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style: ssize_t -> py::ssize_t
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63f2deea32
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@ -57,11 +57,11 @@ specification.
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struct buffer_info {
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void *ptr;
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ssize_t itemsize;
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py::ssize_t itemsize;
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std::string format;
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ssize_t ndim;
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std::vector<ssize_t> shape;
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std::vector<ssize_t> strides;
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py::ssize_t ndim;
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std::vector<py::ssize_t> shape;
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std::vector<py::ssize_t> strides;
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};
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To create a C++ function that can take a Python buffer object as an argument,
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@ -309,17 +309,17 @@ where ``N`` gives the required dimensionality of the array:
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m.def("sum_3d", [](py::array_t<double> x) {
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auto r = x.unchecked<3>(); // x must have ndim = 3; can be non-writeable
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double sum = 0;
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (ssize_t k = 0; k < r.shape(2); k++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t k = 0; k < r.shape(2); k++)
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sum += r(i, j, k);
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return sum;
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});
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m.def("increment_3d", [](py::array_t<double> x) {
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auto r = x.mutable_unchecked<3>(); // Will throw if ndim != 3 or flags.writeable is false
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (ssize_t k = 0; k < r.shape(2); k++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t k = 0; k < r.shape(2); k++)
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r(i, j, k) += 1.0;
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}, py::arg().noconvert());
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@ -15,7 +15,7 @@ TEST_SUBMODULE(buffers, m) {
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// test_from_python / test_to_python:
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class Matrix {
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public:
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Matrix(ssize_t rows, ssize_t cols) : m_rows(rows), m_cols(cols) {
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Matrix(py::ssize_t rows, py::ssize_t cols) : m_rows(rows), m_cols(cols) {
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print_created(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix");
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m_data = new float[(size_t) (rows*cols)];
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memset(m_data, 0, sizeof(float) * (size_t) (rows * cols));
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@ -59,25 +59,25 @@ TEST_SUBMODULE(buffers, m) {
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return *this;
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}
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float operator()(ssize_t i, ssize_t j) const {
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float operator()(py::ssize_t i, py::ssize_t j) const {
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return m_data[(size_t) (i*m_cols + j)];
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}
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float &operator()(ssize_t i, ssize_t j) {
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float &operator()(py::ssize_t i, py::ssize_t j) {
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return m_data[(size_t) (i*m_cols + j)];
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}
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float *data() { return m_data; }
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ssize_t rows() const { return m_rows; }
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ssize_t cols() const { return m_cols; }
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py::ssize_t rows() const { return m_rows; }
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py::ssize_t cols() const { return m_cols; }
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private:
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ssize_t m_rows;
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ssize_t m_cols;
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py::ssize_t m_rows;
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py::ssize_t m_cols;
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float *m_data;
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};
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py::class_<Matrix>(m, "Matrix", py::buffer_protocol())
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.def(py::init<ssize_t, ssize_t>())
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.def(py::init<py::ssize_t, py::ssize_t>())
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/// Construct from a buffer
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.def(py::init([](py::buffer const b) {
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py::buffer_info info = b.request();
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@ -93,12 +93,12 @@ TEST_SUBMODULE(buffers, m) {
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.def("cols", &Matrix::cols)
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/// Bare bones interface
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.def("__getitem__", [](const Matrix &m, std::pair<ssize_t, ssize_t> i) {
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.def("__getitem__", [](const Matrix &m, std::pair<py::ssize_t, py::ssize_t> i) {
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if (i.first >= m.rows() || i.second >= m.cols())
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throw py::index_error();
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return m(i.first, i.second);
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})
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.def("__setitem__", [](Matrix &m, std::pair<ssize_t, ssize_t> i, float v) {
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.def("__setitem__", [](Matrix &m, std::pair<py::ssize_t, py::ssize_t> i, float v) {
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if (i.first >= m.rows() || i.second >= m.cols())
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throw py::index_error();
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m(i.first, i.second) = v;
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@ -118,11 +118,11 @@ TEST_SUBMODULE(buffers, m) {
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// test_inherited_protocol
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class SquareMatrix : public Matrix {
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public:
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SquareMatrix(ssize_t n) : Matrix(n, n) { }
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SquareMatrix(py::ssize_t n) : Matrix(n, n) { }
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};
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// Derived classes inherit the buffer protocol and the buffer access function
