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avoid C++ -> Python -> C++ overheads when passing around function objects

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This commit is contained in:
Wenzel Jakob 2016-07-10 10:13:18 +02:00
parent 52269e91aa
commit 954b7932fe
7 changed files with 147 additions and 25 deletions
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33
docs/advanced.rst
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@ -185,21 +185,32 @@ The following interactive session shows how to call them from Python.
>>> plus_1(number=43)
44L
.. note::
This functionality is very useful when generating bindings for callbacks in
C++ libraries (e.g. a graphical user interface library).
The file :file:`example/example5.cpp` contains a complete example that
demonstrates how to work with callbacks and anonymous functions in more detail.
.. warning::
Keep in mind that passing a function from C++ to Python (or vice versa)
will instantiate a piece of wrapper code that translates function
invocations between the two languages. Copying the same function back and
forth between Python and C++ many times in a row will cause these wrappers
to accumulate, which can decrease performance.
invocations between the two languages. Naturally, this translation
increases the computational cost of each function call somewhat. A
problematic situation can arise when a function is copied back and forth
between Python and C++ many times in a row, in which case the underlying
wrappers will accumulate correspondingly. The resulting long sequence of
C++ -> Python -> C++ -> ... roundtrips can significantly decrease
performance.
There is one exception: pybind11 detects case where a stateless function
(i.e. a function pointer or a lambda function without captured variables)
is passed as an argument to another C++ function exposed in Python. In this
case, there is no overhead. Pybind11 will extract the underlying C++
function pointer from the wrapped function to sidestep a potential C++ ->
Python -> C++ roundtrip. This is demonstrated in Example 5.
.. note::
This functionality is very useful when generating bindings for callbacks in
C++ libraries (e.g. GUI libraries, asynchronous networking libraries, etc.).
The file :file:`example/example5.cpp` contains a complete example that
demonstrates how to work with callbacks and anonymous functions in more detail.
Overriding virtual functions in Python
======================================

29
example/example5.cpp
View File

@ -65,6 +65,29 @@ py::cpp_function test_callback5() {
py::arg("number"));
}
int dummy_function(int i) { return i + 1; }
int dummy_function2(int i, int j) { return i + j; }
std::function<int(int)> roundtrip(std::function<int(int)> f) {
std::cout << "roundtrip.." << std::endl;
return f;
}
void test_dummy_function(const std::function<int(int)> &f) {
using fn_type = int (*)(int);
auto result = f.target<fn_type>();
if (!result) {
std::cout << "could not convert to a function pointer." << std::endl;
auto r = f(1);
std::cout << "eval(1) = " << r << std::endl;
} else if (*result == dummy_function) {
std::cout << "argument matches dummy_function" << std::endl;
auto r = (*result)(1);
std::cout << "eval(1) = " << r << std::endl;
} else {
std::cout << "argument does NOT match dummy_function. This should never happen!" << std::endl;
}
}
void init_ex5(py::module &m) {
py::class_<Pet> pet_class(m, "Pet");
pet_class
@ -113,4 +136,10 @@ void init_ex5(py::module &m) {
/* p should be cleaned up when the returned function is garbage collected */
};
});
/* Test if passing a function pointer from C++ -> Python -> C++ yields the original pointer */
m.def("dummy_function", &dummy_function);
m.def("dummy_function2", &dummy_function2);
m.def("roundtrip", &roundtrip);
m.def("test_dummy_function", &test_dummy_function);
}

27
example/example5.py
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@ -54,3 +54,30 @@ f = test_callback5()
print("func(number=43) = %i" % f(number=43))
test_cleanup()
from example import dummy_function
from example import dummy_function2
from example import test_dummy_function
from example import roundtrip
test_dummy_function(dummy_function)
test_dummy_function(roundtrip(dummy_function))
test_dummy_function(lambda x: x + 2)
try:
test_dummy_function(dummy_function2)
print("Problem!")
except Exception as e:
if 'Incompatible function arguments' in str(e):
print("All OK!")
else:
print("Problem!")
try:
test_dummy_function(lambda x, y: x + y)
print("Problem!")
except Exception as e:
if 'missing 1 required positional argument' in str(e):
print("All OK!")
else:
print("Problem!")

