/* src/vm/jit/verify/typeinfo.c - type system used by the type checker
- Copyright (C) 1996-2005 R. Grafl, A. Krall, C. Kruegel, C. Oates,
- R. Obermaisser, M. Platter, M. Probst, S. Ring, E. Steiner,
- C. Thalinger, D. Thuernbeck, P. Tomsich, C. Ullrich, J. Wenninger,
- Institut f. Computersprachen - TU Wien
+ Copyright (C) 1996-2005, 2006, 2007, 2008
+ CACAOVM - Verein zur Foerderung der freien virtuellen Maschine CACAO
This file is part of CACAO.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- 02111-1307, USA.
+ Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
+ 02110-1301, USA.
- Contact: cacao@complang.tuwien.ac.at
-
- Authors: Edwin Steiner
+*/
- $Id: typeinfo.c 2803 2005-06-23 13:19:41Z twisti $
-*/
+#include "config.h"
#include <assert.h>
#include <string.h>
#include "mm/memory.h"
+
#include "toolbox/logging.h"
-#include "vm/class.h"
-#include "vm/loader.h"
-#include "vm/tables.h"
-#include "vm/jit/jit.h"
-#include "vm/jit/verify/typeinfo.h"
+
+#include "vm/array.hpp"
+#include "vm/class.hpp"
#include "vm/descriptor.h"
-#include "vm/resolve.h"
+#include "vm/exceptions.hpp"
+#include "vm/globals.hpp"
+#include "vm/loader.hpp"
+#include "vm/primitive.hpp"
+#include "vm/resolve.hpp"
+
+#include "vm/jit/jit.hpp"
+#include "vm/jit/verify/typeinfo.h"
/* check if a linked class is an array class. Only use for linked classes! */
#define CLASSINFO_IS_ARRAY(clsinfo) ((clsinfo)->vftbl->arraydesc != NULL)
+/* check if a linked class implements the interface with the given index */
#define CLASSINFO_IMPLEMENTS_INTERFACE(cls,index) \
( ((index) < (cls)->vftbl->interfacetablelength) \
- && (VFTBLINTERFACETABLE((cls)->vftbl,(index)) != NULL) )
+ && ( (cls)->vftbl->interfacetable[-(index)] != NULL ) )
/******************************************************************************/
/* DEBUG HELPERS */
/* TYPEVECTOR FUNCTIONS */
/**********************************************************************/
-/* typevectorset_copy **********************************************************
+#if defined(ENABLE_VERIFIER)
+
+/* typevector_copy *************************************************************
- Return a copy of the given typevector set.
+ Return a copy of the given typevector.
IN:
src..............typevector set to copy, must be != NULL
- k................k-index to set in first typevector of resulting set
size.............number of elements per typevector
RETURN VALUE:
a pointer to the new typevector set
- NOTE:
- This function recursively invokes itself with increasing k-index to
- copy the alternative typevectors in the given set.
-
*******************************************************************************/
-typevector *
-typevectorset_copy(typevector *src,int k,int size)
+varinfo *
+typevector_copy(varinfo *src, int size)
{
- typevector *dst = DNEW_TYPEVECTOR(size);
+ varinfo *dst;
TYPEINFO_ASSERT(src);
+ dst = DNEW_TYPEVECTOR(size);
memcpy(dst,src,TYPEVECTOR_SIZE(size));
- dst->k = k;
- if (src->alt)
- dst->alt = typevectorset_copy(src->alt,k+1,size);
+
return dst;
}
-/* typevectorset_checktype *****************************************************
+/* typevector_copy_inplace *****************************************************
- Check if all typevectors contain a given type at a given index.
-
- IN:
- vec..............typevector set, must be != NULL
- index............index of component to check
- type.............TYPE_* constant to check against
+ Copy a typevector to a given destination.
- RETURN VALUE:
- true if all typevectors in the set contain TYPE at INDEX,
- false otherwise
+ IN:
+ src..............typevector to copy, must be != NULL
+ dst..............destination to write the copy to
+ size.............number of elements per typevector
*******************************************************************************/
-bool
-typevectorset_checktype(typevector *vec,int index,int type)
+void
+typevector_copy_inplace(varinfo *src,varinfo *dst,int size)
{
- TYPEINFO_ASSERT(vec);
- do {
- if (vec->td[index].type != type)
- return false;
- } while ((vec = vec->alt) != NULL);
- return true;
+ memcpy(dst,src,TYPEVECTOR_SIZE(size));
}
-/* typevectorset_checkreference ************************************************
+/* typevector_checktype ********************************************************
- Check if all typevectors contain a reference at a given index.
+ Check if the typevector contains a given type at a given index.
IN:
vec..............typevector set, must be != NULL
index............index of component to check
+ type.............TYPE_* constant to check against
RETURN VALUE:
- true if all typevectors in the set contain a reference at INDEX,
+ true if the typevector contains TYPE at INDEX,
false otherwise
*******************************************************************************/
bool
-typevectorset_checkreference(typevector *vec,int index)
+typevector_checktype(varinfo *vec,int index,int type)
{
TYPEINFO_ASSERT(vec);
- do {
- if (!TYPEDESC_IS_REFERENCE(vec->td[index]))
- return false;
- } while ((vec = vec->alt) != NULL);
- return true;
+
+ return vec[index].type == type;
}
-/* typevectorset_checkretaddr **************************************************
+/* typevector_checkreference ***************************************************
- Check if all typevectors contain a returnAddress at a given index.
+ Check if the typevector contains a reference at a given index.
IN:
- vec..............typevector set, must be != NULL
+ vec..............typevector, must be != NULL
index............index of component to check
RETURN VALUE:
- true if all typevectors in the set contain a returnAddress at INDEX,
+ true if the typevector contains a reference at INDEX,
false otherwise
*******************************************************************************/
bool
-typevectorset_checkretaddr(typevector *vec,int index)
-{
- TYPEINFO_ASSERT(vec);
- do {
- if (!TYPEDESC_IS_RETURNADDRESS(vec->td[index]))
- return false;
- } while ((vec = vec->alt) != NULL);
- return true;
-}
-
-/* typevectorset_copymergedtype ************************************************
-
- Merge the types at a given index in the typevectors of a set and
- copy the result to a destination typeinfo.
-
- IN:
- vec..............typevector set, must be != NULL
- index............index of component to merge
-
- OUT:
- *dst.............destination typeinfo, receives the merge result
-
- RETURN VALUE:
- the TYPE_* constant of the resulting type
- TYPE_VOID if incompatible types were contained at INDEX in VEC
-
-*******************************************************************************/
-
-int
-typevectorset_copymergedtype(typevector *vec,int index,typeinfo *dst)
+typevector_checkreference(varinfo *vec, int index)
{
- int type;
- typedescriptor *td;
-
TYPEINFO_ASSERT(vec);
- TYPEINFO_ASSERT(dst);
-
- td = vec->td + index;
- type = td->type;
- TYPEINFO_COPY(td->info,*dst);
-
- if (vec->alt) {
- int primitive;
-
- primitive = TYPEINFO_IS_PRIMITIVE(*dst) ? 1 : 0;
-
- while ((vec = vec->alt) != NULL) {
- td = vec->td + index;
- if (type != td->type)
- return TYPE_VOID;
-
- if (type == TYPE_ADDRESS) {
- if ((TYPEINFO_IS_PRIMITIVE(td->info) ? 1 : 0) != primitive)
- return TYPE_VOID;
- /* there cannot be any merge errors now. In the worst case */
- /* we either get a returnAddress type or a j.l.O reference */
- typeinfo_merge(dst,&(td->info));
- }
- }
- }
- return type;
+ return TYPEDESC_IS_REFERENCE(vec[index]);
}
-/* typevectorset_mergedtype ****************************************************
+/* typevectorset_checkretaddr **************************************************
- Return the merged type of the types at a given index in the typevectors
- of a set.
+ Check if the typevectors contains a returnAddress at a given index.
IN:
- vec..............typevector set, must be != NULL
- index............index of component to merge
- temp.............pointer to a typeinfo that may be used to merge the
- result if necessary
-
- OUT:
- *result..........set to the address of a typeinfo containing the
- merged type.
+ vec..............typevector, must be != NULL
+ index............index of component to check
RETURN VALUE:
- the TYPE_* constant of the resulting type
- TYPE_VOID if incompatible types were contained at INDEX in VEC
-
- NOTE:
- This function should be more efficient than typevectorset_copymergedtype
- assuming that most typevector sets contain exactly one typevector.
+ true if the typevector contains a returnAddress at INDEX,
+ false otherwise
*******************************************************************************/
-int
-typevectorset_mergedtype(typevector *vec,int index,typeinfo *temp,typeinfo **result)
+bool
+typevector_checkretaddr(varinfo *vec,int index)
{
TYPEINFO_ASSERT(vec);
- TYPEINFO_ASSERT(temp);
- TYPEINFO_ASSERT(result);
-
- if (vec->alt) {
- *result = temp;
- return typevectorset_copymergedtype(vec,index,temp);
- }
-
- *result = &(vec->td[index].info);
- return vec->td[index].type;
-}
-
-/* typevectorset_mergedtypeinfo ************************************************
-
- This is a convenience wrapper around typevectorset_mergedtype. Use this if
- you are only interested in TYPE_ADR results.
-
- IN:
- vec..............typevector set, must be != NULL
- index............index of component to merge
- temp.............pointer to a typeinfo that may be used to merge the
- result if necessary
-
- RETURN VALUE:
- a pointer to the resulting typeinfo, or
- NULL if the result is not a TYPE_ADR type
-
-*******************************************************************************/
-
-typeinfo *
-typevectorset_mergedtypeinfo(typevector *vec,int index,typeinfo *temp)
-{
- typeinfo *result;
- int type = typevectorset_mergedtype(vec,index,temp,&result);
- return (type == TYPE_ADDRESS) ? result : NULL;
+ return TYPEDESC_IS_RETURNADDRESS(vec[index]);
}
-/* typevectorset_store *********************************************************
+/* typevector_store ************************************************************
- Store a type at a given index in the typevectors of a set.
