other pyAgrum.lib modules¶
bn2roc¶
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pyAgrum.lib.bn2roc.
module_help
(exit_value=1, message='') defines help viewed if args are not OK on command line, and exit with exit_value
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pyAgrum.lib.bn2roc.
showPR
(bn, csv_name, target, label, show_progress=True, show_fig=True, save_fig=False, with_labels=True, significant_digits=10) Compute the ROC curve and save the result in the folder of the csv file.
Parameters: - bn (pyAgrum.BayesNet) – a Bayesian network
- csv_name (str) – a csv filename
- target (str) – the target
- label (str) – the target label
- show_progress (bool) – indicates if the progress bar must be printed
- save_fig – save the result ?
- show_fig – plot the resuls ?
- with_labels – labels in csv ?
- significant_digits – number of significant digits when computing probabilities
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pyAgrum.lib.bn2roc.
showROC
(bn, csv_name, target, label, show_progress=True, show_fig=False, save_fig=False, with_labels=True, significant_digits=10) Compute the ROC curve and save the result in the folder of the csv file.
Parameters: - bn (pyAgrum.BayesNet) – a Bayesian network
- csv_name (str) – a csv filename
- target (str) – the target
- label (str) – the target label
- show_progress (bool) – indicates if the progress bar must be printed
- save_fig – save the result ?
- show_fig – plot the resuls ?
- with_labels – labels in csv ?
- significant_digits – number of significant digits when computing probabilities
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pyAgrum.lib.bn2roc.
showROC_PR
(bn, csv_name, target, label, show_progress=True, show_fig=True, save_fig=False, with_labels=True, showROC=True, showPR=True, significant_digits=10) Compute the ROC curve and save the result in the folder of the csv file.
Parameters: - bn (pyAgrum.BayesNet) – a Bayesian network
- csv_name (str) – a csv filename
- target (str) – the target
- label (str) – the target label
- show_progress (bool) – indicates if the progress bar must be printed
- save_fig – save the result ?
- show_fig – plot the resuls ?
- with_labels – labels in csv ?
- significant_digits – number of significant digits when computing probabilitie
Returns: (pointsROC, seuilROC, pointsPR, seuilPR)
Return type: tuple
bn2scores¶
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pyAgrum.lib.bn2scores.
checkCompatibility
(bn, fields, csv_name) check if variables of the bn are in the fields
if not : return None if compatibilty : return a list of position for variables in fields
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pyAgrum.lib.bn2scores.
computeScores
(bn_name, csv_name, visible=False, transforme_label=None)
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pyAgrum.lib.bn2scores.
getNumLabel
(inst, i, label, transforme_label)
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pyAgrum.lib.bn2scores.
lines_count
(filename) count lines in a file
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pyAgrum.lib.bn2scores.
module_help
(exit_value=1) defines help viewed if args are not OK on command line, and exit with exit_value
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pyAgrum.lib.bn2scores.
stringify
(s)
bn_vs_bn¶
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class
pyAgrum.lib.bn_vs_bn.
GraphicalBNComparator
(name1, name2, delta=1e-06) Bases:
object
BNGraphicalComparator allows to compare in multiple way 2 BNs…The smallest assumption is that the names of the variables are the same in the 2 BNs. But some comparisons will have also to check the type and domainSize of the variables. The bns have not exactly the same role : _bn1 is rather the referent model for the comparison whereas _bn2 is the compared one to the referent model
Parameters: - name1 (str or pyAgrum.BayesNet) – a BN or a filename for reference
- name2 (str or pyAgrum.BayesNet) – another BN or antoher filename for comparison
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dotDiff
() Return a pydotplus graph that compares the arcs of _bn1 (reference) with those of self._bn2. full black line: the arc is common for both full red line: the arc is common but inverted in _bn2 dotted black line: the arc is added in _bn2 dotted red line: the arc is removed in _bn2
Warning
if pydotplus is not installed, this function just returns None
Returns: the result dot graph or None if pydotplus can not be imported Return type: pydotplus.Dot
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equivalentBNs
() Check if the 2 BNs are equivalent :
- same variables
- same graphical structure
- same parmaeters
Returns: “OK” if bn are the same, a description of the error otherwise Return type: str
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hamming
() Compute hamming and structural hamming distance
Hamming distance is the difference of edges comparing the 2 skeletons, and Structural Hamming difference is the difference comparing the cpdags, including the arcs’ orientation.
Returns: A dictionnary containing ‘hamming’,’structural hamming’ Return type: dict[double,double]
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scores
() Compute Precision, Recall, F-score for self._bn2 compared to self._bn1
precision and recall are computed considering BN1 as the reference
Fscor is 2*(recall* precision)/(recall+precision) and is the weighted average of Precision and Recall.
dist2opt=square root of (1-precision)^2+(1-recall)^2 and represents the euclidian distance to the ideal point (precision=1, recall=1)
Returns: A dictionnary containing ‘precision’, ‘recall’, ‘fscore’, ‘dist2opt’ and so on. Return type: dict[str,double]
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skeletonScores
() Compute Precision, Recall, F-score for skeletons of self._bn2 compared to self._bn1
precision and recall are computed considering BN1 as the reference
Fscor is 2*(recall* precision)/(recall+precision) and is the weighted average of Precision and Recall.
dist2opt=square root of (1-precision)^2+(1-recall)^2 and represents the euclidian distance to the ideal point (precision=1, recall=1)
Returns: A dictionnary containing ‘precision’, ‘recall’, ‘fscore’, ‘dist2opt’ and so on. Return type: dict[str,double]
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pyAgrum.lib.bn_vs_bn.
module_help
(exit_value=1) defines help viewed if args are not OK on command line, and exit with exit_value