mirror of
https://github.com/python/cpython.git
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c2627d6eea
This PR adds the ability to enable the GIL if it was disabled at interpreter startup, and modifies the multi-phase module initialization path to enable the GIL when loading a module, unless that module's spec includes a slot indicating it can run safely without the GIL. PEP 703 called the constant for the slot `Py_mod_gil_not_used`; I went with `Py_MOD_GIL_NOT_USED` for consistency with gh-104148. A warning will be issued up to once per interpreter for the first GIL-using module that is loaded. If `-v` is given, a shorter message will be printed to stderr every time a GIL-using module is loaded (including the first one that issues a warning).
619 lines
16 KiB
C
619 lines
16 KiB
C
#ifndef Py_BUILD_CORE_BUILTIN
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# define Py_BUILD_CORE_MODULE 1
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#endif
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#include "Python.h"
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#include "pycore_ceval.h" // Py_MakePendingCalls()
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#include "pycore_moduleobject.h" // _PyModule_GetState()
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#include "pycore_parking_lot.h"
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#include "pycore_time.h" // _PyTime_FromSecondsObject()
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#include <stdbool.h>
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#include <stddef.h> // offsetof()
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typedef struct {
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PyTypeObject *SimpleQueueType;
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PyObject *EmptyError;
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} simplequeue_state;
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static simplequeue_state *
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simplequeue_get_state(PyObject *module)
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{
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simplequeue_state *state = _PyModule_GetState(module);
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assert(state);
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return state;
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}
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static struct PyModuleDef queuemodule;
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#define simplequeue_get_state_by_type(type) \
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(simplequeue_get_state(PyType_GetModuleByDef(type, &queuemodule)))
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static const Py_ssize_t INITIAL_RING_BUF_CAPACITY = 8;
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typedef struct {
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// Where to place the next item
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Py_ssize_t put_idx;
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// Where to get the next item
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Py_ssize_t get_idx;
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PyObject **items;
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// Total number of items that may be stored
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Py_ssize_t items_cap;
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// Number of items stored
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Py_ssize_t num_items;
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} RingBuf;
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static int
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RingBuf_Init(RingBuf *buf)
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{
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buf->put_idx = 0;
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buf->get_idx = 0;
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buf->items_cap = INITIAL_RING_BUF_CAPACITY;
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buf->num_items = 0;
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buf->items = PyMem_Calloc(buf->items_cap, sizeof(PyObject *));
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if (buf->items == NULL) {
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PyErr_NoMemory();
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return -1;
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}
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return 0;
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}
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static PyObject *
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RingBuf_At(RingBuf *buf, Py_ssize_t idx)
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{
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assert(idx >= 0 && idx < buf->num_items);
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return buf->items[(buf->get_idx + idx) % buf->items_cap];
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}
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static void
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RingBuf_Fini(RingBuf *buf)
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{
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PyObject **items = buf->items;
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Py_ssize_t num_items = buf->num_items;
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Py_ssize_t cap = buf->items_cap;
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Py_ssize_t idx = buf->get_idx;
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buf->items = NULL;
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buf->put_idx = 0;
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buf->get_idx = 0;
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buf->num_items = 0;
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buf->items_cap = 0;
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for (Py_ssize_t n = num_items; n > 0; idx = (idx + 1) % cap, n--) {
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Py_DECREF(items[idx]);
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}
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PyMem_Free(items);
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}
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// Resize the underlying items array of buf to the new capacity and arrange
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// the items contiguously in the new items array.
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//
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// Returns -1 on allocation failure or 0 on success.
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static int
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resize_ringbuf(RingBuf *buf, Py_ssize_t capacity)
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{
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Py_ssize_t new_capacity = Py_MAX(INITIAL_RING_BUF_CAPACITY, capacity);
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if (new_capacity == buf->items_cap) {
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return 0;
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}
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assert(buf->num_items <= new_capacity);
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PyObject **new_items = PyMem_Calloc(new_capacity, sizeof(PyObject *));
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if (new_items == NULL) {
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return -1;
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}
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// Copy the "tail" of the old items array. This corresponds to "head" of
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// the abstract ring buffer.
