[−][src]Struct numpy::PyReadonlyArray
Readonly reference of PyArray
.
This struct ensures that the internal array is not writeable while holding PyReadonlyArray
.
We use a simple trick for this: modifying the internal flag of the array when creating
PyReadonlyArray
and recover the original flag when it drops.
So, importantly, it does not recover the original flag when it does not drop
(e.g., by the use of IntoPy::intopy
or std::mem::forget
)
and then the internal array remains readonly.
Example
In this example, we get a 'temporal' readonly array and the internal array becomes writeble again after it drops.
use numpy::{PyArray, npyffi::NPY_ARRAY_WRITEABLE}; pyo3::Python::with_gil(|py| { let py_array = PyArray::arange(py, 0, 4, 1).reshape([2, 2]).unwrap(); { let readonly = py_array.readonly(); // The internal array is not writeable now. pyo3::py_run!(py, py_array, "assert not py_array.flags['WRITEABLE']"); } // After the `readonly` drops, the internal array gets writeable again. pyo3::py_run!(py, py_array, "assert py_array.flags['WRITEABLE']"); });
However, if we convert the PyReadonlyArray
directly into PyObject
,
the internal array remains readonly.
use numpy::{PyArray, npyffi::NPY_ARRAY_WRITEABLE}; use pyo3::{IntoPy, PyObject, Python}; pyo3::Python::with_gil(|py| { let py_array = PyArray::arange(py, 0, 4, 1).reshape([2, 2]).unwrap(); let obj: PyObject = { let readonly = py_array.readonly(); // The internal array is not writeable now. pyo3::py_run!(py, py_array, "assert not py_array.flags['WRITEABLE']"); readonly.into_py(py) }; // The internal array remains readonly. pyo3::py_run!(py, py_array, "assert py_array.flags['WRITEABLE']"); });
Implementations
impl<'py, T: Element, D: Dimension> PyReadonlyArray<'py, T, D>
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pub fn as_slice(&self) -> Result<&[T], NotContiguousError>
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Returns the immutable view of the internal data of PyArray
as slice.
Returns ErrorKind::NotContiguous
if the internal array is not contiguous.
Example
use numpy::{PyArray, PyArray1}; use pyo3::types::IntoPyDict; pyo3::Python::with_gil(|py| { let py_array = PyArray::arange(py, 0, 4, 1).reshape([2, 2]).unwrap(); let readonly = py_array.readonly(); assert_eq!(readonly.as_slice().unwrap(), &[0, 1, 2, 3]); let locals = [("np", numpy::get_array_module(py).unwrap())].into_py_dict(py); let not_contiguous: &PyArray1<i32> = py .eval("np.arange(10)[::2]", Some(locals), None) .unwrap() .downcast() .unwrap(); assert!(not_contiguous.readonly().as_slice().is_err()); });
pub fn as_array(&self) -> ArrayView<'_, T, D>
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Get the immutable view of the internal data of PyArray
, as
ndarray::ArrayView
.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let array = PyArray::arange(py, 0, 4, 1).reshape([2, 2]).unwrap(); let readonly = array.readonly(); assert_eq!(readonly.as_array(), array![[0, 1], [2, 3]]); });
pub fn get(&self, index: impl NpyIndex<Dim = D>) -> Option<&T>
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Get an immutable reference of the specified element, with checking the passed index is valid.
See NpyIndex for what types you can use as index.
If you pass an invalid index to this function, it returns None
.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap().readonly(); assert_eq!(*arr.get([1, 0, 3]).unwrap(), 11); assert!(arr.get([2, 0, 3]).is_none()); });
For fixed dimension arrays, passing an index with invalid dimension causes compile error.
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap().readonly(); let a = arr.get([1, 2]); // Compile Error! });
However, for dinamic arrays, we cannot raise a compile error and just returns None
.
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap().readonly(); let arr = arr.to_dyn().readonly(); assert!(arr.get([1, 2].as_ref()).is_none()); });
pub fn iter(self) -> PyResult<NpySingleIter<'py, T, Readonly>>
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Iterates all elements of this array. See NpySingleIter for more.
