be_add_module_to_list(©opts, name, copyopt);
}
-BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copyopt);
+BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copyopt)
void be_init_copyopt(void)
{
lc_opt_entry_t *be_grp = lc_opt_get_grp(firm_opt_get_root(), "be");
return 0;
}
-BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copynone);
+BE_REGISTER_MODULE_CONSTRUCTOR(be_init_copynone)
void be_init_copynone(void)
{
static co_algo_info copyheur = {
copy_opt_t *new_copy_opt(be_chordal_env_t *chordal_env, cost_fct_t get_costs)
{
const char *s1, *s2, *s3;
- int len;
+ size_t len;
copy_opt_t *co;
FIRM_DBG_REGISTER(dbg, "ir.be.copyopt");
ir_node **safe, **unsafe;
int i, o, safe_count, safe_costs, unsafe_count, *unsafe_costs;
bitset_t *curr;
- unsigned pos;
+ size_t pos;
int curr_weight, best_weight = 0;
/* assign the nodes into two groups.
/* now compute the best set out of the unsafe nodes*/
if (unsafe_count > MIS_HEUR_TRIGGER) {
bitset_t *best = bitset_alloca(unsafe_count);
- /* Heuristik: Greedy trial and error form index 0 to unsafe_count-1 */
+ /* Heuristic: Greedy trial and error form index 0 to unsafe_count-1 */
for (i=0; i<unsafe_count; ++i) {
bitset_set(best, i);
/* check if it is a stable set */
goto no_stable_set;
/* if we arrive here, we have a stable set */
- /* compute the weigth of the stable set*/
+ /* compute the weight of the stable set*/
curr_weight = 0;
bitset_foreach(curr, pos)
curr_weight += unsafe_costs[pos];
static void co_collect_units(ir_node *irn, void *env)
{
const arch_register_req_t *req;
- copy_opt_t *co = env;
+ copy_opt_t *co = (copy_opt_t*)env;
unit_t *unit;
if (get_irn_mode(irn) == mode_T)
static int compare_affinity_node_t(const void *k1, const void *k2, size_t size)
{
- const affinity_node_t *n1 = k1;
- const affinity_node_t *n2 = k2;
+ const affinity_node_t *n1 = (const affinity_node_t*)k1;
+ const affinity_node_t *n2 = (const affinity_node_t*)k2;
(void) size;
return (n1->irn != n2->irn);
new_node.irn = n1;
new_node.degree = 0;
new_node.neighbours = NULL;
- node = set_insert(co->nodes, &new_node, sizeof(new_node), hash_irn(new_node.irn));
+ node = (affinity_node_t*)set_insert(co->nodes, &new_node, sizeof(new_node), hash_irn(new_node.irn));
for (nbr = node->neighbours; nbr; nbr = nbr->next)
if (nbr->irn == n2) {
static void build_graph_walker(ir_node *irn, void *env)
{
const arch_register_req_t *req;
- copy_opt_t *co = env;
+ copy_opt_t *co = (copy_opt_t*)env;
int pos, max;
if (get_irn_mode(irn) == mode_T)
ASSERT_GS_AVAIL(co);
new_node.irn = irn;
- n = set_find(co->nodes, &new_node, sizeof(new_node), hash_irn(new_node.irn));
+ n = (affinity_node_t*)set_find(co->nodes, &new_node, sizeof(new_node), hash_irn(new_node.irn));
if (n) {
return (n->degree > 0);
} else
static void ifg_dump_node_attr(FILE *f, void *self, ir_node *irn)
{
- co_ifg_dump_t *env = self;
+ co_ifg_dump_t *env = (co_ifg_dump_t*)self;
const arch_register_t *reg = arch_get_irn_register(irn);
const arch_register_req_t *req = arch_get_register_req_out(irn);
int limited = arch_register_req_is(req, limited);
static void ifg_dump_at_end(FILE *file, void *self)
{
- co_ifg_dump_t *env = self;
+ co_ifg_dump_t *env = (co_ifg_dump_t*)self;
affinity_node_t *a;
co_gs_foreach_aff_node(env->co, a) {