forked from moreo/QuaPy
133 lines
8.4 KiB
Plaintext
133 lines
8.4 KiB
Plaintext
Change Log 0.1.8
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- Added Kernel Density Estimation methods (KDEyML, KDEyCS, KDEyHD) as proposed in the paper:
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Moreo, A., González, P., & del Coz, J. J. Kernel Density Estimation for Multiclass Quantification.
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arXiv preprint arXiv:2401.00490, 2024
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- Substantial internal refactor: aggregative methods now inherit a pattern by which the fit method consists of:
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a) fitting the classifier and returning the representations of the training instances (typically the posterior
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probabilities, the label predictions, or the classifier scores, and typically obtained through kFCV).
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b) fitting an aggregation function
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The function implemented in step a) is inherited from the super class. Each new aggregative method now has to
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implement only the "aggregative_fit" of step b).
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This pattern was already implemented for the prediction (thus allowing evaluation functions to be performed
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very quicky), and is now available also for training. The main benefit is that model selection now can nestle
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the training of quantifiers in two levels: one for the classifier, and another for the aggregation function.
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As a result, a method with a param grid of 10 combinations for the classifier and 10 combinations for the
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quantifier, now implies 10 trainings of the classifier + 10*10 trainings of the aggregation function (this is
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typically much faster than the classifier training), whereas in versions <0.1.8 this amounted to training
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10*10 (classifiers+aggregations).
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- Added different solvers for ACC and PACC quantifiers. In quapy < 0.1.8 these quantifiers try to solve the system
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of equations Ax=B exactly (by means of np.linalg.solve). As noted by Mirko Bunse (thanks!), such an exact solution
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does sometimes not exist. In cases like this, quapy < 0.1.8 resorted to CC for providing a plausible solution.
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ACC and PACC now resorts to an approximated solution in such cases (minimizing the L2-norm of the difference
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between Ax-B) as proposed by Mirko Bunse. A quick experiment reveals this heuristic greatly improves the results
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of ACC and PACC in T2A@LeQua.
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- Fixed ThresholdOptimization methods (X, T50, MAX, MS and MS2). Thanks to Tobias Schumacher and colleagues for pointing
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this out in Appendix A of "Schumacher, T., Strohmaier, M., & Lemmerich, F. (2021). A comparative evaluation of
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quantification methods. arXiv:2103.03223v3 [cs.LG]"
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- Added HDx and DistributionMatchingX to non-aggregative quantifiers (see also the new example "comparing_HDy_HDx.py")
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- New UCI multiclass datasets added (thanks to Pablo González). The 5 UCI multiclass datasets are those corresponding
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to the following criteria:
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- >1000 instances
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- >2 classes
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- classification datasets
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- Python API available
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- New IFCB (plankton) dataset added (thanks to Pablo González). See qp.datasets.fetch_IFCB.
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- Added new evaluation measures NAE, NRAE (thanks to Andrea Esuli)
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- Added new meta method "MedianEstimator"; an ensemble of binary base quantifiers that receives as input a dictionary
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of hyperparameters that will explore exhaustively, fitting and generating predictions for each combination of
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hyperparameters, and that returns, as the prevalence estimates, the median across all predictions.
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- Added "custom_protocol.py" example.
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- New API documentation template.
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Change Log 0.1.7
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----------------
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- Protocols are now abstracted as instances of AbstractProtocol. There is a new class extending AbstractProtocol called
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AbstractStochasticSeededProtocol, which implements a seeding policy to allow replicate the series of samplings.
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There are some examples of protocols, APP, NPP, UPP, DomainMixer (experimental).
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The idea is to start the sample generation by simply calling the __call__ method.
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This change has a great impact in the framework, since many functions in qp.evaluation, qp.model_selection,
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and sampling functions in LabelledCollection relied of the old functions. E.g., the functionality of
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qp.evaluation.artificial_prevalence_report or qp.evaluation.natural_prevalence_report is now obtained by means of
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qp.evaluation.report which takes a protocol as an argument. I have not maintained compatibility with the old
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interfaces because I did not really like them. Check the wiki guide and the examples for more details.
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- Exploration of hyperparameters in Model selection can now be run in parallel (there was a n_jobs argument in
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QuaPy 0.1.6 but only the evaluation part for one specific hyperparameter was run in parallel).
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- The prediction function has been refactored, so it applies the optimization for aggregative quantifiers (that
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consists in pre-classifying all instances, and then only invoking aggregate on the samples) only in cases in
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which the total number of classifications would be smaller than the number of classifications with the standard
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procedure. The user can now specify "force", "auto", True of False, in order to actively decide for applying it
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or not.
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- examples directory created!
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- DyS, Topsoe distance and binary search (thanks to Pablo González)
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- Multi-thread reproducibility via seeding (thanks to Pablo González)
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- n_jobs is now taken from the environment if set to None
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- ACC, PACC, Forman's threshold variants have been parallelized.
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- cross_val_predict (for quantification) added to model_selection: would be nice to allow the user specifies a
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test protocol maybe, or None for bypassing it?
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- Bugfix: adding two labelled collections (with +) now checks for consistency in the classes
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- newer versions of numpy raise a warning when accessing types (e.g., np.float). I have replaced all such instances
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with the plain python type (e.g., float).
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- new dependency "abstention" (to add to the project requirements and setup). Calibration methods from
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https://github.com/kundajelab/abstention added.
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- the internal classifier of aggregative methods is now called "classifier" instead of "learner"
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- when optimizing the hyperparameters of an aggregative quantifier, the classifier's specific hyperparameters
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should be marked with a "classifier__" prefix (just like in scikit-learn with estimators), while the quantifier's
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specific hyperparameters are named directly. For example, PCC(LogisticRegression()) quantifier has hyperparameters
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"classifier__C", "classifier__class_weight", etc., instead of "C" and "class_weight" as in v0.1.6.
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- hyperparameters yielding to inconsistent runs raise a ValueError exception, while hyperparameter combinations
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yielding to internal errors of surrogate functions are reported and skipped, without stopping the grid search.
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- DistributionMatching methods added. This is a general framework for distribution matching methods that catters for
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multiclass quantification. That is to say, one could get a multiclass variant of the (originally binary) HDy
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method aligned with the Firat's formulation.
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- internal method properties "binary", "aggregative", and "probabilistic" have been removed; these conditions are
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checked via isinstance
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- quantifiers (i.e., classes that inherit from BaseQuantifier) are not forced to implement classes_ or n_classes;
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these can be used anyway internally, but the framework will not suppose (nor impose) that a quantifier implements
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them
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- qp.evaluation.prediction has been optimized so that, if a quantifier is of type aggregative, and if the evaluation
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protocol is of type OnLabelledCollection, then the computation is faster. In this specific case, the predictions
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are issued only once and for all, and not for each sample. An exception to this (which is implement also), is
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when the number of instances across all samples is anyway smaller than the number of instances in the original
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labelled collection; in this case the heuristic is of no help, and is therefore not applied.
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- the distinction between "classify" and "posterior_probabilities" has been removed in Aggregative quantifiers,
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so that probabilistic classifiers return posterior probabilities, while non-probabilistic quantifiers
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return crisp decisions.
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- OneVsAll fixed. There are now two classes: a generic one OneVsAllGeneric that works with any quantifier (e.g.,
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any instance of BaseQuantifier), and a subclass of it called OneVsAllAggregative which implements the
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classify / aggregate interface. Both are instances of OneVsAll. There is a method getOneVsAll that returns the
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best instance based on the type of quantifier.
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