R: Support functions for model extensions

extending-emmeans {emmeans}

R Documentation

Support functions for model extensions

Description

This documents some functions and methods that may be useful to package developers wishing to add support for emmeans for their model objects.A user or package developer may add emmeans support for a model class by writing recover_data and emm_basis methods for that class. (Users in need for a quick way to obtain results for a model that is not supported may be better served by the qdrg function.) There are several other exported functions that may be useful. See the "xtending" vignette for more details.

Usage

recover_data(object, ...)

## S3 method for class 'call'
recover_data(object, trms, na.action, data = NULL,
  params = "pi", frame, pwts, addl.vars, ...)

emm_basis(object, trms, xlev, grid, ...)

.recover_data(object, ...)

.emm_basis(object, trms, xlev, grid, ...)

.emm_register(classes, pkgname)

.std.link.labels(fam, misc)

.combine.terms(...)

.aovlist.dffun(k, dfargs)

.cmpMM(X, weights = rep(1, nrow(X)), assign = attr(X$qr, "assign"))

.get.excl(levs, exc, inc)

.get.offset(terms, grid)

.my.vcov(object, vcov. = .statsvcov, ...)

.all.vars(expr, retain = c("\\$", "\\[\\[", "\\]\\]", "'", "\""),
  ...)

.diag(x, nrow, ncol)

.num.key(levs, key)

.emm_vignette(css = system.file("css", "clean-simple.css", package =
  "emmeans"), highlight = NULL, ...)

.hurdle.support(cmu, cshape, cp0, cmean, zmu, zshape, zp0)

.zi.support(zmu, zshape, zp0)

Arguments

`object`	An object of the same class as is supported by a new method.
`...`	Additional parameters that may be supported by the method.
`trms`	The `terms` component of `object` (typically with the response deleted, e.g. via `delete.response`)
`na.action`	Integer vector of indices of observations to ignore; or `NULL` if none
`data`	Data frame. Usually, this is `NULL`. However, if non-null, this is used in place of the reconstructed dataset. It must have all of the predictors used in the model, and any factor levels must match those used in fitting the model.
`params`	Character vector giving the names of any variables in the model formula that are not predictors. For example, a spline model may involve a local variable `knots` that is not a predictor, but its value is needed to fit the model. Names of parameters not actually used are harmless, and the default value `"pi"` (the only numeric constant in base R) is provided in case the model involves it. An example involving splines may be found at https://github.com/rvlenth/emmeans/issues/180.
`frame`	Optional `data.frame`. Many model objects contain the model frame used when fitting the model. In cases where there are no predictor transformations, this model frame has all the original predictor values and so is usable for recovering the data. Thus, if `frame` is non-missing and `data` is `NULL`, a check is made on `trms` and if there are no function calls, we use `data = frame`. This can be helpful because it provides a modicum of security against the possibility that the original data used when fitting the model has been altered or removed.
`pwts`	Optional vector of prior weights. Typically, this may be obtained from the fitted `model` via `weights(model)`. If this is provided, it is used to set weights as long as it is non-`NULL` and the same length as the number of rows of the data.
`addl.vars`	Character value or vector specifying additional predictors to include in the reference grid. These must be names of variables that exist, or you will get an error. This may be useful if you need to do additional computations later on that depend on these variables; e.g., bias adjustments for random slopes of variables not among the fixed predictors.
`xlev`	Named list of factor levels (excluding ones coerced to factors in the model formula)
`grid`	A `data.frame` (provided by `ref_grid`) containing the predictor settings needed in the reference grid
`classes`	Character names of one or more classes to be registered. The package must contain the functions `recover_data.foo` and `emm_basis.foo` for each class `foo` listed in `classes`.
`pkgname`	Character name of package providing the methods (usually should be the second argument of `.onLoad`)
`fam`	Result of call to `family(object)`
`misc`	A `list` intended for the `@misc` slot of an `emmGrid` object
`k`, `dfargs`	Arguments to `.aovlist.dffun`, which is made available as a convenience to developers providing support similar to that provided for `aovlist` objects
`X`, `weights`, `assign`	Arguments for `.cmpMM`, which compacts a model matrix `X` into a much smaller matrix that has the same row space. Specifically, it returns the R portion of its QR decomposition. If `X` is already of class `qr`, it is used directly. `weights` should be the weights used in the model fit, and `assign` is used for unravelling any pivoting done by `qr`.
`levs`, `key`	The `.num.key` function returns the numeric indices of the levels in `levs` to the set of all levels in `key`
`exc`, `inc`	Arguments for `.get.excl` which is useful in writing `.emmc` functions for generating contrast coefficients, and supports arguments `exclude` or `include` for excluding or specifying which levels to use.
`terms`	A `terms` component
`vcov.`	Function or matrix that returns a suitable covariance matrix. The default is `.statsvcov` which is `stats::vcov`. The `.my.vcov` function should be called in place of `vcov`, and it supports the user being able to specify a different matrix or function via the optional `vcov.` argument.
`expr`, `retain`	Arguments for `.all.vars`, which is an alternative to `all.vars` that has special provisions for retaining the special characters in `retain`, thus allowing model specifications like `y ~ data$trt * df[["dose"]]`
`x`, `nrow`, `ncol`	Arguments for `.diag`, which is an alternative to `diag` that lacks its idiosyncrasy of returning an identity matrix when `x` is of length 1.
`css`, `package`, `highlight`	Arguments for `.emm_vignette`, which is a clean and simple alternative to such as `html_document` for use as the output style of a Markdown file. All the vignettes in the emmeans package use this output style.
`cmu`, `zmu`	In `.hurdle.support` and `.zi.support`, these specify a vector of back-transformed estimates for the count and zero model, respectively
`cshape`, `zshape`	Shape parameter for the count and zero model, respectively
`cp0`, `zp0`	Function of `(mu, shape)` for computing Prob(Y = 0) for the count and zero model, respectively
`cmean`	Function of `(mu, shape)` for computing the mean of the count model. Typically, this just returns `mu`

