DATASET ACTIVATE DataSet3.

/******************************************************************************************/
/* VARIABLES */
/******************************************************************************************/
/* THIS PROGRAM USES THE FOLLOWING ORIGINAL ESS VARIABLES */
/* emplno */
/* emplrel */
/* njbspv */
/* jbspv */
/* orgwrk */
/* THIS PROGRAM CREATE THE FOLLOWING VARIABLES */
/* emplno1 */
/* emplrel1 */
/* njbspv1 */
/* jbspv1 */
/* THIS PROGRAM CREATE THE FOLLOWING MACRO VARIABLES */
/* @ISKO */
/* @EGP10 */
/* @SEMPL */

/* @SUPVIS */
/**********************************************************************/
/* BEGIN procedure to define vars @SUPVIS @SEMPL @ISKO */
/**********************************************************************/.
/* Dear user, */
/* this part of the program create the new variables emplno1 emplrel1 njbspv1 jbspv1 */
/* as result of cleans variables emplno emplrel njbspv jbspv and create the macro variables*/
/* @SUPVIS @SEMPL @ISKO */
/* in the following line you have to specify the data set's variable containing the ISCO88 4-digits information */
/* if you use the original ESS1E05_F1.POR data file: cancel the asterisk in front of line; modify the path and run this line*/
/* remember: if you run this line do not run the following "GET FILE" line command */
* IMPORT FILE='C:\dati\Hakon\ESS1E05_F1.POR'.
/* if you use a SPSS system file ".SAV": modify the path and the file name and run this line */
GET FILE='C:\dati\Hakon\ESS1E05_F1.sav'.
/* insert here the variable name containing the ISCO88 4-digits information of the occupation of the respondent: in ESSis iscoco.*/.
compute iscoco = isco08.
compute emplno1 = emplno.

compute @isko = iscoco.
/* Here the program create a copy of emplno emplrel njbspv jbspv */.
recode emplno (else=copy) into emplno1.
recode njbspv (else=copy) into njbspv1.
recode jbspv (sysmis=-1) (else=copy) into jbspv1.
recode emplrel (else=copy) into @sempl.
/* Here the program create a variable on self-employment "@sempl" with the code=2 for the self-employed */.
do if ((emplno1 lt 66666) and (@sempl gt 6)).
compute @sempl=2.
else if ((emplno1 eq 66666) and (@sempl gt 6)).
compute @sempl=1.
else if ((emplno1 lt 6666) and any(@sempl,1,3)).
compute emplno1=99999.
end if.
val labels @sempl 1 'Employee' 2 'Self-Employed' 3 'Working for own family business' 6 'Not applicable' 7 'Refusal' 8
"Don't know" 9 'No answer'
/jbspv1 1 "Yes" 2 "No" 6 'Not applicable' 7 'Refusal' 8 "Don't know" 9 'No answer'.
do if ((njbspv1 lt 66666) and (jbspv1 gt 6)).
compute jbspv1=1.
else if ((njbspv1 eq 66666) and (jbspv1 gt 6)).
compute jbspv1=2.
else if ((njbspv1 lt 6666) and (jbspv1 eq 2)).
compute njbspv1=99999.
else if ((njbspv1 eq 0) and (jbspv1 eq 1)).
compute njbspv1=99999.
end if.
/* Here the program create a variable on supervision "@supvis" with the number of supervised person and number ofemployed */.
do if ((@sempl eq 2) and (jbspv1 ne 1)).
compute @supvis=emplno1.
else if ((@sempl ne 2) and (jbspv1 eq 1)).
compute @supvis=njbspv1.
else if ((@sempl eq 2) and (jbspv1 eq 1)).

compute @supvis=emplno1.
else.
compute @supvis=emplno1.
end if.
recode @supvis (66666=-2).
recode @sempl (2, 3=2) (else=1).
execute.
missing value @supvis (77777 thru 99999).
missing value emplno1 (66666 thru 99999).

*********************************************************************.
* END of procedure to define vars @SUPVIS @SEMPL @ISKO.
*********************************************************************.
/**********************************************************************/
/* BEGIN procedure to define the variable @EGP10 *
/**********************************************************************/.
/* Dear user, */
/* this part of the program create the EGP Class Scheme */
/* The first part of the programa is from GANZEBOOM PROGRAM */
/* The second part of the program revised the GANZEBOOM PROGRAM */
*____________________________________________________
THIS PART IS FROM THE GANZEBOOM PROGRAM
____________________________________________________.
** last fix: summer 1994.
** last fix: may 2001 IIIa and IIIb distinguished.
do repeat i=@isko / e=@egp10.
compute e=i.
end repeat.
** This module makes sure that managers and owners with certain.
** employment statuses go into the right place.
do repeat iii=@isko / sss=@sempl.
do if (sss eq 2).
recode iii (6130=1311).
end if.
end repeat.
execute.
do repeat s=@sempl / sv=@supvis / is=@isko.
if ( is eq 7510 and sv le 0) sv=5.
if ((is ge 6100 and is le 6133) and sv ge 1) is=1311.
if ((is ge 9200 and is le 9213) and sv gt 1) is=6132.
do if (sv ge 11).
recode is (1311=1221)(1312=1222)(1313=1223)(1314=1224)(1315=1225)
(1316=1226)(1317=1227)(1318=1228)(1319=1229)(1300,1310=1220).
end if.
do if (sv ge 1 and sv le 10).
recode is (1221=1311)(1222=1312)(1223=1313)(1224=1314)(1225=1315)
(1226=1316)(1227=1317)(1228=1318)(1229=1319)(1200 1210 1220=1310).
end if.
if ((is eq 1220 or (is ge 1222 and is le 1229)) and (s eq 2) and (sv ge 11)) is=1210.
end repeat.
execute.
recode @isko (1000= 1) into @egp10.
recode @isko (1100= 1) into @egp10.
recode @isko (1110= 1) into @egp10.
recode @isko (1120= 1) into @egp10.
recode @isko (1130= 2) into @egp10.
recode @isko (1140= 2) into @egp10.
recode @isko (1141= 2) into @egp10.
recode @isko (1142= 2) into @egp10.
recode @isko (1143= 2) into @egp10.
recode @isko (1200= 1) into @egp10.
recode @isko (1210= 1) into @egp10.
recode @isko (1220= 1) into @egp10.
recode @isko (1221=11) into @egp10.
recode @isko (1222= 1) into @egp10.
recode @isko (1223= 1) into @egp10.
recode @isko (1224= 1) into @egp10.
recode @isko (1225= 1) into @egp10.
recode @isko (1226= 1) into @egp10.
recode @isko (1227= 1) into @egp10.
recode @isko (1228= 1) into @egp10.
recode @isko (1229= 1) into @egp10.
recode @isko (1230= 1) into @egp10.
recode @isko (1231= 1) into @egp10.
recode @isko (1232= 1) into @egp10.
recode @isko (1233= 1) into @egp10.
recode @isko (1234= 1) into @egp10.
recode @isko (1235= 1) into @egp10.
recode @isko (1236= 1) into @egp10.
recode @isko (1237= 1) into @egp10.
recode @isko (1239= 1) into @egp10.
recode @isko (1240= 2) into @egp10.
recode @isko (1250= 1) into @egp10.
recode @isko (1251= 1) into @egp10.
recode @isko (1252= 2) into @egp10.
recode @isko (1300= 2) into @egp10.
recode @isko (1310= 2) into @egp10.
recode @isko (1311=11) into @egp10.
recode @isko (1312= 2) into @egp10.
recode @isko (1313= 2) into @egp10.
recode @isko (1314= 2) into @egp10.
recode @isko (1315= 2) into @egp10.
recode @isko (1316= 2) into @egp10.
recode @isko (1317= 2) into @egp10.
recode @isko (1318= 2) into @egp10.
recode @isko (1319= 2) into @egp10.
recode @isko (2000= 1) into @egp10.
recode @isko (2100= 1) into @egp10.
recode @isko (2110= 1) into @egp10.
recode @isko (2111= 1) into @egp10.
recode @isko (2112= 1) into @egp10.
recode @isko (2113= 1) into @egp10.
recode @isko (2114= 1) into @egp10.
recode @isko (2120= 1) into @egp10.
recode @isko (2121= 1) into @egp10.
recode @isko (2122= 1) into @egp10.
recode @isko (2130= 1) into @egp10.
recode @isko (2131= 1) into @egp10.
recode @isko (2132= 2) into @egp10.
recode @isko (2139= 2) into @egp10.
recode @isko (2140= 1) into @egp10.
recode @isko (2141= 1) into @egp10.
recode @isko (2142= 1) into @egp10.
recode @isko (2143= 1) into @egp10.
recode @isko (2144= 1) into @egp10.
recode @isko (2145= 1) into @egp10.
recode @isko (2146= 1) into @egp10.
recode @isko (2147= 1) into @egp10.
recode @isko (2148= 2) into @egp10.
recode @isko (2149= 1) into @egp10.
recode @isko (2200= 1) into @egp10.
recode @isko (2210= 1) into @egp10.
recode @isko (2211= 1) into @egp10.
recode @isko (2212= 1) into @egp10.
recode @isko (2213= 1) into @egp10.
recode @isko (2220= 1) into @egp10.
recode @isko (2221= 1) into @egp10.
recode @isko (2222= 1) into @egp10.
recode @isko (2223= 1) into @egp10.
recode @isko (2224= 1) into @egp10.
recode @isko (2229= 1) into @egp10.
recode @isko (2230= 2) into @egp10.
recode @isko (2300= 2) into @egp10.
recode @isko (2310= 1) into @egp10.
recode @isko (2320= 2) into @egp10.
recode @isko (2321= 2) into @egp10.
recode @isko (2322= 2) into @egp10.
recode @isko (2323= 2) into @egp10.
recode @isko (2330= 2) into @egp10.
recode @isko (2331= 2) into @egp10.
recode @isko (2332= 2) into @egp10.
recode @isko (2340= 2) into @egp10.
recode @isko (2350= 1) into @egp10.
recode @isko (2351= 1) into @egp10.
recode @isko (2352= 1) into @egp10.
recode @isko (2359= 2) into @egp10.
recode @isko (2400= 1) into @egp10.
recode @isko (2410= 2) into @egp10.
recode @isko (2411= 1) into @egp10.
recode @isko (2412= 2) into @egp10.
recode @isko (2419= 2) into @egp10.
recode @isko (2420= 1) into @egp10.
recode @isko (2421= 1) into @egp10.
recode @isko (2422= 1) into @egp10.
recode @isko (2429= 1) into @egp10.
recode @isko (2430= 2) into @egp10.
recode @isko (2431= 2) into @egp10.
recode @isko (2432= 2) into @egp10.
recode @isko (2440= 1) into @egp10.
recode @isko (2441= 1) into @egp10.
recode @isko (2442= 1) into @egp10.
recode @isko (2443= 1) into @egp10.
recode @isko (2444= 2) into @egp10.
recode @isko (2445= 1) into @egp10.
recode @isko (2446= 2) into @egp10.
recode @isko (2450= 2) into @egp10.
recode @isko (2451= 2) into @egp10.
recode @isko (2452= 2) into @egp10.
recode @isko (2453= 2) into @egp10.
recode @isko (2454= 2) into @egp10.
recode @isko (2455= 2) into @egp10.
recode @isko (2460= 2) into @egp10.
recode @isko (3000= 2) into @egp10.
recode @isko (3100= 2) into @egp10.
recode @isko (3110= 2) into @egp10.
recode @isko (3111= 2) into @egp10.
recode @isko (3112= 2) into @egp10.
recode @isko (3113= 2) into @egp10.
recode @isko (3114= 2) into @egp10.
recode @isko (3115= 2) into @egp10.
recode @isko (3116= 2) into @egp10.
recode @isko (3117= 2) into @egp10.
recode @isko (3118= 2) into @egp10.
recode @isko (3119= 2) into @egp10.
recode @isko (3120= 2) into @egp10.
recode @isko (3121= 2) into @egp10.
recode @isko (3122= 2) into @egp10.
recode @isko (3123= 2) into @egp10.
recode @isko (3130= 2) into @egp10.
recode @isko (3131= 2) into @egp10.
recode @isko (3132= 2) into @egp10.
recode @isko (3133= 2) into @egp10.
recode @isko (3139= 2) into @egp10.
recode @isko (3140= 2) into @egp10.
recode @isko (3141= 2) into @egp10.
recode @isko (3142= 2) into @egp10.
recode @isko (3143= 1) into @egp10.
recode @isko (3144= 1) into @egp10.
recode @isko (3145= 2) into @egp10.
recode @isko (3150= 2) into @egp10.
recode @isko (3151= 2) into @egp10.
recode @isko (3152= 2) into @egp10.
recode @isko (3200= 2) into @egp10.
recode @isko (3210= 2) into @egp10.
recode @isko (3211= 2) into @egp10.
recode @isko (3212= 2) into @egp10.
recode @isko (3213= 2) into @egp10.
recode @isko (3220= 2) into @egp10.
recode @isko (3221= 2) into @egp10.
recode @isko (3222= 2) into @egp10.
recode @isko (3223= 2) into @egp10.
recode @isko (3224= 2) into @egp10.
recode @isko (3225= 2) into @egp10.
recode @isko (3226= 2) into @egp10.
recode @isko (3227= 2) into @egp10.
recode @isko (3228= 2) into @egp10.
recode @isko (3229= 2) into @egp10.
recode @isko (3230= 3) into @egp10.
recode @isko (3231= 3) into @egp10.
recode @isko (3232= 3) into @egp10.
recode @isko (3240= 2) into @egp10.
recode @isko (3241= 2) into @egp10.
recode @isko (3242= 2) into @egp10.
recode @isko (3300= 3) into @egp10.
recode @isko (3310= 3) into @egp10.
recode @isko (3320= 3) into @egp10.
recode @isko (3330= 3) into @egp10.
recode @isko (3340= 3) into @egp10.
recode @isko (3400= 2) into @egp10.
recode @isko (3410= 2) into @egp10.
recode @isko (3411= 2) into @egp10.
recode @isko (3412= 2) into @egp10.
recode @isko (3413= 2) into @egp10.
recode @isko (3414= 2) into @egp10.
recode @isko (3415= 2) into @egp10.
recode @isko (3416= 2) into @egp10.
recode @isko (3417= 2) into @egp10.
recode @isko (3419= 2) into @egp10.
recode @isko (3420= 2) into @egp10.
recode @isko (3421= 2) into @egp10.
recode @isko (3422= 2) into @egp10.
recode @isko (3423= 2) into @egp10.
recode @isko (3429= 2) into @egp10.
recode @isko (3430= 3) into @egp10.
recode @isko (3431= 2) into @egp10.
recode @isko (3432= 2) into @egp10.
recode @isko (3433= 3) into @egp10.
recode @isko (3434= 2) into @egp10.
recode @isko (3439= 3) into @egp10.
recode @isko (3440= 2) into @egp10.
recode @isko (3441= 2) into @egp10.
recode @isko (3442= 2) into @egp10.
recode @isko (3443= 2) into @egp10.
recode @isko (3444= 2) into @egp10.
recode @isko (3449= 2) into @egp10.
recode @isko (3450= 2) into @egp10.
recode @isko (3451= 2) into @egp10.
recode @isko (3452= 7) into @egp10.
recode @isko (3460= 3) into @egp10.
recode @isko (3470= 2) into @egp10.
recode @isko (3471= 2) into @egp10.
recode @isko (3472= 2) into @egp10.
recode @isko (3473= 2) into @egp10.
recode @isko (3474= 2) into @egp10.
recode @isko (3475= 2) into @egp10.
recode @isko (3480= 3) into @egp10.
recode @isko (4000= 3) into @egp10.
recode @isko (4100= 3) into @egp10.
recode @isko (4110= 3) into @egp10.
recode @isko (4111= 3) into @egp10.
recode @isko (4112= 3) into @egp10.
recode @isko (4113= 3) into @egp10.
recode @isko (4114= 3) into @egp10.
recode @isko (4115= 3) into @egp10.
recode @isko (4120= 3) into @egp10.
recode @isko (4121= 3) into @egp10.
recode @isko (4122= 3) into @egp10.
recode @isko (4130= 3) into @egp10.
recode @isko (4131= 3) into @egp10.
recode @isko (4132= 3) into @egp10.
recode @isko (4133= 3) into @egp10.
recode @isko (4140= 3) into @egp10.
recode @isko (4141= 3) into @egp10.
recode @isko (4142= 9) into @egp10.
recode @isko (4143= 3) into @egp10.
recode @isko (4144= 3) into @egp10.
recode @isko (4190= 3) into @egp10.
recode @isko (4200= 3) into @egp10.
recode @isko (4210= 3) into @egp10.
recode @isko (4211= 3) into @egp10.
recode @isko (4212= 3) into @egp10.
recode @isko (4213= 3) into @egp10.
recode @isko (4214= 3) into @egp10.
recode @isko (4215= 3) into @egp10.
recode @isko (4220= 3) into @egp10.
recode @isko (4221= 3) into @egp10.
recode @isko (4222= 3) into @egp10.
recode @isko (4223= 3) into @egp10.
recode @isko (5000= 3) into @egp10.
recode @isko (5100= 3) into @egp10.
recode @isko (5110= 3) into @egp10.
recode @isko (5111= 3) into @egp10.
recode @isko (5112= 3) into @egp10.
recode @isko (5113= 3) into @egp10.
recode @isko (5120= 3) into @egp10.
recode @isko (5121= 3) into @egp10.
recode @isko (5122= 8) into @egp10.
recode @isko (5123= 3) into @egp10.
recode @isko (5130= 3) into @egp10.
recode @isko (5131= 3) into @egp10.
recode @isko (5132= 3) into @egp10.
recode @isko (5133= 3) into @egp10.
recode @isko (5139= 3) into @egp10.
recode @isko (5140= 8) into @egp10.
recode @isko (5141= 8) into @egp10.
recode @isko (5142= 3) into @egp10.
recode @isko (5143= 8) into @egp10.
recode @isko (5149= 3) into @egp10.
recode @isko (5150= 2) into @egp10.
recode @isko (5151= 2) into @egp10.
recode @isko (5152= 2) into @egp10.
recode @isko (5160= 9) into @egp10.
recode @isko (5161= 8) into @egp10.
recode @isko (5162= 8) into @egp10.
recode @isko (5163= 9) into @egp10.
recode @isko (5164= 8) into @egp10.
recode @isko (5169= 9) into @egp10.
recode @isko (5200= 3) into @egp10.
recode @isko (5210= 3) into @egp10.
recode @isko (5220= 3) into @egp10.
recode @isko (5230= 3) into @egp10.
recode @isko (6000=10) into @egp10.
recode @isko (6100=10) into @egp10.
recode @isko (6110=10) into @egp10.
recode @isko (6111=10) into @egp10.
recode @isko (6112=10) into @egp10.
recode @isko (6113=10) into @egp10.
recode @isko (6114=10) into @egp10.
recode @isko (6120=10) into @egp10.
recode @isko (6121=10) into @egp10.
recode @isko (6122=10) into @egp10.
recode @isko (6123=10) into @egp10.
recode @isko (6124=10) into @egp10.
recode @isko (6129=10) into @egp10.
recode @isko (6130=10) into @egp10.
recode @isko (6131=11) into @egp10.
recode @isko (6132=11) into @egp10.
recode @isko (6133=11) into @egp10.
recode @isko (6134=10) into @egp10.
recode @isko (6140=10) into @egp10.
recode @isko (6141=10) into @egp10.
recode @isko (6142=10) into @egp10.
recode @isko (6150=10) into @egp10.
recode @isko (6151=10) into @egp10.
recode @isko (6152=10) into @egp10.
recode @isko (6153=10) into @egp10.
recode @isko (6154=10) into @egp10.
recode @isko (6200=11) into @egp10.
recode @isko (6210=11) into @egp10.
recode @isko (7000= 8) into @egp10.
recode @isko (7100= 8) into @egp10.
recode @isko (7110= 8) into @egp10.
recode @isko (7111= 8) into @egp10.
recode @isko (7112= 8) into @egp10.
recode @isko (7113= 8) into @egp10.
recode @isko (7120= 8) into @egp10.
recode @isko (7121= 9) into @egp10.
recode @isko (7122= 9) into @egp10.
recode @isko (7123= 9) into @egp10.
recode @isko (7124= 8) into @egp10.
recode @isko (7129= 8) into @egp10.
recode @isko (7130= 8) into @egp10.
recode @isko (7131= 9) into @egp10.
recode @isko (7132= 8) into @egp10.
recode @isko (7133= 8) into @egp10.
recode @isko (7134= 8) into @egp10.
recode @isko (7135= 9) into @egp10.
recode @isko (7136= 8) into @egp10.
recode @isko (7137= 8) into @egp10.
recode @isko (7140= 8) into @egp10.
recode @isko (7141= 8) into @egp10.
recode @isko (7142= 9) into @egp10.
recode @isko (7143= 9) into @egp10.
recode @isko (7200= 8) into @egp10.
recode @isko (7210= 8) into @egp10.
recode @isko (7211= 8) into @egp10.
recode @isko (7212= 8) into @egp10.
recode @isko (7213= 8) into @egp10.
recode @isko (7214= 8) into @egp10.
recode @isko (7215= 8) into @egp10.
recode @isko (7216= 8) into @egp10.
recode @isko (7220= 8) into @egp10.
recode @isko (7221= 8) into @egp10.
recode @isko (7222= 8) into @egp10.
recode @isko (7223= 8) into @egp10.
recode @isko (7224= 8) into @egp10.
recode @isko (7230= 8) into @egp10.
recode @isko (7231= 8) into @egp10.
recode @isko (7232= 8) into @egp10.
recode @isko (7233= 8) into @egp10.
recode @isko (7234= 9) into @egp10.
recode @isko (7240= 8) into @egp10.
recode @isko (7241= 8) into @egp10.
recode @isko (7242= 8) into @egp10.
recode @isko (7243= 8) into @egp10.
recode @isko (7244= 8) into @egp10.
recode @isko (7245= 8) into @egp10.
recode @isko (7300= 8) into @egp10.
recode @isko (7310= 8) into @egp10.
recode @isko (7311= 8) into @egp10.
recode @isko (7312= 8) into @egp10.
recode @isko (7313= 8) into @egp10.
recode @isko (7320= 9) into @egp10.
recode @isko (7321= 9) into @egp10.
recode @isko (7322= 9) into @egp10.
recode @isko (7323= 8) into @egp10.
recode @isko (7324= 8) into @egp10.
recode @isko (7330= 9) into @egp10.
recode @isko (7331= 9) into @egp10.
recode @isko (7332= 9) into @egp10.
recode @isko (7340= 8) into @egp10.
recode @isko (7341= 8) into @egp10.
recode @isko (7342= 8) into @egp10.
recode @isko (7343= 8) into @egp10.
recode @isko (7344= 8) into @egp10.
recode @isko (7345= 8) into @egp10.
recode @isko (7346= 8) into @egp10.
recode @isko (7400= 8) into @egp10.
recode @isko (7410= 8) into @egp10.
recode @isko (7411= 8) into @egp10.
recode @isko (7412= 8) into @egp10.
recode @isko (7413= 8) into @egp10.
recode @isko (7414= 8) into @egp10.
recode @isko (7415= 8) into @egp10.
recode @isko (7416= 8) into @egp10.
recode @isko (7420= 8) into @egp10.
recode @isko (7421= 9) into @egp10.
recode @isko (7422= 8) into @egp10.
recode @isko (7423= 8) into @egp10.
recode @isko (7424= 9) into @egp10.
recode @isko (7430= 8) into @egp10.
recode @isko (7431= 9) into @egp10.
recode @isko (7432= 9) into @egp10.
recode @isko (7433= 8) into @egp10.
recode @isko (7434= 8) into @egp10.
recode @isko (7435= 8) into @egp10.
recode @isko (7436= 8) into @egp10.
recode @isko (7437= 8) into @egp10.
recode @isko (7440= 8) into @egp10.
recode @isko (7441= 8) into @egp10.
recode @isko (7442= 8) into @egp10.
recode @isko (7500= 8) into @egp10.
recode @isko (7510= 7) into @egp10.
recode @isko (7520= 8) into @egp10.
recode @isko (7530= 9) into @egp10.
recode @isko (8000= 9) into @egp10.
recode @isko (8100= 9) into @egp10.
recode @isko (8110= 8) into @egp10.
recode @isko (8111= 8) into @egp10.
recode @isko (8112= 8) into @egp10.
recode @isko (8113= 8) into @egp10.
recode @isko (8120= 8) into @egp10.
recode @isko (8121= 8) into @egp10.
recode @isko (8122= 8) into @egp10.
recode @isko (8123= 8) into @egp10.
recode @isko (8124= 8) into @egp10.
recode @isko (8130= 9) into @egp10.
recode @isko (8131= 9) into @egp10.
recode @isko (8139= 9) into @egp10.
recode @isko (8140= 9) into @egp10.
recode @isko (8141= 9) into @egp10.
recode @isko (8142= 9) into @egp10.
recode @isko (8143= 9) into @egp10.
recode @isko (8150= 8) into @egp10.
recode @isko (8151= 8) into @egp10.
recode @isko (8152= 8) into @egp10.
recode @isko (8153= 8) into @egp10.
recode @isko (8154= 8) into @egp10.
recode @isko (8155= 8) into @egp10.
recode @isko (8159= 8) into @egp10.
recode @isko (8160= 8) into @egp10.
recode @isko (8161= 8) into @egp10.
recode @isko (8162= 8) into @egp10.
recode @isko (8163= 8) into @egp10.
recode @isko (8170= 8) into @egp10.
recode @isko (8171= 8) into @egp10.
recode @isko (8172= 8) into @egp10.
recode @isko (8200= 9) into @egp10.
recode @isko (8210= 8) into @egp10.
recode @isko (8211= 8) into @egp10.
recode @isko (8212= 9) into @egp10.
recode @isko (8220= 9) into @egp10.
recode @isko (8221= 9) into @egp10.
recode @isko (8222= 9) into @egp10.
recode @isko (8223= 9) into @egp10.
recode @isko (8224= 9) into @egp10.
recode @isko (8229= 9) into @egp10.
recode @isko (8230= 9) into @egp10.
recode @isko (8231= 9) into @egp10.
recode @isko (8232= 9) into @egp10.
recode @isko (8240= 9) into @egp10.
recode @isko (8250= 9) into @egp10.
recode @isko (8251= 9) into @egp10.
recode @isko (8252= 9) into @egp10.
recode @isko (8253= 9) into @egp10.
recode @isko (8260= 9) into @egp10.
recode @isko (8261= 9) into @egp10.
recode @isko (8262= 9) into @egp10.
recode @isko (8263= 9) into @egp10.
recode @isko (8264= 9) into @egp10.
recode @isko (8265= 9) into @egp10.
recode @isko (8266= 9) into @egp10.
recode @isko (8269= 9) into @egp10.
recode @isko (8270= 9) into @egp10.
recode @isko (8271= 9) into @egp10.
recode @isko (8272= 9) into @egp10.
recode @isko (8273= 9) into @egp10.
recode @isko (8274= 9) into @egp10.
recode @isko (8275= 9) into @egp10.
recode @isko (8276= 9) into @egp10.
recode @isko (8277= 9) into @egp10.
recode @isko (8278= 9) into @egp10.
recode @isko (8279= 9) into @egp10.
recode @isko (8280= 9) into @egp10.
recode @isko (8281= 9) into @egp10.
recode @isko (8282= 9) into @egp10.
recode @isko (8283= 9) into @egp10.
recode @isko (8284= 9) into @egp10.
recode @isko (8285= 9) into @egp10.
recode @isko (8286= 9) into @egp10.
recode @isko (8290= 9) into @egp10.
recode @isko (8300= 9) into @egp10.
recode @isko (8310= 9) into @egp10.
recode @isko (8311= 8) into @egp10.
recode @isko (8312= 9) into @egp10.
recode @isko (8320= 9) into @egp10.
recode @isko (8321= 9) into @egp10.
recode @isko (8322= 9) into @egp10.
recode @isko (8323= 9) into @egp10.
recode @isko (8324= 9) into @egp10.
recode @isko (8330= 9) into @egp10.
recode @isko (8331=10) into @egp10.
recode @isko (8332= 8) into @egp10.
recode @isko (8333= 8) into @egp10.
recode @isko (8334= 9) into @egp10.
recode @isko (8340= 9) into @egp10.
recode @isko (8400= 9) into @egp10.
recode @isko (9000= 9) into @egp10.
recode @isko (9100= 3) into @egp10.
recode @isko (9110= 3) into @egp10.
recode @isko (9111= 3) into @egp10.
recode @isko (9112= 3) into @egp10.
recode @isko (9113= 3) into @egp10.
recode @isko (9120= 9) into @egp10.
recode @isko (9130= 9) into @egp10.
recode @isko (9131= 9) into @egp10.
recode @isko (9132= 9) into @egp10.
recode @isko (9133= 9) into @egp10.
recode @isko (9140= 9) into @egp10.
recode @isko (9141= 9) into @egp10.
recode @isko (9142= 9) into @egp10.
recode @isko (9150= 9) into @egp10.
recode @isko (9151= 9) into @egp10.
recode @isko (9152= 9) into @egp10.
recode @isko (9153= 9) into @egp10.
recode @isko (9160= 9) into @egp10.
recode @isko (9161= 9) into @egp10.
recode @isko (9162= 9) into @egp10.
recode @isko (9200= 9) into @egp10.
recode @isko (9210=10) into @egp10.
recode @isko (9211=10) into @egp10.
recode @isko (9212=10) into @egp10.
recode @isko (9213=10) into @egp10.
recode @isko (9300= 9) into @egp10.
recode @isko (9310= 9) into @egp10.
recode @isko (9311= 9) into @egp10.
recode @isko (9312= 9) into @egp10.
recode @isko (9313= 9) into @egp10.
recode @isko (9320= 9) into @egp10.
recode @isko (9321= 9) into @egp10.
recode @isko (9322= 9) into @egp10.
recode @isko (9330= 9) into @egp10.
recode @isko (9331= 9) into @egp10.
recode @isko (9332= 9) into @egp10.
recode @isko (9333= 9) into @egp10.
execute.
*
-----------------------------------------------------------------------------
ATTENTION:
ENDING PART OF THE GANZEBOOM PROGRAM
-----------------------------------------------------------------------------
BEGIN PART OF TRENTO PROGRAM
____________________________________________________.
/* Dear user, */
/* This is the second part of the program revised the GANZEBOOM PROGRAM */
/* here the ISCO Code not classify in Ganzeboom program */.
recode @isko (2470= 2) into @egp10.
recode @isko (7139= 8) into @egp10.
recode @isko (8287= 9) into @egp10.
/* here code promotability and degradability of certain occupations */.