- This function stores the same type in all typevectors of the set.
- DO NOT use it to store returnAddress types!
- DO NOT use it to store two-word types!
+ Store a type at a given index in the typevector.
IN:
vec..............typevector set, must be != NULL
info.............typeinfo of type to set, may be NULL,
if TYPE != TYPE_ADR
- NOTE:
- If there is a two-word type stored at INDEX-1 in any typevector, it is
- changed to TYPE_VOID (because its upper half has become invalid).
-
- The components at INDEX+1 are _not_ touched, regardless of TYPE.
-
*******************************************************************************/
void
-typevectorset_store(typevector *vec,int index,int type,typeinfo *info)
+typevector_store(varinfo *vec,int index,int type,typeinfo_t *info)
{
TYPEINFO_ASSERT(vec);
- TYPEINFO_ASSERT((info && !TYPEINFO_IS_PRIMITIVE(*info)) || type != TYPE_ADR);
-
- do {
- vec->td[index].type = type;
- if (info)
- TYPEINFO_COPY(*info,vec->td[index].info);
- if (index > 0 && IS_2_WORD_TYPE(vec->td[index-1].type))
- vec->td[index-1].type = TYPE_VOID;
- } while ((vec = vec->alt) != NULL);
+
+ vec[index].type = type;
+ if (info)
+ TYPEINFO_COPY(*info,vec[index].typeinfo);
}
-/* typevectorset_store_retaddr *************************************************
+/* typevector_store_retaddr ****************************************************
- Store a returnAddress type at a given index in the typevectors of a set.
- Each possible returnAddress of the type is stored in the corresponding
- typevector of the set.
+ Store a returnAddress type at a given index in the typevector.
IN:
vec..............typevector set, must be != NULL
index............index of component to set
- info.............typeinfo of the returnAddress. This typeinfo must
- contain a return address set with at least as many
- entries as there are typevectors in VEC.
-
- NOTE:
- If there is a two-word type stored at INDEX-1 in any typevector, it is
- changed to TYPE_VOID (because its upper half has become invalid).
+ info.............typeinfo of the returnAddress.
*******************************************************************************/
void
-typevectorset_store_retaddr(typevector *vec,int index,typeinfo *info)
+typevector_store_retaddr(varinfo *vec,int index,typeinfo_t *info)
{
- typeinfo_retaddr_set *adr;
-
TYPEINFO_ASSERT(vec);
TYPEINFO_ASSERT(TYPEINFO_IS_PRIMITIVE(*info));
- adr = (typeinfo_retaddr_set*) TYPEINFO_RETURNADDRESS(*info);
- do {
- TYPEINFO_ASSERT(adr);
-
- vec->td[index].type = TYPE_ADDRESS;
- TYPEINFO_INIT_RETURNADDRESS(vec->td[index].info,adr->addr);
- if (index > 0 && IS_2_WORD_TYPE(vec->td[index-1].type))
- vec->td[index-1].type = TYPE_VOID;
- adr = adr->alt;
- } while ((vec = vec->alt) != NULL);
-}
-
-/* typevectorset_store_twoword *************************************************
-
- Store a two-word type at a given index in the typevectors of a set.
- This function stores the same type in all typevectors of the set.
-
- IN:
- vec..............typevector set, must be != NULL
- index............index of component to set
- type.............TYPE_* constant of type to set (TYPE_LONG, TYPE_DOUBLE)
-
- NOTE:
- If there is a two-word type stored at INDEX-1 in any typevector, it is
- changed to TYPE_VOID (because its upper half has become invalid).
-
- The components at INDEX+1 are set to TYPE_VOID.
-
-*******************************************************************************/
-
-void
-typevectorset_store_twoword(typevector *vec,int index,int type)
-{
- TYPEINFO_ASSERT(vec);
- TYPEINFO_ASSERT(type == TYPE_LONG || type == TYPE_DOUBLE);
-
- do {
- vec->td[index].type = type;
- vec->td[index+1].type = TYPE_VOID;
- if (index > 0 && IS_2_WORD_TYPE(vec->td[index-1].type))
- vec->td[index-1].type = TYPE_VOID;
- } while ((vec = vec->alt) != NULL);
+ vec[index].type = TYPE_ADR;
+ TYPEINFO_INIT_RETURNADDRESS(vec[index].typeinfo,
+ TYPEINFO_RETURNADDRESS(*info));
}
-/* typevectorset_init_object ***************************************************
+/* typevector_init_object ******************************************************
Replace all uninitialized object types in the typevector set which were
created by the given instruction by initialized object types.
*******************************************************************************/
bool
-typevectorset_init_object(typevector *set,void *ins,
- classref_or_classinfo initclass,
- int size)
+typevector_init_object(varinfo *set,void *ins,
+ classref_or_classinfo initclass,
+ int size)
{
int i;
- for (;set; set=set->alt) {
- for (i=0; i<size; ++i) {
- if (set->td[i].type == TYPE_ADR
- && TYPEINFO_IS_NEWOBJECT(set->td[i].info)
- && TYPEINFO_NEWOBJECT_INSTRUCTION(set->td[i].info) == ins)
- {
- if (!typeinfo_init_class(&(set->td[i].info),initclass))
- return false;
- }
+ for (i=0; i<size; ++i) {
+ if (set[i].type == TYPE_ADR
+ && TYPEINFO_IS_NEWOBJECT(set[i].typeinfo)
+ && TYPEINFO_NEWOBJECT_INSTRUCTION(set[i].typeinfo) == ins)
+ {
+ if (!typeinfo_init_class(&(set[i].typeinfo),initclass))
+ return false;
}
}
return true;
The given typevectors must have the same number of components.
IN:
+ m................method for exception messages
dst..............the first typevector
y................the second typevector
size.............number of elements per typevector
*dst.............the resulting typevector
RETURN VALUE:
- true.............dst has been modified
- false............dst has not been modified
+ typecheck_TRUE...dst has been modified
+ typecheck_FALSE..dst has not been modified
+ typecheck_FAIL...an exception has been thrown
*******************************************************************************/
-bool
-typevector_merge(typevector *dst,typevector *y,int size)
+typecheck_result
+typevector_merge(methodinfo *m,varinfo *dst,varinfo *y,int size)
{
bool changed = false;
+ typecheck_result r;
- typedescriptor *a = dst->td;
- typedescriptor *b = y->td;
+ varinfo *a = dst;
+ varinfo *b = y;
while (size--) {
if (a->type != TYPE_VOID && a->type != b->type) {
a->type = TYPE_VOID;
changed = true;
}
- else if (a->type == TYPE_ADDRESS) {
- if (TYPEINFO_IS_PRIMITIVE(a->info)) {
+ else if (a->type == TYPE_ADR) {
+ if (TYPEINFO_IS_PRIMITIVE(a->typeinfo)) {
/* 'a' is a returnAddress */
- if (!TYPEINFO_IS_PRIMITIVE(b->info)
- || (TYPEINFO_RETURNADDRESS(a->info)
- != TYPEINFO_RETURNADDRESS(b->info)))
+ if (!TYPEINFO_IS_PRIMITIVE(b->typeinfo)
+ || (TYPEINFO_RETURNADDRESS(a->typeinfo)
+ != TYPEINFO_RETURNADDRESS(b->typeinfo)))
{
a->type = TYPE_VOID;
changed = true;
}
else {
/* 'a' is a reference */
- if (TYPEINFO_IS_PRIMITIVE(b->info)) {
+ if (TYPEINFO_IS_PRIMITIVE(b->typeinfo)) {
a->type = TYPE_VOID;
changed = true;
}
else {
/* two reference types are merged. There cannot be */
/* a merge error. In the worst case we get j.l.O. */
- changed |= typeinfo_merge(&(a->info),&(b->info));
+ r = typeinfo_merge(m,&(a->typeinfo),&(b->typeinfo));
+ if (r == typecheck_FAIL)
+ return r;
+ changed |= r;
}
}
}
return changed;
}
-/* typevector_separable_from ***************************************************
+/**********************************************************************/
+/* READ-ONLY FUNCTIONS */
+/* The following functions don't change typeinfo data. */
+/**********************************************************************/
+
+/* typeinfo_is_array ***********************************************************
- Check if two typevectors are separable. Two typevectors are considered
- separable if there is an index i for which both typevectors contain a
- returnAddress type and the return addresses of the types are different.
- The typevectors must have the same number of components.
-
+ Check whether a typeinfo describes an array type.
+
IN:
- a................the first typevector
- b................the second typevector
- size.............number of elements per typevector
+ info.............the typeinfo, must be != NULL
RETURN VALUE:
- true.............typevectors are separable
- false............typevectors are not separable
-
-*******************************************************************************/
-
-bool
-typevector_separable_from(typevector *a,typevector *b,int size)
-{
- typedescriptor *tda = a->td;
- typedescriptor *tdb = b->td;
- for (;size--; tda++,tdb++) {
- if (TYPEDESC_IS_RETURNADDRESS(*tda)
- && TYPEDESC_IS_RETURNADDRESS(*tdb)
- && TYPEINFO_RETURNADDRESS(tda->info)
- != TYPEINFO_RETURNADDRESS(tdb->info))
- return true;
- }
- return false;
-}
-
-/* typevectorset_add ***********************************************************
-
- Add a typevector to a typevector set. The typevector is added at the end of
- the set and the k-index of the typevector is set accordingly.
