# include <stdlib.h>
#endif
-# include "read.h"
+# include <string.h>
+
+#include "read_t.h"
+#include "read.h"
#include "irprog.h"
#include "irgraph.h"
#include "ircons.h"
#include "type.h"
#include "tv.h"
-#define VERBOSE_PRINTING 0
+#define VERBOSE_PRINTING 1
#if VERBOSE_PRINTING
# define VERBOSE_PRINT(s) fprintf s
/* @@@ HACK */
static module_t *current_module = NULL;
+#if VERBOSE_PRINTING
+/* this is only used inside a VERBOSE_PRINT() call */
static char *effect_string[] = {
"arg",
"valref",
"raise",
"ret"
};
+#endif /* defined VERBOSE_PRINTING */
static const ident*
getNodeModuleIdent (xmlNodePtr node)
while (NULL != curr) {
if ((name == curr -> ent_ident)
- && (tp_ident == curr -> tp_ident)) {
+ && (tp_ident == curr -> tp_ident)) {
return (curr);
}
curr = curr->prev;
return (NULL);
}
+static
+xmlNodePtr get_any_valid_child(xmlNodePtr elem)
+{
+ xmlNodePtr child;
+
+ assert(elem && "no element");
+ child = elem -> xmlChildrenNode;
+ while(child && (NODE_NAME (child, comment))) {
+ child = child -> next;
+ }
+ return(child);
+}
+
+static
+xmlNodePtr get_valid_child(xmlNodePtr elem)
+{
+ xmlNodePtr child;
+
+ child = get_any_valid_child(elem);
+ assert(child && "lost child in deep black forest");
+ return(child);
+}
/*
* parse XML structure and construct an additional structure
return (arg);
}
-static eff_t
-*parseValref (xmlDocPtr doc, xmlNodePtr valelm)
+static eff_t*
+parseValref (xmlDocPtr doc, xmlNodePtr valelm)
{
const char *ref_id;
eff_t *valref;
return (valref);
}
-static eff_t
-*parseSelect (xmlDocPtr doc, xmlNodePtr selelm)
+static eff_t*
+parseSelect (xmlDocPtr doc, xmlNodePtr selelm)
{
const ident *entity_id = new_id_from_str(getNodeEntityStr (selelm));
entity_t *ent;
return (sel);
}
-static eff_t
-*parseLoad (xmlDocPtr doc, xmlNodePtr loadelm)
+static eff_t*
+parseLoad (xmlDocPtr doc, xmlNodePtr loadelm)
{
const ident *id;
xmlNodePtr child;
VERBOSE_PRINT ((stdout, "load node \t0x%08x\n", (int) loadelm));
id = new_id_from_str(getNodeId (loadelm));
- child = loadelm->xmlChildrenNode;
- sel = parseSelect (doc, child);
+ child = get_valid_child(loadelm);
+ if(NODE_NAME (child, select)) {
+ sel = parseSelect (doc, child);
+ load-> effect.load.ent = sel-> effect.select.ent;
+ VERBOSE_PRINT ((stdout, "load entity \t%s\n",
+ get_id_str(load -> effect.load.ent -> ent_ident)));
+ }
+ else {
+ sel = parseValref (doc, child);
+ load-> effect.load.ent = NULL;
+ }
load-> id = id;
load-> effect.load.ptrrefid = sel-> id;
- load-> effect.load.ent = sel-> effect.select.ent;
- VERBOSE_PRINT ((stdout, "load entity \t%s\n",
- get_id_str(load -> effect.load.ent -> ent_ident)));
free (sel);
return (load);
}
-static eff_t
-*parseStore (xmlDocPtr doc, xmlNodePtr storeelm)
+static eff_t*
+parseStore (xmlDocPtr doc, xmlNodePtr storeelm)
{
xmlNodePtr child;
eff_t *sel;
CHECK_NAME (storeelm, store);
VERBOSE_PRINT ((stdout, "store node \t0x%08x\n", (int) storeelm));
- child = storeelm->xmlChildrenNode;
- sel = parseSelect (doc, child);
+ child = get_valid_child(storeelm);
+ if(NODE_NAME (child, select)) {
+ sel = parseSelect (doc, child);
+ store-> effect.store.ent = sel-> effect.select.ent;
+ }
+ else {
+ sel = parseValref (doc, child);
+ store-> effect.store.ent = NULL;
+ }
+
child = child->next;
valref = parseValref (doc, child);
- store-> effect.store.ent = sel-> effect.select.ent;
