torcheval.metrics.functional.multiclass_precision¶
-
torcheval.metrics.functional.
multiclass_precision
(input: Tensor, target: Tensor, *, num_classes: Optional[int] = None, average: Optional[str] = 'micro') Tensor [source]¶ Compute precision score, which is the ratio of the true positives (TP) and the total number of points classified as positives (TP + FP). Its class version is
torcheval.metrics.MultiClassPrecision
. See alsobinary_precision
Parameters: - input (Tensor) – Tensor of label predictions
It could be the predicted labels, with shape of (n_sample, ).
It could also be probabilities or logits with shape of (n_sample, n_class).
torch.argmax
will be used to convert input into predicted labels. - target (Tensor) – Tensor of ground truth labels with shape of (n_sample, ).
- num_classes – Number of classes.
- average –
'micro'
[default]:- Calculate the metrics globally, by using the total true positives and false positives across all classes.
'macro'
:- Calculate metrics for each class separately, and return their unweighted mean. Classes with 0 true instances and predicted instances are ignored.
'weighted'
:- Calculate metrics for each class separately, and return their average weighted
by the number of instances for each class in the
target
tensor. Classes with 0 true instances and predicted instances are ignored.
None
:- Calculate the metric for each class separately, and return
the metric for every class.
NaN is returned if a class has no sample in
target
.
Examples:
>>> import torch >>> from torcheval.metrics.functional import multiclass_precision >>> input = torch.tensor([0, 2, 1, 3]) >>> target = torch.tensor([0, 1, 2, 3]) >>> multiclass_precision(input, target) tensor(0.5) >>> multiclass_precision(input, target, average=None, num_classes=4) tensor([1., 0., 0., 1.]) >>> multiclass_precision(input, target, average="macro", num_classes=4) tensor(0.5) >>> input = torch.tensor([[0.9, 0.1, 0, 0], [0.1, 0.2, 0.4, 0,3], [0, 1.0, 0, 0], [0, 0, 0.2, 0.8]]) >>> multiclass_precision(input, target) tensor(0.5)
- input (Tensor) – Tensor of label predictions
It could be the predicted labels, with shape of (n_sample, ).
It could also be probabilities or logits with shape of (n_sample, n_class).