Methods from Deref<Target = PyArray<T, D>>
pub fn as_array_ptr(&self) -> *mut PyArrayObject
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Gets a raw PyArrayObject
pointer.
pub fn dtype(&self) -> &PyArrayDescr
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Returns dtype
of the array.
Counterpart of array.dtype
in Python.
Example
pyo3::Python::with_gil(|py| { let array = numpy::PyArray::from_vec(py, vec![1, 2, 3i32]); let dtype = array.dtype(); assert_eq!(dtype.get_datatype().unwrap(), numpy::DataType::Int32); });
pub fn readonly(&self) -> PyReadonlyArray<'_, T, D>
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Returns a temporally unwriteable reference of the array.
pub fn is_contiguous(&self) -> bool
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Returns true
if the internal data of the array is C-style contiguous
(default of numpy and ndarray) or Fortran-style contiguous.
Example
use pyo3::types::IntoPyDict; pyo3::Python::with_gil(|py| { let array = numpy::PyArray::arange(py, 0, 10, 1); assert!(array.is_contiguous()); let locals = [("np", numpy::get_array_module(py).unwrap())].into_py_dict(py); let not_contiguous: &numpy::PyArray1<f32> = py .eval("np.zeros((3, 5))[::2, 4]", Some(locals), None) .unwrap() .downcast() .unwrap(); assert!(!not_contiguous.is_contiguous()); });
pub fn is_fortran_contiguous(&self) -> bool
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Returns true
if the internal data of the array is Fortran-style contiguous.
pub fn is_c_contiguous(&self) -> bool
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Returns true
if the internal data of the array is C-style contiguous.
pub fn to_owned(&self) -> Py<Self>
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Get Py<PyArray>
from &PyArray
, which is the owned wrapper of PyObject.
You can use this method when you have to avoid lifetime annotation to your function args
or return types, like used with pyo3's pymethod
.
Example
use pyo3::{GILGuard, Python, Py}; use numpy::PyArray1; fn return_py_array() -> Py<PyArray1<i32>> { Python::with_gil(|py| PyArray1::zeros(py, [5], false).to_owned()) } let array = return_py_array(); pyo3::Python::with_gil(|py| { assert_eq!(array.as_ref(py).readonly().as_slice().unwrap(), &[0, 0, 0, 0, 0]); });
pub fn ndim(&self) -> usize
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Returns the number of dimensions in the array.
Same as numpy.ndarray.ndim
Example
use numpy::PyArray3; pyo3::Python::with_gil(|py| { let arr = PyArray3::<f64>::new(py, [4, 5, 6], false); assert_eq!(arr.ndim(), 3); });
pub fn strides(&self) -> &[isize]
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Returns a slice which contains how many bytes you need to jump to the next row.
Same as numpy.ndarray.strides
Example
use numpy::PyArray3; pyo3::Python::with_gil(|py| { let arr = PyArray3::<f64>::new(py, [4, 5, 6], false); assert_eq!(arr.strides(), &[240, 48, 8]); });
pub fn shape(&self) -> &[usize]
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Returns a slice which contains dimmensions of the array.
Same as numpy.ndarray.shape
Example
use numpy::PyArray3; pyo3::Python::with_gil(|py| { let arr = PyArray3::<f64>::new(py, [4, 5, 6], false); assert_eq!(arr.shape(), &[4, 5, 6]); });
pub fn len(&self) -> usize
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Calcurates the total number of elements in the array.
pub fn is_empty(&self) -> bool
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pub fn dims(&self) -> D
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Same as shape, but returns D
pub unsafe fn as_slice(&self) -> Result<&[T], NotContiguousError>
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Returns the immutable view of the internal data of PyArray
as slice.
Please consider the use of safe alternatives
(PyReadonlyArray::as_slice
, as_cell_slice
or to_vec
) instead of this.
Safety
If the internal array is not readonly and can be mutated from Python code, holding the slice might cause undefined behavior.
pub fn as_cell_slice(&self) -> Result<&[Cell<T>], NotContiguousError>
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Returns the view of the internal data of PyArray
as &[Cell<T>]
.
pub unsafe fn as_slice_mut(&self) -> Result<&mut [T], NotContiguousError>
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Returns the view of the internal data of PyArray
as mutable slice.
