/*
- * Copyright (C) 1995-2007 University of Karlsruhe. All right reserved.
- *
* This file is part of libFirm.
- *
- * This file may be distributed and/or modified under the terms of the
- * GNU General Public License version 2 as published by the Free Software
- * Foundation and appearing in the file LICENSE.GPL included in the
- * packaging of this file.
- *
- * Licensees holding valid libFirm Professional Edition licenses may use
- * this file in accordance with the libFirm Commercial License.
- * Agreement provided with the Software.
- *
- * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
- * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
- * PURPOSE.
+ * Copyright (C) 2012 University of Karlsruhe.
*/
/**
- * @file tr_inheritance.c
+ * @file
* @brief Utility routines for inheritance representation
* @author Goetz Lindenmaier
- * @version $Id$
*/
-#ifdef HAVE_CONFIG_H
-# include "config.h"
-#endif
+#include "config.h"
+#include "debug.h"
#include "typerep.h"
#include "irgraph_t.h"
#include "irprog_t.h"
#include "irgwalk.h"
#include "irflag.h"
-
/* ----------------------------------------------------------------------- */
/* Resolve implicit inheritance. */
/* ----------------------------------------------------------------------- */
-ident *default_mangle_inherited_name(ir_entity *super, ir_type *clss) {
- return mangle_u(new_id_from_str("inh"), mangle_u(get_type_ident(clss), get_entity_ident(super)));
+ident *default_mangle_inherited_name(const ir_entity *super, const ir_type *clss)
+{
+ return id_mangle_u(new_id_from_str("inh"), id_mangle_u(get_class_ident(clss), get_entity_ident(super)));
}
/** Replicates all entities in all super classes that are not overwritten
by an entity of this class. */
static void copy_entities_from_superclass(ir_type *clss, void *env)
{
- int i, j, k, l;
+ size_t i;
+ size_t j;
+ size_t k;
+ size_t l;
int overwritten;
- ir_type *super, *inhenttype;
+ ir_type *super;
ir_entity *inhent, *thisent;
mangle_inherited_name_func *mfunc = *(mangle_inherited_name_func **)env;
- for(i = 0; i < get_class_n_supertypes(clss); i++) {
+ for (i = 0; i < get_class_n_supertypes(clss); i++) {
super = get_class_supertype(clss, i);
- assert(is_Class_type(super) && "not a class");
- for(j = 0; j < get_class_n_members(super); j++) {
+ for (j = 0; j < get_class_n_members(super); j++) {
inhent = get_class_member(super, j);
- inhenttype = get_entity_type(inhent);
/* check whether inhent is already overwritten */
overwritten = 0;
for (k = 0; (k < get_class_n_members(clss)) && (overwritten == 0); k++) {
thisent = get_class_member(clss, k);
- for(l = 0; l < get_entity_n_overwrites(thisent); l++) {
- if(inhent == get_entity_overwrites(thisent, l)) {
+ for (l = 0; l < get_entity_n_overwrites(thisent); l++) {
+ if (inhent == get_entity_overwrites(thisent, l)) {
/* overwritten - do not copy */
overwritten = 1;
break;
if (get_entity_peculiarity(inhent) == peculiarity_existent)
set_entity_peculiarity(thisent, peculiarity_inherited);
set_entity_ld_ident(thisent, mfunc(inhent, clss));
- if (get_entity_variability(inhent) == variability_constant) {
+ if (get_entity_linkage(inhent) & IR_LINKAGE_CONSTANT) {
assert(is_atomic_entity(inhent) && /* @@@ */
"Inheritance of constant, compound entities not implemented");
- set_entity_variability(thisent, variability_constant);
+ add_entity_linkage(thisent, IR_LINKAGE_CONSTANT);
set_atomic_ent_value(thisent, get_atomic_ent_value(inhent));
}
}
}
}
-/* Resolve implicit inheritance.
- *
- * Resolves the implicit inheritance supplied by firm.