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Py_ssize_t tail_size =
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Py_MIN(buf->num_items, buf->items_cap - buf->get_idx);
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if (tail_size > 0) {
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memcpy(new_items, buf->items + buf->get_idx,
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tail_size * sizeof(PyObject *));
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}
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// Copy the "head" of the old items array, if any. This corresponds to the
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// "tail" of the abstract ring buffer.
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Py_ssize_t head_size = buf->num_items - tail_size;
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if (head_size > 0) {
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memcpy(new_items + tail_size, buf->items,
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head_size * sizeof(PyObject *));
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}
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PyMem_Free(buf->items);
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buf->items = new_items;
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buf->items_cap = new_capacity;
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buf->get_idx = 0;
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buf->put_idx = buf->num_items;
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return 0;
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}
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// Returns a strong reference from the head of the buffer.
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static PyObject *
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RingBuf_Get(RingBuf *buf)
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{
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assert(buf->num_items > 0);
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if (buf->num_items < (buf->items_cap / 4)) {
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// Items is less than 25% occupied, shrink it by 50%. This allows for
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// growth without immediately needing to resize the underlying items
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// array.
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//
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// It's safe it ignore allocation failures here; shrinking is an
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// optimization that isn't required for correctness.
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(void)resize_ringbuf(buf, buf->items_cap / 2);
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}
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PyObject *item = buf->items[buf->get_idx];
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buf->items[buf->get_idx] = NULL;
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buf->get_idx = (buf->get_idx + 1) % buf->items_cap;
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buf->num_items--;
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return item;
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}
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// Returns 0 on success or -1 if the buffer failed to grow.
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//
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// Steals a reference to item.
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static int
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RingBuf_Put(RingBuf *buf, PyObject *item)
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{
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assert(buf->num_items <= buf->items_cap);
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if (buf->num_items == buf->items_cap) {
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// Buffer is full, grow it.
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if (resize_ringbuf(buf, buf->items_cap * 2) < 0) {
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PyErr_NoMemory();
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return -1;
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}
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}
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buf->items[buf->put_idx] = item;
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buf->put_idx = (buf->put_idx + 1) % buf->items_cap;
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buf->num_items++;
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return 0;
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}
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static Py_ssize_t
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RingBuf_Len(RingBuf *buf)
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{
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return buf->num_items;
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}
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static bool
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RingBuf_IsEmpty(RingBuf *buf)
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{
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return buf->num_items == 0;
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}
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typedef struct {
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PyObject_HEAD
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// Are there threads waiting for items
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bool has_threads_waiting;
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// Items in the queue
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RingBuf buf;
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PyObject *weakreflist;
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} simplequeueobject;
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/*[clinic input]
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module _queue
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class _queue.SimpleQueue "simplequeueobject *" "simplequeue_get_state_by_type(type)->SimpleQueueType"
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[clinic start generated code]*/
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/*[clinic end generated code: output=da39a3ee5e6b4b0d input=0a4023fe4d198c8d]*/
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static int
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simplequeue_clear(simplequeueobject *self)
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{
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RingBuf_Fini(&self->buf);
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return 0;
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}
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static void
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simplequeue_dealloc(simplequeueobject *self)
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{
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PyTypeObject *tp = Py_TYPE(self);
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PyObject_GC_UnTrack(self);
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(void)simplequeue_clear(self);
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if (self->weakreflist != NULL)
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PyObject_ClearWeakRefs((PyObject *) self);
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Py_TYPE(self)->tp_free(self);
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Py_DECREF(tp);
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}
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static int
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simplequeue_traverse(simplequeueobject *self, visitproc visit, void *arg)
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{
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RingBuf *buf = &self->buf;
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for (Py_ssize_t i = 0, num_items = buf->num_items; i < num_items; i++) {
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Py_VISIT(RingBuf_At(buf, i));
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}
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Py_VISIT(Py_TYPE(self));
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return 0;
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}
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/*[clinic input]
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@classmethod
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_queue.SimpleQueue.__new__ as simplequeue_new
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Simple, unbounded, reentrant FIFO queue.
