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#ifndef Py_INTERNAL_INTERP_H
#define Py_INTERNAL_INTERP_H
#ifdef __cplusplus
extern "C" {
#endif
#ifndef Py_BUILD_CORE
# error "this header requires Py_BUILD_CORE define"
#endif
#include <stdbool.h>
#include "pycore_atomic.h" // _Py_atomic_address
#include "pycore_ast_state.h" // struct ast_state
#include "pycore_code.h" // struct callable_cache
#include "pycore_context.h" // struct _Py_context_state
#include "pycore_dict.h" // struct _Py_dict_state
#include "pycore_exceptions.h" // struct _Py_exc_state
#include "pycore_floatobject.h" // struct _Py_float_state
#include "pycore_genobject.h" // struct _Py_async_gen_state
#include "pycore_gc.h" // struct _gc_runtime_state
#include "pycore_list.h" // struct _Py_list_state
#include "pycore_global_objects.h" // struct _Py_interp_static_objects
#include "pycore_tuple.h" // struct _Py_tuple_state
#include "pycore_typeobject.h" // struct type_cache
#include "pycore_unicodeobject.h" // struct _Py_unicode_state
#include "pycore_warnings.h" // struct _warnings_runtime_state
struct _pending_calls {
PyThread_type_lock lock;
/* Request for running pending calls. */
_Py_atomic_int calls_to_do;
/* Request for looking at the `async_exc` field of the current
thread state.
Guarded by the GIL. */
int async_exc;
#define NPENDINGCALLS 32
struct {
int (*func)(void *);
void *arg;
} calls[NPENDINGCALLS];
int first;
int last;
};
struct _ceval_state {
int recursion_limit;
/* This single variable consolidates all requests to break out of
the fast path in the eval loop. */
_Py_atomic_int eval_breaker;
/* Request for dropping the GIL */
_Py_atomic_int gil_drop_request;
/* The GC is ready to be executed */
_Py_atomic_int gc_scheduled;
struct _pending_calls pending;
};
// atexit state
typedef struct {
PyObject *func;
PyObject *args;
PyObject *kwargs;
} atexit_callback;
struct atexit_state {
atexit_callback **callbacks;
int ncallbacks;
int callback_len;
};
struct _Py_long_state {
int max_str_digits;
};
/* interpreter state */
/* PyInterpreterState holds the global state for one of the runtime's
interpreters. Typically the initial (main) interpreter is the only one.
The PyInterpreterState typedef is in Include/pytypedefs.h.
*/
struct _is {
PyInterpreterState *next;
struct pythreads {
uint64_t next_unique_id;
/* The linked list of threads, newest first. */
PyThreadState *head;
/* Used in Modules/_threadmodule.c. */
long count;
/* Support for runtime thread stack size tuning.
A value of 0 means using the platform's default stack size
or the size specified by the THREAD_STACK_SIZE macro. */
/* Used in Python/thread.c. */
size_t stacksize;
} threads;
/* Reference to the _PyRuntime global variable. This field exists
to not have to pass runtime in addition to tstate to a function.
Get runtime from tstate: tstate->interp->runtime. */
struct pyruntimestate *runtime;
int64_t id;
int64_t id_refcount;
int requires_idref;
PyThread_type_lock id_mutex;
/* Has been initialized to a safe state.
In order to be effective, this must be set to 0 during or right
after allocation. */
int _initialized;
int finalizing;
struct _ceval_state ceval;
struct _gc_runtime_state gc;
// sys.modules dictionary
PyObject *modules;
/* This is the list of module objects for all legacy (single-phase init)
extension modules ever loaded in this process (i.e. imported
in this interpreter or in any other). Py_None stands in for
modules that haven't actually been imported in this interpreter.
A module's index (PyModuleDef.m_base.m_index) is used to look up
the corresponding module object for this interpreter, if any.
