#undef is_Perm
#define is_Perm(arch_env, irn) (arch_irn_classify(arch_env, irn) == arch_irn_class_perm)
-#undef is_Call
-#define is_Call(arch_env, irn) (arch_irn_classify(arch_env, irn) == arch_irn_class_call)
+/* collect static data about perms */
+typedef struct _perm_stat_t {
+ const arch_register_class_t *cls; /**< the current register class */
+ int *perm_size_ar; /**< the sizes of all perms in an irg */
+ int *real_perm_size_ar; /**< the sizes of all perms in an irg */
+ int *chain_len_ar; /**< the sizes of all chains for all perms */
+ int *cycle_len_ar; /**< the siyes of all cycles for all perms */
+ int num_perms; /**< number of all perms */
+ int num_real_perms; /**< number of all perms */
+ int num_chains; /**< the number of all chains */
+ int num_cycles; /**< the number of all cycles */
+} perm_stat_t;
/* lowering walker environment */
typedef struct _lower_env_t {
be_chordal_env_t *chord_env;
- int do_copy;
- firm_dbg_module_t *dbg_module;
+ unsigned do_copy:1;
+ unsigned do_stat:1;
+ unsigned pstat_n:30;
+ perm_stat_t **pstat;
+ DEBUG_ONLY(firm_dbg_module_t *dbg_module;)
} lower_env_t;
/* holds a perm register pair */
static void lower_perm_node(ir_node *irn, void *walk_env) {
const arch_register_class_t *reg_class;
const arch_env_t *arch_env;
- firm_dbg_module_t *mod;
- lower_env_t *env = walk_env;
+ lower_env_t *env = walk_env;
+ perm_stat_t **pstat = env->pstat;
reg_pair_t *pairs;
const ir_edge_t *edge;
perm_cycle_t *cycle;
- int n, i, pn, do_copy, j;
+ int n, i, pn, do_copy, j, pstat_idx = -1;
ir_node *sched_point, *block, *in[2];
ir_node *arg1, *arg2, *res1, *res2;
ir_node *cpyxchg = NULL;
+ DEBUG_ONLY(firm_dbg_module_t *mod;)
arch_env = env->chord_env->birg->main_env->arch_env;
do_copy = env->do_copy;
- mod = env->dbg_module;
+ DEBUG_ONLY(mod = env->dbg_module;)
block = get_nodes_block(irn);
/*
reg_class = arch_get_irn_register(arch_env, get_irn_n(irn, 0))->reg_class;
pairs = alloca(n * sizeof(pairs[0]));
+ if (env->do_stat) {
+ /* determine index in statistics */
+ for (i = 0; i < env->pstat_n; i++) {
+ if (strcmp(pstat[i]->cls->name, reg_class->name) == 0) {
+ pstat_idx = i;
+ break;
+ }
+ }
+ assert(pstat_idx >= 0 && "could not determine class index for statistics");
+
+ pstat[pstat_idx]->num_perms++;
+ pstat[pstat_idx]->perm_size_ar[n - 1]++;
+ }
+
/* build the list of register pairs (in, out) */
i = 0;
foreach_out_edge(irn, edge) {
do_copy = 0;
}
+ if (env->do_stat && get_n_checked_pairs(pairs, n) < n) {
+ pstat[pstat_idx]->num_real_perms++;
+ pstat[pstat_idx]->real_perm_size_ar[n - 1]++;
+ }
+
/* check for cycles and chains */
while (get_n_checked_pairs(pairs, n) < n) {
i = 0;
}
DB((mod, LEVEL_1, "\n"));
+ /* statistics */
+ if (env->do_stat) {
+ int n_idx = cycle->n_elems - 1;
+ if (cycle->type == PERM_CHAIN) {
+ pstat[pstat_idx]->num_chains++;
+ pstat[pstat_idx]->chain_len_ar[n_idx]++;
+ }
+ else {
+ pstat[pstat_idx]->num_cycles++;
+ pstat[pstat_idx]->cycle_len_ar[n_idx]++;
+ }
+ }
+
/* We don't need to do anything if we have a Perm with two
elements which represents a cycle, because those nodes
already represent exchange nodes */
return;
}
+static void lower_print_perm_stat(lower_env_t *env) {
+ int i, j, total_len_chain, total_len_cycle, total_size_perm, total_size_real_perm;
+
+ printf("=== IRG: %s ===\n", get_entity_name(get_irg_entity(env->chord_env->irg)));
+ for (i = 0; i < env->pstat_n; i++) {
+ if (env->pstat[i]->num_perms == 0)
+ continue;
+
+ printf("CLASS: %s\n", env->pstat[i]->cls->name);
+ printf("# total perms: %d (size:num -> 1:%d", env->pstat[i]->num_perms, env->pstat[i]->perm_size_ar[0]);
+
+ total_size_perm = env->pstat[i]->perm_size_ar[0];
+ for (j = 1; j < env->pstat[i]->cls->n_regs; j++) {
+ total_size_perm += (j + 1) * env->pstat[i]->perm_size_ar[j];
+ printf(", %d:%d", j + 1, env->pstat[i]->perm_size_ar[j]);
+ }
+ printf(")\n");
