本文整理汇总了C++中bam_record::map_qual方法的典型用法代码示例。如果您正苦于以下问题:C++ bam_record::map_qual方法的具体用法?C++ bam_record::map_qual怎么用?C++ bam_record::map_qual使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类bam_record
的用法示例。
在下文中一共展示了bam_record::map_qual方法的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: minSize
bool
isMateInsertionEvidenceCandidate(
const bam_record& bamRead,
const unsigned minMapq)
{
if (! bamRead.is_paired()) return false;
if (bamRead.isNonStrictSupplement()) return false;
if (bamRead.is_unmapped() || bamRead.is_mate_unmapped()) return false;
if (bamRead.map_qual() < minMapq) return false;
if (bamRead.target_id() < 0) return false;
if (bamRead.mate_target_id() < 0) return false;
if (bamRead.target_id() != bamRead.mate_target_id()) return true;
/// TODO: better candidate definition based on fragment size distro:
static const int minSize(10000);
return (std::abs(bamRead.pos()-bamRead.mate_pos()) >= minSize);
}
示例2: singletonGenomePos
/// get SV candidates from shadow/singleton pairs
/// look for singletons, create candidateSV around conf. interval of shadow position
/// cache singletons? might be needed to remove poor quality shadows.
/// should be able to re-use code, follow soft-clipping example.
static
void
getSVCandidatesFromShadow(
const ReadScannerOptions& opt,
const SVLocusScanner::CachedReadGroupStats& rstats,
const bam_record& localRead,
const SimpleAlignment& localAlign,
const bam_record* remoteReadPtr,
TrackedCandidates& candidates)
{
using namespace SVEvidenceType;
static const index_t svSource(SHADOW);
static const bool isComplex(true);
pos_t singletonGenomePos(0);
int targetId(0);
if (NULL == remoteReadPtr)
{
if (!localRead.is_unmapped()) return;
// need to take care of this case
// need to rely on cached mapq and qname
return;
if (!isGoodShadow(localRead,lastMapq,lastQname,opt.minSingletonMapqGraph))
{
return;
}
singletonGenomePos = localAlign.pos;
targetId = localRead.target_id();
}
else
{
// have both reads, straightforward from here
const bam_record& remoteRead(*remoteReadPtr);
const SimpleAlignment remoteAlign(remoteRead);
if (localRead.is_mate_unmapped())
{
// remote read is shadow candidate
if (!isGoodShadow(remoteRead,localRead.map_qual(),localRead.qname(),opt.minSingletonMapqGraph))
{
return;
}
singletonGenomePos = localAlign.pos;
targetId = remoteRead.target_id();
}
else if (localRead.is_unmapped())
{
// local is shadow candidate
if (!isGoodShadow(localRead,remoteRead.map_qual(),remoteRead.qname(),opt.minSingletonMapqGraph))
{
return;
}
singletonGenomePos = remoteAlign.pos;
targetId = localRead.target_id();
}
else
{
// none unmapped, skip this one
return;
}
}
const pos_t properPairRangeOffset = static_cast<pos_t>(rstats.properPair.min + (rstats.properPair.max-rstats.properPair.min)/2);
const pos_t shadowGenomePos = singletonGenomePos + properPairRangeOffset;
candidates.push_back(GetSplitSVCandidate(opt,targetId,shadowGenomePos,shadowGenomePos, svSource, isComplex));
}