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4823285b55
Python bindings for CV_8UC(n) and other types macros #23679 ### Pull Request Readiness Checklist resolves https://github.com/opencv/opencv/issues/23628#issuecomment-1562468327 See details at https://github.com/opencv/opencv/wiki/How_to_contribute#making-a-good-pull-request - [x] I agree to contribute to the project under Apache 2 License. - [x] To the best of my knowledge, the proposed patch is not based on a code under GPL or another license that is incompatible with OpenCV - [x] The PR is proposed to the proper branch - [x] There is a reference to the original bug report and related work - [x] There is accuracy test, performance test and test data in opencv_extra repository, if applicable Patch to opencv_extra has the same branch name. - [x] The feature is well documented and sample code can be built with the project CMake
609 lines
20 KiB
C++
609 lines
20 KiB
C++
// must be defined before importing numpy headers
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// https://numpy.org/doc/1.17/reference/c-api.array.html#importing-the-api
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#define PY_ARRAY_UNIQUE_SYMBOL opencv_ARRAY_API
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#include "cv2.hpp"
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#include "opencv2/opencv_modules.hpp"
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#include "opencv2/core.hpp"
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#include "opencv2/core/utils/logger.hpp"
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#include "pyopencv_generated_include.h"
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#include "opencv2/core/types_c.h"
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#include "cv2_util.hpp"
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#include "cv2_numpy.hpp"
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#include "cv2_convert.hpp"
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#include "cv2_highgui.hpp"
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using namespace cv;
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typedef std::vector<uchar> vector_uchar;
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typedef std::vector<char> vector_char;
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typedef std::vector<int> vector_int;
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typedef std::vector<float> vector_float;
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typedef std::vector<double> vector_double;
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typedef std::vector<size_t> vector_size_t;
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typedef std::vector<Point> vector_Point;
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typedef std::vector<Point2f> vector_Point2f;
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typedef std::vector<Point3f> vector_Point3f;
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typedef std::vector<Size> vector_Size;
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typedef std::vector<Vec2f> vector_Vec2f;
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typedef std::vector<Vec3f> vector_Vec3f;
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typedef std::vector<Vec4f> vector_Vec4f;
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typedef std::vector<Vec6f> vector_Vec6f;
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typedef std::vector<Vec4i> vector_Vec4i;
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typedef std::vector<Rect> vector_Rect;
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typedef std::vector<Rect2d> vector_Rect2d;
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typedef std::vector<RotatedRect> vector_RotatedRect;
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typedef std::vector<KeyPoint> vector_KeyPoint;
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typedef std::vector<Mat> vector_Mat;
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typedef std::vector<std::vector<Mat> > vector_vector_Mat;
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typedef std::vector<UMat> vector_UMat;
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typedef std::vector<DMatch> vector_DMatch;
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typedef std::vector<String> vector_String;
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typedef std::vector<std::string> vector_string;
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typedef std::vector<Scalar> vector_Scalar;
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typedef std::vector<std::vector<char> > vector_vector_char;
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typedef std::vector<std::vector<Point> > vector_vector_Point;
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typedef std::vector<std::vector<Point2f> > vector_vector_Point2f;
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typedef std::vector<std::vector<Point3f> > vector_vector_Point3f;
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typedef std::vector<std::vector<DMatch> > vector_vector_DMatch;
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typedef std::vector<std::vector<KeyPoint> > vector_vector_KeyPoint;
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// enum { ARG_NONE = 0, ARG_MAT = 1, ARG_SCALAR = 2 };
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///////////////////////////////////////////////////////////////////////////////////////
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static int convert_to_char(PyObject *o, char *dst, const ArgInfo& info)
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{
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std::string str;
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if (getUnicodeString(o, str))
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{
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*dst = str[0];
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return 1;
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}
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(*dst) = 0;
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return failmsg("Expected single character string for argument '%s'", info.name);
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}
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#ifdef __GNUC__
