#include "trvrfy.h"
#include "xmalloc.h"
-# define TRUE 1
-# define FALSE 0
+# ifndef TRUE
+# define TRUE 1
+# define FALSE 0
+# endif /* not defined TRUE */
# define BUF_SIZE 1024
# include "ecg.h"
-
-#include <string.h> /* need memset */
-
-/*
- data structures
-*/
-
-/* Lists, err, Sets */
-typedef struct lset_entry
-{
- void *data;
- struct lset_entry *next;
-} lset_entry_t;
-
-typedef struct lset
-{
- lset_entry_t *first;
- lset_entry_t *last; /* useful for lset_append */
- lset_entry_t *curs; /* for lset_first/lset_next */
- int n_entries;
-} lset_t;
-
-
-typedef enum typalise_kind_enum {
- type_invalid = 0, /* invalid (only set at deletion time) */
- type_exact = 1, /* this and only this type (res.type) */
- type_types = 2, /* these types (res.types) */
- type_type = 3 /* this type and sub types (res.type) */
-} typalise_kind;
-
-typedef struct typalise
-{
- typalise_kind kind;
- union
- {
- type *type; /* for kind == kind_exact and kind == kind_type */
- lset_t *types; /* for kind == kind_types */
- } res;
- int id;
-} typalise_t;
+# include "typalise.h"
+# include "lset.h"
/*
le flag
static int _max_callEds = 0;
static entity* _max_callEds_callR = NULL;
-static long ta_id = 0;
-
-/*
- Lists, err, Sets
- */
-
-
-/* create a new lset */
-static lset_t *lset_create (void)
-{
- lset_t *lset = xmalloc (sizeof (lset_t));
-
- return (lset);
-}
-
-/* check whether the lset contains an entry for the given data */
-static int lset_contains (lset_t *lset, void *data)
-{
- lset_entry_t *entry = lset->first;
-
- while (NULL != entry) {
- if (data == entry->data) {
- return (TRUE);
- }
-
- entry = entry->next;
- }
-
- return (FALSE);
-}
-
-/* check whether the given lset is empty */
-static int lset_empty (lset_t *lset)
-{
- return (NULL == lset->first);
-}
-
-
-/* insert the data into the lset (unless there's an entry for it
- already) */
-static void lset_insert (lset_t *lset, void *data)
-{
- if (! lset_contains (lset, data)) {
- lset_entry_t *entry = xmalloc (sizeof (lset_entry_t));
- entry->data = data;
- entry->next = lset->first;
- lset->first = entry;
-
- if (NULL == lset->last) {
- lset->last = entry;
- }
-
- lset->n_entries ++;
- }
-}
-
-/* insert all entries from src into tgt */
-static void lset_insert_all (lset_t *tgt, lset_t *src)
-{
- lset_entry_t *curs = src->first;
-
- while (NULL != curs) {
- lset_insert (tgt, curs->data);
-
- curs = curs->next;
- }
-}
-
-/* append src to tgt. src is deallocated. */
-static void lset_append (lset_t *tgt, lset_t *src)
-{
- assert (! tgt->last->next);
-
- tgt->last->next = src->first;
- tgt->last = src->last;
- tgt->n_entries += src->n_entries;
-
- memset (src, 0x00, sizeof (lset_t));
- free (src);
-}
-
-/* remove the entry for the given data element from the lset. return
- TRUE iff it was on the list in the first place, FALSE else */
-# ifdef SHUT_UP_GCC
-static int lset_remove (lset_t *lset, void *data)
-{
- lset_entry_t *entry = lset->first;
- lset_entry_t *prev = NULL;
-
- while (NULL != entry) {
- if (data == entry->data) {
- /* ok, dike it out */
-
- if (NULL == prev) { /* ok, it's lset->first that needs diking */
- lset->first = entry->next;
- } else {
- prev->next = entry->next;
- }
-
- memset (entry, 0x00, sizeof (lset_entry_t));
- free (entry);
-
- lset->n_entries --;
-
- return (TRUE);
- }
-
- prev = entry;
- entry = entry->next;
- }
-
- return (FALSE);
-}
-# endif /* def SHUT_UP_GCC */
-/* prepare the given lset for an iteration. return the first element. */
-static void *lset_first (lset_t *lset)
-{
- lset->curs = lset->first;
-
- if (lset->first) {
- return (lset->first->data);
