pybind11/example/example-python-types.cpp

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/*
example/example-python-types.cpp2 -- singleton design pattern, static functions and
variables, passing and interacting with Python types
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Copyright (c) 2016 Wenzel Jakob <wenzel.jakob@epfl.ch>
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All rights reserved. Use of this source code is governed by a
BSD-style license that can be found in the LICENSE file.
*/
#include "example.h"
Improve constructor/destructor tracking This commit rewrites the examples that look for constructor/destructor calls to do so via static variable tracking rather than output parsing. The added ConstructorStats class provides methods to keep track of constructors and destructors, number of default/copy/move constructors, and number of copy/move assignments. It also provides a mechanism for storing values (e.g. for value construction), and then allows all of this to be checked at the end of a test by getting the statistics for a C++ (or python mapping) class. By not relying on the precise pattern of constructions/destructions, but rather simply ensuring that every construction is matched with a destruction on the same object, we ensure that everything that gets created also gets destroyed as expected. This replaces all of the various "std::cout << whatever" code in constructors/destructors with `print_created(this)`/`print_destroyed(this)`/etc. functions which provide similar output, but now has a unified format across the different examples, including a new ### prefix that makes mixed example output and lifecycle events easier to distinguish. With this change, relaxed mode is no longer needed, which enables testing for proper destruction under MSVC, and under any other compiler that generates code calling extra constructors, or optimizes away any constructors. GCC/clang are used as the baseline for move constructors; the tests are adapted to allow more move constructors to be evoked (but other types are constructors much have matching counts). This commit also disables output buffering of tests, as the buffering sometimes results in C++ output ending up in the middle of python output (or vice versa), depending on the OS/python version.
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#include "constructor-stats.h"
#include <pybind11/stl.h>
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#ifdef _WIN32
# include <io.h>
# include <fcntl.h>
#endif
class ExamplePythonTypes {
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public:
static ExamplePythonTypes *new_instance() {
Improve constructor/destructor tracking This commit rewrites the examples that look for constructor/destructor calls to do so via static variable tracking rather than output parsing. The added ConstructorStats class provides methods to keep track of constructors and destructors, number of default/copy/move constructors, and number of copy/move assignments. It also provides a mechanism for storing values (e.g. for value construction), and then allows all of this to be checked at the end of a test by getting the statistics for a C++ (or python mapping) class. By not relying on the precise pattern of constructions/destructions, but rather simply ensuring that every construction is matched with a destruction on the same object, we ensure that everything that gets created also gets destroyed as expected. This replaces all of the various "std::cout << whatever" code in constructors/destructors with `print_created(this)`/`print_destroyed(this)`/etc. functions which provide similar output, but now has a unified format across the different examples, including a new ### prefix that makes mixed example output and lifecycle events easier to distinguish. With this change, relaxed mode is no longer needed, which enables testing for proper destruction under MSVC, and under any other compiler that generates code calling extra constructors, or optimizes away any constructors. GCC/clang are used as the baseline for move constructors; the tests are adapted to allow more move constructors to be evoked (but other types are constructors much have matching counts). This commit also disables output buffering of tests, as the buffering sometimes results in C++ output ending up in the middle of python output (or vice versa), depending on the OS/python version.
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auto *ptr = new ExamplePythonTypes();
print_created(ptr, "via new_instance");
return ptr;
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}
Improve constructor/destructor tracking This commit rewrites the examples that look for constructor/destructor calls to do so via static variable tracking rather than output parsing. The added ConstructorStats class provides methods to keep track of constructors and destructors, number of default/copy/move constructors, and number of copy/move assignments. It also provides a mechanism for storing values (e.g. for value construction), and then allows all of this to be checked at the end of a test by getting the statistics for a C++ (or python mapping) class. By not relying on the precise pattern of constructions/destructions, but rather simply ensuring that every construction is matched with a destruction on the same object, we ensure that everything that gets created also gets destroyed as expected. This replaces all of the various "std::cout << whatever" code in constructors/destructors with `print_created(this)`/`print_destroyed(this)`/etc. functions which provide similar output, but now has a unified format across the different examples, including a new ### prefix that makes mixed example output and lifecycle events easier to distinguish. With this change, relaxed mode is no longer needed, which enables testing for proper destruction under MSVC, and under any other compiler that generates code calling extra constructors, or optimizes away any constructors. GCC/clang are used as the baseline for move constructors; the tests are adapted to allow more move constructors to be evoked (but other types are constructors much have matching counts). This commit also disables output buffering of tests, as the buffering sometimes results in C++ output ending up in the middle of python output (or vice versa), depending on the OS/python version.
