EVOLUTION-MANAGER

Edit File: glance.betamfx.html

<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"><html xmlns="http://www.w3.org/1999/xhtml"><head><title>R: Glance at a(n) betamfx object</title> <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> <link rel="stylesheet" type="text/css" href="R.css" /> </head><body> <table width="100%" summary="page for glance.betamfx {broom}"><tr><td>glance.betamfx {broom}</td><td style="text-align: right;">R Documentation</td></tr></table> <h2>Glance at a(n) betamfx object</h2> <h3>Description</h3> <p>Glance accepts a model object and returns a <code><a href="../../tibble/html/tibble.html">tibble::tibble()</a></code> with exactly one row of model summaries. The summaries are typically goodness of fit measures, p-values for hypothesis tests on residuals, or model convergence information. </p> <p>Glance never returns information from the original call to the modeling function. This includes the name of the modeling function or any arguments passed to the modeling function. </p> <p>Glance does not calculate summary measures. Rather, it farms out these computations to appropriate methods and gathers the results together. Sometimes a goodness of fit measure will be undefined. In these cases the measure will be reported as <code>NA</code>. </p> <p>Glance returns the same number of columns regardless of whether the model matrix is rank-deficient or not. If so, entries in columns that no longer have a well-defined value are filled in with an <code>NA</code> of the appropriate type. </p> <h3>Usage</h3> <pre> ## S3 method for class 'betamfx' glance(x, ...) </pre> <h3>Arguments</h3> <table summary="R argblock"> <tr valign="top"><td><code>x</code></td> <td> <p>A <code>betamfx</code> object.</p> </td></tr> <tr valign="top"><td><code>...</code></td> <td> <p>Additional arguments. Not used. Needed to match generic signature only. <strong>Cautionary note:</strong> Misspelled arguments will be absorbed in <code>...</code>, where they will be ignored. If the misspelled argument has a default value, the default value will be used. For example, if you pass <code>conf.lvel = 0.9</code>, all computation will proceed using <code>conf.level = 0.95</code>. Additionally, if you pass <code>newdata = my_tibble</code> to an <code><a href="reexports.html">augment()</a></code> method that does not accept a <code>newdata</code> argument, it will use the default value for the <code>data</code> argument.</p> </td></tr> </table> <h3>Details</h3> <p>This glance method wraps <code><a href="glance.betareg.html">glance.betareg()</a></code> for <code><a href="../../mfx/html/betamfx.html">mfx::betamfx()</a></code> objects. </p> <h3>Value</h3> <p>A <code><a href="../../tibble/html/tibble.html">tibble::tibble()</a></code> with exactly one row and columns: </p> <table summary="R valueblock"> <tr valign="top"><td><code>AIC</code></td> <td> <p>Akaike's Information Criterion for the model.</p> </td></tr> <tr valign="top"><td><code>BIC</code></td> <td> <p>Bayesian Information Criterion for the model.</p> </td></tr> <tr valign="top"><td><code>df.null</code></td> <td> <p>Degrees of freedom used by the null model.</p> </td></tr> <tr valign="top"><td><code>df.residual</code></td> <td> <p>Residual degrees of freedom.</p> </td></tr> <tr valign="top"><td><code>logLik</code></td> <td> <p>The log-likelihood of the model. [stats::logLik()] may be a useful reference.</p> </td></tr> <tr valign="top"><td><code>nobs</code></td> <td> <p>Number of observations used.</p> </td></tr> <tr valign="top"><td><code>pseudo.r.squared</code></td> <td> <p>Like the R squared statistic, but for situations when the R squared statistic isn't defined.</p> </td></tr> </table> <h3>See Also</h3> <p><code><a href="glance.betareg.html">glance.betareg()</a></code>, <code><a href="../../mfx/html/betamfx.html">mfx::betamfx()</a></code> </p> <p>Other mfx tidiers: <code><a href="augment.betamfx.html">augment.betamfx</a>()</code>, <code><a href="augment.mfx.html">augment.mfx</a>()</code>, <code><a href="glance.mfx.html">glance.mfx</a>()</code>, <code><a href="tidy.betamfx.html">tidy.betamfx</a>()</code>, <code><a href="tidy.mfx.html">tidy.mfx</a>()</code> </p> <h3>Examples</h3> <pre> ## Not run: library(mfx) ## Simulate some data set.seed(12345) n = 1000 x = rnorm(n) ## Beta outcome y = rbeta(n, shape1 = plogis(1 + 0.5 * x), shape2 = (abs(0.2*x))) ## Use Smithson and Verkuilen correction y = (y*(n-1)+0.5)/n d = data.frame(y,x) mod_betamfx = betamfx(y ~ x | x, data = d) tidy(mod_betamfx, conf.int = TRUE) ## Compare with the naive model coefficients of the equivalent betareg call (not run) # tidy(betamfx(y ~ x | x, data = d), conf.int = TRUE) augment(mod_betamfx) glance(mod_betamfx) ## End(Not run) </pre> <hr /><div style="text-align: center;">[Package <em>broom</em> version 0.7.0 <a href="00Index.html">Index</a>]</div> </body></html>