/* ENTITY */
/*-----------------------------------------------------------------*/
-void insert_entity_in_owner (entity *ent) {
+static void insert_entity_in_owner (entity *ent) {
type *owner = ent->owner;
switch (get_type_tpop_code(owner)) {
case tpo_class: {
entity *get_compound_graph_path_node(compound_graph_path *gr, int pos);
int get_compound_ent_n_values(entity *ent);
-void free_entity_attrs(entity *ent) {
+static void free_entity_attrs(entity *ent) {
int i;
- assert(ent);
if (get_type_tpop(get_entity_owner(ent)) == type_class) {
DEL_ARR_F(ent->overwrites); ent->overwrites = NULL;
DEL_ARR_F(ent->overwrittenby); ent->overwrittenby = NULL;
entity *
copy_entity_own (entity *old, type *new_owner) {
entity *new;
-
+ assert(old && old->kind == k_entity);
assert_legal_owner_of_ent(new_owner);
+
if (old->owner == new_owner) return old;
new = (entity *) xmalloc (sizeof (entity));
memcpy (new, old, sizeof (entity));
entity *
copy_entity_name (entity *old, ident *new_name) {
entity *new;
+ assert(old && old->kind == k_entity);
if (old->name == new_name) return old;
new = (entity *) xmalloc (sizeof (entity));
void
free_entity (entity *ent) {
+ assert(ent && ent->kind == k_entity);
free_tarval_entity(ent);
free_entity_attrs(ent);
ent->kind = k_BAD;
/* Outputs a unique number for this node */
long
get_entity_nr(entity *ent) {
- assert(ent);
+ assert(ent && ent->kind == k_entity);
#ifdef DEBUG_libfirm
return ent->nr;
#else
const char *
get_entity_name (entity *ent) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
return get_id_str(get_entity_ident(ent));
}
ident *
get_entity_ident (entity *ent) {
- assert(ent);
+ assert(ent && ent->kind == k_entity);
return ent->name;
}
type *
get_entity_owner (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->owner = skip_tid(ent->owner);
}
void
set_entity_owner (entity *ent, type *owner) {
+ assert(ent && ent->kind == k_entity);
assert_legal_owner_of_ent(owner);
ent->owner = owner;
}
void /* should this go into type.c? */
assert_legal_owner_of_ent(type *owner) {
- assert (get_type_tpop_code(owner) == tpo_class ||
+ assert(get_type_tpop_code(owner) == tpo_class ||
get_type_tpop_code(owner) == tpo_union ||
get_type_tpop_code(owner) == tpo_struct ||
get_type_tpop_code(owner) == tpo_array); /* Yes, array has an entity
ident *
get_entity_ld_ident (entity *ent)
{
+ assert(ent && ent->kind == k_entity);
if (ent->ld_name == NULL)
ent->ld_name = mangle_entity (ent);
return ent->ld_name;
void
set_entity_ld_ident (entity *ent, ident *ld_ident) {
+ assert(ent && ent->kind == k_entity);
ent->ld_name = ld_ident;
}
const char *
get_entity_ld_name (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return get_id_str(get_entity_ld_ident(ent));
}
type *
get_entity_type (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->type = skip_tid(ent->type);
}
void
set_entity_type (entity *ent, type *type) {
+ assert(ent && ent->kind == k_entity);
ent->type = type;
}
ent_allocation
get_entity_allocation (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->allocation;
}
void
set_entity_allocation (entity *ent, ent_allocation al) {
+ assert(ent && ent->kind == k_entity);
ent->allocation = al;
}
ent_visibility
get_entity_visibility (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->visibility;
}
void
set_entity_visibility (entity *ent, ent_visibility vis) {
+ assert(ent && ent->kind == k_entity);
if (vis != visibility_local)
assert((ent->allocation == allocation_static) ||
(ent->allocation == allocation_automatic));
ent_variability
get_entity_variability (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->variability;
}
void
set_entity_variability (entity *ent, ent_variability var)
{
+ assert(ent && ent->kind == k_entity);
if (var == variability_part_constant)
assert(is_class_type(ent->type) || is_struct_type(ent->type));
ent_volatility
get_entity_volatility (entity *ent) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
return ent->volatility;
}
void
set_entity_volatility (entity *ent, ent_volatility vol) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
ent->volatility = vol;
