* @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
#include "raw_bitset.h"
#include "pdeq.h"
-#include "irtools.h"
+#include "util.h"
#include "irgwalk.h"
#include "becopyilp_t.h"
#include "beifg.h"
#include "besched.h"
#include "bemodule.h"
-#define DEBUG_LVL 1
+DEBUG_ONLY(static firm_dbg_module_t *dbg;)
typedef struct local_env_t {
- 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;)
+ int first_x_var;
+ int last_x_var;
+ const unsigned *allocatable_colors;
} local_env_t;
-static void build_coloring_cstr(ilp_env_t *ienv)
+static unsigned check_alignment_constraints(ir_node *node)
{
- be_ifg_t *ifg = ienv->co->cenv->ifg;
- nodes_iter_t iter;
- bitset_t *colors;
- ir_node *irn;
- char buf[16];
+ const arch_register_req_t *req = arch_get_irn_register_req(node);
+ // For larger than 1 variables, support only aligned constraints
+ assert(((!(req->type & arch_register_req_type_aligned)
+ && req->width == 1)
+ || (req->type & arch_register_req_type_aligned))
+ && "Unaligned large (width > 1) variables not supported");
+ return (req->type & arch_register_req_type_aligned) && req->width > 1;
+}
- colors = bitset_alloca(arch_register_class_n_regs(ienv->co->cls));
+static void make_color_var_name(char *buf, size_t buf_size,
+ const ir_node *node, unsigned color)
+{
+ unsigned node_idx = get_irn_idx(node);
+ snprintf(buf, buf_size, "x_%u_%u", node_idx, color);
+}
- be_ifg_foreach_node(ifg, &iter, irn)
- if (!sr_is_removed(ienv->sr, irn)) {
- size_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;
+static void build_coloring_cstr(ilp_env_t *ienv)
+{
+ local_env_t *lenv = (local_env_t*)ienv->env;
+ be_ifg_t *ifg = ienv->co->cenv->ifg;
+ unsigned n_regs = arch_register_class_n_regs(ienv->co->cls);
+ const unsigned *allocatable_colors = lenv->allocatable_colors;
+ nodes_iter_t iter;
+ unsigned *colors;
+ ir_node *irn;
+ char buf[32];
+
+ rbitset_alloca(colors, n_regs);
+
+ be_ifg_foreach_node(ifg, &iter, irn) {
+ const arch_register_req_t *req;
+ unsigned col;
+ int cst_idx;
+ unsigned curr_node_color;
+ unsigned has_alignment_cstr;
+
+ if (sr_is_removed(ienv->sr, irn))
+ continue;
- pmap_insert(lenv->nr_2_irn, INT_TO_PTR(node_nr), irn);
+ has_alignment_cstr = check_alignment_constraints(irn);
- req = arch_get_register_req_out(irn);
+ req = arch_get_irn_register_req(irn);
- bitset_clear_all(colors);
+ /* get assignable colors */
+ if (arch_register_req_is(req, limited)) {
+ rbitset_copy(colors, req->limited, n_regs);
+ } else {
+ rbitset_copy(colors, allocatable_colors, n_regs);
+ }
- /* get assignable 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);
- /* add the coloring constraint */
- cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_equal, 1.0);
+ curr_node_color = get_irn_col(irn);
+ for (col = 0; col < n_regs; ++col) {
+ int var_idx;
+ double val;
+ if (!rbitset_is_set(colors, col)
+ || (has_alignment_cstr && ((col % req->width) != 0)))
+ continue;