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py::class_<SquareMatrix, Matrix>(m, "SquareMatrix")
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.def(py::init<ssize_t>());
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.def(py::init<py::ssize_t>());
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// test_pointer_to_member_fn
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@ -71,7 +71,7 @@ TEST_SUBMODULE(kwargs_and_defaults, m) {
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py::tuple t(a.size());
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for (size_t i = 0; i < a.size(); i++)
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// Use raw Python API here to avoid an extra, intermediate incref on the tuple item:
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t[i] = (int) Py_REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<ssize_t>(i)));
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t[i] = (int) Py_REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<py::ssize_t>(i)));
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return t;
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});
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m.def("mixed_args_refcount", [](py::object o, py::args a) {
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@ -80,7 +80,7 @@ TEST_SUBMODULE(kwargs_and_defaults, m) {
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t[0] = o.ref_count();
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for (size_t i = 0; i < a.size(); i++)
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// Use raw Python API here to avoid an extra, intermediate incref on the tuple item:
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t[i + 1] = (int) Py_REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<ssize_t>(i)));
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t[i + 1] = (int) Py_REFCNT(PyTuple_GET_ITEM(a.ptr(), static_cast<py::ssize_t>(i)));
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return t;
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});
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@ -89,23 +89,23 @@ template<typename... Ix> arr data_t(const arr_t& 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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for (ssize_t i = 0; i < a.nbytes() - a.offset_at(index...); i++)
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for (py::ssize_t i = 0; i < a.nbytes() - a.offset_at(index...); i++)
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ptr[i] = (uint8_t) (ptr[i] * 2);
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return a;
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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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auto ptr = a.mutable_data(index...);
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for (ssize_t i = 0; i < a.size() - a.index_at(index...); i++)
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for (py::ssize_t i = 0; i < a.size() - a.index_at(index...); i++)
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ptr[i]++;
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return a;
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}
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template<typename... Ix> ssize_t index_at(const arr& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> ssize_t index_at_t(const arr_t& a, Ix... idx) { return a.index_at(idx...); }
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template<typename... Ix> ssize_t offset_at(const arr& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> ssize_t offset_at_t(const arr_t& a, Ix... idx) { return a.offset_at(idx...); }
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template<typename... Ix> ssize_t at_t(const arr_t& a, Ix... idx) { return a.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> py::ssize_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 offset_at(const arr& 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> 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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#define def_index_fn(name, type) \
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@ -159,9 +159,9 @@ TEST_SUBMODULE(numpy_array, sm) {
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// test_array_attributes
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sm.def("ndim", [](const arr& a) { return a.ndim(); });
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sm.def("shape", [](const arr& a) { return arr(a.ndim(), a.shape()); });
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sm.def("shape", [](const arr& a, ssize_t dim) { return a.shape(dim); });
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sm.def("shape", [](const arr& a, py::ssize_t dim) { return a.shape(dim); });
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sm.def("strides", [](const arr& a) { return arr(a.ndim(), a.strides()); });
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sm.def("strides", [](const arr& a, ssize_t dim) { return a.strides(dim); });
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sm.def("strides", [](const arr& a, py::ssize_t dim) { return a.strides(dim); });
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sm.def("writeable", [](const arr& a) { return a.writeable(); });
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sm.def("size", [](const arr& a) { return a.size(); });
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sm.def("itemsize", [](const arr& a) { return a.itemsize(); });
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@ -281,33 +281,33 @@ TEST_SUBMODULE(numpy_array, sm) {
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// test_array_unchecked_fixed_dims
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sm.def("proxy_add2", [](py::array_t<double> a, double v) {
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auto r = a.mutable_unchecked<2>();
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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r(i, j) += v;
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}, py::arg().noconvert(), py::arg());
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sm.def("proxy_init3", [](double start) {
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py::array_t<double, py::array::c_style> a({ 3, 3, 3 });
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auto r = a.mutable_unchecked<3>();
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (ssize_t k = 0; k < r.shape(2); k++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t k = 0; k < r.shape(2); k++)
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r(i, j, k) = start++;
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return a;
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});
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sm.def("proxy_init3F", [](double start) {
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py::array_t<double, py::array::f_style> a({ 3, 3, 3 });
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auto r = a.mutable_unchecked<3>();
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for (ssize_t k = 0; k < r.shape(2); k++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t k = 0; k < r.shape(2); k++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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r(i, j, k) = start++;
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return a;
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});
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sm.def("proxy_squared_L2_norm", [](py::array_t<double> a) {
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auto r = a.unchecked<1>();
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double sumsq = 0;
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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sumsq += r[i] * r(i); // Either notation works for a 1D array