* for second wave 
recode wkdcorga (10, 9, 8 = 1) (7, 6, 5, 4 =2)(3, 2, 1 =3)(0=4)(else =copy) into orgwrk.

DO REPEAT e=@egp10 / is=@isko / sv=@supvis / s=@sempl / o= orgwrk.
COMPUTE #P=IS.
RECODE #P (1000 thru 9299=1)(else=0).
compute #d=is.
recode #d (1300 thru 1319 3400 thru 3439 4000 thru 5230=1)(else=0).
/* Move self-empl. Lover controllers and Routine non manual with ISCO 1300 thru 1319 3400 thru 3439 4000 thru 5230 into Self-empl IVa (with code 4) */.
IF ((e eq 3 or e eq 2) and (s eq 2) and (#d eq 1)) e=4.
/* Move self-empl. members of class V, VI, VIIa with large extent organize own work with ISCO 1000-9229 into Selfempl IVb (with code 5) */.
IF ((E GE 7 AND E LE 9) AND (S eq 2) and (#P eq 1) and any(o,1)) E=5.
end repeat.
/* Change code position of self empl. IVa code 4 into code 5 and IVb code 5 into code 6 */.
recode @egp10 (4=5)(5=6).
/* Move Self-empl. without employees of class (IVa) into Self-empl. (IVb) and Self-empl. with employees of class (IVb) into Self-empl. (IVa) */.
do IF ((@EGP10 eq 5) AND (@supvis lt 1)).
compute @EGP10=6.
else IF ((@EGP10 eq 6) AND (@supvis Ge 1)).
compute @EGP10=5.
end if.
execute.
/* Move all self-empl. with more of 10 employees into Hi Controllers (I) */.
if ((emplno1 gt 10)) @egp10=1.
/* Move Routine non manual (IIIa) with ISCO code 4142 4190 4200 thru 4215 5000 thru 5239 into Lower sales service (IIIb) */.
do repeat egp=@egp10 /isko=@isko.
do if (egp eq 3).
recode isko (4142 4190 4200 thru 4215 5000 thru 5239=4) into egp.
end if.
end repeat.
/* move labor farm (VIIb) self-empl into farmer (IVc) and farmer (IVc) not self-empl into labor farm (VIIb) */.
IF ((@EGP10 eq 10) AND (@sempl eq 2)) @egp10=11.
IF ((@EGP10 eq 11) AND (@sempl eq 1)) @egp10=10.
/* Move supervisor unskilled workers (VIIb) into Skilled workers (VI) and Skilled workers (IV) into Manual supervisor (V) */.
do if ((@egp10 eq 9) and (@supvis GE 1)).
compute @egp10=8.
else IF ((@EGP10 eq 8) AND (@supvis GE 1)).
compute @EGP10=7.
end if.
/* Move (supervisor with 10 or more subordinate) with large extent organize own work of class Lover Controllers (II) into Higher controllers (I) */.
IF ((@EGP10 eq 2) AND (@supvis GE 10) and (orgwrk eq 1)) @EGP10 =1.
/* Move (supervisor with 10 or more subordinate) with large extent organize own work of class Routine Non-Manual (IIIa) into Lover controllers (II) */.
IF ((@EGP10 eq 3) AND (@supvis GE 10) and (orgwrk eq 1)) @EGP10 =2.

/* Move (supervisor with 10 or more subordinate) with large extent organize own work of class Lower sales service (IIIb) into Lower controllers (II) */.
IF ((@EGP10 eq 4) AND (@supvis GE 10) and (orgwrk eq 1)) @EGP10 =2.
/***************************/
/* Define missing value */
/***************************/.
do if (missing(@egp10)).
recode iscoco (else=copy) into @egp10.
end if.
missing value @egp10 (100 thru 99999).
/***************************/
/* Define value labels */
/***************************/
Var labels @egp10 'EGP Class scheme: trento version'.
add value labels @egp10
1 ' I Profesionals, administrators and managers, higher-grade'
2 ' II Profesionals, administrators and managers, lower-grade and higher-grade technicians'
3 'IIIa Routine non-manuals, employees, higher-grade '
4 'IIIb Routine non-manuals, employees, lower-grade'
5 'IVa Small proprietors and employees and self-empl. with empl.'
6 'IVb Small proprietors and employees and self-empl. with no empl.'
7 ' V Lower-grade technicians and supervisors of manual workers'
8 ' VI Skilled manual workers'
9 'VIIa Nonskilled manual workers (other than in agriculture )'
10 'VIIb Agricultural workers'
11 'IVc Small proprietors and employees and self-empl. farmers'
100 'Armed forces'
66666 'Not applicable'
77777 'Refusal'
88888 "Don't know"
99999 'No answer'.
execute.
delete variable emplno1 njbspv1 jbspv1 @sempl @supvis.
FREQUENCIES @egp10.

recode @egp10 (1=1)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_1.
Var labels @egp10_1 'I Profesionals, administrators and managers, higher-grade'.
recode @egp10 (1=0)(2=1)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_2.
Var labels @egp10_2 'II Profesionals, administrators and managers, lower-grade and higher-grade technicians'.
recode @egp10 (1=0)(2=0)(3=1)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_3.
Var labels @egp10_3 'IIIa Routine non-manuals, employees, higher-grade'.
recode @egp10 (1=0)(2=0)(3=0)(4=1)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_4.
Var labels @egp10_4 'IIIb Routine non-manuals, employees, lower-grade'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=1)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_5.
Var labels @egp10_5 'IVa Small proprietors and employees and self-empl. with empl.'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=1)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_6.
Var labels @egp10_6 'IVb Small proprietors and employees and self-empl. with no empl'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=1)(8=0)(9=0)(10=0)(11=0)(else = copy) into  @egp10_7.
Var labels @egp10_7 'V Lower-grade technicians and supervisors of manual workers'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=1)(9=0)(10=0)(11=0)(else = copy) into  @egp10_8.
Var labels @egp10_8 'VI Skilled manual workers'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=1)(10=0)(11=0)(else = copy) into  @egp10_9.
Var labels @egp10_9 'VIIa Nonskilled manual workers (other than in agriculture )'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=1)(11=0)(else = copy) into  @egp10_10.
Var labels @egp10_10 'VIIb Agricultural workers'.
recode @egp10 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=1)(else = copy) into  @egp10_11.
Var labels @egp10_11 'IVc Small proprietors and employees and self-empl. farmers'.

missing value  @egp10_1 (99 thru 9999999).
missing value  @egp10_2 (99 thru 9999999).
missing value  @egp10_3 (99 thru 9999999).
missing value  @egp10_4 (99 thru 9999999).
missing value  @egp10_5 (99 thru 9999999).
missing value  @egp10_6 (99 thru 9999999).
missing value  @egp10_7 (99 thru 9999999).
missing value  @egp10_8 (99 thru 9999999).
missing value  @egp10_9 (99 thru 9999999).
missing value  @egp10_10 (99 thru 9999999).
missing value  @egp10_11 (99 thru 9999999).

freq @egp10_1  @egp10_2   @egp10_3  @egp10_4  @egp10_5 @egp10_6 @egp10_7  @egp10_8 @egp10_9  @egp10_10   @egp10_11.

/*_____________________________________________________________________
/*ERIKSON GOLDTHORPE PORTOCARRERO
/*------------
/*EGP - CLASS SCHEME
/*original version of Ganzeboom program
/*(http://www.fss.uu.nl/soc/hg/isko88/)
/*- last fix: summer 1994
/*- last fix: may 2001 IIIa and IIIb distinguished
/*_____________________________________________________________________
/*Ivano Bison
/*University of Trento
/*Dep. of Sociology and Social Research.
/******************************************************************************************/
/* This program creates the EGP based on ISCO88 for the ESS data 2002-2003 */
/* Program version 1.0 - december 2004 */
/*******************************************************************************************/
/* Dear user,
/* this program is the adapted version on ESS data file to the Ganzeboom SPSS Program */
/* (http://www.fss.uu.nl/soc/hg/isko88/) */
/* - last fix: summer 1994. - last fix: may 2001 IIIa and IIIb distinguished */
/* Dear user, */
/* before run this program not forget to change the file location in the "import" or "get file" line */
/* the declaration of the ISCO88 variable at the "compute @isko" line */
/******************************************************************************************/
/* VARIABLES */
/******************************************************************************************/
/* THIS PROGRAM USES THE FOLLOWING ORIGINAL ESS VARIABLES */
/* emplno */
/* emplrel */
/* njbspv */
/* jbspv */
/* orgwrk */
/* THIS PROGRAM CREATE THE FOLLOWING VARIABLES */
/* emplno1 */
/* emplrel1 */
/* njbspv1 */
/* jbspv1 */
/* THIS PROGRAM CREATE THE FOLLOWING MACRO VARIABLES */
/** @ISKO */
/** @egp11 */
/** @SEMPL */
/** @SUPVIS */
/**********************************************************************/
/* BEGIN procedure to define vars @SUPVIS @SEMPL @ISKO */
/**********************************************************************/.
/* Dear user, */
/* this part of the program create the new variables emplno1 emplrel1 njbspv1 jbspv1 */
/* as result of cleans variables emplno emplrel njbspv jbspv and create the macro variables*/
/* @SUPVIS @SEMPL @ISKO */