- */
-void resolve_inheritance(mangle_inherited_name_func *mfunc) {
+void resolve_inheritance(mangle_inherited_name_func *mfunc)
+{
if (!mfunc)
mfunc = default_mangle_inherited_name;
class_walk_super2sub(copy_entities_from_superclass, NULL, (void *)&mfunc);
/* adding the infix 'trans_'. */
/* ----------------------------------------------------------------------- */
-void set_irp_inh_transitive_closure_state(inh_transitive_closure_state s) {
+void set_irp_inh_transitive_closure_state(inh_transitive_closure_state s)
+{
irp->inh_trans_closure_state = s;
}
-void invalidate_irp_inh_transitive_closure_state(void) {
+void invalidate_irp_inh_transitive_closure_state(void)
+{
if (irp->inh_trans_closure_state == inh_transitive_closure_valid)
irp->inh_trans_closure_state = inh_transitive_closure_invalid;
}
-inh_transitive_closure_state get_irp_inh_transitive_closure_state(void) {
+inh_transitive_closure_state get_irp_inh_transitive_closure_state(void)
+{
return irp->inh_trans_closure_state;
}
-static void assert_valid_state(void) {
+static void assert_valid_state(void)
+{
assert(irp->inh_trans_closure_state == inh_transitive_closure_valid ||
irp->inh_trans_closure_state == inh_transitive_closure_invalid);
}
} dir;
typedef struct {
- firm_kind *kind; /* An entity or type. */
+ const firm_kind *kind; /**< An entity or type. */
pset *directions[2];
} tr_inh_trans_tp;
/* We use this set for all types and entities. */
static set *tr_inh_trans_set = NULL;
-static int tr_inh_trans_cmp(const void *e1, const void *e2, size_t size) {
- tr_inh_trans_tp *ef1 = (tr_inh_trans_tp *)e1;
- tr_inh_trans_tp *ef2 = (tr_inh_trans_tp *)e2;
- return (ef1->kind != ef2->kind);
+/**
+ * Compare two tr_inh_trans_tp entries.
+ */
+static int tr_inh_trans_cmp(const void *e1, const void *e2, size_t size)
+{
+ const tr_inh_trans_tp *ef1 = (const tr_inh_trans_tp*)e1;
+ const tr_inh_trans_tp *ef2 = (const tr_inh_trans_tp*)e2;
+ (void) size;
+
+ return ef1->kind != ef2->kind;
}
-static INLINE unsigned int tr_inh_trans_hash(void *e) {
- tr_inh_trans_tp *v = e;
- return HASH_PTR(v->kind);
+/**
+ * calculate the hash value of an tr_inh_trans_tp
+ */
+static inline unsigned int tr_inh_trans_hash(const tr_inh_trans_tp *v)
+{
+ return hash_ptr(v->kind);
}
/* This always completes successfully. */
-static tr_inh_trans_tp* get_firm_kind_entry(firm_kind *k) {
+static tr_inh_trans_tp *get_firm_kind_entry(const firm_kind *k)
+{
tr_inh_trans_tp a, *found;
a.kind = k;
if (!tr_inh_trans_set) tr_inh_trans_set = new_set(tr_inh_trans_cmp, 128);
- found = set_find(tr_inh_trans_set, &a, sizeof(a), tr_inh_trans_hash(&a));
+ found = set_find(tr_inh_trans_tp, tr_inh_trans_set, &a, sizeof(a), tr_inh_trans_hash(&a));
if (!found) {
a.directions[d_up] = pset_new_ptr(16);
a.directions[d_down] = pset_new_ptr(16);
- found = set_insert(tr_inh_trans_set, &a, sizeof(a), tr_inh_trans_hash(&a));
