * finishes the simple dumper
+ */
+static void csv_finish(dumper_t *dmp)
+{
+ fclose(dmp->f);
+ dmp->f = NULL;
+}
+
+/**
+ * the simple human readable dumper
+ */
+static dumper_t csv_dumper = {
+ csv_dump_graph,
+ csv_init,
+ csv_finish,
+ NULL,
+ NULL,
+};
+
+
/* ---------------------------------------------------------------------- */
/* initialize the statistics module. */
void stat_init(void)
{
+#define X(a) a, sizeof(a)-1
+
+ int pseudo_id = 0;
+
obstack_init(&status->cnts);
+ /* build the pseudo-ops */
+ _op_Phi0.code = --pseudo_id;
+ _op_Phi0.name = id_from_str(X("Phi0"));
+
+ _op_PhiM.code = --pseudo_id;
+ _op_PhiM.name = id_from_str(X("PhiM"));
+
/* create the hash-tables */
- status->opcode_hash = new_pset(opcode_cmp, 8);
- status->irg_hash = new_pset(graph_cmp, 8);
+ status->irg_hash = new_pset(graph_cmp, 8);
- status->f = fopen("firmstat.txt", "w");
- status->op_Phi0 = NULL;
+ status->op_Phi0 = &_op_Phi0;
+ status->op_PhiM = &_op_PhiM;
+
+ stat_register_dumper(&simple_dumper, "firmstat.txt");
+ stat_register_dumper(&csv_dumper, "firmstat.csv");
+
+#undef X
}
/* A new IR op is registered. */
{
STAT_ENTER;
{
+ graph_entry_t *graph = graph_get_entry(NULL, status->irg_hash);
+
/* execute for side effect :-) */
- opcode_get_entry(op, status->opcode_hash);
+ opcode_get_entry(op, graph->opcode_hash);
}
STAT_LEAVE;
}
{
node_entry_t *entry;
graph_entry_t *graph;
- ir_op *op = get_irn_op(node);
-
- if (op->code == iro_Phi && get_irn_arity(node) == 0) {
- /* special case, a Phi0 node, count on extra counter */
- if (! status->op_Phi0) {
- ir_op *op_Phi = get_op_Phi();
-
- status->op_Phi0 = new_ir_op(0xFFFF, "Phi0", op_Phi->pinned, op_Phi->flags, op_Phi->opar, op_Phi->op_index, op_Phi->attr_size);
- }
- op = status->op_Phi0;
- }
-
- entry = opcode_get_entry(op, status->opcode_hash);
- graph = graph_get_entry(current_ir_graph, status->irg_hash);
+ ir_op *op = stat_get_irn_op(node);
/* increase global value */
+ graph = graph_get_entry(NULL, status->irg_hash);
+ entry = opcode_get_entry(op, graph->opcode_hash);
cnt_inc(&entry->new_node);
/* increase local value */
+ graph = graph_get_entry(current_ir_graph, status->irg_hash);
entry = opcode_get_entry(op, graph->opcode_hash);
cnt_inc(&entry->new_node);
}
{
node_entry_t *entry;
graph_entry_t *graph;
- ir_op *op = get_irn_op(node);
-
- if (op->code == iro_Phi && get_irn_arity(node) == 0) {
- /* special case, a Phi0 node, count on extra counter */
- if (! status->op_Phi0) {
- ir_op *op_Phi = get_op_Phi();
-
- status->op_Phi0 = new_ir_op(0xFFFF, "Phi0", op_Phi->pinned, op_Phi->flags, op_Phi->opar, op_Phi->op_index, op_Phi->attr_size);
- }
- op = status->op_Phi0;
- }
-
- entry = opcode_get_entry(op, status->opcode_hash);
- graph = graph_get_entry(current_ir_graph, status->irg_hash);
+ ir_op *op = stat_get_irn_op(node);
/* increase global value */
+ graph = graph_get_entry(NULL, status->irg_hash);
+ entry = opcode_get_entry(op, graph->opcode_hash);
cnt_inc(&entry->into_Id);
/* increase local value */
+ graph = graph_get_entry(current_ir_graph, status->irg_hash);
entry = opcode_get_entry(op, graph->opcode_hash);
cnt_inc(&entry->into_Id);
}
{
STAT_ENTER;
{
- graph_entry_t * graph = graph_get_entry(irg, status->irg_hash);
+ graph_entry_t *graph = graph_get_entry(irg, status->irg_hash);
+ graph_entry_t *global = graph_get_entry(NULL, status->irg_hash);
graph->deleted = 1;
/* count the nodes of the graph yet, it will be destroyed later */
- count_nodes_in_graph(irg, graph->opcode_hash);
+ count_nodes_in_graph(global, graph);
}
STAT_LEAVE;
}
{
graph_entry_t *graph = graph_get_entry(irg, status->irg_hash);
- cnt_inc(&graph->walked);
