#include "vector.h"
#include "matrix.h"
#include "html_dumper.h"
-#include "heuristical.h"
+#include "heuristical_co.h"
#include "pbqp_node_t.h"
#include "becopyopt_t.h"
#include "bearch.h"
#include "irdom.h"
#include "iredges.h"
+#include "timing.h"
#include "error.h"
#include "bitset.h"
}
#endif
-static void insert_into_reverse_peo(ir_node *block, void *data) {
- pqueue_t *queue = new_pqueue();
- pqueue_t *constatQueue = new_pqueue();
- pbqp_co_t *pbqp_co = data;
+static void insert_into_reverse_peo(ir_node *block, void *data)
+{
+ pqueue_t *queue = new_pqueue();
+ pqueue_t *restrictedNodesQueue = new_pqueue();
+ pbqp_co_t *pbqp_co = data;
ir_node *irn;
sched_foreach(block, irn) {
- pbqp_node *node;
-
if (get_irn_mode(irn) == mode_T) {
const ir_edge_t *edge;
if (!arch_irn_consider_in_reg_alloc(pbqp_co->cls, proj))
continue;
- // get related pbqp_node and insert into reverse peo
- assert(node && "No corresponding PBQP-Node found!");
-
// insert proj node into priority queue (descending by their degree in ifg)
if(bitset_is_set(pbqp_co->restricted_nodes, get_irn_idx(proj))) {
- pqueue_put(constatQueue,proj, be_ifg_degree(pbqp_co->ifg,proj));
+ pqueue_put(restrictedNodesQueue,proj, be_ifg_degree(pbqp_co->ifg,proj));
}
else {
pqueue_put(queue,proj, be_ifg_degree(pbqp_co->ifg,proj));
}
/* first insert all restricted nodes */
- while(!pqueue_empty(constatQueue)) {
- plist_insert_back(pbqp_co->rpeo, get_node(pbqp_co->pbqp, get_irn_idx(pqueue_pop_front(constatQueue))));
+ while(!pqueue_empty(restrictedNodesQueue)) {
+ plist_insert_back(pbqp_co->rpeo, get_node(pbqp_co->pbqp, get_irn_idx(pqueue_pop_front(restrictedNodesQueue))));
}
/* insert proj nodes into reverse perfect elimination order (descending by their degree in ifg) */
if (!arch_irn_consider_in_reg_alloc(pbqp_co->cls, irn))
continue;
- /* get related pbqp_node and insert into reverse peo */
- assert(node && "No corresponding PBQP-Node found!");
+ /* insert pbqp node into reverse peo */
plist_insert_back(pbqp_co->rpeo, get_node(pbqp_co->pbqp, get_irn_idx(irn)));
}
}
/* free priority queues */
del_pqueue(queue);
- del_pqueue(constatQueue);
+ del_pqueue(restrictedNodesQueue);
}
-static int co_solve_heuristic_pbqp(copy_opt_t *co) {
- void *nodes_it = be_ifg_nodes_iter_alloca(co->cenv->ifg);
- void *neigh_it = be_ifg_neighbours_iter_alloca(co->cenv->ifg);
+static int co_solve_heuristic_pbqp(copy_opt_t *co)
+{
+ void *nodes_it = be_ifg_nodes_iter_alloca(co->cenv->ifg);
+ void *neigh_it = be_ifg_neighbours_iter_alloca(co->cenv->ifg);
+ unsigned number_registers = co->cls->n_regs;
+ unsigned number_nodes = get_irg_last_idx(co->irg);
+ ir_timer_t *t_ra_copymin_pbqp_create = ir_timer_new();
+ ir_timer_t *t_ra_copymin_pbqp_solve = ir_timer_new();
ir_node *ifg_node;
ir_node *if_neighb_node;
-
pbqp_co_t pbqp_co;
+ unsigned row, col;
+
+ #if KAPS_TIMING
+ printf("==>> START PBQP TIMING on IRG %s (%s) <<==\n", get_entity_name(get_irg_entity(co->irg)), arch_register_class_name(co->cls));
+ #endif
- unsigned number_registers = co->cls->n_regs;
- unsigned number_nodes = get_irg_last_idx(co->irg);
+ /* start timer */
+ ir_timer_reset_and_start(t_ra_copymin_pbqp_create);
/* create and initialize data structure for pbqp copy minimization optimization */
