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#pragma once
#define PY_SSIZE_T_CLEAN
#include <Python.h>
#include "ptr.h"
#include "cast.h"
#include "exceptions.h"
#include <util/generic/function.h>
namespace NPyBind {
#if PY_MAJOR_VERSION >= 3
namespace NPrivate {
using TFinalizationCallBack = std::function<void()>;
void AddFinalizationCallBack(TFinalizationCallBack);
class TAtExitRegistrar: private TNonCopyable {
TAtExitRegistrar(TPyObjectPtr module);
public:
static void Instantiate(TPyObjectPtr module) {
static TAtExitRegistrar registrar(module);
Y_UNUSED(registrar);
}
};
class TPyBindModuleRegistrar: private TNonCopyable {
TPyBindModuleRegistrar();
TPyObjectPtr Module;
public:
static void Instantiate() {
static TPyBindModuleRegistrar registrar;
Y_UNUSED(registrar);
}
};
} //NPrivate
#endif
class TModuleHolder {
private:
TModuleHolder(const TModuleHolder&);
TModuleHolder& operator=(const TModuleHolder&);
TModuleHolder();
private:
typedef PyCFunction TModuleMethod;
#if PY_MAJOR_VERSION >= 3
typedef PyObject* (*TModuleInitFunc)();
#else
typedef void (*TModuleInitFunc)();
#endif
struct TMethodDef {
TString Name;
TModuleMethod Method;
TString Description;
int Flags;
TMethodDef(const TString& name, TModuleMethod method, const TString& descr, int flags)
: Name(name)
, Method(method)
, Description(descr)
, Flags(flags)
{
}
operator PyMethodDef() const {
PyMethodDef cur = {Name.c_str(), Method, Flags, Description.c_str()};
return cur;
}
};
typedef TSimpleSharedPtr<TVector<TMethodDef>> TMethodDefVecPtr;
typedef TSimpleSharedPtr<TVector<PyMethodDef>> TPyMethodDefVecPtr;
TVector<TMethodDefVecPtr> Methods;
TVector<TPyMethodDefVecPtr> Defs;
#if PY_MAJOR_VERSION >= 3
//because the md_name will leak otherwise
class TPyModuleDefWithName {
PyModuleDef Def;
TString Name;
public:
explicit TPyModuleDefWithName(TString name, TPyMethodDefVecPtr moduleDefs)
: Name(std::move(name))
{
Def = PyModuleDef{
PyModuleDef_HEAD_INIT,
Name.c_str(),
nullptr,
-1,
moduleDefs->data(),
nullptr, nullptr, nullptr, nullptr
};
}
PyModuleDef* GetDefPtr() {
return &Def;
}
};
TVector<TSimpleSharedPtr<TPyModuleDefWithName>> ModuleDefs;
#endif
template <TModuleMethod method>
static PyObject* MethodWrapper(PyObject* obj, PyObject* args) {
try {
PyObject* res = method(obj, args);
if (!res && !PyErr_Occurred())
ythrow yexception() << "\nModule method exited with NULL, but didn't set Error.\n Options:\n -- Return correct value or None;\n -- Set python exception;\n -- Throw c++ exception.";
return res;
} catch (const std::exception& ex) {
PyErr_SetString(TExceptionsHolder::Instance().ToPyException(ex).Get(), ex.what());
} catch (...) {
PyErr_SetString(PyExc_RuntimeError, "Unknown error occurred while trying to call module method");
}
return nullptr;
}
public:
static TModuleHolder& Instance() {
static TModuleHolder Holder;
return Holder;
}
void ImportModule(TPyObjectPtr module, const char* const name, TModuleInitFunc initFunc) {
PyImport_AppendInittab(const_cast<char*>(name), initFunc);
TPyObjectPtr importedModule(PyImport_ImportModule(name), true);
PyModule_AddObject(module.Get(), name, importedModule.Get());
}
template <TModuleMethod method>
void AddModuleMethod(const TString& name, const TString& descr = "") {
Methods.back()->push_back(TMethodDef(name, MethodWrapper<method>, descr, METH_VARARGS));
}
TPyObjectPtr InitModule(const TString& name) {
Defs.push_back(new TVector<PyMethodDef>(Methods.back()->begin(), Methods.back()->end()));
PyMethodDef blank = {nullptr, nullptr, 0, nullptr};
Defs.back()->push_back(blank);
#if PY_MAJOR_VERSION >= 3
ModuleDefs.push_back(MakeSimpleShared<TPyModuleDefWithName>(name, Defs.back()));
TPyObjectPtr res(PyModule_Create(ModuleDefs.back()->GetDefPtr()));
NPrivate::TAtExitRegistrar::Instantiate(res);
NPrivate::TPyBindModuleRegistrar::Instantiate();
#else
TPyObjectPtr res(Py_InitModule(name.c_str(), &(Defs.back()->at(0))));
#endif
Methods.push_back(new TVector<TMethodDef>);
return res;
}
};
template <typename TMethodSignature, TMethodSignature method>
class TModuleMethodCaller {
private:
template <typename TResult, typename... Args>
struct TCaller {
static PyObject* Call(PyObject* args) {
return BuildPyObject(Apply(method, GetArguments<Args...>(args)));
}
};
template <typename TResult, typename... Args>
static PyObject* InternalCall(TResult (*)(Args...), PyObject* args) {
return BuildPyObject(Apply(method, GetArguments<Args...>(args)));
}
public:
static PyObject* Call(PyObject*, PyObject* args) {
if (args && (!PyTuple_Check(args) || PyTuple_Size(args) != TFunctionArgs<TMethodSignature>::Length)) {
ythrow yexception() << "Method takes " << (size_t)(TFunctionArgs<TMethodSignature>::Length) << " arguments, " << PyTuple_Size(args) << " provided";
}
return InternalCall(method, args);
}
};
}
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