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Use numpy rather than Eigen for copying
We're current copy by creating an Eigen::Map into the input numpy array, then assigning that to the basic eigen type, effectively having Eigen do the copy. That doesn't work for negative strides, though: Eigen doesn't allow them. This commit makes numpy do the copying instead by allocating the eigen type, then having numpy copy from the input array into a numpy reference into the eigen object's data. This also saves a copy when type conversion is required: numpy can do the conversion on-the-fly as part of the copy. Finally this commit also makes non-reference parameters respect the convert flag, declining the load when called in a noconvert pass with a convertible, but non-array input or an array with the wrong dtype.
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627da3f135
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@ -41,8 +41,8 @@ completely avoid copy operations with Python expressions like
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py::format_descriptor<float>::format(), /* Python struct-style format descriptor */
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py::format_descriptor<float>::format(), /* Python struct-style format descriptor */
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2, /* Number of dimensions */
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2, /* Number of dimensions */
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{ m.rows(), m.cols() }, /* Buffer dimensions */
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{ m.rows(), m.cols() }, /* Buffer dimensions */
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{ (ssize_t)( sizeof(float) * m.rows() ),/* Strides (in bytes) for each index */
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{ sizeof(float) * m.rows(), /* Strides (in bytes) for each index */
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(ssize_t)( sizeof(float) ) }
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sizeof(float) }
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);
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);
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});
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});
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@ -118,11 +118,10 @@ as follows:
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/* Number of dimensions */
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/* Number of dimensions */
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2,
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2,
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/* Buffer dimensions */
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/* Buffer dimensions */
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{ (size_t) m.rows(),
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{ m.rows(), m.cols() },
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(size_t) m.cols() },
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/* Strides (in bytes) for each index */
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/* Strides (in bytes) for each index */
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{ (ssize_t)( sizeof(Scalar) * (rowMajor ? m.cols() : 1) ),
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{ sizeof(Scalar) * (rowMajor ? m.cols() : 1),
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(ssize_t)( sizeof(Scalar) * (rowMajor ? 1 : m.rows()) ) }
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sizeof(Scalar) * (rowMajor ? 1 : m.rows()) }
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);
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);
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})
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})
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@ -21,12 +21,12 @@ struct buffer_info {
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std::string format; // For homogeneous buffers, this should be set to format_descriptor<T>::format()
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std::string format; // For homogeneous buffers, this should be set to format_descriptor<T>::format()
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size_t ndim = 0; // Number of dimensions
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size_t ndim = 0; // Number of dimensions
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std::vector<size_t> shape; // Shape of the tensor (1 entry per dimension)
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std::vector<size_t> shape; // Shape of the tensor (1 entry per dimension)
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std::vector<size_t> strides; // Number of entries between adjacent entries (for each per dimension)
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std::vector<ssize_t> strides; // Number of entries between adjacent entries (for each per dimension)
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buffer_info() { }
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buffer_info() { }
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buffer_info(void *ptr, size_t itemsize, const std::string &format, size_t ndim,
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buffer_info(void *ptr, size_t itemsize, const std::string &format, size_t ndim,
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detail::any_container<size_t> shape_in, detail::any_container<size_t> strides_in)
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detail::any_container<size_t> shape_in, detail::any_container<ssize_t> strides_in)
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: ptr(ptr), itemsize(itemsize), size(1), format(format), ndim(ndim),
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: ptr(ptr), itemsize(itemsize), size(1), format(format), ndim(ndim),
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shape(std::move(shape_in)), strides(std::move(strides_in)) {
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shape(std::move(shape_in)), strides(std::move(strides_in)) {
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if (ndim != shape.size() || ndim != strides.size())
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if (ndim != shape.size() || ndim != strides.size())
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@ -433,7 +433,7 @@ inline void enable_dynamic_attributes(PyHeapTypeObject *heap_type) {
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#endif
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#endif
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type->tp_flags |= Py_TPFLAGS_HAVE_GC;
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type->tp_flags |= Py_TPFLAGS_HAVE_GC;
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type->tp_dictoffset = type->tp_basicsize; // place dict at the end
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type->tp_dictoffset = type->tp_basicsize; // place dict at the end
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type->tp_basicsize += sizeof(PyObject *); // and allocate enough space for it
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type->tp_basicsize += (Py_ssize_t)sizeof(PyObject *); // and allocate enough space for it
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type->tp_traverse = pybind11_traverse;
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type->tp_traverse = pybind11_traverse;
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type->tp_clear = pybind11_clear;
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type->tp_clear = pybind11_clear;
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@ -459,16 +459,18 @@ extern "C" inline int pybind11_getbuffer(PyObject *obj, Py_buffer *view, int fla
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view->ndim = 1;
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view->ndim = 1;
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view->internal = info;
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view->internal = info;
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view->buf = info->ptr;
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view->buf = info->ptr;
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view->itemsize = (ssize_t) info->itemsize;
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view->itemsize = (Py_ssize_t) info->itemsize;
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view->len = view->itemsize;
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view->len = view->itemsize;
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for (auto s : info->shape)
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for (auto s : info->shape)
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view->len *= s;
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view->len *= (Py_ssize_t) s;
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if ((flags & PyBUF_FORMAT) == PyBUF_FORMAT)
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if ((flags & PyBUF_FORMAT) == PyBUF_FORMAT)
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view->format = const_cast<char *>(info->format.c_str());
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view->format = const_cast<char *>(info->format.c_str());
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if ((flags & PyBUF_STRIDES) == PyBUF_STRIDES) {
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if ((flags & PyBUF_STRIDES) == PyBUF_STRIDES) {
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view->ndim = (int) info->ndim;
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view->ndim = (int) info->ndim;
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view->strides = (ssize_t *) &info->strides[0];
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view->strides = &info->strides[0];
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view->shape = (ssize_t *) &info->shape[0];
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// Next is a pointer cast, let's make sure it's safe.
