v2.11.1/_static/test__pytypes_8cpp_source.html

 /*
     tests/test_pytypes.cpp -- Python type casters

     Copyright (c) 2017 Wenzel Jakob <wenzel.jakob@epfl.ch>

     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"


 TEST_SUBMODULE(pytypes, m) {
     // test_list
     m.def("get_list", []() {
         py::list list;
         list.append("value");
         py::print("Entry at position 0:", list[0]);
         list[0] = py::str("overwritten");
         list.insert(0, "inserted-0");
         list.insert(2, "inserted-2");
         return list;
     });
     m.def("print_list", [](py::list list) {
         int index = 0;
         for (auto item : list)
             py::print("list item {}: {}"_s.format(index++, item));
     });

     // test_set
     m.def("get_set", []() {
         py::set set;
         set.add(py::str("key1"));
         set.add("key2");
         set.add(std::string("key3"));
         return set;
     });
     m.def("print_set", [](py::set set) {
         for (auto item : set)
             py::print("key:", item);
     });
     m.def("set_contains", [](py::set set, py::object key) {
         return set.contains(key);
     });
     m.def("set_contains", [](py::set set, const char* key) {
         return set.contains(key);
     });

     // test_dict
     m.def("get_dict", []() { return py::dict("key"_a="value"); });
     m.def("print_dict", [](py::dict dict) {
         for (auto item : dict)
             py::print("key: {}, value={}"_s.format(item.first, item.second));
     });
     m.def("dict_keyword_constructor", []() {
         auto d1 = py::dict("x"_a=1, "y"_a=2);
         auto d2 = py::dict("z"_a=3, **d1);
         return d2;
     });
     m.def("dict_contains", [](py::dict dict, py::object val) {
         return dict.contains(val);
     });
     m.def("dict_contains", [](py::dict dict, const char* val) {
         return dict.contains(val);
     });

     // test_str
     m.def("str_from_string", []() { return py::str(std::string("baz")); });
     m.def("str_from_bytes", []() { return py::str(py::bytes("boo", 3)); });
     m.def("str_from_object", [](const py::object& obj) { return py::str(obj); });
     m.def("repr_from_object", [](const py::object& obj) { return py::repr(obj); });

     m.def("str_format", []() {
         auto s1 = "{} + {} = {}"_s.format(1, 2, 3);
         auto s2 = "{a} + {b} = {c}"_s.format("a"_a=1, "b"_a=2, "c"_a=3);
         return py::make_tuple(s1, s2);
     });

     // test_bytes
     m.def("bytes_from_string", []() { return py::bytes(std::string("foo")); });
     m.def("bytes_from_str", []() { return py::bytes(py::str("bar", 3)); });

     // test_capsule
     m.def("return_capsule_with_destructor", []() {
         py::print("creating capsule");
         return py::capsule([]() {
             py::print("destructing capsule");
         });
     });

     m.def("return_capsule_with_destructor_2", []() {
         py::print("creating capsule");
         return py::capsule((void *) 1234, [](void *ptr) {
             py::print("destructing capsule: {}"_s.format((size_t) ptr));
         });
     });

     m.def("return_capsule_with_name_and_destructor", []() {
         auto capsule = py::capsule((void *) 1234, "pointer type description", [](PyObject *ptr) {
             if (ptr) {
                 auto name = PyCapsule_GetName(ptr);
                 py::print("destructing capsule ({}, '{}')"_s.format(
                     (size_t) PyCapsule_GetPointer(ptr, name), name
                 ));
             }
         });
         void *contents = capsule;
         py::print("created capsule ({}, '{}')"_s.format((size_t) contents, capsule.name()));
         return capsule;
     });

