/* tests/test_buffers.cpp -- supporting Pythons' buffer protocol Copyright (c) 2016 Wenzel Jakob All rights reserved. Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. */ #include "pybind11_tests.h" #include "constructor_stats.h" #include TEST_SUBMODULE(buffers, m) { // test_from_python / test_to_python: class Matrix { public: Matrix(py::ssize_t rows, py::ssize_t cols) : m_rows(rows), m_cols(cols) { print_created(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix"); m_data = new float[(size_t) (rows*cols)]; memset(m_data, 0, sizeof(float) * (size_t) (rows * cols)); } Matrix(const Matrix &s) : m_rows(s.m_rows), m_cols(s.m_cols) { print_copy_created(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix"); m_data = new float[(size_t) (m_rows * m_cols)]; memcpy(m_data, s.m_data, sizeof(float) * (size_t) (m_rows * m_cols)); } Matrix(Matrix &&s) noexcept : m_rows(s.m_rows), m_cols(s.m_cols), m_data(s.m_data) { print_move_created(this); s.m_rows = 0; s.m_cols = 0; s.m_data = nullptr; } ~Matrix() { print_destroyed(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix"); delete[] m_data; } Matrix &operator=(const Matrix &s) { if (this == &s) { return *this; } print_copy_assigned(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix"); delete[] m_data; m_rows = s.m_rows; m_cols = s.m_cols; m_data = new float[(size_t) (m_rows * m_cols)]; memcpy(m_data, s.m_data, sizeof(float) * (size_t) (m_rows * m_cols)); return *this; } Matrix &operator=(Matrix &&s) noexcept { print_move_assigned(this, std::to_string(m_rows) + "x" + std::to_string(m_cols) + " matrix"); if (&s != this) { delete[] m_data; m_rows = s.m_rows; m_cols = s.m_cols; m_data = s.m_data; s.m_rows = 0; s.m_cols = 0; s.m_data = nullptr; } return *this; } float operator()(py::ssize_t i, py::ssize_t j) const { return m_data[(size_t) (i*m_cols + j)]; } float &operator()(py::ssize_t i, py::ssize_t j) { return m_data[(size_t) (i*m_cols + j)]; } float *data() { return m_data; } py::ssize_t rows() const { return m_rows; } py::ssize_t cols() const { return m_cols; } private: py::ssize_t m_rows; py::ssize_t m_cols; float *m_data; }; py::class_(m, "Matrix", py::buffer_protocol()) .def(py::init()) /// Construct from a buffer .def(py::init([](const py::buffer &b) { py::buffer_info info = b.request(); if (info.format != py::format_descriptor::format() || info.ndim != 2) throw std::runtime_error("Incompatible buffer format!"); auto v = new Matrix(info.shape[0], info.shape[1]); memcpy(v->data(), info.ptr, sizeof(float) * (size_t) (v->rows() * v->cols())); return v; })) .def("rows", &Matrix::rows) .def("cols", &Matrix::cols) /// Bare bones interface .def("__getitem__", [](const Matrix &m, std::pair i) { if (i.first >= m.rows() || i.second >= m.cols()) throw py::index_error(); return m(i.first, i.second); }) .def("__setitem__", [](Matrix &m, std::pair i, float v) { if (i.first >= m.rows() || i.second >= m.cols()) throw py::index_error(); m(i.first, i.second) = v; }) /// Provide buffer access .def_buffer([](Matrix &m) -> py::buffer_info { return py::buffer_info( m.data(), /* Pointer to buffer */ { m.rows(), m.cols() }, /* Buffer dimensions */ { sizeof(float) * size_t(m.cols()), /* Strides (in bytes) for each index */ sizeof(float) } ); }); // test_inherited_protocol class SquareMatrix : public Matrix { public: explicit SquareMatrix(py::ssize_t n) : Matrix(n, n) {} }; // Derived classes inherit the buffer protocol and the buffer access function py::class_(m, "SquareMatrix") .def(py::init()); // test_pointer_to_member_fn // Tests that passing a pointer to member to the base class works in // the derived class. struct Buffer { int32_t value = 0; py::buffer_info get_buffer_info() { return py::buffer_info(&value, sizeof(value), py::format_descriptor::format(), 1); } }; py::class_(m, "Buffer", py::buffer_protocol()) .def(py::init<>()) .def_readwrite("value", &Buffer::value) .def_buffer(&Buffer::get_buffer_info); class ConstBuffer { std::unique_ptr value; public: int32_t get_value() const { return *value; } void set_value(int32_t v) { *value = v; } py::buffer_info get_buffer_info() const { return py::buffer_info(value.get(), sizeof(*value), py::format_descriptor::format(), 1); } ConstBuffer() : value(new int32_t{0}) {} }; py::class_(m, "ConstBuffer", py::buffer_protocol()) .def(py::init<>()) .def_property("value", &ConstBuffer::get_value, &ConstBuffer::set_value) .def_buffer(&ConstBuffer::get_buffer_info); struct DerivedBuffer : public Buffer { }; py::class_(m, "DerivedBuffer", py::buffer_protocol()) .def(py::init<>()) .def_readwrite("value", (int32_t DerivedBuffer::*) &DerivedBuffer::value) .def_buffer(&DerivedBuffer::get_buffer_info); struct BufferReadOnly { const uint8_t value = 0; explicit BufferReadOnly(uint8_t value) : value(value) {} py::buffer_info get_buffer_info() { return py::buffer_info(&value, 1); } }; py::class_(m, "BufferReadOnly", py::buffer_protocol()) .def(py::init()) .def_buffer(&BufferReadOnly::get_buffer_info); struct BufferReadOnlySelect { uint8_t value = 0; bool readonly = false; py::buffer_info get_buffer_info() { return py::buffer_info(&value, 1, readonly); } }; py::class_(m, "BufferReadOnlySelect", py::buffer_protocol()) .def(py::init<>()) .def_readwrite("value", &BufferReadOnlySelect::value) .def_readwrite("readonly", &BufferReadOnlySelect::readonly) .def_buffer(&BufferReadOnlySelect::get_buffer_info); // Expose buffer_info for testing. py::class_(m, "buffer_info") .def(py::init<>()) .def_readonly("itemsize", &py::buffer_info::itemsize) .def_readonly("size", &py::buffer_info::size) .def_readonly("format", &py::buffer_info::format) .def_readonly("ndim", &py::buffer_info::ndim) .def_readonly("shape", &py::buffer_info::shape) .def_readonly("strides", &py::buffer_info::strides) .def_readonly("readonly", &py::buffer_info::readonly) .def("__repr__", [](py::handle self) { return py::str("itemsize={0.itemsize!r}, size={0.size!r}, format={0.format!r}, ndim={0.ndim!r}, shape={0.shape!r}, strides={0.strides!r}, readonly={0.readonly!r}").format(self); }) ; m.def("get_buffer_info", [](const py::buffer &buffer) { return buffer.request(); }); }