The GLMSELECT Procedure

CLASS Statement

  • CLASS variable <(v-options)> …<variable <(v-options)>> </ options>;

The CLASS statement names the classification variables to be used in the analysis. The CLASS statement must precede the MODEL statement.

Table 49.2 summarizes the options available in the CLASS statement.

Table 49.2: CLASS Statement Options

Option

Description

CPREFIX=

Specifies maximum number of CLASS variable name characters

DELIMITER=

Specifies the delimiter

DESCENDING

Reverses the sort order

LPREFIX=

Labels design variables

MISSING

Allows for missing values

ORDER=

Specifies the sort order

PARAM=

Specifies the parameterization method

REF=

Specifies the reference level

SHOW

Requests a table for each CLASS variable

SPLIT

Splits CLASS variables into independent effects


The following options can be specified after a slash (/):

DELIMITER=quoted character

specifies the delimiter that is used between levels of classification variables in building parameter names and lists of class level values. The default if you do not specify DELIMITER= is a space. This option is useful if the levels of a classification variable contain embedded blanks.

SHOW | SHOWCODING

requests a table for each classification variable that shows the coding used for that variable.

You can specify various v-options for each variable by enclosing them in parentheses after the variable name. You can also specify global v-options for the CLASS statement by placing them after a slash (/). Global v-options are applied to all the variables specified in the CLASS statement. If you specify more than one CLASS statement, the global v-options specified in any one CLASS statement apply to all CLASS statements. However, individual CLASS variable v-options override the global v-options except for the PARAM=GLM option. The global PARAM=GLM option overrides all individual PARAM= options.

The following v-options are available:

CPREFIX=n

specifies that, at most, the first n characters of a CLASS variable name be used in creating names for the corresponding design variables. The default is $32 - \min ( 32, \max (2,f))$, where f is the formatted length of the CLASS variable. The CPREFIX= applies only when you specify the PARMLABELSTYLE=INTERLACED option in the PROC GLMSELECT statement.

DESCENDING
DESC

reverses the sort order of the classification variable.

LPREFIX=n

specifies that, at most, the first n characters of a CLASS variable label be used in creating labels for the corresponding design variables. The default is $256 - \min ( 256, \max (2,f))$, where f is the formatted length of the CLASS variable. The LPREFIX= applies only when you specify the PARMLABELSTYLE=INTERLACED option in the PROC GLMSELECT statement.

MISSING

allows missing value (’.’ for a numeric variable and blanks for a character variables) as a valid value for the CLASS variable.

ORDER=DATA | FORMATTED | FREQ | INTERNAL

specifies the sort order for the levels of classification variables. This ordering determines which parameters in the model correspond to each level in the data, so the ORDER= option might be useful when you use the CONTRAST or ESTIMATE statement. If ORDER=FORMATTED for numeric variables for which you have supplied no explicit format, the levels are ordered by their internal values. Note that this represents a change from previous releases for how class levels are ordered. Before SAS 8, numeric class levels with no explicit format were ordered by their BEST12. formatted values, and in order to revert to the previous ordering you can specify this format explicitly for the affected classification variables. The change was implemented because the former default behavior for ORDER=FORMATTED often resulted in levels not being ordered numerically and usually required the user to intervene with an explicit format or ORDER=INTERNAL to get the more natural ordering. The following table shows how PROC GLMSELECT interprets values of the ORDER= option.

Value of ORDER=

Levels Sorted By

DATA

Order of appearance in the input data set

FORMATTED

External formatted value, except for numeric

 

variables with no explicit format, which are

 

sorted by their unformatted (internal) value

FREQ

Descending frequency count; levels with the

 

most observations come first in the order

INTERNAL

Unformatted value

By default, ORDER=FORMATTED. For FORMATTED and INTERNAL, the sort order is machine dependent.

For more information about sort order, see the chapter on the SORT procedure in the Base SAS Procedures Guide and the discussion of BY-group processing in SAS Language Reference: Concepts.

PARAM=keyword

specifies the parameterization method for the classification variable or variables. Design matrix columns are created from CLASS variables according to the following coding schemes. If the PARAM= option is not specified with any individual CLASS variable, by default, PARAM=GLM. Otherwise, the default is PARAM=EFFECT. If PARAM=ORTHPOLY or PARAM=POLY, and the CLASS levels are numeric, then the ORDER= option in the CLASS statement is ignored, and the internal, unformatted values are used. See the section CLASS Variable Parameterization and the SPLIT Option for further details.

EFFECT

specifies effect coding.

GLM

specifies less-than-full-rank, reference-cell coding; this option can be used only as a global option.

ORDINAL THERMOMETER

specifies the cumulative parameterization for an ordinal CLASS variable.

POLYNOMIAL POLY

specifies polynomial coding.

REFERENCE REF

specifies reference-cell coding.

ORTHEFFECT

orthogonalizes PARAM=EFFECT.

ORTHORDINAL ORTHOTHERM

orthogonalizes PARAM=ORDINAL.

ORTHPOLY

orthogonalizes PARAM=POLYNOMIAL.

ORTHREF

orthogonalizes PARAM=REFERENCE.

The EFFECT, POLYNOMIAL, REFERENCE, and ORDINAL schemes and their orthogonal parameterizations are full rank. The REF= option in the CLASS statement determines the reference level for the EFFECT and REFERENCE schemes and their orthogonal parameterizations.

REF=’level’ | keyword

specifies the reference level for PARAM=EFFECT, PARAM=REFERENCE, and their orthogonalizations. For an individual (but not a global) variable REF= option, you can specify the level of the variable to use as the reference level. For a global or individual variable REF= option, you can use one of the following keywords. The default is REF=LAST.

FIRST

designates the first-ordered level as reference.

LAST

designates the last-ordered level as reference.

SPLIT

splits the columns of the design matrix that correspond to any effect that contains a split classification variable so that they can enter or leave a model independently of the other design columns for that effect. For example, suppose a variable named temp has three levels with values hot, warm, and cold, and a variable named sex has two levels with values M and F are used in a PROC GLMSELECT job as follows:

proc glmselect;
   class temp sex/split;
   model depVar = sex sex*temp;
run;

The two effects named in the MODEL statement are split into eight independent effects. The effect sex is split into two effects labeled sex_M and sex_F. The effect sex*temp is split into six effects labeled sex_M*temp_hot, sex_F*temp_hot, sex_M*temp_warm, sex_F*temp_warm, sex_M*temp_cold, and sex_F*temp_cold. Thus the previous PROC GLMSELECT step is equivalent to the following step:

proc glmselect;
   model depVar =  sex_M sex_F sex_M*temp_hot  sex_F*temp_hot
                               sex_M*temp_warm sex_F*temp_warm
                               sex_M*temp_cold sex_F*temp_cold;
run;

The split option can be used on individual classification variables. For example, consider the following PROC GLMSELECT step:

proc glmselect;
   class temp(split) sex;
   model depVar = sex sex*temp;
run;

In this case the effect sex is not split and the effect sex*temp is split into three effects labeled sex*temp_hot, sex*temp_warm, and sex*temp_cold. Furthermore each of these three split effects now has two parameters that correspond to the two levels of sex, and the PROC GLMSELECT step is equivalent to the following:

proc glmselect;
   class sex;
   model depVar = sex sex*temp_hot sex*temp_warm sex*temp_cold;
run;