comp_accu_prob: Compute exact accuracy metrics based on probabilities.
In riskyr: Rendering Risk Literacy more Transparent
comp_accu_prob R Documentation
Compute exact accuracy metrics based on probabilities.
Description
comp_accu_prob computes a list of exact accuracy metrics
from a sufficient and valid set of 3 essential probabilities
(prev, and
sens or its complement mirt, and
spec or its complement fart).
Usage
comp_accu_prob(
prev = prob$prev,
sens = prob$sens,
mirt = NA,
spec = prob$spec,
fart = NA,
tol = 0.01,
w = 0.5
)
Arguments
prev
The condition's prevalence prev
(i.e., the probability of condition being TRUE).
sens
The decision's sensitivity sens
(i.e., the conditional probability of a positive decision
provided that the condition is TRUE).
sens is optional when its complement mirt is provided.
mirt
The decision's miss rate mirt
(i.e., the conditional probability of a negative decision
provided that the condition is TRUE).
mirt is optional when its complement sens is provided.
spec
The decision's specificity value spec
(i.e., the conditional probability
of a negative decision provided that the condition is FALSE).
spec is optional when its complement fart is provided.
fart
The decision's false alarm rate fart
(i.e., the conditional probability
of a positive decision provided that the condition is FALSE).
fart is optional when its complement spec is provided.
tol
A numeric tolerance value for is_complement.
Default: tol = .01.
w
The weighting parameter w (from 0 to 1)
for computing weighted accuracy wacc.
Default: w = .50 (i.e., yielding balanced accuracy bacc).
Notes:
Accuracy metrics describe the correspondence of decisions (or predictions) to actual conditions (or truth).
There are several possible interpretations of accuracy:
as probabilities (i.e., acc being the proportion of correct classifications,
or the ratio dec_cor/N),
as frequencies (e.g., as classifying a population of N
individuals into cases of dec_cor vs. dec_err),
as correlations (e.g., see mcc in accu).
Computing exact accuracy values based on probabilities (by comp_accu_prob) may differ from
accuracy values computed from (possibly rounded) frequencies (by comp_accu_freq).
When frequencies are rounded to integers (see the default of round = TRUE
in comp_freq and comp_freq_prob) the accuracy metrics computed by
comp_accu_freq correspond to these rounded values.
Use comp_accu_prob to obtain exact accuracy metrics from probabilities.
Details
Currently computed accuracy metrics include:
-
acc: Overall accuracy as the proportion (or probability)
of correctly classifying cases or of dec_cor cases:
(a) from prob: acc = (prev x sens) + [(1 - prev) x spec]
(b) from freq: acc = dec_cor/N = (hi + cr)/(hi + mi + fa + cr)
When frequencies in freq are not rounded, (b) coincides with (a).
Values range from 0 (no correct prediction) to 1 (perfect prediction).
-
wacc: Weighted accuracy, as a weighted average of the
sensitivity sens (aka. hit rate HR, TPR,
power or recall)
and the the specificity spec (aka. TNR)
in which sens is multiplied by a weighting parameter w
(ranging from 0 to 1) and spec is multiplied by
w's complement (1 - w):
wacc = (w * sens) + ((1 - w) * spec)
If w = .50, wacc becomes balanced accuracy bacc.
-
mcc: The Matthews correlation coefficient (with values ranging from -1 to +1):
mcc = ((hi * cr) - (fa * mi)) / sqrt((hi + fa) * (hi + mi) * (cr + fa) * (cr + mi))
A value of mcc = 0 implies random performance; mcc = 1 implies perfect performance.
See Wikipedia: Matthews correlation coefficient
for additional information.
-
f1s: The harmonic mean of the positive predictive value PPV
(aka. precision)
and the sensitivity sens (aka. hit rate HR,
TPR, power or recall):
f1s = 2 * (PPV * sens) / (PPV + sens)
See Wikipedia: F1 score for additional information.
Note that some accuracy metrics can be interpreted
as probabilities (e.g., acc) and some as correlations (e.g., mcc).
Also, accuracy can be viewed as a probability (e.g., the ratio of or link between
dec_cor and N) or as a frequency type
(containing dec_cor and dec_err).
comp_accu_prob computes exact accuracy metrics from probabilities.
When input frequencies were rounded (see the default of round = TRUE
in comp_freq and comp_freq_prob) the accuracy
metrics computed by comp_accu correspond these rounded values.
Value
A list accu containing current accuracy metrics.