+ cnt_inc(&graph->cnt_walked);
}
STAT_LEAVE;
}
{
graph_entry_t *graph = graph_get_entry(irg, status->irg_hash);
- cnt_inc(&graph->walked_blocks);
+ cnt_inc(&graph->cnt_walked_blocks);
}
STAT_LEAVE;
}
graph_entry_t *i_graph = graph_get_entry(called_irg, status->irg_hash);
graph_entry_t *graph = graph_get_entry(irg, status->irg_hash);
- cnt_inc(&graph->got_inlined);
- cnt_inc(&i_graph->was_inlined);
+ cnt_inc(&graph->cnt_got_inlined);
+ cnt_inc(&i_graph->cnt_was_inlined);
}
STAT_LEAVE;
}
--status->in_dead_node_elim;
}
-/**
- * dumps a opcode hash
- */
-static void dump_opcode_hash(pset *set)
-{
- node_entry_t *entry;
- counter_t f_count;
- counter_t f_new_node;
- counter_t f_Id;
-
- cnt_clr(&f_count);
- cnt_clr(&f_new_node);
- cnt_clr(&f_Id);
-
- fprintf(status->f, "%-16s %-8s %-8s %-8s\n", "Opcode", "alive", "created", "->Id");
- for (entry = pset_first(set); entry; entry = pset_next(set)) {
- fprintf(status->f, "%-16s %8d %8d %8d\n",
- get_id_str(entry->op->name), entry->count.cnt[0], entry->new_node.cnt[0], entry->into_Id.cnt[0]);
-
- cnt_add(&f_count, &entry->count);
- cnt_add(&f_new_node, &entry->new_node);
- cnt_add(&f_Id, &entry->into_Id);
- }
- fprintf(status->f, "-------------------------------------------\n");
- fprintf(status->f, "%-16s %8d %8d %8d\n", "Sum",
- f_count.cnt[0],
- f_new_node.cnt[0],
- f_Id.cnt[0]);
-}
-
-static const char *opt_names[] = {
- "straightening optimization",
- "if simplification",
- "algebraic simplification",
- "Phi optmization",
- "Write-After-Write optimization",
- "Write-After-Read optimization",
- "Tuple optimization",
- "ID optimization",
- "Constant evaluation",
- "Lowered",
-};
-
-/**
- * dumps a optimization hash
- */
-static void dump_opt_hash(pset *set, int index)
-{
- opt_entry_t *entry = pset_first(set);
-
- if (entry) {
- fprintf(status->f, "\n%s:\n", opt_names[index]);
- fprintf(status->f, "%-16s %-8s\n", "Opcode", "deref");
-
- for (; entry; entry = pset_next(set)) {
- fprintf(status->f, "%-16s %8d\n",
- get_id_str(entry->op->name), entry->count.cnt[0]);
- }
- }
-}
-
/* Finish the statistics */
void stat_finish(void)
{
STAT_ENTER;
{
- int i;
graph_entry_t *entry;
- ir_graph *const_irg = get_const_code_irg();
-
- /* dump global */
- fprintf(status->f, "\nGlobal counts:\n");
- dump_opcode_hash(status->opcode_hash);
+ graph_entry_t *global = graph_get_entry(NULL, status->irg_hash);
+ /* dump per graph */
for (entry = pset_first(status->irg_hash); entry; entry = pset_next(status->irg_hash)) {
- entity *ent = entry->ent;
- if (! entry->deleted) {
- /* the graph is still alive, count the nodes on it */
- count_nodes_in_graph(entry->irg, entry->opcode_hash);
+ if (entry->irg == NULL) {
+ /* special entry for the global count */
+ continue;
}
- if (entry->irg == const_irg) {
- fprintf(status->f, "\nConst code Irg %p", entry->irg);
- }
- else {
- if (ent)
- fprintf(status->f, "\nEntity %s, Irg %p", get_entity_name(ent), entry->irg);
- else
- fprintf(status->f, "\nIrg %p", entry->irg);
+ if (! entry->deleted) {
+ /* the graph is still alive, count the nodes on it */
+ count_nodes_in_graph(global, entry);
}
- fprintf(status->f, " %swalked %d over blocks %d was inlined %d got inlined %d:\n",
- entry->deleted ? "DELETED " : "",
- entry->walked.cnt[0], entry->walked_blocks.cnt[0],
- entry->was_inlined.cnt[0],
- entry->got_inlined.cnt[0]
- );
-
- dump_opcode_hash(entry->opcode_hash);
-
- for (i = 0; i < sizeof(entry->opt_hash)/sizeof(entry->opt_hash[0]); ++i) {
- dump_opt_hash(entry->opt_hash[i], i);
- }
+ dump_graph(entry);
}
- fclose(status->f);
+ /* dump global */
+ dump_graph(global);
+ dump_finish();
+
}
STAT_LEAVE;
}