/*
- * Project: libFIRM
- * File name: ir/ana/trouts.c
- * Purpose: Reverse edges that reference types/entities.
- * Author: Goetz Lindenmaier
- * Modified by:
- * Created: 29.10.2004
- * CVS-ID: $Id$
- * Copyright: (c) 2004 Universität Karlsruhe
- * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE.
+ * 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.
*/
+/**
+ * @file
+ * @brief Reverse edges that reference types/entities.
+ * @author Goetz Lindenmaier
+ * @date 29.10.2004
+ * @version $Id$
+ */
+#ifdef HAVE_CONFIG_H
+#include "config.h"
+#endif
+
+#include "irnode.h"
#include "trouts.h"
#include "array.h"
#include "irprog_t.h"
#include "irgwalk.h"
+#include "irnode.h"
/*------------------------------------------------------------------*/
static pmap *type_alloc_map = NULL;
static pmap *type_cast_map = NULL;
static pmap *type_pointertype_map = NULL;
+static pmap *type_arraytype_map = NULL;
-static ir_node **get_entity_access_array(entity *ent) {
+/**
+ * Return a flexible array containing all IR-nodes
+ * that access a given entity.
+ */
+static ir_node **get_entity_access_array(ir_entity *ent) {
ir_node **res;
if (!entity_access_map) entity_access_map = pmap_create();
return res;
}
-void set_entity_access_array(entity *ent, ir_node **accs) {
+void set_entity_access_array(ir_entity *ent, ir_node **accs) {
ir_node **old = pmap_get(entity_access_map, (void *)ent);
if (old != accs)
pmap_insert(entity_access_map, (void *)ent, (void *)accs);
}
-static ir_node **get_entity_reference_array(entity *ent) {
+/**
+ * Return a flexible array containing all IR-nodes
+ * that reference a given entity.
+ */
+static ir_node **get_entity_reference_array(ir_entity *ent) {
ir_node **res;
if (!entity_reference_map) entity_reference_map = pmap_create();
return res;
}
-void set_entity_reference_array(entity *ent, ir_node **refs) {
+void set_entity_reference_array(ir_entity *ent, ir_node **refs) {
ir_node **old = pmap_get(entity_reference_map, (void *)ent);
if (old != refs)
pmap_insert(entity_reference_map, (void *)ent, (void *)refs);
}
-static ir_node **get_type_alloc_array(type *tp) {
+/**
+ * Return a flexible array containing all IR-nodes
+ * that allocate a given type.
+ */
+static ir_node **get_type_alloc_array(ir_type *tp) {
ir_node **res;
if (!type_alloc_map) type_alloc_map = pmap_create();
return res;
}
-void set_type_alloc_array(type *tp, ir_node **alls) {
+void set_type_alloc_array(ir_type *tp, ir_node **alls) {
ir_node **old = pmap_get(type_alloc_map, (void *)tp);
if (old != alls)
pmap_insert(type_alloc_map, (void *)tp, (void *)alls);
}
-static ir_node **get_type_cast_array(type *tp) {
+/**
+ * Return a flexible array containing all Cast-nodes
+ * that "create" a given type.
+ */
+static ir_node **get_type_cast_array(ir_type *tp) {
ir_node **res;
if (!type_cast_map) type_cast_map = pmap_create();
res = NEW_ARR_F(ir_node *, 0);
pmap_insert(type_cast_map, (void *)tp, (void *)res);
}
-
return res;
}
-void set_type_cast_array(type *tp, ir_node **alls) {
+
+void set_type_cast_array(ir_type *tp, ir_node **alls) {
ir_node **old = pmap_get(type_cast_map, (void *)tp);
if (old != alls)
pmap_insert(type_cast_map, (void *)tp, (void *)alls);
}
-static type **get_type_pointertype_array(type *tp) {
- type **res;
+/**
+ * Return a flexible array containing all pointer
+ * types that points-to a given type.