     // test_accessors
     m.def("accessor_api", [](py::object o) {
         auto d = py::dict();

         d["basic_attr"] = o.attr("basic_attr");

         auto l = py::list();
         for (const auto &item : o.attr("begin_end")) {
             l.append(item);
         }
         d["begin_end"] = l;

         d["operator[object]"] = o.attr("d")["operator[object]"_s];
         d["operator[char *]"] = o.attr("d")["operator[char *]"];

         d["attr(object)"] = o.attr("sub").attr("attr_obj");
         d["attr(char *)"] = o.attr("sub").attr("attr_char");
         try {
             o.attr("sub").attr("missing").ptr();
         } catch (const py::error_already_set &) {
             d["missing_attr_ptr"] = "raised"_s;
         }
         try {
             o.attr("missing").attr("doesn't matter");
         } catch (const py::error_already_set &) {
             d["missing_attr_chain"] = "raised"_s;
         }

         d["is_none"] = o.attr("basic_attr").is_none();

         d["operator()"] = o.attr("func")(1);
         d["operator*"] = o.attr("func")(*o.attr("begin_end"));

         // Test implicit conversion
         py::list implicit_list = o.attr("begin_end");
         d["implicit_list"] = implicit_list;
         py::dict implicit_dict = o.attr("__dict__");
         d["implicit_dict"] = implicit_dict;

         return d;
     });

     m.def("tuple_accessor", [](py::tuple existing_t) {
         try {
             existing_t[0] = 1;
         } catch (const py::error_already_set &) {
             // --> Python system error
             // Only new tuples (refcount == 1) are mutable
             auto new_t = py::tuple(3);
             for (size_t i = 0; i < new_t.size(); ++i) {
                 new_t[i] = i;
             }
             return new_t;
         }
         return py::tuple();
     });

     m.def("accessor_assignment", []() {
         auto l = py::list(1);
         l[0] = 0;

         auto d = py::dict();
         d["get"] = l[0];
         auto var = l[0];
         d["deferred_get"] = var;
         l[0] = 1;
         d["set"] = l[0];
         var = 99; // this assignment should not overwrite l[0]
         d["deferred_set"] = l[0];
         d["var"] = var;

         return d;
     });

     // test_constructors
     m.def("default_constructors", []() {
         return py::dict(
             "str"_a=py::str(),
             "bool"_a=py::bool_(),
             "int"_a=py::int_(),
             "float"_a=py::float_(),
             "tuple"_a=py::tuple(),
             "list"_a=py::list(),
             "dict"_a=py::dict(),
             "set"_a=py::set()
         );
     });

     m.def("converting_constructors", [](py::dict d) {
         return py::dict(
             "str"_a=py::str(d["str"]),
             "bool"_a=py::bool_(d["bool"]),
             "int"_a=py::int_(d["int"]),
             "float"_a=py::float_(d["float"]),
             "tuple"_a=py::tuple(d["tuple"]),
             "list"_a=py::list(d["list"]),
             "dict"_a=py::dict(d["dict"]),
             "set"_a=py::set(d["set"]),
             "memoryview"_a=py::memoryview(d["memoryview"])
         );
     });

     m.def("cast_functions", [](py::dict d) {
         // When converting between Python types, obj.cast<T>() should be the same as T(obj)
         return py::dict(
             "str"_a=d["str"].cast<py::str>(),
             "bool"_a=d["bool"].cast<py::bool_>(),
             "int"_a=d["int"].cast<py::int_>(),
             "float"_a=d["float"].cast<py::float_>(),
             "tuple"_a=d["tuple"].cast<py::tuple>(),
             "list"_a=d["list"].cast<py::list>(),
             "dict"_a=d["dict"].cast<py::dict>(),
             "set"_a=d["set"].cast<py::set>(),
             "memoryview"_a=d["memoryview"].cast<py::memoryview>()
         );
     });

     m.def("get_implicit_casting", []() {
         py::dict d;
         d["char*_i1"] = "abc";
         const char *c2 = "abc";
         d["char*_i2"] = c2;
         d["char*_e"] = py::cast(c2);
         d["char*_p"] = py::str(c2);

         d["int_i1"] = 42;
         int i = 42;
         d["int_i2"] = i;
         i++;
         d["int_e"] = py::cast(i);
         i++;
         d["int_p"] = py::int_(i);

         d["str_i1"] = std::string("str");
         std::string s2("str1");
         d["str_i2"] = s2;
         s2[3] = '2';
         d["str_e"] = py::cast(s2);
         s2[3] = '3';
         d["str_p"] = py::str(s2);

         py::list l(2);
         l[0] = 3;
         l[1] = py::cast(6);
         l.append(9);
         l.append(py::cast(12));
         l.append(py::int_(15));

         return py::dict(
             "d"_a=d,
             "l"_a=l
         );
     });