+ found = set_insert(tr_inh_trans_tp, tr_inh_trans_set, &a, sizeof(a), tr_inh_trans_hash(&a));
}
return found;
}
-static pset *get_entity_map(ir_entity *ent, dir d) {
+static pset *get_entity_map(const ir_entity *ent, dir d)
+{
tr_inh_trans_tp *found;
assert(is_entity(ent));
- found = get_firm_kind_entry((firm_kind *)ent);
+ found = get_firm_kind_entry((const firm_kind *)ent);
return found->directions[d];
}
-/*
-static void add_entity_map(ir_entity *ent, dir d, ir_entity *new) {
- tr_inh_trans_tp *found;
- assert(is_entity(ent) && is_entity(new));
- tr_inh_trans_tp *found = get_firm_kind_entry((firm_kind *)ent);
- pset_insert_ptr(found->directions[d], new);
-}
-*/
-static pset *get_type_map(ir_type *tp, dir d) {
+static pset *get_type_map(const ir_type *tp, dir d)
+{
tr_inh_trans_tp *found;
assert(is_type(tp));
- found = get_firm_kind_entry((firm_kind *)tp);
+ found = get_firm_kind_entry((const firm_kind *)tp);
return found->directions[d];
}
-/*
-static void add_type_map(ir_type *tp, dir d, type *new) {
- tr_inh_trans_tp *found;
-
- assert(is_type(tp) && is_type(new));
- found = get_firm_kind_entry((firm_kind *)tp);
- pset_insert_ptr(found->directions[d], new);
-}
-*/
/**
* If it is marked with master_flag_visited it is fully processed.
*
* Well, we still miss some candidates ... */
-static void compute_down_closure(ir_type *tp) {
+static void compute_down_closure(ir_type *tp)
+{
pset *myset, *subset;
- int i, n_subtypes, n_members, n_supertypes;
- unsigned long master_visited = get_master_type_visited();
-
- assert(is_Class_type(tp));
+ size_t i, n_subtypes, n_members, n_supertypes;
+ ir_visited_t master_visited = get_master_type_visited();
set_type_visited(tp, master_visited-1);
n_members = get_class_n_members(tp);
for (i = 0; i < n_members; ++i) {
ir_entity *mem = get_class_member(tp, i);
- int j, n_overwrittenby = get_entity_n_overwrittenby(mem);
+ size_t j, n_overwrittenby = get_entity_n_overwrittenby(mem);
myset = get_entity_map(mem, d_down);
for (j = 0; j < n_overwrittenby; ++j) {
}
}
-static void compute_up_closure(ir_type *tp) {
+static void compute_up_closure(ir_type *tp)
+{
pset *myset, *subset;
- int i, n_subtypes, n_members, n_supertypes;
- unsigned long master_visited = get_master_type_visited();
-
- assert(is_Class_type(tp));
+ size_t i, n_subtypes, n_members, n_supertypes;
+ ir_visited_t master_visited = get_master_type_visited();
set_type_visited(tp, master_visited-1);
n_members = get_class_n_members(tp);
for (i = 0; i < n_members; ++i) {
ir_entity *mem = get_class_member(tp, i);
- int j, n_overwrites = get_entity_n_overwrites(mem);
+ size_t j, n_overwrites = get_entity_n_overwrites(mem);
myset = get_entity_map(mem, d_up);
for (j = 0; j < n_overwrites; ++j) {
}
}
-/** Compute the transitive closure of the subclass/superclass and
- * overwrites/overwrittenby relation.