Value

The recover_data method must return a data.frame containing all the variables that appear as predictors in the model, and attributes "call", "terms", "predictors", and "responses". (recover_data.call will provide these attributes.)

The emm_basis method should return a list with the following elements:

X: The matrix of linear functions over grid, having the same number of rows as grid and the number of columns equal to the length of bhat.
bhat: The vector of regression coefficients for fixed effects. This should include any NAs that result from rank deficiencies.
nbasis: A matrix whose columns form a basis for non-estimable functions of beta, or a 1x1 matrix of NA if there is no rank deficiency.
V: The estimated covariance matrix of bhat.
dffun: A function of (k, dfargs) that returns the degrees of freedom associated with sum(k * bhat).
dfargs: A list containing additional arguments needed for dffun

.recover_data and .emm_basis are hidden exported versions of recover_data and emm_basis, respectively. They run in emmeans's namespace, thus providing access to all existing methods.

.std.link.llabels returns a modified version of misc with the appropriate information included corresponding to the information in fam

combine.terms returns a terms object resulting from combining all the terms or formulas in ....

.get.offset returns the values, based on grid, of any offset component in terms

.hurdle.support returns a matrix with 3 rows containing the estimated mean responses and the differentials wrt cmu and zmu, resp.

.zi.support returns a matrix with 2 rows containing the estimated probabilities of 0 and the differentials wrt mu. See the section on hurdle and zero-inflated models.

Details

To create a reference grid, the ref_grid function needs to reconstruct the data used in fitting the model, and then obtain a matrix of linear functions of the regression coefficients for a given grid of predictor values. These tasks are performed by calls to recover_data and emm_basis respectively. A vignette giving details and examples is available via vignette("xtending", "emmeans")

To extend emmeans's support to additional model types, one need only write S3 methods for these two functions. The existing methods serve as helpful guidance for writing new ones. Most of the work for recover_data can be done by its method for class "call", providing the terms component and na.action data as additional arguments. Writing an emm_basis method is more involved, but the existing methods (e.g., emmeans:::emm_basis.lm) can serve as models. Certain recover_data and emm_basis methods are exported from emmeans. (To find out, do methods("recover_data").) If your object is based on another model-fitting object, it may be that all that is needed is to call one of these exported methods and perhaps make modifications to the results. Contact the developer if you need others of these exported.