-
- IN:
- dst..............the typevector set to modify
- v................the typevector to add
- size.............number of elements per typevector
+ true if INFO describes an array type.
*******************************************************************************/
-void
-typevectorset_add(typevector *dst,typevector *v,int size)
+bool
+typeinfo_is_array(typeinfo_t *info)
{
- TYPEINFO_ASSERT(dst);
- TYPEINFO_ASSERT(v);
-
- while (dst->alt)
- dst = dst->alt;
- dst->alt = DNEW_TYPEVECTOR(size);
- memcpy(dst->alt,v,TYPEVECTOR_SIZE(size));
- dst->alt->alt = NULL;
- dst->alt->k = dst->k + 1;
+ TYPEINFO_ASSERT(info);
+ return TYPEINFO_IS_ARRAY(*info);
}
-/* typevectorset_select ********************************************************
+/* typeinfo_is_primitive_array *************************************************
- Pick the typevectors from a set which contain a given return address.
-
+ Check whether a typeinfo describes a primitive array type.
+
IN:
- set..............points to the location containing the typevector set.
- *set may be NULL.
- index............index to check against the return address. All
- typevectors must contain a returnAddress type at
- this index.
- retaddr..........the return address to select
-
- OUT:
- *set.............receives the typevector set after removing the
- selected typevectors.
+ info.............the typeinfo, must be != NULL
RETURN VALUE:
- a typevector set consisting of the selected typevectors.
+ true if INFO describes an array of a primitive type.
*******************************************************************************/
-typevector *
-typevectorset_select(typevector **set,int index,void *retaddr)
+bool
+typeinfo_is_primitive_array(typeinfo_t *info,int arraytype)
{
- typevector *selected;
-
- if (!*set) return NULL;
-
- if (TYPEINFO_RETURNADDRESS((*set)->td[index].info) == retaddr) {
- selected = *set;
- *set = selected->alt;
- selected->alt = typevectorset_select(set,index,retaddr);
- }
- else {
- selected = typevectorset_select(&((*set)->alt),index,retaddr);
- }
- return selected;
+ TYPEINFO_ASSERT(info);
+ return TYPEINFO_IS_PRIMITIVE_ARRAY(*info,arraytype);
}
-/* typevector_separable_with ***************************************************
+/* typeinfo_is_array_of_refs ***************************************************
- Check if a typevector set would be separable after adding a given
- typevector. A typevector set is considered separable if there is an
- index i for which all typevectors in the set contain a returnAddress type,
- and at least two different return addresses occurr at index i.
- The typevectors must have the same number of components.
-
+ Check whether a typeinfo describes an array of references type.
+
IN:
- set..............the typevector set
- add..............the typevector
- size.............number of elements per typevector
+ info.............the typeinfo, must be != NULL
RETURN VALUE:
- true.............result would be separable
- false............result would not be separable
+ true if INFO describes an array of a refrence type.
*******************************************************************************/
bool
-typevectorset_separable_with(typevector *set,typevector *add,int size)
+typeinfo_is_array_of_refs(typeinfo_t *info)
{
- int i;
- typevector *v;
- void *addr;
- bool separable;
-
- TYPEINFO_ASSERT(set);
- TYPEINFO_ASSERT(add);
-
- for (i=0; i<size; ++i) {
- if (!TYPEDESC_IS_RETURNADDRESS(add->td[i]))
- continue;
- addr = TYPEINFO_RETURNADDRESS(add->td[i].info);
-
- v = set;
- separable = false;
- do {
- if (!TYPEDESC_IS_RETURNADDRESS(v->td[i]))
- goto next_index;
- if (TYPEINFO_RETURNADDRESS(v->td[i].info) != addr)
- separable = true;
- v = v->alt;
- } while (v);
- if (separable) return true;
- next_index:
- ;
- }
- return false;
+ TYPEINFO_ASSERT(info);
+ return TYPEINFO_IS_ARRAY_OF_REFS(*info);
}
-/* typevectorset_collapse ******************************************************
+/* interface_extends_interface *************************************************
- Collapse a typevector set into a single typevector by merging the
- components of the typevectors at each index.
+ Check if a resolved interface extends a given resolved interface.
IN:
- dst..............the type vector set
- size.............number of elements per typevector
-
- OUT:
- *dst.............the resulting typevector set (a single typevector)
+ cls..............the interface, must be linked
+ interf...........the interface to check against
RETURN VALUE:
- true.............dst has been modified
- false............dst has not been modified
+ true.............CLS extends INTERF
+ false............CLS does not extend INTERF
*******************************************************************************/
-bool
-typevectorset_collapse(typevector *dst,int size)
-{
- bool changed = false;
-
- TYPEINFO_ASSERT(dst);
-
- while (dst->alt) {
- typevector_merge(dst,dst->alt,size);
- dst->alt = dst->alt->alt;
- changed = true;
- }
- return changed;
-}
-
-/**********************************************************************/
-/* READ-ONLY FUNCTIONS */
-/* The following functions don't change typeinfo data. */
-/**********************************************************************/
-
-bool
-typeinfo_is_array(typeinfo *info)
-{
- TYPEINFO_ASSERT(info);
- return TYPEINFO_IS_ARRAY(*info);
-}
-
-bool
-typeinfo_is_primitive_array(typeinfo *info,int arraytype)
-{
- TYPEINFO_ASSERT(info);
- return TYPEINFO_IS_PRIMITIVE_ARRAY(*info,arraytype);
-}
-
-bool
-typeinfo_is_array_of_refs(typeinfo *info)
-{
- TYPEINFO_ASSERT(info);
- return TYPEINFO_IS_ARRAY_OF_REFS(*info);
-}
-
static bool
interface_extends_interface(classinfo *cls,classinfo *interf)
{
TYPEINFO_ASSERT(interf);
TYPEINFO_ASSERT((interf->flags & ACC_INTERFACE) != 0);
TYPEINFO_ASSERT((cls->flags & ACC_INTERFACE) != 0);
- TYPEINFO_ASSERT(cls->linked);
+ TYPEINFO_ASSERT(cls->state & CLASS_LINKED);
/* first check direct superinterfaces */
for (i=0; i<cls->interfacescount; ++i) {
- if (cls->interfaces[i].cls == interf)
+ if (cls->interfaces[i] == interf)
return true;
}
/* check indirect superinterfaces */
for (i=0; i<cls->interfacescount; ++i) {
- if (interface_extends_interface(cls->interfaces[i].cls,interf))
+ if (interface_extends_interface(cls->interfaces[i],interf))
return true;
}
return false;
}
-static bool
+/* classinfo_implements_interface **********************************************
+
+ Check if a resolved class implements a given resolved interface.
+
+ IN:
+ cls..............the class
+ interf...........the interface
+
+ RETURN VALUE:
+ typecheck_TRUE...CLS implements INTERF
+ typecheck_FALSE..CLS does not implement INTERF
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+static typecheck_result
classinfo_implements_interface(classinfo *cls,classinfo *interf)
{
TYPEINFO_ASSERT(cls);
TYPEINFO_ASSERT(interf);
TYPEINFO_ASSERT((interf->flags & ACC_INTERFACE) != 0);
- if (!cls->linked)
- if (!link_class(cls)) /* XXX */
- return false;
+ if (!(cls->state & CLASS_LINKED))
+ if (!link_class(cls))
+ return typecheck_FAIL;
if (cls->flags & ACC_INTERFACE) {
/* cls is an interface */
if (cls == interf)
- return true;
+ return typecheck_TRUE;
/* check superinterfaces */
return interface_extends_interface(cls,interf);
}
+ TYPEINFO_ASSERT(cls->state & CLASS_LINKED);
return CLASSINFO_IMPLEMENTS_INTERFACE(cls,interf->index);
}
-tristate_t
-mergedlist_implements_interface(typeinfo_mergedlist *merged,
+/* mergedlist_implements_interface *********************************************
+
+ Check if all the classes in a given merged list implement a given resolved
+ interface.
+
+ IN:
+ merged...........the list of merged class types
+ interf...........the interface to check against
+
+ RETURN VALUE:
+ typecheck_TRUE...all classes implement INTERF
+ typecheck_FALSE..there is at least one class that does not implement
+ INTERF
+ typecheck_MAYBE..check cannot be performed now because of unresolved
+ classes
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+static typecheck_result
+mergedlist_implements_interface(typeinfo_mergedlist_t *merged,
classinfo *interf)
{
int i;
classref_or_classinfo *mlist;
+ typecheck_result r;
TYPEINFO_ASSERT(interf);
TYPEINFO_ASSERT((interf->flags & ACC_INTERFACE) != 0);
/* Check if there is an non-empty mergedlist. */
if (!merged)
- return false;
+ return typecheck_FALSE;
/* If all classinfos in the (non-empty) merged array implement the
* interface return true, otherwise false.
i = merged->count;
while (i--) {
if (IS_CLASSREF(*mlist)) {
- return MAYBE;
+ return typecheck_MAYBE;
}
- if (!classinfo_implements_interface((mlist++)->cls,interf))
- return false;
+ r = classinfo_implements_interface((mlist++)->cls,interf);
+ if (r != typecheck_TRUE)
+ return r;
}
- return true;
+ return typecheck_TRUE;
}
-tristate_t
-merged_implements_interface(classinfo *typeclass,typeinfo_mergedlist *merged,
+/* merged_implements_interface *************************************************
+
+ Check if a possible merged type implements a given resolved interface
+ interface.
