*! version 2.4 june2020 *! Myriam Blanchin - Priscilla Brisson ************************************************************************************************************ * ROSALI: RespOnse-Shift ALgorithm at Item-level * Response-shift detection based on Rasch models family * * Version 1 : December 21, 2016 (Myriam Blanchin) /*rspcm122016*/ * Version 1.1 : October 13, 2017 (Myriam Blanchin) /*option: MODA, automatic recoding of unused response categories*/ * Version 2 : April, 2018 (Myriam Blanchin - Priscilla Brisson) /*option: GROUP, dichotomous group variable*/ * Version 2.1 : October, 2018 (Myriam Blanchin - Priscilla Brisson) /* Version 1.1 + Version 2 */ * Version 2.2 : February, 2019 (Priscilla Brisson) /* option nodif, optimization */ * Version 2.3 : December, 2019 (Priscilla Brisson) /* option detail, + petites corrections */ * Version 2.4 : June, 2020 (Myriam Blanchin) /* debug option detail + step C, modifs sorties et help */ * * Myriam Blanchin, SPHERE, Faculty of Pharmaceutical Sciences - University of Nantes - France * myriam.blanchin@univ-nantes.fr * * Priscilla Brisson, SPHERE, Faculty of Pharmaceutical Sciences - University of Nantes - France * priscilla.brisson@univ-nantes.fr * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ************************************************************************************************************/ program define rosali, rclass timer clear 1 timer on 1 syntax varlist(min=2 numeric) [if] [,GROUP(varlist) NODIF PRO DETail] preserve version 15 tempfile saverspcm capture qui save `saverspcm',replace local save1=_rc if "`if'"!="" { qui keep `if' } if "`pro'" != "" { di "START" } /**************************************************************************/ set more off set matsize 5000 constraint drop _all local gp "`group'" tokenize `varlist' local nbitems:word count `varlist' /* Vérif nb d'items pair */ local mod=mod(`nbitems',2) if `mod'!=0 { di as error "You must enter an even number of items : the first half of the items represents the items at time 1 and the second half the items at time 2" error 198 exit } local nbitems=`nbitems'/2 if "`group'"=="" & "`nodif'"!="" { di as error "nodif can only be used with the group option ({hi:nodif} option). Please correct this option." error 198 exit } local nbc: word count `group' if `nbc' >= 2 { di as error "Only one variable can be used for group option ({hi:group} option). Please correct this option." error 198 exit } /* Vérif qu'il y a 2 groupes si l'option groupe est choisie */ if "`group'"!="" { qui tab `group' local nbgrp = r(r) if `nbgrp' != 2 { di as error "Only 2 groups are possible for the group option ({hi:group} option). Please correct this option." error 420 exit } } /* recoder la variable de groupe en 0, 1*/ if "`group'"!="" { qui tab `gp', matrow(rep) qui matrix list rep if rep[1,1]+rep[2,1] != 1 & rep[1,1]*rep[2,1] != 0 { forvalues i=1/`=rowsof(rep)'{ qui replace `gp'=`i'-1 if `gp'==rep[`i',1] di "WARNING : `gp' `=rep[`i',1]' is now `gp' `=`i'-1' " } } forvalues g = 0/1 { qui tab `gp' if `gp' == `g' local nbp_gp`g' = r(N) } } /*item rename*/ /* Items au temps 1 : 1 à nbitems ``j'' Items au temps 2 : nbitems à 2*nbitems ``=`j'+`nbitems''' Si t varie, puis num item : ``=(`t'-1)*`nbitems'+`j''' */ local com_z = 0 // Indicatrice de recodage /*verif modalités répondues*/ if "`gp'" == "" { // Si pas d'option groupe forvalues j = 1 / `nbitems' { local recoda_`j' = 0 qui tab ``j'', matrow(rect1_`j') // Récupération des infos moda du temps 1 local minm`j'_t1 = rect1_`j'[1,1] local maxm`j'_t1 = rect1_`j'[r(r),1] qui tab ``=`j'+`nbitems''', matrow(rect2_`j') // Récupération des infos moda du temps 2 local minm`j'_t2 = rect2_`j'[1,1] local maxm`j'_t2 = rect2_`j'[r(r),1] local minm_`j' = min(`minm`j'_t1',`minm`j'_t2') // Info moda pour l'item j local maxm_`j' = max(`maxm`j'_t1',`maxm`j'_t2') local nbm_`j' = `=`maxm_`j''-`minm_`j''' if `minm_`j'' != 0 & `com_z' == 0 { local com_z = 1 } //Recodage des réponses en 0, 1, 2, etc... forvalues r = 0/`=`maxm_`j''-1' { qui replace ``j'' = `r' if ``j'' == `=`r'+`minm_`j''' qui replace ``=`j'+`nbitems''' = `r' if ``=`j'+`nbitems''' == `=`r'+`minm_`j''' } // Vérif. Que toutes les modas sont utilisées & concordance entre temps forvalues m = 0/`nbm_`j'' { qui count if ``j'' == `m' local nb_rn1 = r(N) qui count if ``=`j'+`nbitems''' == `m' local nb_rn2 = r(N) local nb_rn = min(`nb_rn1',`nb_rn2') if `nb_rn' == 0 { // Une moda n'est pas utilisée local recoda_`j' = 1 if `m' == 0 | `m' <= `minm`j'_t1' | `m' <= `minm`j'_t2' { // La moda 0 ou les moda min ne sont pas utilisées local stop = 1 forvalues k = 1/`=`nbm_`j''-`m'' { qui count if ``j'' == `=`m' + `k'' local v`k'1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' local v`k'2 = r(N) if (`v`k'1' != 0 | `v`k'2' != 0) & `stop' != 0 { qui replace ``j''= `=`m'+`k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m'+`k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'+`k'' merged " local stop = 0 } } } else if `m' >= `maxm`j'_t1' | `m' >= `maxm`j'_t2' | `m' == `maxm_`j'' { // La (ou les) moda max ne sont pas utilisée(s) local stop = 1 forvalues k = 1/`m' { qui count if ``j'' == `=`m' - `k'' local v`k'1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' local v`k'2 = r(N) if (`v`k'1' != 0 | `v`k'2' != 0) & `stop' != 0 { qui replace ``j''=`=`m' - `k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m' - `k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'-`k'' merged" local stop = 0 } } } else { if runiform()>0.5{ // Tirage au sort pour regrouper local stop = 1 forvalues k = 1/`m' { qui count if ``j'' == `=`m' - `k'' local v`k'1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' local v`k'2 = r(N) if (`v`k'1' != 0 | `v`k'2' != 0) & `stop' != 0 { qui replace ``j''= `=`m'-`k'' if ``j''==`m' qui replace ``=`j'+`nbitems''' =`=`m'-`k'' if ``=`j'+`nbitems''' ==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'-`k'' merged" local stop = 0 } } } else { local stop = 1 forvalues k = 1/`=`nbm_`j''-`m'' { qui count if ``j'' == `=`m' + `k'' local v`k'1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' local v`k'2 = r(N) if (`v`k'1' != 0 | `v`k'2' != 0) & `stop' != 0 { qui replace ``j''=`=`m' + `k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m' + `k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'+`k'' merged" local stop = 0 } else { if `stop' != 0 { qui replace ``j''= `nbm_`j'' if ``j''==`m' qui replace ``=`j'+`nbitems'''= `nbm_`j'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `nbm_`j'' merged" local stop = 0 } } } } } } } } } else { // Cas où l'option groupe est utilisée forvalues j = 1 / `nbitems' { local recoda_`j' = 0 qui tab ``j'' if `gp' == 0, matrow(rect1_g0_`j') matcell(nbrt1_g0_`j') // Récupération des infos moda du temps 1pour chaque groupe local minm`j'_t1_g0 = rect1_g0_`j'[1,1] local maxm`j'_t1_g0 = rect1_g0_`j'[r(r),1] qui tab ``j'' if `gp' == 1, matrow(rect1_g1_`j') matcell(nbrt1_g1_`j') local minm`j'_t1_g1 = rect1_g1_`j'[1,1] local maxm`j'_t1_g1 = rect1_g1_`j'[r(r),1] qui tab ``=`j'+`nbitems''' if `gp' == 0, matrow(rect2_g0_`j') matcell(nbrt2_g0_`j') // Récupération des infos moda du temps 2 pour chaque groupe local minm`j'_t2_g0 = rect2_g0_`j'[1,1] local maxm`j'_t2_g0 = rect2_g0_`j'[r(r),1] qui tab ``=`j'+`nbitems''' if `gp' == 1 , matrow(rect2_g1_`j') matcell(nbrt2_g1_`j') local minm`j'_t2_g1 = rect2_g0_`j'[1,1] local maxm`j'_t2_g1 = rect2_g0_`j'[r(r),1] local minm_`j' = min(`minm`j'_t1_g0',`minm`j'_t2_g0',`minm`j'_t1_g1',`minm`j'_t2_g1') // Info moda pour l'item j local maxm_`j' = max(`maxm`j'_t1_g0',`maxm`j'_t2_g0',`maxm`j'_t1_g1',`maxm`j'_t2_g1') local nbm_`j' = `=`maxm_`j''-`minm_`j''+1' if `minm_`j'' != 0 & `com_z' == 0 { local com_z = 1 } //Recodage des réponses en 0, 1, 2, etc... forvalues r = 0/`=`maxm_`j''-1' { qui replace ``j'' = `r' if ``j'' == `=`r'+`minm_`j''' qui replace ``=`j'+`nbitems''' = `r' if ``=`j'+`nbitems''' == `=`r'+`minm_`j''' } // Vérif. Que toutes les modas sont utilisées & concordance entre temps forvalues m = 0/`=`nbm_`j''-1' { qui count if ``j'' == `m' & `gp' == 0 local nb_rn1_g0 = r(N) qui count if ``j'' == `m' & `gp' == 1 local nb_rn1_g1 = r(N) qui count if ``=`j'+`nbitems''' == `m' & `gp' == 0 local nb_rn2_g0 = r(N) qui count if ``=`j'+`nbitems''' == `m' & `gp' == 1 local nb_rn2_g1 = r(N) local nb_rn = min(`nb_rn1_g0',`nb_rn2_g0',`nb_rn1_g1',`nb_rn2_g1') if `nb_rn' == 0 { // Une moda n'est pas utilisée local recoda_`j' = 1 if `m' == 0 | `m' < `minm`j'_t1_g0' | `m' < `minm`j'_t2_g0' | `m' < `minm`j'_t1_g1' | `m' < `minm`j'_t2_g1' { // La moda 0 n'est pas utilisée local stop = 1 forvalues k = 1/`=`nbm_`j''-`m'' { qui count if ``j'' == `=`m' + `k'' & `gp' == 0 local v`k'1_0 = r(N) qui count if ``j'' == `=`m' + `k'' & `gp' == 1 local v`k'1_1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' & `gp' == 0 local v`k'2_0 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' & `gp' == 1 local v`k'2_1 = r(N) if (`v`k'1_0' != 0 | `v`k'2_0' != 0 | `v`k'1_1' != 0 | `v`k'2_1' != 0) & `stop' != 0 { qui replace ``j''= `=`m'+`k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m'+`k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'+`k'' merged" local stop = 0 } } } else if `m' == `=`nbm_`j''-1' | `m' >= `maxm`j'_t2_g0' | `m' >= `maxm`j'_t1_g1' | `m' >= `maxm`j'_t2_g1' { // La moda max n'est pas utilisée local stop = 1 forvalues k = 1/`=`m'' { qui count if ``j'' == `=`m' - `k'' & `gp' == 0 local v`k'1_0 = r(N) qui count if ``j'' == `=`m' - `k'' & `gp' == 1 local v`k'1_1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' & `gp' == 0 local v`k'2_0 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' & `gp' == 1 local v`k'2_1 = r(N) if (`v`k'1_0' != 0 | `v`k'2_0' != 0 | `v`k'1_1' != 0 | `v`k'2_1' != 0 ) & `stop' != 0 { qui replace ``j''= `=`m' - `k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''= `=`m' - `k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'-`k'' merged" local stop = 0 } } } else { // Moda central non utilisée if runiform()>0.5{ // Tirage au sort pour regrouper local stop = 1 forvalues k = 1/`m' { qui count if ``j'' == `=`m' - `k'' & `gp' == 0 local v`k'1_0 = r(N) qui count if ``j'' == `=`m' - `k'' & `gp' == 1 local v`k'1_1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' & `gp' == 0 local v`k'2_0 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' - `k'' & `gp' == 1 local v`k'2_1 = r(N) if (`v`k'1_0' != 0 | `v`k'2_0' != 0 | `v`k'1_1' != 0 | `v`k'2_1' != 0) & `stop' != 0 { qui replace ``j''= `=`m'-`k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m'-`k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'-`k'' merged" local stop = 0 } } } else { local stop = 1 forvalues k = 1/`=`nbm_`j''-`m'' { qui count if ``j'' == `=`m' + `k'' & `gp' == 0 local v`k'1_0 = r(N) qui count if ``j'' == `=`m' + `k'' & `gp' == 1 local v`k'1_1 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' & `gp' == 0 local v`k'2_0 = r(N) qui count if ``=`j'+`nbitems''' == `=`m' + `k'' & `gp' == 1 local v`k'2_1 = r(N) if (`v`k'1_0' != 0 | `v`k'2_0' != 0 | `v`k'1_1' != 0 | `v`k'2_1' != 0) & `stop' != 0{ qui replace ``j''=`=`m' + `k'' if ``j''==`m' qui replace ``=`j'+`nbitems'''=`=`m' + `k'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `=`m'+`k'' merged" local stop = 0 } else { if `stop' != 0 { qui replace ``j''= `nbm_`j'' if ``j''==`m' qui replace ``=`j'+`nbitems'''= `nbm_`j'' if ``=`j'+`nbitems'''==`m' di "WARNING: items ``j'' & ``=`j'+`nbitems''': answers `m' and `nbm_`j'' merged" local stop = 0 } } } } } } } } } if `com_z' == 1 { di di "WARNING : Automatic recoding, the first response category is 0. see {help rosali:help rosali}." di } forvalues j =1/`nbitems' { qui tab ``j'', matrow(rec) // Récupération des infos moda du temps 1 local nbm`j'_t1 = r(r) qui tab ``=`j'+`nbitems''' // Récupération des infos moda du temps 2 local nbm`j'_t2 = r(r) local nbm_`j' = max(`nbm`j'_t1', `nbm`j'_t2') //Recodage des réponses en 0, 1, 2, etc... forvalues r = 0/`=`nbm_`j''-1' { qui replace ``j'' = `r' if ``j'' == `=rec[`=`r'+1',1]' qui replace ``=`j'+`nbitems''' = `r' if ``=`j'+`nbitems''' == `=rec[`=`r'+1',1]' } } /* Calcul de nbmoda & nbdif */ forvalues j = 1/`nbitems' { qui tab ``j'' local nbmoda_`j' = r(r) local nbdif_`j' = r(r) - 1 } local maxdif = 0 local nbmoda_sum = 0 forvalues j = 1/`nbitems' { if `maxdif' < `nbdif_`j'' { local maxdif = `nbdif_`j'' } local nbmoda_sum = `nbmoda_sum' + `nbdif_`j'' } /* Au moins 2 moda par item */ forvalues j=1/`nbitems' { if `nbmoda_`j'' == 1 { di as error "``j'' have only one response category, the analysis can be performed only if each item has at least 2 response categories" error 198 exit } } local coln "" forvalues j =1 /`nbitems' { local coln "`coln' ``j''" } matrix nbmod = J(2,`nbitems',.) matrix colnames nbmod = `coln' matrix rownames nbmod = NbModa Recoding forvalues j = 1/`nbitems' { matrix nbmod[1,`j'] = `nbmoda_`j'' matrix nbmod[2,`j'] = `recoda_`j'' } *Erreur si plus de 200 difficultés local nb_test = 0 forvalues j=1/`nbitems' { local nb_test = `nb_test'+`nbmoda_`j'' -1 } if `nb_test' >= 200 { di as error "The total number of items difficulties to be estimated must be less than 200 ({hi:moda} option option)." error 198 exit } local nbitp = 0 forvalues j = 1/`nbitems' { if `nbmoda_`j'' >= 2 { local nbitp = `nbitp' + 1 } } qui count local nbpat = r(N) /********************************* * AFFICHAGE INITIAL *********************************/ di di _col(5) "{hline 78}" di _col(15) "Time 1" _col(42) "Time 2" _col(65) "Nb of Answer Cat." di _col(5) "{hline 78}" forvalues j=1/`nbitems' { di as text _col(15) abbrev("``j''",20) _col(42) abbrev("``=`j'+`nbitems'''",20) _col(65) `nbmoda_`j'' } di _col(5) "{hline 78}" if "`group'" != "" { di _col(10) "Nb of patients: " abbrev("`gp'",20) " 0 = `nbp_gp0' ;", abbrev("`gp'",20) " 1 = `nbp_gp1'" di _col(5) "{hline 78}" } else { di _col(10) "Nb. of patients: `nbpat'" di _col(5) "{hline 78}" } di if `nbitems' == 1 { di as error "The analysis can only be performed with at least 2 items." error 198 exit } forvalues j = 1/`nbitems' { if `nbmoda_`j'' == 2 { di "WARNING: ``j'' has only 2 response categories, no distinction can be made between uniform or non-uniform recalibration." } if `nbmoda_`j'' == 1 { di as error "Only `nbmoda_`j'' response categories of item ``j'' were used by the sample, the analysis cannot be performed." error 198 exit } if `nbmoda_`j'' == 0 { di as error "No response categories of item ``j'' were used by the sample, the analysis cannot be performed." error 198 exit } } di if "`group'" != "" { di _col(2) as text "For all models : - mean of the latent trait in `gp' 0 at time 1 is constrained at 0" di _col(19) "- equality of variances between groups" di } else { di _col(2) as text "For all models : mean of the latent trait at time 1 is constrained at 0" di } /********************************* * DEFINITION DES CONTRAINTES *********************************/ if "`group'"!="" { // Contraintes si option groupe *EGALITE ENTRE GROUPES A T1 (1-200) forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ constraint `=0+`maxdif'*(`j'-1)+`p'' [`p'.``j'']0bn.`gp'=[`p'.``j'']1.`gp' } } *DIF UNIFORME A T1 (201-400) forvalues j=1/`nbitems'{ forvalues p=2/`nbdif_`j''{ constraint `=200+`maxdif'*(`j'-1)+`p'' [`p'.``j'']1.`gp'-[`p'.``j'']0bn.`gp'=`p'*[1.``j'']1.`gp'-`p'*[1.``j'']0bn.`gp' } } *EGALITES ENTRE T1 et T2, groupe 0 (401-600) forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ constraint `=400+`maxdif'*(`j'-1)+`p'' [`p'.``j'']0bn.`gp'=[`p'.``=`j'+`nbitems''']0bn.`gp' } } *EGALITES ENTRE T1 et T2, groupe 1 (601-800) forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ constraint `=600+`maxdif'*(`j'-1)+`p'' [`p'.``j'']1.`gp'=[`p'.``=`j'+`nbitems''']1.`gp' } } * RC COMMUNE (801-1000) forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ constraint `=800+`maxdif'*(`j'-1)+`p'' [`p'.``=`j'+`nbitems''']0bn.`gp'-[`p'.``j'']0bn.`gp'=[`p'.``=`j'+`nbitems''']1.`gp'-[`p'.``j'']1.`gp' } } * RC UNIFORME, groupe 0 (1001-1200) forvalues j=1/`nbitems'{ forvalues p=2/`nbdif_`j''{ constraint `=1000+`maxdif'*(`j'-1)+`p'' `p'*([1.``=`j'+`nbitems''']0bn.`gp'-[1.``j'']0bn.`gp')=[`p'.``=`j'+`nbitems''']0bn.`gp'-[`p'.``j'']0bn.`gp' } } * RC UNIFORME, groupe 1 (1201-1400) forvalues j=1/`nbitems'{ forvalues p=2/`nbdif_`j''{ constraint `=1200+`maxdif'*(`j'-1)+`p'' `p'*([1.``=`j'+`nbitems''']1.`gp'-[1.``j'']1.`gp')=[`p'.``=`j'+`nbitems''']1.`gp'-[`p'.``j'']1.`gp' } } *Sans interaction temps x groupe constraint 1999 [/]:mean(THETA2)#1.`gp'-[/]:mean(THETA2)#0bn.`gp'=[/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' } else { //Contraintes si pas d'option groupe *EGALITE ENTRE T1 et T2 (401-600) forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ constraint `=400+`maxdif'*(`j'-1)+`p'' [`p'.``j'']:_cons = [`p'.``=`j'+`nbitems''']:_cons } } *RC UNIFORME (1001-1200) forvalues j=1/`nbitems'{ forvalues p=2/`nbdif_`j''{ constraint `=1000+`maxdif'*(`j'-1)+`p'' `p'*([1.``=`j'+`nbitems''']:_cons - [1.``j'']:_cons)=[`p'.``=`j'+`nbitems''']:_cons -[`p'.``j'']:_cons } } } /********************************* * MATRICE DES RESULTATS *********************************/ matrix dif_rc=J(`nbitems',8,.) matrix colnames dif_rc=DIFT1 DIFU RC RC_DIF RCG0 RCUG0 RCG1 RCUG1 local rown "" forvalues j =1 /`nbitems' { local rown "`rown' ``j''" } matrix rownames dif_rc = `rown' *Nb modalité max local nbdif_max = 0 forvalues j=1/`nbitems' { if `nbdif_max' < `nbdif_`j'' { local nbdif_max = `nbdif_`j'' } } //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////// PARTIE 1 : DIF A T1 ? //////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// if "`group'"!="" & "`nodif'"=="" { // PARTIE 1 = Slmt si option group & pas de "nodif" di _dup(49) "_ " di di as input "PART 1: DETECTION OF DIFFERENCE IN ITEM DIFFICULTIES BETWEEN GROUPS AT TIME 1" ********************************* ** MODEL B ** ********************************* local model "" forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ local model "`model' (`p'.``j''<-THETA@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading cons) var(0: THETA@v) var(1:THETA@v) latent(THETA) nocapslatent /* Stockage des estimations du modèle */ estimates store modeldifB matrix val_mB = r(table) matrix esti_B = e(b) /* Calcul des difficultés d'item (delta_j) */ matrix delta_mB=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC "`name_partOneC' delta_`p'_gp`g'" } } local name_partOneL "" forvalues j=1/`nbitems' { local name_partOneL "`name_partOneL' ``j''" } matrix colnames delta_mB = `name_partOneC' matrix rownames delta_mB = `name_partOneL' matrix delta_mB_se=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC_se "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC_se "`name_partOneC_se' delta_`p'_gp`g'_se" } } matrix colnames delta_mB_se = `name_partOneC_se' matrix rownames delta_mB_se = `name_partOneL' forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues g=0/1{ qui lincom -[`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mB=r(estimate) local delta`j'_`p'g`g'mB_se=r(se) if `p'>1{ qui lincom [`=`p'-1'.``j'']:`g'.`gp' - [`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mB = r(estimate) local delta`j'_`p'g`g'mB_se = r(se) } matrix delta_mB[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mB' matrix delta_mB_se[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mB_se' } } } matrix var_mB = (val_mB[1,"/var(THETA)#0bn.`gp'"]\val_mB[2,"/var(THETA)#0bn.`gp'"]) /*group effect*/ qui lincom [/]:mean(THETA)#1.`gp'-[/]:mean(THETA)#0bn.`gp' local geffmB=r(estimate) local segeffmB=r(se) qui test [/]:mean(THETA)#1.`gp'-[/]:mean(THETA)#0bn.`gp'=0 local gcmBp=r(p) local gcmBchi=r(chi2) local gcmBdf=r(df) ********************************* ** MODEL A ** ********************************* local model "" forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ local model "`model' (`p'.``j''<-THETA@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading means) var(0: THETA@v) var(1:THETA@v) from(esti_B, skip) latent(THETA) nocapslatent /* Stockage des estimations du modèle */ estimates store modeldifA matrix val_mA = r(table) matrix esti_A = e(b) /* Calcul des difficultés d'item (delta_j) */ matrix delta_mA=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC "`name_partOneC' delta_`p'_gp`g'" } } local name_partOneL "" forvalues j=1/`nbitems' { local name_partOneL "`name_partOneL' ``j''" } matrix colnames delta_mA = `name_partOneC' matrix rownames delta_mA = `name_partOneL' matrix delta_mA_se=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC_se "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC_se "`name_partOneC_se' delta_`p'_gp`g'_se" } } matrix colnames delta_mA_se = `name_partOneC_se' matrix rownames delta_mA_se = `name_partOneL' forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues g=0/1{ qui lincom -[`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mA=r(estimate) local delta`j'_`p'g`g'mA_se=r(se) if `p'>1{ qui lincom [`=`p'-1'.``j'']:`g'.`gp' - [`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mA = r(estimate) local delta`j'_`p'g`g'mA_se = r(se) } matrix delta_mA[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mA' matrix delta_mA_se[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mA_se' } } } //Variance et se mA matrix var_mA = (val_mA[1,"/var(THETA)#0bn.`gp'"]\val_mA[2,"/var(THETA)#0bn.`gp'"]) ************************************************************* ***********************AFFICHAGE***************************** ************************************************************* //Affichage modèle A di di as input "PROCESSING STEP A" di if "`detail'" != "" { /* Affichage des estimations des difficultés modèle A */ di _col(5) as text "{ul:MODEL A:} Overall measurement non-invariance between groups" di di %~85s as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 65}" di _col(31) as text abbrev("`gp'",20) "=0" _col(57) abbrev("`gp'",20) "=1" di _col(10) "{hline 65}" forvalues j=1/`nbitems' { di as text _col(10) abbrev("``j''", 18) forvalues p=1/`nbdif_`j'' { di as text _col(10) "`p'" as result _col(30) %6.2f `delta`j'_`p'g0mA' %6.2f " (" %3.2f `delta`j'_`p'g0mA_se' ")" _col(56) %6.2f `delta`j'_`p'g1mA' " (" %3.2f `delta`j'_`p'g1mA_se' ")" } } di as text _col(10) "{hline 65}" /* Affichage des estimations sur le trait latent du modèle A */ di di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(31) "Estimate" _col(57) "Standard error" di _col(10) "{hline 65}" di _col(10) "Variance" as result _col(31) %6.2f `=var_mA[1,1]' _col(55) %6.2f `=var_mA[2,1]' di _col(10) as text "Group effect" as result _col(31) "0 (constrained)" di _col(10) as text "{hline 65}" di di _col(10) as text "No group effect: equality of the latent trait means between groups" di _col(10) as text "All item difficulties are freely estimated in both groups" di } //*Affichage modèle B di di as input "PROCESSING STEP B" di /* Affichage des estimations des difficultés modèle B */ if "`detail'" != "" { di _col(5) as text "{ul:MODEL B:} Overall measurement invariance between groups" di di %~85s as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 65}" di _col(31) abbrev("`gp'",20) "=0" _col(57) abbrev("`gp'",20) "=1" di _col(10) "{hline 65}" forvalues j=1/`nbitems' { di _col(10) as text "``j''" forvalues p=1/`nbdif_`j'' { di as text _col(10) "`p'" as result _col(30) %6.2f `delta`j'_`p'g0mB' " (" %3.2f `delta`j'_`p'g0mB_se' ")" _col(56) %6.2f `delta`j'_`p'g1mB' " (" %3.2f `delta`j'_`p'g1mB_se' ")" } } di _col(10) as text "{hline 65}" /* Affichage des estimations sur le trait latent du modèle B */ di di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(28) "Estimate" _col(42) "Standard error" _col(62) "P-value" di _col(10) "{hline 65}" di _col(10) "Variance" as result _col(28) %6.2f `=var_mB[1,1]' _col(40) %6.2f `=var_mB[2,1]' di _col(10) as text "Group effect" as result _col(28) %6.2f `geffmB' _col(40) %6.2f `segeffmB' _col(62) %6.4f `gcmBp' di _col(10) as text "{hline 65}" di di _col(10) as text "Group effect estimated: mean of the latent trait of group 1 freely estimated" di _col(10) "Equality of the item difficulties between groups" di } ***************************************************** * Modèle A vs Modèle B * ***************************************************** qui lrtest modeldifA modeldifB local diftestp=r(p) local diftestchi=r(chi2) local diftestdf=r(df) if "`detail'" != "" { //affichage lrtest di as input "LIKELIHOOD-RATIO TEST" di di %~60s "Model A vs Model B" di _col(10) "{hline 40}" di _col(10) as text "Chi-square" _col(28) "DF" _col(40) "P-value" di _col(10) as result %6.2f `diftestchi' _col(28) %2.0f `diftestdf' _col(40) %6.4f `diftestp' di _col(10) as text "{hline 40}" di } if `diftestp'<0.05{ di as result "DIFFERENCE IN ITEM DIFFICULTIES BETWEEN GROUPS LIKELY" } else{ di as result "NO DIFFERENCE BETWEEN GROUPS DETECTED" } ********************************* *************MODEL C************* ********************************* // Etape itérative si lrtest significatif local nb_stepC = 0 if `diftestp'<0.05{ /*If pvalue(LRtest)<0.05 then step C*/ di di as input "PROCESSING STEP C" di /*test DIF pour chaque item*/ local boucle = 1 local stop = 0 while `boucle'<=`=`nbitp'-1' & `stop'==0{ /*on s'arrête quand on a libéré du DIF sur (tous les items-1) ou lorsqu'il n'y a plus de tests significatifs*/ local nb_stepC = `boucle' local pajust=0.05/`=`nbitp'+1-`boucle'' /*réinitialisation de la matrice de test*/ matrix test_difu_`boucle'=J(`nbitems',3,.) matrix colnames test_difu_`boucle'=chi_DIFU df_DIFU pvalueDIFU matrix test_dif_`boucle'=J(`nbitems',3,.) matrix colnames test_dif_`boucle'=chi_DIF df_DIF pvalueDIF local nbsig=0 local minpval=1 local itemdif=0 if "`detail'" != ""{ di as text "Loop `boucle'" di as text _col(5) "Adjusted alpha: " %6.4f `pajust' di di as text _col(10) "{hline 65}" di as text _col(10) "Freed item" _col(31) "Chi-Square" _col(48) "DF" _col(57) "P-Value" di as text _col(10) "{hline 65}" } /*boucle de test*/ forvalues j=1/`nbitems'{ //if `nbdif_`j'' > 2 { local model "" local listconst "" if dif_rc[`j',1]==. | dif_rc[`j',1]==0 { /*si pas de DIF déjà détecté sur l'item j*/ /*on libère le DIF de l'item i: pas de contraintes*/ forvalues k=1/`nbitems'{ /*contraintes pour les autres items (si DIF NU sur item k, pas de contraintes*/ if `k'!