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python312-pyroomacoustics-0.8.2-1.1 RPM for armv6hl

From OpenSuSE Ports Tumbleweed for armv6hl

Name: python312-pyroomacoustics Distribution: openSUSE Tumbleweed
Version: 0.8.2 Vendor: openSUSE
Release: 1.1 Build date: Sat Nov 23 09:43:49 2024
Group: Unspecified Build host: reproducible
Size: 37153989 Source RPM: python-pyroomacoustics-0.8.2-1.1.src.rpm
Packager: http://bugs.opensuse.org
Url: https://github.com/LCAV/pyroomacoustics
Summary: A framework for room acoustics and audio processing in Python
Pyroomacoustics is a package for audio signal processing for indoor
applications. It was developed as a prototyping platform for
beamforming algorithms in indoor scenarios.

Provides

Requires

License

MIT

Changelog

* Sat Nov 23 2024 Dirk Müller <[email protected]>
  - update to 0.8.2:
    * Makes the pyroomacoustics.utilities.resample backend is made
      configurable to avoid soxr dependency. The resample backend
      is configurable to soxr, samplerate, if these packages are
      available, and otherwise falls back to
      scipy.signal.resample_poly.
    * Fixes typo in materials.json: ceiling_fibre_abosrber ->
      ceiling_fibre_absorber.
    * Adds the missing pyroomacoustics.directivities to the package
      list in setup.py.
    * New global parameters to control the octave bands used for
      simulation. octave_bands_base_freq: the base frequency used
      for the octave bands (default 125), note that together with
      the sampling frequency this will determine the number of sub-
      bands used in simulation. octave_bands_n_fft: lengths of the
      octave band filters (current is default 512 but will be
      changed to 128 in the next release) octave_bands_keep_dc:
      extends the lowest band to include the DC offset, the current
      default is False to match past behavior, but will be changed
      to True in the next release because the filters have less
      oscillations this way.
    * octave_bands_base_freq: the base frequency used for the
      octave bands (default 125), note that together with the
      sampling frequency this will determine the number of sub-
      bands used in simulation.
    * octave_bands_n_fft: lengths of the octave band filters
      (current is default 512 but will be changed to 128 in the
      next release)
    * octave_bands_keep_dc: extends the lowest band to include the
      DC offset, the current default is False to match past
      behavior, but will be changed to True in the next release
      because the filters have less oscillations this way.
    * New parameter min_phase of class Room. If set to True, the
      band-pass filters are designed as minimum phase filters.
    * Simulation with measured directivity responses in SOFA format
      (limited file types) is possible with the image source model.
      A flexible and extensible  SOFA file reader with optional
      spherical interpolation. A small database of files is
      bundled, including the DIRPAT database, collected by Manuel
      Brandner, Matthias Frank, and Daniel Rudrich University of
      Music and Performing Arts Graz, Graz. The file also include
      two HRTF of the MIT KEMAR dummy head.
    * A flexible and extensible  SOFA file reader with optional
      spherical interpolation.
    * A small database of files is bundled, including the DIRPAT
      database, collected by Manuel Brandner, Matthias Frank, and
      Daniel Rudrich University of Music and Performing Arts Graz,
      Graz. The file also include two HRTF of the MIT KEMAR dummy
      head.
    * Introduces a new class
      pyroomacoustics.directivities.Rotation3D to specify the
      orientation of sources and receivers in 3D.
    * Adds soxr as a dependency since resampling can often be
      necessary when working with SOFA files.
    * In ray tracing, the histograms are now linearly interpolated
      between the bins to obtain smoother RIR
    * Changed the API of CardioidFamily to take a float parameter.
      New class wrappers for Cardioid, Hypercardioid,
      Supercardioid, Bidirectional and Omnidirectional are added in
      the directivity sub-module. The enum of type
      DirectivityPattern has been removed.