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[clinic start generated code]*/
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static PyObject *
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simplequeue_new_impl(PyTypeObject *type)
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/*[clinic end generated code: output=ba97740608ba31cd input=a0674a1643e3e2fb]*/
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{
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simplequeueobject *self;
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self = (simplequeueobject *) type->tp_alloc(type, 0);
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if (self != NULL) {
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self->weakreflist = NULL;
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if (RingBuf_Init(&self->buf) < 0) {
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Py_DECREF(self);
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return NULL;
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}
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}
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return (PyObject *) self;
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}
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typedef struct {
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bool handed_off;
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simplequeueobject *queue;
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PyObject *item;
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} HandoffData;
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static void
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maybe_handoff_item(HandoffData *data, PyObject **item, int has_more_waiters)
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{
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if (item == NULL) {
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// No threads were waiting
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data->handed_off = false;
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}
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else {
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// There was at least one waiting thread, hand off the item
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*item = data->item;
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data->handed_off = true;
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}
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data->queue->has_threads_waiting = has_more_waiters;
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}
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.put
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item: object
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block: bool = True
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timeout: object = None
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Put the item on the queue.
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The optional 'block' and 'timeout' arguments are ignored, as this method
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never blocks. They are provided for compatibility with the Queue class.
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[clinic start generated code]*/
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static PyObject *
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_queue_SimpleQueue_put_impl(simplequeueobject *self, PyObject *item,
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int block, PyObject *timeout)
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/*[clinic end generated code: output=4333136e88f90d8b input=a16dbb33363c0fa8]*/
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{
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HandoffData data = {
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.handed_off = 0,
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.item = Py_NewRef(item),
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.queue = self,
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};
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if (self->has_threads_waiting) {
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// Try to hand the item off directly if there are threads waiting
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_PyParkingLot_Unpark(&self->has_threads_waiting,
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(_Py_unpark_fn_t *)maybe_handoff_item, &data);
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}
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if (!data.handed_off) {
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if (RingBuf_Put(&self->buf, item) < 0) {
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return NULL;
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}
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}
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Py_RETURN_NONE;
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}
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.put_nowait
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item: object
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Put an item into the queue without blocking.
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This is exactly equivalent to `put(item)` and is only provided
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for compatibility with the Queue class.
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[clinic start generated code]*/
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static PyObject *
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_queue_SimpleQueue_put_nowait_impl(simplequeueobject *self, PyObject *item)
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/*[clinic end generated code: output=0990536715efb1f1 input=ce949cc2cd8a4119]*/
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{
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return _queue_SimpleQueue_put_impl(self, item, 0, Py_None);
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}
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static PyObject *
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empty_error(PyTypeObject *cls)
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{
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PyObject *module = PyType_GetModule(cls);
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assert(module != NULL);
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simplequeue_state *state = simplequeue_get_state(module);
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PyErr_SetNone(state->EmptyError);
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return NULL;
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}
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.get
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cls: defining_class
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/
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block: bool = True
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timeout as timeout_obj: object = None
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Remove and return an item from the queue.
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If optional args 'block' is true and 'timeout' is None (the default),
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block if necessary until an item is available. If 'timeout' is
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a non-negative number, it blocks at most 'timeout' seconds and raises
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the Empty exception if no item was available within that time.
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Otherwise ('block' is false), return an item if one is immediately
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available, else raise the Empty exception ('timeout' is ignored
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in that case).
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[clinic start generated code]*/
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static PyObject *
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_queue_SimpleQueue_get_impl(simplequeueobject *self, PyTypeObject *cls,
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int block, PyObject *timeout_obj)
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/*[clinic end generated code: output=5c2cca914cd1e55b input=f7836c65e5839c51]*/
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{
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PyTime_t endtime = 0;
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// XXX Use PyThread_ParseTimeoutArg().