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static_assert(sizeof(Py_ssize_t)==sizeof(info->shape[0]), "sizeof(Py_ssize_t) != sizeof(size_t)");
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view->shape = (Py_ssize_t *) &info->shape[0];
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}
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}
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Py_INCREF(view->obj);
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Py_INCREF(view->obj);
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return 0;
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return 0;
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@ -249,8 +249,14 @@ struct type_caster<Type, enable_if_t<is_eigen_dense_plain<Type>::value>> {
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using Scalar = typename Type::Scalar;
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using Scalar = typename Type::Scalar;
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using props = EigenProps<Type>;
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using props = EigenProps<Type>;
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bool load(handle src, bool) {
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bool load(handle src, bool convert) {
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auto buf = array_t<Scalar>::ensure(src);
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// If we're in no-convert mode, only load if given an array of the correct type
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if (!convert && !isinstance<array_t<Scalar>>(src))
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return false;
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// Coerce into an array, but don't do type conversion yet; the copy below handles it.
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auto buf = array::ensure(src);
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if (!buf)
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if (!buf)
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return false;
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return false;
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@ -259,25 +265,16 @@ struct type_caster<Type, enable_if_t<is_eigen_dense_plain<Type>::value>> {
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return false;
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return false;
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auto fits = props::conformable(buf);
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auto fits = props::conformable(buf);
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if (!fits)
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// Allocate the new type, then build a numpy reference into it
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return false; // Non-comformable vector/matrix types
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value = Type(fits.rows, fits.cols);
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auto ref = reinterpret_steal<array>(eigen_ref_array<props>(value));
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if (dims == 1) ref = ref.squeeze();
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if (fits.negativestrides) {
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int result = detail::npy_api::get().PyArray_CopyInto_(ref.ptr(), buf.ptr());
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// Eigen does not support negative strides, so we need to make a copy here with normal strides.
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if (result < 0) { // Copy failed!
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// TODO: when Eigen bug #747 is fixed, remove this if case, always execute the else part.
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PyErr_Clear();
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// http://eigen.tuxfamily.org/bz/show_bug.cgi?id=747
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auto buf2 = array_t<Scalar,array::forcecast || array::f_style>::ensure(src);
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if (!buf2)
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return false;
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return false;
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// not checking sizes, we already did that
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fits = props::conformable(buf2);
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value = Eigen::Map<const Type, 0, EigenDStride>(buf2.data(), fits.rows, fits.cols, fits.stride);
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} else {
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value = Eigen::Map<const Type, 0, EigenDStride>(buf.data(), fits.rows, fits.cols, fits.stride);
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}
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}
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return true;
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return true;
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@ -152,6 +152,7 @@ struct npy_api {
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(PyTypeObject *, PyObject *, int, Py_intptr_t *,
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(PyTypeObject *, PyObject *, int, Py_intptr_t *,
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Py_intptr_t *, void *, int, PyObject *);
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Py_intptr_t *, void *, int, PyObject *);
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PyObject *(*PyArray_DescrNewFromType_)(int);
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PyObject *(*PyArray_DescrNewFromType_)(int);
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int (*PyArray_CopyInto_)(PyObject *, PyObject *);
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PyObject *(*PyArray_NewCopy_)(PyObject *, int);
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PyObject *(*PyArray_NewCopy_)(PyObject *, int);
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PyTypeObject *PyArray_Type_;
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PyTypeObject *PyArray_Type_;
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PyTypeObject *PyVoidArrType_Type_;
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PyTypeObject *PyVoidArrType_Type_;
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@ -175,6 +176,7 @@ private:
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API_PyArray_DescrFromScalar = 57,
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API_PyArray_DescrFromScalar = 57,
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API_PyArray_FromAny = 69,
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API_PyArray_FromAny = 69,
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API_PyArray_Resize = 80,
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API_PyArray_Resize = 80,
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API_PyArray_CopyInto = 82,
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API_PyArray_NewCopy = 85,
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API_PyArray_NewCopy = 85,
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API_PyArray_NewFromDescr = 94,
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API_PyArray_NewFromDescr = 94,
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API_PyArray_DescrNewFromType = 9,
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API_PyArray_DescrNewFromType = 9,
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@ -205,6 +207,7 @@ private:
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DECL_NPY_API(PyArray_DescrFromScalar);
