- //--------------------------------------------------------------------
-
- //--------------------------------------------------------------------
- // Update with the number of dimensions and the pixeltype
- //--------------------------------------------------------------------
- template<class args_info_type>
- template<class InputImageType>
- void
- BinarizeImageGenericFilter<args_info_type>::UpdateWithInputImageType()
- {
-
- // Reading input
- typename InputImageType::Pointer input = this->template GetInput<InputImageType>(0);
-
- // Main filter
- typedef typename InputImageType::PixelType PixelType;
- typedef itk::Image<char, InputImageType::ImageDimension> OutputImageType;
-
- // Filter
- typedef itk::BinaryThresholdImageFilter<InputImageType, OutputImageType> BinaryThresholdImageFilterType;
- typename BinaryThresholdImageFilterType::Pointer thresholdFilter=BinaryThresholdImageFilterType::New();
- thresholdFilter->SetInput(input);
- thresholdFilter->SetInsideValue(mArgsInfo.fg_arg);
-
- if (mArgsInfo.lower_given) thresholdFilter->SetLowerThreshold(static_cast<PixelType>(mArgsInfo.lower_arg));
- if (mArgsInfo.upper_given) thresholdFilter->SetUpperThreshold(static_cast<PixelType>(mArgsInfo.upper_arg));
-
- DD(mArgsInfo.lower_given);
- DD(mArgsInfo.upper_given);
- DD(mArgsInfo.lower_arg);
- DD(mArgsInfo.upper_arg);
- DD(mArgsInfo.fg_arg);
- DD(mArgsInfo.bg_arg);
- DD(mArgsInfo.fg_given);
- DD(mArgsInfo.bg_given);
- DD(mArgsInfo.mode_arg);
-
- /* Three modes :
- - FG -> only use FG value for pixel in the Foreground (or Inside), keep input values for outside
- - BG -> only use BG value for pixel in the Background (or Outside), keep input values for inside
- - both -> use FG and BG (real binary image)
- */
- if (mArgsInfo.mode_arg == std::string("both")) {
- thresholdFilter->SetOutsideValue(mArgsInfo.bg_arg);
- thresholdFilter->Update();
- typename OutputImageType::Pointer outputImage = thresholdFilter->GetOutput();
- this->template SetNextOutput<OutputImageType>(outputImage);
- }
- else {
- typename InputImageType::Pointer outputImage;
- thresholdFilter->SetOutsideValue(0);
- if (mArgsInfo.mode_arg == std::string("BG")) {
- typedef itk::MaskImageFilter<InputImageType,OutputImageType> maskFilterType;
- typename maskFilterType::Pointer maskFilter = maskFilterType::New();
- maskFilter->SetInput1(input);
- maskFilter->SetInput2(thresholdFilter->GetOutput());
- maskFilter->SetOutsideValue(mArgsInfo.bg_arg);
- maskFilter->Update();
- outputImage = maskFilter->GetOutput();
- }
- else {
- typedef itk::MaskNegatedImageFilter<InputImageType,OutputImageType> maskFilterType;
- typename maskFilterType::Pointer maskFilter = maskFilterType::New();
- maskFilter->SetInput1(input);
- maskFilter->SetInput2(thresholdFilter->GetOutput());
- maskFilter->SetOutsideValue(mArgsInfo.fg_arg);
- maskFilter->Update();
- outputImage = maskFilter->GetOutput();
- }
- // Write/Save results
- this->template SetNextOutput<InputImageType>(outputImage);
+ if (mArgsInfo.output_given) {
+ SetOutputFilename(mArgsInfo.output_arg);
+ }
+}
+//--------------------------------------------------------------------
+
+
+//--------------------------------------------------------------------
+// Update with the number of dimensions and the pixeltype
