mirror of https://github.com/python/cpython
279 lines
9.6 KiB
C
279 lines
9.6 KiB
C
#ifndef Py_INTERNAL_CROSSINTERP_H
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#define Py_INTERNAL_CROSSINTERP_H
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#ifdef __cplusplus
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extern "C" {
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#endif
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#ifndef Py_BUILD_CORE
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# error "this header requires Py_BUILD_CORE define"
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#endif
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#include "pycore_pyerrors.h"
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/***************************/
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/* cross-interpreter calls */
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/***************************/
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typedef int (*_Py_simple_func)(void *);
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extern int _Py_CallInInterpreter(
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PyInterpreterState *interp,
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_Py_simple_func func,
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void *arg);
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extern int _Py_CallInInterpreterAndRawFree(
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PyInterpreterState *interp,
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_Py_simple_func func,
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void *arg);
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/**************************/
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/* cross-interpreter data */
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/**************************/
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typedef struct _xid _PyCrossInterpreterData;
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typedef PyObject *(*xid_newobjectfunc)(_PyCrossInterpreterData *);
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typedef void (*xid_freefunc)(void *);
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// _PyCrossInterpreterData is similar to Py_buffer as an effectively
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// opaque struct that holds data outside the object machinery. This
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// is necessary to pass safely between interpreters in the same process.
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struct _xid {
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// data is the cross-interpreter-safe derivation of a Python object
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// (see _PyObject_GetCrossInterpreterData). It will be NULL if the
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// new_object func (below) encodes the data.
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void *data;
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// obj is the Python object from which the data was derived. This
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// is non-NULL only if the data remains bound to the object in some
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// way, such that the object must be "released" (via a decref) when
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// the data is released. In that case the code that sets the field,
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// likely a registered "crossinterpdatafunc", is responsible for
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// ensuring it owns the reference (i.e. incref).
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PyObject *obj;
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// interp is the ID of the owning interpreter of the original
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// object. It corresponds to the active interpreter when
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// _PyObject_GetCrossInterpreterData() was called. This should only
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// be set by the cross-interpreter machinery.
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//
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// We use the ID rather than the PyInterpreterState to avoid issues
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// with deleted interpreters. Note that IDs are never re-used, so
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// each one will always correspond to a specific interpreter
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// (whether still alive or not).
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int64_t interpid;
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// new_object is a function that returns a new object in the current
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// interpreter given the data. The resulting object (a new
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// reference) will be equivalent to the original object. This field
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// is required.
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xid_newobjectfunc new_object;
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// free is called when the data is released. If it is NULL then
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// nothing will be done to free the data. For some types this is
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// okay (e.g. bytes) and for those types this field should be set
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// to NULL. However, for most the data was allocated just for
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// cross-interpreter use, so it must be freed when
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// _PyCrossInterpreterData_Release is called or the memory will
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// leak. In that case, at the very least this field should be set
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// to PyMem_RawFree (the default if not explicitly set to NULL).
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// The call will happen with the original interpreter activated.
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xid_freefunc free;
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};
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PyAPI_FUNC(_PyCrossInterpreterData *) _PyCrossInterpreterData_New(void);
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PyAPI_FUNC(void) _PyCrossInterpreterData_Free(_PyCrossInterpreterData *data);
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/* defining cross-interpreter data */
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PyAPI_FUNC(void) _PyCrossInterpreterData_Init(
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_PyCrossInterpreterData *data,
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PyInterpreterState *interp, void *shared, PyObject *obj,
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xid_newobjectfunc new_object);
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PyAPI_FUNC(int) _PyCrossInterpreterData_InitWithSize(
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_PyCrossInterpreterData *,
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PyInterpreterState *interp, const size_t, PyObject *,
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xid_newobjectfunc);
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PyAPI_FUNC(void) _PyCrossInterpreterData_Clear(
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PyInterpreterState *, _PyCrossInterpreterData *);
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/* using cross-interpreter data */
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PyAPI_FUNC(int) _PyObject_CheckCrossInterpreterData(PyObject *);
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PyAPI_FUNC(int) _PyObject_GetCrossInterpreterData(PyObject *, _PyCrossInterpreterData *);
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PyAPI_FUNC(PyObject *) _PyCrossInterpreterData_NewObject(_PyCrossInterpreterData *);
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PyAPI_FUNC(int) _PyCrossInterpreterData_Release(_PyCrossInterpreterData *);
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PyAPI_FUNC(int) _PyCrossInterpreterData_ReleaseAndRawFree(_PyCrossInterpreterData *);
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/* cross-interpreter data registry */
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// For now we use a global registry of shareable classes. An
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// alternative would be to add a tp_* slot for a class's
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// crossinterpdatafunc. It would be simpler and more efficient.
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typedef int (*crossinterpdatafunc)(PyThreadState *tstate, PyObject *,
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_PyCrossInterpreterData *);
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struct _xidregitem;
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struct _xidregitem {
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struct _xidregitem *prev;
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struct _xidregitem *next;
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/* This can be a dangling pointer, but only if weakref is set. */
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PyTypeObject *cls;
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/* This is NULL for builtin types. */
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PyObject *weakref;
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size_t refcount;
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crossinterpdatafunc getdata;
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};
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struct _xidregistry {
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int global; /* builtin types or heap types */
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int initialized;
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PyThread_type_lock mutex;
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struct _xidregitem *head;
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};
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PyAPI_FUNC(int) _PyCrossInterpreterData_RegisterClass(PyTypeObject *, crossinterpdatafunc);
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PyAPI_FUNC(int) _PyCrossInterpreterData_UnregisterClass(PyTypeObject *);
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PyAPI_FUNC(crossinterpdatafunc) _PyCrossInterpreterData_Lookup(PyObject *);
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/*****************************/
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/* runtime state & lifecycle */
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/*****************************/
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struct _xi_runtime_state {
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// builtin types
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// XXX Remove this field once we have a tp_* slot.