/* in the following line you have to specify the data set's variable containing the ISCO88 4-digits information */
/* if you use the original ESS1E05_F1.POR data file: cancel the asterisk in front of line; modify the path and run this line*/
/* remember: if you run this line do not run the following "GET FILE" line command */
* IMPORT FILE='C:\dati\Hakon\ESS1E05_F1.POR'.
/* if you use a SPSS system file ".SAV": modify the path and the file name and run this line */
GET FILE='C:\dati\Hakon\ESS1E05_F1.sav'.
/* insert here the variable name containing the ISCO88 4-digits information of the occupation of the respondent: in ESS is iscoco.*/.
compute @isko = iscoco.
/* Here the program create a copy of emplno emplrel njbspv jbspv */.
recode emplno (else=copy) into emplno1.
recode njbspv (else=copy) into njbspv1.
recode jbspv (sysmis=-1) (else=copy) into jbspv1.
recode emplrel (else=copy) into @sempl.
/* Here the program create a variable on self-employment "@sempl" with the code=2 for the self-employed */.
do if ((emplno1 lt 66666) and (@sempl gt 6)).
compute @sempl=2.
else if ((emplno1 eq 66666) and (@sempl gt 6)).
compute @sempl=1.
else if ((emplno1 lt 6666) and any(@sempl,1,3)).
compute emplno1=99999.
end if.
val labels @sempl 1 'Employee' 2 'Self-Employed' 3 'Working for own family business' 6 'Not applicable' 7 'Refusal' 8
"Don't know" 9 'No answer'
/jbspv1 1 "Yes" 2 "No" 6 'Not applicable' 7 'Refusal' 8 "Don't know" 9 'No answer'.
do if ((njbspv1 lt 66666) and (jbspv1 gt 6)).
compute jbspv1=1.
else if ((njbspv1 eq 66666) and (jbspv1 gt 6)).
compute jbspv1=2.
else if ((njbspv1 lt 6666) and (jbspv1 eq 2)).
compute njbspv1=99999.
else if ((njbspv1 eq 0) and (jbspv1 eq 1)).
compute njbspv1=99999.
end if.
/* Here the program create a variable on supervision "@supvis" with the number of supervised person and number ofemployed */.
do if ((@sempl eq 2) and (jbspv1 ne 1)).
compute @supvis=emplno1.
else if ((@sempl ne 2) and (jbspv1 eq 1)).
compute @supvis=njbspv1.
else if ((@sempl eq 2) and (jbspv1 eq 1)).
compute @supvis=emplno1.
else.
compute @supvis=emplno1.
end if.
recode @supvis (66666=-2).
recode @sempl (2 ,3=2) (else=1).
exec.
missing value @supvis (77777 thru 99999).
missing value emplno1 (66666 thru 99999).
*********************************************************************.
* END of procedure to define vars @SUPVIS @SEMPL @ISKO.
*********************************************************************.
/* Dear user, */
/* this part of the program is from GANZEBOOM and create the EGP Class Scheme */
/**********************************************************************/
/* BEGIN procedure to define the variable @EGP11 *
/**********************************************************************/.
do repeat i=@isko / e=@egp11.
compute e=i.
end repeat.
** This module makes sure that managers and owners with certain.
** employment statuses go into the right place.
do repeat iii=@isko / sss=@sempl.
do if (sss eq 2).
recode iii (6130=1311).
end if.
end repeat.
execute.
do repeat s=@sempl / sv=@supvis / is=@isko.
if ( is eq 7510 and sv le 0) sv=5.
if ((is ge 6100 and is le 6133) and sv ge 1) is=1311.
if ((is ge 9200 and is le 9213) and sv gt 1) is=6132.
do if (sv ge 11).
recode is (1311=1221)(1312=1222)(1313=1223)(1314=1224)(1315=1225)
(1316=1226)(1317=1227)(1318=1228)(1319=1229)(1300,1310=1220).
end if.
do if (sv ge 1 and sv le 10).
recode is (1221=1311)(1222=1312)(1223=1313)(1224=1314)(1225=1315)
(1226=1316)(1227=1317)(1228=1318)(1229=1319)(1200 1210 1220=1310).
end if.
if ((is eq 1220 or (is ge 1222 and is le 1229))
and (s eq 2) and sv ge 11) is=1210.
end repeat.
execute.
recode @isko (1000= 1) into @egp11.
recode @isko (1100= 1) into @egp11.
recode @isko (1110= 1) into @egp11.
recode @isko (1120= 1) into @egp11.
recode @isko (1130= 2) into @egp11.
recode @isko (1140= 2) into @egp11.
recode @isko (1141= 2) into @egp11.
recode @isko (1142= 2) into @egp11.
recode @isko (1143= 2) into @egp11.
recode @isko (1200= 1) into @egp11.
recode @isko (1210= 1) into @egp11.
recode @isko (1220= 1) into @egp11.
recode @isko (1221=11) into @egp11.
recode @isko (1222= 1) into @egp11.
recode @isko (1223= 1) into @egp11.
recode @isko (1224= 1) into @egp11.
recode @isko (1225= 1) into @egp11.
recode @isko (1226= 1) into @egp11.
recode @isko (1227= 1) into @egp11.
recode @isko (1228= 1) into @egp11.
recode @isko (1229= 1) into @egp11.
recode @isko (1230= 1) into @egp11.
recode @isko (1231= 1) into @egp11.
recode @isko (1232= 1) into @egp11.
recode @isko (1233= 1) into @egp11.
recode @isko (1234= 1) into @egp11.
recode @isko (1235= 1) into @egp11.
recode @isko (1236= 1) into @egp11.
recode @isko (1237= 1) into @egp11.
recode @isko (1239= 1) into @egp11.
recode @isko (1240= 2) into @egp11.
recode @isko (1250= 1) into @egp11.
recode @isko (1251= 1) into @egp11.
recode @isko (1252= 2) into @egp11.
recode @isko (1300= 2) into @egp11.
recode @isko (1310= 2) into @egp11.
recode @isko (1311=11) into @egp11.
recode @isko (1312= 2) into @egp11.
recode @isko (1313= 2) into @egp11.
recode @isko (1314= 2) into @egp11.
recode @isko (1315= 2) into @egp11.
recode @isko (1316= 2) into @egp11.
recode @isko (1317= 2) into @egp11.
recode @isko (1318= 2) into @egp11.
recode @isko (1319= 2) into @egp11.
recode @isko (2000= 1) into @egp11.
recode @isko (2100= 1) into @egp11.
recode @isko (2110= 1) into @egp11.
recode @isko (2111= 1) into @egp11.
recode @isko (2112= 1) into @egp11.
recode @isko (2113= 1) into @egp11.
recode @isko (2114= 1) into @egp11.
recode @isko (2120= 1) into @egp11.
recode @isko (2121= 1) into @egp11.
recode @isko (2122= 1) into @egp11.
recode @isko (2130= 1) into @egp11.
recode @isko (2131= 1) into @egp11.
recode @isko (2132= 2) into @egp11.
recode @isko (2139= 2) into @egp11.
recode @isko (2140= 1) into @egp11.
recode @isko (2141= 1) into @egp11.
recode @isko (2142= 1) into @egp11.
recode @isko (2143= 1) into @egp11.
recode @isko (2144= 1) into @egp11.
recode @isko (2145= 1) into @egp11.
recode @isko (2146= 1) into @egp11.
recode @isko (2147= 1) into @egp11.
recode @isko (2148= 2) into @egp11.
recode @isko (2149= 1) into @egp11.
recode @isko (2200= 1) into @egp11.
recode @isko (2210= 1) into @egp11.
recode @isko (2211= 1) into @egp11.
recode @isko (2212= 1) into @egp11.
recode @isko (2213= 1) into @egp11.
recode @isko (2220= 1) into @egp11.
recode @isko (2221= 1) into @egp11.
recode @isko (2222= 1) into @egp11.
recode @isko (2223= 1) into @egp11.
recode @isko (2224= 1) into @egp11.
recode @isko (2229= 1) into @egp11.
recode @isko (2230= 2) into @egp11.
recode @isko (2300= 2) into @egp11.
recode @isko (2310= 1) into @egp11.
recode @isko (2320= 2) into @egp11.
recode @isko (2321= 2) into @egp11.
recode @isko (2322= 2) into @egp11.
recode @isko (2323= 2) into @egp11.
recode @isko (2330= 2) into @egp11.
recode @isko (2331= 2) into @egp11.
recode @isko (2332= 2) into @egp11.
recode @isko (2340= 2) into @egp11.
recode @isko (2350= 1) into @egp11.
recode @isko (2351= 1) into @egp11.
recode @isko (2352= 1) into @egp11.
recode @isko (2359= 2) into @egp11.
recode @isko (2400= 1) into @egp11.
recode @isko (2410= 2) into @egp11.
recode @isko (2411= 1) into @egp11.
recode @isko (2412= 2) into @egp11.
recode @isko (2419= 2) into @egp11.
recode @isko (2420= 1) into @egp11.
recode @isko (2421= 1) into @egp11.
recode @isko (2422= 1) into @egp11.
recode @isko (2429= 1) into @egp11.
recode @isko (2430= 2) into @egp11.
recode @isko (2431= 2) into @egp11.
recode @isko (2432= 2) into @egp11.
recode @isko (2440= 1) into @egp11.
recode @isko (2441= 1) into @egp11.
recode @isko (2442= 1) into @egp11.
recode @isko (2443= 1) into @egp11.
recode @isko (2444= 2) into @egp11.
recode @isko (2445= 1) into @egp11.
recode @isko (2446= 2) into @egp11.
recode @isko (2450= 2) into @egp11.
recode @isko (2451= 2) into @egp11.
recode @isko (2452= 2) into @egp11.
recode @isko (2453= 2) into @egp11.
recode @isko (2454= 2) into @egp11.
recode @isko (2455= 2) into @egp11.
recode @isko (2460= 2) into @egp11.
recode @isko (3000= 2) into @egp11.
recode @isko (3100= 2) into @egp11.
recode @isko (3110= 2) into @egp11.
recode @isko (3111= 2) into @egp11.
recode @isko (3112= 2) into @egp11.
recode @isko (3113= 2) into @egp11.
recode @isko (3114= 2) into @egp11.
recode @isko (3115= 2) into @egp11.
recode @isko (3116= 2) into @egp11.
recode @isko (3117= 2) into @egp11.
recode @isko (3118= 2) into @egp11.
recode @isko (3119= 2) into @egp11.
recode @isko (3120= 2) into @egp11.
recode @isko (3121= 2) into @egp11.
recode @isko (3122= 2) into @egp11.
recode @isko (3123= 2) into @egp11.
recode @isko (3130= 2) into @egp11.
recode @isko (3131= 2) into @egp11.
recode @isko (3132= 2) into @egp11.
recode @isko (3133= 2) into @egp11.
recode @isko (3139= 2) into @egp11.
recode @isko (3140= 2) into @egp11.
recode @isko (3141= 2) into @egp11.
recode @isko (3142= 2) into @egp11.
recode @isko (3143= 1) into @egp11.
recode @isko (3144= 1) into @egp11.
recode @isko (3145= 2) into @egp11.
recode @isko (3150= 2) into @egp11.
recode @isko (3151= 2) into @egp11.
recode @isko (3152= 2) into @egp11.
recode @isko (3200= 2) into @egp11.
recode @isko (3210= 2) into @egp11.
recode @isko (3211= 2) into @egp11.
recode @isko (3212= 2) into @egp11.
recode @isko (3213= 2) into @egp11.
recode @isko (3220= 2) into @egp11.
recode @isko (3221= 2) into @egp11.
recode @isko (3222= 2) into @egp11.
recode @isko (3223= 2) into @egp11.
recode @isko (3224= 2) into @egp11.
recode @isko (3225= 2) into @egp11.
recode @isko (3226= 2) into @egp11.
recode @isko (3227= 2) into @egp11.
recode @isko (3228= 2) into @egp11.
recode @isko (3229= 2) into @egp11.
recode @isko (3230= 3) into @egp11.
recode @isko (3231= 3) into @egp11.
recode @isko (3232= 3) into @egp11.
recode @isko (3240= 2) into @egp11.
recode @isko (3241= 2) into @egp11.
recode @isko (3242= 2) into @egp11.
recode @isko (3300= 3) into @egp11.
recode @isko (3310= 3) into @egp11.
recode @isko (3320= 3) into @egp11.
recode @isko (3330= 3) into @egp11.
recode @isko (3340= 3) into @egp11.
recode @isko (3400= 2) into @egp11.
recode @isko (3410= 2) into @egp11.
recode @isko (3411= 2) into @egp11.
recode @isko (3412= 2) into @egp11.
recode @isko (3413= 2) into @egp11.
recode @isko (3414= 2) into @egp11.
recode @isko (3415= 2) into @egp11.
recode @isko (3416= 2) into @egp11.
recode @isko (3417= 2) into @egp11.
recode @isko (3419= 2) into @egp11.
recode @isko (3420= 2) into @egp11.
recode @isko (3421= 2) into @egp11.
recode @isko (3422= 2) into @egp11.
recode @isko (3423= 2) into @egp11.
recode @isko (3429= 2) into @egp11.
recode @isko (3430= 3) into @egp11.
recode @isko (3431= 2) into @egp11.
recode @isko (3432= 2) into @egp11.
recode @isko (3433= 3) into @egp11.
recode @isko (3434= 2) into @egp11.
recode @isko (3439= 3) into @egp11.
recode @isko (3440= 2) into @egp11.
recode @isko (3441= 2) into @egp11.
recode @isko (3442= 2) into @egp11.
recode @isko (3443= 2) into @egp11.
recode @isko (3444= 2) into @egp11.
recode @isko (3449= 2) into @egp11.
recode @isko (3450= 2) into @egp11.
recode @isko (3451= 2) into @egp11.
recode @isko (3452= 7) into @egp11.
recode @isko (3460= 3) into @egp11.
recode @isko (3470= 2) into @egp11.
recode @isko (3471= 2) into @egp11.
recode @isko (3472= 2) into @egp11.
recode @isko (3473= 2) into @egp11.
recode @isko (3474= 2) into @egp11.
recode @isko (3475= 2) into @egp11.
recode @isko (3480= 3) into @egp11.
recode @isko (4000= 3) into @egp11.
recode @isko (4100= 3) into @egp11.
recode @isko (4110= 3) into @egp11.
recode @isko (4111= 3) into @egp11.
recode @isko (4112= 3) into @egp11.
recode @isko (4113= 3) into @egp11.
recode @isko (4114= 3) into @egp11.
recode @isko (4115= 3) into @egp11.
recode @isko (4120= 3) into @egp11.
recode @isko (4121= 3) into @egp11.
recode @isko (4122= 3) into @egp11.
recode @isko (4130= 3) into @egp11.
recode @isko (4131= 3) into @egp11.
recode @isko (4132= 3) into @egp11.
recode @isko (4133= 3) into @egp11.
recode @isko (4140= 3) into @egp11.
recode @isko (4141= 3) into @egp11.
recode @isko (4142= 9) into @egp11.
recode @isko (4143= 3) into @egp11.
recode @isko (4144= 3) into @egp11.
recode @isko (4190= 3) into @egp11.
recode @isko (4200= 3) into @egp11.
recode @isko (4210= 3) into @egp11.
recode @isko (4211= 3) into @egp11.
recode @isko (4212= 3) into @egp11.
recode @isko (4213= 3) into @egp11.
recode @isko (4214= 3) into @egp11.
recode @isko (4215= 3) into @egp11.
recode @isko (4220= 3) into @egp11.
recode @isko (4221= 3) into @egp11.
recode @isko (4222= 3) into @egp11.
recode @isko (4223= 3) into @egp11.
recode @isko (5000= 3) into @egp11.
recode @isko (5100= 3) into @egp11.
recode @isko (5110= 3) into @egp11.
recode @isko (5111= 3) into @egp11.
recode @isko (5112= 3) into @egp11.
recode @isko (5113= 3) into @egp11.
recode @isko (5120= 3) into @egp11.
recode @isko (5121= 3) into @egp11.
recode @isko (5122= 8) into @egp11.
recode @isko (5123= 3) into @egp11.
recode @isko (5130= 3) into @egp11.
recode @isko (5131= 3) into @egp11.
recode @isko (5132= 3) into @egp11.
recode @isko (5133= 3) into @egp11.
recode @isko (5139= 3) into @egp11.
recode @isko (5140= 8) into @egp11.
recode @isko (5141= 8) into @egp11.
recode @isko (5142= 3) into @egp11.
recode @isko (5143= 8) into @egp11.
recode @isko (5149= 3) into @egp11.
recode @isko (5150= 2) into @egp11.
recode @isko (5151= 2) into @egp11.
recode @isko (5152= 2) into @egp11.
recode @isko (5160= 9) into @egp11.
recode @isko (5161= 8) into @egp11.
recode @isko (5162= 8) into @egp11.
recode @isko (5163= 9) into @egp11.
recode @isko (5164= 8) into @egp11.
recode @isko (5169= 9) into @egp11.
recode @isko (5200= 3) into @egp11.
recode @isko (5210= 3) into @egp11.
recode @isko (5220= 3) into @egp11.
recode @isko (5230= 3) into @egp11.
recode @isko (6000=10) into @egp11.
recode @isko (6100=10) into @egp11.
recode @isko (6110=10) into @egp11.
recode @isko (6111=10) into @egp11.
recode @isko (6112=10) into @egp11.
recode @isko (6113=10) into @egp11.
recode @isko (6114=10) into @egp11.
recode @isko (6120=10) into @egp11.
recode @isko (6121=10) into @egp11.
recode @isko (6122=10) into @egp11.
recode @isko (6123=10) into @egp11.
recode @isko (6124=10) into @egp11.
recode @isko (6129=10) into @egp11.
recode @isko (6130=10) into @egp11.
recode @isko (6131=11) into @egp11.
recode @isko (6132=11) into @egp11.
recode @isko (6133=11) into @egp11.
recode @isko (6134=10) into @egp11.
recode @isko (6140=10) into @egp11.
recode @isko (6141=10) into @egp11.
recode @isko (6142=10) into @egp11.
recode @isko (6150=10) into @egp11.
recode @isko (6151=10) into @egp11.
recode @isko (6152=10) into @egp11.
recode @isko (6153=10) into @egp11.
recode @isko (6154=10) into @egp11.
recode @isko (6200=11) into @egp11.
recode @isko (6210=11) into @egp11.
recode @isko (7000= 8) into @egp11.
recode @isko (7100= 8) into @egp11.
recode @isko (7110= 8) into @egp11.
recode @isko (7111= 8) into @egp11.
recode @isko (7112= 8) into @egp11.
recode @isko (7113= 8) into @egp11.
recode @isko (7120= 8) into @egp11.
recode @isko (7121= 9) into @egp11.
recode @isko (7122= 9) into @egp11.
recode @isko (7123= 9) into @egp11.
recode @isko (7124= 8) into @egp11.
recode @isko (7129= 8) into @egp11.
recode @isko (7130= 8) into @egp11.
recode @isko (7131= 9) into @egp11.
recode @isko (7132= 8) into @egp11.
recode @isko (7133= 8) into @egp11.
recode @isko (7134= 8) into @egp11.
recode @isko (7135= 9) into @egp11.
recode @isko (7136= 8) into @egp11.
recode @isko (7137= 8) into @egp11.
recode @isko (7140= 8) into @egp11.
recode @isko (7141= 8) into @egp11.
recode @isko (7142= 9) into @egp11.
recode @isko (7143= 9) into @egp11.
recode @isko (7200= 8) into @egp11.
recode @isko (7210= 8) into @egp11.
recode @isko (7211= 8) into @egp11.
recode @isko (7212= 8) into @egp11.
recode @isko (7213= 8) into @egp11.
recode @isko (7214= 8) into @egp11.
recode @isko (7215= 8) into @egp11.
recode @isko (7216= 8) into @egp11.
recode @isko (7220= 8) into @egp11.
recode @isko (7221= 8) into @egp11.
recode @isko (7222= 8) into @egp11.
recode @isko (7223= 8) into @egp11.
recode @isko (7224= 8) into @egp11.
recode @isko (7230= 8) into @egp11.
recode @isko (7231= 8) into @egp11.
recode @isko (7232= 8) into @egp11.
recode @isko (7233= 8) into @egp11.
recode @isko (7234= 9) into @egp11.
recode @isko (7240= 8) into @egp11.
recode @isko (7241= 8) into @egp11.
recode @isko (7242= 8) into @egp11.
recode @isko (7243= 8) into @egp11.
recode @isko (7244= 8) into @egp11.
recode @isko (7245= 8) into @egp11.
recode @isko (7300= 8) into @egp11.
recode @isko (7310= 8) into @egp11.
recode @isko (7311= 8) into @egp11.
recode @isko (7312= 8) into @egp11.
recode @isko (7313= 8) into @egp11.
recode @isko (7320= 9) into @egp11.
recode @isko (7321= 9) into @egp11.
recode @isko (7322= 9) into @egp11.
recode @isko (7323= 8) into @egp11.
recode @isko (7324= 8) into @egp11.
recode @isko (7330= 9) into @egp11.
recode @isko (7331= 9) into @egp11.
recode @isko (7332= 9) into @egp11.
recode @isko (7340= 8) into @egp11.
recode @isko (7341= 8) into @egp11.
recode @isko (7342= 8) into @egp11.
recode @isko (7343= 8) into @egp11.
recode @isko (7344= 8) into @egp11.
recode @isko (7345= 8) into @egp11.
recode @isko (7346= 8) into @egp11.
recode @isko (7400= 8) into @egp11.
recode @isko (7410= 8) into @egp11.
recode @isko (7411= 8) into @egp11.
recode @isko (7412= 8) into @egp11.
recode @isko (7413= 8) into @egp11.
recode @isko (7414= 8) into @egp11.
recode @isko (7415= 8) into @egp11.
recode @isko (7416= 8) into @egp11.
recode @isko (7420= 8) into @egp11.
recode @isko (7421= 9) into @egp11.
recode @isko (7422= 8) into @egp11.
recode @isko (7423= 8) into @egp11.
recode @isko (7424= 9) into @egp11.
recode @isko (7430= 8) into @egp11.
recode @isko (7431= 9) into @egp11.
recode @isko (7432= 9) into @egp11.
recode @isko (7433= 8) into @egp11.
recode @isko (7434= 8) into @egp11.
recode @isko (7435= 8) into @egp11.
recode @isko (7436= 8) into @egp11.
recode @isko (7437= 8) into @egp11.
recode @isko (7440= 8) into @egp11.
recode @isko (7441= 8) into @egp11.
recode @isko (7442= 8) into @egp11.
recode @isko (7500= 8) into @egp11.
recode @isko (7510= 7) into @egp11.
recode @isko (7520= 8) into @egp11.
recode @isko (7530= 9) into @egp11.
recode @isko (8000= 9) into @egp11.
recode @isko (8100= 9) into @egp11.
recode @isko (8110= 8) into @egp11.
recode @isko (8111= 8) into @egp11.
recode @isko (8112= 8) into @egp11.
recode @isko (8113= 8) into @egp11.
recode @isko (8120= 8) into @egp11.
recode @isko (8121= 8) into @egp11.
recode @isko (8122= 8) into @egp11.
recode @isko (8123= 8) into @egp11.
recode @isko (8124= 8) into @egp11.
recode @isko (8130= 9) into @egp11.
recode @isko (8131= 9) into @egp11.
recode @isko (8139= 9) into @egp11.
recode @isko (8140= 9) into @egp11.
recode @isko (8141= 9) into @egp11.
recode @isko (8142= 9) into @egp11.
recode @isko (8143= 9) into @egp11.
recode @isko (8150= 8) into @egp11.
recode @isko (8151= 8) into @egp11.
recode @isko (8152= 8) into @egp11.
recode @isko (8153= 8) into @egp11.
recode @isko (8154= 8) into @egp11.
recode @isko (8155= 8) into @egp11.
recode @isko (8159= 8) into @egp11.
recode @isko (8160= 8) into @egp11.
recode @isko (8161= 8) into @egp11.
recode @isko (8162= 8) into @egp11.
recode @isko (8163= 8) into @egp11.
recode @isko (8170= 8) into @egp11.
recode @isko (8171= 8) into @egp11.
recode @isko (8172= 8) into @egp11.
recode @isko (8200= 9) into @egp11.
recode @isko (8210= 8) into @egp11.
recode @isko (8211= 8) into @egp11.
recode @isko (8212= 9) into @egp11.
recode @isko (8220= 9) into @egp11.
recode @isko (8221= 9) into @egp11.
recode @isko (8222= 9) into @egp11.
recode @isko (8223= 9) into @egp11.
recode @isko (8224= 9) into @egp11.
recode @isko (8229= 9) into @egp11.
recode @isko (8230= 9) into @egp11.
recode @isko (8231= 9) into @egp11.
recode @isko (8232= 9) into @egp11.
recode @isko (8240= 9) into @egp11.
recode @isko (8250= 9) into @egp11.
recode @isko (8251= 9) into @egp11.
recode @isko (8252= 9) into @egp11.
recode @isko (8253= 9) into @egp11.
recode @isko (8260= 9) into @egp11.
recode @isko (8261= 9) into @egp11.
recode @isko (8262= 9) into @egp11.
recode @isko (8263= 9) into @egp11.
recode @isko (8264= 9) into @egp11.
recode @isko (8265= 9) into @egp11.
recode @isko (8266= 9) into @egp11.
recode @isko (8269= 9) into @egp11.
recode @isko (8270= 9) into @egp11.
recode @isko (8271= 9) into @egp11.
recode @isko (8272= 9) into @egp11.
recode @isko (8273= 9) into @egp11.
recode @isko (8274= 9) into @egp11.
recode @isko (8275= 9) into @egp11.
recode @isko (8276= 9) into @egp11.
recode @isko (8277= 9) into @egp11.
recode @isko (8278= 9) into @egp11.
recode @isko (8279= 9) into @egp11.
recode @isko (8280= 9) into @egp11.
recode @isko (8281= 9) into @egp11.
recode @isko (8282= 9) into @egp11.
recode @isko (8283= 9) into @egp11.
recode @isko (8284= 9) into @egp11.
recode @isko (8285= 9) into @egp11.
recode @isko (8286= 9) into @egp11.
recode @isko (8290= 9) into @egp11.
recode @isko (8300= 9) into @egp11.
recode @isko (8310= 9) into @egp11.
recode @isko (8311= 8) into @egp11.
recode @isko (8312= 9) into @egp11.
recode @isko (8320= 9) into @egp11.
recode @isko (8321= 9) into @egp11.
recode @isko (8322= 9) into @egp11.
recode @isko (8323= 9) into @egp11.
recode @isko (8324= 9) into @egp11.
recode @isko (8330= 9) into @egp11.
recode @isko (8331=10) into @egp11.
recode @isko (8332= 8) into @egp11.
recode @isko (8333= 8) into @egp11.
recode @isko (8334= 9) into @egp11.
recode @isko (8340= 9) into @egp11.
recode @isko (8400= 9) into @egp11.
recode @isko (9000= 9) into @egp11.
recode @isko (9100= 3) into @egp11.
recode @isko (9110= 3) into @egp11.
recode @isko (9111= 3) into @egp11.
recode @isko (9112= 3) into @egp11.
recode @isko (9113= 3) into @egp11.
recode @isko (9120= 9) into @egp11.
recode @isko (9130= 9) into @egp11.
recode @isko (9131= 9) into @egp11.
recode @isko (9132= 9) into @egp11.
recode @isko (9133= 9) into @egp11.
recode @isko (9140= 9) into @egp11.
recode @isko (9141= 9) into @egp11.
recode @isko (9142= 9) into @egp11.
recode @isko (9150= 9) into @egp11.
recode @isko (9151= 9) into @egp11.
recode @isko (9152= 9) into @egp11.
recode @isko (9153= 9) into @egp11.
recode @isko (9160= 9) into @egp11.
recode @isko (9161= 9) into @egp11.
recode @isko (9162= 9) into @egp11.
recode @isko (9200= 9) into @egp11.
recode @isko (9210=10) into @egp11.
recode @isko (9211=10) into @egp11.
recode @isko (9212=10) into @egp11.
recode @isko (9213=10) into @egp11.
recode @isko (9300= 9) into @egp11.
recode @isko (9310= 9) into @egp11.
recode @isko (9311= 9) into @egp11.
recode @isko (9312= 9) into @egp11.
recode @isko (9313= 9) into @egp11.
recode @isko (9320= 9) into @egp11.
recode @isko (9321= 9) into @egp11.
recode @isko (9322= 9) into @egp11.
recode @isko (9330= 9) into @egp11.
recode @isko (9331= 9) into @egp11.
recode @isko (9332= 9) into @egp11.
recode @isko (9333= 9) into @egp11.
execute.

