#include "irgraph_t.h"
#include "irnode_t.h"
+#include "cgana.h"
+
#include "array.h"
#include "pmap.h"
set_irg_link(get_irp_irg(i), new_scc_info());
get_irp_irg(i)->callgraph_recursion_depth = 0;
get_irp_irg(i)->callgraph_loop_depth = 0;
- get_irp_irg(i)->callgraph_weighted_loop_depth = 0;
}
}
}
}
-static int in_same_loop(ir_graph *irg1, ir_graph *irg2) {
- return irg1->l == irg2->l;
-}
-
-/* Returns true if loop depth of low < high and low on
- a path from high to tree root. */
-static int in_lower_loop(ir_graph *high, ir_graph *low) {
- ir_loop *highl = high->l;
- ir_loop *lowl = low->l;
- if (get_loop_depth(lowl) < get_loop_depth(highl)) {
- while (get_loop_outer_loop(highl) != highl) {
- highl = get_loop_outer_loop(highl);
- if (highl == lowl) return 1;
- }
- }
- return 0;
-}
-/* compute nesting depth */
-static void cnd(ir_loop *loop) {
- int i, n_elems = get_loop_n_elements(loop);
-
- int same_sum = 0;
- int max_lower_edge_max = 0;
-
-
- /* Compute the value for this loop. Deeper loops use this value. */
- for (i = 0; i < n_elems; i++) {
- loop_element le = get_loop_element(loop, i);
- if (*le.kind == k_ir_graph) {
- ir_graph *irg = (ir_graph *)le.node;
- int j, n_callers = get_irg_n_callers(irg);
- int same_edge_max = 0;
- int loop_entry_max = 0;
-
- for (j = 0; j < n_callers; ++j) {
- ir_graph *caller = get_irg_caller(irg, j);
- int caller_loop_depth = get_irg_caller_loop_depth(irg, j);
-
-
- if (in_same_loop(irg, caller))
- same_edge_max = (same_edge_max < caller_loop_depth) ? caller_loop_depth
- : same_edge_max;
- if (in_lower_loop(irg, caller)) {
- int loop_entry_this = caller_loop_depth + caller->l->weighted_depth;
- loop_entry_max = (loop_entry_max < loop_entry_this) ? loop_entry_this
- : loop_entry_max;
- }
- }
-
- max_lower_edge_max = (max_lower_edge_max < loop_entry_max) ? max_lower_edge_max
- : loop_entry_max;
- same_sum += same_edge_max;
- }
-
- /* This loop is as expensive as the most expensive entry edge + the count of the cycle. */
- loop->weighted_depth = max_lower_edge_max + same_sum + 1; /* 1 for the recursion itself */
- }
-
- /* Recur. */
- for (i = 0; i < n_elems; i++) {
- loop_element le = get_loop_element(loop, i);
- if (*le.kind == k_ir_loop)
- cnd(le.son);
- }
-}
-
/* ----------------------------------------------------------------------------------- */
/* Another algorithm to compute recursion nesting depth */
void compute_loop_depth (ir_graph *irg, void *env) {
int current_nesting = *(int *) env;
+ int old_nesting = irg->callgraph_loop_depth;
+ int old_visited = get_cg_irg_visited(irg);
int i, n_callees;
+ //return ;
+
if (cg_irg_visited(irg)) return;
+
mark_cg_irg_visited(irg);
- if (current_nesting == 0 || irg->callgraph_loop_depth < current_nesting) {
+ //printf(" old: %d new %d master %d", old_visited, get_cg_irg_visited(irg), master_cg_visited); DDMG(irg);
+
+
+ if (old_nesting < current_nesting)
+ irg->callgraph_loop_depth = current_nesting;
+
+ if (current_nesting > irp->max_callgraph_loop_depth)
+ irp->max_callgraph_loop_depth = current_nesting;
+
+ if ((old_visited +1 < get_cg_irg_visited(irg)) || /* not yet visited */
+ (old_nesting < current_nesting)) { /* propagate larger nesting */
/* Don't walk the graph, but a tree that is an unfolded graph. */
n_callees = get_irg_n_callees(irg);
for (i = 0; i < n_callees; i++) {
}
}
- if (irg->callgraph_loop_depth < current_nesting)