If the model has a multivariate response, bhat needs to be “flattened” into a single vector, and X and V must be constructed consistently.

In models where a non-full-rank result is possible (often, you can tell by seeing if there is a singular.ok argument in the model-fitting function), summary.emmGrid and its relatives check the estimability of each prediction, using the nonest.basis function in the estimability package.

The models already supported are detailed in the "models" vignette. Some packages may provide additional emmeans support for its object classes.

Communication between methods

If the recover_data method generates information needed by emm_basis, that information may be incorporated by creating a "misc" attribute in the returned recovered data. That information is then passed as the misc argument when ref_grid calls emm_basis.

Optional hooks

Some models may need something other than standard linear estimates and standard errors. If so, custom functions may be pointed to via the items misc$estHook, misc$vcovHook and misc$postGridHook. If just the name of the hook function is provided as a character string, then it is retrieved using get.

The estHook function should have arguments ‘⁠(object, do.se, tol, ...)⁠’ where object is the emmGrid object, do.se is a logical flag for whether to return the standard error, and tol is the tolerance for assessing estimability. It should return a matrix with 3 columns: the estimates, standard errors (NA when do.se==FALSE), and degrees of freedom (NA for asymptotic). The number of rows should be the same as ‘⁠object@linfct⁠’. The vcovHook function should have arguments ‘⁠(object, tol, ...)⁠’ as described. It should return the covariance matrix for the estimates. Finally, postGridHook, if present, is called at the very end of ref_grid; it takes one argument, the constructed object, and should return a suitably modified emmGrid object.

Registering S3 methods for a model class

The .emm_register function is provided as a convenience to conditionally register your S3 methods for a model class, recover_data.foo and emm_basis.foo, where foo is the class name. Your package should implement an .onLoad function and call .emm_register if emmeans is installed. See the example.

Support for Hurdle and Zero-inflated models

The functions .hurdle.support and .zi.support help facilitate calculations needed to estimate the mean response (count model and zero model combined) of these models. .hurdle.support returns a matrix of three rows. The first is the estimated mean for a hurdle model, and the 2nd and 3rd rows are differentials for the count and zero models, which needed for delta-method calculations. To use these, regard the @linfct slot as comprising two sets of columns, for the count and zero models respectively. To do the delta method calculations, multiply the rows of the count part by its differentials times link$mu.eta evcaluated at that part of the linear predictor. Do the same for the zero part, using its differentials and mu.eta. If the resulting matrix is A, then the covariance of the mean response is AVA' where Vis the @V slot of the object.

The function zi.support works the same way, only it is much simpler, and is used to estimate the probability of 0 and its differential for either part of a zero-inflated model or hurdle model.

See the code for emm_basis.zeroinfl and emm_basis.hurdle for how these are used with models fitted by the pscl package.

Note

Without an explicit data argument, recover_data returns the current version of the dataset. If the dataset has changed since the model was fitted, then this will not be the data used to fit the model. It is especially important to know this in simulation studies where the data are randomly generated or permuted, and in cases where several datasets are processed in one step (e.g., using dplyr). In those cases, users should be careful to provide the actual data used to fit the model in the data argument.

Examples

## Not run: 
#--- If your package provides recover_data and emm_grid methods for class 'mymod',
#--- put something like this in your package code -- say in zzz.R:
  .onLoad <- function(libname, pkgname) {
    if (requireNamespace("emmeans", quietly = TRUE))
      emmeans::.emm_register("mymod", pkgname)
  }

## End(Not run)

[Package emmeans version 1.10.3 Index]