DO REPEAT E=@egp11 / IS=@ISKO / sv=@supvis / s=@sempl.
COMMENT #P CODES PROMOTABILITY OF CERTAIN OCCUPATIONS.
COMPUTE #P=IS.
RECODE #P (1000 thru 9299=1)(else=0).
compute #d=is.
comment #d codes degradability of certain occupations.
recode #d (1300 thru 1319 3400 thru 3439 4000 thru 5230=1)(else=0).
IF ((E=3) AND (SV GE 1)) E=2.
if ((e eq 3 or e eq 2) and (s eq 2) and (#d=1)) e=4.
IF ((E GE 7 AND E LE 9) AND (S=2) and (#p=1)) E=5.
IF ((E=8) AND (SV GE 1)) E=7.
IF ((E=10) AND (S=2)) E=11.
IF ((E=4) AND (SV lt 1)) E=5.
IF ((E=5) AND (SV Ge 1)) E=4.
IF ((E=2 OR E=3 OR E=4) AND (SV GE 10)) E=1.
end repeat.
execute.
recode @egp11 (4=5)(5=6).
do repeat egp=@egp11 /isko=@isko.
do if (egp eq 3).
recode isko (4142 4190 4200 thru 4215 5000 thru 5239=4) into egp.
end if.
end repeat.
/***************************/
/* Define missing value */
/***************************/.
do if (missing(@egp11)).
recode iscoco (else=copy) into @egp11.
end if.
missing value @egp11 (100 thru 99999).
/***************************/
/* Define value labels */
/***************************/.

Var labels @egp11 'EGP Class scheme: Ganzeboom version'.
add value labels @egp11
1 ' I Higher controllers'
2 ' II Lower controllers'
3 'IIIa Routine non-manuals'
4 'IIIb Lower sales-service'
5 'IVa Self-empl. with empl.'
6 'IVb Self-empl. no empl.'
7 ' V Manual supervisors'
8 ' VI Skilled workers'
9 'VIIa Unskilled workers'
10 'VIIb Farm labors'
11 'IVc Self-empl. farmers'
100 'armed forces'
2470 "Pubblic service administrative professionals"
7139 "Build finiscer, rel. trade work not else class"
8287 "Composite products assemblers"
66666 'Not applicable'
77777 'Refusal'
88888 "Don't know"
99999 'No answer'.
execute.
freq @egp11.
delete variable emplno1 njbspv1 jbspv1 @sempl @supvis.


recode @egp11 (1=1)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_1.
Var labels @egp11_1 'I Higher controllers'.
recode @egp11 (1=0)(2=1)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_2.
Var labels @egp11_2 'II Lower controller'.
recode @egp11 (1=0)(2=0)(3=1)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_3.
Var labels @egp11_3 'IIIa Routine non-manuals'.
recode @egp11 (1=0)(2=0)(3=0)(4=1)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_4.
Var labels @egp11_4 'IIIb Lower sales-service'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=1)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_5.
Var labels @egp11_5 'IVa Self-empl. with empl.'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=1)(7=0)(8=0)(9=0)(10=0)(11=0) into  @egp11_6.
Var labels @egp11_6 'IVb Self-empl. no empl'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=1)(8=0)(9=0)(10=0)(11=0) into  @egp11_7.
Var labels @egp11_7 'V Manual supervisors'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=1)(9=0)(10=0)(11=0) into  @egp11_8.
Var labels @egp11_8 'VI Skilled workers'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=1)(10=0)(11=0) into  @egp11_9.
Var labels @egp11_9 'VIIa Unskilled workers'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=1)(11=0) into  @egp11_10.
Var labels @egp11_10 'VIIb Farm labors'.
recode @egp11 (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=1) into  @egp11_11.
Var labels @egp11_11 'IVc Self-empl. farmers'.

missing value  @egp11_1 (99 thru 9999999).
missing value  @egp11_2 (99 thru 9999999).
missing value  @egp11_3 (99 thru 9999999).
missing value  @egp11_4 (99 thru 9999999).
missing value  @egp11_5 (99 thru 9999999).
missing value  @egp11_6 (99 thru 9999999).
missing value  @egp11_7 (99 thru 9999999).
missing value  @egp11_8 (99 thru 9999999).
missing value  @egp11_9 (99 thru 9999999).
missing value  @egp11_10 (99 thru 9999999).
missing value  @egp11_11 (99 thru 9999999).

freq @egp11_1  @egp11_2   @egp11_3  @egp11_4  @egp11_5 @egp11_6 @egp11_7  @egp11_8 @egp11_9  @egp11_10   @egp11_11.
*___________________________________________________________
ERIK WRIGHT'S CLASS SCHEMES
------------
WR - FULL VERSION OF WRIGHT'S CLASS SCHEME (exploitation model)
WR_SIMP - SIMPLIFIED VERSION OF WRIGHT'S CLASS SCHEME (exploitation model)
WR_P – MODIFIED VERSION OF WRIGHT’S POWER MODEL (ownership, dec.making, work autonomy,
with skill as as a new an addititional criteria of differentiation).
*___________________________________________________________.
*Hĺkon Leiulfsrud and Heidi Jensberg
Norwegian University of Science and Technology (NTNU)
Department of Sociology and Political Science, Trondheim
Program Version (Nov 2004/ April 2005).
* Variable construction and spss program of Wright classes.
* Variables in use:
* Iscoco: Occupation, isco88 (COM)
* Emplno: F13 Number of employees
* Emplrel: F12 Employment relation
* Jbspv: F16 Responsible for supervising other employees
* njbspv: F17 Number of people responsible for in job
* Empl: E29 Employment status
* Orgwrk: F18 To what extent the respondent organize his/her own work
* Wkdscin: E33 Allowed to influence decisions about work direction.
*Three categories of self-empoyed - In a first step we separate between different
strata of the self-employed according to numbers of employees.
*Spss program for construction 'emplno3'.
RECODE emplno (0=0) (1 thru 9=1) (10 thru 2000=2) (ELSE=sysmis) INTO emplno3 .
VARIABLE LABELS emplno3 how many employees 3 categories.
val labels emplno3 
0 '0 Employees' 1 '1-9 Employees' 2 '10 or more Employees'

* Program for constructing 'employed'.
recode emplrel (1=1) (2 3 =0) (else=sysmis) into employed.
Val lab employed 0 'self employed' 1 'employees'.
EXEC.
* Program for constructing 'occr'.
compute occr =  iscoco.
recode occr (2212, 2221, 2222, 2223, 2224, 2220=1)
(2229, 2230, 3220, 3223, 3224, 3226, 3229, 3231, 3232=2)
(2411=3)
(2320, 2331, 2332, 2340, 2351, 2359, 3310, 3320, 3330, 3340, 2300, 2330, 2350, 3300 =4)
(2310, 2400, 2410, 2431, 2432, 2430 =5)
(2211, 2212, 2213, 2412, 2419, 2441 thru 2445, 2000, 2210, 2440=5.5)
(2111, 2112, 2113, 2121, 2122, 2131, 2139, 2141, 2142, 2143, 2144, 2145, 2146, 2147, 2148, 2149, 3112,
3141, 3434, 2100, 2110, 2114, 2130, 2140 =6)
(3114, 3117, 3118, 3121, 3122, 3123, 3131, 3132, 3133, 3139, 3142, 3143, 3144, 3145, 3211, 3212,
3213, 3111, 3113, 3115, 3116, 3119, 3151=7)
(2446, 2460, 2470, 3423, 3429, 3432, 3460, 3480, 5150 =8)
(2421, 2422, 2429=9)
(2451, 2452, 2453, 2454, 2455, 3471, 3472, 3473, 3474, 3475, 5210, 2450, 3470, 3000, 3100, 3110, 3120,
3130, 3140, 3150, 3200, 3210 =10)
(1110, 1141, 1142, 1143, 2352, 3152, 1140=11)
(1210, 1231, 1232, 1234, 1235, 1236, 1237, 1238, 1239, 1316, 1317, 1318, 1319,
3416=12)
(1225, 1233, 1314, 1315=13)
(3431, 3233, 4115 =14)
(4111, 4112, 4113, 4114, 4121, 4122, 4131, 4132, 4133, 4141, 4142, 4143, 4144, 4190, 4211,
4212, 4213, 4214, 4215, 4221, 4222, 4223, 3430, 4000, 4100, 4110, 4120, 4130, 4140, 4200, 4210,
4220=15)
(3411, 3412, 3413, 3414, 3415, 3417, 3419, 3421, 3422, 5220, 5221, 5222, 5223, 5230, 9111, 9113, 3400,
3410, 3420, 5200, 9100, 9110=16)
(1221, 1222, 1226, 1227, 1228, 1229, 1223, 1224,1311, 1312, 1313, 1200, 1220, 1300, 1310, =17)
(7111 thru 7113, 7121 thru 7137, 7139 thru 7143, 7211 thru 7216, 7221 thru 7224, 7231 thru 7245,
7311 thru 7313, 7321 thru 7324, 7331, 7332, 7341 thru 7343, 7345, 7346, 7411 thru 7413, 7415, 7421,
7422, 7433 thru 7437, 7441, 7442, 8124, 7000, 7100, 7110, 7120, 7200, 7210, 7220, 7230, 7300, 7310,
7320, 7330, 7340, 7400=18)
(3441 thru 3444, 3449, 3450, 5161 thru 5163, 5169, 0100, 5160=19)
(5112, 8311, 8312, 8321 thru 8324, 8331 thru 8334, 8340, 8300, 8310, 8320, 8330=20)
(7344, 7414, 7416, 7423, 7424, 7431, 7432, 8111, 8112, 8113, 8121 thru 8123, 8131, 8139 thru 8143,
8151 thru 8155, 8159 thru 8163, 8170, 8211, 8212, 8221 thru 8224, 8229 thru 8232, 8240, 8251 thru 8253,
8261 thru 8266, 8269 thru 8287, 8290, 9320, 7410, 7420, 7430, 8000, 8100, 8110, 8120, 8130, 8150, 8200,
8210, 8220, 8250, 8260=21)
(6121 thru 6129, 6142, 9142, 9161,
9311 thru 9313, 9330, 9300, 9310=22)
(6141, 6151 thru 6154, 9211, 9212, 9213, 6140, 6150, 9200, 9210=23)
(3221, 3222, 3225, 3227, 3228=24)
(5113, 5122, 5141, 5140=25)
(5111, 5121, 5131 thru 5139, 5142, 5143, 5149, 9120, 9131 thru 9133, 9141, 9151 thru 9153, 9162, 5000,
5120, 5123, 5130, 9000,9130, 9140, 9150, 9160=26)
(6121 thru 6130, 6111, 6112, 6000, 6100, 6110, 6120=27)
(1100=11) (1230=12) (2420=9) (3230=2) (3433=14) (3440=19) (5100=sysmis).
execute.
val lab occr
1 'Physicians and dentists'
2 'Other medical and paramedical'
3 'Accountants, auditors, actuaries'
4'Teachers: elementary and secondary'
5 'Teachers: university, social sc, librarians'
5.5 'Other univ professionals'
6 'Mathematicians, engineers etc'
7 'Technicians etc'
8 'Public advisors'
9 'Lawyers and judges'
10 'Arts and entertainment'
11 'Managers: public and quasi-public'
12 'Managers: corporate'
13 'Managers: other'
14 'Secretaries'
15 'Other clerical'
16 'Sales'
17 'Foremen'
18 'Crafts'
19 'Government protective workers'
20 'Transportation workers'
21 'Operatives, except transportation'
22 'Laborers, except farm laborers'
23 'Farm Workers'
24 'White collar services'
25 'Skilled manual services'
26 'Lowskilled services'
27 'Farmers and related profession '.
exe.

* Program for constructing 'Skill2'.
compute skill2=OCCR.
recode skill2 (1, 3, 5, 5.5, 6, 9, 11, 12=1) (2, 4, 7, 8, 10, 13, 17, 18, 19, 25, 27=2) (14, 15, 16, 20, 21, 22, 23,
24, 26=3).
value labels skill2 1 'Expert' 2 'Skilled' 3 'Low/semi skilled'.
exe.
* MAN1: How to differentiate between supervisors and managers
MAN1 is based on the variables wkdcsin, employed, jbspv and orgwrk.
* 1. Program for constructing wdec1
When using this variable we only include economically active respondents
ESS1 - variable wkdcsin.

*compute  wkdcsin=  iorgact.
recode wkdcsin (0 thru 7=0) (8 thru 10=1) (else=sysmis) into wdec1.
var lab wdec1 1 'wkdcsin collapsed'.
val lab wdec1 1 '8+'.
exec.
* The varaible DP (decision power) is based on jbspv and wdec1 (only for those economic active).
* 2. Program for constructing DP (decision power).
compute DP =0.
if (employed=1 & jbspv=1 & wdec1=1) DP =1.
if (employed=1 & jbspv=1 & wdec1=0) DP =2.
if (employed=1 & jbspv=2 & wdec1=1) DP =3.
if (employed=1 & jbspv=2 & wdec1=0) DP =4.
recode DP (0=sysmis).
val lab DP
1 'boss w/influence'
2 'boss w/little or mod influence'
3 'not boss w/influence'
4 'not boss w/little or mod influence'.
* We are now ready to construct man1.
* 3. Constructing man1.
compute man1=0.
if (employed=1 & DP =1 & orgwrk=1)man1=1.
if (employed=1 & DP =1 & orgwrk>2)man1=3.
if (employed=1 & DP =2 & orgwrk=1)man1=2.
if (employed=1 & DP =1 & orgwrk=2)man1=2.
if (employed=1 & DP =2 & orgwrk>1)man1=3.
if (employed=1 & DP =3 & orgwrk=1)man1=2.
if (employed=1 & DP =3 & orgwrk>1)man1=3.
if (employed=1 & DP =4 & orgwrk=1)man1=3.
if (employed=1 & DP =4 & orgwrk>1)man1=4.
recode man1 (0=sysmis).
exec.
val lab man1
1 'managers'
2 'supervisors'
3 'not clear'
4 'not boss'.
* Constructing the simple Wright model - WR SIMP.
* Program file for constructing WR_SIMP
Variables needed: Emplno3; Employed; Jbspv; Skill2.
compute WR_SIMP =0.
if (emplno3=2) WR_SIMP =1.
if (emplno3=1) WR_SIMP =2.
if (emplno3=0) WR_SIMP =3.
if (employed=1 & jbspv=1 & skill2=1) WR_SIMP =4.
if (employed=1 & jbspv=2 & skill2=1) WR_SIMP =6.
if (employed=1 & jbspv=1 & skill2=2) WR_SIMP =7.
if (employed=1 & jbspv=2 & skill2=2) WR_SIMP =9.
if (employed=1 & jbspv=1 & skill2=3) WR_SIMP =10.
if (employed=1 & jbspv=2 & skill2=3) WR_SIMP =12.
recode wr_simp (0=sysmis).
VAL LAB WR_SIMP
1 'self empl w/10+ employees'
2 'self empl w/1-9 employees'
3 'self empl w/no empoyees'
4 'expert managers'
6 'expert workers'
7 'skilled manager/superv'
9 'skilled workers'
10 'low skilled manager/superv'
12 'low skilled workers'.
* Constructing the complex Wright model – WR_DM (decision-making)
- Our variable WR_ SIMP does not differentiate between managers and supervisors
- It is based on the variable DP which combines wdec1 (se introduction) and leadership (jbspv)
- DP and orgwrk constitutes the manager variable that separates between managers and supervisors.
* Variables needed: wr_simp; MAN1.
compute WR_DM=0.
if (wr_simp =4 & man1=1) WR_DM =4.
if ((wr_simp =4 or wr_simp =6) & (man1=2)) WR_DM =5.
if ((wr_simp =4 or wr_simp =6) & (man1>2)) WR_DM =6.
if (wr_simp =7 & man1=1) WR_DM =7.
if ((wr_simp =7 or wr_simp =9) & (man1=2)) WR_DM =8.
if ((wr_simp =7 or wr_simp =9) & (man1>2)) WR_DM =9.
if ((wr_simp =10 or wr_simp =12) & (man1=1)) WR_DM =10.
if ((wr_simp =10 or wr_simp =12) & (man1=2)) WR_DM =11.
if ((wr_simp =10 or wr_simp =12) & (man1>2)) WR_DM =12.
if (wr_simp =1) WR_DM =1.
if (wr_simp =2) WR_DM =2.
if (wr_simp =3) WR_DM =3.
recode WR_DM (0=sysmis) (else=copy).


val lab WR_DM
1 'Self empl w/10+ employees'
2 'Self empl w/1-9 employees'
3 'Self empl w/no empoyees'
4 'Expert managers'
5 'Expert supervisors'
6 'Experts'
7 'Skilled managers'
8 'Skilled supervisors'
9 'Skilled workers'
10 'Low skilled managers'
11 'Low skilled supervisors'
12 'Low skilled workers'.
freq WR_DM.

*----------------------------------------------------------------------------------------------------
*Construction of WR_P (Power Class)
*april 8, 2005
* Reconstruction of Wright's original class model based on power and work autonomy.
*Experts, skilled workers and unskilled workers are either ending up as semi autonomous employees or workers in this model.
*We have also made an addition to Wright's model from the late 1970's differentiating between expert/skilled managers and supervisors.
*The new variable PC is a temporary step recoding WR. The new variable WR_P is based on WR (and later PC).
*The question, 'Are you allowed to decide how daily work is organized (scale from = 0, no influence to 10, I have complete control).
*Those ending up in PC =6 (experts), 7 (skilled workers) and 7,5 (unskilled workers) with low automy (0-7 on variable WKDCORG) are defined as workers.
*Those having a values 8-10 on the same variable are defined as semi autonomous..
*-----------------------------------------------------------------------------------------------------.
recode WR_DM
(1=1)
(2=2)
(3=3)
(4, 7=4)
(10=4.5)
(5 8= 5)
(11=5.5)
(6=6)
(9=7)
(12=7.5)
INTO PC.
compute WR_P= PC.
if ((pc=6 or pc=7) & (wkdcorg ge 8 & wkdcorg le 10)) wr_p=6.
if ((pc=6 or pc=7) & (wkdcorg ge 0 & wkdcorg le 7)) wr_p=6.5.
if (pc=7.5 & (wkdcorg ge 8 & wkdcorg le 10)) wr_p=7.
if (pc=7.5 & (wkdcorg ge 0 & wkdcorg le 7)) wr_p=7.5.
exec.
recode wr_p
(6.5=7) (7=6.5) (else= copy).
FREQ wr_p.
Val lab WR_P
1 'Capitalist'
2 'Small Employers'
3 'Self Empl'
4 'Skilled Managers'
4.5 'Low skilled Managers'
5 'Skilled supervisors'
5.5 'Low skilled Supervisors'
6 'Skilled Semi autonomous'
6.5 'Low skilled Semi autonomous'
7 'Skilled workers'
7.5 'Low skilled workers'.
freq wr_p.


recode wr_p (1=1)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_1.
Var labels wr_p_1 'Capitalist'.
recode wr_p (1=0)(2=1)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_2.
Var labels wr_p_2 'Small Employers'.
recode wr_p (1=0)(2=0)(3=1)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_3.
Var labels wr_p_3 'Self Empl'.
recode wr_p (1=0)(2=0)(3=0)(4=1)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_4.
Var labels wr_p_4 'Skilled Managers'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=1)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_4_5.
Var labels wr_p_4_5 'Low skilled Managers'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=1)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_5.
Var labels wr_p_5 'Skilled supervisors'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=1)(6=0)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_5_5.
Var labels wr_p_5_5 'Low skilled Supervisors'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=1)(6.5=0)(7=0)(7.5=0)(else = copy) into  wr_p_6.
Var labels wr_p_6 'Skilled Semi autonomous'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=1)(7=0)(7.5=0)(else = copy) into  wr_p_6_5.
Var labels wr_p_6_5 'Low skilled Semi autonomous'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=1)(7.5=0)(else = copy) into  wr_p_7.
Var labels wr_p_7 'Skilled workers'.
recode wr_p (1=0)(2=0)(3=0)(4=0)(4.5=0)(5=0)(5.5=0)(6=0)(6.5=0)(7=0)(7.5=1)(else = copy) into  wr_p_7_5.
Var labels  wr_p_7_5 'Low skilled workers'.

missing value wr_p_1 (99 thru 9999999).
missing value  wr_p_2 (99 thru 9999999).
missing value  wr_p_3 (99 thru 9999999).
missing value  wr_p_4 (99 thru 9999999).
missing value  wr_p_4_5 (99 thru 9999999).
missing value  wr_p_5 (99 thru 9999999).
missing value  wr_p_5_5 (99 thru 9999999).
missing value  wr_p_6 (99 thru 9999999).
missing value  wr_p_6_5 (99 thru 9999999).
missing value  wr_p_7 (99 thru 9999999).
missing value  wr_p_7_5 (99 thru 9999999).