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# pragma GCC diagnostic ignored "-Wunused-parameter"
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# pragma GCC diagnostic ignored "-Wmissing-field-initializers"
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#endif
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#include "pyopencv_generated_enums.h"
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#ifdef CVPY_DYNAMIC_INIT
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#define CVPY_TYPE(EXPORT_NAME, CLASS_ID, STORAGE, SNAME, _1, _2, SCOPE) CVPY_TYPE_DECLARE_DYNAMIC(EXPORT_NAME, CLASS_ID, STORAGE, SNAME, SCOPE)
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#else
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#define CVPY_TYPE(EXPORT_NAME, CLASS_ID, STORAGE, SNAME, _1, _2, SCOPE) CVPY_TYPE_DECLARE(EXPORT_NAME, CLASS_ID, STORAGE, SNAME, SCOPE)
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#endif
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#include "pyopencv_generated_types.h"
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#undef CVPY_TYPE
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#include "pyopencv_custom_headers.h"
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#include "pyopencv_generated_types_content.h"
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#include "pyopencv_generated_funcs.h"
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static PyObject* pycvRegisterMatType(PyObject *self, PyObject *value)
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{
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CV_LOG_DEBUG(NULL, cv::format("pycvRegisterMatType %p %p\n", self, value));
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if (0 == PyType_Check(value))
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{
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PyErr_SetString(PyExc_TypeError, "Type argument is expected");
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return NULL;
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}
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Py_INCREF(value);
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pyopencv_Mat_TypePtr = (PyTypeObject*)value;
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Py_RETURN_NONE;
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}
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static PyMethodDef special_methods[] = {
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{"_registerMatType", (PyCFunction)(pycvRegisterMatType), METH_O, "_registerMatType(cv.Mat) -> None (Internal)"},
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{"redirectError", CV_PY_FN_WITH_KW(pycvRedirectError), "redirectError(onError) -> None"},
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#ifdef HAVE_OPENCV_HIGHGUI
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{"createTrackbar", (PyCFunction)pycvCreateTrackbar, METH_VARARGS, "createTrackbar(trackbarName, windowName, value, count, onChange) -> None"},
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{"createButton", CV_PY_FN_WITH_KW(pycvCreateButton), "createButton(buttonName, onChange [, userData, buttonType, initialButtonState]) -> None"},
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{"setMouseCallback", CV_PY_FN_WITH_KW(pycvSetMouseCallback), "setMouseCallback(windowName, onMouse [, param]) -> None"},
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#endif
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#ifdef HAVE_OPENCV_DNN
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{"dnn_registerLayer", CV_PY_FN_WITH_KW(pyopencv_cv_dnn_registerLayer), "registerLayer(type, class) -> None"},
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{"dnn_unregisterLayer", CV_PY_FN_WITH_KW(pyopencv_cv_dnn_unregisterLayer), "unregisterLayer(type) -> None"},
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#endif
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{NULL, NULL},
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};
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/************************************************************************/
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/* Module init */
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struct ConstDef
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{
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const char * name;
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long long val;
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};
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static inline bool strStartsWith(const std::string& str, const std::string& prefix) {
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return prefix.empty() || \
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(str.size() >= prefix.size() && std::memcmp(str.data(), prefix.data(), prefix.size()) == 0);
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}
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static inline bool strEndsWith(const std::string& str, char symbol) {
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return !str.empty() && str[str.size() - 1] == symbol;
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}
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/**
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* \brief Creates a submodule of the `root`. Missing parents submodules
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* are created as needed. If name equals to parent module name than
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* borrowed reference to parent module is returned (no reference counting
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* are done).
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* Submodule lifetime is managed by the parent module.
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* If nested submodules are created than the lifetime is managed by the
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* predecessor submodule in a list.
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*
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* \param parent_module Parent module object.
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* \param name Submodule name.
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* \return borrowed reference to the created submodule.
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* If any of submodules can't be created than NULL is returned.
