# define L_BOUND 0
# define U_BOUND 9
array_type = new_type_array(id_from_str("a", 1), N_DIMS, prim_t_int);
- set_array_bounds(array_type, 1, L_BOUND, U_BOUND);
+ set_array_bounds(array_type, 1,
+ new_Const(mode_I, tarval_from_long (mode_I, L_BOUND)),
+ new_Const(mode_I, tarval_from_long (mode_I, U_BOUND)));
/* As the array is accessed by Sel nodes, we need information about
the entity the node selects. Entities of an array are it's elements
which are, in this case, integers. */
/* allocate and generate the Proj nodes. */
array = new_Alloc(get_store(), arr_size, (type*)array_type, stack_alloc);
set_store(new_Proj(array, mode_M, 0)); /* make the changed memory visible */
- array_ptr = new_Proj(array, mode_p, 1); /* remember the pointer to the array */
+ array_ptr = new_Proj(array, mode_p, 2); /* remember the pointer to the array */
/* Now the "real" program: */
/* Load element 3 of the array. For this first generate the pointer to this
}
val = new_Load(get_store(), elt);
set_store(new_Proj(val, mode_M, 0));
- val = new_Proj(val, mode_i, 1);
+ val = new_Proj(val, mode_i, 2);
/* return the result of procedure main */
{
add_in_edge (get_irg_end_block(main_irg), x);
mature_block (get_irg_end_block(main_irg));
+ finalize_cons (main_irg);
+
printf("Optimizing ...\n");
dead_node_elimination(main_irg);