void start(){
//std::thread mythread ( std::function<void()>(m_taskCreation) );
std::thread mythread ([&]()->void{ m_taskCreation.process();});
mythread.detach();
std::chrono::duration<int, std::centi> sleepTime ( 20);
while ( m_taskCreation.isSupplyActive () ){
std::this_thread::sleep_for(sleepTime );
}
m_done = true;
}
int main(int argc, char **argv) {
#ifdef __APPLE__
QPythonApp app(argc, argv);
VCSSecondaryThread mythread(argc, argv);
mythread.start();
return app.exec();
#else
return Py_Main(argc, argv);
#endif
}
int main()
{
background_task bgtask;
std::thread mythread(bgtask);
std::vector<std::thread> myVector;
for (int i = 0; i < 8; ++i)
{
// myVector.insert(bgtask); //TODO
}
// Инициализировали поток объектом-функцией
// Продолжаем вычисления в главном потоке
mythread.join();
return 0;
}
void thwork(int m){
int j,k,res;
struct struct_th *sth;
pthread_t *thid;
thid=(pthread_t*)malloc((m)*sizeof(pthread_t));
sth=(struct struct_th*)malloc((m)*sizeof(struct struct_th));
thid[0]=pthread_self();
for(k=0;k<m;k++){
sth[k].k=0;
sth[k].j=0;
sth[k].wl=k;
}
int ft;
ft=time(NULL);
for(k=1;k<m;k++){
res=pthread_create(&thid[k],NULL,&mythread,&sth[k]);
if(res!=0){
printf("ERROR on thread creat, return value = %d\n",res);
exit(-1);
}
}
mythread(&sth[0]);
for(k=1;k<m;k++){
pthread_join(thid[k],NULL);
}
ft=time(NULL)-ft;
printf("time in seconds: %d\n",ft);
free(sth);
}
//organising nom_cln threads
void thwork(int cln_num){
int j,k,res;
key_t key, sem_key;
struct STRUCT_TH *sth;
pthread_t *thid;
thid=(pthread_t*)malloc((cln_num)*sizeof(pthread_t));
sth=(struct STRUCT_TH*)malloc((cln_num)*sizeof(struct STRUCT_TH));
key = ftok(KEYFILE, 0);
if(key < 0){
printf("ERROR in ftok!\n");
exit(-1);
}
msqid = msgget(key, 0666 | IPC_CREAT);
if(msqid < 0){
printf("ERROR in msgget!\n");
exit(-1);
}
thid[0] = pthread_self();
for(k = 0; k < cln_num; k++){
sth[k].num_work_line = k;
sth[k].cln_id=k+1;
}
for(k=1; k < cln_num; k++){
res=pthread_create(&thid[k], NULL, &mythread, &sth[k]);
if(res != 0){
printf("ERROR on thread creat, return value = %d\n",res);
exit(-1);
}
}
mythread(&sth[0]);
for(k = 1; k < cln_num; k++){
pthread_join(thid[k], NULL);
}
free(sth);
free(thid);
}
void
CdbCheckDispatchResult_internal(struct CdbDispatcherState *ds,
struct SegmentDatabaseDescriptor ***failedSegDB,
int *numOfFailed, DispatchWaitMode waitMode)
{
int i;
int j;
int nFailed = 0;
DispatchCommandParms *pParms;
CdbDispatchResult *dispatchResult;
SegmentDatabaseDescriptor *segdbDesc;
Assert(ds != NULL);
if (failedSegDB)
*failedSegDB = NULL;
if (numOfFailed)
*numOfFailed = 0;
/*
* No-op if no work was dispatched since the last time we were called.
*/
if (!ds->dispatchThreads || ds->dispatchThreads->threadCount == 0)
{
elog(DEBUG5, "CheckDispatchResult: no threads active");
return;
}
/*
* Wait for threads to finish.
*/
for (i = 0; i < ds->dispatchThreads->threadCount; i++)
{
pParms = &ds->dispatchThreads->dispatchCommandParmsAr[i];
Assert(pParms != NULL);
/*
* Does caller want to stop short?
*/
switch (waitMode)
{
case DISPATCH_WAIT_CANCEL:
case DISPATCH_WAIT_FINISH:
pParms->waitMode = waitMode;
break;
default:
break;
}
if (gp_connections_per_thread == 0)
{
thread_DispatchWait(pParms);
}
else
{
elog(DEBUG4, "CheckDispatchResult: Joining to thread %d of %d",
i + 1, ds->dispatchThreads->threadCount);
if (pParms->thread_valid)
{
int pthread_err = 0;
pthread_err = pthread_join(pParms->thread, NULL);
if (pthread_err != 0)
elog(FATAL,
"CheckDispatchResult: pthread_join failed on thread %d (%lu) of %d (returned %d attempting to join to %lu)",
i + 1,
#ifndef _WIN32
(unsigned long) pParms->thread,
#else
(unsigned long) pParms->thread.p,
#endif
ds->dispatchThreads->threadCount, pthread_err,
(unsigned long) mythread());
}
}
HOLD_INTERRUPTS();
pParms->thread_valid = false;
MemSet(&pParms->thread, 0, sizeof(pParms->thread));
RESUME_INTERRUPTS();
/*
* Examine the CdbDispatchResult objects containing the results
* from this thread's QEs.
*/
for (j = 0; j < pParms->db_count; j++)
{
dispatchResult = pParms->dispatchResultPtrArray[j];
if (dispatchResult == NULL)
{
elog(LOG, "CheckDispatchResult: result object is NULL ? skipping.");
continue;
}
if (dispatchResult->segdbDesc == NULL)
{
elog(LOG, "CheckDispatchResult: result object segment descriptor is NULL ? skipping.");
continue;
}
segdbDesc = dispatchResult->segdbDesc;
/*
* segdbDesc error message is unlikely here, but check anyway.
*/
if (segdbDesc->errcode || segdbDesc->error_message.len)
cdbdisp_mergeConnectionErrors(dispatchResult, segdbDesc);
/*
* Log the result
*/
if (DEBUG2 >= log_min_messages)
cdbdisp_debugDispatchResult(dispatchResult, DEBUG2, DEBUG3);
/*
* Notify FTS to reconnect if connection lost or never connected.
*/
if (failedSegDB && PQstatus(segdbDesc->conn) == CONNECTION_BAD)
{
/*
* Allocate storage. Caller should pfree() it.
*/
if (!*failedSegDB)
*failedSegDB = palloc(sizeof(**failedSegDB) * (2 * getgpsegmentCount() + 1));
/*
* Append to broken connection list.
*/
(*failedSegDB)[nFailed++] = segdbDesc;
(*failedSegDB)[nFailed] = NULL;
if (numOfFailed)
*numOfFailed = nFailed;
}
/*
* Zap our SegmentDatabaseDescriptor ptr because it may be
* invalidated by the call to FtsHandleNetFailure() below.
* Anything we need from there, we should get before this.
*/
dispatchResult->segdbDesc = NULL;
}
}
/*
* reset thread state (will be destroyed later on in finishCommand)
*/
ds->dispatchThreads->threadCount = 0;
/*
* It looks like everything went fine, make sure we don't miss a
* user cancellation?
*
* The waitMode argument is NONE when we are doing "normal work".
*/
if (waitMode == DISPATCH_WAIT_NONE || waitMode == DISPATCH_WAIT_FINISH)
CHECK_FOR_INTERRUPTS();
}
