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             pybytes_deref.rs
        
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      use cpython::{PyBytes, Python};

      use stable_deref_trait::StableDeref;

      /// Safe abstraction over a `PyBytes` together with the `&[u8]` slice

      /// that borrows it. Implements `Deref<Target = [u8]>`.

      ///

      /// Calling `PyBytes::data` requires a GIL marker but we want to access the

      /// data in a thread that (ideally) does not need to acquire the GIL.

      /// This type allows separating the call an the use.

      ///

      /// It also enables using a (wrapped) `PyBytes` in GIL-unaware generic code.

      pub struct PyBytesDeref {

          #[allow(unused)]

          keep_alive: PyBytes,

          /// Borrows the buffer inside `self.keep_alive`,

          /// but the borrow-checker cannot express self-referential structs.

          data: *const [u8],

      }

      impl PyBytesDeref {

          pub fn new(py: Python, bytes: PyBytes) -> Self {

              Self {

                  data: bytes.data(py),

                  keep_alive: bytes,

              }

          }

          pub fn unwrap(self) -> PyBytes {

              self.keep_alive

          }

      }

      impl std::ops::Deref for PyBytesDeref {

          type Target = [u8];

          fn deref(&self) -> &[u8] {

              // Safety: the raw pointer is valid as long as the PyBytes is still

              // alive, and the returned slice borrows `self`.

              unsafe { &*self.data }

          }

      }

      unsafe impl StableDeref for PyBytesDeref {}

      fn require_send<T: Send>() {}

      #[allow(unused)]

      fn static_assert_pybytes_is_send() {

          #[allow(clippy::no_effect)]

          require_send::<PyBytes>;

      }

      // Safety: PyBytes is Send. Raw pointers are not by default,

      // but here sending one to another thread is fine since we ensure it stays

      // valid.

      unsafe impl Send for PyBytesDeref {}

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				use cpython::{PyBytes, Python};
				use stable_deref_trait::StableDeref;

				/// Safe abstraction over a `PyBytes` together with the `&[u8]` slice
				/// that borrows it. Implements `Deref<Target = [u8]>`.
				///
				/// Calling `PyBytes::data` requires a GIL marker but we want to access the
				/// data in a thread that (ideally) does not need to acquire the GIL.
				/// This type allows separating the call an the use.
				///
				/// It also enables using a (wrapped) `PyBytes` in GIL-unaware generic code.
				pub struct PyBytesDeref {
				#[allow(unused)]
				keep_alive: PyBytes,

				/// Borrows the buffer inside `self.keep_alive`,
				/// but the borrow-checker cannot express self-referential structs.
				data: *const [u8],
				}

				impl PyBytesDeref {
				pub fn new(py: Python, bytes: PyBytes) -> Self {
				Self {
				data: bytes.data(py),
				keep_alive: bytes,
				}
				}

				pub fn unwrap(self) -> PyBytes {
				self.keep_alive
				}
				}

				impl std::ops::Deref for PyBytesDeref {
				type Target = [u8];

				fn deref(&self) -> &[u8] {
				// Safety: the raw pointer is valid as long as the PyBytes is still
				// alive, and the returned slice borrows `self`.
				unsafe { &*self.data }
				}
				}

				unsafe impl StableDeref for PyBytesDeref {}

				fn require_send<T: Send>() {}

				#[allow(unused)]
				fn static_assert_pybytes_is_send() {
				#[allow(clippy::no_effect)]
				require_send::<PyBytes>;
				}

				// Safety: PyBytes is Send. Raw pointers are not by default,
				// but here sending one to another thread is fine since we ensure it stays
				// valid.
				unsafe impl Send for PyBytesDeref {}