yardstick
is a package to estimate how well models are working using
tidy data principles.
See the package webpage for more
information.
To install the package:
install.packages("yardstick")
# Development version:
devtools::install_github("tidymodels/yardstick")
For example, suppose you create a classification model and predict on a new data set. You might have data that looks like this:
library(yardstick)
library(dplyr)
head(two_class_example)
#> truth Class1 Class2 predicted
#> 1 Class2 0.00359 0.996411 Class2
#> 2 Class1 0.67862 0.321379 Class1
#> 3 Class2 0.11089 0.889106 Class2
#> 4 Class1 0.73516 0.264838 Class1
#> 5 Class2 0.01624 0.983760 Class2
#> 6 Class1 0.99928 0.000725 Class1
You can use a dplyr
-like syntax to compute common performance
characteristics of the model and get them back in a data frame:
metrics(two_class_example, truth, predicted)
#> # A tibble: 2 x 3
#> .metric .estimator .estimate
#> <chr> <chr> <dbl>
#> 1 accuracy binary 0.838
#> 2 kap binary 0.675
# or
two_class_example %>%
roc_auc(truth, Class1)
#> # A tibble: 1 x 3
#> .metric .estimator .estimate
#> <chr> <chr> <dbl>
#> 1 roc_auc binary 0.939
All classification metrics have at least one multiclass extension, with many of them having multiple ways to calculate multiclass metrics.
data("hpc_cv")
hpc_cv <- as_tibble(hpc_cv)
hpc_cv
#> # A tibble: 3,467 x 7
#> obs pred VF F M L Resample
#> <fct> <fct> <dbl> <dbl> <dbl> <dbl> <chr>
#> 1 VF VF 0.914 0.0779 0.00848 0.0000199 Fold01
#> 2 VF VF 0.938 0.0571 0.00482 0.0000101 Fold01
#> 3 VF VF 0.947 0.0495 0.00316 0.00000500 Fold01
#> 4 VF VF 0.929 0.0653 0.00579 0.0000156 Fold01
#> 5 VF VF 0.942 0.0543 0.00381 0.00000729 Fold01
#> 6 VF VF 0.951 0.0462 0.00272 0.00000384 Fold01
#> 7 VF VF 0.914 0.0782 0.00767 0.0000354 Fold01
#> 8 VF VF 0.918 0.0744 0.00726 0.0000157 Fold01
#> 9 VF VF 0.843 0.128 0.0296 0.000192 Fold01
#> 10 VF VF 0.920 0.0728 0.00703 0.0000147 Fold01
#> # … with 3,457 more rows
# Macro averaged multiclass precision
precision(hpc_cv, obs, pred)
#> # A tibble: 1 x 3
#> .metric .estimator .estimate
#> <chr> <chr> <dbl>
#> 1 precision macro 0.631
# Micro averaged multiclass precision
precision(hpc_cv, obs, pred, estimator = "micro")
#> # A tibble: 1 x 3
#> .metric .estimator .estimate
#> <chr> <chr> <dbl>
#> 1 precision micro 0.709
If you have multiple resamples of a model, you can use a metric on a grouped data frame to calculate the metric across all resamples at once.
This calculates multiclass ROC AUC using the method described in Hand, Till (2001), and does it across all 10 resamples at once.
hpc_cv %>%
group_by(Resample) %>%
roc_auc(obs, VF:L)
#> # A tibble: 10 x 4
#> Resample .metric .estimator .estimate
#> <chr> <chr> <chr> <dbl>
#> 1 Fold01 roc_auc hand_till 0.813
#> 2 Fold02 roc_auc hand_till 0.817
#> 3 Fold03 roc_auc hand_till 0.869
#> 4 Fold04 roc_auc hand_till 0.849
#> 5 Fold05 roc_auc hand_till 0.811
#> 6 Fold06 roc_auc hand_till 0.836
#> 7 Fold07 roc_auc hand_till 0.825
#> 8 Fold08 roc_auc hand_till 0.846
#> 9 Fold09 roc_auc hand_till 0.828
#> 10 Fold10 roc_auc hand_till 0.812
Curve based methods such as roc_curve()
, pr_curve()
and
gain_curve()
all have ggplot2::autoplot()
methods that allow for
powerful and easy visualization.
library(ggplot2)
hpc_cv %>%
group_by(Resample) %>%
roc_curve(obs, VF:L) %>%
autoplot()
Quasiquotation can also be used to supply inputs.
# probability columns:
lvl <- levels(two_class_example$truth)
two_class_example %>%
mn_log_loss(truth, !! lvl[1])
#> # A tibble: 1 x 3
#> .metric .estimator .estimate
#> <chr> <chr> <dbl>
#> 1 mn_log_loss binary 0.328
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