/* SPDX-License-Identifier: LGPL-2.1-or-later */ /* * Copyright (C) 2022, Tomi Valkeinen * * Python bindings - Geometry classes */ #include #include #include #include #include #include #include "py_main.h" namespace py = pybind11; using namespace libcamera; void init_py_geometry(py::module &m) { auto pyPoint = py::class_(m, "Point"); auto pySize = py::class_(m, "Size"); auto pySizeRange = py::class_(m, "SizeRange"); auto pyRectangle = py::class_(m, "Rectangle"); pyPoint .def(py::init<>()) .def(py::init()) .def_readwrite("x", &Point::x) .def_readwrite("y", &Point::y) .def(py::self == py::self) .def(-py::self) .def("__str__", &Point::toString) .def("__repr__", [](const Point &self) { return py::str("libcamera.Point({}, {})") .format(self.x, self.y); }); pySize .def(py::init<>()) .def(py::init()) .def_readwrite("width", &Size::width) .def_readwrite("height", &Size::height) .def_property_readonly("is_null", &Size::isNull) .def("align_down_to", &Size::alignDownTo) .def("align_up_to", &Size::alignUpTo) .def("bound_to", &Size::boundTo) .def("expand_to", &Size::expandTo) .def("grow_by", &Size::growBy) .def("shrink_by", &Size::shrinkBy) .def("aligned_up_to", &Size::alignedUpTo) .def("aligned_up_to", &Size::alignedUpTo) .def("bounded_to", &Size::boundedTo) .def("expanded_to", &Size::expandedTo) .def("grown_by", &Size::grownBy) .def("shrunk_by", &Size::shrunkBy) .def("bounded_to_aspect_ratio", &Size::boundedToAspectRatio) .def("expanded_to_aspect_ratio", &Size::expandedToAspectRatio) .def("centered_to", &Size::centeredTo) .def(py::self == py::self) .def(py::self < py::self) .def(py::self <= py::self) .def(py::self * float()) .def(py::self / float()) .def(py::self *= float()) .def(py::self /= float()) .def("__str__", &Size::toString) .def("__repr__", [](const Size &self) { return py::str("libcamera.Size({}, {})") .format(self.width, self.height); }); pySizeRange .def(py::init<>()) .def(py::init()) .def(py::init()) .def(py::init()) .def_readwrite("min", &SizeRange::min) .def_readwrite("max", &SizeRange::max) .def_readwrite("hStep", &SizeRange::hStep) .def_readwrite("vStep", &SizeRange::vStep) .def("contains", &SizeRange::contains) .def(py::self == py::self) .def("__str__", &SizeRange::toString) .def("__repr__", [](const SizeRange &self) { return py::str("libcamera.SizeRange(({}, {}), ({}, {}), {}, {})") .format(self.min.width, self.min.height, self.max.width, self.max.height, self.hStep, self.vStep); }); pyRectangle .def(py::init<>()) .def(py::init()) .def(py::init()) .def(py::init()) .def_readwrite("x", &Rectangle::x) .def_readwrite("y", &Rectangle::y) .def_readwrite("width", &Rectangle::width) .def_readwrite("height", &Rectangle::height) .def_property_readonly("is_null", &Rectangle::isNull) .def_property_readonly("center", &Rectangle::center) .def_property_readonly("size", &Rectangle::size) .def_property_readonly("topLeft", &Rectangle::topLeft) .def("scale_by", &Rectangle::scaleBy) .def("translate_by", &Rectangle::translateBy) .def("bounded_to", &Rectangle::boundedTo) .def("enclosed_in", &Rectangle::enclosedIn) .def("scaled_by", &Rectangle::scaledBy) .def("translated_by", &Rectangle::translatedBy) .def(py::self == py::self) .def("__str__", &Rectangle::toString) .def("__repr__", [](const Rectangle &self) { return py::str("libcamera.Rectangle({}, {}, {}, {})") .format(self.x, self.y, self.width, self.height); }); }