References
Consult Wikipedia: Confusion matrix
for additional information.
See Also
accu for all accuracy metrics;
comp_accu_freq computes accuracy metrics from frequencies;
num for basic numeric parameters;
freq for current frequency information;
txt for current text settings;
pal for current color settings;
popu for a table of the current population.
Other metrics:
acc,
accu,
comp_acc(),
comp_accu_freq(),
comp_err(),
err
Other functions computing probabilities:
comp_FDR(),
comp_FOR(),
comp_NPV(),
comp_PPV(),
comp_acc(),
comp_accu_freq(),
comp_comp_pair(),
comp_complement(),
comp_complete_prob_set(),
comp_err(),
comp_fart(),
comp_mirt(),
comp_ppod(),
comp_prob(),
comp_prob_freq(),
comp_sens(),
comp_spec()
Examples
comp_accu_prob() # => accuracy metrics for prob of current scenario
comp_accu_prob(prev = .2, sens = .5, spec = .5) # medium accuracy, but cr > hi.
# Extreme cases:
comp_accu_prob(prev = NaN, sens = NaN, spec = NaN) # returns list of NA values
comp_accu_prob(prev = 0, sens = NaN, spec = 1) # returns list of NA values
comp_accu_prob(prev = 0, sens = 0, spec = 1) # perfect acc = 1, but f1s is NaN
comp_accu_prob(prev = .5, sens = .5, spec = .5) # random performance
comp_accu_prob(prev = .5, sens = 1, spec = 1) # perfect accuracy
comp_accu_prob(prev = .5, sens = 0, spec = 0) # zero accuracy, but f1s is NaN
comp_accu_prob(prev = 1, sens = 1, spec = 0) # perfect, but see wacc (0.5) and mcc (0)
# Effects of w:
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 1/2) # equal weights to sens and spec
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 2/3) # more weight on sens: wacc up
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 1/3) # more weight on spec: wacc down
# Contrasting comp_accu_freq and comp_accu_prob:
# (a) comp_accu_freq (based on rounded frequencies):
freq1 <- comp_freq(N = 10, prev = 1/3, sens = 2/3, spec = 3/4) # => rounded frequencies!
accu1 <- comp_accu_freq(freq1$hi, freq1$mi, freq1$fa, freq1$cr) # => accu1 (based on rounded freq).
# accu1
# (b) comp_accu_prob (based on probabilities):
accu2 <- comp_accu_prob(prev = 1/3, sens = 2/3, spec = 3/4) # => exact accu (based on prob).
# accu2
all.equal(accu1, accu2) # => 4 differences!
#
# (c) comp_accu_freq (exact values, i.e., without rounding):
freq3 <- comp_freq(N = 10, prev = 1/3, sens = 2/3, spec = 3/4, round = FALSE)
accu3 <- comp_accu_freq(freq3$hi, freq3$mi, freq3$fa, freq3$cr) # => accu3 (based on EXACT freq).
# accu3
all.equal(accu2, accu3) # => TRUE (qed).
riskyr documentation built on Sept. 15, 2025, 9:09 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| comp_accu_prob | R Documentation |
Compute exact accuracy metrics based on probabilities.
Description
comp_accu_prob computes a list of exact accuracy metrics
from a sufficient and valid set of 3 essential probabilities
(prev, and
sens or its complement mirt, and
spec or its complement fart).
Usage
comp_accu_prob(
prev = prob$prev,
sens = prob$sens,
mirt = NA,
spec = prob$spec,
fart = NA,
tol = 0.01,
w = 0.5
)
Arguments
prev |
The condition's prevalence |
sens |
The decision's sensitivity |
mirt |
The decision's miss rate |
spec |
The decision's specificity value |
fart |
The decision's false alarm rate |
tol |
A numeric tolerance value for |
w |
The weighting parameter Notes:
|
Details
Currently computed accuracy metrics include:
-
acc: Overall accuracy as the proportion (or probability) of correctly classifying cases or ofdec_corcases:(a) from
prob:acc = (prev x sens) + [(1 - prev) x spec](b) from
freq:acc = dec_cor/N = (hi + cr)/(hi + mi + fa + cr)When frequencies in
freqare not rounded, (b) coincides with (a).Values range from 0 (no correct prediction) to 1 (perfect prediction).