- } else {
- return (NULL);
- }
-}
-
-/* after calling lset_first, get the next element, if applicable, or
- NULL */
-static void *lset_next (lset_t *lset)
-{
- lset->curs = lset->curs->next;
-
- if (lset->curs) {
- return (lset->curs->data);
- } else {
- return (NULL);
- }
-}
-
-/* say how many entries there are in the given lset */
-static int lset_n_entries (lset_t *lset)
-{
- return (lset->n_entries);
-}
-
-/* deallocate the lset and all of its entries */
-static void lset_destroy (lset_t *lset)
-{
- lset_entry_t *curs = lset->first;
-
- while (NULL != curs) {
- lset_entry_t *tmp = curs->next;
-
- memset (curs, 0x00, sizeof (lset_entry_t));
- free (curs);
-
- curs = tmp;
- }
-
- memset (lset, 0x00, sizeof (lset_t));
- free (lset);
-}
-
-/* ====================
- Typalize Ptr
- ==================== */
-/**
- Find out whether the given clazz uses the given implementation of a
- method. Presumably, this is because clazz inherits the graph as
- the implementation for a method.
-*/
-static int uses_graph (type *clazz, entity *meth, ir_graph *graph)
-{
- type *g_clazz = get_entity_owner (meth);
-
- if (g_clazz == clazz) {
- return (TRUE);
- }
-
- if (peculiarity_existent == get_entity_peculiarity (meth)) {
- ir_graph *g_graph = get_entity_irg (meth);
-
- if (g_graph != graph) {
- return (FALSE);
- }
- }
-
- /* else inherited or description */
- int use = FALSE;
- int i;
- int n_over = get_entity_n_overwrittenby (meth); /* DOWN-wards */
-
- for (i = 0; (i < n_over) && (!use); i ++) {
- entity *over = get_entity_overwrittenby (meth, i);
-
- use |= uses_graph (clazz, over, graph);
- }
-
- return (use);
-}
-
-
-/**
- Find out whether otype is a subtype of stype.
- Return non-zero iff otype is a subtype of stype.
-*/
-static int is_subtype (type *otype, type *stype)
-{
- int n_sub = get_class_n_subtypes (stype);
- int is_sub = FALSE;
- int i;
-
- if (otype == stype) {
- return (TRUE);
- }
-
- for (i = 0; (!is_sub) && (i < n_sub); i ++) {
- type *sub = get_class_subtype (stype, i);
-
- is_sub |= is_subtype (otype, sub);
- }
-
-
- return (is_sub);
-}
-
-/**
- Compute the closure of all subtypes of otype (including otype
- itself)
-*/
-static void _collect_subtypes (type *otype, lset_t *set)
-{
- lset_insert (set, otype);
-
- int n_sub = get_class_n_subtypes (otype);
- int i;
-
- for (i = 0; i < n_sub; i ++) {
- type *sub = get_class_subtype (otype, i);
-
- _collect_subtypes (sub, set);
- }
-}
-
-static lset_t *subtype_closure (type *otype)
-{
- lset_t *set = lset_create ();
-
- _collect_subtypes (otype, set);
-
- return (set);
-}
-
-/**
- Helper method for get_owner_types
-*/
-static void _collect_owner_types (entity *method, ir_graph *graph, lset_t *tps)
-{
- /* search DOWNwards in clazz hierarchy */
-
- if ((peculiarity_description == get_entity_peculiarity (method)) ||
- (peculiarity_inherited == get_entity_peculiarity (method))) {
- lset_insert (tps, get_entity_owner (method));
- } else if (peculiarity_existent == get_entity_peculiarity (method)) {
- ir_graph *ex_graph = get_entity_irg (method);
-
- if ((NULL == ex_graph) || (ex_graph == graph)) {
- /* wtf? they define the same graph again? well, whatever: */
- lset_insert (tps, get_entity_owner (method));
- } else {
- /* aha: they define a new graph. can't have that, so bail out */
- return;
- }
- }
-
- int n_over = get_entity_n_overwrittenby (method);
- int i;
-
- for (i = 0; i < n_over; i ++) {
- entity *ometh = get_entity_overwrittenby (method, i);
-
- _collect_owner_types (ometh, graph, tps);
- }
-}
-
-
-/**
- Collect all classes that use the given implementation of a method.