- *
- * This function walks over the ir (O(#types+#entities)) to compute the
- * transitive closure. */
-void compute_inh_transitive_closure(void) {
- int i, n_types = get_irp_n_types();
+void compute_inh_transitive_closure(void)
+{
+ size_t i, n_types = get_irp_n_types();
free_inh_transitive_closure();
/* The 'down' relation */
+ irp_reserve_resources(irp, IRP_RESOURCE_TYPE_VISITED);
inc_master_type_visited(); /* Inc twice: one if on stack, second if values computed. */
inc_master_type_visited();
for (i = 0; i < n_types; ++i) {
ir_type *tp = get_irp_type(i);
if (is_Class_type(tp) && type_not_visited(tp)) { /* For others there is nothing to accumulate. */
- int j, n_subtypes = get_class_n_subtypes(tp);
+ size_t j, n_subtypes = get_class_n_subtypes(tp);
int has_unmarked_subtype = 0;
assert(get_type_visited(tp) < get_master_type_visited()-1);
for (i = 0; i < n_types; ++i) {
ir_type *tp = get_irp_type(i);
if (is_Class_type(tp) && type_not_visited(tp)) { /* For others there is nothing to accumulate. */
- int j, n_supertypes = get_class_n_supertypes(tp);
+ size_t j, n_supertypes = get_class_n_supertypes(tp);
int has_unmarked_supertype = 0;
assert(get_type_visited(tp) < get_master_type_visited()-1);
}
irp->inh_trans_closure_state = inh_transitive_closure_valid;
+ irp_free_resources(irp, IRP_RESOURCE_TYPE_VISITED);
}
-/** Free memory occupied by the transitive closure information. */
-void free_inh_transitive_closure(void) {
+void free_inh_transitive_closure(void)
+{
if (tr_inh_trans_set) {
- tr_inh_trans_tp *elt;
- for (elt = set_first(tr_inh_trans_set); elt; elt = set_next(tr_inh_trans_set)) {
+ foreach_set(tr_inh_trans_set, tr_inh_trans_tp, elt) {
del_pset(elt->directions[d_up]);
del_pset(elt->directions[d_down]);
}
/* - subtype ------------------------------------------------------------- */
-ir_type *get_class_trans_subtype_first(ir_type *tp) {
+ir_type *get_class_trans_subtype_first(const ir_type *tp)
+{
assert_valid_state();
- return pset_first(get_type_map(tp, d_down));
+ return pset_first(ir_type, get_type_map(tp, d_down));
}
-ir_type *get_class_trans_subtype_next (ir_type *tp) {
+ir_type *get_class_trans_subtype_next(const ir_type *tp)
+{
assert_valid_state();
- return pset_next(get_type_map(tp, d_down));
+ return pset_next(ir_type, get_type_map(tp, d_down));
}
-int is_class_trans_subtype (ir_type *tp, ir_type *subtp) {
+int is_class_trans_subtype(const ir_type *tp, const ir_type *subtp)
+{
assert_valid_state();
return (pset_find_ptr(get_type_map(tp, d_down), subtp) != NULL);
}
/* - supertype ----------------------------------------------------------- */
-ir_type *get_class_trans_supertype_first(ir_type *tp) {
+ir_type *get_class_trans_supertype_first(const ir_type *tp)
+{
assert_valid_state();
- return pset_first(get_type_map(tp, d_up));
+ return pset_first(ir_type, get_type_map(tp, d_up));
}
-ir_type *get_class_trans_supertype_next (ir_type *tp) {
+ir_type *get_class_trans_supertype_next(const ir_type *tp)
+{
assert_valid_state();
- return pset_next(get_type_map(tp, d_up));
+ return pset_next(ir_type, get_type_map(tp, d_up));
}
/* - overwrittenby ------------------------------------------------------- */
-ir_entity *get_entity_trans_overwrittenby_first(ir_entity *ent) {
+ir_entity *get_entity_trans_overwrittenby_first(const ir_entity *ent)
+{
assert_valid_state();
- return pset_first(get_entity_map(ent, d_down));
+ return pset_first(ir_entity, get_entity_map(ent, d_down));
}
-ir_entity *get_entity_trans_overwrittenby_next (ir_entity *ent) {
+ir_entity *get_entity_trans_overwrittenby_next(const ir_entity *ent)
