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300 lines
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Plaintext
300 lines
13 KiB
Plaintext
8 months ago
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{smcl}
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{* *! version 1.2.10 15may2007}{...}
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{cmd:help confa} {right: ({browse "http://www.stata-journal.com/article.html?article=st0169":SJ9-3: st0169})}
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{hline}
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{title:Title}
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{p2colset 5 14 16 2}{...}
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{p2col :{hi:confa} {hline 2}}Confirmatory factor analysis{p_end}
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{p2colreset}{...}
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{title:Syntax}
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{p 8 11 2}
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{cmd:confa}
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{it:factorspec} [{it:factorspec ...}]
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{ifin}
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{weight}
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[{cmd:,} {it:options}]
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{pstd}
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{it:factorspec} is{p_end}
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{p 8 27}
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{cmd:(}{it:factorname}{cmd::} {it:varlist}{cmd:)}{p_end}
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{synoptset 28 tabbed}{...}
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{synopthdr}
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{synoptline}
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{syntab:Model}
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{synopt :{cmdab:corr:elated(}{it:{help confa##corr:corrspec}} [...]{cmd:)}}correlated measurement errors{p_end}
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{synopt :{cmd:unitvar(}{it:factorlist}|{cmd:_all}{cmd:)}}set variance of the factor(s) to 1{p_end}
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{synopt :{opt free}}do not impose any constraints by default; seldom used{p_end}
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{synopt :{opt constr:aint(numlist)}}user-supplied constraints;
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must be used with {cmd:free}{p_end}
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{synopt: {cmdab:miss:ing}}full-information maximum-likelihood
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estimation with missing data{p_end}
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{synopt: {cmdab:usen:ames}}alternative coefficient labeling{p_end}
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{syntab:Variance estimation}
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{synopt :{opth vce(vcetype)}}{it:vcetype} may be
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{opt r:obust}, {opt cl:uster} {it:clustvar}, {cmd:oim}, {cmd:opg}, or
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{opt sb:entler}{p_end}
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{syntab:Reporting}
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{synopt :{opt l:evel(#)}}set confidence level; default is {cmd:level(95)}{p_end}
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{syntab:Other}
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{synopt :{opt svy}}respect survey settings{p_end}
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{synopt :{opth "from(confa##init_specs:init_specs)"}}control the starting values{p_end}
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{synopt :{opt loglevel(#)}}specify the details of output; programmers only{p_end}
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{synopt :{it:{help confa##maximize:ml_options}}}maximization options{p_end}
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{synoptline}
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{p2colreset}{...}
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{title:Description}
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{pstd}{cmd:confa} fits single-level confirmatory factor analysis (CFA) models.
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In a CFA model, each of the variables is assumed to
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be an indicator of underlying unobserved factor(s) with a linear dependence
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between the factors and observed variables:
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{center:{it:y_i} = {it:m_i} + {it:l_i1 f_1} + ... + {it:l_iK f_K} + {it:e_i}}
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{pstd}where {it:y_i} is the {it:i}th variable
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in the {it:varlist}, {it:m_i} is its mean,
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{it:l_ik} are the latent variable loading(s),
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{it:f_k} are the {it:k}th latent factor(s)
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({it:k} = 1,...,{it:K}),
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and {it:e_i} is the measurement error.
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Thus the specification
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{cmd:(}{it:factorname}{cmd::} {it:varlist}{cmd:)}
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is interpreted as follows: the latent factor
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{it:f_k} is given {it:factorname}
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(for display purposes only);
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the variables specified in
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the {it:varlist} have their loadings, {it:l_ik}, estimated;
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and all other observed variables in the model
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have fixed loadings, {it:l_ik} = 0.
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{pstd}The model is fitted by the maximum likelihood
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procedure; see {helpb ml}.
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{pstd}As with all latent variable models, a number
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of identifying assumptions need to be made about
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the latent variables {it:f_k}. They are assumed
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to have mean zero, and their scales are determined
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by the first variable in the {it:varlist}
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(i.e., {it:l_1k} is set to equal 1 for all {it:k}).
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Alternatively, identification can be achieved by setting the
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variance of the latent variable to 1 (with option
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{cmd:unitvar()}). More sophisticated identification
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conditions can be achieved by specifying the
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{cmd:free} option and then providing the necessary
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constraints in the {cmd:constraint()} option.
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{title:Options}
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{dlgtab:Model}
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{marker corr}{...}
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{phang}{cmd:correlated(}{it:corrspec} [{it:corrspec} ...]{cmd:)}
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specifies the correlated measurement errors {it:e_i} and {it:e_j}.