* Thu Sep 26 2024 Ben Greiner <[email protected]>
  - Update to 0.7.7
    * Fixes a bug when plotting an anechoic room
    * Fixes a buggy assert from rir_build.cpp
    * Makes the build system consistent for all source files in
      pyroomacoustics/libroom_src
    * Fixes a call to a deprecated function of scipy.integrate in
      pyroomacoustics/denoise/iterative_wiener (issue #362)
  - Release v0.7.6
    * Fixes the default value of energy_thres in experimental.rt60 to
      match the previous behavior of the function (issue #358)
    * Further fixes issue with cast reflections delays to float32 in
      room.py (#353) which was not fully fixed by the previous update
    * Fixes calls to deprecated API of scipy.linalg.eigh
    * Fixes use of deprecated feature of numpy (conversion of
      singleton array to scalar)
  - Release v0.7.5
    * Extra parameter energy_thresh added to
      pyroomacoustics.experimental.measure_rt60. The energy tail
      beyond this threshold is discarded which is useful for noisy
      RIR measurements. The default value is 0.95.
    * Fixes a bug in beamforming.circular_microphone_array_xyplane
      (#348)
    * Fixes a bug in room.Room.plot_rir where the x-axis would have
      the wrong ticks when called with kind="tf"
    * Fixes an issue where the visibility attribute of the room is
      not set if there are no visible source or image source in the
      room. (#313)
    * Fixes issue with cast reflections delays to float32 in room.py
      (#353)
    * Fixes calls to numpy.linalg.solve with Numpy 2.0 API
  - PEP517 build
  - Add pyroomacoustics-opensuse-buildoptions.patch
* Sat Apr 27 2024 Dirk Müller <[email protected]>
  - update to 0.7.4:
    * New implementation of fast RIR builder function in the
      libroom C++ extension to replace the current cython code.
      Advantages are: 1) only one compiled extension, 2)
      multithreading support
    * New global parameter sinc_lut_granularity that controls the
      number of points used in the look-up table for the sinc
      interpolation. Accessible via parameters.constants.get.
    * New global parameter  num_threads that controls the number of
      threads used in multi-threaded code (rir builder only at the
      moment). The number of threads can also be controlled via the
      environement variable PRA_NUM_THREADS
    * Adds package build support for Python 3.11 and 3.12. - Adds
      package build for new Apple M1 architecture
    * Removed the broken get_rir method of the class SoundSource
    * Removes package build support for Python 3.7 (EOL)
    * Fixes a bug when using randomized image source model with a
      2D room (#315) by @hrosseel
    * Fixes a bug when setting the air absorption coefficients to
      custom values (#191), adds a test, and more details in the
      doc
    * Fixes a bug in the utilities.angle_function in the
      calculation of the colatitude (#329) by @fabiodimarco
    * Replaces the crossing-based point-in-polygon algorithm in the
      C++ code with the more robust winding number algorithm
    * Fixes usage of deprecated hann window with new version of
      scipy in metrics.py (#344) by @mattpitkin
    * Fixes issue #293 due to the C++ method Room::next_wall_hit
      not handling 2D shoebox rooms, which cause a seg fault
    * Appveyor builds for compiled wheels for win32/win64 x86
    * Fixes missing import statement in room.plot for 3D rooms (PR
      [#286])
    * On win64, bss.fastmnmf would fail due to some singular
      matrix. 1) protect solve with try/except and switch to
      pseudo-inverse if necessary, 2) change eps 1e-7 -> 1e-6
    * Fixed pypi upload for windows wheels
    * Added the AnechoicRoom class.
    * Added FastMNMF2 (Fast Multichannel Nonnegative Matrix
      Factorization 2) to bss subpackage.
    * Randomized image source method for removing sweeping echoes
      in shoebox rooms.
    * Adds the cart2spher method in pyroomacoustics.doa.utils to
      convert from cartesian to spherical coordinates.
    * Example room_complex_wall_materials.py
    * CI for python 3.10
    * Cleans up the plot_rir function in Room so that the labels
      are neater. It also adds an extra option kind that can take
      values "ir", "tf", or "spec" to plot the impulse responses,
      transfer functions, or spectrograms of the RIR.
    * Refactored the implementation of FastMNMF.
    * Modified the document of __init__.py in doa subpackage.
    * End of Python 3.6 support.
    * Removed the deprecated realtime sub-module.
    * Removed the deprecated functions
      pyroomacoustics.transform.analysis,
      pyroomacoustics.transform.synthesis,
      pyroomacoustics.transform.compute_synthesis_window. They are
      replaced by the equivalent functions in
      pyroomacoustics.transform.stft sub-module.