Safety
If another reference to the internal data exists(e.g., &[T]
or ArrayView
),
it might cause undefined behavior.
In such case, please consider the use of as_cell_slice
,
pub unsafe fn get(&self, index: impl NpyIndex<Dim = D>) -> Option<&T>
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Get the immutable reference of the specified element, with checking the passed index is valid.
Please consider the use of safe alternatives
(PyReadonlyArray::get
or get_owned
) instead of this.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap(); assert_eq!(*unsafe { arr.get([1, 0, 3]) }.unwrap(), 11); });
Safety
If the internal array is not readonly and can be mutated from Python code, holding the slice might cause undefined behavior.
pub unsafe fn uget<Idx>(&self, index: Idx) -> &T where
Idx: NpyIndex<Dim = D>,
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Idx: NpyIndex<Dim = D>,
Get the immutable reference of the specified element, without checking the passed index is valid.
See NpyIndex for what types you can use as index.
Passing an invalid index can cause undefined behavior(mostly SIGSEGV).
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap(); assert_eq!(unsafe { *arr.uget([1, 0, 3]) }, 11); });
pub unsafe fn uget_mut<Idx>(&self, index: Idx) -> &mut T where
Idx: NpyIndex<Dim = D>,
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Idx: NpyIndex<Dim = D>,
Same as uget, but returns &mut T
.
pub fn to_dyn(&self) -> &PyArray<T, IxDyn>
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Get dynamic dimensioned array from fixed dimension array.
See get for usage.
pub fn get_owned(&self, index: impl NpyIndex<Dim = D>) -> Option<T>
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Get the copy of the specified element in the array.
See NpyIndex for what types you can use as index.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let arr = PyArray::arange(py, 0, 16, 1).reshape([2, 2, 4]).unwrap(); assert_eq!(arr.get_owned([1, 0, 3]), Some(11)); });
pub fn to_vec(&self) -> Result<Vec<T>, NotContiguousError>
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Returns the copy of the internal data of PyArray
to Vec
.
Returns ErrorKind::NotContiguous
if the internal array is not contiguous.
See also as_slice
Example
use numpy::PyArray2; use pyo3::types::IntoPyDict; pyo3::Python::with_gil(|py| { let locals = [("np", numpy::get_array_module(py).unwrap())].into_py_dict(py); let array: &PyArray2<i64> = py .eval("np.array([[0, 1], [2, 3]], dtype='int64')", Some(locals), None) .unwrap() .downcast() .unwrap(); assert_eq!(array.to_vec().unwrap(), vec![0, 1, 2, 3]); });
pub unsafe fn as_array(&self) -> ArrayView<'_, T, D>
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Get the immutable view of the internal data of PyArray
, as
ndarray::ArrayView
.
Please consider the use of safe alternatives
(PyReadonlyArray::as_array
or to_array
) instead of this.
Safety
If the internal array is not readonly and can be mutated from Python code,
holding the ArrayView
might cause undefined behavior.
pub unsafe fn as_array_mut(&self) -> ArrayViewMut<'_, T, D>
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Returns the internal array as ArrayViewMut
. See also as_array
.
Safety
If another reference to the internal data exists(e.g., &[T]
or ArrayView
),
it might cause undefined behavior.
pub fn to_owned_array(&self) -> Array<T, D>
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Get a copy of PyArray
as
ndarray::Array
.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let py_array = PyArray::arange(py, 0, 4, 1).reshape([2, 2]).unwrap(); assert_eq!( py_array.to_owned_array(), array![[0, 1], [2, 3]] ) });
pub fn resize(&self, new_elems: usize) -> PyResult<()>
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Extends or trancates the length of 1 dimension PyArray.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let pyarray = PyArray::arange(py, 0, 10, 1); assert_eq!(pyarray.len(), 10); pyarray.resize(100).unwrap(); assert_eq!(pyarray.len(), 100); });
pub fn iter<'py>(&'py self) -> PyResult<NpySingleIter<'py, T, ReadWrite>>
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Iterates all elements of this array. See NpySingleIter for more.