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Here {it:corrspec} is of the form{p_end}
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{pmore} [{cmd:(}]{it:varname_k}{cmd::}{it:varname_j}[{cmd:)}]{p_end}
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{pmore}where {it:varname_k} and {it:varname_j} are some of
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the observed variables in the model; that is, they must appear in at
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least one
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{it:factorspec} statement. If there
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is only one correlation specified, the optional parentheses
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shown above may be omitted. There should be no space between the colon and
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{it:varname_j}.
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{phang}{cmd:unitvar(}{it:factorlist}|{cmd:_all)} specifies the factors
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(from those named in {it:factorspec}) that will be identified by setting
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their variances to 1. The keyword {cmd:_all} can be used to specify that all
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the factors have their variances set to 1 (and hence the matrix Phi can be
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interpreted as a correlation matrix).
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{phang}{cmd:free} frees up all the parameters in the model (making it
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underidentified). It is then the user's responsibility to provide
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identification constraints and adjust the degrees of freedom of the tests.
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This option is seldom used.
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{phang}{cmd:constraint(}{it:numlist}{cmd:)} can be used to supply additional
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constraints. There are no checks implemented for
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redundant or conflicting constraints, so in some rare cases, the degrees of
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freedom may be incorrect. It might be wise to run the model with the
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{cmd:free} and {cmd:iterate(0)} options and then look at the names in the output of
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{cmd:matrix list e(b)} to find out the specific names of the parameters.
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{phang}{cmd:missing} requests full-information maximum-likelihood estimation
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with missing data. By default, estimation proceeds by listwise deletion.
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{phang}{cmd:usenames} requests that the parameters be labeled with the names
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of the variables and factors rather than with numeric values (indices of the
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corresponding matrices). It is a technical detail that does not affect the
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estimation procedure in any way, but it is helpful when working with several
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models simultaneously, tabulating the estimation results, and transferring the
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starting values between models.
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{dlgtab:Variance estimation}
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{phang}{cmd:vce(}{it:vcetype}{cmd:)} specifies different estimators of the
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variance-covariance matrix. Common estimators ({cmd:vce(oim)},
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observed information matrix, the default; {cmd:vce(robust)}, sandwich
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information matrix; {cmd:vce(cluster }{it:clustvar}{cmd:)}, clustered
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sandwich estimator with clustering on {it:clustvar}) are supported, along with
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their aliases (the {cmd:robust} and {cmd:cluster(}{it:clustvar}{cmd:)}
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options). See {manhelpi vce_option R}.
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{pmore}An additional estimator specific to structural equation modeling is the Satorra-Bentler
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estimator (Satorra and Bentler 1994). It is requested by
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{cmd:vce(}{cmdab:sben:tler}{cmd:)} or {cmd:vce(}{cmdab:sat:orrabentler}{cmd:)}. When
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this option is specified, additional Satorra-Bentler scaled and adjusted
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goodness-of-fit statistics are computed and presented in the output.
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{dlgtab:Reporting}
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{phang}{cmd:level(}{it:#}{cmd:)} changes the confidence level for
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confidence-interval reporting. See
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{helpb estimation_options##level():[R] estimation options}.
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{dlgtab:Other}
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{phang}{cmd:svy} instructs {cmd:confa} to respect the complex
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survey design, if one is specified. See {manhelp svyset SVY}.
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{marker init_specs}{...}
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{phang}{cmd:from(}{cmd:ones}|{cmd:2sls}|{cmd:ivreg}|{cmd:smart}|{it:ml_init_args}{cmd:)} provides the choice of starting values for the maximization
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procedure. The {cmd:ml} command's internal default is to set all parameters to zero,
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which leads to a noninvertible matrix, Sigma, and {cmd:ml} has to make many changes to those initial values to find anything feasible. Moreover, this
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initial search procedure sometimes leads to a domain where the likelihood is
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nonconcave, and optimization might fail there.
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{phang2}{cmd:ones} sets all the parameters to values of one except
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for covariance parameters (off-diagonal values of the Phi and Theta matrices),
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which are set to 0.5. This might be a reasonable choice for data with
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variances of observed variables close to 1 and positive covariances (no
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inverted scales).
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{phang2} {cmd:2sls} or {cmd:ivreg} requests that the initial parameters for the
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freely estimated loadings be set to the two-stage least-squares
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instrumental-variable estimates of Bollen (1996). This requires the model to
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be identified by scaling indicators (i.e., setting one of the loadings to 1)
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and to have at least three indicators for each latent variable. The instruments
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used are all other indicators of the same factor. No checks for their validity
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or search for other instruments is performed.
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{phang2} {cmd:smart} provides an alternative set of starting values that
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is often reasonable (e.g., assuming that the reliability of observed
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variables is 0.5).
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{pmore}Other specification of starting values, {it:ml_init_args}, should follow the format of
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{cmd:ml init}. Those typically include the list of starting values of the form
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{cmd:from(}{it:# #} ... {it:#}{cmd:, copy)} or a matrix of starting values
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{cmd:from(}{it:matname}{cmd:,} [{cmd:copy}|{cmd:skip}]{cmd:)}. See {manhelp ml R}.
