// This is copied from genobject.c in CPython 3.6. // Try to keep it in sync by doing this from time to time: // sed -e 's|__pyx_||ig' Cython/Utility/AsyncGen.c | diff -udw - cpython/Objects/genobject.c | less //////////////////// AsyncGenerator.module_state_decls //////////////////// PyTypeObject *__pyx__PyAsyncGenWrappedValueType; PyTypeObject *__pyx__PyAsyncGenASendType; PyTypeObject *__pyx__PyAsyncGenAThrowType; PyTypeObject *__pyx_AsyncGenType; // Freelists boost performance 6-10%; they also reduce memory // fragmentation, as _PyAsyncGenWrappedValue and PyAsyncGenASend // are short-living objects that are instantiated for every // __anext__ call. #if CYTHON_USE_FREELISTS struct __pyx__PyAsyncGenWrappedValue *__Pyx_ag_value_freelist[_PyAsyncGen_MAXFREELIST]; int __Pyx_ag_value_freelist_free; struct __pyx_PyAsyncGenASend *__Pyx_ag_asend_freelist[_PyAsyncGen_MAXFREELIST]; int __Pyx_ag_asend_freelist_free; #endif //////////////////// AsyncGenerator.proto //////////////////// //@requires: Coroutine.c::Coroutine #define __Pyx_AsyncGen_USED typedef struct { __pyx_CoroutineObject coro; PyObject *ag_finalizer; int ag_hooks_inited; int ag_closed; int ag_running_async; } __pyx_PyAsyncGenObject; #define __Pyx_AsyncGen_CheckExact(obj) __Pyx_IS_TYPE(obj, CGLOBAL(__pyx_AsyncGenType)) #define __pyx_PyAsyncGenASend_CheckExact(o) \ __Pyx_IS_TYPE(o, CGLOBAL(__pyx__PyAsyncGenASendType)) #define __pyx_PyAsyncGenAThrow_CheckExact(o) \ __Pyx_IS_TYPE(o, CGLOBAL(__pyx__PyAsyncGenAThrowType)) static PyObject *__Pyx_async_gen_anext(PyObject *o); static CYTHON_INLINE PyObject *__Pyx_async_gen_asend_iternext(PyObject *o); static PyObject *__Pyx_async_gen_asend_send(PyObject *g, PyObject *arg); static PyObject *__Pyx_async_gen_asend_close(PyObject *o, PyObject *args); static PyObject *__Pyx_async_gen_athrow_close(PyObject *o, PyObject *args); static PyObject *__Pyx__PyAsyncGenValueWrapperNew(PyObject *val); static __pyx_CoroutineObject *__Pyx_AsyncGen_New( __pyx_coroutine_body_t body, PyObject *code, PyObject *closure, PyObject *name, PyObject *qualname, PyObject *module_name); static int __pyx_AsyncGen_init(PyObject *module); static void __Pyx_PyAsyncGen_Fini(void); #if CYTHON_USE_FREELISTS && !defined(_PyAsyncGen_MAXFREELIST) #define _PyAsyncGen_MAXFREELIST 80 #endif struct __pyx__PyAsyncGenWrappedValue; struct __pyx_PyAsyncGenASend; //////////////////// AsyncGenerator.cleanup //////////////////// __Pyx_PyAsyncGen_Fini(); //////////////////// AsyncGenerator //////////////////// //@substitute: naming //@requires: Coroutine.c::Coroutine //@requires: Coroutine.c::ReturnWithStopIteration //@requires: ObjectHandling.c::PyObjectCall2Args //@requires: ExtensionTypes.c::CallTypeTraverse PyDoc_STRVAR(__Pyx_async_gen_send_doc, "send(arg) -> send 'arg' into generator,\n\ return next yielded value or raise StopIteration."); PyDoc_STRVAR(__Pyx_async_gen_close_doc, "close() -> raise GeneratorExit inside generator."); PyDoc_STRVAR(__Pyx_async_gen_throw_doc, "throw(typ[,val[,tb]]) -> raise exception in generator,\n\ return next yielded value or raise StopIteration."); PyDoc_STRVAR(__Pyx_async_gen_await_doc, "__await__() -> return a representation that can be passed into the 'await' expression."); static __pyx_CoroutineObject *__Pyx_AsyncGen_New( __pyx_coroutine_body_t body, PyObject *code, PyObject *closure, PyObject *name, PyObject *qualname, PyObject *module_name) { __pyx_PyAsyncGenObject *gen = PyObject_GC_New(__pyx_PyAsyncGenObject, CGLOBAL(__pyx_AsyncGenType)); if (unlikely(!gen)) return