=`j' & `nbmoda_`j'' >= 2 { if dif_rc[`k',1]==. | dif_rc[`k',1]==0 {/*pas de DIF sur item k: contraintes 1-200*/ forvalues p=1/`nbdif_`k''{ qui local listconst "`listconst' `=0+`maxdif'*(`k'-1)+`p''" qui constraint list `=0+`maxdif'*(`k'-1)+`p'' } } else{ if dif_rc[`k',2]!=. & dif_rc[`k',2]!= 0 & `nbmoda_`k'' > 2 { /*DIF U: contraintes 201-400*/ forvalues p=2/`nbdif_`k''{ qui local listconst "`listconst' `=200+`maxdif'*(`k'-1)+`p''" qui constraint list `=200+`maxdif'*(`k'-1)+`p'' } } } } } forvalues jj=1/`nbitems'{ forvalues p=1/`nbdif_`jj''{ local model "`model' (`p'.``jj''<-THETA@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) var(0: THETA@v) var(1:THETA@v) constraint(`listconst') from(esti_B) latent(THETA) nocapslatent estimates store modeldif3b`boucle'it`i' ************************* *****test DIF item i***** ************************* qui test [1.``j'']1.`gp'=[1.``j'']0bn.`gp' if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']1.`gp'=[`p'.``j'']0bn.`gp', acc } } matrix test_dif_`boucle'[`j',1]=(r(chi2),r(df),r(p)) /* Test DIF Uniforme */ if `nbmoda_`j'' > 2 { qui test 2*([1.``j'']1.`gp'-[1.``j'']0bn.`gp')=[2.``j'']1.`gp'-[2.``j'']0bn.`gp' forvalues p=3/`nbdif_`j''{ qui test `p'*([1.``j'']1.`gp'-[1.``j'']0bn.`gp')=[`p'.``j'']1.`gp'-[`p'.``j'']0bn.`gp', acc } matrix test_difu_`boucle'[`j',1]=(r(chi2), r(df), r(p)) } if test_dif_`boucle'[`j',3]<`pajust'{/*si DIF sur item i*/ local ++nbsig if test_dif_`boucle'[`j',3]<`minpval'{ local minpval=test_dif_`boucle'[`j',3] local itemdif=`j' } } if "`detail'" != "" { di as text _col(10) abbrev("``j''",15) as result _col(31) %6.3f test_dif_`boucle'[`j',1] _col(48) test_dif_`boucle'[`j',2] _col(57) %6.4f test_dif_`boucle'[`j',3] } } } /*si nb de tests significatifs=0, on arrête*/ if `nbsig'==0{ local stop=1 if `boucle' == 1 { if "`detail'" != "" { di as text _col(10) "{hline 65}" di di as result "No significant test: no difference between groups detected, no DIF detected" di } } else { if "`detail'" != ""{ di as text _col(10) "{hline 65}" di di as result "No other significant tests" di } } } else{/*si nb de tests significatifs>0, mise à jour de la matrice de résultats*/ matrix dif_rc[`itemdif',1]=`boucle' if "`detail'" != ""{ di as text _col(10) "{hline 65}" di di as result "Difference between groups on ``itemdif'' at time 1" } if `nbmoda_`itemdif'' > 2 { if "`detail'" != "" { di di %~60s as text "Test of uniform difference" di _col(10) "{hline 40}" di _col(10) as text "Chi-square" _col(28) "DF" _col(40) "P-value" di _col(10) as result %4.2f `=test_difu_`boucle'[`itemdif',1]' _col(28) `=test_difu_`boucle'[`itemdif',2]' _col(40) %4.2f `=test_difu_`boucle'[`itemdif',3]' di _col(10) as text "{hline 40}" } if test_difu_`boucle'[`itemdif',3]<0.05{ /*DIF NU détectée*/ matrix dif_rc[`itemdif',2]=0 di di as result "``itemdif'' : Non-uniform differences of item difficulties between groups at T1" di } else{/*DIF U détectée*/ matrix dif_rc[`itemdif',2]=`boucle' di di as result "``itemdif'' : Uniform differences of item difficulties between groups at T1" di } } else { // Différence entre groupes au temps 1 mais slmt 2 moda. donc pas de U ou NU di _col(15) _dup(60) "-" } } local ++boucle } } /* MODELE FINAL DE LA PARTIE 1. Si DIFT1 détecté (=Au moins 2 boucles dans l'étape C)*/ if `nb_stepC' > 1 { forvalues j=1/`nbitems'{ local model "" local listconst "" if dif_rc[`j',1]==. | dif_rc[`j',1]==0 { /*si pas de DIF: contraintes 1-200*/ forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=0+`maxdif'*(`j'-1)+`p''" qui constraint list `=0+`maxdif'*(`j'-1)+`p'' } } else { if dif_rc[`j',2]!=. & dif_rc[`j',2]!=0 { /*DIF U: contraintes 201-400*/ forvalues p=2/`nbdif_`j''{ qui local listconst "`listconst' `=200+`maxdif'*(`j'-1)+`p''" qui constraint list `=200+`maxdif'*(`j'-1)+`p'' } } } } forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ local model "`model' (`p'.``j''<-THETA@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) var(0: THETA@v) var(1:THETA@v) constraint(`listconst') from(esti_B) latent(THETA) nocapslatent /* Stockage des estimations du modèle */ estimates store modeldifCFin matrix val_mC = r(table) /* Calcul des difficultés d'item (delta_j) */ matrix delta_mCFin=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC "`name_partOneC' delta_`p'_gp`g'" } } local name_partOneL "" forvalues j=1/`nbitems' { local name_partOneL "`name_partOneL' ``j''" } matrix colnames delta_mCFin = `name_partOneC' matrix rownames delta_mCFin = `name_partOneL' matrix delta_mCFin_se=J(`nbitems',`=`nbdif_max'*2',.) local name_partOneC_se "" forvalues p=1/`nbdif_max' { forvalues g=0/1 { local name_partOneC_se "`name_partOneC_se' delta_`p'_gp`g'_se" } } matrix colnames delta_mCFin_se = `name_partOneC_se' matrix rownames delta_mCFin_se = `name_partOneL' forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues g=0/1{ qui lincom -[`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mCFin=r(estimate) local delta`j'_`p'g`g'mCFin_se=r(se) if `p'>1{ qui lincom [`=`p'-1'.``j'']:`g'.`gp' - [`p'.``j'']:`g'.`gp' local delta`j'_`p'g`g'mCFin = r(estimate) local delta`j'_`p'g`g'mCFin_se = r(se) } matrix delta_mCFin[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mCFin' matrix delta_mCFin_se[`j',`=2*`p'-1+`g'']=`delta`j'_`p'g`g'mCFin_se' } } } if "`group'" != "" { //Variance et se mA matrix var_mC = (val_mC[1,"/var(THETA)#0bn.`gp'"]\val_mC[2,"/var(THETA)#0bn.`gp'"]) } /*group effect*/ qui lincom [/]:mean(THETA)#1.`gp'-[/]:mean(THETA)#0bn.`gp' local geffmCFin=r(estimate) local segeffmCFin=r(se) qui test [/]:mean(THETA)#1.`gp'-[/]:mean(THETA)#0bn.`gp'=0 local gcmCFinp=r(p) local gcmCFinchi=r(chi2) local gcmCFindf=r(df) } } //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////// PARTIE 2 : RECALIBRATION ? //////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// di di as text _dup(49) "_ " di if "`group'" != "" { di as input "PART 2 : DETECTION OF DIFFERENCE IN ITEM DIFFICULTIES ACROSS TIME (RECALIBRATION)" } else { di as input "DETECTION OF DIFFERENCE IN ITEM DIFFICULTIES ACROSS TIME (RECALIBRATION)" } ********************************* ** MODEL 2 ** ********************************* local listconst "" // liste des contraintes si option groupe local listconst_g "" //LIste des contraintes sans option groupe (Notation peu logique !!) forvalues j=1/`nbitems'{ if "`group'" == "" { // Contraintes pas de RC pour tous les items forvalues p=1/`nbdif_`j''{ local listconst_g "`listconst_g' `=400+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' } } else { if dif_rc[`j',1]==. | dif_rc[`j',1]==0 {/*pas de DIF à T1 sur item k: contraintes 1*/ forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=0+`maxdif'*(`j'-1)+`p''" qui constraint list `=0+`maxdif'*(`j'-1)+`p'' } } else{ if dif_rc[`j',2]!=. & dif_rc[`j',2] != 0 { /*diff T1 U: contraintes 200*/ forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=200+`maxdif'*(`j'-1)+`p''" qui constraint list `=200+`maxdif'*(`j'-1)+`p'' } } } forvalues p=1/`nbdif_`j''{ /* egalites entre temps : groupe 0 (401-600)*/ local listconst "`listconst' `=400+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' } forvalues p=1/`nbdif_`j''{ /* egalites entre temps : groupe 1 (601-800)*/ local listconst "`listconst' `=600+`maxdif'*(`j'-1)+`p''" qui constraint list `=600+`maxdif'*(`j'-1)+`p'' } } } local model "" forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ local model "`model' (`p'.``j''<-THETA1@`p')(`p'.``=`j'+`nbitems'''<-THETA2@`p')" } } if "`group'" != "" { *di "gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') latent(THETA1 THETA2) nocapslatent" qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') latent(THETA1 THETA2) nocapslatent } else { qui gsem `model', mlogit tol(0.01) iterate(100) means(THETA1@0 THETA2@m20) var(THETA1@v1 THETA2@v2) cov(THETA1*THETA2@cov12) constraint(`listconst_g') latent(THETA1 THETA2) nocapslatent } /*Stockage des données du modèle 2 */ estimates store model2 matrix val_m2 = r(table) matrix esti_2 = e(b) if "`group'" != "" { matrix var_m2 = (val_m2[1,"/var(THETA1)#0bn.`gp'"],val_m2[1,"/var(THETA2)#0bn.`gp'"]\val_m2[2,"/var(THETA1)#0bn.`gp'"],val_m2[2,"/var(THETA2)#0bn.`gp'"]) matrix covar_m2 = (val_m2[1,"/cov(THETA1,THETA2)#0.`gp'"],val_m2[1,"/cov(THETA1,THETA2)#1.`gp'"]\val_m2[2,"/cov(THETA1,THETA2)#0.`gp'"],val_m2[2,"/cov(THETA1,THETA2)#1.`gp'"]\val_m2[4,"/cov(THETA1,THETA2)#0.`gp'"],val_m2[4,"/cov(THETA1,THETA2)#1.`gp'"]) } else { matrix var_m2 = (val_m2[1,"/var(THETA1)"],val_m2[1,"/var(THETA2)"]\val_m2[2,"/var(THETA1)"],val_m2[2,"/var(THETA2)"]) matrix covar_m2 = (val_m2[1,"/cov(THETA1,THETA2)"]\val_m2[2,"/cov(THETA1,THETA2)"]\val_m2[4,"/cov(THETA1,THETA2)"]) } /*group effect*/ if "`group'" != "" { qui lincom [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' local geffm2=r(estimate) local segeffm2=r(se) local ubgeffm2 = r(ub) local lbgeffm2 = r(lb) qui test [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp'=0 local gpm2p=r(p) local gpm2chi=r(chi2) local gpm2df=r(df) } /*time effect*/ if "`group'" != "" { qui lincom [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp' local teffm2=r(estimate) local seteffm2=r(se) local ubteffm2 = r(ub) local lbteffm2 = r(lb) qui test [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp'=0 local tm2p=r(p) local tm2chi=r(chi2) local tm2df=r(df) } else { qui lincom [/]:mean(THETA2) /* [/]:mean(THETA1)*/ local teffm2=r(estimate) local seteffm2=r(se) local ubteffm2 = r(ub) local lbteffm2 = r(lb) qui test [/]:mean(THETA2) = 0 /* [/]:mean(THETA1)*/ local tm2p=r(p) local tm2chi=r(chi2) local tm2df=r(df) } *INTERACTION if "`group'" != "" { qui lincom [/]:mean(THETA2)#1.`gp'-[/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#1.`gp'+[/]:mean(THETA1)#0bn.`gp' local interm2=r(estimate) local seinterm2=r(se) local ubinterm2 = r(ub) local lbinterm2 = r(lb) qui test [/]:mean(THETA2)#1.`gp'-[/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#1.`gp'+[/]:mean(THETA1)#0bn.