+
+ IN:
+ typeclass........(common) class of the (merged) type
+ merged...........the list of merged class types
+ interf...........the interface to check against
+
+ RETURN VALUE:
+ typecheck_TRUE...the type implement INTERF
+ typecheck_FALSE..the type does not implement INTERF
+ typecheck_MAYBE..check cannot be performed now because of unresolved
+ classes
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+static typecheck_result
+merged_implements_interface(classinfo *typeclass,typeinfo_mergedlist_t *merged,
classinfo *interf)
{
+ typecheck_result r;
+
/* primitive types don't support interfaces. */
if (!typeclass)
- return false;
+ return typecheck_FALSE;
/* the null type can be cast to any interface type. */
if (typeclass == pseudo_class_Null)
- return true;
+ return typecheck_TRUE;
/* check if typeclass implements the interface. */
- if (classinfo_implements_interface(typeclass,interf))
- return true;
+ r = classinfo_implements_interface(typeclass,interf);
+ if (r != typecheck_FALSE)
+ return r;
/* check the mergedlist */
- return (merged && mergedlist_implements_interface(merged,interf));
+ if (!merged)
+ return typecheck_FALSE;
+ return mergedlist_implements_interface(merged,interf);
}
-tristate_t
-typeinfo_is_assignable(typeinfo *value,typeinfo *dest)
+/* merged_is_subclass **********************************************************
+
+ Check if a possible merged type is a subclass of a given class.
+ A merged type is a subclass of a class C if all types in the merged list
+ are subclasses of C. A sufficient condition for this is that the
+ common type of the merged type is a subclass of C.
+
+ IN:
+ typeclass........(common) class of the (merged) type
+ MUST be a loaded and linked class
+ merged...........the list of merged class types
+ cls..............the class to theck against
+
+ RETURN VALUE:
+ typecheck_TRUE...the type is a subclass of CLS
+ typecheck_FALSE..the type is not a subclass of CLS
+ typecheck_MAYBE..check cannot be performed now because of unresolved
+ classes
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+static typecheck_result
+merged_is_subclass(classinfo *typeclass,typeinfo_mergedlist_t *merged,
+ classinfo *cls)
{
- TYPEINFO_ASSERT(value);
- TYPEINFO_ASSERT(dest);
- TYPEINFO_ASSERT(dest->merged == NULL);
+ int i;
+ classref_or_classinfo *mlist;
- return typeinfo_is_assignable_to_class(value,dest->typeclass);
+ TYPEINFO_ASSERT(cls);
+
+ /* primitive types aren't subclasses of anything. */
+ if (!typeclass)
+ return typecheck_FALSE;
+
+ /* the null type can be cast to any reference type. */
+ if (typeclass == pseudo_class_Null)
+ return typecheck_TRUE;
+
+ TYPEINFO_ASSERT(typeclass->state & CLASS_LOADED);
+ TYPEINFO_ASSERT(typeclass->state & CLASS_LINKED);
+
+ /* check if the common typeclass is a subclass of CLS. */
+ if (class_issubclass(typeclass,cls))
+ return typecheck_TRUE;
+
+ /* check the mergedlist */
+ if (!merged)
+ return typecheck_FALSE;
+ /* If all classinfos in the (non-empty) merged list are subclasses
+ * of CLS, return true, otherwise false.
+ * If there is at least one unresolved type in the list,
+ * return typecheck_MAYBE.
+ */
+ mlist = merged->list;
+ i = merged->count;
+ while (i--) {
+ if (IS_CLASSREF(*mlist)) {
+ return typecheck_MAYBE;
+ }
+ if (!(mlist->cls->state & CLASS_LINKED))
+ if (!link_class(mlist->cls))
+ return typecheck_FAIL;
+ if (!class_issubclass(mlist->cls,cls))
+ return typecheck_FALSE;
+ mlist++;
+ }
+ return typecheck_TRUE;
}
-tristate_t
-typeinfo_is_assignable_to_class(typeinfo *value,classref_or_classinfo dest)
+/* typeinfo_is_assignable_to_class *********************************************
+
+ Check if a type is assignable to a given class type.
+
+ IN:
+ value............the type of the value
+ dest.............the type of the destination
+
+ RETURN VALUE:
+ typecheck_TRUE...the type is assignable
+ typecheck_FALSE..the type is not assignable
+ typecheck_MAYBE..check cannot be performed now because of unresolved
+ classes
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+typecheck_result
+typeinfo_is_assignable_to_class(typeinfo_t *value,classref_or_classinfo dest)
{
classref_or_classinfo c;
classinfo *cls;
/* assignments of primitive values are not checked here. */
if (!c.any && !dest.any)
- return true;
+ return typecheck_TRUE;
/* primitive and reference types are not assignment compatible. */
if (!c.any || !dest.any)
- return false;
+ return typecheck_FALSE;
/* the null type can be assigned to any type */
if (TYPEINFO_IS_NULLTYPE(*value))
- return true;
+ return typecheck_TRUE;
/* uninitialized objects are not assignable */
if (TYPEINFO_IS_NEWOBJECT(*value))
- return false;
+ return typecheck_FALSE;
if (IS_CLASSREF(c)) {
/* The value type is an unresolved class reference. */
/* the common case of value and dest type having the same classname */
if (dest.ref->name == classname && !value->merged)
- return true;
+ return typecheck_TRUE;
/* we cannot tell if value is assignable to dest, so we */
/* leave it up to the resolving code to check this */
- return MAYBE;
+ return typecheck_MAYBE;
}
/* { we know that dest is a loaded class } */
/* the common case of value and dest type having the same classname */
if (dest.cls->name == classname)
- return true;
+ return typecheck_TRUE;
/* we cannot tell if value is assignable to dest, so we */
/* leave it up to the resolving code to check this */
- return MAYBE;
+ return typecheck_MAYBE;
}
/* { we know that both c and dest are loaded classes } */
+ /* (c may still have a merged list containing unresolved classrefs!) */
TYPEINFO_ASSERT(!IS_CLASSREF(c));
TYPEINFO_ASSERT(!IS_CLASSREF(dest));
cls = c.cls;
- TYPEINFO_ASSERT(cls->loaded);
- TYPEINFO_ASSERT(dest.cls->loaded);
+ TYPEINFO_ASSERT(cls->state & CLASS_LOADED);
+ TYPEINFO_ASSERT(dest.cls->state & CLASS_LOADED);
/* maybe we need to link the classes */
- if (!cls->linked)
- link_class(cls); /* XXX */
- if (!dest.cls->linked)
- link_class(dest.cls); /* XXX */
+ if (!(cls->state & CLASS_LINKED))
+ if (!link_class(cls))
+ return typecheck_FAIL;
+ if (!(dest.cls->state & CLASS_LINKED))
+ if (!link_class(dest.cls))
+ return typecheck_FAIL;
/* { we know that both c and dest are linked classes } */
- TYPEINFO_ASSERT(cls->linked);
- TYPEINFO_ASSERT(dest.cls->linked);
+ TYPEINFO_ASSERT(cls->state & CLASS_LINKED);
+ TYPEINFO_ASSERT(dest.cls->state & CLASS_LINKED);
if (dest.cls->flags & ACC_INTERFACE) {
/* We are assigning to an interface type. */
arraydescriptor *arraydesc = dest.cls->vftbl->arraydesc;
int dimension = arraydesc->dimension;
classinfo *elementclass = (arraydesc->elementvftbl)
- ? arraydesc->elementvftbl->class : NULL;
+ ? arraydesc->elementvftbl->clazz : NULL;
/* We are assigning to an array type. */
if (!TYPEINFO_IS_ARRAY(*value))
- return false;
+ return typecheck_FALSE;
/* {Both value and dest.cls are array types.} */
/* value must have at least the dimension of dest.cls. */
if (value->dimension < dimension)
- return false;
+ return typecheck_FALSE;
if (value->dimension > dimension) {
/* value has higher dimension so we need to check
* if its component array can be assigned to the
* element type of dest.cls */
- if (!elementclass) return false;
+ if (!elementclass) return typecheck_FALSE;
if (elementclass->flags & ACC_INTERFACE) {
/* We are assigning to an interface type. */
/* {value and dest.cls have the same dimension} */
if (value->elementtype != arraydesc->elementtype)
- return false;
+ return typecheck_FALSE;
if (value->elementclass.any) {
/* We are assigning an array of objects so we have to
}
/* We are assigning to a class type. */
- return class_issubclass(value->elementclass.cls,elementclass);
+ return merged_is_subclass(value->elementclass.cls,value->merged,elementclass);
}
- return true;
+ return typecheck_TRUE;
}
/* {dest.cls is not an array} */
int i = value->merged->count;
while (i--)
if (IS_CLASSREF(*mlist++))
- return MAYBE;
+ return typecheck_MAYBE;
}
/* We are assigning to a class type */
if (cls->flags & ACC_INTERFACE)
cls = class_java_lang_Object;
- return class_issubclass(cls,dest.cls);
+ return merged_is_subclass(cls,value->merged,dest.cls);
+}
+
+/* typeinfo_is_assignable ******************************************************
+
+ Check if a type is assignable to a given type.
+
+ IN:
+ value............the type of the value
+ dest.............the type of the destination, must not be a merged type
+
+ RETURN VALUE:
+ typecheck_TRUE...the type is assignable
+ typecheck_FALSE..the type is not assignable
+ typecheck_MAYBE..check cannot be performed now because of unresolved
+ classes
+ typecheck_FAIL...an exception has been thrown
+
+*******************************************************************************/
+
+typecheck_result
+typeinfo_is_assignable(typeinfo_t *value,typeinfo_t *dest)
+{
+ TYPEINFO_ASSERT(value);
+ TYPEINFO_ASSERT(dest);
+ TYPEINFO_ASSERT(dest->merged == NULL);
+
+ return typeinfo_is_assignable_to_class(value,dest->typeclass);
}
/**********************************************************************/
/* The following functions fill in uninitialized typeinfo structures. */
/**********************************************************************/
+/* typeinfo_init_classinfo *****************************************************
+
+ Initialize a typeinfo to a resolved class.
