X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=ir%2Fbe%2Fbecopyilp2.c;h=06cb43e6105fc500498d78c4367e81fdc2f9ec76;hb=04906225f6fe1bc22f73b5d6a98eb9c0992a9b54;hp=93cb741318df81bd97da62db8778d995a09056d8;hpb=76c0c4f215716a69cebe49fbcba24c17a9595f32;p=libfirm diff --git a/ir/be/becopyilp2.c b/ir/be/becopyilp2.c index 93cb74131..06cb43e61 100644 --- a/ir/be/becopyilp2.c +++ b/ir/be/becopyilp2.c @@ -1,9 +1,28 @@ -/** - * Author: Daniel Grund - * Date: 28.02.2006 - * Copyright: (c) Universitaet Karlsruhe - * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE. +/* + * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved. + * + * This file is part of libFirm. + * + * This file may be distributed and/or modified under the terms of the + * GNU General Public License version 2 as published by the Free Software + * Foundation and appearing in the file LICENSE.GPL included in the + * packaging of this file. * + * Licensees holding valid libFirm Professional Edition licenses may use + * this file in accordance with the libFirm Commercial License. + * Agreement provided with the Software. + * + * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE + * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR + * PURPOSE. + */ + +/** + * @file + * @brief ILP based copy minimization. + * @author Daniel Grund + * @date 28.02.2006 + * @version $Id$ * * ILP formalization using G=(V, E, Q): * - 2 class of variables: coloring vars x_ic and equal color vars y_ij @@ -25,13 +44,14 @@ * * x_nc, y_ij \in N, w_ij \in R^+ */ - -#ifdef HAVE_CONFIG_H #include "config.h" -#endif /* HAVE_CONFIG_H */ #ifdef WITH_ILP +#include "bitset.h" +#include "raw_bitset.h" +#include "pdeq.h" + #include "irtools.h" #include "irgwalk.h" #include "becopyilp_t.h" @@ -41,15 +61,17 @@ #define DEBUG_LVL 1 typedef struct _local_env_t { - firm_dbg_module_t *dbg; double time_limit; int first_x_var, last_x_var; + int n_colors; + bitset_t *normal_colors; pmap *nr_2_irn; + DEBUG_ONLY(firm_dbg_module_t *dbg;) } local_env_t; static void build_coloring_cstr(ilp_env_t *ienv) { - be_ifg_t *ifg = ienv->co->cenv->ifg; - void *iter = be_ifg_nodes_iter_alloca(ifg); + be_ifg_t *ifg = ienv->co->cenv->ifg; + void *iter = be_ifg_nodes_iter_alloca(ifg); bitset_t *colors; ir_node *irn; char buf[16]; @@ -58,28 +80,32 @@ static void build_coloring_cstr(ilp_env_t *ienv) { be_ifg_foreach_node(ifg, iter, irn) if (!sr_is_removed(ienv->sr, irn)) { - int col, cst_idx; - arch_register_req_t req; - int curr_node_color = get_irn_col(ienv->co, irn); - int node_nr = (int)get_irn_node_nr(irn); + bitset_pos_t col; + int cst_idx; + const arch_register_req_t *req; + int curr_node_color = get_irn_col(irn); + int node_nr = (int)get_irn_idx(irn); local_env_t *lenv = ienv->env; pmap_insert(lenv->nr_2_irn, INT_TO_PTR(node_nr), irn); - arch_get_register_req(ienv->co->aenv, &req, irn, -1); + req = arch_get_register_req(irn, -1); + + bitset_clear_all(colors); /* get assignable colors */ - if (arch_register_req_is(&req, limited)) - req.limited(req.limited_env, colors); - else - arch_put_non_ignore_regs(ienv->co->aenv, req.cls, colors); + if (arch_register_req_is(req, limited)) { + rbitset_copy_to_bitset(req->limited, colors); + } else { + bitset_copy(colors, lenv->normal_colors); + } /* add the coloring constraint */ cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_equal, 1.0); bitset_foreach(colors, col) { int var_idx = lpp_add_var(ienv->lp, name_cdd(buf, 'x', node_nr, col), lpp_binary, 0.0); - lpp_set_start_value(ienv->lp, var_idx, (col == curr_node_color) ? 