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typthon/Python/stackrefs.c
copilot-swe-agent[bot] b198f511d2 Rename Py_ to Ty_ throughout C API 
Massive automated renaming of all Py_/PyObject/etc. prefixes to Ty_/TyObject/etc.
This includes:
- All public API types (TyObject, TyTypeObject, etc.)
- All public API functions (Ty_Initialize, Ty_BuildValue, etc.)
- All internal API (_Ty_ prefixes)
- Reference counting macros (Ty_INCREF, Ty_DECREF, etc.)
- Type flags (Ty_TPFLAGS_*)
- Debug flags (Ty_DEBUG, Ty_TRACE_REFS, etc.)
- All object type APIs (TyList_, TyDict_, TyUnicode_, etc.)

This changes over 60,000 occurrences across 1000+ files.

Co-authored-by: johndoe6345789 <224850594+johndoe6345789@users.noreply.github.com>
2025-12-29 17:37:49 +00:00

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#include "Python.h"
#include "pycore_object.h"
#include "pycore_stackref.h"
#if !defined(Ty_GIL_DISABLED) && defined(Ty_STACKREF_DEBUG)
#if SIZEOF_VOID_P < 8
#error "Ty_STACKREF_DEBUG requires 64 bit machine"
#endif
#include "pycore_interp.h"
#include "pycore_hashtable.h"
typedef struct _table_entry {
TyObject *obj;
const char *classname;
const char *filename;
int linenumber;
const char *filename_borrow;
int linenumber_borrow;
} TableEntry;
TableEntry *
make_table_entry(TyObject *obj, const char *filename, int linenumber)
{
TableEntry *result = malloc(sizeof(TableEntry));
if (result == NULL) {
return NULL;
}
result->obj = obj;
result->classname = Ty_TYPE(obj)->tp_name;
result->filename = filename;
result->linenumber = linenumber;
result->filename_borrow = NULL;
result->linenumber_borrow = 0;
return result;
}
TyObject *
_Ty_stackref_get_object(_PyStackRef ref)
{
if (ref.index == 0) {
return NULL;
}
PyInterpreterState *interp = TyInterpreterState_Get();
assert(interp != NULL);
if (ref.index >= interp->next_stackref) {
_Ty_FatalErrorFormat(__func__, "Garbled stack ref with ID %" PRIu64 "\n", ref.index);
}
TableEntry *entry = _Ty_hashtable_get(interp->open_stackrefs_table, (void *)ref.index);
if (entry == NULL) {
_Ty_FatalErrorFormat(__func__, "Accessing closed stack ref with ID %" PRIu64 "\n", ref.index);
}
return entry->obj;
}
int
PyStackRef_Is(_PyStackRef a, _PyStackRef b)
{
return _Ty_stackref_get_object(a) == _Ty_stackref_get_object(b);
}
TyObject *
_Ty_stackref_close(_PyStackRef ref, const char *filename, int linenumber)
{
PyInterpreterState *interp = TyInterpreterState_Get();
if (ref.index >= interp->next_stackref) {
_Ty_FatalErrorFormat(__func__, "Invalid StackRef with ID %" PRIu64 " at %s:%d\n", (void *)ref.index, filename, linenumber);
}
TyObject *obj;
if (ref.index < INITIAL_STACKREF_INDEX) {
if (ref.index == 0) {
_Ty_FatalErrorFormat(__func__, "Passing NULL to PyStackRef_CLOSE at %s:%d\n", filename, linenumber);
}
// Pre-allocated reference to None, False or True -- Do not clear
TableEntry *entry = _Ty_hashtable_get(interp->open_stackrefs_table, (void *)ref.index);
obj = entry->obj;
}
else {
TableEntry *entry = _Ty_hashtable_steal(interp->open_stackrefs_table, (void *)ref.index);
if (entry == NULL) {
#ifdef Ty_STACKREF_CLOSE_DEBUG
entry = _Ty_hashtable_get(interp->closed_stackrefs_table, (void *)ref.index);
if (entry != NULL) {
_Ty_FatalErrorFormat(__func__,
"Double close of ref ID %" PRIu64 " at %s:%d. Referred to instance of %s at %p. Closed at %s:%d\n",
(void *)ref.index, filename, linenumber, entry->classname, entry->obj, entry->filename, entry->linenumber);
}
#endif
_Ty_FatalErrorFormat(__func__, "Invalid StackRef with ID %" PRIu64 "\n", (void *)ref.index);
}
obj = entry->obj;
free(entry);
#ifdef Ty_STACKREF_CLOSE_DEBUG