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{phang}{cmd:loglevel(}{it:#}{cmd:)} specifies the details of output about
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different stages of model setup and estimation,
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and is likely of interest only to programmers. Higher numbers
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imply more output.
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{marker maximize}{...}
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{phang}For other options, see {helpb maximize}.
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{title:Remarks}
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{pstd}{cmd:confa} relies on {cmd:listutil} for some parsing tasks. If
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{cmd:listutil} is not installed in your Stata, {cmd:confa} will try to install
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it from the SSC ({cmd:ssc install listutil}). If the installation is
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unsuccessful, {cmd:confa} will issue an error message and stop.
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{pstd}In large models, {cmd:confa} may be restricted by Stata's
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{help limits:limit} of 244 characters in the string expression. You might
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want to {helpb rename} your variables and give them shorter names.
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{title:Examples}
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{pstd}Holzinger-Swineford data{p_end}
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{phang2}{cmd:. use hs-cfa}
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{pstd}Basic model with different starting values{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(ones)}{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(iv)}{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(smart)}
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{pstd}Robust and Satorra-Bentler standard errors{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(iv) vce(sbentler)}{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(iv) robust}
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{pstd}Correlated measurement errors{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(iv) corr( x7:x8 )}
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{pstd}An alternative identification{p_end}
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{phang2}{cmd:. confa (vis: x1 x2 x3) (text: x4 x5 x6) (math: x7 x8 x9), from(ones) unitvar(_all) corr(x7:x8)}
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{pstd}Missing data{p_end}
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{phang2}{cmd:. forvalues k=1/9 {c -(}}{p_end}
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{phang2}{cmd:. gen y`k' = cond( uniform()<0.0`k', ., x`k')}{p_end}
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{phang2}{cmd:. {c )-}}{p_end}
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{phang2}{cmd:. confa (vis: y1 y2 y3) (text: y4 y5 y6) (math: y7 y8 y9), from(iv)}{p_end}
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{phang2}{cmd:. confa (vis: y1 y2 y3) (text: y4 y5 y6) (math: y7 y8 y9), from(iv) missing difficult}{p_end}
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{title:Saved results}
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{pstd}Aside from the standard {help estcom:estimation results}, {cmd:confa}
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also performs the overall goodness-of-fit test with results
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saved in {cmd:e(lr_u)}, {cmd:e(df_u)}, and {cmd:e(p_u)}
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for the test statistic, its goodness of fit, and the resulting
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p-value. A test versus the model with the independent data
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is provided with the {helpb ereturn} results with the {cmd:indep}
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suffix. Here, under the null hypothesis,
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the covariance matrix is assumed diagonal.
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{pstd}When {cmd:sbentler} is specified, Satorra-Bentler standard errors are
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computed and posted as {cmd:e(V)}, with intermediate matrices saved in
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{cmd:e(SBU)}, {cmd:e(SBV)}, {cmd:e(SBGamma)}, and {cmd:e(SBDelta)}. Also,
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several corrected overall fit test statistics is reported and saved: T scaled
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({cmd:ereturn} results with the {cmd:Tsc} suffix) and T adjusted ({cmd:ereturn}
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results with the {cmd:Tadj} suffix). Scalars {cmd:e(SBc)} and {cmd:e(SBd)} are
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the scaling constants, with the latter also being the approximate degrees of
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freedom of the chi-squared test from Satorra and Bentler (1994), and T double
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bar from Yuan and Bentler (1997) (with the {cmd:T2} suffix).
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{title:References}
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{phang}Bollen, K. A. 1996. An alternative two stage least squares (2SLS)
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estimator for latent variable equations. {it:Psychometrika} 61: 109-121.
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{phang}Satorra, A., and P. M. Bentler. 1994. Corrections to test statistics and standard errors in covariance structure analysis. In {it:Latent Variables Analysis}, ed. A. von Eye and C. C. Clogg, 399-419. Thousand Oaks, CA: Sage.
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{phang} Yuan, K.-H., and P. M. Bentler. 1997. Mean and covariance structure analysis: Theoretical and practical improvements.
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{it:Journal of the American Statistical Association} 92: 767-774.
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{title:Author}
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{pstd}Stanislav Kolenikov{p_end}
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{pstd}Department of Statistics{p_end}
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{pstd}University of Missouri{p_end}
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{pstd}Columbia, MO{p_end}
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{pstd}kolenikovs@missouri.edu{p_end}
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{title:Also see}
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{psee}
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Article: {it:Stata Journal}, volume 9, number 3: {browse "http://www.stata-journal.com/article.html?article=st0169":st0169}
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{psee}Online: {helpb factor}, {helpb bollenstine}, {helpb confa_estat:confa postestimation} (if installed)
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{p_end}
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