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if (block != 0 && !Py_IsNone(timeout_obj)) {
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/* With timeout */
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PyTime_t timeout;
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if (_PyTime_FromSecondsObject(&timeout,
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timeout_obj, _PyTime_ROUND_CEILING) < 0) {
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return NULL;
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}
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if (timeout < 0) {
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PyErr_SetString(PyExc_ValueError,
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"'timeout' must be a non-negative number");
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return NULL;
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}
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endtime = _PyDeadline_Init(timeout);
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}
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for (;;) {
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if (!RingBuf_IsEmpty(&self->buf)) {
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return RingBuf_Get(&self->buf);
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}
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if (!block) {
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return empty_error(cls);
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}
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int64_t timeout_ns = -1;
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if (endtime != 0) {
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timeout_ns = _PyDeadline_Get(endtime);
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if (timeout_ns < 0) {
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return empty_error(cls);
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}
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}
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bool waiting = 1;
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self->has_threads_waiting = waiting;
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PyObject *item = NULL;
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int st = _PyParkingLot_Park(&self->has_threads_waiting, &waiting,
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sizeof(bool), timeout_ns, &item,
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/* detach */ 1);
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switch (st) {
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case Py_PARK_OK: {
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assert(item != NULL);
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return item;
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}
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case Py_PARK_TIMEOUT: {
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return empty_error(cls);
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}
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case Py_PARK_INTR: {
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// Interrupted
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if (Py_MakePendingCalls() < 0) {
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return NULL;
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}
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break;
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}
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case Py_PARK_AGAIN: {
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// This should be impossible with the current implementation of
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// PyParkingLot, but would be possible if critical sections /
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// the GIL were released before the thread was added to the
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// internal thread queue in the parking lot.
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break;
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}
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default: {
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Py_UNREACHABLE();
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}
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}
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}
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}
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.get_nowait
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cls: defining_class
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/
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Remove and return an item from the queue without blocking.
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Only get an item if one is immediately available. Otherwise
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raise the Empty exception.
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[clinic start generated code]*/
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|
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static PyObject *
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_queue_SimpleQueue_get_nowait_impl(simplequeueobject *self,
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PyTypeObject *cls)
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/*[clinic end generated code: output=620c58e2750f8b8a input=d48be63633fefae9]*/
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{
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return _queue_SimpleQueue_get_impl(self, cls, 0, Py_None);
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}
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.empty -> bool
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Return True if the queue is empty, False otherwise (not reliable!).
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[clinic start generated code]*/
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|
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static int
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_queue_SimpleQueue_empty_impl(simplequeueobject *self)
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/*[clinic end generated code: output=1a02a1b87c0ef838 input=96cb22df5a67d831]*/