+
+ IN:
+ c................the class
+
+ OUT:
+ *info............is initialized
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
+void
+typeinfo_init_classinfo(typeinfo_t *info, classinfo *c)
+{
+ if ((info->typeclass.cls = c)->vftbl->arraydesc) {
+ if (c->vftbl->arraydesc->elementvftbl)
+ info->elementclass.cls = c->vftbl->arraydesc->elementvftbl->clazz;
+ else
+ info->elementclass.any = NULL;
+ info->dimension = c->vftbl->arraydesc->dimension;
+ info->elementtype = c->vftbl->arraydesc->elementtype;
+ }
+ else {
+ info->elementclass.any = NULL;
+ info->dimension = 0;
+ info->elementtype = 0;
+ }
+ info->merged = NULL;
+}
+
+/* typeinfo_init_class *********************************************************
+
+ Initialize a typeinfo to a possibly unresolved class type.
+
+ IN:
+ c................the class type
+
+ OUT:
+ *info............is initialized
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
bool
-typeinfo_init_class(typeinfo *info,classref_or_classinfo c)
+typeinfo_init_class(typeinfo_t *info,classref_or_classinfo c)
{
char *utf_ptr;
int len;
TYPEINFO_ASSERT(info);
/* if necessary, try to resolve lazily */
- if (!resolve_classref_or_classinfo(NULL /* XXX should now method */,
+ if (!resolve_classref_or_classinfo(NULL /* XXX should know method */,
c,resolveLazy,false,true,&cls))
{
return false;
}
if (cls) {
- TYPEINFO_INIT_CLASSINFO(*info,cls);
+ typeinfo_init_classinfo(info,cls);
return true;
}
return true;
}
+/* typeinfo_init_from_typedesc *************************************************
+
+ Initialize a typeinfo from a typedesc.
+
+ IN:
+ desc.............the typedesc
+
+ OUT:
+ *type............set to the TYPE_* constant of DESC (if type != NULL)
+ *info............receives the typeinfo (if info != NULL)
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
bool
-typeinfo_init_from_typedesc(typedesc *desc,u1 *type,typeinfo *info)
+typeinfo_init_from_typedesc(typedesc *desc,u1 *type,typeinfo_t *info)
{
TYPEINFO_ASSERT(desc);
return true;
}
+/* typeinfos_init_from_methoddesc **********************************************
+
+ Initialize an array of typeinfos and u1 TYPE_* values from a methoddesc.
+
+ IN:
+ desc.............the methoddesc
+ buflen...........number of parameters the buffer can hold
+ twoword..........if true, use two parameter slots for two-word types
+
+ OUT:
+ *typebuf.........receives a TYPE_* constant for each parameter
+ typebuf must be != NULL
+ *infobuf.........receives a typeinfo for each parameter
+ infobuf must be != NULL
+ *returntype......receives a TYPE_* constant for the return type
+ returntype may be NULL
+ *returntypeinfo..receives a typeinfo for the return type
+ returntypeinfo may be NULL
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+ NOTE:
+ If (according to BUFLEN) the buffers are to small to hold the
+ parameter types, an internal error is thrown. This must be
+ avoided by checking the number of parameters and allocating enough
+ space before calling this function.
+
+*******************************************************************************/
+
bool
-typeinfo_init_from_methoddesc(methoddesc *desc,u1 *typebuf,typeinfo *infobuf,
+typeinfos_init_from_methoddesc(methoddesc *desc,u1 *typebuf,typeinfo_t *infobuf,
int buflen,bool twoword,
- u1 *returntype,typeinfo *returntypeinfo)
+ u1 *returntype,typeinfo_t *returntypeinfo)
{
int i;
int args = 0;
TYPEINFO_ASSERT(infobuf);
#ifdef TYPEINFO_VERBOSE
- fprintf(stderr,"typeinfo_init_from_methoddesc(");
+ fprintf(stderr,"typeinfos_init_from_methoddesc(");
descriptor_debug_print_methoddesc(stderr,desc);
fprintf(stderr,")\n");
#endif
/* check arguments */
for (i=0; i<desc->paramcount; ++i) {
if (++args > buflen) {
- log_text("Buffer too small for method arguments."); /* XXX */
- assert(0);
+ exceptions_throw_internalerror("Buffer too small for method arguments.");
+ return false;
}
if (!typeinfo_init_from_typedesc(desc->paramtypes + i,typebuf++,infobuf++))
return false;
- if (twoword && (typebuf[-1] == TYPE_LONG || typebuf[-1] == TYPE_DOUBLE)) {
+ if (twoword && (typebuf[-1] == TYPE_LNG || typebuf[-1] == TYPE_DBL)) {
if (++args > buflen) {
- log_text("Buffer too small for method arguments."); /* XXX */
- assert(0);
+ exceptions_throw_internalerror("Buffer too small for method arguments.");
+ return false;
}
*typebuf++ = TYPE_VOID;
return true;
}
+/* typedescriptor_init_from_typedesc *******************************************
+
+ Initialize a typedescriptor from a typedesc.
+
+ IN:
+ desc.............the typedesc
+
+ OUT:
+ *td..............receives the typedescriptor
+ td must be != NULL
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
bool
-typedescriptor_init_from_typedesc(typedescriptor *td,
+typedescriptor_init_from_typedesc(typedescriptor_t *td,
typedesc *desc)
{
+ TYPEINFO_ASSERT(td);
+ TYPEINFO_ASSERT(desc);
+
td->type = desc->type;
if (td->type == TYPE_ADR) {
- if (!typeinfo_init_class(&(td->info),CLASSREF_OR_CLASSINFO(desc->classref)))
+ if (!typeinfo_init_class(&(td->typeinfo),CLASSREF_OR_CLASSINFO(desc->classref)))
+ return false;
+ }
+ else {
+ TYPEINFO_INIT_PRIMITIVE(td->typeinfo);
+ }
+ return true;
+}
+
+/* typeinfo_init_varinfo_from_typedesc *****************************************
+
+ Initialize a varinfo from a typedesc.
+
+ IN:
+ desc.............the typedesc
+
+ OUT:
+ *var.............receives the type
+ var must be != NULL
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
+bool
+typeinfo_init_varinfo_from_typedesc(varinfo *var,
+ typedesc *desc)
+{
+ TYPEINFO_ASSERT(var);
+ TYPEINFO_ASSERT(desc);
+
+ var->type = desc->type;
+ if (var->type == TYPE_ADR) {
+ if (!typeinfo_init_class(&(var->typeinfo),CLASSREF_OR_CLASSINFO(desc->classref)))
return false;
}
else {
- TYPEINFO_INIT_PRIMITIVE(td->info);
+ TYPEINFO_INIT_PRIMITIVE(var->typeinfo);
+ }
+ return true;
+}
+
+/* typeinfo_init_varinfos_from_methoddesc **************************************
+
+ Initialize an array of varinfos from a methoddesc.
+
+ IN:
+ desc.............the methoddesc
+ buflen...........number of parameters the buffer can hold
+ startindex.......the zero-based index of the first parameter to
+ write to the array. In other words the number of
+ parameters to skip at the beginning of the methoddesc.
+ map..............map from parameter indices to varinfo indices
+ (indexed like jitdata.local_map)
+
+ OUT:
+ *vars............array receiving the varinfos
+ td[0] receives the type of the
+ (startindex+1)th parameter of the method
+ *returntype......receives the typedescriptor of the return type.
+ returntype may be NULL
+
+ RETURN VALUE:
+ true.............everything ok
+ false............an exception has been thrown
+
+ NOTE:
+ If (according to BUFLEN) the buffer is to small to hold the
+ parameter types, an internal error is thrown. This must be
+ avoided by checking the number of parameters and allocating enough
+ space before calling this function.
+
+*******************************************************************************/
+
+bool
+typeinfo_init_varinfos_from_methoddesc(varinfo *vars,
+ methoddesc *desc,
+ int buflen, int startindex,
+ s4 *map,
+ typedescriptor_t *returntype)
+{
+ s4 i;
+ s4 varindex;
+ s4 type;
+ s4 slot = 0;
+
+ /* skip arguments */
+ for (i=0; i<startindex; ++i) {
+ slot++;
+ if (IS_2_WORD_TYPE(desc->paramtypes[i].type))
+ slot++;
+ }
+
+ /* check arguments */
+ for (i=startindex; i<desc->paramcount; ++i) {
+ type = desc->paramtypes[i].type;
+ varindex = map[5*slot + type];
+
+ slot++;
+ if (IS_2_WORD_TYPE(type))
+ slot++;
+
+ if (varindex == UNUSED)
+ continue;
+
+ if (varindex >= buflen) {
+ exceptions_throw_internalerror("Buffer too small for method arguments.");
+ return false;
+ }
+
+ if (!typeinfo_init_varinfo_from_typedesc(vars + varindex, desc->paramtypes + i))
+ return false;
+ }
+
+ /* check returntype */
+ if (returntype) {
+ if (!typedescriptor_init_from_typedesc(returntype,&(desc->returntype)))
+ return false;
}
+
return true;
}
+/* typedescriptors_init_from_methoddesc ****************************************
+
+ Initialize an array of typedescriptors from a methoddesc.
+
+ IN:
+ desc.............the methoddesc
+ buflen...........number of parameters the buffer can hold
+ twoword..........if true, use two parameter slots for two-word types
+ startindex.......the zero-based index of the first parameter to
+ write to the array. In other words the number of
+ parameters to skip at the beginning of the methoddesc.
+
+ OUT:
+ *td..............array receiving the typedescriptors.
+ td[0] receives the typedescriptor of the
+ (startindex+1)th parameter of the method
+ *returntype......receives the typedescriptor of the return type.