pub fn copy_to<U: Element>(&self, other: &PyArray<U, D>) -> PyResult<()>
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Copies self into other
, performing a data-type conversion if necessary.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let pyarray_f = PyArray::arange(py, 2.0, 5.0, 1.0); let pyarray_i = PyArray::<i64, _>::new(py, [3], false); assert!(pyarray_f.copy_to(pyarray_i).is_ok()); assert_eq!(pyarray_i.readonly().as_slice().unwrap(), &[2, 3, 4]); });
pub fn cast<'py, U: Element>(
&'py self,
is_fortran: bool
) -> PyResult<&'py PyArray<U, D>>
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&'py self,
is_fortran: bool
) -> PyResult<&'py PyArray<U, D>>
Cast the PyArray<T>
to PyArray<U>
, by allocating a new array.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let pyarray_f = PyArray::arange(py, 2.0, 5.0, 1.0); let pyarray_i = pyarray_f.cast::<i32>(false).unwrap(); assert!(pyarray_f.copy_to(pyarray_i).is_ok()); assert_eq!(pyarray_i.readonly().as_slice().unwrap(), &[2, 3, 4]); });
pub fn reshape<'py, ID, D2>(
&'py self,
dims: ID
) -> PyResult<&'py PyArray<T, D2>> where
ID: IntoDimension<Dim = D2>,
D2: Dimension,
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&'py self,
dims: ID
) -> PyResult<&'py PyArray<T, D2>> where
ID: IntoDimension<Dim = D2>,
D2: Dimension,
Construct a new array which has same values as self, same matrix order, but has different
dimensions specified by dims
.
Since a returned array can contain a same pointer as self, we highly recommend to drop an
old array, if this method returns Ok
.
Example
use numpy::PyArray; pyo3::Python::with_gil(|py| { let array = PyArray::from_exact_iter(py, 0..9); let array = array.reshape([3, 3]).unwrap(); assert_eq!(array.readonly().as_array(), array![[0, 1, 2], [3, 4, 5], [6, 7, 8]]); assert!(array.reshape([5]).is_err()); });
pub fn reshape_with_order<'py, ID, D2>(
&'py self,
dims: ID,
order: NPY_ORDER
) -> PyResult<&'py PyArray<T, D2>> where
ID: IntoDimension<Dim = D2>,
D2: Dimension,
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&'py self,
dims: ID,
order: NPY_ORDER
) -> PyResult<&'py PyArray<T, D2>> where
ID: IntoDimension<Dim = D2>,
D2: Dimension,
Same as reshape, but you can change the order of returned matrix.
Trait Implementations
impl<'py, T, D> AsRef<PyArray<T, D>> for PyReadonlyArray<'py, T, D>
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impl<'py, T, D> Deref for PyReadonlyArray<'py, T, D>
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type Target = PyArray<T, D>
The resulting type after dereferencing.
fn deref(&self) -> &PyArray<T, D>
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impl<'py, T, D> Drop for PyReadonlyArray<'py, T, D>
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impl<'py, T, D> From<&'py PyArray<T, D>> for PyReadonlyArray<'py, T, D>
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fn from(array: &'py PyArray<T, D>) -> PyReadonlyArray<'py, T, D>
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impl<'py, T: Element, D: Dimension> FromPyObject<'py> for PyReadonlyArray<'py, T, D>
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impl<'py, T, D> IntoPy<Py<PyAny>> for PyReadonlyArray<'py, T, D>
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Auto Trait Implementations
impl<'py, T, D> !RefUnwindSafe for PyReadonlyArray<'py, T, D>
impl<'py, T, D> !Send for PyReadonlyArray<'py, T, D>
impl<'py, T, D> !Sync for PyReadonlyArray<'py, T, D>
impl<'py, T, D> Unpin for PyReadonlyArray<'py, T, D>
impl<'py, T, D> !UnwindSafe for PyReadonlyArray<'py, T, D>
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T> From<T> for T
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impl<'a, T> FromPyObject<'a> for T where
T: PyClass + Clone,
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T: PyClass + Clone,
impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,