GDCM  2.4.5
VolumeSorter.cxx
/*=========================================================================
Program: GDCM (Grassroots DICOM). A DICOM library
Copyright (c) 2006-2011 Mathieu Malaterre
All rights reserved.
See Copyright.txt or http://gdcm.sourceforge.net/Copyright.html for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
/*
*/
#include "gdcmSorter.h"
#include "gdcmIPPSorter.h"
#include "gdcmScanner.h"
#include "gdcmDataSet.h"
#include "gdcmAttribute.h"
#include "gdcmTesting.h"
bool mysort1(gdcm::DataSet const & ds1, gdcm::DataSet const & ds2 )
{
at1.Set( ds1 );
at2.Set( ds2 );
return at1 < at2;
}
bool mysort2(gdcm::DataSet const & ds1, gdcm::DataSet const & ds2 )
{
at1.Set( ds1 );
at2.Set( ds2 );
return at1 < at2;
}
bool mysort3(gdcm::DataSet const & ds1, gdcm::DataSet const & ds2 )
{
// This is a floating point number is the comparison ok ?
at1.Set( ds1 );
at2.Set( ds2 );
return at1 < at2;
}
bool mysort4(gdcm::DataSet const & ds1, gdcm::DataSet const & ds2 )
{
// Do the IPP sorting here
ipp1.Set( ds1 );
iop1.Set( ds1 );
ipp2.Set( ds2 );
iop2.Set( ds2 );
if( iop1 != iop2 )
{
return false;
}
// else
double normal[3];
normal[0] = iop1[1]*iop1[5] - iop1[2]*iop1[4];
normal[1] = iop1[2]*iop1[3] - iop1[0]*iop1[5];
normal[2] = iop1[0]*iop1[4] - iop1[1]*iop1[3];
double dist1 = 0;
for (int i = 0; i < 3; ++i) dist1 += normal[i]*ipp1[i];
double dist2 = 0;
for (int i = 0; i < 3; ++i) dist2 += normal[i]*ipp2[i];
std::cout << dist1 << "," << dist2 << std::endl;
return dist1 < dist2;
}
int main(int argc, char *argv[])
{
const char *extradataroot = gdcm::Testing::GetDataExtraRoot();
std::string dir1;
if( argc < 2 )
{
if( !extradataroot )
{
return 1;
}
dir1 = extradataroot;
dir1 += "/gdcmSampleData/ForSeriesTesting/VariousIncidences/ST1";
}
else
{
dir1 = argv[1];
}
d.Load( dir1.c_str(), true ); // recursive !
const size_t nfiles = l1.size();
std::cout << nfiles << std::endl;
//if( nfiles != 280 )
// {
// return 1;
// }
//d.Print( std::cout );
const gdcm::Tag t1(0x0020,0x000d); // Study Instance UID
const gdcm::Tag t2(0x0020,0x000e); // Series Instance UID
//const gdcm::Tag t3(0x0010,0x0010); // Patient's Name
s0.AddTag( t1 );
s0.AddTag( t2 );
//s0.AddTag( t3 );
//s0.AddTag( t4 );
//s0.AddTag( t5 );
//s0.AddTag( t6 );
bool b = s0.Scan( d.GetFilenames() );
if( !b )
{
std::cerr << "Scanner failed" << std::endl;
return 1;
}
//s0.Print( std::cout );
// Only get the DICOM files:
const size_t nfiles2 = l2.size();
std::cout << nfiles2 << std::endl;
if ( nfiles2 > nfiles )
{
return 1;
}
gdcm::Sorter sorter;
sorter.SetSortFunction( mysort1 );
sorter.StableSort( l2 );
sorter.SetSortFunction( mysort2 );
sorter.StableSort( sorter.GetFilenames() );
sorter.SetSortFunction( mysort3 );
sorter.StableSort( sorter.GetFilenames() );
sorter.SetSortFunction( mysort4 );
sorter.StableSort( sorter.GetFilenames() );
//sorter.Print( std::cout );
// Let's try to check our result:
// assume that IPP is precise enough so that we can test floating point equality:
size_t nvalues = 0;
{
s.AddTag( gdcm::Tag(0x20,0x32) ); // Image Position (Patient)
//s.AddTag( gdcm::Tag(0x20,0x37) ); // Image Orientation (Patient)
s.Scan( d.GetFilenames() );
//s.Print( std::cout );
const gdcm::Scanner::ValuesType &values = s.GetValues();
nvalues = values.size();
std::cout << "There are " << nvalues << " different type of values" << std::endl;
assert( nfiles2 % nvalues == 0 );
std::cout << "Series is composed of " << (nfiles/nvalues) << " different 3D volumes" << std::endl;
}
// Which means we can take nvalues files at a time and execute gdcm::IPPSorter on it:
gdcm::IPPSorter ippsorter;
gdcm::Directory::FilenamesType sub( sorted_files.begin(), sorted_files.begin() + nvalues);
std::cout << sub.size() << std::endl;
std::cout << sub[0] << std::endl;
std::cout << sub[nvalues-1] << std::endl;
ippsorter.SetComputeZSpacing( false );
if( !ippsorter.Sort( sub ) )
{
std::cerr << "Could not sort" << std::endl;
return 1;
}
std::cout << "IPPSorter:" << std::endl;
ippsorter.Print( std::cout );
return 0;
}

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