}
peculiarity
get_entity_peculiarity (entity *ent) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
return ent->peculiarity;
}
void
set_entity_peculiarity (entity *ent, peculiarity pec) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
/* @@@ why peculiarity only for methods? */
- assert (is_method_type(ent->type));
+ assert(is_method_type(ent->type));
ent->peculiarity = pec;
}
ir_node *
get_atomic_ent_value(entity *ent)
{
- assert(ent);
- assert(is_atomic_entity(ent));
+ assert(ent && is_atomic_entity(ent));
assert(ent->variability != variability_uninitialized);
return ent->value;
}
void
set_atomic_ent_value(entity *ent, ir_node *val) {
- assert(ent && is_atomic_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_atomic_entity(ent) && (ent->variability != variability_uninitialized));
if (is_method_type(ent->type) && (ent->peculiarity == peculiarity_existent))
return;
ent->value = val;
the compound. */
void
add_compound_ent_value_w_path(entity *ent, ir_node *val, compound_graph_path *path) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
ARR_APP1 (ir_node *, ent->values, val);
ARR_APP1 (compound_graph_path *, ent->val_paths, path);
}
void
set_compound_ent_value_w_path(entity *ent, ir_node *val, compound_graph_path *path, int pos) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
ent->values[pos] = val;
ent->val_paths[pos] = path;
}
int
get_compound_ent_n_values(entity *ent) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
return (ARR_LEN (ent->values));
}
ir_node *
get_compound_ent_value(entity *ent, int pos) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
return ent->values[pos];
}
compound_graph_path *
get_compound_ent_value_path(entity *ent, int pos) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
return ent->val_paths[pos];
}
void
remove_compound_ent_value(entity *ent, entity *value_ent) {
int i;
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
for (i = 0; i < (ARR_LEN (ent->val_paths)); i++) {
compound_graph_path *path = ent->val_paths[i];
if (path->nodes[path->len-1] == value_ent) {
void
add_compound_ent_value(entity *ent, ir_node *val, entity *member) {
compound_graph_path *path;
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
path = new_compound_graph_path(get_entity_owner(ent), 1);
path->nodes[0] = member;
add_compound_ent_value_w_path(ent, val, path);
/* Copies the value i of the entity to current_block in current_ir_graph.
ir_node *
copy_compound_ent_value(entity *ent, int pos) {
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
return copy_const_value(ent->values[pos+1]);
}*/
entity *
get_compound_ent_value_member(entity *ent, int pos) {
compound_graph_path *path;
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
path = get_compound_ent_value_path(ent, pos);
return get_compound_graph_path_node(path, get_compound_graph_path_length(path)-1);
void
set_compound_ent_value(entity *ent, ir_node *val, entity *member, int pos) {
compound_graph_path *path;
- assert(ent && is_compound_entity(ent) && (ent->variability != variability_uninitialized));
+ assert(is_compound_entity(ent) && (ent->variability != variability_uninitialized));
path = get_compound_ent_value_path(ent, pos);
set_compound_graph_path_node(path, 0, member);
set_compound_ent_value_w_path(ent, val, path, pos);
int
get_entity_offset (entity *ent) {
+ assert(ent && ent->kind == k_entity);
return ent->offset;
}
void
set_entity_offset (entity *ent, int offset) {
+ assert(ent && ent->kind == k_entity);
ent->offset = offset;
}
void
add_entity_overwrites (entity *ent, entity *overwritten) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
ARR_APP1 (entity *, ent->overwrites, overwritten);
ARR_APP1 (entity *, overwritten->overwrittenby, ent);
}
int
get_entity_n_overwrites (entity *ent) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
return (ARR_LEN (ent->overwrites));
}
entity *
get_entity_overwrites (entity *ent, int pos) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
assert(pos < get_entity_n_overwrites(ent));
return ent->overwrites[pos];
}
void