    * The minimum required version of numpy was changed to 1.13.0
      (use of np.linalg.multi_dot in doa sub-package see #271)
    * Fixed most warnings in the tests
    * Fixed bug in examples/adaptive_filter_stft_domain.py
    * New DOA method: MUSIC with pseudo-spectra normalization.
      Thanks @4bian! Normalizes MUSIC pseudo spectra before
      averaging across frequency axis.
    * Issue 235: fails when set_ray_tracing is called, but no
      mic_array is set
    * Issue 236: general ISM produces the wrong transmission
      coefficients
    * Removes an unncessery warning for some rooms when ray tracing
      is not needed
    * Unify code format by using Black
    * Add code linting in continuous integration
    * Drop CI support for python 3.5
    * Adds tracking of reflection order with respect to x/y/z axis
      in the shoebox image source model engine. The orders are
      available in source.orders_xyz after running the image source
      model
    * Support for microphone and source directivites for image
      source model. Source directivities just for shoebox room.
      Available directivities are frequency-independent (cardioid
      patterns), although the infrastructure is there for
      frequency-dependent directivities: frequency-dependent usage
      in Room.compute_rir and abstract Directivity class.
    * Examples scripts and notebook for directivities.
    * Fix wrong bracketing for negative values in is_inside
      (ShoeBox)
    * Support for Python 3.8 and 3.9
    * Fixes typo in a docstring
    * Update docs to better reflect actual function parameters
    * Fixes the computation of the cost function of SRP-PHAT doa
      algorithm (bug reported in #PR197)
    * Improve the computation of the auxiliary variables in AuxIVA
      and ILRMA. Unnecessary division operations are reduced.
    * Fixes the Dockerfile so that we don't have to install the
      build dependencies manually
    * Change the eps for geometry computations from 1e-4 to 1e-5 in
      libroom
    * A specialized is_inside routine for ShoeBox rooms
    * Issue #162 (crash with max_order>31 on windows), seems fixed
      by the new C++ simulator
    * Test for issue #162 added
    * Fix Binder link
    * Adds the pyproject.toml file in MANIFEST.in so that it gets
      picked up for packaging
    * Minimal Dockerfile example.
    * Ray Tracing in the libroom module. The function compute_rir()
      of the Room object in python can now be executed using a pure
      ray tracing approach or a hybrid (ISM + RT) approach. That's
      why this function has now several default arguments to run
      ray tracing (number of rays, scattering coefficient, energy
      and time thresholds, microphone's radius).
    * Bandpass filterbank construction in
      pyroomacoustics.acoustics.bandpass_filterbank
    * Acoustic properties of different materials in
      pyroomacoustics.materials
    * Scattering from the wall is handled via ray tracing method,
      scattering coefficients are provided in
      pyroomacoustics.materials.Material objects
    * Function inverse_sabine allows to compute the absorption and
      max_order to use with the image source model to achieve a
      given reverberation time
    * The method rt60_theory in pyroomacoustics.room.Room allows to
      compute the theoretical RT60 of the room according to Eyring
      or Sabine formula
    * The method measure_rt60 in pyroomacoustics.room.Room allows
      to measure the RT60 of the simulated RIRs
    * Deep refactor of Room class. The constructor arguments have
      changed
    * No more sigma2_awgn, noise is now handled in
      pyroomacoustics.Room.simulate method
    * The way absorption is handled has changed. The scalar
      variables absorption are deprecated in favor of
      pyroomacoustics.materials.Material
    * Complete refactor of libroom, the compiled extension module
      responsible for the room simulation, into C++. The bindings
      to python are now done using pybind11.
    * Removes the pure Python room simulator as it was really slow
    * pyroomacoustics.transform.analysis,
      pyroomacoustics.transform.synthesis,
      pyroomacoustics.transform.compute_synthesis_window, have been
      deprecated in favor of
      pyroomacoustics.transform.stft.analysis,
      pyroomacoustics.transform.stft.synthesis,
      pyroomacoustics.transform.stft.compute_synthesis_window.
    * pyroomacoustics.Room has a new method add that can be used to
      add either a SoundSource, or a MicrophoneArray object.
      Subsequent calls to the method will always add
      source/microphones. There exists also methods add_source and
      add_microphone that can be used to add source/microphone via
      coordinates. The method add_microphone_array can be used to
      add a MicrophoneArray object, or a 2D array containing the
      locations of several microphones in its columns.  While the
      add_microphone_array method used to replace the existing
      array by the argument, the new behavior is to add in addition
      to other microphones already present.
