This function may make it possible to compute a reference grid for a model object that is otherwise not supported.
qdrg(formula, data, coef, vcov, df, mcmc, object, subset, weights, contrasts,
link, qr, ordinal, ...)An emmGrid object constructed from the arguments
Formula for the fixed effects
Dataset containing the variables in the model
Fixed-effect regression coefficients (must conform to formula)
Variance-covariance matrix of the fixed effects
Error degrees of freedom
Posterior sample of fixed-effect coefficients
Optional model object. This rarely works!; but if provided, we try to set other arguments based on an expectation that `object` has a similar structure to `lm` objects. See Details.
Subset of data used in fitting the model
Weights used in fitting the model
List of contrasts specified in fitting the model
Link function (character or list) used, if a generalized linear model.
(Note: response transformations are auto-detected from formula)
QR decomposition of the model matrix; used only if there are NAs
in coef.
list with elements dim and mode.
ordinal$dim (integer) is the number of levels in an ordinal response. If
ordinal is provided, the intercept terms are modified appropriate to predicting
an ordinal response, as described in vignette("models"), Section O,
using ordinal$mode as the mode argument (if not
provided, "latent" is assumed).
(All modes are supported except `scale`)
For this to work, we expect
the first ordinal$dim - 1 elements of coef to be the
estimated threshold parameters, followed by the coefficients for the
linear predictor.
Optional arguments passed to ref_grid
Different model-fitting packages take different approaches when the model
matrix is singular, but qdrg tries to reconcile them by comparing the
linear functions created by formula to coefs and vcov.
We may then use the estimability package to determine what quantities
are estimable. For reconciling to work properly, coef should be named
and vcov should have dimnames. To disable this name-matching
action, remove the names from coef, e.g., by calling unname().
No reconciliation is attempted in multivariate-response cases. For more
details on estimability, see the documentation in the estimability
package.
Usually, you need to provide either object; or
formula, coef, vcov, data, and perhaps other
parameters. It is usually fairly straightforward to figure out how to get
these from the model object; see the documentation for the model class that
was fitted. Sometimes one or more of these quantities contains extra parameters,
and if so, you may need to subset them to make everything conformable. For a given formula and data,
you can find out what is needed via colnames(model.matrix(formula, data)).
(However, for an ordinal model, we expect the first ordinal.dim - 1 coefficients
to replace (Intercept). And for a multivariate model, we expect coef
to be a matrix with these row names, and vcov to have as many rows and columns as
the total number of elements of coef.)
If your model object follows fairly closely the conventions of an lm
or glmobject, you may be able to get by providing the model as object,
and perhaps some other parameters to override the defaults.
When object is specified, it is used as detailed below to try to obtain the
other arguments. The user should ensure that the defaults
shown below do indeed work.
The default values for the arguments are as follows:
formula: formula(object)
data: recover_data.lm(object) is tried, and if an error is thrown,
we also check object$data.
coef: coef(object)
vcov: vcov(object)
df: Set to Inf if not available in df.residual(object)
mcmc: object$sample
subset: NULL (so that all observations in data are used)
contrasts: object$contrasts
The functions qdrg and emmobj are close cousins, in that
they both produce emmGrid objects. When starting with summary
statistics for an existing grid, emmobj is more useful, while
qdrg is more useful when starting from a fitted model.
emmobj for an alternative way to construct an emmGrid.
# In these examples, use emm_example(..., list = TRUE) # to see just the code
if (require(biglm, quietly = TRUE))
emm_example("qdrg-biglm")
if(require(coda, quietly = TRUE) && require(lme4, quietly = TRUE))
emm_example("qdrg-coda")
if(require(ordinal, quietly = TRUE))
emm_example("qdrg-ordinal")
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