freq wr_p_1  wr_p_2   wr_p_3  wr_p_4  wr_p_4_5 wr_p_5  wr_p_5_5 wr_p_6  wr_p_6_5 wr_p_7  wr_p_7_5 .
*_____________________________________________________________________
ESPING - ANDERSEN
------------
POST - INDUSTRIAL CLASS SCHEME
_____________________________________________________________________
Ivano Bison
University of Trento
Dep. of Sociology and Social Research.
/******************************************************************************************/
/* This program is based on ISCO88 for the ESS data 2002-2003 */
/* Program version 1.0 - december 2004 */
/*******************************************************************************************/
/* Dear user, */
/* this program creates the Esping-Andersen post-industrial class classification */
/* This program use the EGP class scheme, before use run ESS EGP class program */
/* Dear user, please specify the data set containing the ISCO88 4-digits information and EGP10 create by ESS EGP class program */
/* in the following line you have to specify the data set's variable containing the ISCO88 4-digits information and EGP10 variable*/
* GET FILE='C:\dati\Hakon\ESS1E05_F1.sav'.
/* OR if you do not have EGP10 variable please before run "ESS EGP class scheme.sps" program and after run this program */
************************************************************
ATTENTION: This program use the EGP class scheme
Before use run ESS EGP class program
************************************************************.
recode @isko (1000= 0) into @esp10.
recode @isko (1100= 0) into @esp10.
recode @isko (1110= 0) into @esp10.
recode @isko (1120= 0) into @esp10.
recode @isko (1130= 1) into @esp10.
recode @isko (1140= 1) into @esp10.
recode @isko (1141= 1) into @esp10.
recode @isko (1142= 1) into @esp10.
recode @isko (1143= 1) into @esp10.
recode @isko (1200= 0) into @esp10.
recode @isko (1210= 0) into @esp10.
recode @isko (1220= 0) into @esp10.
recode @isko (1221=11) into @esp10.
recode @isko (1222= 0) into @esp10.
recode @isko (1223= 0) into @esp10.
recode @isko (1224= 0) into @esp10.
recode @isko (1225= 0) into @esp10.
recode @isko (1226= 0) into @esp10.
recode @isko (1227= 0) into @esp10.
recode @isko (1228= 0) into @esp10.
recode @isko (1229= 0) into @esp10.
recode @isko (1230= 0) into @esp10.
recode @isko (1231= 0) into @esp10.
recode @isko (1232= 0) into @esp10.
recode @isko (1233= 0) into @esp10.
recode @isko (1234= 0) into @esp10.
recode @isko (1235= 0) into @esp10.
recode @isko (1236= 0) into @esp10.
recode @isko (1237= 0) into @esp10.
recode @isko (1239= 0) into @esp10.
recode @isko (1240= 1) into @esp10.
recode @isko (1250= 0) into @esp10.
recode @isko (1251= 0) into @esp10.
recode @isko (1252= 1) into @esp10.
recode @isko (1300= 1) into @esp10.
recode @isko (1310= 1) into @esp10.
recode @isko (1311=11) into @esp10.
recode @isko (1312= 1) into @esp10.
recode @isko (1313= 1) into @esp10.
recode @isko (1314= 1) into @esp10.
recode @isko (1315= 1) into @esp10.
recode @isko (1316= 1) into @esp10.
recode @isko (1317= 1) into @esp10.
recode @isko (1318= 1) into @esp10.
recode @isko (1319= 1) into @esp10.
recode @isko (2000= 2) into @esp10.
recode @isko (2100= 2) into @esp10.
recode @isko (2110= 2) into @esp10.
recode @isko (2111= 2) into @esp10.
recode @isko (2112= 2) into @esp10.
recode @isko (2113= 2) into @esp10.
recode @isko (2114= 2) into @esp10.
recode @isko (2120= 2) into @esp10.
recode @isko (2121= 2) into @esp10.
recode @isko (2122= 2) into @esp10.
recode @isko (2130= 2) into @esp10.
recode @isko (2131= 2) into @esp10.
recode @isko (2132= 3) into @esp10.
recode @isko (2139= 3) into @esp10.
recode @isko (2140= 2) into @esp10.
recode @isko (2141= 2) into @esp10.
recode @isko (2142= 2) into @esp10.
recode @isko (2143= 2) into @esp10.
recode @isko (2144= 2) into @esp10.
recode @isko (2145= 2) into @esp10.
recode @isko (2146= 2) into @esp10.
recode @isko (2147= 2) into @esp10.
recode @isko (2148= 2) into @esp10.
recode @isko (2149= 2) into @esp10.
recode @isko (2200= 2) into @esp10.
recode @isko (2210= 2) into @esp10.
recode @isko (2211= 2) into @esp10.
recode @isko (2212= 2) into @esp10.
recode @isko (2213= 2) into @esp10.
recode @isko (2220= 2) into @esp10.
recode @isko (2221= 2) into @esp10.
recode @isko (2222= 2) into @esp10.
recode @isko (2223= 2) into @esp10.
recode @isko (2224= 2) into @esp10.
recode @isko (2229= 2) into @esp10.
recode @isko (2230= 4) into @esp10.
recode @isko (2300= 4) into @esp10.
recode @isko (2310= 2) into @esp10.
recode @isko (2320= 4) into @esp10.
recode @isko (2321= 4) into @esp10.
recode @isko (2322= 4) into @esp10.
recode @isko (2330= 4) into @esp10.
recode @isko (2331= 4) into @esp10.
recode @isko (2332= 4) into @esp10.
recode @isko (2340= 4) into @esp10.
recode @isko (2350= 2) into @esp10.
recode @isko (2351= 4) into @esp10.
recode @isko (2352= 2) into @esp10.
recode @isko (2359= 4) into @esp10.
recode @isko (2400= 2) into @esp10.
recode @isko (2410= 2) into @esp10.
recode @isko (2411= 2) into @esp10.
recode @isko (2412= 2) into @esp10.
recode @isko (2419= 2) into @esp10.
recode @isko (2420= 2) into @esp10.
recode @isko (2421= 2) into @esp10.
recode @isko (2422= 2) into @esp10.
recode @isko (2429= 2) into @esp10.
recode @isko (2430= 4) into @esp10.
recode @isko (2431= 4) into @esp10.
recode @isko (2432= 4) into @esp10.
recode @isko (2440= 2) into @esp10.
recode @isko (2441= 2) into @esp10.
recode @isko (2442= 2) into @esp10.
recode @isko (2443= 2) into @esp10.
recode @isko (2444= 4) into @esp10.
recode @isko (2445= 2) into @esp10.
recode @isko (2446= 4) into @esp10.
recode @isko (2450= 2) into @esp10.
recode @isko (2451= 2) into @esp10.
recode @isko (2452= 2) into @esp10.
recode @isko (2453= 2) into @esp10.
recode @isko (2454= 2) into @esp10.
recode @isko (2455= 2) into @esp10.
recode @isko (2460= 4) into @esp10.
if ((@isko eq 2460) and any(@egp10,1,2,3,5,6,10)) @esp10=2.
recode @isko (2470= 2) into @esp10.
recode @isko (3000= 3) into @esp10.
recode @isko (3100= 3) into @esp10.
recode @isko (3110= 3) into @esp10.
recode @isko (3111= 3) into @esp10.
recode @isko (3112= 3) into @esp10.
recode @isko (3113= 3) into @esp10.
recode @isko (3114= 3) into @esp10.
recode @isko (3115= 3) into @esp10.
recode @isko (3116= 3) into @esp10.
recode @isko (3117= 3) into @esp10.
recode @isko (3118= 3) into @esp10.
recode @isko (3119= 3) into @esp10.
recode @isko (3120= 3) into @esp10.
recode @isko (3121= 3) into @esp10.
recode @isko (3122= 3) into @esp10.
recode @isko (3123= 3) into @esp10.
recode @isko (3130= 3) into @esp10.
recode @isko (3131= 5) into @esp10.
recode @isko (3132= 5) into @esp10.
recode @isko (3133= 3) into @esp10.
recode @isko (3139= 3) into @esp10.
recode @isko (3140= 3) into @esp10.
recode @isko (3141= 3) into @esp10.
recode @isko (3142= 2) into @esp10.
recode @isko (3143= 2) into @esp10.
recode @isko (3144= 3) into @esp10.
recode @isko (3145= 3) into @esp10.
recode @isko (3150= 3) into @esp10.
recode @isko (3151= 3) into @esp10.
recode @isko (3152= 3) into @esp10.
recode @isko (3200= 3) into @esp10.
recode @isko (3210= 3) into @esp10.
recode @isko (3211= 3) into @esp10.
recode @isko (3212= 11) into @esp10.
recode @isko (3213= 11) into @esp10.
recode @isko (3220= 3) into @esp10.
recode @isko (3221= 3) into @esp10.
recode @isko (3222= 5) into @esp10.
recode @isko (3223= 3) into @esp10.
recode @isko (3224= 4) into @esp10.
recode @isko (3225= 5) into @esp10.
recode @isko (3226= 5) into @esp10.
recode @isko (3227= 3) into @esp10.
recode @isko (3228= 3) into @esp10.
recode @isko (3229= 3) into @esp10.
recode @isko (3230= 4) into @esp10.
recode @isko (3231= 4) into @esp10.
recode @isko (3232= 4) into @esp10.
recode @isko (3240= 4) into @esp10.
recode @isko (3241= 4) into @esp10.
recode @isko (3242= 9999) into @esp10.
recode @isko (3300= 4) into @esp10.
recode @isko (3310= 4) into @esp10.
recode @isko (3320= 4) into @esp10.
recode @isko (3330= 4) into @esp10.
recode @isko (3340= 4) into @esp10.
recode @isko (3400= 2) into @esp10.
recode @isko (3410= 2) into @esp10.
if ((@isko eq 3410) and any(@egp10,3,4,7,8,9,11)) @esp10=7.
recode @isko (3411= 2) into @esp10.
if ((@isko eq 3411) and any(@egp10,3,4,7,8,9,11)) @esp10=7.
recode @isko (3412= 2) into @esp10.
if ((@isko eq 3412) and any(@egp10,3,4,7,8,9,11)) @esp10=7.
recode @isko (3413= 8) into @esp10.
recode @isko (3414= 8) into @esp10.
recode @isko (3415= 8) into @esp10.
recode @isko (3416= 8) into @esp10.
recode @isko (3417= 7) into @esp10.
recode @isko (3419= 8) into @esp10.
recode @isko (3420= 8) into @esp10.
recode @isko (3421= 8) into @esp10.
recode @isko (3422= 4) into @esp10.
recode @isko (3423= 4) into @esp10.
recode @isko (3429= 8) into @esp10.
recode @isko (3430= 7) into @esp10.
recode @isko (3431= 7) into @esp10.
recode @isko (3432= 7) into @esp10.
recode @isko (3433= 7) into @esp10.
recode @isko (3434= 3) into @esp10.
recode @isko (3439= 7) into @esp10.
recode @isko (3440= 7) into @esp10.
recode @isko (3441= 7) into @esp10.
recode @isko (3442= 7) into @esp10.
recode @isko (3443= 7) into @esp10.
recode @isko (3444= 7) into @esp10.
recode @isko (3449= 7) into @esp10.
recode @isko (3450= 5) into @esp10.
recode @isko (3451= 5) into @esp10.
recode @isko (3452= 5) into @esp10.
recode @isko (3460= 4) into @esp10.
recode @isko (3470= 4) into @esp10.
recode @isko (3471= 5) into @esp10.
recode @isko (3472= 4) into @esp10.
recode @isko (3473= 6) into @esp10.
recode @isko (3474= 6) into @esp10.
recode @isko (3475= 2) into @esp10.
recode @isko (3480= 4) into @esp10.
recode @isko (4000= 7) into @esp10.
recode @isko (4100= 7) into @esp10.
recode @isko (4110= 7) into @esp10.
recode @isko (4111= 7) into @esp10.
recode @isko (4112= 7) into @esp10.
recode @isko (4113= 7) into @esp10.
recode @isko (4114= 7) into @esp10.
recode @isko (4115= 7) into @esp10.
recode @isko (4120= 7) into @esp10.
recode @isko (4121= 7) into @esp10.
recode @isko (4122= 7) into @esp10.
recode @isko (4130= 7) into @esp10.
recode @isko (4131= 7) into @esp10.
recode @isko (4132= 7) into @esp10.
recode @isko (4133= 7) into @esp10.
recode @isko (4140= 7) into @esp10.
recode @isko (4141= 7) into @esp10.
recode @isko (4142= 6) into @esp10.
recode @isko (4143= 7) into @esp10.
recode @isko (4144= 7) into @esp10.
recode @isko (4190= 7) into @esp10.
recode @isko (4200= 7) into @esp10.
recode @isko (4210= 7) into @esp10.
recode @isko (4211= 8) into @esp10.
recode @isko (4212= 7) into @esp10.
recode @isko (4213= 8) into @esp10.
recode @isko (4214= 7) into @esp10.
recode @isko (4215= 7) into @esp10.
recode @isko (4220= 7) into @esp10.
recode @isko (4221= 8) into @esp10.
recode @isko (4222= 7) into @esp10.
recode @isko (4223= 7) into @esp10.
recode @isko (5000= 5) into @esp10.
recode @isko (5100= 5) into @esp10.
recode @isko (5110= 5) into @esp10.
recode @isko (5111= 5) into @esp10.
recode @isko (5112= 5) into @esp10.
recode @isko (5113= 6) into @esp10.
recode @isko (5120= 6) into @esp10.
recode @isko (5121= 6) into @esp10.
recode @isko (5122= 5) into @esp10.
recode @isko (5123= 6) into @esp10.
recode @isko (5130= 6) into @esp10.
recode @isko (5131= 6) into @esp10.
recode @isko (5132= 6) into @esp10.
recode @isko (5133= 6) into @esp10.
recode @isko (5139= 6) into @esp10.
recode @isko (5140= 6) into @esp10.
recode @isko (5141= 5) into @esp10.
recode @isko (5142= 5) into @esp10.
recode @isko (5143= 5) into @esp10.
recode @isko (5149= 6) into @esp10.
recode @isko (5150= 6) into @esp10.
recode @isko (5151= 6) into @esp10.
recode @isko (5152= 6) into @esp10.
recode @isko (5160= 5) into @esp10.
recode @isko (5161= 5) into @esp10.
recode @isko (5162= 5) into @esp10.
recode @isko (5163= 5) into @esp10.
recode @isko (5164= 5) into @esp10.
recode @isko (5169= 5) into @esp10.
recode @isko (5200= 6) into @esp10.
recode @isko (5210= 6) into @esp10.
recode @isko (5220= 8) into @esp10.
recode @isko (5230= 6) into @esp10.
recode @isko (6000=11) into @esp10.
recode @isko (6100=11) into @esp10.
recode @isko (6110=11) into @esp10.
recode @isko (6111=11) into @esp10.
recode @isko (6112=11) into @esp10.
recode @isko (6113=11) into @esp10.
recode @isko (6114=11) into @esp10.
recode @isko (6120=11) into @esp10.
recode @isko (6121=11) into @esp10.
recode @isko (6122=11) into @esp10.
recode @isko (6123=11) into @esp10.
recode @isko (6124=11) into @esp10.
recode @isko (6129=11) into @esp10.
recode @isko (6130=11) into @esp10.
recode @isko (6131=11) into @esp10.
recode @isko (6132=11) into @esp10.
recode @isko (6133=11) into @esp10.
recode @isko (6134=11) into @esp10.
recode @isko (6140=11) into @esp10.
recode @isko (6141=11) into @esp10.
recode @isko (6142=11) into @esp10.
recode @isko (6150=11) into @esp10.
recode @isko (6151=11) into @esp10.
recode @isko (6152=11) into @esp10.
recode @isko (6153=11) into @esp10.
recode @isko (6154=11) into @esp10.
recode @isko (6200=11) into @esp10.
recode @isko (6210=11) into @esp10.
recode @isko (9000= 6) into @esp10.
recode @isko (9120= 6) into @esp10.
recode @isko (9130= 6) into @esp10.
recode @isko (9131= 6) into @esp10.
recode @isko (9132= 6) into @esp10.
recode @isko (9133= 6) into @esp10.
recode @isko (9140= 6) into @esp10.
recode @isko (9141= 6) into @esp10.
recode @isko (9150= 6) into @esp10.
recode @isko (9151= 6) into @esp10.
recode @isko (9152= 6) into @esp10.
recode @isko (9153= 6) into @esp10.
recode @isko (9160= 6) into @esp10.
recode @isko (9162= 6) into @esp10.
recode @isko (1000 thru 1999=1) (2000 thru 2999=2) (3000 thru 3999=3) (4000 thru 4999=4) (5000 thru 5999=5)
(6000 thru 6999=6) (7000 thru 7999=7) (8000 thru 8999=8) (9000 thru 9999=9) into iscogrp.
execute.
recode @esp10 (sysmis=99) (11=15).
if ((@egp10 eq 7) and (@esp10 eq 99)) @esp10=9.
if ((@egp10 eq 8) and (@esp10 eq 99)) @esp10=9.
if ((@egp10 eq 9) and (@esp10 eq 99)) @esp10=10.
if ((@egp10 eq 10)) @esp10=11.
if ((@egp10 eq 11)) @esp10=12.
if (any(iscogrp,4,5) and any(@egp10,4,8,9) and (@esp10 eq 10)) @esp10=6.
if (any(iscogrp,4,5) and any(@egp10,4,8,9) and (@esp10 eq 9)) @esp10=5.
if (any(iscogrp,4,5) and any(@egp10,4,8,9) and (@esp10 eq 99)) @esp10=6.
if ((@egp10 eq 5) and (emplno gt 3)) @esp10=0.
if ((@egp10 eq 5) and any(emplno,1,2,3) and (@esp10 eq 99)) @esp10=1.
if ((@egp10 eq 6) and (@esp10 eq 99)) @esp10=1.1.
if ((@egp10 eq 6) and (@esp10 eq 1)) @esp10=1.1.
if ((@egp10 eq 8) and (@esp10 eq 6)) @esp10=5.
if ((@egp10 eq 1) and (@esp10 eq 99)) @esp10=1.
if ((@egp10 eq 5) and (@esp10 eq 99)) @esp10=1.
if ((@egp10 eq 2) and (@esp10 eq 99)) @esp10=2.
if ((@egp10 eq 2) and (@esp10 eq 15)) @esp10=8.
if ((@egp10 eq 1) and (@esp10 eq 15)) @esp10=8.
if ((@egp10 eq 7) and (@esp10 eq 6)) @esp10=5.
if ((@egp10 eq 9) and (@esp10 le 5)) @esp10=6.
if (any(@egp10,4) and (@esp10 lt 5)) @esp10=7.
if ((@egp10 eq 3) and (@esp10 eq 99)) @esp10=7.
recode @esp10 (99=sysmis).
recode @egp10 (sysmis=sysmis) into @esp10.

/***************************/
/* Define missing value */
/***************************/.
do if (missing(@esp10)).
recode iscoco (else=copy) into @esp10.
end if.
missing value @esp10 (100 thru 99999).

/***************************/
/* Define value labels */

/***************************/.
var labels @esp10 'ESP Class Schema'.
value labels @esp10
0 'Manager I Hi.serv.'
1 'Man.II Self.empl.1-3 empl.'
1.1 'Self-empl. 0 empl.'
2 'Professionals'
3 'Technicians'
4 'Semi-professionals'
5 'Skilled servants'
6 'Unskilled servants'
7 'Clerical occupations'
8 'Sales occupations'
9 'Skilled manual workers'
10 'Unskilled manual workers'
11 'Farm workers'
12 'Farmers'
100 'armed forces'
66666 'Not applicable'
77777 'Refusal'
88888 "Don't know"
99999 'No answer'.
execute.
delete var iscogrp.
freq @esp10.

recode @esp10 (0=1)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy) into  @esp10_0.
Var labels @esp10_0 'Manager I Hi.serv'.
recode @esp10 (0=0)(1=1)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy) into  @esp10_1.
Var labels @esp10_1 'Man.II Self.empl.1-3 empl'.
recode @esp10 (0=0)(1=0)(1.1=1)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy) into  @esp10_1_1.
Var labels @esp10_1_1 'Self-empl. 0 empl.'.
recode @esp10 (0=0)(1=0)(1.1=0)(2=1)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy) into @esp10_2.
Var labels @esp10_2 'Professionals'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=1)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_3.
Var labels @esp10_3 'Technicians'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=1)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_4.
Var labels @esp10_4 'Semi-professionals'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=1)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_5.
Var labels @esp10_5 'Skilled servants'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=1)(7=0)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_6.
Var labels @esp10_6 'Unskilled servants'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=1)(8=0)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_7.
Var labels @esp10_7 'Clerical occupations'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=1)(9=0)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_8.
Var labels @esp10_8 'VI Skilled manual workers'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=1)(10=0)(11=0)(12=0)(else = copy)  into  @esp10_9.
Var labels @esp10_9 'Skilled manual workers'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=1)(11=0)(12=0)(else = copy)  into  @esp10_10.
Var labels @esp10_10 'Unskilled manual workers'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=1)(12=0)(else = copy)  into  @esp10_11.
Var labels @esp10_11 'Farm workers'.
recode @esp10  (0=0)(1=0)(1.1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(12=1)(else = copy)  into  @esp10_12.
Var labels @esp10_12 'Farmers'.