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~ExamplePythonTypes() { print_destroyed(this); }
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/* Create and return a Python dictionary */
py::dict get_dict() {
py::dict dict;
dict[py::str("key")] = py::str("value");
return dict;
}
/* Create and return a Python set */
py::set get_set() {
py::set set;
set.add(py::str("key1"));
set.add(py::str("key2"));
return set;
}
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/* Create and return a C++ dictionary */
std::map<std::string, std::string> get_dict_2() {
std::map<std::string, std::string> result;
result["key"] = "value";
return result;
}
/* Create and return a C++ set */
std::set<std::string> get_set_2() {
std::set<std::string> result;
result.insert("key1");
result.insert("key2");
return result;
}
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/* Create, manipulate, and return a Python list */
py::list get_list() {
py::list list;
list.append(py::str("value"));
cout << "Entry at positon 0: " << py::object(list[0]) << endl;
list[0] = py::str("overwritten");
return list;
}
/* C++ STL data types are automatically casted */
std::vector<std::wstring> get_list_2() {
std::vector<std::wstring> list;
list.push_back(L"value");
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return list;
}
/* C++ STL data types are automatically casted */
std::array<std::string, 2> get_array() {
return std::array<std::string, 2> {{ "array entry 1" , "array entry 2"}};
}
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/* Easily iterate over a dictionary using a C++11 range-based for loop */
void print_dict(py::dict dict) {
for (auto item : dict)
std::cout << "key: " << item.first << ", value=" << item.second << std::endl;
}
/* Easily iterate over a set using a C++11 range-based for loop */
void print_set(py::set set) {
for (auto item : set)
std::cout << "key: " << item << std::endl;
}
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/* Easily iterate over a list using a C++11 range-based for loop */
void print_list(py::list list) {
int index = 0;
for (auto item : list)
std::cout << "list item " << index++ << ": " << item << std::endl;
}
/* STL data types (such as maps) are automatically casted from Python */
void print_dict_2(const std::map<std::string, std::string> &dict) {
for (auto item : dict)
std::cout << "key: " << item.first << ", value=" << item.second << std::endl;
}
/* STL data types (such as sets) are automatically casted from Python */
void print_set_2(const std::set<std::string> &set) {
for (auto item : set)
std::cout << "key: " << item << std::endl;
}
/* STL data types (such as vectors) are automatically casted from Python */
void print_list_2(std::vector<std::wstring> &list) {
#ifdef _WIN32 /* Can't easily mix cout and wcout on Windows */
_setmode(_fileno(stdout), _O_TEXT);
#endif
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int index = 0;
for (auto item : list)
std::wcout << L"list item " << index++ << L": " << item << std::endl;
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}
/* pybind automatically translates between C++11 and Python tuples */
std::pair<std::string, bool> pair_passthrough(std::pair<bool, std::string> input) {
return std::make_pair(input.second, input.first);
}
/* pybind automatically translates between C++11 and Python tuples */
std::tuple<int, std::string, bool> tuple_passthrough(std::tuple<bool, std::string, int> input) {
return std::make_tuple(std::get<2>(input), std::get<1>(input), std::get<0>(input));
}
/* STL data types (such as arrays) are automatically casted from Python */
void print_array(std::array<std::string, 2> &array) {
int index = 0;
for (auto item : array)
std::cout << "array item " << index++ << ": " << item << std::endl;
}
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void throw_exception() {
throw std::runtime_error("This exception was intentionally thrown.");
}
py::bytes get_bytes_from_string() {
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return (py::bytes) std::string("foo");
}
py::bytes get_bytes_from_str() {
return (py::bytes) py::str("bar", 3);
}
py::str get_str_from_string() {
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return (py::str) std::string("baz");
}
py::str get_str_from_bytes() {
return (py::str) py::bytes("boo", 3);
}
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static int value;
