use pyo3::class::PyGCProtocol; use pyo3::class::PyTraverseError; use pyo3::class::PyVisit; use pyo3::prelude::*; use pyo3::type_object::PyTypeObject; use pyo3::{py_run, AsPyPointer, PyCell, PyTryInto}; use std::sync::atomic::{AtomicBool, Ordering}; use std::sync::Arc; mod common; #[pyclass(freelist = 2)] struct ClassWithFreelist {} #[test] fn class_with_freelist() { let ptr; { let gil = Python::acquire_gil(); let py = gil.python(); let inst = Py::new(py, ClassWithFreelist {}).unwrap(); let _inst2 = Py::new(py, ClassWithFreelist {}).unwrap(); ptr = inst.as_ptr(); drop(inst); } { let gil = Python::acquire_gil(); let py = gil.python(); let inst3 = Py::new(py, ClassWithFreelist {}).unwrap(); assert_eq!(ptr, inst3.as_ptr()); let inst4 = Py::new(py, ClassWithFreelist {}).unwrap(); assert_ne!(ptr, inst4.as_ptr()) } } struct TestDropCall { drop_called: Arc, } impl Drop for TestDropCall { fn drop(&mut self) { self.drop_called.store(true, Ordering::Relaxed); } } #[allow(dead_code)] #[pyclass] struct DataIsDropped { member1: TestDropCall, member2: TestDropCall, } #[test] fn data_is_dropped() { let drop_called1 = Arc::new(AtomicBool::new(false)); let drop_called2 = Arc::new(AtomicBool::new(false)); { let gil = Python::acquire_gil(); let py = gil.python(); let data_is_dropped = DataIsDropped { member1: TestDropCall { drop_called: Arc::clone(&drop_called1), }, member2: TestDropCall { drop_called: Arc::clone(&drop_called2), }, }; let inst = Py::new(py, data_is_dropped).unwrap(); assert!(!drop_called1.load(Ordering::Relaxed)); assert!(!drop_called2.load(Ordering::Relaxed)); drop(inst); } assert!(drop_called1.load(Ordering::Relaxed)); assert!(drop_called2.load(Ordering::Relaxed)); } #[allow(dead_code)] #[pyclass] struct GCIntegration { self_ref: PyObject, dropped: TestDropCall, } #[pyproto] impl PyGCProtocol for GCIntegration { fn __traverse__(&self, visit: PyVisit) -> Result<(), PyTraverseError> { visit.call(&self.self_ref) } fn __clear__(&mut self) { let gil = Python::acquire_gil(); self.self_ref = gil.python().None(); } } #[test] fn gc_integration() { let drop_called = Arc::new(AtomicBool::new(false)); { let gil = Python::acquire_gil(); let py = gil.python(); let inst = PyCell::new( py, GCIntegration { self_ref: py.None(), dropped: TestDropCall { drop_called: Arc::clone(&drop_called), }, }, ) .unwrap(); let mut borrow = inst.borrow_mut(); borrow.self_ref = inst.to_object(py); } let gil = Python::acquire_gil(); let py = gil.python(); py.run("import gc; gc.collect()", None, None).unwrap(); assert!(drop_called.load(Ordering::Relaxed)); } #[pyclass(gc)] struct GCIntegration2 {} #[pyproto] impl PyGCProtocol for GCIntegration2 { fn __traverse__(&self, _visit: PyVisit) -> Result<(), PyTraverseError> { Ok(()) } fn __clear__(&mut self) {} } #[test] fn gc_integration2() { let gil = Python::acquire_gil(); let py = gil.python(); let inst = PyCell::new(py, GCIntegration2 {}).unwrap(); py_run!(py, inst, "import gc; assert inst in gc.get_objects()"); } #[pyclass(weakref, subclass)] struct WeakRefSupport {} #[test] #[cfg_attr(Py_LIMITED_API, ignore)] fn weakref_support() { let gil = Python::acquire_gil(); let py = gil.python(); let inst = PyCell::new(py, WeakRefSupport {}).unwrap(); py_run!