CATCH_NEXTROW()
{
ActivityTimer t(totalCycles, timeActivities, NULL);
while (!abortSoon) {
if (rowIter->isValid()) {
anyThisGroup = true;
OwnedConstThorRow r = rowIter->getRow();
dataLinkIncrement();
rowIter->next();
return r.getClear();
}
curRow.setown(input->nextRow());
if (!curRow) {
if (anyThisGroup) {
anyThisGroup = false;
break;
}
curRow.setown(input->nextRow());
if (!curRow)
break;
}
processRecord(curRow.get());
rowIter->first();
}
return NULL;
}
bool EReaderStream::fillBuffer() {
if (myDestination == TEXT) {
return PalmDocLikeStream::fillBuffer();
} else {
while (myBufferOffset == myBufferLength) {
if (!processRecord()) {
return false;
}
}
return true;
}
}
bool PalmDocLikeStream::fillBuffer() {
while (myBufferOffset == myBufferLength) {
if (myRecordIndex + 1 > myMaxRecordIndex) {
return false;
}
++myRecordIndex;
if (!processRecord()) {
return false;
}
}
//myBufferOffset = 0;
return true;
}
int do1Record()
{
char *chp;
char *attr;
char *data;
// line shoud be like ">>12345"
if (line[0] != '>')
{
printf("Wrong first line:%s\n", line);fflush(stdout);
exit(1);
}
strcpy(id, line+2);
while (fgets(line, sizeof(line), inf) != NULL)
{
*(line + strlen(line) - 1 ) = '\0';
chp = strstr(line, ":");
if (chp != NULL)
{
*chp = '\0';
attr = line;
data = chp + 2;
processRecord(attr, data);
}
else
{
if ((line[0] != '>') || (line[1] != '>'))
{
printf("CGAP ID line not found:\n%s\n", line);
break;
}
else
{
return(0);
}
}
}
done = 1;
return(0);
}
//------------------------------------------------------------------------------
// Process all data records in the queue.
//------------------------------------------------------------------------------
void OutputHandler::processQueue()
{
// Get the first record from the queue
base::lock( semaphore );
const DataRecordHandle* dataRecord = static_cast<const DataRecordHandle*>(queue.get());
base::unlock( semaphore );
// While we have records ...
while (dataRecord != nullptr) {
// process this record,
processRecord(dataRecord);
dataRecord->unref();
// and get the next one from the queue
base::lock( semaphore );
dataRecord = static_cast<const DataRecordHandle*>(queue.get());
base::unlock( semaphore );
}
}
bool Connection::processRecords()
{
MLOG_MESSAGE(Debug, "processRecords()");
while(pos_ >= sizeof(FCGIRecord))
{
FCGIRecord * rec = mstd::pointer_cast<FCGIRecord*>(&buffer_[0]);
size_t recordLen = sizeof(*rec) + mstd::ntoh(rec->contentLength) + rec->paddingLength;
if(pos_ >= recordLen)
{
if(!processRecord(*rec))
return false;
memcpy(&buffer_[0], &buffer_[0] + recordLen, pos_ - recordLen);
pos_ -= recordLen;
} else
MLOG_MESSAGE(Debug, "Non full record: " << recordLen);
}
return true;
}
bool BamProcessor::process ()
{
if (!infile_.ReadHeader (sam_header_))
ers << "Unable to read SAM header" << Throw;
else
info << "Header read" << std::endl;
if (outfile_.IsOpen ())
{
if (!outfile_.WriteHeader (sam_header_))
ers << "Unable to write header data" << Throw;
else
info << "Header written" << std::endl;
}
// set up signal handlers
sighandler_t sighandler_int, sighandler_term, sighandler_hup;
// set INT handler to int_handler if interrupting is not disabled allready
if ((sighandler_int = signal (SIGINT, int_handler)) == SIG_IGN)
signal (SIGINT, SIG_IGN), sighandler_int = NULL;
// set HUP handler to nothing
sighandler_hup = signal (SIGHUP, SIG_IGN);
// set TERM handler to int_handler if terminating is not disabled allready
if ((sighandler_term = signal (SIGTERM, int_handler)) == SIG_IGN)
signal (SIGTERM, SIG_IGN), sighandler_term = NULL;
begtime_ = time (NULL);
while (!infile_.IsEOF () && !interrupted)
{
if (limit_ && proc_cnt_ >= limit_)
{
info << limit_ << " records processed. Limit reached." << std::endl;
break;
}
if (read_cnt_ == skip_)
timer_.mark ();
infile_.ReadRecord (sam_header_, rec_);
++ read_cnt_;
if (read_cnt_-1 >= skip_)
{
if (!processRecord ())
++ fail_cnt_;
++ proc_cnt_;
if (outfile_.IsOpen ())
outfile_.WriteRecord (sam_header_, rec_);
}
if (timer_ ())
{
info << "\r" << read_cnt_;
if (proc_cnt_ != read_cnt_)
info << " rd " << proc_cnt_;
info << " pr ";
if (realigned_cnt_ != proc_cnt_)
info << realigned_cnt_ << " al (" << (double (realigned_cnt_) * 100 / proc_cnt_) << "%) ";
info << modified_cnt_ << " mod (" << (double (modified_cnt_) * 100 / proc_cnt_) << "%) ";
if (pos_adjusted_cnt_)
info << pos_adjusted_cnt_ << " sh (" << (double (pos_adjusted_cnt_) * 100 / modified_cnt_) << "% mod) ";
info << "in " << timer_.tot_elapsed () << " sec (" << std::setprecision (3) << std::fixed << timer_.speed () << " r/s)" << std::flush;
}
}
if (interrupted)
{
errlog << "\nProcessing interrupted by ";
switch (signal_received)
{
case SIGTERM:
errlog << "TERM signal";
break;
case SIGINT:
errlog << "user's request";
break;
default:
errlog << "receipt of signal " << signal_received;
}
errlog << std::endl;
}
// restore signal handlers
if (sighandler_term)
signal (SIGTERM, sighandler_term);
if (sighandler_int)
signal (SIGINT, sighandler_int);
if (sighandler_hup)
signal (SIGHUP, sighandler_hup);
return 0;
}