+ printf("avg perm size: %.2f\n", env->pstat[i]->num_perms ? (float)total_size_perm / (float)env->pstat[i]->num_perms : 0);
+
+ printf("# real perms: %d (size:num -> 1:%d", env->pstat[i]->num_real_perms, env->pstat[i]->real_perm_size_ar[0]);
+
+ total_size_real_perm = env->pstat[i]->real_perm_size_ar[0];
+ for (j = 1; j < env->pstat[i]->cls->n_regs; j++) {
+ total_size_real_perm += (j + 1) * env->pstat[i]->real_perm_size_ar[j];
+ printf(", %d:%d", j + 1, env->pstat[i]->real_perm_size_ar[j]);
+ }
+ printf(")\n");
+ printf("avg real perm size: %.2f\n", env->pstat[i]->num_real_perms ? (float)total_size_real_perm / (float)env->pstat[i]->num_real_perms : 0);
+
+ printf("# total chains: %d (lenght:num -> 1:%d", env->pstat[i]->num_chains, env->pstat[i]->chain_len_ar[0]);
+
+ total_len_chain = env->pstat[i]->chain_len_ar[0];
+
+ for (j = 1; j < env->pstat[i]->cls->n_regs; j++) {
+ total_len_chain += (j + 1) * env->pstat[i]->chain_len_ar[j];
+ printf(", %d:%d", j + 1, env->pstat[i]->chain_len_ar[j]);
+ }
+ printf(")\n");
+ printf("avg chain length: %.2f\n", env->pstat[i]->num_chains ? (float)total_len_chain / (float)env->pstat[i]->num_chains : 0);
+ printf("avg chains/perm: %.2f\n", env->pstat[i]->num_real_perms ? (float)env->pstat[i]->num_chains / (float)env->pstat[i]->num_real_perms : 0);
+
+ printf("# total cycles: %d (length:num -> 1:%d", env->pstat[i]->num_cycles, env->pstat[i]->cycle_len_ar[0]);
+ total_len_cycle = env->pstat[i]->cycle_len_ar[0];
+ for (j = 1; j < env->pstat[i]->cls->n_regs; j++) {
+ total_len_cycle += (j + 1) * env->pstat[i]->cycle_len_ar[j];
+ printf(", %d:%d", j + 1, env->pstat[i]->cycle_len_ar[j]);
+ }
+ printf(")\n");
+ printf("avg cycle length: %.2f\n", env->pstat[i]->num_cycles ? (float)total_len_cycle / (float)env->pstat[i]->num_cycles : 0);
+ printf("avg cycles/perm: %.2f\n", env->pstat[i]->num_real_perms ? (float)env->pstat[i]->num_cycles / (float)env->pstat[i]->num_real_perms : 0);
+ }
+}
/**
* Walks over all blocks in an irg and performs lowering need to be
* @param chord_env The chordal environment containing the irg
* @param do_copy 1 == resolve cycles with a free reg if available
*/
-void lower_nodes_after_ra(be_chordal_env_t *chord_env, int do_copy) {
+void lower_nodes_after_ra(be_chordal_env_t *chord_env, int do_copy, int do_stat) {
lower_env_t env;
env.chord_env = chord_env;
env.do_copy = do_copy;
+ env.do_stat = do_stat;
FIRM_DBG_REGISTER(env.dbg_module, "firm.be.lower");
+ /* if we want statistics: allocate memory for the data and initialize with 0 */
+ if (do_stat) {
+ const arch_isa_t *isa = chord_env->birg->main_env->arch_env->isa;
+ int i, n = arch_isa_get_n_reg_class(isa);
+
+ env.pstat = alloca(n * sizeof(env.pstat[0]));
+ env.pstat_n = n;
+
+ for (i = 0; i < n; i++) {
+ const arch_register_class_t *cls = arch_isa_get_reg_class(isa, i);
+ int n_regs = cls->n_regs;
+
+ env.pstat[i] = alloca(sizeof(*(env.pstat[0])));
+ memset(env.pstat[i], 0, sizeof(*(env.pstat[0])));
+
+ env.pstat[i]->perm_size_ar = alloca(n_regs * sizeof(env.pstat[i]->perm_size_ar[0]));
+ env.pstat[i]->real_perm_size_ar = alloca(n_regs * sizeof(env.pstat[i]->real_perm_size_ar[0]));
+ env.pstat[i]->chain_len_ar = alloca(n_regs * sizeof(env.pstat[i]->chain_len_ar[0]));
+ env.pstat[i]->cycle_len_ar = alloca(n_regs * sizeof(env.pstat[i]->cycle_len_ar[0]));
+
+ memset(env.pstat[i]->perm_size_ar, 0, n_regs * sizeof(env.pstat[i]->perm_size_ar[0]));
+ memset(env.pstat[i]->real_perm_size_ar, 0, n_regs * sizeof(env.pstat[i]->real_perm_size_ar[0]));
+ memset(env.pstat[i]->chain_len_ar, 0, n_regs * sizeof(env.pstat[i]->chain_len_ar[0]));
+ memset(env.pstat[i]->cycle_len_ar, 0, n_regs * sizeof(env.pstat[i]->cycle_len_ar[0]));
+
+ env.pstat[i]->cls = cls;
+ }
+ }
+
irg_walk_blkwise_graph(chord_env->irg, NULL, lower_nodes_after_ra_walker, &env);
+
+ if (do_stat) {
+ lower_print_perm_stat(&env);
+ }
}
#undef is_Perm
-#undef is_Call
projects / libfirm / blobdiff