-*/
-static lset_t *get_owner_types (ir_graph *graph)
-{
- lset_t *tps = lset_create ();
- entity *meth = get_irg_entity (graph);
-
- _collect_owner_types (meth, graph, tps);
-
- return (tps);
-}
-
-
-/**
- Convenience funcs to create a typalise_t
-*/
-static typalise_t *ta_exact (type *tp)
-{
- typalise_t *ta = (typalise_t*) xmalloc (sizeof (typalise_t));
- ta->kind = type_exact;
- ta->res.type = tp;
- ta->id = ta_id ++;
-
- assert (is_class_type (tp));
-
- return (ta);
-}
-
-static typalise_t *ta_types (lset_t *set)
-{
- typalise_t *ta = (typalise_t*) xmalloc (sizeof (typalise_t));
- ta->kind = type_types;
- ta->res.types = set;
- ta->id = ta_id ++;
-
- return (ta);
-}
-
-static typalise_t *ta_type (type *tp)
-{
- typalise_t *ta = (typalise_t*) xmalloc (sizeof (typalise_t));
- ta->kind = type_type;
- ta->res.type = tp;
- ta->id = ta_id ++;
-
- assert (is_class_type (tp));
-
- return (ta);
-}
-
-static void ta_delete (typalise_t *ta)
-{
- if (type_types == ta->kind) {
- lset_destroy (ta->res.types);
- ta->res.types = NULL;
- } else {
- ta->res.type = NULL;
- }
-
- ta->kind = type_invalid;
-
- free (ta);
-}
-
-/**
- Join 'one' and 'two'; both args are deallocated, result is freshly
- allocated.
-*/
-static typalise_t *ta_join (typalise_t *one, typalise_t *two)
-{
- typalise_t *res = NULL;
-
- switch (one->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- switch (two->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- if (one->res.type == two->res.type) {
- res = one;
- } else {
- lset_t *set = lset_create ();
- lset_insert (set, one->res.type);
- lset_insert (set, two->res.type);
- res = ta_types (set);
-
- ta_delete (one);
- }
-
- ta_delete (two);
- } break;
- case (type_types): {
- lset_insert (two->res.types, one->res.type);
- ta_delete (one);
-
- res = two;
- } break;
- case (type_type): {
- if (is_subtype (one->res.type, two->res.type)) {
- ta_delete (one);
- res = two;
- } else {
- lset_t *closure = subtype_closure (two->res.type);
- lset_insert (closure, one->res.type);
-
- ta_delete (two);
-
- res = one;
- }
- } break;
- }
- } break;
- case (type_types): {
- switch (two->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- res = ta_join (two, one);
- } break;
- case (type_types): {
- lset_insert_all (one->res.types, two->res.types);
- ta_delete (two);
-
- res = one;
- } break;
- case (type_type): {
- lset_t *closure = subtype_closure (two->res.type);
- lset_append (one->res.types, closure);
-
- ta_delete (two);
-
- res = one;
- } break;
- }
- } break;
- case (type_type): {
- switch (two->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- res = ta_join (two, one);
- } break;
- case (type_types): {
- res = ta_join (two, one);
- } break;
- case (type_type): {
- type *one_type = one->res.type;