- irg->callgraph_loop_depth = current_nesting;
-
set_cg_irg_visited(irg, master_cg_visited-1);
}
void compute_rec_depth (ir_graph *irg, void *env) {
ana_entry2 *e = (ana_entry2 *)env;
ir_loop *l = irg->l;
- int depth;
+ int depth, old_depth = irg->callgraph_recursion_depth;
int i, n_callees;
int pushed = 0;
if (cg_irg_visited(irg)) return;
mark_cg_irg_visited(irg);
+ /* -- compute and set the new nesting value -- */
if ((l != irp->outermost_cg_loop) && !in_stack(e, l)) {
push2(e, l);
e->recursion_nesting++;
}
depth = e->recursion_nesting;
- if (depth == 0 || irg->callgraph_recursion_depth < depth) {
+ if (old_depth < depth)
+ irg->callgraph_recursion_depth = depth;
+
+ if (depth > irp->max_callgraph_recursion_depth)
+ irp->max_callgraph_recursion_depth = depth;
+
+ /* -- spread the nesting value -- */
+ if (depth == 0 || old_depth < depth) {
/* Don't walk the graph, but a tree that is an unfolded graph. */
n_callees = get_irg_n_callees(irg);
for (i = 0; i < n_callees; i++) {
}
}
- if (irg->callgraph_recursion_depth < depth)
- irg->callgraph_recursion_depth = depth;
-
+ /* -- clean up -- */
if (pushed) {
pop2(e);
e->recursion_nesting--;
}
}
- /* -- Schleifentiefe berechnen -- */
+ /* -- compute the loop depth -- */
int current_nesting = 0;
+ irp->max_callgraph_loop_depth = 0;
master_cg_visited += 2;
+ //printf (" ** starting at "); DDMG(get_irp_main_irg());
compute_loop_depth(get_irp_main_irg(), ¤t_nesting);
for (i = 0; i < n_irgs; i++) {
ir_graph *irg = get_irp_irg(i);
- if (!cg_irg_visited(irg) && get_irg_n_callers(irg) == 0)
+ if ((get_cg_irg_visited(irg) < master_cg_visited-1) &&
+ get_irg_n_callers(irg) == 0) {
compute_loop_depth(irg, ¤t_nesting);
+ //printf (" ** starting at "); DDMG(irg);
+ }
}
for (i = 0; i < n_irgs; i++) {
ir_graph *irg = get_irp_irg(i);
- if (get_cg_irg_visited(irg) < master_cg_visited-1)
+ if (get_cg_irg_visited(irg) < master_cg_visited-1) {
compute_loop_depth(irg, ¤t_nesting);
+ //printf (" ** starting at "); DDMG(irg);
+ }
}
- /* -- Rekursionstiefe berechnen -- */
+ /* -- compute the recursion depth -- */
ana_entry2 e;
e.loop_stack = NEW_ARR_F(ir_loop *, 0);
e.tos = 0;
e.recursion_nesting = 0;
+ irp->max_callgraph_recursion_depth = 0;
master_cg_visited += 2;
compute_rec_depth(get_irp_main_irg(), &e);
+ //printf (" ++ starting at "); DDMG(get_irp_main_irg());
for (i = 0; i < n_irgs; i++) {
ir_graph *irg = get_irp_irg(i);
- if (!cg_irg_visited(irg) && get_irg_n_callers(irg) == 0)
+ if ((get_cg_irg_visited(irg) < master_cg_visited-1) &&
+ get_irg_n_callers(irg) == 0) {
compute_rec_depth(irg, &e);
+ //printf (" ++ starting at "); DDMG(irg);
+ }
}
for (i = 0; i < n_irgs; i++) {
ir_graph *irg = get_irp_irg(i);
- if (get_cg_irg_visited(irg) < master_cg_visited-1)
+ if (get_cg_irg_visited(irg) < master_cg_visited-1) {
compute_rec_depth(irg, &e);
+ //printf (" ++ starting at "); DDMG(irg);
+ }
}
DEL_ARR_F(e.loop_stack);
assert(irp->callgraph_state == irp_callgraph_and_calltree_consistent);
return irg->callgraph_recursion_depth;
}
+
+void analyse_loop_nesting_depth(void) {
+ entity **free_methods = NULL;
+ int arr_len;
+
+ /* establish preconditions. */
+ if (get_irp_callee_info_state() != irg_callee_info_consistent) {
+ cgana(&arr_len, &free_methods);
+ }
+
+ if (irp_callgraph_consistent != get_irp_callgraph_state()) {
+ compute_callgraph();
+ }
+
+ find_callgraph_recursions();
+}