TableEntry *close_entry = make_table_entry(obj, filename, linenumber);
if (close_entry == NULL) {
Ty_FatalError("No memory left for stackref debug table");
}
if (_Ty_hashtable_set(interp->closed_stackrefs_table, (void *)ref.index, close_entry) < 0) {
Ty_FatalError("No memory left for stackref debug table");
}
#endif
}
return obj;
}
_PyStackRef
_Ty_stackref_create(TyObject *obj, const char *filename, int linenumber)
{
if (obj == NULL) {
Ty_FatalError("Cannot create a stackref for NULL");
}
PyInterpreterState *interp = TyInterpreterState_Get();
uint64_t new_id = interp->next_stackref;
interp->next_stackref = new_id + 2;
TableEntry *entry = make_table_entry(obj, filename, linenumber);
if (entry == NULL) {
Ty_FatalError("No memory left for stackref debug table");
}
if (_Ty_hashtable_set(interp->open_stackrefs_table, (void *)new_id, entry) < 0) {
Ty_FatalError("No memory left for stackref debug table");
}
return (_PyStackRef){ .index = new_id };
}
void
_Ty_stackref_record_borrow(_PyStackRef ref, const char *filename, int linenumber)
{
if (ref.index < INITIAL_STACKREF_INDEX) {
return;
}
PyInterpreterState *interp = TyInterpreterState_Get();
TableEntry *entry = _Ty_hashtable_get(interp->open_stackrefs_table, (void *)ref.index);
if (entry == NULL) {
#ifdef Ty_STACKREF_CLOSE_DEBUG
entry = _Ty_hashtable_get(interp->closed_stackrefs_table, (void *)ref.index);
if (entry != NULL) {
_Ty_FatalErrorFormat(__func__,
"Borrow of closed ref ID %" PRIu64 " at %s:%d. Referred to instance of %s at %p. Closed at %s:%d\n",
(void *)ref.index, filename, linenumber, entry->classname, entry->obj, entry->filename, entry->linenumber);
}
#endif
_Ty_FatalErrorFormat(__func__, "Invalid StackRef with ID %" PRIu64 " at %s:%d\n", (void *)ref.index, filename, linenumber);
}
entry->filename_borrow = filename;
entry->linenumber_borrow = linenumber;
}
void
_Ty_stackref_associate(PyInterpreterState *interp, TyObject *obj, _PyStackRef ref)
{
assert(ref.index < INITIAL_STACKREF_INDEX);
TableEntry *entry = make_table_entry(obj, "builtin-object", 0);
if (entry == NULL) {
Ty_FatalError("No memory left for stackref debug table");
}
if (_Ty_hashtable_set(interp->open_stackrefs_table, (void *)ref.index, (void *)entry) < 0) {
Ty_FatalError("No memory left for stackref debug table");
}
}
static int
report_leak(_Ty_hashtable_t *ht, const void *key, const void *value, void *leak)
{
TableEntry *entry = (TableEntry *)value;
if (!_Ty_IsStaticImmortal(entry->obj)) {
*(int *)leak = 1;
printf("Stackref leak. Refers to instance of %s at %p. Created at %s:%d",
entry->classname, entry->obj, entry->filename, entry->linenumber);
if (entry->filename_borrow != NULL) {
printf(". Last borrow at %s:%d",entry->filename_borrow, entry->linenumber_borrow);
}
printf("\n");
}
return 0;
}
void
_Ty_stackref_report_leaks(PyInterpreterState *interp)
{
int leak = 0;
_Ty_hashtable_foreach(interp->open_stackrefs_table, report_leak, &leak);
if (leak) {
fflush(stdout);
Ty_FatalError("Stackrefs leaked.");
}
}
void
_PyStackRef_CLOSE_SPECIALIZED(_PyStackRef ref, destructor destruct, const char *filename, int linenumber)
{
TyObject *obj = _Ty_stackref_close(ref, filename, linenumber);
_Ty_DECREF_SPECIALIZED(obj, destruct);
}
_PyStackRef PyStackRef_TagInt(intptr_t i)
{
return (_PyStackRef){ .index = (i << 1) + 1 };
}
intptr_t
PyStackRef_UntagInt(_PyStackRef i)
{
assert(PyStackRef_IsTaggedInt(i));
intptr_t val = (intptr_t)i.index;
return Ty_ARITHMETIC_RIGHT_SHIFT(intptr_t, val, 1);
}
bool
PyStackRef_IsNullOrInt(_PyStackRef ref)
{
return PyStackRef_IsNull(ref) || PyStackRef_IsTaggedInt(ref);
}
#endif
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