- type *two_type = two->res.type;
-
- if (is_subtype (one_type, two_type)) {
- ta_delete (one);
- res = two;
- } else if (is_subtype (two_type, one_type)) {
- ta_delete (two);
- res = one;
- } else {
- lset_t *one_closure = subtype_closure (one->res.type);
- lset_t *two_closure = subtype_closure (two->res.type);
-
- lset_append (one_closure, two_closure);
-
- ta_delete (two);
- ta_delete (one);
-
- res = ta_types (one_closure);
- }
- } break;
- }
- } break;
- }
-
- assert (res && "no result");
-
- return (res);
-}
-
-
-# ifdef SHUT_UP_GCC
-static const char *ta_name (typalise_t *ta)
-{
- /* # define BUF_SIZE 1024 */
- static char buf [BUF_SIZE];
-
- int len = sprintf (buf, "[%d] ", ta->id);
-
- switch (ta->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- len += sprintf (buf+len, "only ");
- strncat (buf, get_type_name (ta->res.type), BUF_SIZE);
- } break;
- case (type_types): {
- len += sprintf (buf+len, "one_of ");
-
- type *iter = lset_first (ta->res.types);
-
- int size = BUF_SIZE - len - 1;
- while ((NULL != iter) && (0 < size)) {
- char *dest = strncat (buf, get_type_name (iter), size);
- size = (dest - buf);
-
- iter = lset_next (ta->res.types);
- }
- } break;
- case (type_type): {
- len += sprintf (buf+len, "poly ");
- strncat (buf, get_type_name (ta->res.type), BUF_SIZE);
- } break;
- }
-
- return (buf);
- /* # undef BUF_SIZE */
-}
-# endif /* SHUT_UP_GCC */
-
-/**
- Check whether the given typalise_t includes the given type.
-*/
-static int ta_supports (typalise_t *ta, ir_graph *graph)
-{
- switch (ta->kind) {
- case (type_invalid): { /* shut up, gcc */ }
- case (type_exact): {
- int res = FALSE;
- lset_t *tps = get_owner_types (graph);
-
- if (lset_contains (tps, ta->res.type)) {
- res = TRUE;
- }
-
- lset_destroy (tps);
-
- return (res);
- }
- case (type_type): {
- entity *meth = get_irg_entity (graph);
- type *tp = get_entity_owner (meth);
- int res = is_subtype (tp, ta->res.type);
-
- if (res) {
- return (TRUE);
- } else {
- res = uses_graph (ta->res.type, meth, graph);
- }
-
- return (res);
- }
- case (type_types): {
- type *tp = get_entity_owner (get_irg_entity (graph));
-
- return (lset_contains (ta->res.types, tp));
- }
- }
-
- assert (0 && "invalid ta");
-}
-
-
-/**
- Given a set of graphs and a typalise_t, return the method (s) in
- the set that are supported by the typalise_t. Also, deallocates
- the given set.
-*/
-static lset_t *filter_for_ta (lset_t *set, typalise_t *ta)
-{
- lset_t *res = lset_create ();
- ir_graph *curs = (ir_graph*) lset_first (set);
-
- while (NULL != curs) {
- if (ta_supports (ta, curs)) {
- lset_insert (res, curs);
- }
-
- curs = lset_next (set);
- }
-
- lset_destroy (set);
-
- return (res);
-}
-
-
-/**
- Return a list containing all types of 'set' which are a subtype of 'type'.
