Set the Root Tree maximum size to 1TB instead of 1GB

[clitk.git] / tools / clitkDicom2Image.cxx

diff --git a/tools/clitkDicom2Image.cxx b/tools/clitkDicom2Image.cxx
index 4e8b268709825ccddf542a09df9169984d77b7c0..51a32d15550ff3a1afe2dff199d97514e81ccbd0 100644 (file)
--- a/tools/clitkDicom2Image.cxx
+++ b/tools/clitkDicom2Image.cxx
@@ -17,6 +17,7 @@
 ===========================================================================**/
 
 // clitk includes
+#include "clitkIO.h"
 #include "clitkDicom2Image_ggo.h"
 #include "clitkCommon.h"
 #include "clitkImageCommon.h"
@@ -38,6 +39,8 @@ int main(int argc, char * argv[])
 {
   // init command line
   GGO(clitkDicom2Image, args_info);
+  CLITK_INIT;
+
   std::vector<std::string> input_files;
   ///if std_input is given, read the input files from stdin
   if (args_info.std_input_given) {
@@ -88,16 +91,19 @@ int main(int argc, char * argv[])
     series_numbers.insert(series_number);
     theorigin[series_number] = gdcm::ImageHelper::GetOriginValue(hreader.GetFile());
     theorientation[series_number] = gdcm::ImageHelper::GetDirectionCosinesValue(hreader.GetFile());
-    double n1 = theorientation[series_number][1]*theorientation[series_number][5]-
-                theorientation[series_number][2]*theorientation[series_number][4];
-    double n2 = theorientation[series_number][3]*theorientation[series_number][2]-
-                theorientation[series_number][5]*theorientation[series_number][0];
-    double n3 = theorientation[series_number][0]*theorientation[series_number][4]-
-                theorientation[series_number][1]*theorientation[series_number][3];
-    double sloc = theorigin[series_number][0]*n1+
-                  theorigin[series_number][1]*n2+
-                  theorigin[series_number][2]*n3;
-    sliceLocations[series_number].push_back(sloc);
+    if (args_info.extract_series_flag) {
+      double n1 = theorientation[series_number][1]*theorientation[series_number][5]-
+                  theorientation[series_number][2]*theorientation[series_number][4];
+      double n2 = theorientation[series_number][3]*theorientation[series_number][2]-
+                  theorientation[series_number][5]*theorientation[series_number][0];
+      double n3 = theorientation[series_number][0]*theorientation[series_number][4]-
+                  theorientation[series_number][1]*theorientation[series_number][3];
+      double sloc = theorigin[series_number][0]*n1+
+                    theorigin[series_number][1]*n2+
+                    theorigin[series_number][2]*n3;
+      sliceLocations[series_number].push_back(sloc);
+    } else
+      sliceLocations[series_number].push_back(theorigin[series_number][2]);
     seriesFiles[series_number].push_back(input_files[i]);
 
     gdcm::Attribute<0x28, 0x100> pixel_size;
@@ -233,24 +239,10 @@ int main(int argc, char * argv[])
         name << *sn << "_" << args_info.output_arg;
       outfile = name.str();
     }
-    //Check on transform
-    bool bId = true;
-    for(unsigned int i=0; i<4; i++) {
-      for(unsigned int j=0; j<4; j++) {
-        double elt = image->GetTransform()[0]->GetMatrix()->GetElement(i,j);
-        if(i==j && elt!=1.) {
-          bId = false;
-        }
-        if(i!=j && elt!=0.) {
-          bId = false;
-        }
-      }
-    }
     vvImageWriter::Pointer writer = vvImageWriter::New();
     writer->SetInput(image);
-    if(!bId) {
-        writer->SetSaveTransform(true);
-    }
+    if (args_info.extract_series_flag && !image->GetTransform().empty())
+      writer->SetSaveTransform(true);
     writer->SetOutputFileName(outfile);
     writer->Update();