NULL; gen->ag_finalizer = NULL; gen->ag_closed = 0; gen->ag_hooks_inited = 0; gen->ag_running_async = 0; return __Pyx__Coroutine_NewInit((__pyx_CoroutineObject*)gen, body, code, closure, name, qualname, module_name); } // COPY STARTS HERE: static PyObject *__Pyx_async_gen_asend_new(__pyx_PyAsyncGenObject *, PyObject *); static PyObject *__Pyx_async_gen_athrow_new(__pyx_PyAsyncGenObject *, PyObject *); static const char *__Pyx_NON_INIT_CORO_MSG = "can't send non-None value to a just-started coroutine"; static const char *__Pyx_ASYNC_GEN_IGNORED_EXIT_MSG = "async generator ignored GeneratorExit"; static const char *__Pyx_ASYNC_GEN_CANNOT_REUSE_SEND_MSG = "cannot reuse already awaited __anext__()/asend()"; static const char *__Pyx_ASYNC_GEN_CANNOT_REUSE_CLOSE_MSG = "cannot reuse already awaited aclose()/athrow()"; typedef enum { __PYX_AWAITABLE_STATE_INIT, /* new awaitable, has not yet been iterated */ __PYX_AWAITABLE_STATE_ITER, /* being iterated */ __PYX_AWAITABLE_STATE_CLOSED, /* closed */ } __pyx_AwaitableState; typedef struct __pyx_PyAsyncGenASend { PyObject_HEAD __pyx_PyAsyncGenObject *ags_gen; /* Can be NULL, when in the __anext__() mode (equivalent of "asend(None)") */ PyObject *ags_sendval; __pyx_AwaitableState ags_state; } __pyx_PyAsyncGenASend; typedef struct { PyObject_HEAD __pyx_PyAsyncGenObject *agt_gen; /* Can be NULL, when in the "aclose()" mode (equivalent of "athrow(GeneratorExit)") */ PyObject *agt_args; __pyx_AwaitableState agt_state; } __pyx_PyAsyncGenAThrow; typedef struct __pyx__PyAsyncGenWrappedValue { PyObject_HEAD PyObject *agw_val; } __pyx__PyAsyncGenWrappedValue; #define __pyx__PyAsyncGenWrappedValue_CheckExact(o) \ __Pyx_IS_TYPE(o, CGLOBAL(__pyx__PyAsyncGenWrappedValueType)) static int __Pyx_async_gen_traverse(__pyx_PyAsyncGenObject *gen, visitproc visit, void *arg) { // visiting the type is handled in the base if needed Py_VISIT(gen->ag_finalizer); return __Pyx_Coroutine_traverse((__pyx_CoroutineObject*)gen, visit, arg); } static PyObject * __Pyx_async_gen_repr(__pyx_CoroutineObject *o) { // avoid NULL pointer dereference for qualname during garbage collection return PyUnicode_FromFormat("", o->gi_qualname ? o->gi_qualname : Py_None, o); } static int __Pyx_async_gen_init_hooks_firstiter(__pyx_PyAsyncGenObject *o, PyObject *firstiter) { PyObject *res; // at least asyncio stores methods here => optimise the call #if CYTHON_UNPACK_METHODS PyObject *self; if (likely(PyMethod_Check(firstiter)) && likely((self = PyMethod_GET_SELF(firstiter)) != NULL)) { PyObject *function = PyMethod_GET_FUNCTION(firstiter); res = __Pyx_PyObject_Call2Args(function, self, (PyObject*)o); } else #endif res = __Pyx_PyObject_CallOneArg(firstiter, (PyObject*)o); Py_DECREF(firstiter); if (unlikely(res == NULL)) return 1; Py_DECREF(res); return 0; } static CYTHON_INLINE int __Pyx_async_gen_init_hooks_done(__pyx_PyAsyncGenObject *o) { return o->ag_hooks_inited != 0; } static int __Pyx_async_gen_init_hooks(__pyx_PyAsyncGenObject *o) { #if !CYTHON_COMPILING_IN_PYPY && !CYTHON_COMPILING_IN_LIMITED_API PyThreadState *tstate; #endif PyObject *finalizer; PyObject *firstiter; assert (!