    * From Issue #150, increase max iterations to check if point is
      inside room
    * Issues #117 #163, adds project file pyproject.toml so that
      pip can know which dependencies are necessary for setup
    * Fixed some bugs in the documentation
    * Fixed normalization part in FastMNMF
    * Added room_isinside_max_iter in parameters.py
    * Default set to 20 rather than 5 as it was in
      pyroomacoustics.room.Room.isinside
    * Added Binder link in the README for online interactive demo
    * Changed while loop to iterate up to room_isinside_max_iter in
      pyroomacoustics.room.Room.isinside
    * Changed initialization of FastMNMF to accelerate convergence
    * Fixed bug in doa/tops (float -> integer division)
    * Added vectorised functions in MUSIC
    * Use the vectorised functions in _process of MUSIC
    * Fixed a non-unicode character in
      pyroomacoustics.experimental.rt60 breaking the tests
    * The routine pyroomacoustics.experimental.measure_rt60 to
      automatically measure the reverberation time of impulse
      responses. This is useful for measured and simulated
      responses.
    * Fixed docstring and an argument of pyroomacoustics.bss.ilrma
    * Added FastMNMF (Fast Multichannel Nonnegative Matrix
      Factorization) to bss subpackage.
    * Griffin-Lim algorithm for phase reconstruction from STFT
      magnitude measurements.
    * Removed the supperfluous warnings in
      pyroomacoustics.transform.stft.
    * Add option in pyroomacoustics.room.Room.plot_rir to set pair
      of channels to plot; useful when there's too many impulse
      responses.
    * Add some window functions in windows.py and rearranged it in
      alphabetical order
    * Fixed various warnings in tests.
    * Faster implementation of AuxIVA that also includes OverIVA
      (more mics than sources). It also comes with a slightly
      changed API, Laplace and time-varying Gauss statistical
      models, and two possible initialization schemes.
    * Faster implementation of ILRMA.
    * SparseAuxIVA has slightly changed API, f_contrast has been
      replaced by model keyword argument.
    * Set rcond=None in all calls to numpy.linalg.lstsq to remove a
      FutureWarning
    * Add a lower bound to activations in
      pyroomacoustics.bss.auxiva to avoid underflow and divide by
      zero.
    * Fixed a memory leak in the C engine for polyhedral room
      (issue #116).
    * Fixed problem caused by dependency of setup.py on Cython
      (Issue #117)
    * Expose mu parameter for adaptive.subband_lms.SubbandLMS.
    * Add SSL context to download_uncompress and unit test; error
      for Python 2.7.
    * Added "precision" parameter to "stft" class to choose between
      'single' (float32/complex64) or 'double' (float64/complex128)
      for processing precision.
    * Unified unit test file for frequency-domain souce separation
      methods.
    * New algorithm for blind source separation (BSS): Sparse
      Independent Vector Analysis (SparseAuxIVA).
    * Few README improvements
    * Remove np.squeeze in STFT as it caused errors when an axis
      that shouldn't be squeezed was equal to 1.
    * Beamformer.process was using old (non-existent) STFT
      function. Changed to using one-shot function from transform
      module.
    * Fixed a bug in utilities.fractional_delay_filter_bank that
      would cause the function to crash on some inputs (issue #87).
    * Adds several options to pyroomacoustics.room.Room.simulate to
      finely control the SNR of the microphone signals and also
      return the microphone signals with individual sources, prior
      to mix (useful for BSS evaluation)
    * Add subspace denoising approach in
      pyroomacoustics.denoise.subspace.
    * Add iterative Wiener filtering approach for single channel
      denoising in pyroomacoustics.denoise.iterative_wiener.
    * Add build instructions for python 3.7 and wheels for Mac OS X
      in the continuous integration (Travis and Appveyor)
    * Limits imports of matplotlib to within plotting functions so
      that the matplotlib backend can still be changed, even after
      importing pyroomacoustics
    * Better Vectorization of the computations in
      pyroomacoustics.bss.auxiva
    * Corrects a bug that causes different behavior whether sources
      are provided to the constructor of Room or to the add_source
      method
    * Corrects a typo in pyroomacoustics.SoundSource.add_signal
    * Corrects a bug in the update of the demixing matrix in
      pyroomacoustics.bss.auxiva
    * Corrects invalid memory access in the
      pyroomacoustics.build_rir cython accelerator and adds a unit
      test that checks the cython code output is correct
    * Fix bad handling of 1D b vectors in
      `pyroomacoustics.levinson.
