Library
Module
Module type
Parameter
Class
Class type
module SL : SCORE_LABEL
val rank_order_by_score_a : SL.t array -> unit
in-place sort of score labels; putting high scores first
val cumulated_actives_curve : SL.t list -> int list
cumulated actives curve given an already sorted list of score labels
val roc_curve : SL.t list -> (float * float) list
ROC curve (list of (FPR,TPR) values) corresponding to those score labels
val fast_roc_curve_a : SL.t array -> (float * float) array
same as roc_curve
but for an already sorted array of score-labels
val pr_curve : SL.t list -> (float * float) list
Precision Recall curve (list of (recall,precision) pairs) corresponding to given score labels
val fast_auc : SL.t list -> float
compute Area Under the ROC curve given an already sorted list of score labels
val auc : SL.t list -> float
ROC AUC: Area Under the ROC curve given an unsorted list of score labels
val pr_auc : SL.t list -> float
PR AUC: Area Under the Precision-Recall curve given an unsorted list of score labels
val auc_a : SL.t array -> float
Area Under the ROC curve given an unsorted array of score labels; WARNING: array will be modified (sorted)
val fast_auc_a : SL.t array -> float
Area Under the ROC curve given an already sorted array of score labels
val enrichment_factor : float -> SL.t list -> float
(early) enrichment factor at given threshold (database percentage) given an unsorted list of score labels
val fast_enrichment_factor : float -> SL.t array -> float
(early) enrichment factor at given threshold (database percentage) given an already sorted array of score labels
val initial_enhancement : float -> SL.t list -> float
initial_enhancement a score_labels
will compute S = sum_over_i (exp (-rank(active_i) / a)) given an unsorted list of score labels. Robust Initial Enhancement (RIE) = S/<S> where <S> is the average S for randomly ordered score labels. RIE = 1.0 <=> random performance. Cf. DOI:10.1021/ci0100144 for details.
val fast_initial_enhancement : float -> SL.t list -> float
same as initial_enhancement
but does not reorder the list of score_labels
val power_metric : float -> SL.t list -> float
power metric at given threshold given an unsorted list of score labels
val fast_power_metric_a : float -> SL.t array -> float
power metric at given threshold for an already decr. sorted list of score labels
val bedroc_auc : ?alpha:float -> SL.t list -> float
bedroc_auc at given alpha. Default alpha = 20.0.
val bedroc_auc_a : ?alpha:float -> ?sorted:bool -> SL.t array -> float
bedroc_auc at given alpha for an array of score-labels. Default alpha = 20.0. WARNING: the array will be modified (sorted by decrasing scores) if sorted = false
which is the default.
val fast_bedroc_auc_a : ?alpha:float -> SL.t array -> float
equivalent to bedroc_auc_a ~alpha ~sorted:true arr
.
val mcc : float -> SL.t list -> float
Matthews' Correlation Coefficient (MCC) use: mcc classif_threshold score_labels
. scores >= threshold are predicted as targets; scores < threshold are predicted as non targets.
val platt_scaling : ?debug:bool -> SL.t list -> float * float
a, b = platt_scaling ~debug score_labels
Fit a logistic curve (1 / (1 + exp (ax + b))) to score_labels
and return its (a, b)
parameters. Gnuplot it used underneath to do the fitting. Biblio: Platt, J. (1999). Probabilistic outputs for support vector machines and comparisons to regularized likelihood methods. Advances in large margin classifiers, 10(3), 61-74.