     // test_print
     m.def("print_function", []() {
         py::print("Hello, World!");
         py::print(1, 2.0, "three", true, std::string("-- multiple args"));
         auto args = py::make_tuple("and", "a", "custom", "separator");
         py::print("*args", *args, "sep"_a="-");
         py::print("no new line here", "end"_a=" -- ");
         py::print("next print");

         auto py_stderr = py::module::import("sys").attr("stderr");
         py::print("this goes to stderr", "file"_a=py_stderr);

         py::print("flush", "flush"_a=true);

         py::print("{a} + {b} = {c}"_s.format("a"_a="py::print", "b"_a="str.format", "c"_a="this"));
     });

     m.def("print_failure", []() { py::print(42, UnregisteredType()); });

     m.def("hash_function", [](py::object obj) { return py::hash(obj); });

     m.def("test_number_protocol", [](py::object a, py::object b) {
         py::list l;
         l.append(a.equal(b));
         l.append(a.not_equal(b));
         l.append(a < b);
         l.append(a <= b);
         l.append(a > b);
         l.append(a >= b);
         l.append(a + b);
         l.append(a - b);
         l.append(a * b);
         l.append(a / b);
         l.append(a | b);
         l.append(a & b);
         l.append(a ^ b);
         l.append(a >> b);
         l.append(a << b);
         return l;
     });

     m.def("test_list_slicing", [](py::list a) {
         return a[py::slice(0, -1, 2)];
     });
 }
pybind11::bytes
Definition: pytypes.h:955

test_multiple_inheritance.i
i
Definition: test_multiple_inheritance.py:16

pybind11::str
Definition: pytypes.h:888

pybind11::memoryview
Definition: pytypes.h:1326

pybind11::set
Definition: pytypes.h:1276

pybind11::tuple
Definition: pytypes.h:1197

pybind11::make_tuple
tuple make_tuple()
Definition: cast.h:1753

UnregisteredType
Dummy type which is not exported anywhere – something to trigger a conversion error.
Definition: pybind11_tests.h:27

pybind11::bool_
Definition: pytypes.h:1026

pybind11::capsule
Definition: pytypes.h:1144

pybind11::list
Definition: pytypes.h:1252

pybind11::error_already_set
Definition: pytypes.h:322

pybind11_tests.h

pybind11::float_
Definition: pytypes.h:1097

pybind11::detail::object_api::equal
bool equal(object_api const &other) const
Equivalent to obj == other in Python.
Definition: pytypes.h:118

pybind11::dict::contains
bool contains(T &&key) const
Definition: pytypes.h:1228

pybind11::object
Definition: pytypes.h:230

pybind11::detail::object_api::attr
obj_attr_accessor attr(handle key) const
Definition: pytypes.h:1410

pybind11::detail::object_api::is_none
bool is_none() const
Equivalent to obj is None in Python.
Definition: pytypes.h:116

pybind11::detail::int_
op_< op_int, op_u, self_t, undefined_t > int_(const self_t &)
Definition: operators.h:154

pybind11::detail::hash
op_< op_hash, op_u, self_t, undefined_t > hash(const self_t &)
Definition: operators.h:151

mkdoc.d
def d(s)
Definition: mkdoc.py:69

pytypes
test_initializer pytypes("pytypes", test_submodule_pytypes)

pybind11::repr
str repr(handle h)
Definition: pytypes.h:1383

pybind11::dict
Definition: pytypes.h:1211

date::str
return os str()

pybind11::int_
Definition: pytypes.h:1065

pybind11::cast
T cast(const handle &handle)
Definition: cast.h:1659

pybind11::print
void print(Args &&...args)
Definition: pybind11.h:1849

TEST_SUBMODULE
#define TEST_SUBMODULE(name, variable)
Definition: pybind11_tests.h:20

pybind11::detail::object_api::not_equal
bool not_equal(object_api const &other) const
Definition: pytypes.h:119

pybind11::slice
Definition: pytypes.h:1120