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DECL_NPY_API(PyArray_DescrFromScalar);
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DECL_NPY_API(PyArray_FromAny);
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DECL_NPY_API(PyArray_FromAny);
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DECL_NPY_API(PyArray_Resize);
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DECL_NPY_API(PyArray_Resize);
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DECL_NPY_API(PyArray_CopyInto);
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DECL_NPY_API(PyArray_NewCopy);
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DECL_NPY_API(PyArray_NewCopy);
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DECL_NPY_API(PyArray_NewFromDescr);
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DECL_NPY_API(PyArray_NewFromDescr);
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DECL_NPY_API(PyArray_DescrNewFromType);
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DECL_NPY_API(PyArray_DescrNewFromType);
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@ -358,7 +358,7 @@ vector_buffer(Class_& cl) {
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vec.reserve(info.shape[0]);
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vec.reserve(info.shape[0]);
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T *p = static_cast<T*>(info.ptr);
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T *p = static_cast<T*>(info.ptr);
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auto step = info.strides[0] / static_cast<ssize_t>(sizeof(T));
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auto step = info.strides[0] / static_cast<ssize_t>(sizeof(T));
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T *end = p + info.shape[0] * step;
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T *end = p + static_cast<ssize_t>(info.shape[0]) * step;
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for (; p < end; p += step)
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for (; p < end; p += step)
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vec.push_back(*p);
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vec.push_back(*p);
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});
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});
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@ -20,11 +20,11 @@ using arr_t = py::array_t<uint16_t, 0>;
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static_assert(std::is_same<arr_t::value_type, uint16_t>::value, "");
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static_assert(std::is_same<arr_t::value_type, uint16_t>::value, "");
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template<typename... Ix> arr data(const arr& a, Ix... index) {
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template<typename... Ix> arr data(const arr& a, Ix... index) {
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return arr(a.nbytes() - a.offset_at(index...), (const uint8_t *) a.data(index...));
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return arr(a.nbytes() - size_t(a.offset_at(index...)), (const uint8_t *) a.data(index...));
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}
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}
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template<typename... Ix> arr data_t(const arr_t& a, Ix... index) {
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template<typename... Ix> arr data_t(const arr_t& a, Ix... index) {
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return arr(a.size() - a.index_at(index...), a.data(index...));
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return arr(a.size() - size_t(a.index_at(index...)), a.data(index...));
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}
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}
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arr& mutate_data(arr& a) {
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arr& mutate_data(arr& a) {
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@ -43,23 +43,23 @@ arr_t& mutate_data_t(arr_t& a) {
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template<typename... Ix> arr& mutate_data(arr& a, Ix... index) {
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template<typename... Ix> arr& mutate_data(arr& a, Ix... index) {
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auto ptr = (uint8_t *) a.mutable_data(index...);
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auto ptr = (uint8_t *) a.mutable_data(index...);
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for (size_t i = 0; i < a.nbytes() - a.offset_at(index...); i++)
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for (size_t i = 0; i < a.nbytes() - size_t(a.offset_at(index...)); i++)
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ptr[i] = (uint8_t) (ptr[i] * 2);
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ptr[i] = (uint8_t) (ptr[i] * 2);
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return a;
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return a;
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}
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}
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template<typename... Ix> arr_t& mutate_data_t(arr_t& a, Ix... index) {
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template<typename... Ix> arr_t& mutate_data_t(arr_t& a, Ix... index) {
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auto ptr = a.mutable_data(index...);
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auto ptr = a.mutable_data(index...);
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for (size_t i = 0; i < a.size() - a.index_at(index...); i++)
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for (size_t i = 0; i < a.size() - size_t(a.index_at(index...)); i++)
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ptr[i]++;
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ptr[i]++;
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return a;
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return a;
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}
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}
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template<typename... Ix> size_t index_at(const arr& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> py::ssize_t index_at(const arr& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> size_t index_at_t(const arr_t& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> py::ssize_t index_at_t(const arr_t& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> size_t offset_at(const arr& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> py::ssize_t offset_at(const arr& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> size_t offset_at_t(const arr_t& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> py::ssize_t offset_at_t(const arr_t& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> size_t at_t(const arr_t& a, Ix... idx) { return a.at(idx...); }
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template<typename... Ix> py::ssize_t at_t(const arr_t& a, Ix... idx) { return a.at(idx...); }
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template<typename... Ix> arr_t& mutate_at_t(arr_t& a, Ix... idx) { a.mutable_at(idx...)++; return a; }
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template<typename... Ix> arr_t& mutate_at_t(arr_t& a, Ix... idx) { a.mutable_at(idx...)++; return a; }
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#define def_index_fn(name, type) \
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#define def_index_fn(name, type) \
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