- pbqp_co.cls = co->cls;
- pbqp_co.rpeo = plist_new();;
- pbqp_co.map = pmap_create_ex(number_nodes);
- pbqp_co.pbqp = alloc_pbqp(number_nodes);
- pbqp_co.ignore_reg = bitset_malloc(number_registers);
+ pbqp_co.cls = co->cls;
+ pbqp_co.rpeo = plist_new();
+ pbqp_co.pbqp = alloc_pbqp(number_nodes);
+ pbqp_co.ignore_reg = bitset_malloc(number_registers);
pbqp_co.restricted_nodes = bitset_malloc(number_nodes);
- pbqp_co.ifg = co->cenv->ifg;
+ pbqp_co.ifg = co->cenv->ifg;
+
+ /* no node is restricted at the beginning */
+ bitset_clear_all(pbqp_co.restricted_nodes);
/* get ignored registers */
be_put_ignore_regs(co->cenv->birg, co->cls, pbqp_co.ignore_reg);
cntFreeChoosableRegs++;
}
}
-#if KAPS_ENABLE_VECTOR_NAMES
+
+ #if KAPS_ENABLE_VECTOR_NAMES
/* add description */
vector_set_description(costs_vector, cnt, arch_register_for_index(co->cls, cnt)->name);
-#endif
+ #endif
}
/* add costs vector to node */
add_node_costs(pbqp_co.pbqp, get_irn_idx(ifg_node), costs_vector);
- /* insert ir_node and pbqp_node into map */
- pmap_insert(pbqp_co.map, ifg_node, get_node(pbqp_co.pbqp, get_irn_idx(ifg_node)));
-
if(cntFreeChoosableRegs <= 4) {
/* node is restricted */
bitset_set(pbqp_co.restricted_nodes, get_irn_idx(ifg_node));
}
- else
- {
- /* node is not restricted */
- bitset_clear(pbqp_co.restricted_nodes, get_irn_idx(ifg_node));
- }
+ }
+ /* create costs matrix for interference edges */
+ struct pbqp_matrix *ife_matrix = pbqp_matrix_alloc(pbqp_co.pbqp, number_registers, number_registers);
+ /* set costs */
+ for(row = 0; row < number_registers; row++) {
+ pbqp_matrix_set(ife_matrix, row, row, INF_COSTS);
+ }
+
+ /* create costs matrix for affinity edges */
+ struct pbqp_matrix *afe_matrix = pbqp_matrix_alloc(pbqp_co.pbqp, number_registers, number_registers);
+ /* set costs */
+ for(row = 0; row < number_registers; row++) {
+ for(col = 0; col < number_registers; col++) {
+ if(row == col) {
+ pbqp_matrix_set(afe_matrix, row, col, 0);
+ }
+ else {
+ pbqp_matrix_set(afe_matrix, row, col, 2);
+ }
+ }
}
/* add pbqp edges and cost matrix */
/* add costs matrix between nodes (interference edge) */
be_ifg_foreach_neighbour(co->cenv->ifg, neigh_it, ifg_node, if_neighb_node) {
if(get_edge(pbqp_co.pbqp,get_irn_idx(ifg_node), get_irn_idx(if_neighb_node)) == NULL) {
- /* create costs matrix */
- struct pbqp_matrix *matrix = pbqp_matrix_alloc(pbqp_co.pbqp, number_registers, number_registers);
-
- /* set costs */
- unsigned row, col;
- for(row = 0; row < number_registers; row++) {
- for(col = 0; col < number_registers; col++) {
- if(row == col) {
- pbqp_matrix_set(matrix, row, col, INF_COSTS);
- }
- else {
- pbqp_matrix_set(matrix, row, col, 0);
- }
- }
- }
+ /* copy matrix */
+ struct pbqp_matrix *matrix = pbqp_matrix_copy(pbqp_co.pbqp, ife_matrix);
/* add costs matrix to interference edge */
add_edge_costs(pbqp_co.pbqp, get_irn_idx(ifg_node), get_irn_idx(if_neighb_node) , matrix);
+
}
}
neighb_t *aff_neighb_node;
if(aff_node != NULL) {
co_gs_foreach_neighb(aff_node, aff_neighb_node) {
- pmap_entry *ptr_pbqp_node = pmap_find(pbqp_co.map,aff_neighb_node->irn);
-
/* ignore Unknowns */
- if(ptr_pbqp_node == NULL) {
+ if(get_node(pbqp_co.pbqp, get_irn_idx(aff_neighb_node->irn)) == NULL)
continue;
- }