store-> effect.store.ptrrefid = sel-> id;
store-> effect.store.valrefid = valref-> id;
return (store);
}
-static eff_t
-*parseAlloc (xmlDocPtr doc, xmlNodePtr allocelm)
+static eff_t*
+parseAlloc (xmlDocPtr doc, xmlNodePtr allocelm)
{
const ident *id;
const ident *type_id;
return (alloc);
}
-static eff_t
-*parseCall (xmlDocPtr doc, xmlNodePtr callelm)
+static eff_t*
+parseCall (xmlDocPtr doc, xmlNodePtr callelm)
{
const ident *id;
xmlNodePtr child;
id = new_id_from_str(getNodeId (callelm));
VERBOSE_PRINT ((stdout, "call->id = \"%s\"\n", get_id_str(id)));
- child = callelm->xmlChildrenNode;
- sel = parseSelect (doc, child);
+ child = get_valid_child(callelm);
+ if(NODE_NAME (child, select)) {
+ sel = parseSelect (doc, child);
+ call-> effect.call.ent = sel-> effect.select.ent;
+ }
+ else {
+ sel = parseValref (doc, child);
+ call-> effect.call.ent = NULL;
+ }
+
arg = child = child->next;
n_args = 0;
call-> id = id;
call-> effect.call.valrefid = sel-> id;
- call-> effect.call.ent = sel-> effect.select.ent;
call-> effect.call.n_args = n_args;
call-> effect.call.args = NULL;
return (call);
}
-static eff_t
-*parseJoin (xmlDocPtr doc, xmlNodePtr joinelm)
+static eff_t*
+parseJoin (xmlDocPtr doc, xmlNodePtr joinelm)
{
const ident *id;
int n_ins;
id = new_id_from_str(getNodeId (joinelm));
VERBOSE_PRINT ((stdout, "join->id = \"%s\"\n", get_id_str(id)));
- child = joinelm->xmlChildrenNode;
+ child = get_valid_child(joinelm);
n_ins = 0;
while (NULL != child) {
ins = (const ident **) malloc (n_ins * sizeof (const ident *) );
i = 0;
- child = joinelm->xmlChildrenNode;
+ child = get_valid_child(joinelm);
while (NULL != child) {
eff_t *valref = parseValref (doc, child);
return (join);
}
-static eff_t
-*parseUnknown (xmlDocPtr doc, xmlNodePtr unknownelm)
+static eff_t*
+parseUnknown (xmlDocPtr doc, xmlNodePtr unknownelm)
{
const ident *id;
eff_t *unknown = NEW (eff_t);
return (unknown);
}
-static eff_t
-*parseReturn (xmlDocPtr doc, xmlNodePtr retelm)
+static eff_t*
+parseReturn (xmlDocPtr doc, xmlNodePtr retelm)
{
xmlNodePtr child;
eff_t *ret = NEW (eff_t);
CHECK_NAME (retelm, ret);
VERBOSE_PRINT ((stdout, "ret node \t0x%08x\n", (int) retelm));
- child = retelm->xmlChildrenNode;
+ child = get_any_valid_child(retelm);
if (child) {
eff_t *valref = parseValref (doc, child);
return (ret);
}
-static eff_t
-*parseRaise (xmlDocPtr doc, xmlNodePtr raiseelm)
+static eff_t*
+parseRaise (xmlDocPtr doc, xmlNodePtr raiseelm)
{
const char *tp_id;
eff_t *valref;
VERBOSE_PRINT ((stdout, "raise node \t0x%08x\n", (int) raiseelm));
tp_id = getNodeTypeId (raiseelm);
VERBOSE_PRINT ((stdout, "raise->type = \"%s\"\n", tp_id));
- child = raiseelm->xmlChildrenNode;
+ child = get_valid_child(raiseelm);
assert (NULL != child);
const char *ent_id = getNodeId (entelm);
/* fprintf (stdout, "entity node \t0x%08x (%d)\n", (int) entelm, ent_id); */
VERBOSE_PRINT ((stdout, "ent = \"%s.%s\"\n",
- getNodeTypeStr (entelm),
- getNodeEntityStr (entelm)));
+ getNodeTypeStr (entelm),
+ getNodeEntityStr (entelm)));
ent -> ent_ident = new_id_from_str (getNodeEntityStr (entelm));
{
xmlNodePtr cur;
const char *procname = getNodeProcName (effelm);
- const char *typeid = getNodeTypeStr (effelm);
+ const char *ownerid = getNodeOwnerStr (effelm);
proc_t *curr_effs = NULL;
int i = 0;
int n_effs = 0;
curr_effs = NEW (proc_t);
curr_effs -> proc_ident = new_id_from_str(procname);