( py, inst, "import weakref; assert weakref.ref(inst)() is inst" ); } // If the base class has weakref support, child class also has weakref. #[pyclass(extends=WeakRefSupport)] struct InheritWeakRef { _value: usize, } #[test] #[cfg_attr(Py_LIMITED_API, ignore)] fn inherited_weakref() { let gil = Python::acquire_gil(); let py = gil.python(); let inst = PyCell::new(py, (InheritWeakRef { _value: 0 }, WeakRefSupport {})).unwrap(); py_run!( py, inst, "import weakref; assert weakref.ref(inst)() is inst" ); } #[pyclass(subclass)] struct BaseClassWithDrop { data: Option>, } #[pymethods] impl BaseClassWithDrop { #[new] fn new() -> BaseClassWithDrop { BaseClassWithDrop { data: None } } } impl Drop for BaseClassWithDrop { fn drop(&mut self) { if let Some(data) = &self.data { data.store(true, Ordering::Relaxed); } } } #[pyclass(extends = BaseClassWithDrop)] struct SubClassWithDrop { data: Option>, } #[pymethods] impl SubClassWithDrop { #[new] fn new() -> (Self, BaseClassWithDrop) { ( SubClassWithDrop { data: None }, BaseClassWithDrop { data: None }, ) } } impl Drop for SubClassWithDrop { fn drop(&mut self) { if let Some(data) = &self.data { data.store(true, Ordering::Relaxed); } } } #[test] fn inheritance_with_new_methods_with_drop() { let drop_called1 = Arc::new(AtomicBool::new(false)); let drop_called2 = Arc::new(AtomicBool::new(false)); { let gil = Python::acquire_gil(); let py = gil.python(); let _typebase = py.get_type::(); let typeobj = py.get_type::(); let inst = typeobj.call((), None).unwrap(); let obj: &PyCell = inst.try_into().unwrap(); let mut obj_ref_mut = obj.borrow_mut(); obj_ref_mut.data = Some(Arc::clone(&drop_called1)); let base: &mut BaseClassWithDrop = obj_ref_mut.as_mut(); base.data = Some(Arc::clone(&drop_called2)); } assert!(drop_called1.load(Ordering::Relaxed)); assert!(drop_called2.load(Ordering::Relaxed)); } #[pyclass(gc)] struct TraversableClass { traversed: AtomicBool, } impl TraversableClass { fn new() -> Self { Self { traversed: AtomicBool::new(false), } } } #[pyproto] impl PyGCProtocol for TraversableClass { fn __clear__(&mut self) {} fn __traverse__(&self, _visit: PyVisit) -> Result<(), PyTraverseError> { self.traversed.store(true, Ordering::Relaxed); Ok(()) } } unsafe fn get_type_traverse(tp: *mut pyo3::ffi::PyTypeObject) -> Option { std::mem::transmute(pyo3::ffi::PyType_GetSlot(tp, pyo3::ffi::Py_tp_traverse)) } #[test] fn gc_during_borrow() { let gil = Python::acquire_gil(); let py = gil.python(); unsafe { // declare a dummy visitor function extern "C" fn novisit( _object: *mut pyo3::ffi::PyObject, _arg: *mut core::ffi::c_void, ) -> std::os::raw::c_int { 0 } // get the traverse function let ty = TraversableClass::type_object(py).as_type_ptr(); let traverse = get_type_traverse(ty).unwrap(); // create an object and check that traversing it works normally // when it's not borrowed let cell = PyCell::new(py, TraversableClass::new()).unwrap(); let obj = cell.to_object(py); assert!(!cell.borrow().traversed.load(Ordering::Relaxed)); traverse(obj.as_ptr(), novisit, std::ptr::null_mut()); assert!(cell.borrow().traversed.load(Ordering::Relaxed)); // create an object and check that it is not traversed if the GC // is invoked while it is already borrowed mutably let cell2 = PyCell::new(py, TraversableClass::new()).unwrap(); let obj2 = cell2.to_object(py); let guard = cell2.borrow_mut(); assert!(!guard.traversed.load(Ordering::Relaxed)); traverse(obj2.as_ptr(), novisit, std::ptr::null_mut()); assert!(!guard.traversed.load(Ordering::Relaxed)); drop(guard); } }