if(get_edge(pbqp_co.pbqp, get_irn_idx(aff_node->irn), get_irn_idx(aff_neighb_node->irn)) == NULL) {
- /* create costs matrix */
- struct pbqp_matrix *matrix = pbqp_matrix_alloc(pbqp_co.pbqp, number_registers, number_registers);
-
- /* set costs */
- unsigned row, col;
- for(row = 0; row < number_registers; row++) {
- for(col = 0; col < number_registers; col++) {
- if(row == col) {
- pbqp_matrix_set(matrix, row, col, 0);
- }
- else {
- pbqp_matrix_set(matrix, row, col, 2);
- }
- }
- }
+ /* copy matrix */
+ struct pbqp_matrix *matrix = pbqp_matrix_copy(pbqp_co.pbqp, afe_matrix);
/* add costs matrix to affinity edge */
add_edge_costs(pbqp_co.pbqp, get_irn_idx(aff_node->irn), get_irn_idx(aff_neighb_node->irn) , matrix);
assure_doms(co->irg);
dom_tree_walk_irg(co->irg, insert_into_reverse_peo, NULL, &pbqp_co);
-#if KAPS_DUMP
+ /* stop timer */
+ ir_timer_stop(t_ra_copymin_pbqp_create);
+
+ #if KAPS_DUMP
// dump graph before solving pbqp
- FILE *file_before = my_open(co->cenv, "", "-before.html");
- set_dumpfile(pbqp_co.pbqp, file_before);
- pbqp_dump_input(pbqp_co.pbqp);
-#endif
+ FILE *file = my_open(co->cenv, "", "-pbqp_copymin.html");
+ set_dumpfile(pbqp_co.pbqp, file);
+ #endif
+ /* start timer */
+ ir_timer_reset_and_start(t_ra_copymin_pbqp_solve);
/* solve pbqp problem using a reverse perfect elimination order */
solve_pbqp_heuristical_co(pbqp_co.pbqp, pbqp_co.rpeo);
num solution = get_solution(pbqp_co.pbqp);
- assert(solution != INF_COSTS && "No PBQP solution found");
-
-#if KAPS_DUMP
- /* dump graph after solving pbqp */
- FILE *file_after = my_open(co->cenv, "", "-after.html");
- set_dumpfile(pbqp_co.pbqp, file_after);
- pbqp_dump_input(pbqp_co.pbqp);
-#endif
+ /* stop time */
+ ir_timer_stop(t_ra_copymin_pbqp_solve);
+
+ #if KAPS_STATISTIC
+ printf("==>> PBQP STATISTIC on IRG %s (%s) <<==\n", get_entity_name(get_irg_entity(co->irg)), arch_register_class_name(co->cls));
+ printf("Number of Nodes: %d\n", number_nodes);
+ printf("Number of independent edges : %d\n", pbqp_co.pbqp->num_edges);
+ printf("Number of trivial solved nodes: %d\n", pbqp_co.pbqp->num_r0);
+ printf("Number of R1 reductions : %d\n", pbqp_co.pbqp->num_r1);
+ printf("Number of R2 reductions : %d\n", pbqp_co.pbqp->num_r2);
+ printf("Number of RN reductions : %d\n", pbqp_co.pbqp->num_rn);
+ #endif
+
+ #if KAPS_TIMING
+ printf("%-20s: %8.3lf msec\n", "copy minimization pbqp create",
+ (double)ir_timer_elapsed_usec(t_ra_copymin_pbqp_create) / 1000.0);
+ printf("%-20s: %8.3lf msec\n" , "copy minimization pbqp solve",
+ (double)ir_timer_elapsed_usec(t_ra_copymin_pbqp_solve) / 1000.0);
+ printf("==>> END PBQP TIMING on IRG %s (%s) <<==\n", get_entity_name(get_irg_entity(co->irg)), arch_register_class_name(co->cls));
+ #endif
+
+ assert(solution != INF_COSTS && "No PBQP solution found");
/* coloring ifg */
be_ifg_foreach_node(co->cenv->ifg, nodes_it, ifg_node) {
arch_set_irn_register(ifg_node, reg);
}
- /* free pbqp resources */
-#if KAPS_DUMP
- fclose(file_before);
- fclose(file_after);
-#endif
+ /* free allocated memory */
+ #if KAPS_DUMP
+ fclose(file);
+ #endif
bitset_free(pbqp_co.ignore_reg);
- pmap_destroy(pbqp_co.map);
+ bitset_free(pbqp_co.restricted_nodes);
plist_free(pbqp_co.rpeo);
free_pbqp(pbqp_co.pbqp);