__Pyx_async_gen_init_hooks_done(o)); o->ag_hooks_inited = 1; #if CYTHON_COMPILING_IN_LIMITED_API { PyObject *hooks_func = PySys_GetObject("get_asyncgen_hooks"); if (unlikely(!hooks_func)) { PyErr_SetString( PyExc_AttributeError, "Failed to get 'get_asyncgen_hooks' from sys" ); return 1; } PyObject *async_gen_hooks = PyObject_CallFunctionObjArgs(hooks_func, NULL); if (unlikely(!async_gen_hooks)) return 1; firstiter = PySequence_GetItem(async_gen_hooks, 0); if (unlikely(!firstiter)) { Py_DECREF(async_gen_hooks); return 1; } if (firstiter == Py_None) { Py_CLEAR(firstiter); } finalizer = PySequence_GetItem(async_gen_hooks, 1); Py_DECREF(async_gen_hooks); if (unlikely(!finalizer)) { Py_XDECREF(firstiter); return 1; } if (finalizer == Py_None) { Py_CLEAR(finalizer); } } #endif #if CYTHON_COMPILING_IN_PYPY finalizer = _PyEval_GetAsyncGenFinalizer(); #elif !CYTHON_COMPILING_IN_LIMITED_API tstate = __Pyx_PyThreadState_Current; finalizer = tstate->async_gen_finalizer; #endif if (finalizer) { #if !CYTHON_COMPILING_IN_LIMITED_API Py_INCREF(finalizer); #endif o->ag_finalizer = finalizer; } #if CYTHON_COMPILING_IN_PYPY firstiter = _PyEval_GetAsyncGenFirstiter(); #elif !CYTHON_COMPILING_IN_LIMITED_API firstiter = tstate->async_gen_firstiter; #endif if (firstiter) { #if !CYTHON_COMPILING_IN_LIMITED_API Py_INCREF(firstiter); #endif // Transfers the reference. if (unlikely(__Pyx_async_gen_init_hooks_firstiter(o, firstiter))) return 1; } return 0; } static PyObject * __Pyx_async_gen_anext(PyObject *g) { __pyx_PyAsyncGenObject *o = (__pyx_PyAsyncGenObject*) g; if (!__Pyx_async_gen_init_hooks_done(o) && unlikely(__Pyx_async_gen_init_hooks(o))) { return NULL; } return __Pyx_async_gen_asend_new(o, NULL); } static PyObject * __Pyx_async_gen_anext_method(PyObject *g, PyObject *arg) { CYTHON_UNUSED_VAR(arg); return __Pyx_async_gen_anext(g); } static PyObject * __Pyx_async_gen_asend(__pyx_PyAsyncGenObject *o, PyObject *arg) { if (!__Pyx_async_gen_init_hooks_done(o) && unlikely(__Pyx_async_gen_init_hooks(o))) { return NULL; } return __Pyx_async_gen_asend_new(o, arg); } static PyObject * __Pyx_async_gen_aclose(__pyx_PyAsyncGenObject *o, PyObject *arg) { CYTHON_UNUSED_VAR(arg); if (!__Pyx_async_gen_init_hooks_done(o) && unlikely(__Pyx_async_gen_init_hooks(o))) { return NULL; } return __Pyx_async_gen_athrow_new(o, NULL); } static PyObject * __Pyx_async_gen_athrow(__pyx_PyAsyncGenObject *o, PyObject *args) { if (!__Pyx_async_gen_init_hooks_done(o) && unlikely(__Pyx_async_gen_init_hooks(o))) { return NULL; } return __Pyx_async_gen_athrow_new(o, args); } static PyObject * __Pyx_async_gen_self_method(PyObject *g, PyObject *arg) { CYTHON_UNUSED_VAR(arg); return __Pyx_NewRef(g); } static PyGetSetDef __Pyx_async_gen_getsetlist[] = { {"__name__", (getter)__Pyx_Coroutine_get_name, (setter)__Pyx_Coroutine_set_name, PyDoc_STR("name of the async generator"), 0}, {"__qualname__", (getter)__Pyx_Coroutine_get_qualname, (setter)__Pyx_Coroutine_set_qualname, PyDoc_STR("qualified name of the async generator"), 0}, //REMOVED: {(char*) "ag_await", (getter)coro_get_cr_await, NULL, //REMOVED: (char*) PyDoc_STR("object being awaited on, or None")}, {0, 0, 0, 0, 0} /* Sentinel */ }; static PyMemberDef __Pyx_async_gen_memberlist[] = { //REMOVED: {(char*) "ag_frame", T_OBJECT, offsetof(__pyx_PyAsyncGenObject, ag_frame), READONLY}, {"ag_running", T_BOOL, offsetof(__pyx_PyAsyncGenObject, ag_running_async), READONLY, NULL}, //REMOVED: {(char*) "ag_code", T_OBJECT, offsetof(__pyx_PyAsyncGenObject, ag_code), READONLY}, //ADDED: "ag_await" {"ag_await", T_OBJECT, offsetof(__pyx_CoroutineObject, yieldfrom), READONLY, PyDoc_STR("object being awaited on, or None")}, {"__module__", T_OBJECT, offsetof(__pyx_CoroutineObject, gi_modulename), 0, 0}, {"__weaklistoffset__", T_PYSSIZET, offsetof(__pyx_CoroutineObject, gi_weakreflist), READONLY, 0}, {0, 0, 0, 0, 0} /* Sentinel */ }; PyDoc_STRVAR(__Pyx_async_aclose_doc, "aclose() -> raise GeneratorExit inside generator."); PyDoc_STRVAR(__Pyx_async_asend_doc, "asend(v) -> send 'v' in generator."); PyDoc_STRVAR(__Pyx_async_athrow_doc, "athrow(typ[,val[,tb]]) -> raise exception in generator."); PyDoc_STRVAR(__Pyx_async_aiter_doc, "__aiter__(v) -> return an asynchronous iterator."); PyDoc_STRVAR(__Pyx_async_anext_doc, "__anext__(v) -> continue asynchronous iteration and return the next element."); static PyMethodDef __Pyx_async_gen_methods[] = { {"asend", (PyCFunction)__Pyx_async_gen_asend, METH_O, __Pyx_async_asend_doc}, {"athrow",(PyCFunction)__Pyx_async_gen_athrow, METH_VARARGS, __Pyx_async_athrow_doc}, {"aclose", (PyCFunction)__Pyx_async_gen_aclose, METH_NOARGS, __Pyx_async_aclose_doc}, {"__aiter__", (PyCFunction)__Pyx_async_gen_self_method, METH_NOARGS, __Pyx_async_aiter_doc}, {"__anext__", (PyCFunction)__Pyx_async_gen_anext_method, METH_NOARGS, __Pyx_async_anext_doc}, {"__reduce_ex__", (PyCFunction) __Pyx_Coroutine_fail_reduce_ex, METH_O, 0}, {"__reduce__", (PyCFunction) __Pyx_Coroutine_fail_reduce_ex, METH_NOARGS, 0}, {0, 0, 0, 0} /* Sentinel */ }; static PyType_Slot __pyx_AsyncGenType_slots[] = { {Py_tp_dealloc, (void *)__Pyx_Coroutine_dealloc}, {Py_am_aiter, (void *)PyObject_SelfIter}, {Py_am_anext, (void *)__Pyx_async_gen_anext}, {Py_tp_repr, (void *)__Pyx_async_gen_repr}, {Py_tp_traverse, (void *)__Pyx_async_gen_traverse}, {Py_tp_methods, (void *)__Pyx_async_gen_methods}, {Py_tp_members, (void *)__Pyx_async_gen_memberlist}, {Py_tp_getset, (void *)__Pyx_async_gen_getsetlist}, #if CYTHON_USE_TP_FINALIZE {Py_tp_finalize, (void *)__Pyx_Coroutine_del}, #endif {0, 0}, }; static PyType_Spec __pyx_AsyncGenType_spec = { __PYX_TYPE_MODULE_PREFIX "async_generator", sizeof(__pyx_PyAsyncGenObject), 0, #if PY_VERSION_HEX >= 0x030A0000 Py_TPFLAGS_IMMUTABLETYPE | #endif Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_HAVE_FINALIZE, /*tp_flags*/ __pyx_AsyncGenType_slots }; static int __Pyx_PyAsyncGen_ClearFreeLists(void) { #if CYTHON_USE_FREELISTS int ret = CGLOBAL(__Pyx_ag_value_freelist_free) + CGLOBAL(__Pyx_ag_asend_freelist_free); while (CGLOBAL(__Pyx_ag_value_freelist_free)) { __pyx__PyAsyncGenWrappedValue *o; o = CGLOBAL(__Pyx_ag_value_freelist)[--CGLOBAL(__Pyx_ag_value_freelist_free]); assert(__pyx__PyAsyncGenWrappedValue_CheckExact(o)); __Pyx_PyHeapTypeObject_GC_Del(o); } while (CGLOBAL(__Pyx_ag_asend_freelist_free)) { __pyx_PyAsyncGenASend *o; o = CGLOBAL(__Pyx_ag_asend_freelist)[--CGLOBAL(__Pyx_ag_asend_freelist_free)]; assert(__Pyx_IS_TYPE(o, CGLOBAL(__pyx__PyAsyncGenASendType))); __Pyx_PyHeapTypeObject_GC_Del(o); } return ret; #else return 0; #endif } static void __Pyx_PyAsyncGen_Fini(void) { __Pyx_PyAsyncGen_ClearFreeLists(); } static PyObject * __Pyx_async_gen_unwrap_value(__pyx_PyAsyncGenObject *gen, PyObject *result, int iternext) { if (result == NULL) { PyObject *exc_type = PyErr_Occurred(); if (!exc_type) { PyErr_SetNone(PyExc_StopAsyncIteration); gen->ag_closed = 1; } else if (__Pyx_PyErr_GivenExceptionMatches2(exc_type, PyExc_StopAsyncIteration, PyExc_GeneratorExit)) { gen->ag_closed = 1; } gen->ag_running_async = 0; return NULL; } if (__pyx__PyAsyncGenWrappedValue_CheckExact(result)) { /* async yield */ __Pyx_ReturnWithStopIteration(((__pyx__PyAsyncGenWrappedValue*)result)->agw_val, 0, iternext); Py_DECREF(result); gen->ag_running_async = 0; return NULL; } return result; } /* ---------- Async Generator ASend Awaitable ------------ */ static void __Pyx_async_gen_asend_dealloc(__pyx_PyAsyncGenASend *o) { PyObject_GC_UnTrack((PyObject *)o); Py_CLEAR(o->ags_gen); Py_CLEAR(o->ags_sendval); #if CYTHON_USE_FREELISTS if (likely(CGLOBAL(__Pyx_ag_asend_freelist_free) < _PyAsyncGen_MAXFREELIST)) { assert(__pyx_PyAsyncGenASend_CheckExact(o)); CGLOBAL(__Pyx_ag_asend_freelist)[CGLOBAL(__Pyx_ag_asend_freelist_free)++] = o; } else #endif { __Pyx_PyHeapTypeObject_GC_Del(o); } } static int __Pyx_async_gen_asend_traverse(__pyx_PyAsyncGenASend *o, visitproc visit, void *arg) { { int e = __Pyx_call_type_traverse((PyObject*)o, 1, visit, arg); if (e) return e; } Py_VISIT(o->ags_gen); Py_VISIT(o->ags_sendval); return 0; } static PyObject * __Pyx_async_gen_asend_send_impl(PyObject *g, PyObject *arg, int iternext) { __pyx_PyAsyncGenASend *o = (__pyx_PyAsyncGenASend*) g; PyObject *retval; if (unlikely(o->ags_state == __PYX_AWAITABLE_STATE_CLOSED)) { PyErr_SetString(PyExc_RuntimeError, __Pyx_ASYNC_GEN_CANNOT_REUSE_SEND_MSG); return NULL; } if (o->ags_state == __PYX_AWAITABLE_STATE_INIT) { if (unlikely(o->ags_gen->ag_running_async)) { PyErr_SetString( PyExc_RuntimeError, "anext(): asynchronous generator is already running"); return NULL; } if (arg == NULL || arg == Py_None) { arg = o->ags_sendval ? o->ags_sendval : Py_None; } o->ags_state = __PYX_AWAITABLE_STATE_ITER; } o->ags_gen->ag_running_async = 1; retval = __Pyx_Coroutine_Send((PyObject*)o->ags_gen, arg); retval = __Pyx_async_gen_unwrap_value(o->ags_gen, retval, iternext); if (!retval) { o->ags_state = __PYX_AWAITABLE_STATE_CLOSED; } return retval; } static PyObject * __Pyx_async_gen_asend_send(PyObject *g, PyObject *arg) { return __Pyx_async_gen_asend_send_impl(g, arg, 0); } static CYTHON_INLINE PyObject * __Pyx_async_gen_asend_iternext(PyObject *o) { return __Pyx_async_gen_asend_send_impl(o, Py_None, 1); } static PyObject * __Pyx_async_gen_asend_throw(__pyx_PyAsyncGenASend *o, PyObject *args) { PyObject *result; if (unlikely(o->ags_state == __PYX_AWAITABLE_STATE_CLOSED)) { PyErr_SetString(PyExc_RuntimeError, __Pyx_ASYNC_GEN_CANNOT_REUSE_SEND_MSG); return NULL; } result = __Pyx_Coroutine_Throw((PyObject*)o->ags_gen, args); result = __Pyx_async_gen_unwrap_value(o->ags_gen, result, 0); if (result == NULL) { o->ags_state = __PYX_AWAITABLE_STATE_CLOSED; } return result; } static PyObject * __Pyx_async_gen_asend_close(PyObject *g, PyObject *args) { __pyx_PyAsyncGenASend *o = (__pyx_PyAsyncGenASend*) g; CYTHON_UNUSED_VAR(args); o->ags_state = __PYX_AWAITABLE_STATE_CLOSED; Py_RETURN_NONE; } static PyMethodDef __Pyx_async_gen_asend_methods[] = { {"send", (PyCFunction)__Pyx_async_gen_asend_send, METH_O, __Pyx_async_gen_send_doc}, {"throw", (PyCFunction)__Pyx_async_gen_asend_throw, METH_VARARGS, __Pyx_async_gen_throw_doc}, {"close", (PyCFunction)__Pyx_async_gen_asend_close, METH_NOARGS, __Pyx_async_gen_close_doc}, {"__await__", (PyCFunction)__Pyx_async_gen_self_method, METH_NOARGS, __Pyx_async_gen_await_doc}, {0, 0, 0, 0} /* Sentinel */ }; static PyType_Slot __pyx__PyAsyncGenASendType_slots[] = { {Py_tp_dealloc, (void *)__Pyx_async_gen_asend_dealloc}, {Py_am_await, (void *)PyObject_SelfIter}, {Py_tp_traverse, (void *)__Pyx_async_gen_asend_traverse}, {Py_tp_methods, (void *)__Pyx_async_gen_asend_methods}, {Py_tp_iter, (void *)PyObject_SelfIter}, {Py_tp_iternext, (void *)__Pyx_async_gen_asend_iternext}, {0, 0}, }; static PyType_Spec __pyx__PyAsyncGenASendType_spec = { __PYX_TYPE_MODULE_PREFIX "async_generator_asend", sizeof(__pyx_PyAsyncGenASend), 0, #if PY_VERSION_HEX >= 0x030A0000 Py_TPFLAGS_IMMUTABLETYPE | #endif Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC, /*tp_flags*/ __pyx__PyAsyncGenASendType_slots }; static PyObject * __Pyx_async_gen_asend_new(__pyx_PyAsyncGenObject *gen, PyObject *sendval) { __pyx_PyAsyncGenASend *o; #if CYTHON_USE_FREELISTS if (likely(CGLOBAL(__Pyx_ag_asend_freelist_free))) { CGLOBAL(__Pyx_ag_asend_freelist_free)--; o = CGLOBAL(__Pyx_ag_asend_freelist)[CGLOBAL(__Pyx_ag_asend_freelist_free)]; _Py_NewReference((PyObject *)o); } else #endif { o = PyObject_GC_New(__pyx_PyAsyncGenASend, CGLOBAL(__pyx__PyAsyncGenASendType)); if (unlikely(o == NULL)) { return NULL; } } Py_INCREF((PyObject*)gen); o->ags_gen = gen; Py_XINCREF(sendval); o->ags_sendval = sendval; o->ags_state = __PYX_AWAITABLE_STATE_INIT; PyObject_GC_Track((PyObject*)o); return (PyObject*)o; } /* ---------- Async Generator Value Wrapper ------------ */ static void __Pyx_async_gen_wrapped_val_dealloc(__pyx__PyAsyncGenWrappedValue *o) { PyObject_GC_UnTrack((PyObject *)o); Py_CLEAR(o->agw_val); #if CYTHON_USE_FREELISTS if (likely(CGLOBAL(__Pyx_ag_value_freelist_free) < _PyAsyncGen_MAXFREELIST)) { assert(__pyx__PyAsyncGenWrappedValue_CheckExact(o)); CGLOBAL(__Pyx_ag_value_freelist)[CGLOBAL(__Pyx_ag_value_freelist_free)++] = o; } else #endif { __Pyx_PyHeapTypeObject_GC_Del(o); } } static int __Pyx_async_gen_wrapped_val_traverse(__pyx__PyAsyncGenWrappedValue *o, visitproc visit, void *arg) { { int e = __Pyx_call_type_traverse((PyObject*)o, 1, visit, arg); if (e) return e; } Py_VISIT(o->agw_val); return 0; } static PyType_Slot __pyx__PyAsyncGenWrappedValueType_slots[] = { {Py_tp_dealloc, (void *)__Pyx_async_gen_wrapped_val_dealloc}, {Py_tp_traverse, (void *)__Pyx_async_gen_wrapped_val_traverse}, {0, 0}, }; static PyType_Spec __pyx__PyAsyncGenWrappedValueType_spec = { __PYX_TYPE_MODULE_PREFIX "async_generator_wrapped_value", sizeof(__pyx__PyAsyncGenWrappedValue), 0, #if PY_VERSION_HEX >= 0x030A0000 Py_TPFLAGS_IMMUTABLETYPE | #endif Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC, /*tp_flags*/ __pyx__PyAsyncGenWrappedValueType_slots }; static PyObject * __Pyx__PyAsyncGenValueWrapperNew(PyObject *val) { // NOTE: steals a reference to val ! __pyx__PyAsyncGenWrappedValue *o; assert(val); #if CYTHON_USE_FREELISTS if (likely(CGLOBAL(__Pyx_ag_value_freelist_free))) { CGLOBAL(__Pyx_ag_value_freelist_free)--; o = CGLOBAL(__Pyx_ag_value_freelist)[CGLOBAL(__Pyx_ag_value_freelist_free)]; assert(__pyx__PyAsyncGenWrappedValue_CheckExact(o)); _Py_NewReference((PyObject*)o); } else #endif { o = PyObject_GC_New(__pyx__PyAsyncGenWrappedValue, CGLOBAL(__pyx__PyAsyncGenWrappedValueType)); if (unlikely(!o)) { Py_DECREF(val); return NULL; } } o->agw_val = val; // no Py_INCREF(val) - steals reference! PyObject_GC_Track((PyObject*)o); return (PyObject*)o; } /* ---------- Async Generator AThrow awaitable ------------ */ static void __Pyx_async_gen_athrow_dealloc(__pyx_PyAsyncGenAThrow *o) { PyObject_GC_UnTrack((PyObject *)o); Py_CLEAR(o->agt_gen); Py_CLEAR(o->agt_args); __Pyx_PyHeapTypeObject_GC_Del(o); } static int __Pyx_async_gen_athrow_traverse(__pyx_PyAsyncGenAThrow *o, visitproc visit, void *arg) { { int e = __Pyx_call_type_traverse((PyObject*)o, 1, visit, arg); if (e) return e; } Py_VISIT(o->agt_gen); Py_VISIT(o->agt_args); return 0; } static PyObject * __Pyx_async_gen_athrow_send_impl(__pyx_PyAsyncGenAThrow *o, PyObject *arg, int iternext) { __pyx_CoroutineObject *gen = (__pyx_CoroutineObject*)o->agt_gen; PyObject *retval, *exc_type; if (unlikely(o->agt_state == __PYX_AWAITABLE_STATE_CLOSED)) { PyErr_SetString(PyExc_RuntimeError, __Pyx_ASYNC_GEN_CANNOT_REUSE_CLOSE_MSG); return NULL; } if (unlikely(gen->resume_label == -1)) { // already run past the end o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; PyErr_SetNone(PyExc_StopIteration); return NULL; } if (o->agt_state == __PYX_AWAITABLE_STATE_INIT) { if (unlikely(o->agt_gen->ag_running_async)) { o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; if (o->agt_args == NULL) { PyErr_SetString( PyExc_RuntimeError, "aclose(): asynchronous generator is already running"); } else { PyErr_SetString( PyExc_RuntimeError, "athrow(): asynchronous generator is already running"); } return NULL; } if (unlikely(o->agt_gen->ag_closed)) { o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; PyErr_SetNone(PyExc_StopAsyncIteration); return NULL; } if (unlikely(arg != Py_None)) { PyErr_SetString(PyExc_RuntimeError, __Pyx_NON_INIT_CORO_MSG); return NULL; } o->agt_state = __PYX_AWAITABLE_STATE_ITER; o->agt_gen->ag_running_async = 1; if (o->agt_args == NULL) { /* aclose() mode */ o->agt_gen->ag_closed = 1; retval = __Pyx__Coroutine_Throw((PyObject*)gen, /* Do not close generator when PyExc_GeneratorExit is passed */ PyExc_GeneratorExit, NULL, NULL, NULL, 0); if (retval && __pyx__PyAsyncGenWrappedValue_CheckExact(retval)) { Py_DECREF(retval); goto yield_close; } } else { PyObject *typ; PyObject *tb = NULL; PyObject *val = NULL; if (unlikely(!PyArg_UnpackTuple(o->agt_args, "athrow", 1, 3, &typ, &val, &tb))) { return NULL; } retval = __Pyx__Coroutine_Throw((PyObject*)gen, /* Do not close generator when PyExc_GeneratorExit is passed */ typ, val, tb, o->agt_args, 0); retval = __Pyx_async_gen_unwrap_value(o->agt_gen, retval, iternext); } if (retval == NULL) { goto check_error; } return retval; } assert (o->agt_state == __PYX_AWAITABLE_STATE_ITER); retval = __Pyx_Coroutine_Send((PyObject *)gen, arg); if (o->agt_args) { return __Pyx_async_gen_unwrap_value(o->agt_gen, retval, iternext); } else { /* aclose() mode */ if (retval) { if (unlikely(__pyx__PyAsyncGenWrappedValue_CheckExact(retval))) { Py_DECREF(retval); goto yield_close; } else { return retval; } } else { goto check_error; } } yield_close: o->agt_gen->ag_running_async = 0; o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; PyErr_SetString( PyExc_RuntimeError, __Pyx_ASYNC_GEN_IGNORED_EXIT_MSG); return NULL; check_error: o->agt_gen->ag_running_async = 0; o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; exc_type = PyErr_Occurred(); if (__Pyx_PyErr_GivenExceptionMatches2(exc_type, PyExc_StopAsyncIteration, PyExc_GeneratorExit)) { if (o->agt_args == NULL) { // when aclose() is called we don't want to propagate // StopAsyncIteration or GeneratorExit; just raise // StopIteration, signalling that this 'aclose()' await // is done. PyErr_Clear(); PyErr_SetNone(PyExc_StopIteration); } } return NULL; } static PyObject * __Pyx_async_gen_athrow_send(__pyx_PyAsyncGenAThrow *o, PyObject *arg) { return __Pyx_async_gen_athrow_send_impl(o, arg, 0); } static PyObject * __Pyx_async_gen_athrow_throw(__pyx_PyAsyncGenAThrow *o, PyObject *args) { PyObject *retval; if (unlikely(o->agt_state == __PYX_AWAITABLE_STATE_CLOSED)) { PyErr_SetString(PyExc_RuntimeError, __Pyx_ASYNC_GEN_CANNOT_REUSE_CLOSE_MSG); return NULL; } retval = __Pyx_Coroutine_Throw((PyObject*)o->agt_gen, args); if (o->agt_args) { return __Pyx_async_gen_unwrap_value(o->agt_gen, retval, 0); } else { // aclose() mode PyObject *exc_type; if (unlikely(retval && __pyx__PyAsyncGenWrappedValue_CheckExact(retval))) { o->agt_gen->ag_running_async = 0; o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; Py_DECREF(retval); PyErr_SetString(PyExc_RuntimeError, __Pyx_ASYNC_GEN_IGNORED_EXIT_MSG); return NULL; } exc_type = PyErr_Occurred(); if (__Pyx_PyErr_GivenExceptionMatches2(exc_type, PyExc_StopAsyncIteration, PyExc_GeneratorExit)) { // when aclose() is called we don't want to propagate // StopAsyncIteration or GeneratorExit; just raise // StopIteration, signalling that this 'aclose()' await // is done. PyErr_Clear(); PyErr_SetNone(PyExc_StopIteration); } return retval; } } static PyObject * __Pyx_async_gen_athrow_iternext(__pyx_PyAsyncGenAThrow *o) { return __Pyx_async_gen_athrow_send_impl(o, Py_None, 1); } static PyObject * __Pyx_async_gen_athrow_close(PyObject *g, PyObject *args) { __pyx_PyAsyncGenAThrow *o = (__pyx_PyAsyncGenAThrow*) g; CYTHON_UNUSED_VAR(args); o->agt_state = __PYX_AWAITABLE_STATE_CLOSED; Py_RETURN_NONE; } static PyMethodDef __Pyx_async_gen_athrow_methods[] = { {"send", (PyCFunction)__Pyx_async_gen_athrow_send, METH_O, __Pyx_async_gen_send_doc}, {"throw", (PyCFunction)__Pyx_async_gen_athrow_throw, METH_VARARGS, __Pyx_async_gen_throw_doc}, {"close", (PyCFunction)__Pyx_async_gen_athrow_close, METH_NOARGS, __Pyx_async_gen_close_doc}, {"__await__", (PyCFunction)__Pyx_async_gen_self_method, METH_NOARGS, __Pyx_async_gen_await_doc}, {0, 0, 0, 0} /* Sentinel */ }; static PyType_Slot __pyx__PyAsyncGenAThrowType_slots[] = { {Py_tp_dealloc, (void *)__Pyx_async_gen_athrow_dealloc}, {Py_am_await, (void *)PyObject_SelfIter}, {Py_tp_traverse, (void *)__Pyx_async_gen_athrow_traverse}, {Py_tp_iter, (void *)PyObject_SelfIter}, {Py_tp_iternext, (void *)__Pyx_async_gen_athrow_iternext}, {Py_tp_methods, (void *)__Pyx_async_gen_athrow_methods}, {Py_tp_getattro, (void *)PyObject_GenericGetAttr}, {0, 0}, }; static PyType_Spec __pyx__PyAsyncGenAThrowType_spec = { __PYX_TYPE_MODULE_PREFIX "async_generator_athrow", sizeof(__pyx_PyAsyncGenAThrow), 0, #if PY_VERSION_HEX >= 0x030A0000 Py_TPFLAGS_IMMUTABLETYPE | #endif Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC, /*tp_flags*/ __pyx__PyAsyncGenAThrowType_slots }; static PyObject * __Pyx_async_gen_athrow_new(__pyx_PyAsyncGenObject *gen, PyObject *args) { __pyx_PyAsyncGenAThrow *o; o = PyObject_GC_New(__pyx_PyAsyncGenAThrow, CGLOBAL(__pyx__PyAsyncGenAThrowType)); if (unlikely(o == NULL)) { return NULL; } o->agt_gen = gen; o->agt_args = args; o->agt_state = __PYX_AWAITABLE_STATE_INIT; Py_INCREF((PyObject*)gen); Py_XINCREF(args); PyObject_GC_Track((PyObject*)o); return (PyObject*)o; } /* ---------- global type sharing ------------ */ static int __pyx_AsyncGen_init(PyObject *module) { $modulestatetype_cname *mstate = __Pyx_PyModule_GetState(module); mstate->__pyx_AsyncGenType = __Pyx_FetchCommonTypeFromSpec( mstate->__pyx_CommonTypesMetaclassType, module, &__pyx_AsyncGenType_spec, NULL); if (unlikely(!mstate->__pyx_AsyncGenType)) return -1; mstate->__pyx__PyAsyncGenAThrowType = __Pyx_FetchCommonTypeFromSpec(NULL, module, &__pyx__PyAsyncGenAThrowType_spec, NULL); if (unlikely(!mstate->__pyx__PyAsyncGenAThrowType)) return -1; mstate->__pyx__PyAsyncGenWrappedValueType = __Pyx_FetchCommonTypeFromSpec(NULL, module, &__pyx__PyAsyncGenWrappedValueType_spec, NULL); if (unlikely(!mstate->__pyx__PyAsyncGenWrappedValueType)) return -1; mstate->__pyx__PyAsyncGenASendType = __Pyx_FetchCommonTypeFromSpec(NULL, module, &__pyx__PyAsyncGenASendType_spec, NULL); if (unlikely(!mstate->__pyx__PyAsyncGenASendType)) return -1; return 0; }