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struct _xidregistry registry;
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};
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struct _xi_state {
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// heap types
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// XXX Remove this field once we have a tp_* slot.
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struct _xidregistry registry;
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// heap types
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PyObject *PyExc_NotShareableError;
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};
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extern PyStatus _PyXI_Init(PyInterpreterState *interp);
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extern void _PyXI_Fini(PyInterpreterState *interp);
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/***************************/
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/* short-term data sharing */
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/***************************/
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// Ultimately we'd like to preserve enough information about the
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// exception and traceback that we could re-constitute (or at least
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// simulate, a la traceback.TracebackException), and even chain, a copy
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// of the exception in the calling interpreter.
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typedef struct _excinfo {
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const char *type;
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const char *msg;
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} _Py_excinfo;
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typedef enum error_code {
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_PyXI_ERR_NO_ERROR = 0,
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_PyXI_ERR_UNCAUGHT_EXCEPTION = -1,
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_PyXI_ERR_OTHER = -2,
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_PyXI_ERR_NO_MEMORY = -3,
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_PyXI_ERR_ALREADY_RUNNING = -4,
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_PyXI_ERR_MAIN_NS_FAILURE = -5,
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_PyXI_ERR_APPLY_NS_FAILURE = -6,
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_PyXI_ERR_NOT_SHAREABLE = -7,
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} _PyXI_errcode;
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typedef struct _sharedexception {
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// The originating interpreter.
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PyInterpreterState *interp;
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// The kind of error to propagate.
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_PyXI_errcode code;
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// The exception information to propagate, if applicable.
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// This is populated only for _PyXI_ERR_UNCAUGHT_EXCEPTION.
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_Py_excinfo uncaught;
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} _PyXI_exception_info;
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PyAPI_FUNC(void) _PyXI_ApplyExceptionInfo(
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_PyXI_exception_info *info,
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PyObject *exctype);
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typedef struct xi_session _PyXI_session;
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typedef struct _sharedns _PyXI_namespace;
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PyAPI_FUNC(void) _PyXI_FreeNamespace(_PyXI_namespace *ns);
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PyAPI_FUNC(_PyXI_namespace *) _PyXI_NamespaceFromNames(PyObject *names);
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PyAPI_FUNC(int) _PyXI_FillNamespaceFromDict(
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_PyXI_namespace *ns,
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PyObject *nsobj,
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_PyXI_session *session);
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PyAPI_FUNC(int) _PyXI_ApplyNamespace(
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_PyXI_namespace *ns,
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PyObject *nsobj,
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PyObject *dflt);
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// A cross-interpreter session involves entering an interpreter
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// (_PyXI_Enter()), doing some work with it, and finally exiting
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// that interpreter (_PyXI_Exit()).
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//
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// At the boundaries of the session, both entering and exiting,
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// data may be exchanged between the previous interpreter and the
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// target one in a thread-safe way that does not violate the
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// isolation between interpreters. This includes setting objects
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// in the target's __main__ module on the way in, and capturing
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// uncaught exceptions on the way out.
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struct xi_session {
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// Once a session has been entered, this is the tstate that was
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// current before the session. If it is different from cur_tstate
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// then we must have switched interpreters. Either way, this will
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// be the current tstate once we exit the session.
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PyThreadState *prev_tstate;
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// Once a session has been entered, this is the current tstate.
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// It must be current when the session exits.
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PyThreadState *init_tstate;
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// This is true if init_tstate needs cleanup during exit.
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int own_init_tstate;
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// This is true if, while entering the session, init_thread took
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// "ownership" of the interpreter's __main__ module. This means
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// it is the only thread that is allowed to run code there.
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// (Caveat: for now, users may still run exec() against the
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// __main__ module's dict, though that isn't advisable.)
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int running;
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// This is a cached reference to the __dict__ of the entered
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// interpreter's __main__ module. It is looked up when at the
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// beginning of the session as a convenience.
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PyObject *main_ns;
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// This is set if the interpreter is entered and raised an exception
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// that needs to be handled in some special way during exit.
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_PyXI_errcode *exc_override;
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// This is set if exit captured an exception to propagate.
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_PyXI_exception_info *exc;
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// -- pre-allocated memory --
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_PyXI_exception_info _exc;
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_PyXI_errcode _exc_override;
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};
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PyAPI_FUNC(int) _PyXI_Enter(
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_PyXI_session *session,
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PyInterpreterState *interp,
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PyObject *nsupdates);
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PyAPI_FUNC(void) _PyXI_Exit(_PyXI_session *session);
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PyAPI_FUNC(void) _PyXI_ApplyCapturedException(
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_PyXI_session *session,
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PyObject *excwrapper);
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PyAPI_FUNC(int) _PyXI_HasCapturedException(_PyXI_session *session);
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#ifdef __cplusplus
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}
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#endif
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#endif /* !Py_INTERNAL_CROSSINTERP_H */
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