#if !defined(TORCH_STABLE_ONLY) && !defined(TORCH_TARGET_VERSION) #pragma once #include #include #include #include namespace c10 { // This is an safe owning holder for a PyObject, akin to pybind11's // py::object, with two major differences: // // - It is in c10/core; i.e., you can use this type in contexts where // you do not have a libpython dependency // // - It is multi-interpreter safe (ala torchdeploy); when you fetch // the underlying PyObject* you are required to specify what the current // interpreter context is and we will check that you match it. // // It is INVALID to store a reference to a Tensor object in this way; // you should just use TensorImpl directly in that case! struct C10_API SafePyObject { // Steals a reference to data SafePyObject(PyObject* data, c10::impl::PyInterpreter* pyinterpreter) : data_(data), pyinterpreter_(pyinterpreter) {} SafePyObject(SafePyObject&& other) noexcept : data_(std::exchange(other.data_, nullptr)), pyinterpreter_(other.pyinterpreter_) {} // For now it's not used, so we just disallow it. SafePyObject& operator=(SafePyObject&&) = delete; SafePyObject(SafePyObject const& other) : data_(other.data_), pyinterpreter_(other.pyinterpreter_) { if (data_ != nullptr) { (*pyinterpreter_)->incref(data_); } } SafePyObject& operator=(SafePyObject const& other) { if (this == &other) { return *this; // Handle self-assignment } if (other.data_ != nullptr) { (*other.pyinterpreter_)->incref(other.data_); } if (data_ != nullptr) { (*pyinterpreter_)->decref(data_); } data_ = other.data_; pyinterpreter_ = other.pyinterpreter_; return *this; } ~SafePyObject() { if (data_ != nullptr) { (*pyinterpreter_)->decref(data_); } } c10::impl::PyInterpreter& pyinterpreter() const { return *pyinterpreter_; } PyObject* ptr(const c10::impl::PyInterpreter* /*interpreter*/) const; // stop tracking the current object, and return it PyObject* release() { auto rv = data_; data_ = nullptr; return rv; } private: PyObject* data_; c10::impl::PyInterpreter* pyinterpreter_; }; // A newtype wrapper around SafePyObject for type safety when a python object // represents a specific type. Note that `T` is only used as a tag and isn't // actually used for any true purpose. template struct SafePyObjectT : private SafePyObject { SafePyObjectT(PyObject* data, c10::impl::PyInterpreter* pyinterpreter) : SafePyObject(data, pyinterpreter) {} ~SafePyObjectT() = default; SafePyObjectT(SafePyObjectT&& other) noexcept : SafePyObject(other) {} SafePyObjectT(SafePyObjectT const&) = delete; SafePyObjectT& operator=(SafePyObjectT const&) = delete; SafePyObjectT& operator=(SafePyObjectT&&) = delete; using SafePyObject::ptr; using SafePyObject::pyinterpreter; using SafePyObject::release; }; // Like SafePyObject, but non-owning. Good for references to global PyObjects // that will be leaked on interpreter exit. You get a copy constructor/assign // this way. struct C10_API SafePyHandle { SafePyHandle() : data_(nullptr), pyinterpreter_(nullptr) {} SafePyHandle(PyObject* data, c10::impl::PyInterpreter* pyinterpreter) : data_(data), pyinterpreter_(pyinterpreter) {} c10::impl::PyInterpreter& pyinterpreter() const { return *pyinterpreter_; } PyObject* ptr(const c10::impl::PyInterpreter* /*interpreter*/) const; void reset() { data_ = nullptr; pyinterpreter_ = nullptr; } operator bool() { return data_; } private: PyObject* data_; c10::impl::PyInterpreter* pyinterpreter_; }; } // namespace c10 #else #error "This file should not be included when either TORCH_STABLE_ONLY or TORCH_TARGET_VERSION is defined." #endif // !defined(TORCH_STABLE_ONLY) && !defined(TORCH_TARGET_VERSION)