-*/
-static lset_t *filter_for_type (lset_t *set, type *stype)
-{
- type *curs = (type*) lset_first (set);
- lset_t *lset = lset_create ();
-
- while (NULL != curs) {
- if (is_subtype (curs, stype)) {
- lset_insert (lset, curs);
- }
-
- curs = lset_next (set);
- }
-
- return (lset);
-}
-
-/**
- Find an approximation to the given node's value's types
-*/
-static typalise_t *typalise (ir_node*);
-
-/**
- Find an approximation to the given proj node's value's types
-*/
-static typalise_t *typalise_proj (ir_node *proj)
-{
- typalise_t *res = NULL;
- ir_node *proj_in = get_Proj_pred (proj);
-
- if (iro_Proj == get_irn_opcode (proj_in)) {
- /* fprintf (stdout, "\tProj (Proj)\n"); */
-
- proj_in = get_Proj_pred (proj_in);
- if (iro_Start == get_irn_opcode (proj_in)) {
- long n = get_Proj_proj (proj);
- if (1 == n) {
- /* yay proj this */
- ir_graph *graph = get_irn_irg (proj);
- entity *meth = get_irg_entity (graph);
- type *tp = get_entity_owner (meth);
-
- /* res = ta_exact (tp); */
- res = ta_type (tp); /* TODO */
- } else {
- /* ugh proj arg */
- /* hey, even 'filtering' this NULL by the select of the actual
- call is probably as "precise" as anything: */
- return (NULL);
- }
- } else if (iro_Call == get_irn_opcode (proj_in)) {
- /* call result ... 'whatever' */
- ir_node *call_ptr = get_Call_ptr (proj_in);
-
- res = typalise (call_ptr);
- } else {
- fprintf (stdout, "\n Proj (Proj (%s)) not handled\n",
- get_op_name (get_irn_op (proj_in)));
- assert (0);
- }
- } else {
- opcode op = get_irn_opcode (proj_in);
- if ((iro_Load != op) && (iro_Alloc != op) && (iro_Call != op)) {
- fprintf (stdout, "\n Proj (%s) not handled\n",
- get_op_name (get_irn_op (proj_in)));
- assert (0);
- }
- res = typalise (proj_in); /* everything else */
- /* Proj (Load), Proj (New), Proj (Call) */
- }
-
- return (res);
-}
-
-
-/**
- For the given ptr, do a quick check about what (class) types may be
- brought along on it.
-*/
-static typalise_t *typalise (ir_node *node)
-{
- opcode op = get_irn_opcode (node);
- typalise_t *res = NULL;
-
- switch (op) {
- case (iro_Cast): {
- /* casts always succeed */
- typalise_t *ta = NULL;
- type *tp = get_Cast_type (node);
-
- if (is_pointer_type (tp)) {
- tp = get_pointer_points_to_type (tp);
- }
- assert (is_class_type (tp));
-
- ta = typalise (get_Cast_op (node));
-
- if (NULL == ta) { /* no type found */
- ta = ta_type (tp);
- } else if (type_exact == ta->kind) { /* one type found */
- /* nothing (maybe check cast? */
- } else if (type_type == ta->kind) { /* some types found */
- if (is_subtype (tp, ta->res.type)) {
- ta->res.type = tp; /* assume cast is correct */
- } else {
- /* should assert (is_subtype (ta->res.type, tp)) */
- }
- } else if (type_types == ta->kind) {
- lset_t *ftp = filter_for_type (ta->res.types, tp);
- lset_destroy (ta->res.types);
- ta->res.types = ftp;
- }
-
- res = ta;
- } break;
-
- case (iro_Proj): {
- res = typalise_proj (node);
- } break;
-
- case (iro_Load): {
- /* presumably it's call (load (ptr)) we're analyzing. */
- ir_node *load_ptr = get_Load_ptr (node);
-
- res = typalise (load_ptr);
- } break;
-
- case (iro_Sel): {
- /* FILTER */
- /* it's call (sel (ptr)) or load (sel (ptr)) */
- entity *ent = get_Sel_entity (node);