`gp' = 0 local interm2p=r(p) local interm2chi=r(chi2) local interm2df=r(df) } if "`group'" != "" { matrix mod2 = J(7,`=`nbmoda_sum'*4+6',.) local name_partTwoC "" forvalues j = 1/`nbitems' { forvalues p=1/`nbdif_`j'' { forvalues t=1/2 { forvalues g = 0/1 { local name_partTwoC "`name_partTwoC' d_j`j'_p`p'_gp`g'_t`t'" } } } } local name_partTwoC "`name_partTwoC' VAR(THETA1) VAR(THETA2) COV(TH1,TH2) GROUP_Effect TIME_Effect INTER_TxG " matrix colnames mod2 = `name_partTwoC' matrix rownames mod2 = Estimate se Upper_b Lower_b Chi_square DF pvalue } else { matrix mod2 = J(7,`=`nbmoda_sum'*2+4',.) local name_partTwoC "" forvalues j = 1/`nbitems' { forvalues p=1/`nbdif_`j'' { forvalues t=1/2 { local name_partTwoC "`name_partTwoC' d_j`j'_p`p'_t`t'" } } } local name_partTwoC "`name_partTwoC' VAR(THETA1) VAR(THETA2) COV(TH1,TH2) TIME_Effect " matrix colnames mod2 = `name_partTwoC' matrix rownames mod2 = Estimate se Upper_b Lower_b Chi_square DF pvalue } *Difficultés forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues t=1/2{ if "`group'" != "" { // groupe binaire forvalues g=0/1 { qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm2= r(estimate) local delta`t'_`j'_`p'g`g'm2_se= r(se) local delta`t'_`j'_`p'g`g'm2_ub=r(ub) local delta`t'_`j'_`p'g`g'm2_lb=r(lb) local delta`t'_`j'_`p'g`g'm2_p=r(p) if `p'>1 { qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' - [`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm2=r(estimate) local delta`t'_`j'_`p'g`g'm2_se=r(se) local delta`t'_`j'_`p'g`g'm2_ub=r(ub) local delta`t'_`j'_`p'g`g'm2_lb=r(lb) local delta`t'_`j'_`p'g`g'm2_p=r(p) } local place = 0 local compt = 1 while `compt' < `j' { local place = `place' + `nbdif_`compt'' local ++compt } if `t' == 1 { matrix mod2[1,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm2' matrix mod2[2,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm2_se' matrix mod2[3,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm2_ub' matrix mod2[4,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm2_lb' matrix mod2[7,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm2_p' } if `t' == 2 { matrix mod2[1,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm2' matrix mod2[2,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm2_se' matrix mod2[3,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm2_ub' matrix mod2[4,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm2_lb' matrix mod2[7,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm2_p' } } } else { // groupe unique (=gp0) qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']_cons local delta`t'_`j'_`p'g0m2= r(estimate) local delta`t'_`j'_`p'g0m2_se= r(se) local delta`t'_`j'_`p'g0m2_ub=r(ub) local delta`t'_`j'_`p'g0m2_lb=r(lb) local delta`t'_`j'_`p'g0m2_p=r(p) if `p'>1{ qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']_cons - [`p'.``=(`t'-1)*`nbitems'+`j''']_cons local delta`t'_`j'_`p'g0m2=r(estimate) local delta`t'_`j'_`p'g0m2_se=r(se) local delta`t'_`j'_`p'g0m2_ub=r(ub) local delta`t'_`j'_`p'g0m2_lb=r(lb) local delta`t'_`j'_`p'g0m2_p=r(p) } local place = 0 local compt = 1 while `compt' < `j' { local place = `place' + `nbdif_`compt'' local ++compt } if `t' == 1 { matrix mod2[1,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2' matrix mod2[2,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_se' matrix mod2[3,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_ub' matrix mod2[4,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_lb' matrix mod2[7,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_p' } if `t' == 2 { matrix mod2[1,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2' matrix mod2[2,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_se' matrix mod2[3,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_ub' matrix mod2[4,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_lb' matrix mod2[7,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m2_p' } } } } } if "`group'" != "" { matrix mod2[1,`=4*`nbmoda_sum'+1'] = (val_m2[1,"/var(THETA1)#0bn.`gp'"], val_m2[1,"/var(THETA2)#0bn.`gp'"]) matrix mod2[2,`=4*`nbmoda_sum'+1'] = (val_m2[2,"/var(THETA1)#0bn.`gp'"],val_m2[2,"/var(THETA2)#0bn.`gp'"]) matrix mod2[3,`=4*`nbmoda_sum'+1'] = (val_m2[6,"/var(THETA1)#0bn.`gp'"],val_m2[6,"/var(THETA2)#0bn.`gp'"]) matrix mod2[4,`=4*`nbmoda_sum'+1'] = (val_m2[5,"/var(THETA1)#0bn.`gp'"],val_m2[5,"/var(THETA2)#0bn.`gp'"]) matrix mod2[1,`=4*`nbmoda_sum'+2+1'] = (val_m2[1,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod2[2,`=4*`nbmoda_sum'+2+1'] = (val_m2[2,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod2[3,`=4*`nbmoda_sum'+2+1'] = (val_m2[6,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod2[4,`=4*`nbmoda_sum'+2+1'] = (val_m2[5,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod2[1,`=4*`nbmoda_sum'+2+1+1'] = `geffm2' matrix mod2[2,`=4*`nbmoda_sum'+2+1+1'] = `segeffm2' matrix mod2[3,`=4*`nbmoda_sum'+2+1+1'] = `ubgeffm2' matrix mod2[4,`=4*`nbmoda_sum'+2+1+1'] = `lbgeffm2' matrix mod2[5,`=4*`nbmoda_sum'+2+1+1'] = `gpm2chi' matrix mod2[6,`=4*`nbmoda_sum'+2+1+1'] = `gpm2df' matrix mod2[7,`=4*`nbmoda_sum'+2+1+1'] = `gpm2p' matrix mod2[1,`=4*`nbmoda_sum'+2+1+1+1'] = `teffm2' matrix mod2[2,`=4*`nbmoda_sum'+2+1+1+1'] = `seteffm2' matrix mod2[3,`=4*`nbmoda_sum'+2+1+1+1'] = `ubteffm2' matrix mod2[4,`=4*`nbmoda_sum'+2+1+1+1'] = `lbteffm2' matrix mod2[5,`=4*`nbmoda_sum'+2+1+1+1'] = `tm2chi' matrix mod2[6,`=4*`nbmoda_sum'+2+1+1+1'] = `tm2df' matrix mod2[7,`=4*`nbmoda_sum'+2+1+1+1'] = `tm2p' matrix mod2[1,`=4*`nbmoda_sum'+2+1+1+1+1'] = `interm2' matrix mod2[2,`=4*`nbmoda_sum'+2+1+1+1+1'] = `seinterm2' matrix mod2[3,`=4*`nbmoda_sum'+2+1+1+1+1'] = `ubinterm2' matrix mod2[4,`=4*`nbmoda_sum'+2+1+1+1+1'] = `lbinterm2' matrix mod2[5,`=4*`nbmoda_sum'+2+1+1+1+1'] = `interm2chi' matrix mod2[6,`=4*`nbmoda_sum'+2+1+1+1+1'] = `interm2df' matrix mod2[7,`=4*`nbmoda_sum'+2+1+1+1+1'] = `interm2p' } else { matrix mod2[1,`=2*`nbmoda_sum'+1'] = (val_m2[1,"/var(THETA1)"],val_m2[1,"/var(THETA2)"]) matrix mod2[2,`=2*`nbmoda_sum'+1'] = (val_m2[2,"/var(THETA1)"],val_m2[2,"/var(THETA2)"]) matrix mod2[3,`=2*`nbmoda_sum'+1'] = (val_m2[6,"/var(THETA1)"],val_m2[6,"/var(THETA2)"]) matrix mod2[4,`=2*`nbmoda_sum'+1'] = (val_m2[5,"/var(THETA1)"],val_m2[5,"/var(THETA2)"]) matrix mod2[1,`=2*`nbmoda_sum'+2+1'] = (val_m2[1,"/cov(THETA1,THETA2)"]) matrix mod2[2,`=2*`nbmoda_sum'+2+1'] = (val_m2[2,"/cov(THETA1,THETA2)"]) matrix mod2[3,`=2*`nbmoda_sum'+2+1'] = (val_m2[6,"/cov(THETA1,THETA2)"]) matrix mod2[4,`=2*`nbmoda_sum'+2+1'] = (val_m2[5,"/cov(THETA1,THETA2)"]) matrix mod2[1,`=2*`nbmoda_sum'+2+1+1'] = `teffm2' matrix mod2[2,`=2*`nbmoda_sum'+2+1+1'] = `seteffm2' matrix mod2[3,`=2*`nbmoda_sum'+2+1+1'] = `ubteffm2' matrix mod2[4,`=2*`nbmoda_sum'+2+1+1'] = `lbteffm2' matrix mod2[5,`=2*`nbmoda_sum'+2+1+1'] = `tm2chi' matrix mod2[6,`=2*`nbmoda_sum'+2+1+1'] = `tm2df' matrix mod2[7,`=2*`nbmoda_sum'+2+1+1'] = `tm2p' } ********************************* ** MODEL 1 ** ********************************* /*PCM longitudinal, no true change, group effect, interaction*/ local listconst "" forvalues j=1/`nbitems'{ /*contraintes pour les autres items (si DIF NU sur item k, pas de contraintes*/ if dif_rc[`j',1]==. | dif_rc[`j',1]==0 {/*pas de DIF sur item k: contraintes 1*/ forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=0+`maxdif'*(`j'-1)+`p''" qui constraint list `=0+`maxdif'*(`j'-1)+`p'' } } else{ if `nbdif_`j'' > 1 { if dif_rc[`j',2]!=. & dif_rc[`j',2] != 0 { /*diff T1 U: contraintes 201*/ forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=200+`maxdif'*(`j'-1)+`p''" qui constraint list `=200+`maxdif'*(`j'-1)+`p'' } } } } } local model "" forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ local model "`model' (`p'.``j''<-THETA1@`p')(`p'.``=`j'+`nbitems'''<-THETA2@`p')" } } if "`group'"!="" { qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@0) means(1: THETA1@m1 THETA2@m1) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent } else { qui gsem `model', mlogit tol(0.01) iterate(100) means(THETA1@0 THETA2@0) var(THETA1@v1 THETA2@v2) cov(THETA1*THETA2@cov12) from(esti_2, skip) latent(THETA1 THETA2) nocapslatent } /* Stockage des estimations du modèle 1 */ estimates store model1 matrix val_m1 = r(table) /* Calcul des difficultés d'item (delta_j) */ matrix delta_m1 = J(`nbitems',`=`nbdif_max'*4',.) local name_partTwoC "" forvalues p=1/`nbdif_max' { forvalues t=1/2 { forvalues g = 0/1 { local name_partTwoC "`name_partTwoC' delta_t`t'_`p'_gp`g'" } } } local name_partTwoL "" forvalues j=1/`=`nbitems'*2' { if `j' <= `nbitems' { local name_partTwoL "`name_partTwoL' ``j''" } else { local name_partTwoL "`name_partTwoL' ``=`nbitems'+`j'''" } } matrix colnames delta_m1 = `name_partTwoC' matrix rownames delta_m1 = `name_partTwoL' matrix delta_m1_se = J(`nbitems',`=`nbdif_max'*4',.) local name_partTwoC_se "" forvalues p=1/`nbdif_max' { forvalues t=1/2 { forvalues g = 0/1 { local name_partTwoC_se "`name_partTwoC_se' delta_t`t'_`p'_gp`g'_se" } } } matrix colnames delta_m1_se = `name_partTwoC_se' matrix rownames delta_m1_se = `name_partTwoL' if "`group'"!="" { forvalues t=1/2{ forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues g=0/1{ qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm1= r(estimate) local delta`t'_`j'_`p'g`g'm1_se= r(se) if `p'>1{ qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' - [`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm1=r(estimate) local delta`t'_`j'_`p'g`g'm1_se=r(se) } if `t' == 1 { matrix delta_m1[`j',`=4*(`p'-1)+`g'+`t'']=`delta`t'_`j'_`p'g`g'm1' matrix delta_m1_se[`j',`=4*(`p'-1)+`g'+`t'']=`delta`t'_`j'_`p'g`g'm1_se' } if `t' == 2 { matrix delta_m1[`j',`=4*(`p'-1)+1+`g'+`t'']=`delta`t'_`j'_`p'g`g'm1' matrix delta_m1_se[`j',`=4*(`p'-1)+1+`g'+`t'']=`delta`t'_`j'_`p'g`g'm1_se' } } } } } } else { forvalues t=1/2 { forvalues j=1/`nbitems' { forvalues p = 1/`nbdif_`j'' { qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']:_cons local delta`t'_`j'_`p'g0m1= r(estimate) local delta`t'_`j'_`p'g0m1_se= r(se) if `p'>1{ qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']:_cons - [`p'.``=(`t'-1)*`nbitems'+`j''']:_cons local delta`t'_`j'_`p'g0m1=r(estimate) local delta`t'_`j'_`p'g0m1_se=r(se) } if `t' == 1 { matrix delta_m1[`j',`=4*(`p'-1)+`t'']=`delta`t'_`j'_`p'g0m1' matrix delta_m1_se[`j',`=4*(`p'-1)+`t'']=`delta`t'_`j'_`p'g0m1_se' } if `t' == 2 { matrix delta_m1[`j',`=4*(`p'-1)+1+`t'']=`delta`t'_`j'_`p'g0m1' matrix delta_m1_se[`j',`=4*(`p'-1)+1+`t'']=`delta`t'_`j'_`p'g0m1_se' } } } } } if "`group'" != "" { matrix var_m1 = (val_m1[1,"/var(THETA1)#0bn.`gp'"],val_m1[1,"/var(THETA2)#0bn.`gp'"]\val_m1[2,"/var(THETA1)#0bn.`gp'"],val_m1[2,"/var(THETA2)#0bn.`gp'"]) matrix covar_m1 = (val_m1[1,"/cov(THETA1,THETA2)#0.`gp'"],val_m1[1,"/cov(THETA1,THETA2)#1.`gp'"]\val_m1[2,"/cov(THETA1,THETA2)#0.`gp'"],val_m1[2,"/cov(THETA1,THETA2)#1.`gp'"]\val_m1[4,"/cov(THETA1,THETA2)#0.`gp'"],val_m1[4,"/cov(THETA1,THETA2)#1.`gp'"]) } else { matrix var_m1 = (val_m1[1,"/var(THETA1)"],val_m1[1,"/var(THETA2)"]\val_m1[2,"/var(THETA1)"],val_m1[2,"/var(THETA2)"]) matrix covar_m1 = (val_m1[1,"/cov(THETA1,THETA2)"]\val_m1[2,"/cov(THETA1,THETA2)"]\val_m1[4,"/cov(THETA1,THETA2)"]) } /*group effect*/ if "`group'"!