void GappedSegmentIteratorIndelTest::createCallBack(AlignmentPtr alignment)
{
  addIdenticalParentChild(alignment, 1, 20, 5);
  Genome* parent = alignment->openGenome(alignment->getRootName());
  Genome* child = parent->getChild(0);
  TopSegmentIteratorPtr ti = child->getTopSegmentIterator();
  BottomSegmentIteratorPtr bi = parent->getBottomSegmentIterator();
//  int i = 0;
//  bool reversed = true;

  bi = parent->getBottomSegmentIterator(0);
  makeDelGap(bi);
  bi = parent->getBottomSegmentIterator(3);
  makeDelGap(bi);
/*
  ti = child->getTopSegmentIterator(1);
  makeInsGap(ti);
  ti = child->getTopSegmentIterator(21);
  makeInsGap(ti);
  ti = child->getTopSegmentIterator(28);
  makeInsGap(ti);
*/  
/*  for (size_t i = 0; i < 20; ++i)
  {
    cout << i << ": ";
    bi = parent->getBottomSegmentIterator(i);
    ti = child->getTopSegmentIterator(i);
    cout << "ci=" << bi->getBottomSegment()->getChildIndex(0) 
         << " pi=" << ti->getTopSegment()->getParentIndex() << endl;
         }*/
}
void GappedSegmentSimpleIteratorTest2::createCallBack(AlignmentPtr alignment)
{
  addIdenticalParentChild(alignment, 2, 100, 5);
  Genome* parent = alignment->openGenome(alignment->getRootName());
  Genome* child = parent->getChild(0);
  TopSegmentIteratorPtr ti = child->getTopSegmentIterator();
  BottomSegmentIteratorPtr bi = parent->getBottomSegmentIterator();
  hal_index_t i = 0;
  bool reversed = true;
  while (ti != child->getTopSegmentEndIterator())
  {
    if (i % 5 == 0)
    {
      reversed = !reversed;
      if (reversed && i < (hal_index_t)(parent->getNumBottomSegments() - 1))
      {
        makeInversion(ti, 5);
      }
    }

    ti->toRight();
    bi->toRight();
    ++i;
  }
}
void GappedSegmentSimpleIteratorTest::createCallBack(AlignmentPtr alignment)
{
  addIdenticalParentChild(alignment, 2, 100, 5);
  Genome* parent = alignment->openGenome(alignment->getRootName());
  Genome* child = parent->getChild(0);
  TopSegmentIteratorPtr ti = child->getTopSegmentIterator();
  BottomSegmentIteratorPtr bi = parent->getBottomSegmentIterator();
  int i = 0;
  while (ti != child->getTopSegmentEndIterator())
  {
    if (i++ % 2)
    {
      ti->getTopSegment()->setParentReversed(true);
      bi->getBottomSegment()->setChildReversed(0, true);
    }
    ti->toRight();
    bi->toRight();
  }
}
Пример #4
0
int main(int argc, char *argv[])
{
  CLParserPtr optParser = initParser();
  string inPath, bottomAlignmentFile, topAlignmentFile, genomeName;
  bool noMarkAncestors;
  try {
    optParser->parseOptions(argc, argv);
    inPath = optParser->getArgument<string>("inFile");
    bottomAlignmentFile = optParser->getOption<string>("bottomAlignmentFile");
    topAlignmentFile = optParser->getOption<string>("topAlignmentFile");
    genomeName = optParser->getArgument<string>("genomeName");
    noMarkAncestors = optParser->getFlag("noMarkAncestors");
  } catch (exception &e) {
    optParser->printUsage(cerr);
    return 1;
  }
  AlignmentPtr mainAlignment = openHalAlignment(inPath, optParser);
  AlignmentConstPtr bottomAlignment;
  AlignmentConstPtr topAlignment;
  bool useTopAlignment = mainAlignment->getRootName() != genomeName;
  bool useBottomAlignment = mainAlignment->getChildNames(genomeName).size() != 0;
  Genome *mainReplacedGenome = mainAlignment->openGenome(genomeName);
  if (useTopAlignment) {
    // Not a root genome. Can update using a top alignment.
    if (topAlignmentFile == "\"\"") {
      throw hal_exception("Cannot replace non-root genome without a top "
                          "alignment file.");
    }
    topAlignment = openHalAlignment(topAlignmentFile,
                                    optParser);
    const Genome *topReplacedGenome = topAlignment->openGenome(genomeName);
    topReplacedGenome->copyDimensions(mainReplacedGenome);
    topReplacedGenome->copySequence(mainReplacedGenome);
    
  }
  if (useBottomAlignment) {
    // Not a leaf genome. Can update using a bottom alignment.
    if (bottomAlignmentFile == "\"\"") {
      throw hal_exception("Cannot replace non-leaf genome without a bottom "
                          "alignment file.");
    }
    bottomAlignment = openHalAlignment(bottomAlignmentFile, optParser);
    const Genome *botReplacedGenome = bottomAlignment->openGenome(genomeName);
    botReplacedGenome->copyDimensions(mainReplacedGenome);
    botReplacedGenome->copySequence(mainReplacedGenome);
  }
  if (!useTopAlignment && !useBottomAlignment) {
    throw hal_exception("Root genome is also a leaf genome.");
  }
  if (useBottomAlignment) {
    copyFromBottomAlignment(bottomAlignment, mainAlignment, genomeName);
  }
  if (useTopAlignment) {
    copyFromTopAlignment(topAlignment, mainAlignment, genomeName);
  }

  // Clear update flag if present, since the genome has just been updated.
  MetaData *metaData = mainReplacedGenome->getMetaData();
  if (metaData->has("needsUpdate")) {
    metaData->set("needsUpdate", "false");
  }

  if (!noMarkAncestors) {
    markAncestorsForUpdate(mainAlignment, genomeName);
  }
  if (useTopAlignment) {
    topAlignment->close();
  }
  if (useBottomAlignment) {
    bottomAlignment->close();
  }
  mainAlignment->close();
}