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{
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return RingBuf_IsEmpty(&self->buf);
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}
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|
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/*[clinic input]
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@critical_section
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_queue.SimpleQueue.qsize -> Py_ssize_t
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Return the approximate size of the queue (not reliable!).
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[clinic start generated code]*/
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|
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static Py_ssize_t
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_queue_SimpleQueue_qsize_impl(simplequeueobject *self)
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/*[clinic end generated code: output=f9dcd9d0a90e121e input=e218623cb8c16a79]*/
|
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{
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return RingBuf_Len(&self->buf);
|
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}
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|
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static int
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queue_traverse(PyObject *m, visitproc visit, void *arg)
|
|
{
|
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simplequeue_state *state = simplequeue_get_state(m);
|
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Py_VISIT(state->SimpleQueueType);
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Py_VISIT(state->EmptyError);
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return 0;
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}
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|
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static int
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queue_clear(PyObject *m)
|
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{
|
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simplequeue_state *state = simplequeue_get_state(m);
|
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Py_CLEAR(state->SimpleQueueType);
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Py_CLEAR(state->EmptyError);
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return 0;
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}
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static void
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queue_free(void *m)
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{
|
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queue_clear((PyObject *)m);
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}
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|
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#include "clinic/_queuemodule.c.h"
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|
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|
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static PyMethodDef simplequeue_methods[] = {
|
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_QUEUE_SIMPLEQUEUE_EMPTY_METHODDEF
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_QUEUE_SIMPLEQUEUE_GET_METHODDEF
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_QUEUE_SIMPLEQUEUE_GET_NOWAIT_METHODDEF
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_QUEUE_SIMPLEQUEUE_PUT_METHODDEF
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_QUEUE_SIMPLEQUEUE_PUT_NOWAIT_METHODDEF
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_QUEUE_SIMPLEQUEUE_QSIZE_METHODDEF
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{"__class_getitem__", Py_GenericAlias,
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METH_O|METH_CLASS, PyDoc_STR("See PEP 585")},
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{NULL, NULL} /* sentinel */
|
|
};
|
|
|
|
static struct PyMemberDef simplequeue_members[] = {
|
|
{"__weaklistoffset__", Py_T_PYSSIZET, offsetof(simplequeueobject, weakreflist), Py_READONLY},
|
|
{NULL},
|
|
};
|
|
|
|
static PyType_Slot simplequeue_slots[] = {
|
|
{Py_tp_dealloc, simplequeue_dealloc},
|
|
{Py_tp_doc, (void *)simplequeue_new__doc__},
|
|
{Py_tp_traverse, simplequeue_traverse},
|
|
{Py_tp_clear, simplequeue_clear},
|
|
{Py_tp_members, simplequeue_members},
|
|
{Py_tp_methods, simplequeue_methods},
|
|
{Py_tp_new, simplequeue_new},
|
|
{0, NULL},
|
|
};
|
|
|
|
static PyType_Spec simplequeue_spec = {
|
|
.name = "_queue.SimpleQueue",
|
|
.basicsize = sizeof(simplequeueobject),
|
|
.flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE | Py_TPFLAGS_HAVE_GC |
|
|
Py_TPFLAGS_IMMUTABLETYPE),
|
|
.slots = simplequeue_slots,
|
|
};
|
|
|
|
|
|
/* Initialization function */
|
|
|
|
PyDoc_STRVAR(queue_module_doc,
|
|
"C implementation of the Python queue module.\n\
|
|
This module is an implementation detail, please do not use it directly.");
|
|
|
|
static int
|
|
queuemodule_exec(PyObject *module)
|
|
{
|
|
simplequeue_state *state = simplequeue_get_state(module);
|
|
|
|
state->EmptyError = PyErr_NewExceptionWithDoc(
|
|
"_queue.Empty",
|
|
"Exception raised by Queue.get(block=0)/get_nowait().",
|
|
NULL, NULL);
|
|
if (state->EmptyError == NULL) {
|
|
return -1;
|
|
}
|
|
if (PyModule_AddObjectRef(module, "Empty", state->EmptyError) < 0) {
|
|
return -1;
|
|
}
|
|
|
|
state->SimpleQueueType = (PyTypeObject *)PyType_FromModuleAndSpec(
|
|
module, &simplequeue_spec, NULL);
|
|
if (state->SimpleQueueType == NULL) {
|
|
return -1;
|
|
}
|
|
if (PyModule_AddType(module, state->SimpleQueueType) < 0) {
|
|
return -1;
|
|
}
|
|
|
|
return 0;
|
|
}
|
|
|
|
static PyModuleDef_Slot queuemodule_slots[] = {
|
|
{Py_mod_exec, queuemodule_exec},
|
|
{Py_mod_multiple_interpreters, Py_MOD_PER_INTERPRETER_GIL_SUPPORTED},
|
|
{Py_mod_gil, Py_MOD_GIL_NOT_USED},
|
|
{0, NULL}
|
|
};
|
|
|
|
|
|
static struct PyModuleDef queuemodule = {
|
|
.m_base = PyModuleDef_HEAD_INIT,
|
|
.m_name = "_queue",
|
|
.m_doc = queue_module_doc,
|
|
.m_size = sizeof(simplequeue_state),
|
|
.m_slots = queuemodule_slots,
|
|
.m_traverse = queue_traverse,
|
|
.m_clear = queue_clear,
|
|
.m_free = queue_free,
|
|
};
|
|
|
|
|
|
PyMODINIT_FUNC
|
|
PyInit__queue(void)
|
|
{
|
|
return PyModuleDef_Init(&queuemodule);
|
|
}
|