+{
assert_valid_state();
- return pset_next(get_entity_map(ent, d_down));
+ return pset_next(ir_entity, get_entity_map(ent, d_down));
}
/* - overwrites ---------------------------------------------------------- */
-/** Iterate over all transitive overwritten entities. */
-ir_entity *get_entity_trans_overwrites_first(ir_entity *ent) {
+ir_entity *get_entity_trans_overwrites_first(const ir_entity *ent)
+{
assert_valid_state();
- return pset_first(get_entity_map(ent, d_up));
+ return pset_first(ir_entity, get_entity_map(ent, d_up));
}
-ir_entity *get_entity_trans_overwrites_next (ir_entity *ent) {
+ir_entity *get_entity_trans_overwrites_next(const ir_entity *ent)
+{
assert_valid_state();
- return pset_next(get_entity_map(ent, d_up));
+ return pset_next(ir_entity, get_entity_map(ent, d_up));
}
-
-
-
/* ----------------------------------------------------------------------- */
/* Classify pairs of types/entities in the inheritance relations. */
/* ----------------------------------------------------------------------- */
/** Returns true if low is subclass of high. */
-static int check_is_SubClass_of(ir_type *low, ir_type *high) {
- int i, n_subtypes;
+static int check_is_SubClass_of(ir_type *low, ir_type *high)
+{
+ size_t i, n_subtypes;
/* depth first search from high downwards. */
n_subtypes = get_class_n_subtypes(high);
return 0;
}
-/* Returns true if low is subclass of high. */
-int is_SubClass_of(ir_type *low, ir_type *high) {
+int is_SubClass_of(ir_type *low, ir_type *high)
+{
assert(is_Class_type(low) && is_Class_type(high));
if (low == high) return 1;
return check_is_SubClass_of(low, high);
}
-
-/* Subclass check for pointers to classes.
- *
- * Dereferences at both types the same amount of pointer types (as
- * many as possible). If the remaining types are both class types
- * and subclasses, returns true, else false. Can also be called with
- * two class types. */
-int is_SubClass_ptr_of(ir_type *low, ir_type *high) {
+int is_SubClass_ptr_of(ir_type *low, ir_type *high)
+{
while (is_Pointer_type(low) && is_Pointer_type(high)) {
low = get_pointer_points_to_type(low);
high = get_pointer_points_to_type(high);
return 0;
}
-int is_overwritten_by(ir_entity *high, ir_entity *low) {
- int i, n_overwrittenby;
+int is_overwritten_by(ir_entity *high, ir_entity *low)
+{
+ size_t i, n_overwrittenby;
assert(is_entity(low) && is_entity(high));
if (get_irp_inh_transitive_closure_state() == inh_transitive_closure_valid) {
*
* Need two routines because I want to assert the result.
*/
-static ir_entity *do_resolve_ent_polymorphy(ir_type *dynamic_class, ir_entity *static_ent) {
- int i, n_overwrittenby;
+static ir_entity *do_resolve_ent_polymorphy(ir_type *dynamic_class, ir_entity *static_ent)
+{
+ size_t i, n_overwrittenby;
+
+ ir_type *owner = get_entity_owner(static_ent);
+ if (owner == dynamic_class) return static_ent;
- if (get_entity_owner(static_ent) == dynamic_class) return static_ent;
+ // if the owner of the static_ent already is more special than the dynamic
+ // type to check against - stop here.
+ if (! is_SubClass_of(dynamic_class, owner)) return NULL;
n_overwrittenby = get_entity_n_overwrittenby(static_ent);
for (i = 0; i < n_overwrittenby; ++i) {
ent = do_resolve_ent_polymorphy(dynamic_class, ent);
if (ent) return ent;
}
- return NULL;
+
+ // No further specialization of static_ent has been found
+ return static_ent;
}
-/* Resolve polymorphy in the inheritance relation.
- *
- * Returns the dynamically referenced entity if the static entity and the
- * dynamic type are given.
