LC_OPT_ENT_DBL ("cost_memoperand", "cost of a memory operand", &opt_cost_memoperand),
LC_OPT_ENT_DBL ("cost_spill", "cost of a spill instruction", &opt_cost_spill),
LC_OPT_ENT_DBL ("cost_remat", "cost of a rematerialization", &opt_cost_remat),
- { NULL }
+ LC_OPT_LAST
};
//#define EXECFREQ_LOOPDEPH /* compute execution frequency from loop depth only */
cmp_remat(const void *a, const void *b)
{
const remat_t *r = a;
- const remat_t *s = a;
+ const remat_t *s = b;
return !(r == s || r->op == s->op);
}
{
const spill_t *p = a;
const spill_t *q = b;
+ (void) size;
// return !(p->irn == q->irn && p->bb == q->bb);
return !(p->irn == q->irn);
{
const memoperand_t *p = a;
const memoperand_t *q = b;
+ (void) size;
return !(p->irn == q->irn && p->pos == q->pos);
}
{
const remat_info_t *p = a;
const remat_info_t *q = b;
+ (void) size;
return !(p->irn == q->irn);
}
{
const defs_t *p = a;
const defs_t *q = b;
+ (void) size;
return !(p->value == q->value);
}
{
const keyval_t *p = a;
const keyval_t *q = b;
+ (void) size;
return !(p->key == q->key);
}
ir_node *block;
ir_node *def_block = get_nodes_block(val);
int ret;
+ (void) si;
if(val == pos)
return 0;
static int
sched_skip_proj_predicator(const ir_node * irn, void * data)
{
+ (void) data;
return (is_Proj(irn));
}
{
const interference_t *p = a;
const interference_t *q = b;
+ (void) size;
return !(p->a == q->a && p->b == q->b);
}
static int mark_remat_nodes_hook(FILE *F, ir_node *n, ir_node *l)
{
spill_ilp_t *si = get_irg_link(current_ir_graph);
+ (void) l;
if(pset_find_ptr(si->all_possible_remats, n)) {
op_t *op = (op_t*)get_irn_link(n);
#else /* WITH_ILP */
-static void INLINE
+static __attribute__((unused))
only_that_you_can_compile_without_WITH_ILP_defined(void)
{
}