Version 2.2.3

Minor changes

• Tables with feature values now contain extra columns to better identify the input data. For example, the new columns specify the file name (for non-DICOM input), the directory path of the image and masks and several DICOM tags, if available.

• MIRP now checks whether there are potential problems between the frames of reference of image and mask files.

Version 2.2.2

Minor changes

• show method of GenericImage and subclasses now indicate if a user-provided slice_id is out-of-volume and
  select the nearest slice instead.

• Naming of branches in the settings xml file now matches that of their respective settings classes. xml files
  with the previous branch names still function.

• Errors encountered during file import and handling are now more descriptive.

• extract_mask_labels and extract_image_parameters now export extra information from DICOM metadata, e.g. series
  UID.

Documentation

• Added a new tutorial on applying image filters to images.
• Added documentation on the feature naming system.
• Added documentation on the design of MIRP.

Fixes

• Computing features related to the minimum volume enclosing ellipsoid no longer produces warnings due to the use of
  deprecated numpy.matrix class.

Version 2.2.1

Minor changes

• If mask-related parameters are not provided for computing features or processing of images for deep learning, a
  mask is generated that covers the entire image.

• Add fall-back methods for missing installation of the ray package for parallel processing. This can happen when
  a python version is not supported by the ray package. ray is now a conditional dependency, until that package
  is released for python 3.12.

• The default export format for deep_learning_processing and deep_learning_processing_generator is now dict,
  because the sample name is important for matching against observed outcomes.

• write_file arguments of extract_mask_labels and extract_image_parameters were deprecated as these were
  redundant.

Fixes

• Streamlined importing and reading DICOM files results in faster processing of DICOM-based imaging.

• Fixed an indexing issue when attempting to split masks into bulk and rim sections in a slice-wise fashion.

• Fixed an indexing issue in Rank's method for noise estimation.

• Fixed incorrectly named image parameters file export. Instead of mask_labels.csv, image parameters are now
  correctly exported to image_metadata.csv.

Version 2.2.0

Major changes

• Added support for intensity scaling using the intensity_scaling parameter. Intensity scaling multiplies intensities by a scalar value. Intensity scaling occurs after intensity normalisation (if any) and prior to adding noise (if any). For example, intensity scaling can be used after intensity normalisation to scale intensities to a different range. intensity_normalisation = "range" with intensity_scaling = 1000.0 maps image intensities to [1000.0, 0.0] instead of [1.0, 0.0].

• Added support for intensity transformation filters: square root ("pyradiomics_square_root"), square ("pyradiomics_square"), logarithm ("pyradiomics_logarithm") and exponential ("pyradiomics_exponential"). These implementations are based on the definitions in the pyradiomics documentation. Since these filters do not currently have an IBSI reference standard, these are mostly intended for reproducing and validating radiomics models based on features extracted from pyradiomics.

• Modules were renamed according to the PEP8 standard. This does not affect the documented public interface, but may affect external extensions. Public and private parts of the API are now indicated.

Minor changes

• Added support for Python version 3.10 using typing-extensions.
• Several changes were made to ensure proper functioning of MIRP with future versions of pandas.
• Some changes were made prevent deprecation warnings in future version of numpy.

Version 2.1.1

Fixes

• Fixed missing merge changes from version 2.1.0 to the main branch.
• Fixed reading of mask_name from data xml files.
• image_name and mask_name configuration parameters are now parsed as single strings if only one value is
  specified to match argument-based configuration.
• Fixed and updated several exception messages.
• Filter kernel names, specified using filter_kernels in xml files, are now correctly parsed as strings instead of
  floats.

Version 2.1.0

Major changes

• Added support for SEG DICOM files for segmentation.

• Added support for processing RTDOSE files.

• It is now possible to combine and split masks, and to select the largest mask or mask slice, as part of the image
  processing workflow. Masks can be combines by setting mask_merge = True, which merges all available masks for an
  image into a single mask. This can be useful when, e.g., multiple regions of interest should be assessed as a single
  (possibly internally disconnected) mask. Masks are split using mask_split = True, which separates every disconnected
  region into its own mask that is assessed separately. This is used for splitting multiple lesions inside a single mask
  into multiple separate masks. The largest region of interest in each mask is selected by
  mask_select_largest_region = True. This can be used when, e.g., only the largest lesion of multiple lesions should be
  assessed. Sometimes, only the largest slice (i.e. the slice containing most of the voxels in a mask) should be
  assessed. This is done using mask_select_largest_slice = True. This also forces by_slice = True.

  These mask operations are implemented in the following order: combination -> splitting -> largest region ->
  largest slice.

• Masks from an RT-structure file that shares a frame of reference with an image but does not have a one-to-one
  mapping to its voxel space can now be processed. This facilitates processing of masks from RT structure sets that
  are, e.g., defined on CT images but applied to co-registered PET imaging, or from one MR sequence to another.

Fixes

• Providing a mask consisting of boolean values in a numpy array no longer incorrectly throws an error.
• Configuration parameters from xml files are now processed in the same manner as parameters defined as function
  arguments. The same default values are now used, independent of the parameter source. This fixes a known issue where
  outlier-based resegmentation would occur by default using xml files, whereas the intended default is that no
  resegmentation takes place.
• Masks can now be exported to the file system without throwing an error.
• DICOM files from frontal or sagittal view data are now correctly processed.

Version 2.0.1

Minor changes

• Randomisation in MIRP now uses the generator-based methods in numpy.random, replacing the legacy functions.
  The generator is seeded so that results are reproducible. The seed depends on input image, mask and configuration
  parameters, if applicable.