- type *tp = get_entity_type (ent);
-
- if (is_method_type (tp)) {
- tp = get_entity_type (ent);
- tp = get_method_res_type (tp, 0);
-
- if (is_pointer_type (tp)) {
- tp = get_pointer_points_to_type (tp);
- }
-
- res = ta_type (tp);
- } else if (is_class_type (tp)) {
- tp = get_entity_type (ent);
-
- if (is_pointer_type (tp)) {
- tp = get_pointer_points_to_type (tp);
- }
-
- res = ta_type (tp);
- } else if (is_pointer_type (tp)) {
- tp = get_pointer_points_to_type (tp);
- res = ta_type (tp);
- } else {
- assert (0 && "select not handled");
- }
- } break;
-
- case (iro_Phi): {
- int n_ins = get_irn_arity (node);
- int i;
- ir_node *phi_in = NULL;
- typalise_t *ta = NULL;
- /* assert (0 && "Do we ever get here?"); */ /* apparently, we do. */
-
- for (i = 0; i < n_ins; i ++) {
- phi_in = get_irn_n (node, i);
- ta = (NULL == ta) ? typalise (phi_in) : ta_join (ta, typalise (phi_in));
- }
-
- res = ta;
- } break;
-
- case (iro_Alloc): {
- type *type = get_Alloc_type (node);
- res = ta_exact (type);
- } break;
-
- case (iro_Call): {
- /* presumably call (sel (proj (call))) */
- ir_node *ptr = get_Call_ptr (node);
- entity *meth = NULL;
- if (iro_Sel == get_irn_opcode (ptr)) {
- meth = get_Sel_entity (ptr);
- } else if (iro_SymConst == get_irn_opcode (ptr)) {
- if (get_SymConst_kind (ptr) == symconst_addr_ent) {
- meth = get_SymConst_entity (ptr);
- } else {
- meth = NULL; /* WTF? */
- }
- }
-
- if (NULL != meth) {
- type *tp = get_method_res_type ((type*) meth, 0);
- res = ta_type (tp);
- } else {
- /* could be anything */
- /* fprintf (stdout, "meth= (null)"); */
- res = NULL;
- }
-
- fprintf (stdout, "]\n");
-
- } break;
-
- case (iro_SymConst): {
- if (get_SymConst_kind (node) == symconst_type_tag) {
- type *tp = get_SymConst_type (node);
-
- res = ta_type (tp);
- } else if (get_SymConst_kind (node) == symconst_addr_ent) {
- entity *ent = get_SymConst_entity (node);
- type *tp = get_entity_type (ent);
- tp = get_pointer_points_to_type (tp);
- assert (is_class_type (tp));
-
- res = ta_type (tp); /* can't use ta_exact */
- } else {
- fprintf (stdout, "can't handle SymConst %s?\n",
- get_op_name (get_irn_op (node)));
- res = NULL;
- }
- } break;
-
- /* template:
- case (iro_Cast): {}
- break;
- */
-
- default: {
- fprintf (stdout, "what's with %s?\n", get_op_name (get_irn_op (node)));
- assert (0);
- } break;
- }
-
- return (res);
-}
-
-
/* ====================
Alloc stuff
==================== */
}
} else if (iro_Alloc == op) {
type *tp = get_Alloc_type (node);
- const char *name = get_type_name (tp);
+ /* const char *name = get_type_name (tp); */
append_alloc (graph_info, node, tp);
- fprintf (stdout, "NEW \"%s\"\n", name);
+ /* fprintf (stdout, "NEW \"%s\"\n", name); */
}
}
while (NULL != ainfo) {
ir_node *alloc = ainfo->alloc;
const char *name = get_type_name (ainfo->tp);
- const char *color = "red1";
+ const char *color = "green3";
fprintf (dot, "\talloc_0x%08x [label=\"%s\", color=\"%s\"]\n",
(int) alloc, name, color);
/*
$Log$
+ Revision 1.3 2004/11/04 14:54:44 liekweg
+ Nicer Colors
+
+ Revision 1.2 2004/10/21 11:09:37 liekweg
+ Moved memwalk stuf into irmemwalk
+ Moved lset stuff into lset
+ Moved typalise stuff into typalise
+
Revision 1.1 2004/10/20 14:59:41 liekweg
Added ana2, added ecg and pto