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#include <vigra/numpy_array.hxx>
Public Types | |
typedef value_type * | const_iterator |
typedef view_type::const_pointer | const_pointer |
typedef view_type::const_reference | const_reference |
typedef view_type::const_traverser | const_traverser |
typedef view_type::difference_type | difference_type |
typedef view_type::difference_type_1 | difference_type_1 |
typedef value_type * | iterator |
typedef view_type::pointer | pointer |
typedef view_type::reference | reference |
typedef view_type::size_type | size_type |
typedef view_type::traverser | traverser |
typedef view_type::value_type | value_type |
typedef MultiArrayView< N, typename ArrayTraits::value_type, Stride > | view_type |
Public Member Functions | |
void | makeCopy (PyObject *obj, bool strict=false) |
bool | makeReference (const NumpyAnyArray &array, bool strict=true) |
bool | makeReference (PyObject *obj, bool strict=true) |
void | makeReference (const view_type &multiArrayView) |
void | makeReferenceUnchecked (PyObject *obj) |
NumpyArray (const NumpyArray &other, bool createCopy=false) | |
NumpyArray (PyObject *obj=0, bool createCopy=false) | |
NumpyArray (difference_type const &shape) | |
NumpyArray (difference_type const &shape, difference_type const &strideOrdering) | |
NumpyArray (const NumpyAnyArray &other, bool createCopy=false) | |
NumpyArray (const view_type &other) | |
NumpyArray & | operator= (const NumpyAnyArray &other) |
NumpyArray & | operator= (const NumpyArray &other) |
void | reshape (difference_type const &shape, difference_type const &strideOrdering=standardStrideOrdering()) |
void | reshapeIfEmpty (difference_type const &shape, difference_type const &strideOrdering, std::string message="", bool strict=false) |
void | reshapeIfEmpty (difference_type const &shape, std::string message="") |
Static Public Member Functions | |
static bool | isCopyCompatible (PyObject *obj) |
static bool | isReferenceCompatible (PyObject *obj) |
static bool | isStrictlyCompatible (PyObject *obj) |
static difference_type | standardStrideOrdering () |
Provide the MultiArrayView interface for a Python array.
This class inherits from both vigra::MultiArrayView and vigra::NumpyAnyArray in order to support easy and save application of VIGRA functions to Python arrays.
#include <vigra/numpy_array.hxx>
Namespace: vigra
typedef MultiArrayView<N, typename ArrayTraits::value_type, Stride> view_type |
the view type associated with this array.
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef view_type::value_type value_type |
the array's value type
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef view_type::pointer pointer |
pointer type
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
const pointer type
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef view_type::reference reference |
reference type (result of operator[])
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
const reference type (result of operator[] const)
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef view_type::size_type size_type |
size type
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
difference type (used for multi-dimensional offsets and indices)
Reimplemented from NumpyAnyArray.
difference and index type for a single dimension
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef view_type::traverser traverser |
traverser type
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
traverser type to const data
Reimplemented from MultiArrayView< N, NumpyArrayTraits< N, T, Stride >::value_type, Stride >.
typedef value_type* iterator |
sequential (random access) iterator type
typedef value_type* const_iterator |
sequential (random access) const iterator type
NumpyArray | ( | PyObject * | obj = 0 , |
bool | createCopy = false |
||
) | [explicit] |
Construct from a given PyObject pointer. When the given python object is NULL, the internal python array will be NULL and hasData() will return false.
Otherwise, the function attempts to create a new reference to the given Python object, unless copying is forced by setting createCopy to true. If either of this fails, the function throws an exception. This will not happen if isStrictlyCompatible(obj) (in case of creating a new reference) or isCopyCompatible(obj) (in case of copying) have returned true beforehand.
NumpyArray | ( | const NumpyArray< N, T, Stride > & | other, |
bool | createCopy = false |
||
) |
Copy constructor; does not copy the memory, but creates a new reference to the same underlying python object, unless a copy is forced by setting createCopy to true. (If the source object has no data, this one will have no data, too.)
NumpyArray | ( | const view_type & | other | ) | [explicit] |
Allocate new memory and copy data from a MultiArrayView.
NumpyArray | ( | difference_type const & | shape | ) | [explicit] |
Construct a new array object, allocating an internal python ndarray of the given shape (in fortran order), initialized with zeros.
An exception is thrown when construction fails.
NumpyArray | ( | difference_type const & | shape, |
difference_type const & | strideOrdering | ||
) |
Construct a new array object, allocating an internal python ndarray of the given shape and given stride ordering, initialized with zeros.
An exception is thrown when construction fails.