Fixes

• Numpy arrays can now be used as direct input without throwing a FileNotFoundError.
• Relaxed check on orientation matrix when importing images, preventing errors when the l2-norm is around 1.000 but not
  to high precision.
• To prevent high loads through internal multithreading in numpy and other libraries when using ray for parallel
  processing, each ray thread is now initialised with environment parameters that prevent multi-threading.

Version 2.0.0

Version 2.0.0

Version 2.0.0 is a major refactoring of the MIRP package.

Major changes

• MIRP was previously configured using two xml files: config_data.xml for configuring
  directories, data to be read, etc., and config_settings.xml for configuring experiments.
  While these two files can still be used, MIRP can now be configured directly, without using these files.

• The main functions of MIRP (mainFunctions.py) have all been re-implemented.

  • mainFunctions.extract_features is now extractFeaturesAndImages.extract_features (functional form) or
    extractFeaturesAndImages.extract_features_generator (generator). The replacements allow for both writing
    feature values to a directory and returning them as function output.
  • mainFunctions.extract_images_to_nifti is now extractFeaturesAndImages.extract_images (functional form) or
    extractFeaturesAndImages.extract_images_generator (generator). The replacements allow for both writing
    images to a directory (e.g., in NIfTI or numpy format) and returning them as function output.
  • mainFunctions.extract_images_for_deep_learning has been replaced by
    deepLearningPreprocessing.deep_learning_preprocessing (functional form) and
    deepLearningPreprocessing.deep_learning_preprocessing_generator (generator).
  • mainFunctions.get_file_structure_parameters and mainFunctions.parse_file_structure are deprecated, as the
    the file import system used in version 2 no longer requires a rigid directory structure.
  • mainFunctions.get_roi_labels is now extractMaskLabels.extract_mask_labels.
  • mainFunctions.get_image_acquisition_parameters is now extractImageParameters.extract_image_parameters.

• MIRP previously relied on ImageClass and RoiClass objects. These have been completely replaced by GenericImage
  (and its subclasses, e.g. CTImage) and BaseMask objects, respectively. New image modalities can be added as
  subclass of GenericImage in the mirp.images submodule.

• File import, e.g. from DICOM or NIfTI files, in was previously implemented in an ad-hoc manner, and required a rigid
  directory structure. Now, file import is implemented using an object-oriented approach, and directory structures
  are more flexible. File import of new modalities can be implemented as a relevant subclass of ImageFile.

• MIRP uses type hinting, and makes use of the Self type hint introduced in Python 3.11. MIRP therefore requires
  Python 3.11 or later.

Minor changes

• MIRP now uses the ray package for parallel processing.

Version 1.3.0 (dev - unreleased)

Minor changes

• SimpleITK has been removed as a dependency. Handling of non-DICOM imaging is now done through itk itself.
• Rotation - as a perturbation or augmentation operation - is now performed as part of the interpolation process.
  Previously, rotation was implemented using scipy.ndimage.rotate. This, combined with any translation or
  interpolation operation would involve two interpolation steps. Aside from removing a computationally intensive
  step, this also prevents unnecessary image degradation through the interpolation process. The new implementation
  operates using affine matrix transformations.
• Discretisation of intensities after filtering (i.e. intensities of response maps) now uses a fixed bin number
  method with 16 bins by default. Previously, no default was set, which could lead to unintended results. These
  parameters can be manually specified using the response_map_discretisation_method,
  response_map_discretisation_bin_width, and response_map_discretisation_n_bins arguments; or alternatively
  using the discretisation_method, discretisation_bin_width and discretisation_n_bins parameters of the
  img_transform section of the settings configuration file.

Fixes

• Fixed a deprecation warning caused by slic of the scikit-image module.
• Fixed incorrect merging of contours of the same region of interest (ROI) in the same slice. Previously, each contour
  was converted to a mask individually, and merged with the segmentation mask using OR operations. This functions
  perfectly for contours that represent separate objects spatially. However, holes in RTSTRUCT objects are not
  always represented by a single contour. They can also be represented by a separate contour (of the same region of
  interest) that is contained within a larger contour. For those RTSTRUCT objects, holes would disappear. This has
  now been fixed by first collecting all contours of a ROI for each slice, prior to converted them to a segmentation
  mask.

Version 1.2.0

Major changes

• Updated filter implementations to the current (August 2022) IBSI 2 guidelines.
• Settings read from the configuration files are now parsed and checked prior to starting computations. This is a
  preliminary to command-line configuration of experiments in future versions. Several xml tags were renamed or
  deprecated. Most renamed tags are soft-deprecated, and support backward compatibility. The following tags will now
  throw deprecation warnings:
  • new_non_iso_spacing has been deprecated. Non-isotropic spacing can be set using the existing new_spacing
    argument.
  • glcm_merge_method has been deprecated and merged into glcm_spatial_method.
  • glrlm_merge_method has likewise been deprecated and merged into glrlm_spatial_method.
  • log_average has been deprecated. The same effect can be achieved by giving the
    laplacian_of_gaussian_pooling_method the value mean.

Minor changes

• It is now possible to compute features for multiple images for the same subject and modality.

Fixes

• White-space is properly stripped from the names of regions of interest.
• Several issues related to one-voxel ROI were resolved.
• Computing no features or features that do not require discretisation do no longer prompt providing for a
  discretisation method.
• Computing no features from, e.g., the base image no longer generate errors.
• Fixed an issue where rotated masks were not returned correctly.
• A number of other fixes were made to improve stability.