    * STFT tutorial and demo notebook.
    * New algorithm for blind source separation (BSS): Independent
      Low-Rank Matrix Analysis (ILRMA)
    * Matplotlib is not a hard requirement anymore. When matplotlib
      is not installed, only a warning is issued on plotting
      commands. This is useful to run pyroomacoustics on headless
      servers that might not have matplotlib installed
    * Removed dependencies on joblib and requests packages
    * Apply matplotlib.pyplot.tight_layout in
      pyroomacoustics.Room.plot_rir
    * Monaural signals are now properly handled in one-shot
      stft/istft
    * Corrected check of size of absorption coefficients list in
      Room.from_corners
    * Added noise reduction sub-package denoise with spectral
      subtraction class and example.
    * Renamed realtime to transform and added deprecation warning.
    * Added a cython function to efficiently compute the fractional
      delays in the room impulse response from time delays and
      attenuations
    * notebooks folder.
    * Demo IPython notebook (with WAV files) of several features of
      the package.
    * Wrapper for Google's Speech Command Dataset and an example
      usage script in examples.
    * Lots of new features in the pyroomacoustics.realtime
      subpackage The STFT class can now be used both for frame-by-
      frame processing or for bulk processing The functionality
      will replace the methods pyroomacoustics.stft,
      pyroomacoustics.istft, pyroomacoustics.overlap_add, etc, The
      new function
      pyroomacoustics.realtime.compute_synthesis_window computes
      the optimal synthesis window given an analysis window and the
      frame shift Extensive tests for the pyroomacoustics.realtime
      module Convenience functions
      pyroomacoustics.realtime.analysis and
      pyroomacoustics.realtime.synthesis with an interface similar
      to pyroomacoustics.stft and pyroomacoustics.istft (which are
      now deprecated and will disappear soon) The ordering of axis
      in the output from bulk STFT is now (n_frames, n_frequencies,
      n_channels) Support for Intel's mkl_fft package axis (along
      which to perform DFT) and bits parameters for DFT class.
    * The STFT class can now be used both for frame-by-frame
      processing or for bulk processing
    * The functionality will replace the methods
      pyroomacoustics.stft, pyroomacoustics.istft,
      pyroomacoustics.overlap_add, etc,
    * The new function
      pyroomacoustics.realtime.compute_synthesis_window computes
      the optimal synthesis window given an analysis window and the
      frame shift
    * Extensive tests for the pyroomacoustics.realtime module
    * Convenience functions pyroomacoustics.realtime.analysis and
      pyroomacoustics.realtime.synthesis with an interface similar
      to pyroomacoustics.stft and pyroomacoustics.istft (which are
      now deprecated and will disappear soon)
    * The ordering of axis in the output from bulk STFT is now
      (n_frames, n_frequencies, n_channels)
    * Support for Intel's mkl_fft package
    * axis (along which to perform DFT) and bits parameters for DFT
      class.
    * Improved documentation and docstrings
    * Using now the built-in RIR generator in
      examples/doa_algorithms.py
    * Improved the download/uncompress function for large datasets
    * Dusted the code for plotting on the sphere in
      pyroomacoustics.doa.grid.GridSphere
    * The methods pyroomacoustics.stft, pyroomacoustics.istft,
      pyroomacoustics.overlap_add, etc, are now deprecated and will
      be removed in the near future
    * Added AuxIVA (independent vector analysis) to bss subpackage.
    * Added BSS IVA example
    * Moved Trinicon blind source separation algorithm to bss
      subpackage.
    * Correct a bug that causes 1st order sources to be generated
      for max_order==0 in pure python code
    * Fixed issue #22 on github. Added INCREF before returning
      Py_None in C extension.