- curr_effs -> typeid = new_id_from_str(typeid);
+ curr_effs -> ownerid = new_id_from_str(ownerid);
curr_effs->effs = (eff_t**) malloc (n_effs * sizeof (eff_t*));
cur = effelm -> xmlChildrenNode;
mod_id = getNodeModuleIdent (cur);
if (NULL != mod_id) {
VERBOSE_PRINT ((stdout, "effects for \"%s\"\n",
- get_id_str(mod_id)));
+ get_id_str(mod_id)));
}
else {
VERBOSE_PRINT ((stdout, "effects \t0x%08x\n", (int) cur));
int num;
VERBOSE_PRINT ((stdout, "free effect for method \"%s\"\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
num = proc -> n_effs;
for(i = 0; i < num; i++) {
proc_t *next_proc, *proc;
VERBOSE_PRINT ((stdout, "free procs for module \"%s\"\n",
- get_id_str(module -> id)));
+ get_id_str(module -> id)));
proc = module -> procs;
while(proc) {
eff_t *eff_res;
VERBOSE_PRINT((stdout, "create effect:return in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
if(NO_ID == eff -> effect.ret.ret_id) {
/* return void */
x = new_Return (get_store(), 0, NULL);
int num;
VERBOSE_PRINT((stdout, "create effect:arg %d in %s\n",
- eff -> effect.arg.num, get_id_str(proc -> proc_ident)));
+ eff -> effect.arg.num, get_id_str(proc -> proc_ident)));
ent = get_irg_entity(irg);
typ = get_entity_type(ent);
eff_t *addr;
VERBOSE_PRINT((stdout, "create load in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
- ent = eff -> effect.load.ent -> f_ent;
- VERBOSE_PRINT((stdout, "load from %s\n", get_entity_name(ent)));
+ if(eff -> effect.load.ent) {
+ ent = eff -> effect.load.ent -> f_ent;
+ VERBOSE_PRINT((stdout, "load from %s\n", get_entity_name(ent)));
+ }
+ else {
+ VERBOSE_PRINT((stdout, "store to memory\n"));
+ ent = NULL;
+ }
addr = find_valueid_in_proc_effects(eff -> effect.load.ptrrefid, proc);
assert(addr && "no address for load");
- /* if addr is Unknown, set propper mode */
+ /* if addr is Unknown, set proper mode */
if(iro_Unknown == get_irn_opcode(addr -> firmnode)) {
set_irn_mode(addr -> firmnode, mode_P);
}
- sel = new_simpleSel(get_store(), addr -> firmnode, ent);
- mode = get_type_mode(get_entity_type(ent));
+ if(ent) {
+ sel = new_simpleSel(get_store(), addr -> firmnode, ent);
+ mode = get_type_mode(get_entity_type(ent));
+ }
+ else {
+ sel = addr -> firmnode;
+ mode = mode_ANY;
+ }
load = new_Load(get_store(), sel, mode);
set_store(new_Proj(load, mode_M, 0));
eff -> firmnode = new_Proj(load, mode, 2);
eff_t *addr, *val;
VERBOSE_PRINT((stdout, "create store in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
- ent = eff -> effect.store.ent -> f_ent;
- VERBOSE_PRINT((stdout, "store to %s\n", get_entity_name(ent)));
+ if(eff -> effect.store.ent) {
+ ent = eff -> effect.store.ent -> f_ent;
+ VERBOSE_PRINT((stdout, "store to entity %s\n", get_entity_name(ent)));
+ }
+ else {
+ VERBOSE_PRINT((stdout, "store to memory\n"));
+ ent = NULL;
+ }
addr = find_valueid_in_proc_effects(eff -> effect.store.ptrrefid, proc);
assert(addr && "no address for store");
set_irn_mode(val -> firmnode, get_type_mode(get_entity_type(ent)));
}
- sel = new_simpleSel(get_store(), addr -> firmnode, ent);
+ if(ent) {
+ sel = new_simpleSel(get_store(), addr -> firmnode, ent);
+ }
+ else {
+ sel = addr -> firmnode;
+ }
store = new_Store(get_store(), sel, val -> firmnode);
set_store(new_Proj(store, mode_M, 0));
eff -> firmnode = store;
symconst_symbol sym;