+ returntype may be NULL
+
+ RETURN VALUE:
+ >= 0.............number of typedescriptors filled in TD
+ -1...............an exception has been thrown
+
+ NOTE:
+ If (according to BUFLEN) the buffer is to small to hold the
+ parameter types, an internal error is thrown. This must be
+ avoided by checking the number of parameters and allocating enough
+ space before calling this function.
+
+*******************************************************************************/
+
int
-typedescriptors_init_from_methoddesc(typedescriptor *td,
+typedescriptors_init_from_methoddesc(typedescriptor_t *td,
methoddesc *desc,
int buflen,bool twoword,int startindex,
- typedescriptor *returntype)
+ typedescriptor_t *returntype)
{
int i;
int args = 0;
/* check arguments */
for (i=startindex; i<desc->paramcount; ++i) {
if (++args > buflen) {
- log_text("Buffer too small for method arguments."); /* XXX */
- assert(0);
+ exceptions_throw_internalerror("Buffer too small for method arguments.");
+ return -1;
}
if (!typedescriptor_init_from_typedesc(td,desc->paramtypes + i))
return -1;
td++;
- if (twoword && (td[-1].type == TYPE_LONG || td[-1].type == TYPE_DOUBLE)) {
+ if (twoword && (td[-1].type == TYPE_LNG || td[-1].type == TYPE_DBL)) {
if (++args > buflen) {
- log_text("Buffer too small for method arguments."); /* XXX */
- assert(0);
+ exceptions_throw_internalerror("Buffer too small for method arguments.");
+ return -1;
}
td->type = TYPE_VOID;
- TYPEINFO_INIT_PRIMITIVE(td->info);
+ TYPEINFO_INIT_PRIMITIVE(td->typeinfo);
td++;
}
}
return args;
}
+/* typeinfo_init_component *****************************************************
+
+ Initialize a typeinfo with the component type of a given array type.
+
+ IN:
+ srcarray.........the typeinfo of the array type
+
+ OUT:
+ *dst.............receives the typeinfo of the component type
+
+ RETURN VALUE:
+ true.............success
+ false............an exception has been thrown
+
+*******************************************************************************/
+
bool
-typeinfo_init_component(typeinfo *srcarray,typeinfo *dst)
+typeinfo_init_component(typeinfo_t *srcarray,typeinfo_t *dst)
{
+ typeinfo_mergedlist_t *merged;
+
+ TYPEINFO_ASSERT(srcarray);
+ TYPEINFO_ASSERT(dst);
+
if (TYPEINFO_IS_NULLTYPE(*srcarray)) {
TYPEINFO_INIT_NULLTYPE(*dst);
return true;
}
if (!TYPEINFO_IS_ARRAY(*srcarray)) {
- log_text("Trying to access component of non-array"); /* XXX throw exception */
- assert(0);
+ /* XXX should we make that a verify error? */
+ exceptions_throw_internalerror("Trying to access component of non-array");
+ return false;
}
+ /* save the mergedlist (maybe dst == srcarray) */
+
+ merged = srcarray->merged;
+
if (IS_CLASSREF(srcarray->typeclass)) {
constant_classref *comp;
comp = class_get_classref_component_of(srcarray->typeclass.ref);
else {
vftbl_t *comp;
- if (!srcarray->typeclass.cls->linked) {
+ if (!(srcarray->typeclass.cls->state & CLASS_LINKED)) {
if (!link_class(srcarray->typeclass.cls)) {
return false;
}
comp = srcarray->typeclass.cls->vftbl->arraydesc->componentvftbl;
if (comp)
- TYPEINFO_INIT_CLASSINFO(*dst,comp->class);
+ typeinfo_init_classinfo(dst,comp->clazz);
else
TYPEINFO_INIT_PRIMITIVE(*dst);
}
- dst->merged = srcarray->merged; /* XXX should we do a deep copy? */
+ dst->merged = merged; /* XXX should we do a deep copy? */
return true;
}
+/* typeinfo_clone **************************************************************
+
+ Create a deep copy of a typeinfo struct.
+
+ IN:
+ src..............the typeinfo to copy
+
+ OUT:
+ *dest............receives the copy
+
+ NOTE:
+ If src == dest this function is a nop.
+
+*******************************************************************************/
+
void
-typeinfo_clone(typeinfo *src,typeinfo *dest)
+typeinfo_clone(typeinfo_t *src,typeinfo_t *dest)
{
int count;
classref_or_classinfo *srclist,*destlist;
/* MISCELLANEOUS FUNCTIONS */
/**********************************************************************/
+/* typeinfo_free ***************************************************************
+
+ Free memory referenced by the given typeinfo. The typeinfo itself is not
+ freed.
+
+ IN:
+ info.............the typeinfo
+
+*******************************************************************************/
+
void
-typeinfo_free(typeinfo *info)
+typeinfo_free(typeinfo_t *info)
{
TYPEINFO_FREEMERGED_IF_ANY(info->merged);
info->merged = NULL;
static
void
-typeinfo_merge_error(char *str,typeinfo *x,typeinfo *y) {
+typeinfo_merge_error(methodinfo *m,char *str,typeinfo_t *x,typeinfo_t *y) {
#ifdef TYPEINFO_VERBOSE
fprintf(stderr,"Error in typeinfo_merge: %s\n",str);
fprintf(stderr,"Typeinfo x:\n");
typeinfo_print(stderr,x,1);
fprintf(stderr,"Typeinfo y:\n");
typeinfo_print(stderr,y,1);
+ log_text(str);
#endif
- log_text(str); /* XXX throw an exception */
- assert(0);
+ exceptions_throw_verifyerror(m, str);
}
/* Condition: clsx != clsy. */
/* Returns: true if dest was changed (currently always true). */
static
bool
-typeinfo_merge_two(typeinfo *dest,classref_or_classinfo clsx,classref_or_classinfo clsy)
+typeinfo_merge_two(typeinfo_t *dest,classref_or_classinfo clsx,classref_or_classinfo clsy)
{
TYPEINFO_ASSERT(dest);
TYPEINFO_FREEMERGED_IF_ANY(dest->merged);
/* Returns: true if dest was changed. */
static
bool
-typeinfo_merge_add(typeinfo *dest,typeinfo_mergedlist *m,classref_or_classinfo cls)
+typeinfo_merge_add(typeinfo_t *dest,typeinfo_mergedlist_t *m,classref_or_classinfo cls)
{
int count;
- typeinfo_mergedlist *newmerged;
+ typeinfo_mergedlist_t *newmerged;
classref_or_classinfo *mlist,*newlist;
count = m->count;
/* Returns: true if dest was changed. */
static
bool
-typeinfo_merge_mergedlists(typeinfo *dest,typeinfo_mergedlist *x,
- typeinfo_mergedlist *y)
+typeinfo_merge_mergedlists(typeinfo_t *dest,typeinfo_mergedlist_t *x,
+ typeinfo_mergedlist_t *y)
{
int count = 0;
int countx,county;
- typeinfo_mergedlist *temp,*result;
+ typeinfo_mergedlist_t *temp,*result;
classref_or_classinfo *clsx,*clsy,*newlist;
/* count the elements that will be in the resulting list */
return true;
}
-static
-bool
-typeinfo_merge_nonarrays(typeinfo *dest,
+/* typeinfo_merge_nonarrays ****************************************************
+
+ Merge two non-array types.
+
+ IN:
+ x................the first type
+ y................the second type
+ mergedx..........merged list of the first type, may be NULL
+ mergedy..........merged list of the descond type, may be NULL
+
+ OUT:
+ *dest............receives the resulting merged list
+ *result..........receives the resulting type
+
+ RETURN VALUE:
+ typecheck_TRUE...*dest has been modified
+ typecheck_FALSE..*dest has not been modified
+ typecheck_FAIL...an exception has been thrown
+
+ NOTE:
+ RESULT is an extra parameter so it can point to dest->typeclass or to
+ dest->elementclass.
