#include "clitkIO.h"
#include "vvMainWindow.h"
+#include "vvReadState.h"
#include "vvToolsList.h"
+#include "vvConfiguration.h"
+
#include <vtkFileOutputWindow.h>
#include <vtkSmartPointer.h>
+
#include <itkFileOutputWindow.h>
#include <itkSmartPointer.h>
#include <itksys/SystemTools.hxx>
int n_image_loaded=0;
std::string win(""), lev("");
+ bool link_images = false;
if (argc >1) {
for (int i = 1; i < argc; i++) {
std::string current = argv[i];
sequence_filenames.clear();
parse_mode=P_NORMAL;
}
+ if (current=="--help") {
+ std::cout << "vv " << VV_VERSION << ", the 2D, 2D+t, 3D and 3D+t (or 4D) image viewer" << std::endl << std::endl
+ << "Synopsis: vv file(s) [OPTIONS] file(s)" << std::endl << std::endl
+ << "Open file(s) for visualization." << std::endl << std::endl
+ << "OPTIONS may be:" << std::endl
+ << "--help \t Print command line help and exit." << std::endl
+ << "--window number\t Gray scale window width for all images." << std::endl
+ << "--level number \t Gray scale window level for all images." << std::endl
+ << "--linkall \t Link pan, zoom and spatial position of crosshair in images." << std::endl
+ << "--log \t Log output messages in vv-log directory." << std::endl
+ << "--state file \t Read display parameters from file." << std::endl
+ << "--sequence file\t Read all file(s) until next option in a single temporal sequence." << std::endl
+ << std::endl
+ << "These last options must follow a file name since they overlay something on an image:" << std::endl
+ << "--vf file \t Overlay the vector field in file." << std::endl
+ << "--overlay file \t Overlay the image in file with complementary colors." << std::endl
+ << "--fusion file \t Overlay the image in file with alpha blending and colormap." << std::endl
+ << "--roi file \t Overlay binary mask images. Option may be repeated on a single base image." << std::endl
+ << "--contour file \t Overlay DICOM RT-STRUCT contours." << std::endl;
+ exit(0);
+ }
if (current=="--vf") {
if (!n_image_loaded) load_image_first_error();
window.AddField(argv[i+1],n_image_loaded-1);
if (!n_image_loaded) load_image_first_error();
window.AddROI(n_image_loaded-1,argv[i+1]);
i++; //skip roi name
+ } else if (current=="--contour") {
+ if (!n_image_loaded) load_image_first_error();
+ window.AddDCStructContour(n_image_loaded-1,argv[i+1]);
+ i++; //skip roi name
} else if (current=="--fusion") {
if (!n_image_loaded) load_image_first_error();
window.AddFusionImage(n_image_loaded-1,argv[i+1]);
parse_mode=P_WINDOW;
} else if (current == "--level") {
parse_mode=P_LEVEL;
- } else if (current == "--log") {
+ } else if (current == "--linkall") {
+ link_images = true;
+ }
+ else if (current == "--log") {
std::string log_dir = QDir::tempPath().toStdString() + std::string("/vv-log");
if(itksys::SystemTools::FileExists(log_dir.c_str()) &&
vtk_log->FlushOn();
vtk_log->AppendOn();
vtkOutputWindow::SetInstance(vtk_log);
+ } else if (current == "--state") {
+ //window.ReadSavedStateFile(argv[i+1]);
+ vvReadState read_state;
+ read_state.Run(&window, argv[i+1]);
+ n_image_loaded += read_state.GetNumberOfImages();
+ i++;
}
+
} else if (parse_mode == P_SEQUENCE) {
sequence_filenames.push_back(current);
} else if (parse_mode == P_WINDOW) {
window.ApplyWindowLevelToAllImages();
}
+ if (link_images)
+ window.LinkAllImages();
int ret = app.exec();