set_entity_overwrites (entity *ent, int pos, entity *overwritten) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
assert(pos < get_entity_n_overwrites(ent));
ent->overwrites[pos] = overwritten;
}
void
add_entity_overwrittenby (entity *ent, entity *overwrites) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
add_entity_overwrites(overwrites, ent);
}
int
get_entity_n_overwrittenby (entity *ent) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
return (ARR_LEN (ent->overwrittenby));
}
entity *
get_entity_overwrittenby (entity *ent, int pos) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
assert(pos < get_entity_n_overwrittenby(ent));
return ent->overwrittenby[pos];
}
void
set_entity_overwrittenby (entity *ent, int pos, entity *overwrites) {
- assert(ent);
- assert(is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
assert(pos < get_entity_n_overwrittenby(ent));
ent->overwrittenby[pos] = overwrites;
}
void remove_entity_overwrittenby(entity *ent, entity *overwrites) {
int i;
- assert(ent && is_class_type(get_entity_owner(ent)));
+ assert(ent && is_class_type(get_entity_owner(ent)));
for (i = 0; i < (ARR_LEN (ent->overwrittenby)); i++)
if (ent->overwrittenby[i] == overwrites) {
for(; i < (ARR_LEN (ent->overwrittenby))-1; i++)
/* A link to store intermediate information */
void *
get_entity_link(entity *ent) {
- assert(ent);
+ assert(ent && ent->kind == k_entity);
return ent->link;
}
void
set_entity_link(entity *ent, void *l) {
- assert(ent);
+ assert(ent && ent->kind == k_entity);
ent->link = l;
}
ir_graph *
get_entity_irg(entity *ent) {
- assert (ent);
- assert (is_method_type(ent->type));
+ assert(ent && ent->kind == k_entity);
+ assert(is_method_type(ent->type));
return ent->irg;
}
void
set_entity_irg(entity *ent, ir_graph *irg) {
- assert (ent && ent->type);
+ assert(ent && is_method_type(get_entity_type(ent)));
/* Wie kann man die Referenz auf einen IRG löschen, z.B. wenn die
* Methode selbst nicht mehr aufgerufen werden kann, die Entität
* aber erhalten bleiben soll. */
- /* assert (irg); */
- assert (is_method_type(ent->type));
- assert (ent->peculiarity == peculiarity_existent);
+ /* assert(irg); */
+ assert(ent->peculiarity == peculiarity_existent);
ent->irg = irg;
}
int is_atomic_entity(entity *ent) {
type* t = get_entity_type(ent);
+ assert(ent && ent->kind == k_entity);
return (is_primitive_type(t) || is_pointer_type(t) ||
is_enumeration_type(t) || is_method_type(t));
}
int is_compound_entity(entity *ent) {
type* t = get_entity_type(ent);
+ assert(ent && ent->kind == k_entity);
return (is_class_type(t) || is_struct_type(t) ||
is_array_type(t) || is_union_type(t));
}
unsigned long get_entity_visited(entity *ent) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
return ent->visit;
}
void set_entity_visited(entity *ent, unsigned long num) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
ent->visit = num;
}
/* Sets visited field in entity to entity_visited. */
void mark_entity_visited(entity *ent) {
- assert (ent);
+ assert(ent && ent->kind == k_entity);
ent->visit = type_visited;
}
bool entity_visited(entity *ent) {
+ assert(ent && ent->kind == k_entity);
return get_entity_visited(ent) >= type_visited;
}
bool entity_not_visited(entity *ent) {
+ assert(ent && ent->kind == k_entity);
return get_entity_visited(ent) < type_visited;
}
* dynamic type are given.
* Search downwards in overwritten tree. */
entity *resolve_ent_polymorphy(type *dynamic_class, entity* static_ent) {
- entity *res = resolve_ent_polymorphy2(dynamic_class, static_ent);
+ entity *res;
+ assert(static_ent && static_ent->kind == k_entity);
+
+ res = resolve_ent_polymorphy2(dynamic_class, static_ent);
if (!res) {
printf(" Could not find entity "); DDME(static_ent);
printf(" in "); DDMT(dynamic_class);
int i, j;
type *owner = get_entity_owner(ent);
type *type = get_entity_type(ent);
+ assert(ent && ent->kind == k_entity);
printf("entity %s (%ld)\n", get_entity_name(ent), get_entity_nr(ent));
printf(" type: %s (%ld)\n", get_type_name(type), get_type_nr(type));
printf(" owner: %s (%ld)\n", get_type_name(owner), get_type_nr(owner));