="" { qui lincom [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' local geffm1=r(estimate) local segeffm1=r(se) qui test [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' = 0 local gpm1p=r(p) local gpm1chi=r(chi2) local gpm1df=r(df) } ************************************************************* ***********************AFFICHAGE***************************** ************************************************************* di di as input "PROCESSING STEP 1" di if "`detail'" != "" { // Affichage du modèle 1 /* Affichage des estimations des difficultés */ if "`group'" != "" { di _col(5) as text "{ul:MODEL 1:} Overall longitudinal measurement non-invariance across time (RS on all items)" di di %~105s as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 85}" di _col(38) "Time 1" _col(76) "Time 2" di as text _col(26) abbrev("`gp'",15) "=0" _col(44) abbrev("`gp'",15) "=1" _col(64) abbrev("`gp'",15) "=0" _col(82) abbrev("`gp'",15) "=1" di _col(10) "{hline 85}" } else { di _col(5) as text "{ul:MODEL 1:} Overall longitudinal measurement non-invariance across time (RS on all items)" di di %~70s as text as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 50}" di _col(25) "Time 1" _col(42) "Time 2" di _col(10) "{hline 50}" } forvalues j=1/`nbitems' { di as text _col(10) "``j''" forvalues p=1/`nbdif_`j'' { if "`group'" != "" { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m1' " (" %4.2f `delta1_`j'_`p'g0m1_se' ")" _col(43) %6.2f `delta1_`j'_`p'g1m1' " (" %4.2f `delta1_`j'_`p'g1m1_se' ")" /// _col(63) %6.2f `delta2_`j'_`p'g0m1' " (" %4.2f `delta2_`j'_`p'g0m1_se' ")" _col(81) %6.2f `delta2_`j'_`p'g1m1' " (" %4.2f `delta2_`j'_`p'g1m1_se' ")" } else { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m1' " (" %4.2f `delta1_`j'_`p'g0m1_se' ")" _col(42) %6.2f `delta2_`j'_`p'g0m1' " (" %4.2f `delta2_`j'_`p'g0m1_se' ")" } } } if "`group'" != "" { di _col(10) as text "{hline 85}" } else { di _col(10) as text "{hline 50}" } /* Affichage des estimations du trait latent du modèle 1 */ di if "`group'" != "" { di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(28) "Estimate" _col(46) "Standard error" _col(64) "P-value" di _col(10) "{hline 65}" } else { di %~70s as text "Latent trait distribution" di _col(10) "{hline 50}" di _col(28) as text "Estimate" _col(44) "Standard error" " di _col(10) "{hline 50}" } di _col(10) as text "Variance Time 1" as result _col(28) %6.2f `=var_m1[1,1]' _col(44) %6.2f `=var_m1[2,1]' di _col(10) as text "Variance Time 2" as result _col(28) %6.2f `=var_m1[1,2]' _col(44) %6.2f `=var_m1[2,2]' di _col(10) as text "Covariance" as result _col(28) %6.2f `=covar_m1[1,1]' _col(44) %6.2f `=covar_m1[2,1]' if "`group'" != "" { di _col(10) as text "Group effect" as result _col(28) %6.2f `geffm1' _col(44) %6.2f `segeffm1' _col(64) %6.4f `gpm1p' } di _col(10) as text "Time effect" as result _col(28) "0 (constrained)" if "`group'" != "" { di _col(10) as text "TimexGroup inter" as result _col(28) "0 (constrained)" } if "`group'" != "" { di _col(10) as text "{hline 65}" } else { di _col(10) as text "{hline 50}" } di if "`group'" != "" { di _col(10) as text "Group effect estimated: mean of the latent trait of group 1 at time 1 freely estimated" di _col(10) as text "No time effect: equality of means of the latent trait of group 0 across time" di _col(10) as text "All item difficulties freely estimated across time" } else{ di _col(10) as text "No time effect: equality of means of the latent trait across time" di _col(10) as text "All item difficulties freely estimated across time" } } //Affichage du modèle 2 di di as input "PROCESSING STEP 2" di if "`detail'" != "" { /* Affichage des estimations des difficultés */ di _col(5) as text "{ul:MODEL 2:} Overall longitudinal measurement invariance across time (no RS)" di if "`group'" != "" { di %~105s as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 85}" di _col(38) "Time 1" _col(76) "Time 2" di as text _col(26) abbrev("`gp'",15) "=0" _col(44) abbrev("`gp'",15) "=1" _col(64) abbrev("`gp'",15) "=0" _col(82) abbrev("`gp'",15) "=1" di _col(10) "{hline 85}" } else { di %~70s as text as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 50}" di _col(25) "Time 1" _col(42) "Time 2" di _col(10) "{hline 50}" } forvalues j=1/`nbitems' { di as text _col(10) "``j''" forvalues p=1/`nbdif_`j'' { if "`group'" != "" { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m2' " (" %4.2f `delta1_`j'_`p'g0m2_se' ")" _col(43) %6.2f `delta1_`j'_`p'g1m2' " (" %4.2f `delta1_`j'_`p'g1m2_se' ")" /// _col(63) %6.2f `delta2_`j'_`p'g0m2' " (" %4.2f `delta2_`j'_`p'g0m2_se' ")" _col(81) %6.2f `delta2_`j'_`p'g1m2' " (" %4.2f `delta2_`j'_`p'g1m2_se' ")" } else { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m2' " (" %4.2f `delta1_`j'_`p'g0m2_se' ")" _col(42) %6.2f `delta2_`j'_`p'g0m2' " (" %4.2f `delta2_`j'_`p'g0m2_se' ")" } } } if "`group'" != "" { di as text _col(10) "{hline 85}" } else { di as text _col(10) "{hline 50}" } /* Affichage des estimations du trait latent du modèle 2 */ di di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(28) as text "Estimate" _col(46) "Standard error" _col(64) "P-value" di _col(10) "{hline 65}" if "`group'" == "" { local fact_k = 2 } else { local fact_k = 4 } di _col(10) as text "Variance Time 1" as result _col(28) %6.2f `=mod2[1,`=`fact_k'*`nbmoda_sum'+1']' _col(44) %6.2f =mod2[2,`=`fact_k'*`nbmoda_sum'+1'] di _col(10) as text "Variance Time 2" as result _col(28) %6.2f `=mod2[1,`=`fact_k'*`nbmoda_sum'+2']' _col(44) %6.2f `=mod2[2,`=`fact_k'*`nbmoda_sum'+2']' di _col(10) as text "Covariance" as result _col(28) %6.2f `=mod2[1,`=`fact_k'*`nbmoda_sum'+3']' _col(44) %6.2f `=mod2[2,`=`fact_k'*`nbmoda_sum'+3']' if "`group'" != "" { di _col(10) as text "Group effect" as result _col(28) %6.2f `geffm2' _col(44) %6.2f `segeffm2' _col(64) %6.4f `gpm2p' } di _col(10) as text "Time effect" as result _col(28) %6.2f `teffm2' _col(44) %6.2f `seteffm2' _col(64) %6.4f `tm2p' if "`group'" != "" { di _col(10) as text "TimexGroup inter" as result _col(28) %6.2f `interm2' _col(44) %6.2f `seinterm2' _col(64) %6.4f `interm2p' } di as text _col(10) "{hline 65}" di if "`group'" != "" { di _col(10) as text "Group effect estimated: mean of the latent trait of group 1 at time 1 freely estimated" di _col(10) as text "Time effect estimated: mean of the latent trait of group 0 at time 2 freely estimated" di _col(10) as text "Equality of all item difficulties across time" } else { di _col(10) as text "Time effect estimated: mean of the latent trait at time 2 freely estimated" di _col(10) as text "Equality of all item difficulties across time" } di } ***************************************************** * Modèle 1 vs Modèle 2 * ***************************************************** qui lrtest model2 model1 local rstestp=r(p) local rstestchi=r(chi2) local rstestdf=r(df) if "`detail'" != "" { di as input "LIKELIHOOD-RATIO TEST di di %~60s "Model 1 vs Model 2" di _col(10) "{hline 40}" di _col(10) as text "Chi-square" _col(28) "DF" _col(40) "P-value" di _col(10) as result %6.2f `rstestchi' _col(28) %2.0f `rstestdf' _col(40) %6.4f `rstestp' di _col(10) as text "{hline 40}" di } if `rstestp'<0.05{ di as result "DIFFERENCE IN ITEM DIFFICULTIES ACROSS TIME LIKELY" } else{ di as result "NO DIFFERENCE IN ITEM DIFFICULTIES ACROSS TIME DETECTED, NO RECALIBRATION DETECTED" } ********************************* *************MODEL 3************* ********************************* // Etape itérative si lrtest significatif local nb_step3=0 if `rstestp' < 0.05 { /* If pvalue(LRtest)<0.05 then step 3 */ di di as input "PROCESSING STEP 3" di /*test RC pour chaque item*/ local boucle = 1 local stop = 0 //matrix list dif_rc while `boucle' <= `=`nbitp'-1' & `stop' == 0 { /*on s'arrête quand on a libéré du RC sur (tous les items-1) ou lorsqu'il n'y a plus de tests significatifs*/ local nb_step3 = `boucle' local pajust=0.05/`=`nbitp'+1-`boucle'' // local pajust=0.05/`=`nbitems'+1-`boucle' if "`group'" != "" { local pajust2 = 0.05/`nbgrp' } /*réinitialisation de la matrice de test*/ matrix test_rc_`boucle'=J(`nbitems',9,.) matrix test_rcCOMM_`boucle'=J(`nbitems',3,.) matrix test_rcU_`boucle'=J(`nbitems',6,.) matrix colnames test_rc_`boucle'= chi_RC df_RC pvalue_RC chi_RCg0 df_RCg0 pvalue_RCg0 chi_RCg1 df_RCg1 pvalue_RCg1 matrix colnames test_rcCOMM_`boucle'= chi_RCCOMM df_RCCOMM pvalue_RCCOMM matrix colnames test_rcU_`boucle'= chi_RCUg0 df_RCUg0 pvalue_RCUg0 chi_RCUg1 df_RCUg1 pvalue_RCUg1 local nbsig=0 local minpval=1 local itemrc=0 if "`detail'" != "" { di as text "Loop `boucle'" di _col(5) "Adjusted alpha : " %6.4f `pajust' di di as text _col(10) "{hline 65}" di as text _col(10) "Freed item" _col(31) "Chi-Square" _col(48) "DF" _col(57) "P-Value" di as text _col(10) "{hline 65}" } /*boucle de test*/ forvalues j=1/`nbitems'{ if `nbdif_`j'' >= 1 { local model "" local listconst "" local listconst_g "" if dif_rc[`j',3]==. { /*si pas de RC déjà détecté sur l'item j -> test item j*/ /*on libère la RC de l'item j: pas de contraintes*/ forvalues k=1/`nbitems'{ if "`group'" == "" { if `k'!=`j'{ if dif_rc[`k',3]==. | dif_rc[`k',3]==0 {/*pas de RC sur item k: contraintes 401-600*/ forvalues p=1/`nbdif_`k''{ local listconst_g "`listconst_g' `=400+`maxdif'*(`k'-1)+`p'' " qui constraint list `=400+`maxdif'*(`k'-1)+`p'' } } else { if dif_rc[`k',6]!=. & dif_rc[`k',6]!=0 { // RC commune unif. if `nbmoda_`k'' > 2 { forvalues p=2/`nbdif_`k''{ local listconst_g "`listconst_g' `=1000+`maxdif'*(`k'-1)+`p''" qui constraint list `=1000+`maxdif'*(`k'-1)+`p'' } } } } } } else { /* Contraintes de DIF */ if dif_rc[`k',1]==.|dif_rc[`k',1]==0 { // contraintes si pas de DIF (1-200) forvalues p=1/`nbdif_`k''{ local listconst "`listconst' `=0+`maxdif'*(`k'-1)+`p''" qui constraint list `=0+`maxdif'*(`k'-1)+`p'' } } else { // Présence de DIF if dif_rc[`k',2]!=. & dif_rc[`k',2]!=0 { // contraintes de DIF U (201-400) if `nbmoda_`k'' > 2 { forvalues p=2/`nbdif_`k''{ local listconst "`listconst' `=200+`maxdif'*(`k'-1)+`p''" qui constraint list `=200+`maxdif'*(`k'-1)+`p'' } } } } if `k'!=`j'{ /*contraintes pour les autres items */ if dif_rc[`k',3]==. | dif_rc[`k',3]==0 {/*pas de RC sur item k: contraintes 401-600 601-800*/ forvalues p=1/`nbdif_`k''{ local listconst "`listconst' `=400+`maxdif'*(`k'-1)+`p'' `=600+`maxdif'*(`k'-1)+`p''" qui constraint list `=400+`maxdif'*(`k'-1)+`p'' `=600+`maxdif'*(`k'-1)+`p'' } } else { //RC détectée sur l'item k if dif_rc[`k',4]==0{ /*RC commune: contraintes 801-1000*/ forvalues p=1/`nbdif_`k''{ /***************************** j=1 ou 2 ?****/ local listconst "`listconst' `=800+`maxdif'*(`k'-1)+`p''" qui constraint list `=800+`maxdif'*(`k'-1)+`p'' } if dif_rc[`k',6]!=. & dif_rc[`k',6]!=0 { // RC commune unif. if `nbmoda_`k'' > 2 { forvalues p=2/`nbdif_`k''{ local listconst "`listconst' `=1000+`maxdif'*(`k'-1)+`p''" qui constraint list `=1000+`maxdif'*(`k'-1)+`p'' } } } } else { // RC diff if dif_rc[`k',5]==. | dif_rc[`k',5]==0 { // RC gp0 (400) forvalues p=1/`nbdif_`k''{ local listconst "`listconst' `=400+`maxdif'*(`k'-1)+`p''" qui constraint list `=400+`maxdif'*(`k'-1)+`p'' } } if dif_rc[`k',6]!=. & dif_rc[`k',6]!=0 { // RCU gp0 (1001-1200) if `nbmoda_`k'' > 2 { forvalues p=2/`nbdif_`k''{ local listconst "`listconst' `=1000+`maxdif'*(`k'-1)+`p''" qui constraint list `=1000+`maxdif'*(`k'-1)+`p'' } } } if dif_rc[`k',7]==. | dif_rc[`k',7]==0 { // RC gp1 (600) forvalues p=1/`nbdif_`k''{ local listconst "`listconst' `=600+`maxdif'*(`k'-1)+`p''" qui constraint list `=600+`maxdif'*(`k'-1)+`p'' } } if dif_rc[`k',8]!=. & dif_rc[`k',8]!=0 { // RCU gp1 (1201-1400) if `nbmoda_`k'' > 2 { forvalues p=2/`nbdif_`k''{ local listconst "`listconst' `=1200+`maxdif'*(`k'-1)+`p''" qui constraint list `=1200+`maxdif'*(`k'-1)+`p'' } } } } } } } } local model "" forvalues jj=1/`nbitems'{ forvalues p=1/`nbdif_`jj''{ local model "`model' (`p'.``jj''<-THETA1@`p')(`p'.``=`jj'+`nbitems'''<-THETA2@`p')" } } if "`group'" == "" { // Sans l'option group qui gsem `model', mlogit tol(0.01) iterate(100) means(THETA1@0 THETA2@m20) var(THETA1@v1 THETA2@v2) cov(THETA1*THETA2@cov12) constraint(`listconst_g') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent /*****************/ /*tests RC item j*/ /*****************/ /* RC ? */ qui test [1.``j'']_cons =[1.``=`j'+`nbitems''']_cons if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']_cons =[`p'.``=`j'+`nbitems''']_cons, acc } } matrix test_rc_`boucle'[`j',1]=(r(chi2),r(df),r(p)) /* RCU ? */ if `nbmoda_`j'' > 2 { qui test 2*([1.``=`j'+`nbitems''']_cons -[1.``j'']_cons)=[2.``=`j'+`nbitems''']_cons -[2.``j'']_cons forvalues p=3/`nbdif_`j''{ qui test `p'*([1.``=`j'+`nbitems''']_cons -[1.``j'']_cons)=[`p'.``=`j'+`nbitems''']_cons -[`p'.``j'']_cons , acc } matrix test_rcU_`boucle'[`j',1]=(r(chi2), r(df),r(p)) } } else { // Avec l'option group qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent /*****************/ /*tests RC item i*/ /*****************/ /* RC ? */ qui test [1.``j'']0bn.`gp'=[1.``=`j'+`nbitems''']0bn.`gp' if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']0bn.`gp'=[`p'.``=`j'+`nbitems''']0bn.`gp', acc } } qui test [1.``j'']1.`gp'=[1.``=`j'+`nbitems''']1.`gp', acc if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']1.`gp'=[`p'.``=`j'+`nbitems''']1.`gp', acc } } matrix test_rc_`boucle'[`j',1]=(r(chi2),r(df),r(p)) /* RC COMMUNE ? */ qui test [1.``=`j'+`nbitems''']0bn.`gp'-[1.``j'']0bn.`gp'=[1.``=`j'+`nbitems''']1.`gp'-[1.``j'']1.`gp' if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``=`j'+`nbitems''']0bn.`gp'-[`p'.``j'']0bn.`gp'=[`p'.``=`j'+`nbitems''']1.`gp'-[`p'.``j'']1.`gp', acc } } matrix test_rcCOMM_`boucle'[`j',1]=(r(chi2),r(df),r(p)) /* RC groupe 0 ? */ qui test [1.``j'']0bn.`gp'=[1.``=`j'+`nbitems''']0bn.`gp' if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']0bn.