Nothing
R/Pearson_chi_squared_test_1xc.R
In contingencytables: Statistical Analysis of Contingency Tables
Defines functions
Pearson_chi_squared_test_1xc
Documented in
Pearson_chi_squared_test_1xc
#' @title The Pearson chi-squared test for multinomial probabilities
#' @description The Pearson chi-squared test for multinomial probabilities
#' @description Described in Chapter 3 "The 1xc Table and the Multinomial Distribution"
#' @param n the observed counts (a 1xc vector, where c is the number of categories)
#' @param pi0 given probabilities (a 1xc vector)
#' @examples
#' # Genotype counts for SNP rs 6498169 in RA patients
#' Pearson_chi_squared_test_1xc(n = snp6498169$complete$n, pi0 = snp6498169$complete$pi0)
#' # subset of 10 patients
#' Pearson_chi_squared_test_1xc(n = snp6498169$subset$n, pi0 = snp6498169$subset$pi0)
#' @export
#' @return An object of the [contingencytables_result] class,
#' basically a subclass of [base::list()]. Use the [utils::str()] function
#' to see the specific elements returned.
Pearson_chi_squared_test_1xc <- function(n, pi0) {
validateArguments(mget(ls()))
c0 <- length(n)
N <- sum(n)
# The Pearson chi-squared test statistic
T0 <- sum(((n - N * pi0)^2) / (N * pi0))
# The two-sided P-value
# (reference distribution: chi-squared with c-1 degrees of freedom)
df <- c0 - 1
P <- 1 - pchisq(T0, df)
return(
contingencytables_result(
list("Pvalue" = P, "T" = T0, "df" = df),
sprintf(
"The Pearson chi-squared test: P = %7.5f, T = %5.3f (df = %i)",
P, T0, df
)
)
)
}
Try the contingencytables package in your browser
Any scripts or data that you put into this service are public.
contingencytables documentation built on Sept. 11, 2024, 6:20 p.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.
Defines functions Pearson_chi_squared_test_1xc
Documented in Pearson_chi_squared_test_1xc
#' @title The Pearson chi-squared test for multinomial probabilities
#' @description The Pearson chi-squared test for multinomial probabilities
#' @description Described in Chapter 3 "The 1xc Table and the Multinomial Distribution"
#' @param n the observed counts (a 1xc vector, where c is the number of categories)
#' @param pi0 given probabilities (a 1xc vector)
#' @examples
#' # Genotype counts for SNP rs 6498169 in RA patients
#' Pearson_chi_squared_test_1xc(n = snp6498169$complete$n, pi0 = snp6498169$complete$pi0)
#' # subset of 10 patients
#' Pearson_chi_squared_test_1xc(n = snp6498169$subset$n, pi0 = snp6498169$subset$pi0)
#' @export
#' @return An object of the [contingencytables_result] class,
#' basically a subclass of [base::list()]. Use the [utils::str()] function
#' to see the specific elements returned.
Pearson_chi_squared_test_1xc <- function(n, pi0) {
validateArguments(mget(ls()))
c0 <- length(n)
N <- sum(n)
# The Pearson chi-squared test statistic
T0 <- sum(((n - N * pi0)^2) / (N * pi0))
# The two-sided P-value
# (reference distribution: chi-squared with c-1 degrees of freedom)
df <- c0 - 1
P <- 1 - pchisq(T0, df)
return(
contingencytables_result(
list("Pvalue" = P, "T" = T0, "df" = df),
sprintf(
"The Pearson chi-squared test: P = %7.5f, T = %5.3f (df = %i)",
P, T0, df
)
)
)
}
Try the contingencytables package in your browser
Any scripts or data that you put into this service are public.
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.