示例#1
0
/** check for duplicate labels (with a different Purpose)
 */
bool hasUniqueLabels( const LabelMap& labelmap )
{
  set<string> lablist;
  for (LabelMap::const_iterator it=labelmap.begin(); it!=labelmap.end(); it++)
  {
    string name = it->second;
    if (lablist.find( it->second )!=lablist.end() )
    {
      return false;
    }
    lablist.insert( name );
  }
  return true;
}
示例#2
0
void ParserBase::popLabelInfo() {
    assert(!m_labelInfos.empty());
    LabelInfo &info = m_labelInfos.back();
    LabelMap labels = info.labels; // shallow copy

    for (unsigned int i = 0; i < info.gotos.size(); i++) {
        const GotoInfo &gotoInfo = info.gotos[i];
        LabelMap::const_iterator iter = info.labels.find(gotoInfo.label);
        if (iter == info.labels.end()) {
            invalidateGoto(gotoInfo.stmt, UndefLabel);
            error("'goto' to undefined label '%s': %s",
                  gotoInfo.label.c_str(), getMessage(gotoInfo.loc.get()).c_str());
            continue;
        }
        const LabelStmtInfo &labelInfo = iter->second;
        if (gotoInfo.label.find(YIELD_LABEL_PREFIX) == 0) {
            labels.erase(gotoInfo.label);
            continue;
        }
        int labelScopeId = labelInfo.scopeId;
        bool found = false;
        for (int j = gotoInfo.scopes.size() - 1; j >= 0; j--) {
            if (labelScopeId == gotoInfo.scopes[j]) {
                found = true;
                break;
            }
        }
        if (!found) {
            invalidateGoto(gotoInfo.stmt, InvalidBlock);
            error("'goto' into loop or switch statement "
                  "is disallowed: %s", getMessage(gotoInfo.loc.get()).c_str());
            continue;
        } else {
            labels.erase(gotoInfo.label);
        }
    }

    // now invalidate all un-used labels
    for (LabelMap::const_iterator it(labels.begin());
            it != labels.end();
            ++it) {
        invalidateLabel(it->second.stmt);
    }

    m_labelInfos.pop_back();
}
示例#3
0
/** archive the trained model and return a CVAC style path to the archive;
 * This file should include the following:
 * Name of Detector
 * Name of Extractor
 * Name of Matcher
 * Filename of vocabulary
 * Filename of svm result
 * OpenCV Version
 * Optional: one-class ID
 */
FilePath BowICETrainI::createArchive( DetectorDataArchive& dda,
                                      bowCV* pBowCV,
                                      const LabelMap& labelmap,
                                      const string& clientName,
                                      const string& CVAC_DataDir,
                                      const string& tempDir )
{
  std::string clientDir = mServiceMan->getSandbox()->createClientDir(clientName);
  std::string archiveFilename = getDateFilename(clientDir,  "bow")+ ".zip";
 
  dda.setArchiveFilename(archiveFilename);
  dda.addFile(bowCV::BOW_VOC_FILE, tempDir + "/" + pBowCV->filenameVocabulary);
  dda.addFile(bowCV::BOW_SVM_FILE, tempDir + "/" + pBowCV->filenameSVM);
  for (LabelMap::const_iterator it=labelmap.begin(); it!=labelmap.end(); it++)
  {
    string classID = "labelname_" + getPurposeName( it->first );
    dda.setProperty( classID, it->second );
  }
  dda.createArchive(tempDir);
  mServiceMan->getSandbox()->deleteTrainingDir(clientName);

  // create a CVAC FilePath out of the DDA file system path
  FilePath file;
  file.filename = getFileName(archiveFilename);
  std::string relDir;
  int idx = clientDir.find(CVAC_DataDir.c_str(), 0, CVAC_DataDir.length());
  if (idx == 0)
  {
      relDir = clientDir.substr(CVAC_DataDir.length() + 1);
  }else
  {
      relDir = clientDir;
  }
  file.directory.relativePath = relDir;
  
  return file;
}
示例#4
0
// ---------------------------------------------------------------------------
//	LorisMorpher updateEnvelopes
// ---------------------------------------------------------------------------
//	Taking it on faith that the EnvelopeReaders will not be destroyed before
//	we are done using them!
//
long 
LorisMorpher::updateEnvelopes( void )
{
	//	first render all the labeled (morphed) Partials:
	// std::cerr << "** Morphing Partials labeled " << labelMap.begin()->first;
	// std::cerr << " to " << (--labelMap.end())->first << std::endl;
	
	long envidx = 0;
	LabelMap::iterator it;
	for( it = labelMap.begin(); it != labelMap.end(); ++it, ++envidx )
	{
		long label = it->first;
		std::pair<long, long> & indices = it->second;
		Breakpoint & bp = morphed_envelopes.valueAt(envidx);
		
		long isrc = indices.first;
		long itgt = indices.second;
		
		//	this should not happen:
		if ( itgt < 0 && isrc < 0 )
		{
#ifdef DEBUG_LORISGENS
			std::cerr << "HEY!!!! The labelMap had a pair of bogus indices in it at pos " << envidx << std::endl;
#endif
			continue;
		}
		
		//	note: the time argument for all these morphParameters calls
		//	is irrelevant, since it is only used to index the morphing
		//	functions, which, as defined above, do not use the time
		//	argument, they can only return their current value.
		if ( itgt < 0 )
		{
			//	morph from the source to a dummy:
			// std::cerr << "** Fading from source " << envidx << std::endl;
            bp = morpher.fadeSrcBreakpoint( src_reader->valueAt(isrc), 0 );
		}
		else if ( isrc < 0 )
		{
			//	morph from a dummy to the target:
			// std::cerr << "** Fading to target " << envidx << std::endl;
            bp = morpher.fadeTgtBreakpoint( tgt_reader->valueAt(itgt), 0 );
		}
		else 
		{
			//	morph from the source to the target:
			// std::cerr << "** Morphing source to target " << envidx << std::endl;
            bp = morpher.morphBreakpoints( src_reader->valueAt(isrc), tgt_reader->valueAt(itgt), 0 );
		}	
	} 
	
	//	render unlabeled source Partials:
	// std::cerr << "** Crossfading " << src_unlabeled.size();
	// std::cerr << " unlabeled source Partials" << std::endl;
	for( long i = 0; i < src_unlabeled.size(); ++i, ++envidx )  
	{
		//	fade from the source:
		Breakpoint & bp = morphed_envelopes.valueAt(envidx);
        bp = morpher.fadeSrcBreakpoint( src_reader->valueAt( src_unlabeled[i] ), 0 );
	}
	
	
	//	render unlabeled target Partials:
	// std::cerr << "** Crossfading " << tgt_unlabeled.size();
	// std::cerr << " unlabeled target Partials" << std::endl;
	for( long i = 0; i < tgt_unlabeled.size(); ++i, ++envidx )  
	{
		//	fade to the target:
		Breakpoint & bp = morphed_envelopes.valueAt(envidx);
        bp = morpher.fadeTgtBreakpoint( tgt_reader->valueAt( tgt_unlabeled[i] ), 0 );
	}	
	
	//	tag these envelopes:
	EnvelopeReader::Tags()[ tag ] = &morphed_envelopes;
	
	return morphed_envelopes.size();
}