- 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 == (unsigned) curr_node_color) ? 1.0 : 0.0);
- lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1);
+ make_color_var_name(buf, sizeof(buf), irn, col);
+ var_idx = lpp_add_var(ienv->lp, buf, lpp_binary, 0.0);
+ lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1);
- lenv->last_x_var = var_idx;
- if (lenv->first_x_var == -1)
- lenv->first_x_var = var_idx;
- }
+ val = (col == curr_node_color) ? 1.0 : 0.0;
+ lpp_set_start_value(ienv->lp, var_idx, val);
- /* add register constraint constraints */
- bitset_foreach_clear(colors, col) {
- int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_equal, 0.0);
- 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, 0.0);
- lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1);
+ lenv->last_x_var = var_idx;
+ if (lenv->first_x_var == -1)
+ lenv->first_x_var = var_idx;
+ }
- lenv->last_x_var = var_idx;
- }
+ /* add register constraint constraints */
+ for (col = 0; col < n_regs; ++col) {
+ int cst_idx;
+ int var_idx;
+ if (rbitset_is_set(colors, col)
+ // for aligned variable, we set the unaligned part to 0
+ && (!has_alignment_cstr || ((col % req->width) == 0)))
+ continue;
+
+ make_color_var_name(buf, sizeof(buf), irn, col);
+ cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_equal, 0.0);
+ var_idx = lpp_add_var(ienv->lp, buf, lpp_binary, 0.0);
+ lpp_set_start_value(ienv->lp, var_idx, 0.0);
+ lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1);
+
+ lenv->last_x_var = var_idx;
}
+ }
}
static void build_interference_cstr(ilp_env_t *ienv)
{
- 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;
+ lpp_t *lpp = ienv->lp;
+ local_env_t *lenv = (local_env_t*)ienv->env;
+ be_ifg_t *ifg = ienv->co->cenv->ifg;
+ unsigned n_colors = arch_register_class_n_regs(ienv->co->cls);
+ ir_node **clique = ALLOCAN(ir_node*, n_colors);
+ const unsigned *allocatable_colors = lenv->allocatable_colors;
cliques_iter_t iter;
- ir_node **clique = ALLOCAN(ir_node*, n_colors);
- int size;
- int col;
- int i;
-
- char buf[16];
+ int size;
+ unsigned col;
+ int i;
/* for each maximal clique */
be_ifg_foreach_clique(ifg, &iter, clique, &size) {
- int realsize = 0;
+ unsigned realsize = 0;
- for (i=0; i<size; ++i)
+ for (i=0; i<size; ++i) {
if (!sr_is_removed(ienv->sr, clique[i]))
++realsize;
+ }
if (realsize < 2)
continue;
/* for all colors */
for (col=0; col<n_colors; ++col) {
- int cst_idx = lpp_add_cst(lpp, NULL, lpp_less, 1.0);
+ int cst_idx;
+ if (!rbitset_is_set(allocatable_colors, col))
+ continue;
+
+ cst_idx = lpp_add_cst(lpp, NULL, lpp_less_equal, 1.0);
/* for each member of this clique */
for (i=0; i<size; ++i) {
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_idx(irn), col));
- lpp_set_factor_fast(lpp, cst_idx, var_idx, 1);
+ char buf[32];
+ int var_idx;
+ unsigned aligment_offset = 0;
+
+ if (sr_is_removed(ienv->sr, irn))
+ continue;
+
+ // Use the first part of the large registers for all
+ // interference, since it is the only colorable one.