(See PyState_FindModule().) When any extension module
is initialized during import, its moduledef gets initialized by
PyModuleDef_Init(), and the first time that happens for each
PyModuleDef, its index gets set to the current value of
a global counter (see _PyRuntimeState.imports.last_module_index).
The entry for that index in this interpreter remains unset until
the module is actually imported here. (Py_None is used as
a placeholder.) Note that multi-phase init modules always get
an index for which there will never be a module set.
This is initialized lazily in _PyState_AddModule(), which is also
where modules get added. */
PyObject *modules_by_index;
// Dictionary of the sys module
PyObject *sysdict;
// Dictionary of the builtins module
PyObject *builtins;
// importlib module
PyObject *importlib;
// override for config->use_frozen_modules (for tests)
// (-1: "off", 1: "on", 0: no override)
int override_frozen_modules;
PyObject *codec_search_path;
PyObject *codec_search_cache;
PyObject *codec_error_registry;
int codecs_initialized;
PyConfig config;
#ifdef HAVE_DLOPEN
int dlopenflags;
#endif
unsigned long feature_flags;
PyObject *dict; /* Stores per-interpreter state */
PyObject *builtins_copy;
PyObject *import_func;
// Initialized to _PyEval_EvalFrameDefault().
_PyFrameEvalFunction eval_frame;
PyDict_WatchCallback dict_watchers[DICT_MAX_WATCHERS];
Py_ssize_t co_extra_user_count;
freefunc co_extra_freefuncs[MAX_CO_EXTRA_USERS];
#ifdef HAVE_FORK
PyObject *before_forkers;
PyObject *after_forkers_parent;
PyObject *after_forkers_child;
#endif
struct _warnings_runtime_state warnings;
struct atexit_state atexit;
PyObject *audit_hooks;
PyType_WatchCallback type_watchers[TYPE_MAX_WATCHERS];
struct _Py_unicode_state unicode;
struct _Py_float_state float_state;
struct _Py_long_state long_state;
/* Using a cache is very effective since typically only a single slice is
created and then deleted again. */
PySliceObject *slice_cache;
struct _Py_tuple_state tuple;
struct _Py_list_state list;
struct _Py_dict_state dict_state;
struct _Py_async_gen_state async_gen;
struct _Py_context_state context;
struct _Py_exc_state exc_state;
struct ast_state ast;
struct types_state types;
struct callable_cache callable_cache;
PyCodeObject *interpreter_trampoline;
struct _Py_interp_cached_objects cached_objects;
struct _Py_interp_static_objects static_objects;
/* The following fields are here to avoid allocation during init.
The data is exposed through PyInterpreterState pointer fields.
These fields should not be accessed directly outside of init.
All other PyInterpreterState pointer fields are populated when
needed and default to NULL.
For now there are some exceptions to that rule, which require
allocation during init. These will be addressed on a case-by-case
basis. Also see _PyRuntimeState regarding the various mutex fields.
*/
/* the initial PyInterpreterState.threads.head */
PyThreadState _initial_thread;
};
/* other API */
extern void _PyInterpreterState_ClearModules(PyInterpreterState *interp);
extern void _PyInterpreterState_Clear(PyThreadState *tstate);
/* cross-interpreter data registry */
/* For now we use a global registry of shareable classes. An
alternative would be to add a tp_* slot for a class's
crossinterpdatafunc. It would be simpler and more efficient. */
struct _xidregitem;
struct _xidregitem {
PyTypeObject *cls;
crossinterpdatafunc getdata;
struct _xidregitem *next;
};
PyAPI_FUNC(PyInterpreterState*) _PyInterpreterState_LookUpID(int64_t);
PyAPI_FUNC(int) _PyInterpreterState_IDInitref(PyInterpreterState *);
PyAPI_FUNC(int) _PyInterpreterState_IDIncref(PyInterpreterState *);
PyAPI_FUNC(void) _PyInterpreterState_IDDecref(PyInterpreterState *);
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_INTERP_H */
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