+//--------------------------------------------------------------------
+template<class args_info_type>
+template<class InputImageType>
+void
+BinarizeImageGenericFilter<args_info_type>::UpdateWithInputImageType()
+{
+
+ // Reading input
+ typename InputImageType::Pointer input = this->template GetInput<InputImageType>(0);
+
+ // Main filter
+ typedef typename InputImageType::PixelType PixelType;
+ typedef itk::Image<uchar, InputImageType::ImageDimension> OutputImageType;
+
+ // Filter
+ typedef itk::BinaryThresholdImageFilter<InputImageType, OutputImageType> BinaryThresholdImageFilterType;
+ typename BinaryThresholdImageFilterType::Pointer thresholdFilter=BinaryThresholdImageFilterType::New();
+ thresholdFilter->SetInput(input);
+ thresholdFilter->SetInsideValue(mArgsInfo.fg_arg);
+
+ if (mArgsInfo.lower_given) thresholdFilter->SetLowerThreshold(static_cast<PixelType>(mArgsInfo.lower_arg));
+ if (mArgsInfo.upper_given) thresholdFilter->SetUpperThreshold(static_cast<PixelType>(mArgsInfo.upper_arg));
+
+ // DD(mArgsInfo.lower_given);
+ // DD(mArgsInfo.upper_given);
+ // DD(mArgsInfo.lower_arg);
+ // DD(mArgsInfo.upper_arg);
+ // DD(mArgsInfo.fg_arg);
+ // DD(mArgsInfo.bg_arg);
+ // DD(mArgsInfo.fg_given);
+ // DD(mArgsInfo.bg_given);
+ // DD(mArgsInfo.mode_arg);
+
+// DD(mArgsInfo.useFG_flag);
+// DD(mArgsInfo.useBG_flag);
+
+// thresholdFilter->SetInsideValue(mArgsInfo.fg_arg);
+
+// // Keep BG value to 0 if maskFilterType is used after
+// if (mArgsInfo.useBG_flag && mArgsInfo.useFG_flag) {
+// thresholdFilter->SetOutsideValue(mArgsInfo.bg_arg);
+// }
+// else {
+// DD("0");
+// thresholdFilter->SetOutsideValue(0);
+// }
+
+// // thresholdFilter->Update();
+
+// // If no BG or no FG : new image, copy input with MaskImageFilter
+// // If setFG -> FG BG have been changed
+// if (mArgsInfo.useBG_flag && mArgsInfo.useFG_flag) {
+// =======
+ /* Three modes :
+ - FG -> only use FG value for pixel in the Foreground (or Inside), keep input values for outside
+ - BG -> only use BG value for pixel in the Background (or Outside), keep input values for inside
+ - both -> use FG and BG (real binary image)
+ */
+ if (mArgsInfo.mode_arg == std::string("both")) {
+ thresholdFilter->SetOutsideValue(mArgsInfo.bg_arg);
+ thresholdFilter->Update();
+ //>>>>>>> 1.5
+ typename OutputImageType::Pointer outputImage = thresholdFilter->GetOutput();
+ this->template SetNextOutput<OutputImageType>(outputImage);
+ } else {
+ typename InputImageType::Pointer outputImage;
+ thresholdFilter->SetOutsideValue(0);
+ if (mArgsInfo.mode_arg == std::string("BG")) {
+ typedef itk::MaskImageFilter<InputImageType,OutputImageType> maskFilterType;
+ typename maskFilterType::Pointer maskFilter = maskFilterType::New();
+ maskFilter->SetInput1(input);
+ maskFilter->SetInput2(thresholdFilter->GetOutput());
+ maskFilter->SetOutsideValue(mArgsInfo.bg_arg);
+ maskFilter->Update();
+ outputImage = maskFilter->GetOutput();
+ } else {
+ typedef itk::MaskNegatedImageFilter<InputImageType,OutputImageType> maskFilterType;
+ typename maskFilterType::Pointer maskFilter = maskFilterType::New();
+ maskFilter->SetInput1(input);
+ maskFilter->SetInput2(thresholdFilter->GetOutput());
+ maskFilter->SetOutsideValue(mArgsInfo.fg_arg);
+ maskFilter->Update();
+ outputImage = maskFilter->GetOutput();