+ */
+static ir_type **get_type_pointertype_array(ir_type *tp) {
+ ir_type **res;
if (!type_pointertype_map) type_pointertype_map = pmap_create();
if (pmap_contains(type_pointertype_map, (void *)tp)) {
- res = (type **) pmap_get(type_pointertype_map, (void *)tp);
+ res = (ir_type **) pmap_get(type_pointertype_map, (void *)tp);
} else {
- res = NEW_ARR_F(type *, 0);
+ res = NEW_ARR_F(ir_type *, 0);
pmap_insert(type_pointertype_map, (void *)tp, (void *)res);
}
return res;
}
-void set_type_pointertype_array(type *tp, type **pts) {
- type **old = pmap_get(type_pointertype_map, (void *)tp);
+void set_type_pointertype_array(ir_type *tp, ir_type **pts) {
+ ir_type **old = pmap_get(type_pointertype_map, (void *)tp);
if (old != pts)
pmap_insert(type_pointertype_map, (void *)tp, (void *)pts);
}
+/**
+ * Return a flexible array containing all array
+ * types that have a given type as element type.
+ */
+static ir_type **get_type_arraytype_array(ir_type *tp) {
+ ir_type **res;
+ if (!type_arraytype_map) type_arraytype_map = pmap_create();
+
+ if (pmap_contains(type_arraytype_map, (void *)tp)) {
+ res = (ir_type **) pmap_get(type_arraytype_map, (void *)tp);
+ } else {
+ res = NEW_ARR_F(ir_type *, 0);
+ pmap_insert(type_arraytype_map, (void *)tp, (void *)res);
+ }
+
+ return res;
+}
+
+void set_type_arraytype_array(ir_type *tp, ir_type **pts) {
+ ir_type **old = pmap_get(type_arraytype_map, (void *)tp);
+ if (old != pts)
+ pmap_insert(type_arraytype_map, (void *)tp, (void *)pts);
+}
+
/*------------------------------------------------------------------*/
/* Accessing the out data structures. */
/* These routines only work properly if firm is in state */
/* Access routines for entities */
/**------------------------------------------------------------------*/
-int get_entity_n_accesses(entity *ent) {
+int get_entity_n_accesses(ir_entity *ent) {
ir_node ** accs;
assert(ent && is_entity(ent));
return ARR_LEN(accs);
}
-ir_node *get_entity_access(entity *ent, int pos) {
+ir_node *get_entity_access(ir_entity *ent, int pos) {
ir_node ** accs;
assert(0 <= pos && pos < get_entity_n_accesses(ent));
return accs[pos];
}
-void add_entity_access(entity *ent, ir_node *n) {
+void add_entity_access(ir_entity *ent, ir_node *n) {
ir_node ** accs;
assert(ent && is_entity(ent));
set_entity_access_array(ent, accs);
}
-void set_entity_access(entity *ent, int pos, ir_node *n) {
+void set_entity_access(ir_entity *ent, int pos, ir_node *n) {
ir_node ** accs;
assert(0 <= pos && pos < get_entity_n_accesses(ent));
/**------------------------------------------------------------------*/
-int get_entity_n_references(entity *ent) {
+int get_entity_n_references(ir_entity *ent) {
ir_node ** refs;
assert(ent && is_entity(ent));
return ARR_LEN(refs);
}
-ir_node *get_entity_reference(entity *ent, int pos) {
+ir_node *get_entity_reference(ir_entity *ent, int pos) {
ir_node ** refs;
assert(0 <= pos && pos < get_entity_n_references(ent));
return refs[pos];
}
-void add_entity_reference(entity *ent, ir_node *n) {
+void add_entity_reference(ir_entity *ent, ir_node *n) {
ir_node ** refs;
assert(ent && is_entity(ent));
set_entity_reference_array(ent, refs);
}
-void set_entity_reference(entity *ent, int pos, ir_node *n) {
+void set_entity_reference(ir_entity *ent, int pos, ir_node *n) {
ir_node ** refs;
assert(0 <= pos && pos < get_entity_n_references(ent));
/**------------------------------------------------------------------*/