-
wacc: Weighted accuracy, as a weighted average of the sensitivitysens(aka. hit rateHR,TPR,powerorrecall) and the the specificityspec(aka.TNR) in whichsensis multiplied by a weighting parameterw(ranging from 0 to 1) andspecis multiplied byw's complement(1 - w):wacc = (w * sens) + ((1 - w) * spec)If
w = .50,waccbecomes balanced accuracybacc. -
mcc: The Matthews correlation coefficient (with values ranging from -1 to +1):mcc = ((hi * cr) - (fa * mi)) / sqrt((hi + fa) * (hi + mi) * (cr + fa) * (cr + mi))A value of
mcc = 0implies random performance;mcc = 1implies perfect performance.See Wikipedia: Matthews correlation coefficient for additional information.
-
f1s: The harmonic mean of the positive predictive valuePPV(aka.precision) and the sensitivitysens(aka. hit rateHR,TPR,powerorrecall):f1s = 2 * (PPV * sens) / (PPV + sens)See Wikipedia: F1 score for additional information.
Note that some accuracy metrics can be interpreted
as probabilities (e.g., acc) and some as correlations (e.g., mcc).
Also, accuracy can be viewed as a probability (e.g., the ratio of or link between
dec_cor and N) or as a frequency type
(containing dec_cor and dec_err).
comp_accu_prob computes exact accuracy metrics from probabilities.
When input frequencies were rounded (see the default of round = TRUE
in comp_freq and comp_freq_prob) the accuracy
metrics computed by comp_accu correspond these rounded values.
Value
A list accu containing current accuracy metrics.
References
Consult Wikipedia: Confusion matrix for additional information.
See Also
accu for all accuracy metrics;
comp_accu_freq computes accuracy metrics from frequencies;
num for basic numeric parameters;
freq for current frequency information;
txt for current text settings;
pal for current color settings;
popu for a table of the current population.
Other metrics:
acc,
accu,
comp_acc(),
comp_accu_freq(),
comp_err(),
err
Other functions computing probabilities:
comp_FDR(),
comp_FOR(),
comp_NPV(),
comp_PPV(),
comp_acc(),
comp_accu_freq(),
comp_comp_pair(),
comp_complement(),
comp_complete_prob_set(),
comp_err(),
comp_fart(),
comp_mirt(),
comp_ppod(),
comp_prob(),
comp_prob_freq(),
comp_sens(),
comp_spec()
Examples
comp_accu_prob() # => accuracy metrics for prob of current scenario
comp_accu_prob(prev = .2, sens = .5, spec = .5) # medium accuracy, but cr > hi.
# Extreme cases:
comp_accu_prob(prev = NaN, sens = NaN, spec = NaN) # returns list of NA values
comp_accu_prob(prev = 0, sens = NaN, spec = 1) # returns list of NA values
comp_accu_prob(prev = 0, sens = 0, spec = 1) # perfect acc = 1, but f1s is NaN
comp_accu_prob(prev = .5, sens = .5, spec = .5) # random performance
comp_accu_prob(prev = .5, sens = 1, spec = 1) # perfect accuracy
comp_accu_prob(prev = .5, sens = 0, spec = 0) # zero accuracy, but f1s is NaN
comp_accu_prob(prev = 1, sens = 1, spec = 0) # perfect, but see wacc (0.5) and mcc (0)
# Effects of w:
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 1/2) # equal weights to sens and spec
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 2/3) # more weight on sens: wacc up
comp_accu_prob(prev = .5, sens = .6, spec = .4, w = 1/3) # more weight on spec: wacc down
# Contrasting comp_accu_freq and comp_accu_prob:
# (a) comp_accu_freq (based on rounded frequencies):
freq1 <- comp_freq(N = 10, prev = 1/3, sens = 2/3, spec = 3/4) # => rounded frequencies!
accu1 <- comp_accu_freq(freq1$hi, freq1$mi, freq1$fa, freq1$cr) # => accu1 (based on rounded freq).
# accu1
# (b) comp_accu_prob (based on probabilities):
accu2 <- comp_accu_prob(prev = 1/3, sens = 2/3, spec = 3/4) # => exact accu (based on prob).
# accu2
all.equal(accu1, accu2) # => 4 differences!
#
# (c) comp_accu_freq (exact values, i.e., without rounding):
freq3 <- comp_freq(N = 10, prev = 1/3, sens = 2/3, spec = 3/4, round = FALSE)
accu3 <- comp_accu_freq(freq3$hi, freq3$mi, freq3$fa, freq3$cr) # => accu3 (based on EXACT freq).
# accu3
all.equal(accu2, accu3) # => TRUE (qed).
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.