R Under development (unstable) (2025-08-21 r88668 ucrt) -- "Unsuffered Consequences"
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> library(testthat)
> library(TOSTER)

Attaching package: 'TOSTER'

The following object is masked from 'package:testthat':

    describe

> 
> test_check("TOSTER")
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
User supplied standard errors. Proceed with caution.
User supplied standard errors. Proceed with caution.
mu set to 0
mu set to 0
mu set to 0
mu set to 0
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
mu set to 0
mu set to 0
mu set to 0
mu set to 0
mu set to 0
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
Sample size in at least one group is small. Permutation test (perm = TRUE) is highly recommended.
NOTE: Confidence intervals derived from permutation tests may differ from conclusions drawn from p-values. When discrepancies occur, consider additional diagnostics or alternative inference methods.
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
Small sample size in at least one group; proceed with caution
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
Small sample size in at least one group; proceed with caution
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
SMD cannot be plotted if type = "tnull" 
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 0), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
For nil-hypothesis tests (null = 1), it is recommended that prop.test be utilized.
MET test may have higher error rates than a nil two-tailed test. Consider wider equivalence bounds.
[ FAIL 0 | WARN 0 | SKIP 0 | PASS 1059 ]
> 
> proc.time()
   user  system elapsed 
 113.07   20.50  133.59