`gp'=[`p'.``=`j'+`nbitems''']0bn.`gp', acc } } matrix test_rc_`boucle'[`j',4]=(r(chi2),r(df),r(p)) /* RCU grp 0 ? */ if `nbmoda_`j'' > 2 { qui test 2*([1.``=`j'+`nbitems''']0bn.`gp'-[1.``j'']0bn.`gp')=[2.``=`j'+`nbitems''']0bn.`gp'-[2.``j'']0bn.`gp' forvalues p=3/`nbdif_`j''{ qui test `p'*([1.``=`j'+`nbitems''']0bn.`gp'-[1.``j'']0bn.`gp')=[`p'.``=`j'+`nbitems''']0bn.`gp'-[`p'.``j'']0bn.`gp', acc } matrix test_rcU_`boucle'[`j',1]=(r(chi2),r(df),r(p)) } /* RC groupe 1 ? */ qui test [1.``j'']1.`gp'=[1.``=`j'+`nbitems''']1.`gp' if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui test [`p'.``j'']1.`gp'=[`p'.``=`j'+`nbitems''']1.`gp', acc } } matrix test_rc_`boucle'[`j',7]=(r(chi2),r(df),r(p)) /* RCU grp 1 ? */ if `nbmoda_`j'' > 2 { qui test 2*([1.``=`j'+`nbitems''']1.`gp'-[1.``j'']1.`gp')=[2.``=`j'+`nbitems''']1.`gp'-[2.``j'']1.`gp' forvalues p=3/`nbdif_`j''{ qui test `p'*([1.``=`j'+`nbitems''']1.`gp'-[1.``j'']1.`gp')=[`p'.``=`j'+`nbitems''']1.`gp'-[`p'.``j'']1.`gp', acc } matrix test_rcU_`boucle'[`j',4]=(r(chi2),r(df),r(p)) } } /******* Matrice test complète *********/ if "`detail'" != "" { di as text _col(10) abbrev("``j''",22) as result _col(31) %6.3f test_rc_`boucle'[`j',1] _col(48) test_rc_`boucle'[`j',2] _col(57) %6.4f test_rc_`boucle'[`j',3] } } } } //matrix list test_rc_`boucle' forvalues j=1/`nbitems'{ if test_rc_`boucle'[`j',3]<`pajust'{/*si RC sur item i*/ if test_rc_`boucle'[`j',3]<`minpval'{ local minpval=test_rc_`boucle'[`j',3] local itemrc=`j' } } } if `itemrc' != 0 { // itemrc = numéro de l'item avec le test le + sig. if "`group'" == "" { // Recalibration si pas d'option groupe local ++nbsig matrix dif_rc[`itemrc',3]=`boucle' matrix dif_rc[`itemrc',5]=`boucle' if `nbmoda_`itemrc'' > 2 { if "`detail'" != "" { di as text _col(10) "{hline 65}" di di as result "Recalibration on ``itemrc''" di di as text _col(10) "{hline 65}" di as text _col(10) "Test" _col(31) "Chi-Square" _col(48) "DF" _col(57) "P-Value" di as text _col(10) "{hline 65}" di as text _col(10) "Uniform RC? " as result _col(31) %4.2f `=test_rcU_`boucle'[`itemrc',1]' _col(48) `=test_rcU_`boucle'[`itemrc',2]' _col(57) %6.4f `=test_rcU_`boucle'[`itemrc',3]' di as text _col(10) "{hline 65}" } if test_rcU_`boucle'[`itemrc',3] >= 0.05 { //RC Uniforme sur itemRC matrix dif_rc[`itemrc',6]=`boucle' di di as result "``itemrc'' : Uniform RC" di } else { matrix dif_rc[`itemrc',6]=0 di di as result "``itemrc'' : Non-uniform RC" di } } else { di di as result "``itemrc'' : Recalibration " di } } else { // Option groupe if "`detail'" != "" { di as text _col(10) "{hline 65}" di di as result "Recalibration on ``itemrc''" di di as text _col(10) "{hline 65}" di as text _col(10) "Test" _col(31) "Chi-Square" _col(48) "DF" _col(57) "P-Value" di as text _col(10) "{hline 65}" di _col(10) as text "Common RC? " as result _col(31) %4.2f `=test_rcCOMM_`boucle'[`itemrc',1]' _col(48) `=test_rcCOMM_`boucle'[`itemrc',2]' _col(57) %6.4f `=test_rcCOMM_`boucle'[`itemrc',3]' } if test_rcCOMM_`boucle'[`itemrc',3] < 0.05 { //RC différentielle if "`detail'" != "" { di _col(10) as text "RC group 0? " as result _col(31) %4.2f `=test_rc_`boucle'[`itemrc',4]' _col(48) `=test_rc_`boucle'[`itemrc',5]' _col(57) %6.4f `=test_rc_`boucle'[`itemrc',6]' "{it: - with adjusted alpha = `pajust2' }" } if test_rc_`boucle'[`itemrc',6] < `pajust2' { //RC gp 0 local ++nbsig matrix dif_rc[`itemrc',3]=`boucle' matrix dif_rc[`itemrc',4]=`boucle' matrix dif_rc[`itemrc',5]=`boucle' if `nbmoda_`itemrc'' > 2 { di _col(10) as text "Uniform RC group 0? " as result _col(31) %4.2f `=test_rcU_`boucle'[`itemrc',1]' _col(48) `=test_rcU_`boucle'[`itemrc',2]' _col(57) %6.4f `=test_rcU_`boucle'[`itemrc',3]' if test_rcU_`boucle'[`itemrc',3] >= 0.05 { // RCU gp 0 matrix dif_rc[`itemrc',6]=`boucle' local phrase_diff = "``itemrc'' : Uniform differential RC in group 0." } else { matrix dif_rc[`itemrc',6]=0 local phrase_diff = "``itemrc'' : Non-uniform differential RC in group 0." } } else { local phrase_diff = "``itemrc'' : Differential RC in group 0." } } if "`detail'" != "" { di _col(10) as text "RC group 1?" as result _col(31) %4.2f `=test_rc_`boucle'[`itemrc',7]' _col(48) `=test_rc_`boucle'[`itemrc',8]' _col(57) %6.4f `=test_rc_`boucle'[`itemrc',9]' "{it: - with adjusted alpha = `pajust2' }" } if test_rc_`boucle'[`itemrc',9] < `pajust2' { //RC gp 1 local ++nbsig matrix dif_rc[`itemrc',3]=`boucle' matrix dif_rc[`itemrc',4]=`boucle' matrix dif_rc[`itemrc',7]=`boucle' if `nbmoda_`itemrc'' > 2 { if "`detail'" != "" { di _col(10) as text "Uniform RC group 1? " as result _col(31) %4.2f `=test_rcU_`boucle'[`itemrc',4]' _col(48) `=test_rcU_`boucle'[`itemrc',5]' _col(57) %6.4f `=test_rcU_`boucle'[`itemrc',6]' } if test_rcU_`boucle'[`itemrc',6] >= 0.05 { // RCU gp 1 matrix dif_rc[`itemrc',8]=`boucle' if dif_rc[`itemrc',5] != `boucle' { //RC slmt sur g1 local phrase_diff = "``itemrc'' : Differential RC, uniform RC in group 1." } else { if dif_rc[`itemrc',6] == 0 { // + RCNU g0 local phrase_diff = "``itemrc'' : Differential RC, non-uniform RC in group 0 and uniform RC in group 1." } else { // + RCU G0 local phrase_diff = "``itemrc'' : Differential RC, uniform RC in group 0 and uniform RC in group 1." } } } else { //RCNU gp 1 matrix dif_rc[`itemrc',8]=0 if "`detail'" != "" { di } if dif_rc[`itemrc',5] != `boucle' { local phrase_diff = "``itemrc'' : Differential RC, non-uniform RC in group 1." } else { if dif_rc[`itemrc',6] == 0 { // + RCNU g0 local phrase_diff = "``itemrc'' : Differential RC, non-uniform RC in group 0 and non-uniform RC in group 1." } else { // + RCU G0 local phrase_diff = "``itemrc'' : Differential RC, uniform RC in group 0 and non-uniform RC in group 1." } } } } else { if dif_rc[`itemrc',5] != `boucle' { local phrase_diff = "``itemrc'' : Differential RC in group 1." } else { local phrase_diff = "``itemrc'' : Differential RC in group 0 and differential RC in group 1." } } } if "`detail'" != "" { di as text _col(10) "{hline 65}" } di di as result "`phrase_diff'" di } else { // RC commune -> MAJ modèle 3 /*******************************************************************************************************************/ if `nbmoda_`itemrc'' == 2 { if "`detail'" != "" { di di as result "{ul:``itemrc''}: recalibration" di _col(20) in ye "Common " in gr "{it:(Chi-s: " %4.2f `=test_rcCOMM_`boucle'[`itemrc',1]' ", DF: `=test_rcCOMM_`boucle'[`itemrc',2]' p-val. : " %4.2f `=test_rcCOMM_`boucle'[`itemrc',3]' ")}" } matrix dif_rc[`itemrc',3]=`boucle' matrix dif_rc[`itemrc',4]=0 matrix dif_rc[`itemrc',5]=`boucle' matrix dif_rc[`itemrc',7]=`boucle' local ++nbsig } else { matrix dif_rc[`itemrc',3]=`boucle' matrix dif_rc[`itemrc',4]=0 matrix dif_rc[`itemrc',5]=`boucle' matrix dif_rc[`itemrc',7]=`boucle' //matrix list dif_rc local model "" local listconst "" forvalues j=1/`nbitems'{ /* Contraintes de DIF */ if dif_rc[`j',1]==.|dif_rc[`j',1]==0 { // contraintes si pas de DIF (1-200) forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=0+`maxdif'*(`j'-1)+`p''" qui constraint list `=0+`maxdif'*(`j'-1)+`p'' } } else { // Présence de DIF if dif_rc[`j',2]!=. & dif_rc[`j',2]!=0 { // contraintes de DIF U (201-400) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui local listconst "`listconst' `=200+`maxdif'*(`j'-1)+`p''" qui constraint list `=200+`maxdif'*(`j'-1)+`p'' } } } } if `j' != `itemrc'{ /*contraintes pour les autres items */ if dif_rc[`j',3]==. | dif_rc[`j',3]==0 {/*pas de RC sur item p: contraintes 401-600 601-800*/ forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=400+`maxdif'*(`j'-1)+`p'' `=600+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' `=600+`maxdif'*(`j'-1)+`p'' } } else { //RC détectée sur l'item p if dif_rc[`j',4]==0{ /*RC commune: contraintes 801-1000*/ forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=800+`maxdif'*(`j'-1)+`p''" qui constraint list `=800+`maxdif'*(`j'-1)+`p'' } if dif_rc[`j',6]!=. & dif_rc[`j',6]!=0 { // RC commune unif. if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui local listconst "`listconst' `=1000+`maxdif'*(`j'-1)+`p''" qui constraint list `=1000+`maxdif'*(`j'-1)+`p'' } } } } else if dif_rc[`j',4] != 0 & dif_rc[`j',4]!=0. { // RC diff if dif_rc[`j',5]==. | dif_rc[`j',5]==0 { // RC gp0 (400) forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=400+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' } } if dif_rc[`j',6]!=. & dif_rc[`j',6]!=0 { // RCU gp0 (1001-1200) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui local listconst "`listconst' `=1000+`maxdif'*(`j'-1)+`p''" qui constraint list `=1000+`maxdif'*(`j'-1)+`p'' } } } if dif_rc[`j',7]==. | dif_rc[`j',7]==0 { // RC gp1 (600) forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=600+`maxdif'*(`j'-1)+`p''" qui constraint list `=600+`maxdif'*(`j'-1)+`p'' } } if dif_rc[`j',8]!=. & dif_rc[`j',8]!=0 { // RCU gp1 (1201-1400) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ qui local listconst "`listconst' `=1200+`maxdif'*(`j'-1)+`p''" qui constraint list `=1200+`maxdif'*(`j'-1)+`p'' } } } } } } else { // Contrainte de RC commune pour l'itemrc forvalues p=1/`nbdif_`j''{ qui local listconst "`listconst' `=800+`maxdif'*(`itemrc'-1)+`p''" qui constraint list `=800+`maxdif'*(`itemrc'-1)+`p'' } } } qui di "`listconst'" local model "" forvalues jj=1/`nbitems'{ forvalues p=1/`nbdif_`jj''{ local model "`model' (`p'.``jj''<-THETA1@`p')(`p'.``=`jj'+`nbitems'''<-THETA2@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent /************************/ /*tests RC item `itemrc'*/ /************************/ matrix commU_`boucle'=J(`nbitems',3,.) //Matrice des tests de RCU slmt si RC commune matrix colnames commU_`boucle'= chi_RCU df_RCU p_RCU /* RCU grp 0 ? */ if `nbmoda_`itemrc'' > 2 { qui test 2*([1.``=`itemrc'+`nbitems''']0bn.`gp'-[1.``itemrc'']0bn.`gp')=[2.``=`itemrc'+`nbitems''']0bn.`gp'-[2.``itemrc'']0bn.`gp' forvalues j=3/`nbdif_`itemrc''{ qui test `j'*([1.``=`itemrc'+`nbitems''']0bn.`gp'-[1.``itemrc'']0bn.`gp')=[`j'.``=`itemrc'+`nbitems''']0bn.`gp'-[`j'.``itemrc'']0bn.`gp', acc } matrix commU_`boucle'[`itemrc',1]=(r(chi2),r(df),r(p)) if "`detail'" != "" { di _col(10) as text "Uniform RC?" as result _col(31) %4.2f `=commU_`boucle'[`itemrc',1]' _col(48) `=commU_`boucle'[`itemrc',2]' _col(57) %6.4f `=commU_`boucle'[`itemrc',3]' di as text _col(10) "{hline 65}" } if commU_`boucle'[`itemrc',3] >= 0.05 { // RCU local ++nbsig matrix dif_rc[`itemrc',6]=`boucle' matrix dif_rc[`itemrc',8]=`boucle' di //di as result "{ul:``itemrc''}: recalibration" //di _col(20) "Common " in gr "{it:(Chi-s: " %4.2f `=test_rcCOMM_`boucle'[`itemrc',1]' ", DF: `=test_rcCOMM_`boucle'[`itemrc',2]' p-val. : " %4.2f `=test_rcCOMM_`boucle'[`itemrc',3]' ")}" di as result "``itemrc'' : Uniform common RC" di } else { local ++nbsig matrix dif_rc[`itemrc',6]=0 matrix dif_rc[`itemrc',8]=0 di di as result "``itemrc'' : Non-uniform common RC" di } } } } // fin de RC commune } } else { local stop = 1 } /*******************************************************************************************************************/ // Fin de RC sur item i if `nbsig'==0{ local stop=1 if `boucle' == 1 { di as text _col(10) "{hline 65}" di di as result "No significant tests, no recalibration detected" di } else { if "`detail'" != "" { di as text _col(10) "{hline 65}" di di as result "No other significant tests" di } } } local ++boucle } } ********************************* *** BILAN *** ********************************* if "`group'" != "" & "`nodif'" == "" { di di %~84s as result "SUMMARY" di as result _col(2) "{hline 80}" di as result _col(18) "Difference in" di as result _col(2) "Item" _col(18) "groups at T1" _col(36) "Recalibration" _col(54) "RC " abbrev("`gp'",10) " 0" _col(72) "RC " abbrev("`gp'",10) " 1" di as result _col(2) "{hline 80}" forvalues j=1/`nbitems' { local RC local RCg0 local RCg1 local difft1 if (dif_rc[`j',3] != . & dif_rc[`j',3] != 0 & dif_rc[`j',4] == 0) { local RC "Common" } if (dif_rc[`j',3] != . & dif_rc[`j',3] != 0 & dif_rc[`j',4] != 0) { local RC "Differential" } if `nbmoda_`j'' > 2 { if (dif_rc[`j',6]!=. & dif_rc[`j',6] != 0) { local RCg0 "Uniform" } if (dif_rc[`j',6] == 0) { local RCg0 "Non-uniform" } if (dif_rc[`j',8]!=. & dif_rc[`j',8] != 0) { local RCg1 "Uniform" } if ( dif_rc[`j',8] == 0) { local RCg1 "Non-uniform" } if (dif_rc[`j',1] != . ) { if (dif_rc[`j',2]!