    * Base classes for Dataset and Sample in
      pyroomacoustics.datasets
    * Methods to filter datasets according to the metadata of
      samples
    * Deprecation warning for the TimitCorpus interface
    * Add list of speakers and sentences from CMU ARCTIC
    * CMUArcticDatabase basedir is now the top directory where
      CMU_ARCTIC database should be saved. Not the directory above
      as it previously was.
    * Libroom C extension is now a proper package. It can be
      imported.
    * Libroom C extension now compiles on windows with python>=3.5.
    * Added pyroomacoustics.datasets to list of sub-packages in
      setup.py
    * Changelog
    * CMU ARCTIC corpus wrapper in pyroomacoustics.datasets
    * Moved TIMIT corpus wrapper from pyroomacoustics.recognition
      module to sub-package pyroomacoustics.datasets.timit
* Mon Feb 06 2023 Daniel Garcia <[email protected]>
  - Update to version 0.7.3
    * Fixes issue #293 due to the C++ method Room::next_wall_hit not handling 2D
      shoebox rooms, which cause a seg fault
  - 0.7.2 - 2022-11-15
    * Appveyor builds for compiled wheels for win32/win64 x86
    * Fixes missing import statement in room.plot for 3D rooms (PR #286)
    * On win64, bss.fastmnmf would fail due to some singular matrix. 1) protect
      solve with try/except and switch to pseudo-inverse if necessary, 2) change
      eps 1e-7 -> 1e-6
  - 0.7.1 - 2022-11-11
    * Fixed pypi upload for windows wheels
  - 0.7.0 - 2022-11-10
    * Added the AnechoicRoom class.
    * Added FastMNMF2 (Fast Multichannel Nonnegative Matrix Factorization 2) to
      bss subpackage.
    * Randomized image source method for removing sweeping echoes in shoebox
      rooms.
    * Adds the cart2spher method in pyroomacoustics.doa.utils to convert from
      cartesian to spherical coordinates.
    * Example room_complex_wall_materials.py
    * CI for python 3.10
    * Cleans up the plot_rir function in Room so that the labels are neater. It
      also adds an extra option kind that can take values "ir", "tf", or "spec"
      to plot the impulse responses, transfer functions, or spectrograms of the
      RIR.
    * Refactored the implementation of FastMNMF.
    * Modified the document of __init__.py in doa subpackage.
    * End of Python 3.6 support.
    * Removed the deprecated realtime sub-module.
    * Removed the deprecated functions pyroomacoustics.transform.analysis,
      pyroomacoustics.transform.synthesis,
      pyroomacoustics.transform.compute_synthesis_window. They are replaced by
      the equivalent functions in pyroomacoustics.transform.stft sub-module.
    * The minimum required version of numpy was changed to 1.13.0 (use of
      np.linalg.multi_dot in doa sub-package see #271)
    * Fixed most warnings in the tests
    * Fixed bug in examples/adaptive_filter_stft_domain.py
  - 0.6.0 - 2021-11-29
    * New DOA method: MUSIC with pseudo-spectra normalization. Thanks @4bian!
      Normalizes MUSIC pseudo spectra before averaging across frequency axis.
    * Issue 235: fails when set_ray_tracing is called, but no mic_array is set
    * Issue 236: general ISM produces the wrong transmission coefficients
    * Removes an unncessery warning for some rooms when ray tracing is not needed
    * Unify code format by using Black
    * Add code linting in continuous integration
    * Drop CI support for python 3.5
  - 0.5.0 - 2021-09-06
    * Adds tracking of reflection order with respect to x/y/z axis in the shoebox
      image source model engine. The orders are available in source.orders_xyz
      after running the image source model
    * Support for microphone and source directivites for image source model.
      Source directivities just for shoebox room. Available directivities are
      frequency-independent (cardioid patterns), although the infrastructure is
      there for frequency-dependent directivities: frequency-dependent usage in
      Room.compute_rir and abstract Directivity class.
    * Examples scripts and notebook for directivities.
    * Fix wrong bracketing for negative values in is_inside (ShoeBox)
  - 0.4.3 - 2021-02-18
    * Support for Python 3.8 and 3.9
    * Fixes typo in a docstring
    * Update docs to better reflect actual function parameters
    * Fixes the computation of the cost function of SRP-PHAT doa algorithm (bug
      reported in #PR197)
    * Improve the computation of the auxiliary variables in AuxIVA and ILRMA.
      Unnecessary division operations are reduced.