/* Number of Alloc nodes that create an instance of this type */
-int get_type_n_allocs(type *tp) {
+int get_type_n_allocs(ir_type *tp) {
ir_node **allocs;
assert(tp && is_type(tp));
}
/* Alloc node that creates an instance of this type */
-ir_node *get_type_alloc(type *tp, int pos) {
+ir_node *get_type_alloc(ir_type *tp, int pos) {
ir_node **allocs;
assert(0 <= pos && pos < get_type_n_allocs(tp));
return allocs[pos];
}
-void add_type_alloc(type *tp, ir_node *n) {
+void add_type_alloc(ir_type *tp, ir_node *n) {
ir_node **allocs;
assert(tp && is_type(tp));
set_type_alloc_array(tp, allocs);
}
-void set_type_alloc(type *tp, int pos, ir_node *n) {
+void set_type_alloc(ir_type *tp, int pos, ir_node *n) {
ir_node **allocs;
assert(0 <= pos && pos < get_type_n_allocs(tp));
}
/* Number of Cast nodes that create an instance of this type */
-int get_type_n_casts(type *tp) {
+int get_type_n_casts(ir_type *tp) {
ir_node **casts;
assert(tp && is_type(tp));
}
-int get_class_n_upcasts(type *clss) {
+int get_class_n_upcasts(ir_type *clss) {
int i, n_casts = get_type_n_casts(clss);
int n_instances = 0;
for (i = 0; i < n_casts; ++i) {
return n_instances;
}
-int get_class_n_downcasts(type *clss) {
+int get_class_n_downcasts(ir_type *clss) {
int i, n_casts = get_type_n_casts(clss);
int n_instances = 0;
for (i = 0; i < n_casts; ++i) {
/* Cast node that creates an instance of this type */
-ir_node *get_type_cast(type *tp, int pos) {
+ir_node *get_type_cast(ir_type *tp, int pos) {
ir_node **casts;
assert(0 <= pos && pos < get_type_n_casts(tp));
return casts[pos];
}
-void add_type_cast(type *tp, ir_node *n) {
+void add_type_cast(ir_type *tp, ir_node *n) {
ir_node **casts;
assert(tp && is_type(tp));
set_type_cast_array(tp, casts);
}
-void set_type_cast(type *tp, int pos, ir_node *n) {
+void set_type_cast(ir_type *tp, int pos, ir_node *n) {
ir_node **casts;
assert(0 <= pos && pos < get_type_n_casts(tp));
/**------------------------------------------------------------------*/
-int get_type_n_pointertypes_to(type *tp) {
- type ** pts;
+int get_type_n_pointertypes_to(ir_type *tp) {
+ ir_type ** pts;
assert(tp && is_type(tp));
return ARR_LEN(pts);
}
-type *get_type_pointertype_to(type *tp, int pos) {
- type ** pts;
+ir_type *get_type_pointertype_to(ir_type *tp, int pos) {
+ ir_type ** pts;
assert(0 <= pos && pos < get_type_n_pointertypes_to(tp));
return pts[pos];
}
-void add_type_pointertype_to(type *tp, type *ptp) {
- type ** pts;
+void add_type_pointertype_to(ir_type *tp, ir_type *ptp) {
+ ir_type ** pts;
assert(tp && is_type(tp));
assert(ptp && is_Pointer_type(ptp));
set_type_pointertype_array(tp, pts);
}
-void set_type_pointertype_to(type *tp, int pos, type *ptp) {
- type ** pts;
+void set_type_pointertype_to(ir_type *tp, int pos, ir_type *ptp) {
+ ir_type ** pts;
assert(0 <= pos && pos < get_type_n_pointertypes_to(tp));
assert(ptp && is_Pointer_type(ptp));
pts[pos] = ptp;
}
+
+/**------------------------------------------------------------------*/
+
+int get_type_n_arraytypes_of(ir_type *tp) {
+ ir_type ** pts;
+
+ assert(tp && is_type(tp));
+
+ pts = get_type_arraytype_array(tp);
+ return ARR_LEN(pts);
+}
+
+ir_type *get_type_arraytype_of(ir_type *tp, int pos) {
+ ir_type ** pts;
+
+ assert(0 <= pos && pos < get_type_n_arraytypes_of(tp));
+
+ pts = get_type_arraytype_array(tp);
+ return pts[pos];
+}
+
+void add_type_arraytype_of(ir_type *tp, ir_type *atp) {