VERBOSE_PRINT((stdout, "create alloc in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
xtype = find_type_in_module(current_module, eff -> effect.alloc.tp_id);
assert(xtype && "type not found");
sym.type_p = ftype;
alloc = new_Alloc(get_store(), new_SymConst(sym, symconst_size), ftype,
- heap_alloc);
+ heap_alloc);
set_store(new_Proj(alloc, mode_M, 0));
eff -> firmnode = new_Proj(alloc, mode_P, 2);
ir_node *unknown;
VERBOSE_PRINT((stdout, "create unknown in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
unknown = new_Unknown(mode_ANY);
eff -> firmnode = unknown;
ir_node **irns;
int i, num;
type *mtype;
+ int mik; /* is method somehow known? */
VERBOSE_PRINT((stdout, "create call in %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
- ent = eff -> effect.call.ent -> f_ent;
- VERBOSE_PRINT((stdout, "call %s\n", get_entity_name(ent)));
+ if(eff -> effect.call.ent) {
+ ent = eff -> effect.call.ent -> f_ent;
+ VERBOSE_PRINT((stdout, "call %s\n", get_entity_name(ent)));
+ }
+ else {
+ ent = NULL;
+ VERBOSE_PRINT((stdout, "call something in memory\n"));
+ }
addr = find_valueid_in_proc_effects(eff -> effect.call.valrefid, proc);
assert(addr && "no address for load");
set_irn_mode(addr -> firmnode, mode_P);
}
- /* the address */
- sel = new_simpleSel(get_store(), addr -> firmnode, ent);
- /* mthod type */
- mtype = get_entity_type(ent);
+ if(ent) {
+ /* the address */
+ sel = new_simpleSel(get_store(), addr -> firmnode, ent);
+ /* mthod type */
+ mtype = get_entity_type(ent);
+ mik = true;
+ }
+ else {
+ /* the address */
+ sel = addr -> firmnode;
+ /* mthod type */
+ mtype = get_unknown_type();
+ mik = false;
+ }
+
/* the args */
num = eff -> effect.call.n_args;
VERBOSE_PRINT((stdout, "number of args given: %d\n", num));
- VERBOSE_PRINT((stdout, "number of args expected: %d\n",
- get_method_n_params(mtype)));
+ if(mik) {
+ VERBOSE_PRINT((stdout, "number of args expected: %d\n",
+ get_method_n_params(mtype)));
+ }
irns = alloca(num * sizeof(ir_node*));
for(i = 0; i < num; i++) {
irns[i] = find_valueid_in_proc_effects(eff -> effect.call.args[i], proc)
-> firmnode;
if(iro_Unknown == get_irn_opcode(irns[i])) {
- set_irn_mode(irns[i], get_type_mode(get_method_param_type(mtype, i)));
+ if(mik) {
+ set_irn_mode(irns[i], get_type_mode(get_method_param_type(mtype, i)));
+ }
+ else {
+ set_irn_mode(irns[i], mode_ANY);
+ }
}
}
- call = new_Call(get_store(), sel, num, irns, get_entity_type(ent));
+ call = new_Call(get_store(), sel, num, irns, mtype);
set_store(new_Proj(call, mode_M, 0));
- if(0 != get_method_n_ress(mtype)) {
+ if(mik && (0 != get_method_n_ress(mtype))) {
eff -> firmnode = new_Proj(call,
- get_type_mode(get_method_res_type(mtype, 0)),
- 0);
+ get_type_mode(get_method_res_type(mtype, 0)),
+ 0);
add_value_to_proc(proc, eff); /* result can be accessed */
}
else {
}
}
+static void create_abstract_join2 (ir_graph *irg, proc_t *proc, eff_t *eff)
+{
+ ir_node *unknown = NULL;
+ ir_node *cond = NULL;
+ ir_node *phi = NULL;
+
+ ir_node *ins [2];
+ ir_node *block [2];
+ ir_node *projX [2];
+ ir_node *jmp [2];
+
+ eff_t *in_eff = NULL;
+ int n_ins = -1;
+
+ VERBOSE_PRINT((stdout, "create join2 in %s\n",
+ get_id_str(proc -> proc_ident)));
+
+ assert (eff_join == eff->kind);
+
+ n_ins = eff->effect.join.n_ins;
+ assert (2 == n_ins);
+
+ in_eff = find_valueid_in_proc_effects (eff->effect.join.ins [0], proc);
+ ins [0] = in_eff->firmnode;