+
+*******************************************************************************/
+
+static typecheck_result
+typeinfo_merge_nonarrays(typeinfo_t *dest,
classref_or_classinfo *result,
classref_or_classinfo x,classref_or_classinfo y,
- typeinfo_mergedlist *mergedx,
- typeinfo_mergedlist *mergedy)
+ typeinfo_mergedlist_t *mergedx,
+ typeinfo_mergedlist_t *mergedy)
{
classref_or_classinfo t;
classinfo *tcls,*common;
- typeinfo_mergedlist *tmerged;
+ typeinfo_mergedlist_t *tmerged;
bool changed;
+ typecheck_result r;
utf *xname;
utf *yname;
#ifdef TYPEINFO_VERBOSE
{
- typeinfo dbgx,dbgy;
+ typeinfo_t dbgx,dbgy;
fprintf(stderr,"merge_nonarrays:\n");
- fprintf(stderr," ");if(IS_CLASSREF(x))fprintf(stderr,"<ref>");utf_fprint(stderr,xname);fprintf(stderr,"\n");
- fprintf(stderr," ");if(IS_CLASSREF(y))fprintf(stderr,"<ref>");utf_fprint(stderr,yname);fprintf(stderr,"\n");
+ fprintf(stderr," ");if(IS_CLASSREF(x))fprintf(stderr,"<ref>");utf_fprint_printable_ascii(stderr,xname);fprintf(stderr,"\n");
+ fprintf(stderr," ");if(IS_CLASSREF(y))fprintf(stderr,"<ref>");utf_fprint_printable_ascii(stderr,yname);fprintf(stderr,"\n");
fflush(stderr);
- TYPEINFO_INIT_CLASSREF_OR_CLASSINFO(dbgx,x);
+ typeinfo_init_class(&dbgx,x);
dbgx.merged = mergedx;
- TYPEINFO_INIT_CLASSREF_OR_CLASSINFO(dbgy,y);
+ typeinfo_init_class(&dbgy,y);
dbgy.merged = mergedy;
typeinfo_print(stderr,&dbgx,4);
fprintf(stderr," with:\n");
}
#endif
- TYPEINFO_ASSERT(IS_CLASSREF(x) || x.cls->loaded);
- TYPEINFO_ASSERT(IS_CLASSREF(y) || y.cls->loaded);
+ TYPEINFO_ASSERT(IS_CLASSREF(x) || (x.cls->state & CLASS_LOADED));
+ TYPEINFO_ASSERT(IS_CLASSREF(y) || (y.cls->state & CLASS_LOADED));
/* If y is unresolved or an interface, swap x and y. */
if (IS_CLASSREF(y) || (!IS_CLASSREF(x) && y.cls->flags & ACC_INTERFACE))
/* {We know: If only one of x,y is an interface it is x.} */
TYPEINFO_ASSERT(!IS_CLASSREF(x) && !IS_CLASSREF(y));
- TYPEINFO_ASSERT(x.cls->loaded);
- TYPEINFO_ASSERT(y.cls->loaded);
+ TYPEINFO_ASSERT(x.cls->state & CLASS_LOADED);
+ TYPEINFO_ASSERT(y.cls->state & CLASS_LOADED);
/* Handle merging of interfaces: */
if (x.cls->flags & ACC_INTERFACE) {
*/
/* we may have to link the classes */
- if (!x.cls->linked)
- link_class(x.cls); /* XXX */
- if (!y.cls->linked)
- link_class(y.cls); /* XXX */
+ if (!(x.cls->state & CLASS_LINKED))
+ if (!link_class(x.cls))
+ return typecheck_FAIL;
+ if (!(y.cls->state & CLASS_LINKED))
+ if (!link_class(y.cls))
+ return typecheck_FAIL;
- TYPEINFO_ASSERT(x.cls->linked);
- TYPEINFO_ASSERT(y.cls->linked);
+ TYPEINFO_ASSERT(x.cls->state & CLASS_LINKED);
+ TYPEINFO_ASSERT(y.cls->state & CLASS_LINKED);
- if (CLASSINFO_IMPLEMENTS_INTERFACE(y.cls,x.cls->index)
- || mergedlist_implements_interface(mergedy,x.cls))
+ if (CLASSINFO_IMPLEMENTS_INTERFACE(y.cls,x.cls->index))
+ {
+ /* y implements x, so the result of the merge is x. */
+ goto return_simple_x;
+ }
+
+ r = mergedlist_implements_interface(mergedy,x.cls);
+ if (r == typecheck_FAIL)
+ return r;
+ if (r == typecheck_TRUE)
{
/* y implements x, so the result of the merge is x. */
goto return_simple_x;
}
/* {We know: x is an interface, the type y a class or a merge
- * of subclasses and does not implement x.} */
-
- /* There may still be superinterfaces of x which are implemented
- * by y, too, so we have to add x.cls to the mergedlist.
- */
+ * of subclasses and is not guaranteed to implement x.} */
- /* if x has no superinterfaces we could return a simple java.lang.Object */
-
common = class_java_lang_Object;
goto merge_with_simple_x;
}
/* {We know: x and y are classes (not interfaces).} */
/* we may have to link the classes */
- if (!x.cls->linked)
- link_class(x.cls); /* XXX */
- if (!y.cls->linked)
- link_class(y.cls); /* XXX */
+ if (!(x.cls->state & CLASS_LINKED))
+ if (!link_class(x.cls))
+ return typecheck_FAIL;
+ if (!(y.cls->state & CLASS_LINKED))
+ if (!link_class(y.cls))
+ return typecheck_FAIL;
- TYPEINFO_ASSERT(x.cls->linked);
- TYPEINFO_ASSERT(y.cls->linked);
+ TYPEINFO_ASSERT(x.cls->state & CLASS_LINKED);
+ TYPEINFO_ASSERT(y.cls->state & CLASS_LINKED);
/* If *x is deeper in the inheritance hierarchy swap x and y. */
if (x.cls->index > y.cls->index) {
/* {We know: y is at least as deep in the hierarchy as x.} */
/* Find nearest common anchestor for the classes. */
+
common = x.cls;
- tcls = y.cls;
+ tcls = y.cls;
+
while (tcls->index > common->index)
- tcls = tcls->super.cls;
+ tcls = tcls->super;
+
while (common != tcls) {
- common = common->super.cls;
- tcls = tcls->super.cls;
+ common = common->super;
+ tcls = tcls->super;
}
/* {common == nearest common anchestor of x and y.} */
return typeinfo_merge_two(dest,x,y);
}
-/* Condition: *dest must be a valid initialized typeinfo. */
-/* Condition: dest != y. */
-/* Returns: true if dest was changed. */
-bool
-typeinfo_merge(typeinfo *dest,typeinfo* y)
+/* typeinfo_merge **************************************************************
+
+ Merge two types.
+
+ IN:
+ m................method for exception messages
+ dest.............the first type
+ y................the second type
+
+ OUT:
+ *dest............receives the result of the merge
+
+ RETURN VALUE:
+ typecheck_TRUE...*dest has been modified
+ typecheck_FALSE..*dest has not been modified
+ typecheck_FAIL...an exception has been thrown
+
+ PRE-CONDITIONS:
+ 1) *dest must be a valid initialized typeinfo
+ 2) dest != y
+
+*******************************************************************************/
+
+typecheck_result
+typeinfo_merge(methodinfo *m,typeinfo_t *dest,typeinfo_t* y)
{
- typeinfo *x;
- typeinfo *tmp;
+ typeinfo_t *x;
+ typeinfo_t *tmp;
classref_or_classinfo common;
classref_or_classinfo elementclass;
int dimension;
int elementtype;
bool changed;
+ typecheck_result r;
/*--------------------------------------------------*/
/* fast checks */
/* Merging something with itself is a nop */
if (dest == y)
- return false;
+ return typecheck_FALSE;
/* Merging two returnAddress types is ok. */
/* Merging two different returnAddresses never happens, as the verifier */
/* from JSR subroutines. */
if (!dest->typeclass.any && !y->typeclass.any) {
TYPEINFO_ASSERT(TYPEINFO_RETURNADDRESS(*dest) == TYPEINFO_RETURNADDRESS(*y));
- return false;
+ return typecheck_FALSE;
}
/* Primitive types cannot be merged with reference types */
- /* XXX only check this in debug mode? */
- if (!dest->typeclass.any || !y->typeclass.any)
- typeinfo_merge_error("Trying to merge primitive types.",dest,y);
+ /* This must be checked before calls to typeinfo_merge. */
+ TYPEINFO_ASSERT(dest->typeclass.any && y->typeclass.any);
/* handle uninitialized object types */
if (TYPEINFO_IS_NEWOBJECT(*dest) || TYPEINFO_IS_NEWOBJECT(*y)) {
- if (!TYPEINFO_IS_NEWOBJECT(*dest) || !TYPEINFO_IS_NEWOBJECT(*y))
- typeinfo_merge_error("Trying to merge uninitialized object type.",dest,y);
- if (TYPEINFO_NEWOBJECT_INSTRUCTION(*dest)
- != TYPEINFO_NEWOBJECT_INSTRUCTION(*y))
- typeinfo_merge_error("Trying to merge different uninitialized objects.",dest,y);
- return false;
+ if (!TYPEINFO_IS_NEWOBJECT(*dest) || !TYPEINFO_IS_NEWOBJECT(*y)) {
+ typeinfo_merge_error(m,"Trying to merge uninitialized object type.",dest,y);
+ return typecheck_FAIL;
+ }
+ if (TYPEINFO_NEWOBJECT_INSTRUCTION(*dest) != TYPEINFO_NEWOBJECT_INSTRUCTION(*y)) {
+ typeinfo_merge_error(m,"Trying to merge different uninitialized objects.",dest,y);
+ return typecheck_FAIL;
+ }
+ /* the same uninitialized object -- no change */
+ return typecheck_FALSE;
}
/*--------------------------------------------------*/
/* Handle null types: */
if (TYPEINFO_IS_NULLTYPE(*y)) {
- return false;
+ return typecheck_FALSE;
}
if (TYPEINFO_IS_NULLTYPE(*dest)) {
TYPEINFO_FREEMERGED_IF_ANY(dest->merged);
TYPEINFO_CLONE(*y,*dest);
- return true;
+ return typecheck_TRUE;
}
/* Common case: two types with the same name, at least one unresolved */
else {
common.cls = class_multiarray_of(dimension,pseudo_class_Arraystub,true);
if (!common.cls) {
- log_text("XXX Coult not create array class");
- assert(0);
+ exceptions_throw_internalerror("XXX Coult not create array class");
+ return typecheck_FAIL;
}
elementtype = ARRAYTYPE_OBJECT;
/* The elements are references, so their respective
* types must be merged.