+ ir_type ** pts;
+
+ assert(tp && is_type(tp));
+ assert(atp && is_Array_type(atp));
+
+ pts = get_type_arraytype_array(tp);
+ ARR_APP1(ir_node *, pts, atp);
+ set_type_arraytype_array(tp, pts);
+}
+
+void set_type_arraytype_of(ir_type *tp, int pos, ir_type *atp) {
+ ir_type ** pts;
+
+ assert(0 <= pos && pos < get_type_n_arraytypes_of(tp));
+ assert(atp && is_Array_type(atp));
+
+ pts = get_type_arraytype_array(tp);
+ pts[pos] = atp;
+}
+
/*------------------------------------------------------------------*/
/* Building and Removing the out datastructure */
/*------------------------------------------------------------------*/
}
-/* The entities that can be accessed by this Sel node. */
+/** The number of entities that can be accessed by this Sel node. */
static int get_Sel_n_accessed_entities(ir_node *sel) {
- return 1;
+ (void) sel;
+ return 1;
}
-static entity *get_Sel_accessed_entity(ir_node *sel) {
+/** The entity that cat be accessed by this Sel node. */
+static ir_entity *get_Sel_accessed_entity(ir_node *sel) {
return get_Sel_entity(sel);
}
-/* An addr node is a SymConst or a Sel. */
+/** An addr node is a SymConst or a Sel. */
static int get_addr_n_entities(ir_node *addr) {
int n_ents;
return n_ents;
}
-/* An addr node is a SymConst or a Sel.
- If Sel follow to outermost of compound. */
-static entity *get_addr_entity(ir_node *addr, int pos) {
- entity *ent;
+/** An addr node is a SymConst or a Sel.
+ If Sel follow to outermost of compound. */
+static ir_entity *get_addr_entity(ir_node *addr, int pos) {
+ ir_entity *ent;
switch (get_irn_opcode(addr)) {
case iro_Sel:
/* Treat jack array sels? They are compounds! Follow to outermost entity. */
- while (get_irn_op(get_Sel_ptr(addr)) == op_Sel) {
+ while (is_Sel(get_Sel_ptr(addr))) {
addr = get_Sel_ptr(addr);
}
assert (0 <= pos && pos < get_Sel_n_accessed_entities(addr));
int i, n_ents;
ir_node *addr;
+ (void) env;
if (get_irn_op(n) == op_Alloc) {
add_type_alloc(get_Alloc_type(n), n);
return;
addr = get_memop_ptr(n);
} else if (get_irn_op(n) == op_Call) {
addr = get_Call_ptr(n);
- if (get_irn_op(addr) != op_Sel) return; /* Sels before Calls mean a Load / polymorphic Call. */
+ if (! is_Sel(addr)) return; /* Sels before Calls mean a Load / polymorphic Call. */
} else {
return;
}
n_ents = get_addr_n_entities(addr); /* == 1 */
for (i = 0; i < n_ents; ++i) {
- entity *ent = get_addr_entity(addr, i);
+ ir_entity *ent = get_addr_entity(addr, i);
if (ent)
add_entity_access(ent, n);
//else
}
}
-static void chain_types(type *tp) {
+static void chain_types(ir_type *tp) {
if (is_Pointer_type(tp)) {
add_type_pointertype_to(get_pointer_points_to_type(tp), tp);
+ } else if (is_Array_type(tp)) {
+ add_type_arraytype_of(get_array_element_type(tp), tp);
}
}
init_trouts();
/* Compute outs for irnodes. */
- for (i=0; i < n_irgs; i++) {
- current_ir_graph = get_irp_irg(i);
- irg_walk_graph(current_ir_graph, NULL, chain_accesses, NULL);
+ for (i = 0; i < n_irgs; i++) {
+ irg_walk_graph(get_irp_irg(i), NULL, chain_accesses, NULL);
}
walk_const_code(NULL, chain_accesses, NULL);
pmap_destroy(type_pointertype_map);
type_pointertype_map = NULL;
}
+
+ if (type_arraytype_map) {
+ ir_node **pts;
+ for (pts = (ir_node **)pmap_first(type_arraytype_map);
+ pts;
+ pts = (ir_node **)pmap_next(type_arraytype_map))
+ ; //DEL_ARR_F(pts);
+ pmap_destroy(type_arraytype_map);
+ type_arraytype_map = NULL;
+ }
+
irp->trouts_state = outs_none;
}