Input matrix, of dimension nobs x nvars; each row is an observation vector. If it is a sparse matrix, it is assumed to be unstandardized. It should have attributes xm and xs, where xm(j) and xs(j) are the centering and scaling factors for variable j respsectively. If it is not a sparse matrix, it is assumed that any standardization needed has already been done.

Quantitative response variable.

Observation weights. glmnet.fit does NOT standardize these weights.

A single value for the lambda hyperparameter.

The elasticnet mixing parameter, with 0 ≤ α ≤ 1. The penalty is defined as

(1-α)/2||β||_2^2+α||β||_1.

alpha=1 is the lasso penalty, and alpha=0 the ridge penalty.

A vector of length nobs that is included in the linear predictor. Useful for the "poisson" family (e.g. log of exposure time), or for refining a model by starting at a current fit. Default is NULL. If supplied, then values must also be supplied to the predict function.

A description of the error distribution and link function to be used in the model. This is the result of a call to a family function. Default is gaussian(). (See family for details on family functions.)

Should intercept be fitted (default=TRUE) or set to zero (FALSE)?

Convergence threshold for coordinate descent. Each inner coordinate-descent loop continues until the maximum change in the objective after any coefficient update is less than thresh times the null deviance. Default value is 1e-10.

Maximum number of passes over the data; default is 10^5. (If a warm start object is provided, the number of passes the warm start object performed is included.)

Separate penalty factors can be applied to each coefficient. This is a number that multiplies lambda to allow differential shrinkage. Can be 0 for some variables, which implies no shrinkage, and that variable is always included in the model. Default is 1 for all variables (and implicitly infinity for variables listed in exclude). Note: the penalty factors are internally rescaled to sum to nvars.

Indices of variables to be excluded from the model. Default is none. Equivalent to an infinite penalty factor.

Vector of lower limits for each coefficient; default -Inf. Each of these must be non-positive. Can be presented as a single value (which will then be replicated), else a vector of length nvars.

Vector of upper limits for each coefficient; default Inf. See lower.limits.

Either a glmnetfit object or a list (with names beta and a0 containing coefficients and intercept respectively) which can be used as a warm start. Default is NULL, indicating no warm start. For internal use only.

Was glmnet.fit() called from glmnet.path()? Default is FALSE.This has implications for computation of the penalty factors.

Return the warm start object? Default is FALSE.

Controls how much information is printed to screen. If trace.it=2, some information about the fitting procedure is printed to the console as the model is being fitted. Default is trace.it=0 (no information printed). (trace.it=1 not used for compatibility with glmnet.path.)

Intercept value.

A nvars x 1 matrix of coefficients, stored in sparse matrix format.

The number of nonzero coefficients.

Dimension of coefficient matrix.

Lambda value used.

The fraction of (null) deviance explained. The deviance calculations incorporate weights if present in the model. The deviance is defined to be 2*(loglike_sat - loglike), where loglike_sat is the log-likelihood for the saturated model (a model with a free parameter per observation). Hence dev.ratio=1-dev/nulldev.

Null deviance (per observation). This is defined to be 2*(loglike_sat -loglike(Null)). The null model refers to the intercept model.

Total passes over the data.

Error flag, for warnings and errors (largely for internal debugging).

A logical variable indicating whether an offset was included in the model.

The call that produced this object.

Number of observations.

If save.fit=TRUE, output of FORTRAN routine, used for warm starts. For internal use only.

Family used for the model.

A logical variable: was the algorithm judged to have converged?

A logical variable: is the fitted value on the boundary of the attainable values?

Objective function value at the solution.