fourfoldplot package:graphics R Documentation _F_o_u_r_f_o_l_d _P_l_o_t_s _D_e_s_c_r_i_p_t_i_o_n: Creates a fourfold display of a 2 by 2 by k contingency table on the current graphics device, allowing for the visual inspection of the association between two dichotomous variables in one or several populations (strata). _U_s_a_g_e: fourfoldplot(x, color = c("#99CCFF", "#6699CC"), conf.level = 0.95, std = c("margins", "ind.max", "all.max"), margin = c(1, 2), space = 0.2, main = NULL, mfrow = NULL, mfcol = NULL) _A_r_g_u_m_e_n_t_s: x: a 2 by 2 by k contingency table in array form, or as a 2 by 2 matrix if k is 1. color: a vector of length 2 specifying the colors to use for the smaller and larger diagonals of each 2 by 2 table. conf.level: confidence level used for the confidence rings on the odds ratios. Must be a single nonnegative number less than 1; if set to 0, confidence rings are suppressed. std: a character string specifying how to standardize the table. Must be one of '"margins"', '"ind.max"', or '"all.max"', and can be abbreviated by the initial letter. If set to '"margins"', each 2 by 2 table is standardized to equate the margins specified by 'margin' while preserving the odds ratio. If '"ind.max"' or '"all.max"', the tables are either individually or simultaneously standardized to a maximal cell frequency of 1. margin: a numeric vector with the margins to equate. Must be one of '1', '2', or 'c(1, 2)' (the default), which corresponds to standardizing the row, column, or both margins in each 2 by 2 table. Only used if 'std' equals '"margins"'. space: the amount of space (as a fraction of the maximal radius of the quarter circles) used for the row and column lebals. main: character string for the fourfold title. mfrow: a numeric vector of the form 'c(nr, nc)', indicating that the displays for the 2 by 2 tables should be arranged in an 'nr' by 'nc' layout, filled by rows. mfcol: a numeric vector of the form 'c(nr, nc)', indicating that the displays for the 2 by 2 tables should be arranged in an 'nr' by 'nc' layout, filled by columns. _D_e_t_a_i_l_s: The fourfold display is designed for the display of 2 by 2 by k tables. Following suitable standardization, the cell frequencies f[i,j] of each 2 by 2 table are shown as a quarter circle whose radius is proportional to sqrt(f[i,j]) so that its area is proportional to the cell frequency. An association (odds ratio different from 1) between the binary row and column variables is indicated by the tendency of diagonally opposite cells in one direction to differ in size from those in the other direction; color is used to show this direction. Confidence rings for the odds ratio allow a visual test of the null of no association; the rings for adjacent quadrants overlap if and only if the observed counts are consistent with the null hypothesis. Typically, the number k corresponds to the number of levels of a stratifying variable, and it is of interest to see whether the association is homogeneous across strata. The fourfold display visualizes the pattern of association. Note that the confidence rings for the individual odds ratios are not adjusted for multiple testing. _R_e_f_e_r_e_n_c_e_s: Friendly, M. (1994). A fourfold display for 2 by 2 by k tables. Technical Report 217, York University, Psychology Department. _S_e_e _A_l_s_o: 'mosaicplot' _E_x_a_m_p_l_e_s: ## Use the Berkeley admission data as in Friendly (1995). x <- aperm(UCBAdmissions, c(2, 1, 3)) dimnames(x)[[2]] <- c("Yes", "No") names(dimnames(x)) <- c("Sex", "Admit?", "Department") stats::ftable(x) ## Fourfold display of data aggregated over departments, with ## frequencies standardized to equate the margins for admission ## and sex. ## Figure 1 in Friendly (1994). fourfoldplot(margin.table(x, c(1, 2))) ## Fourfold display of x, with frequencies in each table ## standardized to equate the margins for admission and sex. ## Figure 2 in Friendly (1994). fourfoldplot(x) ## Fourfold display of x, with frequencies in each table ## standardized to equate the margins for admission. but not ## for sex. ## Figure 3 in Friendly (1994). fourfoldplot(x, margin = 2)