missing value  @esp10_0 (99 thru 9999999).
missing value  @esp10_1 (99 thru 9999999).
missing value  @esp10_1_1 (99 thru 9999999).
missing value  @esp10_2 (99 thru 9999999).
missing value  @esp10_3 (99 thru 9999999).
missing value  @esp10_4 (99 thru 9999999).
missing value  @esp10_5 (99 thru 9999999).
missing value  @esp10_6 (99 thru 9999999).
missing value  @esp10_7 (99 thru 9999999).
missing value  @esp10_8 (99 thru 9999999).
missing value  @esp10_9 (99 thru 9999999).
missing value  @esp10_10 (99 thru 9999999).
missing value  @esp10_11 (99 thru 9999999).
missing value  @esp10_12 (99 thru 9999999).
freq @esp10_0 @esp10_1 @esp10_1_1 @esp10_2   @esp10_3  @esp10_4  @esp10_5 @esp10_6 @esp10_7  @esp10_8 @esp10_9  @esp10_10   @esp10_11 @esp10_12.
*____________________________________________________
*TREIMAN INDEX
------------
TREIMAN
------------------------------------------------
-
PROGRAM BY GANZEBOOM
____________________________________________________
(http://www.fss.uu.nl/soc/hg/isko88/).
/******************************************************************************************/
/* This program creates the TREIMAN PRESTIGE SCORE based on ISCO88 */
/******************************************************************************************/
/* Dear user, */
/* before run this program not forget to change the file location in the "import" or "get file" line */
/* the declaration of the ISCO88 variable at the "compute @isko" line */
/* in the following line you have to specify the data set's variable containing the ISCO88 4-digits information */
/* if you use the original ESS1E05_F1.POR data file: cancel the asterisk in front of line; modify the path and run this line */
/* remember: if you run this line do not run the following "GET FILE" line command */
* IMPORT FILE='C:\dati\Hakon\ESS1E05_F1.POR'.
/* if you use a SPSS system file ".SAV": modify the path and the file name and run this line */
GET FILE='C:\dati\Hakon\ESS1E05_F1.sav'.
/* insert here the variable name containing the ISCO88 4-digits information of the occupation of the respondent: in ESS is iscoco.*/
**************************.
compute @isko = iscoco.
**************************.
recode @isko (1000=51) into @trei.
recode @isko (1100=67) into @trei.
recode @isko (1110=64) into @trei.
recode @isko (1120=71) into @trei.
recode @isko (1130=63) into @trei.
recode @isko (1140=63) into @trei.
recode @isko (1141=63) into @trei.
recode @isko (1142=63) into @trei.
recode @isko (1143=63) into @trei.
recode @isko (1200=60) into @trei.
recode @isko (1210=70) into @trei.
recode @isko (1220=63) into @trei.
recode @isko (1221=60) into @trei.
recode @isko (1222=60) into @trei.
recode @isko (1223=60) into @trei.
recode @isko (1224=60) into @trei.
recode @isko (1225=60) into @trei.
recode @isko (1226=60) into @trei.
recode @isko (1227=60) into @trei.
recode @isko (1228=60) into @trei.
recode @isko (1229=60) into @trei.
recode @isko (1230=60) into @trei.
recode @isko (1231=60) into @trei.
recode @isko (1232=60) into @trei.
recode @isko (1233=60) into @trei.
recode @isko (1234=60) into @trei.
recode @isko (1235=60) into @trei.
recode @isko (1236=60) into @trei.
recode @isko (1237=60) into @trei.
recode @isko (1239=60) into @trei.
recode @isko (1240=55) into @trei.
recode @isko (1250=65) into @trei.
recode @isko (1251=73) into @trei.
recode @isko (1252=63) into @trei.
recode @isko (1300=50) into @trei.
recode @isko (1310=50) into @trei.
recode @isko (1311=47) into @trei.
recode @isko (1312=52) into @trei.
recode @isko (1313=52) into @trei.
recode @isko (1314=46) into @trei.
recode @isko (1315=38) into @trei.
recode @isko (1316=52) into @trei.
recode @isko (1317=52) into @trei.
recode @isko (1318=52) into @trei.
recode @isko (1319=52) into @trei.
recode @isko (2000=62) into @trei.
recode @isko (2100=63) into @trei.
recode @isko (2110=69) into @trei.
recode @isko (2111=75) into @trei.
recode @isko (2112=72) into @trei.
recode @isko (2113=69) into @trei.
recode @isko (2114=67) into @trei.
recode @isko (2120=56) into @trei.
recode @isko (2121=69) into @trei.
recode @isko (2122=55) into @trei.
recode @isko (2130=51) into @trei.
recode @isko (2131=51) into @trei.
recode @isko (2132=51) into @trei.
recode @isko (2139=51) into @trei.
recode @isko (2140=63) into @trei.
recode @isko (2141=72) into @trei.
recode @isko (2142=70) into @trei.
recode @isko (2143=65) into @trei.
recode @isko (2144=65) into @trei.
recode @isko (2145=66) into @trei.
recode @isko (2146=66) into @trei.
recode @isko (2147=61) into @trei.
recode @isko (2148=58) into @trei.
recode @isko (2149=56) into @trei.
recode @isko (2200=70) into @trei.
recode @isko (2210=62) into @trei.
recode @isko (2211=69) into @trei.
recode @isko (2212=68) into @trei.
recode @isko (2213=56) into @trei.
recode @isko (2220=73) into @trei.
recode @isko (2221=78) into @trei.
recode @isko (2222=70) into @trei.
recode @isko (2223=61) into @trei.
recode @isko (2224=64) into @trei.
recode @isko (2229=73) into @trei.
recode @isko (2230=54) into @trei.
recode @isko (2300=61) into @trei.
recode @isko (2310=78) into @trei.
recode @isko (2320=60) into @trei.
recode @isko (2321=60) into @trei.
recode @isko (2322=57) into @trei.
recode @isko (2330=57) into @trei.
recode @isko (2331=57) into @trei.
recode @isko (2332=49) into @trei.
recode @isko (2340=62) into @trei.
recode @isko (2350=62) into @trei.
recode @isko (2351=68) into @trei.
recode @isko (2352=68) into @trei.
recode @isko (2359=62) into @trei.
recode @isko (2400=60) into @trei.
recode @isko (2410=57) into @trei.
recode @isko (2411=62) into @trei.
recode @isko (2412=56) into @trei.
recode @isko (2419=57) into @trei.
recode @isko (2420=73) into @trei.
recode @isko (2421=73) into @trei.
recode @isko (2422=76) into @trei.
recode @isko (2429=71) into @trei.
recode @isko (2430=54) into @trei.
recode @isko (2431=54) into @trei.
recode @isko (2432=54) into @trei.
recode @isko (2440=58) into @trei.
recode @isko (2441=60) into @trei.
recode @isko (2442=67) into @trei.
recode @isko (2443=67) into @trei.
recode @isko (2444=62) into @trei.
recode @isko (2445=67) into @trei.
recode @isko (2446=52) into @trei.
recode @isko (2450=57) into @trei.
recode @isko (2451=58) into @trei.
recode @isko (2452=57) into @trei.
recode @isko (2453=45) into @trei.
recode @isko (2454=40) into @trei.
recode @isko (2455=57) into @trei.
recode @isko (2460=60) into @trei.
recode @isko (2470=68) into @trei.
recode @isko (3000=48) into @trei.
recode @isko (3100=48) into @trei.
recode @isko (3110=47) into @trei.
recode @isko (3111=46) into @trei.
recode @isko (3112=39) into @trei.
recode @isko (3113=46) into @trei.
recode @isko (3114=46) into @trei.
recode @isko (3115=46) into @trei.
recode @isko (3116=46) into @trei.
recode @isko (3117=53) into @trei.
recode @isko (3118=55) into @trei.
recode @isko (3119=46) into @trei.
recode @isko (3120=53) into @trei.
recode @isko (3121=53) into @trei.
recode @isko (3122=53) into @trei.
recode @isko (3123=53) into @trei.
recode @isko (3130=46) into @trei.
recode @isko (3131=46) into @trei.
recode @isko (3132=49) into @trei.
recode @isko (3133=58) into @trei.
recode @isko (3139=44) into @trei.
recode @isko (3140=57) into @trei.
recode @isko (3141=60) into @trei.
recode @isko (3142=55) into @trei.
recode @isko (3143=60) into @trei.
recode @isko (3144=50) into @trei.
recode @isko (3145=46) into @trei.
recode @isko (3150=54) into @trei.
recode @isko (3151=54) into @trei.
recode @isko (3152=54) into @trei.
recode @isko (3200=51) into @trei.
recode @isko (3210=52) into @trei.
recode @isko (3211=52) into @trei.
recode @isko (3212=47) into @trei.
recode @isko (3213=55) into @trei.
recode @isko (3220=51) into @trei.
recode @isko (3221=53) into @trei.
recode @isko (3222=48) into @trei.
recode @isko (3223=52) into @trei.
recode @isko (3224=60) into @trei.
recode @isko (3225=44) into @trei.
recode @isko (3226=51) into @trei.
recode @isko (3227=48) into @trei.
recode @isko (3228=44) into @trei.
recode @isko (3229=45) into @trei.
recode @isko (3230=44) into @trei.
recode @isko (3231=44) into @trei.
recode @isko (3232=44) into @trei.
recode @isko (3240=29) into @trei.
recode @isko (3241=29) into @trei.
recode @isko (3242=22) into @trei.
recode @isko (3300=50) into @trei.
recode @isko (3310=50) into @trei.
recode @isko (3320=50) into @trei.
recode @isko (3330=50) into @trei.
recode @isko (3340=50) into @trei.
recode @isko (3400=48) into @trei.
recode @isko (3410=47) into @trei.
recode @isko (3411=50) into @trei.
recode @isko (3412=44) into @trei.
recode @isko (3413=49) into @trei.
recode @isko (3414=43) into @trei.
recode @isko (3415=46) into @trei.
recode @isko (3416=49) into @trei.
recode @isko (3417=46) into @trei.
recode @isko (3419=46) into @trei.
recode @isko (3420=42) into @trei.
recode @isko (3421=55) into @trei.
recode @isko (3422=50) into @trei.
recode @isko (3423=49) into @trei.
recode @isko (3429=42) into @trei.
recode @isko (3430=49) into @trei.
recode @isko (3431=53) into @trei.
recode @isko (3432=49) into @trei.
recode @isko (3433=49) into @trei.
recode @isko (3434=51) into @trei.
recode @isko (3439=53) into @trei.
recode @isko (3440=52) into @trei.
recode @isko (3441=44) into @trei.
recode @isko (3442=52) into @trei.
recode @isko (3443=55) into @trei.
recode @isko (3444=54) into @trei.
recode @isko (3449=55) into @trei.
recode @isko (3450=45) into @trei.
recode @isko (3451=60) into @trei.
recode @isko (3452=44) into @trei.
recode @isko (3460=49) into @trei.
recode @isko (3470=45) into @trei.
recode @isko (3471=49) into @trei.
recode @isko (3472=50) into @trei.
recode @isko (3473=32) into @trei.
recode @isko (3474=33) into @trei.
recode @isko (3475=49) into @trei.
recode @isko (3480=50) into @trei.
recode @isko (4000=37) into @trei.
recode @isko (4100=37) into @trei.
recode @isko (4110=45) into @trei.
recode @isko (4111=42) into @trei.
recode @isko (4112=42) into @trei.
recode @isko (4113=45) into @trei.
recode @isko (4114=45) into @trei.
recode @isko (4115=53) into @trei.
recode @isko (4120=44) into @trei.
recode @isko (4121=45) into @trei.
recode @isko (4122=36) into @trei.
recode @isko (4130=32) into @trei.
recode @isko (4131=30) into @trei.
recode @isko (4132=44) into @trei.
recode @isko (4133=37) into @trei.
recode @isko (4140=37) into @trei.
recode @isko (4141=36) into @trei.
recode @isko (4142=33) into @trei.
recode @isko (4143=41) into @trei.
recode @isko (4144=37) into @trei.
recode @isko (4190=37) into @trei.
recode @isko (4200=39) into @trei.
recode @isko (4210=37) into @trei.
recode @isko (4211=34) into @trei.
recode @isko (4212=42) into @trei.
recode @isko (4213=34) into @trei.
recode @isko (4214=15) into @trei.
recode @isko (4215=27) into @trei.
recode @isko (4220=38) into @trei.
recode @isko (4221=38) into @trei.
recode @isko (4222=38) into @trei.
recode @isko (4223=38) into @trei.
recode @isko (5000=32) into @trei.
recode @isko (5100=32) into @trei.
recode @isko (5110=32) into @trei.
recode @isko (5111=50) into @trei.
recode @isko (5112=32) into @trei.
recode @isko (5113=29) into @trei.
recode @isko (5120=26) into @trei.
recode @isko (5121=37) into @trei.
recode @isko (5122=31) into @trei.
recode @isko (5123=21) into @trei.
recode @isko (5130=27) into @trei.
recode @isko (5131=23) into @trei.
recode @isko (5132=42) into @trei.
recode @isko (5133=17) into @trei.
recode @isko (5139=29) into @trei.
recode @isko (5140=29) into @trei.
recode @isko (5141=32) into @trei.
recode @isko (5142=17) into @trei.
recode @isko (5143=34) into @trei.
recode @isko (5149=29) into @trei.
recode @isko (5150=37) into @trei.
recode @isko (5151=37) into @trei.
recode @isko (5152=37) into @trei.
recode @isko (5160=37) into @trei.
recode @isko (5161=35) into @trei.
recode @isko (5162=40) into @trei.
recode @isko (5163=39) into @trei.
recode @isko (5164=39) into @trei.
recode @isko (5169=30) into @trei.
recode @isko (5200=31) into @trei.
recode @isko (5210=28) into @trei.
recode @isko (5220=32) into @trei.
recode @isko (5230=24) into @trei.
recode @isko (6000=37) into @trei.
recode @isko (6100=38) into @trei.
recode @isko (6110=40) into @trei.
recode @isko (6111=40) into @trei.
recode @isko (6112=40) into @trei.
recode @isko (6113=40) into @trei.
recode @isko (6114=40) into @trei.
recode @isko (6120=40) into @trei.
recode @isko (6121=40) into @trei.
recode @isko (6122=40) into @trei.
recode @isko (6123=40) into @trei.
recode @isko (6124=40) into @trei.
recode @isko (6129=40) into @trei.
recode @isko (6130=38) into @trei.
recode @isko (6131=40) into @trei.
recode @isko (6132=41) into @trei.
recode @isko (6133=40) into @trei.
recode @isko (6134=30) into @trei.
recode @isko (6140=24) into @trei.
recode @isko (6141=24) into @trei.
recode @isko (6142=16) into @trei.
recode @isko (6150=28) into @trei.
recode @isko (6151=23) into @trei.
recode @isko (6152=23) into @trei.
recode @isko (6153=28) into @trei.
recode @isko (6154= 6) into @trei.
recode @isko (6200=38) into @trei.
recode @isko (6210=38) into @trei.
recode @isko (7000=38) into @trei.
recode @isko (7100=34) into @trei.
recode @isko (7110=34) into @trei.
recode @isko (7111=34) into @trei.
recode @isko (7112=36) into @trei.
recode @isko (7113=34) into @trei.
recode @isko (7120=34) into @trei.
recode @isko (7121=36) into @trei.
recode @isko (7122=34) into @trei.
recode @isko (7123=34) into @trei.
recode @isko (7124=37) into @trei.
recode @isko (7129=28) into @trei.
recode @isko (7130=37) into @trei.
recode @isko (7131=31) into @trei.
recode @isko (7132=31) into @trei.
recode @isko (7133=31) into @trei.
recode @isko (7134=28) into @trei.
recode @isko (7135=26) into @trei.
recode @isko (7136=34) into @trei.
recode @isko (7137=44) into @trei.
recode @isko (7139=31) into @trei.
recode @isko (7140=31) into @trei.
recode @isko (7141=31) into @trei.
recode @isko (7142=29) into @trei.
recode @isko (7143=20) into @trei.
recode @isko (7200=40) into @trei.
recode @isko (7210=38) into @trei.
recode @isko (7211=38) into @trei.
recode @isko (7212=39) into @trei.
recode @isko (7213=34) into @trei.
recode @isko (7214=44) into @trei.
recode @isko (7215=32) into @trei.
recode @isko (7216=26) into @trei.
recode @isko (7220=37) into @trei.
recode @isko (7221=35) into @trei.
recode @isko (7222=40) into @trei.
recode @isko (7223=38) into @trei.
recode @isko (7224=27) into @trei.
recode @isko (7230=43) into @trei.
recode @isko (7231=43) into @trei.
recode @isko (7232=50) into @trei.
recode @isko (7233=42) into @trei.
recode @isko (7234=20) into @trei.
recode @isko (7240=38) into @trei.
recode @isko (7241=38) into @trei.
recode @isko (7242=48) into @trei.
recode @isko (7243=42) into @trei.
recode @isko (7244=35) into @trei.
recode @isko (7245=36) into @trei.
recode @isko (7300=39) into @trei.
recode @isko (7310=45) into @trei.
recode @isko (7311=47) into @trei.
recode @isko (7312=33) into @trei.
recode @isko (7313=43) into @trei.
recode @isko (7320=28) into @trei.
recode @isko (7321=25) into @trei.
recode @isko (7322=37) into @trei.
recode @isko (7323=31) into @trei.
recode @isko (7324=31) into @trei.
recode @isko (7330=31) into @trei.
recode @isko (7331=31) into @trei.
recode @isko (7332=31) into @trei.
recode @isko (7340=42) into @trei.
recode @isko (7341=42) into @trei.
recode @isko (7342=41) into @trei.
recode @isko (7343=41) into @trei.
recode @isko (7344=42) into @trei.
recode @isko (7345=32) into @trei.
recode @isko (7346=52) into @trei.
recode @isko (7400=33) into @trei.
recode @isko (7410=28) into @trei.
recode @isko (7411=24) into @trei.
recode @isko (7412=33) into @trei.
recode @isko (7413=34) into @trei.
recode @isko (7414=35) into @trei.
recode @isko (7415=34) into @trei.
recode @isko (7416=34) into @trei.
recode @isko (7420=29) into @trei.
recode @isko (7421=29) into @trei.
recode @isko (7422=40) into @trei.
recode @isko (7423=36) into @trei.
recode @isko (7424=21) into @trei.
recode @isko (7430=34) into @trei.
recode @isko (7431=29) into @trei.
recode @isko (7432=32) into @trei.
recode @isko (7433=40) into @trei.
recode @isko (7434=35) into @trei.
recode @isko (7435=40) into @trei.
recode @isko (7436=26) into @trei.
recode @isko (7437=31) into @trei.
recode @isko (7440=27) into @trei.
recode @isko (7441=22) into @trei.
recode @isko (7442=27) into @trei.
recode @isko (7500=48) into @trei.
recode @isko (7510=46) into @trei.
recode @isko (7520=46) into @trei.
recode @isko (7530=37) into @trei.
recode @isko (8000=34) into @trei.
recode @isko (8100=36) into @trei.
recode @isko (8110=31) into @trei.
recode @isko (8111=34) into @trei.
recode @isko (8112=32) into @trei.
recode @isko (8113=31) into @trei.
recode @isko (8120=40) into @trei.
recode @isko (8121=45) into @trei.
recode @isko (8122=36) into @trei.
recode @isko (8123=38) into @trei.
recode @isko (8124=28) into @trei.
recode @isko (8130=31) into @trei.
recode @isko (8131=31) into @trei.
recode @isko (8139=31) into @trei.
recode @isko (8140=28) into @trei.
recode @isko (8141=29) into @trei.
recode @isko (8142=28) into @trei.
recode @isko (8143=28) into @trei.
recode @isko (8150=42) into @trei.
recode @isko (8151=43) into @trei.
recode @isko (8152=43) into @trei.
recode @isko (8153=43) into @trei.
recode @isko (8154=43) into @trei.
recode @isko (8155=37) into @trei.
recode @isko (8159=43) into @trei.
recode @isko (8160=38) into @trei.
recode @isko (8161=42) into @trei.
recode @isko (8162=35) into @trei.
recode @isko (8163=34) into @trei.
recode @isko (8170=30) into @trei.
recode @isko (8171=30) into @trei.
recode @isko (8172=30) into @trei.
recode @isko (8200=34) into @trei.
recode @isko (8210=37) into @trei.
recode @isko (8211=38) into @trei.
recode @isko (8212=30) into @trei.
recode @isko (8220=43) into @trei.
recode @isko (8221=43) into @trei.
recode @isko (8222=43) into @trei.
recode @isko (8223=28) into @trei.
recode @isko (8224=43) into @trei.
recode @isko (8229=43) into @trei.
recode @isko (8230=30) into @trei.
recode @isko (8231=30) into @trei.
recode @isko (8232=30) into @trei.
recode @isko (8233=30) into @trei.
recode @isko (8240=31) into @trei.
recode @isko (8250=41) into @trei.
recode @isko (8251=41) into @trei.
recode @isko (8252=32) into @trei.
recode @isko (8253=28) into @trei.
recode @isko (8260=28) into @trei.
recode @isko (8261=29) into @trei.
recode @isko (8262=29) into @trei.
recode @isko (8263=25) into @trei.
recode @isko (8264=25) into @trei.
recode @isko (8265=26) into @trei.
recode @isko (8266=28) into @trei.
recode @isko (8269=26) into @trei.
recode @isko (8270=33) into @trei.
recode @isko (8271=31) into @trei.
recode @isko (8272=34) into @trei.
recode @isko (8273=33) into @trei.
recode @isko (8274=33) into @trei.
recode @isko (8275=35) into @trei.
recode @isko (8276=45) into @trei.
recode @isko (8277=34) into @trei.
recode @isko (8278=34) into @trei.
recode @isko (8279=39) into @trei.
recode @isko (8280=33) into @trei.
recode @isko (8281=30) into @trei.
recode @isko (8282=48) into @trei.
recode @isko (8283=48) into @trei.
recode @isko (8284=30) into @trei.
recode @isko (8285=31) into @trei.
recode @isko (8286=28) into @trei.
recode @isko (8287=48) into @trei.
recode @isko (8290=33) into @trei.
recode @isko (8300=33) into @trei.
recode @isko (8310=36) into @trei.
recode @isko (8311=43) into @trei.
recode @isko (8312=29) into @trei.
recode @isko (8320=32) into @trei.
recode @isko (8321=31) into @trei.
recode @isko (8322=31) into @trei.
recode @isko (8323=32) into @trei.
recode @isko (8324=33) into @trei.
recode @isko (8330=32) into @trei.
recode @isko (8331=31) into @trei.
recode @isko (8332=32) into @trei.
recode @isko (8333=33) into @trei.
recode @isko (8334=28) into @trei.
recode @isko (8340=29) into @trei.
recode @isko (8400=33) into @trei.
recode @isko (9000=21) into @trei.
recode @isko (9100=23) into @trei.
recode @isko (9110=25) into @trei.
recode @isko (9111=24) into @trei.
recode @isko (9112=24) into @trei.
recode @isko (9113=26) into @trei.
recode @isko (9120=12) into @trei.
recode @isko (9122=12) into @trei.
recode @isko (9130=21) into @trei.
recode @isko (9131=22) into @trei.
recode @isko (9132=21) into @trei.
recode @isko (9133=22) into @trei.
recode @isko (9140=23) into @trei.
recode @isko (9141=25) into @trei.
recode @isko (9142=19) into @trei.
recode @isko (9150=20) into @trei.
recode @isko (9151=22) into @trei.
recode @isko (9152=20) into @trei.
recode @isko (9153=21) into @trei.
recode @isko (9160=13) into @trei.
recode @isko (9161=13) into @trei.
recode @isko (9162=13) into @trei.
recode @isko (9200=23) into @trei.
recode @isko (9210=23) into @trei.
recode @isko (9211=23) into @trei.
recode @isko (9212=18) into @trei.
recode @isko (9213=23) into @trei.
recode @isko (9300=18) into @trei.
recode @isko (9310=16) into @trei.
recode @isko (9311=18) into @trei.
recode @isko (9312=15) into @trei.
recode @isko (9313=15) into @trei.
recode @isko (9320=19) into @trei.
recode @isko (9321=18) into @trei.
recode @isko (9322=22) into @trei.
recode @isko (9330=20) into @trei.
recode @isko (9331=17) into @trei.
recode @isko (9332=22) into @trei.
recode @isko (9333=20) into @trei.
var lab @trei 'Treiman Prestige scores'.
execute.