1.0 : 0.0); + lpp_set_start_value(ienv->lp, var_idx, (col == (unsigned) curr_node_color) ? 1.0 : 0.0); lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1); lenv->last_x_var = var_idx; @@ -100,9 +126,10 @@ static void build_coloring_cstr(ilp_env_t *ienv) { } static void build_interference_cstr(ilp_env_t *ienv) { - lpp_t *lpp = ienv->lp; - be_ifg_t *ifg = ienv->co->cenv->ifg; - int n_colors = arch_register_class_n_regs(ienv->co->cls); + lpp_t *lpp = ienv->lp; + local_env_t *lenv = ienv->env; + be_ifg_t *ifg = ienv->co->cenv->ifg; + int n_colors = lenv->n_colors; int i, col; void *iter = be_ifg_cliques_iter_alloca(ifg); @@ -113,8 +140,13 @@ static void build_interference_cstr(ilp_env_t *ienv) { /* for each maximal clique */ be_ifg_foreach_clique(ifg, iter, clique, &size) { + int realsize = 0; + + for (i=0; isr, clique[i])) + ++realsize; - if (size < 2) + if (realsize < 2) continue; /* for all colors */ @@ -126,7 +158,7 @@ static void build_interference_cstr(ilp_env_t *ienv) { ir_node *irn = clique[i]; if (!sr_is_removed(ienv->sr, irn)) { - int var_idx = lpp_get_var_idx(lpp, name_cdd(buf, 'x', (int)get_irn_node_nr(irn), col)); + int var_idx = lpp_get_var_idx(lpp, name_cdd(buf, 'x', (int)get_irn_idx(irn), col)); lpp_set_factor_fast(lpp, cst_idx, var_idx, 1); } } @@ -134,9 +166,16 @@ static void build_interference_cstr(ilp_env_t *ienv) { } } + +/** + * TODO: Remove the dependency of the opt-units data structure + * by walking over all affinity edges. Graph structure + * does not provide this walker, yet. + */ static void build_affinity_cstr(ilp_env_t *ienv) { + local_env_t *lenv = ienv->env; + int n_colors = lenv->n_colors; unit_t *curr; - int n_colors = arch_register_class_n_regs(ienv->co->cls); /* for all optimization units */ list_for_each_entry(unit_t, curr, &ienv->co->units, units) { @@ -146,13 +185,13 @@ static void build_affinity_cstr(ilp_env_t *ienv) { int root_col, arg_col; root = curr->nodes[0]; - root_nr = (int) get_irn_node_nr(root); - root_col = get_irn_col(ienv->co, root); + root_nr = (int) get_irn_idx(root); + root_col = get_irn_col(root); for (i = 1; i < curr->node_count; ++i) { arg = curr->nodes[i]; - arg_nr = (int) get_irn_node_nr(arg); - arg_col = get_irn_col(ienv->co, arg); + arg_nr = (int) get_irn_idx(arg); + arg_col = get_irn_col(arg); /* add a new affinity variable */ y_idx = lpp_add_var(ienv->lp, name_cdd_sorted(buf, 'y', root_nr, arg_nr), lpp_binary, curr->costs[i]); @@ -166,24 +205,277 @@ static void build_affinity_cstr(ilp_env_t *ienv) { lpp_set_factor_fast(ienv->lp, cst_idx, root_idx, 1.0); lpp_set_factor_fast(ienv->lp, cst_idx, arg_idx, -1.0); - lpp_set_factor_fast(ienv->lp, cst_idx, root_idx, -1.0); + lpp_set_factor_fast(ienv->lp, cst_idx, y_idx, -1.0); } } } } /** - * + * Helping stuff for build_clique_star_cstr + */ +typedef struct _edge_t { + ir_node *n1, *n2; +} edge_t; + +static int compare_edge_t(const void *k1, const void *k2, size_t size) { + const edge_t *e1 = k1; + const edge_t *e2 = k2; + (void) size; + + return ! (e1->n1 == e2->n1 && e1->n2 == e2->n2); +} + +#define HASH_EDGE(e) (hash_irn((e)->n1) ^ hash_irn((e)->n2)) + +static INLINE edge_t *add_edge(set *edges, ir_node *n1, ir_node *n2, int *counter) { + edge_t new_edge; + + if (PTR_TO_INT(n1) < PTR_TO_INT(n2)) { + new_edge.n1 = n1; + new_edge.n2 = n2; + } else { + new_edge.n1 = n2; + new_edge.n2 = n1; + } + (*counter)++; + return set_insert(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge)); +} + +static INLINE edge_t *find_edge(set *edges, ir_node *n1, ir_node *n2) { + edge_t new_edge; + + if (PTR_TO_INT(n1) < PTR_TO_INT(n2)) { + new_edge.n1 = n1; + new_edge.n2 = n2; + } else { + new_edge.n1 = n2; + new_edge.n2 = n1; + } + return set_find(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge)); +} + +static INLINE void remove_edge(set *edges, ir_node *n1, ir_node *n2, int *counter) { + edge_t new_edge, *e; + + if (PTR_TO_INT(n1) < PTR_TO_INT(n2)) { + new_edge.n1 = n1; + new_edge.n2 = n2; + } else { + new_edge.n1 = n2; + new_edge.n2 = n1; + } + e = set_find(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge)); + if (e) { + e->n1 = NULL; + e->n2 = NULL; + (*counter)--; + } +} + +#define pset_foreach(pset, irn) for(irn=pset_first(pset); irn; irn=pset_next(pset)) + +/** + * Search for an interference clique and an external node + * with affinity edges to all nodes of the clique. + * At most 1 node of the clique can be colored equally with the external node. */ static void build_clique_star_cstr(ilp_env_t *ienv) { + affinity_node_t *aff; + + /* for each node with affinity edges */ + co_gs_foreach_aff_node(ienv->co, aff) { + struct obstack ob; + neighb_t *nbr; + const ir_node *center = aff->irn; + ir_node **nodes; + set *edges; + int i, o, n_nodes, n_edges; + + if (arch_irn_is(aff->irn, ignore)) + continue; + + obstack_init(&ob); + edges = new_set(compare_edge_t, 8); + + /* get all affinity neighbours */ + n_nodes = 0; + co_gs_foreach_neighb(aff, nbr) { + if (!arch_irn_is(nbr->irn, ignore)) { + obstack_ptr_grow(&ob, nbr->irn); + ++n_nodes; + } + } + nodes = obstack_finish(&ob); + + /* get all interference edges between these */ + n_edges = 0; + for (i=0; ico->cenv->ifg, nodes[i], nodes[o])) + add_edge(edges, nodes[i], nodes[o], &n_edges); + + /* cover all these interference edges with maximal cliques */ + while (n_edges) { + edge_t *e; + pset *clique = pset_new_ptr(8); + int growed; + + /* get 2 starting nodes to form a clique */ + for (e=set_first(edges); !e->n1; e=set_next(edges)) + /*nothing*/ ; + + /* we could be stepped out of the loop before the set iterated to the end */ + set_break(edges); + + pset_insert_ptr(clique, e->n1); + pset_insert_ptr(clique, e->n2); + remove_edge(edges, e->n1, e->n2, &n_edges); + + /* while the clique is growing */ + do { + growed = 0; + + /* search for a candidate to extend the clique */ + for (i=0; ilp, NULL, lpp_greater, pset_count(clique)-1); + center_nr = get_irn_idx(center); + + pset_foreach(clique, member) { + member_nr = get_irn_idx(member); + var_idx = lpp_get_var_idx(ienv->lp, name_cdd_sorted(buf, 'y', center_nr, member_nr)); + lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1.0); + } + } + + del_pset(clique); + } + + del_set(edges); + obstack_free(&ob, NULL); + } +} + + +static void extend_path(ilp_env_t *ienv, pdeq *path, const ir_node *irn) { + be_ifg_t *ifg = ienv->co->cenv->ifg; + int i, len; + ir_node **curr_path; + affinity_node_t *aff; + neighb_t *nbr; + + /* do not walk backwards or in circles */ + if (pdeq_contains(path, irn)) + return; + + if (arch_irn_is(irn, ignore)) + return; + + /* insert the new irn */ + pdeq_putr(path, irn); + + + + /* check for forbidden interferences */ + len = pdeq_len(path); + curr_path = alloca(len * sizeof(*curr_path)); + pdeq_copyl(path, (const void **)curr_path); + + for (i=1; i 2) { + /* finally build the constraint */ + int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_greater, 1.0); + for (i=1; ilp, name_cdd_sorted(buf, 'y', nr_1, nr_2)); + lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1.0); + } + } + + /* this path cannot be extended anymore */ + goto end; + } + + + + /* recursively extend the path */ + aff = get_affinity_info(ienv->co, irn); + co_gs_foreach_neighb(aff, nbr) + extend_path(ienv, path, nbr->irn); + + +end: + /* remove the irn */ + pdeq_getr(path); } /** - * + * Search a path of affinity edges, whose ends are connected + * by an interference edge and there are no other interference + * edges in between. + * Then at least one of these affinity edges must break. */ static void build_path_cstr(ilp_env_t *ienv) { + affinity_node_t *aff_info; + /* for each node with affinity edges */ + co_gs_foreach_aff_node(ienv->co, aff_info) { + pdeq *path = new_pdeq(); + + extend_path(ienv, path, aff_info->irn); + + del_pdeq(path); + } } static void ilp2_build(ilp_env_t *ienv) { @@ -204,33 +496,37 @@ static void ilp2_build(ilp_env_t *ienv) { static void ilp2_apply(ilp_env_t *ienv) { local_env_t *lenv = ienv->env; - double *sol; - lpp_sol_state_t state; - int i, count; - - count = lenv->last_x_var - lenv->first_x_var + 1; - sol = xmalloc(count * sizeof(sol[0])); - state = lpp_get_solution(ienv->lp, sol, lenv->first_x_var, lenv->last_x_var); - if (state != lpp_optimal) { - printf("WARNING %s: Solution state is not 'optimal': %d\n", ienv->co->name, state); - assert(state >= lpp_feasible && "The solution should at least be feasible!"); - } + int i; + + /* first check if there was sth. to optimize */ + if (lenv->first_x_var >= 0) { + int count = lenv->last_x_var - lenv->first_x_var + 1; + double *sol = XMALLOCN(double, count); + lpp_sol_state_t state = lpp_get_solution(ienv->lp, sol, lenv->first_x_var, lenv->last_x_var); - for (i=0; ico->name, state); + assert(state >= lpp_feasible && "The solution should at least be feasible!"); + } - if (sol[i] > 1-EPSILON) { /* split variable name into components */ - lpp_get_var_name(ienv->lp, lenv->first_x_var+i, var_name, sizeof(var_name)); + for (i=0; inr_2_irn, INT_TO_PTR(nodenr)); - assert(irn && "This node number must be present in the map"); + if (sol[i] > 1-EPSILON) { /* split variable name into components */ + lpp_get_var_name(ienv->lp, lenv->first_x_var+i, var_name, sizeof(var_name)); - set_irn_col(ienv->co, irn, color); - } else - assert(0 && "This should be a x-var"); + if (sscanf(var_name, "x_%d_%d", &nodenr, &color) == 2) { + ir_node *irn = pmap_get(lenv->nr_2_irn, INT_TO_PTR(nodenr)); + assert(irn && "This node number must be present in the map"); + + set_irn_col(ienv->co, irn, color); + } else + assert(0 && "This should be a x-var"); + } } + + xfree(sol); } #ifdef COPYOPT_STAT @@ -242,17 +538,24 @@ static void ilp2_apply(ilp_env_t *ienv) { #endif } -int co_solve_ilp2(copy_opt_t *co, double time_limit) { +int co_solve_ilp2(copy_opt_t *co) { lpp_sol_state_t sol_state; ilp_env_t *ienv; local_env_t my; - my.time_limit = time_limit; + ASSERT_OU_AVAIL(co); //See build_clique_st + ASSERT_GS_AVAIL(co); + + my.time_limit = 0; my.first_x_var = -1; my.last_x_var = -1; my.nr_2_irn = pmap_create(); - my.dbg = firm_dbg_register("ir.be.coilp2"); - firm_dbg_set_mask(my.dbg, DEBUG_LVL); + FIRM_DBG_REGISTER(my.dbg, "firm.be.coilp2"); + + my.normal_colors = bitset_alloca(arch_register_class_n_regs(co->cls)); + bitset_clear_all(my.normal_colors); + arch_put_non_ignore_regs(co->cls, my.normal_colors); + my.n_colors = bitset_popcnt(my.normal_colors); ienv = new_ilp_env(co, ilp2_build, ilp2_apply, &my); @@ -266,7 +569,7 @@ int co_solve_ilp2(copy_opt_t *co, double time_limit) { #else /* WITH_ILP */ -static void only_that_you_can_compile_without_WITH_ILP_defined(void) { +static INLINE void only_that_you_can_compile_without_WITH_ILP_defined(void) { } #endif /* WITH_ILP */