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car (version 3.0-2)

Contrasts: Functions to Construct Contrasts

Description

These are substitutes for similarly named functions in the stats package (note the uppercase letter starting the second word in each function name). The only difference is that the contrast functions from the car package produce easier-to-read names for the contrasts when they are used in statistical models.

The functions and this documentation are adapted from the stats package.

Usage

contr.Treatment(n, base = 1, contrasts = TRUE)

contr.Sum(n, contrasts = TRUE)

contr.Helmert(n, contrasts = TRUE)

Arguments

n

a vector of levels for a factor, or the number of levels.

base

an integer specifying which level is considered the baseline level. Ignored if contrasts is FALSE.

contrasts

a logical indicating whether contrasts should be computed.

Value

A matrix with n rows and k columns, with k = n - 1 if contrasts is TRUE and k = n if contrasts is FALSE.

Details

These functions are used for creating contrast matrices for use in fitting analysis of variance and regression models. The columns of the resulting matrices contain contrasts which can be used for coding a factor with n levels. The returned value contains the computed contrasts. If the argument contrasts is FALSE then a square matrix is returned.

Several aspects of these contrast functions are controlled by options set via the options command:

decorate.contrasts

This option should be set to a 2-element character vector containing the prefix and suffix characters to surround contrast names. If the option is not set, then c("[", "]") is used. For example, setting options(decorate.contrasts=c(".", "")) produces contrast names that are separated from factor names by a period. Setting options( decorate.contrasts=c("", "")) reproduces the behaviour of the R base contrast functions.

decorate.contr.Treatment

A character string to be appended to contrast names to signify treatment contrasts; if the option is unset, then "T." is used.

decorate.contr.Sum

Similar to the above, with default "S.".

decorate.contr.Helmert

Similar to the above, with default "H.".

contr.Sum.show.levels

Logical value: if TRUE (the default if unset), then level names are used for contrasts; if FALSE, then numbers are used, as in contr.sum in the base package.

Note that there is no replacement for contr.poly in the base package (which produces orthogonal-polynomial contrasts) since this function already constructs easy-to-read contrast names.

References

Fox, J. and Weisberg, S. (2019) An R Companion to Applied Regression, Third Edition, Sage.

See Also

contr.treatment, contr.sum, contr.helmert, contr.poly

Examples

Run this code
# NOT RUN {
# contr.Treatment vs. contr.treatment in the base package:

lm(prestige ~ (income + education)*type, data=Prestige, 
    contrasts=list(type="contr.Treatment"))

##  Call:
##  lm(formula = prestige ~ (income + education) * type, data = Prestige,
##      contrasts = list(type = "contr.Treatment"))
##  
##  Coefficients:
##          (Intercept)                  income               education  
##              2.275753                0.003522                1.713275  
##          type[T.prof]              type[T.wc]     income:type[T.prof]  
##              15.351896              -33.536652               -0.002903  
##      income:type[T.wc]  education:type[T.prof]    education:type[T.wc]  
##              -0.002072                1.387809                4.290875  

lm(prestige ~ (income + education)*type, data=Prestige, 
    contrasts=list(type="contr.treatment"))    

##  Call:
##  lm(formula = prestige ~ (income + education) * type, data = Prestige,
##      contrasts = list(type = "contr.treatment"))
##  
##  Coefficients:
##      (Intercept)              income           education  
##          2.275753            0.003522            1.713275  
##          typeprof              typewc     income:typeprof  
##          15.351896          -33.536652           -0.002903  
##      income:typewc  education:typeprof    education:typewc  
##          -0.002072            1.387809            4.290875      
# }

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