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*/
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static PyObject* createSubmodule(PyObject* parent_module, const std::string& name)
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{
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if (!parent_module)
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{
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return PyErr_Format(PyExc_ImportError,
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"Bindings generation error. "
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"Parent module is NULL during the submodule '%s' creation",
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name.c_str()
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);
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}
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if (strEndsWith(name, '.'))
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{
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return PyErr_Format(PyExc_ImportError,
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"Bindings generation error. "
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"Submodule can't end with a dot. Got: %s", name.c_str()
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);
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}
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const std::string parent_name = PyModule_GetName(parent_module);
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/// Special case handling when caller tries to register a submodule of the parent module with
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/// the same name
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if (name == parent_name) {
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return parent_module;
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}
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if (!strStartsWith(name, parent_name))
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{
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return PyErr_Format(PyExc_ImportError,
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"Bindings generation error. "
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"Submodule name should always start with a parent module name. "
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"Parent name: %s. Submodule name: %s", parent_name.c_str(),
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name.c_str()
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);
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}
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size_t submodule_name_end = name.find('.', parent_name.size() + 1);
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/// There is no intermediate submodules in the provided name
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if (submodule_name_end == std::string::npos)
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{
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submodule_name_end = name.size();
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}
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PyObject* submodule = parent_module;
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for (size_t submodule_name_start = parent_name.size() + 1;
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submodule_name_start < name.size(); )
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{
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const std::string submodule_name = name.substr(submodule_name_start,
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submodule_name_end - submodule_name_start);
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const std::string full_submodule_name = name.substr(0, submodule_name_end);
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PyObject* parent_module_dict = PyModule_GetDict(submodule);
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/// If submodule already exists it can be found in the parent module dictionary,
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/// otherwise it should be added to it.
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submodule = PyDict_GetItemString(parent_module_dict,
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submodule_name.c_str());
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if (!submodule)
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{
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/// Populates global modules dictionary and returns borrowed reference to it
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submodule = PyImport_AddModule(full_submodule_name.c_str());
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if (!submodule)
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{
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/// Return `PyImport_AddModule` NULL with an exception set on failure.
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return NULL;
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}
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/// Populates parent module dictionary. Submodule lifetime should be managed
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/// by the global modules dictionary and parent module dictionary, so Py_DECREF after
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/// successfull call to the `PyDict_SetItemString` is redundant.
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if (PyDict_SetItemString(parent_module_dict, submodule_name.c_str(), submodule) < 0) {
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return PyErr_Format(PyExc_ImportError,
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"Can't register a submodule '%s' (full name: '%s')",
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submodule_name.c_str(), full_submodule_name.c_str()
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);
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}
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}
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submodule_name_start = submodule_name_end + 1;
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submodule_name_end = name.find('.', submodule_name_start);
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if (submodule_name_end == std::string::npos) {
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submodule_name_end = name.size();
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}
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}
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return submodule;
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}
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static bool init_submodule(PyObject * root, const char * name, PyMethodDef * methods, ConstDef * consts)
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{
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// traverse and create nested submodules
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PyObject* submodule = createSubmodule(root, name);
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if (!submodule)
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{
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return false;
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}
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// populate module's dict
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PyObject * d = PyModule_GetDict(submodule);
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for (PyMethodDef * m = methods; m->ml_name != NULL; ++m)
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{
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PyObject * method_obj = PyCFunction_NewEx(m, NULL, NULL);
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if (PyDict_SetItemString(d, m->ml_name, method_obj) < 0)
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{
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PyErr_Format(PyExc_ImportError,
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"Can't register function %s in module: %s", m->ml_name, name
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);
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Py_CLEAR(method_obj);
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return false;
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}
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Py_DECREF(method_obj);
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}
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for (ConstDef * c = consts; c->name != NULL; ++c)
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{
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PyObject* const_obj = PyLong_FromLongLong(c->val);
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if (PyDict_SetItemString(d, c->name, const_obj) < 0)
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{
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PyErr_Format(PyExc_ImportError,
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"Can't register constant %s in module %s", c->name, name
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);
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Py_CLEAR(const_obj);
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return false;
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}
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Py_DECREF(const_obj);
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}
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return true;
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}
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static inline
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bool registerTypeInModuleScope(PyObject* module, const char* type_name, PyObject* type_obj)
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{
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Py_INCREF(type_obj); /// Give PyModule_AddObject a reference to steal.