static const int value2;
};
int ExamplePythonTypes::value = 0;
const int ExamplePythonTypes::value2 = 5;
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void init_ex_python_types(py::module &m) {
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/* No constructor is explicitly defined below. An exception is raised when
trying to construct it directly from Python */
py::class_<ExamplePythonTypes>(m, "ExamplePythonTypes", "Example 2 documentation")
.def("get_dict", &ExamplePythonTypes::get_dict, "Return a Python dictionary")
.def("get_dict_2", &ExamplePythonTypes::get_dict_2, "Return a C++ dictionary")
.def("get_list", &ExamplePythonTypes::get_list, "Return a Python list")
.def("get_list_2", &ExamplePythonTypes::get_list_2, "Return a C++ list")
.def("get_set", &ExamplePythonTypes::get_set, "Return a Python set")
.def("get_set2", &ExamplePythonTypes::get_set_2, "Return a C++ set")
.def("get_array", &ExamplePythonTypes::get_array, "Return a C++ array")
.def("print_dict", &ExamplePythonTypes::print_dict, "Print entries of a Python dictionary")
.def("print_dict_2", &ExamplePythonTypes::print_dict_2, "Print entries of a C++ dictionary")
.def("print_set", &ExamplePythonTypes::print_set, "Print entries of a Python set")
.def("print_set_2", &ExamplePythonTypes::print_set_2, "Print entries of a C++ set")
.def("print_list", &ExamplePythonTypes::print_list, "Print entries of a Python list")
.def("print_list_2", &ExamplePythonTypes::print_list_2, "Print entries of a C++ list")
.def("print_array", &ExamplePythonTypes::print_array, "Print entries of a C++ array")
.def("pair_passthrough", &ExamplePythonTypes::pair_passthrough, "Return a pair in reversed order")
.def("tuple_passthrough", &ExamplePythonTypes::tuple_passthrough, "Return a triple in reversed order")
.def("throw_exception", &ExamplePythonTypes::throw_exception, "Throw an exception")
.def("get_bytes_from_string", &ExamplePythonTypes::get_bytes_from_string, "py::bytes from std::string")
.def("get_bytes_from_str", &ExamplePythonTypes::get_bytes_from_str, "py::bytes from py::str")
.def("get_str_from_string", &ExamplePythonTypes::get_str_from_string, "py::str from std::string")
.def("get_str_from_bytes", &ExamplePythonTypes::get_str_from_bytes, "py::str from py::bytes")
.def_static("new_instance", &ExamplePythonTypes::new_instance, "Return an instance")
.def_readwrite_static("value", &ExamplePythonTypes::value, "Static value member")
Improve constructor/destructor tracking This commit rewrites the examples that look for constructor/destructor calls to do so via static variable tracking rather than output parsing. The added ConstructorStats class provides methods to keep track of constructors and destructors, number of default/copy/move constructors, and number of copy/move assignments. It also provides a mechanism for storing values (e.g. for value construction), and then allows all of this to be checked at the end of a test by getting the statistics for a C++ (or python mapping) class. By not relying on the precise pattern of constructions/destructions, but rather simply ensuring that every construction is matched with a destruction on the same object, we ensure that everything that gets created also gets destroyed as expected. This replaces all of the various "std::cout << whatever" code in constructors/destructors with `print_created(this)`/`print_destroyed(this)`/etc. functions which provide similar output, but now has a unified format across the different examples, including a new ### prefix that makes mixed example output and lifecycle events easier to distinguish. With this change, relaxed mode is no longer needed, which enables testing for proper destruction under MSVC, and under any other compiler that generates code calling extra constructors, or optimizes away any constructors. GCC/clang are used as the baseline for move constructors; the tests are adapted to allow more move constructors to be evoked (but other types are constructors much have matching counts). This commit also disables output buffering of tests, as the buffering sometimes results in C++ output ending up in the middle of python output (or vice versa), depending on the OS/python version.
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.def_readonly_static("value2", &ExamplePythonTypes::value2, "Static value member (readonly)")
;
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}