pred-projection: Predictions from a submodel (after projection)

In the following, \(S_{\mathrm{prj}}\), \(N\), \(C_{\mathrm{cat}}\), and \(C_{\mathrm{lat}}\) from help topic refmodel-init-get are used. (For proj_linpred() with integrated = TRUE, we have \(S_{\mathrm{prj}} = 1\).) Furthermore, let \(C\) denote either \(C_{\mathrm{cat}}\) (if transform = TRUE) or \(C_{\mathrm{lat}}\) (if transform = FALSE). Then, if the prediction is done for one submodel only (i.e., length(nterms) == 1 || !is.null(predictor_terms) in the explicit or implicit call to project(), see argument object):

• proj_linpred() returns a list with the following elements:

  • Element pred contains the actual predictions, i.e., the linear predictors, possibly transformed to response scale (depending on argument transform).

  • Element lpd is non-NULL only if newdata is NULL or if newdata contains response values in the corresponding column. In that case, it contains the log predictive density values (conditional on each of the projected parameter draws if integrated = FALSE and averaged across the projected parameter draws if integrated = TRUE).

  In case of (i) the traditional projection, (ii) the latent projection with transform = FALSE, or (iii) the latent projection with transform = TRUE and <refmodel>$family$cats (where <refmodel> is an object resulting from init_refmodel(); see also extend_family()'s argument latent_y_unqs) being NULL, both elements are \(S_{\mathrm{prj}} \times N\) matrices (converted to a---possibly weighted---draws_matrix if argument return_draws_matrix is TRUE, see the description of this argument). In case of (i) the augmented-data projection or (ii) the latent projection with transform = TRUE and <refmodel>$family$cats being not NULL, pred is an \(S_{\mathrm{prj}} \times N \times C\) array (if argument return_draws_matrix is TRUE, this array is "compressed" to an \(S_{\mathrm{prj}} \times (N \cdot C)\) matrix---with the columns consisting of \(C\) blocks of \(N\) rows---and then converted to a---possibly weighted---draws_matrix) and lpd is an \(S_{\mathrm{prj}} \times N\) matrix (converted to a---possibly weighted---draws_matrix if argument return_draws_matrix is TRUE). If return_draws_matrix is FALSE and allow_nonconst_wdraws_prj is TRUE and integrated is FALSE and the projected draws have nonconstant weights, then both list elements have the weights of these draws stored in an attribute wdraws_prj. (If return_draws_matrix, allow_nonconst_wdraws_prj, and integrated are all FALSE, then projected draws with nonconstant weights cause an error.)

• proj_predict() returns an \(S_{\mathrm{prj}} \times N\) matrix of predictions where \(S_{\mathrm{prj}}\) denotes nresample_clusters in case of clustered projection (or, more generally, in case of projected draws with nonconstant weights). If argument return_draws_matrix is TRUE, the returned matrix is converted to a draws_matrix (see posterior::draws_matrix()). In case of (i) the augmented-data projection or (ii) the latent projection with resp_oscale = TRUE and <refmodel>$family$cats being not NULL, the returned matrix (or draws_matrix) has an attribute called cats (the character vector of response categories) and the values of the matrix (or draws_matrix) are the predicted indices of the response categories (these indices refer to the order of the response categories from attribute cats).

If the prediction is done for more than one submodel, the output from above is returned for each submodel, giving a named list with one element for each submodel (the names of this list being the numbers of predictor terms of the submodels when counting the intercept, too).

Currently, proj_predict() ignores observation weights that are not equal to 1. A corresponding warning is thrown if this is the case.

In case of the latent projection and transform = FALSE:

• Output element pred contains the linear predictors without any modifications that may be due to the original response distribution (e.g., for a brms::cumulative() model, the ordered thresholds are not taken into account).

• Output element lpd contains the latent log predictive density values, i.e., those corresponding to the latent Gaussian distribution. If newdata is not NULL, this requires the latent response values to be supplied in a column called .<response_name> of newdata where <response_name> needs to be replaced by the name of the original response variable (if <response_name> contained parentheses, these have been stripped off by init_refmodel(); see the left-hand side of formula(<refmodel>)). For technical reasons, the existence of column <response_name> in newdata is another requirement (even though .<response_name> is actually used).