+ in_eff = find_valueid_in_proc_effects (eff->effect.join.ins [1], proc);
+ ins [1] = in_eff->firmnode;
+
+ unknown = new_Unknown (mode_Iu);
+ cond = new_Cond (unknown);
+
+ projX [0] = new_Proj (cond, mode_X, 0);
+ projX [1] = new_Proj (cond, mode_X, 1);
+
+ mature_immBlock (get_cur_block ());
+
+ block [0] = new_immBlock ();
+ add_immBlock_pred (block [0], projX [0]);
+ jmp [0] = new_Jmp ();
+ mature_immBlock (block [0]);
+
+ block [1] = new_immBlock ();
+ add_immBlock_pred (block [1], projX [1]);
+ jmp [1] = new_Jmp ();
+ mature_immBlock (block [1]);
+
+ new_Block (2, jmp);
+
+ phi = new_Phi (2, ins, get_irn_mode (ins [0]));
+ VERBOSE_PRINT ((stdout, "%s: phi.nr = %li\n", __FUNCTION__, get_irn_node_nr (phi)));
+
+ eff->firmnode = phi;
+
+ add_value_to_proc (proc, eff);
+}
+
+static void create_abstract_join (ir_graph *irg, proc_t *proc, eff_t *eff)
+{
+ ir_node **ins = NULL;
+ ir_node *unknown = NULL;
+ ir_node *cond = NULL;
+ ir_node *block = NULL;
+ ir_node *phi = NULL;
+ ir_mode *join_md = mode_ANY;
+ int n_ins = -1;
+ int i;
+
+ VERBOSE_PRINT((stdout, "create join in %s\n",
+ get_id_str(proc -> proc_ident)));
+
+ assert (eff_join == eff->kind);
+
+ n_ins = eff->effect.join.n_ins;
+ /* hmm ... special-case n_ins==2? */
+ assert (2 == n_ins);
+
+ if (2 == n_ins) {
+ create_abstract_join2 (irg, proc, eff);
+ return;
+ }
+
+ unknown = new_Unknown (mode_Iu);
+ cond = new_Cond (unknown);
+ block = new_immBlock ();
+
+ ins = (ir_node**) malloc (n_ins * sizeof (ir_node*));
+ for (i = 0; i < n_ins; i ++) {
+ ir_node *s_block = new_immBlock ();
+ ir_node *projX = new_Proj (cond, mode_X, (long) i);
+ ir_node *jmp = NULL;
+ eff_t *in_eff;
+
+ add_immBlock_pred (s_block, projX);
+ mature_immBlock (s_block);
+
+ in_eff = find_valueid_in_proc_effects (eff->effect.join.ins [i], proc);
+
+ ins [i] = in_eff->firmnode;
+ if (mode_ANY != get_irn_mode (ins [i])) {
+ join_md = get_irn_mode (ins [i]);
+ }
+
+ jmp = new_Jmp ();
+ add_immBlock_pred (block, jmp);
+ }
+
+ mature_immBlock (block);
+ set_cur_block (block);
+ phi = new_Phi (n_ins, ins, join_md);
+ memset (ins, 0x00, n_ins * sizeof (ir_node*));
+ free (ins);
+
+ eff->firmnode = phi;
+
+ add_value_to_proc (proc, eff);
+}
+
static void create_abstract_firm(module_t *module, proc_t *proc, entity *fent)
{
/* test entity */
assert(visibility_external_allocated == get_entity_visibility(fent)
- && peculiarity_existent == get_entity_peculiarity(fent)
- && "not an abstract entity");
+ && peculiarity_existent == get_entity_peculiarity(fent)
+ && "not an abstract entity");
/* create irg in entity */
irg = new_ir_graph(fent, 0);
set_irg_inline_property(irg, irg_inline_forbidden);
VERBOSE_PRINT((stdout, "create effects for %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
/* create effects in irg */
num = proc -> n_effs;
for(i = 0; i < num; i++) {
eff = proc -> effs[i];
VERBOSE_PRINT((stdout,
- "create effect \"%s\"\n", effect_string[(int)eff -> kind]));
+ "create effect \"%s\"\n", effect_string[(int)eff -> kind]));
switch(eff -> kind) {
case eff_ret:
create_abstract_return(irg, proc, eff);
case eff_call:
create_abstract_call(irg, proc, eff);
break;
+ case eff_join:
+ create_abstract_join(irg, proc, eff);
+ break;
default:
assert(0 && "effect not implemented");
break;
entity *ent;
VERBOSE_PRINT((stdout, "assign entity %s to typeid %s\n",