*/
- changed |= typeinfo_merge_nonarrays(dest,
- &elementclass,
- x->elementclass,
- elementclass,
- x->merged,y->merged);
+ r = typeinfo_merge_nonarrays(dest,
+ &elementclass,
+ x->elementclass,
+ elementclass,
+ x->merged,y->merged);
+ TYPEINFO_ASSERT(r != typecheck_MAYBE);
+ if (r == typecheck_FAIL)
+ return r;
+ changed |= r;
/* DEBUG */ /* log_text("finding resulting array class: "); */
if (IS_CLASSREF(elementclass))
else {
common.cls = class_multiarray_of(dimension,elementclass.cls,true);
if (!common.cls) {
- log_text("XXX Coult not create array class");
- assert(0);
+ exceptions_throw_internalerror("XXX Coult not create array class");
+ return typecheck_FAIL;
}
}
- /* DEBUG */ /* utf_display(common->name); printf("\n"); */
+ /* DEBUG */ /* utf_display_printable_ascii(common->name); printf("\n"); */
}
else {
common.any = y->typeclass.any;
/* {We know that at least one of x or y is no array, so the
* result cannot be an array.} */
- changed |= typeinfo_merge_nonarrays(dest,
- &common,
- x->typeclass,y->typeclass,
- x->merged,y->merged);
+ r = typeinfo_merge_nonarrays(dest,
+ &common,
+ x->typeclass,y->typeclass,
+ x->merged,y->merged);
+ TYPEINFO_ASSERT(r != typecheck_MAYBE);
+ if (r == typecheck_FAIL)
+ return r;
+ changed |= r;
dimension = 0;
elementtype = 0;
return changed;
}
+#endif /* ENABLE_VERIFER */
/**********************************************************************/
}
static void
-typeinfo_test_parse(typeinfo *info,char *str)
+typeinfo_test_parse(typeinfo_t *info,char *str)
{
int num;
int i;
- typeinfo *infobuf;
+ typeinfo_t *infobuf;
u1 *typebuf;
int returntype;
utf *desc = utf_new_char(str);
num = typeinfo_count_method_args(desc,false);
if (num) {
typebuf = DMNEW(u1,num);
- infobuf = DMNEW(typeinfo,num);
+ infobuf = DMNEW(typeinfo_t,num);
typeinfo_init_from_method_args(desc,typebuf,infobuf,num,false,
&returntype,info);
info->merged->count = num;
for (i=0; i<num; ++i) {
- if (typebuf[i] != TYPE_ADDRESS) {
+ if (typebuf[i] != TYPE_ADR) {
log_text("non-reference type in mergedlist");
assert(0);
}
#define TYPEINFO_TEST_BUFLEN 4000
static bool
-typeinfo_equal(typeinfo *x,typeinfo *y)
+typeinfo_equal(typeinfo_t *x,typeinfo_t *y)
{
int i;
}
static void
-typeinfo_testmerge(typeinfo *a,typeinfo *b,typeinfo *result,int *failed)
+typeinfo_testmerge(typeinfo_t *a,typeinfo_t *b,typeinfo_t *result,int *failed)
{
- typeinfo dest;
+ typeinfo_t dest;
bool changed,changed_should_be;
+ typecheck_result r;
TYPEINFO_CLONE(*a,dest);
typeinfo_print_short(stdout,b);
printf("\n");
- changed = (typeinfo_merge(&dest,b)) ? 1 : 0;
+ r = typeinfo_merge(NULL,&dest,b);
+ if (r == typecheck_FAIL) {
+ printf("EXCEPTION\n");
+ return;
+ }
+ changed = (r) ? 1 : 0;
changed_should_be = (!typeinfo_equal(&dest,a)) ? 1 : 0;
printf(" %s\n",(changed) ? "changed" : "=");
#if 0
static void
-typeinfo_inc_dimension(typeinfo *info)
+typeinfo_inc_dimension(typeinfo_t *info)
{
if (info->dimension++ == 0) {
info->elementtype = ARRAYTYPE_OBJECT;
char bufa[TYPEINFO_TEST_BUFLEN];
char bufb[TYPEINFO_TEST_BUFLEN];
char bufc[TYPEINFO_TEST_BUFLEN];
- typeinfo a,b,c;
+ typeinfo_t a,b,c;
int maxdim;
int failed = 0;
FILE *file = fopen(filename,"rt");
#if 0
void
-typeinfo_init_from_fielddescriptor(typeinfo *info,char *desc)
+typeinfo_init_from_fielddescriptor(typeinfo_t *info,char *desc)
{
typeinfo_init_from_descriptor(info,desc,desc+strlen(desc));
}
else {
if (IS_CLASSREF(c)) {
fprintf(file,"<ref>");
- utf_fprint(file,c.ref->name);
+ utf_fprint_printable_ascii(file,c.ref->name);
}
else {
- utf_fprint(file,c.cls->name);
+ utf_fprint_printable_ascii(file,c.cls->name);
}
}
}
void
-typeinfo_print(FILE *file,typeinfo *info,int indent)
+typeinfo_print(FILE *file,typeinfo_t *info,int indent)
{
int i;
char ind[TYPEINFO_MAXINDENT + 1];
if (TYPEINFO_IS_PRIMITIVE(*info)) {
bptr = (basicblock*) TYPEINFO_RETURNADDRESS(*info);
if (bptr)
- fprintf(file,"%sreturnAddress (L%03d)\n",ind,bptr->debug_nr);
+ fprintf(file,"%sreturnAddress (L%03d)\n",ind,bptr->nr);
else
fprintf(file,"%sprimitive\n",ind);
return;
}
if (TYPEINFO_IS_NEWOBJECT(*info)) {
- ins = (instruction *)TYPEINFO_NEWOBJECT_INSTRUCTION(*info);
+ ins = (instruction *) TYPEINFO_NEWOBJECT_INSTRUCTION(*info);
if (ins) {
fprintf(file,"%sNEW(%p):",ind,(void*)ins);
- typeinfo_print_class(file,CLASSREF_OR_CLASSINFO(ins[-1].val.a));
+ typeinfo_print_class(file,ins[-1].sx.val.c);
fprintf(file,"\n");
}
else {
}
void
-typeinfo_print_short(FILE *file,typeinfo *info)
+typeinfo_print_short(FILE *file,typeinfo_t *info)
{
int i;
instruction *ins;
if (TYPEINFO_IS_PRIMITIVE(*info)) {
bptr = (basicblock*) TYPEINFO_RETURNADDRESS(*info);
if (bptr)
- fprintf(file,"ret(L%03d)",bptr->debug_nr);
+ fprintf(file,"ret(L%03d)",bptr->nr);
else
fprintf(file,"primitive");
return;
}
if (TYPEINFO_IS_NEWOBJECT(*info)) {
- ins = (instruction *)TYPEINFO_NEWOBJECT_INSTRUCTION(*info);
+ ins = (instruction *) TYPEINFO_NEWOBJECT_INSTRUCTION(*info);
if (ins) {
/*fprintf(file,"<ins %p>",ins);*/
fprintf(file,"NEW(%p):",(void*)ins);
- typeinfo_print_class(file,CLASSREF_OR_CLASSINFO(ins[-1].val.a));
+ typeinfo_print_class(file,ins[-1].sx.val.c);
}
else
fprintf(file,"NEW(this)");
}
void
-typeinfo_print_type(FILE *file,int type,typeinfo *info)
+typeinfo_print_type(FILE *file,int type,typeinfo_t *info)
{
switch (type) {
- case TYPE_VOID: fprintf(file,"V"); break;
- case TYPE_INT: fprintf(file,"I"); break;
- case TYPE_FLOAT: fprintf(file,"F"); break;
- case TYPE_DOUBLE: fprintf(file,"D"); break;
- case TYPE_LONG: fprintf(file,"J"); break;
- case TYPE_ADDRESS:
+ case TYPE_VOID: fprintf(file,"V"); break;
+ case TYPE_INT: fprintf(file,"I"); break;
+ case TYPE_FLT: fprintf(file,"F"); break;
+ case TYPE_DBL: fprintf(file,"D"); break;
+ case TYPE_LNG: fprintf(file,"J"); break;
+ case TYPE_RET: fprintf(file,"R:"); /* FALLTHROUGH! */
+ case TYPE_ADR:
typeinfo_print_short(file,info);
break;
}
void
-typeinfo_print_stacktype(FILE *file,int type,typeinfo *info)
-{
- TYPEINFO_ASSERT(file);
- TYPEINFO_ASSERT(type != TYPE_ADDRESS || info != NULL);
- if (type == TYPE_ADDRESS && TYPEINFO_IS_PRIMITIVE(*info)) {
- typeinfo_retaddr_set *set = (typeinfo_retaddr_set*)
- TYPEINFO_RETURNADDRESS(*info);
- if (set) {
- fprintf(file,"ret(L%03d",((basicblock*)(set->addr))->debug_nr);
- set = set->alt;
- while (set) {
- fprintf(file,"|L%03d",((basicblock*)(set->addr))->debug_nr);
- set = set->alt;
- }
- }
- else {
- fprintf(file,"ret(<NULL>");
- }
- fprintf(file,")");
- }
- else
- typeinfo_print_type(file,type,info);
-}
-
-void
-typedescriptor_print(FILE *file,typedescriptor *td)
-{
- typeinfo_print_type(file,td->type,&(td->info));
-}
-
-void
-typevector_print(FILE *file,typevector *vec,int size)
+typedescriptor_print(FILE *file,typedescriptor_t *td)
{
- int i;
-
- fprintf(file,"[%d]",vec->k);
- for (i=0; i<size; ++i) {
- fprintf(file," %d=",i);
- typedescriptor_print(file,vec->td + i);
- }
+ typeinfo_print_type(file,td->type,&(td->typeinfo));
}
void
-typevectorset_print(FILE *file,typevector *set,int size)
+typevector_print(FILE *file,varinfo *vec,int size)
{
int i;
- typevector *vec;
- fprintf(file,"[%d",set->k);
- vec = set->alt;
- while (vec) {
- fprintf(file,"|%d",vec->k);
- vec = vec->alt;
- }
- fprintf(file,"]");
-
for (i=0; i<size; ++i) {
fprintf(file," %d=",i);
- typedescriptor_print(file,set->td + i);
- vec = set->alt;
- while (vec) {
- fprintf(file,"|");
- typedescriptor_print(file,vec->td + i);
- vec = vec->alt;
- }
+ typeinfo_print_type(file, vec[i].type, &(vec[i].typeinfo));
}
}
* c-basic-offset: 4
* tab-width: 4
* End:
+ * vim:noexpandtab:sw=4:ts=4:
*/