- type *array_type; /* the type information for the array */
- entity *array_ent; /* the entity representing a field of the array */
+ ir_type *array_type; /* the ir_type information for the array */
+ ir_entity *array_ent; /* the ir_entity representing a field of the array */
In Sather primitive types are represented by a class.
This is the modeling appropriate for other languages.
Mode_i says that all integers shall be implemented as a
32 bit integer value. */
In Sather primitive types are represented by a class.
This is the modeling appropriate for other languages.
Mode_i says that all integers shall be implemented as a
32 bit integer value. */
- proc_main = new_type_method(id_from_str("ARRAY-HEAP_EXAMPLE_main", 23), 0, 1);
- set_method_res_type(proc_main, 0, (type *)prim_t_int);
- proc_main_e = new_entity ((type*)owner, id_from_str ("ARRAY-HEAP_EXAMPLE_main", 23), (type *)proc_main);
+ proc_main = new_type_method(new_id_from_chars("ARRAY-HEAP_EXAMPLE_main", 23), 0, 1);
+ set_method_res_type(proc_main, 0, (ir_type *)prim_t_int);
+ proc_main_e = new_entity ((ir_type*)owner, new_id_from_chars("ARRAY-HEAP_EXAMPLE_main", 23), (ir_type *)proc_main);
- array_type = new_type_array(id_from_str("a", 1), N_DIMS, prim_t_int);
+ array_type = new_type_array(new_id_from_chars("a", 1), N_DIMS, prim_t_int);
set_array_bounds(array_type, 0,
new_Const(mode_Iu, new_tarval_from_long (L_BOUND, mode_Iu)),
new_Const(mode_Iu, new_tarval_from_long (U_BOUND, mode_Iu)));
/* As the array is accessed by Sel nodes, we need information about
set_array_bounds(array_type, 0,
new_Const(mode_Iu, new_tarval_from_long (L_BOUND, mode_Iu)),
new_Const(mode_Iu, new_tarval_from_long (U_BOUND, mode_Iu)));
/* As the array is accessed by Sel nodes, we need information about
which are, in this case, integers. */
main_irg = new_ir_graph (proc_main_e, 4);
array_ent = get_array_element_entity(array_type);
which are, in this case, integers. */
main_irg = new_ir_graph (proc_main_e, 4);
array_ent = get_array_element_entity(array_type);
/* first compute size in bytes. */
elt_type = get_array_element_type(array_type);
elt_type_mode = get_type_mode(elt_type);
/* first compute size in bytes. */
elt_type = get_array_element_type(array_type);
elt_type_mode = get_type_mode(elt_type);
size = (U_BOUND - L_BOUND + 1) * get_mode_size_bytes(elt_type_mode);
/* make constant representing the size */
arr_size = new_Const(mode_Iu, new_tarval_from_long (size, mode_Iu));
/* allocate and generate the Proj nodes. */
size = (U_BOUND - L_BOUND + 1) * get_mode_size_bytes(elt_type_mode);
/* make constant representing the size */
arr_size = new_Const(mode_Iu, new_tarval_from_long (size, mode_Iu));
/* 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, 2); /* remember the pointer to the array */
+ array = new_Alloc(get_store(), arr_size, (ir_type*)array_type, stack_alloc);
+ set_store(new_Proj(array, mode_M, pn_Alloc_M)); /* make the changed memory visible */
+ array_ptr = new_Proj(array, mode_P, pn_Alloc_res); /* remember the pointer to the array */
/* Now the "real" program: */
/* Load element 3 of the array. For this first generate the pointer to this
array element by a select node. (Alternative: increase array pointer
by (three * elt_size), but this complicates some optimizations. The
/* Now the "real" program: */
/* Load element 3 of the array. For this first generate the pointer to this
array element by a select node. (Alternative: increase array pointer
by (three * elt_size), but this complicates some optimizations. The
pointer increment later. */
c3 = new_Const (mode_Iu, new_tarval_from_long (3, mode_Iu));
{
pointer increment later. */
c3 = new_Const (mode_Iu, new_tarval_from_long (3, mode_Iu));
{
in[0] = c3;
elt = new_Sel(get_store(), array_ptr, 1, in, array_ent);
}
in[0] = c3;
elt = new_Sel(get_store(), array_ptr, 1, in, array_ent);
}
- val = new_Load(get_store(), elt);
- set_store(new_Proj(val, mode_M, 0));
- val = new_Proj(val, mode_Is, 2);
+ val = new_Load(get_store(), elt, mode_Is);
+ set_store(new_Proj(val, mode_M, pn_Load_M));
+ val = new_Proj(val, mode_Is, pn_Load_res);
- add_in_edge (get_irg_end_block(main_irg), x);
- mature_block (get_irg_end_block(main_irg));
+ add_immBlock_pred (get_irg_end_block(main_irg), x);
+ mature_immBlock (get_irg_end_block(main_irg));
- printf("Dumping the graph and a type graph.\n");
- dump_ir_block_graph (main_irg);
- dump_type_graph(main_irg);
- dump_all_types();
- printf("use xvcg to view these graphs:\n");
- printf("/ben/goetz/bin/xvcg GRAPHNAME\n\n");
+ printf("Dumping the graph and a ir_type graph.\n");
+ dump_ir_block_graph (main_irg, dump_file_suffix);
+ dump_type_graph(main_irg, dump_file_suffix);
+ dump_all_types(dump_file_suffix);
+ printf("Use ycomp to view these graphs:\n");
+ printf("ycomp GRAPHNAME\n\n");