=0) { local difft1 "Uniform" } else { local difft1 "Non-uniform" } } } else { if dif_rc[`j',6] != . { local RCg0 " X " } if dif_rc[`j',8] != . { local RCg1 " X " } if dif_rc[`j',1] != . { local difft1 " X " } } di as result _col(2) abbrev("``j''",15) as text _col(18) "`difft1'" _col(36) "`RC'" _col(54) "`RCg0'" _col(72) "`RCg1'" } di as result _col(2) "{hline 80}" di } else if "`group'" != "" & "`nodif'" != "" { di di %~90s as result "SUMMARY" di as result _col(10) "{hline 70}" di as result _col(10) "Item" _col(26) "Recalibration" _col(46) "RC `gp' 0" _col(62) "RC `gp' 1" di _col(10) "{hline 70}" forvalues j=1/`nbitems' { local RC local RCg0 local RCg1 if (dif_rc[`j',3] != . & dif_rc[`j',3] != 0 & dif_rc[`j',4] == 0) { local RC "Common" } if (dif_rc[`j',3] != . & dif_rc[`j',3] != 0 & dif_rc[`j',4] != 0) { local RC "Differential" } if `nbmoda_`j'' > 2 { if (dif_rc[`j',6]!=. & dif_rc[`j',6] != 0) { local RCg0 "Uniform" } if (dif_rc[`j',6] == 0) { local RCg0 "Non-uniform" } if (dif_rc[`j',8]!=. & dif_rc[`j',8] != 0) { local RCg1 "Uniform" } if ( dif_rc[`j',8] == 0) { local RCg1 "Non-uniform" } } else { if dif_rc[`j',6] != . { local RCg0 " X " } if dif_rc[`j',8] != . { local RCg1 " X " } } di as result _col(10) "``j''" as text _col(26) "`RC'" _col(44) "`RCg0'" _col(62) "`RCg1'" } di as result _col(10) "{hline 70}" } else if "`group'" == "" { di di %~60s as result "SUMMARY" di as result _col(10) "{hline 40}" di _col(10) "Item" _col(36) "Recalibration" di _col(10) "{hline 40}" forvalues j=1/`nbitems' { local RC if dif_rc[`j',3] != . { if `nbmoda_`j'' > 2 { if (dif_rc[`j',6]!=. & dif_rc[`j',6] != 0) { local RC "Uniform" } if (dif_rc[`j',6] == 0) { local RC "Non-uniform" } } else { local RC " X " } } di as result _col(10) "``j''" as text _col(38) "`RC'" } di as result _col(10) "{hline 40}" di } ********************************* ** MODEL 4 ** ********************************* if "`detail'" != "" { di di as input "PROCESSING STEP 4" di } //matrix list dif_rc, title ("Constraints") local model "" local listconst "" local listconst_g "" forvalues j=1/`nbitems'{ if "`group'" != "" { if dif_rc[`j',1]==.|dif_rc[`j',1]==0 { /*si pas de DIF: contraintes 1-200 */ forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=0+`maxdif'*(`j'-1)+`p''" qui constraint list `=0+`maxdif'*(`j'-1)+`p'' } } else { // Présence de DIF if dif_rc[`j',2]!=. & dif_rc[`j',2]!=0 { // contraintes de DIF U (201-400) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=200+`maxdif'*(`j'-1)+`p''" qui constraint list `=200+`maxdif'*(`j'-1)+`p'' } } } } } if dif_rc[`j',3]==. | dif_rc[`j',3]==0 { /*pas de RC : contraintes 401-600 601-800*/ forvalues p=1/`nbdif_`j''{ if "`group'" == "" { local listconst_g "`listconst_g' `=400+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' } else { local listconst "`listconst' `=400+`maxdif'*(`j'-1)+`p'' `=600+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' `=600+`maxdif'*(`j'-1)+`p'' } } } else { //RC détectée sur l'item j if "`group'" == "" { if dif_rc[`j',6]!=. & dif_rc[`j',6]!=0 { // RC unif. if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ local listconst_g "`listconst_g' `=1000+`maxdif'*(`j'-1)+`p''" qui constraint list `=1000+`maxdif'*(`j'-1)+`p'' } } } } else { if dif_rc[`j',4]==0{ /*RC commune: contraintes 801-1000*/ forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=800+`maxdif'*(`j'-1)+`p''" qui constraint list `=800+`maxdif'*(`j'-1)+`p'' } if dif_rc[`j',6]!=. & dif_rc[`j',6]!=0 { // RC commune unif. if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=1000+`maxdif'*(`j'-1)+`p''" qui constraint list `=1000+`maxdif'*(`j'-1)+`p'' } } } } else { // RC diff if dif_rc[`j',5]==. | dif_rc[`j',5]==0 { // RC gp0 (400) forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=400+`maxdif'*(`j'-1)+`p''" qui constraint list `=400+`maxdif'*(`j'-1)+`p'' } } if dif_rc[`j',6]!=. & dif_rc[`j',6]!=0 { // RCU gp0 (1001-1200) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=1000+`maxdif'*(`j'-1)+`p''" qui constraint list `=1000+`maxdif'*(`j'-1)+`p'' } } } if dif_rc[`j',7]==. | dif_rc[`j',7]==0 { // RC gp1 (600) forvalues p=1/`nbdif_`j''{ local listconst "`listconst' `=600+`maxdif'*(`j'-1)+`p''" qui constraint list `=600+`maxdif'*(`j'-1)+`p'' } } if dif_rc[`j',8]!=. & dif_rc[`j',8]!=0 { // RCU gp1 (1201-1400) if `nbmoda_`j'' > 2 { forvalues p=2/`nbdif_`j''{ local listconst "`listconst' `=1200+`maxdif'*(`j'-1)+`p''" qui constraint list `=1200+`maxdif'*(`j'-1)+`p'' } } } } } } } local model "" forvalues jj=1/`nbitems'{ forvalues p=1/`nbdif_`jj''{ local model "`model' (`p'.``jj''<-THETA1@`p')(`p'.``=`jj'+`nbitems'''<-THETA2@`p')" } } if "`group'" != "" { qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent } else { qui gsem `model', mlogit tol(0.01) iterate(100) means( THETA1@0 THETA2@m2) var(THETA1@v1 THETA2@v2) cov(THETA1*THETA2@cov12) constraint(`listconst_g') from(esti_2, skip) latent(THETA1 THETA2) nocapslatent } /* Stockage des estimations du modèle */ matrix val_m4 = r(table) matrix esti_4 = e(b) if "`group'" != "" { matrix var_m4 = (val_m4[1,"/var(THETA1)#0bn.`gp'"],val_m4[1,"/var(THETA2)#0bn.`gp'"]\val_m4[2,"/var(THETA1)#0bn.`gp'"],val_m4[2,"/var(THETA2)#0bn.`gp'"]) matrix covar_m4 = (val_m4[1,"/cov(THETA1,THETA2)#0.`gp'"],val_m4[1,"/cov(THETA1,THETA2)#1.`gp'"]\val_m4[2,"/cov(THETA1,THETA2)#0.`gp'"],val_m4[2,"/cov(THETA1,THETA2)#1.`gp'"]\val_m4[4,"/cov(THETA1,THETA2)#0.`gp'"],val_m4[4,"/cov(THETA1,THETA2)#1.`gp'"]) } else { matrix var_m4 = (val_m4[1,"/var(THETA1)"],val_m4[1,"/var(THETA2)"]\val_m4[2,"/var(THETA1)"],val_m4[2,"/var(THETA2)"]) matrix covar_m4 = (val_m4[1,"/cov(THETA1,THETA2)"]\val_m4[2,"/cov(THETA1,THETA2)"]\val_m4[4,"/cov(THETA1,THETA2)"]) } /* Matrice des tests effet grp, tps et inter */ matrix effet = J(5,3,.) matrix colnames effet= Groupe Temps Interaction matrix rownames effet = Esti Std_Err Pvalue Chi DF /*group effect*/ if "`group'" != "" { qui lincom [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' matrix effet[1,1] =r(estimate) matrix effet[2,1]=r(se) qui test [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' = 0 matrix effet[3,1]=r(p) matrix effet[4,1]=r(chi2) matrix effet[5,1]=r(df) } /*time effect*/ if "`group'" != "" { qui lincom [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp' matrix effet[1,2]=r(estimate) matrix effet[2,2]=r(se) qui test [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp' = 0 matrix effet[3,2]=r(p) matrix effet[4,2]=r(chi2) matrix effet[5,2]=r(df) } else { qui lincom [/]:mean(THETA2) /* -[/]:mean(THETA1)*/ local teffm4=r(estimate) local seteffm4=r(se) local ubteffm4 = r(ub) local lbteffm4 = r(lb) qui test [/]:mean(THETA2) /* -[/]:mean(THETA1) */ = 0 local tm4p=r(p) local tm4chi=r(chi2) local tm4df=r(df) } *INTERACTION if "`group'" != "" { qui lincom [/]:mean(THETA2)#1.`gp'-[/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#1.`gp'+[/]:mean(THETA1)#0bn.`gp' matrix effet[1,3]=r(estimate) matrix effet[2,3]=r(se) local ubinterm4=r(ub) local lbinterm4=r(lb) qui test [/]:mean(THETA2)#1.`gp'-[/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#1.`gp'+[/]:mean(THETA1)#0bn.`gp' = 0 matrix effet[3,3]=r(p) matrix effet[4,3]=r(chi2) matrix effet[5,3]=r(df) } if "`group'" != "" { local effet_tps = 0 local effet_grp = 0 if effet[3,3] >= 0.05 { // Si option group, on s'interesse à l'interaction temps x group, et MAJ modèle >>> modèle final = modèle 4 + contrainte 1999 (Interaction = 0) /* Affichage des estimations sur le trait latent du modèle 4 */ if "`detail'" != "" { di di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(28) as text "Estimate" _col(46) "Standard error" _col(62) "P-value" di _col(10) "{hline 65}" di _col(10) as text "Variance Time 1" as result _col(28) %6.2f `=var_m4[1,1]' _col(44) %6.2f `=var_m4[2,1]' di _col(10) as text "Variance Time 2" as result _col(28) %6.2f `=var_m4[1,2]' _col(44) %6.2f `=var_m4[2,2]' di _col(10) as text "Covariance" as result _col(28) %6.2f `=covar_m4[1,1]' _col(44) %6.2f `=covar_m4[2,1]' if "`group'" != "" { di _col(10) as text "Group effect" as result _col(28) %6.2f effet[1,1] _col(44) %6.2f effet[2,1] _col(62) %6.4f effet[3,1] } di _col(10) as text "Time effect" as result _col(28) %6.2f effet[1,2] _col(44) %6.2f effet[2,2] _col(62) %6.4f effet[3,2] if "`group'" != "" { di _col(10) as text "TimexGroup inter" as result _col(28) %6.2f effet[1,3] _col(44) %6.2f effet[2,3] _col(62) %6.4f effet[3,3] } di as text _col(10) "{hline 65}" di di as result "Time x group interaction : test not significant di "Reestimation of model 4 with time x group interaction constrained at 0 " di } local yn_inter = 0 local listconst "`listconst' 1999" qui di "`listconst'" local model "" forvalues jj=1/`nbitems'{ forvalues p=1/`nbdif_`jj''{ local model "`model' (`p'.``jj''<-THETA1@`p')(`p'.``=`jj'+`nbitems'''<-THETA2@`p')" } } qui gsem `model', mlogit tol(0.01) iterate(100) group(`gp') ginvariant(coef loading) means(0: THETA1@0 THETA2@m20) means(1: THETA1@m11 THETA2@m21) var(0: THETA1@v1 THETA2@v2) var(1:THETA1@v1 THETA2@v2) cov(0: THETA1*THETA2@cov12) cov(1: THETA1*THETA2@cov12) constraint(`listconst') from(esti_4, skip) latent(THETA1 THETA2) nocapslatent matrix val_m4 = r(table) } else { local yn_inter = 1 } /*group effect*/ qui lincom [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp' local geffm4=r(estimate) local segeffm4=r(se) local ubgeffm4=r(ub) local lbgeffm4=r(lb) qui test [/]:mean(THETA1)#1.`gp'-[/]:mean(THETA1)#0bn.`gp'=0 local gpm4p=r(p) local gpm4chi=r(chi2) local gpm4df=r(df) /*time effect*/ qui lincom [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp' local teffm4=r(estimate) local seteffm4=r(se) local lbteffm4=r(lb) local ubteffm4=r(ub) qui test [/]:mean(THETA2)#0bn.`gp'-[/]:mean(THETA1)#0bn.`gp'=0 local tm4p=r(p) local tm4chi=r(chi2) local tm4df=r(df) } /* Calcul des difficultés (delta_j) */ if "`group'" != "" { matrix mod4 = J(7,`=`nbmoda_sum'*4+6',.) local name_partTwoC "" forvalues j = 1/`nbitems' { forvalues p=1/`nbdif_`j'' { forvalues t=1/2 { forvalues g = 0/1 { local name_partTwoC "`name_partTwoC' d_j`j'_p`p'_gp`g'_t`t'" } } } } local name_partTwoC "`name_partTwoC' VAR(THETA1) VAR(THETA2) COV(TH1,TH2) GROUP_Effect TIME_Effect INTER_TxG " matrix colnames mod4 = `name_partTwoC' matrix rownames mod4 = Estimate se Upper_b Lower_b Chi_square DF pvalue } else { matrix mod4 = J(7,`=`nbmoda_sum'*2+4',.) local name_partTwoC "" forvalues j = 1/`nbitems' { forvalues p=1/`nbdif_`j'' { forvalues t=1/2 { local name_partTwoC "`name_partTwoC' d_j`j'_p`p'_t`t'" } } } local name_partTwoC "`name_partTwoC' VAR(THETA1) VAR(THETA2) COV(TH1,TH2) TIME_Effect " matrix colnames mod4 = `name_partTwoC' matrix rownames mod4 = Estimate se Upper_b Lower_b Chi_square DF pvalue } *Difficultés forvalues j=1/`nbitems'{ forvalues p=1/`nbdif_`j''{ forvalues t=1/2{ if "`group'" != "" { // groupe binaire forvalues g=0/1 { qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm4= r(estimate) local delta`t'_`j'_`p'g`g'm4_se= r(se) local delta`t'_`j'_`p'g`g'm4_ub=r(ub) local delta`t'_`j'_`p'g`g'm4_lb=r(lb) local delta`t'_`j'_`p'g`g'm4_p=r(p) if `p'>1 { qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' - [`p'.``=(`t'-1)*`nbitems'+`j''']:`g'.`gp' local delta`t'_`j'_`p'g`g'm4=r(estimate) local delta`t'_`j'_`p'g`g'm4_se=r(se) local delta`t'_`j'_`p'g`g'm4_ub=r(ub) local delta`t'_`j'_`p'g`g'm4_lb=r(lb) local delta`t'_`j'_`p'g`g'm4_p=r(p) } local place = 0 local compt = 1 while `compt' < `j' { local place = `place' + `nbdif_`compt'' local ++compt } if `t' == 1 { matrix mod4[1,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm4' matrix mod4[2,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm4_se' matrix mod4[3,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm4_ub' matrix mod4[4,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm4_lb' matrix mod4[7,`=4*(`p'-1)+`g'+`t'+4*`place'']=`delta`t'_`j'_`p'g`g'm4_p' } if `t' == 2 { matrix mod4[1,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm4' matrix mod4[2,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm4_se' matrix mod4[3,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm4_ub' matrix mod4[4,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm4_lb' matrix mod4[7,`=4*(`p'-1)+`g'+`t'+1+4*`place'']=`delta`t'_`j'_`p'g`g'm4_p' } } } else { // groupe unique (=gp0) qui lincom -[`p'.