void Stage::setCoreProperties(const Stage& stage)
{
this->setSchema(stage.getSchema());
this->setNumPoints(stage.getNumPoints());
this->setPointCountType(stage.getPointCountType());
this->setBounds(stage.getBounds());
this->setSpatialReference(stage.getSpatialReference());
return;
}
int PcInfo::execute()
{
Options readerOptions;
{
if (m_usestdin)
m_inputFile = "STDIN";
readerOptions.add<std::string>("filename", m_inputFile);
readerOptions.add<bool>("debug", isDebug());
readerOptions.add<boost::uint32_t>("verbose", getVerboseLevel());
}
Stage* reader = AppSupport::makeReader(readerOptions);
if (m_seed != 0)
{
Option seed_option("seed", m_seed, "seed value");
m_options.add(seed_option);
}
Option sample_size("sample_size", m_sample_size, "sample size for random sample");
m_options.add(sample_size);
Option cls("exact_count", "Classification", "use exact counts for classification stats");
Option rn("exact_count", "ReturnNumber", "use exact counts for ReturnNumber stats");
Option nr("exact_count", "NumberOfReturns", "use exact counts for ReturnNumber stats");
m_options.add(cls);
m_options.add(rn);
m_options.add(nr);
if (m_Dimensions.size())
{
Option dimensions("dimensions", m_Dimensions, "Use explicit list of dimensions");
m_options.add(dimensions);
Option do_sample("do_sample", false, "Dont do sampling");
m_options.add(do_sample);
}
pdal::Options options = m_options + readerOptions;
pdal::filters::Stats* filter = new pdal::filters::Stats(*reader, options);
filter->initialize();
if (m_pointNumber != (std::numeric_limits<boost::uint64_t>::max)())
{
dumpOnePoint(*filter);
}
if (m_showStats)
{
dumpStats(*filter);
}
if (m_showSchema)
{
dumpSchema(*reader);
}
if (m_showMetadata)
{
dumpMetadata(*reader);
}
if (m_showStage)
{
dumpStage(*reader);
}
if (m_showSDOPCMetadata)
{
dumpSDO_PCMetadata(*reader);
}
if (m_QueryPoint.size())
{
IndexedPointBuffer buffer(reader->getSchema(), reader->getNumPoints());
dumpQuery(*reader, buffer);
}
std::ostream& ostr = m_outputStream ? *m_outputStream : std::cout;
ostr << std::endl;
delete filter;
delete reader;
if (m_outputStream)
{
FileUtils::closeFile(m_outputStream);
}
return 0;
}
int Delta::execute()
{
Options sourceOptions;
{
sourceOptions.add<std::string>("filename", m_sourceFile);
sourceOptions.add<bool>("debug", isDebug());
sourceOptions.add<boost::uint32_t>("verbose", getVerboseLevel());
}
Stage* source = AppSupport::makeReader(sourceOptions);
source->initialize();
boost::uint32_t totalPointCount(source->getNumPoints());
PointBuffer source_data(source->getSchema(), totalPointCount);
StageSequentialIterator* source_iter = source->createSequentialIterator(source_data);
boost::uint32_t numRead = source_iter->read(source_data);
assert(numRead == source_data.getNumPoints());
delete source_iter;
delete source;
Options candidateOptions;
{
candidateOptions.add<std::string>("filename", m_candidateFile);
candidateOptions.add<bool>("debug", isDebug());
candidateOptions.add<boost::uint32_t>("verbose", getVerboseLevel());
}
Stage* candidate = AppSupport::makeReader(candidateOptions);
candidate->initialize();
IndexedPointBuffer candidate_data(candidate->getSchema(), totalPointCount);
StageSequentialIterator* candidate_iter = candidate->createSequentialIterator(candidate_data);
numRead = candidate_iter->read(candidate_data);
assert(numRead == candidate_data.getNumPoints());
delete candidate_iter;
if (source_data.getNumPoints() != candidate_data.getNumPoints())
{
std::cerr << "Source and candidate files do not have the same point count, testing each source point only!" << std::endl;
}
// m_summary_x(xd);
// m_summary_y(yd);
// m_summary_z(zd);
if (m_outputFileName.size())
{
m_outputStream = FileUtils::createFile(m_outputFileName);
}
candidate_data.build(m_3d);
boost::uint32_t count(std::min(source_data.getNumPoints(), candidate_data.getNumPoints()));
boost::scoped_ptr<std::map<Point, Point> > points(cumulatePoints(source_data, candidate_data));
if (m_OutputDetail)
{
outputDetail(source_data, candidate_data, points.get());
return 0;
}
std::map<Point, Point>::const_iterator i;
for(i = points->begin(); i != points->end(); ++i)
{
Point const& s = i->first;
Point const& c = i->second;
double xd = s.x - c.x;
double yd = s.y - c.y;
double zd = s.z - c.z;
m_summary_x(xd);
m_summary_y(yd);
m_summary_z(zd);
}
std::string headline("------------------------------------------------------------------------------------------");
std::cout << headline << std::endl;
std::cout << " Delta summary for source '" << m_sourceFile << "' and candidate '" << m_candidateFile <<"'" << std::endl;
std::cout << headline << std::endl;
std::cout << std::endl;
std::string thead("----------- --------------- --------------- --------------");
std::cout << thead << std::endl;
std::cout << " Dimension X Y Z " << std::endl;
std::cout << thead << std::endl;
boost::format fmt("%.4f");
double sminx = (boost::accumulators::min)(m_summary_x);
double sminy = (boost::accumulators::min)(m_summary_y);
double sminz = (boost::accumulators::min)(m_summary_z);
double smaxx = (boost::accumulators::max)(m_summary_x);
double smaxy = (boost::accumulators::max)(m_summary_y);
double smaxz = (boost::accumulators::max)(m_summary_z);
double smeanx = (boost::accumulators::mean)(m_summary_x);
double smeany = (boost::accumulators::mean)(m_summary_y);
double smeanz = (boost::accumulators::mean)(m_summary_z);
std::cout << " Min " << fmt % sminx << " " << fmt % sminy << " " << fmt % sminz<<std::endl;
std::cout << " Min " << fmt % smaxx << " " << fmt % smaxy << " " << fmt % smaxz<<std::endl;
std::cout << " Mean " << fmt % smeanx << " " << fmt % smeany << " " << fmt % smeanz<<std::endl;
std::cout << thead << std::endl;
return 0;
}