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return sumsq;
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});
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@ -335,17 +335,17 @@ TEST_SUBMODULE(numpy_array, sm) {
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sm.def("proxy_add2_dyn", [](py::array_t<double> a, double v) {
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auto r = a.mutable_unchecked();
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if (r.ndim() != 2) throw std::domain_error("error: ndim != 2");
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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r(i, j) += v;
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}, py::arg().noconvert(), py::arg());
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sm.def("proxy_init3_dyn", [](double start) {
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py::array_t<double, py::array::c_style> a({ 3, 3, 3 });
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auto r = a.mutable_unchecked();
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if (r.ndim() != 3) throw std::domain_error("error: ndim != 3");
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for (ssize_t i = 0; i < r.shape(0); i++)
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for (ssize_t j = 0; j < r.shape(1); j++)
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for (ssize_t k = 0; k < r.shape(2); k++)
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for (py::ssize_t i = 0; i < r.shape(0); i++)
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for (py::ssize_t j = 0; j < r.shape(1); j++)
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for (py::ssize_t k = 0; k < r.shape(2); k++)
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r(i, j, k) = start++;
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return a;
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});
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@ -374,7 +374,7 @@ TEST_SUBMODULE(numpy_array, sm) {
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// test_array_resize
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// reshape array to 2D without changing size
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sm.def("array_reshape2", [](py::array_t<double> a) {
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const auto dim_sz = (ssize_t)std::sqrt(a.size());
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const auto dim_sz = (py::ssize_t)std::sqrt(a.size());
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if (dim_sz * dim_sz != a.size())
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throw std::domain_error("array_reshape2: input array total size is not a squared integer");
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a.resize({dim_sz, dim_sz});
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@ -168,7 +168,7 @@ py::list print_recarray(py::array_t<S, 0> arr) {
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const auto req = arr.request();
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const auto ptr = static_cast<S*>(req.ptr);
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auto l = py::list();
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for (ssize_t i = 0; i < req.size; i++) {
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for (py::ssize_t i = 0; i < req.size; i++) {
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std::stringstream ss;
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ss << ptr[i];
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l.append(py::str(ss.str()));
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@ -180,8 +180,8 @@ py::array_t<int32_t, 0> test_array_ctors(int i) {
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using arr_t = py::array_t<int32_t, 0>;
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std::vector<int32_t> data { 1, 2, 3, 4, 5, 6 };
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std::vector<ssize_t> shape { 3, 2 };
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std::vector<ssize_t> strides { 8, 4 };
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std::vector<py::ssize_t> shape { 3, 2 };
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std::vector<py::ssize_t> strides { 8, 4 };
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auto ptr = data.data();
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auto vptr = (void *) ptr;
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@ -398,7 +398,7 @@ TEST_SUBMODULE(numpy_dtypes, m) {
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if (non_empty) {
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auto req = arr.request();
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auto ptr = static_cast<StringStruct*>(req.ptr);
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for (ssize_t i = 0; i < req.size * req.itemsize; i++)
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for (py::ssize_t i = 0; i < req.size * req.itemsize; i++)
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static_cast<char*>(req.ptr)[i] = 0;
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ptr[1].a[0] = 'a'; ptr[1].b[0] = 'a';
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ptr[2].a[0] = 'a'; ptr[2].b[0] = 'a';
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@ -83,8 +83,8 @@ TEST_SUBMODULE(numpy_vectorize, m) {
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py::array_t<float, py::array::forcecast> arg2,
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py::array_t<double, py::array::forcecast> arg3
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) {
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ssize_t ndim;
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std::vector<ssize_t> shape;
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py::ssize_t ndim;
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std::vector<py::ssize_t> shape;
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std::array<py::buffer_info, 3> buffers {{ arg1.request(), arg2.request(), arg3.request() }};
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return py::detail::broadcast(buffers, ndim, shape);
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});
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@ -404,7 +404,7 @@ TEST_SUBMODULE(pytypes, m) {
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m.def("test_memoryview_from_memory", []() {
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const char* buf = "\xff\xe1\xab\x37";
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return py::memoryview::from_memory(
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buf, static_cast<ssize_t>(strlen(buf)));
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buf, static_cast<py::ssize_t>(strlen(buf)));
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});
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#endif
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@ -83,7 +83,7 @@ TEST_SUBMODULE(sequences_and_iterators, m) {
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py::class_<Sliceable>(m,"Sliceable")
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.def(py::init<int>())
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.def("__getitem__",[](const Sliceable &s, py::slice slice) {
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ssize_t start, stop, step, slicelength;
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py::ssize_t start, stop, step, slicelength;
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if (!slice.compute(s.size, &start, &stop, &step, &slicelength))
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throw py::error_already_set();
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int istart = static_cast<int>(start);
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