NumpyArray | ( | const NumpyAnyArray & | other, |
bool | createCopy = false |
||
) |
Constructor from NumpyAnyArray. Equivalent to NumpyArray(other.pyObject())
NumpyArray& operator= | ( | const NumpyArray< N, T, Stride > & | other | ) |
Assignment operator. If this is already a view with data (i.e. hasData() is true) and the shapes match, the RHS array contents are copied. If this is an empty view, assignment is identical to makeReferenceUnchecked(other.pyObject()). See MultiArrayView::operator= for further information on semantics.
NumpyArray& operator= | ( | const NumpyAnyArray & | other | ) |
Assignment operator. If this is already a view with data (i.e. hasData() is true) and the shapes match, the RHS array contents are copied. If this is an empty view, assignment is identical to makeReference(other.pyObject()). Otherwise, an exception is thrown.
Reimplemented from NumpyAnyArray.
static bool isCopyCompatible | ( | PyObject * | obj | ) | [static] |
Test whether a given python object is a numpy array that can be converted (copied) into an array compatible to this NumpyArray type. This means that the array's shape conforms to the requirements of makeCopy().
static bool isReferenceCompatible | ( | PyObject * | obj | ) | [static] |
Test whether a given python object is a numpy array with a compatible dtype and the correct shape and strides, so that it can be referenced as a view by this NumpyArray type (i.e. it conforms to the requirements of makeReference()).
static bool isStrictlyCompatible | ( | PyObject * | obj | ) | [static] |
Like isReferenceCompatible(obj), but also executes a customized type compatibility check when such a check has been registered for this class via registerPythonArrayType().
This facilitates proper overload resolution between NumpyArray<3, Multiband<T> > (a multiband image) and NumpyArray<3, Singleband<T> > (a scalar volume).
static difference_type standardStrideOrdering | ( | ) | [static] |
Create a vector representing the standard stride ordering of a NumpyArray. That is, we get a vector representing the range [0,...,N-1], which denotes the stride ordering for Fortran order.
void makeReferenceUnchecked | ( | PyObject * | obj | ) |
Set up a view to the given object without checking compatibility. This function must not be used unless isReferenceCompatible(obj) returned true on the given object (otherwise, a crash is likely).
bool makeReference | ( | PyObject * | obj, |
bool | strict = true |
||
) |
Try to set up a view referencing the given PyObject. Returns false if the python object is not a compatible numpy array (see isReferenceCompatible() or isStrictlyCompatible(), according to the parameter strict).
bool makeReference | ( | const NumpyAnyArray & | array, |
bool | strict = true |
||
) |
Try to set up a view referencing the same data as the given NumpyAnyArray. This overloaded variant simply calls makeReference() on array.pyObject().
void makeReference | ( | const view_type & | multiArrayView | ) |
Set up an unsafe reference to the given MultiArrayView. ATTENTION: This creates a numpy.ndarray that points to the same data, but does not own it, so it must be ensured by other means that the memory does not get freed before the end of the ndarray's lifetime! (One elegant way would be to set the 'base' attribute of the resulting ndarray to a python object which directly or indirectly holds the memory of the given MultiArrayView.)
void makeCopy | ( | PyObject * | obj, |
bool | strict = false |
||
) |
Try to create a copy of the given PyObject. Raises an exception when obj is not a compatible array (see isCopyCompatible() or isStrictlyCompatible(), according to the parameter strict) or the Python constructor call failed.
void reshape | ( | difference_type const & | shape, |
difference_type const & | strideOrdering = standardStrideOrdering() |
||
) |
Allocate new memory with the given shape and initialize with zeros.
If a stride ordering is given, the resulting array will have this stride ordering, when it is compatible with the array's memory layout (unstrided arrays only permit the standard ascending stride ordering).
Note: this operation invalidates dependent objects (MultiArrayViews and iterators)
void reshapeIfEmpty | ( | difference_type const & | shape, |
std::string | message = "" |
||
) |
When this array has no data, allocate new memory with the given shape and initialize with zeros. Otherwise, check if the new shape matches the old shape and throw a precondition exception with the given message if not.
void reshapeIfEmpty | ( | difference_type const & | shape, |
difference_type const & | strideOrdering, | ||
std::string | message = "" , |
||
bool | strict = false |
||
) |
When this array has no data, allocate new memory with the given shape and initialize with zeros. Otherwise, check if the new shape matches the old shape and throw a precondition exception with the given message if not. If strict is true, the given stride ordering must also match that of the existing data.
© Ullrich Köthe (ullrich.koethe@iwr.uni-heidelberg.de) |
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