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if (PyModule_AddObject(module, type_name, type_obj) < 0)
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{
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PyErr_Format(PyExc_ImportError,
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"Failed to register type '%s' in module scope '%s'",
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type_name, PyModule_GetName(module)
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);
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Py_DECREF(type_obj);
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return false;
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}
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return true;
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}
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static inline
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bool registerTypeInClassScope(PyObject* cls, const char* type_name, PyObject* type_obj)
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{
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if (!PyType_CheckExact(cls)) {
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PyErr_Format(PyExc_ImportError,
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"Failed to register type '%s' in class scope. "
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"Scope class object has a wrong type", type_name
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);
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return false;
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}
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if (PyObject_SetAttrString(cls, type_name, type_obj) < 0)
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{
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#ifndef Py_LIMITED_API
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PyObject* cls_dict = reinterpret_cast<PyTypeObject*>(cls)->tp_dict;
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if (PyDict_SetItemString(cls_dict, type_name, type_obj) >= 0) {
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/// Clearing the error set by PyObject_SetAttrString:
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/// TypeError: can't set attributes of built-in/extension type NAME
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PyErr_Clear();
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return true;
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}
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#endif
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const std::string cls_name = getPyObjectNameAttr(cls);
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PyErr_Format(PyExc_ImportError,
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"Failed to register type '%s' in '%s' class scope. Can't update scope dictionary",
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type_name, cls_name.c_str()
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);
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return false;
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}
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return true;
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}
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static inline
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PyObject* getScopeFromTypeObject(PyObject* obj, const std::string& scope_name)
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{
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if (!PyType_CheckExact(obj)) {
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const std::string type_name = getPyObjectNameAttr(obj);
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return PyErr_Format(PyExc_ImportError,
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"Failed to get scope from type '%s' "
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"Scope class object has a wrong type", type_name.c_str()
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);
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}
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/// When using LIMITED API all classes are registered in the heap
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#if defined(Py_LIMITED_API)
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return PyObject_GetAttrString(obj, scope_name.c_str());
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#else
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/// Otherwise classes may be registed on the stack or heap
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PyObject* type_dict = reinterpret_cast<PyTypeObject*>(obj)->tp_dict;
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if (!type_dict) {
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const std::string type_name = getPyObjectNameAttr(obj);
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return PyErr_Format(PyExc_ImportError,
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"Failed to get scope from type '%s' "
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"Type dictionary is not available", type_name.c_str()
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);
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}
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return PyDict_GetItemString(type_dict, scope_name.c_str());
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#endif // Py_LIMITED_API
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}
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static inline
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PyObject* findTypeScope(PyObject* root_module, const std::string& scope_name)
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{
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PyObject* scope = root_module;
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if (scope_name.empty())
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{
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return scope;
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}
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/// Starting with 1 to omit leading dot in the scope name
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size_t name_end = scope_name.find('.', 1);
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if (name_end == std::string::npos)
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{
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name_end = scope_name.size();
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}
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for (size_t name_start = 1; name_start < scope_name.size() && scope; )
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{
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const std::string current_scope_name = scope_name.substr(name_start,
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name_end - name_start);
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if (PyModule_CheckExact(scope))
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{
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PyObject* scope_dict = PyModule_GetDict(scope);
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if (!scope_dict)
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{
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return PyErr_Format(PyExc_ImportError,
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"Scope '%s' dictionary is not available during the search for "
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" the '%s' scope object", current_scope_name.c_str(),
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scope_name.c_str()
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);