+ if (check_alignment_constraints(irn)) {
+ const arch_register_req_t *req
+ = arch_get_irn_register_req(irn);
+ aligment_offset = col % req->width;
}
+
+ make_color_var_name(buf, sizeof(buf), irn,
+ col - aligment_offset);
+ var_idx = lpp_get_var_idx(lpp, buf);
+ lpp_set_factor_fast(lpp, cst_idx, var_idx, 1);
}
}
}
}
+static void make_affinity_var_name(char *buf, size_t buf_size,
+ const ir_node *node1, const ir_node *node2)
+{
+ unsigned n1 = get_irn_idx(node1);
+ unsigned n2 = get_irn_idx(node2);
+ if (n1 < n2) {
+ snprintf(buf, buf_size, "y_%u_%u", n1, n2);
+ } else {
+ snprintf(buf, buf_size, "y_%u_%u", n2, n1);
+ }
+}
+
/**
* TODO: Remove the dependency of the opt-units data structure
*/
static void build_affinity_cstr(ilp_env_t *ienv)
{
- local_env_t *lenv = ienv->env;
- int n_colors = lenv->n_colors;
- unit_t *curr;
+ unsigned 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) {
- ir_node *root, *arg;
- int root_nr, arg_nr, i, col, y_idx, root_idx, arg_idx;
- char buf[16];
- int root_col, arg_col;
-
- root = curr->nodes[0];
- root_nr = (int) get_irn_idx(root);
- root_col = get_irn_col(root);
+ ir_node *root = curr->nodes[0];
+ unsigned root_col = get_irn_col(root);
+ int i;
for (i = 1; i < curr->node_count; ++i) {
- arg = curr->nodes[i];
- arg_nr = (int) get_irn_idx(arg);
- arg_col = get_irn_col(arg);
+ ir_node *arg = curr->nodes[i];
+ unsigned arg_col = get_irn_col(arg);
+ double val;
+ char buf[32];
+ unsigned col;
+ int y_idx;
/* 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]);
- lpp_set_start_value(ienv->lp, y_idx, (root_col==arg_col) ? 0.0 : 1.0);
+ make_affinity_var_name(buf, sizeof(buf), arg, root);
+ y_idx = lpp_add_var(ienv->lp, buf, lpp_binary, curr->costs[i]);
+ val = (root_col == arg_col) ? 0.0 : 1.0;
+ lpp_set_start_value(ienv->lp, y_idx, val);
/* add constraints relating the affinity var to the color vars */
for (col=0; col<n_colors; ++col) {
- int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_less, 0.0);
- root_idx = lpp_get_var_idx(ienv->lp, name_cdd(buf, 'x', root_nr, col));
- arg_idx = lpp_get_var_idx(ienv->lp, name_cdd(buf, 'x', arg_nr, col));
+ int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_less_equal, 0.0);
+ int root_idx;
+ int arg_idx;
+
+ make_color_var_name(buf, sizeof(buf), root, col);
+ root_idx = lpp_get_var_idx(ienv->lp, buf);
+ make_color_var_name(buf, sizeof(buf), arg, col);
+ arg_idx = lpp_get_var_idx(ienv->lp, buf);
lpp_set_factor_fast(ienv->lp, cst_idx, root_idx, 1.0);
lpp_set_factor_fast(ienv->lp, cst_idx, arg_idx, -1.0);
* Helping stuff for build_clique_star_cstr
*/
typedef struct edge_t {
- ir_node *n1, *n2;
+ ir_node *n1;
+ ir_node *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;
+ const edge_t *e1 = (const edge_t*)k1;
+ const edge_t *e2 = (const edge_t*)k2;
(void) size;
- return ! (e1->n1 == e2->n1 && e1->n2 == e2->n2);
+ 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)
+static inline edge_t *add_edge(set *edges, ir_node *n1, ir_node *n2, size_t *counter)
{
edge_t new_edge;
new_edge.n2 = n1;
}
(*counter)++;
- return set_insert(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge));
+ return set_insert(edge_t, edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge));
}
static inline edge_t *find_edge(set *edges, ir_node *n1, ir_node *n2)
new_edge.n1 = n2;
new_edge.n2 = n1;
}
- return set_find(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge));
+ return set_find(edge_t, 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)
+static inline void remove_edge(set *edges, ir_node *n1, ir_node *n2, size_t *counter)
{
edge_t new_edge, *e;
new_edge.n1 = n2;
new_edge.n2 = n1;
}
- e = set_find(edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge));