``=(`t'-1)*`nbitems'+`j''']_cons local delta`t'_`j'_`p'g0m4= r(estimate) local delta`t'_`j'_`p'g0m4_se= r(se) local delta`t'_`j'_`p'g0m4_ub=r(ub) local delta`t'_`j'_`p'g0m4_lb=r(lb) local delta`t'_`j'_`p'g0m4_p=r(p) if `p'>1{ qui lincom [`=`p'-1'.``=(`t'-1)*`nbitems'+`j''']_cons - [`p'.``=(`t'-1)*`nbitems'+`j''']_cons local delta`t'_`j'_`p'g0m4=r(estimate) local delta`t'_`j'_`p'g0m4_se=r(se) local delta`t'_`j'_`p'g0m4_ub=r(ub) local delta`t'_`j'_`p'g0m4_lb=r(lb) local delta`t'_`j'_`p'g0m4_p=r(p) } local place = 0 local compt = 1 while `compt' < `j' { local place = `place' + `nbdif_`compt'' local ++compt } if `t' == 1 { matrix mod4[1,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4' matrix mod4[2,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_se' matrix mod4[3,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_ub' matrix mod4[4,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_lb' matrix mod4[7,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_p' } if `t' == 2 { matrix mod4[1,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4' matrix mod4[2,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_se' matrix mod4[3,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_ub' matrix mod4[4,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_lb' matrix mod4[7,`=2*(`p'-1)+`t'+2*`place'']=`delta`t'_`j'_`p'g0m4_p' } } } } } if "`group'" != "" { matrix mod4[1,`=4*`nbmoda_sum'+1'] = (val_m4[1,"/var(THETA1)#0bn.`gp'"], val_m4[1,"/var(THETA2)#0bn.`gp'"]) matrix mod4[2,`=4*`nbmoda_sum'+1'] = (val_m4[2,"/var(THETA1)#0bn.`gp'"],val_m4[2,"/var(THETA2)#0bn.`gp'"]) matrix mod4[3,`=4*`nbmoda_sum'+1'] = (val_m4[6,"/var(THETA1)#0bn.`gp'"],val_m4[6,"/var(THETA2)#0bn.`gp'"]) matrix mod4[4,`=4*`nbmoda_sum'+1'] = (val_m4[5,"/var(THETA1)#0bn.`gp'"],val_m4[5,"/var(THETA2)#0bn.`gp'"]) matrix mod4[1,`=4*`nbmoda_sum'+2+1'] = (val_m4[1,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod4[2,`=4*`nbmoda_sum'+2+1'] = (val_m4[2,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod4[3,`=4*`nbmoda_sum'+2+1'] = (val_m4[6,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod4[4,`=4*`nbmoda_sum'+2+1'] = (val_m4[5,"/cov(THETA1,THETA2)#0.`gp'"]) matrix mod4[1,`=4*`nbmoda_sum'+2+1+1'] = `geffm4' matrix mod4[2,`=4*`nbmoda_sum'+2+1+1'] = `segeffm4' matrix mod4[3,`=4*`nbmoda_sum'+2+1+1'] = `ubgeffm4' matrix mod4[4,`=4*`nbmoda_sum'+2+1+1'] = `lbgeffm4' matrix mod4[5,`=4*`nbmoda_sum'+2+1+1'] = `gpm4chi' matrix mod4[6,`=4*`nbmoda_sum'+2+1+1'] = `gpm4df' matrix mod4[7,`=4*`nbmoda_sum'+2+1+1'] = `gpm4p' matrix mod4[1,`=4*`nbmoda_sum'+2+1+1+1'] = `teffm4' matrix mod4[2,`=4*`nbmoda_sum'+2+1+1+1'] = `seteffm4' matrix mod4[3,`=4*`nbmoda_sum'+2+1+1+1'] = `ubteffm4' matrix mod4[4,`=4*`nbmoda_sum'+2+1+1+1'] = `lbteffm4' matrix mod4[5,`=4*`nbmoda_sum'+2+1+1+1'] = `tm4chi' matrix mod4[6,`=4*`nbmoda_sum'+2+1+1+1'] = `tm4df' matrix mod4[7,`=4*`nbmoda_sum'+2+1+1+1'] = `tm4p' if `yn_inter' == 1 { //Slmt si model avec interaction matrix mod4[1,`=4*`nbmoda_sum'+2+1+1+1+1'] = effet[1,3] matrix mod4[2,`=4*`nbmoda_sum'+2+1+1+1+1'] = effet[2,3] matrix mod4[3,`=4*`nbmoda_sum'+2+1+1+1+1'] = `ubinterm4' matrix mod4[4,`=4*`nbmoda_sum'+2+1+1+1+1'] = `lbinterm4' matrix mod4[5,`=4*`nbmoda_sum'+2+1+1+1+1'] = effet[4,3] matrix mod4[6,`=4*`nbmoda_sum'+2+1+1+1+1'] = effet[5,3] matrix mod4[7,`=4*`nbmoda_sum'+2+1+1+1+1'] = effet[3,3] } } else { matrix mod4[1,`=2*`nbmoda_sum'+1'] = (val_m4[1,"/var(THETA1)"],val_m4[1,"/var(THETA2)"]) matrix mod4[2,`=2*`nbmoda_sum'+1'] = (val_m4[2,"/var(THETA1)"],val_m4[2,"/var(THETA2)"]) matrix mod4[3,`=2*`nbmoda_sum'+1'] = (val_m4[6,"/var(THETA1)"],val_m4[6,"/var(THETA2)"]) matrix mod4[4,`=2*`nbmoda_sum'+1'] = (val_m4[5,"/var(THETA1)"],val_m4[5,"/var(THETA2)"]) matrix mod4[1,`=2*`nbmoda_sum'+2+1'] = (val_m4[1,"/cov(THETA1,THETA2)"]) matrix mod4[2,`=2*`nbmoda_sum'+2+1'] = (val_m4[2,"/cov(THETA1,THETA2)"]) matrix mod4[3,`=2*`nbmoda_sum'+2+1'] = (val_m4[6,"/cov(THETA1,THETA2)"]) matrix mod4[4,`=2*`nbmoda_sum'+2+1'] = (val_m4[5,"/cov(THETA1,THETA2)"]) matrix mod4[1,`=2*`nbmoda_sum'+2+1+1'] = `teffm4' matrix mod4[2,`=2*`nbmoda_sum'+2+1+1'] = `seteffm4' matrix mod4[3,`=2*`nbmoda_sum'+2+1+1'] = `ubteffm4' matrix mod4[4,`=2*`nbmoda_sum'+2+1+1'] = `lbteffm4' matrix mod4[5,`=2*`nbmoda_sum'+2+1+1'] = `tm4chi' matrix mod4[6,`=2*`nbmoda_sum'+2+1+1'] = `tm4df' matrix mod4[7,`=2*`nbmoda_sum'+2+1+1'] = `tm4p' } /* Affichage des estimations des difficultés */ di _col(5) as text "{ul:MODEL 4} = Final model" di if "`group'" != "" { di %~105s as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 85}" di _col(38) "Time 1" _col(76) "Time 2" di as text _col(25) abbrev("`gp'",15) "=0" _col(43) abbrev("`gp'",15) "=1" _col(64) abbrev("`gp'",15) "=0" _col(82) abbrev("`gp'",15) "=1" di _col(10) "{hline 85}" } else { di %~70s as text as text "Item difficulties: estimates (s.e.)" di _col(10) "{hline 50}" di _col(25) "Time 1" _col(43) "Time 2" di _col(10) "{hline 50}" } forvalues j=1/`nbitems' { di as text _col(10) "``j''" forvalues p=1/`nbdif_`j'' { if "`group'" != "" { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m4' " (" %4.2f `delta1_`j'_`p'g0m4_se' ")" _col(43) %6.2f `delta1_`j'_`p'g1m4' " (" %4.2f `delta1_`j'_`p'g1m4_se' ")" /// _col(63) %6.2f `delta2_`j'_`p'g0m4' " (" %4.2f `delta2_`j'_`p'g0m4_se' ")" _col(81) %6.2f `delta2_`j'_`p'g1m4' " (" %4.2f `delta2_`j'_`p'g1m4_se' ")" } else { di as text _col(10) "`p'" as result _col(25) %6.2f `delta1_`j'_`p'g0m4' " (" %4.2f `delta1_`j'_`p'g0m4_se' ")" _col(43) %6.2f `delta2_`j'_`p'g0m4' " (" %4.2f `delta2_`j'_`p'g0m4_se' ")" } } } if "`group'" != "" { di as text _col(10) "{hline 85}" } else { di as text _col(10) "{hline 50}" } /* Affichage des estimations sur le trait latent du modèle final */ di di %~85s as text "Latent trait distribution" di _col(10) "{hline 65}" di _col(28) as text "Estimate" _col(44) "Standard error" _col(62) "P-value" di _col(10) "{hline 65}" if "`group'" == "" { local fact_k = 2 } else { local fact_k = 4 } di _col(10) as text "Variance Time 1" as result _col(28) %6.2f `=mod4[1,`=`fact_k'*`nbmoda_sum'+1']' _col(44) %6.2f =mod4[2,`=`fact_k'*`nbmoda_sum'+1'] di _col(10) as text "Variance Time 2" as result _col(28) %6.2f `=mod4[1,`=`fact_k'*`nbmoda_sum'+2']' _col(44) %6.2f `=mod4[2,`=`fact_k'*`nbmoda_sum'+2']' di _col(10) as text "Covariance" as result _col(28) %6.2f `=mod4[1,`=`fact_k'*`nbmoda_sum'+3']' _col(44) %6.2f `=mod4[2,`=`fact_k'*`nbmoda_sum'+3']' if "`group'" != "" { di _col(10) as text "Group effect" as result _col(28) %6.2f `geffm4' _col(44) %6.2f `segeffm4' _col(62) %6.4f `gpm4p' } di _col(10) as text "Time effect" as result _col(28) %6.2f `teffm4' _col(44) %6.2f `seteffm4' _col(62) %6.4f `tm4p' if "`group'" != "" { if effet[3,3] < 0.05 { di _col(10) as text "TimexGroup inter" as result _col(28) %6.2f effet[1,3] _col(44) %6.2f effet[2,3] _col(62) %6.4f effet[3,3] } else { di _col(10) as text "TimexGroup inter" as result _col(28) "0 (constrained)" } } di as text _col(10) "{hline 65}" /***************************************/ /* Calcul des valeurs de DIF et de RC */ /*************************************/ forvalues j=1/`nbitems' { if `nbmoda_`j'' >= 2 { matrix valeur_difrc_`j' = J(`nbdif_`j'',8,.) matrix colnames valeur_difrc_`j' = DIFT1 DIFT1_SE RC_GP0 RC_GP0_SE RC_GP1 RC_GP1_SE } } forvalues j=1/`nbitems'{ if `nbmoda_`j'' >= 2 { if "`group'" != "" { *DIF if "`nodif'"=="" { if (dif_rc[`j',1] != . ) { forvalues p=1/`nbdif_`j'' { if `p' == 1 { qui lincom -[1.``j'']:1.`gp'+[1.``j'']:0.`gp' matrix valeur_difrc_`j'[`p',1] = r(estimate) matrix valeur_difrc_`j'[`p',2] = round(r(se),0.01) } if `p' > 1 { qui lincom [`=`p'-1'.``j'']:1.`gp' - [`p'.``j'']:1.`gp' -[`=`p'-1'.``j'']:0.`gp' + [`p'.``j'']:0.`gp' matrix valeur_difrc_`j'[`p',1] = r(estimate) matrix valeur_difrc_`j'[`p',2] = round(r(se),0.01) } } } } *RC GROUP 0 if (dif_rc[`j',3] != . & dif_rc[`j',5] != . ) { forvalues p=1/`nbdif_`j'' { qui lincom -[1.``=`j'+`nbitems''']:0.`gp' + [1.``j'']:0.`gp' matrix valeur_difrc_`j'[`p',3] = r(estimate) matrix valeur_difrc_`j'[`p',4] = round(r(se),0.01) if `p' > 1 { qui lincom [`=`p'-1'.``=`j'+`nbitems''']:0.`gp' - [`p'.``=`j'+`nbitems''']:0.`gp' -[`=`p'-1'.``j'']:0.`gp' + [`p'.``j'']:0.`gp' matrix valeur_difrc_`j'[`p',3] = r(estimate) matrix valeur_difrc_`j'[`p',4] = round(r(se),0.01) } } } *RC GROUP 1 if (dif_rc[`j',3] != . & dif_rc[`j',7] != . ) { forvalues p=1/`nbdif_`j'' { qui lincom -[1.``=`j'+`nbitems''']:1.`gp' + [1.``j'']:1.`gp' matrix valeur_difrc_`j'[`p',5] = r(estimate) matrix valeur_difrc_`j'[`p',6] = round(r(se),0.01) if `p' > 1 { qui lincom [`=`p'-1'.``=`j'+`nbitems''']:1.`gp' - [`p'.``=`j'+`nbitems''']:1.`gp' -[`=`p'-1'.``j'']:1.`gp' + [`p'.``j'']:1.`gp' matrix valeur_difrc_`j'[`p',5] = r(estimate) matrix valeur_difrc_`j'[`p',6] = round(r(se),0.01) } } } } else { forvalues p=1/`nbdif_`j'' { qui lincom -[1.``=`j'+`nbitems''']_cons + [1.``j'']_cons matrix valeur_difrc_`j'[`p',3] = r(estimate) matrix valeur_difrc_`j'[`p',4] = round(r(se),0.01) if `p' > 1 { qui lincom [`=`p'-1'.``=`j'+`nbitems''']_cons - [`p'.``=`j'+`nbitems''']_cons -[`=`p'-1'.``j'']_cons + [`p'.``j'']_cons matrix valeur_difrc_`j'[`p',3] = r(estimate) matrix valeur_difrc_`j'[`p',4] = round(r(se),0.01) } } } } } forvalues j = 1/`nbitems' { if `nbmoda_`j'' >= 2 { forvalues p = 1/`nbdif_`j'' { forvalues k = 1/8 { if valeur_difrc_`j'[`p',`k'] == . { matrix valeur_difrc_`j'[`p',`k'] = 0 } } } } } /* Affichage des estimations des valeurs de DIF et de RC */ if "`group'" != "" { di di %~85s as text "Estimates of differences between groups and recalibration" } else { di di %~50s as text "Estimates of recalibration" } if "`group'" != "" & "`nodif'"==""{ di _col(10) "{hline 65}" di _col(27) "Difference of" _col(52) "RECALIBRATION" di _col(27) "groups at T1" _col(47) abbrev("`gp'",15) "=0" _col(62) abbrev("`gp'",15) "=1" di _col(10) "{hline 65}" } else if "`group'" != "" & "`nodif'"!="" { di _col(10) "{hline 50}" di _col(32) "RECALIBRATION" di in ye _col(27) "`gp'=`=rep[1,1]'" _col(47) "`gp'=`=rep[2,1]'" di _col(10) "{hline 50}" } else { di _col(10) "{hline 30}" di _col(25) "RECALIBRATION" di _col(10) "{hline 30}" } forvalues j=1/`nbitems' { if `nbmoda_`j'' >= 2 { if "`group'" != "" & "`nodif'" == "" { di as text _col(10) "``j''" } else { di as text _col(10) "``j''" } forvalues p=1/`nbdif_`j'' { if "`group'" != "" & "`nodif'"=="" { di as text _col(10) "`p'" as result _col(27) %6.2f `=valeur_difrc_`j'[`p',1]' " (" %4.2f `=valeur_difrc_`j'[`p',2]' ")" /// _col(47) %6.2f `=valeur_difrc_`j'[`p',3]' " (" %4.2f `=valeur_difrc_`j'[`p',4]' ")" _col(62) %6.2f `=valeur_difrc_`j'[`p',5]' " (" %4.2f `=valeur_difrc_`j'[`p',6]' ")" } else if "`group'" != "" & "`nodif'"!="" { di as text _col(10) "`p'" as result _col(25) %6.2f `=valeur_difrc_`j'[`p',3]' " (" %4.2f `=valeur_difrc_`j'[`p',4]' ")" _col(45) %6.2f `=valeur_difrc_`j'[`p',5]' " (" %4.2f `=valeur_difrc_`j'[`p',6]' ")" } else { di as text _col(10) "`p'" as result _col(25) %6.2f `=valeur_difrc_`j'[`p',3]' " (" %4.2f `=valeur_difrc_`j'[`p',4]' ")" } } } } if "`group'" != "" & "`nodif'"=="" { di as text _col(10) "{hline 65}" } else if "`group'" != "" & "`nodif'"!=""{ di as text _col(10) "{hline 50}" } else { di as text _col(10) "{hline 30}" } di ******************************************************************************* * New outputs if "`group'" == "" { matrix testlrm = J(1,3,.) matrix colnames testlrm = chi_square df pvalue matrix rownames testlrm = m1_vs_m2 matrix testlrm[1,1] = (`rstestchi',`rstestdf',`rstestp') return matrix test_model = testlrm } else if "`nodif'" != "" { matrix testlrm = J(1,3,.) matrix colnames testlrm = chi_square df pvalue matrix rownames testlrm = m1_vs_m2 matrix testlrm[1,1] = (`rstestchi',`rstestdf',`rstestp') return matrix test_model = testlrm } else { matrix testlrm = J(2,3,.) matrix colnames testlrm = chi_square df pvalue matrix rownames testlrm = mA_vs_mB m1_vs_m2 matrix testlrm[1,1] = (`diftestchi',`diftestdf',`diftestp') matrix testlrm[2,1] = (`rstestchi',`rstestdf',`rstestp') return matrix test_model = testlrm } return matrix model_4 = mod4 return matrix model_2 = mod2 capture qui use `saverspcm', clear end