33
example/example5.ref
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@ -1,20 +1,13 @@
Rabbit is a parrot
Rabbit is a parrot
Polly is a parrot
Polly is a parrot
Molly is a dog
Molly is a dog
Woof!
func(43) = 44
Payload constructor
Payload copy constructor
Payload move constructor
Payload destructor
Payload destructor
Payload destructor
Rabbit is a parrot
Polly is a parrot
Molly is a dog
The following error is expected: Incompatible function arguments. The following argument types are supported:
1. (example.Dog) -> NoneType
Invoked with: <Pet object at 0>
Invoked with: <example.Pet object at 0>
Callback function 1 called!
False
Callback function 2 called : Hello, x, True, 5
@ -24,4 +17,22 @@ False
Callback function 3 called : Partial object with one argument
False
func(43) = 44
func(43) = 44
func(number=43) = 44
Payload constructor
Payload copy constructor
Payload move constructor
Payload destructor
Payload destructor
Payload destructor
argument matches dummy_function
eval(1) = 2
roundtrip..
argument matches dummy_function
eval(1) = 2
could not convert to a function pointer.
eval(1) = 3
could not convert to a function pointer.
All OK!
could not convert to a function pointer.
All OK!

3
include/pybind11/attr.h
View File

@ -113,6 +113,9 @@ struct function_record {
/// True if name == '__init__'
bool is_constructor : 1;
/// True if this is a stateless function pointer
bool is_stateless : 1;
/// True if the function has a '*args' argument
bool has_args : 1;

27
include/pybind11/functional.h
View File

@ -23,6 +23,29 @@ public:
src_ = detail::get_function(src_);
if (!src_ || !PyCallable_Check(src_.ptr()))
return false;
{
/*
When passing a C++ function as an argument to another C++
function via Python, every function call would normally involve
a full C++ -> Python -> C++ roundtrip, which can be prohibitive.
Here, we try to at least detect the case where the function is
stateless (i.e. function pointer or lambda function without
captured variables), in which case the roundtrip can be avoided.
*/
if (PyCFunction_Check(src_.ptr())) {
capsule c(PyCFunction_GetSelf(src_.ptr()), true);
auto rec = (function_record *) c;
using FunctionType = Return (*) (Args...);
if (rec && rec->is_stateless && rec->data[1] == &typeid(FunctionType)) {
struct capture { FunctionType f; };
value = ((capture *) &rec->data)->f;
return true;
}
}
}
object src(src_, true);
value = [src](Args... args) -> Return {
gil_scoped_acquire acq;
@ -35,6 +58,10 @@ public:
template <typename Func>
static handle cast(Func &&f_, return_value_policy policy, handle /* parent */) {
auto result = f_.template target<Return (*)(Args...)>();
if (result)
return cpp_function(*result, policy).release();
else
return cpp_function(std::forward<Func>(f_), policy).release();
}

18
include/pybind11/pybind11.h
View File

@ -82,6 +82,9 @@ protected:
/* Store the capture object directly in the function record if there is enough space */
if (sizeof(capture) <= sizeof(rec->data)) {
/* Without these pragmas, GCC warns that there might not be
enough space to use the placement new operator. However, the
'if' statement above ensures that this is the case. */
#if defined(__GNUG__) && !defined(__clang__) && __GNUC__ >= 6
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wplacement-new"
@ -118,7 +121,7 @@ protected:
capture *cap = (capture *) (sizeof(capture) <= sizeof(rec->data)
? &rec->data : rec->data[0]);
/* Perform the functioncall */
/* Perform the function call */
handle result = cast_out::cast(args_converter.template call<Return>(cap->f),
rec->policy, parent);
@ -140,6 +143,16 @@ protected:
if (cast_in::has_args) rec->has_args = true;
if (cast_in::has_kwargs) rec->has_kwargs = true;
/* Stash some additional information used by an important optimization in 'functional.h' */
using FunctionType = Return (*)(Args...);
constexpr bool is_function_ptr =
std::is_convertible<Func, FunctionType>::value &&
sizeof(capture) == sizeof(void *);
if (is_function_ptr) {
rec->is_stateless = true;
rec->data[1] = (void *) &typeid(FunctionType);
}
}
/// Register a function call with Python (generic non-templated code goes here)
@ -157,6 +170,7 @@ protected:
else if (a.value)
a.descr = strdup(((std::string) ((object) handle(a.value).attr("__repr__"))().str()).c_str());
}
auto const &registered_types = detail::get_internals().registered_types_cpp;
/* Generate a proper function signature */
@ -215,10 +229,10 @@ protected:
rec->name = strdup("__nonzero__");
}
#endif
rec->signature = strdup(signature.c_str());
rec->args.shrink_to_fit();
rec->is_constructor = !strcmp(rec->name, "__init__") || !strcmp(rec->name, "__setstate__");
rec->is_stateless = false;
rec->has_args = false;
rec->has_kwargs = false;
rec->nargs = (uint16_t) args;