* Fri Feb 12 2021 Ben Greiner <[email protected]>
  - Update to version 0.4.2
    * Change the eps for geometry computations from 1e-4 to 1e-5 in
      ``libroom``
    * Added a specialized ``is_inside`` routine for ``ShoeBox`` rooms
  - Changes in 0.4.1
    * Issue #162 (crash with max_order>31 on windows), seems fixed by
      the new C++ simulator
    * Added minimal `Dockerfile` example.
  - Changes in 0.4.0
    * Improved Simulator with Ray Tracing
    - Ray Tracing in the libroom module. The function compute_rir()
      of the Room object in python can now be executed using a pure
      ray tracing approach or a hybrid (ISM + RT) approach. That's
      why this function has now several default arguments to
      run ray tracing (number of rays, scattering coefficient,
      energy and time thresholds, microphone's radius).
    - Bandpass filterbank construction in ``pyroomacoustics.
      acoustics.bandpass_filterbank``
    - Acoustic properties of different materials in
      ``pyroomacoustics.materials``
    - Scattering from the wall is handled via ray tracing method,
      scattering coefficients are provided
      in ``pyroomacoustics.materials.Material`` objects
    - Function ``inverse_sabine`` allows to compute the
      ``absorption`` and ``max_order`` to use with
      the image source model to achieve a given reverberation time
    - The method ``rt60_theory`` in ``pyroomacoustics.room.Room``
      allows to compute the theoretical
      RT60 of the room according to Eyring or Sabine formula
    - The method ``measure_rt60`` in ``pyroomacoustics.room.Room``
      allows to measure the RT60 of the simulated RIRs
    * Changes in the Room Class
    - Deep refactor of Room class. The constructor arguments have
      changed
    - No more ``sigma2_awgn``, noise is now handled in
      ``pyroomacoustics.Room.simulate`` method
    - The way absorption is handled has changed. The scalar
      variables ``absorption`` are deprecated in favor of
      ``pyroomacoustics.materials.Material``
    - Complete refactor of libroom, the compiled extension module
      responsible for the room simulation, into C++. The bindings
      to python are now done using pybind11.
    - Removes the pure Python room simulator as it was really slow
    - ``pyroomacoustics.transform.analysis``, ``pyroomacoustics.
      transform.synthesis``, ``pyroomacoustics.transform.
      compute_synthesis_window``, have been deprecated in favor of
      ``pyroomacoustics.transform.stft.analysis``,
      ``pyroomacoustics.transform.stft.synthesis``,
      ``pyroomacoustics.transform.stft.compute_synthesis_window``.
    - ``pyroomacoustics.Room`` has a new method ``add`` that can be
      used to add either a ``SoundSource``, or a
      ``MicrophoneArray`` object.  Subsequent calls to the method
      will always add source/microphones. There exists also methods
      ``add_source`` and ``add_microphone`` that can be used to add
      source/microphone via coordinates. The method
      `add_microphone_array`` can be used to add a
      ``MicrophoneArray`` object, or a 2D array containing the
      locations of several microphones in its columns.  While the
      ``add_microphone_array`` method used to replace the existing
      array by the argument, the new behavior is to add in addition
      to other microphones already present.
    * From Issue #150, increase max iterations to check if point is
      inside room
    * Fixed normalization part in FastMNMF
    * Added `room_isinside_max_iter` in `parameters.py`
    * Default set to 20 rather than 5 as it was in `pyroomacoustics.
      room.Room.isinside`
    * Changed while loop to iterate up to `room_isinside_max_iter` in
      `pyroomacoustics.room.Room.isinside`
    * Changed initialization of FastMNMF to accelerate convergence
    * Fixed bug in doa/tops (float -> integer division)
    * Added vectorised functions in MUSIC
    * Use the vectorised functions in _process of MUSIC
  - Skip python36 build, because NumPy in TW dropped it (NEP 29)
  - Use system eigen3 headers
  - Clean test rig setup
    * Only test on x86_64: All other platforms fail because of
      rounding errors vs. too tight precision requirements in tests.
* Thu Jul 02 2020 [email protected]
  - switch from nose to pytest
* Tue Jan 08 2019 Todd R <[email protected]>
  - initial version

Files

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Fabrice Bellet, Mon Dec 2 23:55:10 2024