*____________________________________________________
INTERNATIONAL SOCIO ECONOMIC INDEX
------------
ISEI - INDEX
------------------------------------------------
-
PROGRAM BY GANZEBOOM
____________________________________________________
(http://www.fss.uu.nl/soc/hg/isko88/).
/*********************************************************************/
/* This program creates the ISEI based on ISCO88 */
/*********************************************************************/
/* Dear user, */
/* before run this program not forget to change the file location in the "import" or "get file" line */
/* the declaration of the ISCO88 variable at the "compute @isko" line */
/* in the following line you have to specify the data set's variable containing the ISCO88 4-digits information */
/* if you use the original ESS1E05_F1.POR data file: cancel the asterisk in front of line; modify the path and run this line */
/* remember: if you run this line do not run the following "GET FILE" line command */
* IMPORT FILE='C:\dati\Hakon\ESS1E05_F1.POR'.
/* if you use a SPSS system file ".SAV": modify the path and the file name and run this line */
*GET FILE='C:\dati\Hakon\ESS1E05_F1.sav'.
/* insert here the variable name containing the ISCO88 4-digits information of the occupation of the respondent: in ESS is iscoco.*/
***************************.
compute @isko = iscoco.
***************************.
recode @isko (1000=55) into @isei.
recode @isko (1100=70) into @isei.
recode @isko (1110=77) into @isei.
recode @isko (1120=77) into @isei.
recode @isko (1130=66) into @isei.
recode @isko (1140=58) into @isei.
recode @isko (1141=58) into @isei.
recode @isko (1142=58) into @isei.
recode @isko (1143=58) into @isei.
recode @isko (1200=68) into @isei.
recode @isko (1210=70) into @isei.
recode @isko (1220=67) into @isei.
recode @isko (1221=67) into @isei.
recode @isko (1222=67) into @isei.
recode @isko (1223=67) into @isei.
recode @isko (1224=59) into @isei.
recode @isko (1225=59) into @isei.
recode @isko (1226=59) into @isei.
recode @isko (1227=87) into @isei.
recode @isko (1228=59) into @isei.
recode @isko (1229=67) into @isei.
recode @isko (1230=61) into @isei.
recode @isko (1231=69) into @isei.
recode @isko (1232=69) into @isei.
recode @isko (1233=56) into @isei.
recode @isko (1234=69) into @isei.
recode @isko (1235=69) into @isei.
recode @isko (1236=69) into @isei.
recode @isko (1237=69) into @isei.
recode @isko (1239=69) into @isei.
recode @isko (1240=58) into @isei.
recode @isko (1250=64) into @isei.
recode @isko (1251=70) into @isei.
recode @isko (1252=60) into @isei.
recode @isko (1300=51) into @isei.
recode @isko (1310=51) into @isei.
recode @isko (1311=43) into @isei.
recode @isko (1312=56) into @isei.
recode @isko (1313=51) into @isei.
recode @isko (1314=49) into @isei.
recode @isko (1315=44) into @isei.
recode @isko (1316=51) into @isei.
recode @isko (1317=51) into @isei.
recode @isko (1318=51) into @isei.
recode @isko (1319=51) into @isei.
recode @isko (2000=70) into @isei.
recode @isko (2100=69) into @isei.
recode @isko (2110=74) into @isei.
recode @isko (2111=74) into @isei.
recode @isko (2112=74) into @isei.
recode @isko (2113=74) into @isei.
recode @isko (2114=74) into @isei.
recode @isko (2120=71) into @isei.
recode @isko (2121=71) into @isei.
recode @isko (2122=71) into @isei.
recode @isko (2130=71) into @isei.
recode @isko (2131=71) into @isei.
recode @isko (2132=71) into @isei.
recode @isko (2139=71) into @isei.
recode @isko (2140=73) into @isei.
recode @isko (2141=69) into @isei.
recode @isko (2142=69) into @isei.
recode @isko (2143=68) into @isei.
recode @isko (2144=68) into @isei.
recode @isko (2145=67) into @isei.
recode @isko (2146=71) into @isei.
recode @isko (2147=67) into @isei.
recode @isko (2148=56) into @isei.
recode @isko (2149=69) into @isei.
recode @isko (2200=80) into @isei.
recode @isko (2210=78) into @isei.
recode @isko (2211=77) into @isei.
recode @isko (2212=77) into @isei.
recode @isko (2213=79) into @isei.
recode @isko (2220=85) into @isei.
recode @isko (2221=88) into @isei.
recode @isko (2222=85) into @isei.
recode @isko (2223=83) into @isei.
recode @isko (2224=74) into @isei.
recode @isko (2229=85) into @isei.
recode @isko (2230=43) into @isei.
recode @isko (2300=69) into @isei.
recode @isko (2310=77) into @isei.
recode @isko (2320=69) into @isei.
recode @isko (2321=70) into @isei.
recode @isko (2322=66) into @isei.
recode @isko (2330=66) into @isei.
recode @isko (2331=66) into @isei.
recode @isko (2332=43) into @isei.
recode @isko (2340=66) into @isei.
recode @isko (2350=66) into @isei.
recode @isko (2351=70) into @isei.
recode @isko (2352=70) into @isei.
recode @isko (2359=65) into @isei.
recode @isko (2400=68) into @isei.
recode @isko (2410=69) into @isei.
recode @isko (2411=69) into @isei.
recode @isko (2412=69) into @isei.
recode @isko (2419=69) into @isei.
recode @isko (2420=85) into @isei.
recode @isko (2421=85) into @isei.
recode @isko (2422=90) into @isei.
recode @isko (2429=82) into @isei.
recode @isko (2430=65) into @isei.
recode @isko (2431=65) into @isei.
recode @isko (2432=65) into @isei.
recode @isko (2440=65) into @isei.
recode @isko (2441=78) into @isei.
recode @isko (2442=71) into @isei.
recode @isko (2443=71) into @isei.
recode @isko (2444=65) into @isei.
recode @isko (2445=71) into @isei.
recode @isko (2446=51) into @isei.
recode @isko (2450=61) into @isei.
recode @isko (2451=65) into @isei.
recode @isko (2452=54) into @isei.
recode @isko (2453=64) into @isei.
recode @isko (2454=64) into @isei.
recode @isko (2455=64) into @isei.
recode @isko (2460=53) into @isei.
recode @isko (2470=77) into @isei.
recode @isko (3000=54) into @isei.
recode @isko (3100=50) into @isei.
recode @isko (3110=49) into @isei.
recode @isko (3111=45) into @isei.
recode @isko (3112=45) into @isei.
recode @isko (3113=46) into @isei.
recode @isko (3114=46) into @isei.
recode @isko (3115=54) into @isei.
recode @isko (3116=54) into @isei.
recode @isko (3117=54) into @isei.
recode @isko (3118=51) into @isei.
recode @isko (3119=53) into @isei.
recode @isko (3120=52) into @isei.
recode @isko (3121=52) into @isei.
recode @isko (3122=52) into @isei.
recode @isko (3123=52) into @isei.
recode @isko (3130=52) into @isei.
recode @isko (3131=48) into @isei.
recode @isko (3132=57) into @isei.
recode @isko (3133=57) into @isei.
recode @isko (3139=52) into @isei.
recode @isko (3140=57) into @isei.
recode @isko (3141=52) into @isei.
recode @isko (3142=52) into @isei.
recode @isko (3143=69) into @isei.
recode @isko (3144=69) into @isei.
recode @isko (3145=50) into @isei.
recode @isko (3150=50) into @isei.
recode @isko (3151=50) into @isei.
recode @isko (3152=50) into @isei.
recode @isko (3200=48) into @isei.
recode @isko (3210=50) into @isei.
recode @isko (3211=50) into @isei.
recode @isko (3212=50) into @isei.
recode @isko (3213=50) into @isei.
recode @isko (3220=55) into @isei.
recode @isko (3221=51) into @isei.
recode @isko (3222=51) into @isei.
recode @isko (3223=51) into @isei.
recode @isko (3224=60) into @isei.
recode @isko (3225=51) into @isei.
recode @isko (3226=60) into @isei.
recode @isko (3227=51) into @isei.
recode @isko (3228=51) into @isei.
recode @isko (3229=51) into @isei.
recode @isko (3230=38) into @isei.
recode @isko (3231=38) into @isei.
recode @isko (3232=38) into @isei.
recode @isko (3240=49) into @isei.
recode @isko (3241=51) into @isei.
recode @isko (3242=38) into @isei.
recode @isko (3300=38) into @isei.
recode @isko (3310=38) into @isei.
recode @isko (3320=38) into @isei.
recode @isko (3330=38) into @isei.
recode @isko (3340=38) into @isei.
recode @isko (3400=55) into @isei.
recode @isko (3410=55) into @isei.
recode @isko (3411=61) into @isei.
recode @isko (3412=54) into @isei.
recode @isko (3413=59) into @isei.
recode @isko (3414=56) into @isei.
recode @isko (3415=56) into @isei.
recode @isko (3416=50) into @isei.
recode @isko (3417=56) into @isei.
recode @isko (3419=55) into @isei.
recode @isko (3420=55) into @isei.
recode @isko (3421=55) into @isei.
recode @isko (3422=55) into @isei.
recode @isko (3423=55) into @isei.
recode @isko (3429=55) into @isei.
recode @isko (3430=54) into @isei.
recode @isko (3431=54) into @isei.
recode @isko (3432=59) into @isei.
recode @isko (3433=51) into @isei.
recode @isko (3434=61) into @isei.
recode @isko (3439=54) into @isei.
recode @isko (3440=56) into @isei.
recode @isko (3441=56) into @isei.
recode @isko (3442=57) into @isei.
recode @isko (3443=56) into @isei.
recode @isko (3444=46) into @isei.
recode @isko (3449=56) into @isei.
recode @isko (3450=56) into @isei.
recode @isko (3451=55) into @isei.
recode @isko (3452=56) into @isei.
recode @isko (3460=43) into @isei.
recode @isko (3470=52) into @isei.
recode @isko (3471=53) into @isei.
recode @isko (3472=64) into @isei.
recode @isko (3473=50) into @isei.
recode @isko (3474=50) into @isei.
recode @isko (3475=54) into @isei.
recode @isko (3480=38) into @isei.
recode @isko (4000=45) into @isei.
recode @isko (4100=45) into @isei.
recode @isko (4110=51) into @isei.
recode @isko (4111=51) into @isei.
recode @isko (4112=50) into @isei.
recode @isko (4113=50) into @isei.
recode @isko (4114=51) into @isei.
recode @isko (4115=53) into @isei.
recode @isko (4120=51) into @isei.
recode @isko (4121=51) into @isei.
recode @isko (4122=51) into @isei.
recode @isko (4130=36) into @isei.
recode @isko (4131=32) into @isei.
recode @isko (4132=43) into @isei.
recode @isko (4133=45) into @isei.
recode @isko (4140=39) into @isei.
recode @isko (4141=39) into @isei.
recode @isko (4142=39) into @isei.
recode @isko (4143=39) into @isei.
recode @isko (4144=39) into @isei.
recode @isko (4190=39) into @isei.
recode @isko (4200=49) into @isei.
recode @isko (4210=48) into @isei.
recode @isko (4211=53) into @isei.
recode @isko (4212=46) into @isei.
recode @isko (4213=40) into @isei.
recode @isko (4214=40) into @isei.
recode @isko (4215=40) into @isei.
recode @isko (4220=52) into @isei.
recode @isko (4221=52) into @isei.
recode @isko (4222=52) into @isei.
recode @isko (4223=52) into @isei.
recode @isko (5000=40) into @isei.
recode @isko (5100=38) into @isei.
recode @isko (5110=34) into @isei.
recode @isko (5111=34) into @isei.
recode @isko (5112=34) into @isei.
recode @isko (5113=34) into @isei.
recode @isko (5120=32) into @isei.
recode @isko (5121=30) into @isei.
recode @isko (5122=30) into @isei.
recode @isko (5123=34) into @isei.
recode @isko (5130=25) into @isei.
recode @isko (5131=25) into @isei.
recode @isko (5132=25) into @isei.
recode @isko (5133=25) into @isei.
recode @isko (5139=25) into @isei.
recode @isko (5140=30) into @isei.
recode @isko (5141=29) into @isei.
recode @isko (5142=19) into @isei.
recode @isko (5143=54) into @isei.
recode @isko (5149=19) into @isei.
recode @isko (5150=43) into @isei.
recode @isko (5151=43) into @isei.
recode @isko (5152=43) into @isei.
recode @isko (5160=47) into @isei.
recode @isko (5161=42) into @isei.
recode @isko (5162=50) into @isei.
recode @isko (5163=40) into @isei.
recode @isko (5164=40) into @isei.
recode @isko (5169=40) into @isei.
recode @isko (5200=43) into @isei.
recode @isko (5210=43) into @isei.
recode @isko (5220=43) into @isei.
recode @isko (5230=37) into @isei.
recode @isko (6000=23) into @isei.
recode @isko (6100=23) into @isei.
recode @isko (6110=23) into @isei.
recode @isko (6111=23) into @isei.
recode @isko (6112=23) into @isei.
recode @isko (6113=23) into @isei.
recode @isko (6114=23) into @isei.
recode @isko (6120=23) into @isei.
recode @isko (6121=23) into @isei.
recode @isko (6122=23) into @isei.
recode @isko (6123=23) into @isei.
recode @isko (6124=23) into @isei.
recode @isko (6129=23) into @isei.
recode @isko (6130=23) into @isei.
recode @isko (6131=23) into @isei.
recode @isko (6132=27) into @isei.
recode @isko (6133=28) into @isei.
recode @isko (6134=28) into @isei.
recode @isko (6140=22) into @isei.
recode @isko (6141=22) into @isei.
recode @isko (6142=22) into @isei.
recode @isko (6150=28) into @isei.
recode @isko (6151=28) into @isei.
recode @isko (6152=28) into @isei.
recode @isko (6153=28) into @isei.
recode @isko (6154=28) into @isei.
recode @isko (6200=16) into @isei.
recode @isko (6210=16) into @isei.
recode @isko (7000=34) into @isei.
recode @isko (7100=31) into @isei.
recode @isko (7110=30) into @isei.
recode @isko (7111=30) into @isei.
recode @isko (7112=30) into @isei.
recode @isko (7113=27) into @isei.
recode @isko (7120=30) into @isei.
recode @isko (7121=29) into @isei.
recode @isko (7122=29) into @isei.
recode @isko (7123=26) into @isei.
recode @isko (7124=29) into @isei.
recode @isko (7129=30) into @isei.
recode @isko (7130=34) into @isei.
recode @isko (7131=19) into @isei.
recode @isko (7132=30) into @isei.
recode @isko (7133=31) into @isei.
recode @isko (7134=34) into @isei.
recode @isko (7135=26) into @isei.
recode @isko (7136=33) into @isei.
recode @isko (7137=37) into @isei.
recode @isko (7139=31) into @isei.
recode @isko (7140=29) into @isei.
recode @isko (7141=29) into @isei.
recode @isko (7142=32) into @isei.
recode @isko (7143=29) into @isei.
recode @isko (7200=34) into @isei.
recode @isko (7210=31) into @isei.
recode @isko (7211=29) into @isei.
recode @isko (7212=30) into @isei.
recode @isko (7213=33) into @isei.
recode @isko (7214=30) into @isei.
recode @isko (7215=30) into @isei.
recode @isko (7216=30) into @isei.
recode @isko (7220=35) into @isei.
recode @isko (7221=33) into @isei.
recode @isko (7222=40) into @isei.
recode @isko (7223=34) into @isei.
recode @isko (7224=24) into @isei.
recode @isko (7230=34) into @isei.
recode @isko (7231=34) into @isei.
recode @isko (7232=42) into @isei.
recode @isko (7233=33) into @isei.
recode @isko (7234=23) into @isei.
recode @isko (7240=40) into @isei.
recode @isko (7241=40) into @isei.
recode @isko (7242=39) into @isei.
recode @isko (7243=41) into @isei.
recode @isko (7244=40) into @isei.
recode @isko (7245=38) into @isei.
recode @isko (7300=34) into @isei.
recode @isko (7310=38) into @isei.
recode @isko (7311=38) into @isei.
recode @isko (7312=38) into @isei.
recode @isko (7313=38) into @isei.
recode @isko (7320=28) into @isei.
recode @isko (7321=27) into @isei.
recode @isko (7322=29) into @isei.
recode @isko (7323=29) into @isei.
recode @isko (7324=29) into @isei.
recode @isko (7330=29) into @isei.
recode @isko (7331=29) into @isei.
recode @isko (7332=29) into @isei.
recode @isko (7340=40) into @isei.
recode @isko (7341=40) into @isei.
recode @isko (7342=40) into @isei.
recode @isko (7343=42) into @isei.
recode @isko (7344=40) into @isei.
recode @isko (7345=37) into @isei.
recode @isko (7346=38) into @isei.
recode @isko (7400=33) into @isei.
recode @isko (7410=30) into @isei.
recode @isko (7411=30) into @isei.
recode @isko (7412=31) into @isei.
recode @isko (7413=30) into @isei.
recode @isko (7414=30) into @isei.
recode @isko (7415=30) into @isei.
recode @isko (7416=30) into @isei.
recode @isko (7420=33) into @isei.
recode @isko (7421=33) into @isei.
recode @isko (7422=33) into @isei.
recode @isko (7423=33) into @isei.
recode @isko (7424=33) into @isei.
recode @isko (7430=36) into @isei.
recode @isko (7431=29) into @isei.
recode @isko (7432=29) into @isei.
recode @isko (7433=45) into @isei.
recode @isko (7434=36) into @isei.
recode @isko (7435=36) into @isei.
recode @isko (7436=33) into @isei.
recode @isko (7437=28) into @isei.
recode @isko (7440=31) into @isei.
recode @isko (7441=31) into @isei.
recode @isko (7442=31) into @isei.
recode @isko (7500=42) into @isei.
recode @isko (7510=42) into @isei.
recode @isko (7520=39) into @isei.
recode @isko (7530=26) into @isei.
recode @isko (8000=31) into @isei.
recode @isko (8100=30) into @isei.
recode @isko (8110=35) into @isei.
recode @isko (8111=35) into @isei.
recode @isko (8112=35) into @isei.
recode @isko (8113=35) into @isei.
recode @isko (8120=30) into @isei.
recode @isko (8121=31) into @isei.
recode @isko (8122=30) into @isei.
recode @isko (8123=28) into @isei.
recode @isko (8124=30) into @isei.
recode @isko (8130=22) into @isei.
recode @isko (8131=22) into @isei.
recode @isko (8139=22) into @isei.
recode @isko (8140=27) into @isei.
recode @isko (8141=27) into @isei.
recode @isko (8142=27) into @isei.
recode @isko (8143=27) into @isei.
recode @isko (8150=35) into @isei.
recode @isko (8151=35) into @isei.
recode @isko (8152=35) into @isei.
recode @isko (8153=35) into @isei.
recode @isko (8154=35) into @isei.
recode @isko (8155=35) into @isei.
recode @isko (8159=35) into @isei.
recode @isko (8160=32) into @isei.
recode @isko (8161=33) into @isei.
recode @isko (8162=27) into @isei.
recode @isko (8163=33) into @isei.
recode @isko (8170=26) into @isei.
recode @isko (8171=26) into @isei.
recode @isko (8172=26) into @isei.
recode @isko (8200=32) into @isei.
recode @isko (8210=36) into @isei.
recode @isko (8211=36) into @isei.
recode @isko (8212=30) into @isei.
recode @isko (8220=30) into @isei.
recode @isko (8221=30) into @isei.
recode @isko (8222=30) into @isei.
recode @isko (8223=30) into @isei.
recode @isko (8224=30) into @isei.
recode @isko (8229=30) into @isei.
recode @isko (8230=30) into @isei.
recode @isko (8231=30) into @isei.
recode @isko (8232=30) into @isei.
recode @isko (8233=30) into @isei.
recode @isko (8240=29) into @isei.
recode @isko (8250=38) into @isei.
recode @isko (8251=38) into @isei.
recode @isko (8252=38) into @isei.
recode @isko (8253=38) into @isei.
recode @isko (8260=30) into @isei.
recode @isko (8261=29) into @isei.
recode @isko (8262=29) into @isei.
recode @isko (8263=32) into @isei.
recode @isko (8264=24) into @isei.
recode @isko (8265=32) into @isei.
recode @isko (8266=32) into @isei.
recode @isko (8269=32) into @isei.
recode @isko (8270=29) into @isei.
recode @isko (8271=29) into @isei.
recode @isko (8272=29) into @isei.
recode @isko (8273=29) into @isei.
recode @isko (8274=29) into @isei.
recode @isko (8275=29) into @isei.
recode @isko (8276=29) into @isei.
recode @isko (8277=29) into @isei.
recode @isko (8278=29) into @isei.
recode @isko (8279=29) into @isei.
recode @isko (8280=31) into @isei.
recode @isko (8281=30) into @isei.
recode @isko (8282=34) into @isei.
recode @isko (8283=34) into @isei.
recode @isko (8284=30) into @isei.
recode @isko (8285=30) into @isei.
recode @isko (8286=30) into @isei.
recode @isko (8287=34) into @isei.
recode @isko (8290=26) into @isei.
recode @isko (8300=32) into @isei.
recode @isko (8310=36) into @isei.
recode @isko (8311=41) into @isei.
recode @isko (8312=32) into @isei.
recode @isko (8320=34) into @isei.
recode @isko (8321=30) into @isei.
recode @isko (8322=30) into @isei.
recode @isko (8323=30) into @isei.
recode @isko (8324=34) into @isei.
recode @isko (8330=26) into @isei.
recode @isko (8331=26) into @isei.
recode @isko (8332=26) into @isei.
recode @isko (8333=28) into @isei.
recode @isko (8334=28) into @isei.
recode @isko (8340=32) into @isei.
recode @isko (8400=24) into @isei.
recode @isko (9000=20) into @isei.
recode @isko (9100=25) into @isei.
recode @isko (9110=29) into @isei.
recode @isko (9111=29) into @isei.
recode @isko (9112=28) into @isei.
recode @isko (9113=29) into @isei.
recode @isko (9120=28) into @isei.
recode @isko (9122=28) into @isei.
recode @isko (9130=16) into @isei.
recode @isko (9131=16) into @isei.
recode @isko (9132=16) into @isei.
recode @isko (9133=16) into @isei.
recode @isko (9140=23) into @isei.
recode @isko (9141=23) into @isei.
recode @isko (9142=23) into @isei.
recode @isko (9150=27) into @isei.
recode @isko (9151=25) into @isei.
recode @isko (9152=27) into @isei.
recode @isko (9153=27) into @isei.
recode @isko (9160=23) into @isei.
recode @isko (9161=23) into @isei.
recode @isko (9162=23) into @isei.
recode @isko (9200=16) into @isei.
recode @isko (9210=16) into @isei.
recode @isko (9211=16) into @isei.
recode @isko (9212=16) into @isei.
recode @isko (9213=16) into @isei.
recode @isko (9300=23) into @isei.
recode @isko (9310=21) into @isei.
recode @isko (9311=21) into @isei.
recode @isko (9312=21) into @isei.
recode @isko (9313=21) into @isei.
recode @isko (9320=20) into @isei.
recode @isko (9321=20) into @isei.
recode @isko (9322=24) into @isei.
recode @isko (9330=29) into @isei.
recode @isko (9331=22) into @isei.
recode @isko (9332=22) into @isei.
recode @isko (9333=30) into @isei.
var lab @isei 'ISEI scores'.
Execute.