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}
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scope = PyDict_GetItemString(scope_dict, current_scope_name.c_str());
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}
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else if (PyType_CheckExact(scope))
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{
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scope = getScopeFromTypeObject(scope, current_scope_name);
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}
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else
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{
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return PyErr_Format(PyExc_ImportError,
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"Can't find scope '%s'. '%s' doesn't reference a module or a class",
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scope_name.c_str(), current_scope_name.c_str()
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);
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}
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name_start = name_end + 1;
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name_end = scope_name.find('.', name_start);
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if (name_end == std::string::npos)
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{
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name_end = scope_name.size();
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}
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}
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if (!scope)
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{
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return PyErr_Format(PyExc_ImportError,
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"Module or class with name '%s' can't be found in '%s' module",
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scope_name.c_str(), PyModule_GetName(root_module)
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);
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}
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return scope;
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}
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static bool registerNewType(PyObject* root_module, const char* type_name,
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PyObject* type_obj, const std::string& scope_name)
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{
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PyObject* scope = findTypeScope(root_module, scope_name);
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/// If scope can't be found it means that there is an error during
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/// bindings generation
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if (!scope) {
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return false;
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}
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if (PyModule_CheckExact(scope))
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{
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if (!registerTypeInModuleScope(scope, type_name, type_obj))
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{
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return false;
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}
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}
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else
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{
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/// In Python 2 it is disallowed to register an inner classes
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/// via modifing dictionary of the built-in type.
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if (!registerTypeInClassScope(scope, type_name, type_obj))
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{
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return false;
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}
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}
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/// Expose all classes that are defined in the submodules as aliases in the
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/// root module for backward compatibility
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/// If submodule and root module are same than no aliases registration are
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/// required
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if (scope != root_module)
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{
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std::string type_name_str(type_name);
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std::string alias_name;
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alias_name.reserve(scope_name.size() + type_name_str.size());
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std::replace_copy(scope_name.begin() + 1, scope_name.end(), std::back_inserter(alias_name), '.', '_');
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alias_name += '_';
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alias_name += type_name_str;
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return registerTypeInModuleScope(root_module, alias_name.c_str(), type_obj);
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}
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return true;
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}
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#include "pyopencv_generated_modules_content.h"
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static bool init_body(PyObject * m)
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{
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#define CVPY_MODULE(NAMESTR, NAME) \
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if (!init_submodule(m, MODULESTR NAMESTR, methods_##NAME, consts_##NAME)) \
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{ \
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return false; \
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}
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#include "pyopencv_generated_modules.h"
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#undef CVPY_MODULE
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#ifdef CVPY_DYNAMIC_INIT
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#define CVPY_TYPE(EXPORT_NAME, CLASS_ID, _1, _2, BASE, CONSTRUCTOR, SCOPE) CVPY_TYPE_INIT_DYNAMIC(EXPORT_NAME, CLASS_ID, return false, BASE, CONSTRUCTOR, SCOPE)
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PyObject * pyopencv_NoBase_TypePtr = NULL;
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#else
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#define CVPY_TYPE(EXPORT_NAME, CLASS_ID, _1, _2, BASE, CONSTRUCTOR, SCOPE) CVPY_TYPE_INIT_STATIC(EXPORT_NAME, CLASS_ID, return false, BASE, CONSTRUCTOR, SCOPE)
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PyTypeObject * pyopencv_NoBase_TypePtr = NULL;
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#endif
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#include "pyopencv_generated_types.h"
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#undef CVPY_TYPE
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PyObject* d = PyModule_GetDict(m);
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PyObject* version_obj = PyString_FromString(CV_VERSION);
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if (PyDict_SetItemString(d, "__version__", version_obj) < 0) {
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PyErr_SetString(PyExc_ImportError, "Can't update module version");