+ e = set_find(edge_t, edges, &new_edge, sizeof(new_edge), HASH_EDGE(&new_edge));
if (e) {
e->n1 = NULL;
e->n2 = NULL;
}
}
-#define pset_foreach(pset, irn) for (irn=pset_first(pset); irn; irn=pset_next(pset))
+#define pset_foreach(pset, irn) foreach_pset((pset), ir_node, (irn))
/**
* Search for an interference clique and an 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;
+ int i, o, n_nodes;
+ size_t n_edges;
if (arch_irn_is_ignore(aff->irn))
continue;
++n_nodes;
}
}
- nodes = obstack_finish(&ob);
+ nodes = (ir_node**)obstack_finish(&ob);
/* get all interference edges between these */
n_edges = 0;
- for (i=0; i<n_nodes; ++i)
- for (o=0; o<i; ++o)
+ for (i=0; i<n_nodes; ++i) {
+ for (o=0; o<i; ++o) {
if (be_ifg_connected(ienv->co->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;
+ pset *clique = pset_new_ptr(8);
+ bool growed;
/* get 2 starting nodes to form a clique */
- for (e=set_first(edges); !e->n1; e=set_next(edges))
- /*nothing*/ ;
+ for (e = set_first(edge_t, edges); !e->n1; e = set_next(edge_t, edges)) {}
/* we could be stepped out of the loop before the set iterated to the end */
set_break(edges);
/* while the clique is growing */
do {
- growed = 0;
+ growed = false;
/* search for a candidate to extend the clique */
for (i=0; i<n_nodes; ++i) {
- ir_node *member, *cand = nodes[i];
- int is_cand;
+ ir_node *cand = nodes[i];
+ bool is_cand;
/* if its already in the clique try the next */
if (pset_find_ptr(clique, cand))
continue;
/* are there all necessary interferences? */
- is_cand = 1;
+ is_cand = true;
pset_foreach(clique, member) {
if (!find_edge(edges, cand, member)) {
- is_cand = 0;
+ is_cand = false;
pset_break(clique);
break;
}
/* insert into clique */
pset_insert_ptr(clique, cand);
- growed = 1;
+ growed = true;
break;
}
}
/* now the clique is maximal. Finally add the constraint */
{
- ir_node *member;
- int var_idx, cst_idx, center_nr, member_nr;
- char buf[16];
+ int var_idx;
+ int cst_idx;
+ char buf[32];
- cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_greater, pset_count(clique)-1);
- center_nr = get_irn_idx(center);
+ cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_greater_equal, pset_count(clique)-1);
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));
+ make_affinity_var_name(buf, sizeof(buf), center, member);
+ var_idx = lpp_get_var_idx(ienv->lp, buf);
lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1.0);
}
}
}
}
-
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))
/* insert the new irn */
pdeq_putr(path, irn);
-
-
/* check for forbidden interferences */
len = pdeq_len(path);
curr_path = ALLOCAN(ir_node*, len);
pdeq_copyl(path, (const void **)curr_path);
- for (i=1; i<len; ++i)
+ for (i=1; i<len; ++i) {
if (be_ifg_connected(ifg, irn, curr_path[i]))
goto end;
-
-
+ }
/* check for terminating interference */
if (be_ifg_connected(ifg, irn, curr_path[0])) {
-
/* One node is not a path. */
/* And a path of length 2 is covered by a clique star constraint. */
if (len > 2) {
/* finally build the constraint */
- int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_greater, 1.0);
+ int cst_idx = lpp_add_cst(ienv->lp, NULL, lpp_greater_equal, 1.0);
for (i=1; i<len; ++i) {
- char buf[16];
- int nr_1 = get_irn_idx(curr_path[i-1]);
- int nr_2 = get_irn_idx(curr_path[i]);
- int var_idx = lpp_get_var_idx(ienv->lp, name_cdd_sorted(buf, 'y', nr_1, nr_2));
+ char buf[32];
+ int var_idx;
+
+ make_affinity_var_name(buf, sizeof(buf), curr_path[i-1], curr_path[i]);
+ var_idx = lpp_get_var_idx(ienv->lp, buf);
lpp_set_factor_fast(ienv->lp, cst_idx, var_idx, 1.0);
}
}
goto end;
}
-
-
/* recursively extend the path */
aff = get_affinity_info(ienv->co, irn);
- co_gs_foreach_neighb(aff, nbr)
+ 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.