****constructing version 4 of ESEC Classes from 3 digit ISCO***
***Using ESS dataset here, but these procedures can be applied to any data. **
**All variable names and values refer to ESS round 1**

***LAST REVISION 27 SEPTEMBER 2006***

**Stage 1 - derive employment status categories***
***need to know whether employed (1) or self-employed (2). Family workers (3) here treated as employees. Variable name in ESS is emplrel**
***Self-employed are split three ways. First take the continuous variable for how many employees people have (in ESS 'emplno') and collapse into categorical variable as below***

recode emplno (0=0) (1 thru 9=1) (10 thru 6000=2) (77777 thru 99999=9) (else=sysmis) into empnum.
execute.
fre var = empnum.

**now combine basic employment situation (*emplrel*) with supervision variable also to give five statuses**
**In ESS this question is called jbspv (yes=1, no=2)**

if (emplrel=2 and empnum=2) @empstat=1.
if (emplrel=2 and empnum=1) @empstat=2.
if (emplrel=2 and empnum=0 or emplrel=2 and empnum=9) @empstat=3.
if (emplrel=1 and jbspv=1 or emplrel=3 and jbspv=1) @empstat=4.
if (emplrel = 1 & jbspv >= 2 | emplrel = 3 & jbspv >= 2) @empstat = 5 .
execute.

var labs @empstat 'ESeC employment status variable'.

val labs @empstat
1 'Self-employed 10+ employees'
2 'Self-employed <10 employees'
3 ' Self-employed no employees'
4 'Supervisors'
5 'Employees'.

fre var=@empstat.


**Stage 2 - creation of 'euroesec' (international comparative version of ESeC based on ISCO minor groups)**

***Missing ISCO data (66666 to 99999) copied across, in preparation for household class***

***blocks of syntax for each employment status variable***
**Each ends with frequency check for errors***

**self-employed 10+ employees. Defaults to 1 unless otherwise in matrix**

do if (@empstat=1).
recode isco8803
(344, 345 =2)
(110, 516=3)
(621=5) (66666=66666) (77777=77777) (88888=88888) (99999=99999)
(else=1)
into euroesec.
end if.
execute.



**Small employers <10. Defaults to 4 unless otherwise in matrix**

do if (@empstat=2).
recode isco8803
(100, 110, 111, 114, 200, 210, 211, 212, 213, 214, 220, 221, 222, 231, 235, 240, 241, 242=1)
(223, 230, 232, 233, 234, 243, 244, 245, 246, 247, 310, 311, 312, 314, 320, 321, 322, 323, 334, 342, 344, 345, 348=2)
(011, 516=3)
(600, 610, 611, 612, 613, 614, 615, 621, 920, 921=5) 
(66666=66666) (77777=77777) (88888=88888) (99999=99999)
(else=4) into euroesec.
end if. 
execute.


**Self-employed with no employees. Defaults to 4 unless otherwise in matrix**

do if (@empstat=3).
recode isco8803
(100, 110, 111, 114, 200, 210, 211, 212, 213, 214, 220, 221, 222, 231, 235, 240, 241, 242=1)
(223, 230, 232, 233, 234, 243, 244, 245, 246, 247, 310, 311, 312, 314, 320, 321, 322, 323, 334, 342, 344, 345, 348=2)
(011,516=3)
(600, 610, 611, 612, 613, 614, 615, 621, 920, 921=5) 
(66666=66666) (77777=77777) (88888=88888) (99999=99999)
(else=4) into euroesec.
end if.
execute.


***'Supervisors'***

do if (@empstat=4).
recode isco8803 
(100, 100, 110, 111, 114, 120, 121, 123, 200, 210, 211, 212, 213, 214, 220, 221, 222, 231, 235, 240, 241, 242=1)
(011, 122, 130,131, 223, 230, 232, 233, 234, 243, 244, 245, 246, 247, 300, 310, 311, 312, 313, 314, 320, 321, 322, 323, 330, 331, 332, 333, 334, 340, 
341, 342, 343, 344, 345, 346, 347, 348, 400, 410, 411, 412, 419, 420, 521=2)
(621=5)
(66666=66666) (77777=77777) (88888=88888) (99999=99999)
(else=6) into euroesec.
end if. 
execute.


**Employees**

do if (@empstat=5).
recode isco8803 
(100, 100,110,111,114,120, 121, 123, 200, 210, 211, 212, 213, 214, 220, 221, 222, 231, 235, 240, 241, 242=1)
(122,130,131, 223, 230, 232, 233, 234, 243, 244, 245, 246, 247, 310, 311, 312, 314, 320, 321, 322, 323, 334, 
342, 344, 345, 348, 521=2)
(011, 300, 330, 331, 332, 333, 340, 341, 343, 346, 347, 400, 410, 411, 412, 419, 420=3)
(621=5)
(313, 315, 730,731=6)
(413, 421, 422, 500, 510, 511, 513, 514, 516, 520, 522, 911=7)
(600, 610, 611, 612, 613, 614, 615, 700, 710, 711, 712, 713, 714, 720, 721, 722, 723, 724, 732, 733, 734, 740, 741, 742, 743, 744, 
825, 831, 834=8)
(414, 512, 800, 810, 811,  812, 813, 814, 815, 816, 817, 820, 821, 822, 823, 824, 826, 827, 828, 829, 830, 832, 833,
900, 910, 912, 913, 914, 915, 916, 920, 921, 930, 931, 932, 933=9)
(66666=66666) (77777=77777) (88888=88888) (99999=99999)
into euroesec.
end if.
execute.


**Final block to sweep up missing employment statuses. **
**Allocations here on the basis of modal ESS employment status (so-called 'simplified class')**

do if (sysmis(@empstat)).
recode isco8803 
(100, 100,110,111,114, 120,121,123, 200, 210, 211, 212, 213, 214, 220, 221, 222, 231, 235, 240, 241, 242=1)
(122, 223, 230, 232, 233, 234, 243, 244, 245, 246, 247, 310, 311,312, 314, 320, 321, 322, 323, 334, 342, 344, 345, 348, 521=2)
(011,300, 330, 331, 332, 333, 340, 341, 343, 346, 347, 400, 410, 411, 412, 419, 420=3)
(130, 131, 911=4)
(600, 610, 611, 612, 613, 621=5)
(313, 315, 730,731=6)
(413, 421, 422, 500, 510, 511, 513, 514, 516, 520, 522=7)
(614, 615, 700, 710, 711, 712, 713, 714, 720, 721, 722, 723, 724, 732, 733, 734, 740, 741, 742, 743, 744, 825, 831, 834=8)
(414, 512, 800, 810, 811, 811, 812, 813, 814, 815, 816, 817, 820, 821, 822, 823, 824, 826, 827, 828, 829, 830, 832, 833,
900, 910, 912, 913, 914, 915, 916, 920, 921, 930, 931, 932, 933=9) 
(66666=66666) (77777=77777) (88888=88888) (99999=99999)
into euroesec.
end if.
execute.



var labs euroesec 'European ESeC'.

val labs euroesec
1 'Large employers, higher mgrs/professionals'
2 'Lower mgrs/professionals, higher supervisory/technicians'
3 'Intermediate occupations'
4 'Small employers and self-employed (non-agriculture)'
5 'Small employers and self-employed (agriculture)'
6 'Lower supervisors and technicians'
7 'Lower sales and service '
8 'Lower technical'
9 'Routine'
66666 'Not applicable'
77777 'Refusal'
88888 'DK'
99999 'No answer'.

fre var=euroesec.

recode euroesec (1=1)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_1.
Var labels euroesec_1 'Large employers, higher mgrs/professionals'.
recode euroesec (1=0)(2=1)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_2.
Var labels euroesec_2 'Lower mgrs/professionals, higher supervisory/technicians'.
recode euroesec (1=0)(2=0)(3=1)(4=0)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_3.
Var labels euroesec_3 'Intermediate occupations'.
recode euroesec (1=0)(2=0)(3=0)(4=1)(5=0)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_4.
Var labels euroesec_4 'Small employers and self-employed (non-agriculture)'.
recode euroesec (1=0)(2=0)(3=0)(4=0)(5=1)(6=0)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_5.
Var labels euroesec_5 'Small employers and self-employed (agriculture)'.
recode euroesec (1=0)(2=0)(3=0)(4=0)(5=0)(6=1)(7=0)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_6.
Var labels euroesec_6 'Lower supervisors and technicians'.
recode euroesec (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=1)(8=0)(9=0)(10=0)(11=0)(else = copy) into  euroesec_7.
Var labels euroesec_7 'Lower sales and service '.
recode euroesec (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=1)(9=0)(10=0)(11=0)(else = copy) into  euroesec_8.
Var labels euroesec_8 'Lower technical'.
recode euroesec (1=0)(2=0)(3=0)(4=0)(5=0)(6=0)(7=0)(8=0)(9=1)(10=0)(11=0)(else = copy) into  euroesec_9.
Var labels euroesec_9 'Routine'.
***************Non-ESS users end here**************************

***If using ESS round 1, I do the following***
***Final adjustment for incomplete data in Norwegian sample***
*** self-employed have no isco codes, so reallocate between classes 1 and 4 according to est size**

USE ALL.
COMPUTE filter_$=(cntry = 'NO' ).
VARIABLE LABEL filter_$ "cntry = 'NO' (FILTER)".
VALUE LABELS filter_$  0 'Not Selected' 1 'Selected'.
FORMAT filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE .

do if (@empstat=1).
recode euroesec (77777 thru 99999=1).
end if. 
execute.
fre var=euroesec.

do if (@empstat= 2 or @empstat=3).
recode euroesec (77777 thru 99999=4).
end if.
execute.
fre var=euroesec.

FILTER OFF.
USE ALL.
EXECUTE .

fre var= euroesec.

USE ALL.
COMPUTE filter_$=(euroesec<66666).
VARIABLE LABEL filter_$ "euroesec<66666 (FILTER)".
VALUE LABELS filter_$  0 'Not Selected' 1 'Selected'.
FORMAT filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE .

fre var= euroesec.

*****Syntax ends*****.





recode agea (18 thru 29 = 1)(30 thru highest = 0) into age_20.
recode agea (18 thru 29 = 0)(30 thru 39 = 1)(40 thru highest = 0) into age_30.
recode agea (18 thru 39 = 0)(40 thru 49 = 1)(50 thru highest = 0) into age_40.
recode agea (18 thru 49 = 0)(50 thru 59 = 1)(60 thru highest = 0) into age_50.
recode agea (18 thru 59 = 0)(60 thru  highest = 1) into age_60.

recode gndr (1=1)(2=0) into male.
compute edulvla = eisced.
recode edulvla (0=55).
missing value edulvla (50 thru 99999).
freq edulvla.

USE ALL.
COMPUTE filter_$=(cntry = 'SI'  ).
VARIABLE LABELS filter_$ "cntry = 'SI'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvtsi.
RECODE prtvtsi (1=8) (2=2) (3=3) (4=8) (5=5)(6=6)(7=1)(8=8) (9=8)(66=9)(else =copy) INTO party_si.
*2004
RECODE prtvtasi (1=1) (2=2) (3=3) (4=4) (5=6)(6=6)(7=7)(8=8) (66=9)(else =copy) INTO party_si.
*2008
RECODE prtvtcsi (1=1) (2=6) (3=6) (4=6) (5=2)(6=6)(7=4)(8=3)(9=5)(10=6) (66=9)(else =copy) INTO party_si.
EXECUTE.
missing value party_si (67 thru 99).

*val labels party_si
1 'Desus'
2 'SDS'
3 'SD'
4 'SNS'
5 'ZARES'
6 'others'
9 'nonvoters'.

val labels party_si
1 'ZLSD'
2 'LDS'
3 'SLS'
4 'SNS'
5 'SDS'
6 'Nsi'
8 'others'
9 'nonvoters'.

freq party_si.

*RECODE prtvtasi (1=5) (2=1) (3=1) (4=5) (5=5) (6=5)(7=4)(8=6)(66=9)(else =copy) into party_cat_sl.
*missing value party_cat_sl (67 thru 99).



NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING)  WITH 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

DATASET ACTIVATE DataSet17.
NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING)  WITH 
   @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING)  WITH 
   wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING)  WITH 
   @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING)  WITH 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_si (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) WITH @trei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @trei
     /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING)   WITH @isei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) WITH @isei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_si (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cat_sl (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @isei 
     /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


USE ALL.
COMPUTE filter_$=(cntry = 'AT'  ).
VARIABLE LABELS filter_$ "cntry = 'AT'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvtat.
RECODE prtvtat(1=1) (2=2) (3=3) (4=4) (5=9)(6=9)(7=9) (66=9)(else =copy) INTO party_at.
*RECODE prtvtaat (1=1) (2=2) (3=3) (4=3) (5=5)(6=6)(7=6)(8=6) (66=9)(else =copy) INTO party_at.
EXECUTE.
missing value party_at (67 thru 99).

*val labels party_at
1 'SPÖ'
2 'ÖVP'
3 'FPÖ a BZOI'
5 'G'
6 'others'
9 'nonvoters'.

val labels party_at
1 'SPÖ'
2 'ÖVP'
3 'FPÖ a BZOI'
4 'G'
6 'others'
9 'nonvoters'.

freq party_at.

NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_at (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_at (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

USE ALL.
COMPUTE filter_$=(intewde = 1  ).
VARIABLE LABELS filter_$ "intewde = '1 (east)'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvde2.

RECODE prtvde2 (1=1) (2=2) (3=3) (4=4) (5=5)(6=9)(7=9)(8=9) (66=9)(else =copy) INTO party_de.
EXECUTE.
missing value party_de(67 thru 99).

val labels party_de
1 'SPD'
2 'CDU'
3 'G'
4 'FDP'
5 'PDS'
6 'others'
9 'nonvoters'.

freq party_de.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

USE ALL.
COMPUTE filter_$=(intewde = 2  ).
VARIABLE LABELS filter_$ "intewde = '2 (west)'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvcde2.

RECODE prtvde2 (1=1) (2=2) (3=3) (4=4) (5=5)(6=9)(7=9)(8=9) (66=9)(else =copy) INTO party_de.
EXECUTE.
missing value party_de(67 thru 99).

val labels party_de
1 'SPD'
2 'CDU'
3 'G'
4 'FDP'
5 'PDS'
6 'others'
9 'nonvoters'.

freq party_de.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_de (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_de (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


USE ALL.
COMPUTE filter_$=(cntry = 'HU'  ).
VARIABLE LABELS filter_$ "cntry = 'HU'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvthu.
RECODE prtvthu (1=6) (2=2) (4=6) (3=6) (5 =1)(6=6)(7=3)(8 =6 )(66=9)(else =copy) INTO party_hu.

*RECODE prtvtchu (1=1) (2=1) (3=3) (4=6) (5=6)(6=6)(7=6)(8=3) (66=9)(else =copy) INTO party_hu.
*RECODE prtvtchu (1=2) (2=2) (4=1) (3=6) (5 thru 10 =6)(11=3)(12=6)(13=4)(14 thru 20 =6 )(66=9)(else =copy) INTO party_hu.
EXECUTE.
missing value party_hu (6, 67 thru 99).

val labels party_hu
1 'MSZP'
2 'FIDESZ a MDF'
3 'SZDSZ'
6 'others'
9 'nonvoters'.

*val labels party_hu
1 'FIDESZ a MDF'
3 'MSZP'
4 'SZDSZ'
6 'others'
9 'nonvoters'.

*val labels party_hu
1 'MSZP'
2 'FIDESZ a MDF'
3 'Jobbik'
4 'LMP'
6 'others'
9 'nonvoters'.

freq party_hu.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_hu (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_hu (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

USE ALL.
COMPUTE filter_$=(cntry = 'PL'  ).
VARIABLE LABELS filter_$ "cntry = 'PL'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvtpl.
RECODE prtvtpl (1  =1) (2=5) (3=5) (4=6) (5=2)(6=4)(7=3)(8=9)(9=6)(10=9)(11=9) (13=9)(66=9)(else =copy) INTO party_pl.
*2006
RECODE prtvtapl (1 thru 8 =6) (9=1) (10  thru 13=6) (14=2) (15=6)(16=4)(17=6)(18=3)(19=6) (66=9)(else =copy) INTO party_pl.
*RECODE prtvtbpl (1  =3) (2=6) (3=1) (4=6) (5=4)(6=2)(7=6)(8=6) (66=9)(else =copy) INTO party_pl.
EXECUTE.
missing value party_pl (67 thru 99).

val labels party_pl
1 'SLD'
2 'PiS'
3 'PO'
4 'PSL'
5 'AWS, UW'
6 'Samoobrona, LPR'
9 'nonvoters'.

*val labels party_pl
1 'PO'
2 'PiS'
3 'SLD'
4 'PSL'
6 'others'
9 'nonvoters'.

freq party_pl.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_pl (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_pl (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


USE ALL.
COMPUTE filter_$=(cntry = 'SK'  ).
VARIABLE LABELS filter_$ "cntry = 'SK'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvtsk.

*RECODE prtvtask (1 =1) (2=2) (3=3) (4=4) (5=5)(6=6)(7=9)(66=9)(else =copy) INTO party_sk.
RECODE prtvtbsk (1 =6) (2=2) (3=1) (4=4) (5=5)(6=3)(7=6)(66=9)(else =copy) INTO party_sk.
EXECUTE.
missing value party_sk (67 thru 99).

*val labels party_sk
1 'HZDS'
2 'SDKU'
3 'SMER'
4 'SMK'
5 'KDH'
6 'SNS'
9 'nonvoters'.

val labels party_sk
1 'SMER'
2 'SDKU'
3 'SaS'
4 'SMK'
5 'KDH'
6 'others'
9 'nonvoters'.
freq party_sk.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_sk (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_sk (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


USE ALL.
COMPUTE filter_$=(cntry = 'CZ'  ).
VARIABLE LABELS filter_$ "cntry = 'CZ'   (FILTER)".
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq prtvtcz.
RECODE prtvtcz (1 =1) (2=6) (3=6) (4=6) (5=6)(7=6)(6=6)(8=5)(9=2)(10=4)(11 thru 20 =6)(66=9)(else =copy) INTO party_cz.
*RECODE prtvtacz (1 =2) (2=1) (3=3) (4=4) (5=5)(6=6)(66=9)(else =copy) INTO party_cz.
*RECODE prtvtbcz (1 =2) (2=1) (3=6) (4=4) (5=3)(7=5)(6=6)(8=6)(66=9)(else =copy) INTO party_cz.
EXECUTE.
missing value party_cz (67 thru 99).

val labels party_cz
1 'CSSD'
2 'KSCM'
4 'KDU'
5 'ODS'
6 'others'
9 'nonvoters'.

*val labels party_cz
1 'CSSD'
2 'KSCM'
3 'SZ'
4 'KDU'
5 'ODS'
6 'others'
9 'nonvoters'.

*val labels party_cz
1 'CSSD'
2 'KSCM'
3 'TOP'
4 'KDU'
5 'ODS'
6 'others'
9 'nonvoters'.
freq party_cz.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp10_1 @egp10_2 @egp10_3 @egp10_4 @egp10_5 @egp10_6 @egp10_7 @egp10_8 @egp10_10 @egp10_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @egp11_1 @egp11_2 @egp11_3 @egp11_4 @egp11_5 
    @egp11_6 @egp11_7 @egp11_8 @egp11_10 @egp11_11
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    wr_p_1 wr_p_2 wr_p_3 wr_p_4 wr_p_4_5 wr_p_5 
    wr_p_5_5 wr_p_6 wr_p_6_5 wr_p_7
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    @esp10_0 @esp10_1 @esp10_1_1 @esp10_2 @esp10_3 
    @esp10_4 @esp10_5 @esp10_6 @esp10_7 @esp10_8 @esp10_9 @esp10_11 @esp10_12
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla WITH age_30 age_40 age_50 age_60 male 
    euroesec_1 euroesec_2 euroesec_3 euroesec_4 
    euroesec_5 euroesec_6 euroesec_7 euroesec_8
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.


NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla  WITH age_30 age_40 age_50 age_60 male @trei
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.

NOMREG party_cz (BASE=LAST ORDER=ASCENDING)  WITH @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.



NOMREG party_cz (BASE=LAST ORDER=ASCENDING) BY edulvla   WITH age_30 age_40 age_50 age_60 male @isei 
  /CRITERIA CIN(95) DELTA(0) MXITER(100) MXSTEP(5) CHKSEP(20) LCONVERGE(0) PCONVERGE(0.000001) 
    SINGULAR(0.00000001)
  /MODEL
  /STEPWISE=PIN(.05) POUT(0.1) MINEFFECT(0) RULE(SINGLE) ENTRYMETHOD(LR) REMOVALMETHOD(LR)
  /INTERCEPT=INCLUDE
  /PRINT=CLASSTABLE FIT PARAMETER SUMMARY LRT CPS STEP MFI.