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Py_CLEAR(version_obj);
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return false;
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}
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Py_DECREF(version_obj);
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PyObject *opencv_error_dict = PyDict_New();
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PyDict_SetItemString(opencv_error_dict, "file", Py_None);
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PyDict_SetItemString(opencv_error_dict, "func", Py_None);
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PyDict_SetItemString(opencv_error_dict, "line", Py_None);
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PyDict_SetItemString(opencv_error_dict, "code", Py_None);
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PyDict_SetItemString(opencv_error_dict, "msg", Py_None);
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PyDict_SetItemString(opencv_error_dict, "err", Py_None);
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opencv_error = PyErr_NewException((char*)MODULESTR".error", NULL, opencv_error_dict);
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Py_DECREF(opencv_error_dict);
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PyDict_SetItemString(d, "error", opencv_error);
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#define PUBLISH_(I, var_name, type_obj) \
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PyObject* type_obj = PyInt_FromLong(I); \
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if (PyDict_SetItemString(d, var_name, type_obj) < 0) \
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{ \
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PyErr_SetString(PyExc_ImportError, "Can't register " var_name " constant"); \
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Py_CLEAR(type_obj); \
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return false; \
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} \
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Py_DECREF(type_obj);
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#define PUBLISH(I) PUBLISH_(I, #I, I ## _obj)
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PUBLISH(CV_8U);
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PUBLISH(CV_8UC1);
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PUBLISH(CV_8UC2);
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PUBLISH(CV_8UC3);
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PUBLISH(CV_8UC4);
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PUBLISH(CV_8S);
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PUBLISH(CV_8SC1);
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PUBLISH(CV_8SC2);
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PUBLISH(CV_8SC3);
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PUBLISH(CV_8SC4);
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PUBLISH(CV_16U);
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PUBLISH(CV_16UC1);
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PUBLISH(CV_16UC2);
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PUBLISH(CV_16UC3);
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PUBLISH(CV_16UC4);
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PUBLISH(CV_16S);
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PUBLISH(CV_16SC1);
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PUBLISH(CV_16SC2);
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PUBLISH(CV_16SC3);
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PUBLISH(CV_16SC4);
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PUBLISH(CV_32S);
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PUBLISH(CV_32SC1);
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PUBLISH(CV_32SC2);
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PUBLISH(CV_32SC3);
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PUBLISH(CV_32SC4);
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PUBLISH(CV_32F);
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PUBLISH(CV_32FC1);
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PUBLISH(CV_32FC2);
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PUBLISH(CV_32FC3);
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PUBLISH(CV_32FC4);
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PUBLISH(CV_64F);
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PUBLISH(CV_64FC1);
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PUBLISH(CV_64FC2);
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PUBLISH(CV_64FC3);
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PUBLISH(CV_64FC4);
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PUBLISH(CV_16F);
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PUBLISH(CV_16FC1);
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PUBLISH(CV_16FC2);
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PUBLISH(CV_16FC3);
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PUBLISH(CV_16FC4);
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#undef PUBLISH_
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#undef PUBLISH
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return true;
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}
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#if defined(__GNUC__)
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#pragma GCC visibility push(default)
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#endif
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#if defined(CV_PYTHON_3)
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// === Python 3
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static struct PyModuleDef cv2_moduledef =
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{
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PyModuleDef_HEAD_INIT,
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MODULESTR,
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"Python wrapper for OpenCV.",
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-1, /* size of per-interpreter state of the module,
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or -1 if the module keeps state in global variables. */
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special_methods
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};
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PyMODINIT_FUNC PyInit_cv2();
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PyObject* PyInit_cv2()
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{
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import_array(); // from numpy
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PyObject* m = PyModule_Create(&cv2_moduledef);
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if (!init_body(m))
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return NULL;
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return m;
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}
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#else
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// === Python 2
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PyMODINIT_FUNC initcv2();
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void initcv2()
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{
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import_array(); // from numpy
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PyObject* m = Py_InitModule(MODULESTR, special_methods);
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init_body(m);
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}
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#endif
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