- * Search downwards in overwritten tree. */
-ir_entity *resolve_ent_polymorphy(ir_type *dynamic_class, ir_entity *static_ent) {
+ir_entity *resolve_ent_polymorphy(ir_type *dynamic_class, ir_entity *static_ent)
+{
ir_entity *res;
assert(static_ent && is_entity(static_ent));
return res;
}
-
-
-
-/* ----------------------------------------------------------------------- */
-/* Class cast state handling. */
-/* ----------------------------------------------------------------------- */
-
-/* - State handling. ----------------------------------------- */
-
-void set_irg_class_cast_state(ir_graph *irg, ir_class_cast_state s) {
- if (get_irp_class_cast_state() > s) set_irp_class_cast_state(s);
- irg->class_cast_state = s;
-}
-
-ir_class_cast_state get_irg_class_cast_state(ir_graph *irg) {
- return irg->class_cast_state;
-}
-
-void set_irp_class_cast_state(ir_class_cast_state s) {
- int i;
- for (i = 0; i < get_irp_n_irgs(); ++i)
- assert(get_irg_class_cast_state(get_irp_irg(i)) >= s);
- irp->class_cast_state = s;
-}
-
-ir_class_cast_state get_irp_class_cast_state(void) {
- return irp->class_cast_state;
-}
-
-char *get_class_cast_state_string(ir_class_cast_state s) {
-#define X(a) case a: return #a
- switch(s) {
- X(ir_class_casts_any);
- X(ir_class_casts_transitive);
- X(ir_class_casts_normalized);
- X(ir_class_casts_state_max);
- default: return "invalid class cast state";
- }
-#undef X
-}
-
-/* - State verification. ------------------------------------- */
-
-typedef struct ccs_env {
- ir_class_cast_state expected_state;
- ir_class_cast_state worst_situation;
-} ccs_env;
-
-void verify_irn_class_cast_state(ir_node *n, void *env) {
- ccs_env *ccs = (ccs_env *)env;
- ir_class_cast_state this_state = ir_class_casts_any;
- ir_type *fromtype, *totype;
- int ref_depth = 0;
-
- if (get_irn_op(n) != op_Cast) return;
-
- fromtype = get_irn_typeinfo_type(get_Cast_op(n));
- totype = get_Cast_type(n);
-
- while (is_Pointer_type(totype) && is_Pointer_type(fromtype)) {
- totype = get_pointer_points_to_type(totype);
- fromtype = get_pointer_points_to_type(fromtype);
- ref_depth++;
- }
-
- if (!is_Class_type(totype)) return;
-
- if (is_SubClass_of(totype, fromtype) ||
- is_SubClass_of(fromtype, totype) ) {
- this_state = ir_class_casts_transitive;
- if ((get_class_supertype_index(totype, fromtype) != -1) ||
- (get_class_supertype_index(fromtype, totype) != -1) ||
- fromtype == totype) {
- /* Das ist doch alt? Aus dem cvs aufgetaucht ...
- if ((get_class_supertype_index(totype, fromtype) == -1) &&
- (get_class_supertype_index(fromtype, totype) == -1) ) { */
- this_state = ir_class_casts_normalized;
- }
- }
-
- if (!(this_state >= ccs->expected_state)) {
- ir_printf(" Node is %+F\n", n);
- ir_printf(" totype %+F\n", totype);
- ir_printf(" fromtype %+F\n", fromtype);
- ir_printf(" this_state: %s, exp. state: %s\n",
- get_class_cast_state_string(this_state),
- get_class_cast_state_string(ccs->expected_state));
- assert(this_state >= ccs->expected_state &&
- "invalid state class cast state setting in graph");
- }
-
- if (this_state < ccs->worst_situation)
- ccs->worst_situation = this_state;
-}
-
-
-/** Verify that the graph meets requirements of state set. */
-void verify_irg_class_cast_state(ir_graph *irg) {
- ccs_env env;
-
- env.expected_state = get_irg_class_cast_state(irg);
- env.worst_situation = ir_class_casts_normalized;
-
- irg_walk_graph(irg, NULL, verify_irn_class_cast_state, &env);
-
- if ((env.worst_situation > env.expected_state) && get_firm_verbosity()) {
- ir_printf("Note: class cast state is set lower than reqired in graph \n\t%+F\n", irg);
- printf(" state is %s, reqired is %s\n",
- get_class_cast_state_string(env.expected_state),
- get_class_cast_state_string(env.worst_situation));
- }
-}
projects / libfirm / blobdiff