elm: Efficient Fitting of Linear Models
In eflm: Efficient Fitting of Linear and Generalized Linear Models

Description Usage Arguments Details Value Examples

View source: R/elm.R

Efficient Linear Model ("elm") is used to fit linear models in an equivalent way to "lm" but in a reduced time depending on the design matrix.

elm(
  formula,
  data,
  subset,
  weights,
  na.action,
  method = "qr",
  model = TRUE,
  x = FALSE,
  y = FALSE,
  qr = TRUE,
  singular.ok = TRUE,
  contrasts = NULL,
  offset,
  reduce = TRUE,
  ...
)

`formula`	an object of class `"formula"` (or one that can be coerced to that class): a symbolic description of the model to be fitted. The details of model specification are given under ‘Details’.
`data`	an optional data frame, list or environment (or object coercible by `as.data.frame` to a data frame) containing the variables in the model. If not found in `data`, the variables are taken from `environment(formula)`, typically the environment from which `lm` is called.
`subset`	an optional vector specifying a subset of observations to be used in the fitting process.
`weights`	an optional vector of weights to be used in the fitting process. Should be `NULL` or a numeric vector. If non-NULL, weighted least squares is used with weights `weights` (that is, minimizing `sum(w*e^2)`); otherwise ordinary least squares is used.
`na.action`	a function which indicates what should happen when the data contain `NA`s. The default is set by the `na.action` setting of `options`, and is `na.fail` if that is unset. The ‘factory-fresh’ default is `na.omit`. Another possible value is `NULL`, no action. Value `na.exclude` can be useful.
`method`	the method to be used in fitting the model. The default method `"eglm.wfit"` uses iteratively reweighted least squares (IWLS): the alternative `"model.frame"` returns the model frame and does no fitting. User-supplied fitting functions can be supplied either as a function or a character string naming a function, with a function which takes the same arguments as `glm.fit` from the stats package. If specified as a character string it is looked up from within the eflm namespace.
`model`	a logical value indicating whether model frame should be included as a component of the returned value.
`x`	logical values indicating whether the model matrix (`x`) and the response vector (`y`) used in the fitting process should be returned as components of the returned value.
`y`	logical values indicating whether the model matrix (`x`) and the response vector (`y`) used in the fitting process should be returned as components of the returned value.
`qr`	logical. If TRUE the corresponding QR decomposition component of the fit is returned.
`singular.ok`	logical; if FALSE a singular fit is an error.
`contrasts`	an optional list. See the `contrasts.arg` of `model.matrix.default`.
`offset`	this can be used to specify an a priori known component to be included in the linear predictor during fitting. This should be `NULL` or a numeric vector or matrix of extents matching those of the response. One or more `offset` terms can be included in the formula instead or as well, and if more than one are specified their sum is used. See `model.offset`.
`reduce`	logical; if TRUE an alternate design matrix of `p * p` is used for the fitting instead of the traditional `n * p` design matrix.
`...`	For eglm: arguments to be used to form the default control argument if it is not supplied directly. For weights: further arguments passed to or from other methods.

Models for elm are specified symbolically. A typical model has the form response ~ terms where response is the (numeric) response vector and terms is a series of terms which specifies a linear predictor for response. A terms specification of the form first + second indicates all the terms in first together with all the terms in second with duplicates removed. A specification of the form first:second indicates the set of terms obtained by taking the interactions of all terms in first with all terms in second. The specification first*second indicates the cross of first and second. This is the same as first + second + first:second, and exactly the same as "lm" from the stats package.

An object of class "elm" that behaves the same way as the "lm" class, see the function "lm". This output also includes the logical "reduce" and, depending on it, the reduced design matrix "xtx" when the reduce argument is set to TRUE.