- get_id_str(xmlent -> ent_ident),
- get_id_str(xmlent -> owner)));
+ get_id_str(xmlent -> ent_ident),
+ get_id_str(xmlent -> owner)));
typ = find_type_in_module(module, xmlent -> owner);
assert(typ && "class not found in module");
for(i = 0; i < num; i++) {
ent = get_class_member(type, i);
VERBOSE_PRINT((stdout, "compare entity %s and %s\n",
- get_id_str(xmlent -> ent_ident), get_entity_name(ent)));
+ get_id_str(xmlent -> ent_ident), get_entity_name(ent)));
if(get_entity_ident(ent) == xmlent -> ent_ident) {
break;
int num;
VERBOSE_PRINT((stdout, "assign firm type to type %s\n",
- get_id_str(xmltype -> type_ident)));
+ get_id_str(xmltype -> type_ident)));
/* is it global type? */
typ = get_glob_type();
/* yes */
xmltype -> f_tp = typ;
VERBOSE_PRINT((stdout, "is global type %s\n", get_type_name(typ)));
- }
- else {
+ } else {
num = get_irp_n_types();
for(i = 0; i < num; i++) {
typ = get_irp_type(i);
VERBOSE_PRINT((stdout, "test type %s\n", get_type_name(typ)));
if(xmltype -> type_ident == get_type_ident(typ)) {
- VERBOSE_PRINT((stdout, "found type %s\n", get_type_name(typ)));
- xmltype -> f_tp = typ;
- break;
+ VERBOSE_PRINT((stdout, "found type %s\n", get_type_name(typ)));
+ xmltype -> f_tp = typ;
+ break;
}
typ = NULL;
}
entity *fent;
/* find the class of a procedure */
- VERBOSE_PRINT((stdout, "do find typeid %s\n", get_id_str(proc -> typeid)));
- type = find_type_in_module(module, proc -> typeid);
+ VERBOSE_PRINT((stdout, "do find owner id %s\n", get_id_str(proc -> ownerid)));
+ type = find_type_in_module(module, proc -> ownerid);
assert(type && "class not found in module");
class_typ = get_glob_type();
class_typ = get_irp_type(i);
VERBOSE_PRINT((stdout, "test type %s\n", get_type_name(class_typ)));
if(is_class_type(class_typ)
- && (type -> type_ident == get_type_ident(class_typ))) {
- /* found class type */
- VERBOSE_PRINT((stdout, "found type %s\n", get_type_name(class_typ)));
- break;
+ && (type -> type_ident == get_type_ident(class_typ))) {
+ /* found class type */
+ VERBOSE_PRINT((stdout, "found type %s\n", get_type_name(class_typ)));
+ break;
}
class_typ = NULL;
}
/* find entity for procedure in class */
VERBOSE_PRINT((stdout, "find method %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
num = get_class_n_members(class_typ);
fent = NULL;
VERBOSE_PRINT((stdout, "test proc %s\n", get_entity_name(fent)));
if(proc -> proc_ident == get_entity_ident(fent)) {
VERBOSE_PRINT((stdout, "found proc %s\n",
- get_id_str(proc -> proc_ident)));
+ get_id_str(proc -> proc_ident)));
/* @@@ TODO check args types - not in xml yet */
/* create Firm stuff */
create_abstract_firm(module, proc, fent);
entity_t *ent;
VERBOSE_PRINT((stdout, "create an abstraction for module %s\n",
- get_id_str(module -> id)));
+ get_id_str(module -> id)));
VERBOSE_PRINT((stdout, "--handle types for module\n"));
for(type = module -> types; type; type = type -> prev) {
/* free data structures */
free_data();
+
+ types = NULL;
+ entities = NULL;
+ procs = NULL;
+ modules = NULL;
}
/********************************************************************/
\f
/*
* $Log$
+ * Revision 1.11 2004/10/29 18:51:53 liekweg
+ * Added Join
+ *
+ * Revision 1.10 2004/10/25 13:52:24 boesler
+ * seperated read.h (public interface) and read_t.h (types)
+ *
* Revision 1.9 2004/10/22 13:51:35 boesler
* prohibit inlining of pseudo ir_graphs
*