I have embedded Python3 in my big C++ application. Python gives the user script capability for custom data processing.
Problem : I have many threads that interact with Python and I don't really get how to protect my code with GIL. So far, the only way I made my code work is using boost::mutex.
Here is a very simplified example that reproduces my problem:
Init() to initialize Python (static function).Pythonize() to do some work on Python. Thread B is blocked on the first call for locking GIL.Code:
#include <iostream>
#include <boost/thread.hpp>
#include <boost/bind.hpp>
#include "Python.h"
struct RTMaps_GILLock
{
RTMaps_GILLock()
{
std::cout << "Locking..." << std::endl;
m_state = PyGILState_Ensure();
}
~RTMaps_GILLock()
{
std::cout << "Unlocking..." << std::endl;
PyGILState_Release(m_state);
}
private:
PyGILState_STATE m_state;
};
#define GILLOCK RTMaps_GILLock lock;
class PythonEmbed
{
public:
static void Init()
{
Py_Initialize();
// EDIT : adding those two lines made my day :
PyEval_InitThreads(); // This acquires GIL
PyEval_SaveThread(); // Release the GIL
}
void Pythonize()
{
GILLOCK;
// Never goes here :(
std::cout << "OK" << std::endl;
}
};
int main()
{
PythonEmbed::Init();
PythonEmbed pyt;
boost::thread t(boost::bind(&PythonEmbed::Pythonize, pyt));
t.join();
}
it is deadlocking in the first lock call. The console shows: Locking...
The "OK" is never printed. What am I doing wrong ?
EDIT : corrected code, now it is working. I needed to release the GIL from the main thread.
I had your exact problem, be sure to not call PyGILState_Ensure() from the main thread, the one that initialize Pythons, because it needs a total different call. I've end setting a thread mapper, and each call to my acquirePython() checks what thread is calling it, if it's the main thread , it uses:
PyEval_SaveThread();
otherwise it stores the GIL. Those are the relevant sections of my class:
void MManager::acquirePython(void) {
MThread thisThread = MFramework::MProcesses::GetCurrentThread();
if (thisThread != mainThread) {
Lock();
std::map<MThread,void*>::iterator i = threadStates.find(thisThread);
if (i == threadStates.end()) {
Unlock();
PyGILState_STATE gstate = PyGILState_Ensure();
_PyGILState_STATE_* encState = new _PyGILState_STATE_;
encState->state = gstate;
encState->refCount = 1;
Lock();
threadStates[thisThread] = encState;
Unlock();
} else {
_PyGILState_STATE_* encState = (_PyGILState_STATE_*)i->second;
encState->refCount = encState->refCount + 1;
Unlock();
}
} else {
if (mainThreadState) PyEval_RestoreThread((PyThreadState*)mainThreadState);
}
}
void MManager::releasePython(void) {
MThread thisThread = MFramework::MProcesses::GetCurrentThread();
if (thisThread != mainThread) {
Lock();
std::map<MThread,void*>::iterator i = threadStates.find(thisThread);
if (i != threadStates.end()) {
_PyGILState_STATE_* encState = (_PyGILState_STATE_*)i->second;
if (encState->refCount <= 1) {
threadStates.erase(i);
Unlock();
PyGILState_Release(encState->state);
delete encState;
} else {
encState->refCount = encState->refCount - 1;
Unlock();
}
} else {
Unlock();
}
} else {
mainThreadState = PyEval_SaveThread();
}
}