+ * 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();
static void ilp2_build(ilp_env_t *ienv)
{
- local_env_t *lenv = ienv->env;
int lower_bound;
- ienv->lp = new_lpp(ienv->co->name, lpp_minimize);
+ ienv->lp = lpp_new(ienv->co->name, lpp_minimize);
build_coloring_cstr(ienv);
build_interference_cstr(ienv);
build_affinity_cstr(ienv);
lower_bound = co_get_lower_bound(ienv->co) - co_get_inevit_copy_costs(ienv->co);
lpp_set_bound(ienv->lp, lower_bound);
- lpp_set_time_limit(ienv->lp, lenv->time_limit);
}
static void ilp2_apply(ilp_env_t *ienv)
{
- local_env_t *lenv = ienv->env;
- int i;
+ local_env_t *lenv = (local_env_t*)ienv->env;
+ ir_graph *irg = ienv->co->irg;
/* 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);
+ int i;
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!");
+ printf("WARNING %s: Solution state is not 'optimal': %d\n",
+ ienv->co->name, (int)state);
+ if (state < lpp_feasible) {
+ panic("Copy coalescing solution not feasible!");
+ }
}
for (i=0; i<count; ++i) {
- int nodenr, color;
- char var_name[16];
-
- 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));
-
- 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");
+ unsigned nodenr;
+ unsigned color;
+ char var_name[32];
+ if (sol[i] <= 1-EPSILON)
+ continue;
+ /* split variable name into components */
+ lpp_get_var_name(ienv->lp, lenv->first_x_var+i, var_name, sizeof(var_name));
+
+ if (sscanf(var_name, "x_%u_%u", &nodenr, &color) == 2) {
+ ir_node *irn = get_idx_irn(irg, nodenr);
+ set_irn_col(ienv->co->cls, irn, color);
+ } else {
+ panic("This should be a x-var");
}
}
#endif
}
-BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copyilp2);
-void be_init_copyilp2(void)
-{
- static co_algo_info copyheur = {
- co_solve_ilp2, 1
- };
-
- be_register_copyopt("ilp", ©heur);
-}
-
-int co_solve_ilp2(copy_opt_t *co)
+/**
+ * Solves the problem using mixed integer programming
+ * @returns 1 iff solution state was optimal
+ * Uses the OU and the GRAPH data structure
+ * Dependency of the OU structure can be removed
+ */
+static int co_solve_ilp2(copy_opt_t *co)
{
+ unsigned *allocatable_colors;
+ unsigned n_regs = arch_register_class_n_regs(co->cls);
lpp_sol_state_t sol_state;
- ilp_env_t *ienv;
- local_env_t my;
+ ilp_env_t *ienv;
+ local_env_t my;
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();
- FIRM_DBG_REGISTER(my.dbg, "firm.be.coilp2");
+ FIRM_DBG_REGISTER(dbg, "firm.be.coilp2");
- my.normal_colors = bitset_alloca(arch_register_class_n_regs(co->cls));
- bitset_clear_all(my.normal_colors);
- be_put_allocatable_regs(co->irg, co->cls, my.normal_colors);
- my.n_colors = bitset_popcount(my.normal_colors);
+ rbitset_alloca(allocatable_colors, n_regs);
+ be_set_allocatable_regs(co->irg, co->cls, allocatable_colors);
+ my.allocatable_colors = allocatable_colors;
ienv = new_ilp_env(co, ilp2_build, ilp2_apply, &my);
sol_state = ilp_go(ienv);
- pmap_destroy(my.nr_2_irn);
free_ilp_env(ienv);
return sol_state == lpp_optimal;
}
+
+BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copyilp2)
+void be_init_copyilp2(void)
+{
+ static co_algo_info copyheur = {
+ co_solve_ilp2, 1
+ };
+
+ be_register_copyopt("ilp", ©heur);
+}